# ###########################################################- # # perltidy - a perl script indenter and formatter # # Copyright (c) 2000-2018 by Steve Hancock # Distributed under the GPL license agreement; see file COPYING # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # # For brief instructions, try 'perltidy -h'. # For more complete documentation, try 'man perltidy' # or visit http://perltidy.sourceforge.net # # This script is an example of the default style. It was formatted with: # # perltidy Tidy.pm # # Code Contributions: See ChangeLog.html for a complete history. # Michael Cartmell supplied code for adaptation to VMS and helped with # v-strings. # Hugh S. Myers supplied sub streamhandle and the supporting code to # create a Perl::Tidy module which can operate on strings, arrays, etc. # Yves Orton supplied coding to help detect Windows versions. # Axel Rose supplied a patch for MacPerl. # Sebastien Aperghis-Tramoni supplied a patch for the defined or operator. # Dan Tyrell contributed a patch for binary I/O. # Ueli Hugenschmidt contributed a patch for -fpsc # Sam Kington supplied a patch to identify the initial indentation of # entabbed code. # jonathan swartz supplied patches for: # * .../ pattern, which looks upwards from directory # * --notidy, to be used in directories where we want to avoid # accidentally tidying # * prefilter and postfilter # * iterations option # # Many others have supplied key ideas, suggestions, and bug reports; # see the CHANGES file. # ############################################################ package Perl::Tidy; # perlver reports minimum version needed is 5.8.0 # 5.004 needed for IO::File # 5.008 needed for wide characters use 5.008; use warnings; use strict; use Exporter; use Carp; $|++; use vars qw{ $VERSION @ISA @EXPORT $missing_file_spec $fh_stderr $rOpts_character_encoding }; @ISA = qw( Exporter ); @EXPORT = qw( &perltidy ); use Cwd; use Encode (); use IO::File; use File::Basename; use File::Copy; use File::Temp qw(tempfile); BEGIN { ( $VERSION = q($Id: Tidy.pm,v 1.74 2018/02/20 13:56:49 perltidy Exp $) ) =~ s/^.*\s+(\d+)\/(\d+)\/(\d+).*$/$1$2$3/; # all one line for MakeMaker } sub streamhandle { # given filename and mode (r or w), create an object which: # has a 'getline' method if mode='r', and # has a 'print' method if mode='w'. # The objects also need a 'close' method. # # How the object is made: # # if $filename is: Make object using: # ---------------- ----------------- # '-' (STDIN if mode = 'r', STDOUT if mode='w') # string IO::File # ARRAY ref Perl::Tidy::IOScalarArray (formerly IO::ScalarArray) # STRING ref Perl::Tidy::IOScalar (formerly IO::Scalar) # object object # (check for 'print' method for 'w' mode) # (check for 'getline' method for 'r' mode) my ( $filename, $mode ) = @_; my $ref = ref($filename); my $New; my $fh; # handle a reference if ($ref) { if ( $ref eq 'ARRAY' ) { $New = sub { Perl::Tidy::IOScalarArray->new(@_) }; } elsif ( $ref eq 'SCALAR' ) { $New = sub { Perl::Tidy::IOScalar->new(@_) }; } else { # Accept an object with a getline method for reading. Note: # IO::File is built-in and does not respond to the defined # operator. If this causes trouble, the check can be # skipped and we can just let it crash if there is no # getline. if ( $mode =~ /[rR]/ ) { # RT#97159; part 1 of 2: updated to use 'can' ##if ( $ref eq 'IO::File' || defined &{ $ref . "::getline" } ) { if ( $ref->can('getline') ) { $New = sub { $filename }; } else { $New = sub { undef }; confess <can('print') ) { $New = sub { $filename }; } else { $New = sub { undef }; confess <new(@_) }; } } $fh = $New->( $filename, $mode ) or Warn("Couldn't open file:$filename in mode:$mode : $!\n"); return $fh, ( $ref or $filename ); } sub find_input_line_ending { # Peek at a file and return first line ending character. # Quietly return undef in case of any trouble. my ($input_file) = @_; my $ending; # silently ignore input from object or stdin if ( ref($input_file) || $input_file eq '-' ) { return $ending; } my $fh; open( $fh, '<', $input_file ) || return $ending; binmode $fh; my $buf; read( $fh, $buf, 1024 ); close $fh; if ( $buf && $buf =~ /([\012\015]+)/ ) { my $test = $1; # dos if ( $test =~ /^(\015\012)+$/ ) { $ending = "\015\012" } # mac elsif ( $test =~ /^\015+$/ ) { $ending = "\015" } # unix elsif ( $test =~ /^\012+$/ ) { $ending = "\012" } # unknown else { } } # no ending seen else { } return $ending; } sub catfile { # concatenate a path and file basename # returns undef in case of error my @parts = @_; #BEGIN { eval "require File::Spec"; $missing_file_spec = $@; } BEGIN { eval { require File::Spec }; $missing_file_spec = $@; } # use File::Spec if we can unless ($missing_file_spec) { return File::Spec->catfile(@parts); } # Perl 5.004 systems may not have File::Spec so we'll make # a simple try. We assume File::Basename is available. # return undef if not successful. my $name = pop @parts; my $path = join '/', @parts; my $test_file = $path . $name; my ( $test_name, $test_path ) = fileparse($test_file); return $test_file if ( $test_name eq $name ); return if ( $^O eq 'VMS' ); # this should work at least for Windows and Unix: $test_file = $path . '/' . $name; ( $test_name, $test_path ) = fileparse($test_file); return $test_file if ( $test_name eq $name ); return; } # Here is a map of the flow of data from the input source to the output # line sink: # # LineSource-->Tokenizer-->Formatter-->VerticalAligner-->FileWriter--> # input groups output # lines tokens lines of lines lines # lines # # The names correspond to the package names responsible for the unit processes. # # The overall process is controlled by the "main" package. # # LineSource is the stream of input lines # # Tokenizer analyzes a line and breaks it into tokens, peeking ahead # if necessary. A token is any section of the input line which should be # manipulated as a single entity during formatting. For example, a single # ',' character is a token, and so is an entire side comment. It handles # the complexities of Perl syntax, such as distinguishing between '<<' as # a shift operator and as a here-document, or distinguishing between '/' # as a divide symbol and as a pattern delimiter. # # Formatter inserts and deletes whitespace between tokens, and breaks # sequences of tokens at appropriate points as output lines. It bases its # decisions on the default rules as modified by any command-line options. # # VerticalAligner collects groups of lines together and tries to line up # certain tokens, such as '=>', '#', and '=' by adding whitespace. # # FileWriter simply writes lines to the output stream. # # The Logger package, not shown, records significant events and warning # messages. It writes a .LOG file, which may be saved with a # '-log' or a '-g' flag. sub perltidy { my %input_hash = @_; my %defaults = ( argv => undef, destination => undef, formatter => undef, logfile => undef, errorfile => undef, perltidyrc => undef, source => undef, stderr => undef, dump_options => undef, dump_options_type => undef, dump_getopt_flags => undef, dump_options_category => undef, dump_options_range => undef, dump_abbreviations => undef, prefilter => undef, postfilter => undef, ); # don't overwrite callers ARGV local @ARGV = @ARGV; local *STDERR = *STDERR; if ( my @bad_keys = grep { !exists $defaults{$_} } keys %input_hash ) { local $" = ')('; my @good_keys = sort keys %defaults; @bad_keys = sort @bad_keys; confess <print($msg); return } sub Exit { my $flag = shift; if ($flag) { goto ERROR_EXIT } else { goto NORMAL_EXIT } } sub Die { my $msg = shift; Warn($msg); Exit(1); } # extract various dump parameters my $dump_options_type = $input_hash{'dump_options_type'}; my $dump_options = $get_hash_ref->('dump_options'); my $dump_getopt_flags = $get_hash_ref->('dump_getopt_flags'); my $dump_options_category = $get_hash_ref->('dump_options_category'); my $dump_abbreviations = $get_hash_ref->('dump_abbreviations'); my $dump_options_range = $get_hash_ref->('dump_options_range'); # validate dump_options_type if ( defined($dump_options) ) { unless ( defined($dump_options_type) ) { $dump_options_type = 'perltidyrc'; } unless ( $dump_options_type =~ /^(perltidyrc|full)$/ ) { croak <new(); } # see if ARGV is overridden if ( defined($argv) ) { my $rargv = ref $argv; if ( $rargv eq 'SCALAR' ) { $argv = ${$argv}; $rargv = undef } # ref to ARRAY if ($rargv) { if ( $rargv eq 'ARRAY' ) { @ARGV = @{$argv}; } else { croak <{$opt} = $flag; } } if ( defined($dump_options_category) ) { $quit_now = 1; %{$dump_options_category} = %{$roption_category}; } if ( defined($dump_options_range) ) { $quit_now = 1; %{$dump_options_range} = %{$roption_range}; } if ( defined($dump_abbreviations) ) { $quit_now = 1; %{$dump_abbreviations} = %{$rexpansion}; } if ( defined($dump_options) ) { $quit_now = 1; %{$dump_options} = %{$rOpts}; } Exit 0 if ($quit_now); # make printable string of options for this run as possible diagnostic my $readable_options = readable_options( $rOpts, $roption_string ); # dump from command line if ( $rOpts->{'dump-options'} ) { print STDOUT $readable_options; Exit 0; } #--------------------------------------------------------------- # check parameters and their interactions #--------------------------------------------------------------- my $tabsize = check_options( $rOpts, $is_Windows, $Windows_type, $rpending_complaint ); if ($user_formatter) { $rOpts->{'format'} = 'user'; } # there must be one entry here for every possible format my %default_file_extension = ( tidy => 'tdy', html => 'html', user => '', ); $rOpts_character_encoding = $rOpts->{'character-encoding'}; # be sure we have a valid output format unless ( exists $default_file_extension{ $rOpts->{'format'} } ) { my $formats = join ' ', sort map { "'" . $_ . "'" } keys %default_file_extension; my $fmt = $rOpts->{'format'}; Die "-format='$fmt' but must be one of: $formats\n"; } my $output_extension = make_extension( $rOpts->{'output-file-extension'}, $default_file_extension{ $rOpts->{'format'} }, $dot ); # If the backup extension contains a / character then the backup should # be deleted when the -b option is used. On older versions of # perltidy this will generate an error message due to an illegal # file name. # # A backup file will still be generated but will be deleted # at the end. If -bext='/' then this extension will be # the default 'bak'. Otherwise it will be whatever characters # remains after all '/' characters are removed. For example: # -bext extension slashes # '/' bak 1 # '/delete' delete 1 # 'delete/' delete 1 # '/dev/null' devnull 2 (Currently not allowed) my $bext = $rOpts->{'backup-file-extension'}; my $delete_backup = ( $rOpts->{'backup-file-extension'} =~ s/\///g ); # At present only one forward slash is allowed. In the future multiple # slashes may be allowed to allow for other options if ( $delete_backup > 1 ) { Die "-bext=$bext contains more than one '/'\n"; } my $backup_extension = make_extension( $rOpts->{'backup-file-extension'}, 'bak', $dot ); my $html_toc_extension = make_extension( $rOpts->{'html-toc-extension'}, 'toc', $dot ); my $html_src_extension = make_extension( $rOpts->{'html-src-extension'}, 'src', $dot ); # check for -b option; # silently ignore unless beautify mode my $in_place_modify = $rOpts->{'backup-and-modify-in-place'} && $rOpts->{'format'} eq 'tidy'; # Turn off -b with warnings in case of conflicts with other options. # NOTE: Do this silently, without warnings, if there is a source or # destination stream, or standard output is used. This is because the -b # flag may have been in a .perltidyrc file and warnings break # Test::NoWarnings. See email discussion with Merijn Brand 26 Feb 2014. if ($in_place_modify) { if ( $rOpts->{'standard-output'} || $destination_stream || ref $source_stream || $rOpts->{'outfile'} || defined( $rOpts->{'output-path'} ) ) { $in_place_modify = 0; } } Perl::Tidy::Formatter::check_options($rOpts); if ( $rOpts->{'format'} eq 'html' ) { Perl::Tidy::HtmlWriter->check_options($rOpts); } # make the pattern of file extensions that we shouldn't touch my $forbidden_file_extensions = "(($dot_pattern)(LOG|DEBUG|ERR|TEE)"; if ($output_extension) { my $ext = quotemeta($output_extension); $forbidden_file_extensions .= "|$ext"; } if ( $in_place_modify && $backup_extension ) { my $ext = quotemeta($backup_extension); $forbidden_file_extensions .= "|$ext"; } $forbidden_file_extensions .= ')$'; # Create a diagnostics object if requested; # This is only useful for code development my $diagnostics_object = undef; if ( $rOpts->{'DIAGNOSTICS'} ) { $diagnostics_object = Perl::Tidy::Diagnostics->new(); } # no filenames should be given if input is from an array if ($source_stream) { if ( @ARGV > 0 ) { Die "You may not specify any filenames when a source array is given\n"; } # we'll stuff the source array into ARGV unshift( @ARGV, $source_stream ); # No special treatment for source stream which is a filename. # This will enable checks for binary files and other bad stuff. $source_stream = undef unless ref($source_stream); } # use stdin by default if no source array and no args else { unshift( @ARGV, '-' ) unless @ARGV; } #--------------------------------------------------------------- # Ready to go... # main loop to process all files in argument list #--------------------------------------------------------------- my $number_of_files = @ARGV; my $formatter = undef; my $tokenizer = undef; # If requested, process in order of increasing file size # This can significantly reduce perl's virtual memory usage during testing. if ( $number_of_files > 1 && $rOpts->{'file-size-order'} ) { @ARGV = map { $_->[0] } sort { $a->[1] <=> $b->[1] } map { [ $_, -e $_ ? -s $_ : 0 ] } @ARGV; } while ( my $input_file = shift @ARGV ) { my $fileroot; my $input_file_permissions; #--------------------------------------------------------------- # prepare this input stream #--------------------------------------------------------------- if ($source_stream) { $fileroot = "perltidy"; # If the source is from an array or string, then .LOG output # is only possible if a logfile stream is specified. This prevents # unexpected perltidy.LOG files. if ( !defined($logfile_stream) ) { $logfile_stream = Perl::Tidy::DevNull->new(); } } elsif ( $input_file eq '-' ) { # '-' indicates input from STDIN $fileroot = "perltidy"; # root name to use for .ERR, .LOG, etc $in_place_modify = 0; } else { $fileroot = $input_file; unless ( -e $input_file ) { # file doesn't exist - check for a file glob if ( $input_file =~ /([\?\*\[\{])/ ) { # Windows shell may not remove quotes, so do it my $input_file = $input_file; if ( $input_file =~ /^\'(.+)\'$/ ) { $input_file = $1 } if ( $input_file =~ /^\"(.+)\"$/ ) { $input_file = $1 } my $pattern = fileglob_to_re($input_file); ##eval "/$pattern/"; if ( !$@ && opendir( DIR, './' ) ) { my @files = grep { /$pattern/ && !-d $_ } readdir(DIR); closedir(DIR); if (@files) { unshift @ARGV, @files; next; } } } Warn "skipping file: '$input_file': no matches found\n"; next; } unless ( -f $input_file ) { Warn "skipping file: $input_file: not a regular file\n"; next; } # As a safety precaution, skip zero length files. # If for example a source file got clobbered somehow, # the old .tdy or .bak files might still exist so we # shouldn't overwrite them with zero length files. unless ( -s $input_file ) { Warn "skipping file: $input_file: Zero size\n"; next; } unless ( ( -T $input_file ) || $rOpts->{'force-read-binary'} ) { Warn "skipping file: $input_file: Non-text (override with -f)\n"; next; } # we should have a valid filename now $fileroot = $input_file; $input_file_permissions = ( stat $input_file )[2] & oct(7777); if ( $^O eq 'VMS' ) { ( $fileroot, $dot ) = check_vms_filename($fileroot); } # add option to change path here if ( defined( $rOpts->{'output-path'} ) ) { my ( $base, $old_path ) = fileparse($fileroot); my $new_path = $rOpts->{'output-path'}; unless ( -d $new_path ) { unless ( mkdir $new_path, 0777 ) { Die "unable to create directory $new_path: $!\n"; } } my $path = $new_path; $fileroot = catfile( $path, $base ); unless ($fileroot) { Die <new( $input_file, $rOpts, $rpending_logfile_message ); next unless ($source_object); # Prefilters and postfilters: The prefilter is a code reference # that will be applied to the source before tidying, and the # postfilter is a code reference to the result before outputting. if ( $prefilter || ( $rOpts_character_encoding && $rOpts_character_encoding eq 'utf8' ) ) { my $buf = ''; while ( my $line = $source_object->get_line() ) { $buf .= $line; } $buf = $prefilter->($buf) if $prefilter; if ( $rOpts_character_encoding && $rOpts_character_encoding eq 'utf8' && !utf8::is_utf8($buf) ) { eval { $buf = Encode::decode( 'UTF-8', $buf, Encode::FB_CROAK | Encode::LEAVE_SRC ); }; if ($@) { Warn "skipping file: $input_file: Unable to decode source as UTF-8\n"; next; } } $source_object = Perl::Tidy::LineSource->new( \$buf, $rOpts, $rpending_logfile_message ); } # register this file name with the Diagnostics package $diagnostics_object->set_input_file($input_file) if $diagnostics_object; #--------------------------------------------------------------- # prepare the output stream #--------------------------------------------------------------- my $output_file = undef; my $actual_output_extension; if ( $rOpts->{'outfile'} ) { if ( $number_of_files <= 1 ) { if ( $rOpts->{'standard-output'} ) { my $msg = "You may not use -o and -st together"; $msg .= " (-pbp contains -st; see manual)" if ($saw_pbp); Die "$msg\n"; } elsif ($destination_stream) { Die "You may not specify a destination array and -o together\n"; } elsif ( defined( $rOpts->{'output-path'} ) ) { Die "You may not specify -o and -opath together\n"; } elsif ( defined( $rOpts->{'output-file-extension'} ) ) { Die "You may not specify -o and -oext together\n"; } $output_file = $rOpts->{outfile}; # make sure user gives a file name after -o if ( $output_file =~ /^-/ ) { Die "You must specify a valid filename after -o\n"; } # do not overwrite input file with -o if ( defined($input_file_permissions) && ( $output_file eq $input_file ) ) { Die "Use 'perltidy -b $input_file' to modify in-place\n"; } } else { Die "You may not use -o with more than one input file\n"; } } elsif ( $rOpts->{'standard-output'} ) { if ($destination_stream) { my $msg = "You may not specify a destination array and -st together\n"; $msg .= " (-pbp contains -st; see manual)" if ($saw_pbp); Die "$msg\n"; } $output_file = '-'; if ( $number_of_files <= 1 ) { } else { Die "You may not use -st with more than one input file\n"; } } elsif ($destination_stream) { $output_file = $destination_stream; } elsif ($source_stream) { # source but no destination goes to stdout $output_file = '-'; } elsif ( $input_file eq '-' ) { $output_file = '-'; } else { if ($in_place_modify) { $output_file = IO::File->new_tmpfile() or Die "cannot open temp file for -b option: $!\n"; } else { $actual_output_extension = $output_extension; $output_file = $fileroot . $output_extension; } } # the 'sink_object' knows how to write the output file my $tee_file = $fileroot . $dot . "TEE"; my $line_separator = $rOpts->{'output-line-ending'}; if ( $rOpts->{'preserve-line-endings'} ) { $line_separator = find_input_line_ending($input_file); } # Eventually all I/O may be done with binmode, but for now it is # only done when a user requests a particular line separator # through the -ple or -ole flags my $binmode = defined($line_separator) || defined($rOpts_character_encoding); $line_separator = "\n" unless defined($line_separator); my ( $sink_object, $postfilter_buffer ); if ($postfilter) { $sink_object = Perl::Tidy::LineSink->new( \$postfilter_buffer, $tee_file, $line_separator, $rOpts, $rpending_logfile_message, $binmode ); } else { $sink_object = Perl::Tidy::LineSink->new( $output_file, $tee_file, $line_separator, $rOpts, $rpending_logfile_message, $binmode ); } #--------------------------------------------------------------- # initialize the error logger for this file #--------------------------------------------------------------- my $warning_file = $fileroot . $dot . "ERR"; if ($errorfile_stream) { $warning_file = $errorfile_stream } my $log_file = $fileroot . $dot . "LOG"; if ($logfile_stream) { $log_file = $logfile_stream } my $logger_object = Perl::Tidy::Logger->new( $rOpts, $log_file, $warning_file, $fh_stderr, $saw_extrude ); write_logfile_header( $rOpts, $logger_object, $config_file, $rraw_options, $Windows_type, $readable_options, ); if ( ${$rpending_logfile_message} ) { $logger_object->write_logfile_entry( ${$rpending_logfile_message} ); } if ( ${$rpending_complaint} ) { $logger_object->complain( ${$rpending_complaint} ); } #--------------------------------------------------------------- # initialize the debug object, if any #--------------------------------------------------------------- my $debugger_object = undef; if ( $rOpts->{DEBUG} ) { $debugger_object = Perl::Tidy::Debugger->new( $fileroot . $dot . "DEBUG" ); } #--------------------------------------------------------------- # loop over iterations for one source stream #--------------------------------------------------------------- # We will do a convergence test if 3 or more iterations are allowed. # It would be pointless for fewer because we have to make at least # two passes before we can see if we are converged, and the test # would just slow things down. my $max_iterations = $rOpts->{'iterations'}; my $convergence_log_message; my %saw_md5; my $do_convergence_test = $max_iterations > 2; if ($do_convergence_test) { eval "use Digest::MD5 qw(md5_hex)"; $do_convergence_test = !$@; ### Trying to avoid problems with ancient versions of perl ##eval { my $string = "perltidy"; utf8::encode($string) }; ##$do_convergence_test = $do_convergence_test && !$@; } # save objects to allow redirecting output during iterations my $sink_object_final = $sink_object; my $debugger_object_final = $debugger_object; my $logger_object_final = $logger_object; foreach my $iter ( 1 .. $max_iterations ) { # send output stream to temp buffers until last iteration my $sink_buffer; if ( $iter < $max_iterations ) { $sink_object = Perl::Tidy::LineSink->new( \$sink_buffer, $tee_file, $line_separator, $rOpts, $rpending_logfile_message, $binmode ); } else { $sink_object = $sink_object_final; } # Save logger, debugger output only on pass 1 because: # (1) line number references must be to the starting # source, not an intermediate result, and # (2) we need to know if there are errors so we can stop the # iterations early if necessary. if ( $iter > 1 ) { $debugger_object = undef; $logger_object = undef; } #------------------------------------------------------------ # create a formatter for this file : html writer or # pretty printer #------------------------------------------------------------ # we have to delete any old formatter because, for safety, # the formatter will check to see that there is only one. $formatter = undef; if ($user_formatter) { $formatter = $user_formatter; } elsif ( $rOpts->{'format'} eq 'html' ) { $formatter = Perl::Tidy::HtmlWriter->new( $fileroot, $output_file, $actual_output_extension, $html_toc_extension, $html_src_extension ); } elsif ( $rOpts->{'format'} eq 'tidy' ) { $formatter = Perl::Tidy::Formatter->new( logger_object => $logger_object, diagnostics_object => $diagnostics_object, sink_object => $sink_object, ); } else { Die "I don't know how to do -format=$rOpts->{'format'}\n"; } unless ($formatter) { Die "Unable to continue with $rOpts->{'format'} formatting\n"; } #--------------------------------------------------------------- # create the tokenizer for this file #--------------------------------------------------------------- $tokenizer = undef; # must destroy old tokenizer $tokenizer = Perl::Tidy::Tokenizer->new( source_object => $source_object, logger_object => $logger_object, debugger_object => $debugger_object, diagnostics_object => $diagnostics_object, tabsize => $tabsize, starting_level => $rOpts->{'starting-indentation-level'}, indent_columns => $rOpts->{'indent-columns'}, look_for_hash_bang => $rOpts->{'look-for-hash-bang'}, look_for_autoloader => $rOpts->{'look-for-autoloader'}, look_for_selfloader => $rOpts->{'look-for-selfloader'}, trim_qw => $rOpts->{'trim-qw'}, extended_syntax => $rOpts->{'extended-syntax'}, continuation_indentation => $rOpts->{'continuation-indentation'}, outdent_labels => $rOpts->{'outdent-labels'}, ); #--------------------------------------------------------------- # now we can do it #--------------------------------------------------------------- process_this_file( $tokenizer, $formatter ); #--------------------------------------------------------------- # close the input source and report errors #--------------------------------------------------------------- $source_object->close_input_file(); # line source for next iteration (if any) comes from the current # temporary output buffer if ( $iter < $max_iterations ) { $sink_object->close_output_file(); $source_object = Perl::Tidy::LineSource->new( \$sink_buffer, $rOpts, $rpending_logfile_message ); # stop iterations if errors or converged #my $stop_now = $logger_object->{_warning_count}; my $stop_now = $tokenizer->report_tokenization_errors(); if ($stop_now) { $convergence_log_message = <write_diagnostics( $convergence_log_message) if $diagnostics_object; } else { $convergence_log_message = <write_diagnostics( $convergence_log_message) if $diagnostics_object && $iterm > 2; } } } ## end if ($do_convergence_test) if ($stop_now) { # we are stopping the iterations early; # copy the output stream to its final destination $sink_object = $sink_object_final; while ( my $line = $source_object->get_line() ) { $sink_object->write_line($line); } $source_object->close_input_file(); last; } } ## end if ( $iter < $max_iterations) } # end loop over iterations for one source file # restore objects which have been temporarily undefined # for second and higher iterations $debugger_object = $debugger_object_final; $logger_object = $logger_object_final; $logger_object->write_logfile_entry($convergence_log_message) if $convergence_log_message; #--------------------------------------------------------------- # Perform any postfilter operation #--------------------------------------------------------------- if ($postfilter) { $sink_object->close_output_file(); $sink_object = Perl::Tidy::LineSink->new( $output_file, $tee_file, $line_separator, $rOpts, $rpending_logfile_message, $binmode ); my $buf = $postfilter->($postfilter_buffer); $source_object = Perl::Tidy::LineSource->new( \$buf, $rOpts, $rpending_logfile_message ); while ( my $line = $source_object->get_line() ) { $sink_object->write_line($line); } $source_object->close_input_file(); } # Save names of the input and output files for syntax check my $ifname = $input_file; my $ofname = $output_file; #--------------------------------------------------------------- # handle the -b option (backup and modify in-place) #--------------------------------------------------------------- if ($in_place_modify) { unless ( -f $input_file ) { # oh, oh, no real file to backup .. # shouldn't happen because of numerous preliminary checks Die "problem with -b backing up input file '$input_file': not a file\n"; } my $backup_name = $input_file . $backup_extension; if ( -f $backup_name ) { unlink($backup_name) or Die "unable to remove previous '$backup_name' for -b option; check permissions: $!\n"; } # backup the input file # we use copy for symlinks, move for regular files if ( -l $input_file ) { File::Copy::copy( $input_file, $backup_name ) or Die "File::Copy failed trying to backup source: $!"; } else { rename( $input_file, $backup_name ) or Die "problem renaming $input_file to $backup_name for -b option: $!\n"; } $ifname = $backup_name; # copy the output to the original input file # NOTE: it would be nice to just close $output_file and use # File::Copy::copy here, but in this case $output_file is the # handle of an open nameless temporary file so we would lose # everything if we closed it. seek( $output_file, 0, 0 ) or Die "unable to rewind a temporary file for -b option: $!\n"; my $fout = IO::File->new("> $input_file") or Die "problem re-opening $input_file for write for -b option; check file and directory permissions: $!\n"; if ($binmode) { if ( $rOpts->{'character-encoding'} && $rOpts->{'character-encoding'} eq 'utf8' ) { binmode $fout, ":encoding(UTF-8)"; } else { binmode $fout } } my $line; while ( $line = $output_file->getline() ) { $fout->print($line); } $fout->close(); $output_file = $input_file; $ofname = $input_file; } #--------------------------------------------------------------- # clean up and report errors #--------------------------------------------------------------- $sink_object->close_output_file() if $sink_object; $debugger_object->close_debug_file() if $debugger_object; # set output file permissions if ( $output_file && -f $output_file && !-l $output_file ) { if ($input_file_permissions) { # give output script same permissions as input script, but # make it user-writable or else we can't run perltidy again. # Thus we retain whatever executable flags were set. if ( $rOpts->{'format'} eq 'tidy' ) { chmod( $input_file_permissions | oct(600), $output_file ); } # else use default permissions for html and any other format } } #--------------------------------------------------------------- # Do syntax check if requested and possible #--------------------------------------------------------------- my $infile_syntax_ok = 0; # -1 no 0=don't know 1 yes if ( $logger_object && $rOpts->{'check-syntax'} && $ifname && $ofname ) { $infile_syntax_ok = check_syntax( $ifname, $ofname, $logger_object, $rOpts ); } #--------------------------------------------------------------- # remove the original file for in-place modify as follows: # $delete_backup=0 never # $delete_backup=1 only if no errors # $delete_backup>1 always : NOT ALLOWED, too risky, see above #--------------------------------------------------------------- if ( $in_place_modify && $delete_backup && -f $ifname && ( $delete_backup > 1 || !$logger_object->{_warning_count} ) ) { # As an added safety precaution, do not delete the source file # if its size has dropped from positive to zero, since this # could indicate a disaster of some kind, including a hardware # failure. Actually, this could happen if you had a file of # all comments (or pod) and deleted everything with -dac (-dap) # for some reason. if ( !-s $output_file && -s $ifname && $delete_backup == 1 ) { Warn( "output file '$output_file' missing or zero length; original '$ifname' not deleted\n" ); } else { unlink($ifname) or Die "unable to remove previous '$ifname' for -b option; check permissions: $!\n"; } } $logger_object->finish( $infile_syntax_ok, $formatter ) if $logger_object; } # end of main loop to process all files NORMAL_EXIT: return 0; ERROR_EXIT: return 1; } # end of main program perltidy sub get_stream_as_named_file { # Return the name of a file containing a stream of data, creating # a temporary file if necessary. # Given: # $stream - the name of a file or stream # Returns: # $fname = name of file if possible, or undef # $if_tmpfile = true if temp file, undef if not temp file # # This routine is needed for passing actual files to Perl for # a syntax check. my ($stream) = @_; my $is_tmpfile; my $fname; if ($stream) { if ( ref($stream) ) { my ( $fh_stream, $fh_name ) = Perl::Tidy::streamhandle( $stream, 'r' ); if ($fh_stream) { my ( $fout, $tmpnam ) = File::Temp::tempfile(); if ($fout) { $fname = $tmpnam; $is_tmpfile = 1; binmode $fout; while ( my $line = $fh_stream->getline() ) { $fout->print($line); } $fout->close(); } $fh_stream->close(); } } elsif ( $stream ne '-' && -f $stream ) { $fname = $stream; } } return ( $fname, $is_tmpfile ); } sub fileglob_to_re { # modified (corrected) from version in find2perl my $x = shift; $x =~ s#([./^\$()])#\\$1#g; # escape special characters $x =~ s#\*#.*#g; # '*' -> '.*' $x =~ s#\?#.#g; # '?' -> '.' return "^$x\\z"; # match whole word } sub make_extension { # Make a file extension, including any leading '.' if necessary # The '.' may actually be an '_' under VMS my ( $extension, $default, $dot ) = @_; # Use the default if none specified $extension = $default unless ($extension); # Only extensions with these leading characters get a '.' # This rule gives the user some freedom if ( $extension =~ /^[a-zA-Z0-9]/ ) { $extension = $dot . $extension; } return $extension; } sub write_logfile_header { my ( $rOpts, $logger_object, $config_file, $rraw_options, $Windows_type, $readable_options ) = @_; $logger_object->write_logfile_entry( "perltidy version $VERSION log file on a $^O system, OLD_PERL_VERSION=$]\n" ); if ($Windows_type) { $logger_object->write_logfile_entry("Windows type is $Windows_type\n"); } my $options_string = join( ' ', @{$rraw_options} ); if ($config_file) { $logger_object->write_logfile_entry( "Found Configuration File >>> $config_file \n"); } $logger_object->write_logfile_entry( "Configuration and command line parameters for this run:\n"); $logger_object->write_logfile_entry("$options_string\n"); if ( $rOpts->{'DEBUG'} || $rOpts->{'show-options'} ) { $rOpts->{'logfile'} = 1; # force logfile to be saved $logger_object->write_logfile_entry( "Final parameter set for this run\n"); $logger_object->write_logfile_entry( "------------------------------------\n"); $logger_object->write_logfile_entry($readable_options); $logger_object->write_logfile_entry( "------------------------------------\n"); } $logger_object->write_logfile_entry( "To find error messages search for 'WARNING' with your editor\n"); return; } sub generate_options { ###################################################################### # Generate and return references to: # @option_string - the list of options to be passed to Getopt::Long # @defaults - the list of default options # %expansion - a hash showing how all abbreviations are expanded # %category - a hash giving the general category of each option # %option_range - a hash giving the valid ranges of certain options # Note: a few options are not documented in the man page and usage # message. This is because these are experimental or debug options and # may or may not be retained in future versions. # # Here are the undocumented flags as far as I know. Any of them # may disappear at any time. They are mainly for fine-tuning # and debugging. # # fll --> fuzzy-line-length # a trivial parameter which gets # turned off for the extrude option # which is mainly for debugging # scl --> short-concatenation-item-length # helps break at '.' # recombine # for debugging line breaks # valign # for debugging vertical alignment # I --> DIAGNOSTICS # for debugging [**DEACTIVATED**] ###################################################################### # here is a summary of the Getopt codes: # does not take an argument # =s takes a mandatory string # :s takes an optional string (DO NOT USE - filenames will get eaten up) # =i takes a mandatory integer # :i takes an optional integer (NOT RECOMMENDED - can cause trouble) # ! does not take an argument and may be negated # i.e., -foo and -nofoo are allowed # a double dash signals the end of the options list # #--------------------------------------------------------------- # Define the option string passed to GetOptions. #--------------------------------------------------------------- my @option_string = (); my %expansion = (); my %option_category = (); my %option_range = (); my $rexpansion = \%expansion; # names of categories in manual # leading integers will allow sorting my @category_name = ( '0. I/O control', '1. Basic formatting options', '2. Code indentation control', '3. Whitespace control', '4. Comment controls', '5. Linebreak controls', '6. Controlling list formatting', '7. Retaining or ignoring existing line breaks', '8. Blank line control', '9. Other controls', '10. HTML options', '11. pod2html options', '12. Controlling HTML properties', '13. Debugging', ); # These options are parsed directly by perltidy: # help h # version v # However, they are included in the option set so that they will # be seen in the options dump. # These long option names have no abbreviations or are treated specially @option_string = qw( html! noprofile no-profile npro recombine! valign! notidy ); my $category = 13; # Debugging foreach (@option_string) { my $opt = $_; # must avoid changing the actual flag $opt =~ s/!$//; $option_category{$opt} = $category_name[$category]; } $category = 11; # HTML $option_category{html} = $category_name[$category]; # routine to install and check options my $add_option = sub { my ( $long_name, $short_name, $flag ) = @_; push @option_string, $long_name . $flag; $option_category{$long_name} = $category_name[$category]; if ($short_name) { if ( $expansion{$short_name} ) { my $existing_name = $expansion{$short_name}[0]; Die "redefining abbreviation $short_name for $long_name; already used for $existing_name\n"; } $expansion{$short_name} = [$long_name]; if ( $flag eq '!' ) { my $nshort_name = 'n' . $short_name; my $nolong_name = 'no' . $long_name; if ( $expansion{$nshort_name} ) { my $existing_name = $expansion{$nshort_name}[0]; Die "attempting to redefine abbreviation $nshort_name for $nolong_name; already used for $existing_name\n"; } $expansion{$nshort_name} = [$nolong_name]; } } }; # Install long option names which have a simple abbreviation. # Options with code '!' get standard negation ('no' for long names, # 'n' for abbreviations). Categories follow the manual. ########################### $category = 0; # I/O_Control ########################### $add_option->( 'backup-and-modify-in-place', 'b', '!' ); $add_option->( 'backup-file-extension', 'bext', '=s' ); $add_option->( 'force-read-binary', 'f', '!' ); $add_option->( 'format', 'fmt', '=s' ); $add_option->( 'iterations', 'it', '=i' ); $add_option->( 'logfile', 'log', '!' ); $add_option->( 'logfile-gap', 'g', ':i' ); $add_option->( 'outfile', 'o', '=s' ); $add_option->( 'output-file-extension', 'oext', '=s' ); $add_option->( 'output-path', 'opath', '=s' ); $add_option->( 'profile', 'pro', '=s' ); $add_option->( 'quiet', 'q', '!' ); $add_option->( 'standard-error-output', 'se', '!' ); $add_option->( 'standard-output', 'st', '!' ); $add_option->( 'warning-output', 'w', '!' ); $add_option->( 'character-encoding', 'enc', '=s' ); # options which are both toggle switches and values moved here # to hide from tidyview (which does not show category 0 flags): # -ole moved here from category 1 # -sil moved here from category 2 $add_option->( 'output-line-ending', 'ole', '=s' ); $add_option->( 'starting-indentation-level', 'sil', '=i' ); ######################################## $category = 1; # Basic formatting options ######################################## $add_option->( 'check-syntax', 'syn', '!' ); $add_option->( 'entab-leading-whitespace', 'et', '=i' ); $add_option->( 'indent-columns', 'i', '=i' ); $add_option->( 'maximum-line-length', 'l', '=i' ); $add_option->( 'variable-maximum-line-length', 'vmll', '!' ); $add_option->( 'whitespace-cycle', 'wc', '=i' ); $add_option->( 'perl-syntax-check-flags', 'pscf', '=s' ); $add_option->( 'preserve-line-endings', 'ple', '!' ); $add_option->( 'tabs', 't', '!' ); $add_option->( 'default-tabsize', 'dt', '=i' ); $add_option->( 'extended-syntax', 'xs', '!' ); ######################################## $category = 2; # Code indentation control ######################################## $add_option->( 'continuation-indentation', 'ci', '=i' ); $add_option->( 'line-up-parentheses', 'lp', '!' ); $add_option->( 'outdent-keyword-list', 'okwl', '=s' ); $add_option->( 'outdent-keywords', 'okw', '!' ); $add_option->( 'outdent-labels', 'ola', '!' ); $add_option->( 'outdent-long-quotes', 'olq', '!' ); $add_option->( 'indent-closing-brace', 'icb', '!' ); $add_option->( 'closing-token-indentation', 'cti', '=i' ); $add_option->( 'closing-paren-indentation', 'cpi', '=i' ); $add_option->( 'closing-brace-indentation', 'cbi', '=i' ); $add_option->( 'closing-square-bracket-indentation', 'csbi', '=i' ); $add_option->( 'brace-left-and-indent', 'bli', '!' ); $add_option->( 'brace-left-and-indent-list', 'blil', '=s' ); ######################################## $category = 3; # Whitespace control ######################################## $add_option->( 'add-semicolons', 'asc', '!' ); $add_option->( 'add-whitespace', 'aws', '!' ); $add_option->( 'block-brace-tightness', 'bbt', '=i' ); $add_option->( 'brace-tightness', 'bt', '=i' ); $add_option->( 'delete-old-whitespace', 'dws', '!' ); $add_option->( 'delete-semicolons', 'dsm', '!' ); $add_option->( 'nospace-after-keyword', 'nsak', '=s' ); $add_option->( 'nowant-left-space', 'nwls', '=s' ); $add_option->( 'nowant-right-space', 'nwrs', '=s' ); $add_option->( 'paren-tightness', 'pt', '=i' ); $add_option->( 'space-after-keyword', 'sak', '=s' ); $add_option->( 'space-for-semicolon', 'sfs', '!' ); $add_option->( 'space-function-paren', 'sfp', '!' ); $add_option->( 'space-keyword-paren', 'skp', '!' ); $add_option->( 'space-terminal-semicolon', 'sts', '!' ); $add_option->( 'square-bracket-tightness', 'sbt', '=i' ); $add_option->( 'square-bracket-vertical-tightness', 'sbvt', '=i' ); $add_option->( 'square-bracket-vertical-tightness-closing', 'sbvtc', '=i' ); $add_option->( 'tight-secret-operators', 'tso', '!' ); $add_option->( 'trim-qw', 'tqw', '!' ); $add_option->( 'trim-pod', 'trp', '!' ); $add_option->( 'want-left-space', 'wls', '=s' ); $add_option->( 'want-right-space', 'wrs', '=s' ); ######################################## $category = 4; # Comment controls ######################################## $add_option->( 'closing-side-comment-else-flag', 'csce', '=i' ); $add_option->( 'closing-side-comment-interval', 'csci', '=i' ); $add_option->( 'closing-side-comment-list', 'cscl', '=s' ); $add_option->( 'closing-side-comment-maximum-text', 'csct', '=i' ); $add_option->( 'closing-side-comment-prefix', 'cscp', '=s' ); $add_option->( 'closing-side-comment-warnings', 'cscw', '!' ); $add_option->( 'closing-side-comments', 'csc', '!' ); $add_option->( 'closing-side-comments-balanced', 'cscb', '!' ); $add_option->( 'format-skipping', 'fs', '!' ); $add_option->( 'format-skipping-begin', 'fsb', '=s' ); $add_option->( 'format-skipping-end', 'fse', '=s' ); $add_option->( 'hanging-side-comments', 'hsc', '!' ); $add_option->( 'indent-block-comments', 'ibc', '!' ); $add_option->( 'indent-spaced-block-comments', 'isbc', '!' ); $add_option->( 'fixed-position-side-comment', 'fpsc', '=i' ); $add_option->( 'minimum-space-to-comment', 'msc', '=i' ); $add_option->( 'outdent-long-comments', 'olc', '!' ); $add_option->( 'outdent-static-block-comments', 'osbc', '!' ); $add_option->( 'static-block-comment-prefix', 'sbcp', '=s' ); $add_option->( 'static-block-comments', 'sbc', '!' ); $add_option->( 'static-side-comment-prefix', 'sscp', '=s' ); $add_option->( 'static-side-comments', 'ssc', '!' ); $add_option->( 'ignore-side-comment-lengths', 'iscl', '!' ); ######################################## $category = 5; # Linebreak controls ######################################## $add_option->( 'add-newlines', 'anl', '!' ); $add_option->( 'block-brace-vertical-tightness', 'bbvt', '=i' ); $add_option->( 'block-brace-vertical-tightness-list', 'bbvtl', '=s' ); $add_option->( 'brace-vertical-tightness', 'bvt', '=i' ); $add_option->( 'brace-vertical-tightness-closing', 'bvtc', '=i' ); $add_option->( 'cuddled-else', 'ce', '!' ); $add_option->( 'cuddled-blocks', 'cb', '!' ); $add_option->( 'cuddled-block-list', 'cbl', '=s' ); $add_option->( 'cuddled-break-option', 'cbo', '=i' ); $add_option->( 'delete-old-newlines', 'dnl', '!' ); $add_option->( 'opening-brace-always-on-right', 'bar', '!' ); $add_option->( 'opening-brace-on-new-line', 'bl', '!' ); $add_option->( 'opening-hash-brace-right', 'ohbr', '!' ); $add_option->( 'opening-paren-right', 'opr', '!' ); $add_option->( 'opening-square-bracket-right', 'osbr', '!' ); $add_option->( 'opening-anonymous-sub-brace-on-new-line', 'asbl', '!' ); $add_option->( 'opening-sub-brace-on-new-line', 'sbl', '!' ); $add_option->( 'paren-vertical-tightness', 'pvt', '=i' ); $add_option->( 'paren-vertical-tightness-closing', 'pvtc', '=i' ); $add_option->( 'weld-nested-containers', 'wn', '!' ); $add_option->( 'space-backslash-quote', 'sbq', '=i' ); $add_option->( 'stack-closing-block-brace', 'scbb', '!' ); $add_option->( 'stack-closing-hash-brace', 'schb', '!' ); $add_option->( 'stack-closing-paren', 'scp', '!' ); $add_option->( 'stack-closing-square-bracket', 'scsb', '!' ); $add_option->( 'stack-opening-block-brace', 'sobb', '!' ); $add_option->( 'stack-opening-hash-brace', 'sohb', '!' ); $add_option->( 'stack-opening-paren', 'sop', '!' ); $add_option->( 'stack-opening-square-bracket', 'sosb', '!' ); $add_option->( 'vertical-tightness', 'vt', '=i' ); $add_option->( 'vertical-tightness-closing', 'vtc', '=i' ); $add_option->( 'want-break-after', 'wba', '=s' ); $add_option->( 'want-break-before', 'wbb', '=s' ); $add_option->( 'break-after-all-operators', 'baao', '!' ); $add_option->( 'break-before-all-operators', 'bbao', '!' ); $add_option->( 'keep-interior-semicolons', 'kis', '!' ); ######################################## $category = 6; # Controlling list formatting ######################################## $add_option->( 'break-at-old-comma-breakpoints', 'boc', '!' ); $add_option->( 'comma-arrow-breakpoints', 'cab', '=i' ); $add_option->( 'maximum-fields-per-table', 'mft', '=i' ); ######################################## $category = 7; # Retaining or ignoring existing line breaks ######################################## $add_option->( 'break-at-old-keyword-breakpoints', 'bok', '!' ); $add_option->( 'break-at-old-logical-breakpoints', 'bol', '!' ); $add_option->( 'break-at-old-ternary-breakpoints', 'bot', '!' ); $add_option->( 'break-at-old-attribute-breakpoints', 'boa', '!' ); $add_option->( 'ignore-old-breakpoints', 'iob', '!' ); ######################################## $category = 8; # Blank line control ######################################## $add_option->( 'blanks-before-blocks', 'bbb', '!' ); $add_option->( 'blanks-before-comments', 'bbc', '!' ); $add_option->( 'blank-lines-before-subs', 'blbs', '=i' ); $add_option->( 'blank-lines-before-packages', 'blbp', '=i' ); $add_option->( 'long-block-line-count', 'lbl', '=i' ); $add_option->( 'maximum-consecutive-blank-lines', 'mbl', '=i' ); $add_option->( 'keep-old-blank-lines', 'kbl', '=i' ); $add_option->( 'blank-lines-after-opening-block', 'blao', '=i' ); $add_option->( 'blank-lines-before-closing-block', 'blbc', '=i' ); $add_option->( 'blank-lines-after-opening-block-list', 'blaol', '=s' ); $add_option->( 'blank-lines-before-closing-block-list', 'blbcl', '=s' ); ######################################## $category = 9; # Other controls ######################################## $add_option->( 'delete-block-comments', 'dbc', '!' ); $add_option->( 'delete-closing-side-comments', 'dcsc', '!' ); $add_option->( 'delete-pod', 'dp', '!' ); $add_option->( 'delete-side-comments', 'dsc', '!' ); $add_option->( 'tee-block-comments', 'tbc', '!' ); $add_option->( 'tee-pod', 'tp', '!' ); $add_option->( 'tee-side-comments', 'tsc', '!' ); $add_option->( 'look-for-autoloader', 'lal', '!' ); $add_option->( 'look-for-hash-bang', 'x', '!' ); $add_option->( 'look-for-selfloader', 'lsl', '!' ); $add_option->( 'pass-version-line', 'pvl', '!' ); ######################################## $category = 13; # Debugging ######################################## ## $add_option->( 'DIAGNOSTICS', 'I', '!' ); $add_option->( 'DEBUG', 'D', '!' ); $add_option->( 'dump-cuddled-block-list', 'dcbl', '!' ); $add_option->( 'dump-defaults', 'ddf', '!' ); $add_option->( 'dump-long-names', 'dln', '!' ); $add_option->( 'dump-options', 'dop', '!' ); $add_option->( 'dump-profile', 'dpro', '!' ); $add_option->( 'dump-short-names', 'dsn', '!' ); $add_option->( 'dump-token-types', 'dtt', '!' ); $add_option->( 'dump-want-left-space', 'dwls', '!' ); $add_option->( 'dump-want-right-space', 'dwrs', '!' ); $add_option->( 'fuzzy-line-length', 'fll', '!' ); $add_option->( 'help', 'h', '' ); $add_option->( 'short-concatenation-item-length', 'scl', '=i' ); $add_option->( 'show-options', 'opt', '!' ); $add_option->( 'version', 'v', '' ); $add_option->( 'memoize', 'mem', '!' ); $add_option->( 'file-size-order', 'fso', '!' ); #--------------------------------------------------------------------- # The Perl::Tidy::HtmlWriter will add its own options to the string Perl::Tidy::HtmlWriter->make_getopt_long_names( \@option_string ); ######################################## # Set categories 10, 11, 12 ######################################## # Based on their known order $category = 12; # HTML properties foreach my $opt (@option_string) { my $long_name = $opt; $long_name =~ s/(!|=.*|:.*)$//; unless ( defined( $option_category{$long_name} ) ) { if ( $long_name =~ /^html-linked/ ) { $category = 10; # HTML options } elsif ( $long_name =~ /^pod2html/ ) { $category = 11; # Pod2html } $option_category{$long_name} = $category_name[$category]; } } #--------------------------------------------------------------- # Assign valid ranges to certain options #--------------------------------------------------------------- # In the future, these may be used to make preliminary checks # hash keys are long names # If key or value is undefined: # strings may have any value # integer ranges are >=0 # If value is defined: # value is [qw(any valid words)] for strings # value is [min, max] for integers # if min is undefined, there is no lower limit # if max is undefined, there is no upper limit # Parameters not listed here have defaults %option_range = ( 'format' => [ 'tidy', 'html', 'user' ], 'output-line-ending' => [ 'dos', 'win', 'mac', 'unix' ], 'character-encoding' => [ 'none', 'utf8' ], 'space-backslash-quote' => [ 0, 2 ], 'block-brace-tightness' => [ 0, 2 ], 'brace-tightness' => [ 0, 2 ], 'paren-tightness' => [ 0, 2 ], 'square-bracket-tightness' => [ 0, 2 ], 'block-brace-vertical-tightness' => [ 0, 2 ], 'brace-vertical-tightness' => [ 0, 2 ], 'brace-vertical-tightness-closing' => [ 0, 2 ], 'paren-vertical-tightness' => [ 0, 2 ], 'paren-vertical-tightness-closing' => [ 0, 2 ], 'square-bracket-vertical-tightness' => [ 0, 2 ], 'square-bracket-vertical-tightness-closing' => [ 0, 2 ], 'vertical-tightness' => [ 0, 2 ], 'vertical-tightness-closing' => [ 0, 2 ], 'closing-brace-indentation' => [ 0, 3 ], 'closing-paren-indentation' => [ 0, 3 ], 'closing-square-bracket-indentation' => [ 0, 3 ], 'closing-token-indentation' => [ 0, 3 ], 'closing-side-comment-else-flag' => [ 0, 2 ], 'comma-arrow-breakpoints' => [ 0, 5 ], ); # Note: we could actually allow negative ci if someone really wants it: # $option_range{'continuation-indentation'} = [ undef, undef ]; #--------------------------------------------------------------- # Assign default values to the above options here, except # for 'outfile' and 'help'. # These settings should approximate the perlstyle(1) suggestions. #--------------------------------------------------------------- my @defaults = qw( add-newlines add-semicolons add-whitespace blanks-before-blocks blanks-before-comments blank-lines-before-subs=1 blank-lines-before-packages=1 block-brace-tightness=0 block-brace-vertical-tightness=0 brace-tightness=1 brace-vertical-tightness-closing=0 brace-vertical-tightness=0 break-at-old-logical-breakpoints break-at-old-ternary-breakpoints break-at-old-attribute-breakpoints break-at-old-keyword-breakpoints comma-arrow-breakpoints=5 nocheck-syntax closing-side-comment-interval=6 closing-side-comment-maximum-text=20 closing-side-comment-else-flag=0 closing-side-comments-balanced closing-paren-indentation=0 closing-brace-indentation=0 closing-square-bracket-indentation=0 continuation-indentation=2 cuddled-break-option=1 delete-old-newlines delete-semicolons extended-syntax fuzzy-line-length hanging-side-comments indent-block-comments indent-columns=4 iterations=1 keep-old-blank-lines=1 long-block-line-count=8 look-for-autoloader look-for-selfloader maximum-consecutive-blank-lines=1 maximum-fields-per-table=0 maximum-line-length=80 memoize minimum-space-to-comment=4 nobrace-left-and-indent nocuddled-else nocuddled-blocks nodelete-old-whitespace nohtml nologfile noquiet noshow-options nostatic-side-comments notabs nowarning-output character-encoding=none outdent-labels outdent-long-quotes outdent-long-comments paren-tightness=1 paren-vertical-tightness-closing=0 paren-vertical-tightness=0 pass-version-line noweld-nested-containers recombine valign short-concatenation-item-length=8 space-for-semicolon space-backslash-quote=1 square-bracket-tightness=1 square-bracket-vertical-tightness-closing=0 square-bracket-vertical-tightness=0 static-block-comments trim-qw format=tidy backup-file-extension=bak format-skipping default-tabsize=8 pod2html html-table-of-contents html-entities ); push @defaults, "perl-syntax-check-flags=-c -T"; #--------------------------------------------------------------- # Define abbreviations which will be expanded into the above primitives. # These may be defined recursively. #--------------------------------------------------------------- %expansion = ( %expansion, 'freeze-newlines' => [qw(noadd-newlines nodelete-old-newlines)], 'fnl' => [qw(freeze-newlines)], 'freeze-whitespace' => [qw(noadd-whitespace nodelete-old-whitespace)], 'fws' => [qw(freeze-whitespace)], 'freeze-blank-lines' => [qw(maximum-consecutive-blank-lines=0 keep-old-blank-lines=2)], 'fbl' => [qw(freeze-blank-lines)], 'indent-only' => [qw(freeze-newlines freeze-whitespace)], 'outdent-long-lines' => [qw(outdent-long-quotes outdent-long-comments)], 'nooutdent-long-lines' => [qw(nooutdent-long-quotes nooutdent-long-comments)], 'noll' => [qw(nooutdent-long-lines)], 'io' => [qw(indent-only)], 'delete-all-comments' => [qw(delete-block-comments delete-side-comments delete-pod)], 'nodelete-all-comments' => [qw(nodelete-block-comments nodelete-side-comments nodelete-pod)], 'dac' => [qw(delete-all-comments)], 'ndac' => [qw(nodelete-all-comments)], 'gnu' => [qw(gnu-style)], 'pbp' => [qw(perl-best-practices)], 'tee-all-comments' => [qw(tee-block-comments tee-side-comments tee-pod)], 'notee-all-comments' => [qw(notee-block-comments notee-side-comments notee-pod)], 'tac' => [qw(tee-all-comments)], 'ntac' => [qw(notee-all-comments)], 'html' => [qw(format=html)], 'nhtml' => [qw(format=tidy)], 'tidy' => [qw(format=tidy)], 'utf8' => [qw(character-encoding=utf8)], 'UTF8' => [qw(character-encoding=utf8)], 'swallow-optional-blank-lines' => [qw(kbl=0)], 'noswallow-optional-blank-lines' => [qw(kbl=1)], 'sob' => [qw(kbl=0)], 'nsob' => [qw(kbl=1)], 'break-after-comma-arrows' => [qw(cab=0)], 'nobreak-after-comma-arrows' => [qw(cab=1)], 'baa' => [qw(cab=0)], 'nbaa' => [qw(cab=1)], 'blanks-before-subs' => [qw(blbs=1 blbp=1)], 'bbs' => [qw(blbs=1 blbp=1)], 'noblanks-before-subs' => [qw(blbs=0 blbp=0)], 'nbbs' => [qw(blbs=0 blbp=0)], 'break-at-old-trinary-breakpoints' => [qw(bot)], 'cti=0' => [qw(cpi=0 cbi=0 csbi=0)], 'cti=1' => [qw(cpi=1 cbi=1 csbi=1)], 'cti=2' => [qw(cpi=2 cbi=2 csbi=2)], 'icp' => [qw(cpi=2 cbi=2 csbi=2)], 'nicp' => [qw(cpi=0 cbi=0 csbi=0)], 'closing-token-indentation=0' => [qw(cpi=0 cbi=0 csbi=0)], 'closing-token-indentation=1' => [qw(cpi=1 cbi=1 csbi=1)], 'closing-token-indentation=2' => [qw(cpi=2 cbi=2 csbi=2)], 'indent-closing-paren' => [qw(cpi=2 cbi=2 csbi=2)], 'noindent-closing-paren' => [qw(cpi=0 cbi=0 csbi=0)], 'vt=0' => [qw(pvt=0 bvt=0 sbvt=0)], 'vt=1' => [qw(pvt=1 bvt=1 sbvt=1)], 'vt=2' => [qw(pvt=2 bvt=2 sbvt=2)], 'vertical-tightness=0' => [qw(pvt=0 bvt=0 sbvt=0)], 'vertical-tightness=1' => [qw(pvt=1 bvt=1 sbvt=1)], 'vertical-tightness=2' => [qw(pvt=2 bvt=2 sbvt=2)], 'vtc=0' => [qw(pvtc=0 bvtc=0 sbvtc=0)], 'vtc=1' => [qw(pvtc=1 bvtc=1 sbvtc=1)], 'vtc=2' => [qw(pvtc=2 bvtc=2 sbvtc=2)], 'vertical-tightness-closing=0' => [qw(pvtc=0 bvtc=0 sbvtc=0)], 'vertical-tightness-closing=1' => [qw(pvtc=1 bvtc=1 sbvtc=1)], 'vertical-tightness-closing=2' => [qw(pvtc=2 bvtc=2 sbvtc=2)], 'otr' => [qw(opr ohbr osbr)], 'opening-token-right' => [qw(opr ohbr osbr)], 'notr' => [qw(nopr nohbr nosbr)], 'noopening-token-right' => [qw(nopr nohbr nosbr)], 'sot' => [qw(sop sohb sosb)], 'nsot' => [qw(nsop nsohb nsosb)], 'stack-opening-tokens' => [qw(sop sohb sosb)], 'nostack-opening-tokens' => [qw(nsop nsohb nsosb)], 'sct' => [qw(scp schb scsb)], 'stack-closing-tokens' => => [qw(scp schb scsb)], 'nsct' => [qw(nscp nschb nscsb)], 'nostack-closing-tokens' => [qw(nscp nschb nscsb)], 'sac' => [qw(sot sct)], 'nsac' => [qw(nsot nsct)], 'stack-all-containers' => [qw(sot sct)], 'nostack-all-containers' => [qw(nsot nsct)], 'act=0' => [qw(pt=0 sbt=0 bt=0 bbt=0)], 'act=1' => [qw(pt=1 sbt=1 bt=1 bbt=1)], 'act=2' => [qw(pt=2 sbt=2 bt=2 bbt=2)], 'all-containers-tightness=0' => [qw(pt=0 sbt=0 bt=0 bbt=0)], 'all-containers-tightness=1' => [qw(pt=1 sbt=1 bt=1 bbt=1)], 'all-containers-tightness=2' => [qw(pt=2 sbt=2 bt=2 bbt=2)], 'stack-opening-block-brace' => [qw(bbvt=2 bbvtl=*)], 'sobb' => [qw(bbvt=2 bbvtl=*)], 'nostack-opening-block-brace' => [qw(bbvt=0)], 'nsobb' => [qw(bbvt=0)], 'converge' => [qw(it=4)], 'noconverge' => [qw(it=1)], 'conv' => [qw(it=4)], 'nconv' => [qw(it=1)], # 'mangle' originally deleted pod and comments, but to keep it # reversible, it no longer does. But if you really want to # delete them, just use: # -mangle -dac # An interesting use for 'mangle' is to do this: # perltidy -mangle myfile.pl -st | perltidy -o myfile.pl.new # which will form as many one-line blocks as possible 'mangle' => [ qw( check-syntax keep-old-blank-lines=0 delete-old-newlines delete-old-whitespace delete-semicolons indent-columns=0 maximum-consecutive-blank-lines=0 maximum-line-length=100000 noadd-newlines noadd-semicolons noadd-whitespace noblanks-before-blocks blank-lines-before-subs=0 blank-lines-before-packages=0 notabs ) ], # 'extrude' originally deleted pod and comments, but to keep it # reversible, it no longer does. But if you really want to # delete them, just use # extrude -dac # # An interesting use for 'extrude' is to do this: # perltidy -extrude myfile.pl -st | perltidy -o myfile.pl.new # which will break up all one-line blocks. # # Removed 'check-syntax' option, which is unsafe because it may execute # code in BEGIN blocks. Example 'Moose/debugger-duck_type.t'. 'extrude' => [ qw( ci=0 delete-old-newlines delete-old-whitespace delete-semicolons indent-columns=0 maximum-consecutive-blank-lines=0 maximum-line-length=1 noadd-semicolons noadd-whitespace noblanks-before-blocks blank-lines-before-subs=0 blank-lines-before-packages=0 nofuzzy-line-length notabs norecombine ) ], # this style tries to follow the GNU Coding Standards (which do # not really apply to perl but which are followed by some perl # programmers). 'gnu-style' => [ qw( lp bl noll pt=2 bt=2 sbt=2 cpi=1 csbi=1 cbi=1 ) ], # Style suggested in Damian Conway's Perl Best Practices 'perl-best-practices' => [ qw(l=78 i=4 ci=4 st se vt=2 cti=0 pt=1 bt=1 sbt=1 bbt=1 nsfs nolq), q(wbb=% + - * / x != == >= <= =~ !~ < > | & = **= += *= &= <<= &&= -= /= |= >>= ||= //= .= %= ^= x=) ], # Additional styles can be added here ); Perl::Tidy::HtmlWriter->make_abbreviated_names( \%expansion ); # Uncomment next line to dump all expansions for debugging: # dump_short_names(\%expansion); return ( \@option_string, \@defaults, \%expansion, \%option_category, \%option_range ); } # end of generate_options # Memoize process_command_line. Given same @ARGV passed in, return same # values and same @ARGV back. # This patch was supplied by Jonathan Swartz Nov 2012 and significantly speeds # up masontidy (https://metacpan.org/module/masontidy) my %process_command_line_cache; sub process_command_line { my ( $perltidyrc_stream, $is_Windows, $Windows_type, $rpending_complaint, $dump_options_type ) = @_; my $use_cache = !defined($perltidyrc_stream) && !$dump_options_type; if ($use_cache) { my $cache_key = join( chr(28), @ARGV ); if ( my $result = $process_command_line_cache{$cache_key} ) { my ( $argv, @retvals ) = @{$result}; @ARGV = @{$argv}; return @retvals; } else { my @retvals = _process_command_line(@_); $process_command_line_cache{$cache_key} = [ \@ARGV, @retvals ] if $retvals[0]->{'memoize'}; return @retvals; } } else { return _process_command_line(@_); } } # (note the underscore here) sub _process_command_line { my ( $perltidyrc_stream, $is_Windows, $Windows_type, $rpending_complaint, $dump_options_type ) = @_; use Getopt::Long; # Save any current Getopt::Long configuration # and set to Getopt::Long defaults. Use eval to avoid # breaking old versions of Perl without these routines. # Previous configuration is reset at the exit of this routine. my $glc; eval { $glc = Getopt::Long::Configure() }; unless ($@) { eval { Getopt::Long::ConfigDefaults() }; } else { $glc = undef } my ( $roption_string, $rdefaults, $rexpansion, $roption_category, $roption_range ) = generate_options(); #--------------------------------------------------------------- # set the defaults by passing the above list through GetOptions #--------------------------------------------------------------- my %Opts = (); { local @ARGV; # do not load the defaults if we are just dumping perltidyrc unless ( $dump_options_type eq 'perltidyrc' ) { for my $i ( @{$rdefaults} ) { push @ARGV, "--" . $i } } if ( !GetOptions( \%Opts, @{$roption_string} ) ) { Die "Programming Bug reported by 'GetOptions': error in setting default options"; } } my $word; my @raw_options = (); my $config_file = ""; my $saw_ignore_profile = 0; my $saw_dump_profile = 0; #--------------------------------------------------------------- # Take a first look at the command-line parameters. Do as many # immediate dumps as possible, which can avoid confusion if the # perltidyrc file has an error. #--------------------------------------------------------------- foreach my $i (@ARGV) { $i =~ s/^--/-/; if ( $i =~ /^-(npro|noprofile|no-profile)$/ ) { $saw_ignore_profile = 1; } # note: this must come before -pro and -profile, below: elsif ( $i =~ /^-(dump-profile|dpro)$/ ) { $saw_dump_profile = 1; } elsif ( $i =~ /^-(pro|profile)=(.+)/ ) { if ($config_file) { Warn "Only one -pro=filename allowed, using '$2' instead of '$config_file'\n"; } $config_file = $2; # resolve /.../, meaning look upwards from directory if ( defined($config_file) ) { if ( my ( $start_dir, $search_file ) = ( $config_file =~ m{^(.*)\.\.\./(.*)$} ) ) { $start_dir = '.' if !$start_dir; $start_dir = Cwd::realpath($start_dir); if ( my $found_file = find_file_upwards( $start_dir, $search_file ) ) { $config_file = $found_file; } } } unless ( -e $config_file ) { Warn "cannot find file given with -pro=$config_file: $!\n"; $config_file = ""; } } elsif ( $i =~ /^-(pro|profile)=?$/ ) { Die "usage: -pro=filename or --profile=filename, no spaces\n"; } elsif ( $i =~ /^-(help|h|HELP|H|\?)$/ ) { usage(); Exit 0; } elsif ( $i =~ /^-(version|v)$/ ) { show_version(); Exit 0; } elsif ( $i =~ /^-(dump-defaults|ddf)$/ ) { dump_defaults( @{$rdefaults} ); Exit 0; } elsif ( $i =~ /^-(dump-long-names|dln)$/ ) { dump_long_names( @{$roption_string} ); Exit 0; } elsif ( $i =~ /^-(dump-short-names|dsn)$/ ) { dump_short_names($rexpansion); Exit 0; } elsif ( $i =~ /^-(dump-token-types|dtt)$/ ) { Perl::Tidy::Tokenizer->dump_token_types(*STDOUT); Exit 0; } } if ( $saw_dump_profile && $saw_ignore_profile ) { Warn "No profile to dump because of -npro\n"; Exit 1; } #--------------------------------------------------------------- # read any .perltidyrc configuration file #--------------------------------------------------------------- unless ($saw_ignore_profile) { # resolve possible conflict between $perltidyrc_stream passed # as call parameter to perltidy and -pro=filename on command # line. if ($perltidyrc_stream) { if ($config_file) { Warn <{'vertical-tightness'} ) { my $vt = $rOpts->{'vertical-tightness'}; $rOpts->{'paren-vertical-tightness'} = $vt; $rOpts->{'square-bracket-vertical-tightness'} = $vt; $rOpts->{'brace-vertical-tightness'} = $vt; } if ( defined $rOpts->{'vertical-tightness-closing'} ) { my $vtc = $rOpts->{'vertical-tightness-closing'}; $rOpts->{'paren-vertical-tightness-closing'} = $vtc; $rOpts->{'square-bracket-vertical-tightness-closing'} = $vtc; $rOpts->{'brace-vertical-tightness-closing'} = $vtc; } if ( defined $rOpts->{'closing-token-indentation'} ) { my $cti = $rOpts->{'closing-token-indentation'}; $rOpts->{'closing-square-bracket-indentation'} = $cti; $rOpts->{'closing-brace-indentation'} = $cti; $rOpts->{'closing-paren-indentation'} = $cti; } # In quiet mode, there is no log file and hence no way to report # results of syntax check, so don't do it. if ( $rOpts->{'quiet'} ) { $rOpts->{'check-syntax'} = 0; } # can't check syntax if no output if ( $rOpts->{'format'} ne 'tidy' ) { $rOpts->{'check-syntax'} = 0; } # Never let Windows 9x/Me systems run syntax check -- this will prevent a # wide variety of nasty problems on these systems, because they cannot # reliably run backticks. Don't even think about changing this! if ( $rOpts->{'check-syntax'} && $is_Windows && ( !$Windows_type || $Windows_type =~ /^(9|Me)/ ) ) { $rOpts->{'check-syntax'} = 0; } # Added Dec 2017: Deactivating check-syntax for all systems for safety # because unexpected results can occur when code in BEGIN blocks is # executed. This flag was included to help check for perltidy mistakes, # and may still be useful for debugging. To activate for testing comment # out the next three lines. else { $rOpts->{'check-syntax'} = 0; } # It's really a bad idea to check syntax as root unless you wrote # the script yourself. FIXME: not sure if this works with VMS unless ($is_Windows) { if ( $< == 0 && $rOpts->{'check-syntax'} ) { $rOpts->{'check-syntax'} = 0; ${$rpending_complaint} .= "Syntax check deactivated for safety; you shouldn't run this as root\n"; } } # check iteration count and quietly fix if necessary: # - iterations option only applies to code beautification mode # - the convergence check should stop most runs on iteration 2, and # virtually all on iteration 3. But we'll allow up to 6. if ( $rOpts->{'format'} ne 'tidy' ) { $rOpts->{'iterations'} = 1; } elsif ( defined( $rOpts->{'iterations'} ) ) { if ( $rOpts->{'iterations'} <= 0 ) { $rOpts->{'iterations'} = 1 } elsif ( $rOpts->{'iterations'} > 6 ) { $rOpts->{'iterations'} = 6 } } else { $rOpts->{'iterations'} = 1; } my $check_blank_count = sub { my ( $key, $abbrev ) = @_; if ( $rOpts->{$key} ) { if ( $rOpts->{$key} < 0 ) { $rOpts->{$key} = 0; Warn "negative value of $abbrev, setting 0\n"; } if ( $rOpts->{$key} > 100 ) { Warn "unreasonably large value of $abbrev, reducing\n"; $rOpts->{$key} = 100; } } }; # check for reasonable number of blank lines and fix to avoid problems $check_blank_count->( 'blank-lines-before-subs', '-blbs' ); $check_blank_count->( 'blank-lines-before-packages', '-blbp' ); $check_blank_count->( 'blank-lines-after-block-opening', '-blao' ); $check_blank_count->( 'blank-lines-before-block-closing', '-blbc' ); # setting a non-negative logfile gap causes logfile to be saved if ( defined( $rOpts->{'logfile-gap'} ) && $rOpts->{'logfile-gap'} >= 0 ) { $rOpts->{'logfile'} = 1; } # set short-cut flag when only indentation is to be done. # Note that the user may or may not have already set the # indent-only flag. if ( !$rOpts->{'add-whitespace'} && !$rOpts->{'delete-old-whitespace'} && !$rOpts->{'add-newlines'} && !$rOpts->{'delete-old-newlines'} ) { $rOpts->{'indent-only'} = 1; } # -isbc implies -ibc if ( $rOpts->{'indent-spaced-block-comments'} ) { $rOpts->{'indent-block-comments'} = 1; } # -bli flag implies -bl if ( $rOpts->{'brace-left-and-indent'} ) { $rOpts->{'opening-brace-on-new-line'} = 1; } if ( $rOpts->{'opening-brace-always-on-right'} && $rOpts->{'opening-brace-on-new-line'} ) { Warn <{'opening-brace-on-new-line'} = 0; } # it simplifies things if -bl is 0 rather than undefined if ( !defined( $rOpts->{'opening-brace-on-new-line'} ) ) { $rOpts->{'opening-brace-on-new-line'} = 0; } # -sbl defaults to -bl if not defined if ( !defined( $rOpts->{'opening-sub-brace-on-new-line'} ) ) { $rOpts->{'opening-sub-brace-on-new-line'} = $rOpts->{'opening-brace-on-new-line'}; } if ( $rOpts->{'entab-leading-whitespace'} ) { if ( $rOpts->{'entab-leading-whitespace'} < 0 ) { Warn "-et=n must use a positive integer; ignoring -et\n"; $rOpts->{'entab-leading-whitespace'} = undef; } # entab leading whitespace has priority over the older 'tabs' option if ( $rOpts->{'tabs'} ) { $rOpts->{'tabs'} = 0; } } # set a default tabsize to be used in guessing the starting indentation # level if and only if this run does not use tabs and the old code does # use tabs if ( $rOpts->{'default-tabsize'} ) { if ( $rOpts->{'default-tabsize'} < 0 ) { Warn "negative value of -dt, setting 0\n"; $rOpts->{'default-tabsize'} = 0; } if ( $rOpts->{'default-tabsize'} > 20 ) { Warn "unreasonably large value of -dt, reducing\n"; $rOpts->{'default-tabsize'} = 20; } } else { $rOpts->{'default-tabsize'} = 8; } # Define $tabsize, the number of spaces per tab for use in # guessing the indentation of source lines with leading tabs. # Assume same as for this run if tabs are used , otherwise assume # a default value, typically 8 my $tabsize = $rOpts->{'entab-leading-whitespace'} ? $rOpts->{'entab-leading-whitespace'} : $rOpts->{'tabs'} ? $rOpts->{'indent-columns'} : $rOpts->{'default-tabsize'}; return $tabsize; } sub find_file_upwards { my ( $search_dir, $search_file ) = @_; $search_dir =~ s{/+$}{}; $search_file =~ s{^/+}{}; while (1) { my $try_path = "$search_dir/$search_file"; if ( -f $try_path ) { return $try_path; } elsif ( $search_dir eq '/' ) { return; } else { $search_dir = dirname($search_dir); } } } sub expand_command_abbreviations { # go through @ARGV and expand any abbreviations my ( $rexpansion, $rraw_options, $config_file ) = @_; # set a pass limit to prevent an infinite loop; # 10 should be plenty, but it may be increased to allow deeply # nested expansions. my $max_passes = 10; my @new_argv = (); # keep looping until all expansions have been converted into actual # dash parameters.. foreach my $pass_count ( 0 .. $max_passes ) { my @new_argv = (); my $abbrev_count = 0; # loop over each item in @ARGV.. foreach my $word (@ARGV) { # convert any leading 'no-' to just 'no' if ( $word =~ /^(-[-]?no)-(.*)/ ) { $word = $1 . $2 } # if it is a dash flag (instead of a file name).. if ( $word =~ /^-[-]?([\w\-]+)(.*)/ ) { my $abr = $1; my $flags = $2; # save the raw input for debug output in case of circular refs if ( $pass_count == 0 ) { push( @{$rraw_options}, $word ); } # recombine abbreviation and flag, if necessary, # to allow abbreviations with arguments such as '-vt=1' if ( $rexpansion->{ $abr . $flags } ) { $abr = $abr . $flags; $flags = ""; } # if we see this dash item in the expansion hash.. if ( $rexpansion->{$abr} ) { $abbrev_count++; # stuff all of the words that it expands to into the # new arg list for the next pass foreach my $abbrev ( @{ $rexpansion->{$abr} } ) { next unless $abbrev; # for safety; shouldn't happen push( @new_argv, '--' . $abbrev . $flags ); } } # not in expansion hash, must be actual long name else { push( @new_argv, $word ); } } # not a dash item, so just save it for the next pass else { push( @new_argv, $word ); } } # end of this pass # update parameter list @ARGV to the new one @ARGV = @new_argv; last unless ( $abbrev_count > 0 ); # make sure we are not in an infinite loop if ( $pass_count == $max_passes ) { local $" = ')('; Warn <{$abbrev} }; print STDOUT "$abbrev --> @list\n"; } return; } sub check_vms_filename { # given a valid filename (the perltidy input file) # create a modified filename and separator character # suitable for VMS. # # Contributed by Michael Cartmell # my $filename = shift; my ( $base, $path ) = fileparse($filename); # remove explicit ; version $base =~ s/;-?\d*$// # remove explicit . version ie two dots in filename NB ^ escapes a dot or $base =~ s/( # begin capture $1 (?:^|[^^])\. # match a dot not preceded by a caret (?: # followed by nothing | # or .*[^^] # anything ending in a non caret ) ) # end capture $1 \.-?\d*$ # match . version number /$1/x; # normalise filename, if there are no unescaped dots then append one $base .= '.' unless $base =~ /(?:^|[^^])\./; # if we don't already have an extension then we just append the extension my $separator = ( $base =~ /\.$/ ) ? "" : "_"; return ( $path . $base, $separator ); } sub Win_OS_Type { # TODO: are these more standard names? # Win32s Win95 Win98 WinMe WinNT3.51 WinNT4 Win2000 WinXP/.Net Win2003 # Returns a string that determines what MS OS we are on. # Returns win32s,95,98,Me,NT3.51,NT4,2000,XP/.Net,Win2003 # Returns blank string if not an MS system. # Original code contributed by: Yves Orton # We need to know this to decide where to look for config files my $rpending_complaint = shift; my $os = ""; return $os unless $^O =~ /win32|dos/i; # is it a MS box? # Systems built from Perl source may not have Win32.pm # But probably have Win32::GetOSVersion() anyway so the # following line is not 'required': # return $os unless eval('require Win32'); # Use the standard API call to determine the version my ( $undef, $major, $minor, $build, $id ); eval { ( $undef, $major, $minor, $build, $id ) = Win32::GetOSVersion() }; # # NAME ID MAJOR MINOR # Windows NT 4 2 4 0 # Windows 2000 2 5 0 # Windows XP 2 5 1 # Windows Server 2003 2 5 2 return "win32s" unless $id; # If id==0 then its a win32s box. $os = { # Magic numbers from MSDN # documentation of GetOSVersion 1 => { 0 => "95", 10 => "98", 90 => "Me" }, 2 => { 0 => "2000", # or NT 4, see below 1 => "XP/.Net", 2 => "Win2003", 51 => "NT3.51" } }->{$id}->{$minor}; # If $os is undefined, the above code is out of date. Suggested updates # are welcome. unless ( defined $os ) { $os = ""; ${$rpending_complaint} .= </.../, meaning look upwards from directory my $config_file = shift; if ($config_file) { if ( my ( $start_dir, $search_file ) = ( $config_file =~ m{^(.*)\.\.\./(.*)$} ) ) { ${$rconfig_file_chatter} .= "# Searching Upward: $config_file\n"; $start_dir = '.' if !$start_dir; $start_dir = Cwd::realpath($start_dir); if ( my $found_file = find_file_upwards( $start_dir, $search_file ) ) { $config_file = $found_file; ${$rconfig_file_chatter} .= "# Found: $config_file\n"; } } } return $config_file; }; my $config_file; # look in current directory first $config_file = ".perltidyrc"; return $config_file if $exists_config_file->($config_file); if ($is_Windows) { $config_file = "perltidy.ini"; return $config_file if $exists_config_file->($config_file); } # Default environment vars. my @envs = qw(PERLTIDY HOME); # Check the NT/2k/XP locations, first a local machine def, then a # network def push @envs, qw(USERPROFILE HOMESHARE) if $^O =~ /win32/i; # Now go through the environment ... foreach my $var (@envs) { ${$rconfig_file_chatter} .= "# Examining: \$ENV{$var}"; if ( defined( $ENV{$var} ) ) { ${$rconfig_file_chatter} .= " = $ENV{$var}\n"; # test ENV{ PERLTIDY } as file: if ( $var eq 'PERLTIDY' ) { $config_file = "$ENV{$var}"; $config_file = $resolve_config_file->($config_file); return $config_file if $exists_config_file->($config_file); } # test ENV as directory: $config_file = catfile( $ENV{$var}, ".perltidyrc" ); $config_file = $resolve_config_file->($config_file); return $config_file if $exists_config_file->($config_file); if ($is_Windows) { $config_file = catfile( $ENV{$var}, "perltidy.ini" ); $config_file = $resolve_config_file->($config_file); return $config_file if $exists_config_file->($config_file); } } else { ${$rconfig_file_chatter} .= "\n"; } } # then look for a system-wide definition # where to look varies with OS if ($is_Windows) { if ($Windows_type) { my ( $os, $system, $allusers ) = Win_Config_Locs( $rpending_complaint, $Windows_type ); # Check All Users directory, if there is one. # i.e. C:\Documents and Settings\User\perltidy.ini if ($allusers) { $config_file = catfile( $allusers, ".perltidyrc" ); return $config_file if $exists_config_file->($config_file); $config_file = catfile( $allusers, "perltidy.ini" ); return $config_file if $exists_config_file->($config_file); } # Check system directory. # retain old code in case someone has been able to create # a file with a leading period. $config_file = catfile( $system, ".perltidyrc" ); return $config_file if $exists_config_file->($config_file); $config_file = catfile( $system, "perltidy.ini" ); return $config_file if $exists_config_file->($config_file); } } # Place to add customization code for other systems elsif ( $^O eq 'OS2' ) { } elsif ( $^O eq 'MacOS' ) { } elsif ( $^O eq 'VMS' ) { } # Assume some kind of Unix else { $config_file = "/usr/local/etc/perltidyrc"; return $config_file if $exists_config_file->($config_file); $config_file = "/etc/perltidyrc"; return $config_file if $exists_config_file->($config_file); } # Couldn't find a config file return; } sub Win_Config_Locs { # In scalar context returns the OS name (95 98 ME NT3.51 NT4 2000 XP), # or undef if its not a win32 OS. In list context returns OS, System # Directory, and All Users Directory. All Users will be empty on a # 9x/Me box. Contributed by: Yves Orton. # my ( $rpending_complaint, $os ) = @_; # if ( !$os ) { $os = Win_OS_Type(); } my $rpending_complaint = shift; my $os = (@_) ? shift : Win_OS_Type(); return unless $os; my $system = ""; my $allusers = ""; if ( $os =~ /9[58]|Me/ ) { $system = "C:/Windows"; } elsif ( $os =~ /NT|XP|200?/ ) { $system = ( $os =~ /XP/ ) ? "C:/Windows/" : "C:/WinNT/"; $allusers = ( $os =~ /NT/ ) ? "C:/WinNT/profiles/All Users/" : "C:/Documents and Settings/All Users/"; } else { # This currently would only happen on a win32s computer. I don't have # one to test, so I am unsure how to proceed. Suggestions welcome! ${$rpending_complaint} .= "I dont know a sensible place to look for config files on an $os system.\n"; return; } return wantarray ? ( $os, $system, $allusers ) : $os; } sub dump_config_file { my ( $fh, $config_file, $rconfig_file_chatter ) = @_; print STDOUT "$$rconfig_file_chatter"; if ($fh) { print STDOUT "# Dump of file: '$config_file'\n"; while ( my $line = $fh->getline() ) { print STDOUT $line } eval { $fh->close() }; } else { print STDOUT "# ...no config file found\n"; } return; } sub read_config_file { my ( $fh, $config_file, $rexpansion ) = @_; my @config_list = (); # file is bad if non-empty $death_message is returned my $death_message = ""; my $name = undef; my $line_no; my $opening_brace_line; while ( my $line = $fh->getline() ) { $line_no++; chomp $line; ( $line, $death_message ) = strip_comment( $line, $config_file, $line_no ); last if ($death_message); next unless $line; $line =~ s/^\s*(.*?)\s*$/$1/; # trim both ends next unless $line; my $body = $line; # Look for complete or partial abbreviation definition of the form # name { body } or name { or name { body # See rules in perltidy's perldoc page # Section: Other Controls - Creating a new abbreviation if ( $line =~ /^((\w+)\s*\{)(.*)?$/ ) { my $oldname = $name; ( $name, $body ) = ( $2, $3 ); # Cannot start new abbreviation unless old abbreviation is complete last if ($opening_brace_line); $opening_brace_line = $line_no unless ( $body && $body =~ s/\}$// ); # handle a new alias definition if ( ${$rexpansion}{$name} ) { local $" = ')('; my @names = sort keys %$rexpansion; $death_message = "Here is a list of all installed aliases\n(@names)\n" . "Attempting to redefine alias ($name) in config file $config_file line $.\n"; last; } ${$rexpansion}{$name} = []; } # leading opening braces not allowed elsif ( $line =~ /^{/ ) { $opening_brace_line = undef; $death_message = "Unexpected '{' at line $line_no in config file '$config_file'\n"; last; } # Look for abbreviation closing: body } or } elsif ( $line =~ /^(.*)?\}$/ ) { $body = $1; if ($opening_brace_line) { $opening_brace_line = undef; } else { $death_message = "Unexpected '}' at line $line_no in config file '$config_file'\n"; last; } } # Now store any parameters if ($body) { my ( $rbody_parts, $msg ) = parse_args($body); if ($msg) { $death_message = <close() }; return ( \@config_list, $death_message ); } sub strip_comment { # Strip any comment from a command line my ( $instr, $config_file, $line_no ) = @_; my $msg = ""; # check for full-line comment if ( $instr =~ /^\s*#/ ) { return ( "", $msg ); } # nothing to do if no comments if ( $instr !~ /#/ ) { return ( $instr, $msg ); } # handle case of no quotes elsif ( $instr !~ /['"]/ ) { # We now require a space before the # of a side comment # this allows something like: # -sbcp=# # Otherwise, it would have to be quoted: # -sbcp='#' $instr =~ s/\s+\#.*$//; return ( $instr, $msg ); } # handle comments and quotes my $outstr = ""; my $quote_char = ""; while (1) { # looking for ending quote character if ($quote_char) { if ( $instr =~ /\G($quote_char)/gc ) { $quote_char = ""; $outstr .= $1; } elsif ( $instr =~ /\G(.)/gc ) { $outstr .= $1; } # error..we reached the end without seeing the ending quote char else { $msg = < in this text: $instr Please fix this line or use -npro to avoid reading this file EOM last; } } # accumulating characters and looking for start of a quoted string else { if ( $instr =~ /\G([\"\'])/gc ) { $outstr .= $1; $quote_char = $1; } # Note: not yet enforcing the space-before-hash rule for side # comments if the parameter is quoted. elsif ( $instr =~ /\G#/gc ) { last; } elsif ( $instr =~ /\G(.)/gc ) { $outstr .= $1; } else { last; } } } return ( $outstr, $msg ); } sub parse_args { # Parse a command string containing multiple string with possible # quotes, into individual commands. It might look like this, for example: # # -wba=" + - " -some-thing -wbb='. && ||' # # There is no need, at present, to handle escaped quote characters. # (They are not perltidy tokens, so needn't be in strings). my ($body) = @_; my @body_parts = (); my $quote_char = ""; my $part = ""; my $msg = ""; while (1) { # looking for ending quote character if ($quote_char) { if ( $body =~ /\G($quote_char)/gc ) { $quote_char = ""; } elsif ( $body =~ /\G(.)/gc ) { $part .= $1; } # error..we reached the end without seeing the ending quote char else { if ( length($part) ) { push @body_parts, $part; } $msg = < in this text: $body EOM last; } } # accumulating characters and looking for start of a quoted string else { if ( $body =~ /\G([\"\'])/gc ) { $quote_char = $1; } elsif ( $body =~ /\G(\s+)/gc ) { if ( length($part) ) { push @body_parts, $part; } $part = ""; } elsif ( $body =~ /\G(.)/gc ) { $part .= $1; } else { if ( length($part) ) { push @body_parts, $part; } last; } } } return ( \@body_parts, $msg ); } sub dump_long_names { my @names = @_; print STDOUT < does not take an argument # =s takes a mandatory string # :s takes an optional string # =i takes a mandatory integer # :i takes an optional integer # ! does not take an argument and may be negated # i.e., -foo and -nofoo are allowed # a double dash signals the end of the options list # #--------------------------------------------------------------- EOM foreach my $name ( sort @names ) { print STDOUT "$name\n" } return; } sub dump_defaults { my @defaults = @_; print STDOUT "Default command line options:\n"; foreach my $line ( sort @defaults ) { print STDOUT "$line\n" } return; } sub readable_options { # return options for this run as a string which could be # put in a perltidyrc file my ( $rOpts, $roption_string ) = @_; my %Getopt_flags; my $rGetopt_flags = \%Getopt_flags; my $readable_options = "# Final parameter set for this run.\n"; $readable_options .= "# See utility 'perltidyrc_dump.pl' for nicer formatting.\n"; foreach my $opt ( @{$roption_string} ) { my $flag = ""; if ( $opt =~ /(.*)(!|=.*)$/ ) { $opt = $1; $flag = $2; } if ( defined( $rOpts->{$opt} ) ) { $rGetopt_flags->{$opt} = $flag; } } foreach my $key ( sort keys %{$rOpts} ) { my $flag = $rGetopt_flags->{$key}; my $value = $rOpts->{$key}; my $prefix = '--'; my $suffix = ""; if ($flag) { if ( $flag =~ /^=/ ) { if ( $value !~ /^\d+$/ ) { $value = '"' . $value . '"' } $suffix = "=" . $value; } elsif ( $flag =~ /^!/ ) { $prefix .= "no" unless ($value); } else { # shouldn't happen $readable_options .= "# ERROR in dump_options: unrecognized flag $flag for $key\n"; } } $readable_options .= $prefix . $key . $suffix . "\n"; } return $readable_options; } sub show_version { print STDOUT <<"EOM"; This is perltidy, v$VERSION Copyright 2000-2018, Steve Hancock Perltidy is free software and may be copied under the terms of the GNU General Public License, which is included in the distribution files. Complete documentation for perltidy can be found using 'man perltidy' or on the internet at http://perltidy.sourceforge.net. EOM return; } sub usage { print STDOUT <outfile perltidy [ options ] outfile Options have short and long forms. Short forms are shown; see man pages for long forms. Note: '=s' indicates a required string, and '=n' indicates a required integer. I/O control -h show this help -o=file name of the output file (only if single input file) -oext=s change output extension from 'tdy' to s -opath=path change path to be 'path' for output files -b backup original to .bak and modify file in-place -bext=s change default backup extension from 'bak' to s -q deactivate error messages (for running under editor) -w include non-critical warning messages in the .ERR error output -syn run perl -c to check syntax (default under unix systems) -log save .LOG file, which has useful diagnostics -f force perltidy to read a binary file -g like -log but writes more detailed .LOG file, for debugging scripts -opt write the set of options actually used to a .LOG file -npro ignore .perltidyrc configuration command file -pro=file read configuration commands from file instead of .perltidyrc -st send output to standard output, STDOUT -se send all error output to standard error output, STDERR -v display version number to standard output and quit Basic Options: -i=n use n columns per indentation level (default n=4) -t tabs: use one tab character per indentation level, not recommeded -nt no tabs: use n spaces per indentation level (default) -et=n entab leading whitespace n spaces per tab; not recommended -io "indent only": just do indentation, no other formatting. -sil=n set starting indentation level to n; use if auto detection fails -ole=s specify output line ending (s=dos or win, mac, unix) -ple keep output line endings same as input (input must be filename) Whitespace Control -fws freeze whitespace; this disables all whitespace changes and disables the following switches: -bt=n sets brace tightness, n= (0 = loose, 1=default, 2 = tight) -bbt same as -bt but for code block braces; same as -bt if not given -bbvt block braces vertically tight; use with -bl or -bli -bbvtl=s make -bbvt to apply to selected list of block types -pt=n paren tightness (n=0, 1 or 2) -sbt=n square bracket tightness (n=0, 1, or 2) -bvt=n brace vertical tightness, n=(0=open, 1=close unless multiple steps on a line, 2=always close) -pvt=n paren vertical tightness (see -bvt for n) -sbvt=n square bracket vertical tightness (see -bvt for n) -bvtc=n closing brace vertical tightness: n=(0=open, 1=sometimes close, 2=always close) -pvtc=n closing paren vertical tightness, see -bvtc for n. -sbvtc=n closing square bracket vertical tightness, see -bvtc for n. -ci=n sets continuation indentation=n, default is n=2 spaces -lp line up parentheses, brackets, and non-BLOCK braces -sfs add space before semicolon in for( ; ; ) -aws allow perltidy to add whitespace (default) -dws delete all old non-essential whitespace -icb indent closing brace of a code block -cti=n closing indentation of paren, square bracket, or non-block brace: n=0 none, =1 align with opening, =2 one full indentation level -icp equivalent to -cti=2 -wls=s want space left of tokens in string; i.e. -nwls='+ - * /' -wrs=s want space right of tokens in string; -sts put space before terminal semicolon of a statement -sak=s put space between keywords given in s and '('; -nsak=s no space between keywords in s and '('; i.e. -nsak='my our local' Line Break Control -fnl freeze newlines; this disables all line break changes and disables the following switches: -anl add newlines; ok to introduce new line breaks -bbs add blank line before subs and packages -bbc add blank line before block comments -bbb add blank line between major blocks -kbl=n keep old blank lines? 0=no, 1=some, 2=all -mbl=n maximum consecutive blank lines to output (default=1) -ce cuddled else; use this style: '} else {' -cb cuddled blocks (other than 'if-elsif-else') -cbl=s list of blocks to cuddled, default 'try-catch-finally' -dnl delete old newlines (default) -l=n maximum line length; default n=80 -bl opening brace on new line -sbl opening sub brace on new line. value of -bl is used if not given. -bli opening brace on new line and indented -bar opening brace always on right, even for long clauses -vt=n vertical tightness (requires -lp); n controls break after opening token: 0=never 1=no break if next line balanced 2=no break -vtc=n vertical tightness of closing container; n controls if closing token starts new line: 0=always 1=not unless list 1=never -wba=s want break after tokens in string; i.e. wba=': .' -wbb=s want break before tokens in string -wn weld nested: combines opening and closing tokens when both are adjacent Following Old Breakpoints -kis keep interior semicolons. Allows multiple statements per line. -boc break at old comma breaks: turns off all automatic list formatting -bol break at old logical breakpoints: or, and, ||, && (default) -bok break at old list keyword breakpoints such as map, sort (default) -bot break at old conditional (ternary ?:) operator breakpoints (default) -boa break at old attribute breakpoints -cab=n break at commas after a comma-arrow (=>): n=0 break at all commas after => n=1 stable: break unless this breaks an existing one-line container n=2 break only if a one-line container cannot be formed n=3 do not treat commas after => specially at all Comment controls -ibc indent block comments (default) -isbc indent spaced block comments; may indent unless no leading space -msc=n minimum desired spaces to side comment, default 4 -fpsc=n fix position for side comments; default 0; -csc add or update closing side comments after closing BLOCK brace -dcsc delete closing side comments created by a -csc command -cscp=s change closing side comment prefix to be other than '## end' -cscl=s change closing side comment to apply to selected list of blocks -csci=n minimum number of lines needed to apply a -csc tag, default n=6 -csct=n maximum number of columns of appended text, default n=20 -cscw causes warning if old side comment is overwritten with -csc -sbc use 'static block comments' identified by leading '##' (default) -sbcp=s change static block comment identifier to be other than '##' -osbc outdent static block comments -ssc use 'static side comments' identified by leading '##' (default) -sscp=s change static side comment identifier to be other than '##' Delete selected text -dac delete all comments AND pod -dbc delete block comments -dsc delete side comments -dp delete pod Send selected text to a '.TEE' file -tac tee all comments AND pod -tbc tee block comments -tsc tee side comments -tp tee pod Outdenting -olq outdent long quoted strings (default) -olc outdent a long block comment line -ola outdent statement labels -okw outdent control keywords (redo, next, last, goto, return) -okwl=s specify alternative keywords for -okw command Other controls -mft=n maximum fields per table; default n=40 -x do not format lines before hash-bang line (i.e., for VMS) -asc allows perltidy to add a ';' when missing (default) -dsm allows perltidy to delete an unnecessary ';' (default) Combinations of other parameters -gnu attempt to follow GNU Coding Standards as applied to perl -mangle remove as many newlines as possible (but keep comments and pods) -extrude insert as many newlines as possible Dump and die, debugging -dop dump options used in this run to standard output and quit -ddf dump default options to standard output and quit -dsn dump all option short names to standard output and quit -dln dump option long names to standard output and quit -dpro dump whatever configuration file is in effect to standard output -dtt dump all token types to standard output and quit HTML -html write an html file (see 'man perl2web' for many options) Note: when -html is used, no indentation or formatting are done. Hint: try perltidy -html -css=mystyle.css filename.pl and edit mystyle.css to change the appearance of filename.html. -nnn gives line numbers -pre only writes out
..
code section -toc places a table of contents to subs at the top (default) -pod passes pod text through pod2html (default) -frm write html as a frame (3 files) -text=s extra extension for table of contents if -frm, default='toc' -sext=s extra extension for file content if -frm, default='src' A prefix of "n" negates short form toggle switches, and a prefix of "no" negates the long forms. For example, -nasc means don't add missing semicolons. If you are unable to see this entire text, try "perltidy -h | more" For more detailed information, and additional options, try "man perltidy", or go to the perltidy home page at http://perltidy.sourceforge.net EOF return; } sub process_this_file { my ( $tokenizer, $formatter ) = @_; while ( my $line = $tokenizer->get_line() ) { $formatter->write_line($line); } my $severe_error = $tokenizer->report_tokenization_errors(); eval { $formatter->finish_formatting($severe_error) }; return; } sub check_syntax { # Use 'perl -c' to make sure that we did not create bad syntax # This is a very good independent check for programming errors # # Given names of the input and output files, ($istream, $ostream), # we do the following: # - check syntax of the input file # - if bad, all done (could be an incomplete code snippet) # - if infile syntax ok, then check syntax of the output file; # - if outfile syntax bad, issue warning; this implies a code bug! # - set and return flag "infile_syntax_ok" : =-1 bad 0 unknown 1 good my ( $istream, $ostream, $logger_object, $rOpts ) = @_; my $infile_syntax_ok = 0; my $line_of_dashes = '-' x 42 . "\n"; my $flags = $rOpts->{'perl-syntax-check-flags'}; # be sure we invoke perl with -c # note: perl will accept repeated flags like '-c -c'. It is safest # to append another -c than try to find an interior bundled c, as # in -Tc, because such a 'c' might be in a quoted string, for example. if ( $flags !~ /(^-c|\s+-c)/ ) { $flags .= " -c" } # be sure we invoke perl with -x if requested # same comments about repeated parameters applies if ( $rOpts->{'look-for-hash-bang'} ) { if ( $flags !~ /(^-x|\s+-x)/ ) { $flags .= " -x" } } # this shouldn't happen unless a temporary file couldn't be made if ( $istream eq '-' ) { $logger_object->write_logfile_entry( "Cannot run perl -c on STDIN and STDOUT\n"); return $infile_syntax_ok; } $logger_object->write_logfile_entry( "checking input file syntax with perl $flags\n"); # Not all operating systems/shells support redirection of the standard # error output. my $error_redirection = ( $^O eq 'VMS' ) ? "" : '2>&1'; my ( $istream_filename, $perl_output ) = do_syntax_check( $istream, $flags, $error_redirection ); $logger_object->write_logfile_entry( "Input stream passed to Perl as file $istream_filename\n"); $logger_object->write_logfile_entry($line_of_dashes); $logger_object->write_logfile_entry("$perl_output\n"); if ( $perl_output =~ /syntax\s*OK/ ) { $infile_syntax_ok = 1; $logger_object->write_logfile_entry($line_of_dashes); $logger_object->write_logfile_entry( "checking output file syntax with perl $flags ...\n"); my ( $ostream_filename, $perl_output ) = do_syntax_check( $ostream, $flags, $error_redirection ); $logger_object->write_logfile_entry( "Output stream passed to Perl as file $ostream_filename\n"); $logger_object->write_logfile_entry($line_of_dashes); $logger_object->write_logfile_entry("$perl_output\n"); unless ( $perl_output =~ /syntax\s*OK/ ) { $logger_object->write_logfile_entry($line_of_dashes); $logger_object->warning( "The output file has a syntax error when tested with perl $flags $ostream !\n" ); $logger_object->warning( "This implies an error in perltidy; the file $ostream is bad\n" ); $logger_object->report_definite_bug(); # the perl version number will be helpful for diagnosing the problem $logger_object->write_logfile_entry( qx/perl -v $error_redirection/ . "\n" ); } } else { # Only warn of perl -c syntax errors. Other messages, # such as missing modules, are too common. They can be # seen by running with perltidy -w $logger_object->complain("A syntax check using perl $flags\n"); $logger_object->complain( "for the output in file $istream_filename gives:\n"); $logger_object->complain($line_of_dashes); $logger_object->complain("$perl_output\n"); $logger_object->complain($line_of_dashes); $infile_syntax_ok = -1; $logger_object->write_logfile_entry($line_of_dashes); $logger_object->write_logfile_entry( "The output file will not be checked because of input file problems\n" ); } return $infile_syntax_ok; } sub do_syntax_check { my ( $stream, $flags, $error_redirection ) = @_; ############################################################ # This code is not reachable because syntax check is deactivated, # but it is retained for reference. ############################################################ # We need a named input file for executing perl my ( $stream_filename, $is_tmpfile ) = get_stream_as_named_file($stream); # TODO: Need to add name of file to log somewhere # otherwise Perl output is hard to read if ( !$stream_filename ) { return $stream_filename, "" } # We have to quote the filename in case it has unusual characters # or spaces. Example: this filename #CM11.pm# gives trouble. my $quoted_stream_filename = '"' . $stream_filename . '"'; # Under VMS something like -T will become -t (and an error) so we # will put quotes around the flags. Double quotes seem to work on # Unix/Windows/VMS, but this may not work on all systems. (Single # quotes do not work under Windows). It could become necessary to # put double quotes around each flag, such as: -"c" -"T" # We may eventually need some system-dependent coding here. $flags = '"' . $flags . '"'; # now wish for luck... my $msg = qx/perl $flags $quoted_stream_filename $error_redirection/; if ($is_tmpfile) { unlink $stream_filename or Perl::Tidy::Die("couldn't unlink stream $stream_filename: $!\n"); } return $stream_filename, $msg; } ##################################################################### # # This is a stripped down version of IO::Scalar # Given a reference to a scalar, it supplies either: # a getline method which reads lines (mode='r'), or # a print method which reads lines (mode='w') # ##################################################################### package Perl::Tidy::IOScalar; use Carp; sub new { my ( $package, $rscalar, $mode ) = @_; my $ref = ref $rscalar; if ( $ref ne 'SCALAR' ) { confess <[1]; if ( $mode ne 'r' ) { confess <[2]++; return $self->[0]->[$i]; } sub print { my ( $self, $msg ) = @_; my $mode = $self->[1]; if ( $mode ne 'w' ) { confess <[0] } .= $msg; } sub close { return } ##################################################################### # # This is a stripped down version of IO::ScalarArray # Given a reference to an array, it supplies either: # a getline method which reads lines (mode='r'), or # a print method which reads lines (mode='w') # # NOTE: this routine assumes that there aren't any embedded # newlines within any of the array elements. There are no checks # for that. # ##################################################################### package Perl::Tidy::IOScalarArray; use Carp; sub new { my ( $package, $rarray, $mode ) = @_; my $ref = ref $rarray; if ( $ref ne 'ARRAY' ) { confess <[1]; if ( $mode ne 'r' ) { confess <[2]++; return $self->[0]->[$i]; } sub print { my ( $self, $msg ) = @_; my $mode = $self->[1]; if ( $mode ne 'w' ) { confess <[0] }, $msg; } sub close { return } ##################################################################### # # the Perl::Tidy::LineSource class supplies an object with a 'get_line()' method # which returns the next line to be parsed # ##################################################################### package Perl::Tidy::LineSource; sub new { my ( $class, $input_file, $rOpts, $rpending_logfile_message ) = @_; my $input_line_ending; if ( $rOpts->{'preserve-line-endings'} ) { $input_line_ending = Perl::Tidy::find_input_line_ending($input_file); } ( my $fh, $input_file ) = Perl::Tidy::streamhandle( $input_file, 'r' ); return unless $fh; # in order to check output syntax when standard output is used, # or when it is an object, we have to make a copy of the file if ( ( $input_file eq '-' || ref $input_file ) && $rOpts->{'check-syntax'} ) { # Turning off syntax check when input output is used. # The reason is that temporary files cause problems on # on many systems. $rOpts->{'check-syntax'} = 0; ${$rpending_logfile_message} .= < $fh, _filename => $input_file, _input_line_ending => $input_line_ending, _rinput_buffer => [], _started => 0, }, $class; } sub close_input_file { my $self = shift; # Only close physical files, not STDIN and other objects my $filename = $self->{_filename}; if ( $filename ne '-' && !ref $filename ) { eval { $self->{_fh}->close() }; } return; } sub get_line { my $self = shift; my $line = undef; my $fh = $self->{_fh}; my $rinput_buffer = $self->{_rinput_buffer}; if ( scalar( @{$rinput_buffer} ) ) { $line = shift @{$rinput_buffer}; } else { $line = $fh->getline(); # patch to read raw mac files under unix, dos # see if the first line has embedded \r's if ( $line && !$self->{_started} ) { if ( $line =~ /[\015][^\015\012]/ ) { # found one -- break the line up and store in a buffer @{$rinput_buffer} = map { $_ . "\n" } split /\015/, $line; my $count = @{$rinput_buffer}; $line = shift @{$rinput_buffer}; } $self->{_started}++; } } return $line; } ##################################################################### # # the Perl::Tidy::LineSink class supplies a write_line method for # actual file writing # ##################################################################### package Perl::Tidy::LineSink; sub new { my ( $class, $output_file, $tee_file, $line_separator, $rOpts, $rpending_logfile_message, $binmode ) = @_; my $fh = undef; my $fh_tee = undef; my $output_file_open = 0; if ( $rOpts->{'format'} eq 'tidy' ) { ( $fh, $output_file ) = Perl::Tidy::streamhandle( $output_file, 'w' ); unless ($fh) { Perl::Tidy::Die "Cannot write to output stream\n"; } $output_file_open = 1; if ($binmode) { if ( $rOpts->{'character-encoding'} && $rOpts->{'character-encoding'} eq 'utf8' ) { if ( ref($fh) eq 'IO::File' ) { $fh->binmode(":encoding(UTF-8)"); } elsif ( $output_file eq '-' ) { binmode STDOUT, ":encoding(UTF-8)"; } } # Patch for RT 122030 elsif ( ref($fh) eq 'IO::File' ) { $fh->binmode(); } elsif ( $output_file eq '-' ) { binmode STDOUT } } } # in order to check output syntax when standard output is used, # or when it is an object, we have to make a copy of the file if ( $output_file eq '-' || ref $output_file ) { if ( $rOpts->{'check-syntax'} ) { # Turning off syntax check when standard output is used. # The reason is that temporary files cause problems on # on many systems. $rOpts->{'check-syntax'} = 0; ${$rpending_logfile_message} .= < $fh, _fh_tee => $fh_tee, _output_file => $output_file, _output_file_open => $output_file_open, _tee_flag => 0, _tee_file => $tee_file, _tee_file_opened => 0, _line_separator => $line_separator, _binmode => $binmode, }, $class; } sub write_line { my ( $self, $line ) = @_; my $fh = $self->{_fh}; my $output_file_open = $self->{_output_file_open}; chomp $line; $line .= $self->{_line_separator}; $fh->print($line) if ( $self->{_output_file_open} ); if ( $self->{_tee_flag} ) { unless ( $self->{_tee_file_opened} ) { $self->really_open_tee_file() } my $fh_tee = $self->{_fh_tee}; print $fh_tee $line; } return; } sub tee_on { my $self = shift; $self->{_tee_flag} = 1; return; } sub tee_off { my $self = shift; $self->{_tee_flag} = 0; return; } sub really_open_tee_file { my $self = shift; my $tee_file = $self->{_tee_file}; my $fh_tee; $fh_tee = IO::File->new(">$tee_file") or Perl::Tidy::Die("couldn't open TEE file $tee_file: $!\n"); binmode $fh_tee if $self->{_binmode}; $self->{_tee_file_opened} = 1; $self->{_fh_tee} = $fh_tee; return; } sub close_output_file { my $self = shift; # Only close physical files, not STDOUT and other objects my $output_file = $self->{_output_file}; if ( $output_file ne '-' && !ref $output_file ) { eval { $self->{_fh}->close() } if $self->{_output_file_open}; } $self->close_tee_file(); return; } sub close_tee_file { my $self = shift; # Only close physical files, not STDOUT and other objects if ( $self->{_tee_file_opened} ) { my $tee_file = $self->{_tee_file}; if ( $tee_file ne '-' && !ref $tee_file ) { eval { $self->{_fh_tee}->close() }; $self->{_tee_file_opened} = 0; } } return; } ##################################################################### # # The Perl::Tidy::Diagnostics class writes the DIAGNOSTICS file, which is # useful for program development. # # Only one such file is created regardless of the number of input # files processed. This allows the results of processing many files # to be summarized in a single file. # Output messages go to a file named DIAGNOSTICS, where # they are labeled by file and line. This allows many files to be # scanned at once for some particular condition of interest. It was # particularly useful for developing guessing strategies. # # NOTE: This feature is deactivated in final releases but can be # reactivated for debugging by un-commenting the 'I' options flag # ##################################################################### package Perl::Tidy::Diagnostics; sub new { my $class = shift; return bless { _write_diagnostics_count => 0, _last_diagnostic_file => "", _input_file => "", _fh => undef, }, $class; } sub set_input_file { my ( $self, $input_file ) = @_; $self->{_input_file} = $input_file; return; } sub write_diagnostics { my ( $self, $msg ) = @_; unless ( $self->{_write_diagnostics_count} ) { open( $self->{_fh}, ">", "DIAGNOSTICS" ) or Perl::Tidy::Die("couldn't open DIAGNOSTICS: $!\n"); } my $fh = $self->{_fh}; my $last_diagnostic_file = $self->{_last_diagnostic_file}; my $input_file = $self->{_input_file}; if ( $last_diagnostic_file ne $input_file ) { $fh->print("\nFILE:$input_file\n"); } $self->{_last_diagnostic_file} = $input_file; my $input_line_number = Perl::Tidy::Tokenizer::get_input_line_number(); $fh->print("$input_line_number:\t$msg"); $self->{_write_diagnostics_count}++; return; } ##################################################################### # # The Perl::Tidy::Logger class writes the .LOG and .ERR files # ##################################################################### package Perl::Tidy::Logger; sub new { my ( $class, $rOpts, $log_file, $warning_file, $fh_stderr, $saw_extrude ) = @_; my $fh_warnings = $rOpts->{'standard-error-output'} ? $fh_stderr : undef; # remove any old error output file if we might write a new one unless ( $fh_warnings || ref($warning_file) ) { if ( -e $warning_file ) { unlink($warning_file) or Perl::Tidy::Die( "couldn't unlink warning file $warning_file: $!\n"); } } my $logfile_gap = defined( $rOpts->{'logfile-gap'} ) ? $rOpts->{'logfile-gap'} : 50; if ( $logfile_gap == 0 ) { $logfile_gap = 1 } return bless { _log_file => $log_file, _logfile_gap => $logfile_gap, _rOpts => $rOpts, _fh_warnings => $fh_warnings, _last_input_line_written => 0, _at_end_of_file => 0, _use_prefix => 1, _block_log_output => 0, _line_of_tokens => undef, _output_line_number => undef, _wrote_line_information_string => 0, _wrote_column_headings => 0, _warning_file => $warning_file, _warning_count => 0, _complaint_count => 0, _saw_code_bug => -1, # -1=no 0=maybe 1=for sure _saw_brace_error => 0, _saw_extrude => $saw_extrude, _output_array => [], }, $class; } sub get_warning_count { my $self = shift; return $self->{_warning_count}; } sub get_use_prefix { my $self = shift; return $self->{_use_prefix}; } sub block_log_output { my $self = shift; $self->{_block_log_output} = 1; return; } sub unblock_log_output { my $self = shift; $self->{_block_log_output} = 0; return; } sub interrupt_logfile { my $self = shift; $self->{_use_prefix} = 0; $self->warning("\n"); $self->write_logfile_entry( '#' x 24 . " WARNING " . '#' x 25 . "\n" ); return; } sub resume_logfile { my $self = shift; $self->write_logfile_entry( '#' x 60 . "\n" ); $self->{_use_prefix} = 1; return; } sub we_are_at_the_last_line { my $self = shift; unless ( $self->{_wrote_line_information_string} ) { $self->write_logfile_entry("Last line\n\n"); } $self->{_at_end_of_file} = 1; return; } # record some stuff in case we go down in flames sub black_box { my ( $self, $line_of_tokens, $output_line_number ) = @_; my $input_line = $line_of_tokens->{_line_text}; my $input_line_number = $line_of_tokens->{_line_number}; # save line information in case we have to write a logfile message $self->{_line_of_tokens} = $line_of_tokens; $self->{_output_line_number} = $output_line_number; $self->{_wrote_line_information_string} = 0; my $last_input_line_written = $self->{_last_input_line_written}; my $rOpts = $self->{_rOpts}; if ( ( ( $input_line_number - $last_input_line_written ) >= $self->{_logfile_gap} ) || ( $input_line =~ /^\s*(sub|package)\s+(\w+)/ ) ) { my $structural_indentation_level = $line_of_tokens->{_level_0}; $structural_indentation_level = 0 if ( $structural_indentation_level < 0 ); $self->{_last_input_line_written} = $input_line_number; ( my $out_str = $input_line ) =~ s/^\s*//; chomp $out_str; $out_str = ( '.' x $structural_indentation_level ) . $out_str; if ( length($out_str) > 35 ) { $out_str = substr( $out_str, 0, 35 ) . " ...."; } $self->logfile_output( "", "$out_str\n" ); } return; } sub write_logfile_entry { my ( $self, @msg ) = @_; # add leading >>> to avoid confusing error messages and code $self->logfile_output( ">>>", "@msg" ); return; } sub write_column_headings { my $self = shift; $self->{_wrote_column_headings} = 1; my $routput_array = $self->{_output_array}; push @{$routput_array}, <>>) lines levels i k (code begins with one '.' per indent level) ------ ----- - - -------- ------------------------------------------- EOM return; } sub make_line_information_string { # make columns of information when a logfile message needs to go out my $self = shift; my $line_of_tokens = $self->{_line_of_tokens}; my $input_line_number = $line_of_tokens->{_line_number}; my $line_information_string = ""; if ($input_line_number) { my $output_line_number = $self->{_output_line_number}; my $brace_depth = $line_of_tokens->{_curly_brace_depth}; my $paren_depth = $line_of_tokens->{_paren_depth}; my $square_bracket_depth = $line_of_tokens->{_square_bracket_depth}; my $guessed_indentation_level = $line_of_tokens->{_guessed_indentation_level}; ##my $rtoken_array = $line_of_tokens->{_rtoken_array}; my $structural_indentation_level = $line_of_tokens->{_level_0}; $self->write_column_headings() unless $self->{_wrote_column_headings}; # keep logfile columns aligned for scripts up to 999 lines; # for longer scripts it doesn't really matter my $extra_space = ""; $extra_space .= ( $input_line_number < 10 ) ? " " : ( $input_line_number < 100 ) ? " " : ""; $extra_space .= ( $output_line_number < 10 ) ? " " : ( $output_line_number < 100 ) ? " " : ""; # there are 2 possible nesting strings: # the original which looks like this: (0 [1 {2 # the new one, which looks like this: {{[ # the new one is easier to read, and shows the order, but # could be arbitrarily long, so we use it unless it is too long my $nesting_string = "($paren_depth [$square_bracket_depth {$brace_depth"; my $nesting_string_new = $line_of_tokens->{_nesting_tokens_0}; my $ci_level = $line_of_tokens->{_ci_level_0}; if ( $ci_level > 9 ) { $ci_level = '*' } my $bk = ( $line_of_tokens->{_nesting_blocks_0} =~ /1$/ ) ? '1' : '0'; if ( length($nesting_string_new) <= 8 ) { $nesting_string = $nesting_string_new . " " x ( 8 - length($nesting_string_new) ); } $line_information_string = "L$input_line_number:$output_line_number$extra_space i$guessed_indentation_level:$structural_indentation_level $ci_level $bk $nesting_string"; } return $line_information_string; } sub logfile_output { my ( $self, $prompt, $msg ) = @_; return if ( $self->{_block_log_output} ); my $routput_array = $self->{_output_array}; if ( $self->{_at_end_of_file} || !$self->{_use_prefix} ) { push @{$routput_array}, "$msg"; } else { my $line_information_string = $self->make_line_information_string(); $self->{_wrote_line_information_string} = 1; if ($line_information_string) { push @{$routput_array}, "$line_information_string $prompt$msg"; } else { push @{$routput_array}, "$msg"; } } return; } sub get_saw_brace_error { my $self = shift; return $self->{_saw_brace_error}; } sub increment_brace_error { my $self = shift; $self->{_saw_brace_error}++; return; } sub brace_warning { my ( $self, $msg ) = @_; #use constant BRACE_WARNING_LIMIT => 10; my $BRACE_WARNING_LIMIT = 10; my $saw_brace_error = $self->{_saw_brace_error}; if ( $saw_brace_error < $BRACE_WARNING_LIMIT ) { $self->warning($msg); } $saw_brace_error++; $self->{_saw_brace_error} = $saw_brace_error; if ( $saw_brace_error == $BRACE_WARNING_LIMIT ) { $self->warning("No further warnings of this type will be given\n"); } return; } sub complain { # handle non-critical warning messages based on input flag my ( $self, $msg ) = @_; my $rOpts = $self->{_rOpts}; # these appear in .ERR output only if -w flag is used if ( $rOpts->{'warning-output'} ) { $self->warning($msg); } # otherwise, they go to the .LOG file else { $self->{_complaint_count}++; $self->write_logfile_entry($msg); } return; } sub warning { # report errors to .ERR file (or stdout) my ( $self, $msg ) = @_; #use constant WARNING_LIMIT => 50; my $WARNING_LIMIT = 50; my $rOpts = $self->{_rOpts}; unless ( $rOpts->{'quiet'} ) { my $warning_count = $self->{_warning_count}; my $fh_warnings = $self->{_fh_warnings}; if ( !$fh_warnings ) { my $warning_file = $self->{_warning_file}; ( $fh_warnings, my $filename ) = Perl::Tidy::streamhandle( $warning_file, 'w' ); $fh_warnings or Perl::Tidy::Die("couldn't open $filename $!\n"); Perl::Tidy::Warn "## Please see file $filename\n" unless ref($warning_file); $self->{_fh_warnings} = $fh_warnings; $fh_warnings->print("Perltidy version is $Perl::Tidy::VERSION\n"); } if ( $warning_count < $WARNING_LIMIT ) { if ( $self->get_use_prefix() > 0 ) { my $input_line_number = Perl::Tidy::Tokenizer::get_input_line_number(); if ( !defined($input_line_number) ) { $input_line_number = -1 } $fh_warnings->print("$input_line_number:\t$msg"); $self->write_logfile_entry("WARNING: $msg"); } else { $fh_warnings->print($msg); $self->write_logfile_entry($msg); } } $warning_count++; $self->{_warning_count} = $warning_count; if ( $warning_count == $WARNING_LIMIT ) { $fh_warnings->print("No further warnings will be given\n"); } } return; } # programming bug codes: # -1 = no bug # 0 = maybe, not sure. # 1 = definitely sub report_possible_bug { my $self = shift; my $saw_code_bug = $self->{_saw_code_bug}; $self->{_saw_code_bug} = ( $saw_code_bug < 0 ) ? 0 : $saw_code_bug; return; } sub report_definite_bug { my $self = shift; $self->{_saw_code_bug} = 1; return; } sub ask_user_for_bug_report { my ( $self, $infile_syntax_ok, $formatter ) = @_; my $saw_code_bug = $self->{_saw_code_bug}; if ( ( $saw_code_bug == 0 ) && ( $infile_syntax_ok == 1 ) ) { $self->warning(<{_saw_extrude} ) { $self->warning(<warning(<get_added_semicolon_count(); }; if ( $added_semicolon_count > 0 ) { $self->warning(<{_rOpts}; my $warning_count = $self->{_warning_count}; my $saw_code_bug = $self->{_saw_code_bug}; my $save_logfile = ( $saw_code_bug == 0 && $infile_syntax_ok == 1 ) || $saw_code_bug == 1 || $rOpts->{'logfile'}; my $log_file = $self->{_log_file}; if ($warning_count) { if ($save_logfile) { $self->block_log_output(); # avoid echoing this to the logfile $self->warning( "The logfile $log_file may contain useful information\n"); $self->unblock_log_output(); } if ( $self->{_complaint_count} > 0 ) { $self->warning( "To see $self->{_complaint_count} non-critical warnings rerun with -w\n" ); } if ( $self->{_saw_brace_error} && ( $self->{_logfile_gap} > 1 || !$save_logfile ) ) { $self->warning("To save a full .LOG file rerun with -g\n"); } } $self->ask_user_for_bug_report( $infile_syntax_ok, $formatter ); if ($save_logfile) { my $log_file = $self->{_log_file}; my ( $fh, $filename ) = Perl::Tidy::streamhandle( $log_file, 'w' ); if ($fh) { my $routput_array = $self->{_output_array}; foreach ( @{$routput_array} ) { $fh->print($_) } if ( $log_file ne '-' && !ref $log_file ) { eval { $fh->close() }; } } } return; } ##################################################################### # # The Perl::Tidy::DevNull class supplies a dummy print method # ##################################################################### package Perl::Tidy::DevNull; sub new { my $self = shift; return bless {}, $self } sub print { return } sub close { return } ##################################################################### # # The Perl::Tidy::HtmlWriter class writes a copy of the input stream in html # ##################################################################### package Perl::Tidy::HtmlWriter; use File::Basename; # class variables use vars qw{ %html_color %html_bold %html_italic %token_short_names %short_to_long_names $rOpts $css_filename $css_linkname $missing_html_entities }; # replace unsafe characters with HTML entity representation if HTML::Entities # is available { eval "use HTML::Entities"; $missing_html_entities = $@; } sub new { my ( $class, $input_file, $html_file, $extension, $html_toc_extension, $html_src_extension ) = @_; my $html_file_opened = 0; my $html_fh; ( $html_fh, my $html_filename ) = Perl::Tidy::streamhandle( $html_file, 'w' ); unless ($html_fh) { Perl::Tidy::Warn("can't open $html_file: $!\n"); return; } $html_file_opened = 1; if ( !$input_file || $input_file eq '-' || ref($input_file) ) { $input_file = "NONAME"; } # write the table of contents to a string my $toc_string; my $html_toc_fh = Perl::Tidy::IOScalar->new( \$toc_string, 'w' ); my $html_pre_fh; my @pre_string_stack; if ( $rOpts->{'html-pre-only'} ) { # pre section goes directly to the output stream $html_pre_fh = $html_fh; $html_pre_fh->print( <<"PRE_END");
PRE_END
    }
    else {

        # pre section go out to a temporary string
        my $pre_string;
        $html_pre_fh = Perl::Tidy::IOScalar->new( \$pre_string, 'w' );
        push @pre_string_stack, \$pre_string;
    }

    # pod text gets diverted if the 'pod2html' is used
    my $html_pod_fh;
    my $pod_string;
    if ( $rOpts->{'pod2html'} ) {
        if ( $rOpts->{'html-pre-only'} ) {
            undef $rOpts->{'pod2html'};
        }
        else {
            eval "use Pod::Html";
            if ($@) {
                Perl::Tidy::Warn
"unable to find Pod::Html; cannot use pod2html\n-npod disables this message\n";
                undef $rOpts->{'pod2html'};
            }
            else {
                $html_pod_fh = Perl::Tidy::IOScalar->new( \$pod_string, 'w' );
            }
        }
    }

    my $toc_filename;
    my $src_filename;
    if ( $rOpts->{'frames'} ) {
        unless ($extension) {
            Perl::Tidy::Warn
"cannot use frames without a specified output extension; ignoring -frm\n";
            undef $rOpts->{'frames'};
        }
        else {
            $toc_filename = $input_file . $html_toc_extension . $extension;
            $src_filename = $input_file . $html_src_extension . $extension;
        }
    }

    # ----------------------------------------------------------
    # Output is now directed as follows:
    # html_toc_fh <-- table of contents items
    # html_pre_fh <-- the 
 section of formatted code, except:
    # html_pod_fh <-- pod goes here with the pod2html option
    # ----------------------------------------------------------

    my $title = $rOpts->{'title'};
    unless ($title) {
        ( $title, my $path ) = fileparse($input_file);
    }
    my $toc_item_count = 0;
    my $in_toc_package = "";
    my $last_level     = 0;
    return bless {
        _input_file        => $input_file,          # name of input file
        _title             => $title,               # title, unescaped
        _html_file         => $html_file,           # name of .html output file
        _toc_filename      => $toc_filename,        # for frames option
        _src_filename      => $src_filename,        # for frames option
        _html_file_opened  => $html_file_opened,    # a flag
        _html_fh           => $html_fh,             # the output stream
        _html_pre_fh       => $html_pre_fh,         # pre section goes here
        _rpre_string_stack => \@pre_string_stack,   # stack of pre sections
        _html_pod_fh       => $html_pod_fh,         # pod goes here if pod2html
        _rpod_string       => \$pod_string,         # string holding pod
        _pod_cut_count     => 0,                    # how many =cut's?
        _html_toc_fh       => $html_toc_fh,         # fh for table of contents
        _rtoc_string       => \$toc_string,         # string holding toc
        _rtoc_item_count   => \$toc_item_count,     # how many toc items
        _rin_toc_package   => \$in_toc_package,     # package name
        _rtoc_name_count   => {},                   # hash to track unique names
        _rpackage_stack    => [],                   # stack to check for package
                                                    # name changes
        _rlast_level       => \$last_level,         # brace indentation level
    }, $class;
}

sub add_toc_item {

    # Add an item to the html table of contents.
    # This is called even if no table of contents is written,
    # because we still want to put the anchors in the 
 text.
    # We are given an anchor name and its type; types are:
    #      'package', 'sub', '__END__', '__DATA__', 'EOF'
    # There must be an 'EOF' call at the end to wrap things up.
    my ( $self, $name, $type ) = @_;
    my $html_toc_fh     = $self->{_html_toc_fh};
    my $html_pre_fh     = $self->{_html_pre_fh};
    my $rtoc_name_count = $self->{_rtoc_name_count};
    my $rtoc_item_count = $self->{_rtoc_item_count};
    my $rlast_level     = $self->{_rlast_level};
    my $rin_toc_package = $self->{_rin_toc_package};
    my $rpackage_stack  = $self->{_rpackage_stack};

    # packages contain sublists of subs, so to avoid errors all package
    # items are written and finished with the following routines
    my $end_package_list = sub {
        if ( ${$rin_toc_package} ) {
            $html_toc_fh->print("\n\n");
            ${$rin_toc_package} = "";
        }
    };

    my $start_package_list = sub {
        my ( $unique_name, $package ) = @_;
        if ( ${$rin_toc_package} ) { $end_package_list->() }
        $html_toc_fh->print(<package $package
    EOM ${$rin_toc_package} = $package; }; # start the table of contents on the first item unless ( ${$rtoc_item_count} ) { # but just quit if we hit EOF without any other entries # in this case, there will be no toc return if ( $type eq 'EOF' ); $html_toc_fh->print( <<"TOC_END");
      TOC_END } ${$rtoc_item_count}++; # make a unique anchor name for this location: # - packages get a 'package-' prefix # - subs use their names my $unique_name = $name; if ( $type eq 'package' ) { $unique_name = "package-$name" } # append '-1', '-2', etc if necessary to make unique; this will # be unique because subs and packages cannot have a '-' if ( my $count = $rtoc_name_count->{ lc $unique_name }++ ) { $unique_name .= "-$count"; } # - all names get terminal '-' if pod2html is used, to avoid # conflicts with anchor names created by pod2html if ( $rOpts->{'pod2html'} ) { $unique_name .= '-' } # start/stop lists of subs if ( $type eq 'sub' ) { my $package = $rpackage_stack->[ ${$rlast_level} ]; unless ($package) { $package = 'main' } # if we're already in a package/sub list, be sure its the right # package or else close it if ( ${$rin_toc_package} && ${$rin_toc_package} ne $package ) { $end_package_list->(); } # start a package/sub list if necessary unless ( ${$rin_toc_package} ) { $start_package_list->( $unique_name, $package ); } } # now write an entry in the toc for this item if ( $type eq 'package' ) { $start_package_list->( $unique_name, $name ); } elsif ( $type eq 'sub' ) { $html_toc_fh->print("
    • $name
    • \n"); } else { $end_package_list->(); $html_toc_fh->print("
    • $name
    • \n"); } # write the anchor in the
       section
          $html_pre_fh->print("");
      
          # end the table of contents, if any, on the end of file
          if ( $type eq 'EOF' ) {
              $html_toc_fh->print( <<"TOC_END");
      
    TOC_END } return; } BEGIN { # This is the official list of tokens which may be identified by the # user. Long names are used as getopt keys. Short names are # convenient short abbreviations for specifying input. Short names # somewhat resemble token type characters, but are often different # because they may only be alphanumeric, to allow command line # input. Also, note that because of case insensitivity of html, # this table must be in a single case only (I've chosen to use all # lower case). # When adding NEW_TOKENS: update this hash table # short names => long names %short_to_long_names = ( 'n' => 'numeric', 'p' => 'paren', 'q' => 'quote', 's' => 'structure', 'c' => 'comment', 'v' => 'v-string', 'cm' => 'comma', 'w' => 'bareword', 'co' => 'colon', 'pu' => 'punctuation', 'i' => 'identifier', 'j' => 'label', 'h' => 'here-doc-target', 'hh' => 'here-doc-text', 'k' => 'keyword', 'sc' => 'semicolon', 'm' => 'subroutine', 'pd' => 'pod-text', ); # Now we have to map actual token types into one of the above short # names; any token types not mapped will get 'punctuation' # properties. # The values of this hash table correspond to the keys of the # previous hash table. # The keys of this hash table are token types and can be seen # by running with --dump-token-types (-dtt). # When adding NEW_TOKENS: update this hash table # $type => $short_name %token_short_names = ( '#' => 'c', 'n' => 'n', 'v' => 'v', 'k' => 'k', 'F' => 'k', 'Q' => 'q', 'q' => 'q', 'J' => 'j', 'j' => 'j', 'h' => 'h', 'H' => 'hh', 'w' => 'w', ',' => 'cm', '=>' => 'cm', ';' => 'sc', ':' => 'co', 'f' => 'sc', '(' => 'p', ')' => 'p', 'M' => 'm', 'P' => 'pd', 'A' => 'co', ); # These token types will all be called identifiers for now # FIXME: could separate user defined modules as separate type my @identifier = qw" i t U C Y Z G :: CORE::"; @token_short_names{@identifier} = ('i') x scalar(@identifier); # These token types will be called 'structure' my @structure = qw" { } "; @token_short_names{@structure} = ('s') x scalar(@structure); # OLD NOTES: save for reference # Any of these could be added later if it would be useful. # For now, they will by default become punctuation # my @list = qw" L R [ ] "; # @token_long_names{@list} = ('non-structure') x scalar(@list); # # my @list = qw" # / /= * *= ** **= + += - -= % %= = ++ -- << <<= >> >>= pp p m mm # "; # @token_long_names{@list} = ('math') x scalar(@list); # # my @list = qw" & &= ~ ~= ^ ^= | |= "; # @token_long_names{@list} = ('bit') x scalar(@list); # # my @list = qw" == != < > <= <=> "; # @token_long_names{@list} = ('numerical-comparison') x scalar(@list); # # my @list = qw" && || ! &&= ||= //= "; # @token_long_names{@list} = ('logical') x scalar(@list); # # my @list = qw" . .= =~ !~ x x= "; # @token_long_names{@list} = ('string-operators') x scalar(@list); # # # Incomplete.. # my @list = qw" .. -> <> ... \ ? "; # @token_long_names{@list} = ('misc-operators') x scalar(@list); } sub make_getopt_long_names { my ( $class, $rgetopt_names ) = @_; while ( my ( $short_name, $name ) = each %short_to_long_names ) { push @{$rgetopt_names}, "html-color-$name=s"; push @{$rgetopt_names}, "html-italic-$name!"; push @{$rgetopt_names}, "html-bold-$name!"; } push @{$rgetopt_names}, "html-color-background=s"; push @{$rgetopt_names}, "html-linked-style-sheet=s"; push @{$rgetopt_names}, "nohtml-style-sheets"; push @{$rgetopt_names}, "html-pre-only"; push @{$rgetopt_names}, "html-line-numbers"; push @{$rgetopt_names}, "html-entities!"; push @{$rgetopt_names}, "stylesheet"; push @{$rgetopt_names}, "html-table-of-contents!"; push @{$rgetopt_names}, "pod2html!"; push @{$rgetopt_names}, "frames!"; push @{$rgetopt_names}, "html-toc-extension=s"; push @{$rgetopt_names}, "html-src-extension=s"; # Pod::Html parameters: push @{$rgetopt_names}, "backlink=s"; push @{$rgetopt_names}, "cachedir=s"; push @{$rgetopt_names}, "htmlroot=s"; push @{$rgetopt_names}, "libpods=s"; push @{$rgetopt_names}, "podpath=s"; push @{$rgetopt_names}, "podroot=s"; push @{$rgetopt_names}, "title=s"; # Pod::Html parameters with leading 'pod' which will be removed # before the call to Pod::Html push @{$rgetopt_names}, "podquiet!"; push @{$rgetopt_names}, "podverbose!"; push @{$rgetopt_names}, "podrecurse!"; push @{$rgetopt_names}, "podflush"; push @{$rgetopt_names}, "podheader!"; push @{$rgetopt_names}, "podindex!"; return; } sub make_abbreviated_names { # We're appending things like this to the expansion list: # 'hcc' => [qw(html-color-comment)], # 'hck' => [qw(html-color-keyword)], # etc my ( $class, $rexpansion ) = @_; # abbreviations for color/bold/italic properties while ( my ( $short_name, $long_name ) = each %short_to_long_names ) { ${$rexpansion}{"hc$short_name"} = ["html-color-$long_name"]; ${$rexpansion}{"hb$short_name"} = ["html-bold-$long_name"]; ${$rexpansion}{"hi$short_name"} = ["html-italic-$long_name"]; ${$rexpansion}{"nhb$short_name"} = ["nohtml-bold-$long_name"]; ${$rexpansion}{"nhi$short_name"} = ["nohtml-italic-$long_name"]; } # abbreviations for all other html options ${$rexpansion}{"hcbg"} = ["html-color-background"]; ${$rexpansion}{"pre"} = ["html-pre-only"]; ${$rexpansion}{"toc"} = ["html-table-of-contents"]; ${$rexpansion}{"ntoc"} = ["nohtml-table-of-contents"]; ${$rexpansion}{"nnn"} = ["html-line-numbers"]; ${$rexpansion}{"hent"} = ["html-entities"]; ${$rexpansion}{"nhent"} = ["nohtml-entities"]; ${$rexpansion}{"css"} = ["html-linked-style-sheet"]; ${$rexpansion}{"nss"} = ["nohtml-style-sheets"]; ${$rexpansion}{"ss"} = ["stylesheet"]; ${$rexpansion}{"pod"} = ["pod2html"]; ${$rexpansion}{"npod"} = ["nopod2html"]; ${$rexpansion}{"frm"} = ["frames"]; ${$rexpansion}{"nfrm"} = ["noframes"]; ${$rexpansion}{"text"} = ["html-toc-extension"]; ${$rexpansion}{"sext"} = ["html-src-extension"]; return; } sub check_options { # This will be called once after options have been parsed my ( $class, $rOpts ) = @_; # X11 color names for default settings that seemed to look ok # (these color names are only used for programming clarity; the hex # numbers are actually written) use constant ForestGreen => "#228B22"; use constant SaddleBrown => "#8B4513"; use constant magenta4 => "#8B008B"; use constant IndianRed3 => "#CD5555"; use constant DeepSkyBlue4 => "#00688B"; use constant MediumOrchid3 => "#B452CD"; use constant black => "#000000"; use constant white => "#FFFFFF"; use constant red => "#FF0000"; # set default color, bold, italic properties # anything not listed here will be given the default (punctuation) color -- # these types currently not listed and get default: ws pu s sc cm co p # When adding NEW_TOKENS: add an entry here if you don't want defaults # set_default_properties( $short_name, default_color, bold?, italic? ); set_default_properties( 'c', ForestGreen, 0, 0 ); set_default_properties( 'pd', ForestGreen, 0, 1 ); set_default_properties( 'k', magenta4, 1, 0 ); # was SaddleBrown set_default_properties( 'q', IndianRed3, 0, 0 ); set_default_properties( 'hh', IndianRed3, 0, 1 ); set_default_properties( 'h', IndianRed3, 1, 0 ); set_default_properties( 'i', DeepSkyBlue4, 0, 0 ); set_default_properties( 'w', black, 0, 0 ); set_default_properties( 'n', MediumOrchid3, 0, 0 ); set_default_properties( 'v', MediumOrchid3, 0, 0 ); set_default_properties( 'j', IndianRed3, 1, 0 ); set_default_properties( 'm', red, 1, 0 ); set_default_color( 'html-color-background', white ); set_default_color( 'html-color-punctuation', black ); # setup property lookup tables for tokens based on their short names # every token type has a short name, and will use these tables # to do the html markup while ( my ( $short_name, $long_name ) = each %short_to_long_names ) { $html_color{$short_name} = $rOpts->{"html-color-$long_name"}; $html_bold{$short_name} = $rOpts->{"html-bold-$long_name"}; $html_italic{$short_name} = $rOpts->{"html-italic-$long_name"}; } # write style sheet to STDOUT and die if requested if ( defined( $rOpts->{'stylesheet'} ) ) { write_style_sheet_file('-'); Perl::Tidy::Exit 0; } # make sure user gives a file name after -css if ( defined( $rOpts->{'html-linked-style-sheet'} ) ) { $css_linkname = $rOpts->{'html-linked-style-sheet'}; if ( $css_linkname =~ /^-/ ) { Perl::Tidy::Die "You must specify a valid filename after -css\n"; } } # check for conflict if ( $css_linkname && $rOpts->{'nohtml-style-sheets'} ) { $rOpts->{'nohtml-style-sheets'} = 0; warning("You can't specify both -css and -nss; -nss ignored\n"); } # write a style sheet file if necessary if ($css_linkname) { # if the selected filename exists, don't write, because user may # have done some work by hand to create it; use backup name instead # Also, this will avoid a potential disaster in which the user # forgets to specify the style sheet, like this: # perltidy -html -css myfile1.pl myfile2.pl # This would cause myfile1.pl to parsed as the style sheet by GetOpts my $css_filename = $css_linkname; unless ( -e $css_filename ) { write_style_sheet_file($css_filename); } } $missing_html_entities = 1 unless $rOpts->{'html-entities'}; return; } sub write_style_sheet_file { my $css_filename = shift; my $fh; unless ( $fh = IO::File->new("> $css_filename") ) { Perl::Tidy::Die "can't open $css_filename: $!\n"; } write_style_sheet_data($fh); eval { $fh->close }; return; } sub write_style_sheet_data { # write the style sheet data to an open file handle my $fh = shift; my $bg_color = $rOpts->{'html-color-background'}; my $text_color = $rOpts->{'html-color-punctuation'}; # pre-bgcolor is new, and may not be defined my $pre_bg_color = $rOpts->{'html-pre-color-background'}; $pre_bg_color = $bg_color unless $pre_bg_color; $fh->print(<<"EOM"); /* default style sheet generated by perltidy */ body {background: $bg_color; color: $text_color} pre { color: $text_color; background: $pre_bg_color; font-family: courier; } EOM foreach my $short_name ( sort keys %short_to_long_names ) { my $long_name = $short_to_long_names{$short_name}; my $abbrev = '.' . $short_name; if ( length($short_name) == 1 ) { $abbrev .= ' ' } # for alignment my $color = $html_color{$short_name}; if ( !defined($color) ) { $color = $text_color } $fh->print("$abbrev \{ color: $color;"); if ( $html_bold{$short_name} ) { $fh->print(" font-weight:bold;"); } if ( $html_italic{$short_name} ) { $fh->print(" font-style:italic;"); } $fh->print("} /* $long_name */\n"); } return; } sub set_default_color { # make sure that options hash $rOpts->{$key} contains a valid color my ( $key, $color ) = @_; if ( $rOpts->{$key} ) { $color = $rOpts->{$key} } $rOpts->{$key} = check_RGB($color); return; } sub check_RGB { # if color is a 6 digit hex RGB value, prepend a #, otherwise # assume that it is a valid ascii color name my ($color) = @_; if ( $color =~ /^[0-9a-fA-F]{6,6}$/ ) { $color = "#$color" } return $color; } sub set_default_properties { my ( $short_name, $color, $bold, $italic ) = @_; set_default_color( "html-color-$short_to_long_names{$short_name}", $color ); my $key; $key = "html-bold-$short_to_long_names{$short_name}"; $rOpts->{$key} = ( defined $rOpts->{$key} ) ? $rOpts->{$key} : $bold; $key = "html-italic-$short_to_long_names{$short_name}"; $rOpts->{$key} = ( defined $rOpts->{$key} ) ? $rOpts->{$key} : $italic; return; } sub pod_to_html { # Use Pod::Html to process the pod and make the page # then merge the perltidy code sections into it. # return 1 if success, 0 otherwise my ( $self, $pod_string, $css_string, $toc_string, $rpre_string_stack ) = @_; my $input_file = $self->{_input_file}; my $title = $self->{_title}; my $success_flag = 0; # don't try to use pod2html if no pod unless ($pod_string) { return $success_flag; } # Pod::Html requires a real temporary filename my ( $fh_tmp, $tmpfile ) = File::Temp::tempfile(); unless ($fh_tmp) { Perl::Tidy::Warn "unable to open temporary file $tmpfile; cannot use pod2html\n"; return $success_flag; } #------------------------------------------------------------------ # Warning: a temporary file is open; we have to clean up if # things go bad. From here on all returns should be by going to # RETURN so that the temporary file gets unlinked. #------------------------------------------------------------------ # write the pod text to the temporary file $fh_tmp->print($pod_string); $fh_tmp->close(); # Hand off the pod to pod2html. # Note that we can use the same temporary filename for input and output # because of the way pod2html works. { my @args; push @args, "--infile=$tmpfile", "--outfile=$tmpfile", "--title=$title"; # Flags with string args: # "backlink=s", "cachedir=s", "htmlroot=s", "libpods=s", # "podpath=s", "podroot=s" # Note: -css=s is handled by perltidy itself foreach my $kw (qw(backlink cachedir htmlroot libpods podpath podroot)) { if ( $rOpts->{$kw} ) { push @args, "--$kw=$rOpts->{$kw}" } } # Toggle switches; these have extra leading 'pod' # "header!", "index!", "recurse!", "quiet!", "verbose!" foreach my $kw (qw(podheader podindex podrecurse podquiet podverbose)) { my $kwd = $kw; # allows us to strip 'pod' if ( $rOpts->{$kw} ) { $kwd =~ s/^pod//; push @args, "--$kwd" } elsif ( defined( $rOpts->{$kw} ) ) { $kwd =~ s/^pod//; push @args, "--no$kwd"; } } # "flush", my $kw = 'podflush'; if ( $rOpts->{$kw} ) { $kw =~ s/^pod//; push @args, "--$kw" } # Must clean up if pod2html dies (it can); # Be careful not to overwrite callers __DIE__ routine local $SIG{__DIE__} = sub { unlink $tmpfile if -e $tmpfile; Perl::Tidy::Die $_[0]; }; pod2html(@args); } $fh_tmp = IO::File->new( $tmpfile, 'r' ); unless ($fh_tmp) { # this error shouldn't happen ... we just used this filename Perl::Tidy::Warn "unable to open temporary file $tmpfile; cannot use pod2html\n"; goto RETURN; } my $html_fh = $self->{_html_fh}; my @toc; my $in_toc; my $ul_level = 0; my $no_print; # This routine will write the html selectively and store the toc my $html_print = sub { foreach (@_) { $html_fh->print($_) unless ($no_print); if ($in_toc) { push @toc, $_ } } }; # loop over lines of html output from pod2html and merge in # the necessary perltidy html sections my ( $saw_body, $saw_index, $saw_body_end ); while ( my $line = $fh_tmp->getline() ) { if ( $line =~ /^\s*\s*$/i ) { my $date = localtime; $html_print->("\n"); $html_print->($line); } # Copy the perltidy css, if any, after tag elsif ( $line =~ /^\s*\s*$/i ) { $saw_body = 1; $html_print->($css_string) if $css_string; $html_print->($line); # add a top anchor and heading $html_print->("\n"); $title = escape_html($title); $html_print->("

    $title

    \n"); } # check for start of index, old pod2html # before Pod::Html VERSION 1.15_02 it is delimited by comments as: # #
      # ... #
    # # elsif ( $line =~ /^\s*\s*$/i ) { $in_toc = 'INDEX'; # when frames are used, an extra table of contents in the # contents panel is confusing, so don't print it $no_print = $rOpts->{'frames'} || !$rOpts->{'html-table-of-contents'}; $html_print->("

    Doc Index:

    \n") if $rOpts->{'frames'}; $html_print->($line); } # check for start of index, new pod2html # After Pod::Html VERSION 1.15_02 it is delimited as: #
      # ... #
    elsif ( $line =~ /^\s*/i ) { $in_toc = 'UL'; $ul_level = 1; # when frames are used, an extra table of contents in the # contents panel is confusing, so don't print it $no_print = $rOpts->{'frames'} || !$rOpts->{'html-table-of-contents'}; $html_print->("

    Doc Index:

    \n") if $rOpts->{'frames'}; $html_print->($line); } # Check for end of index, old pod2html elsif ( $line =~ /^\s*\s*$/i ) { $saw_index = 1; $html_print->($line); # Copy the perltidy toc, if any, after the Pod::Html toc if ($toc_string) { $html_print->("
    \n") if $rOpts->{'frames'}; $html_print->("

    Code Index:

    \n"); my @toc = map { $_ .= "\n" } split /\n/, $toc_string; $html_print->(@toc); } $in_toc = ""; $no_print = 0; } # must track
      depth level for new pod2html elsif ( $line =~ /\s*
        \s*$/i && $in_toc eq 'UL' ) { $ul_level++; $html_print->($line); } # Check for end of index, for new pod2html elsif ( $line =~ /\s*<\/ul>/i && $in_toc eq 'UL' ) { $ul_level--; $html_print->($line); # Copy the perltidy toc, if any, after the Pod::Html toc if ( $ul_level <= 0 ) { $saw_index = 1; if ($toc_string) { $html_print->("
        \n") if $rOpts->{'frames'}; $html_print->("

        Code Index:

        \n"); my @toc = map { $_ .= "\n" } split /\n/, $toc_string; $html_print->(@toc); } $in_toc = ""; $ul_level = 0; $no_print = 0; } } # Copy one perltidy section after each marker elsif ( $line =~ /^(.*)(.*)$/ ) { $line = $2; $html_print->($1) if $1; # Intermingle code and pod sections if we saw multiple =cut's. if ( $self->{_pod_cut_count} > 1 ) { my $rpre_string = shift( @{$rpre_string_stack} ); if ( ${$rpre_string} ) { $html_print->('
        ');
                            $html_print->( ${$rpre_string} );
                            $html_print->('
        '); } else { # shouldn't happen: we stored a string before writing # each marker. Perl::Tidy::Warn "Problem merging html stream with pod2html; order may be wrong\n"; } $html_print->($line); } # If didn't see multiple =cut lines, we'll put the pod out first # and then the code, because it's less confusing. else { # since we are not intermixing code and pod, we don't need # or want any
        lines which separated pod and code $html_print->($line) unless ( $line =~ /^\s*
        \s*$/i ); } } # Copy any remaining code section before the tag elsif ( $line =~ /^\s*<\/body>\s*$/i ) { $saw_body_end = 1; if ( @{$rpre_string_stack} ) { unless ( $self->{_pod_cut_count} > 1 ) { $html_print->('
        '); } while ( my $rpre_string = shift( @{$rpre_string_stack} ) ) { $html_print->('
        ');
                            $html_print->( ${$rpre_string} );
                            $html_print->('
        '); } } $html_print->($line); } else { $html_print->($line); } } $success_flag = 1; unless ($saw_body) { Perl::Tidy::Warn "Did not see in pod2html output\n"; $success_flag = 0; } unless ($saw_body_end) { Perl::Tidy::Warn "Did not see in pod2html output\n"; $success_flag = 0; } unless ($saw_index) { Perl::Tidy::Warn "Did not find INDEX END in pod2html output\n"; $success_flag = 0; } RETURN: eval { $html_fh->close() }; # note that we have to unlink tmpfile before making frames # because the tmpfile may be one of the names used for frames if ( -e $tmpfile ) { unless ( unlink($tmpfile) ) { Perl::Tidy::Warn("couldn't unlink temporary file $tmpfile: $!\n"); $success_flag = 0; } } if ( $success_flag && $rOpts->{'frames'} ) { $self->make_frame( \@toc ); } return $success_flag; } sub make_frame { # Make a frame with table of contents in the left panel # and the text in the right panel. # On entry: # $html_filename contains the no-frames html output # $rtoc is a reference to an array with the table of contents my ( $self, $rtoc ) = @_; my $input_file = $self->{_input_file}; my $html_filename = $self->{_html_file}; my $toc_filename = $self->{_toc_filename}; my $src_filename = $self->{_src_filename}; my $title = $self->{_title}; $title = escape_html($title); # FUTURE input parameter: my $top_basename = ""; # We need to produce 3 html files: # 1. - the table of contents # 2. - the contents (source code) itself # 3. - the frame which contains them # get basenames for relative links my ( $toc_basename, $toc_path ) = fileparse($toc_filename); my ( $src_basename, $src_path ) = fileparse($src_filename); # 1. Make the table of contents panel, with appropriate changes # to the anchor names my $src_frame_name = 'SRC'; my $first_anchor = write_toc_html( $title, $toc_filename, $src_basename, $rtoc, $src_frame_name ); # 2. The current .html filename is renamed to be the contents panel rename( $html_filename, $src_filename ) or Perl::Tidy::Die "Cannot rename $html_filename to $src_filename:$!\n"; # 3. Then use the original html filename for the frame write_frame_html( $title, $html_filename, $top_basename, $toc_basename, $src_basename, $src_frame_name ); return; } sub write_toc_html { # write a separate html table of contents file for frames my ( $title, $toc_filename, $src_basename, $rtoc, $src_frame_name ) = @_; my $fh = IO::File->new( $toc_filename, 'w' ) or Perl::Tidy::Die "Cannot open $toc_filename:$!\n"; $fh->print(< $title

        $title

        EOM my $first_anchor = change_anchor_names( $rtoc, $src_basename, "$src_frame_name" ); $fh->print( join "", @{$rtoc} ); $fh->print(< EOM return; } sub write_frame_html { # write an html file to be the table of contents frame my ( $title, $frame_filename, $top_basename, $toc_basename, $src_basename, $src_frame_name ) = @_; my $fh = IO::File->new( $frame_filename, 'w' ) or Perl::Tidy::Die "Cannot open $toc_basename:$!\n"; $fh->print(< $title EOM # two left panels, one right, if master index file if ($top_basename) { $fh->print(< EOM } # one left panels, one right, if no master index file else { $fh->print(< EOM } $fh->print(< <body> <p>If you see this message, you are using a non-frame-capable web client.</p> <p>This document contains:</p> <ul> <li><a href="$toc_basename">A table of contents</a></li> <li><a href="$src_basename">The source code</a></li> </ul> </body> EOM return; } sub change_anchor_names { # add a filename and target to anchors # also return the first anchor my ( $rlines, $filename, $target ) = @_; my $first_anchor; foreach my $line ( @{$rlines} ) { # We're looking for lines like this: #
      • SYNOPSIS
      • # ---- - -------- ----------------- # $1 $4 $5 if ( $line =~ /^(.*)]*>(.*)$/i ) { my $pre = $1; my $name = $4; my $post = $5; my $href = "$filename#$name"; $line = "$pre$post\n"; unless ($first_anchor) { $first_anchor = $href } } } return $first_anchor; } sub close_html_file { my $self = shift; return unless $self->{_html_file_opened}; my $html_fh = $self->{_html_fh}; my $rtoc_string = $self->{_rtoc_string}; # There are 3 basic paths to html output... # --------------------------------- # Path 1: finish up if in -pre mode # --------------------------------- if ( $rOpts->{'html-pre-only'} ) { $html_fh->print( <<"PRE_END");
PRE_END eval { $html_fh->close() }; return; } # Finish the index $self->add_toc_item( 'EOF', 'EOF' ); my $rpre_string_stack = $self->{_rpre_string_stack}; # Patch to darken the
 background color in case of pod2html and
    # interleaved code/documentation.  Otherwise, the distinction
    # between code and documentation is blurred.
    if (   $rOpts->{pod2html}
        && $self->{_pod_cut_count} >= 1
        && $rOpts->{'html-color-background'} eq '#FFFFFF' )
    {
        $rOpts->{'html-pre-color-background'} = '#F0F0F0';
    }

    # put the css or its link into a string, if used
    my $css_string;
    my $fh_css = Perl::Tidy::IOScalar->new( \$css_string, 'w' );

    # use css linked to another file
    if ( $rOpts->{'html-linked-style-sheet'} ) {
        $fh_css->print(
            qq());
    }

    # use css embedded in this file
    elsif ( !$rOpts->{'nohtml-style-sheets'} ) {
        $fh_css->print( <<'ENDCSS');

ENDCSS
    }

    # -----------------------------------------------------------
    # path 2: use pod2html if requested
    #         If we fail for some reason, continue on to path 3
    # -----------------------------------------------------------
    if ( $rOpts->{'pod2html'} ) {
        my $rpod_string = $self->{_rpod_string};
        $self->pod_to_html(
            ${$rpod_string}, $css_string,
            ${$rtoc_string}, $rpre_string_stack
        ) && return;
    }

    # --------------------------------------------------
    # path 3: write code in html, with pod only in italics
    # --------------------------------------------------
    my $input_file = $self->{_input_file};
    my $title      = escape_html($input_file);
    my $date       = localtime;
    $html_fh->print( <<"HTML_START");




$title
HTML_START

    # output the css, if used
    if ($css_string) {
        $html_fh->print($css_string);
        $html_fh->print( <<"ENDCSS");


ENDCSS
    }
    else {

        $html_fh->print( <<"HTML_START");

{'html-color-background'}\" text=\"$rOpts->{'html-color-punctuation'}\">
HTML_START
    }

    $html_fh->print("\n");
    $html_fh->print( <<"EOM");

$title

EOM # copy the table of contents if ( ${$rtoc_string} && !$rOpts->{'frames'} && $rOpts->{'html-table-of-contents'} ) { $html_fh->print( ${$rtoc_string} ); } # copy the pre section(s) my $fname_comment = $input_file; $fname_comment =~ s/--+/-/g; # protect HTML comment tags $html_fh->print( <<"END_PRE");
END_PRE

    foreach my $rpre_string ( @{$rpre_string_stack} ) {
        $html_fh->print( ${$rpre_string} );
    }

    # and finish the html page
    $html_fh->print( <<"HTML_END");
HTML_END eval { $html_fh->close() }; # could be object without close method if ( $rOpts->{'frames'} ) { my @toc = map { $_ .= "\n" } split /\n/, ${$rtoc_string}; $self->make_frame( \@toc ); } return; } sub markup_tokens { my ( $self, $rtokens, $rtoken_type, $rlevels ) = @_; my ( @colored_tokens, $string, $type, $token, $level ); my $rlast_level = $self->{_rlast_level}; my $rpackage_stack = $self->{_rpackage_stack}; for ( my $j = 0 ; $j < @{$rtoken_type} ; $j++ ) { $type = $rtoken_type->[$j]; $token = $rtokens->[$j]; $level = $rlevels->[$j]; $level = 0 if ( $level < 0 ); #------------------------------------------------------- # Update the package stack. The package stack is needed to keep # the toc correct because some packages may be declared within # blocks and go out of scope when we leave the block. #------------------------------------------------------- if ( $level > ${$rlast_level} ) { unless ( $rpackage_stack->[ $level - 1 ] ) { $rpackage_stack->[ $level - 1 ] = 'main'; } $rpackage_stack->[$level] = $rpackage_stack->[ $level - 1 ]; } elsif ( $level < ${$rlast_level} ) { my $package = $rpackage_stack->[$level]; unless ($package) { $package = 'main' } # if we change packages due to a nesting change, we # have to make an entry in the toc if ( $package ne $rpackage_stack->[ $level + 1 ] ) { $self->add_toc_item( $package, 'package' ); } } ${$rlast_level} = $level; #------------------------------------------------------- # Intercept a sub name here; split it # into keyword 'sub' and sub name; and add an # entry in the toc #------------------------------------------------------- if ( $type eq 'i' && $token =~ /^(sub\s+)(\w.*)$/ ) { $token = $self->markup_html_element( $1, 'k' ); push @colored_tokens, $token; $token = $2; $type = 'M'; # but don't include sub declarations in the toc; # these wlll have leading token types 'i;' my $signature = join "", @{$rtoken_type}; unless ( $signature =~ /^i;/ ) { my $subname = $token; $subname =~ s/[\s\(].*$//; # remove any attributes and prototype $self->add_toc_item( $subname, 'sub' ); } } #------------------------------------------------------- # Intercept a package name here; split it # into keyword 'package' and name; add to the toc, # and update the package stack #------------------------------------------------------- if ( $type eq 'i' && $token =~ /^(package\s+)(\w.*)$/ ) { $token = $self->markup_html_element( $1, 'k' ); push @colored_tokens, $token; $token = $2; $type = 'i'; $self->add_toc_item( "$token", 'package' ); $rpackage_stack->[$level] = $token; } $token = $self->markup_html_element( $token, $type ); push @colored_tokens, $token; } return ( \@colored_tokens ); } sub markup_html_element { my ( $self, $token, $type ) = @_; return $token if ( $type eq 'b' ); # skip a blank token return $token if ( $token =~ /^\s*$/ ); # skip a blank line $token = escape_html($token); # get the short abbreviation for this token type my $short_name = $token_short_names{$type}; if ( !defined($short_name) ) { $short_name = "pu"; # punctuation is default } # handle style sheets.. if ( !$rOpts->{'nohtml-style-sheets'} ) { if ( $short_name ne 'pu' ) { $token = qq() . $token . ""; } } # handle no style sheets.. else { my $color = $html_color{$short_name}; if ( $color && ( $color ne $rOpts->{'html-color-punctuation'} ) ) { $token = qq() . $token . ""; } if ( $html_italic{$short_name} ) { $token = "$token" } if ( $html_bold{$short_name} ) { $token = "$token" } } return $token; } sub escape_html { my $token = shift; if ($missing_html_entities) { $token =~ s/\&/&/g; $token =~ s/\/>/g; $token =~ s/\"/"/g; } else { HTML::Entities::encode_entities($token); } return $token; } sub finish_formatting { # called after last line my $self = shift; $self->close_html_file(); return; } sub write_line { my ( $self, $line_of_tokens ) = @_; return unless $self->{_html_file_opened}; my $html_pre_fh = $self->{_html_pre_fh}; my $line_type = $line_of_tokens->{_line_type}; my $input_line = $line_of_tokens->{_line_text}; my $line_number = $line_of_tokens->{_line_number}; chomp $input_line; # markup line of code.. my $html_line; if ( $line_type eq 'CODE' ) { my $rtoken_type = $line_of_tokens->{_rtoken_type}; my $rtokens = $line_of_tokens->{_rtokens}; my $rlevels = $line_of_tokens->{_rlevels}; if ( $input_line =~ /(^\s*)/ ) { $html_line = $1; } else { $html_line = ""; } my ($rcolored_tokens) = $self->markup_tokens( $rtokens, $rtoken_type, $rlevels ); $html_line .= join '', @{$rcolored_tokens}; } # markup line of non-code.. else { my $line_character; if ( $line_type eq 'HERE' ) { $line_character = 'H' } elsif ( $line_type eq 'HERE_END' ) { $line_character = 'h' } elsif ( $line_type eq 'FORMAT' ) { $line_character = 'H' } elsif ( $line_type eq 'FORMAT_END' ) { $line_character = 'h' } elsif ( $line_type eq 'SYSTEM' ) { $line_character = 'c' } elsif ( $line_type eq 'END_START' ) { $line_character = 'k'; $self->add_toc_item( '__END__', '__END__' ); } elsif ( $line_type eq 'DATA_START' ) { $line_character = 'k'; $self->add_toc_item( '__DATA__', '__DATA__' ); } elsif ( $line_type =~ /^POD/ ) { $line_character = 'P'; if ( $rOpts->{'pod2html'} ) { my $html_pod_fh = $self->{_html_pod_fh}; if ( $line_type eq 'POD_START' ) { my $rpre_string_stack = $self->{_rpre_string_stack}; my $rpre_string = $rpre_string_stack->[-1]; # if we have written any non-blank lines to the # current pre section, start writing to a new output # string if ( ${$rpre_string} =~ /\S/ ) { my $pre_string; $html_pre_fh = Perl::Tidy::IOScalar->new( \$pre_string, 'w' ); $self->{_html_pre_fh} = $html_pre_fh; push @{$rpre_string_stack}, \$pre_string; # leave a marker in the pod stream so we know # where to put the pre section we just # finished. my $for_html = '=for html'; # don't confuse pod utils $html_pod_fh->print(< EOM } # otherwise, just clear the current string and start # over else { ${$rpre_string} = ""; $html_pod_fh->print("\n"); } } $html_pod_fh->print( $input_line . "\n" ); if ( $line_type eq 'POD_END' ) { $self->{_pod_cut_count}++; $html_pod_fh->print("\n"); } return; } } else { $line_character = 'Q' } $html_line = $self->markup_html_element( $input_line, $line_character ); } # add the line number if requested if ( $rOpts->{'html-line-numbers'} ) { my $extra_space = ( $line_number < 10 ) ? " " : ( $line_number < 100 ) ? " " : ( $line_number < 1000 ) ? " " : ""; $html_line = $extra_space . $line_number . " " . $html_line; } # write the line $html_pre_fh->print("$html_line\n"); return; } ##################################################################### # # The Perl::Tidy::Formatter package adds indentation, whitespace, and # line breaks to the token stream # # WARNING: This is not a real class for speed reasons. Only one # Formatter may be used. # ##################################################################### package Perl::Tidy::Formatter; BEGIN { # Caution: these debug flags produce a lot of output # They should all be 0 except when debugging small scripts use constant FORMATTER_DEBUG_FLAG_RECOMBINE => 0; use constant FORMATTER_DEBUG_FLAG_BOND_TABLES => 0; use constant FORMATTER_DEBUG_FLAG_BOND => 0; use constant FORMATTER_DEBUG_FLAG_BREAK => 0; use constant FORMATTER_DEBUG_FLAG_CI => 0; use constant FORMATTER_DEBUG_FLAG_FLUSH => 0; use constant FORMATTER_DEBUG_FLAG_FORCE => 0; use constant FORMATTER_DEBUG_FLAG_LIST => 0; use constant FORMATTER_DEBUG_FLAG_NOBREAK => 0; use constant FORMATTER_DEBUG_FLAG_OUTPUT => 0; use constant FORMATTER_DEBUG_FLAG_SPARSE => 0; use constant FORMATTER_DEBUG_FLAG_STORE => 0; use constant FORMATTER_DEBUG_FLAG_UNDOBP => 0; use constant FORMATTER_DEBUG_FLAG_WHITE => 0; my $debug_warning = sub { print STDOUT "FORMATTER_DEBUGGING with key $_[0]\n"; }; FORMATTER_DEBUG_FLAG_RECOMBINE && $debug_warning->('RECOMBINE'); FORMATTER_DEBUG_FLAG_BOND_TABLES && $debug_warning->('BOND_TABLES'); FORMATTER_DEBUG_FLAG_BOND && $debug_warning->('BOND'); FORMATTER_DEBUG_FLAG_BREAK && $debug_warning->('BREAK'); FORMATTER_DEBUG_FLAG_CI && $debug_warning->('CI'); FORMATTER_DEBUG_FLAG_FLUSH && $debug_warning->('FLUSH'); FORMATTER_DEBUG_FLAG_FORCE && $debug_warning->('FORCE'); FORMATTER_DEBUG_FLAG_LIST && $debug_warning->('LIST'); FORMATTER_DEBUG_FLAG_NOBREAK && $debug_warning->('NOBREAK'); FORMATTER_DEBUG_FLAG_OUTPUT && $debug_warning->('OUTPUT'); FORMATTER_DEBUG_FLAG_SPARSE && $debug_warning->('SPARSE'); FORMATTER_DEBUG_FLAG_STORE && $debug_warning->('STORE'); FORMATTER_DEBUG_FLAG_UNDOBP && $debug_warning->('UNDOBP'); FORMATTER_DEBUG_FLAG_WHITE && $debug_warning->('WHITE'); } use Carp; use vars qw{ @gnu_stack $max_gnu_stack_index $gnu_position_predictor $line_start_index_to_go $last_indentation_written $last_unadjusted_indentation $last_leading_token $last_output_short_opening_token $peak_batch_size $saw_VERSION_in_this_file $saw_END_or_DATA_ @gnu_item_list $max_gnu_item_index $gnu_sequence_number $last_output_indentation %last_gnu_equals %gnu_comma_count %gnu_arrow_count @block_type_to_go @type_sequence_to_go @container_environment_to_go @bond_strength_to_go @forced_breakpoint_to_go @token_lengths_to_go @summed_lengths_to_go @levels_to_go @leading_spaces_to_go @reduced_spaces_to_go @matching_token_to_go @mate_index_to_go @ci_levels_to_go @nesting_depth_to_go @nobreak_to_go @old_breakpoint_to_go @tokens_to_go @rtoken_vars_to_go @K_to_go @types_to_go @inext_to_go @iprev_to_go %saved_opening_indentation $max_index_to_go $comma_count_in_batch $last_nonblank_index_to_go $last_nonblank_type_to_go $last_nonblank_token_to_go $last_last_nonblank_index_to_go $last_last_nonblank_type_to_go $last_last_nonblank_token_to_go @nonblank_lines_at_depth $starting_in_quote $ending_in_quote @whitespace_level_stack $whitespace_last_level $format_skipping_pattern_begin $format_skipping_pattern_end $forced_breakpoint_count $forced_breakpoint_undo_count @forced_breakpoint_undo_stack %postponed_breakpoint $tabbing $embedded_tab_count $first_embedded_tab_at $last_embedded_tab_at $deleted_semicolon_count $first_deleted_semicolon_at $last_deleted_semicolon_at $added_semicolon_count $first_added_semicolon_at $last_added_semicolon_at $first_tabbing_disagreement $last_tabbing_disagreement $in_tabbing_disagreement $tabbing_disagreement_count $input_line_tabbing $last_line_leading_type $last_line_leading_level $last_last_line_leading_level %block_leading_text %block_opening_line_number $csc_new_statement_ok $csc_last_label %csc_block_label $accumulating_text_for_block $leading_block_text $rleading_block_if_elsif_text $leading_block_text_level $leading_block_text_length_exceeded $leading_block_text_line_length $leading_block_text_line_number $closing_side_comment_prefix_pattern $closing_side_comment_list_pattern $blank_lines_after_opening_block_pattern $blank_lines_before_closing_block_pattern $last_nonblank_token $last_nonblank_type $last_last_nonblank_token $last_last_nonblank_type $last_nonblank_block_type $last_output_level %is_do_follower %is_if_brace_follower %space_after_keyword $rbrace_follower $looking_for_else %is_last_next_redo_return %is_other_brace_follower %is_else_brace_follower %is_anon_sub_brace_follower %is_anon_sub_1_brace_follower %is_sort_map_grep %is_sort_map_grep_eval %is_sort_map_grep_eval_do %is_block_without_semicolon %is_if_unless %is_and_or %is_assignment %is_chain_operator %is_if_unless_and_or_last_next_redo_return %ok_to_add_semicolon_for_block_type @has_broken_sublist @dont_align @want_comma_break $is_static_block_comment $index_start_one_line_block $semicolons_before_block_self_destruct $index_max_forced_break $input_line_number $diagnostics_object $vertical_aligner_object $logger_object $file_writer_object $formatter_self @ci_stack %want_break_before %outdent_keyword $static_block_comment_pattern $static_side_comment_pattern %opening_vertical_tightness %closing_vertical_tightness %closing_token_indentation $some_closing_token_indentation %opening_token_right %stack_opening_token %stack_closing_token $block_brace_vertical_tightness_pattern $rOpts_add_newlines $rOpts_add_whitespace $rOpts_block_brace_tightness $rOpts_block_brace_vertical_tightness $rOpts_brace_left_and_indent $rOpts_comma_arrow_breakpoints $rOpts_break_at_old_keyword_breakpoints $rOpts_break_at_old_comma_breakpoints $rOpts_break_at_old_logical_breakpoints $rOpts_break_at_old_ternary_breakpoints $rOpts_break_at_old_attribute_breakpoints $rOpts_closing_side_comment_else_flag $rOpts_closing_side_comment_maximum_text $rOpts_continuation_indentation $rOpts_cuddled_else $rOpts_delete_old_whitespace $rOpts_fuzzy_line_length $rOpts_indent_columns $rOpts_line_up_parentheses $rOpts_maximum_fields_per_table $rOpts_maximum_line_length $rOpts_variable_maximum_line_length $rOpts_short_concatenation_item_length $rOpts_keep_old_blank_lines $rOpts_ignore_old_breakpoints $rOpts_format_skipping $rOpts_space_function_paren $rOpts_space_keyword_paren $rOpts_keep_interior_semicolons $rOpts_ignore_side_comment_lengths $rOpts_stack_closing_block_brace $rOpts_space_backslash_quote $rOpts_whitespace_cycle %is_opening_type %is_closing_type %is_keyword_returning_list %tightness %matching_token $rOpts %right_bond_strength %left_bond_strength %binary_ws_rules %want_left_space %want_right_space %is_digraph %is_trigraph $bli_pattern $bli_list_string %is_closing_type %is_opening_type %is_closing_token %is_opening_token %weld_len_left_closing %weld_len_right_closing %weld_len_left_opening %weld_len_right_opening $rcuddled_block_types $SUB_PATTERN $ASUB_PATTERN $NVARS }; BEGIN { # Array index names for token vars my $i = 0; use constant { _BLOCK_TYPE_ => $i++, _CI_LEVEL_ => $i++, _CONTAINER_ENVIRONMENT_ => $i++, _CONTAINER_TYPE_ => $i++, _CUMULATIVE_LENGTH_ => $i++, _LINE_INDEX_ => $i++, _KNEXT_SEQ_ITEM_ => $i++, _LEVEL_ => $i++, _LEVEL_TRUE_ => $i++, _SLEVEL_ => $i++, _TOKEN_ => $i++, _TYPE_ => $i++, _TYPE_SEQUENCE_ => $i++, }; $NVARS = 1 + _TYPE_SEQUENCE_; # default list of block types for which -bli would apply $bli_list_string = 'if else elsif unless while for foreach do : sub'; my @q; @q = qw( .. :: << >> ** && .. || // -> => += -= .= %= &= |= ^= *= <> <= >= == =~ !~ != ++ -- /= x= ); @is_digraph{@q} = (1) x scalar(@q); @q = qw( ... **= <<= >>= &&= ||= //= <=> <<~ ); @is_trigraph{@q} = (1) x scalar(@q); @q = qw( = **= += *= &= <<= &&= -= /= |= >>= ||= //= .= %= ^= x= ); @is_assignment{@q} = (1) x scalar(@q); @q = qw( grep keys map reverse sort split ); @is_keyword_returning_list{@q} = (1) x scalar(@q); @q = qw(is if unless and or err last next redo return); @is_if_unless_and_or_last_next_redo_return{@q} = (1) x scalar(@q); @q = qw(last next redo return); @is_last_next_redo_return{@q} = (1) x scalar(@q); @q = qw(sort map grep); @is_sort_map_grep{@q} = (1) x scalar(@q); @q = qw(sort map grep eval); @is_sort_map_grep_eval{@q} = (1) x scalar(@q); @q = qw(sort map grep eval do); @is_sort_map_grep_eval_do{@q} = (1) x scalar(@q); @q = qw(if unless); @is_if_unless{@q} = (1) x scalar(@q); @q = qw(and or err); @is_and_or{@q} = (1) x scalar(@q); # Identify certain operators which often occur in chains. # Note: the minus (-) causes a side effect of padding of the first line in # something like this (by sub set_logical_padding): # Checkbutton => 'Transmission checked', # -variable => \$TRANS # This usually improves appearance so it seems ok. @q = qw(&& || and or : ? . + - * /); @is_chain_operator{@q} = (1) x scalar(@q); # We can remove semicolons after blocks preceded by these keywords @q = qw(BEGIN END CHECK INIT AUTOLOAD DESTROY UNITCHECK continue if elsif else unless while until for foreach given when default); @is_block_without_semicolon{@q} = (1) x scalar(@q); # We will allow semicolons to be added within these block types # as well as sub and package blocks. # NOTES: # 1. Note that these keywords are omitted: # switch case given when default sort map grep # 2. It is also ok to add for sub and package blocks and a labeled block # 3. But not okay for other perltidy types including: # { } ; G t # 4. Test files: blktype.t, blktype1.t, semicolon.t @q = qw( BEGIN END CHECK INIT AUTOLOAD DESTROY UNITCHECK continue if elsif else unless do while until eval for foreach ); @ok_to_add_semicolon_for_block_type{@q} = (1) x scalar(@q); # 'L' is token for opening { at hash key @q = qw" L { ( [ "; @is_opening_type{@q} = (1) x scalar(@q); # 'R' is token for closing } at hash key @q = qw" R } ) ] "; @is_closing_type{@q} = (1) x scalar(@q); @q = qw" { ( [ "; @is_opening_token{@q} = (1) x scalar(@q); @q = qw" } ) ] "; @is_closing_token{@q} = (1) x scalar(@q); # Patterns for standardizing matches to block types for regular subs and # anonymous subs. Examples # 'sub process' is a named sub # 'sub ::m' is a named sub # 'sub' is an anonymous sub # 'sub:' is a label, not a sub # 'substr' is a keyword $SUB_PATTERN = '^sub\s+(::|\w)'; $ASUB_PATTERN = '^sub$'; } # whitespace codes use constant WS_YES => 1; use constant WS_OPTIONAL => 0; use constant WS_NO => -1; # Token bond strengths. use constant NO_BREAK => 10000; use constant VERY_STRONG => 100; use constant STRONG => 2.1; use constant NOMINAL => 1.1; use constant WEAK => 0.8; use constant VERY_WEAK => 0.55; # values for testing indexes in output array use constant UNDEFINED_INDEX => -1; # Maximum number of little messages; probably need not be changed. use constant MAX_NAG_MESSAGES => 6; # increment between sequence numbers for each type # For example, ?: pairs might have numbers 7,11,15,... use constant TYPE_SEQUENCE_INCREMENT => 4; { # methods to count instances my $_count = 0; sub get_count { return $_count; } sub _increment_count { return ++$_count } sub _decrement_count { return --$_count } } sub trim { # trim leading and trailing whitespace from a string my $str = shift; $str =~ s/\s+$//; $str =~ s/^\s+//; return $str; } sub max { my @vals = @_; my $max = shift @vals; foreach my $val (@vals) { $max = ( $max < $val ) ? $val : $max; } return $max; } sub min { my @vals = @_; my $min = shift @vals; foreach my $val (@vals) { $min = ( $min > $val ) ? $val : $min; } return $min; } sub split_words { # given a string containing words separated by whitespace, # return the list of words my ($str) = @_; return unless $str; $str =~ s/\s+$//; $str =~ s/^\s+//; return split( /\s+/, $str ); } sub check_keys { my ( $rtest, $rvalid, $msg, $exact_match ) = @_; # Check the keys of a hash: # $rtest = ref to hash to test # $rexpected = ref to has with valid keys # $msg = a message to write in case of error # $exact_match defines the type of check: # = false: test hash must not have unknown key # = true: test hash must have exactly same keys as known hash my @unknown_keys = grep { !exists $rvalid->{$_} } keys %{$rtest}; my @missing_keys = grep { !exists $rtest->{$_} } keys %{$rvalid}; my $error = @unknown_keys; if ($exact_match) { $error ||= @missing_keys } if ($error) { local $" = ')('; my @expected_keys = sort keys %{$rvalid}; @unknown_keys = sort @unknown_keys; Perl::Tidy::Die <warning($msg); } return; } sub complain { my ($msg) = @_; if ($logger_object) { $logger_object->complain($msg); } return; } sub write_logfile_entry { my @msg = @_; if ($logger_object) { $logger_object->write_logfile_entry(@msg); } return; } sub black_box { my @msg = @_; if ($logger_object) { $logger_object->black_box(@msg); } return; } sub report_definite_bug { if ($logger_object) { $logger_object->report_definite_bug(); } return; } sub get_saw_brace_error { if ($logger_object) { $logger_object->get_saw_brace_error(); } return; } sub we_are_at_the_last_line { if ($logger_object) { $logger_object->we_are_at_the_last_line(); } return; } # interface to Perl::Tidy::Diagnostics routine sub write_diagnostics { my $msg = shift; if ($diagnostics_object) { $diagnostics_object->write_diagnostics($msg); } return; } sub get_added_semicolon_count { my $self = shift; return $added_semicolon_count; } sub DESTROY { my $self = shift; $self->_decrement_count(); return; } sub get_output_line_number { return $vertical_aligner_object->get_output_line_number(); } sub new { my $class = shift; # we are given an object with a write_line() method to take lines my %defaults = ( sink_object => undef, diagnostics_object => undef, logger_object => undef, ); my %args = ( %defaults, @_ ); $logger_object = $args{logger_object}; $diagnostics_object = $args{diagnostics_object}; # we create another object with a get_line() and peek_ahead() method my $sink_object = $args{sink_object}; $file_writer_object = Perl::Tidy::FileWriter->new( $sink_object, $rOpts, $logger_object ); # initialize the leading whitespace stack to negative levels # so that we can never run off the end of the stack $peak_batch_size = 0; # flag to determine if we have output code $gnu_position_predictor = 0; # where the current token is predicted to be $max_gnu_stack_index = 0; $max_gnu_item_index = -1; $gnu_stack[0] = new_lp_indentation_item( 0, -1, -1, 0, 0 ); @gnu_item_list = (); $last_output_indentation = 0; $last_indentation_written = 0; $last_unadjusted_indentation = 0; $last_leading_token = ""; $last_output_short_opening_token = 0; $saw_VERSION_in_this_file = !$rOpts->{'pass-version-line'}; $saw_END_or_DATA_ = 0; @block_type_to_go = (); @type_sequence_to_go = (); @container_environment_to_go = (); @bond_strength_to_go = (); @forced_breakpoint_to_go = (); @summed_lengths_to_go = (); # line length to start of ith token @token_lengths_to_go = (); @levels_to_go = (); @matching_token_to_go = (); @mate_index_to_go = (); @ci_levels_to_go = (); @nesting_depth_to_go = (0); @nobreak_to_go = (); @old_breakpoint_to_go = (); @tokens_to_go = (); @rtoken_vars_to_go = (); @K_to_go = (); @types_to_go = (); @leading_spaces_to_go = (); @reduced_spaces_to_go = (); @inext_to_go = (); @iprev_to_go = (); @whitespace_level_stack = (); $whitespace_last_level = -1; @dont_align = (); @has_broken_sublist = (); @want_comma_break = (); @ci_stack = (""); $first_tabbing_disagreement = 0; $last_tabbing_disagreement = 0; $tabbing_disagreement_count = 0; $in_tabbing_disagreement = 0; $input_line_tabbing = undef; $last_last_line_leading_level = 0; $last_line_leading_level = 0; $last_line_leading_type = '#'; $last_nonblank_token = ';'; $last_nonblank_type = ';'; $last_last_nonblank_token = ';'; $last_last_nonblank_type = ';'; $last_nonblank_block_type = ""; $last_output_level = 0; $looking_for_else = 0; $embedded_tab_count = 0; $first_embedded_tab_at = 0; $last_embedded_tab_at = 0; $deleted_semicolon_count = 0; $first_deleted_semicolon_at = 0; $last_deleted_semicolon_at = 0; $added_semicolon_count = 0; $first_added_semicolon_at = 0; $last_added_semicolon_at = 0; $is_static_block_comment = 0; %postponed_breakpoint = (); # variables for adding side comments %block_leading_text = (); %block_opening_line_number = (); $csc_new_statement_ok = 1; %csc_block_label = (); %saved_opening_indentation = (); reset_block_text_accumulator(); prepare_for_new_input_lines(); $vertical_aligner_object = Perl::Tidy::VerticalAligner->initialize( $rOpts, $file_writer_object, $logger_object, $diagnostics_object ); if ( $rOpts->{'entab-leading-whitespace'} ) { write_logfile_entry( "Leading whitespace will be entabbed with $rOpts->{'entab-leading-whitespace'} spaces per tab\n" ); } elsif ( $rOpts->{'tabs'} ) { write_logfile_entry("Indentation will be with a tab character\n"); } else { write_logfile_entry( "Indentation will be with $rOpts->{'indent-columns'} spaces\n"); } # This hash holds the main data structures for formatting # All hash keys must be defined here. $formatter_self = { rlines => [], # = ref to array of lines of the file rLL => [], # = ref to array with all tokens # in the file. LL originally meant # 'Linked List'. Linked lists were a # bad idea but LL is easy to type. Klimit => undef, # = maximum K index for rLL. This is # needed to catch any autovivification # problems. rnested_pairs => [], # for welding decisions K_opening_container => {}, # for quickly traversing structure K_closing_container => {}, # for quickly traversing structure K_opening_ternary => {}, # for quickly traversing structure K_closing_ternary => {}, # for quickly traversing structure rK_phantom_semicolons => undef, # for undoing phantom semicolons if iterating rpaired_to_inner_container => {}, rbreak_container => {}, # prevent one-line blocks rvalid_self_keys => [], # for checking }; my @valid_keys = keys %{$formatter_self}; $formatter_self->{rvalid_self_keys} = \@valid_keys; bless $formatter_self, $class; # Safety check..this is not a class yet if ( _increment_count() > 1 ) { confess "Attempt to create more than 1 object in $class, which is not a true class yet\n"; } return $formatter_self; } sub Fault { my ($msg) = @_; # This routine is called for errors that really should not occur # except if there has been a bug introduced by a recent program change my ( $package0, $filename0, $line0, $subroutine0 ) = caller(0); my ( $package1, $filename1, $line1, $subroutine1 ) = caller(1); my ( $package2, $filename2, $line2, $subroutine2 ) = caller(2); Perl::Tidy::Die(<{rvalid_self_keys} }; my %valid_self_hash; @valid_self_hash{@valid_self_keys} = (1) x scalar(@valid_self_keys); check_keys( $self, \%valid_self_hash, "Checkpoint: self error", 1 ); return; } sub check_token_array { my $self = shift; # Check for errors in the array of tokens # Uses package variable $NVARS $self->check_self_hash(); my $rLL = $self->{rLL}; for ( my $KK = 0 ; $KK < @{$rLL} ; $KK++ ) { my $nvars = @{ $rLL->[$KK] }; if ( $nvars != $NVARS ) { my $type = $rLL->[$KK]->[_TYPE_]; $type = '*' unless defined($type); Fault( "number of vars for node $KK, type '$type', is $nvars but should be $NVARS" ); } foreach my $var ( _TOKEN_, _TYPE_ ) { if ( !defined( $rLL->[$KK]->[$var] ) ) { my $iline = $rLL->[$KK]->[_LINE_INDEX_]; Fault("Undefined variable $var for K=$KK, line=$iline\n"); } } return; } } sub set_rLL_max_index { my $self = shift; # Set the limit of the rLL array, assuming that it is correct. # This should only be called by routines after they make changes # to tokenization my $rLL = $self->{rLL}; if ( !defined($rLL) ) { # Shouldn't happen because rLL was initialized to be an array ref Fault("Undefined Memory rLL"); } my $Klimit_old = $self->{Klimit}; my $num = @{$rLL}; my $Klimit; if ( $num > 0 ) { $Klimit = $num - 1 } $self->{Klimit} = $Klimit; return ($Klimit); } sub get_rLL_max_index { my $self = shift; # the memory location $rLL and number of tokens should be obtained # from this routine so that any autovivication can be immediately caught. my $rLL = $self->{rLL}; my $Klimit = $self->{Klimit}; if ( !defined($rLL) ) { # Shouldn't happen because rLL was initialized to be an array ref Fault("Undefined Memory rLL"); } my $num = @{$rLL}; if ( $num == 0 && defined($Klimit) || $num > 0 && !defined($Klimit) || $num > 0 && $Klimit != $num - 1 ) { # Possible autovivification problem... if ( !defined($Klimit) ) { $Klimit = '*' } Fault("Error getting rLL: Memory items=$num and Klimit=$Klimit"); } return ($Klimit); } sub prepare_for_new_input_lines { # Remember the largest batch size processed. This is needed # by the pad routine to avoid padding the first nonblank token if ( $max_index_to_go && $max_index_to_go > $peak_batch_size ) { $peak_batch_size = $max_index_to_go; } $gnu_sequence_number++; # increment output batch counter %last_gnu_equals = (); %gnu_comma_count = (); %gnu_arrow_count = (); $line_start_index_to_go = 0; $max_gnu_item_index = UNDEFINED_INDEX; $index_max_forced_break = UNDEFINED_INDEX; $max_index_to_go = UNDEFINED_INDEX; $last_nonblank_index_to_go = UNDEFINED_INDEX; $last_nonblank_type_to_go = ''; $last_nonblank_token_to_go = ''; $last_last_nonblank_index_to_go = UNDEFINED_INDEX; $last_last_nonblank_type_to_go = ''; $last_last_nonblank_token_to_go = ''; $forced_breakpoint_count = 0; $forced_breakpoint_undo_count = 0; $rbrace_follower = undef; $summed_lengths_to_go[0] = 0; $comma_count_in_batch = 0; $starting_in_quote = 0; destroy_one_line_block(); return; } sub break_lines { # Loop over old lines to set new line break points my $self = shift; my $rlines = $self->{rlines}; # Flag to prevent blank lines when POD occurs in a format skipping sect. my $in_format_skipping_section; my $line_type = ""; foreach my $line_of_tokens ( @{$rlines} ) { my $last_line_type = $line_type; $line_type = $line_of_tokens->{_line_type}; my $input_line = $line_of_tokens->{_line_text}; # _line_type codes are: # SYSTEM - system-specific code before hash-bang line # CODE - line of perl code (including comments) # POD_START - line starting pod, such as '=head' # POD - pod documentation text # POD_END - last line of pod section, '=cut' # HERE - text of here-document # HERE_END - last line of here-doc (target word) # FORMAT - format section # FORMAT_END - last line of format section, '.' # DATA_START - __DATA__ line # DATA - unidentified text following __DATA__ # END_START - __END__ line # END - unidentified text following __END__ # ERROR - we are in big trouble, probably not a perl script # put a blank line after an =cut which comes before __END__ and __DATA__ # (required by podchecker) if ( $last_line_type eq 'POD_END' && !$saw_END_or_DATA_ ) { $file_writer_object->reset_consecutive_blank_lines(); if ( !$in_format_skipping_section && $input_line !~ /^\s*$/ ) { $self->want_blank_line(); } } # handle line of code.. if ( $line_type eq 'CODE' ) { my $CODE_type = $line_of_tokens->{_code_type}; $in_format_skipping_section = $CODE_type eq 'FS'; # Handle blank lines if ( $CODE_type eq 'BL' ) { # If keep-old-blank-lines is zero, we delete all # old blank lines and let the blank line rules generate any # needed blanks. if ($rOpts_keep_old_blank_lines) { $self->flush(); $file_writer_object->write_blank_code_line( $rOpts_keep_old_blank_lines == 2 ); $last_line_leading_type = 'b'; } next; } else { # let logger see all non-blank lines of code my $output_line_number = get_output_line_number(); ##$vertical_aligner_object->get_output_line_number(); black_box( $line_of_tokens, $output_line_number ); } # Handle Format Skipping (FS) and Verbatim (VB) Lines if ( $CODE_type eq 'VB' || $CODE_type eq 'FS' ) { $self->write_unindented_line("$input_line"); $file_writer_object->reset_consecutive_blank_lines(); next; } # Handle all other lines of code $self->print_line_of_tokens($line_of_tokens); } # handle line of non-code.. else { # set special flags my $skip_line = 0; my $tee_line = 0; if ( $line_type =~ /^POD/ ) { # Pod docs should have a preceding blank line. But stay # out of __END__ and __DATA__ sections, because # the user may be using this section for any purpose whatsoever if ( $rOpts->{'delete-pod'} ) { $skip_line = 1; } if ( $rOpts->{'tee-pod'} ) { $tee_line = 1; } if ( $rOpts->{'trim-pod'} ) { $input_line =~ s/\s+$// } if ( !$skip_line && !$in_format_skipping_section && $line_type eq 'POD_START' && !$saw_END_or_DATA_ ) { $self->want_blank_line(); } } # leave the blank counters in a predictable state # after __END__ or __DATA__ elsif ( $line_type =~ /^(END_START|DATA_START)$/ ) { $file_writer_object->reset_consecutive_blank_lines(); $saw_END_or_DATA_ = 1; } # write unindented non-code line if ( !$skip_line ) { if ($tee_line) { $file_writer_object->tee_on() } $self->write_unindented_line($input_line); if ($tee_line) { $file_writer_object->tee_off() } } } } return; } { ## Beginning of routine to check line hashes my %valid_line_hash; BEGIN { # These keys are defined for each line in the formatter # Each line must have exactly these quantities my @valid_line_keys = qw( _curly_brace_depth _ending_in_quote _guessed_indentation_level _line_number _line_text _line_type _paren_depth _quote_character _rK_range _square_bracket_depth _starting_in_quote _ended_in_blank_token _code_type _ci_level_0 _level_0 _nesting_blocks_0 _nesting_tokens_0 ); @valid_line_hash{@valid_line_keys} = (1) x scalar(@valid_line_keys); } sub check_line_hashes { my $self = shift; $self->check_self_hash(); my $rlines = $self->{rlines}; foreach my $rline ( @{$rlines} ) { my $iline = $rline->{_line_number}; my $line_type = $rline->{_line_type}; check_keys( $rline, \%valid_line_hash, "Checkpoint: line number =$iline, line_type=$line_type", 1 ); } return; } } ## End check line hashes sub write_line { # We are caching tokenized lines as they arrive and converting them to the # format needed for the final formatting. my ( $self, $line_of_tokens_old ) = @_; my $rLL = $self->{rLL}; my $Klimit = $self->{Klimit}; my $rlines_new = $self->{rlines}; my $Kfirst; my $line_of_tokens = {}; foreach my $key ( qw( _curly_brace_depth _ending_in_quote _guessed_indentation_level _line_number _line_text _line_type _paren_depth _quote_character _square_bracket_depth _starting_in_quote ) ) { $line_of_tokens->{$key} = $line_of_tokens_old->{$key}; } # Data needed by Logger $line_of_tokens->{_level_0} = 0; $line_of_tokens->{_ci_level_0} = 0; $line_of_tokens->{_nesting_blocks_0} = ""; $line_of_tokens->{_nesting_tokens_0} = ""; # Needed to avoid trimming quotes $line_of_tokens->{_ended_in_blank_token} = undef; my $line_type = $line_of_tokens_old->{_line_type}; my $input_line_no = $line_of_tokens_old->{_line_number} - 1; if ( $line_type eq 'CODE' ) { my $rtokens = $line_of_tokens_old->{_rtokens}; my $rtoken_type = $line_of_tokens_old->{_rtoken_type}; my $rblock_type = $line_of_tokens_old->{_rblock_type}; my $rcontainer_type = $line_of_tokens_old->{_rcontainer_type}; my $rcontainer_environment = $line_of_tokens_old->{_rcontainer_environment}; my $rtype_sequence = $line_of_tokens_old->{_rtype_sequence}; my $rlevels = $line_of_tokens_old->{_rlevels}; my $rslevels = $line_of_tokens_old->{_rslevels}; my $rci_levels = $line_of_tokens_old->{_rci_levels}; my $rnesting_blocks = $line_of_tokens_old->{_rnesting_blocks}; my $rnesting_tokens = $line_of_tokens_old->{_rnesting_tokens}; my $jmax = @{$rtokens} - 1; if ( $jmax >= 0 ) { $Kfirst = defined($Klimit) ? $Klimit + 1 : 0; foreach my $j ( 0 .. $jmax ) { my @tokary; @tokary[ _TOKEN_, _TYPE_, _BLOCK_TYPE_, _CONTAINER_TYPE_, _CONTAINER_ENVIRONMENT_, _TYPE_SEQUENCE_, _LEVEL_, _LEVEL_TRUE_, _SLEVEL_, _CI_LEVEL_, _LINE_INDEX_, ] = ( $rtokens->[$j], $rtoken_type->[$j], $rblock_type->[$j], $rcontainer_type->[$j], $rcontainer_environment->[$j], $rtype_sequence->[$j], $rlevels->[$j], $rlevels->[$j], $rslevels->[$j], $rci_levels->[$j], $input_line_no, ); ##push @token_array, \@tokary; push @{$rLL}, \@tokary; } #$Klast=@{$rLL}-1; $Klimit = @{$rLL} - 1; # Need to remember if we can trim the input line $line_of_tokens->{_ended_in_blank_token} = $rtoken_type->[$jmax] eq 'b'; $line_of_tokens->{_level_0} = $rlevels->[0]; $line_of_tokens->{_ci_level_0} = $rci_levels->[0]; $line_of_tokens->{_nesting_blocks_0} = $rnesting_blocks->[0]; $line_of_tokens->{_nesting_tokens_0} = $rnesting_tokens->[0]; } } $line_of_tokens->{_rK_range} = [ $Kfirst, $Klimit ]; $line_of_tokens->{_code_type} = ""; $self->{Klimit} = $Klimit; push @{$rlines_new}, $line_of_tokens; return; } BEGIN { # initialize these global hashes, which control the use of # whitespace around tokens: # # %binary_ws_rules # %want_left_space # %want_right_space # %space_after_keyword # # Many token types are identical to the tokens themselves. # See the tokenizer for a complete list. Here are some special types: # k = perl keyword # f = semicolon in for statement # m = unary minus # p = unary plus # Note that :: is excluded since it should be contained in an identifier # Note that '->' is excluded because it never gets space # parentheses and brackets are excluded since they are handled specially # curly braces are included but may be overridden by logic, such as # newline logic. # NEW_TOKENS: create a whitespace rule here. This can be as # simple as adding your new letter to @spaces_both_sides, for # example. my @q; @q = qw" L { ( [ "; @is_opening_type{@q} = (1) x scalar(@q); @q = qw" R } ) ] "; @is_closing_type{@q} = (1) x scalar(@q); my @spaces_both_sides = qw" + - * / % ? = . : x < > | & ^ .. << >> ** && .. || // => += -= .= %= x= &= |= ^= *= <> <= >= == =~ !~ /= != ... <<= >>= ~~ !~~ &&= ||= //= <=> A k f w F n C Y U G v "; my @spaces_left_side = qw" t ! ~ m p { \ h pp mm Z j "; push( @spaces_left_side, '#' ); # avoids warning message my @spaces_right_side = qw" ; } ) ] R J ++ -- **= "; push( @spaces_right_side, ',' ); # avoids warning message # Note that we are in a BEGIN block here. Later in processing # the values of %want_left_space and %want_right_space # may be overridden by any user settings specified by the # -wls and -wrs parameters. However the binary_whitespace_rules # are hardwired and have priority. @want_left_space{@spaces_both_sides} = (1) x scalar(@spaces_both_sides); @want_right_space{@spaces_both_sides} = (1) x scalar(@spaces_both_sides); @want_left_space{@spaces_left_side} = (1) x scalar(@spaces_left_side); @want_right_space{@spaces_left_side} = (-1) x scalar(@spaces_left_side); @want_left_space{@spaces_right_side} = (-1) x scalar(@spaces_right_side); @want_right_space{@spaces_right_side} = (1) x scalar(@spaces_right_side); $want_left_space{'->'} = WS_NO; $want_right_space{'->'} = WS_NO; $want_left_space{'**'} = WS_NO; $want_right_space{'**'} = WS_NO; $want_right_space{'CORE::'} = WS_NO; # These binary_ws_rules are hardwired and have priority over the above # settings. It would be nice to allow adjustment by the user, # but it would be complicated to specify. # # hash type information must stay tightly bound # as in : ${xxxx} $binary_ws_rules{'i'}{'L'} = WS_NO; $binary_ws_rules{'i'}{'{'} = WS_YES; $binary_ws_rules{'k'}{'{'} = WS_YES; $binary_ws_rules{'U'}{'{'} = WS_YES; $binary_ws_rules{'i'}{'['} = WS_NO; $binary_ws_rules{'R'}{'L'} = WS_NO; $binary_ws_rules{'R'}{'{'} = WS_NO; $binary_ws_rules{'t'}{'L'} = WS_NO; $binary_ws_rules{'t'}{'{'} = WS_NO; $binary_ws_rules{'}'}{'L'} = WS_NO; $binary_ws_rules{'}'}{'{'} = WS_NO; $binary_ws_rules{'$'}{'L'} = WS_NO; $binary_ws_rules{'$'}{'{'} = WS_NO; $binary_ws_rules{'@'}{'L'} = WS_NO; $binary_ws_rules{'@'}{'{'} = WS_NO; $binary_ws_rules{'='}{'L'} = WS_YES; $binary_ws_rules{'J'}{'J'} = WS_YES; # the following includes ') {' # as in : if ( xxx ) { yyy } $binary_ws_rules{']'}{'L'} = WS_NO; $binary_ws_rules{']'}{'{'} = WS_NO; $binary_ws_rules{')'}{'{'} = WS_YES; $binary_ws_rules{')'}{'['} = WS_NO; $binary_ws_rules{']'}{'['} = WS_NO; $binary_ws_rules{']'}{'{'} = WS_NO; $binary_ws_rules{'}'}{'['} = WS_NO; $binary_ws_rules{'R'}{'['} = WS_NO; $binary_ws_rules{']'}{'++'} = WS_NO; $binary_ws_rules{']'}{'--'} = WS_NO; $binary_ws_rules{')'}{'++'} = WS_NO; $binary_ws_rules{')'}{'--'} = WS_NO; $binary_ws_rules{'R'}{'++'} = WS_NO; $binary_ws_rules{'R'}{'--'} = WS_NO; $binary_ws_rules{'i'}{'Q'} = WS_YES; $binary_ws_rules{'n'}{'('} = WS_YES; # occurs in 'use package n ()' # FIXME: we could to split 'i' into variables and functions # and have no space for functions but space for variables. For now, # I have a special patch in the special rules below $binary_ws_rules{'i'}{'('} = WS_NO; $binary_ws_rules{'w'}{'('} = WS_NO; $binary_ws_rules{'w'}{'{'} = WS_YES; } ## end BEGIN block sub set_whitespace_flags { # This routine examines each pair of nonblank tokens and # sets a flag indicating if white space is needed. # # $rwhitespace_flags->[$j] is a flag indicating whether a white space # BEFORE token $j is needed, with the following values: # # WS_NO = -1 do not want a space before token $j # WS_OPTIONAL= 0 optional space or $j is a whitespace # WS_YES = 1 want a space before token $j # my $self = shift; my $rLL = $self->{rLL}; my $rwhitespace_flags = []; my ( $last_token, $last_type, $last_block_type, $last_input_line_no, $token, $type, $block_type, $input_line_no ); my $j_tight_closing_paren = -1; $token = ' '; $type = 'b'; $block_type = ''; $input_line_no = 0; $last_token = ' '; $last_type = 'b'; $last_block_type = ''; $last_input_line_no = 0; my $jmax = @{$rLL} - 1; my ($ws); # This is some logic moved to a sub to avoid deep nesting of if stmts my $ws_in_container = sub { my ($j) = @_; my $ws = WS_YES; if ( $j + 1 > $jmax ) { return (WS_NO) } # Patch to count '-foo' as single token so that # each of $a{-foo} and $a{foo} and $a{'foo'} do # not get spaces with default formatting. my $j_here = $j; ++$j_here if ( $token eq '-' && $last_token eq '{' && $rLL->[ $j + 1 ]->[_TYPE_] eq 'w' ); # $j_next is where a closing token should be if # the container has a single token if ( $j_here + 1 > $jmax ) { return (WS_NO) } my $j_next = ( $rLL->[ $j_here + 1 ]->[_TYPE_] eq 'b' ) ? $j_here + 2 : $j_here + 1; if ( $j_next > $jmax ) { return WS_NO } my $tok_next = $rLL->[$j_next]->[_TOKEN_]; my $type_next = $rLL->[$j_next]->[_TYPE_]; # for tightness = 1, if there is just one token # within the matching pair, we will keep it tight if ( $tok_next eq $matching_token{$last_token} # but watch out for this: [ [ ] (misc.t) && $last_token ne $token # double diamond is usually spaced && $token ne '<<>>' ) { # remember where to put the space for the closing paren $j_tight_closing_paren = $j_next; return (WS_NO); } return (WS_YES); }; # main loop over all tokens to define the whitespace flags for ( my $j = 0 ; $j <= $jmax ; $j++ ) { my $rtokh = $rLL->[$j]; # Set a default $rwhitespace_flags->[$j] = WS_OPTIONAL; if ( $rtokh->[_TYPE_] eq 'b' ) { next; } # set a default value, to be changed as needed $ws = undef; $last_token = $token; $last_type = $type; $last_block_type = $block_type; $last_input_line_no = $input_line_no; $token = $rtokh->[_TOKEN_]; $type = $rtokh->[_TYPE_]; $block_type = $rtokh->[_BLOCK_TYPE_]; $input_line_no = $rtokh->[_LINE_INDEX_]; #--------------------------------------------------------------- # Whitespace Rules Section 1: # Handle space on the inside of opening braces. #--------------------------------------------------------------- # /^[L\{\(\[]$/ if ( $is_opening_type{$last_type} ) { $j_tight_closing_paren = -1; # let us keep empty matched braces together: () {} [] # except for BLOCKS if ( $token eq $matching_token{$last_token} ) { if ($block_type) { $ws = WS_YES; } else { $ws = WS_NO; } } else { # we're considering the right of an opening brace # tightness = 0 means always pad inside with space # tightness = 1 means pad inside if "complex" # tightness = 2 means never pad inside with space my $tightness; if ( $last_type eq '{' && $last_token eq '{' && $last_block_type ) { $tightness = $rOpts_block_brace_tightness; } else { $tightness = $tightness{$last_token} } #============================================================= # Patch for test problem fabrice_bug.pl # We must always avoid spaces around a bare word beginning # with ^ as in: # my $before = ${^PREMATCH}; # Because all of the following cause an error in perl: # my $before = ${ ^PREMATCH }; # my $before = ${ ^PREMATCH}; # my $before = ${^PREMATCH }; # So if brace tightness flag is -bt=0 we must temporarily reset # to bt=1. Note that here we must set tightness=1 and not 2 so # that the closing space # is also avoided (via the $j_tight_closing_paren flag in coding) if ( $type eq 'w' && $token =~ /^\^/ ) { $tightness = 1 } #============================================================= if ( $tightness <= 0 ) { $ws = WS_YES; } elsif ( $tightness > 1 ) { $ws = WS_NO; } else { $ws = $ws_in_container->($j); } } } # end setting space flag inside opening tokens my $ws_1; $ws_1 = $ws if FORMATTER_DEBUG_FLAG_WHITE; #--------------------------------------------------------------- # Whitespace Rules Section 2: # Handle space on inside of closing brace pairs. #--------------------------------------------------------------- # /[\}\)\]R]/ if ( $is_closing_type{$type} ) { if ( $j == $j_tight_closing_paren ) { $j_tight_closing_paren = -1; $ws = WS_NO; } else { if ( !defined($ws) ) { my $tightness; if ( $type eq '}' && $token eq '}' && $block_type ) { $tightness = $rOpts_block_brace_tightness; } else { $tightness = $tightness{$token} } $ws = ( $tightness > 1 ) ? WS_NO : WS_YES; } } } # end setting space flag inside closing tokens my $ws_2; $ws_2 = $ws if FORMATTER_DEBUG_FLAG_WHITE; #--------------------------------------------------------------- # Whitespace Rules Section 3: # Use the binary rule table. #--------------------------------------------------------------- if ( !defined($ws) ) { $ws = $binary_ws_rules{$last_type}{$type}; } my $ws_3; $ws_3 = $ws if FORMATTER_DEBUG_FLAG_WHITE; #--------------------------------------------------------------- # Whitespace Rules Section 4: # Handle some special cases. #--------------------------------------------------------------- if ( $token eq '(' ) { # This will have to be tweaked as tokenization changes. # We usually want a space at '} (', for example: # map { 1 * $_; } ( $y, $M, $w, $d, $h, $m, $s ); # # But not others: # &{ $_->[1] }( delete $_[$#_]{ $_->[0] } ); # At present, the above & block is marked as type L/R so this case # won't go through here. if ( $last_type eq '}' ) { $ws = WS_YES } # NOTE: some older versions of Perl had occasional problems if # spaces are introduced between keywords or functions and opening # parens. So the default is not to do this except is certain # cases. The current Perl seems to tolerate spaces. # Space between keyword and '(' elsif ( $last_type eq 'k' ) { $ws = WS_NO unless ( $rOpts_space_keyword_paren || $space_after_keyword{$last_token} ); } # Space between function and '(' # ----------------------------------------------------- # 'w' and 'i' checks for something like: # myfun( &myfun( ->myfun( # ----------------------------------------------------- elsif (( $last_type =~ /^[wUG]$/ ) || ( $last_type =~ /^[wi]$/ && $last_token =~ /^(\&|->)/ ) ) { $ws = WS_NO unless ($rOpts_space_function_paren); } # space between something like $i and ( in # for $i ( 0 .. 20 ) { # FIXME: eventually, type 'i' needs to be split into multiple # token types so this can be a hardwired rule. elsif ( $last_type eq 'i' && $last_token =~ /^[\$\%\@]/ ) { $ws = WS_YES; } # allow constant function followed by '()' to retain no space elsif ($last_type eq 'C' && $rLL->[ $j + 1 ]->[_TOKEN_] eq ')' ) { $ws = WS_NO; } } # patch for SWITCH/CASE: make space at ']{' optional # since the '{' might begin a case or when block elsif ( ( $token eq '{' && $type ne 'L' ) && $last_token eq ']' ) { $ws = WS_OPTIONAL; } # keep space between 'sub' and '{' for anonymous sub definition if ( $type eq '{' ) { if ( $last_token eq 'sub' ) { $ws = WS_YES; } # this is needed to avoid no space in '){' if ( $last_token eq ')' && $token eq '{' ) { $ws = WS_YES } # avoid any space before the brace or bracket in something like # @opts{'a','b',...} if ( $last_type eq 'i' && $last_token =~ /^\@/ ) { $ws = WS_NO; } } elsif ( $type eq 'i' ) { # never a space before -> if ( $token =~ /^\-\>/ ) { $ws = WS_NO; } } # retain any space between '-' and bare word elsif ( $type eq 'w' || $type eq 'C' ) { $ws = WS_OPTIONAL if $last_type eq '-'; # never a space before -> if ( $token =~ /^\-\>/ ) { $ws = WS_NO; } } # retain any space between '-' and bare word # example: avoid space between 'USER' and '-' here: # $myhash{USER-NAME}='steve'; elsif ( $type eq 'm' || $type eq '-' ) { $ws = WS_OPTIONAL if ( $last_type eq 'w' ); } # always space before side comment elsif ( $type eq '#' ) { $ws = WS_YES if $j > 0 } # always preserver whatever space was used after a possible # filehandle (except _) or here doc operator if ( $type ne '#' && ( ( $last_type eq 'Z' && $last_token ne '_' ) || $last_type eq 'h' ) ) { $ws = WS_OPTIONAL; } # space_backslash_quote; RT #123774 # allow a space between a backslash and single or double quote # to avoid fooling html formatters elsif ( $last_type eq '\\' && $type eq 'Q' && $token =~ /^[\"\']/ ) { if ($rOpts_space_backslash_quote) { if ( $rOpts_space_backslash_quote == 1 ) { $ws = WS_OPTIONAL; } elsif ( $rOpts_space_backslash_quote == 2 ) { $ws = WS_YES } else { } # shouldnt happen } else { $ws = WS_NO; } } my $ws_4; $ws_4 = $ws if FORMATTER_DEBUG_FLAG_WHITE; #--------------------------------------------------------------- # Whitespace Rules Section 5: # Apply default rules not covered above. #--------------------------------------------------------------- # If we fall through to here, look at the pre-defined hash tables for # the two tokens, and: # if (they are equal) use the common value # if (either is zero or undef) use the other # if (either is -1) use it # That is, # left vs right # 1 vs 1 --> 1 # 0 vs 0 --> 0 # -1 vs -1 --> -1 # # 0 vs -1 --> -1 # 0 vs 1 --> 1 # 1 vs 0 --> 1 # -1 vs 0 --> -1 # # -1 vs 1 --> -1 # 1 vs -1 --> -1 if ( !defined($ws) ) { my $wl = $want_left_space{$type}; my $wr = $want_right_space{$last_type}; if ( !defined($wl) ) { $wl = 0 } if ( !defined($wr) ) { $wr = 0 } $ws = ( ( $wl == $wr ) || ( $wl == -1 ) || !$wr ) ? $wl : $wr; } if ( !defined($ws) ) { $ws = 0; write_diagnostics( "WS flag is undefined for tokens $last_token $token\n"); } # Treat newline as a whitespace. Otherwise, we might combine # 'Send' and '-recipients' here according to the above rules: # my $msg = new Fax::Send # -recipients => $to, # -data => $data; if ( $ws == 0 && $input_line_no != $last_input_line_no ) { $ws = 1 } if ( ( $ws == 0 ) && $j > 0 && $j < $jmax && ( $last_type !~ /^[Zh]$/ ) ) { # If this happens, we have a non-fatal but undesirable # hole in the above rules which should be patched. write_diagnostics( "WS flag is zero for tokens $last_token $token\n"); } $rwhitespace_flags->[$j] = $ws; FORMATTER_DEBUG_FLAG_WHITE && do { my $str = substr( $last_token, 0, 15 ); $str .= ' ' x ( 16 - length($str) ); if ( !defined($ws_1) ) { $ws_1 = "*" } if ( !defined($ws_2) ) { $ws_2 = "*" } if ( !defined($ws_3) ) { $ws_3 = "*" } if ( !defined($ws_4) ) { $ws_4 = "*" } print STDOUT "NEW WHITE: i=$j $str $last_type $type $ws_1 : $ws_2 : $ws_3 : $ws_4 : $ws \n"; }; } ## end main loop if ( $rOpts->{'tight-secret-operators'} ) { new_secret_operator_whitespace( $rLL, $rwhitespace_flags ); } return $rwhitespace_flags; } ## end sub set_whitespace_flags sub respace_tokens { my $self = shift; return if $rOpts->{'indent-only'}; # This routine makes all necessary changes to the tokenization after the # file has been read. This consists mostly of inserting and deleting spaces # according to the selected parameters. In a few cases non-space characters # are added, deleted or modified. # The old tokens are copied one-by-one, with changes, from the old # linear storage array to a new array. my $rLL = $self->{rLL}; my $Klimit_old = $self->{Klimit}; my $rlines = $self->{rlines}; my $rpaired_to_inner_container = $self->{rpaired_to_inner_container}; my $rLL_new = []; # This is the new array my $KK = 0; my $rtoken_vars; my $Kmax = @{$rLL} - 1; # Set the whitespace flags, which indicate the token spacing preference. my $rwhitespace_flags = $self->set_whitespace_flags(); # we will be setting token lengths as we go my $cumulative_length = 0; # We also define these hash indexes giving container token array indexes # as a function of the container sequence numbers. For example, my $K_opening_container = {}; # opening [ { or ( my $K_closing_container = {}; # closing ] } or ) my $K_opening_ternary = {}; # opening ? of ternary my $K_closing_ternary = {}; # closing : of ternary # List of new K indexes of phantom semicolons # This will be needed if we want to undo them for iterations my $rK_phantom_semicolons = []; # Temporary hashes for adding semicolons ##my $rKfirst_new = {}; # a sub to link preceding nodes forward to a new node type my $link_back = sub { my ( $Ktop, $key ) = @_; my $Kprev = $Ktop - 1; while ( $Kprev >= 0 && !defined( $rLL_new->[$Kprev]->[$key] ) ) { $rLL_new->[$Kprev]->[$key] = $Ktop; $Kprev -= 1; } }; # A sub to store each token in the new array # All new tokens must be stored by this sub so that it can update # all data structures on the fly. my $last_nonblank_type = ';'; my $store_token = sub { my ($item) = @_; # This will be the index of this item in the new array my $KK_new = @{$rLL_new}; # check for a sequenced item (i.e., container or ?/:) my $type_sequence = $item->[_TYPE_SEQUENCE_]; if ($type_sequence) { $link_back->( $KK_new, _KNEXT_SEQ_ITEM_ ); my $token = $item->[_TOKEN_]; if ( $is_opening_token{$token} ) { $K_opening_container->{$type_sequence} = $KK_new; } elsif ( $is_closing_token{$token} ) { $K_closing_container->{$type_sequence} = $KK_new; } # These are not yet used but could be useful else { if ( $token eq '?' ) { $K_opening_ternary->{$type_sequence} = $KK; } elsif ( $token eq ':' ) { $K_closing_ternary->{$type_sequence} = $KK; } else { # shouldn't happen print STDERR "Ugh: shouldn't happen\n"; } } } # Save the length sum to just BEFORE this token $item->[_CUMULATIVE_LENGTH_] = $cumulative_length; # now set the length of this token my $token_length = length( $item->[_TOKEN_] ); # and update the cumulative length $cumulative_length += $token_length; my $type = $item->[_TYPE_]; if ( $type ne 'b' ) { $last_nonblank_type = $type } # and finally, add this item to the new array push @{$rLL_new}, $item; }; my $add_phantom_semicolon = sub { my ($KK) = @_; my $Kp = $self->K_previous_nonblank( undef, $rLL_new ); return unless ( defined($Kp) ); # we are only adding semicolons for certain block types my $block_type = $rLL->[$KK]->[_BLOCK_TYPE_]; return unless ( $ok_to_add_semicolon_for_block_type{$block_type} || $block_type =~ /^(sub|package)/ || $block_type =~ /^\w+\:$/ ); my $type_sequence = $rLL->[$KK]->[_TYPE_SEQUENCE_]; my $previous_nonblank_type = $rLL_new->[$Kp]->[_TYPE_]; my $previous_nonblank_token = $rLL_new->[$Kp]->[_TOKEN_]; # Do not add a semicolon if... return if ( # it would follow a comment (and be isolated) $previous_nonblank_type eq '#' # it follows a code block ( because they are not always wanted # there and may add clutter) || $rLL_new->[$Kp]->[_BLOCK_TYPE_] # it would follow a label || $previous_nonblank_type eq 'J' # it would be inside a 'format' statement (and cause syntax error) || ( $previous_nonblank_type eq 'k' && $previous_nonblank_token =~ /format/ ) # if it would prevent welding two containers || $rpaired_to_inner_container->{$type_sequence} ); # We will insert an empty semicolon here as a placeholder. # Later, if it becomes the last token on a line, we will bring it to life. # The advantage of doing this is that (1) we just have to check line endings, # and (2) the phantom semicolon has zero width and therefore won't cause # needless breaks of one-line blocks. my $Ktop = -1; if ( $rLL_new->[$Ktop]->[_TYPE_] eq 'b' && $want_left_space{';'} == WS_NO ) { # convert the blank into a semicolon.. # be careful: we are working on the new stack top # on a token which has been stored. my $rcopy = copy_token_as_type( $rLL_new->[$Ktop], 'b', ' ' ); # Convert the existing blank to a semicolon $rLL_new->[$Ktop]->[_TOKEN_] = ''; # zero length $rLL_new->[$Ktop]->[_TYPE_] = ';'; $rLL_new->[$Ktop]->[_SLEVEL_] = $rLL->[$KK]->[_SLEVEL_]; push @{$rK_phantom_semicolons}, @{$rLL_new} - 1; # Then store a new blank $store_token->($rcopy); } else { # insert a new token my $rcopy = copy_token_as_type( $rLL_new->[$Kp], ';', '' ); $rcopy->[_SLEVEL_] = $rLL->[$KK]->[_SLEVEL_]; $store_token->($rcopy); push @{$rK_phantom_semicolons}, @{$rLL_new} - 1; } }; my $check_Q = sub { # Check that a quote looks okay # This works but needs to by sync'd with the log file output my ( $KK, $Kfirst ) = @_; my $token = $rLL->[$KK]->[_TOKEN_]; note_embedded_tab() if ( $token =~ "\t" ); my $Kp = $self->K_previous_nonblank( undef, $rLL_new ); return unless ( defined($Kp) ); my $previous_nonblank_type = $rLL_new->[$Kp]->[_TYPE_]; my $previous_nonblank_token = $rLL_new->[$Kp]->[_TOKEN_]; my $previous_nonblank_type_2 = 'b'; my $previous_nonblank_token_2 = ""; my $Kpp = $self->K_previous_nonblank( $Kp, $rLL_new ); if ( defined($Kpp) ) { $previous_nonblank_type_2 = $rLL_new->[$Kpp]->[_TYPE_]; $previous_nonblank_token_2 = $rLL_new->[$Kpp]->[_TOKEN_]; } my $Kn = $self->K_next_nonblank($KK); my $next_nonblank_token = ""; if ( defined($Kn) ) { $next_nonblank_token = $rLL->[$Kn]->[_TOKEN_]; } my $token_0 = $rLL->[$Kfirst]->[_TOKEN_]; my $type_0 = $rLL->[$Kfirst]->[_TYPE_]; # make note of something like '$var = s/xxx/yyy/;' # in case it should have been '$var =~ s/xxx/yyy/;' if ( $token =~ /^(s|tr|y|m|\/)/ && $previous_nonblank_token =~ /^(=|==|!=)$/ # preceded by simple scalar && $previous_nonblank_type_2 eq 'i' && $previous_nonblank_token_2 =~ /^\$/ # followed by some kind of termination # (but give complaint if we can not see far enough ahead) && $next_nonblank_token =~ /^[; \)\}]$/ # scalar is not declared && !( $type_0 eq 'k' && $token_0 =~ /^(my|our|local)$/ ) ) { my $guess = substr( $last_nonblank_token, 0, 1 ) . '~'; complain( "Note: be sure you want '$previous_nonblank_token' instead of '$guess' here\n" ); } }; # Main loop over all lines of the file my $last_K_out; my $CODE_type = ""; my $line_type = ""; foreach my $line_of_tokens ( @{$rlines} ) { $input_line_number = $line_of_tokens->{_line_number}; my $last_line_type = $line_type; $line_type = $line_of_tokens->{_line_type}; next unless ( $line_type eq 'CODE' ); my $last_CODE_type = $CODE_type; $CODE_type = $line_of_tokens->{_code_type}; my $rK_range = $line_of_tokens->{_rK_range}; my ( $Kfirst, $Klast ) = @{$rK_range}; next unless defined($Kfirst); # Check for correct sequence of token indexes... # An error here means that sub write_line() did not correctly # package the tokenized lines as it received them. if ( defined($last_K_out) ) { if ( $Kfirst != $last_K_out + 1 ) { Fault( "Program Bug: last K out was $last_K_out but Kfirst=$Kfirst" ); } } else { if ( $Kfirst != 0 ) { Fault("Program Bug: first K is $Kfirst but should be 0"); } } $last_K_out = $Klast; # Handle special lines of code if ( $CODE_type && $CODE_type ne 'NIN' && $CODE_type ne 'VER' ) { # CODE_types are as follows. # 'BL' = Blank Line # 'VB' = Verbatim - line goes out verbatim # 'FS' = Format Skipping - line goes out verbatim, no blanks # 'IO' = Indent Only - only indentation may be changed # 'NIN' = No Internal Newlines - line does not get broken # 'HSC'=Hanging Side Comment - fix this hanging side comment # 'BC'=Block Comment - an ordinary full line comment # 'SBC'=Static Block Comment - a block comment which does not get # indented # 'SBCX'=Static Block Comment Without Leading Space # 'DEL'=Delete this line # 'VER'=VERSION statement # '' or (undefined) - no restructions # For a hanging side comment we insert an empty quote before # the comment so that it becomes a normal side comment and # will be aligned by the vertical aligner if ( $CODE_type eq 'HSC' ) { # Safety Check: This must be a line with one token (a comment) my $rtoken_vars = $rLL->[$Kfirst]; if ( $Kfirst == $Klast && $rtoken_vars->[_TYPE_] eq '#' ) { # Note that even if the flag 'noadd-whitespace' is set, we will # make an exception here and allow a blank to be inserted to push the comment # to the right. We can think of this as an adjustment of indentation # rather than whitespace between tokens. This will also prevent the hanging # side comment from getting converted to a block comment if whitespace # gets deleted, as for example with the -extrude and -mangle options. my $rcopy = copy_token_as_type( $rtoken_vars, 'q', '' ); $store_token->($rcopy); $rcopy = copy_token_as_type( $rtoken_vars, 'b', ' ' ); $store_token->($rcopy); $store_token->($rtoken_vars); next; } else { # This line was mis-marked by sub scan_comment Fault( "Program bug. A hanging side comment has been mismarked" ); } } # Copy tokens unchanged foreach my $KK ( $Kfirst .. $Klast ) { $store_token->( $rLL->[$KK] ); } next; } # Handle normal line.. # Insert any essential whitespace between lines # if last line was normal CODE my $type_next = $rLL->[$Kfirst]->[_TYPE_]; my $token_next = $rLL->[$Kfirst]->[_TOKEN_]; my $Kp = $self->K_previous_nonblank( undef, $rLL_new ); if ( $last_line_type eq 'CODE' && $type_next ne 'b' && defined($Kp) ) { my $token_p = $rLL_new->[$Kp]->[_TOKEN_]; my $type_p = $rLL_new->[$Kp]->[_TYPE_]; my ( $token_pp, $type_pp ); my $Kpp = $self->K_previous_nonblank( $Kp, $rLL_new ); if ( defined($Kpp) ) { $token_pp = $rLL_new->[$Kpp]->[_TOKEN_]; $type_pp = $rLL_new->[$Kpp]->[_TYPE_]; } else { $token_pp = ";"; $type_pp = ';'; } if ( is_essential_whitespace( $token_pp, $type_pp, $token_p, $type_p, $token_next, $type_next, ) ) { # Copy this first token as blank, but use previous line number my $rcopy = copy_token_as_type( $rLL->[$Kfirst], 'b', ' ' ); $rcopy->[_LINE_INDEX_] = $rLL_new->[-1]->[_LINE_INDEX_]; $store_token->($rcopy); } } # loop to copy all tokens on this line, with any changes my $type_sequence; for ( my $KK = $Kfirst ; $KK <= $Klast ; $KK++ ) { $rtoken_vars = $rLL->[$KK]; my $token = $rtoken_vars->[_TOKEN_]; my $type = $rtoken_vars->[_TYPE_]; my $last_type_sequence = $type_sequence; $type_sequence = $rtoken_vars->[_TYPE_SEQUENCE_]; # Handle a blank space ... if ( $type eq 'b' ) { # Delete it if not wanted by whitespace rules # or we are deleting all whitespace # Note that whitespace flag is a flag indicating whether a # white space BEFORE the token is needed next if ( $KK >= $Kmax ); # skip terminal blank my $Knext = $KK + 1; my $ws = $rwhitespace_flags->[$Knext]; if ( $ws == -1 || $rOpts_delete_old_whitespace ) { # FIXME: maybe switch to using _new my $Kp = $self->K_previous_nonblank($KK); next unless defined($Kp); my $token_p = $rLL->[$Kp]->[_TOKEN_]; my $type_p = $rLL->[$Kp]->[_TYPE_]; my ( $token_pp, $type_pp ); #my $Kpp = $K_previous_nonblank->($Kp); my $Kpp = $self->K_previous_nonblank($Kp); if ( defined($Kpp) ) { $token_pp = $rLL->[$Kpp]->[_TOKEN_]; $type_pp = $rLL->[$Kpp]->[_TYPE_]; } else { $token_pp = ";"; $type_pp = ';'; } my $token_next = $rLL->[$Knext]->[_TOKEN_]; my $type_next = $rLL->[$Knext]->[_TYPE_]; my $do_not_delete = is_essential_whitespace( $token_pp, $type_pp, $token_p, $type_p, $token_next, $type_next, ); next unless ($do_not_delete); } # make it just one character if allowed if ($rOpts_add_whitespace) { $rtoken_vars->[_TOKEN_] = ' '; } $store_token->($rtoken_vars); next; } # Handle a nonblank token... # Modify certain tokens here for whitespace # The following is not yet done, but could be: # sub (x x x) if ( $type =~ /^[wit]$/ ) { # Examples: # change '$ var' to '$var' etc # '-> new' to '->new' if ( $token =~ /^([\$\&\%\*\@]|\-\>)\s/ ) { $token =~ s/\s*//g; $rtoken_vars->[_TOKEN_] = $token; } # Split identifiers with leading arrows, inserting blanks if # necessary. It is easier and safer here than in the # tokenizer. For example '->new' becomes two tokens, '->' and # 'new' with a possible blank between. # # Note: there is a related patch in sub set_whitespace_flags if ( $token =~ /^\-\>(.*)$/ && $1 ) { my $token_save = $1; my $type_save = $type; # store a blank to left of arrow if necessary my $Kprev = $self->K_previous_nonblank($KK); if ( defined($Kprev) && $rLL->[$Kprev]->[_TYPE_] ne 'b' && $rOpts_add_whitespace && $want_left_space{'->'} == WS_YES ) { my $rcopy = copy_token_as_type( $rtoken_vars, 'b', ' ' ); $store_token->($rcopy); } # then store the arrow my $rcopy = copy_token_as_type( $rtoken_vars, '->', '->' ); $store_token->($rcopy); # then reset the current token to be the remainder, # and reset the whitespace flag according to the arrow $token = $rtoken_vars->[_TOKEN_] = $token_save; $type = $rtoken_vars->[_TYPE_] = $type_save; $store_token->($rtoken_vars); next; } if ( $token =~ /$SUB_PATTERN/ ) { $token =~ s/\s+/ /g; $rtoken_vars->[_TOKEN_] = $token; } # trim identifiers of trailing blanks which can occur # under some unusual circumstances, such as if the # identifier 'witch' has trailing blanks on input here: # # sub # witch # () # prototype may be on new line ... # ... if ( $type eq 'i' ) { $token =~ s/\s+$//g; $rtoken_vars->[_TOKEN_] = $token; } } # change 'LABEL :' to 'LABEL:' elsif ( $type eq 'J' ) { $token =~ s/\s+//g; $rtoken_vars->[_TOKEN_] = $token; } # patch to add space to something like "x10" # This avoids having to split this token in the pre-tokenizer elsif ( $type eq 'n' ) { if ( $token =~ /^x\d+/ ) { $token =~ s/x/x /; $rtoken_vars->[_TOKEN_] = $token; } } # check a quote for problems elsif ( $type eq 'Q' ) { # This is ready to go but is commented out because there is # still identical logic in sub break_lines. # $check_Q->($KK, $Kfirst); } # trim blanks from right of qw quotes # (To avoid trimming qw quotes use -ntqw; the tokenizer handles this) elsif ( $type eq 'q' ) { $token =~ s/\s*$//; $rtoken_vars->[_TOKEN_] = $token; note_embedded_tab() if ( $token =~ "\t" ); } elsif ($type_sequence) { # if ( $is_opening_token{$token} ) { # } if ( $is_closing_token{$token} ) { # Insert a tentative missing semicolon if the next token is # a closing block brace if ( $type eq '}' && $token eq '}' # not preceded by a ';' && $last_nonblank_type ne ';' # and this is not a VERSION stmt (is all one line, we are not # inserting semicolons on one-line blocks) && $CODE_type ne 'VER' # and we are allowed to add semicolons && $rOpts->{'add-semicolons'} ) { $add_phantom_semicolon->($KK); } } } # Insert any needed whitespace if ( @{$rLL_new} && $rLL_new->[-1]->[_TYPE_] ne 'b' && $rOpts_add_whitespace ) { my $ws = $rwhitespace_flags->[$KK]; if ( $ws == 1 ) { my $rcopy = copy_token_as_type( $rtoken_vars, 'b', ' ' ); $rcopy->[_LINE_INDEX_] = $rLL_new->[-1]->[_LINE_INDEX_]; $store_token->($rcopy); } } $store_token->($rtoken_vars); } # End token loop } # End line loop # Reset memory to be the new array $self->{rLL} = $rLL_new; $self->set_rLL_max_index(); $self->{K_opening_container} = $K_opening_container; $self->{K_closing_container} = $K_closing_container; $self->{K_opening_ternary} = $K_opening_ternary; $self->{K_closing_ternary} = $K_closing_ternary; $self->{rK_phantom_semicolons} = $rK_phantom_semicolons; # make sure the new array looks okay $self->check_token_array(); # reset the token limits of each line $self->resync_lines_and_tokens(); return; } { # scan_comments my $Last_line_had_side_comment; my $In_format_skipping_section; my $Saw_VERSION_in_this_file; sub scan_comments { my $self = shift; my $rlines = $self->{rlines}; $Last_line_had_side_comment = undef; $In_format_skipping_section = undef; $Saw_VERSION_in_this_file = undef; # Loop over all lines foreach my $line_of_tokens ( @{$rlines} ) { my $line_type = $line_of_tokens->{_line_type}; next unless ( $line_type eq 'CODE' ); my $CODE_type = $self->get_CODE_type($line_of_tokens); $line_of_tokens->{_code_type} = $CODE_type; } return; } sub get_CODE_type { my ( $self, $line_of_tokens ) = @_; # We are looking at a line of code and setting a flag to # describe any special processing that it requires # Possible CODE_types are as follows. # 'BL' = Blank Line # 'VB' = Verbatim - line goes out verbatim # 'IO' = Indent Only - line goes out unchanged except for indentation # 'NIN' = No Internal Newlines - line does not get broken # 'HSC'=Hanging Side Comment - fix this hanging side comment # 'BC'=Block Comment - an ordinary full line comment # 'SBC'=Static Block Comment - a block comment which does not get # indented # 'SBCX'=Static Block Comment Without Leading Space # 'DEL'=Delete this line # 'VER'=VERSION statement # '' or (undefined) - no restructions my $rLL = $self->{rLL}; my $Klimit = $self->{Klimit}; my $CODE_type = $rOpts->{'indent-only'} ? 'IO' : ""; my $no_internal_newlines = 1 - $rOpts_add_newlines; if ( !$CODE_type && $no_internal_newlines ) { $CODE_type = 'NIN' } # extract what we need for this line.. # Global value for error messages: $input_line_number = $line_of_tokens->{_line_number}; my $rK_range = $line_of_tokens->{_rK_range}; my ( $Kfirst, $Klast ) = @{$rK_range}; my $jmax = -1; if ( defined($Kfirst) ) { $jmax = $Klast - $Kfirst } my $input_line = $line_of_tokens->{_line_text}; my $in_continued_quote = my $starting_in_quote = $line_of_tokens->{_starting_in_quote}; my $in_quote = $line_of_tokens->{_ending_in_quote}; my $ending_in_quote = $in_quote; my $guessed_indentation_level = $line_of_tokens->{_guessed_indentation_level}; my $is_static_block_comment = 0; # Handle a continued quote.. if ($in_continued_quote) { # A line which is entirely a quote or pattern must go out # verbatim. Note: the \n is contained in $input_line. if ( $jmax <= 0 ) { if ( ( $input_line =~ "\t" ) ) { note_embedded_tab(); } $Last_line_had_side_comment = 0; return 'VB'; } } my $is_block_comment = ( $jmax == 0 && $rLL->[$Kfirst]->[_TYPE_] eq '#' ); # Write line verbatim if we are in a formatting skip section if ($In_format_skipping_section) { $Last_line_had_side_comment = 0; # Note: extra space appended to comment simplifies pattern matching if ( $is_block_comment && ( $rLL->[$Kfirst]->[_TOKEN_] . " " ) =~ /$format_skipping_pattern_end/o ) { $In_format_skipping_section = 0; write_logfile_entry("Exiting formatting skip section\n"); } return 'FS'; } # See if we are entering a formatting skip section if ( $rOpts_format_skipping && $is_block_comment && ( $rLL->[$Kfirst]->[_TOKEN_] . " " ) =~ /$format_skipping_pattern_begin/o ) { $In_format_skipping_section = 1; write_logfile_entry("Entering formatting skip section\n"); $Last_line_had_side_comment = 0; return 'FS'; } # ignore trailing blank tokens (they will get deleted later) if ( $jmax > 0 && $rLL->[$Klast]->[_TYPE_] eq 'b' ) { $jmax--; } # Handle a blank line.. if ( $jmax < 0 ) { $Last_line_had_side_comment = 0; return 'BL'; } # see if this is a static block comment (starts with ## by default) my $is_static_block_comment_without_leading_space = 0; if ( $is_block_comment && $rOpts->{'static-block-comments'} && $input_line =~ /$static_block_comment_pattern/o ) { $is_static_block_comment = 1; $is_static_block_comment_without_leading_space = substr( $input_line, 0, 1 ) eq '#'; } # Check for comments which are line directives # Treat exactly as static block comments without leading space # reference: perlsyn, near end, section Plain Old Comments (Not!) # example: '# line 42 "new_filename.plx"' if ( $is_block_comment && $input_line =~ /^\# \s* line \s+ (\d+) \s* (?:\s("?)([^"]+)\2)? \s* $/x ) { $is_static_block_comment = 1; $is_static_block_comment_without_leading_space = 1; } # look for hanging side comment if ( $is_block_comment && $Last_line_had_side_comment # last line had side comment && $input_line =~ /^\s/ # there is some leading space && !$is_static_block_comment # do not make static comment hanging && $rOpts->{'hanging-side-comments'} # user is allowing # hanging side comments # like this ) { $Last_line_had_side_comment = 1; return 'HSC'; } # remember if this line has a side comment $Last_line_had_side_comment = ( $jmax > 0 && $rLL->[$Klast]->[_TYPE_] eq '#' ); # Handle a block (full-line) comment.. if ($is_block_comment) { if ( $rOpts->{'delete-block-comments'} ) { return 'DEL' } # TRIM COMMENTS -- This could be turned off as a option $rLL->[$Kfirst]->[_TOKEN_] =~ s/\s*$//; # trim right end if ($is_static_block_comment_without_leading_space) { return 'SBCX'; } elsif ($is_static_block_comment) { return 'SBC'; } else { return 'BC'; } } =pod # NOTE: This does not work yet. Version in print-line-of-tokens # is Still used until fixed # compare input/output indentation except for continuation lines # (because they have an unknown amount of initial blank space) # and lines which are quotes (because they may have been outdented) # Note: this test is placed here because we know the continuation flag # at this point, which allows us to avoid non-meaningful checks. my $structural_indentation_level = $rLL->[$Kfirst]->[_LEVEL_]; compare_indentation_levels( $guessed_indentation_level, $structural_indentation_level ) unless ( $rLL->[$Kfirst]->[_CI_LEVEL_] > 0 || $guessed_indentation_level == 0 && $rLL->[$Kfirst]->[_TYPE_] eq 'Q' ); =cut # Patch needed for MakeMaker. Do not break a statement # in which $VERSION may be calculated. See MakeMaker.pm; # this is based on the coding in it. # The first line of a file that matches this will be eval'd: # /([\$*])(([\w\:\']*)\bVERSION)\b.*\=/ # Examples: # *VERSION = \'1.01'; # ( $VERSION ) = '$Revision: 1.74 $ ' =~ /\$Revision:\s+([^\s]+)/; # We will pass such a line straight through without breaking # it unless -npvl is used. # Patch for problem reported in RT #81866, where files # had been flattened into a single line and couldn't be # tidied without -npvl. There are two parts to this patch: # First, it is not done for a really long line (80 tokens for now). # Second, we will only allow up to one semicolon # before the VERSION. We need to allow at least one semicolon # for statements like this: # require Exporter; our $VERSION = $Exporter::VERSION; # where both statements must be on a single line for MakeMaker my $is_VERSION_statement = 0; if ( !$Saw_VERSION_in_this_file && $jmax < 80 && $input_line =~ /^[^;]*;?[^;]*([\$*])(([\w\:\']*)\bVERSION)\b.*\=/ ) { $Saw_VERSION_in_this_file = 1; write_logfile_entry("passing VERSION line; -npvl deactivates\n"); $CODE_type = 'VER'; } return $CODE_type; } } sub find_nested_pairs { my $self = shift; my $rLL = $self->{rLL}; return unless ( defined($rLL) && @{$rLL} ); # We define an array of pairs of nested containers my @nested_pairs; # We also set the following hash values to identify container pairs for # which the opening and closing tokens are adjacent in the token stream: # $rpaired_to_inner_container->{$seqno_out}=$seqno_in where $seqno_out and # $seqno_in are the seqence numbers of the outer and inner containers of # the pair We need these later to decide if we can insert a missing # semicolon my $rpaired_to_inner_container = {}; # This local hash remembers if an outer container has a close following # inner container; # The key is the outer sequence number # The value is the token_hash of the inner container my %has_close_following_opening; # Names of calling routines can either be marked as 'i' or 'w', # and they may invoke a sub call with an '->'. We will consider # any consecutive string of such types as a single unit when making # weld decisions. We also allow a leading ! my $is_name_type = { 'i' => 1, 'w' => 1, 'U' => 1, '->' => 1, '!' => 1, }; my $is_name = sub { my $type = shift; return $type && $is_name_type->{$type}; }; my $last_container; my $last_last_container; my $last_nonblank_token_vars; my $last_count; my $nonblank_token_count = 0; # loop over all tokens foreach my $rtoken_vars ( @{$rLL} ) { my $type = $rtoken_vars->[_TYPE_]; next if ( $type eq 'b' ); # long identifier-like items are counted as a single item $nonblank_token_count++ unless ( $is_name->($type) && $is_name->( $last_nonblank_token_vars->[_TYPE_] ) ); my $type_sequence = $rtoken_vars->[_TYPE_SEQUENCE_]; if ($type_sequence) { my $token = $rtoken_vars->[_TOKEN_]; if ( $is_opening_token{$token} ) { # following previous opening token ... if ( $last_container && $is_opening_token{ $last_container->[_TOKEN_] } ) { # adjacent to this one my $tok_diff = $nonblank_token_count - $last_count; my $last_tok = $last_nonblank_token_vars->[_TOKEN_]; if ( $tok_diff == 1 || $tok_diff == 2 && $last_container->[_TOKEN_] eq '(' ) { # remember this pair... my $outer_seqno = $last_container->[_TYPE_SEQUENCE_]; my $inner_seqno = $type_sequence; $has_close_following_opening{$outer_seqno} = $rtoken_vars; } } } elsif ( $is_closing_token{$token} ) { # if the corresponding opening token had an adjacent opening if ( $has_close_following_opening{$type_sequence} && $is_closing_token{ $last_container->[_TOKEN_] } && $has_close_following_opening{$type_sequence} ->[_TYPE_SEQUENCE_] == $last_container->[_TYPE_SEQUENCE_] ) { # The closing weld tokens must be adjacent # NOTE: so intermediate commas and semicolons # can currently block a weld. This is something # that could be fixed in the future by including # a flag to delete un-necessary commas and semicolons. my $tok_diff = $nonblank_token_count - $last_count; if ( $tok_diff == 1 ) { # This is a closely nested pair .. my $inner_seqno = $last_container->[_TYPE_SEQUENCE_]; my $outer_seqno = $type_sequence; $rpaired_to_inner_container->{$outer_seqno} = $inner_seqno; push @nested_pairs, [ $inner_seqno, $outer_seqno ]; } } } $last_last_container = $last_container; $last_container = $rtoken_vars; $last_count = $nonblank_token_count; } $last_nonblank_token_vars = $rtoken_vars; } $self->{rnested_pairs} = \@nested_pairs; $self->{rpaired_to_inner_container} = $rpaired_to_inner_container; return; } sub dump_tokens { # a debug routine, not normally used my ( $self, $msg ) = @_; my $rLL = $self->{rLL}; my $nvars = @{$rLL}; print STDERR "$msg\n"; print STDERR "ntokens=$nvars\n"; print STDERR "K\t_TOKEN_\t_TYPE_\n"; my $K = 0; foreach my $item ( @{$rLL} ) { print STDERR "$K\t$item->[_TOKEN_]\t$item->[_TYPE_]\n"; $K++; } } sub K_next_nonblank { my ( $self, $KK, $rLL ) = @_; # return the index K of the next nonblank token return unless ( defined($KK) && $KK >= 0 ); $rLL = $self->{rLL} unless ( defined($rLL) ); my $Num = @{$rLL}; my $Knnb = $KK + 1; while ( $Knnb < $Num ) { if ( !defined( $rLL->[$Knnb] ) ) { Fault("Undefined entry for k=$Knnb"); } if ( $rLL->[$Knnb]->[_TYPE_] ne 'b' ) { return $Knnb } $Knnb++; } return; } sub K_previous_nonblank { # return index of previous nonblank token before item K # Call with $KK=undef to start search at the top of the array my ( $self, $KK, $rLL ) = @_; $rLL = $self->{rLL} unless ( defined($rLL) ); my $Num = @{$rLL}; if ( !defined($KK) ) { $KK = $Num } elsif ( $KK > $Num ) { # The caller should make the first call with KK_new=undef to # avoid this error Fault( "Program Bug: K_previous_nonblank_new called with K=$KK which exceeds $Num" ); } my $Kpnb = $KK - 1; while ( $Kpnb >= 0 ) { if ( $rLL->[$Kpnb]->[_TYPE_] ne 'b' ) { return $Kpnb } $Kpnb--; } return; } sub weld_containers { # do any welding operations my $self = shift; # initialize weld length hashes needed later for checking line lengths # TODO: These should eventually be stored in $self rather than be package vars %weld_len_left_closing = (); %weld_len_right_closing = (); %weld_len_left_opening = (); %weld_len_right_opening = (); return if ( $rOpts->{'indent-only'} ); return unless ($rOpts_add_newlines); $self->weld_nested_containers() if $rOpts->{'weld-nested-containers'}; # Note that these two calls are order-dependent. # sub weld_nested_containers() must be called before sub # weld_cuddled_blocks(). This is because it is more complex and could # overwrite the %weld_len_... hash values written by weld_cuddled_blocks(). # sub weld_cuddled_blocks(), on the other hand, is much simpler and will # not overwrite the values written by weld_nested_containers. But # note that weld_nested_containers() changes the _LEVEL_ values, so # weld_cuddled_blocks must use the _TRUE_LEVEL_ values instead. # Here is a good test case to Be sure that both cuddling and welding # are working and not interfering with each other: # perltidy -wn -cb -cbl='if-elsif-else' # if ($BOLD_MATH) { ( # $labels, $comment, # join( '', '', &make_math( $mode, '', '', $_ ), '' ) # ) } else { ( # &process_math_in_latex( $mode, $math_style, $slevel, "\\mbox{$text}" ), # $after # ) } $self->weld_cuddled_blocks() if $rOpts->{'cuddled-blocks'}; return; } sub weld_cuddled_blocks { my $self = shift; # This routine implements the -cb flag by finding the appropriate # closing and opening block braces and welding them together. my $rLL = $self->{rLL}; return unless ( defined($rLL) && @{$rLL} ); my $rbreak_container = $self->{rbreak_container}; my $K_opening_container = $self->{K_opening_container}; my $K_closing_container = $self->{K_closing_container}; my $length_to_opening_seqno = sub { my ($seqno) = @_; my $KK = $K_opening_container->{$seqno}; my $lentot = $rLL->[$KK]->[_CUMULATIVE_LENGTH_]; return $lentot; }; my $length_to_closing_seqno = sub { my ($seqno) = @_; my $KK = $K_closing_container->{$seqno}; my $lentot = $rLL->[$KK]->[_CUMULATIVE_LENGTH_]; return $lentot; }; my $is_broken_block = sub { # a block is broken if the input line numbers of the braces differ # we can only cuddle between broken blocks my ($seqno) = @_; my $K_opening = $K_opening_container->{$seqno}; return unless ( defined($K_opening) ); my $K_closing = $K_closing_container->{$seqno}; return unless ( defined($K_closing) ); return $rbreak_container->{$seqno} || $rLL->[$K_closing]->[_LINE_INDEX_] != $rLL->[$K_opening]->[_LINE_INDEX_]; }; # A stack to remember open chains at all levels: # $in_chain[$level] = [$chain_type, $type_sequence]; my @in_chain; my $CBO = $rOpts->{'cuddled-break-option'}; # loop over structure items to find cuddled pairs my $level = 0; my $KK = 0; while ( defined( $KK = $rLL->[$KK]->[_KNEXT_SEQ_ITEM_] ) ) { my $rtoken_vars = $rLL->[$KK]; my $type_sequence = $rtoken_vars->[_TYPE_SEQUENCE_]; if ( !$type_sequence ) { Fault("sequence = $type_sequence not defined"); } # We use the original levels because they get changed by sub # 'weld_nested_containers'. So if this were to be called before that # routine, the levels would be wrong and things would go bad. my $last_level = $level; $level = $rtoken_vars->[_LEVEL_TRUE_]; if ( $level < $last_level ) { $in_chain[$last_level] = undef } elsif ( $level > $last_level ) { $in_chain[$level] = undef } # We are only looking at code blocks my $token = $rtoken_vars->[_TOKEN_]; my $type = $rtoken_vars->[_TYPE_]; next unless ( $type eq $token ); if ( $token eq '{' ) { my $block_type = $rtoken_vars->[_BLOCK_TYPE_]; if ( !$block_type ) { # patch for unrecognized block types which may not be labeled my $Kp = $self->K_previous_nonblank($KK); while ( $Kp && $rLL->[$Kp]->[_TYPE_] eq '#' ) { $Kp = $self->K_previous_nonblank($Kp); } next unless $Kp; $block_type = $rLL->[$Kp]->[_TOKEN_]; } if ( $in_chain[$level] ) { # we are in a chain and are at an opening block brace. # See if we are welding this opening brace with the previous # block brace. Get their identification numbers: my $closing_seqno = $in_chain[$level]->[1]; my $opening_seqno = $type_sequence; # The preceding block must be on multiple lines so that its # closing brace will start a new line. if ( !$is_broken_block->($closing_seqno) ) { next unless ( $CBO == 2 ); $rbreak_container->{$closing_seqno} = 1; } # we will let the trailing block be either broken or intact ## && $is_broken_block->($opening_seqno); # We can weld the closing brace to its following word .. my $Ko = $K_closing_container->{$closing_seqno}; my $Kon = $self->K_next_nonblank($Ko); # ..unless it is a comment if ( $rLL->[$Kon]->[_TYPE_] ne '#' ) { my $dlen = $rLL->[ $Kon + 1 ]->[_CUMULATIVE_LENGTH_] - $rLL->[$Ko]->[_CUMULATIVE_LENGTH_]; $weld_len_right_closing{$closing_seqno} = $dlen; # Set flag that we want to break the next container # so that the cuddled line is balanced. $rbreak_container->{$opening_seqno} = 1 if ($CBO); } } else { # We are not in a chain. Start a new chain if we see the # starting block type. if ( $rcuddled_block_types->{$block_type} ) { $in_chain[$level] = [ $block_type, $type_sequence ]; } else { $block_type = '*'; $in_chain[$level] = [ $block_type, $type_sequence ]; } } } elsif ( $token eq '}' ) { if ( $in_chain[$level] ) { # We are in a chain at a closing brace. See if this chain # continues.. my $Knn = $self->K_next_nonblank($KK); # skip past comments while ( $Knn && $rLL->[$Knn]->[_TYPE_] eq '#' ) { $Knn = $self->K_next_nonblank($Knn); } next unless $Knn; my $chain_type = $in_chain[$level]->[0]; my $next_nonblank_token = $rLL->[$Knn]->[_TOKEN_]; if ( $rcuddled_block_types->{$chain_type}->{$next_nonblank_token} ) { # Note that we do not weld yet because we must wait until # we we are sure that an opening brace for this follows. $in_chain[$level]->[1] = $type_sequence; } else { $in_chain[$level] = undef } } } } return; } sub weld_nested_containers { my $self = shift; # This routine implements the -wn flag by "welding together" # the nested closing and opening tokens which were previously # identified by sub 'find_nested_pairs'. "welding" simply # involves setting certain hash values which will be checked # later during formatting. my $rLL = $self->{rLL}; my $Klimit = $self->get_rLL_max_index(); my $rnested_pairs = $self->{rnested_pairs}; my $rlines = $self->{rlines}; my $K_opening_container = $self->{K_opening_container}; my $K_closing_container = $self->{K_closing_container}; # Return unless there are nested pairs to weld return unless defined($rnested_pairs) && @{$rnested_pairs}; # This array will hold the sequence numbers of the tokens to be welded. my @welds; # Variables needed for estimating line lengths my $starting_indent; my $starting_lentot; # A tolerance to the length for length estimates. In some rare cases # this can avoid problems where a final weld slightly exceeds the # line length and gets broken in a bad spot. my $length_tol = 1; my $excess_length_to = sub { my ($rtoken_hash) = @_; # Estimate the length from the line start to a given token my $length = $rtoken_hash->[_CUMULATIVE_LENGTH_] - $starting_lentot; my $excess_length = $starting_indent + $length + $length_tol - $rOpts_maximum_line_length; return ($excess_length); }; my $length_to_opening_seqno = sub { my ($seqno) = @_; my $KK = $K_opening_container->{$seqno}; my $lentot = $rLL->[$KK]->[_CUMULATIVE_LENGTH_]; return $lentot; }; my $length_to_closing_seqno = sub { my ($seqno) = @_; my $KK = $K_closing_container->{$seqno}; my $lentot = $rLL->[$KK]->[_CUMULATIVE_LENGTH_]; return $lentot; }; # Abbreviations: # _oo=outer opening, i.e. first of { { # _io=inner opening, i.e. second of { { # _oc=outer closing, i.e. second of } { # _ic=inner closing, i.e. first of } } my $previous_pair; # We are working from outermost to innermost pairs so that # level changes will be complete when we arrive at the inner pairs. while ( my $item = pop( @{$rnested_pairs} ) ) { my ( $inner_seqno, $outer_seqno ) = @{$item}; my $Kouter_opening = $K_opening_container->{$outer_seqno}; my $Kinner_opening = $K_opening_container->{$inner_seqno}; my $Kouter_closing = $K_closing_container->{$outer_seqno}; my $Kinner_closing = $K_closing_container->{$inner_seqno}; my $outer_opening = $rLL->[$Kouter_opening]; my $inner_opening = $rLL->[$Kinner_opening]; my $outer_closing = $rLL->[$Kouter_closing]; my $inner_closing = $rLL->[$Kinner_closing]; my $iline_oo = $outer_opening->[_LINE_INDEX_]; my $iline_io = $inner_opening->[_LINE_INDEX_]; # Set flag saying if this pair starts a new weld my $starting_new_weld = !( @welds && $outer_seqno == $welds[-1]->[0] ); # Set flag saying if this pair is adjacent to the previous nesting pair # (even if previous pair was rejected as a weld) my $touch_previous_pair = defined($previous_pair) && $outer_seqno == $previous_pair->[0]; $previous_pair = $item; # Set a flag if we should not weld. It sometimes looks best not to weld # when the opening and closing tokens are very close. However, there # is a danger that we will create a "blinker", which oscillates between # two semi-stable states, if we do not weld. So the rules for # not welding have to be carefully defined and tested. my $do_not_weld; if ( !$touch_previous_pair ) { # If this pair is not adjacent to the previous pair (skipped or # not), then measure lengths from the start of line of oo my $rK_range = $rlines->[$iline_oo]->{_rK_range}; my ( $Kfirst, $Klast ) = @{$rK_range}; $starting_lentot = $rLL->[$Kfirst]->[_CUMULATIVE_LENGTH_]; $starting_indent = 0; if ( !$rOpts_variable_maximum_line_length ) { my $level = $rLL->[$Kfirst]->[_LEVEL_]; $starting_indent = $rOpts_indent_columns * $level; } # DO-NOT-WELD RULE 1: # Do not weld something that looks like the start of a two-line # function call, like this: # $trans->add_transformation( # PDL::Graphics::TriD::Scale->new( $sx, $sy, $sz ) ); # We will look for a semicolon after the closing paren. # We want to weld something complex, like this though # my $compass = uc( opposite_direction( line_to_canvas_direction( # @{ $coords[0] }, @{ $coords[1] } ) ) ); # Otherwise we will get a 'blinker' my $iline_oc = $outer_closing->[_LINE_INDEX_]; if ( $iline_oc <= $iline_oo + 1 ) { # Look for following semicolon... my $Knext_nonblank = $self->K_next_nonblank($Kouter_closing); my $next_nonblank_type = defined($Knext_nonblank) ? $rLL->[$Knext_nonblank]->[_TYPE_] : 'b'; if ( $next_nonblank_type eq ';' ) { # Then do not weld if no other containers between inner # opening and closing. my $Knext_seq_item = $inner_opening->[_KNEXT_SEQ_ITEM_]; if ( $Knext_seq_item == $Kinner_closing ) { $do_not_weld ||= 1; } } } } my $iline_ic = $inner_closing->[_LINE_INDEX_]; # DO-NOT-WELD RULE 2: # Do not weld an opening paren to an inner one line brace block # We will just use old line numbers for this test and require # iterations if necessary for convergence # For example, otherwise we could cause the opening paren # in the following example to separate from the caller name # as here: # $_[0]->code_handler # ( sub { $more .= $_[1] . ":" . $_[0] . "\n" } ); # Here is another example where we do not want to weld: # $wrapped->add_around_modifier( # sub { push @tracelog => 'around 1'; $_[0]->(); } ); # If the one line sub block gets broken due to length or by the # user, then we can weld. The result will then be: # $wrapped->add_around_modifier( sub { # push @tracelog => 'around 1'; # $_[0]->(); # } ); if ( $iline_ic == $iline_io ) { my $token_oo = $outer_opening->[_TOKEN_]; my $block_type_io = $inner_opening->[_BLOCK_TYPE_]; my $token_io = $inner_opening->[_TOKEN_]; $do_not_weld ||= $token_oo eq '(' && $token_io eq '{'; } # DO-NOT-WELD RULE 3: # Do not weld if this makes our line too long $do_not_weld ||= $excess_length_to->($inner_opening) > 0; if ($do_not_weld) { # After neglecting a pair, we start measuring from start of point io $starting_lentot = $inner_opening->[_CUMULATIVE_LENGTH_]; $starting_indent = 0; if ( !$rOpts_variable_maximum_line_length ) { my $level = $inner_opening->[_LEVEL_]; $starting_indent = $rOpts_indent_columns * $level; } # Normally, a broken pair should not decrease indentation of # intermediate tokens: ## if ( $last_pair_broken ) { next } # However, for long strings of welded tokens, such as '{{{{{{...' # we will allow broken pairs to also remove indentation. # This will keep very long strings of opening and closing # braces from marching off to the right. We will do this if the # number of tokens in a weld before the broken weld is 4 or more. # This rule will mainly be needed for test scripts, since typical # welds have fewer than about 4 welded tokens. if ( !@welds || @{ $welds[-1] } < 4 ) { next } } # otherwise start new weld ... elsif ($starting_new_weld) { push @welds, $item; } # ... or extend current weld else { unshift @{ $welds[-1] }, $inner_seqno; } ######################################################################## # After welding, reduce the indentation level if all intermediate tokens ######################################################################## my $dlevel = $outer_opening->[_LEVEL_] - $inner_opening->[_LEVEL_]; if ( $dlevel != 0 ) { my $Kstart = $Kinner_opening; my $Kstop = $Kinner_closing; for ( my $KK = $Kstart ; $KK <= $Kstop ; $KK++ ) { $rLL->[$KK]->[_LEVEL_] += $dlevel; } } } ##################################################### # Define weld lengths needed later to set line breaks ##################################################### foreach my $item (@welds) { # sweep from inner to outer my $inner_seqno; my $len_close = 0; my $len_open = 0; foreach my $outer_seqno ( @{$item} ) { if ($inner_seqno) { my $dlen_opening = $length_to_opening_seqno->($inner_seqno) - $length_to_opening_seqno->($outer_seqno); my $dlen_closing = $length_to_closing_seqno->($outer_seqno) - $length_to_closing_seqno->($inner_seqno); $len_open += $dlen_opening; $len_close += $dlen_closing; } $weld_len_left_closing{$outer_seqno} = $len_close; $weld_len_right_opening{$outer_seqno} = $len_open; $inner_seqno = $outer_seqno; } # sweep from outer to inner foreach my $seqno ( reverse @{$item} ) { $weld_len_right_closing{$seqno} = $len_close - $weld_len_left_closing{$seqno}; $weld_len_left_opening{$seqno} = $len_open - $weld_len_right_opening{$seqno}; } } ##################################### # DEBUG ##################################### if (0) { my $count = 0; local $" = ')('; foreach my $weld (@welds) { print "\nWeld number $count has seq: (@{$weld})\n"; foreach my $seq ( @{$weld} ) { print < 0 && $types_to_go[$i] eq 'b' ) { $i-- } my $weld_len = weld_len_right( $type_sequence_to_go[$i], $types_to_go[$i] ); return $weld_len; } sub link_sequence_items { # This has been merged into 'respace_tokens' but retained for reference my $self = shift; my $rlines = $self->{rlines}; my $rLL = $self->{rLL}; # We walk the token list and make links to the next sequence item. # We also define these hashes to container tokens using sequence number as # the key: my $K_opening_container = {}; # opening [ { or ( my $K_closing_container = {}; # closing ] } or ) my $K_opening_ternary = {}; # opening ? of ternary my $K_closing_ternary = {}; # closing : of ternary # sub to link preceding nodes forward to a new node type my $link_back = sub { my ( $Ktop, $key ) = @_; my $Kprev = $Ktop - 1; while ( $Kprev >= 0 && !defined( $rLL->[$Kprev]->[$key] ) ) { $rLL->[$Kprev]->[$key] = $Ktop; $Kprev -= 1; } }; for ( my $KK = 0 ; $KK < @{$rLL} ; $KK++ ) { $rLL->[$KK]->[_KNEXT_SEQ_ITEM_] = undef; my $type = $rLL->[$KK]->[_TYPE_]; next if ( $type eq 'b' ); my $type_sequence = $rLL->[$KK]->[_TYPE_SEQUENCE_]; if ($type_sequence) { $link_back->( $KK, _KNEXT_SEQ_ITEM_ ); my $token = $rLL->[$KK]->[_TOKEN_]; if ( $is_opening_token{$token} ) { $K_opening_container->{$type_sequence} = $KK; } elsif ( $is_closing_token{$token} ) { $K_closing_container->{$type_sequence} = $KK; } # These are not yet used but could be useful else { if ( $token eq '?' ) { $K_opening_ternary->{$type_sequence} = $KK; } elsif ( $token eq ':' ) { $K_closing_ternary->{$type_sequence} = $KK; } else { Fault(<{K_opening_container} = $K_opening_container; $self->{K_closing_container} = $K_closing_container; $self->{K_opening_ternary} = $K_opening_ternary; $self->{K_closing_ternary} = $K_closing_ternary; return; } sub sum_token_lengths { my $self = shift; # This has been merged into 'respace_tokens' but retained for reference my $rLL = $self->{rLL}; my $cumulative_length = 0; for ( my $KK = 0 ; $KK < @{$rLL} ; $KK++ ) { # Save the length sum to just BEFORE this token $rLL->[$KK]->[_CUMULATIVE_LENGTH_] = $cumulative_length; # now set the length of this token my $token_length = length( $rLL->[$KK]->[_TOKEN_] ); $cumulative_length += $token_length; } return; } sub resync_lines_and_tokens { my $self = shift; my $rLL = $self->{rLL}; my $Klimit = $self->{Klimit}; my $rlines = $self->{rlines}; # Re-construct the arrays of tokens associated with the original input lines # since they have probably changed due to inserting and deleting blanks # and a few other tokens. my $Kmax = -1; # This is the next token and its line index: my $Knext = 0; my $inext; if ( defined($rLL) && @{$rLL} ) { $Kmax = @{$rLL} - 1; $inext = $rLL->[$Knext]->[_LINE_INDEX_]; } my $get_inext = sub { if ( $Knext < 0 || $Knext > $Kmax ) { $inext = undef } else { $inext = $rLL->[$Knext]->[_LINE_INDEX_]; } return $inext; }; # Remember the most recently output token index my $Klast_out; my $iline = -1; foreach my $line_of_tokens ( @{$rlines} ) { $iline++; my $line_type = $line_of_tokens->{_line_type}; if ( $line_type eq 'CODE' ) { my @K_array; my $rK_range; $inext = $get_inext->(); while ( defined($inext) && $inext <= $iline ) { push @{K_array}, $Knext; $Knext += 1; $inext = $get_inext->(); } # Delete any terminal blank token if (@K_array) { if ( $rLL->[ $K_array[-1] ]->[_TYPE_] eq 'b' ) { pop @K_array; } } # Define the range of K indexes for the line: # $Kfirst = index of first token on line # $Klast_out = index of last token on line my ( $Kfirst, $Klast ); if (@K_array) { $Kfirst = $K_array[0]; $Klast = $K_array[-1]; $Klast_out = $Klast; } # It is only safe to trim the actual line text if the input # line had a terminal blank token. Otherwise, we may be # in a quote. if ( $line_of_tokens->{_ended_in_blank_token} ) { $line_of_tokens->{_line_text} =~ s/\s+$//; } $line_of_tokens->{_rK_range} = [ $Kfirst, $Klast ]; } } # There shouldn't be any nodes beyond the last one unless we start # allowing 'link_after' calls if ( defined($inext) ) { Fault("unexpected tokens at end of file when reconstructing lines"); } return; } sub dump_verbatim { my $self = shift; my $rlines = $self->{rlines}; foreach my $line ( @{$rlines} ) { my $input_line = $line->{_line_text}; $self->write_unindented_line($input_line); } return; } sub finish_formatting { my ( $self, $severe_error ) = @_; # The file has been tokenized and is ready to be formatted. # All of the relevant data is stored in $self, ready to go. # output file verbatim if severe error or no formatting requested if ( $severe_error || $rOpts->{notidy} ) { $self->dump_verbatim(); $self->wrapup(); return; } # Make a pass through the lines, looking at lines of CODE and identifying # special processing needs, such format skipping sections marked by # special comments $self->scan_comments(); # Find nested pairs of container tokens for any welding. This information # is also needed for adding semicolons, so it is split apart from the # welding step. $self->find_nested_pairs(); # Make sure everything looks good $self->check_line_hashes(); # Future: Place to Begin future Iteration Loop # foreach my $it_count(1..$maxit) { # Future: We must reset some things after the first iteration. # This includes: # - resetting levels if there was any welding # - resetting any phantom semicolons # - dealing with any line numbering issues so we can relate final lines # line numbers with input line numbers. # # If ($it_count>1) { # Copy {level_raw} to [_LEVEL_] if ($it_count>1) # Renumber lines # } # Make a pass through all tokens, adding or deleting any whitespace as # required. Also make any other changes, such as adding semicolons. # All token changes must be made here so that the token data structure # remains fixed for the rest of this iteration. $self->respace_tokens(); # Implement any welding needed for the -wn or -cb options $self->weld_containers(); # Finishes formatting and write the result to the line sink. # Eventually this call should just change the 'rlines' data according to the # new line breaks and then return so that we can do an internal iteration # before continuing with the next stages of formatting. $self->break_lines(); ############################################################ # A possible future decomposition of 'break_lines()' follows. # Benefits: # - allow perltidy to do an internal iteration which eliminates # many unnecessary steps, such as re-parsing and vertical alignment. # This will allow iterations to be automatic. # - consolidate all length calculations to allow utf8 alignment ############################################################ # Future: Check for convergence of beginning tokens on CODE lines # Future: End of Iteration Loop # Future: add_padding($rargs); # Future: add_closing_side_comments($rargs); # Future: vertical_alignment($rargs); # Future: output results # A final routine to tie up any loose ends $self->wrapup(); return; } sub create_one_line_block { ( $index_start_one_line_block, $semicolons_before_block_self_destruct ) = @_; return; } sub destroy_one_line_block { $index_start_one_line_block = UNDEFINED_INDEX; $semicolons_before_block_self_destruct = 0; return; } sub leading_spaces_to_go { # return the number of indentation spaces for a token in the output stream; # these were previously stored by 'set_leading_whitespace'. my $ii = shift; if ( $ii < 0 ) { $ii = 0 } return get_spaces( $leading_spaces_to_go[$ii] ); } sub get_spaces { # return the number of leading spaces associated with an indentation # variable $indentation is either a constant number of spaces or an object # with a get_spaces method. my $indentation = shift; return ref($indentation) ? $indentation->get_spaces() : $indentation; } sub get_recoverable_spaces { # return the number of spaces (+ means shift right, - means shift left) # that we would like to shift a group of lines with the same indentation # to get them to line up with their opening parens my $indentation = shift; return ref($indentation) ? $indentation->get_recoverable_spaces() : 0; } sub get_available_spaces_to_go { my $ii = shift; my $item = $leading_spaces_to_go[$ii]; # return the number of available leading spaces associated with an # indentation variable. $indentation is either a constant number of # spaces or an object with a get_available_spaces method. return ref($item) ? $item->get_available_spaces() : 0; } sub new_lp_indentation_item { # this is an interface to the IndentationItem class my ( $spaces, $level, $ci_level, $available_spaces, $align_paren ) = @_; # A negative level implies not to store the item in the item_list my $index = 0; if ( $level >= 0 ) { $index = ++$max_gnu_item_index; } my $item = Perl::Tidy::IndentationItem->new( $spaces, $level, $ci_level, $available_spaces, $index, $gnu_sequence_number, $align_paren, $max_gnu_stack_index, $line_start_index_to_go, ); if ( $level >= 0 ) { $gnu_item_list[$max_gnu_item_index] = $item; } return $item; } sub set_leading_whitespace { # This routine defines leading whitespace # given: the level and continuation_level of a token, # define: space count of leading string which would apply if it # were the first token of a new line. my ( $level_abs, $ci_level, $in_continued_quote ) = @_; # Adjust levels if necessary to recycle whitespace: # given $level_abs, the absolute level # define $level, a possibly reduced level for whitespace my $level = $level_abs; if ( $rOpts_whitespace_cycle && $rOpts_whitespace_cycle > 0 ) { if ( $level_abs < $whitespace_last_level ) { pop(@whitespace_level_stack); } if ( !@whitespace_level_stack ) { push @whitespace_level_stack, $level_abs; } elsif ( $level_abs > $whitespace_last_level ) { $level = $whitespace_level_stack[-1] + ( $level_abs - $whitespace_last_level ); if ( # 1 Try to break at a block brace ( $level > $rOpts_whitespace_cycle && $last_nonblank_type eq '{' && $last_nonblank_token eq '{' ) # 2 Then either a brace or bracket || ( $level > $rOpts_whitespace_cycle + 1 && $last_nonblank_token =~ /^[\{\[]$/ ) # 3 Then a paren too || $level > $rOpts_whitespace_cycle + 2 ) { $level = 1; } push @whitespace_level_stack, $level; } $level = $whitespace_level_stack[-1]; } $whitespace_last_level = $level_abs; # modify for -bli, which adds one continuation indentation for # opening braces if ( $rOpts_brace_left_and_indent && $max_index_to_go == 0 && $block_type_to_go[$max_index_to_go] =~ /$bli_pattern/o ) { $ci_level++; } # patch to avoid trouble when input file has negative indentation. # other logic should catch this error. if ( $level < 0 ) { $level = 0 } #------------------------------------------- # handle the standard indentation scheme #------------------------------------------- unless ($rOpts_line_up_parentheses) { my $space_count = $ci_level * $rOpts_continuation_indentation + $level * $rOpts_indent_columns; my $ci_spaces = ( $ci_level == 0 ) ? 0 : $rOpts_continuation_indentation; if ($in_continued_quote) { $space_count = 0; $ci_spaces = 0; } $leading_spaces_to_go[$max_index_to_go] = $space_count; $reduced_spaces_to_go[$max_index_to_go] = $space_count - $ci_spaces; return; } #------------------------------------------------------------- # handle case of -lp indentation.. #------------------------------------------------------------- # The continued_quote flag means that this is the first token of a # line, and it is the continuation of some kind of multi-line quote # or pattern. It requires special treatment because it must have no # added leading whitespace. So we create a special indentation item # which is not in the stack. if ($in_continued_quote) { my $space_count = 0; my $available_space = 0; $level = -1; # flag to prevent storing in item_list $leading_spaces_to_go[$max_index_to_go] = $reduced_spaces_to_go[$max_index_to_go] = new_lp_indentation_item( $space_count, $level, $ci_level, $available_space, 0 ); return; } # get the top state from the stack my $space_count = $gnu_stack[$max_gnu_stack_index]->get_spaces(); my $current_level = $gnu_stack[$max_gnu_stack_index]->get_level(); my $current_ci_level = $gnu_stack[$max_gnu_stack_index]->get_ci_level(); my $type = $types_to_go[$max_index_to_go]; my $token = $tokens_to_go[$max_index_to_go]; my $total_depth = $nesting_depth_to_go[$max_index_to_go]; if ( $type eq '{' || $type eq '(' ) { $gnu_comma_count{ $total_depth + 1 } = 0; $gnu_arrow_count{ $total_depth + 1 } = 0; # If we come to an opening token after an '=' token of some type, # see if it would be helpful to 'break' after the '=' to save space my $last_equals = $last_gnu_equals{$total_depth}; if ( $last_equals && $last_equals > $line_start_index_to_go ) { # find the position if we break at the '=' my $i_test = $last_equals; if ( $types_to_go[ $i_test + 1 ] eq 'b' ) { $i_test++ } # TESTING ##my $too_close = ($i_test==$max_index_to_go-1); my $test_position = total_line_length( $i_test, $max_index_to_go ); my $mll = maximum_line_length($i_test); if ( # the equals is not just before an open paren (testing) ##!$too_close && # if we are beyond the midpoint $gnu_position_predictor > $mll - $rOpts_maximum_line_length / 2 # or we are beyond the 1/4 point and there was an old # break at the equals || ( $gnu_position_predictor > $mll - $rOpts_maximum_line_length * 3 / 4 && ( $old_breakpoint_to_go[$last_equals] || ( $last_equals > 0 && $old_breakpoint_to_go[ $last_equals - 1 ] ) || ( $last_equals > 1 && $types_to_go[ $last_equals - 1 ] eq 'b' && $old_breakpoint_to_go[ $last_equals - 2 ] ) ) ) ) { # then make the switch -- note that we do not set a real # breakpoint here because we may not really need one; sub # scan_list will do that if necessary $line_start_index_to_go = $i_test + 1; $gnu_position_predictor = $test_position; } } } my $halfway = maximum_line_length_for_level($level) - $rOpts_maximum_line_length / 2; # Check for decreasing depth .. # Note that one token may have both decreasing and then increasing # depth. For example, (level, ci) can go from (1,1) to (2,0). So, # in this example we would first go back to (1,0) then up to (2,0) # in a single call. if ( $level < $current_level || $ci_level < $current_ci_level ) { # loop to find the first entry at or completely below this level my ( $lev, $ci_lev ); while (1) { if ($max_gnu_stack_index) { # save index of token which closes this level $gnu_stack[$max_gnu_stack_index]->set_closed($max_index_to_go); # Undo any extra indentation if we saw no commas my $available_spaces = $gnu_stack[$max_gnu_stack_index]->get_available_spaces(); my $comma_count = 0; my $arrow_count = 0; if ( $type eq '}' || $type eq ')' ) { $comma_count = $gnu_comma_count{$total_depth}; $arrow_count = $gnu_arrow_count{$total_depth}; $comma_count = 0 unless $comma_count; $arrow_count = 0 unless $arrow_count; } $gnu_stack[$max_gnu_stack_index]->set_comma_count($comma_count); $gnu_stack[$max_gnu_stack_index]->set_arrow_count($arrow_count); if ( $available_spaces > 0 ) { if ( $comma_count <= 0 || $arrow_count > 0 ) { my $i = $gnu_stack[$max_gnu_stack_index]->get_index(); my $seqno = $gnu_stack[$max_gnu_stack_index] ->get_sequence_number(); # Be sure this item was created in this batch. This # should be true because we delete any available # space from open items at the end of each batch. if ( $gnu_sequence_number != $seqno || $i > $max_gnu_item_index ) { warning( "Program bug with -lp. seqno=$seqno should be $gnu_sequence_number and i=$i should be less than max=$max_gnu_item_index\n" ); report_definite_bug(); } else { if ( $arrow_count == 0 ) { $gnu_item_list[$i] ->permanently_decrease_available_spaces( $available_spaces); } else { $gnu_item_list[$i] ->tentatively_decrease_available_spaces( $available_spaces); } foreach my $j ( $i + 1 .. $max_gnu_item_index ) { $gnu_item_list[$j] ->decrease_SPACES($available_spaces); } } } } # go down one level --$max_gnu_stack_index; $lev = $gnu_stack[$max_gnu_stack_index]->get_level(); $ci_lev = $gnu_stack[$max_gnu_stack_index]->get_ci_level(); # stop when we reach a level at or below the current level if ( $lev <= $level && $ci_lev <= $ci_level ) { $space_count = $gnu_stack[$max_gnu_stack_index]->get_spaces(); $current_level = $lev; $current_ci_level = $ci_lev; last; } } # reached bottom of stack .. should never happen because # only negative levels can get here, and $level was forced # to be positive above. else { warning( "program bug with -lp: stack_error. level=$level; lev=$lev; ci_level=$ci_level; ci_lev=$ci_lev; rerun with -nlp\n" ); report_definite_bug(); last; } } } # handle increasing depth if ( $level > $current_level || $ci_level > $current_ci_level ) { # Compute the standard incremental whitespace. This will be # the minimum incremental whitespace that will be used. This # choice results in a smooth transition between the gnu-style # and the standard style. my $standard_increment = ( $level - $current_level ) * $rOpts_indent_columns + ( $ci_level - $current_ci_level ) * $rOpts_continuation_indentation; # Now we have to define how much extra incremental space # ("$available_space") we want. This extra space will be # reduced as necessary when long lines are encountered or when # it becomes clear that we do not have a good list. my $available_space = 0; my $align_paren = 0; my $excess = 0; # initialization on empty stack.. if ( $max_gnu_stack_index == 0 ) { $space_count = $level * $rOpts_indent_columns; } # if this is a BLOCK, add the standard increment elsif ($last_nonblank_block_type) { $space_count += $standard_increment; } # if last nonblank token was not structural indentation, # just use standard increment elsif ( $last_nonblank_type ne '{' ) { $space_count += $standard_increment; } # otherwise use the space to the first non-blank level change token else { $space_count = $gnu_position_predictor; my $min_gnu_indentation = $gnu_stack[$max_gnu_stack_index]->get_spaces(); $available_space = $space_count - $min_gnu_indentation; if ( $available_space >= $standard_increment ) { $min_gnu_indentation += $standard_increment; } elsif ( $available_space > 1 ) { $min_gnu_indentation += $available_space + 1; } elsif ( $last_nonblank_token =~ /^[\{\[\(]$/ ) { if ( ( $tightness{$last_nonblank_token} < 2 ) ) { $min_gnu_indentation += 2; } else { $min_gnu_indentation += 1; } } else { $min_gnu_indentation += $standard_increment; } $available_space = $space_count - $min_gnu_indentation; if ( $available_space < 0 ) { $space_count = $min_gnu_indentation; $available_space = 0; } $align_paren = 1; } # update state, but not on a blank token if ( $types_to_go[$max_index_to_go] ne 'b' ) { $gnu_stack[$max_gnu_stack_index]->set_have_child(1); ++$max_gnu_stack_index; $gnu_stack[$max_gnu_stack_index] = new_lp_indentation_item( $space_count, $level, $ci_level, $available_space, $align_paren ); # If the opening paren is beyond the half-line length, then # we will use the minimum (standard) indentation. This will # help avoid problems associated with running out of space # near the end of a line. As a result, in deeply nested # lists, there will be some indentations which are limited # to this minimum standard indentation. But the most deeply # nested container will still probably be able to shift its # parameters to the right for proper alignment, so in most # cases this will not be noticeable. if ( $available_space > 0 && $space_count > $halfway ) { $gnu_stack[$max_gnu_stack_index] ->tentatively_decrease_available_spaces($available_space); } } } # Count commas and look for non-list characters. Once we see a # non-list character, we give up and don't look for any more commas. if ( $type eq '=>' ) { $gnu_arrow_count{$total_depth}++; # tentatively treating '=>' like '=' for estimating breaks # TODO: this could use some experimentation $last_gnu_equals{$total_depth} = $max_index_to_go; } elsif ( $type eq ',' ) { $gnu_comma_count{$total_depth}++; } elsif ( $is_assignment{$type} ) { $last_gnu_equals{$total_depth} = $max_index_to_go; } # this token might start a new line # if this is a non-blank.. if ( $type ne 'b' ) { # and if .. if ( # this is the first nonblank token of the line $max_index_to_go == 1 && $types_to_go[0] eq 'b' # or previous character was one of these: || $last_nonblank_type_to_go =~ /^([\:\?\,f])$/ # or previous character was opening and this does not close it || ( $last_nonblank_type_to_go eq '{' && $type ne '}' ) || ( $last_nonblank_type_to_go eq '(' and $type ne ')' ) # or this token is one of these: || $type =~ /^([\.]|\|\||\&\&)$/ # or this is a closing structure || ( $last_nonblank_type_to_go eq '}' && $last_nonblank_token_to_go eq $last_nonblank_type_to_go ) # or previous token was keyword 'return' || ( $last_nonblank_type_to_go eq 'k' && ( $last_nonblank_token_to_go eq 'return' && $type ne '{' ) ) # or starting a new line at certain keywords is fine || ( $type eq 'k' && $is_if_unless_and_or_last_next_redo_return{$token} ) # or this is after an assignment after a closing structure || ( $is_assignment{$last_nonblank_type_to_go} && ( $last_last_nonblank_type_to_go =~ /^[\}\)\]]$/ # and it is significantly to the right || $gnu_position_predictor > $halfway ) ) ) { check_for_long_gnu_style_lines(); $line_start_index_to_go = $max_index_to_go; # back up 1 token if we want to break before that type # otherwise, we may strand tokens like '?' or ':' on a line if ( $line_start_index_to_go > 0 ) { if ( $last_nonblank_type_to_go eq 'k' ) { if ( $want_break_before{$last_nonblank_token_to_go} ) { $line_start_index_to_go--; } } elsif ( $want_break_before{$last_nonblank_type_to_go} ) { $line_start_index_to_go--; } } } } # remember the predicted position of this token on the output line if ( $max_index_to_go > $line_start_index_to_go ) { $gnu_position_predictor = total_line_length( $line_start_index_to_go, $max_index_to_go ); } else { $gnu_position_predictor = $space_count + $token_lengths_to_go[$max_index_to_go]; } # store the indentation object for this token # this allows us to manipulate the leading whitespace # (in case we have to reduce indentation to fit a line) without # having to change any token values $leading_spaces_to_go[$max_index_to_go] = $gnu_stack[$max_gnu_stack_index]; $reduced_spaces_to_go[$max_index_to_go] = ( $max_gnu_stack_index > 0 && $ci_level ) ? $gnu_stack[ $max_gnu_stack_index - 1 ] : $gnu_stack[$max_gnu_stack_index]; return; } sub check_for_long_gnu_style_lines { # look at the current estimated maximum line length, and # remove some whitespace if it exceeds the desired maximum # this is only for the '-lp' style return unless ($rOpts_line_up_parentheses); # nothing can be done if no stack items defined for this line return if ( $max_gnu_item_index == UNDEFINED_INDEX ); # see if we have exceeded the maximum desired line length # keep 2 extra free because they are needed in some cases # (result of trial-and-error testing) my $spaces_needed = $gnu_position_predictor - maximum_line_length($max_index_to_go) + 2; return if ( $spaces_needed <= 0 ); # We are over the limit, so try to remove a requested number of # spaces from leading whitespace. We are only allowed to remove # from whitespace items created on this batch, since others have # already been used and cannot be undone. my @candidates = (); my $i; # loop over all whitespace items created for the current batch for ( $i = 0 ; $i <= $max_gnu_item_index ; $i++ ) { my $item = $gnu_item_list[$i]; # item must still be open to be a candidate (otherwise it # cannot influence the current token) next if ( $item->get_closed() >= 0 ); my $available_spaces = $item->get_available_spaces(); if ( $available_spaces > 0 ) { push( @candidates, [ $i, $available_spaces ] ); } } return unless (@candidates); # sort by available whitespace so that we can remove whitespace # from the maximum available first @candidates = sort { $b->[1] <=> $a->[1] } @candidates; # keep removing whitespace until we are done or have no more foreach my $candidate (@candidates) { my ( $i, $available_spaces ) = @{$candidate}; my $deleted_spaces = ( $available_spaces > $spaces_needed ) ? $spaces_needed : $available_spaces; # remove the incremental space from this item $gnu_item_list[$i]->decrease_available_spaces($deleted_spaces); my $i_debug = $i; # update the leading whitespace of this item and all items # that came after it for ( ; $i <= $max_gnu_item_index ; $i++ ) { my $old_spaces = $gnu_item_list[$i]->get_spaces(); if ( $old_spaces >= $deleted_spaces ) { $gnu_item_list[$i]->decrease_SPACES($deleted_spaces); } # shouldn't happen except for code bug: else { my $level = $gnu_item_list[$i_debug]->get_level(); my $ci_level = $gnu_item_list[$i_debug]->get_ci_level(); my $old_level = $gnu_item_list[$i]->get_level(); my $old_ci_level = $gnu_item_list[$i]->get_ci_level(); warning( "program bug with -lp: want to delete $deleted_spaces from item $i, but old=$old_spaces deleted: lev=$level ci=$ci_level deleted: level=$old_level ci=$ci_level\n" ); report_definite_bug(); } } $gnu_position_predictor -= $deleted_spaces; $spaces_needed -= $deleted_spaces; last unless ( $spaces_needed > 0 ); } return; } sub finish_lp_batch { # This routine is called once after each output stream batch is # finished to undo indentation for all incomplete -lp # indentation levels. It is too risky to leave a level open, # because then we can't backtrack in case of a long line to follow. # This means that comments and blank lines will disrupt this # indentation style. But the vertical aligner may be able to # get the space back if there are side comments. # this is only for the 'lp' style return unless ($rOpts_line_up_parentheses); # nothing can be done if no stack items defined for this line return if ( $max_gnu_item_index == UNDEFINED_INDEX ); # loop over all whitespace items created for the current batch foreach my $i ( 0 .. $max_gnu_item_index ) { my $item = $gnu_item_list[$i]; # only look for open items next if ( $item->get_closed() >= 0 ); # Tentatively remove all of the available space # (The vertical aligner will try to get it back later) my $available_spaces = $item->get_available_spaces(); if ( $available_spaces > 0 ) { # delete incremental space for this item $gnu_item_list[$i] ->tentatively_decrease_available_spaces($available_spaces); # Reduce the total indentation space of any nodes that follow # Note that any such nodes must necessarily be dependents # of this node. foreach ( $i + 1 .. $max_gnu_item_index ) { $gnu_item_list[$_]->decrease_SPACES($available_spaces); } } } return; } sub reduce_lp_indentation { # reduce the leading whitespace at token $i if possible by $spaces_needed # (a large value of $spaces_needed will remove all excess space) # NOTE: to be called from scan_list only for a sequence of tokens # contained between opening and closing parens/braces/brackets my ( $i, $spaces_wanted ) = @_; my $deleted_spaces = 0; my $item = $leading_spaces_to_go[$i]; my $available_spaces = $item->get_available_spaces(); if ( $available_spaces > 0 && ( ( $spaces_wanted <= $available_spaces ) || !$item->get_have_child() ) ) { # we'll remove these spaces, but mark them as recoverable $deleted_spaces = $item->tentatively_decrease_available_spaces($spaces_wanted); } return $deleted_spaces; } sub token_sequence_length { # return length of tokens ($ibeg .. $iend) including $ibeg & $iend # returns 0 if $ibeg > $iend (shouldn't happen) my ( $ibeg, $iend ) = @_; return 0 if ( $iend < 0 || $ibeg > $iend ); return $summed_lengths_to_go[ $iend + 1 ] if ( $ibeg < 0 ); return $summed_lengths_to_go[ $iend + 1 ] - $summed_lengths_to_go[$ibeg]; } sub total_line_length { # return length of a line of tokens ($ibeg .. $iend) my ( $ibeg, $iend ) = @_; return leading_spaces_to_go($ibeg) + token_sequence_length( $ibeg, $iend ); } sub maximum_line_length_for_level { # return maximum line length for line starting with a given level my $maximum_line_length = $rOpts_maximum_line_length; # Modify if -vmll option is selected if ($rOpts_variable_maximum_line_length) { my $level = shift; if ( $level < 0 ) { $level = 0 } $maximum_line_length += $level * $rOpts_indent_columns; } return $maximum_line_length; } sub maximum_line_length { # return maximum line length for line starting with the token at given index my $ii = shift; return maximum_line_length_for_level( $levels_to_go[$ii] ); } sub excess_line_length { # return number of characters by which a line of tokens ($ibeg..$iend) # exceeds the allowable line length. my ( $ibeg, $iend, $ignore_left_weld, $ignore_right_weld ) = @_; # Include left and right weld lengths unless requested not to my $wl = $ignore_left_weld ? 0 : weld_len_left_to_go($iend); my $wr = $ignore_right_weld ? 0 : weld_len_right_to_go($iend); return total_line_length( $ibeg, $iend ) + $wl + $wr - maximum_line_length($ibeg); } sub wrapup { # flush buffer and write any informative messages my $self = shift; $self->flush(); $file_writer_object->decrement_output_line_number() ; # fix up line number since it was incremented we_are_at_the_last_line(); if ( $added_semicolon_count > 0 ) { my $first = ( $added_semicolon_count > 1 ) ? "First" : ""; my $what = ( $added_semicolon_count > 1 ) ? "semicolons were" : "semicolon was"; write_logfile_entry("$added_semicolon_count $what added:\n"); write_logfile_entry( " $first at input line $first_added_semicolon_at\n"); if ( $added_semicolon_count > 1 ) { write_logfile_entry( " Last at input line $last_added_semicolon_at\n"); } write_logfile_entry(" (Use -nasc to prevent semicolon addition)\n"); write_logfile_entry("\n"); } if ( $deleted_semicolon_count > 0 ) { my $first = ( $deleted_semicolon_count > 1 ) ? "First" : ""; my $what = ( $deleted_semicolon_count > 1 ) ? "semicolons were" : "semicolon was"; write_logfile_entry( "$deleted_semicolon_count unnecessary $what deleted:\n"); write_logfile_entry( " $first at input line $first_deleted_semicolon_at\n"); if ( $deleted_semicolon_count > 1 ) { write_logfile_entry( " Last at input line $last_deleted_semicolon_at\n"); } write_logfile_entry(" (Use -ndsc to prevent semicolon deletion)\n"); write_logfile_entry("\n"); } if ( $embedded_tab_count > 0 ) { my $first = ( $embedded_tab_count > 1 ) ? "First" : ""; my $what = ( $embedded_tab_count > 1 ) ? "quotes or patterns" : "quote or pattern"; write_logfile_entry("$embedded_tab_count $what had embedded tabs:\n"); write_logfile_entry( "This means the display of this script could vary with device or software\n" ); write_logfile_entry(" $first at input line $first_embedded_tab_at\n"); if ( $embedded_tab_count > 1 ) { write_logfile_entry( " Last at input line $last_embedded_tab_at\n"); } write_logfile_entry("\n"); } if ($first_tabbing_disagreement) { write_logfile_entry( "First indentation disagreement seen at input line $first_tabbing_disagreement\n" ); } if ($in_tabbing_disagreement) { write_logfile_entry( "Ending with indentation disagreement which started at input line $in_tabbing_disagreement\n" ); } else { if ($last_tabbing_disagreement) { write_logfile_entry( "Last indentation disagreement seen at input line $last_tabbing_disagreement\n" ); } else { write_logfile_entry("No indentation disagreement seen\n"); } } if ($first_tabbing_disagreement) { write_logfile_entry( "Note: Indentation disagreement detection is not accurate for outdenting and -lp.\n" ); } write_logfile_entry("\n"); $vertical_aligner_object->report_anything_unusual(); $file_writer_object->report_line_length_errors(); return; } sub check_options { # This routine is called to check the Opts hash after it is defined $rOpts = shift; make_static_block_comment_pattern(); make_static_side_comment_pattern(); make_closing_side_comment_prefix(); make_closing_side_comment_list_pattern(); $format_skipping_pattern_begin = make_format_skipping_pattern( 'format-skipping-begin', '#<<<' ); $format_skipping_pattern_end = make_format_skipping_pattern( 'format-skipping-end', '#>>>' ); # If closing side comments ARE selected, then we can safely # delete old closing side comments unless closing side comment # warnings are requested. This is a good idea because it will # eliminate any old csc's which fall below the line count threshold. # We cannot do this if warnings are turned on, though, because we # might delete some text which has been added. So that must # be handled when comments are created. if ( $rOpts->{'closing-side-comments'} ) { if ( !$rOpts->{'closing-side-comment-warnings'} ) { $rOpts->{'delete-closing-side-comments'} = 1; } } # If closing side comments ARE NOT selected, but warnings ARE # selected and we ARE DELETING csc's, then we will pretend to be # adding with a huge interval. This will force the comments to be # generated for comparison with the old comments, but not added. elsif ( $rOpts->{'closing-side-comment-warnings'} ) { if ( $rOpts->{'delete-closing-side-comments'} ) { $rOpts->{'delete-closing-side-comments'} = 0; $rOpts->{'closing-side-comments'} = 1; $rOpts->{'closing-side-comment-interval'} = 100000000; } } make_bli_pattern(); make_block_brace_vertical_tightness_pattern(); make_blank_line_pattern(); prepare_cuddled_block_types(); if ( $rOpts->{'dump-cuddled-block-list'} ) { dump_cuddled_block_list(*STDOUT); Perl::Tidy::Exit 0; } if ( $rOpts->{'line-up-parentheses'} ) { if ( $rOpts->{'indent-only'} || !$rOpts->{'add-newlines'} || !$rOpts->{'delete-old-newlines'} ) { Perl::Tidy::Warn <{'line-up-parentheses'} = 0; } } # At present, tabs are not compatible with the line-up-parentheses style # (it would be possible to entab the total leading whitespace # just prior to writing the line, if desired). if ( $rOpts->{'line-up-parentheses'} && $rOpts->{'tabs'} ) { Perl::Tidy::Warn <{'tabs'} = 0; } # Likewise, tabs are not compatible with outdenting.. if ( $rOpts->{'outdent-keywords'} && $rOpts->{'tabs'} ) { Perl::Tidy::Warn <{'tabs'} = 0; } if ( $rOpts->{'outdent-labels'} && $rOpts->{'tabs'} ) { Perl::Tidy::Warn <{'tabs'} = 0; } if ( !$rOpts->{'space-for-semicolon'} ) { $want_left_space{'f'} = -1; } if ( $rOpts->{'space-terminal-semicolon'} ) { $want_left_space{';'} = 1; } # implement outdenting preferences for keywords %outdent_keyword = (); unless ( @_ = split_words( $rOpts->{'outdent-keyword-okl'} ) ) { @_ = qw(next last redo goto return); # defaults } # FUTURE: if not a keyword, assume that it is an identifier foreach (@_) { if ( $Perl::Tidy::Tokenizer::is_keyword{$_} ) { $outdent_keyword{$_} = 1; } else { Perl::Tidy::Warn "ignoring '$_' in -okwl list; not a perl keyword"; } } # implement user whitespace preferences if ( @_ = split_words( $rOpts->{'want-left-space'} ) ) { @want_left_space{@_} = (1) x scalar(@_); } if ( @_ = split_words( $rOpts->{'want-right-space'} ) ) { @want_right_space{@_} = (1) x scalar(@_); } if ( @_ = split_words( $rOpts->{'nowant-left-space'} ) ) { @want_left_space{@_} = (-1) x scalar(@_); } if ( @_ = split_words( $rOpts->{'nowant-right-space'} ) ) { @want_right_space{@_} = (-1) x scalar(@_); } if ( $rOpts->{'dump-want-left-space'} ) { dump_want_left_space(*STDOUT); Perl::Tidy::Exit 0; } if ( $rOpts->{'dump-want-right-space'} ) { dump_want_right_space(*STDOUT); Perl::Tidy::Exit 0; } # default keywords for which space is introduced before an opening paren # (at present, including them messes up vertical alignment) @_ = qw(my local our and or err eq ne if else elsif until unless while for foreach return switch case given when catch); @space_after_keyword{@_} = (1) x scalar(@_); # first remove any or all of these if desired if ( @_ = split_words( $rOpts->{'nospace-after-keyword'} ) ) { # -nsak='*' selects all the above keywords if ( @_ == 1 && $_[0] eq '*' ) { @_ = keys(%space_after_keyword) } @space_after_keyword{@_} = (0) x scalar(@_); } # then allow user to add to these defaults if ( @_ = split_words( $rOpts->{'space-after-keyword'} ) ) { @space_after_keyword{@_} = (1) x scalar(@_); } # implement user break preferences my @all_operators = qw(% + - * / x != == >= <= =~ !~ < > | & = **= += *= &= <<= &&= -= /= |= >>= ||= //= .= %= ^= x= . : ? && || and or err xor ); my $break_after = sub { foreach my $tok (@_) { if ( $tok eq '?' ) { $tok = ':' } # patch to coordinate ?/: my $lbs = $left_bond_strength{$tok}; my $rbs = $right_bond_strength{$tok}; if ( defined($lbs) && defined($rbs) && $lbs < $rbs ) { ( $right_bond_strength{$tok}, $left_bond_strength{$tok} ) = ( $lbs, $rbs ); } } }; my $break_before = sub { foreach my $tok (@_) { my $lbs = $left_bond_strength{$tok}; my $rbs = $right_bond_strength{$tok}; if ( defined($lbs) && defined($rbs) && $rbs < $lbs ) { ( $right_bond_strength{$tok}, $left_bond_strength{$tok} ) = ( $lbs, $rbs ); } } }; $break_after->(@all_operators) if ( $rOpts->{'break-after-all-operators'} ); $break_before->(@all_operators) if ( $rOpts->{'break-before-all-operators'} ); $break_after->( split_words( $rOpts->{'want-break-after'} ) ); $break_before->( split_words( $rOpts->{'want-break-before'} ) ); # make note if breaks are before certain key types %want_break_before = (); foreach my $tok ( @all_operators, ',' ) { $want_break_before{$tok} = $left_bond_strength{$tok} < $right_bond_strength{$tok}; } # Coordinate ?/: breaks, which must be similar if ( !$want_break_before{':'} ) { $want_break_before{'?'} = $want_break_before{':'}; $right_bond_strength{'?'} = $right_bond_strength{':'} + 0.01; $left_bond_strength{'?'} = NO_BREAK; } # Define here tokens which may follow the closing brace of a do statement # on the same line, as in: # } while ( $something); @_ = qw(until while unless if ; : ); push @_, ','; @is_do_follower{@_} = (1) x scalar(@_); # These tokens may follow the closing brace of an if or elsif block. # In other words, for cuddled else we want code to look like: # } elsif ( $something) { # } else { if ( $rOpts->{'cuddled-else'} ) { @_ = qw(else elsif); @is_if_brace_follower{@_} = (1) x scalar(@_); } else { %is_if_brace_follower = (); } # nothing can follow the closing curly of an else { } block: %is_else_brace_follower = (); # what can follow a multi-line anonymous sub definition closing curly: @_ = qw# ; : => or and && || ~~ !~~ ) #; push @_, ','; @is_anon_sub_brace_follower{@_} = (1) x scalar(@_); # what can follow a one-line anonymous sub closing curly: # one-line anonymous subs also have ']' here... # see tk3.t and PP.pm @_ = qw# ; : => or and && || ) ] ~~ !~~ #; push @_, ','; @is_anon_sub_1_brace_follower{@_} = (1) x scalar(@_); # What can follow a closing curly of a block # which is not an if/elsif/else/do/sort/map/grep/eval/sub # Testfiles: 'Toolbar.pm', 'Menubar.pm', bless.t, '3rules.pl' @_ = qw# ; : => or and && || ) #; push @_, ','; # allow cuddled continue if cuddled else is specified if ( $rOpts->{'cuddled-else'} ) { push @_, 'continue'; } @is_other_brace_follower{@_} = (1) x scalar(@_); $right_bond_strength{'{'} = WEAK; $left_bond_strength{'{'} = VERY_STRONG; # make -l=0 equal to -l=infinite if ( !$rOpts->{'maximum-line-length'} ) { $rOpts->{'maximum-line-length'} = 1000000; } # make -lbl=0 equal to -lbl=infinite if ( !$rOpts->{'long-block-line-count'} ) { $rOpts->{'long-block-line-count'} = 1000000; } my $enc = $rOpts->{'character-encoding'}; if ( $enc && $enc !~ /^(none|utf8)$/i ) { Perl::Tidy::Die <{'output-line-ending'}; if ($ole) { my %endings = ( dos => "\015\012", win => "\015\012", mac => "\015", unix => "\012", ); # Patch for RT #99514, a memoization issue. # Normally, the user enters one of 'dos', 'win', etc, and we change the # value in the options parameter to be the corresponding line ending # character. But, if we are using memoization, on later passes through # here the option parameter will already have the desired ending # character rather than the keyword 'dos', 'win', etc. So # we must check to see if conversion has already been done and, if so, # bypass the conversion step. my %endings_inverted = ( "\015\012" => 'dos', "\015\012" => 'win', "\015" => 'mac', "\012" => 'unix', ); if ( defined( $endings_inverted{$ole} ) ) { # we already have valid line ending, nothing more to do } else { $ole = lc $ole; unless ( $rOpts->{'output-line-ending'} = $endings{$ole} ) { my $str = join " ", keys %endings; Perl::Tidy::Die <{'preserve-line-endings'} ) { Perl::Tidy::Warn "Ignoring -ple; conflicts with -ole\n"; $rOpts->{'preserve-line-endings'} = undef; } } } # hashes used to simplify setting whitespace %tightness = ( '{' => $rOpts->{'brace-tightness'}, '}' => $rOpts->{'brace-tightness'}, '(' => $rOpts->{'paren-tightness'}, ')' => $rOpts->{'paren-tightness'}, '[' => $rOpts->{'square-bracket-tightness'}, ']' => $rOpts->{'square-bracket-tightness'}, ); %matching_token = ( '{' => '}', '(' => ')', '[' => ']', '?' => ':', ); # frequently used parameters $rOpts_add_newlines = $rOpts->{'add-newlines'}; $rOpts_add_whitespace = $rOpts->{'add-whitespace'}; $rOpts_block_brace_tightness = $rOpts->{'block-brace-tightness'}; $rOpts_block_brace_vertical_tightness = $rOpts->{'block-brace-vertical-tightness'}; $rOpts_brace_left_and_indent = $rOpts->{'brace-left-and-indent'}; $rOpts_comma_arrow_breakpoints = $rOpts->{'comma-arrow-breakpoints'}; $rOpts_break_at_old_ternary_breakpoints = $rOpts->{'break-at-old-ternary-breakpoints'}; $rOpts_break_at_old_attribute_breakpoints = $rOpts->{'break-at-old-attribute-breakpoints'}; $rOpts_break_at_old_comma_breakpoints = $rOpts->{'break-at-old-comma-breakpoints'}; $rOpts_break_at_old_keyword_breakpoints = $rOpts->{'break-at-old-keyword-breakpoints'}; $rOpts_break_at_old_logical_breakpoints = $rOpts->{'break-at-old-logical-breakpoints'}; $rOpts_closing_side_comment_else_flag = $rOpts->{'closing-side-comment-else-flag'}; $rOpts_closing_side_comment_maximum_text = $rOpts->{'closing-side-comment-maximum-text'}; $rOpts_continuation_indentation = $rOpts->{'continuation-indentation'}; $rOpts_cuddled_else = $rOpts->{'cuddled-else'}; $rOpts_delete_old_whitespace = $rOpts->{'delete-old-whitespace'}; $rOpts_fuzzy_line_length = $rOpts->{'fuzzy-line-length'}; $rOpts_indent_columns = $rOpts->{'indent-columns'}; $rOpts_line_up_parentheses = $rOpts->{'line-up-parentheses'}; $rOpts_maximum_fields_per_table = $rOpts->{'maximum-fields-per-table'}; $rOpts_maximum_line_length = $rOpts->{'maximum-line-length'}; $rOpts_whitespace_cycle = $rOpts->{'whitespace-cycle'}; $rOpts_variable_maximum_line_length = $rOpts->{'variable-maximum-line-length'}; $rOpts_short_concatenation_item_length = $rOpts->{'short-concatenation-item-length'}; $rOpts_keep_old_blank_lines = $rOpts->{'keep-old-blank-lines'}; $rOpts_ignore_old_breakpoints = $rOpts->{'ignore-old-breakpoints'}; $rOpts_format_skipping = $rOpts->{'format-skipping'}; $rOpts_space_function_paren = $rOpts->{'space-function-paren'}; $rOpts_space_keyword_paren = $rOpts->{'space-keyword-paren'}; $rOpts_keep_interior_semicolons = $rOpts->{'keep-interior-semicolons'}; $rOpts_ignore_side_comment_lengths = $rOpts->{'ignore-side-comment-lengths'}; # Note that both opening and closing tokens can access the opening # and closing flags of their container types. %opening_vertical_tightness = ( '(' => $rOpts->{'paren-vertical-tightness'}, '{' => $rOpts->{'brace-vertical-tightness'}, '[' => $rOpts->{'square-bracket-vertical-tightness'}, ')' => $rOpts->{'paren-vertical-tightness'}, '}' => $rOpts->{'brace-vertical-tightness'}, ']' => $rOpts->{'square-bracket-vertical-tightness'}, ); %closing_vertical_tightness = ( '(' => $rOpts->{'paren-vertical-tightness-closing'}, '{' => $rOpts->{'brace-vertical-tightness-closing'}, '[' => $rOpts->{'square-bracket-vertical-tightness-closing'}, ')' => $rOpts->{'paren-vertical-tightness-closing'}, '}' => $rOpts->{'brace-vertical-tightness-closing'}, ']' => $rOpts->{'square-bracket-vertical-tightness-closing'}, ); # assume flag for '>' same as ')' for closing qw quotes %closing_token_indentation = ( ')' => $rOpts->{'closing-paren-indentation'}, '}' => $rOpts->{'closing-brace-indentation'}, ']' => $rOpts->{'closing-square-bracket-indentation'}, '>' => $rOpts->{'closing-paren-indentation'}, ); # flag indicating if any closing tokens are indented $some_closing_token_indentation = $rOpts->{'closing-paren-indentation'} || $rOpts->{'closing-brace-indentation'} || $rOpts->{'closing-square-bracket-indentation'} || $rOpts->{'indent-closing-brace'}; %opening_token_right = ( '(' => $rOpts->{'opening-paren-right'}, '{' => $rOpts->{'opening-hash-brace-right'}, '[' => $rOpts->{'opening-square-bracket-right'}, ); %stack_opening_token = ( '(' => $rOpts->{'stack-opening-paren'}, '{' => $rOpts->{'stack-opening-hash-brace'}, '[' => $rOpts->{'stack-opening-square-bracket'}, ); %stack_closing_token = ( ')' => $rOpts->{'stack-closing-paren'}, '}' => $rOpts->{'stack-closing-hash-brace'}, ']' => $rOpts->{'stack-closing-square-bracket'}, ); $rOpts_stack_closing_block_brace = $rOpts->{'stack-closing-block-brace'}; $rOpts_space_backslash_quote = $rOpts->{'space-backslash-quote'}; return; } sub bad_pattern { # See if a pattern will compile. We have to use a string eval here, # but it should be safe because the pattern has been constructed # by this program. my ($pattern) = @_; eval "'##'=~/$pattern/"; return $@; } sub prepare_cuddled_block_types { my $cuddled_string = $rOpts->{'cuddled-block-list'}; $cuddled_string = "try-catch-finally" unless defined($cuddled_string); # we have a cuddled string of the form # 'try-catch-finally' # we want to prepare a hash of the form # $rcuddled_block_types = { # 'try' => { # 'catch' => 1, # 'finally' => 1 # }, # }; # use -dcbl to dump this hash # Multiple such strings are input as a space or comma separated list # If we get two lists with the same leading type, such as # -cbl = "-try-catch-finally -try-catch-otherwise" # then they will get merged as follows: # $rcuddled_block_types = { # 'try' => { # 'catch' => 1, # 'finally' => 2, # 'otherwise' => 1, # }, # }; # This will allow either type of chain to be followed. $cuddled_string =~ s/,/ /g; # allow space or comma separated lists my @cuddled_strings = split /\s+/, $cuddled_string; $rcuddled_block_types = {}; # process each dash-separated string... my $string_count = 0; foreach my $string (@cuddled_strings) { next unless $string; my @words = split /-+/, $string; # allow multiple dashes # we could look for and report possible errors here... next unless ( @words && @words > 0 ); my $start = shift @words; # allow either '-continue' or *-continue' for arbitrary starting type $start = '*' unless $start; # always make an entry for the leading word. If none follow, this # will still prevent a wildcard from matching this word. if ( !defined( $rcuddled_block_types->{$start} ) ) { $rcuddled_block_types->{$start} = {}; } # The count gives the original word order in case we ever want it. $string_count++; my $word_count = 0; foreach my $word (@words) { next unless $word; $word_count++; $rcuddled_block_types->{$start}->{$word} = 1; #"$string_count.$word_count"; } } return; } sub dump_cuddled_block_list { my ($fh) = @_; # Here is the format of the cuddled block type hash # which controls this routine # my $rcuddled_block_types = { # 'if' => { # 'else' => 1, # 'elsif' => 1 # }, # 'try' => { # 'catch' => 1, # 'finally' => 1 # }, # }; #The numerical values are string.word, #where string = string number and word = word number in that string my $cuddled_string = $rOpts->{'cuddled-block-list'}; $cuddled_string = '' unless $cuddled_string; $fh->print(<print( Dumper($rcuddled_block_types) ); $fh->print(<{'static-block-comment-prefix'} ) { my $prefix = $rOpts->{'static-block-comment-prefix'}; $prefix =~ s/^\s*//; my $pattern = $prefix; # user may give leading caret to force matching left comments only if ( $prefix !~ /^\^#/ ) { if ( $prefix !~ /^#/ ) { Perl::Tidy::Die "ERROR: the -sbcp prefix is '$prefix' but must begin with '#' or '^#'\n"; } $pattern = '^\s*' . $prefix; } if ( bad_pattern($pattern) ) { Perl::Tidy::Die "ERROR: the -sbc prefix '$prefix' causes the invalid regex '$pattern'\n"; } $static_block_comment_pattern = $pattern; } return; } sub make_format_skipping_pattern { my ( $opt_name, $default ) = @_; my $param = $rOpts->{$opt_name}; unless ($param) { $param = $default } $param =~ s/^\s*//; if ( $param !~ /^#/ ) { Perl::Tidy::Die "ERROR: the $opt_name parameter '$param' must begin with '#'\n"; } my $pattern = '^' . $param . '\s'; if ( bad_pattern($pattern) ) { Perl::Tidy::Die "ERROR: the $opt_name parameter '$param' causes the invalid regex '$pattern'\n"; } return $pattern; } sub make_closing_side_comment_list_pattern { # turn any input list into a regex for recognizing selected block types $closing_side_comment_list_pattern = '^\w+'; if ( defined( $rOpts->{'closing-side-comment-list'} ) && $rOpts->{'closing-side-comment-list'} ) { $closing_side_comment_list_pattern = make_block_pattern( '-cscl', $rOpts->{'closing-side-comment-list'} ); } return; } sub make_bli_pattern { if ( defined( $rOpts->{'brace-left-and-indent-list'} ) && $rOpts->{'brace-left-and-indent-list'} ) { $bli_list_string = $rOpts->{'brace-left-and-indent-list'}; } $bli_pattern = make_block_pattern( '-blil', $bli_list_string ); return; } sub make_block_brace_vertical_tightness_pattern { # turn any input list into a regex for recognizing selected block types $block_brace_vertical_tightness_pattern = '^((if|else|elsif|unless|while|for|foreach|do|\w+:)$|sub)'; if ( defined( $rOpts->{'block-brace-vertical-tightness-list'} ) && $rOpts->{'block-brace-vertical-tightness-list'} ) { $block_brace_vertical_tightness_pattern = make_block_pattern( '-bbvtl', $rOpts->{'block-brace-vertical-tightness-list'} ); } return; } sub make_blank_line_pattern { $blank_lines_before_closing_block_pattern = $SUB_PATTERN; my $key = 'blank-lines-before-closing-block-list'; if ( defined( $rOpts->{$key} ) && $rOpts->{$key} ) { $blank_lines_before_closing_block_pattern = make_block_pattern( '-blbcl', $rOpts->{$key} ); } $blank_lines_after_opening_block_pattern = $SUB_PATTERN; $key = 'blank-lines-after-opening-block-list'; if ( defined( $rOpts->{$key} ) && $rOpts->{$key} ) { $blank_lines_after_opening_block_pattern = make_block_pattern( '-blaol', $rOpts->{$key} ); } return; } sub make_block_pattern { # given a string of block-type keywords, return a regex to match them # The only tricky part is that labels are indicated with a single ':' # and the 'sub' token text may have additional text after it (name of # sub). # # Example: # # input string: "if else elsif unless while for foreach do : sub"; # pattern: '^((if|else|elsif|unless|while|for|foreach|do|\w+:)$|sub)'; # Minor Update: # # To distinguish between anonymous subs and named subs, use 'sub' to # indicate a named sub, and 'asub' to indicate an anonymous sub my ( $abbrev, $string ) = @_; my @list = split_words($string); my @words = (); my %seen; for my $i (@list) { if ( $i eq '*' ) { my $pattern = '^.*'; return $pattern } next if $seen{$i}; $seen{$i} = 1; if ( $i eq 'sub' ) { } elsif ( $i eq 'asub' ) { } elsif ( $i eq ';' ) { push @words, ';'; } elsif ( $i eq '{' ) { push @words, '\{'; } elsif ( $i eq ':' ) { push @words, '\w+:'; } elsif ( $i =~ /^\w/ ) { push @words, $i; } else { Perl::Tidy::Warn "unrecognized block type $i after $abbrev, ignoring\n"; } } my $pattern = '(' . join( '|', @words ) . ')$'; my $sub_patterns = ""; if ( $seen{'sub'} ) { $sub_patterns .= '|' . $SUB_PATTERN; } if ( $seen{'asub'} ) { $sub_patterns .= '|' . $ASUB_PATTERN; } if ($sub_patterns) { $pattern = '(' . $pattern . $sub_patterns . ')'; } $pattern = '^' . $pattern; return $pattern; } sub make_static_side_comment_pattern { # create the pattern used to identify static side comments $static_side_comment_pattern = '^##'; # allow the user to change it if ( $rOpts->{'static-side-comment-prefix'} ) { my $prefix = $rOpts->{'static-side-comment-prefix'}; $prefix =~ s/^\s*//; my $pattern = '^' . $prefix; if ( bad_pattern($pattern) ) { Perl::Tidy::Die "ERROR: the -sscp prefix '$prefix' causes the invalid regex '$pattern'\n"; } $static_side_comment_pattern = $pattern; } return; } sub make_closing_side_comment_prefix { # Be sure we have a valid closing side comment prefix my $csc_prefix = $rOpts->{'closing-side-comment-prefix'}; my $csc_prefix_pattern; if ( !defined($csc_prefix) ) { $csc_prefix = '## end'; $csc_prefix_pattern = '^##\s+end'; } else { my $test_csc_prefix = $csc_prefix; if ( $test_csc_prefix !~ /^#/ ) { $test_csc_prefix = '#' . $test_csc_prefix; } # make a regex to recognize the prefix my $test_csc_prefix_pattern = $test_csc_prefix; # escape any special characters $test_csc_prefix_pattern =~ s/([^#\s\w])/\\$1/g; $test_csc_prefix_pattern = '^' . $test_csc_prefix_pattern; # allow exact number of intermediate spaces to vary $test_csc_prefix_pattern =~ s/\s+/\\s\+/g; # make sure we have a good pattern # if we fail this we probably have an error in escaping # characters. if ( bad_pattern($test_csc_prefix_pattern) ) { # shouldn't happen..must have screwed up escaping, above report_definite_bug(); Perl::Tidy::Warn "Program Error: the -cscp prefix '$csc_prefix' caused the invalid regex '$csc_prefix_pattern'\n"; # just warn and keep going with defaults Perl::Tidy::Warn "Please consider using a simpler -cscp prefix\n"; Perl::Tidy::Warn "Using default -cscp instead; please check output\n"; } else { $csc_prefix = $test_csc_prefix; $csc_prefix_pattern = $test_csc_prefix_pattern; } } $rOpts->{'closing-side-comment-prefix'} = $csc_prefix; $closing_side_comment_prefix_pattern = $csc_prefix_pattern; return; } sub dump_want_left_space { my $fh = shift; local $" = "\n"; print $fh <1; # $a = $b - III; # and even this: # $a = - III; || ( ( $tokenl eq '-' ) && ( $typer =~ /^[wC]$/ && $tokenr =~ /^[_A-Za-z]/ ) ) # '= -' should not become =- or you will get a warning # about reversed -= # || ($tokenr eq '-') # keep a space between a quote and a bareword to prevent the # bareword from becoming a quote modifier. || ( ( $typel eq 'Q' ) && ( $tokenr =~ /^[a-zA-Z_]/ ) ) # keep a space between a token ending in '$' and any word; # this caused trouble: "die @$ if $@" || ( ( $typel eq 'i' && $tokenl =~ /\$$/ ) && ( $tokenr =~ /^[a-zA-Z_]/ ) ) # perl is very fussy about spaces before << || ( $tokenr =~ /^\<\ [qw#= ( ) =#], #=( )= 'Venus1' => [qw#0 +#], # 0+ 'Venus2' => [qw#+ 0#], # +0 'Enterprise' => [qw#) x ! !#], # ()x!! 'Kite1' => [qw#~ ~ <>#], # ~~<> 'Kite2' => [qw#~~ <>#], # ~~<> 'Winking Fat Comma' => [ ( ',', '=>' ) ], # ,=> 'Bang bang ' => [qw#! !#], # !! ); # The following operators and constants are not included because they # are normally kept tight by perltidy: # ~~ <~> # # Make a lookup table indexed by the first token of each operator: # first token => [list, list, ...] foreach my $value ( values(%secret_operators) ) { my $tok = $value->[0]; push @{ $is_leading_secret_token{$tok} }, $value; } } sub new_secret_operator_whitespace { my ( $rlong_array, $rwhitespace_flags ) = @_; # Loop over all tokens in this line my ( $token, $type ); my $jmax = @{$rlong_array} - 1; foreach my $j ( 0 .. $jmax ) { $token = $rlong_array->[$j]->[_TOKEN_]; $type = $rlong_array->[$j]->[_TYPE_]; # Skip unless this token might start a secret operator next if ( $type eq 'b' ); next unless ( $is_leading_secret_token{$token} ); # Loop over all secret operators with this leading token foreach my $rpattern ( @{ $is_leading_secret_token{$token} } ) { my $jend = $j - 1; foreach my $tok ( @{$rpattern} ) { $jend++; $jend++ if ( $jend <= $jmax && $rlong_array->[$jend]->[_TYPE_] eq 'b' ); if ( $jend > $jmax || $tok ne $rlong_array->[$jend]->[_TOKEN_] ) { $jend = undef; last; } } if ($jend) { # set flags to prevent spaces within this operator foreach my $jj ( $j + 1 .. $jend ) { $rwhitespace_flags->[$jj] = WS_NO; } $j = $jend; last; } } ## End Loop over all operators } ## End loop over all tokens return; } # End sub } { # begin print_line_of_tokens my $rinput_token_array; # Current working array my $rinput_K_array; # Future working array my $in_quote; my $guessed_indentation_level; # This should be a return variable from extract_token # These local token variables are stored by store_token_to_go: my $rtoken_vars; my $Ktoken_vars; my $block_type; my $ci_level; my $container_environment; my $container_type; my $in_continued_quote; my $level; my $no_internal_newlines; my $slevel; my $token; my $type; my $type_sequence; # routine to pull the jth token from the line of tokens sub extract_token { my ( $self, $j ) = @_; my $rLL = $self->{rLL}; $Ktoken_vars = $rinput_K_array->[$j]; if ( !defined($Ktoken_vars) ) { # Shouldn't happen: an error here would be due to a recent program change Fault("undefined index K for j=$j"); } $rtoken_vars = $rLL->[$Ktoken_vars]; if ( $rtoken_vars->[_TOKEN_] ne $rLL->[$Ktoken_vars]->[_TOKEN_] ) { # Shouldn't happen: an error here would be due to a recent program change Fault(<[_TOKEN_]' ne '$rLL->[$Ktoken_vars]' EOM } ######################################################### # these are now redundant and can eventually be eliminated $token = $rtoken_vars->[_TOKEN_]; $type = $rtoken_vars->[_TYPE_]; $block_type = $rtoken_vars->[_BLOCK_TYPE_]; $container_type = $rtoken_vars->[_CONTAINER_TYPE_]; $container_environment = $rtoken_vars->[_CONTAINER_ENVIRONMENT_]; $type_sequence = $rtoken_vars->[_TYPE_SEQUENCE_]; $level = $rtoken_vars->[_LEVEL_]; $slevel = $rtoken_vars->[_SLEVEL_]; $ci_level = $rtoken_vars->[_CI_LEVEL_]; ######################################################### return; } { my @saved_token; sub save_current_token { @saved_token = ( $block_type, $ci_level, $container_environment, $container_type, $in_continued_quote, $level, $no_internal_newlines, $slevel, $token, $type, $type_sequence, $rtoken_vars, $Ktoken_vars, ); return; } sub restore_current_token { ( $block_type, $ci_level, $container_environment, $container_type, $in_continued_quote, $level, $no_internal_newlines, $slevel, $token, $type, $type_sequence, $rtoken_vars, $Ktoken_vars, ) = @saved_token; return; } } sub token_length { # Returns the length of a token, given: # $token=text of the token # $type = type # $not_first_token = should be TRUE if this is not the first token of # the line. It might the index of this token in an array. It is # used to test for a side comment vs a block comment. # Note: Eventually this should be the only routine determining the # length of a token in this package. my ( $token, $type, $not_first_token ) = @_; my $token_length = length($token); # We mark lengths of side comments as just 1 if we are # ignoring their lengths when setting line breaks. $token_length = 1 if ( $rOpts_ignore_side_comment_lengths && $not_first_token && $type eq '#' ); return $token_length; } sub rtoken_length { # return length of ith token in @{$rtokens} my ($i) = @_; return token_length( $rinput_token_array->[$i]->[_TOKEN_], $rinput_token_array->[$i]->[_TYPE_], $i ); } # Routine to place the current token into the output stream. # Called once per output token. sub store_token_to_go { my ( $self, $side_comment_follows ) = @_; my $flag = $side_comment_follows ? 1 : $no_internal_newlines; ++$max_index_to_go; $K_to_go[$max_index_to_go] = $Ktoken_vars; $rtoken_vars_to_go[$max_index_to_go] = $rtoken_vars; $tokens_to_go[$max_index_to_go] = $token; $types_to_go[$max_index_to_go] = $type; $nobreak_to_go[$max_index_to_go] = $flag; $old_breakpoint_to_go[$max_index_to_go] = 0; $forced_breakpoint_to_go[$max_index_to_go] = 0; $block_type_to_go[$max_index_to_go] = $block_type; $type_sequence_to_go[$max_index_to_go] = $type_sequence; $container_environment_to_go[$max_index_to_go] = $container_environment; $ci_levels_to_go[$max_index_to_go] = $ci_level; $mate_index_to_go[$max_index_to_go] = -1; $matching_token_to_go[$max_index_to_go] = ''; $bond_strength_to_go[$max_index_to_go] = 0; # Note: negative levels are currently retained as a diagnostic so that # the 'final indentation level' is correctly reported for bad scripts. # But this means that every use of $level as an index must be checked. # If this becomes too much of a problem, we might give up and just clip # them at zero. ## $levels_to_go[$max_index_to_go] = ( $level > 0 ) ? $level : 0; $levels_to_go[$max_index_to_go] = $level; $nesting_depth_to_go[$max_index_to_go] = ( $slevel >= 0 ) ? $slevel : 0; # link the non-blank tokens my $iprev = $max_index_to_go - 1; $iprev-- if ( $iprev >= 0 && $types_to_go[$iprev] eq 'b' ); $iprev_to_go[$max_index_to_go] = $iprev; $inext_to_go[$iprev] = $max_index_to_go if ( $iprev >= 0 && $type ne 'b' ); $inext_to_go[$max_index_to_go] = $max_index_to_go + 1; $token_lengths_to_go[$max_index_to_go] = token_length( $token, $type, $max_index_to_go ); # We keep a running sum of token lengths from the start of this batch: # summed_lengths_to_go[$i] = total length to just before token $i # summed_lengths_to_go[$i+1] = total length to just after token $i $summed_lengths_to_go[ $max_index_to_go + 1 ] = $summed_lengths_to_go[$max_index_to_go] + $token_lengths_to_go[$max_index_to_go]; # Define the indentation that this token would have if it started # a new line. We have to do this now because we need to know this # when considering one-line blocks. set_leading_whitespace( $level, $ci_level, $in_continued_quote ); # remember previous nonblank tokens seen if ( $type ne 'b' ) { $last_last_nonblank_index_to_go = $last_nonblank_index_to_go; $last_last_nonblank_type_to_go = $last_nonblank_type_to_go; $last_last_nonblank_token_to_go = $last_nonblank_token_to_go; $last_nonblank_index_to_go = $max_index_to_go; $last_nonblank_type_to_go = $type; $last_nonblank_token_to_go = $token; if ( $type eq ',' ) { $comma_count_in_batch++; } } FORMATTER_DEBUG_FLAG_STORE && do { my ( $a, $b, $c ) = caller(); print STDOUT "STORE: from $a $c: storing token $token type $type lev=$level slev=$slevel at $max_index_to_go\n"; }; return; } sub insert_new_token_to_go { # insert a new token into the output stream. use same level as # previous token; assumes a character at max_index_to_go. my $self = shift; my @args = @_; save_current_token(); ( $token, $type, $slevel, $no_internal_newlines ) = @args; if ( $max_index_to_go == UNDEFINED_INDEX ) { warning("code bug: bad call to insert_new_token_to_go\n"); } $level = $levels_to_go[$max_index_to_go]; # FIXME: it seems to be necessary to use the next, rather than # previous, value of this variable when creating a new blank (align.t) #my $slevel = $nesting_depth_to_go[$max_index_to_go]; $ci_level = $ci_levels_to_go[$max_index_to_go]; $container_environment = $container_environment_to_go[$max_index_to_go]; $in_continued_quote = 0; $block_type = ""; $type_sequence = ""; $self->store_token_to_go(); restore_current_token(); return; } sub copy_hash { my ($rold_token_hash) = @_; my %new_token_hash = map { $_, $rold_token_hash->{$_} } keys %{$rold_token_hash}; return \%new_token_hash; } sub copy_array { my ($rold) = @_; my @new = map { $_ } @{$rold}; return \@new; } sub copy_token_as_type { my ( $rold_token, $type, $token ) = @_; if ( $type eq 'b' ) { $token = " " unless defined($token); } elsif ( $type eq 'q' ) { $token = '' unless defined($token); } elsif ( $type eq '->' ) { $token = '->' unless defined($token); } elsif ( $type eq ';' ) { $token = ';' unless defined($token); } else { Fault( "Programming error: copy_token_as has type $type but should be 'b' or 'q'" ); } my $rnew_token = copy_array($rold_token); $rnew_token->[_TYPE_] = $type; $rnew_token->[_TOKEN_] = $token; $rnew_token->[_BLOCK_TYPE_] = ''; $rnew_token->[_CONTAINER_TYPE_] = ''; $rnew_token->[_CONTAINER_ENVIRONMENT_] = ''; $rnew_token->[_TYPE_SEQUENCE_] = ''; return $rnew_token; } sub boolean_equals { my ( $val1, $val2 ) = @_; return ( $val1 && $val2 || !$val1 && !$val2 ); } sub print_line_of_tokens { my ( $self, $line_of_tokens ) = @_; # This routine is called once per input line to process all of # the tokens on that line. This is the first stage of # beautification. # # Full-line comments and blank lines may be processed immediately. # # For normal lines of code, the tokens are stored one-by-one, # via calls to 'sub store_token_to_go', until a known line break # point is reached. Then, the batch of collected tokens is # passed along to 'sub output_line_to_go' for further # processing. This routine decides if there should be # whitespace between each pair of non-white tokens, so later # routines only need to decide on any additional line breaks. # Any whitespace is initially a single space character. Later, # the vertical aligner may expand that to be multiple space # characters if necessary for alignment. $input_line_number = $line_of_tokens->{_line_number}; my $input_line = $line_of_tokens->{_line_text}; my $CODE_type = $line_of_tokens->{_code_type}; my $rK_range = $line_of_tokens->{_rK_range}; my ( $K_first, $K_last ) = @{$rK_range}; my $rLL = $self->{rLL}; my $rbreak_container = $self->{rbreak_container}; if ( !defined($K_first) ) { # Unexpected blank line.. # Calling routine was supposed to handle this Perl::Tidy::Warn( "Programming Error: Unexpected Blank Line in print_line_of_tokens. Ignoring" ); return; } $no_internal_newlines = 1 - $rOpts_add_newlines; my $is_comment = ( $K_first == $K_last && $rLL->[$K_first]->[_TYPE_] eq '#' ); my $is_static_block_comment_without_leading_space = $CODE_type eq 'SBCX'; $is_static_block_comment = $CODE_type eq 'SBC' || $is_static_block_comment_without_leading_space; my $is_hanging_side_comment = $CODE_type eq 'HSC'; my $is_VERSION_statement = $CODE_type eq 'VER'; if ($is_VERSION_statement) { $saw_VERSION_in_this_file = 1; $no_internal_newlines = 1; } # Add interline blank if any my $last_old_nonblank_type = "b"; my $first_new_nonblank_type = "b"; my $first_new_nonblank_token = " "; if ( $max_index_to_go >= 0 ) { $last_old_nonblank_type = $types_to_go[$max_index_to_go]; $first_new_nonblank_type = $rLL->[$K_first]->[_TYPE_]; $first_new_nonblank_token = $rLL->[$K_first]->[_TOKEN_]; if ( !$is_comment && $types_to_go[$max_index_to_go] ne 'b' && $K_first > 0 && $rLL->[ $K_first - 1 ]->[_TYPE_] eq 'b' ) { $K_first -= 1; } } # Copy the tokens into local arrays $rinput_token_array = []; $rinput_K_array = []; $rinput_K_array = [ ( $K_first .. $K_last ) ]; $rinput_token_array = [ map { $rLL->[$_] } @{$rinput_K_array} ]; my $jmax = @{$rinput_K_array} - 1; $in_continued_quote = $starting_in_quote = $line_of_tokens->{_starting_in_quote}; $in_quote = $line_of_tokens->{_ending_in_quote}; $ending_in_quote = $in_quote; $guessed_indentation_level = $line_of_tokens->{_guessed_indentation_level}; my $j_next; my $next_nonblank_token; my $next_nonblank_token_type; $block_type = ""; $container_type = ""; $container_environment = ""; $type_sequence = ""; ###################################### # Handle a block (full-line) comment.. ###################################### if ($is_comment) { if ( $rOpts->{'delete-block-comments'} ) { return } if ( $rOpts->{'tee-block-comments'} ) { $file_writer_object->tee_on(); } destroy_one_line_block(); $self->output_line_to_go(); # output a blank line before block comments if ( # unless we follow a blank or comment line $last_line_leading_type !~ /^[#b]$/ # only if allowed && $rOpts->{'blanks-before-comments'} # if this is NOT an empty comment line && $rinput_token_array->[0]->[_TOKEN_] ne '#' # not after a short line ending in an opening token # because we already have space above this comment. # Note that the first comment in this if block, after # the 'if (', does not get a blank line because of this. && !$last_output_short_opening_token # never before static block comments && !$is_static_block_comment ) { $self->flush(); # switching to new output stream $file_writer_object->write_blank_code_line(); $last_line_leading_type = 'b'; } # TRIM COMMENTS -- This could be turned off as a option $rinput_token_array->[0]->[_TOKEN_] =~ s/\s*$//; # trim right end if ( $rOpts->{'indent-block-comments'} && ( !$rOpts->{'indent-spaced-block-comments'} || $input_line =~ /^\s+/ ) && !$is_static_block_comment_without_leading_space ) { $self->extract_token(0); $self->store_token_to_go(); $self->output_line_to_go(); } else { $self->flush(); # switching to new output stream $file_writer_object->write_code_line( $rinput_token_array->[0]->[_TOKEN_] . "\n" ); $last_line_leading_type = '#'; } if ( $rOpts->{'tee-block-comments'} ) { $file_writer_object->tee_off(); } return; } # TODO: Move to sub scan_comments # compare input/output indentation except for continuation lines # (because they have an unknown amount of initial blank space) # and lines which are quotes (because they may have been outdented) # Note: this test is placed here because we know the continuation flag # at this point, which allows us to avoid non-meaningful checks. my $structural_indentation_level = $rinput_token_array->[0]->[_LEVEL_]; compare_indentation_levels( $guessed_indentation_level, $structural_indentation_level ) unless ( $is_hanging_side_comment || $rinput_token_array->[0]->[_CI_LEVEL_] > 0 || $guessed_indentation_level == 0 && $rinput_token_array->[0]->[_TYPE_] eq 'Q' ); ########################## # Handle indentation-only ########################## # NOTE: In previous versions we sent all qw lines out immediately here. # No longer doing this: also write a line which is entirely a 'qw' list # to allow stacking of opening and closing tokens. Note that interior # qw lines will still go out at the end of this routine. ##if ( $rOpts->{'indent-only'} ) { if ( $CODE_type eq 'IO' ) { $self->flush(); my $line = $input_line; # delete side comments if requested with -io, but # we will not allow deleting of closing side comments with -io # because the coding would be more complex if ( $rOpts->{'delete-side-comments'} && $rinput_token_array->[$jmax]->[_TYPE_] eq '#' ) { $line = ""; foreach my $jj ( 0 .. $jmax - 1 ) { $line .= $rinput_token_array->[$jj]->[_TOKEN_]; } } $line = trim($line); $self->extract_token(0); $token = $line; $type = 'q'; $block_type = ""; $container_type = ""; $container_environment = ""; $type_sequence = ""; $self->store_token_to_go(); $self->output_line_to_go(); return; } ############################ # Handle all other lines ... ############################ ####################################################### # FIXME: this should become unnecessary # making $j+2 valid simplifies coding my $rnew_blank = copy_token_as_type( $rinput_token_array->[$jmax], 'b' ); push @{$rinput_token_array}, $rnew_blank; push @{$rinput_token_array}, $rnew_blank; ####################################################### # If we just saw the end of an elsif block, write nag message # if we do not see another elseif or an else. if ($looking_for_else) { unless ( $rinput_token_array->[0]->[_TOKEN_] =~ /^(elsif|else)$/ ) { write_logfile_entry("(No else block)\n"); } $looking_for_else = 0; } # This is a good place to kill incomplete one-line blocks if ( ( ( $semicolons_before_block_self_destruct == 0 ) && ( $max_index_to_go >= 0 ) && ( $last_old_nonblank_type eq ';' ) && ( $first_new_nonblank_token ne '}' ) ) # Patch for RT #98902. Honor request to break at old commas. || ( $rOpts_break_at_old_comma_breakpoints && $max_index_to_go >= 0 && $last_old_nonblank_type eq ',' ) ) { $forced_breakpoint_to_go[$max_index_to_go] = 1 if ($rOpts_break_at_old_comma_breakpoints); destroy_one_line_block(); $self->output_line_to_go(); } # loop to process the tokens one-by-one $type = 'b'; $token = ""; # We do not want a leading blank if the previous batch just got output my $jmin = 0; if ( $max_index_to_go < 0 && $rLL->[$K_first]->[_TYPE_] eq 'b' ) { $jmin = 1; } foreach my $j ( $jmin .. $jmax ) { # pull out the local values for this token $self->extract_token($j); if ( $type eq '#' ) { # trim trailing whitespace # (there is no option at present to prevent this) $token =~ s/\s*$//; if ( $rOpts->{'delete-side-comments'} # delete closing side comments if necessary || ( $rOpts->{'delete-closing-side-comments'} && $token =~ /$closing_side_comment_prefix_pattern/o && $last_nonblank_block_type =~ /$closing_side_comment_list_pattern/o ) ) { if ( $types_to_go[$max_index_to_go] eq 'b' ) { unstore_token_to_go(); } last; } } # If we are continuing after seeing a right curly brace, flush # buffer unless we see what we are looking for, as in # } else ... if ( $rbrace_follower && $type ne 'b' ) { unless ( $rbrace_follower->{$token} ) { $self->output_line_to_go(); } $rbrace_follower = undef; } $j_next = ( $rinput_token_array->[ $j + 1 ]->[_TYPE_] eq 'b' ) ? $j + 2 : $j + 1; $next_nonblank_token = $rinput_token_array->[$j_next]->[_TOKEN_]; $next_nonblank_token_type = $rinput_token_array->[$j_next]->[_TYPE_]; ###################### # MAYBE MOVE ELSEWHERE? ###################### if ( $type eq 'Q' ) { note_embedded_tab() if ( $token =~ "\t" ); # make note of something like '$var = s/xxx/yyy/;' # in case it should have been '$var =~ s/xxx/yyy/;' if ( $token =~ /^(s|tr|y|m|\/)/ && $last_nonblank_token =~ /^(=|==|!=)$/ # preceded by simple scalar && $last_last_nonblank_type eq 'i' && $last_last_nonblank_token =~ /^\$/ # followed by some kind of termination # (but give complaint if we can's see far enough ahead) && $next_nonblank_token =~ /^[; \)\}]$/ # scalar is not declared && !( $types_to_go[0] eq 'k' && $tokens_to_go[0] =~ /^(my|our|local)$/ ) ) { my $guess = substr( $last_nonblank_token, 0, 1 ) . '~'; complain( "Note: be sure you want '$last_nonblank_token' instead of '$guess' here\n" ); } } # Do not allow breaks which would promote a side comment to a # block comment. In order to allow a break before an opening # or closing BLOCK, followed by a side comment, those sections # of code will handle this flag separately. my $side_comment_follows = ( $next_nonblank_token_type eq '#' ); my $is_opening_BLOCK = ( $type eq '{' && $token eq '{' && $block_type && $block_type ne 't' ); my $is_closing_BLOCK = ( $type eq '}' && $token eq '}' && $block_type && $block_type ne 't' ); if ( $side_comment_follows && !$is_opening_BLOCK && !$is_closing_BLOCK ) { $no_internal_newlines = 1; } # We're only going to handle breaking for code BLOCKS at this # (top) level. Other indentation breaks will be handled by # sub scan_list, which is better suited to dealing with them. if ($is_opening_BLOCK) { # Tentatively output this token. This is required before # calling starting_one_line_block. We may have to unstore # it, though, if we have to break before it. $self->store_token_to_go($side_comment_follows); # Look ahead to see if we might form a one-line block.. my $too_long = 0; # But obey any flag set for cuddled blocks if ( $rbreak_container->{$type_sequence} ) { destroy_one_line_block(); } else { $too_long = starting_one_line_block( $j, $jmax, $level, $slevel, $ci_level, $rinput_token_array ); } clear_breakpoint_undo_stack(); # to simplify the logic below, set a flag to indicate if # this opening brace is far from the keyword which introduces it my $keyword_on_same_line = 1; if ( ( $max_index_to_go >= 0 ) && ( $last_nonblank_type eq ')' ) ) { if ( $block_type =~ /^(if|else|elsif)$/ && ( $tokens_to_go[0] eq '}' ) && $rOpts_cuddled_else ) { $keyword_on_same_line = 1; } elsif ( ( $slevel < $nesting_depth_to_go[0] ) || $too_long ) { $keyword_on_same_line = 0; } } # decide if user requested break before '{' my $want_break = # use -bl flag if not a sub block of any type $block_type !~ /^sub\b/ ? $rOpts->{'opening-brace-on-new-line'} # use -sbl flag for a named sub block : $block_type !~ /$ASUB_PATTERN/ ? $rOpts->{'opening-sub-brace-on-new-line'} # use -asbl flag for an anonymous sub block : $rOpts->{'opening-anonymous-sub-brace-on-new-line'}; # Do not break if this token is welded to the left if ( weld_len_left( $type_sequence, $token ) ) { $want_break = 0; } # Break before an opening '{' ... if ( # if requested $want_break # and we were unable to start looking for a block, && $index_start_one_line_block == UNDEFINED_INDEX # or if it will not be on same line as its keyword, so that # it will be outdented (eval.t, overload.t), and the user # has not insisted on keeping it on the right || ( !$keyword_on_same_line && !$rOpts->{'opening-brace-always-on-right'} ) ) { # but only if allowed unless ($no_internal_newlines) { # since we already stored this token, we must unstore it $self->unstore_token_to_go(); # then output the line $self->output_line_to_go(); # and now store this token at the start of a new line $self->store_token_to_go($side_comment_follows); } } # Now update for side comment if ($side_comment_follows) { $no_internal_newlines = 1 } # now output this line unless ($no_internal_newlines) { $self->output_line_to_go(); } } elsif ($is_closing_BLOCK) { # If there is a pending one-line block .. if ( $index_start_one_line_block != UNDEFINED_INDEX ) { # we have to terminate it if.. if ( # it is too long (final length may be different from # initial estimate). note: must allow 1 space for this # token excess_line_length( $index_start_one_line_block, $max_index_to_go ) >= 0 # or if it has too many semicolons || ( $semicolons_before_block_self_destruct == 0 && $last_nonblank_type ne ';' ) ) { destroy_one_line_block(); } } # put a break before this closing curly brace if appropriate unless ( $no_internal_newlines || $index_start_one_line_block != UNDEFINED_INDEX ) { # write out everything before this closing curly brace $self->output_line_to_go(); } # Now update for side comment if ($side_comment_follows) { $no_internal_newlines = 1 } # store the closing curly brace $self->store_token_to_go(); # ok, we just stored a closing curly brace. Often, but # not always, we want to end the line immediately. # So now we have to check for special cases. # if this '}' successfully ends a one-line block.. my $is_one_line_block = 0; my $keep_going = 0; if ( $index_start_one_line_block != UNDEFINED_INDEX ) { # Remember the type of token just before the # opening brace. It would be more general to use # a stack, but this will work for one-line blocks. $is_one_line_block = $types_to_go[$index_start_one_line_block]; # we have to actually make it by removing tentative # breaks that were set within it undo_forced_breakpoint_stack(0); set_nobreaks( $index_start_one_line_block, $max_index_to_go - 1 ); # then re-initialize for the next one-line block destroy_one_line_block(); # then decide if we want to break after the '}' .. # We will keep going to allow certain brace followers as in: # do { $ifclosed = 1; last } unless $losing; # # But make a line break if the curly ends a # significant block: if ( ( $is_block_without_semicolon{$block_type} # Follow users break point for # one line block types U & G, such as a 'try' block || $is_one_line_block =~ /^[UG]$/ && $j == $jmax ) # if needless semicolon follows we handle it later && $next_nonblank_token ne ';' ) { $self->output_line_to_go() unless ($no_internal_newlines); } } # set string indicating what we need to look for brace follower # tokens if ( $block_type eq 'do' ) { $rbrace_follower = \%is_do_follower; } elsif ( $block_type =~ /^(if|elsif|unless)$/ ) { $rbrace_follower = \%is_if_brace_follower; } elsif ( $block_type eq 'else' ) { $rbrace_follower = \%is_else_brace_follower; } # added eval for borris.t elsif ($is_sort_map_grep_eval{$block_type} || $is_one_line_block eq 'G' ) { $rbrace_follower = undef; $keep_going = 1; } # anonymous sub elsif ( $block_type =~ /$ASUB_PATTERN/ ) { if ($is_one_line_block) { $rbrace_follower = \%is_anon_sub_1_brace_follower; } else { $rbrace_follower = \%is_anon_sub_brace_follower; } } # None of the above: specify what can follow a closing # brace of a block which is not an # if/elsif/else/do/sort/map/grep/eval # Testfiles: # 'Toolbar.pm', 'Menubar.pm', bless.t, '3rules.pl', 'break1.t else { $rbrace_follower = \%is_other_brace_follower; } # See if an elsif block is followed by another elsif or else; # complain if not. if ( $block_type eq 'elsif' ) { if ( $next_nonblank_token_type eq 'b' ) { # end of line? $looking_for_else = 1; # ok, check on next line } else { unless ( $next_nonblank_token =~ /^(elsif|else)$/ ) { write_logfile_entry("No else block :(\n"); } } } # keep going after certain block types (map,sort,grep,eval) # added eval for borris.t if ($keep_going) { # keep going } # if no more tokens, postpone decision until re-entring elsif ( ( $next_nonblank_token_type eq 'b' ) && $rOpts_add_newlines ) { unless ($rbrace_follower) { $self->output_line_to_go() unless ($no_internal_newlines); } } elsif ($rbrace_follower) { unless ( $rbrace_follower->{$next_nonblank_token} ) { $self->output_line_to_go() unless ($no_internal_newlines); } $rbrace_follower = undef; } else { $self->output_line_to_go() unless ($no_internal_newlines); } } # end treatment of closing block token # handle semicolon elsif ( $type eq ';' ) { # kill one-line blocks with too many semicolons $semicolons_before_block_self_destruct--; if ( ( $semicolons_before_block_self_destruct < 0 ) || ( $semicolons_before_block_self_destruct == 0 && $next_nonblank_token_type !~ /^[b\}]$/ ) ) { destroy_one_line_block(); } # Remove unnecessary semicolons, but not after bare # blocks, where it could be unsafe if the brace is # mistokenized. if ( ( $last_nonblank_token eq '}' && ( $is_block_without_semicolon{ $last_nonblank_block_type} || $last_nonblank_block_type =~ /$SUB_PATTERN/ || $last_nonblank_block_type =~ /^\w+:$/ ) ) || $last_nonblank_type eq ';' ) { if ( $rOpts->{'delete-semicolons'} # don't delete ; before a # because it would promote it # to a block comment && ( $next_nonblank_token_type ne '#' ) ) { note_deleted_semicolon(); $self->output_line_to_go() unless ( $no_internal_newlines || $index_start_one_line_block != UNDEFINED_INDEX ); next; } else { write_logfile_entry("Extra ';'\n"); } } $self->store_token_to_go(); $self->output_line_to_go() unless ( $no_internal_newlines || ( $rOpts_keep_interior_semicolons && $j < $jmax ) || ( $next_nonblank_token eq '}' ) ); } # handle here_doc target string elsif ( $type eq 'h' ) { # no newlines after seeing here-target $no_internal_newlines = 1; destroy_one_line_block(); $self->store_token_to_go(); } # handle all other token types else { $self->store_token_to_go(); } # remember two previous nonblank OUTPUT tokens if ( $type ne '#' && $type ne 'b' ) { $last_last_nonblank_token = $last_nonblank_token; $last_last_nonblank_type = $last_nonblank_type; $last_nonblank_token = $token; $last_nonblank_type = $type; $last_nonblank_block_type = $block_type; } # unset the continued-quote flag since it only applies to the # first token, and we want to resume normal formatting if # there are additional tokens on the line $in_continued_quote = 0; } # end of loop over all tokens in this 'line_of_tokens' # we have to flush .. if ( # if there is a side comment ( ( $type eq '#' ) && !$rOpts->{'delete-side-comments'} ) # if this line ends in a quote # NOTE: This is critically important for insuring that quoted lines # do not get processed by things like -sot and -sct || $in_quote # if this is a VERSION statement || $is_VERSION_statement # to keep a label at the end of a line || $type eq 'J' # if we are instructed to keep all old line breaks || !$rOpts->{'delete-old-newlines'} ) { destroy_one_line_block(); $self->output_line_to_go(); } # mark old line breakpoints in current output stream if ( $max_index_to_go >= 0 && !$rOpts_ignore_old_breakpoints ) { my $jobp = $max_index_to_go; if ( $types_to_go[$max_index_to_go] eq 'b' && $max_index_to_go > 0 ) { $jobp--; } $old_breakpoint_to_go[$jobp] = 1; } return; } ## end sub print_line_of_tokens } ## end block print_line_of_tokens # sub output_line_to_go sends one logical line of tokens on down the # pipeline to the VerticalAligner package, breaking the line into continuation # lines as necessary. The line of tokens is ready to go in the "to_go" # arrays. sub output_line_to_go { my $self = shift; # debug stuff; this routine can be called from many points FORMATTER_DEBUG_FLAG_OUTPUT && do { my ( $a, $b, $c ) = caller; write_diagnostics( "OUTPUT: output_line_to_go called: $a $c $last_nonblank_type $last_nonblank_token, one_line=$index_start_one_line_block, tokens to write=$max_index_to_go\n" ); my $output_str = join "", @tokens_to_go[ 0 .. $max_index_to_go ]; write_diagnostics("$output_str\n"); }; # Do not end line in a weld # TODO: Move this fix into the routine? #my $jnb = $max_index_to_go; #if ( $jnb > 0 && $types_to_go[$jnb] eq 'b' ) { $jnb-- } return if ( weld_len_right_to_go($max_index_to_go) ); # just set a tentative breakpoint if we might be in a one-line block if ( $index_start_one_line_block != UNDEFINED_INDEX ) { set_forced_breakpoint($max_index_to_go); return; } my $cscw_block_comment; $cscw_block_comment = $self->add_closing_side_comment() if ( $rOpts->{'closing-side-comments'} && $max_index_to_go >= 0 ); my $comma_arrow_count_contained = match_opening_and_closing_tokens(); # tell the -lp option we are outputting a batch so it can close # any unfinished items in its stack finish_lp_batch(); # If this line ends in a code block brace, set breaks at any # previous closing code block braces to breakup a chain of code # blocks on one line. This is very rare but can happen for # user-defined subs. For example we might be looking at this: # BOOL { $server_data{uptime} > 0; } NUM { $server_data{load}; } STR { my $saw_good_break = 0; # flag to force breaks even if short line if ( # looking for opening or closing block brace $block_type_to_go[$max_index_to_go] # but not one of these which are never duplicated on a line: # until|while|for|if|elsif|else && !$is_block_without_semicolon{ $block_type_to_go[$max_index_to_go] } ) { my $lev = $nesting_depth_to_go[$max_index_to_go]; # Walk backwards from the end and # set break at any closing block braces at the same level. # But quit if we are not in a chain of blocks. for ( my $i = $max_index_to_go - 1 ; $i >= 0 ; $i-- ) { last if ( $levels_to_go[$i] < $lev ); # stop at a lower level next if ( $levels_to_go[$i] > $lev ); # skip past higher level if ( $block_type_to_go[$i] ) { if ( $tokens_to_go[$i] eq '}' ) { set_forced_breakpoint($i); $saw_good_break = 1; } } # quit if we see anything besides words, function, blanks # at this level elsif ( $types_to_go[$i] !~ /^[\(\)Gwib]$/ ) { last } } } my $imin = 0; my $imax = $max_index_to_go; # trim any blank tokens if ( $max_index_to_go >= 0 ) { if ( $types_to_go[$imin] eq 'b' ) { $imin++ } if ( $types_to_go[$imax] eq 'b' ) { $imax-- } } # anything left to write? if ( $imin <= $imax ) { # add a blank line before certain key types but not after a comment if ( $last_line_leading_type !~ /^[#]/ ) { my $want_blank = 0; my $leading_token = $tokens_to_go[$imin]; my $leading_type = $types_to_go[$imin]; # blank lines before subs except declarations and one-liners # MCONVERSION LOCATION - for sub tokenization change if ( $leading_token =~ /^(sub\s)/ && $leading_type eq 'i' ) { $want_blank = $rOpts->{'blank-lines-before-subs'} if ( terminal_type( \@types_to_go, \@block_type_to_go, $imin, $imax ) !~ /^[\;\}]$/ ); } # break before all package declarations # MCONVERSION LOCATION - for tokenizaton change elsif ($leading_token =~ /^(package\s)/ && $leading_type eq 'i' ) { $want_blank = $rOpts->{'blank-lines-before-packages'}; } # break before certain key blocks except one-liners if ( $leading_token =~ /^(BEGIN|END)$/ && $leading_type eq 'k' ) { $want_blank = $rOpts->{'blank-lines-before-subs'} if ( terminal_type( \@types_to_go, \@block_type_to_go, $imin, $imax ) ne '}' ); } # Break before certain block types if we haven't had a # break at this level for a while. This is the # difficult decision.. elsif ($leading_type eq 'k' && $last_line_leading_type ne 'b' && $leading_token =~ /^(unless|if|while|until|for|foreach)$/ ) { my $lc = $nonblank_lines_at_depth[$last_line_leading_level]; if ( !defined($lc) ) { $lc = 0 } $want_blank = $rOpts->{'blanks-before-blocks'} && $lc >= $rOpts->{'long-block-line-count'} && $file_writer_object->get_consecutive_nonblank_lines() >= $rOpts->{'long-block-line-count'} && ( terminal_type( \@types_to_go, \@block_type_to_go, $imin, $imax ) ne '}' ); } # Check for blank lines wanted before a closing brace if ( $leading_token eq '}' ) { if ( $rOpts->{'blank-lines-before-closing-block'} && $block_type_to_go[$imin] && $block_type_to_go[$imin] =~ /$blank_lines_before_closing_block_pattern/ ) { my $nblanks = $rOpts->{'blank-lines-before-closing-block'}; if ( $nblanks > $want_blank ) { $want_blank = $nblanks; } } } if ($want_blank) { # future: send blank line down normal path to VerticalAligner Perl::Tidy::VerticalAligner::flush(); $file_writer_object->require_blank_code_lines($want_blank); } } # update blank line variables and count number of consecutive # non-blank, non-comment lines at this level $last_last_line_leading_level = $last_line_leading_level; $last_line_leading_level = $levels_to_go[$imin]; if ( $last_line_leading_level < 0 ) { $last_line_leading_level = 0 } $last_line_leading_type = $types_to_go[$imin]; if ( $last_line_leading_level == $last_last_line_leading_level && $last_line_leading_type ne 'b' && $last_line_leading_type ne '#' && defined( $nonblank_lines_at_depth[$last_line_leading_level] ) ) { $nonblank_lines_at_depth[$last_line_leading_level]++; } else { $nonblank_lines_at_depth[$last_line_leading_level] = 1; } FORMATTER_DEBUG_FLAG_FLUSH && do { my ( $package, $file, $line ) = caller; print STDOUT "FLUSH: flushing from $package $file $line, types= $types_to_go[$imin] to $types_to_go[$imax]\n"; }; # add a couple of extra terminal blank tokens pad_array_to_go(); # set all forced breakpoints for good list formatting my $is_long_line = excess_line_length( $imin, $max_index_to_go ) > 0; my $old_line_count_in_batch = $rtoken_vars_to_go[$max_index_to_go]->[_LINE_INDEX_] - $rtoken_vars_to_go[0]->[_LINE_INDEX_] + 1; if ( $is_long_line || $old_line_count_in_batch > 1 # must always call scan_list() with unbalanced batches because it # is maintaining some stacks || is_unbalanced_batch() # call scan_list if we might want to break at commas || ( $comma_count_in_batch && ( $rOpts_maximum_fields_per_table > 0 || $rOpts_comma_arrow_breakpoints == 0 ) ) # call scan_list if user may want to break open some one-line # hash references || ( $comma_arrow_count_contained && $rOpts_comma_arrow_breakpoints != 3 ) ) { ## This caused problems in one version of perl for unknown reasons: ## $saw_good_break ||= scan_list(); my $sgb = scan_list(); $saw_good_break ||= $sgb; } # let $ri_first and $ri_last be references to lists of # first and last tokens of line fragments to output.. my ( $ri_first, $ri_last ); # write a single line if.. if ( # we aren't allowed to add any newlines !$rOpts_add_newlines # or, we don't already have an interior breakpoint # and we didn't see a good breakpoint || ( !$forced_breakpoint_count && !$saw_good_break # and this line is 'short' && !$is_long_line ) ) { @{$ri_first} = ($imin); @{$ri_last} = ($imax); } # otherwise use multiple lines else { ( $ri_first, $ri_last, my $colon_count ) = set_continuation_breaks($saw_good_break); break_all_chain_tokens( $ri_first, $ri_last ); break_equals( $ri_first, $ri_last ); # now we do a correction step to clean this up a bit # (The only time we would not do this is for debugging) if ( $rOpts->{'recombine'} ) { ( $ri_first, $ri_last ) = recombine_breakpoints( $ri_first, $ri_last ); } insert_final_breaks( $ri_first, $ri_last ) if $colon_count; } # do corrector step if -lp option is used my $do_not_pad = 0; if ($rOpts_line_up_parentheses) { $do_not_pad = correct_lp_indentation( $ri_first, $ri_last ); } $self->unmask_phantom_semicolons( $ri_first, $ri_last ); $self->send_lines_to_vertical_aligner( $ri_first, $ri_last, $do_not_pad ); # Insert any requested blank lines after an opening brace. We have to # skip back before any side comment to find the terminal token my $iterm; for ( $iterm = $imax ; $iterm >= $imin ; $iterm-- ) { next if $types_to_go[$iterm] eq '#'; next if $types_to_go[$iterm] eq 'b'; last; } # write requested number of blank lines after an opening block brace if ( $iterm >= $imin && $types_to_go[$iterm] eq '{' ) { if ( $rOpts->{'blank-lines-after-opening-block'} && $block_type_to_go[$iterm] && $block_type_to_go[$iterm] =~ /$blank_lines_after_opening_block_pattern/ ) { my $nblanks = $rOpts->{'blank-lines-after-opening-block'}; Perl::Tidy::VerticalAligner::flush(); $file_writer_object->require_blank_code_lines($nblanks); } } } prepare_for_new_input_lines(); # output any new -cscw block comment if ($cscw_block_comment) { $self->flush(); $file_writer_object->write_code_line( $cscw_block_comment . "\n" ); } return; } sub note_added_semicolon { my ($line_number) = @_; $last_added_semicolon_at = $line_number; if ( $added_semicolon_count == 0 ) { $first_added_semicolon_at = $last_added_semicolon_at; } $added_semicolon_count++; write_logfile_entry("Added ';' here\n"); return; } sub note_deleted_semicolon { $last_deleted_semicolon_at = $input_line_number; if ( $deleted_semicolon_count == 0 ) { $first_deleted_semicolon_at = $last_deleted_semicolon_at; } $deleted_semicolon_count++; write_logfile_entry("Deleted unnecessary ';'\n"); # i hope ;) return; } sub note_embedded_tab { $embedded_tab_count++; $last_embedded_tab_at = $input_line_number; if ( !$first_embedded_tab_at ) { $first_embedded_tab_at = $last_embedded_tab_at; } if ( $embedded_tab_count <= MAX_NAG_MESSAGES ) { write_logfile_entry("Embedded tabs in quote or pattern\n"); } return; } sub starting_one_line_block { # after seeing an opening curly brace, look for the closing brace # and see if the entire block will fit on a line. This routine is # not always right because it uses the old whitespace, so a check # is made later (at the closing brace) to make sure we really # have a one-line block. We have to do this preliminary check, # though, because otherwise we would always break at a semicolon # within a one-line block if the block contains multiple statements. my ( $j, $jmax, $level, $slevel, $ci_level, $rtoken_array ) = @_; my $jmax_check = @{$rtoken_array}; if ( $jmax_check < $jmax ) { print STDERR "jmax=$jmax > $jmax_check\n"; } # kill any current block - we can only go 1 deep destroy_one_line_block(); # return value: # 1=distance from start of block to opening brace exceeds line length # 0=otherwise my $i_start = 0; # shouldn't happen: there must have been a prior call to # store_token_to_go to put the opening brace in the output stream if ( $max_index_to_go < 0 ) { warning("program bug: store_token_to_go called incorrectly\n"); report_definite_bug(); } else { # cannot use one-line blocks with cuddled else/elsif lines if ( ( $tokens_to_go[0] eq '}' ) && $rOpts_cuddled_else ) { return 0; } } my $block_type = $rtoken_array->[$j]->[_BLOCK_TYPE_]; # find the starting keyword for this block (such as 'if', 'else', ...) if ( $block_type =~ /^[\{\}\;\:]$/ || $block_type =~ /^package/ ) { $i_start = $max_index_to_go; } # the previous nonblank token should start these block types elsif (( $last_last_nonblank_token_to_go eq $block_type ) || ( $block_type =~ /^sub\b/ ) || $block_type =~ /\(\)/ ) { $i_start = $last_last_nonblank_index_to_go; # For signatures and extended syntax ... # If this brace follows a parenthesized list, we should look back to # find the keyword before the opening paren because otherwise we might # form a one line block which stays intack, and cause the parenthesized # expression to break open. That looks bad. However, actually # searching for the opening paren is slow and tedius. # The actual keyword is often at the start of a line, but might not be. # For example, we might have an anonymous sub with signature list # following a =>. It is safe to mark the start anywhere before the # opening paren, so we just go back to the prevoious break (or start of # the line) if that is before the opening paren. The minor downside is # that we may very occasionally break open a block unnecessarily. if ( $tokens_to_go[$i_start] eq ')' ) { $i_start = $index_max_forced_break + 1; if ( $types_to_go[$i_start] eq 'b' ) { $i_start++; } my $lev = $levels_to_go[$i_start]; if ( $lev > $level ) { return 0 } } } elsif ( $last_last_nonblank_token_to_go eq ')' ) { # For something like "if (xxx) {", the keyword "if" will be # just after the most recent break. This will be 0 unless # we have just killed a one-line block and are starting another. # (doif.t) # Note: cannot use inext_index_to_go[] here because that array # is still being constructed. $i_start = $index_max_forced_break + 1; if ( $types_to_go[$i_start] eq 'b' ) { $i_start++; } # Patch to avoid breaking short blocks defined with extended_syntax: # Strip off any trailing () which was added in the parser to mark # the opening keyword. For example, in the following # create( TypeFoo $e) {$bubba} # the blocktype would be marked as create() my $stripped_block_type = $block_type; $stripped_block_type =~ s/\(\)$//; unless ( $tokens_to_go[$i_start] eq $stripped_block_type ) { return 0; } } # patch for SWITCH/CASE to retain one-line case/when blocks elsif ( $block_type eq 'case' || $block_type eq 'when' ) { # Note: cannot use inext_index_to_go[] here because that array # is still being constructed. $i_start = $index_max_forced_break + 1; if ( $types_to_go[$i_start] eq 'b' ) { $i_start++; } unless ( $tokens_to_go[$i_start] eq $block_type ) { return 0; } } else { return 1; } my $pos = total_line_length( $i_start, $max_index_to_go ) - 1; # see if length is too long to even start if ( $pos > maximum_line_length($i_start) ) { return 1; } foreach my $i ( $j + 1 .. $jmax ) { # old whitespace could be arbitrarily large, so don't use it if ( $rtoken_array->[$i]->[_TYPE_] eq 'b' ) { $pos += 1 } else { $pos += rtoken_length($i) } # Return false result if we exceed the maximum line length, if ( $pos > maximum_line_length($i_start) ) { return 0; } # or encounter another opening brace before finding the closing brace. elsif ($rtoken_array->[$i]->[_TOKEN_] eq '{' && $rtoken_array->[$i]->[_TYPE_] eq '{' && $rtoken_array->[$i]->[_BLOCK_TYPE_] ) { return 0; } # if we find our closing brace.. elsif ($rtoken_array->[$i]->[_TOKEN_] eq '}' && $rtoken_array->[$i]->[_TYPE_] eq '}' && $rtoken_array->[$i]->[_BLOCK_TYPE_] ) { # be sure any trailing comment also fits on the line my $i_nonblank = ( $rtoken_array->[ $i + 1 ]->[_TYPE_] eq 'b' ) ? $i + 2 : $i + 1; # Patch for one-line sort/map/grep/eval blocks with side comments: # We will ignore the side comment length for sort/map/grep/eval # because this can lead to statements which change every time # perltidy is run. Here is an example from Denis Moskowitz which # oscillates between these two states without this patch: ## -------- ## grep { $_->foo ne 'bar' } # asdfa asdf asdf asdf asdf asdf asdf asdf asdf asdf asdf ## @baz; ## ## grep { ## $_->foo ne 'bar' ## } # asdfa asdf asdf asdf asdf asdf asdf asdf asdf asdf asdf ## @baz; ## -------- # When the first line is input it gets broken apart by the main # line break logic in sub print_line_of_tokens. # When the second line is input it gets recombined by # print_line_of_tokens and passed to the output routines. The # output routines (set_continuation_breaks) do not break it apart # because the bond strengths are set to the highest possible value # for grep/map/eval/sort blocks, so the first version gets output. # It would be possible to fix this by changing bond strengths, # but they are high to prevent errors in older versions of perl. if ( $rtoken_array->[$i_nonblank]->[_TYPE_] eq '#' && !$is_sort_map_grep{$block_type} ) { $pos += rtoken_length($i_nonblank); if ( $i_nonblank > $i + 1 ) { # source whitespace could be anything, assume # at least one space before the hash on output if ( $rtoken_array->[ $i + 1 ]->[_TYPE_] eq 'b' ) { $pos += 1; } else { $pos += rtoken_length( $i + 1 ) } } if ( $pos >= maximum_line_length($i_start) ) { return 0; } } # ok, it's a one-line block create_one_line_block( $i_start, 20 ); return 0; } # just keep going for other characters else { } } # Allow certain types of new one-line blocks to form by joining # input lines. These can be safely done, but for other block types, # we keep old one-line blocks but do not form new ones. It is not # always a good idea to make as many one-line blocks as possible, # so other types are not done. The user can always use -mangle. if ( $is_sort_map_grep_eval{$block_type} ) { create_one_line_block( $i_start, 1 ); } return 0; } sub unstore_token_to_go { # remove most recent token from output stream my $self = shift; if ( $max_index_to_go > 0 ) { $max_index_to_go--; } else { $max_index_to_go = UNDEFINED_INDEX; } return; } sub want_blank_line { my $self = shift; $self->flush(); $file_writer_object->want_blank_line(); return; } sub write_unindented_line { my ( $self, $line ) = @_; $self->flush(); $file_writer_object->write_line($line); return; } sub undo_ci { # Undo continuation indentation in certain sequences # For example, we can undo continuation indentation in sort/map/grep chains # my $dat1 = pack( "n*", # map { $_, $lookup->{$_} } # sort { $a <=> $b } # grep { $lookup->{$_} ne $default } keys %$lookup ); # To align the map/sort/grep keywords like this: # my $dat1 = pack( "n*", # map { $_, $lookup->{$_} } # sort { $a <=> $b } # grep { $lookup->{$_} ne $default } keys %$lookup ); my ( $ri_first, $ri_last ) = @_; my ( $line_1, $line_2, $lev_last ); my $this_line_is_semicolon_terminated; my $max_line = @{$ri_first} - 1; # looking at each line of this batch.. # We are looking at leading tokens and looking for a sequence # all at the same level and higher level than enclosing lines. foreach my $line ( 0 .. $max_line ) { my $ibeg = $ri_first->[$line]; my $lev = $levels_to_go[$ibeg]; if ( $line > 0 ) { # if we have started a chain.. if ($line_1) { # see if it continues.. if ( $lev == $lev_last ) { if ( $types_to_go[$ibeg] eq 'k' && $is_sort_map_grep{ $tokens_to_go[$ibeg] } ) { # chain continues... # check for chain ending at end of a statement if ( $line == $max_line ) { # see of this line ends a statement my $iend = $ri_last->[$line]; $this_line_is_semicolon_terminated = $types_to_go[$iend] eq ';' # with possible side comment || ( $types_to_go[$iend] eq '#' && $iend - $ibeg >= 2 && $types_to_go[ $iend - 2 ] eq ';' && $types_to_go[ $iend - 1 ] eq 'b' ); } $line_2 = $line if ($this_line_is_semicolon_terminated); } else { # kill chain $line_1 = undef; } } elsif ( $lev < $lev_last ) { # chain ends with previous line $line_2 = $line - 1; } elsif ( $lev > $lev_last ) { # kill chain $line_1 = undef; } # undo the continuation indentation if a chain ends if ( defined($line_2) && defined($line_1) ) { my $continuation_line_count = $line_2 - $line_1 + 1; @ci_levels_to_go[ @{$ri_first}[ $line_1 .. $line_2 ] ] = (0) x ($continuation_line_count) if ( $continuation_line_count >= 0 ); @leading_spaces_to_go[ @{$ri_first}[ $line_1 .. $line_2 ] ] = @reduced_spaces_to_go[ @{$ri_first} [ $line_1 .. $line_2 ] ]; $line_1 = undef; } } # not in a chain yet.. else { # look for start of a new sort/map/grep chain if ( $lev > $lev_last ) { if ( $types_to_go[$ibeg] eq 'k' && $is_sort_map_grep{ $tokens_to_go[$ibeg] } ) { $line_1 = $line; } } } } $lev_last = $lev; } return; } sub undo_lp_ci { # If there is a single, long parameter within parens, like this: # # $self->command( "/msg " # . $infoline->chan # . " You said $1, but did you know that it's square was " # . $1 * $1 . " ?" ); # # we can remove the continuation indentation of the 2nd and higher lines # to achieve this effect, which is more pleasing: # # $self->command("/msg " # . $infoline->chan # . " You said $1, but did you know that it's square was " # . $1 * $1 . " ?"); my ( $line_open, $i_start, $closing_index, $ri_first, $ri_last ) = @_; my $max_line = @{$ri_first} - 1; # must be multiple lines return unless $max_line > $line_open; my $lev_start = $levels_to_go[$i_start]; my $ci_start_plus = 1 + $ci_levels_to_go[$i_start]; # see if all additional lines in this container have continuation # indentation my $n; my $line_1 = 1 + $line_open; for ( $n = $line_1 ; $n <= $max_line ; ++$n ) { my $ibeg = $ri_first->[$n]; my $iend = $ri_last->[$n]; if ( $ibeg eq $closing_index ) { $n--; last } return if ( $lev_start != $levels_to_go[$ibeg] ); return if ( $ci_start_plus != $ci_levels_to_go[$ibeg] ); last if ( $closing_index <= $iend ); } # we can reduce the indentation of all continuation lines my $continuation_line_count = $n - $line_open; @ci_levels_to_go[ @{$ri_first}[ $line_1 .. $n ] ] = (0) x ($continuation_line_count); @leading_spaces_to_go[ @{$ri_first}[ $line_1 .. $n ] ] = @reduced_spaces_to_go[ @{$ri_first}[ $line_1 .. $n ] ]; return; } sub pad_token { # insert $pad_spaces before token number $ipad my ( $ipad, $pad_spaces ) = @_; if ( $pad_spaces > 0 ) { $tokens_to_go[$ipad] = ' ' x $pad_spaces . $tokens_to_go[$ipad]; } elsif ( $pad_spaces == -1 && $tokens_to_go[$ipad] eq ' ' ) { $tokens_to_go[$ipad] = ""; } else { # shouldn't happen return; } $token_lengths_to_go[$ipad] += $pad_spaces; foreach my $i ( $ipad .. $max_index_to_go ) { $summed_lengths_to_go[ $i + 1 ] += $pad_spaces; } return; } { my %is_math_op; BEGIN { my @q = qw( + - * / ); @is_math_op{@q} = (1) x scalar(@q); } sub set_logical_padding { # Look at a batch of lines and see if extra padding can improve the # alignment when there are certain leading operators. Here is an # example, in which some extra space is introduced before # '( $year' to make it line up with the subsequent lines: # # if ( ( $Year < 1601 ) # || ( $Year > 2899 ) # || ( $EndYear < 1601 ) # || ( $EndYear > 2899 ) ) # { # &Error_OutOfRange; # } # my ( $ri_first, $ri_last ) = @_; my $max_line = @{$ri_first} - 1; # FIXME: move these declarations below my ( $ibeg, $ibeg_next, $ibegm, $iend, $iendm, $ipad, $pad_spaces, $tok_next, $type_next, $has_leading_op_next, $has_leading_op ); # looking at each line of this batch.. foreach my $line ( 0 .. $max_line - 1 ) { # see if the next line begins with a logical operator $ibeg = $ri_first->[$line]; $iend = $ri_last->[$line]; $ibeg_next = $ri_first->[ $line + 1 ]; $tok_next = $tokens_to_go[$ibeg_next]; $type_next = $types_to_go[$ibeg_next]; $has_leading_op_next = ( $tok_next =~ /^\w/ ) ? $is_chain_operator{$tok_next} # + - * / : ? && || : $is_chain_operator{$type_next}; # and, or next unless ($has_leading_op_next); # next line must not be at lesser depth next if ( $nesting_depth_to_go[$ibeg] > $nesting_depth_to_go[$ibeg_next] ); # identify the token in this line to be padded on the left $ipad = undef; # handle lines at same depth... if ( $nesting_depth_to_go[$ibeg] == $nesting_depth_to_go[$ibeg_next] ) { # if this is not first line of the batch ... if ( $line > 0 ) { # and we have leading operator.. next if $has_leading_op; # Introduce padding if.. # 1. the previous line is at lesser depth, or # 2. the previous line ends in an assignment # 3. the previous line ends in a 'return' # 4. the previous line ends in a comma # Example 1: previous line at lesser depth # if ( ( $Year < 1601 ) # <- we are here but # || ( $Year > 2899 ) # list has not yet # || ( $EndYear < 1601 ) # collapsed vertically # || ( $EndYear > 2899 ) ) # { # # Example 2: previous line ending in assignment: # $leapyear = # $year % 4 ? 0 # <- We are here # : $year % 100 ? 1 # : $year % 400 ? 0 # : 1; # # Example 3: previous line ending in comma: # push @expr, # /test/ ? undef # : eval($_) ? 1 # : eval($_) ? 1 # : 0; # be sure levels agree (do not indent after an indented 'if') next if ( $levels_to_go[$ibeg] ne $levels_to_go[$ibeg_next] ); # allow padding on first line after a comma but only if: # (1) this is line 2 and # (2) there are at more than three lines and # (3) lines 3 and 4 have the same leading operator # These rules try to prevent padding within a long # comma-separated list. my $ok_comma; if ( $types_to_go[$iendm] eq ',' && $line == 1 && $max_line > 2 ) { my $ibeg_next_next = $ri_first->[ $line + 2 ]; my $tok_next_next = $tokens_to_go[$ibeg_next_next]; $ok_comma = $tok_next_next eq $tok_next; } next unless ( $is_assignment{ $types_to_go[$iendm] } || $ok_comma || ( $nesting_depth_to_go[$ibegm] < $nesting_depth_to_go[$ibeg] ) || ( $types_to_go[$iendm] eq 'k' && $tokens_to_go[$iendm] eq 'return' ) ); # we will add padding before the first token $ipad = $ibeg; } # for first line of the batch.. else { # WARNING: Never indent if first line is starting in a # continued quote, which would change the quote. next if $starting_in_quote; # if this is text after closing '}' # then look for an interior token to pad if ( $types_to_go[$ibeg] eq '}' ) { } # otherwise, we might pad if it looks really good else { # we might pad token $ibeg, so be sure that it # is at the same depth as the next line. next if ( $nesting_depth_to_go[$ibeg] != $nesting_depth_to_go[$ibeg_next] ); # We can pad on line 1 of a statement if at least 3 # lines will be aligned. Otherwise, it # can look very confusing. # We have to be careful not to pad if there are too few # lines. The current rule is: # (1) in general we require at least 3 consecutive lines # with the same leading chain operator token, # (2) but an exception is that we only require two lines # with leading colons if there are no more lines. For example, # the first $i in the following snippet would get padding # by the second rule: # # $i == 1 ? ( "First", "Color" ) # : $i == 2 ? ( "Then", "Rarity" ) # : ( "Then", "Name" ); if ( $max_line > 1 ) { my $leading_token = $tokens_to_go[$ibeg_next]; my $tokens_differ; # never indent line 1 of a '.' series because # previous line is most likely at same level. # TODO: we should also look at the leasing_spaces # of the last output line and skip if it is same # as this line. next if ( $leading_token eq '.' ); my $count = 1; foreach my $l ( 2 .. 3 ) { last if ( $line + $l > $max_line ); my $ibeg_next_next = $ri_first->[ $line + $l ]; if ( $tokens_to_go[$ibeg_next_next] ne $leading_token ) { $tokens_differ = 1; last; } $count++; } next if ($tokens_differ); next if ( $count < 3 && $leading_token ne ':' ); $ipad = $ibeg; } else { next; } } } } # find interior token to pad if necessary if ( !defined($ipad) ) { for ( my $i = $ibeg ; ( $i < $iend ) && !$ipad ; $i++ ) { # find any unclosed container next unless ( $type_sequence_to_go[$i] && $mate_index_to_go[$i] > $iend ); # find next nonblank token to pad $ipad = $inext_to_go[$i]; last if ( $ipad > $iend ); } last unless $ipad; } # We cannot pad the first leading token of a file because # it could cause a bug in which the starting indentation # level is guessed incorrectly each time the code is run # though perltidy, thus causing the code to march off to # the right. For example, the following snippet would have # this problem: ## ov_method mycan( $package, '(""' ), $package ## or ov_method mycan( $package, '(0+' ), $package ## or ov_method mycan( $package, '(bool' ), $package ## or ov_method mycan( $package, '(nomethod' ), $package; # If this snippet is within a block this won't happen # unless the user just processes the snippet alone within # an editor. In that case either the user will see and # fix the problem or it will be corrected next time the # entire file is processed with perltidy. ##next if ( $ipad == 0 && $levels_to_go[$ipad] == 0 ); next if ( $ipad == 0 && $peak_batch_size <= 1 ); ## THIS PATCH REMOVES THE FOLLOWING POOR PADDING (math.t) with -pbp, BUT ## IT DID MORE HARM THAN GOOD ## ceil( ## $font->{'loca'}->{'glyphs'}[$x]->read->{'xMin'} * 1000 ## / $upem ## ), ##? # do not put leading padding for just 2 lines of math ##? if ( $ipad == $ibeg ##? && $line > 0 ##? && $levels_to_go[$ipad] > $levels_to_go[ $ipad - 1 ] ##? && $is_math_op{$type_next} ##? && $line + 2 <= $max_line ) ##? { ##? my $ibeg_next_next = $ri_first->[ $line + 2 ]; ##? my $type_next_next = $types_to_go[$ibeg_next_next]; ##? next if !$is_math_op{$type_next_next}; ##? } # next line must not be at greater depth my $iend_next = $ri_last->[ $line + 1 ]; next if ( $nesting_depth_to_go[ $iend_next + 1 ] > $nesting_depth_to_go[$ipad] ); # lines must be somewhat similar to be padded.. my $inext_next = $inext_to_go[$ibeg_next]; my $type = $types_to_go[$ipad]; my $type_next = $types_to_go[ $ipad + 1 ]; # see if there are multiple continuation lines my $logical_continuation_lines = 1; if ( $line + 2 <= $max_line ) { my $leading_token = $tokens_to_go[$ibeg_next]; my $ibeg_next_next = $ri_first->[ $line + 2 ]; if ( $tokens_to_go[$ibeg_next_next] eq $leading_token && $nesting_depth_to_go[$ibeg_next] eq $nesting_depth_to_go[$ibeg_next_next] ) { $logical_continuation_lines++; } } # see if leading types match my $types_match = $types_to_go[$inext_next] eq $type; my $matches_without_bang; # if first line has leading ! then compare the following token if ( !$types_match && $type eq '!' ) { $types_match = $matches_without_bang = $types_to_go[$inext_next] eq $types_to_go[ $ipad + 1 ]; } if ( # either we have multiple continuation lines to follow # and we are not padding the first token ( $logical_continuation_lines > 1 && $ipad > 0 ) # or.. || ( # types must match $types_match # and keywords must match if keyword && !( $type eq 'k' && $tokens_to_go[$ipad] ne $tokens_to_go[$inext_next] ) ) ) { #----------------------begin special checks-------------- # # SPECIAL CHECK 1: # A check is needed before we can make the pad. # If we are in a list with some long items, we want each # item to stand out. So in the following example, the # first line beginning with '$casefold->' would look good # padded to align with the next line, but then it # would be indented more than the last line, so we # won't do it. # # ok( # $casefold->{code} eq '0041' # && $casefold->{status} eq 'C' # && $casefold->{mapping} eq '0061', # 'casefold 0x41' # ); # # Note: # It would be faster, and almost as good, to use a comma # count, and not pad if comma_count > 1 and the previous # line did not end with a comma. # my $ok_to_pad = 1; my $ibg = $ri_first->[ $line + 1 ]; my $depth = $nesting_depth_to_go[ $ibg + 1 ]; # just use simplified formula for leading spaces to avoid # needless sub calls my $lsp = $levels_to_go[$ibg] + $ci_levels_to_go[$ibg]; # look at each line beyond the next .. my $l = $line + 1; foreach my $ltest ( $line + 2 .. $max_line ) { $l = $ltest; my $ibg = $ri_first->[$l]; # quit looking at the end of this container last if ( $nesting_depth_to_go[ $ibg + 1 ] < $depth ) || ( $nesting_depth_to_go[$ibg] < $depth ); # cannot do the pad if a later line would be # outdented more if ( $levels_to_go[$ibg] + $ci_levels_to_go[$ibg] < $lsp ) { $ok_to_pad = 0; last; } } # don't pad if we end in a broken list if ( $l == $max_line ) { my $i2 = $ri_last->[$l]; if ( $types_to_go[$i2] eq '#' ) { my $i1 = $ri_first->[$l]; next if ( terminal_type( \@types_to_go, \@block_type_to_go, $i1, $i2 ) eq ',' ); } } # SPECIAL CHECK 2: # a minus may introduce a quoted variable, and we will # add the pad only if this line begins with a bare word, # such as for the word 'Button' here: # [ # Button => "Print letter \"~$_\"", # -command => [ sub { print "$_[0]\n" }, $_ ], # -accelerator => "Meta+$_" # ]; # # On the other hand, if 'Button' is quoted, it looks best # not to pad: # [ # 'Button' => "Print letter \"~$_\"", # -command => [ sub { print "$_[0]\n" }, $_ ], # -accelerator => "Meta+$_" # ]; if ( $types_to_go[$ibeg_next] eq 'm' ) { $ok_to_pad = 0 if $types_to_go[$ibeg] eq 'Q'; } next unless $ok_to_pad; #----------------------end special check--------------- my $length_1 = total_line_length( $ibeg, $ipad - 1 ); my $length_2 = total_line_length( $ibeg_next, $inext_next - 1 ); $pad_spaces = $length_2 - $length_1; # If the first line has a leading ! and the second does # not, then remove one space to try to align the next # leading characters, which are often the same. For example: # if ( !$ts # || $ts == $self->Holder # || $self->Holder->Type eq "Arena" ) # # This usually helps readability, but if there are subsequent # ! operators things will still get messed up. For example: # # if ( !exists $Net::DNS::typesbyname{$qtype} # && exists $Net::DNS::classesbyname{$qtype} # && !exists $Net::DNS::classesbyname{$qclass} # && exists $Net::DNS::typesbyname{$qclass} ) # We can't fix that. if ($matches_without_bang) { $pad_spaces-- } # make sure this won't change if -lp is used my $indentation_1 = $leading_spaces_to_go[$ibeg]; if ( ref($indentation_1) ) { if ( $indentation_1->get_recoverable_spaces() == 0 ) { my $indentation_2 = $leading_spaces_to_go[$ibeg_next]; unless ( $indentation_2->get_recoverable_spaces() == 0 ) { $pad_spaces = 0; } } } # we might be able to handle a pad of -1 by removing a blank # token if ( $pad_spaces < 0 ) { if ( $pad_spaces == -1 ) { if ( $ipad > $ibeg && $types_to_go[ $ipad - 1 ] eq 'b' ) { pad_token( $ipad - 1, $pad_spaces ); } } $pad_spaces = 0; } # now apply any padding for alignment if ( $ipad >= 0 && $pad_spaces ) { my $length_t = total_line_length( $ibeg, $iend ); if ( $pad_spaces + $length_t <= maximum_line_length($ibeg) ) { pad_token( $ipad, $pad_spaces ); } } } } continue { $iendm = $iend; $ibegm = $ibeg; $has_leading_op = $has_leading_op_next; } # end of loop over lines return; } } sub correct_lp_indentation { # When the -lp option is used, we need to make a last pass through # each line to correct the indentation positions in case they differ # from the predictions. This is necessary because perltidy uses a # predictor/corrector method for aligning with opening parens. The # predictor is usually good, but sometimes stumbles. The corrector # tries to patch things up once the actual opening paren locations # are known. my ( $ri_first, $ri_last ) = @_; my $do_not_pad = 0; # Note on flag '$do_not_pad': # We want to avoid a situation like this, where the aligner inserts # whitespace before the '=' to align it with a previous '=', because # otherwise the parens might become mis-aligned in a situation like # this, where the '=' has become aligned with the previous line, # pushing the opening '(' forward beyond where we want it. # # $mkFloor::currentRoom = ''; # $mkFloor::c_entry = $c->Entry( # -width => '10', # -relief => 'sunken', # ... # ); # # We leave it to the aligner to decide how to do this. # first remove continuation indentation if appropriate my $max_line = @{$ri_first} - 1; # looking at each line of this batch.. my ( $ibeg, $iend ); foreach my $line ( 0 .. $max_line ) { $ibeg = $ri_first->[$line]; $iend = $ri_last->[$line]; # looking at each token in this output line.. foreach my $i ( $ibeg .. $iend ) { # How many space characters to place before this token # for special alignment. Actual padding is done in the # continue block. # looking for next unvisited indentation item my $indentation = $leading_spaces_to_go[$i]; if ( !$indentation->get_marked() ) { $indentation->set_marked(1); # looking for indentation item for which we are aligning # with parens, braces, and brackets next unless ( $indentation->get_align_paren() ); # skip closed container on this line if ( $i > $ibeg ) { my $im = max( $ibeg, $iprev_to_go[$i] ); if ( $type_sequence_to_go[$im] && $mate_index_to_go[$im] <= $iend ) { next; } } if ( $line == 1 && $i == $ibeg ) { $do_not_pad = 1; } # Ok, let's see what the error is and try to fix it my $actual_pos; my $predicted_pos = $indentation->get_spaces(); if ( $i > $ibeg ) { # token is mid-line - use length to previous token $actual_pos = total_line_length( $ibeg, $i - 1 ); # for mid-line token, we must check to see if all # additional lines have continuation indentation, # and remove it if so. Otherwise, we do not get # good alignment. my $closing_index = $indentation->get_closed(); if ( $closing_index > $iend ) { my $ibeg_next = $ri_first->[ $line + 1 ]; if ( $ci_levels_to_go[$ibeg_next] > 0 ) { undo_lp_ci( $line, $i, $closing_index, $ri_first, $ri_last ); } } } elsif ( $line > 0 ) { # handle case where token starts a new line; # use length of previous line my $ibegm = $ri_first->[ $line - 1 ]; my $iendm = $ri_last->[ $line - 1 ]; $actual_pos = total_line_length( $ibegm, $iendm ); # follow -pt style ++$actual_pos if ( $types_to_go[ $iendm + 1 ] eq 'b' ); } else { # token is first character of first line of batch $actual_pos = $predicted_pos; } my $move_right = $actual_pos - $predicted_pos; # done if no error to correct (gnu2.t) if ( $move_right == 0 ) { $indentation->set_recoverable_spaces($move_right); next; } # if we have not seen closure for this indentation in # this batch, we can only pass on a request to the # vertical aligner my $closing_index = $indentation->get_closed(); if ( $closing_index < 0 ) { $indentation->set_recoverable_spaces($move_right); next; } # If necessary, look ahead to see if there is really any # leading whitespace dependent on this whitespace, and # also find the longest line using this whitespace. # Since it is always safe to move left if there are no # dependents, we only need to do this if we may have # dependent nodes or need to move right. my $right_margin = 0; my $have_child = $indentation->get_have_child(); my %saw_indentation; my $line_count = 1; $saw_indentation{$indentation} = $indentation; if ( $have_child || $move_right > 0 ) { $have_child = 0; my $max_length = 0; if ( $i == $ibeg ) { $max_length = total_line_length( $ibeg, $iend ); } # look ahead at the rest of the lines of this batch.. foreach my $line_t ( $line + 1 .. $max_line ) { my $ibeg_t = $ri_first->[$line_t]; my $iend_t = $ri_last->[$line_t]; last if ( $closing_index <= $ibeg_t ); # remember all different indentation objects my $indentation_t = $leading_spaces_to_go[$ibeg_t]; $saw_indentation{$indentation_t} = $indentation_t; $line_count++; # remember longest line in the group my $length_t = total_line_length( $ibeg_t, $iend_t ); if ( $length_t > $max_length ) { $max_length = $length_t; } } $right_margin = maximum_line_length($ibeg) - $max_length; if ( $right_margin < 0 ) { $right_margin = 0 } } my $first_line_comma_count = grep { $_ eq ',' } @types_to_go[ $ibeg .. $iend ]; my $comma_count = $indentation->get_comma_count(); my $arrow_count = $indentation->get_arrow_count(); # This is a simple approximate test for vertical alignment: # if we broke just after an opening paren, brace, bracket, # and there are 2 or more commas in the first line, # and there are no '=>'s, # then we are probably vertically aligned. We could set # an exact flag in sub scan_list, but this is good # enough. my $indentation_count = keys %saw_indentation; my $is_vertically_aligned = ( $i == $ibeg && $first_line_comma_count > 1 && $indentation_count == 1 && ( $arrow_count == 0 || $arrow_count == $line_count ) ); # Make the move if possible .. if ( # we can always move left $move_right < 0 # but we should only move right if we are sure it will # not spoil vertical alignment || ( $comma_count == 0 ) || ( $comma_count > 0 && !$is_vertically_aligned ) ) { my $move = ( $move_right <= $right_margin ) ? $move_right : $right_margin; foreach ( keys %saw_indentation ) { $saw_indentation{$_} ->permanently_decrease_available_spaces( -$move ); } } # Otherwise, record what we want and the vertical aligner # will try to recover it. else { $indentation->set_recoverable_spaces($move_right); } } } } return $do_not_pad; } # flush is called to output any tokens in the pipeline, so that # an alternate source of lines can be written in the correct order sub flush { my $self = shift; destroy_one_line_block(); $self->output_line_to_go(); Perl::Tidy::VerticalAligner::flush(); return; } sub reset_block_text_accumulator { # save text after 'if' and 'elsif' to append after 'else' if ($accumulating_text_for_block) { if ( $accumulating_text_for_block =~ /^(if|elsif)$/ ) { push @{$rleading_block_if_elsif_text}, $leading_block_text; } } $accumulating_text_for_block = ""; $leading_block_text = ""; $leading_block_text_level = 0; $leading_block_text_length_exceeded = 0; $leading_block_text_line_number = 0; $leading_block_text_line_length = 0; return; } sub set_block_text_accumulator { my $i = shift; $accumulating_text_for_block = $tokens_to_go[$i]; if ( $accumulating_text_for_block !~ /^els/ ) { $rleading_block_if_elsif_text = []; } $leading_block_text = ""; $leading_block_text_level = $levels_to_go[$i]; $leading_block_text_line_number = get_output_line_number(); ##$vertical_aligner_object->get_output_line_number(); $leading_block_text_length_exceeded = 0; # this will contain the column number of the last character # of the closing side comment $leading_block_text_line_length = length($csc_last_label) + length($accumulating_text_for_block) + length( $rOpts->{'closing-side-comment-prefix'} ) + $leading_block_text_level * $rOpts_indent_columns + 3; return; } sub accumulate_block_text { my $i = shift; # accumulate leading text for -csc, ignoring any side comments if ( $accumulating_text_for_block && !$leading_block_text_length_exceeded && $types_to_go[$i] ne '#' ) { my $added_length = $token_lengths_to_go[$i]; $added_length += 1 if $i == 0; my $new_line_length = $leading_block_text_line_length + $added_length; # we can add this text if we don't exceed some limits.. if ( # we must not have already exceeded the text length limit length($leading_block_text) < $rOpts_closing_side_comment_maximum_text # and either: # the new total line length must be below the line length limit # or the new length must be below the text length limit # (ie, we may allow one token to exceed the text length limit) && ( $new_line_length < maximum_line_length_for_level($leading_block_text_level) || length($leading_block_text) + $added_length < $rOpts_closing_side_comment_maximum_text ) # UNLESS: we are adding a closing paren before the brace we seek. # This is an attempt to avoid situations where the ... to be # added are longer than the omitted right paren, as in: # foreach my $item (@a_rather_long_variable_name_here) { # &whatever; # } ## end foreach my $item (@a_rather_long_variable_name_here... || ( $tokens_to_go[$i] eq ')' && ( ( $i + 1 <= $max_index_to_go && $block_type_to_go[ $i + 1 ] eq $accumulating_text_for_block ) || ( $i + 2 <= $max_index_to_go && $block_type_to_go[ $i + 2 ] eq $accumulating_text_for_block ) ) ) ) { # add an extra space at each newline if ( $i == 0 ) { $leading_block_text .= ' ' } # add the token text $leading_block_text .= $tokens_to_go[$i]; $leading_block_text_line_length = $new_line_length; } # show that text was truncated if necessary elsif ( $types_to_go[$i] ne 'b' ) { $leading_block_text_length_exceeded = 1; $leading_block_text .= '...'; } } return; } { my %is_if_elsif_else_unless_while_until_for_foreach; BEGIN { # These block types may have text between the keyword and opening # curly. Note: 'else' does not, but must be included to allow trailing # if/elsif text to be appended. # patch for SWITCH/CASE: added 'case' and 'when' my @q = qw(if elsif else unless while until for foreach case when catch); @is_if_elsif_else_unless_while_until_for_foreach{@q} = (1) x scalar(@q); } sub accumulate_csc_text { # called once per output buffer when -csc is used. Accumulates # the text placed after certain closing block braces. # Defines and returns the following for this buffer: my $block_leading_text = ""; # the leading text of the last '}' my $rblock_leading_if_elsif_text; my $i_block_leading_text = -1; # index of token owning block_leading_text my $block_line_count = 100; # how many lines the block spans my $terminal_type = 'b'; # type of last nonblank token my $i_terminal = 0; # index of last nonblank token my $terminal_block_type = ""; # update most recent statement label $csc_last_label = "" unless ($csc_last_label); if ( $types_to_go[0] eq 'J' ) { $csc_last_label = $tokens_to_go[0] } my $block_label = $csc_last_label; # Loop over all tokens of this batch for my $i ( 0 .. $max_index_to_go ) { my $type = $types_to_go[$i]; my $block_type = $block_type_to_go[$i]; my $token = $tokens_to_go[$i]; # remember last nonblank token type if ( $type ne '#' && $type ne 'b' ) { $terminal_type = $type; $terminal_block_type = $block_type; $i_terminal = $i; } my $type_sequence = $type_sequence_to_go[$i]; if ( $block_type && $type_sequence ) { if ( $token eq '}' ) { # restore any leading text saved when we entered this block if ( defined( $block_leading_text{$type_sequence} ) ) { ( $block_leading_text, $rblock_leading_if_elsif_text ) = @{ $block_leading_text{$type_sequence} }; $i_block_leading_text = $i; delete $block_leading_text{$type_sequence}; $rleading_block_if_elsif_text = $rblock_leading_if_elsif_text; } if ( defined( $csc_block_label{$type_sequence} ) ) { $block_label = $csc_block_label{$type_sequence}; delete $csc_block_label{$type_sequence}; } # if we run into a '}' then we probably started accumulating # at something like a trailing 'if' clause..no harm done. if ( $accumulating_text_for_block && $levels_to_go[$i] <= $leading_block_text_level ) { my $lev = $levels_to_go[$i]; reset_block_text_accumulator(); } if ( defined( $block_opening_line_number{$type_sequence} ) ) { my $output_line_number = get_output_line_number(); ##$vertical_aligner_object->get_output_line_number(); $block_line_count = $output_line_number - $block_opening_line_number{$type_sequence} + 1; delete $block_opening_line_number{$type_sequence}; } else { # Error: block opening line undefined for this line.. # This shouldn't be possible, but it is not a # significant problem. } } elsif ( $token eq '{' ) { my $line_number = get_output_line_number(); ##$vertical_aligner_object->get_output_line_number(); $block_opening_line_number{$type_sequence} = $line_number; # set a label for this block, except for # a bare block which already has the label # A label can only be used on the next { if ( $block_type =~ /:$/ ) { $csc_last_label = "" } $csc_block_label{$type_sequence} = $csc_last_label; $csc_last_label = ""; if ( $accumulating_text_for_block && $levels_to_go[$i] == $leading_block_text_level ) { if ( $accumulating_text_for_block eq $block_type ) { # save any leading text before we enter this block $block_leading_text{$type_sequence} = [ $leading_block_text, $rleading_block_if_elsif_text ]; $block_opening_line_number{$type_sequence} = $leading_block_text_line_number; reset_block_text_accumulator(); } else { # shouldn't happen, but not a serious error. # We were accumulating -csc text for block type # $accumulating_text_for_block and unexpectedly # encountered a '{' for block type $block_type. } } } } if ( $type eq 'k' && $csc_new_statement_ok && $is_if_elsif_else_unless_while_until_for_foreach{$token} && $token =~ /$closing_side_comment_list_pattern/o ) { set_block_text_accumulator($i); } else { # note: ignoring type 'q' because of tricks being played # with 'q' for hanging side comments if ( $type ne 'b' && $type ne '#' && $type ne 'q' ) { $csc_new_statement_ok = ( $block_type || $type eq 'J' || $type eq ';' ); } if ( $type eq ';' && $accumulating_text_for_block && $levels_to_go[$i] == $leading_block_text_level ) { reset_block_text_accumulator(); } else { accumulate_block_text($i); } } } # Treat an 'else' block specially by adding preceding 'if' and # 'elsif' text. Otherwise, the 'end else' is not helpful, # especially for cuddled-else formatting. if ( $terminal_block_type =~ /^els/ && $rblock_leading_if_elsif_text ) { $block_leading_text = make_else_csc_text( $i_terminal, $terminal_block_type, $block_leading_text, $rblock_leading_if_elsif_text ); } # if this line ends in a label then remember it for the next pass $csc_last_label = ""; if ( $terminal_type eq 'J' ) { $csc_last_label = $tokens_to_go[$i_terminal]; } return ( $terminal_type, $i_terminal, $i_block_leading_text, $block_leading_text, $block_line_count, $block_label ); } } sub make_else_csc_text { # create additional -csc text for an 'else' and optionally 'elsif', # depending on the value of switch # $rOpts_closing_side_comment_else_flag: # # = 0 add 'if' text to trailing else # = 1 same as 0 plus: # add 'if' to 'elsif's if can fit in line length # add last 'elsif' to trailing else if can fit in one line # = 2 same as 1 but do not check if exceed line length # # $rif_elsif_text = a reference to a list of all previous closing # side comments created for this if block # my ( $i_terminal, $block_type, $block_leading_text, $rif_elsif_text ) = @_; my $csc_text = $block_leading_text; if ( $block_type eq 'elsif' && $rOpts_closing_side_comment_else_flag == 0 ) { return $csc_text; } my $count = @{$rif_elsif_text}; return $csc_text unless ($count); my $if_text = '[ if' . $rif_elsif_text->[0]; # always show the leading 'if' text on 'else' if ( $block_type eq 'else' ) { $csc_text .= $if_text; } # see if that's all if ( $rOpts_closing_side_comment_else_flag == 0 ) { return $csc_text; } my $last_elsif_text = ""; if ( $count > 1 ) { $last_elsif_text = ' [elsif' . $rif_elsif_text->[ $count - 1 ]; if ( $count > 2 ) { $last_elsif_text = ' [...' . $last_elsif_text; } } # tentatively append one more item my $saved_text = $csc_text; if ( $block_type eq 'else' ) { $csc_text .= $last_elsif_text; } else { $csc_text .= ' ' . $if_text; } # all done if no length checks requested if ( $rOpts_closing_side_comment_else_flag == 2 ) { return $csc_text; } # undo it if line length exceeded my $length = length($csc_text) + length($block_type) + length( $rOpts->{'closing-side-comment-prefix'} ) + $levels_to_go[$i_terminal] * $rOpts_indent_columns + 3; if ( $length > maximum_line_length_for_level($leading_block_text_level) ) { $csc_text = $saved_text; } return $csc_text; } { # sub balance_csc_text my %matching_char; BEGIN { %matching_char = ( '{' => '}', '(' => ')', '[' => ']', '}' => '{', ')' => '(', ']' => '[', ); } sub balance_csc_text { # Append characters to balance a closing side comment so that editors # such as vim can correctly jump through code. # Simple Example: # input = ## end foreach my $foo ( sort { $b ... # output = ## end foreach my $foo ( sort { $b ...}) # NOTE: This routine does not currently filter out structures within # quoted text because the bounce algorithms in text editors do not # necessarily do this either (a version of vim was checked and # did not do this). # Some complex examples which will cause trouble for some editors: # while ( $mask_string =~ /\{[^{]*?\}/g ) { # if ( $mask_str =~ /\}\s*els[^\{\}]+\{$/ ) { # if ( $1 eq '{' ) { # test file test1/braces.pl has many such examples. my ($csc) = @_; # loop to examine characters one-by-one, RIGHT to LEFT and # build a balancing ending, LEFT to RIGHT. for ( my $pos = length($csc) - 1 ; $pos >= 0 ; $pos-- ) { my $char = substr( $csc, $pos, 1 ); # ignore everything except structural characters next unless ( $matching_char{$char} ); # pop most recently appended character my $top = chop($csc); # push it back plus the mate to the newest character # unless they balance each other. $csc = $csc . $top . $matching_char{$char} unless $top eq $char; } # return the balanced string return $csc; } } sub add_closing_side_comment { my $self = shift; # add closing side comments after closing block braces if -csc used my $cscw_block_comment; #--------------------------------------------------------------- # Step 1: loop through all tokens of this line to accumulate # the text needed to create the closing side comments. Also see # how the line ends. #--------------------------------------------------------------- my ( $terminal_type, $i_terminal, $i_block_leading_text, $block_leading_text, $block_line_count, $block_label ) = accumulate_csc_text(); #--------------------------------------------------------------- # Step 2: make the closing side comment if this ends a block #--------------------------------------------------------------- ##my $have_side_comment = $i_terminal != $max_index_to_go; my $have_side_comment = $types_to_go[$max_index_to_go] eq '#'; # if this line might end in a block closure.. if ( $terminal_type eq '}' # ..and either && ( # the block is long enough ( $block_line_count >= $rOpts->{'closing-side-comment-interval'} ) # or there is an existing comment to check || ( $have_side_comment && $rOpts->{'closing-side-comment-warnings'} ) ) # .. and if this is one of the types of interest && $block_type_to_go[$i_terminal] =~ /$closing_side_comment_list_pattern/o # .. but not an anonymous sub # These are not normally of interest, and their closing braces are # often followed by commas or semicolons anyway. This also avoids # possible erratic output due to line numbering inconsistencies # in the cases where their closing braces terminate a line. && $block_type_to_go[$i_terminal] ne 'sub' # ..and the corresponding opening brace must is not in this batch # (because we do not need to tag one-line blocks, although this # should also be caught with a positive -csci value) && $mate_index_to_go[$i_terminal] < 0 # ..and either && ( # this is the last token (line doesn't have a side comment) !$have_side_comment # or the old side comment is a closing side comment || $tokens_to_go[$max_index_to_go] =~ /$closing_side_comment_prefix_pattern/o ) ) { # then make the closing side comment text if ($block_label) { $block_label .= " " } my $token = "$rOpts->{'closing-side-comment-prefix'} $block_label$block_type_to_go[$i_terminal]"; # append any extra descriptive text collected above if ( $i_block_leading_text == $i_terminal ) { $token .= $block_leading_text; } $token = balance_csc_text($token) if $rOpts->{'closing-side-comments-balanced'}; $token =~ s/\s*$//; # trim any trailing whitespace # handle case of existing closing side comment if ($have_side_comment) { # warn if requested and tokens differ significantly if ( $rOpts->{'closing-side-comment-warnings'} ) { my $old_csc = $tokens_to_go[$max_index_to_go]; my $new_csc = $token; $new_csc =~ s/\s+//g; # trim all whitespace $old_csc =~ s/\s+//g; # trim all whitespace $new_csc =~ s/[\]\)\}\s]*$//; # trim trailing structures $old_csc =~ s/[\]\)\}\s]*$//; # trim trailing structures $new_csc =~ s/(\.\.\.)$//; # trim trailing '...' my $new_trailing_dots = $1; $old_csc =~ s/(\.\.\.)\s*$//; # trim trailing '...' # Patch to handle multiple closing side comments at # else and elsif's. These have become too complicated # to check, so if we see an indication of # '[ if' or '[ # elsif', then assume they were made # by perltidy. if ( $block_type_to_go[$i_terminal] eq 'else' ) { if ( $old_csc =~ /\[\s*elsif/ ) { $old_csc = $new_csc } } elsif ( $block_type_to_go[$i_terminal] eq 'elsif' ) { if ( $old_csc =~ /\[\s*if/ ) { $old_csc = $new_csc } } # if old comment is contained in new comment, # only compare the common part. if ( length($new_csc) > length($old_csc) ) { $new_csc = substr( $new_csc, 0, length($old_csc) ); } # if the new comment is shorter and has been limited, # only compare the common part. if ( length($new_csc) < length($old_csc) && $new_trailing_dots ) { $old_csc = substr( $old_csc, 0, length($new_csc) ); } # any remaining difference? if ( $new_csc ne $old_csc ) { # just leave the old comment if we are below the threshold # for creating side comments if ( $block_line_count < $rOpts->{'closing-side-comment-interval'} ) { $token = undef; } # otherwise we'll make a note of it else { warning( "perltidy -cscw replaced: $tokens_to_go[$max_index_to_go]\n" ); # save the old side comment in a new trailing block comment my ( $day, $month, $year ) = (localtime)[ 3, 4, 5 ]; $year += 1900; $month += 1; $cscw_block_comment = "## perltidy -cscw $year-$month-$day: $tokens_to_go[$max_index_to_go]"; } } else { # No differences.. we can safely delete old comment if we # are below the threshold if ( $block_line_count < $rOpts->{'closing-side-comment-interval'} ) { $token = undef; $self->unstore_token_to_go() if ( $types_to_go[$max_index_to_go] eq '#' ); $self->unstore_token_to_go() if ( $types_to_go[$max_index_to_go] eq 'b' ); } } } # switch to the new csc (unless we deleted it!) $tokens_to_go[$max_index_to_go] = $token if $token; } # handle case of NO existing closing side comment else { # Remove any existing blank and add another below. # This is a tricky point. A side comment needs to have the same level # as the preceding closing brace or else the line will not get the right # indentation. So even if we have a blank, we are going to replace it. if ( $types_to_go[$max_index_to_go] eq 'b' ) { unstore_token_to_go(); } # insert the new side comment into the output token stream my $type = '#'; my $block_type = ''; my $type_sequence = ''; my $container_environment = $container_environment_to_go[$max_index_to_go]; my $level = $levels_to_go[$max_index_to_go]; my $slevel = $nesting_depth_to_go[$max_index_to_go]; my $no_internal_newlines = 0; my $ci_level = $ci_levels_to_go[$max_index_to_go]; my $in_continued_quote = 0; # insert a blank token $self->insert_new_token_to_go( ' ', 'b', $slevel, $no_internal_newlines ); # then the side comment $self->insert_new_token_to_go( $token, $type, $slevel, $no_internal_newlines ); } } return $cscw_block_comment; } sub previous_nonblank_token { my ($i) = @_; my $name = ""; my $im = $i - 1; return "" if ( $im < 0 ); if ( $types_to_go[$im] eq 'b' ) { $im--; } return "" if ( $im < 0 ); $name = $tokens_to_go[$im]; # prepend any sub name to an isolated -> to avoid unwanted alignments # [test case is test8/penco.pl] if ( $name eq '->' ) { $im--; if ( $im >= 0 && $types_to_go[$im] ne 'b' ) { $name = $tokens_to_go[$im] . $name; } } return $name; } sub send_lines_to_vertical_aligner { my ( $self, $ri_first, $ri_last, $do_not_pad ) = @_; my $rindentation_list = [0]; # ref to indentations for each line # define the array @matching_token_to_go for the output tokens # which will be non-blank for each special token (such as =>) # for which alignment is required. set_vertical_alignment_markers( $ri_first, $ri_last ); # flush if necessary to avoid unwanted alignment my $must_flush = 0; if ( @{$ri_first} > 1 ) { # flush before a long if statement if ( $types_to_go[0] eq 'k' && $tokens_to_go[0] =~ /^(if|unless)$/ ) { $must_flush = 1; } } if ($must_flush) { Perl::Tidy::VerticalAligner::flush(); } undo_ci( $ri_first, $ri_last ); set_logical_padding( $ri_first, $ri_last ); # loop to prepare each line for shipment my $n_last_line = @{$ri_first} - 1; my $in_comma_list; for my $n ( 0 .. $n_last_line ) { my $ibeg = $ri_first->[$n]; my $iend = $ri_last->[$n]; my ( $rtokens, $rfields, $rpatterns ) = make_alignment_patterns( $ibeg, $iend ); # Set flag to show how much level changes between this line # and the next line, if we have it. my $ljump = 0; if ( $n < $n_last_line ) { my $ibegp = $ri_first->[ $n + 1 ]; $ljump = $levels_to_go[$ibegp] - $levels_to_go[$iend]; } my ( $indentation, $lev, $level_end, $terminal_type, $is_semicolon_terminated, $is_outdented_line ) = set_adjusted_indentation( $ibeg, $iend, $rfields, $rpatterns, $ri_first, $ri_last, $rindentation_list, $ljump ); # we will allow outdenting of long lines.. my $outdent_long_lines = ( # which are long quotes, if allowed ( $types_to_go[$ibeg] eq 'Q' && $rOpts->{'outdent-long-quotes'} ) # which are long block comments, if allowed || ( $types_to_go[$ibeg] eq '#' && $rOpts->{'outdent-long-comments'} # but not if this is a static block comment && !$is_static_block_comment ) ); my $level_jump = $nesting_depth_to_go[ $iend + 1 ] - $nesting_depth_to_go[$ibeg]; my $rvertical_tightness_flags = set_vertical_tightness_flags( $n, $n_last_line, $ibeg, $iend, $ri_first, $ri_last ); # flush an outdented line to avoid any unwanted vertical alignment Perl::Tidy::VerticalAligner::flush() if ($is_outdented_line); # Set a flag at the final ':' of a ternary chain to request # vertical alignment of the final term. Here is a # slightly complex example: # # $self->{_text} = ( # !$section ? '' # : $type eq 'item' ? "the $section entry" # : "the section on $section" # ) # . ( # $page # ? ( $section ? ' in ' : '' ) . "the $page$page_ext manpage" # : ' elsewhere in this document' # ); # my $is_terminal_ternary = 0; if ( $tokens_to_go[$ibeg] eq ':' || $n > 0 && $tokens_to_go[ $ri_last->[ $n - 1 ] ] eq ':' ) { my $last_leading_type = ":"; if ( $n > 0 ) { my $iprev = $ri_first->[ $n - 1 ]; $last_leading_type = $types_to_go[$iprev]; } if ( $terminal_type ne ';' && $n_last_line > $n && $level_end == $lev ) { my $inext = $ri_first->[ $n + 1 ]; $level_end = $levels_to_go[$inext]; $terminal_type = $types_to_go[$inext]; } $is_terminal_ternary = $last_leading_type eq ':' && ( ( $terminal_type eq ';' && $level_end <= $lev ) || ( $terminal_type ne ':' && $level_end < $lev ) ) # the terminal term must not contain any ternary terms, as in # my $ECHO = ( # $Is_MSWin32 ? ".\\echo$$" # : $Is_MacOS ? ":echo$$" # : ( $Is_NetWare ? "echo$$" : "./echo$$" ) # ); && !grep /^[\?\:]$/, @types_to_go[ $ibeg + 1 .. $iend ]; } # send this new line down the pipe my $forced_breakpoint = $forced_breakpoint_to_go[$iend]; Perl::Tidy::VerticalAligner::valign_input( $lev, $level_end, $indentation, $rfields, $rtokens, $rpatterns, $forced_breakpoint_to_go[$iend] || $in_comma_list, $outdent_long_lines, $is_terminal_ternary, $is_semicolon_terminated, $do_not_pad, $rvertical_tightness_flags, $level_jump, ); $in_comma_list = $tokens_to_go[$iend] eq ',' && $forced_breakpoint_to_go[$iend]; # flush an outdented line to avoid any unwanted vertical alignment Perl::Tidy::VerticalAligner::flush() if ($is_outdented_line); $do_not_pad = 0; # Set flag indicating if this line ends in an opening # token and is very short, so that a blank line is not # needed if the subsequent line is a comment. # Examples of what we are looking for: # { # && ( # BEGIN { # default { # sub { $last_output_short_opening_token # line ends in opening token = $types_to_go[$iend] =~ /^[\{\(\[L]$/ # and either && ( # line has either single opening token $iend == $ibeg # or is a single token followed by opening token. # Note that sub identifiers have blanks like 'sub doit' || ( $iend - $ibeg <= 2 && $tokens_to_go[$ibeg] !~ /\s+/ ) ) # and limit total to 10 character widths && token_sequence_length( $ibeg, $iend ) <= 10; } # end of loop to output each line # remember indentation of lines containing opening containers for # later use by sub set_adjusted_indentation save_opening_indentation( $ri_first, $ri_last, $rindentation_list ); return; } { # begin make_alignment_patterns my %block_type_map; my %keyword_map; BEGIN { # map related block names into a common name to # allow alignment %block_type_map = ( 'unless' => 'if', 'else' => 'if', 'elsif' => 'if', 'when' => 'if', 'default' => 'if', 'case' => 'if', 'sort' => 'map', 'grep' => 'map', ); # map certain keywords to the same 'if' class to align # long if/elsif sequences. [elsif.pl] %keyword_map = ( 'unless' => 'if', 'else' => 'if', 'elsif' => 'if', 'when' => 'given', 'default' => 'given', 'case' => 'switch', # treat an 'undef' similar to numbers and quotes 'undef' => 'Q', ); } sub make_alignment_patterns { # Here we do some important preliminary work for the # vertical aligner. We create three arrays for one # output line. These arrays contain strings that can # be tested by the vertical aligner to see if # consecutive lines can be aligned vertically. # # The three arrays are indexed on the vertical # alignment fields and are: # @tokens - a list of any vertical alignment tokens for this line. # These are tokens, such as '=' '&&' '#' etc which # we want to might align vertically. These are # decorated with various information such as # nesting depth to prevent unwanted vertical # alignment matches. # @fields - the actual text of the line between the vertical alignment # tokens. # @patterns - a modified list of token types, one for each alignment # field. These should normally each match before alignment is # allowed, even when the alignment tokens match. my ( $ibeg, $iend ) = @_; my @tokens = (); my @fields = (); my @patterns = (); my $i_start = $ibeg; my $depth = 0; my @container_name = (""); my @multiple_comma_arrows = (undef); my $j = 0; # field index $patterns[0] = ""; for my $i ( $ibeg .. $iend ) { # Keep track of containers balanced on this line only. # These are used below to prevent unwanted cross-line alignments. # Unbalanced containers already avoid aligning across # container boundaries. if ( $tokens_to_go[$i] eq '(' ) { # if container is balanced on this line... my $i_mate = $mate_index_to_go[$i]; if ( $i_mate > $i && $i_mate <= $iend ) { $depth++; my $seqno = $type_sequence_to_go[$i]; my $count = comma_arrow_count($seqno); $multiple_comma_arrows[$depth] = $count && $count > 1; # Append the previous token name to make the container name # more unique. This name will also be given to any commas # within this container, and it helps avoid undesirable # alignments of different types of containers. my $name = previous_nonblank_token($i); $name =~ s/^->//; $container_name[$depth] = "+" . $name; # Make the container name even more unique if necessary. # If we are not vertically aligning this opening paren, # append a character count to avoid bad alignment because # it usually looks bad to align commas within containers # for which the opening parens do not align. Here # is an example very BAD alignment of commas (because # the atan2 functions are not all aligned): # $XY = # $X * $RTYSQP1 * atan2( $X, $RTYSQP1 ) + # $Y * $RTXSQP1 * atan2( $Y, $RTXSQP1 ) - # $X * atan2( $X, 1 ) - # $Y * atan2( $Y, 1 ); # # On the other hand, it is usually okay to align commas if # opening parens align, such as: # glVertex3d( $cx + $s * $xs, $cy, $z ); # glVertex3d( $cx, $cy + $s * $ys, $z ); # glVertex3d( $cx - $s * $xs, $cy, $z ); # glVertex3d( $cx, $cy - $s * $ys, $z ); # # To distinguish between these situations, we will # append the length of the line from the previous matching # token, or beginning of line, to the function name. This # will allow the vertical aligner to reject undesirable # matches. # if we are not aligning on this paren... if ( $matching_token_to_go[$i] eq '' ) { # Sum length from previous alignment, or start of line. my $len = ( $i_start == $ibeg ) ? total_line_length( $i_start, $i - 1 ) : token_sequence_length( $i_start, $i - 1 ); # tack length onto the container name to make unique $container_name[$depth] .= "-" . $len; } } } elsif ( $tokens_to_go[$i] eq ')' ) { $depth-- if $depth > 0; } # if we find a new synchronization token, we are done with # a field if ( $i > $i_start && $matching_token_to_go[$i] ne '' ) { my $tok = my $raw_tok = $matching_token_to_go[$i]; # make separators in different nesting depths unique # by appending the nesting depth digit. if ( $raw_tok ne '#' ) { $tok .= "$nesting_depth_to_go[$i]"; } # also decorate commas with any container name to avoid # unwanted cross-line alignments. if ( $raw_tok eq ',' || $raw_tok eq '=>' ) { if ( $container_name[$depth] ) { $tok .= $container_name[$depth]; } } # Patch to avoid aligning leading and trailing if, unless. # Mark trailing if, unless statements with container names. # This makes them different from leading if, unless which # are not so marked at present. If we ever need to name # them too, we could use ci to distinguish them. # Example problem to avoid: # return ( 2, "DBERROR" ) # if ( $retval == 2 ); # if ( scalar @_ ) { # my ( $a, $b, $c, $d, $e, $f ) = @_; # } if ( $raw_tok eq '(' ) { my $ci = $ci_levels_to_go[$ibeg]; if ( $container_name[$depth] =~ /^\+(if|unless)/ && $ci ) { $tok .= $container_name[$depth]; } } # Decorate block braces with block types to avoid # unwanted alignments such as the following: # foreach ( @{$routput_array} ) { $fh->print($_) } # eval { $fh->close() }; if ( $raw_tok eq '{' && $block_type_to_go[$i] ) { my $block_type = $block_type_to_go[$i]; # map certain related block types to allow # else blocks to align $block_type = $block_type_map{$block_type} if ( defined( $block_type_map{$block_type} ) ); # remove sub names to allow one-line sub braces to align # regardless of name #if ( $block_type =~ /^sub / ) { $block_type = 'sub' } if ( $block_type =~ /$SUB_PATTERN/ ) { $block_type = 'sub' } # allow all control-type blocks to align if ( $block_type =~ /^[A-Z]+$/ ) { $block_type = 'BEGIN' } $tok .= $block_type; } # concatenate the text of the consecutive tokens to form # the field push( @fields, join( '', @tokens_to_go[ $i_start .. $i - 1 ] ) ); # store the alignment token for this field push( @tokens, $tok ); # get ready for the next batch $i_start = $i; $j++; $patterns[$j] = ""; } # continue accumulating tokens # handle non-keywords.. if ( $types_to_go[$i] ne 'k' ) { my $type = $types_to_go[$i]; # Mark most things before arrows as a quote to # get them to line up. Testfile: mixed.pl. if ( ( $i < $iend - 1 ) && ( $type =~ /^[wnC]$/ ) ) { my $next_type = $types_to_go[ $i + 1 ]; my $i_next_nonblank = ( ( $next_type eq 'b' ) ? $i + 2 : $i + 1 ); if ( $types_to_go[$i_next_nonblank] eq '=>' ) { $type = 'Q'; # Patch to ignore leading minus before words, # by changing pattern 'mQ' into just 'Q', # so that we can align things like this: # Button => "Print letter \"~$_\"", # -command => [ sub { print "$_[0]\n" }, $_ ], if ( $patterns[$j] eq 'm' ) { $patterns[$j] = "" } } } # patch to make numbers and quotes align if ( $type eq 'n' ) { $type = 'Q' } # patch to ignore any ! in patterns if ( $type eq '!' ) { $type = '' } $patterns[$j] .= $type; } # for keywords we have to use the actual text else { my $tok = $tokens_to_go[$i]; # but map certain keywords to a common string to allow # alignment. $tok = $keyword_map{$tok} if ( defined( $keyword_map{$tok} ) ); $patterns[$j] .= $tok; } } # done with this line .. join text of tokens to make the last field push( @fields, join( '', @tokens_to_go[ $i_start .. $iend ] ) ); return ( \@tokens, \@fields, \@patterns ); } } # end make_alignment_patterns { # begin unmatched_indexes # closure to keep track of unbalanced containers. # arrays shared by the routines in this block: my @unmatched_opening_indexes_in_this_batch; my @unmatched_closing_indexes_in_this_batch; my %comma_arrow_count; sub is_unbalanced_batch { return @unmatched_opening_indexes_in_this_batch + @unmatched_closing_indexes_in_this_batch; } sub comma_arrow_count { my $seqno = shift; return $comma_arrow_count{$seqno}; } sub match_opening_and_closing_tokens { # Match up indexes of opening and closing braces, etc, in this batch. # This has to be done after all tokens are stored because unstoring # of tokens would otherwise cause trouble. @unmatched_opening_indexes_in_this_batch = (); @unmatched_closing_indexes_in_this_batch = (); %comma_arrow_count = (); my $comma_arrow_count_contained = 0; foreach my $i ( 0 .. $max_index_to_go ) { if ( $type_sequence_to_go[$i] ) { my $token = $tokens_to_go[$i]; if ( $token =~ /^[\(\[\{\?]$/ ) { push @unmatched_opening_indexes_in_this_batch, $i; } elsif ( $token =~ /^[\)\]\}\:]$/ ) { my $i_mate = pop @unmatched_opening_indexes_in_this_batch; if ( defined($i_mate) && $i_mate >= 0 ) { if ( $type_sequence_to_go[$i_mate] == $type_sequence_to_go[$i] ) { $mate_index_to_go[$i] = $i_mate; $mate_index_to_go[$i_mate] = $i; my $seqno = $type_sequence_to_go[$i]; if ( $comma_arrow_count{$seqno} ) { $comma_arrow_count_contained += $comma_arrow_count{$seqno}; } } else { push @unmatched_opening_indexes_in_this_batch, $i_mate; push @unmatched_closing_indexes_in_this_batch, $i; } } else { push @unmatched_closing_indexes_in_this_batch, $i; } } } elsif ( $tokens_to_go[$i] eq '=>' ) { if (@unmatched_opening_indexes_in_this_batch) { my $j = $unmatched_opening_indexes_in_this_batch[-1]; my $seqno = $type_sequence_to_go[$j]; $comma_arrow_count{$seqno}++; } } } return $comma_arrow_count_contained; } sub save_opening_indentation { # This should be called after each batch of tokens is output. It # saves indentations of lines of all unmatched opening tokens. # These will be used by sub get_opening_indentation. my ( $ri_first, $ri_last, $rindentation_list ) = @_; # we no longer need indentations of any saved indentations which # are unmatched closing tokens in this batch, because we will # never encounter them again. So we can delete them to keep # the hash size down. foreach (@unmatched_closing_indexes_in_this_batch) { my $seqno = $type_sequence_to_go[$_]; delete $saved_opening_indentation{$seqno}; } # we need to save indentations of any unmatched opening tokens # in this batch because we may need them in a subsequent batch. foreach (@unmatched_opening_indexes_in_this_batch) { my $seqno = $type_sequence_to_go[$_]; $saved_opening_indentation{$seqno} = [ lookup_opening_indentation( $_, $ri_first, $ri_last, $rindentation_list ) ]; } return; } } # end unmatched_indexes sub get_opening_indentation { # get the indentation of the line which output the opening token # corresponding to a given closing token in the current output batch. # # given: # $i_closing - index in this line of a closing token ')' '}' or ']' # # $ri_first - reference to list of the first index $i for each output # line in this batch # $ri_last - reference to list of the last index $i for each output line # in this batch # $rindentation_list - reference to a list containing the indentation # used for each line. # # return: # -the indentation of the line which contained the opening token # which matches the token at index $i_opening # -and its offset (number of columns) from the start of the line # my ( $i_closing, $ri_first, $ri_last, $rindentation_list ) = @_; # first, see if the opening token is in the current batch my $i_opening = $mate_index_to_go[$i_closing]; my ( $indent, $offset, $is_leading, $exists ); $exists = 1; if ( $i_opening >= 0 ) { # it is..look up the indentation ( $indent, $offset, $is_leading ) = lookup_opening_indentation( $i_opening, $ri_first, $ri_last, $rindentation_list ); } # if not, it should have been stored in the hash by a previous batch else { my $seqno = $type_sequence_to_go[$i_closing]; if ($seqno) { if ( $saved_opening_indentation{$seqno} ) { ( $indent, $offset, $is_leading ) = @{ $saved_opening_indentation{$seqno} }; } # some kind of serious error # (example is badfile.t) else { $indent = 0; $offset = 0; $is_leading = 0; $exists = 0; } } # if no sequence number it must be an unbalanced container else { $indent = 0; $offset = 0; $is_leading = 0; $exists = 0; } } return ( $indent, $offset, $is_leading, $exists ); } sub lookup_opening_indentation { # get the indentation of the line in the current output batch # which output a selected opening token # # given: # $i_opening - index of an opening token in the current output batch # whose line indentation we need # $ri_first - reference to list of the first index $i for each output # line in this batch # $ri_last - reference to list of the last index $i for each output line # in this batch # $rindentation_list - reference to a list containing the indentation # used for each line. (NOTE: the first slot in # this list is the last returned line number, and this is # followed by the list of indentations). # # return # -the indentation of the line which contained token $i_opening # -and its offset (number of columns) from the start of the line my ( $i_opening, $ri_start, $ri_last, $rindentation_list ) = @_; my $nline = $rindentation_list->[0]; # line number of previous lookup # reset line location if necessary $nline = 0 if ( $i_opening < $ri_start->[$nline] ); # find the correct line unless ( $i_opening > $ri_last->[-1] ) { while ( $i_opening > $ri_last->[$nline] ) { $nline++; } } # error - token index is out of bounds - shouldn't happen else { warning( "non-fatal program bug in lookup_opening_indentation - index out of range\n" ); report_definite_bug(); $nline = $#{$ri_last}; } $rindentation_list->[0] = $nline; # save line number to start looking next call my $ibeg = $ri_start->[$nline]; my $offset = token_sequence_length( $ibeg, $i_opening ) - 1; my $is_leading = ( $ibeg == $i_opening ); return ( $rindentation_list->[ $nline + 1 ], $offset, $is_leading ); } { my %is_if_elsif_else_unless_while_until_for_foreach; BEGIN { # These block types may have text between the keyword and opening # curly. Note: 'else' does not, but must be included to allow trailing # if/elsif text to be appended. # patch for SWITCH/CASE: added 'case' and 'when' my @q = qw(if elsif else unless while until for foreach case when); @is_if_elsif_else_unless_while_until_for_foreach{@q} = (1) x scalar(@q); } sub set_adjusted_indentation { # This routine has the final say regarding the actual indentation of # a line. It starts with the basic indentation which has been # defined for the leading token, and then takes into account any # options that the user has set regarding special indenting and # outdenting. my ( $ibeg, $iend, $rfields, $rpatterns, $ri_first, $ri_last, $rindentation_list, $level_jump ) = @_; # we need to know the last token of this line my ( $terminal_type, $i_terminal ) = terminal_type( \@types_to_go, \@block_type_to_go, $ibeg, $iend ); my $is_outdented_line = 0; my $is_semicolon_terminated = $terminal_type eq ';' && $nesting_depth_to_go[$iend] < $nesting_depth_to_go[$ibeg]; # NOTE: A future improvement would be to make it semicolon terminated # even if it does not have a semicolon but is followed by a closing # block brace. This would undo ci even for something like the # following, in which the final paren does not have a semicolon because # it is a possible weld location: # if ($BOLD_MATH) { # ( # $labels, $comment, # join( '', '', &make_math( $mode, '', '', $_ ), '' ) # ) # } # # MOJO: Set a flag if this lines begins with ')->' my $leading_paren_arrow = ( $types_to_go[$ibeg] eq '}' && $tokens_to_go[$ibeg] eq ')' && ( ( $ibeg < $i_terminal && $types_to_go[ $ibeg + 1 ] eq '->' ) || ( $ibeg < $i_terminal - 1 && $types_to_go[ $ibeg + 1 ] eq 'b' && $types_to_go[ $ibeg + 2 ] eq '->' ) ) ); ########################################################## # Section 1: set a flag and a default indentation # # Most lines are indented according to the initial token. # But it is common to outdent to the level just after the # terminal token in certain cases... # adjust_indentation flag: # 0 - do not adjust # 1 - outdent # 2 - vertically align with opening token # 3 - indent ########################################################## my $adjust_indentation = 0; my $default_adjust_indentation = $adjust_indentation; my ( $opening_indentation, $opening_offset, $is_leading, $opening_exists ); # if we are at a closing token of some type.. if ( $types_to_go[$ibeg] =~ /^[\)\}\]R]$/ ) { # get the indentation of the line containing the corresponding # opening token ( $opening_indentation, $opening_offset, $is_leading, $opening_exists ) = get_opening_indentation( $ibeg, $ri_first, $ri_last, $rindentation_list ); # First set the default behavior: if ( # default behavior is to outdent closing lines # of the form: "); }; ]; )->xxx;" $is_semicolon_terminated # and 'cuddled parens' of the form: ")->pack(" # Bug fix for RT #123749]: the types here were # incorrectly '(' and ')'. Corrected to be '{' and '}' || ( $terminal_type eq '{' && $types_to_go[$ibeg] eq '}' && ( $nesting_depth_to_go[$iend] + 1 == $nesting_depth_to_go[$ibeg] ) ) # remove continuation indentation for any line like # } ... { # or without ending '{' and unbalanced, such as # such as '}->{$operator}' || ( $types_to_go[$ibeg] eq '}' && ( $types_to_go[$iend] eq '{' || $levels_to_go[$iend] < $levels_to_go[$ibeg] ) ) # and when the next line is at a lower indentation level # PATCH: and only if the style allows undoing continuation # for all closing token types. We should really wait until # the indentation of the next line is known and then make # a decision, but that would require another pass. || ( $level_jump < 0 && !$some_closing_token_indentation ) # Patch for -wn=2, multiple welded closing tokens || ( $i_terminal > $ibeg && $types_to_go[$iend] =~ /^[\)\}\]R]$/ ) ) { $adjust_indentation = 1; } # outdent something like '),' if ( $terminal_type eq ',' # Removed this constraint for -wn # OLD: allow just one character before the comma # && $i_terminal == $ibeg + 1 # require LIST environment; otherwise, we may outdent too much - # this can happen in calls without parentheses (overload.t); && $container_environment_to_go[$i_terminal] eq 'LIST' ) { $adjust_indentation = 1; } # undo continuation indentation of a terminal closing token if # it is the last token before a level decrease. This will allow # a closing token to line up with its opening counterpart, and # avoids a indentation jump larger than 1 level. if ( $types_to_go[$i_terminal] =~ /^[\}\]\)R]$/ && $i_terminal == $ibeg ) { my $ci = $ci_levels_to_go[$ibeg]; my $lev = $levels_to_go[$ibeg]; my $next_type = $types_to_go[ $ibeg + 1 ]; my $i_next_nonblank = ( ( $next_type eq 'b' ) ? $ibeg + 2 : $ibeg + 1 ); if ( $i_next_nonblank <= $max_index_to_go && $levels_to_go[$i_next_nonblank] < $lev ) { $adjust_indentation = 1; } # Patch for RT #96101, in which closing brace of anonymous subs # was not outdented. We should look ahead and see if there is # a level decrease at the next token (i.e., a closing token), # but right now we do not have that information. For now # we see if we are in a list, and this works well. # See test files 'sub*.t' for good test cases. if ( $block_type_to_go[$ibeg] =~ /$ASUB_PATTERN/ && $container_environment_to_go[$i_terminal] eq 'LIST' && !$rOpts->{'indent-closing-brace'} ) { ( $opening_indentation, $opening_offset, $is_leading, $opening_exists ) = get_opening_indentation( $ibeg, $ri_first, $ri_last, $rindentation_list ); my $indentation = $leading_spaces_to_go[$ibeg]; if ( defined($opening_indentation) && get_spaces($indentation) > get_spaces($opening_indentation) ) { $adjust_indentation = 1; } } } # YVES patch 1 of 2: # Undo ci of line with leading closing eval brace, # but not beyond the indention of the line with # the opening brace. if ( $block_type_to_go[$ibeg] eq 'eval' && !$rOpts->{'line-up-parentheses'} && !$rOpts->{'indent-closing-brace'} ) { ( $opening_indentation, $opening_offset, $is_leading, $opening_exists ) = get_opening_indentation( $ibeg, $ri_first, $ri_last, $rindentation_list ); my $indentation = $leading_spaces_to_go[$ibeg]; if ( defined($opening_indentation) && get_spaces($indentation) > get_spaces($opening_indentation) ) { $adjust_indentation = 1; } } $default_adjust_indentation = $adjust_indentation; # Now modify default behavior according to user request: # handle option to indent non-blocks of the form ); }; ]; # But don't do special indentation to something like ')->pack(' if ( !$block_type_to_go[$ibeg] ) { my $cti = $closing_token_indentation{ $tokens_to_go[$ibeg] }; if ( $cti == 1 ) { if ( $i_terminal <= $ibeg + 1 || $is_semicolon_terminated ) { $adjust_indentation = 2; } else { $adjust_indentation = 0; } } elsif ( $cti == 2 ) { if ($is_semicolon_terminated) { $adjust_indentation = 3; } else { $adjust_indentation = 0; } } elsif ( $cti == 3 ) { $adjust_indentation = 3; } } # handle option to indent blocks else { if ( $rOpts->{'indent-closing-brace'} && ( $i_terminal == $ibeg # isolated terminal '}' || $is_semicolon_terminated ) ) # } xxxx ; { $adjust_indentation = 3; } } } # if at ');', '};', '>;', and '];' of a terminal qw quote elsif ($rpatterns->[0] =~ /^qb*;$/ && $rfields->[0] =~ /^([\)\}\]\>]);$/ ) { if ( $closing_token_indentation{$1} == 0 ) { $adjust_indentation = 1; } else { $adjust_indentation = 3; } } # if line begins with a ':', align it with any # previous line leading with corresponding ? elsif ( $types_to_go[$ibeg] eq ':' ) { ( $opening_indentation, $opening_offset, $is_leading, $opening_exists ) = get_opening_indentation( $ibeg, $ri_first, $ri_last, $rindentation_list ); if ($is_leading) { $adjust_indentation = 2; } } ########################################################## # Section 2: set indentation according to flag set above # # Select the indentation object to define leading # whitespace. If we are outdenting something like '} } );' # then we want to use one level below the last token # ($i_terminal) in order to get it to fully outdent through # all levels. ########################################################## my $indentation; my $lev; my $level_end = $levels_to_go[$iend]; if ( $adjust_indentation == 0 ) { $indentation = $leading_spaces_to_go[$ibeg]; $lev = $levels_to_go[$ibeg]; } elsif ( $adjust_indentation == 1 ) { # Change the indentation to be that of a different token on the line # Previously, the indentation of the terminal token was used: # OLD CODING: # $indentation = $reduced_spaces_to_go[$i_terminal]; # $lev = $levels_to_go[$i_terminal]; # Generalization for MOJO: # Use the lowest level indentation of the tokens on the line. # For example, here we can use the indentation of the ending ';': # } until ($selection > 0 and $selection < 10); # ok to use ';' # But this will not outdent if we use the terminal indentation: # )->then( sub { # use indentation of the ->, not the { # Warning: reduced_spaces_to_go[] may be a reference, do not # do numerical checks with it my $i_ind = $ibeg; $indentation = $reduced_spaces_to_go[$i_ind]; $lev = $levels_to_go[$i_ind]; while ( $i_ind < $i_terminal ) { $i_ind++; if ( $levels_to_go[$i_ind] < $lev ) { $indentation = $reduced_spaces_to_go[$i_ind]; $lev = $levels_to_go[$i_ind]; } } } # handle indented closing token which aligns with opening token elsif ( $adjust_indentation == 2 ) { # handle option to align closing token with opening token $lev = $levels_to_go[$ibeg]; # calculate spaces needed to align with opening token my $space_count = get_spaces($opening_indentation) + $opening_offset; # Indent less than the previous line. # # Problem: For -lp we don't exactly know what it was if there # were recoverable spaces sent to the aligner. A good solution # would be to force a flush of the vertical alignment buffer, so # that we would know. For now, this rule is used for -lp: # # When the last line did not start with a closing token we will # be optimistic that the aligner will recover everything wanted. # # This rule will prevent us from breaking a hierarchy of closing # tokens, and in a worst case will leave a closing paren too far # indented, but this is better than frequently leaving it not # indented enough. my $last_spaces = get_spaces($last_indentation_written); if ( $last_leading_token !~ /^[\}\]\)]$/ ) { $last_spaces += get_recoverable_spaces($last_indentation_written); } # reset the indentation to the new space count if it works # only options are all or none: nothing in-between looks good $lev = $levels_to_go[$ibeg]; if ( $space_count < $last_spaces ) { if ($rOpts_line_up_parentheses) { my $lev = $levels_to_go[$ibeg]; $indentation = new_lp_indentation_item( $space_count, $lev, 0, 0, 0 ); } else { $indentation = $space_count; } } # revert to default if it doesn't work else { $space_count = leading_spaces_to_go($ibeg); if ( $default_adjust_indentation == 0 ) { $indentation = $leading_spaces_to_go[$ibeg]; } elsif ( $default_adjust_indentation == 1 ) { $indentation = $reduced_spaces_to_go[$i_terminal]; $lev = $levels_to_go[$i_terminal]; } } } # Full indentaion of closing tokens (-icb and -icp or -cti=2) else { # handle -icb (indented closing code block braces) # Updated method for indented block braces: indent one full level if # there is no continuation indentation. This will occur for major # structures such as sub, if, else, but not for things like map # blocks. # # Note: only code blocks without continuation indentation are # handled here (if, else, unless, ..). In the following snippet, # the terminal brace of the sort block will have continuation # indentation as shown so it will not be handled by the coding # here. We would have to undo the continuation indentation to do # this, but it probably looks ok as is. This is a possible future # update for semicolon terminated lines. # # if ($sortby eq 'date' or $sortby eq 'size') { # @files = sort { # $file_data{$a}{$sortby} <=> $file_data{$b}{$sortby} # or $a cmp $b # } @files; # } # if ( $block_type_to_go[$ibeg] && $ci_levels_to_go[$i_terminal] == 0 ) { my $spaces = get_spaces( $leading_spaces_to_go[$i_terminal] ); $indentation = $spaces + $rOpts_indent_columns; # NOTE: for -lp we could create a new indentation object, but # there is probably no need to do it } # handle -icp and any -icb block braces which fall through above # test such as the 'sort' block mentioned above. else { # There are currently two ways to handle -icp... # One way is to use the indentation of the previous line: # $indentation = $last_indentation_written; # The other way is to use the indentation that the previous line # would have had if it hadn't been adjusted: $indentation = $last_unadjusted_indentation; # Current method: use the minimum of the two. This avoids # inconsistent indentation. if ( get_spaces($last_indentation_written) < get_spaces($indentation) ) { $indentation = $last_indentation_written; } } # use previous indentation but use own level # to cause list to be flushed properly $lev = $levels_to_go[$ibeg]; } # remember indentation except for multi-line quotes, which get # no indentation unless ( $ibeg == 0 && $starting_in_quote ) { $last_indentation_written = $indentation; $last_unadjusted_indentation = $leading_spaces_to_go[$ibeg]; $last_leading_token = $tokens_to_go[$ibeg]; } # be sure lines with leading closing tokens are not outdented more # than the line which contained the corresponding opening token. ############################################################# # updated per bug report in alex_bug.pl: we must not # mess with the indentation of closing logical braces so # we must treat something like '} else {' as if it were # an isolated brace my $is_isolated_block_brace = ( # $iend == $ibeg ) && $block_type_to_go[$ibeg]; ############################################################# my $is_isolated_block_brace = $block_type_to_go[$ibeg] && ( $iend == $ibeg || $is_if_elsif_else_unless_while_until_for_foreach{ $block_type_to_go[$ibeg] } ); # only do this for a ':; which is aligned with its leading '?' my $is_unaligned_colon = $types_to_go[$ibeg] eq ':' && !$is_leading; if ( defined($opening_indentation) && !$leading_paren_arrow # MOJO && !$is_isolated_block_brace && !$is_unaligned_colon ) { if ( get_spaces($opening_indentation) > get_spaces($indentation) ) { $indentation = $opening_indentation; } } # remember the indentation of each line of this batch push @{$rindentation_list}, $indentation; # outdent lines with certain leading tokens... if ( # must be first word of this batch $ibeg == 0 # and ... && ( # certain leading keywords if requested ( $rOpts->{'outdent-keywords'} && $types_to_go[$ibeg] eq 'k' && $outdent_keyword{ $tokens_to_go[$ibeg] } ) # or labels if requested || ( $rOpts->{'outdent-labels'} && $types_to_go[$ibeg] eq 'J' ) # or static block comments if requested || ( $types_to_go[$ibeg] eq '#' && $rOpts->{'outdent-static-block-comments'} && $is_static_block_comment ) ) ) { my $space_count = leading_spaces_to_go($ibeg); if ( $space_count > 0 ) { $space_count -= $rOpts_continuation_indentation; $is_outdented_line = 1; if ( $space_count < 0 ) { $space_count = 0 } # do not promote a spaced static block comment to non-spaced; # this is not normally necessary but could be for some # unusual user inputs (such as -ci = -i) if ( $types_to_go[$ibeg] eq '#' && $space_count == 0 ) { $space_count = 1; } if ($rOpts_line_up_parentheses) { $indentation = new_lp_indentation_item( $space_count, $lev, 0, 0, 0 ); } else { $indentation = $space_count; } } } return ( $indentation, $lev, $level_end, $terminal_type, $is_semicolon_terminated, $is_outdented_line ); } } sub set_vertical_tightness_flags { my ( $n, $n_last_line, $ibeg, $iend, $ri_first, $ri_last ) = @_; # Define vertical tightness controls for the nth line of a batch. # We create an array of parameters which tell the vertical aligner # if we should combine this line with the next line to achieve the # desired vertical tightness. The array of parameters contains: # # [0] type: 1=opening non-block 2=closing non-block # 3=opening block brace 4=closing block brace # # [1] flag: if opening: 1=no multiple steps, 2=multiple steps ok # if closing: spaces of padding to use # [2] sequence number of container # [3] valid flag: do not append if this flag is false. Will be # true if appropriate -vt flag is set. Otherwise, Will be # made true only for 2 line container in parens with -lp # # These flags are used by sub set_leading_whitespace in # the vertical aligner my $rvertical_tightness_flags = [ 0, 0, 0, 0, 0, 0 ]; #-------------------------------------------------------------- # Vertical Tightness Flags Section 1: # Handle Lines 1 .. n-1 but not the last line # For non-BLOCK tokens, we will need to examine the next line # too, so we won't consider the last line. #-------------------------------------------------------------- if ( $n < $n_last_line ) { #-------------------------------------------------------------- # Vertical Tightness Flags Section 1a: # Look for Type 1, last token of this line is a non-block opening token #-------------------------------------------------------------- my $ibeg_next = $ri_first->[ $n + 1 ]; my $token_end = $tokens_to_go[$iend]; my $iend_next = $ri_last->[ $n + 1 ]; if ( $type_sequence_to_go[$iend] && !$block_type_to_go[$iend] && $is_opening_token{$token_end} && ( $opening_vertical_tightness{$token_end} > 0 # allow 2-line method call to be closed up || ( $rOpts_line_up_parentheses && $token_end eq '(' && $iend > $ibeg && $types_to_go[ $iend - 1 ] ne 'b' ) ) ) { # avoid multiple jumps in nesting depth in one line if # requested my $ovt = $opening_vertical_tightness{$token_end}; my $iend_next = $ri_last->[ $n + 1 ]; unless ( $ovt < 2 && ( $nesting_depth_to_go[ $iend_next + 1 ] != $nesting_depth_to_go[$ibeg_next] ) ) { # If -vt flag has not been set, mark this as invalid # and aligner will validate it if it sees the closing paren # within 2 lines. my $valid_flag = $ovt; @{$rvertical_tightness_flags} = ( 1, $ovt, $type_sequence_to_go[$iend], $valid_flag ); } } #-------------------------------------------------------------- # Vertical Tightness Flags Section 1b: # Look for Type 2, first token of next line is a non-block closing # token .. and be sure this line does not have a side comment #-------------------------------------------------------------- my $token_next = $tokens_to_go[$ibeg_next]; if ( $type_sequence_to_go[$ibeg_next] && !$block_type_to_go[$ibeg_next] && $is_closing_token{$token_next} && $types_to_go[$iend] !~ '#' ) # for safety, shouldn't happen! { my $ovt = $opening_vertical_tightness{$token_next}; my $cvt = $closing_vertical_tightness{$token_next}; if ( # never append a trailing line like )->pack( # because it will throw off later alignment ( $nesting_depth_to_go[$ibeg_next] == $nesting_depth_to_go[ $iend_next + 1 ] + 1 ) && ( $cvt == 2 || ( $container_environment_to_go[$ibeg_next] ne 'LIST' && ( $cvt == 1 # allow closing up 2-line method calls || ( $rOpts_line_up_parentheses && $token_next eq ')' ) ) ) ) ) { # decide which trailing closing tokens to append.. my $ok = 0; if ( $cvt == 2 || $iend_next == $ibeg_next ) { $ok = 1 } else { my $str = join( '', @types_to_go[ $ibeg_next + 1 .. $ibeg_next + 2 ] ); # append closing token if followed by comment or ';' if ( $str =~ /^b?[#;]/ ) { $ok = 1 } } if ($ok) { my $valid_flag = $cvt; @{$rvertical_tightness_flags} = ( 2, $tightness{$token_next} == 2 ? 0 : 1, $type_sequence_to_go[$ibeg_next], $valid_flag, ); } } } #-------------------------------------------------------------- # Vertical Tightness Flags Section 1c: # Implement the Opening Token Right flag (Type 2).. # If requested, move an isolated trailing opening token to the end of # the previous line which ended in a comma. We could do this # in sub recombine_breakpoints but that would cause problems # with -lp formatting. The problem is that indentation will # quickly move far to the right in nested expressions. By # doing it after indentation has been set, we avoid changes # to the indentation. Actual movement of the token takes place # in sub valign_output_step_B. #-------------------------------------------------------------- if ( $opening_token_right{ $tokens_to_go[$ibeg_next] } # previous line is not opening # (use -sot to combine with it) && !$is_opening_token{$token_end} # previous line ended in one of these # (add other cases if necessary; '=>' and '.' are not necessary && !$block_type_to_go[$ibeg_next] # this is a line with just an opening token && ( $iend_next == $ibeg_next || $iend_next == $ibeg_next + 2 && $types_to_go[$iend_next] eq '#' ) # looks bad if we align vertically with the wrong container && $tokens_to_go[$ibeg] ne $tokens_to_go[$ibeg_next] ) { my $valid_flag = 1; my $spaces = ( $types_to_go[ $ibeg_next - 1 ] eq 'b' ) ? 1 : 0; @{$rvertical_tightness_flags} = ( 2, $spaces, $type_sequence_to_go[$ibeg_next], $valid_flag, ); } #-------------------------------------------------------------- # Vertical Tightness Flags Section 1d: # Stacking of opening and closing tokens (Type 2) #-------------------------------------------------------------- my $stackable; my $token_beg_next = $tokens_to_go[$ibeg_next]; # patch to make something like 'qw(' behave like an opening paren # (aran.t) if ( $types_to_go[$ibeg_next] eq 'q' ) { if ( $token_beg_next =~ /^qw\s*([\[\(\{])$/ ) { $token_beg_next = $1; } } if ( $is_closing_token{$token_end} && $is_closing_token{$token_beg_next} ) { $stackable = $stack_closing_token{$token_beg_next} unless ( $block_type_to_go[$ibeg_next] ) ; # shouldn't happen; just checking } elsif ($is_opening_token{$token_end} && $is_opening_token{$token_beg_next} ) { $stackable = $stack_opening_token{$token_beg_next} unless ( $block_type_to_go[$ibeg_next] ) ; # shouldn't happen; just checking } if ($stackable) { my $is_semicolon_terminated; if ( $n + 1 == $n_last_line ) { my ( $terminal_type, $i_terminal ) = terminal_type( \@types_to_go, \@block_type_to_go, $ibeg_next, $iend_next ); $is_semicolon_terminated = $terminal_type eq ';' && $nesting_depth_to_go[$iend_next] < $nesting_depth_to_go[$ibeg_next]; } # this must be a line with just an opening token # or end in a semicolon if ( $is_semicolon_terminated || ( $iend_next == $ibeg_next || $iend_next == $ibeg_next + 2 && $types_to_go[$iend_next] eq '#' ) ) { my $valid_flag = 1; my $spaces = ( $types_to_go[ $ibeg_next - 1 ] eq 'b' ) ? 1 : 0; @{$rvertical_tightness_flags} = ( 2, $spaces, $type_sequence_to_go[$ibeg_next], $valid_flag, ); } } } #-------------------------------------------------------------- # Vertical Tightness Flags Section 2: # Handle type 3, opening block braces on last line of the batch # Check for a last line with isolated opening BLOCK curly #-------------------------------------------------------------- elsif ($rOpts_block_brace_vertical_tightness && $ibeg eq $iend && $types_to_go[$iend] eq '{' && $block_type_to_go[$iend] =~ /$block_brace_vertical_tightness_pattern/o ) { @{$rvertical_tightness_flags} = ( 3, $rOpts_block_brace_vertical_tightness, 0, 1 ); } #-------------------------------------------------------------- # Vertical Tightness Flags Section 3: # Handle type 4, a closing block brace on the last line of the batch Check # for a last line with isolated closing BLOCK curly #-------------------------------------------------------------- elsif ($rOpts_stack_closing_block_brace && $ibeg eq $iend && $block_type_to_go[$iend] && $types_to_go[$iend] eq '}' ) { my $spaces = $rOpts_block_brace_tightness == 2 ? 0 : 1; @{$rvertical_tightness_flags} = ( 4, $spaces, $type_sequence_to_go[$iend], 1 ); } # pack in the sequence numbers of the ends of this line $rvertical_tightness_flags->[4] = get_seqno($ibeg); $rvertical_tightness_flags->[5] = get_seqno($iend); return $rvertical_tightness_flags; } sub get_seqno { # get opening and closing sequence numbers of a token for the vertical # aligner. Assign qw quotes a value to allow qw opening and closing tokens # to be treated somewhat like opening and closing tokens for stacking # tokens by the vertical aligner. my ($ii) = @_; my $seqno = $type_sequence_to_go[$ii]; if ( $types_to_go[$ii] eq 'q' ) { my $SEQ_QW = -1; if ( $ii > 0 ) { $seqno = $SEQ_QW if ( $tokens_to_go[$ii] =~ /^qw\s*[\(\{\[]/ ); } else { if ( !$ending_in_quote ) { $seqno = $SEQ_QW if ( $tokens_to_go[$ii] =~ /[\)\}\]]$/ ); } } } return ($seqno); } { my %is_vertical_alignment_type; my %is_vertical_alignment_keyword; my %is_terminal_alignment_type; BEGIN { my @q; # Removed =~ from list to improve chances of alignment # Removed // from list to improve chances of alignment (RT# 119588) @q = qw# = **= += *= &= <<= &&= -= /= |= >>= ||= //= .= %= ^= x= { ? : => && || ~~ !~~ #; @is_vertical_alignment_type{@q} = (1) x scalar(@q); # only align these at end of line @q = qw(&& ||); @is_terminal_alignment_type{@q} = (1) x scalar(@q); # eq and ne were removed from this list to improve alignment chances @q = qw(if unless and or err for foreach while until); @is_vertical_alignment_keyword{@q} = (1) x scalar(@q); } sub set_vertical_alignment_markers { # This routine takes the first step toward vertical alignment of the # lines of output text. It looks for certain tokens which can serve as # vertical alignment markers (such as an '='). # # Method: We look at each token $i in this output batch and set # $matching_token_to_go[$i] equal to those tokens at which we would # accept vertical alignment. my ( $ri_first, $ri_last ) = @_; # nothing to do if we aren't allowed to change whitespace if ( !$rOpts_add_whitespace ) { for my $i ( 0 .. $max_index_to_go ) { $matching_token_to_go[$i] = ''; } return; } # remember the index of last nonblank token before any sidecomment my $i_terminal = $max_index_to_go; if ( $types_to_go[$i_terminal] eq '#' ) { if ( $i_terminal > 0 && $types_to_go[ --$i_terminal ] eq 'b' ) { if ( $i_terminal > 0 ) { --$i_terminal } } } # look at each line of this batch.. my $last_vertical_alignment_before_index; my $vert_last_nonblank_type; my $vert_last_nonblank_token; my $vert_last_nonblank_block_type; my $max_line = @{$ri_first} - 1; foreach my $line ( 0 .. $max_line ) { my $ibeg = $ri_first->[$line]; my $iend = $ri_last->[$line]; $last_vertical_alignment_before_index = -1; $vert_last_nonblank_type = ''; $vert_last_nonblank_token = ''; $vert_last_nonblank_block_type = ''; # look at each token in this output line.. foreach my $i ( $ibeg .. $iend ) { my $alignment_type = ''; my $type = $types_to_go[$i]; my $block_type = $block_type_to_go[$i]; my $token = $tokens_to_go[$i]; # check for flag indicating that we should not align # this token if ( $matching_token_to_go[$i] ) { $matching_token_to_go[$i] = ''; next; } #-------------------------------------------------------- # First see if we want to align BEFORE this token #-------------------------------------------------------- # The first possible token that we can align before # is index 2 because: 1) it doesn't normally make sense to # align before the first token and 2) the second # token must be a blank if we are to align before # the third if ( $i < $ibeg + 2 ) { } # must follow a blank token elsif ( $types_to_go[ $i - 1 ] ne 'b' ) { } # align a side comment -- elsif ( $type eq '#' ) { unless ( # it is a static side comment ( $rOpts->{'static-side-comments'} && $token =~ /$static_side_comment_pattern/o ) # or a closing side comment || ( $vert_last_nonblank_block_type && $token =~ /$closing_side_comment_prefix_pattern/o ) ) { $alignment_type = $type; } ## Example of a static side comment } # otherwise, do not align two in a row to create a # blank field elsif ( $last_vertical_alignment_before_index == $i - 2 ) { } # align before one of these keywords # (within a line, since $i>1) elsif ( $type eq 'k' ) { # /^(if|unless|and|or|eq|ne)$/ if ( $is_vertical_alignment_keyword{$token} ) { $alignment_type = $token; } } # align before one of these types.. # Note: add '.' after new vertical aligner is operational elsif ( $is_vertical_alignment_type{$type} ) { $alignment_type = $token; # Do not align a terminal token. Although it might # occasionally look ok to do this, this has been found to be # a good general rule. The main problems are: # (1) that the terminal token (such as an = or :) might get # moved far to the right where it is hard to see because # nothing follows it, and # (2) doing so may prevent other good alignments. # Current exceptions are && and || if ( $i == $iend || $i >= $i_terminal ) { $alignment_type = "" unless ( $is_terminal_alignment_type{$type} ); } # Do not align leading ': (' or '. ('. This would prevent # alignment in something like the following: # $extra_space .= # ( $input_line_number < 10 ) ? " " # : ( $input_line_number < 100 ) ? " " # : ""; # or # $code = # ( $case_matters ? $accessor : " lc($accessor) " ) # . ( $yesno ? " eq " : " ne " ) if ( $i == $ibeg + 2 && $types_to_go[$ibeg] =~ /^[\.\:]$/ && $types_to_go[ $i - 1 ] eq 'b' ) { $alignment_type = ""; } # For a paren after keyword, only align something like this: # if ( $a ) { &a } # elsif ( $b ) { &b } if ( $token eq '(' && $vert_last_nonblank_type eq 'k' ) { $alignment_type = "" unless $vert_last_nonblank_token =~ /^(if|unless|elsif)$/; } # be sure the alignment tokens are unique # This didn't work well: reason not determined # if ($token ne $type) {$alignment_type .= $type} } # NOTE: This is deactivated because it causes the previous # if/elsif alignment to fail #elsif ( $type eq '}' && $token eq '}' && $block_type_to_go[$i]) #{ $alignment_type = $type; } if ($alignment_type) { $last_vertical_alignment_before_index = $i; } #-------------------------------------------------------- # Next see if we want to align AFTER the previous nonblank #-------------------------------------------------------- # We want to line up ',' and interior ';' tokens, with the added # space AFTER these tokens. (Note: interior ';' is included # because it may occur in short blocks). if ( # we haven't already set it !$alignment_type # and its not the first token of the line && ( $i > $ibeg ) # and it follows a blank && $types_to_go[ $i - 1 ] eq 'b' # and previous token IS one of these: && ( $vert_last_nonblank_type =~ /^[\,\;]$/ ) # and it's NOT one of these && ( $type !~ /^[b\#\)\]\}]$/ ) # then go ahead and align ) { $alignment_type = $vert_last_nonblank_type; } #-------------------------------------------------------- # then store the value #-------------------------------------------------------- $matching_token_to_go[$i] = $alignment_type; if ( $type ne 'b' ) { $vert_last_nonblank_type = $type; $vert_last_nonblank_token = $token; $vert_last_nonblank_block_type = $block_type; } } } return; } } sub terminal_type { # returns type of last token on this line (terminal token), as follows: # returns # for a full-line comment # returns ' ' for a blank line # otherwise returns final token type my ( $rtype, $rblock_type, $ibeg, $iend ) = @_; # check for full-line comment.. if ( $rtype->[$ibeg] eq '#' ) { return wantarray ? ( $rtype->[$ibeg], $ibeg ) : $rtype->[$ibeg]; } else { # start at end and walk backwards.. for ( my $i = $iend ; $i >= $ibeg ; $i-- ) { # skip past any side comment and blanks next if ( $rtype->[$i] eq 'b' ); next if ( $rtype->[$i] eq '#' ); # found it..make sure it is a BLOCK termination, # but hide a terminal } after sort/grep/map because it is not # necessarily the end of the line. (terminal.t) my $terminal_type = $rtype->[$i]; if ( $terminal_type eq '}' && ( !$rblock_type->[$i] || ( $is_sort_map_grep_eval_do{ $rblock_type->[$i] } ) ) ) { $terminal_type = 'b'; } return wantarray ? ( $terminal_type, $i ) : $terminal_type; } # empty line return wantarray ? ( ' ', $ibeg ) : ' '; } } { # set_bond_strengths my %is_good_keyword_breakpoint; my %is_lt_gt_le_ge; my %binary_bond_strength; my %nobreak_lhs; my %nobreak_rhs; my @bias_tokens; my $delta_bias; sub bias_table_key { my ( $type, $token ) = @_; my $bias_table_key = $type; if ( $type eq 'k' ) { $bias_table_key = $token; if ( $token eq 'err' ) { $bias_table_key = 'or' } } return $bias_table_key; } sub set_bond_strengths { BEGIN { my @q; @q = qw(if unless while until for foreach); @is_good_keyword_breakpoint{@q} = (1) x scalar(@q); @q = qw(lt gt le ge); @is_lt_gt_le_ge{@q} = (1) x scalar(@q); # # The decision about where to break a line depends upon a "bond # strength" between tokens. The LOWER the bond strength, the MORE # likely a break. A bond strength may be any value but to simplify # things there are several pre-defined strength levels: # NO_BREAK => 10000; # VERY_STRONG => 100; # STRONG => 2.1; # NOMINAL => 1.1; # WEAK => 0.8; # VERY_WEAK => 0.55; # The strength values are based on trial-and-error, and need to be # tweaked occasionally to get desired results. Some comments: # # 1. Only relative strengths are important. small differences # in strengths can make big formatting differences. # 2. Each indentation level adds one unit of bond strength. # 3. A value of NO_BREAK makes an unbreakable bond # 4. A value of VERY_WEAK is the strength of a ',' # 5. Values below NOMINAL are considered ok break points. # 6. Values above NOMINAL are considered poor break points. # # The bond strengths should roughly follow precedence order where # possible. If you make changes, please check the results very # carefully on a variety of scripts. Testing with the -extrude # options is particularly helpful in exercising all of the rules. # Wherever possible, bond strengths are defined in the following # tables. There are two main stages to setting bond strengths and # two types of tables: # # The first stage involves looking at each token individually and # defining left and right bond strengths, according to if we want # to break to the left or right side, and how good a break point it # is. For example tokens like =, ||, && make good break points and # will have low strengths, but one might want to break on either # side to put them at the end of one line or beginning of the next. # # The second stage involves looking at certain pairs of tokens and # defining a bond strength for that particular pair. This second # stage has priority. #--------------------------------------------------------------- # Bond Strength BEGIN Section 1. # Set left and right bond strengths of individual tokens. #--------------------------------------------------------------- # NOTE: NO_BREAK's set in this section first are HINTS which will # probably not be honored. Essential NO_BREAKS's should be set in # BEGIN Section 2 or hardwired in the NO_BREAK coding near the end # of this subroutine. # Note that we are setting defaults in this section. The user # cannot change bond strengths but can cause the left and right # bond strengths of any token type to be swapped through the use of # the -wba and -wbb flags. In this way the user can determine if a # breakpoint token should appear at the end of one line or the # beginning of the next line. # The hash keys in this section are token types, plus the text of # certain keywords like 'or', 'and'. # no break around possible filehandle $left_bond_strength{'Z'} = NO_BREAK; $right_bond_strength{'Z'} = NO_BREAK; # never put a bare word on a new line: # example print (STDERR, "bla"); will fail with break after ( $left_bond_strength{'w'} = NO_BREAK; # blanks always have infinite strength to force breaks after # real tokens $right_bond_strength{'b'} = NO_BREAK; # try not to break on exponentation @q = qw" ** .. ... <=> "; @left_bond_strength{@q} = (STRONG) x scalar(@q); @right_bond_strength{@q} = (STRONG) x scalar(@q); # The comma-arrow has very low precedence but not a good break point $left_bond_strength{'=>'} = NO_BREAK; $right_bond_strength{'=>'} = NOMINAL; # ok to break after label $left_bond_strength{'J'} = NO_BREAK; $right_bond_strength{'J'} = NOMINAL; $left_bond_strength{'j'} = STRONG; $right_bond_strength{'j'} = STRONG; $left_bond_strength{'A'} = STRONG; $right_bond_strength{'A'} = STRONG; $left_bond_strength{'->'} = STRONG; $right_bond_strength{'->'} = VERY_STRONG; $left_bond_strength{'CORE::'} = NOMINAL; $right_bond_strength{'CORE::'} = NO_BREAK; # breaking AFTER modulus operator is ok: @q = qw" % "; @left_bond_strength{@q} = (STRONG) x scalar(@q); @right_bond_strength{@q} = ( 0.1 * NOMINAL + 0.9 * STRONG ) x scalar(@q); # Break AFTER math operators * and / @q = qw" * / x "; @left_bond_strength{@q} = (STRONG) x scalar(@q); @right_bond_strength{@q} = (NOMINAL) x scalar(@q); # Break AFTER weakest math operators + and - # Make them weaker than * but a bit stronger than '.' @q = qw" + - "; @left_bond_strength{@q} = (STRONG) x scalar(@q); @right_bond_strength{@q} = ( 0.91 * NOMINAL + 0.09 * WEAK ) x scalar(@q); # breaking BEFORE these is just ok: @q = qw" >> << "; @right_bond_strength{@q} = (STRONG) x scalar(@q); @left_bond_strength{@q} = (NOMINAL) x scalar(@q); # breaking before the string concatenation operator seems best # because it can be hard to see at the end of a line $right_bond_strength{'.'} = STRONG; $left_bond_strength{'.'} = 0.9 * NOMINAL + 0.1 * WEAK; @q = qw"} ] ) R"; @left_bond_strength{@q} = (STRONG) x scalar(@q); @right_bond_strength{@q} = (NOMINAL) x scalar(@q); # make these a little weaker than nominal so that they get # favored for end-of-line characters @q = qw"!= == =~ !~ ~~ !~~"; @left_bond_strength{@q} = (STRONG) x scalar(@q); @right_bond_strength{@q} = ( 0.9 * NOMINAL + 0.1 * WEAK ) x scalar(@q); # break AFTER these @q = qw" < > | & >= <="; @left_bond_strength{@q} = (VERY_STRONG) x scalar(@q); @right_bond_strength{@q} = ( 0.8 * NOMINAL + 0.2 * WEAK ) x scalar(@q); # breaking either before or after a quote is ok # but bias for breaking before a quote $left_bond_strength{'Q'} = NOMINAL; $right_bond_strength{'Q'} = NOMINAL + 0.02; $left_bond_strength{'q'} = NOMINAL; $right_bond_strength{'q'} = NOMINAL; # starting a line with a keyword is usually ok $left_bond_strength{'k'} = NOMINAL; # we usually want to bond a keyword strongly to what immediately # follows, rather than leaving it stranded at the end of a line $right_bond_strength{'k'} = STRONG; $left_bond_strength{'G'} = NOMINAL; $right_bond_strength{'G'} = STRONG; # assignment operators @q = qw( = **= += *= &= <<= &&= -= /= |= >>= ||= //= .= %= ^= x= ); # Default is to break AFTER various assignment operators @left_bond_strength{@q} = (STRONG) x scalar(@q); @right_bond_strength{@q} = ( 0.4 * WEAK + 0.6 * VERY_WEAK ) x scalar(@q); # Default is to break BEFORE '&&' and '||' and '//' # set strength of '||' to same as '=' so that chains like # $a = $b || $c || $d will break before the first '||' $right_bond_strength{'||'} = NOMINAL; $left_bond_strength{'||'} = $right_bond_strength{'='}; # same thing for '//' $right_bond_strength{'//'} = NOMINAL; $left_bond_strength{'//'} = $right_bond_strength{'='}; # set strength of && a little higher than || $right_bond_strength{'&&'} = NOMINAL; $left_bond_strength{'&&'} = $left_bond_strength{'||'} + 0.1; $left_bond_strength{';'} = VERY_STRONG; $right_bond_strength{';'} = VERY_WEAK; $left_bond_strength{'f'} = VERY_STRONG; # make right strength of for ';' a little less than '=' # to make for contents break after the ';' to avoid this: # for ( $j = $number_of_fields - 1 ; $j < $item_count ; $j += # $number_of_fields ) # and make it weaker than ',' and 'and' too $right_bond_strength{'f'} = VERY_WEAK - 0.03; # The strengths of ?/: should be somewhere between # an '=' and a quote (NOMINAL), # make strength of ':' slightly less than '?' to help # break long chains of ? : after the colons $left_bond_strength{':'} = 0.4 * WEAK + 0.6 * NOMINAL; $right_bond_strength{':'} = NO_BREAK; $left_bond_strength{'?'} = $left_bond_strength{':'} + 0.01; $right_bond_strength{'?'} = NO_BREAK; $left_bond_strength{','} = VERY_STRONG; $right_bond_strength{','} = VERY_WEAK; # remaining digraphs and trigraphs not defined above @q = qw( :: <> ++ --); @left_bond_strength{@q} = (WEAK) x scalar(@q); @right_bond_strength{@q} = (STRONG) x scalar(@q); # Set bond strengths of certain keywords # make 'or', 'err', 'and' slightly weaker than a ',' $left_bond_strength{'and'} = VERY_WEAK - 0.01; $left_bond_strength{'or'} = VERY_WEAK - 0.02; $left_bond_strength{'err'} = VERY_WEAK - 0.02; $left_bond_strength{'xor'} = NOMINAL; $right_bond_strength{'and'} = NOMINAL; $right_bond_strength{'or'} = NOMINAL; $right_bond_strength{'err'} = NOMINAL; $right_bond_strength{'xor'} = STRONG; #--------------------------------------------------------------- # Bond Strength BEGIN Section 2. # Set binary rules for bond strengths between certain token types. #--------------------------------------------------------------- # We have a little problem making tables which apply to the # container tokens. Here is a list of container tokens and # their types: # # type tokens // meaning # { {, [, ( // indent # } }, ], ) // outdent # [ [ // left non-structural [ (enclosing an array index) # ] ] // right non-structural square bracket # ( ( // left non-structural paren # ) ) // right non-structural paren # L { // left non-structural curly brace (enclosing a key) # R } // right non-structural curly brace # # Some rules apply to token types and some to just the token # itself. We solve the problem by combining type and token into a # new hash key for the container types. # # If a rule applies to a token 'type' then we need to make rules # for each of these 'type.token' combinations: # Type Type.Token # { {{, {[, {( # [ [[ # ( (( # L L{ # } }}, }], }) # ] ]] # ) )) # R R} # # If a rule applies to a token then we need to make rules for # these 'type.token' combinations: # Token Type.Token # { {{, L{ # [ {[, [[ # ( {(, (( # } }}, R} # ] }], ]] # ) }), )) # allow long lines before final { in an if statement, as in: # if (.......... # ..........) # { # # Otherwise, the line before the { tends to be too short. $binary_bond_strength{'))'}{'{{'} = VERY_WEAK + 0.03; $binary_bond_strength{'(('}{'{{'} = NOMINAL; # break on something like '} (', but keep this stronger than a ',' # example is in 'howe.pl' $binary_bond_strength{'R}'}{'(('} = 0.8 * VERY_WEAK + 0.2 * WEAK; $binary_bond_strength{'}}'}{'(('} = 0.8 * VERY_WEAK + 0.2 * WEAK; # keep matrix and hash indices together # but make them a little below STRONG to allow breaking open # something like {'some-word'}{'some-very-long-word'} at the }{ # (bracebrk.t) $binary_bond_strength{']]'}{'[['} = 0.9 * STRONG + 0.1 * NOMINAL; $binary_bond_strength{']]'}{'L{'} = 0.9 * STRONG + 0.1 * NOMINAL; $binary_bond_strength{'R}'}{'[['} = 0.9 * STRONG + 0.1 * NOMINAL; $binary_bond_strength{'R}'}{'L{'} = 0.9 * STRONG + 0.1 * NOMINAL; # increase strength to the point where a break in the following # will be after the opening paren rather than at the arrow: # $a->$b($c); $binary_bond_strength{'i'}{'->'} = 1.45 * STRONG; $binary_bond_strength{'))'}{'->'} = 0.1 * STRONG + 0.9 * NOMINAL; $binary_bond_strength{']]'}{'->'} = 0.1 * STRONG + 0.9 * NOMINAL; $binary_bond_strength{'})'}{'->'} = 0.1 * STRONG + 0.9 * NOMINAL; $binary_bond_strength{'}]'}{'->'} = 0.1 * STRONG + 0.9 * NOMINAL; $binary_bond_strength{'}}'}{'->'} = 0.1 * STRONG + 0.9 * NOMINAL; $binary_bond_strength{'R}'}{'->'} = 0.1 * STRONG + 0.9 * NOMINAL; $binary_bond_strength{'))'}{'[['} = 0.2 * STRONG + 0.8 * NOMINAL; $binary_bond_strength{'})'}{'[['} = 0.2 * STRONG + 0.8 * NOMINAL; $binary_bond_strength{'))'}{'{['} = 0.2 * STRONG + 0.8 * NOMINAL; $binary_bond_strength{'})'}{'{['} = 0.2 * STRONG + 0.8 * NOMINAL; #--------------------------------------------------------------- # Binary NO_BREAK rules #--------------------------------------------------------------- # use strict requires that bare word and => not be separated $binary_bond_strength{'C'}{'=>'} = NO_BREAK; $binary_bond_strength{'U'}{'=>'} = NO_BREAK; # Never break between a bareword and a following paren because # perl may give an error. For example, if a break is placed # between 'to_filehandle' and its '(' the following line will # give a syntax error [Carp.pm]: my( $no) =fileno( # to_filehandle( $in)) ; $binary_bond_strength{'C'}{'(('} = NO_BREAK; $binary_bond_strength{'C'}{'{('} = NO_BREAK; $binary_bond_strength{'U'}{'(('} = NO_BREAK; $binary_bond_strength{'U'}{'{('} = NO_BREAK; # use strict requires that bare word within braces not start new # line $binary_bond_strength{'L{'}{'w'} = NO_BREAK; $binary_bond_strength{'w'}{'R}'} = NO_BREAK; # use strict requires that bare word and => not be separated $binary_bond_strength{'w'}{'=>'} = NO_BREAK; # use strict does not allow separating type info from trailing { } # testfile is readmail.pl $binary_bond_strength{'t'}{'L{'} = NO_BREAK; $binary_bond_strength{'i'}{'L{'} = NO_BREAK; # As a defensive measure, do not break between a '(' and a # filehandle. In some cases, this can cause an error. For # example, the following program works: # my $msg="hi!\n"; # print # ( STDOUT # $msg # ); # # But this program fails: # my $msg="hi!\n"; # print # ( # STDOUT # $msg # ); # # This is normally only a problem with the 'extrude' option $binary_bond_strength{'(('}{'Y'} = NO_BREAK; $binary_bond_strength{'{('}{'Y'} = NO_BREAK; # never break between sub name and opening paren $binary_bond_strength{'w'}{'(('} = NO_BREAK; $binary_bond_strength{'w'}{'{('} = NO_BREAK; # keep '}' together with ';' $binary_bond_strength{'}}'}{';'} = NO_BREAK; # Breaking before a ++ can cause perl to guess wrong. For # example the following line will cause a syntax error # with -extrude if we break between '$i' and '++' [fixstyle2] # print( ( $i++ & 1 ) ? $_ : ( $change{$_} || $_ ) ); $nobreak_lhs{'++'} = NO_BREAK; # Do not break before a possible file handle $nobreak_lhs{'Z'} = NO_BREAK; # use strict hates bare words on any new line. For # example, a break before the underscore here provokes the # wrath of use strict: # if ( -r $fn && ( -s _ || $AllowZeroFilesize)) { $nobreak_rhs{'F'} = NO_BREAK; $nobreak_rhs{'CORE::'} = NO_BREAK; #--------------------------------------------------------------- # Bond Strength BEGIN Section 3. # Define tables and values for applying a small bias to the above # values. #--------------------------------------------------------------- # Adding a small 'bias' to strengths is a simple way to make a line # break at the first of a sequence of identical terms. For # example, to force long string of conditional operators to break # with each line ending in a ':', we can add a small number to the # bond strength of each ':' (colon.t) @bias_tokens = qw( : && || f and or . ); # tokens which get bias $delta_bias = 0.0001; # a very small strength level } ## end BEGIN # patch-its always ok to break at end of line $nobreak_to_go[$max_index_to_go] = 0; # we start a new set of bias values for each line my %bias; @bias{@bias_tokens} = (0) x scalar(@bias_tokens); my $code_bias = -.01; # bias for closing block braces my $type = 'b'; my $token = ' '; my $last_type; my $last_nonblank_type = $type; my $last_nonblank_token = $token; my $list_str = $left_bond_strength{'?'}; my ( $block_type, $i_next, $i_next_nonblank, $next_nonblank_token, $next_nonblank_type, $next_token, $next_type, $total_nesting_depth, ); # main loop to compute bond strengths between each pair of tokens foreach my $i ( 0 .. $max_index_to_go ) { $last_type = $type; if ( $type ne 'b' ) { $last_nonblank_type = $type; $last_nonblank_token = $token; } $type = $types_to_go[$i]; # strength on both sides of a blank is the same if ( $type eq 'b' && $last_type ne 'b' ) { $bond_strength_to_go[$i] = $bond_strength_to_go[ $i - 1 ]; next; } $token = $tokens_to_go[$i]; $block_type = $block_type_to_go[$i]; $i_next = $i + 1; $next_type = $types_to_go[$i_next]; $next_token = $tokens_to_go[$i_next]; $total_nesting_depth = $nesting_depth_to_go[$i_next]; $i_next_nonblank = ( ( $next_type eq 'b' ) ? $i + 2 : $i + 1 ); $next_nonblank_type = $types_to_go[$i_next_nonblank]; $next_nonblank_token = $tokens_to_go[$i_next_nonblank]; # We are computing the strength of the bond between the current # token and the NEXT token. #--------------------------------------------------------------- # Bond Strength Section 1: # First Approximation. # Use minimum of individual left and right tabulated bond # strengths. #--------------------------------------------------------------- my $bsr = $right_bond_strength{$type}; my $bsl = $left_bond_strength{$next_nonblank_type}; # define right bond strengths of certain keywords if ( $type eq 'k' && defined( $right_bond_strength{$token} ) ) { $bsr = $right_bond_strength{$token}; } elsif ( $token eq 'ne' or $token eq 'eq' ) { $bsr = NOMINAL; } # set terminal bond strength to the nominal value # this will cause good preceding breaks to be retained if ( $i_next_nonblank > $max_index_to_go ) { $bsl = NOMINAL; } # define right bond strengths of certain keywords if ( $next_nonblank_type eq 'k' && defined( $left_bond_strength{$next_nonblank_token} ) ) { $bsl = $left_bond_strength{$next_nonblank_token}; } elsif ($next_nonblank_token eq 'ne' or $next_nonblank_token eq 'eq' ) { $bsl = NOMINAL; } elsif ( $is_lt_gt_le_ge{$next_nonblank_token} ) { $bsl = 0.9 * NOMINAL + 0.1 * STRONG; } # Use the minimum of the left and right strengths. Note: it might # seem that we would want to keep a NO_BREAK if either token has # this value. This didn't work, for example because in an arrow # list, it prevents the comma from separating from the following # bare word (which is probably quoted by its arrow). So necessary # NO_BREAK's have to be handled as special cases in the final # section. if ( !defined($bsr) ) { $bsr = VERY_STRONG } if ( !defined($bsl) ) { $bsl = VERY_STRONG } my $bond_str = ( $bsr < $bsl ) ? $bsr : $bsl; my $bond_str_1 = $bond_str; #--------------------------------------------------------------- # Bond Strength Section 2: # Apply hardwired rules.. #--------------------------------------------------------------- # Patch to put terminal or clauses on a new line: Weaken the bond # at an || followed by die or similar keyword to make the terminal # or clause fall on a new line, like this: # # my $class = shift # || die "Cannot add broadcast: No class identifier found"; # # Otherwise the break will be at the previous '=' since the || and # = have the same starting strength and the or is biased, like # this: # # my $class = # shift || die "Cannot add broadcast: No class identifier found"; # # In any case if the user places a break at either the = or the || # it should remain there. if ( $type eq '||' || $type eq 'k' && $token eq 'or' ) { if ( $next_nonblank_token =~ /^(die|confess|croak|warn)$/ ) { if ( $want_break_before{$token} && $i > 0 ) { $bond_strength_to_go[ $i - 1 ] -= $delta_bias; } else { $bond_str -= $delta_bias; } } } # good to break after end of code blocks if ( $type eq '}' && $block_type && $next_nonblank_type ne ';' ) { $bond_str = 0.5 * WEAK + 0.5 * VERY_WEAK + $code_bias; $code_bias += $delta_bias; } if ( $type eq 'k' ) { # allow certain control keywords to stand out if ( $next_nonblank_type eq 'k' && $is_last_next_redo_return{$token} ) { $bond_str = 0.45 * WEAK + 0.55 * VERY_WEAK; } # Don't break after keyword my. This is a quick fix for a # rare problem with perl. An example is this line from file # Container.pm: # foreach my $question( Debian::DebConf::ConfigDb::gettree( # $this->{'question'} ) ) if ( $token eq 'my' ) { $bond_str = NO_BREAK; } } # good to break before 'if', 'unless', etc if ( $is_if_brace_follower{$next_nonblank_token} ) { $bond_str = VERY_WEAK; } if ( $next_nonblank_type eq 'k' && $type ne 'CORE::' ) { # FIXME: needs more testing if ( $is_keyword_returning_list{$next_nonblank_token} ) { $bond_str = $list_str if ( $bond_str > $list_str ); } # keywords like 'unless', 'if', etc, within statements # make good breaks if ( $is_good_keyword_breakpoint{$next_nonblank_token} ) { $bond_str = VERY_WEAK / 1.05; } } # try not to break before a comma-arrow elsif ( $next_nonblank_type eq '=>' ) { if ( $bond_str < STRONG ) { $bond_str = STRONG } } #--------------------------------------------------------------- # Additional hardwired NOBREAK rules #--------------------------------------------------------------- # map1.t -- correct for a quirk in perl if ( $token eq '(' && $next_nonblank_type eq 'i' && $last_nonblank_type eq 'k' && $is_sort_map_grep{$last_nonblank_token} ) # /^(sort|map|grep)$/ ) { $bond_str = NO_BREAK; } # extrude.t: do not break before paren at: # -l pid_filename( if ( $last_nonblank_type eq 'F' && $next_nonblank_token eq '(' ) { $bond_str = NO_BREAK; } # in older version of perl, use strict can cause problems with # breaks before bare words following opening parens. For example, # this will fail under older versions if a break is made between # '(' and 'MAIL': use strict; open( MAIL, "a long filename or # command"); close MAIL; if ( $type eq '{' ) { if ( $token eq '(' && $next_nonblank_type eq 'w' ) { # but it's fine to break if the word is followed by a '=>' # or if it is obviously a sub call my $i_next_next_nonblank = $i_next_nonblank + 1; my $next_next_type = $types_to_go[$i_next_next_nonblank]; if ( $next_next_type eq 'b' && $i_next_nonblank < $max_index_to_go ) { $i_next_next_nonblank++; $next_next_type = $types_to_go[$i_next_next_nonblank]; } # We'll check for an old breakpoint and keep a leading # bareword if it was that way in the input file. # Presumably it was ok that way. For example, the # following would remain unchanged: # # @months = ( # January, February, March, April, # May, June, July, August, # September, October, November, December, # ); # # This should be sufficient: if ( !$old_breakpoint_to_go[$i] && ( $next_next_type eq ',' || $next_next_type eq '}' ) ) { $bond_str = NO_BREAK; } } } # Do not break between a possible filehandle and a ? or / and do # not introduce a break after it if there is no blank # (extrude.t) elsif ( $type eq 'Z' ) { # don't break.. if ( # if there is no blank and we do not want one. Examples: # print $x++ # do not break after $x # print HTML"HELLO" # break ok after HTML ( $next_type ne 'b' && defined( $want_left_space{$next_type} ) && $want_left_space{$next_type} == WS_NO ) # or we might be followed by the start of a quote || $next_nonblank_type =~ /^[\/\?]$/ ) { $bond_str = NO_BREAK; } } # Breaking before a ? before a quote can cause trouble if # they are not separated by a blank. # Example: a syntax error occurs if you break before the ? here # my$logic=join$all?' && ':' || ',@regexps; # From: Professional_Perl_Programming_Code/multifind.pl if ( $next_nonblank_type eq '?' ) { $bond_str = NO_BREAK if ( $types_to_go[ $i_next_nonblank + 1 ] eq 'Q' ); } # Breaking before a . followed by a number # can cause trouble if there is no intervening space # Example: a syntax error occurs if you break before the .2 here # $str .= pack($endian.2, ensurrogate($ord)); # From: perl58/Unicode.pm elsif ( $next_nonblank_type eq '.' ) { $bond_str = NO_BREAK if ( $types_to_go[ $i_next_nonblank + 1 ] eq 'n' ); } # patch to put cuddled elses back together when on multiple # lines, as in: } \n else \n { \n if ($rOpts_cuddled_else) { if ( ( $token eq 'else' ) && ( $next_nonblank_type eq '{' ) || ( $type eq '}' ) && ( $next_nonblank_token eq 'else' ) ) { $bond_str = NO_BREAK; } } my $bond_str_2 = $bond_str; #--------------------------------------------------------------- # End of hardwired rules #--------------------------------------------------------------- #--------------------------------------------------------------- # Bond Strength Section 3: # Apply table rules. These have priority over the above # hardwired rules. #--------------------------------------------------------------- my $tabulated_bond_str; my $ltype = $type; my $rtype = $next_nonblank_type; if ( $token =~ /^[\(\[\{\)\]\}]/ ) { $ltype = $type . $token } if ( $next_nonblank_token =~ /^[\(\[\{\)\]\}]/ ) { $rtype = $next_nonblank_type . $next_nonblank_token; } if ( $binary_bond_strength{$ltype}{$rtype} ) { $bond_str = $binary_bond_strength{$ltype}{$rtype}; $tabulated_bond_str = $bond_str; } if ( $nobreak_rhs{$ltype} || $nobreak_lhs{$rtype} ) { $bond_str = NO_BREAK; $tabulated_bond_str = $bond_str; } my $bond_str_3 = $bond_str; # If the hardwired rules conflict with the tabulated bond # strength then there is an inconsistency that should be fixed FORMATTER_DEBUG_FLAG_BOND_TABLES && $tabulated_bond_str && $bond_str_1 && $bond_str_1 != $bond_str_2 && $bond_str_2 != $tabulated_bond_str && do { print STDERR "BOND_TABLES: ltype=$ltype rtype=$rtype $bond_str_1->$bond_str_2->$bond_str_3\n"; }; #----------------------------------------------------------------- # Bond Strength Section 4: # Modify strengths of certain tokens which often occur in sequence # by adding a small bias to each one in turn so that the breaks # occur from left to right. # # Note that we only changing strengths by small amounts here, # and usually increasing, so we should not be altering any NO_BREAKs. # Other routines which check for NO_BREAKs will use a tolerance # of one to avoid any problem. #----------------------------------------------------------------- # The bias tables use special keys my $left_key = bias_table_key( $type, $token ); my $right_key = bias_table_key( $next_nonblank_type, $next_nonblank_token ); # add any bias set by sub scan_list at old comma break points. if ( $type eq ',' ) { $bond_str += $bond_strength_to_go[$i] } # bias left token elsif ( defined( $bias{$left_key} ) ) { if ( !$want_break_before{$left_key} ) { $bias{$left_key} += $delta_bias; $bond_str += $bias{$left_key}; } } # bias right token if ( defined( $bias{$right_key} ) ) { if ( $want_break_before{$right_key} ) { # for leading '.' align all but 'short' quotes; the idea # is to not place something like "\n" on a single line. if ( $right_key eq '.' ) { unless ( $last_nonblank_type eq '.' && ( length($token) <= $rOpts_short_concatenation_item_length ) && ( !$is_closing_token{$token} ) ) { $bias{$right_key} += $delta_bias; } } else { $bias{$right_key} += $delta_bias; } $bond_str += $bias{$right_key}; } } my $bond_str_4 = $bond_str; #--------------------------------------------------------------- # Bond Strength Section 5: # Fifth Approximation. # Take nesting depth into account by adding the nesting depth # to the bond strength. #--------------------------------------------------------------- my $strength; if ( defined($bond_str) && !$nobreak_to_go[$i] ) { if ( $total_nesting_depth > 0 ) { $strength = $bond_str + $total_nesting_depth; } else { $strength = $bond_str; } } else { $strength = NO_BREAK; } #--------------------------------------------------------------- # Bond Strength Section 6: # Sixth Approximation. Welds. #--------------------------------------------------------------- # Do not allow a break within welds, if ( weld_len_right_to_go($i) ) { $strength = NO_BREAK } # But encourage breaking after opening welded tokens elsif ( weld_len_left_to_go($i) && $is_opening_token{$token} ) { $strength -= 1; } ## # TESTING: weaken before first weld closing token ## # This did not help ## elsif ($i_next_nonblank <= $max_index_to_go ## && weld_len_right_to_go($i_next_nonblank) ## && $next_nonblank_token =~ /^[\}\]\)]$/ ) ## { ## $strength -= 0.9; ## } # always break after side comment if ( $type eq '#' ) { $strength = 0 } $bond_strength_to_go[$i] = $strength; FORMATTER_DEBUG_FLAG_BOND && do { my $str = substr( $token, 0, 15 ); $str .= ' ' x ( 16 - length($str) ); print STDOUT "BOND: i=$i $str $type $next_nonblank_type depth=$total_nesting_depth strength=$bond_str_1 -> $bond_str_2 -> $bond_str_3 -> $bond_str_4 $bond_str -> $strength \n"; }; } ## end main loop return; } ## end sub set_bond_strengths } sub pad_array_to_go { # to simplify coding in scan_list and set_bond_strengths, it helps # to create some extra blank tokens at the end of the arrays $tokens_to_go[ $max_index_to_go + 1 ] = ''; $tokens_to_go[ $max_index_to_go + 2 ] = ''; $types_to_go[ $max_index_to_go + 1 ] = 'b'; $types_to_go[ $max_index_to_go + 2 ] = 'b'; $nesting_depth_to_go[ $max_index_to_go + 1 ] = $nesting_depth_to_go[$max_index_to_go]; # /^[R\}\)\]]$/ if ( $is_closing_type{ $types_to_go[$max_index_to_go] } ) { if ( $nesting_depth_to_go[$max_index_to_go] <= 0 ) { # shouldn't happen: unless ( get_saw_brace_error() ) { warning( "Program bug in scan_list: hit nesting error which should have been caught\n" ); report_definite_bug(); } } else { $nesting_depth_to_go[ $max_index_to_go + 1 ] -= 1; } } # /^[L\{\(\[]$/ elsif ( $is_opening_type{ $types_to_go[$max_index_to_go] } ) { $nesting_depth_to_go[ $max_index_to_go + 1 ] += 1; } return; } { # begin scan_list my ( $block_type, $current_depth, $depth, $i, $i_last_nonblank_token, $last_colon_sequence_number, $last_nonblank_token, $last_nonblank_type, $last_nonblank_block_type, $last_old_breakpoint_count, $minimum_depth, $next_nonblank_block_type, $next_nonblank_token, $next_nonblank_type, $old_breakpoint_count, $starting_breakpoint_count, $starting_depth, $token, $type, $type_sequence, ); my ( @breakpoint_stack, @breakpoint_undo_stack, @comma_index, @container_type, @identifier_count_stack, @index_before_arrow, @interrupted_list, @item_count_stack, @last_comma_index, @last_dot_index, @last_nonblank_type, @old_breakpoint_count_stack, @opening_structure_index_stack, @rfor_semicolon_list, @has_old_logical_breakpoints, @rand_or_list, @i_equals, ); # routine to define essential variables when we go 'up' to # a new depth sub check_for_new_minimum_depth { my $depth = shift; if ( $depth < $minimum_depth ) { $minimum_depth = $depth; # these arrays need not retain values between calls $breakpoint_stack[$depth] = $starting_breakpoint_count; $container_type[$depth] = ""; $identifier_count_stack[$depth] = 0; $index_before_arrow[$depth] = -1; $interrupted_list[$depth] = 1; $item_count_stack[$depth] = 0; $last_nonblank_type[$depth] = ""; $opening_structure_index_stack[$depth] = -1; $breakpoint_undo_stack[$depth] = undef; $comma_index[$depth] = undef; $last_comma_index[$depth] = undef; $last_dot_index[$depth] = undef; $old_breakpoint_count_stack[$depth] = undef; $has_old_logical_breakpoints[$depth] = 0; $rand_or_list[$depth] = []; $rfor_semicolon_list[$depth] = []; $i_equals[$depth] = -1; # these arrays must retain values between calls if ( !defined( $has_broken_sublist[$depth] ) ) { $dont_align[$depth] = 0; $has_broken_sublist[$depth] = 0; $want_comma_break[$depth] = 0; } } return; } # routine to decide which commas to break at within a container; # returns: # $bp_count = number of comma breakpoints set # $do_not_break_apart = a flag indicating if container need not # be broken open sub set_comma_breakpoints { my $dd = shift; my $bp_count = 0; my $do_not_break_apart = 0; # anything to do? if ( $item_count_stack[$dd] ) { # handle commas not in containers... if ( $dont_align[$dd] ) { do_uncontained_comma_breaks($dd); } # handle commas within containers... else { my $fbc = $forced_breakpoint_count; # always open comma lists not preceded by keywords, # barewords, identifiers (that is, anything that doesn't # look like a function call) my $must_break_open = $last_nonblank_type[$dd] !~ /^[kwiU]$/; set_comma_breakpoints_do( $dd, $opening_structure_index_stack[$dd], $i, $item_count_stack[$dd], $identifier_count_stack[$dd], $comma_index[$dd], $next_nonblank_type, $container_type[$dd], $interrupted_list[$dd], \$do_not_break_apart, $must_break_open, ); $bp_count = $forced_breakpoint_count - $fbc; $do_not_break_apart = 0 if $must_break_open; } } return ( $bp_count, $do_not_break_apart ); } sub do_uncontained_comma_breaks { # Handle commas not in containers... # This is a catch-all routine for commas that we # don't know what to do with because the don't fall # within containers. We will bias the bond strength # to break at commas which ended lines in the input # file. This usually works better than just trying # to put as many items on a line as possible. A # downside is that if the input file is garbage it # won't work very well. However, the user can always # prevent following the old breakpoints with the # -iob flag. my $dd = shift; my $bias = -.01; my $old_comma_break_count = 0; foreach my $ii ( @{ $comma_index[$dd] } ) { if ( $old_breakpoint_to_go[$ii] ) { $old_comma_break_count++; $bond_strength_to_go[$ii] = $bias; # reduce bias magnitude to force breaks in order $bias *= 0.99; } } # Also put a break before the first comma if # (1) there was a break there in the input, and # (2) there was exactly one old break before the first comma break # (3) OLD: there are multiple old comma breaks # (3) NEW: there are one or more old comma breaks (see return example) # # For example, we will follow the user and break after # 'print' in this snippet: # print # "conformability (Not the same dimension)\n", # "\t", $have, " is ", text_unit($hu), "\n", # "\t", $want, " is ", text_unit($wu), "\n", # ; # # Another example, just one comma, where we will break after # the return: # return # $x * cos($a) - $y * sin($a), # $x * sin($a) + $y * cos($a); # Breaking a print statement: # print SAVEOUT # ( $? & 127 ) ? " (SIG#" . ( $? & 127 ) . ")" : "", # ( $? & 128 ) ? " -- core dumped" : "", "\n"; # # But we will not force a break after the opening paren here # (causes a blinker): # $heap->{stream}->set_output_filter( # poe::filter::reference->new('myotherfreezer') ), # ; # my $i_first_comma = $comma_index[$dd]->[0]; if ( $old_breakpoint_to_go[$i_first_comma] ) { my $level_comma = $levels_to_go[$i_first_comma]; my $ibreak = -1; my $obp_count = 0; for ( my $ii = $i_first_comma - 1 ; $ii >= 0 ; $ii -= 1 ) { if ( $old_breakpoint_to_go[$ii] ) { $obp_count++; last if ( $obp_count > 1 ); $ibreak = $ii if ( $levels_to_go[$ii] == $level_comma ); } } # Changed rule from multiple old commas to just one here: if ( $ibreak >= 0 && $obp_count == 1 && $old_comma_break_count > 0 ) { # Do not to break before an opening token because # it can lead to "blinkers". my $ibreakm = $ibreak; $ibreakm-- if ( $types_to_go[$ibreakm] eq 'b' ); if ( $ibreakm >= 0 && $types_to_go[$ibreakm] !~ /^[\(\{\[L]$/ ) { set_forced_breakpoint($ibreak); } } } return; } my %is_logical_container; BEGIN { my @q = qw# if elsif unless while and or err not && | || ? : ! #; @is_logical_container{@q} = (1) x scalar(@q); } sub set_for_semicolon_breakpoints { my $dd = shift; foreach ( @{ $rfor_semicolon_list[$dd] } ) { set_forced_breakpoint($_); } return; } sub set_logical_breakpoints { my $dd = shift; if ( $item_count_stack[$dd] == 0 && $is_logical_container{ $container_type[$dd] } || $has_old_logical_breakpoints[$dd] ) { # Look for breaks in this order: # 0 1 2 3 # or and || && foreach my $i ( 0 .. 3 ) { if ( $rand_or_list[$dd][$i] ) { foreach ( @{ $rand_or_list[$dd][$i] } ) { set_forced_breakpoint($_); } # break at any 'if' and 'unless' too foreach ( @{ $rand_or_list[$dd][4] } ) { set_forced_breakpoint($_); } $rand_or_list[$dd] = []; last; } } } return; } sub is_unbreakable_container { # never break a container of one of these types # because bad things can happen (map1.t) my $dd = shift; return $is_sort_map_grep{ $container_type[$dd] }; } sub scan_list { # This routine is responsible for setting line breaks for all lists, # so that hierarchical structure can be displayed and so that list # items can be vertically aligned. The output of this routine is # stored in the array @forced_breakpoint_to_go, which is used to set # final breakpoints. $starting_depth = $nesting_depth_to_go[0]; $block_type = ' '; $current_depth = $starting_depth; $i = -1; $last_colon_sequence_number = -1; $last_nonblank_token = ';'; $last_nonblank_type = ';'; $last_nonblank_block_type = ' '; $last_old_breakpoint_count = 0; $minimum_depth = $current_depth + 1; # forces update in check below $old_breakpoint_count = 0; $starting_breakpoint_count = $forced_breakpoint_count; $token = ';'; $type = ';'; $type_sequence = ''; my $total_depth_variation = 0; my $i_old_assignment_break; my $depth_last = $starting_depth; check_for_new_minimum_depth($current_depth); my $is_long_line = excess_line_length( 0, $max_index_to_go ) > 0; my $want_previous_breakpoint = -1; my $saw_good_breakpoint; my $i_line_end = -1; my $i_line_start = -1; # loop over all tokens in this batch while ( ++$i <= $max_index_to_go ) { if ( $type ne 'b' ) { $i_last_nonblank_token = $i - 1; $last_nonblank_type = $type; $last_nonblank_token = $token; $last_nonblank_block_type = $block_type; } ## end if ( $type ne 'b' ) $type = $types_to_go[$i]; $block_type = $block_type_to_go[$i]; $token = $tokens_to_go[$i]; $type_sequence = $type_sequence_to_go[$i]; my $next_type = $types_to_go[ $i + 1 ]; my $next_token = $tokens_to_go[ $i + 1 ]; my $i_next_nonblank = ( ( $next_type eq 'b' ) ? $i + 2 : $i + 1 ); $next_nonblank_type = $types_to_go[$i_next_nonblank]; $next_nonblank_token = $tokens_to_go[$i_next_nonblank]; $next_nonblank_block_type = $block_type_to_go[$i_next_nonblank]; # set break if flag was set if ( $want_previous_breakpoint >= 0 ) { set_forced_breakpoint($want_previous_breakpoint); $want_previous_breakpoint = -1; } $last_old_breakpoint_count = $old_breakpoint_count; if ( $old_breakpoint_to_go[$i] ) { $i_line_end = $i; $i_line_start = $i_next_nonblank; $old_breakpoint_count++; # Break before certain keywords if user broke there and # this is a 'safe' break point. The idea is to retain # any preferred breaks for sequential list operations, # like a schwartzian transform. if ($rOpts_break_at_old_keyword_breakpoints) { if ( $next_nonblank_type eq 'k' && $is_keyword_returning_list{$next_nonblank_token} && ( $type =~ /^[=\)\]\}Riw]$/ || $type eq 'k' && $is_keyword_returning_list{$token} ) ) { # we actually have to set this break next time through # the loop because if we are at a closing token (such # as '}') which forms a one-line block, this break might # get undone. $want_previous_breakpoint = $i; } ## end if ( $next_nonblank_type...) } ## end if ($rOpts_break_at_old_keyword_breakpoints) # Break before attributes if user broke there if ($rOpts_break_at_old_attribute_breakpoints) { if ( $next_nonblank_type eq 'A' ) { $want_previous_breakpoint = $i; } } # remember an = break as possible good break point if ( $is_assignment{$type} ) { $i_old_assignment_break = $i; } elsif ( $is_assignment{$next_nonblank_type} ) { $i_old_assignment_break = $i_next_nonblank; } } ## end if ( $old_breakpoint_to_go...) next if ( $type eq 'b' ); $depth = $nesting_depth_to_go[ $i + 1 ]; $total_depth_variation += abs( $depth - $depth_last ); $depth_last = $depth; # safety check - be sure we always break after a comment # Shouldn't happen .. an error here probably means that the # nobreak flag did not get turned off correctly during # formatting. if ( $type eq '#' ) { if ( $i != $max_index_to_go ) { warning( "Non-fatal program bug: backup logic needed to break after a comment\n" ); report_definite_bug(); $nobreak_to_go[$i] = 0; set_forced_breakpoint($i); } ## end if ( $i != $max_index_to_go) } ## end if ( $type eq '#' ) # Force breakpoints at certain tokens in long lines. # Note that such breakpoints will be undone later if these tokens # are fully contained within parens on a line. if ( # break before a keyword within a line $type eq 'k' && $i > 0 # if one of these keywords: && $token =~ /^(if|unless|while|until|for)$/ # but do not break at something like '1 while' && ( $last_nonblank_type ne 'n' || $i > 2 ) # and let keywords follow a closing 'do' brace && $last_nonblank_block_type ne 'do' && ( $is_long_line # or container is broken (by side-comment, etc) || ( $next_nonblank_token eq '(' && $mate_index_to_go[$i_next_nonblank] < $i ) ) ) { set_forced_breakpoint( $i - 1 ); } ## end if ( $type eq 'k' && $i...) # remember locations of '||' and '&&' for possible breaks if we # decide this is a long logical expression. if ( $type eq '||' ) { push @{ $rand_or_list[$depth][2] }, $i; ++$has_old_logical_breakpoints[$depth] if ( ( $i == $i_line_start || $i == $i_line_end ) && $rOpts_break_at_old_logical_breakpoints ); } ## end if ( $type eq '||' ) elsif ( $type eq '&&' ) { push @{ $rand_or_list[$depth][3] }, $i; ++$has_old_logical_breakpoints[$depth] if ( ( $i == $i_line_start || $i == $i_line_end ) && $rOpts_break_at_old_logical_breakpoints ); } ## end elsif ( $type eq '&&' ) elsif ( $type eq 'f' ) { push @{ $rfor_semicolon_list[$depth] }, $i; } elsif ( $type eq 'k' ) { if ( $token eq 'and' ) { push @{ $rand_or_list[$depth][1] }, $i; ++$has_old_logical_breakpoints[$depth] if ( ( $i == $i_line_start || $i == $i_line_end ) && $rOpts_break_at_old_logical_breakpoints ); } ## end if ( $token eq 'and' ) # break immediately at 'or's which are probably not in a logical # block -- but we will break in logical breaks below so that # they do not add to the forced_breakpoint_count elsif ( $token eq 'or' ) { push @{ $rand_or_list[$depth][0] }, $i; ++$has_old_logical_breakpoints[$depth] if ( ( $i == $i_line_start || $i == $i_line_end ) && $rOpts_break_at_old_logical_breakpoints ); if ( $is_logical_container{ $container_type[$depth] } ) { } else { if ($is_long_line) { set_forced_breakpoint($i) } elsif ( ( $i == $i_line_start || $i == $i_line_end ) && $rOpts_break_at_old_logical_breakpoints ) { $saw_good_breakpoint = 1; } } ## end else [ if ( $is_logical_container...)] } ## end elsif ( $token eq 'or' ) elsif ( $token eq 'if' || $token eq 'unless' ) { push @{ $rand_or_list[$depth][4] }, $i; if ( ( $i == $i_line_start || $i == $i_line_end ) && $rOpts_break_at_old_logical_breakpoints ) { set_forced_breakpoint($i); } } ## end elsif ( $token eq 'if' ||...) } ## end elsif ( $type eq 'k' ) elsif ( $is_assignment{$type} ) { $i_equals[$depth] = $i; } if ($type_sequence) { # handle any postponed closing breakpoints if ( $token =~ /^[\)\]\}\:]$/ ) { if ( $type eq ':' ) { $last_colon_sequence_number = $type_sequence; # retain break at a ':' line break if ( ( $i == $i_line_start || $i == $i_line_end ) && $rOpts_break_at_old_ternary_breakpoints ) { set_forced_breakpoint($i); # break at previous '=' if ( $i_equals[$depth] > 0 ) { set_forced_breakpoint( $i_equals[$depth] ); $i_equals[$depth] = -1; } } ## end if ( ( $i == $i_line_start...)) } ## end if ( $type eq ':' ) if ( defined( $postponed_breakpoint{$type_sequence} ) ) { my $inc = ( $type eq ':' ) ? 0 : 1; set_forced_breakpoint( $i - $inc ); delete $postponed_breakpoint{$type_sequence}; } } ## end if ( $token =~ /^[\)\]\}\:]$/[{[(]) # set breaks at ?/: if they will get separated (and are # not a ?/: chain), or if the '?' is at the end of the # line elsif ( $token eq '?' ) { my $i_colon = $mate_index_to_go[$i]; if ( $i_colon <= 0 # the ':' is not in this batch || $i == 0 # this '?' is the first token of the line || $i == $max_index_to_go # or this '?' is the last token ) { # don't break at a '?' if preceded by ':' on # this line of previous ?/: pair on this line. # This is an attempt to preserve a chain of ?/: # expressions (elsif2.t). And don't break if # this has a side comment. set_forced_breakpoint($i) unless ( $type_sequence == ( $last_colon_sequence_number + TYPE_SEQUENCE_INCREMENT ) || $tokens_to_go[$max_index_to_go] eq '#' ); set_closing_breakpoint($i); } ## end if ( $i_colon <= 0 ||...) } ## end elsif ( $token eq '?' ) } ## end if ($type_sequence) #print "LISTX sees: i=$i type=$type tok=$token block=$block_type depth=$depth\n"; #------------------------------------------------------------ # Handle Increasing Depth.. # # prepare for a new list when depth increases # token $i is a '(','{', or '[' #------------------------------------------------------------ if ( $depth > $current_depth ) { $breakpoint_stack[$depth] = $forced_breakpoint_count; $breakpoint_undo_stack[$depth] = $forced_breakpoint_undo_count; $has_broken_sublist[$depth] = 0; $identifier_count_stack[$depth] = 0; $index_before_arrow[$depth] = -1; $interrupted_list[$depth] = 0; $item_count_stack[$depth] = 0; $last_comma_index[$depth] = undef; $last_dot_index[$depth] = undef; $last_nonblank_type[$depth] = $last_nonblank_type; $old_breakpoint_count_stack[$depth] = $old_breakpoint_count; $opening_structure_index_stack[$depth] = $i; $rand_or_list[$depth] = []; $rfor_semicolon_list[$depth] = []; $i_equals[$depth] = -1; $want_comma_break[$depth] = 0; $container_type[$depth] = ( $last_nonblank_type =~ /^(k|=>|&&|\|\||\?|\:|\.)$/ ) ? $last_nonblank_token : ""; $has_old_logical_breakpoints[$depth] = 0; # if line ends here then signal closing token to break if ( $next_nonblank_type eq 'b' || $next_nonblank_type eq '#' ) { set_closing_breakpoint($i); } # Not all lists of values should be vertically aligned.. $dont_align[$depth] = # code BLOCKS are handled at a higher level ( $block_type ne "" ) # certain paren lists || ( $type eq '(' ) && ( # it does not usually look good to align a list of # identifiers in a parameter list, as in: # my($var1, $var2, ...) # (This test should probably be refined, for now I'm just # testing for any keyword) ( $last_nonblank_type eq 'k' ) # a trailing '(' usually indicates a non-list || ( $next_nonblank_type eq '(' ) ); # patch to outdent opening brace of long if/for/.. # statements (like this one). See similar coding in # set_continuation breaks. We have also catch it here for # short line fragments which otherwise will not go through # set_continuation_breaks. if ( $block_type # if we have the ')' but not its '(' in this batch.. && ( $last_nonblank_token eq ')' ) && $mate_index_to_go[$i_last_nonblank_token] < 0 # and user wants brace to left && !$rOpts->{'opening-brace-always-on-right'} && ( $type eq '{' ) # should be true && ( $token eq '{' ) # should be true ) { set_forced_breakpoint( $i - 1 ); } ## end if ( $block_type && ( ...)) } ## end if ( $depth > $current_depth) #------------------------------------------------------------ # Handle Decreasing Depth.. # # finish off any old list when depth decreases # token $i is a ')','}', or ']' #------------------------------------------------------------ elsif ( $depth < $current_depth ) { check_for_new_minimum_depth($depth); # force all outer logical containers to break after we see on # old breakpoint $has_old_logical_breakpoints[$depth] ||= $has_old_logical_breakpoints[$current_depth]; # Patch to break between ') {' if the paren list is broken. # There is similar logic in set_continuation_breaks for # non-broken lists. if ( $token eq ')' && $next_nonblank_block_type && $interrupted_list[$current_depth] && $next_nonblank_type eq '{' && !$rOpts->{'opening-brace-always-on-right'} ) { set_forced_breakpoint($i); } ## end if ( $token eq ')' && ... #print "LISTY sees: i=$i type=$type tok=$token block=$block_type depth=$depth next=$next_nonblank_type next_block=$next_nonblank_block_type inter=$interrupted_list[$current_depth]\n"; # set breaks at commas if necessary my ( $bp_count, $do_not_break_apart ) = set_comma_breakpoints($current_depth); my $i_opening = $opening_structure_index_stack[$current_depth]; my $saw_opening_structure = ( $i_opening >= 0 ); # this term is long if we had to break at interior commas.. my $is_long_term = $bp_count > 0; # If this is a short container with one or more comma arrows, # then we will mark it as a long term to open it if requested. # $rOpts_comma_arrow_breakpoints = # 0 - open only if comma precedes closing brace # 1 - stable: except for one line blocks # 2 - try to form 1 line blocks # 3 - ignore => # 4 - always open up if vt=0 # 5 - stable: even for one line blocks if vt=0 if ( !$is_long_term && $tokens_to_go[$i_opening] =~ /^[\(\{\[]$/ && $index_before_arrow[ $depth + 1 ] > 0 && !$opening_vertical_tightness{ $tokens_to_go[$i_opening] } ) { $is_long_term = $rOpts_comma_arrow_breakpoints == 4 || ( $rOpts_comma_arrow_breakpoints == 0 && $last_nonblank_token eq ',' ) || ( $rOpts_comma_arrow_breakpoints == 5 && $old_breakpoint_to_go[$i_opening] ); } ## end if ( !$is_long_term &&...) # mark term as long if the length between opening and closing # parens exceeds allowed line length if ( !$is_long_term && $saw_opening_structure ) { my $i_opening_minus = find_token_starting_list($i_opening); # Note: we have to allow for one extra space after a # closing token so that we do not strand a comma or # semicolon, hence the '>=' here (oneline.t) # Note: we ignore left weld lengths here for best results $is_long_term = excess_line_length( $i_opening_minus, $i, 1 ) >= 0; } ## end if ( !$is_long_term &&...) # We've set breaks after all comma-arrows. Now we have to # undo them if this can be a one-line block # (the only breakpoints set will be due to comma-arrows) if ( # user doesn't require breaking after all comma-arrows ( $rOpts_comma_arrow_breakpoints != 0 ) && ( $rOpts_comma_arrow_breakpoints != 4 ) # and if the opening structure is in this batch && $saw_opening_structure # and either on the same old line && ( $old_breakpoint_count_stack[$current_depth] == $last_old_breakpoint_count # or user wants to form long blocks with arrows || $rOpts_comma_arrow_breakpoints == 2 ) # and we made some breakpoints between the opening and closing && ( $breakpoint_undo_stack[$current_depth] < $forced_breakpoint_undo_count ) # and this block is short enough to fit on one line # Note: use < because need 1 more space for possible comma && !$is_long_term ) { undo_forced_breakpoint_stack( $breakpoint_undo_stack[$current_depth] ); } ## end if ( ( $rOpts_comma_arrow_breakpoints...)) # now see if we have any comma breakpoints left my $has_comma_breakpoints = ( $breakpoint_stack[$current_depth] != $forced_breakpoint_count ); # update broken-sublist flag of the outer container $has_broken_sublist[$depth] = $has_broken_sublist[$depth] || $has_broken_sublist[$current_depth] || $is_long_term || $has_comma_breakpoints; # Having come to the closing ')', '}', or ']', now we have to decide if we # should 'open up' the structure by placing breaks at the opening and # closing containers. This is a tricky decision. Here are some of the # basic considerations: # # -If this is a BLOCK container, then any breakpoints will have already # been set (and according to user preferences), so we need do nothing here. # # -If we have a comma-separated list for which we can align the list items, # then we need to do so because otherwise the vertical aligner cannot # currently do the alignment. # # -If this container does itself contain a container which has been broken # open, then it should be broken open to properly show the structure. # # -If there is nothing to align, and no other reason to break apart, # then do not do it. # # We will not break open the parens of a long but 'simple' logical expression. # For example: # # This is an example of a simple logical expression and its formatting: # # if ( $bigwasteofspace1 && $bigwasteofspace2 # || $bigwasteofspace3 && $bigwasteofspace4 ) # # Most people would prefer this than the 'spacey' version: # # if ( # $bigwasteofspace1 && $bigwasteofspace2 # || $bigwasteofspace3 && $bigwasteofspace4 # ) # # To illustrate the rules for breaking logical expressions, consider: # # FULLY DENSE: # if ( $opt_excl # and ( exists $ids_excl_uc{$id_uc} # or grep $id_uc =~ /$_/, @ids_excl_uc )) # # This is on the verge of being difficult to read. The current default is to # open it up like this: # # DEFAULT: # if ( # $opt_excl # and ( exists $ids_excl_uc{$id_uc} # or grep $id_uc =~ /$_/, @ids_excl_uc ) # ) # # This is a compromise which tries to avoid being too dense and to spacey. # A more spaced version would be: # # SPACEY: # if ( # $opt_excl # and ( # exists $ids_excl_uc{$id_uc} # or grep $id_uc =~ /$_/, @ids_excl_uc # ) # ) # # Some people might prefer the spacey version -- an option could be added. The # innermost expression contains a long block '( exists $ids_... ')'. # # Here is how the logic goes: We will force a break at the 'or' that the # innermost expression contains, but we will not break apart its opening and # closing containers because (1) it contains no multi-line sub-containers itself, # and (2) there is no alignment to be gained by breaking it open like this # # and ( # exists $ids_excl_uc{$id_uc} # or grep $id_uc =~ /$_/, @ids_excl_uc # ) # # (although this looks perfectly ok and might be good for long expressions). The # outer 'if' container, though, contains a broken sub-container, so it will be # broken open to avoid too much density. Also, since it contains no 'or's, there # will be a forced break at its 'and'. # set some flags telling something about this container.. my $is_simple_logical_expression = 0; if ( $item_count_stack[$current_depth] == 0 && $saw_opening_structure && $tokens_to_go[$i_opening] eq '(' && $is_logical_container{ $container_type[$current_depth] } ) { # This seems to be a simple logical expression with # no existing breakpoints. Set a flag to prevent # opening it up. if ( !$has_comma_breakpoints ) { $is_simple_logical_expression = 1; } # This seems to be a simple logical expression with # breakpoints (broken sublists, for example). Break # at all 'or's and '||'s. else { set_logical_breakpoints($current_depth); } } ## end if ( $item_count_stack...) if ( $is_long_term && @{ $rfor_semicolon_list[$current_depth] } ) { set_for_semicolon_breakpoints($current_depth); # open up a long 'for' or 'foreach' container to allow # leading term alignment unless -lp is used. $has_comma_breakpoints = 1 unless $rOpts_line_up_parentheses; } ## end if ( $is_long_term && ...) if ( # breaks for code BLOCKS are handled at a higher level !$block_type # we do not need to break at the top level of an 'if' # type expression && !$is_simple_logical_expression ## modification to keep ': (' containers vertically tight; ## but probably better to let user set -vt=1 to avoid ## inconsistency with other paren types ## && ($container_type[$current_depth] ne ':') # otherwise, we require one of these reasons for breaking: && ( # - this term has forced line breaks $has_comma_breakpoints # - the opening container is separated from this batch # for some reason (comment, blank line, code block) # - this is a non-paren container spanning multiple lines || !$saw_opening_structure # - this is a long block contained in another breakable # container || ( $is_long_term && $container_environment_to_go[$i_opening] ne 'BLOCK' ) ) ) { # For -lp option, we must put a breakpoint before # the token which has been identified as starting # this indentation level. This is necessary for # proper alignment. if ( $rOpts_line_up_parentheses && $saw_opening_structure ) { my $item = $leading_spaces_to_go[ $i_opening + 1 ]; if ( $i_opening + 1 < $max_index_to_go && $types_to_go[ $i_opening + 1 ] eq 'b' ) { $item = $leading_spaces_to_go[ $i_opening + 2 ]; } if ( defined($item) ) { my $i_start_2 = $item->get_starting_index(); if ( defined($i_start_2) # we are breaking after an opening brace, paren, # so don't break before it too && $i_start_2 ne $i_opening ) { # Only break for breakpoints at the same # indentation level as the opening paren my $test1 = $nesting_depth_to_go[$i_opening]; my $test2 = $nesting_depth_to_go[$i_start_2]; if ( $test2 == $test1 ) { set_forced_breakpoint( $i_start_2 - 1 ); } } ## end if ( defined($i_start_2...)) } ## end if ( defined($item) ) } ## end if ( $rOpts_line_up_parentheses...) # break after opening structure. # note: break before closing structure will be automatic if ( $minimum_depth <= $current_depth ) { set_forced_breakpoint($i_opening) unless ( $do_not_break_apart || is_unbreakable_container($current_depth) ); # break at ',' of lower depth level before opening token if ( $last_comma_index[$depth] ) { set_forced_breakpoint( $last_comma_index[$depth] ); } # break at '.' of lower depth level before opening token if ( $last_dot_index[$depth] ) { set_forced_breakpoint( $last_dot_index[$depth] ); } # break before opening structure if preceded by another # closing structure and a comma. This is normally # done by the previous closing brace, but not # if it was a one-line block. if ( $i_opening > 2 ) { my $i_prev = ( $types_to_go[ $i_opening - 1 ] eq 'b' ) ? $i_opening - 2 : $i_opening - 1; if ( $types_to_go[$i_prev] eq ',' && $types_to_go[ $i_prev - 1 ] =~ /^[\)\}]$/ ) { set_forced_breakpoint($i_prev); } # also break before something like ':(' or '?(' # if appropriate. elsif ( $types_to_go[$i_prev] =~ /^([k\:\?]|&&|\|\|)$/ ) { my $token_prev = $tokens_to_go[$i_prev]; if ( $want_break_before{$token_prev} ) { set_forced_breakpoint($i_prev); } } ## end elsif ( $types_to_go[$i_prev...]) } ## end if ( $i_opening > 2 ) } ## end if ( $minimum_depth <=...) # break after comma following closing structure if ( $next_type eq ',' ) { set_forced_breakpoint( $i + 1 ); } # break before an '=' following closing structure if ( $is_assignment{$next_nonblank_type} && ( $breakpoint_stack[$current_depth] != $forced_breakpoint_count ) ) { set_forced_breakpoint($i); } ## end if ( $is_assignment{$next_nonblank_type...}) # break at any comma before the opening structure Added # for -lp, but seems to be good in general. It isn't # obvious how far back to look; the '5' below seems to # work well and will catch the comma in something like # push @list, myfunc( $param, $param, .. my $icomma = $last_comma_index[$depth]; if ( defined($icomma) && ( $i_opening - $icomma ) < 5 ) { unless ( $forced_breakpoint_to_go[$icomma] ) { set_forced_breakpoint($icomma); } } } # end logic to open up a container # Break open a logical container open if it was already open elsif ($is_simple_logical_expression && $has_old_logical_breakpoints[$current_depth] ) { set_logical_breakpoints($current_depth); } # Handle long container which does not get opened up elsif ($is_long_term) { # must set fake breakpoint to alert outer containers that # they are complex set_fake_breakpoint(); } ## end elsif ($is_long_term) } ## end elsif ( $depth < $current_depth) #------------------------------------------------------------ # Handle this token #------------------------------------------------------------ $current_depth = $depth; # handle comma-arrow if ( $type eq '=>' ) { next if ( $last_nonblank_type eq '=>' ); next if $rOpts_break_at_old_comma_breakpoints; next if $rOpts_comma_arrow_breakpoints == 3; $want_comma_break[$depth] = 1; $index_before_arrow[$depth] = $i_last_nonblank_token; next; } ## end if ( $type eq '=>' ) elsif ( $type eq '.' ) { $last_dot_index[$depth] = $i; } # Turn off alignment if we are sure that this is not a list # environment. To be safe, we will do this if we see certain # non-list tokens, such as ';', and also the environment is # not a list. Note that '=' could be in any of the = operators # (lextest.t). We can't just use the reported environment # because it can be incorrect in some cases. elsif ( ( $type =~ /^[\;\<\>\~]$/ || $is_assignment{$type} ) && $container_environment_to_go[$i] ne 'LIST' ) { $dont_align[$depth] = 1; $want_comma_break[$depth] = 0; $index_before_arrow[$depth] = -1; } ## end elsif ( ( $type =~ /^[\;\<\>\~]$/...)) # now just handle any commas next unless ( $type eq ',' ); $last_dot_index[$depth] = undef; $last_comma_index[$depth] = $i; # break here if this comma follows a '=>' # but not if there is a side comment after the comma if ( $want_comma_break[$depth] ) { if ( $next_nonblank_type =~ /^[\)\}\]R]$/ ) { if ($rOpts_comma_arrow_breakpoints) { $want_comma_break[$depth] = 0; ##$index_before_arrow[$depth] = -1; next; } } set_forced_breakpoint($i) unless ( $next_nonblank_type eq '#' ); # break before the previous token if it looks safe # Example of something that we will not try to break before: # DBI::SQL_SMALLINT() => $ado_consts->{adSmallInt}, # Also we don't want to break at a binary operator (like +): # $c->createOval( # $x + $R, $y + # $R => $x - $R, # $y - $R, -fill => 'black', # ); my $ibreak = $index_before_arrow[$depth] - 1; if ( $ibreak > 0 && $tokens_to_go[ $ibreak + 1 ] !~ /^[\)\}\]]$/ ) { if ( $tokens_to_go[$ibreak] eq '-' ) { $ibreak-- } if ( $types_to_go[$ibreak] eq 'b' ) { $ibreak-- } if ( $types_to_go[$ibreak] =~ /^[,wiZCUG\(\{\[]$/ ) { # don't break pointer calls, such as the following: # File::Spec->curdir => 1, # (This is tokenized as adjacent 'w' tokens) ##if ( $tokens_to_go[ $ibreak + 1 ] !~ /^->/ ) { # And don't break before a comma, as in the following: # ( LONGER_THAN,=> 1, # EIGHTY_CHARACTERS,=> 2, # CAUSES_FORMATTING,=> 3, # LIKE_THIS,=> 4, # ); # This example is for -tso but should be general rule if ( $tokens_to_go[ $ibreak + 1 ] ne '->' && $tokens_to_go[ $ibreak + 1 ] ne ',' ) { set_forced_breakpoint($ibreak); } } ## end if ( $types_to_go[$ibreak...]) } ## end if ( $ibreak > 0 && $tokens_to_go...) $want_comma_break[$depth] = 0; $index_before_arrow[$depth] = -1; # handle list which mixes '=>'s and ','s: # treat any list items so far as an interrupted list $interrupted_list[$depth] = 1; next; } ## end if ( $want_comma_break...) # break after all commas above starting depth if ( $depth < $starting_depth && !$dont_align[$depth] ) { set_forced_breakpoint($i) unless ( $next_nonblank_type eq '#' ); next; } # add this comma to the list.. my $item_count = $item_count_stack[$depth]; if ( $item_count == 0 ) { # but do not form a list with no opening structure # for example: # open INFILE_COPY, ">$input_file_copy" # or die ("very long message"); if ( ( $opening_structure_index_stack[$depth] < 0 ) && $container_environment_to_go[$i] eq 'BLOCK' ) { $dont_align[$depth] = 1; } } ## end if ( $item_count == 0 ) $comma_index[$depth][$item_count] = $i; ++$item_count_stack[$depth]; if ( $last_nonblank_type =~ /^[iR\]]$/ ) { $identifier_count_stack[$depth]++; } } ## end while ( ++$i <= $max_index_to_go) #------------------------------------------- # end of loop over all tokens in this batch #------------------------------------------- # set breaks for any unfinished lists .. for ( my $dd = $current_depth ; $dd >= $minimum_depth ; $dd-- ) { $interrupted_list[$dd] = 1; $has_broken_sublist[$dd] = 1 if ( $dd < $current_depth ); set_comma_breakpoints($dd); set_logical_breakpoints($dd) if ( $has_old_logical_breakpoints[$dd] ); set_for_semicolon_breakpoints($dd); # break open container... my $i_opening = $opening_structure_index_stack[$dd]; set_forced_breakpoint($i_opening) unless ( is_unbreakable_container($dd) # Avoid a break which would place an isolated ' or " # on a line || ( $type eq 'Q' && $i_opening >= $max_index_to_go - 2 && $token =~ /^['"]$/ ) ); } ## end for ( my $dd = $current_depth...) # Return a flag indicating if the input file had some good breakpoints. # This flag will be used to force a break in a line shorter than the # allowed line length. if ( $has_old_logical_breakpoints[$current_depth] ) { $saw_good_breakpoint = 1; } # A complex line with one break at an = has a good breakpoint. # This is not complex ($total_depth_variation=0): # $res1 # = 10; # # This is complex ($total_depth_variation=6): # $res2 = # (is_boundp("a", 'self-insert') && is_boundp("b", 'self-insert')); elsif ($i_old_assignment_break && $total_depth_variation > 4 && $old_breakpoint_count == 1 ) { $saw_good_breakpoint = 1; } ## end elsif ( $i_old_assignment_break...) return $saw_good_breakpoint; } ## end sub scan_list } # end scan_list sub find_token_starting_list { # When testing to see if a block will fit on one line, some # previous token(s) may also need to be on the line; particularly # if this is a sub call. So we will look back at least one # token. NOTE: This isn't perfect, but not critical, because # if we mis-identify a block, it will be wrapped and therefore # fixed the next time it is formatted. my $i_opening_paren = shift; my $i_opening_minus = $i_opening_paren; my $im1 = $i_opening_paren - 1; my $im2 = $i_opening_paren - 2; my $im3 = $i_opening_paren - 3; my $typem1 = $types_to_go[$im1]; my $typem2 = $im2 >= 0 ? $types_to_go[$im2] : 'b'; if ( $typem1 eq ',' || ( $typem1 eq 'b' && $typem2 eq ',' ) ) { $i_opening_minus = $i_opening_paren; } elsif ( $tokens_to_go[$i_opening_paren] eq '(' ) { $i_opening_minus = $im1 if $im1 >= 0; # walk back to improve length estimate for ( my $j = $im1 ; $j >= 0 ; $j-- ) { last if ( $types_to_go[$j] =~ /^[\(\[\{L\}\]\)Rb,]$/ ); $i_opening_minus = $j; } if ( $types_to_go[$i_opening_minus] eq 'b' ) { $i_opening_minus++ } } elsif ( $typem1 eq 'k' ) { $i_opening_minus = $im1 } elsif ( $typem1 eq 'b' && $im2 >= 0 && $types_to_go[$im2] eq 'k' ) { $i_opening_minus = $im2; } return $i_opening_minus; } { # begin set_comma_breakpoints_do my %is_keyword_with_special_leading_term; BEGIN { # These keywords have prototypes which allow a special leading item # followed by a list my @q = qw(formline grep kill map printf sprintf push chmod join pack unshift); @is_keyword_with_special_leading_term{@q} = (1) x scalar(@q); } sub set_comma_breakpoints_do { # Given a list with some commas, set breakpoints at some of the # commas, if necessary, to make it easy to read. This list is # an example: my ( $depth, $i_opening_paren, $i_closing_paren, $item_count, $identifier_count, $rcomma_index, $next_nonblank_type, $list_type, $interrupted, $rdo_not_break_apart, $must_break_open, ) = @_; # nothing to do if no commas seen return if ( $item_count < 1 ); my $i_first_comma = $rcomma_index->[0]; my $i_true_last_comma = $rcomma_index->[ $item_count - 1 ]; my $i_last_comma = $i_true_last_comma; if ( $i_last_comma >= $max_index_to_go ) { $i_last_comma = $rcomma_index->[ --$item_count - 1 ]; return if ( $item_count < 1 ); } #--------------------------------------------------------------- # find lengths of all items in the list to calculate page layout #--------------------------------------------------------------- my $comma_count = $item_count; my @item_lengths; my @i_term_begin; my @i_term_end; my @i_term_comma; my $i_prev_plus; my @max_length = ( 0, 0 ); my $first_term_length; my $i = $i_opening_paren; my $is_odd = 1; foreach my $j ( 0 .. $comma_count - 1 ) { $is_odd = 1 - $is_odd; $i_prev_plus = $i + 1; $i = $rcomma_index->[$j]; my $i_term_end = ( $types_to_go[ $i - 1 ] eq 'b' ) ? $i - 2 : $i - 1; my $i_term_begin = ( $types_to_go[$i_prev_plus] eq 'b' ) ? $i_prev_plus + 1 : $i_prev_plus; push @i_term_begin, $i_term_begin; push @i_term_end, $i_term_end; push @i_term_comma, $i; # note: currently adding 2 to all lengths (for comma and space) my $length = 2 + token_sequence_length( $i_term_begin, $i_term_end ); push @item_lengths, $length; if ( $j == 0 ) { $first_term_length = $length; } else { if ( $length > $max_length[$is_odd] ) { $max_length[$is_odd] = $length; } } } # now we have to make a distinction between the comma count and item # count, because the item count will be one greater than the comma # count if the last item is not terminated with a comma my $i_b = ( $types_to_go[ $i_last_comma + 1 ] eq 'b' ) ? $i_last_comma + 1 : $i_last_comma; my $i_e = ( $types_to_go[ $i_closing_paren - 1 ] eq 'b' ) ? $i_closing_paren - 2 : $i_closing_paren - 1; my $i_effective_last_comma = $i_last_comma; my $last_item_length = token_sequence_length( $i_b + 1, $i_e ); if ( $last_item_length > 0 ) { # add 2 to length because other lengths include a comma and a blank $last_item_length += 2; push @item_lengths, $last_item_length; push @i_term_begin, $i_b + 1; push @i_term_end, $i_e; push @i_term_comma, undef; my $i_odd = $item_count % 2; if ( $last_item_length > $max_length[$i_odd] ) { $max_length[$i_odd] = $last_item_length; } $item_count++; $i_effective_last_comma = $i_e + 1; if ( $types_to_go[ $i_b + 1 ] =~ /^[iR\]]$/ ) { $identifier_count++; } } #--------------------------------------------------------------- # End of length calculations #--------------------------------------------------------------- #--------------------------------------------------------------- # Compound List Rule 1: # Break at (almost) every comma for a list containing a broken # sublist. This has higher priority than the Interrupted List # Rule. #--------------------------------------------------------------- if ( $has_broken_sublist[$depth] ) { # Break at every comma except for a comma between two # simple, small terms. This prevents long vertical # columns of, say, just 0's. my $small_length = 10; # 2 + actual maximum length wanted # We'll insert a break in long runs of small terms to # allow alignment in uniform tables. my $skipped_count = 0; my $columns = table_columns_available($i_first_comma); my $fields = int( $columns / $small_length ); if ( $rOpts_maximum_fields_per_table && $fields > $rOpts_maximum_fields_per_table ) { $fields = $rOpts_maximum_fields_per_table; } my $max_skipped_count = $fields - 1; my $is_simple_last_term = 0; my $is_simple_next_term = 0; foreach my $j ( 0 .. $item_count ) { $is_simple_last_term = $is_simple_next_term; $is_simple_next_term = 0; if ( $j < $item_count && $i_term_end[$j] == $i_term_begin[$j] && $item_lengths[$j] <= $small_length ) { $is_simple_next_term = 1; } next if $j == 0; if ( $is_simple_last_term && $is_simple_next_term && $skipped_count < $max_skipped_count ) { $skipped_count++; } else { $skipped_count = 0; my $i = $i_term_comma[ $j - 1 ]; last unless defined $i; set_forced_breakpoint($i); } } # always break at the last comma if this list is # interrupted; we wouldn't want to leave a terminal '{', for # example. if ($interrupted) { set_forced_breakpoint($i_true_last_comma) } return; } #my ( $a, $b, $c ) = caller(); #print "LISTX: in set_list $a $c interrupt=$interrupted count=$item_count #i_first = $i_first_comma i_last=$i_last_comma max=$max_index_to_go\n"; #print "depth=$depth has_broken=$has_broken_sublist[$depth] is_multi=$is_multiline opening_paren=($i_opening_paren) \n"; #--------------------------------------------------------------- # Interrupted List Rule: # A list is forced to use old breakpoints if it was interrupted # by side comments or blank lines, or requested by user. #--------------------------------------------------------------- if ( $rOpts_break_at_old_comma_breakpoints || $interrupted || $i_opening_paren < 0 ) { copy_old_breakpoints( $i_first_comma, $i_true_last_comma ); return; } #--------------------------------------------------------------- # Looks like a list of items. We have to look at it and size it up. #--------------------------------------------------------------- my $opening_token = $tokens_to_go[$i_opening_paren]; my $opening_environment = $container_environment_to_go[$i_opening_paren]; #------------------------------------------------------------------- # Return if this will fit on one line #------------------------------------------------------------------- my $i_opening_minus = find_token_starting_list($i_opening_paren); return unless excess_line_length( $i_opening_minus, $i_closing_paren ) > 0; #------------------------------------------------------------------- # Now we know that this block spans multiple lines; we have to set # at least one breakpoint -- real or fake -- as a signal to break # open any outer containers. #------------------------------------------------------------------- set_fake_breakpoint(); # be sure we do not extend beyond the current list length if ( $i_effective_last_comma >= $max_index_to_go ) { $i_effective_last_comma = $max_index_to_go - 1; } # Set a flag indicating if we need to break open to keep -lp # items aligned. This is necessary if any of the list terms # exceeds the available space after the '('. my $need_lp_break_open = $must_break_open; if ( $rOpts_line_up_parentheses && !$must_break_open ) { my $columns_if_unbroken = maximum_line_length($i_opening_minus) - total_line_length( $i_opening_minus, $i_opening_paren ); $need_lp_break_open = ( $max_length[0] > $columns_if_unbroken ) || ( $max_length[1] > $columns_if_unbroken ) || ( $first_term_length > $columns_if_unbroken ); } # Specify if the list must have an even number of fields or not. # It is generally safest to assume an even number, because the # list items might be a hash list. But if we can be sure that # it is not a hash, then we can allow an odd number for more # flexibility. my $odd_or_even = 2; # 1 = odd field count ok, 2 = want even count if ( $identifier_count >= $item_count - 1 || $is_assignment{$next_nonblank_type} || ( $list_type && $list_type ne '=>' && $list_type !~ /^[\:\?]$/ ) ) { $odd_or_even = 1; } # do we have a long first term which should be # left on a line by itself? my $use_separate_first_term = ( $odd_or_even == 1 # only if we can use 1 field/line && $item_count > 3 # need several items && $first_term_length > 2 * $max_length[0] - 2 # need long first term && $first_term_length > 2 * $max_length[1] - 2 # need long first term ); # or do we know from the type of list that the first term should # be placed alone? if ( !$use_separate_first_term ) { if ( $is_keyword_with_special_leading_term{$list_type} ) { $use_separate_first_term = 1; # should the container be broken open? if ( $item_count < 3 ) { if ( $i_first_comma - $i_opening_paren < 4 ) { ${$rdo_not_break_apart} = 1; } } elsif ($first_term_length < 20 && $i_first_comma - $i_opening_paren < 4 ) { my $columns = table_columns_available($i_first_comma); if ( $first_term_length < $columns ) { ${$rdo_not_break_apart} = 1; } } } } # if so, if ($use_separate_first_term) { # ..set a break and update starting values $use_separate_first_term = 1; set_forced_breakpoint($i_first_comma); $i_opening_paren = $i_first_comma; $i_first_comma = $rcomma_index->[1]; $item_count--; return if $comma_count == 1; shift @item_lengths; shift @i_term_begin; shift @i_term_end; shift @i_term_comma; } # if not, update the metrics to include the first term else { if ( $first_term_length > $max_length[0] ) { $max_length[0] = $first_term_length; } } # Field width parameters my $pair_width = ( $max_length[0] + $max_length[1] ); my $max_width = ( $max_length[0] > $max_length[1] ) ? $max_length[0] : $max_length[1]; # Number of free columns across the page width for laying out tables my $columns = table_columns_available($i_first_comma); # Estimated maximum number of fields which fit this space # This will be our first guess my $number_of_fields_max = maximum_number_of_fields( $columns, $odd_or_even, $max_width, $pair_width ); my $number_of_fields = $number_of_fields_max; # Find the best-looking number of fields # and make this our second guess if possible my ( $number_of_fields_best, $ri_ragged_break_list, $new_identifier_count ) = study_list_complexity( \@i_term_begin, \@i_term_end, \@item_lengths, $max_width ); if ( $number_of_fields_best != 0 && $number_of_fields_best < $number_of_fields_max ) { $number_of_fields = $number_of_fields_best; } # ---------------------------------------------------------------------- # If we are crowded and the -lp option is being used, try to # undo some indentation # ---------------------------------------------------------------------- if ( $rOpts_line_up_parentheses && ( $number_of_fields == 0 || ( $number_of_fields == 1 && $number_of_fields != $number_of_fields_best ) ) ) { my $available_spaces = get_available_spaces_to_go($i_first_comma); if ( $available_spaces > 0 ) { my $spaces_wanted = $max_width - $columns; # for 1 field if ( $number_of_fields_best == 0 ) { $number_of_fields_best = get_maximum_fields_wanted( \@item_lengths ); } if ( $number_of_fields_best != 1 ) { my $spaces_wanted_2 = 1 + $pair_width - $columns; # for 2 fields if ( $available_spaces > $spaces_wanted_2 ) { $spaces_wanted = $spaces_wanted_2; } } if ( $spaces_wanted > 0 ) { my $deleted_spaces = reduce_lp_indentation( $i_first_comma, $spaces_wanted ); # redo the math if ( $deleted_spaces > 0 ) { $columns = table_columns_available($i_first_comma); $number_of_fields_max = maximum_number_of_fields( $columns, $odd_or_even, $max_width, $pair_width ); $number_of_fields = $number_of_fields_max; if ( $number_of_fields_best == 1 && $number_of_fields >= 1 ) { $number_of_fields = $number_of_fields_best; } } } } } # try for one column if two won't work if ( $number_of_fields <= 0 ) { $number_of_fields = int( $columns / $max_width ); } # The user can place an upper bound on the number of fields, # which can be useful for doing maintenance on tables if ( $rOpts_maximum_fields_per_table && $number_of_fields > $rOpts_maximum_fields_per_table ) { $number_of_fields = $rOpts_maximum_fields_per_table; } # How many columns (characters) and lines would this container take # if no additional whitespace were added? my $packed_columns = token_sequence_length( $i_opening_paren + 1, $i_effective_last_comma + 1 ); if ( $columns <= 0 ) { $columns = 1 } # avoid divide by zero my $packed_lines = 1 + int( $packed_columns / $columns ); # are we an item contained in an outer list? my $in_hierarchical_list = $next_nonblank_type =~ /^[\}\,]$/; if ( $number_of_fields <= 0 ) { # #--------------------------------------------------------------- # # We're in trouble. We can't find a single field width that works. # # There is no simple answer here; we may have a single long list # # item, or many. # #--------------------------------------------------------------- # # In many cases, it may be best to not force a break if there is just one # comma, because the standard continuation break logic will do a better # job without it. # # In the common case that all but one of the terms can fit # on a single line, it may look better not to break open the # containing parens. Consider, for example # # $color = # join ( '/', # sort { $color_value{$::a} <=> $color_value{$::b}; } # keys %colors ); # # which will look like this with the container broken: # # $color = join ( # '/', # sort { $color_value{$::a} <=> $color_value{$::b}; } keys %colors # ); # # Here is an example of this rule for a long last term: # # log_message( 0, 256, 128, # "Number of routes in adj-RIB-in to be considered: $peercount" ); # # And here is an example with a long first term: # # $s = sprintf( # "%2d wallclock secs (%$f usr %$f sys + %$f cusr %$f csys = %$f CPU)", # $r, $pu, $ps, $cu, $cs, $tt # ) # if $style eq 'all'; my $i_last_comma = $rcomma_index->[ $comma_count - 1 ]; my $long_last_term = excess_line_length( 0, $i_last_comma ) <= 0; my $long_first_term = excess_line_length( $i_first_comma + 1, $max_index_to_go ) <= 0; # break at every comma ... if ( # if requested by user or is best looking $number_of_fields_best == 1 # or if this is a sublist of a larger list || $in_hierarchical_list # or if multiple commas and we don't have a long first or last # term || ( $comma_count > 1 && !( $long_last_term || $long_first_term ) ) ) { foreach ( 0 .. $comma_count - 1 ) { set_forced_breakpoint( $rcomma_index->[$_] ); } } elsif ($long_last_term) { set_forced_breakpoint($i_last_comma); ${$rdo_not_break_apart} = 1 unless $must_break_open; } elsif ($long_first_term) { set_forced_breakpoint($i_first_comma); } else { # let breaks be defined by default bond strength logic } return; } # -------------------------------------------------------- # We have a tentative field count that seems to work. # How many lines will this require? # -------------------------------------------------------- my $formatted_lines = $item_count / ($number_of_fields); if ( $formatted_lines != int $formatted_lines ) { $formatted_lines = 1 + int $formatted_lines; } # So far we've been trying to fill out to the right margin. But # compact tables are easier to read, so let's see if we can use fewer # fields without increasing the number of lines. $number_of_fields = compactify_table( $item_count, $number_of_fields, $formatted_lines, $odd_or_even ); # How many spaces across the page will we fill? my $columns_per_line = ( int $number_of_fields / 2 ) * $pair_width + ( $number_of_fields % 2 ) * $max_width; my $formatted_columns; if ( $number_of_fields > 1 ) { $formatted_columns = ( $pair_width * ( int( $item_count / 2 ) ) + ( $item_count % 2 ) * $max_width ); } else { $formatted_columns = $max_width * $item_count; } if ( $formatted_columns < $packed_columns ) { $formatted_columns = $packed_columns; } my $unused_columns = $formatted_columns - $packed_columns; # set some empirical parameters to help decide if we should try to # align; high sparsity does not look good, especially with few lines my $sparsity = ($unused_columns) / ($formatted_columns); my $max_allowed_sparsity = ( $item_count < 3 ) ? 0.1 : ( $packed_lines == 1 ) ? 0.15 : ( $packed_lines == 2 ) ? 0.4 : 0.7; # Begin check for shortcut methods, which avoid treating a list # as a table for relatively small parenthesized lists. These # are usually easier to read if not formatted as tables. if ( $packed_lines <= 2 # probably can fit in 2 lines && $item_count < 9 # doesn't have too many items && $opening_environment eq 'BLOCK' # not a sub-container && $opening_token eq '(' # is paren list ) { # Shortcut method 1: for -lp and just one comma: # This is a no-brainer, just break at the comma. if ( $rOpts_line_up_parentheses # -lp && $item_count == 2 # two items, one comma && !$must_break_open ) { my $i_break = $rcomma_index->[0]; set_forced_breakpoint($i_break); ${$rdo_not_break_apart} = 1; set_non_alignment_flags( $comma_count, $rcomma_index ); return; } # method 2 is for most small ragged lists which might look # best if not displayed as a table. if ( ( $number_of_fields == 2 && $item_count == 3 ) || ( $new_identifier_count > 0 # isn't all quotes && $sparsity > 0.15 ) # would be fairly spaced gaps if aligned ) { my $break_count = set_ragged_breakpoints( \@i_term_comma, $ri_ragged_break_list ); ++$break_count if ($use_separate_first_term); # NOTE: we should really use the true break count here, # which can be greater if there are large terms and # little space, but usually this will work well enough. unless ($must_break_open) { if ( $break_count <= 1 ) { ${$rdo_not_break_apart} = 1; } elsif ( $rOpts_line_up_parentheses && !$need_lp_break_open ) { ${$rdo_not_break_apart} = 1; } } set_non_alignment_flags( $comma_count, $rcomma_index ); return; } } # end shortcut methods # debug stuff FORMATTER_DEBUG_FLAG_SPARSE && do { print STDOUT "SPARSE:cols=$columns commas=$comma_count items:$item_count ids=$identifier_count pairwidth=$pair_width fields=$number_of_fields lines packed: $packed_lines packed_cols=$packed_columns fmtd:$formatted_lines cols /line:$columns_per_line unused:$unused_columns fmtd:$formatted_columns sparsity=$sparsity allow=$max_allowed_sparsity\n"; }; #--------------------------------------------------------------- # Compound List Rule 2: # If this list is too long for one line, and it is an item of a # larger list, then we must format it, regardless of sparsity # (ian.t). One reason that we have to do this is to trigger # Compound List Rule 1, above, which causes breaks at all commas of # all outer lists. In this way, the structure will be properly # displayed. #--------------------------------------------------------------- # Decide if this list is too long for one line unless broken my $total_columns = table_columns_available($i_opening_paren); my $too_long = $packed_columns > $total_columns; # For a paren list, include the length of the token just before the # '(' because this is likely a sub call, and we would have to # include the sub name on the same line as the list. This is still # imprecise, but not too bad. (steve.t) if ( !$too_long && $i_opening_paren > 0 && $opening_token eq '(' ) { $too_long = excess_line_length( $i_opening_minus, $i_effective_last_comma + 1 ) > 0; } # FIXME: For an item after a '=>', try to include the length of the # thing before the '=>'. This is crude and should be improved by # actually looking back token by token. if ( !$too_long && $i_opening_paren > 0 && $list_type eq '=>' ) { my $i_opening_minus = $i_opening_paren - 4; if ( $i_opening_minus >= 0 ) { $too_long = excess_line_length( $i_opening_minus, $i_effective_last_comma + 1 ) > 0; } } # Always break lists contained in '[' and '{' if too long for 1 line, # and always break lists which are too long and part of a more complex # structure. my $must_break_open_container = $must_break_open || ( $too_long && ( $in_hierarchical_list || $opening_token ne '(' ) ); #print "LISTX: next=$next_nonblank_type avail cols=$columns packed=$packed_columns must format = $must_break_open_container too-long=$too_long opening=$opening_token list_type=$list_type formatted_lines=$formatted_lines packed=$packed_lines max_sparsity= $max_allowed_sparsity sparsity=$sparsity \n"; #--------------------------------------------------------------- # The main decision: # Now decide if we will align the data into aligned columns. Do not # attempt to align columns if this is a tiny table or it would be # too spaced. It seems that the more packed lines we have, the # sparser the list that can be allowed and still look ok. #--------------------------------------------------------------- if ( ( $formatted_lines < 3 && $packed_lines < $formatted_lines ) || ( $formatted_lines < 2 ) || ( $unused_columns > $max_allowed_sparsity * $formatted_columns ) ) { #--------------------------------------------------------------- # too sparse: would look ugly if aligned in a table; #--------------------------------------------------------------- # use old breakpoints if this is a 'big' list # FIXME: goal is to improve set_ragged_breakpoints so that # this is not necessary. if ( $packed_lines > 2 && $item_count > 10 ) { write_logfile_entry("List sparse: using old breakpoints\n"); copy_old_breakpoints( $i_first_comma, $i_last_comma ); } # let the continuation logic handle it if 2 lines else { my $break_count = set_ragged_breakpoints( \@i_term_comma, $ri_ragged_break_list ); ++$break_count if ($use_separate_first_term); unless ($must_break_open_container) { if ( $break_count <= 1 ) { ${$rdo_not_break_apart} = 1; } elsif ( $rOpts_line_up_parentheses && !$need_lp_break_open ) { ${$rdo_not_break_apart} = 1; } } set_non_alignment_flags( $comma_count, $rcomma_index ); } return; } #--------------------------------------------------------------- # go ahead and format as a table #--------------------------------------------------------------- write_logfile_entry( "List: auto formatting with $number_of_fields fields/row\n"); my $j_first_break = $use_separate_first_term ? $number_of_fields : $number_of_fields - 1; for ( my $j = $j_first_break ; $j < $comma_count ; $j += $number_of_fields ) { my $i = $rcomma_index->[$j]; set_forced_breakpoint($i); } return; } } sub set_non_alignment_flags { # set flag which indicates that these commas should not be # aligned my ( $comma_count, $rcomma_index ) = @_; foreach ( 0 .. $comma_count - 1 ) { $matching_token_to_go[ $rcomma_index->[$_] ] = 1; } return; } sub study_list_complexity { # Look for complex tables which should be formatted with one term per line. # Returns the following: # # \@i_ragged_break_list = list of good breakpoints to avoid lines # which are hard to read # $number_of_fields_best = suggested number of fields based on # complexity; = 0 if any number may be used. # my ( $ri_term_begin, $ri_term_end, $ritem_lengths, $max_width ) = @_; my $item_count = @{$ri_term_begin}; my $complex_item_count = 0; my $number_of_fields_best = $rOpts_maximum_fields_per_table; my $i_max = @{$ritem_lengths} - 1; ##my @item_complexity; my $i_last_last_break = -3; my $i_last_break = -2; my @i_ragged_break_list; my $definitely_complex = 30; my $definitely_simple = 12; my $quote_count = 0; for my $i ( 0 .. $i_max ) { my $ib = $ri_term_begin->[$i]; my $ie = $ri_term_end->[$i]; # define complexity: start with the actual term length my $weighted_length = ( $ritem_lengths->[$i] - 2 ); ##TBD: join types here and check for variations ##my $str=join "", @tokens_to_go[$ib..$ie]; my $is_quote = 0; if ( $types_to_go[$ib] =~ /^[qQ]$/ ) { $is_quote = 1; $quote_count++; } elsif ( $types_to_go[$ib] =~ /^[w\-]$/ ) { $quote_count++; } if ( $ib eq $ie ) { if ( $is_quote && $tokens_to_go[$ib] =~ /\s/ ) { $complex_item_count++; $weighted_length *= 2; } else { } } else { if ( grep { $_ eq 'b' } @types_to_go[ $ib .. $ie ] ) { $complex_item_count++; $weighted_length *= 2; } if ( grep { $_ eq '..' } @types_to_go[ $ib .. $ie ] ) { $weighted_length += 4; } } # add weight for extra tokens. $weighted_length += 2 * ( $ie - $ib ); ## my $BUB = join '', @tokens_to_go[$ib..$ie]; ## print "# COMPLEXITY:$weighted_length $BUB\n"; ##push @item_complexity, $weighted_length; # now mark a ragged break after this item it if it is 'long and # complex': if ( $weighted_length >= $definitely_complex ) { # if we broke after the previous term # then break before it too if ( $i_last_break == $i - 1 && $i > 1 && $i_last_last_break != $i - 2 ) { ## FIXME: don't strand a small term pop @i_ragged_break_list; push @i_ragged_break_list, $i - 2; push @i_ragged_break_list, $i - 1; } push @i_ragged_break_list, $i; $i_last_last_break = $i_last_break; $i_last_break = $i; } # don't break before a small last term -- it will # not look good on a line by itself. elsif ($i == $i_max && $i_last_break == $i - 1 && $weighted_length <= $definitely_simple ) { pop @i_ragged_break_list; } } my $identifier_count = $i_max + 1 - $quote_count; # Need more tuning here.. if ( $max_width > 12 && $complex_item_count > $item_count / 2 && $number_of_fields_best != 2 ) { $number_of_fields_best = 1; } return ( $number_of_fields_best, \@i_ragged_break_list, $identifier_count ); } sub get_maximum_fields_wanted { # Not all tables look good with more than one field of items. # This routine looks at a table and decides if it should be # formatted with just one field or not. # This coding is still under development. my ($ritem_lengths) = @_; my $number_of_fields_best = 0; # For just a few items, we tentatively assume just 1 field. my $item_count = @{$ritem_lengths}; if ( $item_count <= 5 ) { $number_of_fields_best = 1; } # For larger tables, look at it both ways and see what looks best else { my $is_odd = 1; my @max_length = ( 0, 0 ); my @last_length_2 = ( undef, undef ); my @first_length_2 = ( undef, undef ); my $last_length = undef; my $total_variation_1 = 0; my $total_variation_2 = 0; my @total_variation_2 = ( 0, 0 ); foreach my $j ( 0 .. $item_count - 1 ) { $is_odd = 1 - $is_odd; my $length = $ritem_lengths->[$j]; if ( $length > $max_length[$is_odd] ) { $max_length[$is_odd] = $length; } if ( defined($last_length) ) { my $dl = abs( $length - $last_length ); $total_variation_1 += $dl; } $last_length = $length; my $ll = $last_length_2[$is_odd]; if ( defined($ll) ) { my $dl = abs( $length - $ll ); $total_variation_2[$is_odd] += $dl; } else { $first_length_2[$is_odd] = $length; } $last_length_2[$is_odd] = $length; } $total_variation_2 = $total_variation_2[0] + $total_variation_2[1]; my $factor = ( $item_count > 10 ) ? 1 : ( $item_count > 5 ) ? 0.75 : 0; unless ( $total_variation_2 < $factor * $total_variation_1 ) { $number_of_fields_best = 1; } } return ($number_of_fields_best); } sub table_columns_available { my $i_first_comma = shift; my $columns = maximum_line_length($i_first_comma) - leading_spaces_to_go($i_first_comma); # Patch: the vertical formatter does not line up lines whose lengths # exactly equal the available line length because of allowances # that must be made for side comments. Therefore, the number of # available columns is reduced by 1 character. $columns -= 1; return $columns; } sub maximum_number_of_fields { # how many fields will fit in the available space? my ( $columns, $odd_or_even, $max_width, $pair_width ) = @_; my $max_pairs = int( $columns / $pair_width ); my $number_of_fields = $max_pairs * 2; if ( $odd_or_even == 1 && $max_pairs * $pair_width + $max_width <= $columns ) { $number_of_fields++; } return $number_of_fields; } sub compactify_table { # given a table with a certain number of fields and a certain number # of lines, see if reducing the number of fields will make it look # better. my ( $item_count, $number_of_fields, $formatted_lines, $odd_or_even ) = @_; if ( $number_of_fields >= $odd_or_even * 2 && $formatted_lines > 0 ) { my $min_fields; for ( $min_fields = $number_of_fields ; $min_fields >= $odd_or_even && $min_fields * $formatted_lines >= $item_count ; $min_fields -= $odd_or_even ) { $number_of_fields = $min_fields; } } return $number_of_fields; } sub set_ragged_breakpoints { # Set breakpoints in a list that cannot be formatted nicely as a # table. my ( $ri_term_comma, $ri_ragged_break_list ) = @_; my $break_count = 0; foreach ( @{$ri_ragged_break_list} ) { my $j = $ri_term_comma->[$_]; if ($j) { set_forced_breakpoint($j); $break_count++; } } return $break_count; } sub copy_old_breakpoints { my ( $i_first_comma, $i_last_comma ) = @_; for my $i ( $i_first_comma .. $i_last_comma ) { if ( $old_breakpoint_to_go[$i] ) { set_forced_breakpoint($i); } } return; } sub set_nobreaks { my ( $i, $j ) = @_; if ( $i >= 0 && $i <= $j && $j <= $max_index_to_go ) { FORMATTER_DEBUG_FLAG_NOBREAK && do { my ( $a, $b, $c ) = caller(); print STDOUT "NOBREAK: forced_breakpoint $forced_breakpoint_count from $a $c with i=$i max=$max_index_to_go type=$types_to_go[$i]\n"; }; @nobreak_to_go[ $i .. $j ] = (1) x ( $j - $i + 1 ); } # shouldn't happen; non-critical error else { FORMATTER_DEBUG_FLAG_NOBREAK && do { my ( $a, $b, $c ) = caller(); print STDOUT "NOBREAK ERROR: from $a $c with i=$i j=$j max=$max_index_to_go\n"; }; } return; } sub set_fake_breakpoint { # Just bump up the breakpoint count as a signal that there are breaks. # This is useful if we have breaks but may want to postpone deciding where # to make them. $forced_breakpoint_count++; return; } sub set_forced_breakpoint { my $i = shift; return unless defined $i && $i >= 0; # no breaks between welded tokens return if ( weld_len_right_to_go($i) ); # when called with certain tokens, use bond strengths to decide # if we break before or after it my $token = $tokens_to_go[$i]; if ( $token =~ /^([\=\.\,\:\?]|and|or|xor|&&|\|\|)$/ ) { if ( $want_break_before{$token} && $i >= 0 ) { $i-- } } # breaks are forced before 'if' and 'unless' elsif ( $is_if_unless{$token} ) { $i-- } if ( $i >= 0 && $i <= $max_index_to_go ) { my $i_nonblank = ( $types_to_go[$i] ne 'b' ) ? $i : $i - 1; FORMATTER_DEBUG_FLAG_FORCE && do { my ( $a, $b, $c ) = caller(); print STDOUT "FORCE $forced_breakpoint_count from $a $c with i=$i_nonblank max=$max_index_to_go tok=$tokens_to_go[$i_nonblank] type=$types_to_go[$i_nonblank] nobr=$nobreak_to_go[$i_nonblank]\n"; }; if ( $i_nonblank >= 0 && $nobreak_to_go[$i_nonblank] == 0 ) { $forced_breakpoint_to_go[$i_nonblank] = 1; if ( $i_nonblank > $index_max_forced_break ) { $index_max_forced_break = $i_nonblank; } $forced_breakpoint_count++; $forced_breakpoint_undo_stack[ $forced_breakpoint_undo_count++ ] = $i_nonblank; # if we break at an opening container..break at the closing if ( $tokens_to_go[$i_nonblank] =~ /^[\{\[\(\?]$/ ) { set_closing_breakpoint($i_nonblank); } } } return; } sub clear_breakpoint_undo_stack { $forced_breakpoint_undo_count = 0; return; } sub undo_forced_breakpoint_stack { my $i_start = shift; if ( $i_start < 0 ) { $i_start = 0; my ( $a, $b, $c ) = caller(); warning( "Program Bug: undo_forced_breakpoint_stack from $a $c has i=$i_start " ); } while ( $forced_breakpoint_undo_count > $i_start ) { my $i = $forced_breakpoint_undo_stack[ --$forced_breakpoint_undo_count ]; if ( $i >= 0 && $i <= $max_index_to_go ) { $forced_breakpoint_to_go[$i] = 0; $forced_breakpoint_count--; FORMATTER_DEBUG_FLAG_UNDOBP && do { my ( $a, $b, $c ) = caller(); print STDOUT "UNDOBP: undo forced_breakpoint i=$i $forced_breakpoint_undo_count from $a $c max=$max_index_to_go\n"; }; } # shouldn't happen, but not a critical error else { FORMATTER_DEBUG_FLAG_UNDOBP && do { my ( $a, $b, $c ) = caller(); print STDOUT "Program Bug: undo_forced_breakpoint from $a $c has i=$i but max=$max_index_to_go"; }; } } return; } { # begin recombine_breakpoints my %is_amp_amp; my %is_ternary; my %is_math_op; my %is_plus_minus; my %is_mult_div; BEGIN { my @q; @q = qw( && || ); @is_amp_amp{@q} = (1) x scalar(@q); @q = qw( ? : ); @is_ternary{@q} = (1) x scalar(@q); @q = qw( + - * / ); @is_math_op{@q} = (1) x scalar(@q); @q = qw( + - ); @is_plus_minus{@q} = (1) x scalar(@q); @q = qw( * / ); @is_mult_div{@q} = (1) x scalar(@q); } sub DUMP_BREAKPOINTS { # Debug routine to dump current breakpoints...not normally called # We are given indexes to the current lines: # $ri_beg = ref to array of BEGinning indexes of each line # $ri_end = ref to array of ENDing indexes of each line my ( $ri_beg, $ri_end, $msg ) = @_; print STDERR "----Dumping breakpoints from: $msg----\n"; for my $n ( 0 .. @{$ri_end} - 1 ) { my $ibeg = $ri_beg->[$n]; my $iend = $ri_end->[$n]; my $text = ""; foreach my $i ( $ibeg .. $iend ) { $text .= $tokens_to_go[$i]; } print STDERR "$n ($ibeg:$iend) $text\n"; } print STDERR "----\n"; return; } sub unmask_phantom_semicolons { my ( $self, $ri_beg, $ri_end ) = @_; # Walk down the lines of this batch and unmask any invisible line-ending # semicolons. They were placed by sub respace_tokens but we only now # know if we actually need them. my $nmax = @{$ri_end} - 1; foreach my $n ( 0 .. $nmax ) { my $i = $ri_end->[$n]; if ( $types_to_go[$i] eq ';' && $tokens_to_go[$i] eq '' ) { $tokens_to_go[$i] = $rtoken_vars_to_go[$i]->[_TOKEN_] = $want_left_space{';'} == WS_NO ? ';' : ' ;'; my $line_number = $rtoken_vars_to_go[$i]->[_LINE_INDEX_] + 1; note_added_semicolon($line_number); } } return; } sub recombine_breakpoints { # sub set_continuation_breaks is very liberal in setting line breaks # for long lines, always setting breaks at good breakpoints, even # when that creates small lines. Sometimes small line fragments # are produced which would look better if they were combined. # That's the task of this routine. # # We are given indexes to the current lines: # $ri_beg = ref to array of BEGinning indexes of each line # $ri_end = ref to array of ENDing indexes of each line my ( $ri_beg, $ri_end ) = @_; # Make a list of all good joining tokens between the lines # n-1 and n. my @joint; my $nmax = @{$ri_end} - 1; for my $n ( 1 .. $nmax ) { my $ibeg_1 = $ri_beg->[ $n - 1 ]; my $iend_1 = $ri_end->[ $n - 1 ]; my $iend_2 = $ri_end->[$n]; my $ibeg_2 = $ri_beg->[$n]; my ( $itok, $itokp, $itokm ); foreach my $itest ( $iend_1, $ibeg_2 ) { my $type = $types_to_go[$itest]; if ( $is_math_op{$type} || $is_amp_amp{$type} || $is_assignment{$type} || $type eq ':' ) { $itok = $itest; } } $joint[$n] = [$itok]; } my $more_to_do = 1; # We keep looping over all of the lines of this batch # until there are no more possible recombinations my $nmax_last = @{$ri_end}; my $reverse = 0; while ($more_to_do) { my $n_best = 0; my $bs_best; my $nmax = @{$ri_end} - 1; # Safety check for infinite loop unless ( $nmax < $nmax_last ) { # Shouldn't happen because splice below decreases nmax on each # pass. Fault("Program bug-infinite loop in recombine breakpoints\n"); } $nmax_last = $nmax; $more_to_do = 0; my $skip_Section_3; my $leading_amp_count = 0; my $this_line_is_semicolon_terminated; # loop over all remaining lines in this batch for my $iter ( 1 .. $nmax ) { # alternating sweep direction gives symmetric results # for recombining lines which exceed the line length # such as eval {{{{.... }}}} my $n; if ($reverse) { $n = 1 + $nmax - $iter; } else { $n = $iter } #---------------------------------------------------------- # If we join the current pair of lines, # line $n-1 will become the left part of the joined line # line $n will become the right part of the joined line # # Here are Indexes of the endpoint tokens of the two lines: # # -----line $n-1--- | -----line $n----- # $ibeg_1 $iend_1 | $ibeg_2 $iend_2 # ^ # | # We want to decide if we should remove the line break # between the tokens at $iend_1 and $ibeg_2 # # We will apply a number of ad-hoc tests to see if joining # here will look ok. The code will just issue a 'next' # command if the join doesn't look good. If we get through # the gauntlet of tests, the lines will be recombined. #---------------------------------------------------------- # # beginning and ending tokens of the lines we are working on my $ibeg_1 = $ri_beg->[ $n - 1 ]; my $iend_1 = $ri_end->[ $n - 1 ]; my $iend_2 = $ri_end->[$n]; my $ibeg_2 = $ri_beg->[$n]; my $ibeg_nmax = $ri_beg->[$nmax]; # combined line cannot be too long my $excess = excess_line_length( $ibeg_1, $iend_2, 1, 1 ); next if ( $excess > 0 ); my $type_iend_1 = $types_to_go[$iend_1]; my $type_iend_2 = $types_to_go[$iend_2]; my $type_ibeg_1 = $types_to_go[$ibeg_1]; my $type_ibeg_2 = $types_to_go[$ibeg_2]; # terminal token of line 2 if any side comment is ignored: my $iend_2t = $iend_2; my $type_iend_2t = $type_iend_2; # some beginning indexes of other lines, which may not exist my $ibeg_0 = $n > 1 ? $ri_beg->[ $n - 2 ] : -1; my $ibeg_3 = $n < $nmax ? $ri_beg->[ $n + 1 ] : -1; my $ibeg_4 = $n + 2 <= $nmax ? $ri_beg->[ $n + 2 ] : -1; my $bs_tweak = 0; #my $depth_increase=( $nesting_depth_to_go[$ibeg_2] - # $nesting_depth_to_go[$ibeg_1] ); FORMATTER_DEBUG_FLAG_RECOMBINE && do { print STDERR "RECOMBINE: n=$n imid=$iend_1 if=$ibeg_1 type=$type_ibeg_1 =$tokens_to_go[$ibeg_1] next_type=$type_ibeg_2 next_tok=$tokens_to_go[$ibeg_2]\n"; }; # If line $n is the last line, we set some flags and # do any special checks for it if ( $n == $nmax ) { # a terminal '{' should stay where it is next if $type_ibeg_2 eq '{'; if ( $type_iend_2 eq '#' && $iend_2 - $ibeg_2 >= 2 && $types_to_go[ $iend_2 - 1 ] eq 'b' ) { $iend_2t = $iend_2 - 2; $type_iend_2t = $types_to_go[$iend_2t]; } $this_line_is_semicolon_terminated = $type_iend_2t eq ';'; } #---------------------------------------------------------- # Recombine Section 0: # Examine the special token joining this line pair, if any. # Put as many tests in this section to avoid duplicate code and # to make formatting independent of whether breaks are to the # left or right of an operator. #---------------------------------------------------------- my ($itok) = @{ $joint[$n] }; if ($itok) { # FIXME: Patch - may not be necessary my $iend_1 = $type_iend_1 eq 'b' ? $iend_1 - 1 : $iend_1; my $iend_2 = $type_iend_2 eq 'b' ? $iend_2 - 1 : $iend_2; ## END PATCH my $type = $types_to_go[$itok]; if ( $type eq ':' ) { # do not join at a colon unless it disobeys the break request if ( $itok eq $iend_1 ) { next unless $want_break_before{$type}; } else { $leading_amp_count++; next if $want_break_before{$type}; } } ## end if ':' # handle math operators + - * / elsif ( $is_math_op{$type} ) { # Combine these lines if this line is a single # number, or if it is a short term with same # operator as the previous line. For example, in # the following code we will combine all of the # short terms $A, $B, $C, $D, $E, $F, together # instead of leaving them one per line: # my $time = # $A * $B * $C * $D * $E * $F * # ( 2. * $eps * $sigma * $area ) * # ( 1. / $tcold**3 - 1. / $thot**3 ); # This can be important in math-intensive code. my $good_combo; my $itokp = min( $inext_to_go[$itok], $iend_2 ); my $itokpp = min( $inext_to_go[$itokp], $iend_2 ); my $itokm = max( $iprev_to_go[$itok], $ibeg_1 ); my $itokmm = max( $iprev_to_go[$itokm], $ibeg_1 ); # check for a number on the right if ( $types_to_go[$itokp] eq 'n' ) { # ok if nothing else on right if ( $itokp == $iend_2 ) { $good_combo = 1; } else { # look one more token to right.. # okay if math operator or some termination $good_combo = ( ( $itokpp == $iend_2 ) && $is_math_op{ $types_to_go[$itokpp] } ) || $types_to_go[$itokpp] =~ /^[#,;]$/; } } # check for a number on the left if ( !$good_combo && $types_to_go[$itokm] eq 'n' ) { # okay if nothing else to left if ( $itokm == $ibeg_1 ) { $good_combo = 1; } # otherwise look one more token to left else { # okay if math operator, comma, or assignment $good_combo = ( $itokmm == $ibeg_1 ) && ( $is_math_op{ $types_to_go[$itokmm] } || $types_to_go[$itokmm] =~ /^[,]$/ || $is_assignment{ $types_to_go[$itokmm] } ); } } # look for a single short token either side of the # operator if ( !$good_combo ) { # Slight adjustment factor to make results # independent of break before or after operator in # long summed lists. (An operator and a space make # two spaces). my $two = ( $itok eq $iend_1 ) ? 2 : 0; $good_combo = # numbers or id's on both sides of this joint $types_to_go[$itokp] =~ /^[in]$/ && $types_to_go[$itokm] =~ /^[in]$/ # one of the two lines must be short: && ( ( # no more than 2 nonblank tokens right of # joint $itokpp == $iend_2 # short && token_sequence_length( $itokp, $iend_2 ) < $two + $rOpts_short_concatenation_item_length ) || ( # no more than 2 nonblank tokens left of # joint $itokmm == $ibeg_1 # short && token_sequence_length( $ibeg_1, $itokm ) < 2 - $two + $rOpts_short_concatenation_item_length ) ) # keep pure terms; don't mix +- with */ && !( $is_plus_minus{$type} && ( $is_mult_div{ $types_to_go[$itokmm] } || $is_mult_div{ $types_to_go[$itokpp] } ) ) && !( $is_mult_div{$type} && ( $is_plus_minus{ $types_to_go[$itokmm] } || $is_plus_minus{ $types_to_go[$itokpp] } ) ) ; } # it is also good to combine if we can reduce to 2 lines if ( !$good_combo ) { # index on other line where same token would be in a # long chain. my $iother = ( $itok == $iend_1 ) ? $iend_2 : $ibeg_1; $good_combo = $n == 2 && $n == $nmax && $types_to_go[$iother] ne $type; } next unless ($good_combo); } ## end math elsif ( $is_amp_amp{$type} ) { ##TBD } ## end &&, || elsif ( $is_assignment{$type} ) { ##TBD } ## end assignment } #---------------------------------------------------------- # Recombine Section 1: # Join welded nested containers immediately # use alternating sweep direction until all are welds # are done. This produces more symmetric opening and # closing joins when lines exceed line length. #---------------------------------------------------------- if ( weld_len_right_to_go($iend_1) || weld_len_left_to_go($ibeg_2) ) { $n_best = $n; $reverse = 1 - $reverse; last; } $reverse = 0; #---------------------------------------------------------- # Recombine Section 2: # Examine token at $iend_1 (right end of first line of pair) #---------------------------------------------------------- # an isolated '}' may join with a ';' terminated segment if ( $type_iend_1 eq '}' ) { # Check for cases where combining a semicolon terminated # statement with a previous isolated closing paren will # allow the combined line to be outdented. This is # generally a good move. For example, we can join up # the last two lines here: # ( # $dev, $ino, $mode, $nlink, $uid, $gid, $rdev, # $size, $atime, $mtime, $ctime, $blksize, $blocks # ) # = stat($file); # # to get: # ( # $dev, $ino, $mode, $nlink, $uid, $gid, $rdev, # $size, $atime, $mtime, $ctime, $blksize, $blocks # ) = stat($file); # # which makes the parens line up. # # Another example, from Joe Matarazzo, probably looks best # with the 'or' clause appended to the trailing paren: # $self->some_method( # PARAM1 => 'foo', # PARAM2 => 'bar' # ) or die "Some_method didn't work"; # # But we do not want to do this for something like the -lp # option where the paren is not outdentable because the # trailing clause will be far to the right. # # The logic here is synchronized with the logic in sub # sub set_adjusted_indentation, which actually does # the outdenting. # $skip_Section_3 ||= $this_line_is_semicolon_terminated # only one token on last line && $ibeg_1 == $iend_1 # must be structural paren && $tokens_to_go[$iend_1] eq ')' # style must allow outdenting, && !$closing_token_indentation{')'} # only leading '&&', '||', and ':' if no others seen # (but note: our count made below could be wrong # due to intervening comments) && ( $leading_amp_count == 0 || $type_ibeg_2 !~ /^(:|\&\&|\|\|)$/ ) # but leading colons probably line up with a # previous colon or question (count could be wrong). && $type_ibeg_2 ne ':' # only one step in depth allowed. this line must not # begin with a ')' itself. && ( $nesting_depth_to_go[$iend_1] == $nesting_depth_to_go[$iend_2] + 1 ); # YVES patch 2 of 2: # Allow cuddled eval chains, like this: # eval { # #STUFF; # 1; # return true # } or do { # #handle error # }; # This patch works together with a patch in # setting adjusted indentation (where the closing eval # brace is outdented if possible). # The problem is that an 'eval' block has continuation # indentation and it looks better to undo it in some # cases. If we do not use this patch we would get: # eval { # #STUFF; # 1; # return true # } # or do { # #handle error # }; # The alternative, for uncuddled style, is to create # a patch in set_adjusted_indentation which undoes # the indentation of a leading line like 'or do {'. # This doesn't work well with -icb through if ( $block_type_to_go[$iend_1] eq 'eval' && !$rOpts->{'line-up-parentheses'} && !$rOpts->{'indent-closing-brace'} && $tokens_to_go[$iend_2] eq '{' && ( ( $type_ibeg_2 =~ /^(|\&\&|\|\|)$/ ) || ( $type_ibeg_2 eq 'k' && $is_and_or{ $tokens_to_go[$ibeg_2] } ) || $is_if_unless{ $tokens_to_go[$ibeg_2] } ) ) { $skip_Section_3 ||= 1; } next unless ( $skip_Section_3 # handle '.' and '?' specially below || ( $type_ibeg_2 =~ /^[\.\?]$/ ) ); } elsif ( $type_iend_1 eq '{' ) { # YVES # honor breaks at opening brace # Added to prevent recombining something like this: # } || eval { package main; next if $forced_breakpoint_to_go[$iend_1]; } # do not recombine lines with ending &&, ||, elsif ( $is_amp_amp{$type_iend_1} ) { next unless $want_break_before{$type_iend_1}; } # Identify and recombine a broken ?/: chain elsif ( $type_iend_1 eq '?' ) { # Do not recombine different levels next if ( $levels_to_go[$ibeg_1] ne $levels_to_go[$ibeg_2] ); # do not recombine unless next line ends in : next unless $type_iend_2 eq ':'; } # for lines ending in a comma... elsif ( $type_iend_1 eq ',' ) { # Do not recombine at comma which is following the # input bias. # TODO: might be best to make a special flag next if ( $old_breakpoint_to_go[$iend_1] ); # an isolated '},' may join with an identifier + ';' # this is useful for the class of a 'bless' statement (bless.t) if ( $type_ibeg_1 eq '}' && $type_ibeg_2 eq 'i' ) { next unless ( ( $ibeg_1 == ( $iend_1 - 1 ) ) && ( $iend_2 == ( $ibeg_2 + 1 ) ) && $this_line_is_semicolon_terminated ); # override breakpoint $forced_breakpoint_to_go[$iend_1] = 0; } # but otherwise .. else { # do not recombine after a comma unless this will leave # just 1 more line next unless ( $n + 1 >= $nmax ); # do not recombine if there is a change in indentation depth next if ( $levels_to_go[$iend_1] != $levels_to_go[$iend_2] ); # do not recombine a "complex expression" after a # comma. "complex" means no parens. my $saw_paren; foreach my $ii ( $ibeg_2 .. $iend_2 ) { if ( $tokens_to_go[$ii] eq '(' ) { $saw_paren = 1; last; } } next if $saw_paren; } } # opening paren.. elsif ( $type_iend_1 eq '(' ) { # No longer doing this } elsif ( $type_iend_1 eq ')' ) { # No longer doing this } # keep a terminal for-semicolon elsif ( $type_iend_1 eq 'f' ) { next; } # if '=' at end of line ... elsif ( $is_assignment{$type_iend_1} ) { # keep break after = if it was in input stream # this helps prevent 'blinkers' next if $old_breakpoint_to_go[$iend_1] # don't strand an isolated '=' && $iend_1 != $ibeg_1; my $is_short_quote = ( $type_ibeg_2 eq 'Q' && $ibeg_2 == $iend_2 && token_sequence_length( $ibeg_2, $ibeg_2 ) < $rOpts_short_concatenation_item_length ); my $is_ternary = ( $type_ibeg_1 eq '?' && ( $ibeg_3 >= 0 && $types_to_go[$ibeg_3] eq ':' ) ); # always join an isolated '=', a short quote, or if this # will put ?/: at start of adjacent lines if ( $ibeg_1 != $iend_1 && !$is_short_quote && !$is_ternary ) { next unless ( ( # unless we can reduce this to two lines $nmax < $n + 2 # or three lines, the last with a leading semicolon || ( $nmax == $n + 2 && $types_to_go[$ibeg_nmax] eq ';' ) # or the next line ends with a here doc || $type_iend_2 eq 'h' # or the next line ends in an open paren or brace # and the break hasn't been forced [dima.t] || ( !$forced_breakpoint_to_go[$iend_1] && $type_iend_2 eq '{' ) ) # do not recombine if the two lines might align well # this is a very approximate test for this && ( $ibeg_3 >= 0 && $type_ibeg_2 ne $types_to_go[$ibeg_3] ) ); if ( # Recombine if we can make two lines $nmax >= $n + 2 # -lp users often prefer this: # my $title = function($env, $env, $sysarea, # "bubba Borrower Entry"); # so we will recombine if -lp is used we have # ending comma && ( !$rOpts_line_up_parentheses || $type_iend_2 ne ',' ) ) { # otherwise, scan the rhs line up to last token for # complexity. Note that we are not counting the last # token in case it is an opening paren. my $tv = 0; my $depth = $nesting_depth_to_go[$ibeg_2]; foreach my $i ( $ibeg_2 + 1 .. $iend_2 - 1 ) { if ( $nesting_depth_to_go[$i] != $depth ) { $tv++; last if ( $tv > 1 ); } $depth = $nesting_depth_to_go[$i]; } # ok to recombine if no level changes before last token if ( $tv > 0 ) { # otherwise, do not recombine if more than two # level changes. next if ( $tv > 1 ); # check total complexity of the two adjacent lines # that will occur if we do this join my $istop = ( $n < $nmax ) ? $ri_end->[ $n + 1 ] : $iend_2; foreach my $i ( $iend_2 .. $istop ) { if ( $nesting_depth_to_go[$i] != $depth ) { $tv++; last if ( $tv > 2 ); } $depth = $nesting_depth_to_go[$i]; } # do not recombine if total is more than 2 level changes next if ( $tv > 2 ); } } } unless ( $tokens_to_go[$ibeg_2] =~ /^[\{\(\[]$/ ) { $forced_breakpoint_to_go[$iend_1] = 0; } } # for keywords.. elsif ( $type_iend_1 eq 'k' ) { # make major control keywords stand out # (recombine.t) next if ( #/^(last|next|redo|return)$/ $is_last_next_redo_return{ $tokens_to_go[$iend_1] } # but only if followed by multiple lines && $n < $nmax ); if ( $is_and_or{ $tokens_to_go[$iend_1] } ) { next unless $want_break_before{ $tokens_to_go[$iend_1] }; } } #---------------------------------------------------------- # Recombine Section 3: # Examine token at $ibeg_2 (left end of second line of pair) #---------------------------------------------------------- # join lines identified above as capable of # causing an outdented line with leading closing paren # Note that we are skipping the rest of this section # and the rest of the loop to do the join if ($skip_Section_3) { $forced_breakpoint_to_go[$iend_1] = 0; $n_best = $n; last; } # handle lines with leading &&, || elsif ( $is_amp_amp{$type_ibeg_2} ) { $leading_amp_count++; # ok to recombine if it follows a ? or : # and is followed by an open paren.. my $ok = ( $is_ternary{$type_ibeg_1} && $tokens_to_go[$iend_2] eq '(' ) # or is followed by a ? or : at same depth # # We are looking for something like this. We can # recombine the && line with the line above to make the # structure more clear: # return # exists $G->{Attr}->{V} # && exists $G->{Attr}->{V}->{$u} # ? %{ $G->{Attr}->{V}->{$u} } # : (); # # We should probably leave something like this alone: # return # exists $G->{Attr}->{E} # && exists $G->{Attr}->{E}->{$u} # && exists $G->{Attr}->{E}->{$u}->{$v} # ? %{ $G->{Attr}->{E}->{$u}->{$v} } # : (); # so that we either have all of the &&'s (or ||'s) # on one line, as in the first example, or break at # each one as in the second example. However, it # sometimes makes things worse to check for this because # it prevents multiple recombinations. So this is not done. || ( $ibeg_3 >= 0 && $is_ternary{ $types_to_go[$ibeg_3] } && $nesting_depth_to_go[$ibeg_3] == $nesting_depth_to_go[$ibeg_2] ); next if !$ok && $want_break_before{$type_ibeg_2}; $forced_breakpoint_to_go[$iend_1] = 0; # tweak the bond strength to give this joint priority # over ? and : $bs_tweak = 0.25; } # Identify and recombine a broken ?/: chain elsif ( $type_ibeg_2 eq '?' ) { # Do not recombine different levels my $lev = $levels_to_go[$ibeg_2]; next if ( $lev ne $levels_to_go[$ibeg_1] ); # Do not recombine a '?' if either next line or # previous line does not start with a ':'. The reasons # are that (1) no alignment of the ? will be possible # and (2) the expression is somewhat complex, so the # '?' is harder to see in the interior of the line. my $follows_colon = $ibeg_1 >= 0 && $type_ibeg_1 eq ':'; my $precedes_colon = $ibeg_3 >= 0 && $types_to_go[$ibeg_3] eq ':'; next unless ( $follows_colon || $precedes_colon ); # we will always combining a ? line following a : line if ( !$follows_colon ) { # ...otherwise recombine only if it looks like a chain. # we will just look at a few nearby lines to see if # this looks like a chain. my $local_count = 0; foreach my $ii ( $ibeg_0, $ibeg_1, $ibeg_3, $ibeg_4 ) { $local_count++ if $ii >= 0 && $types_to_go[$ii] eq ':' && $levels_to_go[$ii] == $lev; } next unless ( $local_count > 1 ); } $forced_breakpoint_to_go[$iend_1] = 0; } # do not recombine lines with leading '.' elsif ( $type_ibeg_2 eq '.' ) { my $i_next_nonblank = min( $inext_to_go[$ibeg_2], $iend_2 ); next unless ( # ... unless there is just one and we can reduce # this to two lines if we do. For example, this # # # $bodyA .= # '($dummy, $pat) = &get_next_tex_cmd;' . '$args .= $pat;' # # looks better than this: # $bodyA .= '($dummy, $pat) = &get_next_tex_cmd;' # . '$args .= $pat;' ( $n == 2 && $n == $nmax && $type_ibeg_1 ne $type_ibeg_2 ) # ... or this would strand a short quote , like this # . "some long quote" # . "\n"; || ( $types_to_go[$i_next_nonblank] eq 'Q' && $i_next_nonblank >= $iend_2 - 1 && $token_lengths_to_go[$i_next_nonblank] < $rOpts_short_concatenation_item_length ) ); } # handle leading keyword.. elsif ( $type_ibeg_2 eq 'k' ) { # handle leading "or" if ( $tokens_to_go[$ibeg_2] eq 'or' ) { next unless ( $this_line_is_semicolon_terminated && ( # following 'if' or 'unless' or 'or' $type_ibeg_1 eq 'k' && $is_if_unless{ $tokens_to_go[$ibeg_1] } # important: only combine a very simple or # statement because the step below may have # combined a trailing 'and' with this or, # and we do not want to then combine # everything together && ( $iend_2 - $ibeg_2 <= 7 ) ) ); #X: RT #81854 $forced_breakpoint_to_go[$iend_1] = 0 unless $old_breakpoint_to_go[$iend_1]; } # handle leading 'and' elsif ( $tokens_to_go[$ibeg_2] eq 'and' ) { # Decide if we will combine a single terminal 'and' # after an 'if' or 'unless'. # This looks best with the 'and' on the same # line as the 'if': # # $a = 1 # if $seconds and $nu < 2; # # But this looks better as shown: # # $a = 1 # if !$this->{Parents}{$_} # or $this->{Parents}{$_} eq $_; # next unless ( $this_line_is_semicolon_terminated && ( # following 'if' or 'unless' or 'or' $type_ibeg_1 eq 'k' && ( $is_if_unless{ $tokens_to_go[$ibeg_1] } || $tokens_to_go[$ibeg_1] eq 'or' ) ) ); } # handle leading "if" and "unless" elsif ( $is_if_unless{ $tokens_to_go[$ibeg_2] } ) { # FIXME: This is still experimental..may not be too useful next unless ( $this_line_is_semicolon_terminated # previous line begins with 'and' or 'or' && $type_ibeg_1 eq 'k' && $is_and_or{ $tokens_to_go[$ibeg_1] } ); } # handle all other leading keywords else { # keywords look best at start of lines, # but combine things like "1 while" unless ( $is_assignment{$type_iend_1} ) { next if ( ( $type_iend_1 ne 'k' ) && ( $tokens_to_go[$ibeg_2] ne 'while' ) ); } } } # similar treatment of && and || as above for 'and' and 'or': # NOTE: This block of code is currently bypassed because # of a previous block but is retained for possible future use. elsif ( $is_amp_amp{$type_ibeg_2} ) { # maybe looking at something like: # unless $TEXTONLY || $item =~ m%|p>|a|img)%i; next unless ( $this_line_is_semicolon_terminated # previous line begins with an 'if' or 'unless' keyword && $type_ibeg_1 eq 'k' && $is_if_unless{ $tokens_to_go[$ibeg_1] } ); } # handle line with leading = or similar elsif ( $is_assignment{$type_ibeg_2} ) { next unless ( $n == 1 || $n == $nmax ); next if $old_breakpoint_to_go[$iend_1]; next unless ( # unless we can reduce this to two lines $nmax == 2 # or three lines, the last with a leading semicolon || ( $nmax == 3 && $types_to_go[$ibeg_nmax] eq ';' ) # or the next line ends with a here doc || $type_iend_2 eq 'h' # or this is a short line ending in ; || ( $n == $nmax && $this_line_is_semicolon_terminated ) ); $forced_breakpoint_to_go[$iend_1] = 0; } #---------------------------------------------------------- # Recombine Section 4: # Combine the lines if we arrive here and it is possible #---------------------------------------------------------- # honor hard breakpoints next if ( $forced_breakpoint_to_go[$iend_1] > 0 ); my $bs = $bond_strength_to_go[$iend_1] + $bs_tweak; # Require a few extra spaces before recombining lines if we are # at an old breakpoint unless this is a simple list or terminal # line. The goal is to avoid oscillating between two # quasi-stable end states. For example this snippet caused # problems: ## my $this = ## bless { ## TText => "[" . ( join ',', map { "\"$_\"" } split "\n", $_ ) . "]" ## }, ## $type; next if ( $old_breakpoint_to_go[$iend_1] && !$this_line_is_semicolon_terminated && $n < $nmax && $excess + 4 > 0 && $type_iend_2 ne ',' ); # do not recombine if we would skip in indentation levels if ( $n < $nmax ) { my $if_next = $ri_beg->[ $n + 1 ]; next if ( $levels_to_go[$ibeg_1] < $levels_to_go[$ibeg_2] && $levels_to_go[$ibeg_2] < $levels_to_go[$if_next] # but an isolated 'if (' is undesirable && !( $n == 1 && $iend_1 - $ibeg_1 <= 2 && $type_ibeg_1 eq 'k' && $tokens_to_go[$ibeg_1] eq 'if' && $tokens_to_go[$iend_1] ne '(' ) ); } # honor no-break's next if ( $bs >= NO_BREAK - 1 ); # remember the pair with the greatest bond strength if ( !$n_best ) { $n_best = $n; $bs_best = $bs; } else { if ( $bs > $bs_best ) { $n_best = $n; $bs_best = $bs; } } } # recombine the pair with the greatest bond strength if ($n_best) { splice @{$ri_beg}, $n_best, 1; splice @{$ri_end}, $n_best - 1, 1; splice @joint, $n_best, 1; # keep going if we are still making progress $more_to_do++; } } return ( $ri_beg, $ri_end ); } } # end recombine_breakpoints sub break_all_chain_tokens { # scan the current breakpoints looking for breaks at certain "chain # operators" (. : && || + etc) which often occur repeatedly in a long # statement. If we see a break at any one, break at all similar tokens # within the same container. # my ( $ri_left, $ri_right ) = @_; my %saw_chain_type; my %left_chain_type; my %right_chain_type; my %interior_chain_type; my $nmax = @{$ri_right} - 1; # scan the left and right end tokens of all lines my $count = 0; for my $n ( 0 .. $nmax ) { my $il = $ri_left->[$n]; my $ir = $ri_right->[$n]; my $typel = $types_to_go[$il]; my $typer = $types_to_go[$ir]; $typel = '+' if ( $typel eq '-' ); # treat + and - the same $typer = '+' if ( $typer eq '-' ); $typel = '*' if ( $typel eq '/' ); # treat * and / the same $typer = '*' if ( $typer eq '/' ); my $tokenl = $tokens_to_go[$il]; my $tokenr = $tokens_to_go[$ir]; if ( $is_chain_operator{$tokenl} && $want_break_before{$typel} ) { next if ( $typel eq '?' ); push @{ $left_chain_type{$typel} }, $il; $saw_chain_type{$typel} = 1; $count++; } if ( $is_chain_operator{$tokenr} && !$want_break_before{$typer} ) { next if ( $typer eq '?' ); push @{ $right_chain_type{$typer} }, $ir; $saw_chain_type{$typer} = 1; $count++; } } return unless $count; # now look for any interior tokens of the same types $count = 0; for my $n ( 0 .. $nmax ) { my $il = $ri_left->[$n]; my $ir = $ri_right->[$n]; foreach my $i ( $il + 1 .. $ir - 1 ) { my $type = $types_to_go[$i]; $type = '+' if ( $type eq '-' ); $type = '*' if ( $type eq '/' ); if ( $saw_chain_type{$type} ) { push @{ $interior_chain_type{$type} }, $i; $count++; } } } return unless $count; # now make a list of all new break points my @insert_list; # loop over all chain types foreach my $type ( keys %saw_chain_type ) { # quit if just ONE continuation line with leading . For example-- # print LATEXFILE '\framebox{\parbox[c][' . $h . '][t]{' . $w . '}{' # . $contents; last if ( $nmax == 1 && $type =~ /^[\.\+]$/ ); # loop over all interior chain tokens foreach my $itest ( @{ $interior_chain_type{$type} } ) { # loop over all left end tokens of same type if ( $left_chain_type{$type} ) { next if $nobreak_to_go[ $itest - 1 ]; foreach my $i ( @{ $left_chain_type{$type} } ) { next unless in_same_container( $i, $itest ); push @insert_list, $itest - 1; # Break at matching ? if this : is at a different level. # For example, the ? before $THRf_DEAD in the following # should get a break if its : gets a break. # # my $flags = # ( $_ & 1 ) ? ( $_ & 4 ) ? $THRf_DEAD : $THRf_ZOMBIE # : ( $_ & 4 ) ? $THRf_R_DETACHED # : $THRf_R_JOINABLE; if ( $type eq ':' && $levels_to_go[$i] != $levels_to_go[$itest] ) { my $i_question = $mate_index_to_go[$itest]; if ( $i_question > 0 ) { push @insert_list, $i_question - 1; } } last; } } # loop over all right end tokens of same type if ( $right_chain_type{$type} ) { next if $nobreak_to_go[$itest]; foreach my $i ( @{ $right_chain_type{$type} } ) { next unless in_same_container( $i, $itest ); push @insert_list, $itest; # break at matching ? if this : is at a different level if ( $type eq ':' && $levels_to_go[$i] != $levels_to_go[$itest] ) { my $i_question = $mate_index_to_go[$itest]; if ( $i_question >= 0 ) { push @insert_list, $i_question; } } last; } } } } # insert any new break points if (@insert_list) { insert_additional_breaks( \@insert_list, $ri_left, $ri_right ); } return; } sub break_equals { # Look for assignment operators that could use a breakpoint. # For example, in the following snippet # # $HOME = $ENV{HOME} # || $ENV{LOGDIR} # || $pw[7] # || die "no home directory for user $<"; # # we could break at the = to get this, which is a little nicer: # $HOME = # $ENV{HOME} # || $ENV{LOGDIR} # || $pw[7] # || die "no home directory for user $<"; # # The logic here follows the logic in set_logical_padding, which # will add the padding in the second line to improve alignment. # my ( $ri_left, $ri_right ) = @_; my $nmax = @{$ri_right} - 1; return unless ( $nmax >= 2 ); # scan the left ends of first two lines my $tokbeg = ""; my $depth_beg; for my $n ( 1 .. 2 ) { my $il = $ri_left->[$n]; my $typel = $types_to_go[$il]; my $tokenl = $tokens_to_go[$il]; my $has_leading_op = ( $tokenl =~ /^\w/ ) ? $is_chain_operator{$tokenl} # + - * / : ? && || : $is_chain_operator{$typel}; # and, or return unless ($has_leading_op); if ( $n > 1 ) { return unless ( $tokenl eq $tokbeg && $nesting_depth_to_go[$il] eq $depth_beg ); } $tokbeg = $tokenl; $depth_beg = $nesting_depth_to_go[$il]; } # now look for any interior tokens of the same types my $il = $ri_left->[0]; my $ir = $ri_right->[0]; # now make a list of all new break points my @insert_list; for ( my $i = $ir - 1 ; $i > $il ; $i-- ) { my $type = $types_to_go[$i]; if ( $is_assignment{$type} && $nesting_depth_to_go[$i] eq $depth_beg ) { if ( $want_break_before{$type} ) { push @insert_list, $i - 1; } else { push @insert_list, $i; } } } # Break after a 'return' followed by a chain of operators # return ( $^O !~ /win32|dos/i ) # && ( $^O ne 'VMS' ) # && ( $^O ne 'OS2' ) # && ( $^O ne 'MacOS' ); # To give: # return # ( $^O !~ /win32|dos/i ) # && ( $^O ne 'VMS' ) # && ( $^O ne 'OS2' ) # && ( $^O ne 'MacOS' ); my $i = 0; if ( $types_to_go[$i] eq 'k' && $tokens_to_go[$i] eq 'return' && $ir > $il && $nesting_depth_to_go[$i] eq $depth_beg ) { push @insert_list, $i; } return unless (@insert_list); # One final check... # scan second and third lines and be sure there are no assignments # we want to avoid breaking at an = to make something like this: # unless ( $icon = # $html_icons{"$type-$state"} # or $icon = $html_icons{$type} # or $icon = $html_icons{$state} ) for my $n ( 1 .. 2 ) { my $il = $ri_left->[$n]; my $ir = $ri_right->[$n]; foreach my $i ( $il + 1 .. $ir ) { my $type = $types_to_go[$i]; return if ( $is_assignment{$type} && $nesting_depth_to_go[$i] eq $depth_beg ); } } # ok, insert any new break point if (@insert_list) { insert_additional_breaks( \@insert_list, $ri_left, $ri_right ); } return; } sub insert_final_breaks { my ( $ri_left, $ri_right ) = @_; my $nmax = @{$ri_right} - 1; # scan the left and right end tokens of all lines my $count = 0; my $i_first_colon = -1; for my $n ( 0 .. $nmax ) { my $il = $ri_left->[$n]; my $ir = $ri_right->[$n]; my $typel = $types_to_go[$il]; my $typer = $types_to_go[$ir]; return if ( $typel eq '?' ); return if ( $typer eq '?' ); if ( $typel eq ':' ) { $i_first_colon = $il; last; } elsif ( $typer eq ':' ) { $i_first_colon = $ir; last; } } # For long ternary chains, # if the first : we see has its # ? is in the interior # of a preceding line, then see if there are any good # breakpoints before the ?. if ( $i_first_colon > 0 ) { my $i_question = $mate_index_to_go[$i_first_colon]; if ( $i_question > 0 ) { my @insert_list; for ( my $ii = $i_question - 1 ; $ii >= 0 ; $ii -= 1 ) { my $token = $tokens_to_go[$ii]; my $type = $types_to_go[$ii]; # For now, a good break is either a comma or a 'return'. if ( ( $type eq ',' || $type eq 'k' && $token eq 'return' ) && in_same_container( $ii, $i_question ) ) { push @insert_list, $ii; last; } } # insert any new break points if (@insert_list) { insert_additional_breaks( \@insert_list, $ri_left, $ri_right ); } } } return; } sub in_same_container { # check to see if tokens at i1 and i2 are in the # same container, and not separated by a comma, ? or : my ( $i1, $i2 ) = @_; my $type = $types_to_go[$i1]; my $depth = $nesting_depth_to_go[$i1]; return unless ( $nesting_depth_to_go[$i2] == $depth ); if ( $i2 < $i1 ) { ( $i1, $i2 ) = ( $i2, $i1 ) } ########################################################### # This is potentially a very slow routine and not critical. # For safety just give up for large differences. # See test file 'infinite_loop.txt' # TODO: replace this loop with a data structure ########################################################### return if ( $i2 - $i1 > 200 ); foreach my $i ( $i1 + 1 .. $i2 - 1 ) { next if ( $nesting_depth_to_go[$i] > $depth ); return if ( $nesting_depth_to_go[$i] < $depth ); my $tok = $tokens_to_go[$i]; $tok = ',' if $tok eq '=>'; # treat => same as , # Example: we would not want to break at any of these .'s # : "$str" if ( $type ne ':' ) { return if ( $tok =~ /^[\,\:\?]$/ ) || $tok eq '||' || $tok eq 'or'; } else { return if ( $tok =~ /^[\,]$/ ); } } return 1; } sub set_continuation_breaks { # Define an array of indexes for inserting newline characters to # keep the line lengths below the maximum desired length. There is # an implied break after the last token, so it need not be included. # Method: # This routine is part of series of routines which adjust line # lengths. It is only called if a statement is longer than the # maximum line length, or if a preliminary scanning located # desirable break points. Sub scan_list has already looked at # these tokens and set breakpoints (in array # $forced_breakpoint_to_go[$i]) where it wants breaks (for example # after commas, after opening parens, and before closing parens). # This routine will honor these breakpoints and also add additional # breakpoints as necessary to keep the line length below the maximum # requested. It bases its decision on where the 'bond strength' is # lowest. # Output: returns references to the arrays: # @i_first # @i_last # which contain the indexes $i of the first and last tokens on each # line. # In addition, the array: # $forced_breakpoint_to_go[$i] # may be updated to be =1 for any index $i after which there must be # a break. This signals later routines not to undo the breakpoint. my $saw_good_break = shift; my @i_first = (); # the first index to output my @i_last = (); # the last index to output my @i_colon_breaks = (); # needed to decide if we have to break at ?'s if ( $types_to_go[0] eq ':' ) { push @i_colon_breaks, 0 } set_bond_strengths(); my $imin = 0; my $imax = $max_index_to_go; if ( $types_to_go[$imin] eq 'b' ) { $imin++ } if ( $types_to_go[$imax] eq 'b' ) { $imax-- } my $i_begin = $imin; # index for starting next iteration my $leading_spaces = leading_spaces_to_go($imin); my $line_count = 0; my $last_break_strength = NO_BREAK; my $i_last_break = -1; my $max_bias = 0.001; my $tiny_bias = 0.0001; my $leading_alignment_token = ""; my $leading_alignment_type = ""; # see if any ?/:'s are in order my $colons_in_order = 1; my $last_tok = ""; my @colon_list = grep /^[\?\:]$/, @types_to_go[ 0 .. $max_index_to_go ]; my $colon_count = @colon_list; foreach (@colon_list) { if ( $_ eq $last_tok ) { $colons_in_order = 0; last } $last_tok = $_; } # This is a sufficient but not necessary condition for colon chain my $is_colon_chain = ( $colons_in_order && @colon_list > 2 ); #------------------------------------------------------- # BEGINNING of main loop to set continuation breakpoints # Keep iterating until we reach the end #------------------------------------------------------- while ( $i_begin <= $imax ) { my $lowest_strength = NO_BREAK; my $starting_sum = $summed_lengths_to_go[$i_begin]; my $i_lowest = -1; my $i_test = -1; my $lowest_next_token = ''; my $lowest_next_type = 'b'; my $i_lowest_next_nonblank = -1; #------------------------------------------------------- # BEGINNING of inner loop to find the best next breakpoint #------------------------------------------------------- for ( $i_test = $i_begin ; $i_test <= $imax ; $i_test++ ) { my $type = $types_to_go[$i_test]; my $token = $tokens_to_go[$i_test]; my $next_type = $types_to_go[ $i_test + 1 ]; my $next_token = $tokens_to_go[ $i_test + 1 ]; my $i_next_nonblank = $inext_to_go[$i_test]; my $next_nonblank_type = $types_to_go[$i_next_nonblank]; my $next_nonblank_token = $tokens_to_go[$i_next_nonblank]; my $next_nonblank_block_type = $block_type_to_go[$i_next_nonblank]; my $strength = $bond_strength_to_go[$i_test]; my $maximum_line_length = maximum_line_length($i_begin); # use old breaks as a tie-breaker. For example to # prevent blinkers with -pbp in this code: ##@keywords{ ## qw/ARG OUTPUT PROTO CONSTRUCTOR RETURNS DESC PARAMS SEEALSO EXAMPLE/} ## = (); # At the same time try to prevent a leading * in this code # with the default formatting: # ## return ## factorial( $a + $b - 1 ) / factorial( $a - 1 ) / factorial( $b - 1 ) ## * ( $x**( $a - 1 ) ) ## * ( ( 1 - $x )**( $b - 1 ) ); # reduce strength a bit to break ties at an old breakpoint ... if ( $old_breakpoint_to_go[$i_test] # which is a 'good' breakpoint, meaning ... # we don't want to break before it && !$want_break_before{$type} # and either we want to break before the next token # or the next token is not short (i.e. not a '*', '/' etc.) && $i_next_nonblank <= $imax && ( $want_break_before{$next_nonblank_type} || $token_lengths_to_go[$i_next_nonblank] > 2 || $next_nonblank_type =~ /^[\,\(\[\{L]$/ ) ) { $strength -= $tiny_bias; } # otherwise increase strength a bit if this token would be at the # maximum line length. This is necessary to avoid blinking # in the above example when the -iob flag is added. else { my $len = $leading_spaces + $summed_lengths_to_go[ $i_test + 1 ] - $starting_sum; if ( $len >= $maximum_line_length ) { $strength += $tiny_bias; } } my $must_break = 0; # Force an immediate break at certain operators # with lower level than the start of the line, # unless we've already seen a better break. # ############################################## # Note on an issue with a preceding ? ############################################## # We don't include a ? in the above list, but there may # be a break at a previous ? if the line is long. # Because of this we do not want to force a break if # there is a previous ? on this line. For now the best way # to do this is to not break if we have seen a lower strength # point, which is probably a ?. # # Example of unwanted breaks we are avoiding at a '.' following a ? # from pod2html using perltidy -gnu: # ) # ? "\n<A NAME=\"" # . $value # . "\">\n$text</A>\n" # : "\n$type$pod2.html\#" . $value . "\">$text<\/A>\n"; if ( ( $next_nonblank_type =~ /^(\.|\&\&|\|\|)$/ || ( $next_nonblank_type eq 'k' && $next_nonblank_token =~ /^(and|or)$/ ) ) && ( $nesting_depth_to_go[$i_begin] > $nesting_depth_to_go[$i_next_nonblank] ) && ( $strength <= $lowest_strength ) ) { set_forced_breakpoint($i_next_nonblank); } if ( # Try to put a break where requested by scan_list $forced_breakpoint_to_go[$i_test] # break between ) { in a continued line so that the '{' can # be outdented # See similar logic in scan_list which catches instances # where a line is just something like ') {'. We have to # be careful because the corresponding block keyword might # not be on the first line, such as 'for' here: # # eval { # for ("a") { # for $x ( 1, 2 ) { local $_ = "b"; s/(.*)/+$1/ } # } # }; # || ( $line_count && ( $token eq ')' ) && ( $next_nonblank_type eq '{' ) && ($next_nonblank_block_type) && ( $next_nonblank_block_type ne $tokens_to_go[$i_begin] ) # RT #104427: Dont break before opening sub brace because # sub block breaks handled at higher level, unless # it looks like the preceeding list is long and broken && !( $next_nonblank_block_type =~ /^sub\b/ && ( $nesting_depth_to_go[$i_begin] == $nesting_depth_to_go[$i_next_nonblank] ) ) && !$rOpts->{'opening-brace-always-on-right'} ) # There is an implied forced break at a terminal opening brace || ( ( $type eq '{' ) && ( $i_test == $imax ) ) ) { # Forced breakpoints must sometimes be overridden, for example # because of a side comment causing a NO_BREAK. It is easier # to catch this here than when they are set. if ( $strength < NO_BREAK - 1 ) { $strength = $lowest_strength - $tiny_bias; $must_break = 1; } } # quit if a break here would put a good terminal token on # the next line and we already have a possible break if ( !$must_break && ( $next_nonblank_type =~ /^[\;\,]$/ ) && ( ( $leading_spaces + $summed_lengths_to_go[ $i_next_nonblank + 1 ] - $starting_sum ) > $maximum_line_length ) ) { last if ( $i_lowest >= 0 ); } # Avoid a break which would strand a single punctuation # token. For example, we do not want to strand a leading # '.' which is followed by a long quoted string. # But note that we do want to do this with -extrude (l=1) # so please test any changes to this code on -extrude. if ( !$must_break && ( $i_test == $i_begin ) && ( $i_test < $imax ) && ( $token eq $type ) && ( ( $leading_spaces + $summed_lengths_to_go[ $i_test + 1 ] - $starting_sum ) < $maximum_line_length ) ) { $i_test = min( $imax, $inext_to_go[$i_test] ); redo; } if ( ( $strength <= $lowest_strength ) && ( $strength < NO_BREAK ) ) { # break at previous best break if it would have produced # a leading alignment of certain common tokens, and it # is different from the latest candidate break last if ($leading_alignment_type); # Force at least one breakpoint if old code had good # break It is only called if a breakpoint is required or # desired. This will probably need some adjustments # over time. A goal is to try to be sure that, if a new # side comment is introduced into formatted text, then # the same breakpoints will occur. scbreak.t last if ( $i_test == $imax # we are at the end && !$forced_breakpoint_count # && $saw_good_break # old line had good break && $type =~ /^[#;\{]$/ # and this line ends in # ';' or side comment && $i_last_break < 0 # and we haven't made a break && $i_lowest >= 0 # and we saw a possible break && $i_lowest < $imax - 1 # (but not just before this ;) && $strength - $lowest_strength < 0.5 * WEAK # and it's good ); # Do not skip past an important break point in a short final # segment. For example, without this check we would miss the # break at the final / in the following code: # # $depth_stop = # ( $tau * $mass_pellet * $q_0 * # ( 1. - exp( -$t_stop / $tau ) ) - # 4. * $pi * $factor * $k_ice * # ( $t_melt - $t_ice ) * # $r_pellet * # $t_stop ) / # ( $rho_ice * $Qs * $pi * $r_pellet**2 ); # if ( $line_count > 2 && $i_lowest < $i_test && $i_test > $imax - 2 && $nesting_depth_to_go[$i_begin] > $nesting_depth_to_go[$i_lowest] && $lowest_strength < $last_break_strength - .5 * WEAK ) { # Make this break for math operators for now my $ir = $inext_to_go[$i_lowest]; my $il = $iprev_to_go[$ir]; last if ( $types_to_go[$il] =~ /^[\/\*\+\-\%]$/ || $types_to_go[$ir] =~ /^[\/\*\+\-\%]$/ ); } # Update the minimum bond strength location $lowest_strength = $strength; $i_lowest = $i_test; $lowest_next_token = $next_nonblank_token; $lowest_next_type = $next_nonblank_type; $i_lowest_next_nonblank = $i_next_nonblank; last if $must_break; # set flags to remember if a break here will produce a # leading alignment of certain common tokens if ( $line_count > 0 && $i_test < $imax && ( $lowest_strength - $last_break_strength <= $max_bias ) ) { my $i_last_end = $iprev_to_go[$i_begin]; my $tok_beg = $tokens_to_go[$i_begin]; my $type_beg = $types_to_go[$i_begin]; if ( # check for leading alignment of certain tokens ( $tok_beg eq $next_nonblank_token && $is_chain_operator{$tok_beg} && ( $type_beg eq 'k' || $type_beg eq $tok_beg ) && $nesting_depth_to_go[$i_begin] >= $nesting_depth_to_go[$i_next_nonblank] ) || ( $tokens_to_go[$i_last_end] eq $token && $is_chain_operator{$token} && ( $type eq 'k' || $type eq $token ) && $nesting_depth_to_go[$i_last_end] >= $nesting_depth_to_go[$i_test] ) ) { $leading_alignment_token = $next_nonblank_token; $leading_alignment_type = $next_nonblank_type; } } } my $too_long = ( $i_test >= $imax ); if ( !$too_long ) { my $next_length = $leading_spaces + $summed_lengths_to_go[ $i_test + 2 ] - $starting_sum; $too_long = $next_length > $maximum_line_length; # To prevent blinkers we will avoid leaving a token exactly at # the line length limit unless it is the last token or one of # several "good" types. # # The following code was a blinker with -pbp before this # modification: ## $last_nonblank_token eq '(' ## && $is_indirect_object_taker{ $paren_type ## [$paren_depth] } # The issue causing the problem is that if the # term [$paren_depth] gets broken across a line then # the whitespace routine doesn't see both opening and closing # brackets and will format like '[ $paren_depth ]'. This # leads to an oscillation in length depending if we break # before the closing bracket or not. if ( !$too_long && $i_test + 1 < $imax && $next_nonblank_type !~ /^[,\}\]\)R]$/ ) { $too_long = $next_length >= $maximum_line_length; } } FORMATTER_DEBUG_FLAG_BREAK && do { my $ltok = $token; my $rtok = $next_nonblank_token ? $next_nonblank_token : ""; my $i_testp2 = $i_test + 2; if ( $i_testp2 > $max_index_to_go + 1 ) { $i_testp2 = $max_index_to_go + 1; } if ( length($ltok) > 6 ) { $ltok = substr( $ltok, 0, 8 ) } if ( length($rtok) > 6 ) { $rtok = substr( $rtok, 0, 8 ) } print STDOUT "BREAK: i=$i_test imax=$imax $types_to_go[$i_test] $next_nonblank_type sp=($leading_spaces) lnext= $summed_lengths_to_go[$i_testp2] 2long=$too_long str=$strength $ltok $rtok\n"; }; # allow one extra terminal token after exceeding line length # if it would strand this token. if ( $rOpts_fuzzy_line_length && $too_long && $i_lowest == $i_test && $token_lengths_to_go[$i_test] > 1 && $next_nonblank_type =~ /^[\;\,]$/ ) { $too_long = 0; } last if ( ( $i_test == $imax ) # we're done if no more tokens, || ( ( $i_lowest >= 0 ) # or no more space and we have a break && $too_long ) ); } #------------------------------------------------------- # END of inner loop to find the best next breakpoint # Now decide exactly where to put the breakpoint #------------------------------------------------------- # it's always ok to break at imax if no other break was found if ( $i_lowest < 0 ) { $i_lowest = $imax } # semi-final index calculation my $i_next_nonblank = $inext_to_go[$i_lowest]; my $next_nonblank_type = $types_to_go[$i_next_nonblank]; my $next_nonblank_token = $tokens_to_go[$i_next_nonblank]; #------------------------------------------------------- # ?/: rule 1 : if a break here will separate a '?' on this # line from its closing ':', then break at the '?' instead. #------------------------------------------------------- foreach my $i ( $i_begin + 1 .. $i_lowest - 1 ) { next unless ( $tokens_to_go[$i] eq '?' ); # do not break if probable sequence of ?/: statements next if ($is_colon_chain); # do not break if statement is broken by side comment next if ( $tokens_to_go[$max_index_to_go] eq '#' && terminal_type( \@types_to_go, \@block_type_to_go, 0, $max_index_to_go ) !~ /^[\;\}]$/ ); # no break needed if matching : is also on the line next if ( $mate_index_to_go[$i] >= 0 && $mate_index_to_go[$i] <= $i_next_nonblank ); $i_lowest = $i; if ( $want_break_before{'?'} ) { $i_lowest-- } last; } #------------------------------------------------------- # END of inner loop to find the best next breakpoint: # Break the line after the token with index i=$i_lowest #------------------------------------------------------- # final index calculation $i_next_nonblank = $inext_to_go[$i_lowest]; $next_nonblank_type = $types_to_go[$i_next_nonblank]; $next_nonblank_token = $tokens_to_go[$i_next_nonblank]; FORMATTER_DEBUG_FLAG_BREAK && print STDOUT "BREAK: best is i = $i_lowest strength = $lowest_strength\n"; #------------------------------------------------------- # ?/: rule 2 : if we break at a '?', then break at its ':' # # Note: this rule is also in sub scan_list to handle a break # at the start and end of a line (in case breaks are dictated # by side comments). #------------------------------------------------------- if ( $next_nonblank_type eq '?' ) { set_closing_breakpoint($i_next_nonblank); } elsif ( $types_to_go[$i_lowest] eq '?' ) { set_closing_breakpoint($i_lowest); } #------------------------------------------------------- # ?/: rule 3 : if we break at a ':' then we save # its location for further work below. We may need to go # back and break at its '?'. #------------------------------------------------------- if ( $next_nonblank_type eq ':' ) { push @i_colon_breaks, $i_next_nonblank; } elsif ( $types_to_go[$i_lowest] eq ':' ) { push @i_colon_breaks, $i_lowest; } # here we should set breaks for all '?'/':' pairs which are # separated by this line $line_count++; # save this line segment, after trimming blanks at the ends push( @i_first, ( $types_to_go[$i_begin] eq 'b' ) ? $i_begin + 1 : $i_begin ); push( @i_last, ( $types_to_go[$i_lowest] eq 'b' ) ? $i_lowest - 1 : $i_lowest ); # set a forced breakpoint at a container opening, if necessary, to # signal a break at a closing container. Excepting '(' for now. if ( $tokens_to_go[$i_lowest] =~ /^[\{\[]$/ && !$forced_breakpoint_to_go[$i_lowest] ) { set_closing_breakpoint($i_lowest); } # get ready to go again $i_begin = $i_lowest + 1; $last_break_strength = $lowest_strength; $i_last_break = $i_lowest; $leading_alignment_token = ""; $leading_alignment_type = ""; $lowest_next_token = ''; $lowest_next_type = 'b'; if ( ( $i_begin <= $imax ) && ( $types_to_go[$i_begin] eq 'b' ) ) { $i_begin++; } # update indentation size if ( $i_begin <= $imax ) { $leading_spaces = leading_spaces_to_go($i_begin); } } #------------------------------------------------------- # END of main loop to set continuation breakpoints # Now go back and make any necessary corrections #------------------------------------------------------- #------------------------------------------------------- # ?/: rule 4 -- if we broke at a ':', then break at # corresponding '?' unless this is a chain of ?: expressions #------------------------------------------------------- if (@i_colon_breaks) { # using a simple method for deciding if we are in a ?/: chain -- # this is a chain if it has multiple ?/: pairs all in order; # otherwise not. # Note that if line starts in a ':' we count that above as a break my $is_chain = ( $colons_in_order && @i_colon_breaks > 1 ); unless ($is_chain) { my @insert_list = (); foreach (@i_colon_breaks) { my $i_question = $mate_index_to_go[$_]; if ( $i_question >= 0 ) { if ( $want_break_before{'?'} ) { $i_question = $iprev_to_go[$i_question]; } if ( $i_question >= 0 ) { push @insert_list, $i_question; } } insert_additional_breaks( \@insert_list, \@i_first, \@i_last ); } } } return ( \@i_first, \@i_last, $colon_count ); } sub insert_additional_breaks { # this routine will add line breaks at requested locations after # sub set_continuation_breaks has made preliminary breaks. my ( $ri_break_list, $ri_first, $ri_last ) = @_; my $i_f; my $i_l; my $line_number = 0; foreach my $i_break_left ( sort { $a <=> $b } @{$ri_break_list} ) { $i_f = $ri_first->[$line_number]; $i_l = $ri_last->[$line_number]; while ( $i_break_left >= $i_l ) { $line_number++; # shouldn't happen unless caller passes bad indexes if ( $line_number >= @{$ri_last} ) { warning( "Non-fatal program bug: couldn't set break at $i_break_left\n" ); report_definite_bug(); return; } $i_f = $ri_first->[$line_number]; $i_l = $ri_last->[$line_number]; } # Do not leave a blank at the end of a line; back up if necessary if ( $types_to_go[$i_break_left] eq 'b' ) { $i_break_left-- } my $i_break_right = $inext_to_go[$i_break_left]; if ( $i_break_left >= $i_f && $i_break_left < $i_l && $i_break_right > $i_f && $i_break_right <= $i_l ) { splice( @{$ri_first}, $line_number, 1, ( $i_f, $i_break_right ) ); splice( @{$ri_last}, $line_number, 1, ( $i_break_left, $i_l ) ); } } return; } sub set_closing_breakpoint { # set a breakpoint at a matching closing token # at present, this is only used to break at a ':' which matches a '?' my $i_break = shift; if ( $mate_index_to_go[$i_break] >= 0 ) { # CAUTION: infinite recursion possible here: # set_closing_breakpoint calls set_forced_breakpoint, and # set_forced_breakpoint call set_closing_breakpoint # ( test files attrib.t, BasicLyx.pm.html). # Don't reduce the '2' in the statement below if ( $mate_index_to_go[$i_break] > $i_break + 2 ) { # break before } ] and ), but sub set_forced_breakpoint will decide # to break before or after a ? and : my $inc = ( $tokens_to_go[$i_break] eq '?' ) ? 0 : 1; set_forced_breakpoint( $mate_index_to_go[$i_break] - $inc ); } } else { my $type_sequence = $type_sequence_to_go[$i_break]; if ($type_sequence) { my $closing_token = $matching_token{ $tokens_to_go[$i_break] }; $postponed_breakpoint{$type_sequence} = 1; } } return; } sub compare_indentation_levels { # check to see if output line tabbing agrees with input line # this can be very useful for debugging a script which has an extra # or missing brace my ( $guessed_indentation_level, $structural_indentation_level ) = @_; if ( $guessed_indentation_level ne $structural_indentation_level ) { $last_tabbing_disagreement = $input_line_number; if ($in_tabbing_disagreement) { } else { $tabbing_disagreement_count++; if ( $tabbing_disagreement_count <= MAX_NAG_MESSAGES ) { write_logfile_entry( "Start indentation disagreement: input=$guessed_indentation_level; output=$structural_indentation_level\n" ); } $in_tabbing_disagreement = $input_line_number; $first_tabbing_disagreement = $in_tabbing_disagreement unless ($first_tabbing_disagreement); } } else { if ($in_tabbing_disagreement) { if ( $tabbing_disagreement_count <= MAX_NAG_MESSAGES ) { write_logfile_entry( "End indentation disagreement from input line $in_tabbing_disagreement\n" ); if ( $tabbing_disagreement_count == MAX_NAG_MESSAGES ) { write_logfile_entry( "No further tabbing disagreements will be noted\n"); } } $in_tabbing_disagreement = 0; } } return; } ##################################################################### # # the Perl::Tidy::IndentationItem class supplies items which contain # how much whitespace should be used at the start of a line # ##################################################################### package Perl::Tidy::IndentationItem; sub new { # Create an 'indentation_item' which describes one level of leading # whitespace when the '-lp' indentation is used. my ( $class, $spaces, $level, $ci_level, $available_spaces, $index, $gnu_sequence_number, $align_paren, $stack_depth, $starting_index, ) = @_; my $closed = -1; my $arrow_count = 0; my $comma_count = 0; my $have_child = 0; my $want_right_spaces = 0; my $marked = 0; # DEFINITIONS: # spaces => # total leading white spaces # level => # the indentation 'level' # ci_level => # the 'continuation level' # available_spaces => # how many left spaces available # # for this level # closed => # index where we saw closing '}' # comma_count => # how many commas at this level? # sequence_number => # output batch number # index => # index in output batch list # have_child => # any dependents? # recoverable_spaces => # how many spaces to the right # # we would like to move to get # # alignment (negative if left) # align_paren => # do we want to try to align # # with an opening structure? # marked => # if visited by corrector logic # stack_depth => # indentation nesting depth # starting_index => # first token index of this level # arrow_count => # how many =>'s return bless { _spaces => $spaces, _level => $level, _ci_level => $ci_level, _available_spaces => $available_spaces, _closed => $closed, _comma_count => $comma_count, _sequence_number => $gnu_sequence_number, _index => $index, _have_child => $have_child, _recoverable_spaces => $want_right_spaces, _align_paren => $align_paren, _marked => $marked, _stack_depth => $stack_depth, _starting_index => $starting_index, _arrow_count => $arrow_count, }, $class; } sub permanently_decrease_available_spaces { # make a permanent reduction in the available indentation spaces # at one indentation item. NOTE: if there are child nodes, their # total SPACES must be reduced by the caller. my ( $item, $spaces_needed ) = @_; my $available_spaces = $item->get_available_spaces(); my $deleted_spaces = ( $available_spaces > $spaces_needed ) ? $spaces_needed : $available_spaces; $item->decrease_available_spaces($deleted_spaces); $item->decrease_SPACES($deleted_spaces); $item->set_recoverable_spaces(0); return $deleted_spaces; } sub tentatively_decrease_available_spaces { # We are asked to tentatively delete $spaces_needed of indentation # for a indentation item. We may want to undo this later. NOTE: if # there are child nodes, their total SPACES must be reduced by the # caller. my ( $item, $spaces_needed ) = @_; my $available_spaces = $item->get_available_spaces(); my $deleted_spaces = ( $available_spaces > $spaces_needed ) ? $spaces_needed : $available_spaces; $item->decrease_available_spaces($deleted_spaces); $item->decrease_SPACES($deleted_spaces); $item->increase_recoverable_spaces($deleted_spaces); return $deleted_spaces; } sub get_stack_depth { my $self = shift; return $self->{_stack_depth}; } sub get_spaces { my $self = shift; return $self->{_spaces}; } sub get_marked { my $self = shift; return $self->{_marked}; } sub set_marked { my ( $self, $value ) = @_; if ( defined($value) ) { $self->{_marked} = $value; } return $self->{_marked}; } sub get_available_spaces { my $self = shift; return $self->{_available_spaces}; } sub decrease_SPACES { my ( $self, $value ) = @_; if ( defined($value) ) { $self->{_spaces} -= $value; } return $self->{_spaces}; } sub decrease_available_spaces { my ( $self, $value ) = @_; if ( defined($value) ) { $self->{_available_spaces} -= $value; } return $self->{_available_spaces}; } sub get_align_paren { my $self = shift; return $self->{_align_paren}; } sub get_recoverable_spaces { my $self = shift; return $self->{_recoverable_spaces}; } sub set_recoverable_spaces { my ( $self, $value ) = @_; if ( defined($value) ) { $self->{_recoverable_spaces} = $value; } return $self->{_recoverable_spaces}; } sub increase_recoverable_spaces { my ( $self, $value ) = @_; if ( defined($value) ) { $self->{_recoverable_spaces} += $value; } return $self->{_recoverable_spaces}; } sub get_ci_level { my $self = shift; return $self->{_ci_level}; } sub get_level { my $self = shift; return $self->{_level}; } sub get_sequence_number { my $self = shift; return $self->{_sequence_number}; } sub get_index { my $self = shift; return $self->{_index}; } sub get_starting_index { my $self = shift; return $self->{_starting_index}; } sub set_have_child { my ( $self, $value ) = @_; if ( defined($value) ) { $self->{_have_child} = $value; } return $self->{_have_child}; } sub get_have_child { my $self = shift; return $self->{_have_child}; } sub set_arrow_count { my ( $self, $value ) = @_; if ( defined($value) ) { $self->{_arrow_count} = $value; } return $self->{_arrow_count}; } sub get_arrow_count { my $self = shift; return $self->{_arrow_count}; } sub set_comma_count { my ( $self, $value ) = @_; if ( defined($value) ) { $self->{_comma_count} = $value; } return $self->{_comma_count}; } sub get_comma_count { my $self = shift; return $self->{_comma_count}; } sub set_closed { my ( $self, $value ) = @_; if ( defined($value) ) { $self->{_closed} = $value; } return $self->{_closed}; } sub get_closed { my $self = shift; return $self->{_closed}; } ##################################################################### # # the Perl::Tidy::VerticalAligner::Line class supplies an object to # contain a single output line # ##################################################################### package Perl::Tidy::VerticalAligner::Line; { use strict; ##use Carp; my %default_data = ( jmax => undef, jmax_original_line => undef, rtokens => undef, rfields => undef, rpatterns => undef, indentation => undef, leading_space_count => undef, outdent_long_lines => undef, list_type => undef, is_hanging_side_comment => undef, ralignments => [], maximum_line_length => undef, rvertical_tightness_flags => undef ); { # methods to count object population my $_count = 0; sub get_count { return $_count; } sub _increment_count { return ++$_count } sub _decrement_count { return --$_count } } # Constructor may be called as a class method sub new { my ( $caller, %arg ) = @_; my $caller_is_obj = ref($caller); my $class = $caller_is_obj || $caller; ##no strict "refs"; my $self = bless {}, $class; $self->{_ralignments} = []; foreach my $key ( keys %default_data ) { my $_key = '_' . $key; # Caller keys do not have an underscore if ( exists $arg{$key} ) { $self->{$_key} = $arg{$key} } elsif ($caller_is_obj) { $self->{$_key} = $caller->{$_key} } else { $self->{$_key} = $default_data{$_key} } } $self->_increment_count(); return $self; } sub DESTROY { my $self = shift; $self->_decrement_count(); return; } sub get_jmax { my $self = shift; return $self->{_jmax} } sub get_jmax_original_line { my $self = shift; return $self->{_jmax_original_line}; } sub get_rtokens { my $self = shift; return $self->{_rtokens} } sub get_rfields { my $self = shift; return $self->{_rfields} } sub get_rpatterns { my $self = shift; return $self->{_rpatterns} } sub get_indentation { my $self = shift; return $self->{_indentation} } sub get_leading_space_count { my $self = shift; return $self->{_leading_space_count}; } sub get_outdent_long_lines { my $self = shift; return $self->{_outdent_long_lines}; } sub get_list_type { my $self = shift; return $self->{_list_type} } sub get_is_hanging_side_comment { my $self = shift; return $self->{_is_hanging_side_comment}; } sub get_rvertical_tightness_flags { my $self = shift; return $self->{_rvertical_tightness_flags}; } sub set_column { ## FIXME: does caller ever supply $val?? my ( $self, $j, $val ) = @_; return $self->{_ralignments}->[$j]->set_column($val); } sub get_alignment { my ( $self, $j ) = @_; return $self->{_ralignments}->[$j]; } sub get_alignments { my $self = shift; return @{ $self->{_ralignments} } } sub get_column { my ( $self, $j ) = @_; return $self->{_ralignments}->[$j]->get_column(); } sub get_starting_column { my ( $self, $j ) = @_; return $self->{_ralignments}->[$j]->get_starting_column(); } sub increment_column { my ( $self, $k, $pad ) = @_; $self->{_ralignments}->[$k]->increment_column($pad); return; } sub set_alignments { my $self = shift; @{ $self->{_ralignments} } = @_; return; } sub current_field_width { my ( $self, $j ) = @_; if ( $j == 0 ) { return $self->get_column($j); } else { return $self->get_column($j) - $self->get_column( $j - 1 ); } } sub field_width_growth { my ( $self, $j ) = @_; return $self->get_column($j) - $self->get_starting_column($j); } sub starting_field_width { my ( $self, $j ) = @_; if ( $j == 0 ) { return $self->get_starting_column($j); } else { return $self->get_starting_column($j) - $self->get_starting_column( $j - 1 ); } } sub increase_field_width { my ( $self, $j, $pad ) = @_; my $jmax = $self->get_jmax(); for my $k ( $j .. $jmax ) { $self->increment_column( $k, $pad ); } return; } sub get_available_space_on_right { my $self = shift; my $jmax = $self->get_jmax(); return $self->{_maximum_line_length} - $self->get_column($jmax); } sub set_jmax { my ( $self, $val ) = @_; $self->{_jmax} = $val; return } sub set_jmax_original_line { my ( $self, $val ) = @_; $self->{_jmax_original_line} = $val; return; } sub set_rtokens { my ( $self, $val ) = @_; $self->{_rtokens} = $val; return; } sub set_rfields { my ( $self, $val ) = @_; $self->{_rfields} = $val; return; } sub set_rpatterns { my ( $self, $val ) = @_; $self->{_rpatterns} = $val; return; } sub set_indentation { my ( $self, $val ) = @_; $self->{_indentation} = $val; return; } sub set_leading_space_count { my ( $self, $val ) = @_; $self->{_leading_space_count} = $val; return; } sub set_outdent_long_lines { my ( $self, $val ) = @_; $self->{_outdent_long_lines} = $val; return; } sub set_list_type { my ( $self, $val ) = @_; $self->{_list_type} = $val; return; } sub set_is_hanging_side_comment { my ( $self, $val ) = @_; $self->{_is_hanging_side_comment} = $val; return; } sub set_alignment { my ( $self, $j, $val ) = @_; $self->{_ralignments}->[$j] = $val; return; } } ##################################################################### # # the Perl::Tidy::VerticalAligner::Alignment class holds information # on a single column being aligned # ##################################################################### package Perl::Tidy::VerticalAligner::Alignment; { use strict; #use Carp; # _column # the current column number # _starting_column # column number when created # _matching_token # what token we are matching # _starting_line # the line index of creation # _ending_line # the most recent line to use it # _saved_column # _serial_number # unique number for this alignment my %default_data = ( column => undef, starting_column => undef, matching_token => undef, starting_line => undef, ending_line => undef, saved_column => undef, serial_number => undef, ); # class population count { my $_count = 0; sub get_count { return $_count } sub _increment_count { return ++$_count } sub _decrement_count { return --$_count } } # constructor sub new { my ( $caller, %arg ) = @_; my $caller_is_obj = ref($caller); my $class = $caller_is_obj || $caller; ##no strict "refs"; my $self = bless {}, $class; foreach my $key ( keys %default_data ) { my $_key = '_' . $key; if ( exists $arg{$key} ) { $self->{$_key} = $arg{$key} } elsif ($caller_is_obj) { $self->{$_key} = $caller->{$_key} } else { $self->{$_key} = $default_data{$_key} } } $self->_increment_count(); return $self; } sub DESTROY { my $self = shift; $self->_decrement_count(); return; } sub get_column { my $self = shift; return $self->{_column} } sub get_starting_column { my $self = shift; return $self->{_starting_column}; } sub get_matching_token { my $self = shift; return $self->{_matching_token} } sub get_starting_line { my $self = shift; return $self->{_starting_line} } sub get_ending_line { my $self = shift; return $self->{_ending_line} } sub get_serial_number { my $self = shift; return $self->{_serial_number} } sub set_column { my ( $self, $val ) = @_; $self->{_column} = $val; return } sub set_starting_column { my ( $self, $val ) = @_; $self->{_starting_column} = $val; return; } sub set_matching_token { my ( $self, $val ) = @_; $self->{_matching_token} = $val; return; } sub set_starting_line { my ( $self, $val ) = @_; $self->{_starting_line} = $val; return; } sub set_ending_line { my ( $self, $val ) = @_; $self->{_ending_line} = $val; return; } sub increment_column { my ( $self, $val ) = @_; $self->{_column} += $val; return; } sub save_column { my $self = shift; $self->{_saved_column} = $self->{_column}; return; } sub restore_column { my $self = shift; $self->{_column} = $self->{_saved_column}; return; } } package Perl::Tidy::VerticalAligner; # The Perl::Tidy::VerticalAligner package collects output lines and # attempts to line up certain common tokens, such as => and #, which are # identified by the calling routine. # # There are two main routines: valign_input and flush. Append acts as a # storage buffer, collecting lines into a group which can be vertically # aligned. When alignment is no longer possible or desirable, it dumps # the group to flush. # # valign_input -----> flush # # collects writes # vertical one # groups group BEGIN { # Caution: these debug flags produce a lot of output # They should all be 0 except when debugging small scripts use constant VALIGN_DEBUG_FLAG_APPEND => 0; use constant VALIGN_DEBUG_FLAG_APPEND0 => 0; use constant VALIGN_DEBUG_FLAG_TERNARY => 0; use constant VALIGN_DEBUG_FLAG_TABS => 0; my $debug_warning = sub { print STDOUT "VALIGN_DEBUGGING with key $_[0]\n"; return; }; VALIGN_DEBUG_FLAG_APPEND && $debug_warning->('APPEND'); VALIGN_DEBUG_FLAG_APPEND0 && $debug_warning->('APPEND0'); VALIGN_DEBUG_FLAG_TERNARY && $debug_warning->('TERNARY'); VALIGN_DEBUG_FLAG_TABS && $debug_warning->('TABS'); } use vars qw( $vertical_aligner_self $current_line $maximum_alignment_index $ralignment_list $maximum_jmax_seen $minimum_jmax_seen $previous_minimum_jmax_seen $previous_maximum_jmax_seen $maximum_line_index $group_level $group_type $group_maximum_gap $marginal_match $last_level_written $last_leading_space_count $extra_indent_ok $zero_count @group_lines $last_comment_column $last_side_comment_line_number $last_side_comment_length $last_side_comment_level $outdented_line_count $first_outdented_line_at $last_outdented_line_at $diagnostics_object $logger_object $file_writer_object @side_comment_history $comment_leading_space_count $is_matching_terminal_line $consecutive_block_comments $cached_line_text $cached_line_type $cached_line_flag $cached_seqno $cached_line_valid $cached_line_leading_space_count $cached_seqno_string $valign_buffer_filling @valign_buffer $seqno_string $last_nonblank_seqno_string $rOpts $rOpts_maximum_line_length $rOpts_variable_maximum_line_length $rOpts_continuation_indentation $rOpts_indent_columns $rOpts_tabs $rOpts_entab_leading_whitespace $rOpts_valign $rOpts_fixed_position_side_comment $rOpts_minimum_space_to_comment ); sub initialize { ( my $class, $rOpts, $file_writer_object, $logger_object, $diagnostics_object ) = @_; # variables describing the entire space group: $ralignment_list = []; $group_level = 0; $last_level_written = -1; $extra_indent_ok = 0; # can we move all lines to the right? $last_side_comment_length = 0; $maximum_jmax_seen = 0; $minimum_jmax_seen = 0; $previous_minimum_jmax_seen = 0; $previous_maximum_jmax_seen = 0; # variables describing each line of the group @group_lines = (); # list of all lines in group $outdented_line_count = 0; $first_outdented_line_at = 0; $last_outdented_line_at = 0; $last_side_comment_line_number = 0; $last_side_comment_level = -1; $is_matching_terminal_line = 0; # most recent 3 side comments; [ line number, column ] $side_comment_history[0] = [ -300, 0 ]; $side_comment_history[1] = [ -200, 0 ]; $side_comment_history[2] = [ -100, 0 ]; # valign_output_step_B cache: $cached_line_text = ""; $cached_line_type = 0; $cached_line_flag = 0; $cached_seqno = 0; $cached_line_valid = 0; $cached_line_leading_space_count = 0; $cached_seqno_string = ""; # string of sequence numbers joined together $seqno_string = ""; $last_nonblank_seqno_string = ""; # frequently used parameters $rOpts_indent_columns = $rOpts->{'indent-columns'}; $rOpts_tabs = $rOpts->{'tabs'}; $rOpts_entab_leading_whitespace = $rOpts->{'entab-leading-whitespace'}; $rOpts_fixed_position_side_comment = $rOpts->{'fixed-position-side-comment'}; $rOpts_minimum_space_to_comment = $rOpts->{'minimum-space-to-comment'}; $rOpts_maximum_line_length = $rOpts->{'maximum-line-length'}; $rOpts_variable_maximum_line_length = $rOpts->{'variable-maximum-line-length'}; $rOpts_valign = $rOpts->{'valign'}; $consecutive_block_comments = 0; forget_side_comment(); initialize_for_new_group(); $vertical_aligner_self = {}; bless $vertical_aligner_self, $class; return $vertical_aligner_self; } sub initialize_for_new_group { $maximum_line_index = -1; # lines in the current group $maximum_alignment_index = -1; # alignments in current group $zero_count = 0; # count consecutive lines without tokens $current_line = undef; # line being matched for alignment $group_maximum_gap = 0; # largest gap introduced $group_type = ""; $marginal_match = 0; $comment_leading_space_count = 0; $last_leading_space_count = 0; return; } # interface to Perl::Tidy::Diagnostics routines sub write_diagnostics { my $msg = shift; if ($diagnostics_object) { $diagnostics_object->write_diagnostics($msg); } return; } # interface to Perl::Tidy::Logger routines sub warning { my ($msg) = @_; if ($logger_object) { $logger_object->warning($msg); } return; } sub write_logfile_entry { my ($msg) = @_; if ($logger_object) { $logger_object->write_logfile_entry($msg); } return; } sub report_definite_bug { if ($logger_object) { $logger_object->report_definite_bug(); } return; } sub get_spaces { # return the number of leading spaces associated with an indentation # variable $indentation is either a constant number of spaces or an # object with a get_spaces method. my $indentation = shift; return ref($indentation) ? $indentation->get_spaces() : $indentation; } sub get_recoverable_spaces { # return the number of spaces (+ means shift right, - means shift left) # that we would like to shift a group of lines with the same indentation # to get them to line up with their opening parens my $indentation = shift; return ref($indentation) ? $indentation->get_recoverable_spaces() : 0; } sub get_stack_depth { my $indentation = shift; return ref($indentation) ? $indentation->get_stack_depth() : 0; } sub make_alignment { my ( $col, $token ) = @_; # make one new alignment at column $col which aligns token $token ++$maximum_alignment_index; my $alignment = new Perl::Tidy::VerticalAligner::Alignment( column => $col, starting_column => $col, matching_token => $token, starting_line => $maximum_line_index, ending_line => $maximum_line_index, serial_number => $maximum_alignment_index, ); $ralignment_list->[$maximum_alignment_index] = $alignment; return $alignment; } sub dump_alignments { print STDOUT "Current Alignments:\ni\ttoken\tstarting_column\tcolumn\tstarting_line\tending_line\n"; for my $i ( 0 .. $maximum_alignment_index ) { my $column = $ralignment_list->[$i]->get_column(); my $starting_column = $ralignment_list->[$i]->get_starting_column(); my $matching_token = $ralignment_list->[$i]->get_matching_token(); my $starting_line = $ralignment_list->[$i]->get_starting_line(); my $ending_line = $ralignment_list->[$i]->get_ending_line(); print STDOUT "$i\t$matching_token\t$starting_column\t$column\t$starting_line\t$ending_line\n"; } return; } sub save_alignment_columns { for my $i ( 0 .. $maximum_alignment_index ) { $ralignment_list->[$i]->save_column(); } return; } sub restore_alignment_columns { for my $i ( 0 .. $maximum_alignment_index ) { $ralignment_list->[$i]->restore_column(); } return; } sub forget_side_comment { $last_comment_column = 0; return; } sub maximum_line_length_for_level { # return maximum line length for line starting with a given level my $maximum_line_length = $rOpts_maximum_line_length; if ($rOpts_variable_maximum_line_length) { my $level = shift; if ( $level < 0 ) { $level = 0 } $maximum_line_length += $level * $rOpts_indent_columns; } return $maximum_line_length; } sub valign_input { # Place one line in the current vertical group. # # The input parameters are: # $level = indentation level of this line # $rfields = reference to array of fields # $rpatterns = reference to array of patterns, one per field # $rtokens = reference to array of tokens starting fields 1,2,.. # # Here is an example of what this package does. In this example, # we are trying to line up both the '=>' and the '#'. # # '18' => 'grave', # \` # '19' => 'acute', # `' # '20' => 'caron', # \v # <-tabs-><--field 2 ---><-f3-> # | | | | # | | | | # col1 col2 col3 col4 # # The calling routine has already broken the entire line into 3 fields as # indicated. (So the work of identifying promising common tokens has # already been done). # # In this example, there will be 2 tokens being matched: '=>' and '#'. # They are the leading parts of fields 2 and 3, but we do need to know # what they are so that we can dump a group of lines when these tokens # change. # # The fields contain the actual characters of each field. The patterns # are like the fields, but they contain mainly token types instead # of tokens, so they have fewer characters. They are used to be # sure we are matching fields of similar type. # # In this example, there will be 4 column indexes being adjusted. The # first one is always at zero. The interior columns are at the start of # the matching tokens, and the last one tracks the maximum line length. # # Each time a new line comes in, it joins the current vertical # group if possible. Otherwise it causes the current group to be dumped # and a new group is started. # # For each new group member, the column locations are increased, as # necessary, to make room for the new fields. When the group is finally # output, these column numbers are used to compute the amount of spaces of # padding needed for each field. # # Programming note: the fields are assumed not to have any tab characters. # Tabs have been previously removed except for tabs in quoted strings and # side comments. Tabs in these fields can mess up the column counting. # The log file warns the user if there are any such tabs. my ( $level, $level_end, $indentation, $rfields, $rtokens, $rpatterns, $is_forced_break, $outdent_long_lines, $is_terminal_ternary, $is_terminal_statement, $do_not_pad, $rvertical_tightness_flags, $level_jump, ) = @_; # number of fields is $jmax # number of tokens between fields is $jmax-1 my $jmax = $#{$rfields}; my $leading_space_count = get_spaces($indentation); # set outdented flag to be sure we either align within statements or # across statement boundaries, but not both. my $is_outdented = $last_leading_space_count > $leading_space_count; $last_leading_space_count = $leading_space_count; # Patch: undo for hanging side comment my $is_hanging_side_comment = ( $jmax == 1 && $rtokens->[0] eq '#' && $rfields->[0] =~ /^\s*$/ ); $is_outdented = 0 if $is_hanging_side_comment; # Forget side comment alignment after seeing 2 or more block comments my $is_block_comment = ( $jmax == 0 && $rfields->[0] =~ /^#/ ); if ($is_block_comment) { $consecutive_block_comments++; } else { if ( $consecutive_block_comments > 1 ) { forget_side_comment() } $consecutive_block_comments = 0; } VALIGN_DEBUG_FLAG_APPEND0 && do { print STDOUT "APPEND0: entering lines=$maximum_line_index new #fields= $jmax, leading_count=$leading_space_count last_cmt=$last_comment_column force=$is_forced_break\n"; }; # Validate cached line if necessary: If we can produce a container # with just 2 lines total by combining an existing cached opening # token with the closing token to follow, then we will mark both # cached flags as valid. if ($rvertical_tightness_flags) { if ( $maximum_line_index <= 0 && $cached_line_type && $cached_seqno && $rvertical_tightness_flags->[2] && $rvertical_tightness_flags->[2] == $cached_seqno ) { $rvertical_tightness_flags->[3] ||= 1; $cached_line_valid ||= 1; } } # do not join an opening block brace with an unbalanced line # unless requested with a flag value of 2 if ( $cached_line_type == 3 && $maximum_line_index < 0 && $cached_line_flag < 2 && $level_jump != 0 ) { $cached_line_valid = 0; } # patch until new aligner is finished if ($do_not_pad) { my_flush() } # shouldn't happen: if ( $level < 0 ) { $level = 0 } # do not align code across indentation level changes # or if vertical alignment is turned off for debugging if ( $level != $group_level || $is_outdented || !$rOpts_valign ) { # we are allowed to shift a group of lines to the right if its # level is greater than the previous and next group $extra_indent_ok = ( $level < $group_level && $last_level_written < $group_level ); my_flush(); # If we know that this line will get flushed out by itself because # of level changes, we can leave the extra_indent_ok flag set. # That way, if we get an external flush call, we will still be # able to do some -lp alignment if necessary. $extra_indent_ok = ( $is_terminal_statement && $level > $group_level ); $group_level = $level; # wait until after the above flush to get the leading space # count because it may have been changed if the -icp flag is in # effect $leading_space_count = get_spaces($indentation); } # -------------------------------------------------------------------- # Patch to collect outdentable block COMMENTS # -------------------------------------------------------------------- my $is_blank_line = ""; if ( $group_type eq 'COMMENT' ) { if ( ( $is_block_comment && $outdent_long_lines && $leading_space_count == $comment_leading_space_count ) || $is_blank_line ) { $group_lines[ ++$maximum_line_index ] = $rfields->[0]; return; } else { my_flush(); } } # -------------------------------------------------------------------- # add dummy fields for terminal ternary # -------------------------------------------------------------------- my $j_terminal_match; if ( $is_terminal_ternary && $current_line ) { $j_terminal_match = fix_terminal_ternary( $rfields, $rtokens, $rpatterns ); $jmax = @{$rfields} - 1; } # -------------------------------------------------------------------- # add dummy fields for else statement # -------------------------------------------------------------------- if ( $rfields->[0] =~ /^else\s*$/ && $current_line && $level_jump == 0 ) { $j_terminal_match = fix_terminal_else( $rfields, $rtokens, $rpatterns ); $jmax = @{$rfields} - 1; } # -------------------------------------------------------------------- # Step 1. Handle simple line of code with no fields to match. # -------------------------------------------------------------------- if ( $jmax <= 0 ) { $zero_count++; if ( $maximum_line_index >= 0 && !get_recoverable_spaces( $group_lines[0]->get_indentation() ) ) { # flush the current group if it has some aligned columns.. if ( $group_lines[0]->get_jmax() > 1 ) { my_flush() } # flush current group if we are just collecting side comments.. elsif ( # ...and we haven't seen a comment lately ( $zero_count > 3 ) # ..or if this new line doesn't fit to the left of the comments || ( ( $leading_space_count + length( $rfields->[0] ) ) > $group_lines[0]->get_column(0) ) ) { my_flush(); } } # patch to start new COMMENT group if this comment may be outdented if ( $is_block_comment && $outdent_long_lines && $maximum_line_index < 0 ) { $group_type = 'COMMENT'; $comment_leading_space_count = $leading_space_count; $group_lines[ ++$maximum_line_index ] = $rfields->[0]; return; } # just write this line directly if no current group, no side comment, # and no space recovery is needed. if ( $maximum_line_index < 0 && !get_recoverable_spaces($indentation) ) { valign_output_step_B( $leading_space_count, $rfields->[0], 0, $outdent_long_lines, $rvertical_tightness_flags, $level ); return; } } else { $zero_count = 0; } # programming check: (shouldn't happen) # an error here implies an incorrect call was made if ( $jmax > 0 && ( $#{$rtokens} != ( $jmax - 1 ) ) ) { warning( "Program bug in Perl::Tidy::VerticalAligner - number of tokens = $#{$rtokens} should be one less than number of fields: $#{$rfields})\n" ); report_definite_bug(); } # -------------------------------------------------------------------- # create an object to hold this line # -------------------------------------------------------------------- my $new_line = new Perl::Tidy::VerticalAligner::Line( jmax => $jmax, jmax_original_line => $jmax, rtokens => $rtokens, rfields => $rfields, rpatterns => $rpatterns, indentation => $indentation, leading_space_count => $leading_space_count, outdent_long_lines => $outdent_long_lines, list_type => "", is_hanging_side_comment => $is_hanging_side_comment, maximum_line_length => maximum_line_length_for_level($level), rvertical_tightness_flags => $rvertical_tightness_flags, ); # Initialize a global flag saying if the last line of the group should # match end of group and also terminate the group. There should be no # returns between here and where the flag is handled at the bottom. my $col_matching_terminal = 0; if ( defined($j_terminal_match) ) { # remember the column of the terminal ? or { to match with $col_matching_terminal = $current_line->get_column($j_terminal_match); # set global flag for sub decide_if_aligned $is_matching_terminal_line = 1; } # -------------------------------------------------------------------- # It simplifies things to create a zero length side comment # if none exists. # -------------------------------------------------------------------- make_side_comment( $new_line, $level_end ); # -------------------------------------------------------------------- # Decide if this is a simple list of items. # There are 3 list types: none, comma, comma-arrow. # We use this below to be less restrictive in deciding what to align. # -------------------------------------------------------------------- if ($is_forced_break) { decide_if_list($new_line); } if ($current_line) { # -------------------------------------------------------------------- # Allow hanging side comment to join current group, if any # This will help keep side comments aligned, because otherwise we # will have to start a new group, making alignment less likely. # -------------------------------------------------------------------- join_hanging_comment( $new_line, $current_line ) if $is_hanging_side_comment; # -------------------------------------------------------------------- # If there is just one previous line, and it has more fields # than the new line, try to join fields together to get a match with # the new line. At the present time, only a single leading '=' is # allowed to be compressed out. This is useful in rare cases where # a table is forced to use old breakpoints because of side comments, # and the table starts out something like this: # my %MonthChars = ('0', 'Jan', # side comment # '1', 'Feb', # '2', 'Mar', # Eliminating the '=' field will allow the remaining fields to line up. # This situation does not occur if there are no side comments # because scan_list would put a break after the opening '('. # -------------------------------------------------------------------- eliminate_old_fields( $new_line, $current_line ); # -------------------------------------------------------------------- # If the new line has more fields than the current group, # see if we can match the first fields and combine the remaining # fields of the new line. # -------------------------------------------------------------------- eliminate_new_fields( $new_line, $current_line ); # -------------------------------------------------------------------- # Flush previous group unless all common tokens and patterns match.. # -------------------------------------------------------------------- check_match( $new_line, $current_line ); # -------------------------------------------------------------------- # See if there is space for this line in the current group (if any) # -------------------------------------------------------------------- if ($current_line) { check_fit( $new_line, $current_line ); } } # -------------------------------------------------------------------- # Append this line to the current group (or start new group) # -------------------------------------------------------------------- add_to_group($new_line); # Future update to allow this to vary: $current_line = $new_line if ( $maximum_line_index == 0 ); # output this group if it ends in a terminal else or ternary line if ( defined($j_terminal_match) ) { # if there is only one line in the group (maybe due to failure to match # perfectly with previous lines), then align the ? or { of this # terminal line with the previous one unless that would make the line # too long if ( $maximum_line_index == 0 ) { my $col_now = $current_line->get_column($j_terminal_match); my $pad = $col_matching_terminal - $col_now; my $padding_available = $current_line->get_available_space_on_right(); if ( $pad > 0 && $pad <= $padding_available ) { $current_line->increase_field_width( $j_terminal_match, $pad ); } } my_flush(); $is_matching_terminal_line = 0; } # -------------------------------------------------------------------- # Step 8. Some old debugging stuff # -------------------------------------------------------------------- VALIGN_DEBUG_FLAG_APPEND && do { print STDOUT "APPEND fields:"; dump_array( @{$rfields} ); print STDOUT "APPEND tokens:"; dump_array( @{$rtokens} ); print STDOUT "APPEND patterns:"; dump_array( @{$rpatterns} ); dump_alignments(); }; return; } sub join_hanging_comment { my $line = shift; my $jmax = $line->get_jmax(); return 0 unless $jmax == 1; # must be 2 fields my $rtokens = $line->get_rtokens(); return 0 unless $rtokens->[0] eq '#'; # the second field is a comment.. my $rfields = $line->get_rfields(); return 0 unless $rfields->[0] =~ /^\s*$/; # the first field is empty... my $old_line = shift; my $maximum_field_index = $old_line->get_jmax(); return 0 unless $maximum_field_index > $jmax; # the current line has more fields my $rpatterns = $line->get_rpatterns(); $line->set_is_hanging_side_comment(1); $jmax = $maximum_field_index; $line->set_jmax($jmax); $rfields->[$jmax] = $rfields->[1]; $rtokens->[ $jmax - 1 ] = $rtokens->[0]; $rpatterns->[ $jmax - 1 ] = $rpatterns->[0]; foreach my $j ( 1 .. $jmax - 1 ) { $rfields->[$j] = " "; # NOTE: caused glitch unless 1 blank, why? $rtokens->[ $j - 1 ] = ""; $rpatterns->[ $j - 1 ] = ""; } return 1; } sub eliminate_old_fields { my $new_line = shift; my $jmax = $new_line->get_jmax(); if ( $jmax > $maximum_jmax_seen ) { $maximum_jmax_seen = $jmax } if ( $jmax < $minimum_jmax_seen ) { $minimum_jmax_seen = $jmax } # there must be one previous line return unless ( $maximum_line_index == 0 ); my $old_line = shift; my $maximum_field_index = $old_line->get_jmax(); ############################################### # Moved below to allow new coding for => matches # return unless $maximum_field_index > $jmax; ############################################### # Identify specific cases where field elimination is allowed: # case=1: both lines have comma-separated lists, and the first # line has an equals # case=2: both lines have leading equals # case 1 is the default my $case = 1; # See if case 2: both lines have leading '=' # We'll require similar leading patterns in this case my $old_rtokens = $old_line->get_rtokens(); my $rtokens = $new_line->get_rtokens(); my $rpatterns = $new_line->get_rpatterns(); my $old_rpatterns = $old_line->get_rpatterns(); if ( $rtokens->[0] =~ /^=>?\d*$/ && $old_rtokens->[0] eq $rtokens->[0] && $old_rpatterns->[0] eq $rpatterns->[0] ) { $case = 2; } # not too many fewer fields in new line for case 1 return unless ( $case != 1 || $maximum_field_index - 2 <= $jmax ); # case 1 must have side comment my $old_rfields = $old_line->get_rfields(); return if ( $case == 1 && length( $old_rfields->[$maximum_field_index] ) == 0 ); my $rfields = $new_line->get_rfields(); my $hid_equals = 0; my @new_alignments = (); my @new_fields = (); my @new_matching_patterns = (); my @new_matching_tokens = (); my $j = 0; my $current_field = ''; my $current_pattern = ''; # loop over all old tokens my $in_match = 0; foreach my $k ( 0 .. $maximum_field_index - 1 ) { $current_field .= $old_rfields->[$k]; $current_pattern .= $old_rpatterns->[$k]; last if ( $j > $jmax - 1 ); if ( $old_rtokens->[$k] eq $rtokens->[$j] ) { $in_match = 1; $new_fields[$j] = $current_field; $new_matching_patterns[$j] = $current_pattern; $current_field = ''; $current_pattern = ''; $new_matching_tokens[$j] = $old_rtokens->[$k]; $new_alignments[$j] = $old_line->get_alignment($k); $j++; } else { if ( $old_rtokens->[$k] =~ /^\=\d*$/ ) { last if ( $case == 2 ); # avoid problems with stuff # like: $a=$b=$c=$d; $hid_equals = 1; } last if ( $in_match && $case == 1 ) ; # disallow gaps in matching field types in case 1 } } # Modify the current state if we are successful. # We must exactly reach the ends of the new list for success, and the old # pattern must have more fields. Here is an example where the first and # second lines have the same number, and we should not align: # my @a = map chr, 0 .. 255; # my @b = grep /\W/, @a; # my @c = grep /[^\w]/, @a; # Otherwise, we would get all of the commas aligned, which doesn't work as # well: # my @a = map chr, 0 .. 255; # my @b = grep /\W/, @a; # my @c = grep /[^\w]/, @a; if ( ( $j == $jmax ) && ( $current_field eq '' ) && ( $case != 1 || $hid_equals ) && ( $maximum_field_index > $jmax ) ) { my $k = $maximum_field_index; $current_field .= $old_rfields->[$k]; $current_pattern .= $old_rpatterns->[$k]; $new_fields[$j] = $current_field; $new_matching_patterns[$j] = $current_pattern; $new_alignments[$j] = $old_line->get_alignment($k); $maximum_field_index = $j; $old_line->set_alignments(@new_alignments); $old_line->set_jmax($jmax); $old_line->set_rtokens( \@new_matching_tokens ); $old_line->set_rfields( \@new_fields ); $old_line->set_rpatterns( \@{$rpatterns} ); } # Dumb Down starting match if necessary: # # Consider the following two lines: # # { # $a => 20 > 3 ? 1 : 0, # $xyz => 5, # } # We would like to get alignment regardless of the order of the two lines. # If the lines come in in this order, then we will simplify the patterns of the first line # in sub eliminate_new_fields. # If the lines come in reverse order, then we achieve this with eliminate_new_fields. # This update is currently restricted to leading '=>' matches. Although we # could do this for both '=' and '=>', overall the results for '=' come out # better without this step because this step can eliminate some other good # matches. For example, with the '=' we get: # my @disilva = ( "di Silva", "diSilva", "di Si\x{301}lva", "diSi\x{301}lva" ); # my @dsf = map "$_\x{FFFE}Fred", @disilva; # my @dsj = map "$_\x{FFFE}John", @disilva; # my @dsJ = map "$_ John", @disilva; # without including '=' we get: # my @disilva = ( "di Silva", "diSilva", "di Si\x{301}lva", "diSi\x{301}lva" ); # my @dsf = map "$_\x{FFFE}Fred", @disilva; # my @dsj = map "$_\x{FFFE}John", @disilva; # my @dsJ = map "$_ John", @disilva; elsif ( $case == 2 && @new_matching_tokens == 1 ##&& $new_matching_tokens[0] =~ /^=/ # see note above && $new_matching_tokens[0] =~ /^=>/ && $maximum_field_index > 2 ) { my $jmaxm = $jmax - 1; my $kmaxm = $maximum_field_index - 1; my $have_side_comment = $old_rtokens->[$kmaxm] eq '#'; # We need to reduce the group pattern to be just two tokens, # the leading equality or => and the final side comment my $mid_field = join "", @{$old_rfields}[ 1 .. $maximum_field_index - 1 ]; my $mid_patterns = join "", @{$old_rpatterns}[ 1 .. $maximum_field_index - 1 ]; my @new_alignments = ( $old_line->get_alignment(0), $old_line->get_alignment( $maximum_field_index - 1 ) ); my @new_tokens = ( $old_rtokens->[0], $old_rtokens->[ $maximum_field_index - 1 ] ); my @new_fields = ( $old_rfields->[0], $mid_field, $old_rfields->[$maximum_field_index] ); my @new_patterns = ( $old_rpatterns->[0], $mid_patterns, $old_rpatterns->[$maximum_field_index] ); $maximum_field_index = 2; $old_line->set_jmax($maximum_field_index); $old_line->set_rtokens( \@new_tokens ); $old_line->set_rfields( \@new_fields ); $old_line->set_rpatterns( \@new_patterns ); initialize_for_new_group(); add_to_group($old_line); $current_line = $old_line; } return; } # create an empty side comment if none exists sub make_side_comment { my ( $new_line, $level_end ) = @_; my $jmax = $new_line->get_jmax(); my $rtokens = $new_line->get_rtokens(); # if line does not have a side comment... if ( ( $jmax == 0 ) || ( $rtokens->[ $jmax - 1 ] ne '#' ) ) { my $rfields = $new_line->get_rfields(); my $rpatterns = $new_line->get_rpatterns(); $rtokens->[$jmax] = '#'; $rfields->[ ++$jmax ] = ''; $rpatterns->[$jmax] = '#'; $new_line->set_jmax($jmax); $new_line->set_jmax_original_line($jmax); } # line has a side comment.. else { # don't remember old side comment location for very long my $line_number = $vertical_aligner_self->get_output_line_number(); my $rfields = $new_line->get_rfields(); if ( $line_number - $last_side_comment_line_number > 12 # and don't remember comment location across block level changes || ( $level_end < $last_side_comment_level && $rfields->[0] =~ /^}/ ) ) { forget_side_comment(); } $last_side_comment_line_number = $line_number; $last_side_comment_level = $level_end; } return; } sub decide_if_list { my $line = shift; # A list will be taken to be a line with a forced break in which all # of the field separators are commas or comma-arrows (except for the # trailing #) # List separator tokens are things like ',3' or '=>2', # where the trailing digit is the nesting depth. Allow braces # to allow nested list items. my $rtokens = $line->get_rtokens(); my $test_token = $rtokens->[0]; if ( $test_token =~ /^(\,|=>)/ ) { my $list_type = $test_token; my $jmax = $line->get_jmax(); foreach ( 1 .. $jmax - 2 ) { if ( $rtokens->[$_] !~ /^(\,|=>|\{)/ ) { $list_type = ""; last; } } $line->set_list_type($list_type); } return; } sub eliminate_new_fields { my ( $new_line, $old_line ) = @_; return unless ( $maximum_line_index >= 0 ); my $jmax = $new_line->get_jmax(); my $old_rtokens = $old_line->get_rtokens(); my $rtokens = $new_line->get_rtokens(); my $is_assignment = ( $rtokens->[0] =~ /^=>?\d*$/ && ( $old_rtokens->[0] eq $rtokens->[0] ) ); # must be monotonic variation return unless ( $is_assignment || $previous_maximum_jmax_seen <= $jmax ); # must be more fields in the new line my $maximum_field_index = $old_line->get_jmax(); return unless ( $maximum_field_index < $jmax ); unless ($is_assignment) { return unless ( $old_line->get_jmax_original_line() == $minimum_jmax_seen ) ; # only if monotonic # never combine fields of a comma list return unless ( $maximum_field_index > 1 ) && ( $new_line->get_list_type() !~ /^,/ ); } my $rfields = $new_line->get_rfields(); my $rpatterns = $new_line->get_rpatterns(); my $old_rpatterns = $old_line->get_rpatterns(); # loop over all OLD tokens except comment and check match my $match = 1; foreach my $k ( 0 .. $maximum_field_index - 2 ) { if ( ( $old_rtokens->[$k] ne $rtokens->[$k] ) || ( $old_rpatterns->[$k] ne $rpatterns->[$k] ) ) { $match = 0; last; } } # first tokens agree, so combine extra new tokens if ($match) { ##for my $k ( $maximum_field_index .. $jmax - 1 ) { foreach my $k ( $maximum_field_index .. $jmax - 1 ) { $rfields->[ $maximum_field_index - 1 ] .= $rfields->[$k]; $rfields->[$k] = ""; $rpatterns->[ $maximum_field_index - 1 ] .= $rpatterns->[$k]; $rpatterns->[$k] = ""; } $rtokens->[ $maximum_field_index - 1 ] = '#'; $rfields->[$maximum_field_index] = $rfields->[$jmax]; $rpatterns->[$maximum_field_index] = $rpatterns->[$jmax]; $jmax = $maximum_field_index; } $new_line->set_jmax($jmax); return; } sub fix_terminal_ternary { # Add empty fields as necessary to align a ternary term # like this: # # my $leapyear = # $year % 4 ? 0 # : $year % 100 ? 1 # : $year % 400 ? 0 # : 1; # # returns 1 if the terminal item should be indented my ( $rfields, $rtokens, $rpatterns ) = @_; my $jmax = @{$rfields} - 1; my $old_line = $group_lines[$maximum_line_index]; my $rfields_old = $old_line->get_rfields(); my $rpatterns_old = $old_line->get_rpatterns(); my $rtokens_old = $old_line->get_rtokens(); my $maximum_field_index = $old_line->get_jmax(); # look for the question mark after the : my ($jquestion); my $depth_question; my $pad = ""; foreach my $j ( 0 .. $maximum_field_index - 1 ) { my $tok = $rtokens_old->[$j]; if ( $tok =~ /^\?(\d+)$/ ) { $depth_question = $1; # depth must be correct next unless ( $depth_question eq $group_level ); $jquestion = $j; if ( $rfields_old->[ $j + 1 ] =~ /^(\?\s*)/ ) { $pad = " " x length($1); } else { return; # shouldn't happen } last; } } return unless ( defined($jquestion) ); # shouldn't happen # Now splice the tokens and patterns of the previous line # into the else line to insure a match. Add empty fields # as necessary. my $jadd = $jquestion; # Work on copies of the actual arrays in case we have # to return due to an error my @fields = @{$rfields}; my @patterns = @{$rpatterns}; my @tokens = @{$rtokens}; VALIGN_DEBUG_FLAG_TERNARY && do { local $" = '><'; print STDOUT "CURRENT FIELDS=<@{$rfields_old}>\n"; print STDOUT "CURRENT TOKENS=<@{$rtokens_old}>\n"; print STDOUT "CURRENT PATTERNS=<@{$rpatterns_old}>\n"; print STDOUT "UNMODIFIED FIELDS=<@{$rfields}>\n"; print STDOUT "UNMODIFIED TOKENS=<@{$rtokens}>\n"; print STDOUT "UNMODIFIED PATTERNS=<@{$rpatterns}>\n"; }; # handle cases of leading colon on this line if ( $fields[0] =~ /^(:\s*)(.*)$/ ) { my ( $colon, $therest ) = ( $1, $2 ); # Handle sub-case of first field with leading colon plus additional code # This is the usual situation as at the '1' below: # ... # : $year % 400 ? 0 # : 1; if ($therest) { # Split the first field after the leading colon and insert padding. # Note that this padding will remain even if the terminal value goes # out on a separate line. This does not seem to look to bad, so no # mechanism has been included to undo it. my $field1 = shift @fields; unshift @fields, ( $colon, $pad . $therest ); # change the leading pattern from : to ? return unless ( $patterns[0] =~ s/^\:/?/ ); # install leading tokens and patterns of existing line unshift( @tokens, @{$rtokens_old}[ 0 .. $jquestion ] ); unshift( @patterns, @{$rpatterns_old}[ 0 .. $jquestion ] ); # insert appropriate number of empty fields splice( @fields, 1, 0, ('') x $jadd ) if $jadd; } # handle sub-case of first field just equal to leading colon. # This can happen for example in the example below where # the leading '(' would create a new alignment token # : ( $name =~ /[]}]$/ ) ? ( $mname = $name ) # : ( $mname = $name . '->' ); else { return unless ( $jmax > 0 && $tokens[0] ne '#' ); # shouldn't happen # prepend a leading ? onto the second pattern $patterns[1] = "?b" . $patterns[1]; # pad the second field $fields[1] = $pad . $fields[1]; # install leading tokens and patterns of existing line, replacing # leading token and inserting appropriate number of empty fields splice( @tokens, 0, 1, @{$rtokens_old}[ 0 .. $jquestion ] ); splice( @patterns, 1, 0, @{$rpatterns_old}[ 1 .. $jquestion ] ); splice( @fields, 1, 0, ('') x $jadd ) if $jadd; } } # Handle case of no leading colon on this line. This will # be the case when -wba=':' is used. For example, # $year % 400 ? 0 : # 1; else { # install leading tokens and patterns of existing line $patterns[0] = '?' . 'b' . $patterns[0]; unshift( @tokens, @{$rtokens_old}[ 0 .. $jquestion ] ); unshift( @patterns, @{$rpatterns_old}[ 0 .. $jquestion ] ); # insert appropriate number of empty fields $jadd = $jquestion + 1; $fields[0] = $pad . $fields[0]; splice( @fields, 0, 0, ('') x $jadd ) if $jadd; } VALIGN_DEBUG_FLAG_TERNARY && do { local $" = '><'; print STDOUT "MODIFIED TOKENS=<@tokens>\n"; print STDOUT "MODIFIED PATTERNS=<@patterns>\n"; print STDOUT "MODIFIED FIELDS=<@fields>\n"; }; # all ok .. update the arrays @{$rfields} = @fields; @{$rtokens} = @tokens; @{$rpatterns} = @patterns; # force a flush after this line return $jquestion; } sub fix_terminal_else { # Add empty fields as necessary to align a balanced terminal # else block to a previous if/elsif/unless block, # like this: # # if ( 1 || $x ) { print "ok 13\n"; } # else { print "not ok 13\n"; } # # returns 1 if the else block should be indented # my ( $rfields, $rtokens, $rpatterns ) = @_; my $jmax = @{$rfields} - 1; return unless ( $jmax > 0 ); # check for balanced else block following if/elsif/unless my $rfields_old = $current_line->get_rfields(); # TBD: add handling for 'case' return unless ( $rfields_old->[0] =~ /^(if|elsif|unless)\s*$/ ); # look for the opening brace after the else, and extract the depth my $tok_brace = $rtokens->[0]; my $depth_brace; if ( $tok_brace =~ /^\{(\d+)/ ) { $depth_brace = $1; } # probably: "else # side_comment" else { return } my $rpatterns_old = $current_line->get_rpatterns(); my $rtokens_old = $current_line->get_rtokens(); my $maximum_field_index = $current_line->get_jmax(); # be sure the previous if/elsif is followed by an opening paren my $jparen = 0; my $tok_paren = '(' . $depth_brace; my $tok_test = $rtokens_old->[$jparen]; return unless ( $tok_test eq $tok_paren ); # shouldn't happen # Now find the opening block brace my ($jbrace); foreach my $j ( 1 .. $maximum_field_index - 1 ) { my $tok = $rtokens_old->[$j]; if ( $tok eq $tok_brace ) { $jbrace = $j; last; } } return unless ( defined($jbrace) ); # shouldn't happen # Now splice the tokens and patterns of the previous line # into the else line to insure a match. Add empty fields # as necessary. my $jadd = $jbrace - $jparen; splice( @{$rtokens}, 0, 0, @{$rtokens_old}[ $jparen .. $jbrace - 1 ] ); splice( @{$rpatterns}, 1, 0, @{$rpatterns_old}[ $jparen + 1 .. $jbrace ] ); splice( @{$rfields}, 1, 0, ('') x $jadd ); # force a flush after this line if it does not follow a case if ( $rfields_old->[0] =~ /^case\s*$/ ) { return } else { return $jbrace } } { # sub check_match my %is_good_alignment; BEGIN { # Vertically aligning on certain "good" tokens is usually okay # so we can be less restrictive in marginal cases. my @q = qw( { ? => = ); push @q, (','); @is_good_alignment{@q} = (1) x scalar(@q); } sub check_match { # See if the current line matches the current vertical alignment group. # If not, flush the current group. my ( $new_line, $old_line ) = @_; # uses global variables: # $previous_minimum_jmax_seen # $maximum_jmax_seen # $maximum_line_index # $marginal_match my $jmax = $new_line->get_jmax(); my $maximum_field_index = $old_line->get_jmax(); # flush if this line has too many fields if ( $jmax > $maximum_field_index ) { goto NO_MATCH } # flush if adding this line would make a non-monotonic field count if ( ( $maximum_field_index > $jmax ) # this has too few fields && ( ( $previous_minimum_jmax_seen < $jmax ) # and wouldn't be monotonic || ( $old_line->get_jmax_original_line() != $maximum_jmax_seen ) ) ) { goto NO_MATCH; } # otherwise see if this line matches the current group my $jmax_original_line = $new_line->get_jmax_original_line(); my $is_hanging_side_comment = $new_line->get_is_hanging_side_comment(); my $rtokens = $new_line->get_rtokens(); my $rfields = $new_line->get_rfields(); my $rpatterns = $new_line->get_rpatterns(); my $list_type = $new_line->get_list_type(); my $group_list_type = $old_line->get_list_type(); my $old_rpatterns = $old_line->get_rpatterns(); my $old_rtokens = $old_line->get_rtokens(); my $jlimit = $jmax - 1; if ( $maximum_field_index > $jmax ) { $jlimit = $jmax_original_line; --$jlimit unless ( length( $new_line->get_rfields()->[$jmax] ) ); } # handle comma-separated lists .. if ( $group_list_type && ( $list_type eq $group_list_type ) ) { for my $j ( 0 .. $jlimit ) { my $old_tok = $old_rtokens->[$j]; next unless $old_tok; my $new_tok = $rtokens->[$j]; next unless $new_tok; # lists always match ... # unless they would align any '=>'s with ','s goto NO_MATCH if ( $old_tok =~ /^=>/ && $new_tok =~ /^,/ || $new_tok =~ /^=>/ && $old_tok =~ /^,/ ); } } # do detailed check for everything else except hanging side comments elsif ( !$is_hanging_side_comment ) { my $leading_space_count = $new_line->get_leading_space_count(); my $max_pad = 0; my $min_pad = 0; my $saw_good_alignment; for my $j ( 0 .. $jlimit ) { my $old_tok = $old_rtokens->[$j]; my $new_tok = $rtokens->[$j]; # Note on encoding used for alignment tokens: # ------------------------------------------- # Tokens are "decorated" with information which can help # prevent unwanted alignments. Consider for example the # following two lines: # local ( $xn, $xd ) = split( '/', &'rnorm(@_) ); # local ( $i, $f ) = &'bdiv( $xn, $xd ); # There are three alignment tokens in each line, a comma, # an =, and a comma. In the first line these three tokens # are encoded as: # ,4+local-18 =3 ,4+split-7 # and in the second line they are encoded as # ,4+local-18 =3 ,4+&'bdiv-8 # Tokens always at least have token name and nesting # depth. So in this example the ='s are at depth 3 and # the ,'s are at depth 4. This prevents aligning tokens # of different depths. Commas contain additional # information, as follows: # , {depth} + {container name} - {spaces to opening paren} # This allows us to reject matching the rightmost commas # in the above two lines, since they are for different # function calls. This encoding is done in # 'sub send_lines_to_vertical_aligner'. # Pick off actual token. # Everything up to the first digit is the actual token. my $alignment_token = $new_tok; if ( $alignment_token =~ /^([^\d]+)/ ) { $alignment_token = $1 } # see if the decorated tokens match my $tokens_match = $new_tok eq $old_tok # Exception for matching terminal : of ternary statement.. # consider containers prefixed by ? and : a match || ( $new_tok =~ /^,\d*\+\:/ && $old_tok =~ /^,\d*\+\?/ ); # No match if the alignment tokens differ... if ( !$tokens_match ) { # ...Unless this is a side comment if ( $j == $jlimit # and there is either at least one alignment token # or this is a single item following a list. This # latter rule is required for 'December' to join # the following list: # my (@months) = ( # '', 'January', 'February', 'March', # 'April', 'May', 'June', 'July', # 'August', 'September', 'October', 'November', # 'December' # ); # If it doesn't then the -lp formatting will fail. && ( $j > 0 || $old_tok =~ /^,/ ) ) { $marginal_match = 1 if ( $marginal_match == 0 && $maximum_line_index == 0 ); last; } goto NO_MATCH; } # Calculate amount of padding required to fit this in. # $pad is the number of spaces by which we must increase # the current field to squeeze in this field. my $pad = length( $rfields->[$j] ) - $old_line->current_field_width($j); if ( $j == 0 ) { $pad += $leading_space_count; } # remember max pads to limit marginal cases if ( $alignment_token ne '#' ) { if ( $pad > $max_pad ) { $max_pad = $pad } if ( $pad < $min_pad ) { $min_pad = $pad } } if ( $is_good_alignment{$alignment_token} ) { $saw_good_alignment = 1; } # If patterns don't match, we have to be careful... if ( $old_rpatterns->[$j] ne $rpatterns->[$j] ) { # flag this as a marginal match since patterns differ $marginal_match = 1 if ( $marginal_match == 0 && $maximum_line_index == 0 ); # We have to be very careful about aligning commas # when the pattern's don't match, because it can be # worse to create an alignment where none is needed # than to omit one. Here's an example where the ','s # are not in named containers. The first line below # should not match the next two: # ( $a, $b ) = ( $b, $r ); # ( $x1, $x2 ) = ( $x2 - $q * $x1, $x1 ); # ( $y1, $y2 ) = ( $y2 - $q * $y1, $y1 ); if ( $alignment_token eq ',' ) { # do not align commas unless they are in named containers goto NO_MATCH unless ( $new_tok =~ /[A-Za-z]/ ); } # do not align parens unless patterns match; # large ugly spaces can occur in math expressions. elsif ( $alignment_token eq '(' ) { # But we can allow a match if the parens don't # require any padding. if ( $pad != 0 ) { goto NO_MATCH } } # Handle an '=' alignment with different patterns to # the left. elsif ( $alignment_token eq '=' ) { # It is best to be a little restrictive when # aligning '=' tokens. Here is an example of # two lines that we will not align: # my $variable=6; # $bb=4; # The problem is that one is a 'my' declaration, # and the other isn't, so they're not very similar. # We will filter these out by comparing the first # letter of the pattern. This is crude, but works # well enough. if ( substr( $old_rpatterns->[$j], 0, 1 ) ne substr( $rpatterns->[$j], 0, 1 ) ) { goto NO_MATCH; } # If we pass that test, we'll call it a marginal match. # Here is an example of a marginal match: # $done{$$op} = 1; # $op = compile_bblock($op); # The left tokens are both identifiers, but # one accesses a hash and the other doesn't. # We'll let this be a tentative match and undo # it later if we don't find more than 2 lines # in the group. elsif ( $maximum_line_index == 0 ) { $marginal_match = 2; # =2 prevents being undone below } } } # Don't let line with fewer fields increase column widths # ( align3.t ) if ( $maximum_field_index > $jmax ) { # Exception: suspend this rule to allow last lines to join if ( $pad > 0 ) { goto NO_MATCH; } } } ## end for my $j ( 0 .. $jlimit) # Turn off the "marginal match" flag in some cases... # A "marginal match" occurs when the alignment tokens agree # but there are differences in the other tokens (patterns). # If we leave the marginal match flag set, then the rule is that we # will align only if there are more than two lines in the group. # We will turn of the flag if we almost have a match # and either we have seen a good alignment token or we # just need a small pad (2 spaces) to fit. These rules are # the result of experimentation. Tokens which misaligned by just # one or two characters are annoying. On the other hand, # large gaps to less important alignment tokens are also annoying. if ( $marginal_match == 1 && $jmax == $maximum_field_index && ( $saw_good_alignment || ( $max_pad < 3 && $min_pad > -3 ) ) ) { $marginal_match = 0; } ##print "marginal=$marginal_match saw=$saw_good_alignment jmax=$jmax max=$maximum_field_index maxpad=$max_pad minpad=$min_pad\n"; } # We have a match (even if marginal). # If the current line has fewer fields than the current group # but otherwise matches, copy the remaining group fields to # make it a perfect match. if ( $maximum_field_index > $jmax ) { ########################################################## # FIXME: The previous version had a bug which made side comments # become regular fields, so for now the program does not allow a # line with side comment to match. This should eventually be done. # The best test file for experimenting is 'lista.t' ########################################################## my $comment = $rfields->[$jmax]; goto NO_MATCH if ($comment); # Corrected loop for my $jj ( $jlimit .. $maximum_field_index ) { $rtokens->[$jj] = $old_rtokens->[$jj]; $rfields->[ $jj + 1 ] = ''; $rpatterns->[ $jj + 1 ] = $old_rpatterns->[ $jj + 1 ]; } ## THESE DO NOT GIVE CORRECT RESULTS ## $rfields->[$jmax] = $comment; ## $new_line->set_jmax($jmax); } return; NO_MATCH: ##print "no match jmax=$jmax max=$maximum_field_index $group_list_type lines=$maximum_line_index token=$old_rtokens->[0]\n"; my_flush(); return; } } sub check_fit { my ( $new_line, $old_line ) = @_; return unless ( $maximum_line_index >= 0 ); my $jmax = $new_line->get_jmax(); my $leading_space_count = $new_line->get_leading_space_count(); my $is_hanging_side_comment = $new_line->get_is_hanging_side_comment(); my $rtokens = $new_line->get_rtokens(); my $rfields = $new_line->get_rfields(); my $rpatterns = $new_line->get_rpatterns(); my $group_list_type = $group_lines[0]->get_list_type(); my $padding_so_far = 0; my $padding_available = $old_line->get_available_space_on_right(); # save current columns in case this doesn't work save_alignment_columns(); my $maximum_field_index = $old_line->get_jmax(); for my $j ( 0 .. $jmax ) { my $pad = length( $rfields->[$j] ) - $old_line->current_field_width($j); if ( $j == 0 ) { $pad += $leading_space_count; } # remember largest gap of the group, excluding gap to side comment if ( $pad < 0 && $group_maximum_gap < -$pad && $j > 0 && $j < $jmax - 1 ) { $group_maximum_gap = -$pad; } next if $pad < 0; ## OLD NOTES: ## This patch helps sometimes, but it doesn't check to see if ## the line is too long even without the side comment. It needs ## to be reworked. ##don't let a long token with no trailing side comment push ##side comments out, or end a group. (sidecmt1.t) ##next if ($j==$jmax-1 && length($rfields->[$jmax])==0); # BEGIN PATCH for keith1.txt. # If the group began matching multiple tokens but later this got # reduced to a fewer number of matching tokens, then the fields # of the later lines will still have to fit into their corresponding # fields. So a large later field will "push" the other fields to # the right, including previous side comments, and if there is no room # then there is no match. # For example, look at the last line in the following snippet: # my $b_prod_db = ( $ENV{ORACLE_SID} =~ m/p$/ && !$testing ) ? true : false; # my $env = ($b_prod_db) ? "prd" : "val"; # my $plant = ( $OPT{p} ) ? $OPT{p} : "STL"; # my $task = $OPT{t}; # my $fnam = "longggggggggggggggg.$record_created.$env.$plant.idash"; # The long term will push the '?' to the right to fit in, and in this # case there is not enough room so it will not match the equals unless # we do something special. # Usually it looks good to keep an initial alignment of '=' going, and # we can do this if the long term can fit in the space taken up by the # remaining fields (the ? : fields here). # Allowing any matching token for now, but it could be restricted # to an '='-like token if necessary. if ( $pad > $padding_available && $jmax == 2 # matching one thing (plus #) && $j == $jmax - 1 # at last field && $maximum_line_index > 0 # more than 1 line in group now && $jmax < $maximum_field_index # other lines have more fields && length( $rfields->[$jmax] ) == 0 # no side comment # Uncomment to match only equals (but this does not seem necessary) # && $rtokens->[0] =~ /^=\d/ # matching an equals ) { my $extra_padding = 0; foreach my $jj ( $j + 1 .. $maximum_field_index - 1 ) { $extra_padding += $old_line->current_field_width($jj); } next if ( $pad <= $padding_available + $extra_padding ); } # END PATCH for keith1.pl # This line will need space; lets see if we want to accept it.. if ( # not if this won't fit ( $pad > $padding_available ) # previously, there were upper bounds placed on padding here # (maximum_whitespace_columns), but they were not really helpful ) { # revert to starting state then flush; things didn't work out restore_alignment_columns(); my_flush(); last; } # patch to avoid excessive gaps in previous lines, # due to a line of fewer fields. # return join( ".", # $self->{"dfi"}, $self->{"aa"}, $self->rsvd, $self->{"rd"}, # $self->{"area"}, $self->{"id"}, $self->{"sel"} ); next if ( $jmax < $maximum_field_index && $j == $jmax - 1 ); # looks ok, squeeze this field in $old_line->increase_field_width( $j, $pad ); $padding_available -= $pad; # remember largest gap of the group, excluding gap to side comment if ( $pad > $group_maximum_gap && $j > 0 && $j < $jmax - 1 ) { $group_maximum_gap = $pad; } } return; } sub add_to_group { # The current line either starts a new alignment group or is # accepted into the current alignment group. my $new_line = shift; $group_lines[ ++$maximum_line_index ] = $new_line; # initialize field lengths if starting new group if ( $maximum_line_index == 0 ) { my $jmax = $new_line->get_jmax(); my $rfields = $new_line->get_rfields(); my $rtokens = $new_line->get_rtokens(); my $col = $new_line->get_leading_space_count(); for my $j ( 0 .. $jmax ) { $col += length( $rfields->[$j] ); # create initial alignments for the new group my $token = ""; if ( $j < $jmax ) { $token = $rtokens->[$j] } my $alignment = make_alignment( $col, $token ); $new_line->set_alignment( $j, $alignment ); } $maximum_jmax_seen = $jmax; $minimum_jmax_seen = $jmax; } # use previous alignments otherwise else { my @new_alignments = $group_lines[ $maximum_line_index - 1 ]->get_alignments(); $new_line->set_alignments(@new_alignments); } # remember group jmax extremes for next call to valign_input $previous_minimum_jmax_seen = $minimum_jmax_seen; $previous_maximum_jmax_seen = $maximum_jmax_seen; return; } sub dump_array { # debug routine to dump array contents local $" = ')('; print STDOUT "(@_)\n"; return; } # flush() sends the current Perl::Tidy::VerticalAligner group down the # pipeline to Perl::Tidy::FileWriter. # This is the external flush, which also empties the buffer and cache sub flush { # the buffer must be emptied first, then any cached text dump_valign_buffer(); if ( $maximum_line_index < 0 ) { if ($cached_line_type) { $seqno_string = $cached_seqno_string; valign_output_step_C( $cached_line_text, $cached_line_leading_space_count, $last_level_written ); $cached_line_type = 0; $cached_line_text = ""; $cached_seqno_string = ""; } } else { my_flush(); } return; } sub reduce_valign_buffer_indentation { my ($diff) = @_; if ( $valign_buffer_filling && $diff ) { my $max_valign_buffer = @valign_buffer; foreach my $i ( 0 .. $max_valign_buffer - 1 ) { my ( $line, $leading_space_count, $level ) = @{ $valign_buffer[$i] }; my $ws = substr( $line, 0, $diff ); if ( ( length($ws) == $diff ) && $ws =~ /^\s+$/ ) { $line = substr( $line, $diff ); } if ( $leading_space_count >= $diff ) { $leading_space_count -= $diff; $level = level_change( $leading_space_count, $diff, $level ); } $valign_buffer[$i] = [ $line, $leading_space_count, $level ]; } } return; } sub level_change { # compute decrease in level when we remove $diff spaces from the # leading spaces my ( $leading_space_count, $diff, $level ) = @_; if ($rOpts_indent_columns) { my $olev = int( ( $leading_space_count + $diff ) / $rOpts_indent_columns ); my $nlev = int( $leading_space_count / $rOpts_indent_columns ); $level -= ( $olev - $nlev ); if ( $level < 0 ) { $level = 0 } } return $level; } sub dump_valign_buffer { if (@valign_buffer) { foreach (@valign_buffer) { valign_output_step_D( @{$_} ); } @valign_buffer = (); } $valign_buffer_filling = ""; return; } # This is the internal flush, which leaves the cache intact sub my_flush { return if ( $maximum_line_index < 0 ); # handle a group of comment lines if ( $group_type eq 'COMMENT' ) { VALIGN_DEBUG_FLAG_APPEND0 && do { my ( $a, $b, $c ) = caller(); print STDOUT "APPEND0: Flush called from $a $b $c for COMMENT group: lines=$maximum_line_index \n"; }; my $leading_space_count = $comment_leading_space_count; my $leading_string = get_leading_string($leading_space_count); # zero leading space count if any lines are too long my $max_excess = 0; for my $i ( 0 .. $maximum_line_index ) { my $str = $group_lines[$i]; my $excess = length($str) + $leading_space_count - maximum_line_length_for_level($group_level); if ( $excess > $max_excess ) { $max_excess = $excess; } } if ( $max_excess > 0 ) { $leading_space_count -= $max_excess; if ( $leading_space_count < 0 ) { $leading_space_count = 0 } $last_outdented_line_at = $file_writer_object->get_output_line_number(); unless ($outdented_line_count) { $first_outdented_line_at = $last_outdented_line_at; } $outdented_line_count += ( $maximum_line_index + 1 ); } # write the group of lines my $outdent_long_lines = 0; for my $i ( 0 .. $maximum_line_index ) { valign_output_step_B( $leading_space_count, $group_lines[$i], 0, $outdent_long_lines, "", $group_level ); } } # handle a group of code lines else { VALIGN_DEBUG_FLAG_APPEND0 && do { my $group_list_type = $group_lines[0]->get_list_type(); my ( $a, $b, $c ) = caller(); my $maximum_field_index = $group_lines[0]->get_jmax(); print STDOUT "APPEND0: Flush called from $a $b $c fields=$maximum_field_index list=$group_list_type lines=$maximum_line_index extra=$extra_indent_ok\n"; }; # some small groups are best left unaligned my $do_not_align = decide_if_aligned(); # optimize side comment location $do_not_align = adjust_side_comment($do_not_align); # recover spaces for -lp option if possible my $extra_leading_spaces = get_extra_leading_spaces(); # all lines of this group have the same basic leading spacing my $group_leader_length = $group_lines[0]->get_leading_space_count(); # add extra leading spaces if helpful # NOTE: Use zero; this did not work well my $min_ci_gap = 0; # loop to output all lines for my $i ( 0 .. $maximum_line_index ) { my $line = $group_lines[$i]; valign_output_step_A( $line, $min_ci_gap, $do_not_align, $group_leader_length, $extra_leading_spaces ); } } initialize_for_new_group(); return; } sub decide_if_aligned { # Do not try to align two lines which are not really similar return unless $maximum_line_index == 1; return if ($is_matching_terminal_line); my $group_list_type = $group_lines[0]->get_list_type(); my $do_not_align = ( # always align lists !$group_list_type && ( # don't align if it was just a marginal match $marginal_match # don't align two lines with big gap || $group_maximum_gap > 12 # or lines with differing number of alignment tokens # TODO: this could be improved. It occasionally rejects # good matches. || $previous_maximum_jmax_seen != $previous_minimum_jmax_seen ) ); # But try to convert them into a simple comment group if the first line # a has side comment my $rfields = $group_lines[0]->get_rfields(); my $maximum_field_index = $group_lines[0]->get_jmax(); if ( $do_not_align && ( $maximum_line_index > 0 ) && ( length( $rfields->[$maximum_field_index] ) > 0 ) ) { combine_fields(); $do_not_align = 0; } return $do_not_align; } sub adjust_side_comment { my $do_not_align = shift; # let's see if we can move the side comment field out a little # to improve readability (the last field is always a side comment field) my $have_side_comment = 0; my $first_side_comment_line = -1; my $maximum_field_index = $group_lines[0]->get_jmax(); for my $i ( 0 .. $maximum_line_index ) { my $line = $group_lines[$i]; if ( length( $line->get_rfields()->[$maximum_field_index] ) ) { $have_side_comment = 1; $first_side_comment_line = $i; last; } } my $kmax = $maximum_field_index + 1; if ($have_side_comment) { my $line = $group_lines[0]; # the maximum space without exceeding the line length: my $avail = $line->get_available_space_on_right(); # try to use the previous comment column my $side_comment_column = $line->get_column( $kmax - 2 ); my $move = $last_comment_column - $side_comment_column; ## my $sc_line0 = $side_comment_history[0]->[0]; ## my $sc_col0 = $side_comment_history[0]->[1]; ## my $sc_line1 = $side_comment_history[1]->[0]; ## my $sc_col1 = $side_comment_history[1]->[1]; ## my $sc_line2 = $side_comment_history[2]->[0]; ## my $sc_col2 = $side_comment_history[2]->[1]; ## ## # FUTURE UPDATES: ## # Be sure to ignore 'do not align' and '} # end comments' ## # Find first $move > 0 and $move <= $avail as follows: ## # 1. try sc_col1 if sc_col1 == sc_col0 && (line-sc_line0) < 12 ## # 2. try sc_col2 if (line-sc_line2) < 12 ## # 3. try min possible space, plus up to 8, ## # 4. try min possible space if ( $kmax > 0 && !$do_not_align ) { # but if this doesn't work, give up and use the minimum space if ( $move > $avail ) { $move = $rOpts_minimum_space_to_comment - 1; } # but we want some minimum space to the comment my $min_move = $rOpts_minimum_space_to_comment - 1; if ( $move >= 0 && $last_side_comment_length > 0 && ( $first_side_comment_line == 0 ) && $group_level == $last_level_written ) { $min_move = 0; } if ( $move < $min_move ) { $move = $min_move; } # previously, an upper bound was placed on $move here, # (maximum_space_to_comment), but it was not helpful # don't exceed the available space if ( $move > $avail ) { $move = $avail } # we can only increase space, never decrease if ( $move > 0 ) { $line->increase_field_width( $maximum_field_index - 1, $move ); } # remember this column for the next group $last_comment_column = $line->get_column( $kmax - 2 ); } else { # try to at least line up the existing side comment location if ( $kmax > 0 && $move > 0 && $move < $avail ) { $line->increase_field_width( $maximum_field_index - 1, $move ); $do_not_align = 0; } # reset side comment column if we can't align else { forget_side_comment(); } } } return $do_not_align; } sub valign_output_step_A { ############################################################### # This is Step A in writing vertically aligned lines. # The line is prepared according to the alignments which have # been found and shipped to the next step. ############################################################### my ( $line, $min_ci_gap, $do_not_align, $group_leader_length, $extra_leading_spaces ) = @_; my $rfields = $line->get_rfields(); my $leading_space_count = $line->get_leading_space_count(); my $outdent_long_lines = $line->get_outdent_long_lines(); my $maximum_field_index = $line->get_jmax(); my $rvertical_tightness_flags = $line->get_rvertical_tightness_flags(); # add any extra spaces if ( $leading_space_count > $group_leader_length ) { $leading_space_count += $min_ci_gap; } my $str = $rfields->[0]; # loop to concatenate all fields of this line and needed padding my $total_pad_count = 0; for my $j ( 1 .. $maximum_field_index ) { # skip zero-length side comments last if ( ( $j == $maximum_field_index ) && ( !defined( $rfields->[$j] ) || ( length( $rfields->[$j] ) == 0 ) ) ); # compute spaces of padding before this field my $col = $line->get_column( $j - 1 ); my $pad = $col - ( length($str) + $leading_space_count ); if ($do_not_align) { $pad = ( $j < $maximum_field_index ) ? 0 : $rOpts_minimum_space_to_comment - 1; } # if the -fpsc flag is set, move the side comment to the selected # column if and only if it is possible, ignoring constraints on # line length and minimum space to comment if ( $rOpts_fixed_position_side_comment && $j == $maximum_field_index ) { my $newpad = $pad + $rOpts_fixed_position_side_comment - $col - 1; if ( $newpad >= 0 ) { $pad = $newpad; } } # accumulate the padding if ( $pad > 0 ) { $total_pad_count += $pad; } # add this field if ( !defined $rfields->[$j] ) { write_diagnostics("UNDEFined field at j=$j\n"); } # only add padding when we have a finite field; # this avoids extra terminal spaces if we have empty fields if ( length( $rfields->[$j] ) > 0 ) { $str .= ' ' x $total_pad_count; $total_pad_count = 0; $str .= $rfields->[$j]; } else { $total_pad_count = 0; } # update side comment history buffer if ( $j == $maximum_field_index ) { my $lineno = $file_writer_object->get_output_line_number(); shift @side_comment_history; push @side_comment_history, [ $lineno, $col ]; } } my $side_comment_length = ( length( $rfields->[$maximum_field_index] ) ); # ship this line off valign_output_step_B( $leading_space_count + $extra_leading_spaces, $str, $side_comment_length, $outdent_long_lines, $rvertical_tightness_flags, $group_level ); return; } sub get_extra_leading_spaces { #---------------------------------------------------------- # Define any extra indentation space (for the -lp option). # Here is why: # If a list has side comments, sub scan_list must dump the # list before it sees everything. When this happens, it sets # the indentation to the standard scheme, but notes how # many spaces it would have liked to use. We may be able # to recover that space here in the event that all of the # lines of a list are back together again. #---------------------------------------------------------- my $extra_leading_spaces = 0; if ($extra_indent_ok) { my $object = $group_lines[0]->get_indentation(); if ( ref($object) ) { my $extra_indentation_spaces_wanted = get_recoverable_spaces($object); # all indentation objects must be the same for my $i ( 1 .. $maximum_line_index ) { if ( $object != $group_lines[$i]->get_indentation() ) { $extra_indentation_spaces_wanted = 0; last; } } if ($extra_indentation_spaces_wanted) { # the maximum space without exceeding the line length: my $avail = $group_lines[0]->get_available_space_on_right(); $extra_leading_spaces = ( $avail > $extra_indentation_spaces_wanted ) ? $extra_indentation_spaces_wanted : $avail; # update the indentation object because with -icp the terminal # ');' will use the same adjustment. $object->permanently_decrease_available_spaces( -$extra_leading_spaces ); } } } return $extra_leading_spaces; } sub combine_fields { # combine all fields except for the comment field ( sidecmt.t ) # Uses global variables: # @group_lines # $maximum_line_index my $maximum_field_index = $group_lines[0]->get_jmax(); foreach my $j ( 0 .. $maximum_line_index ) { my $line = $group_lines[$j]; my $rfields = $line->get_rfields(); foreach ( 1 .. $maximum_field_index - 1 ) { $rfields->[0] .= $rfields->[$_]; } $rfields->[1] = $rfields->[$maximum_field_index]; $line->set_jmax(1); $line->set_column( 0, 0 ); $line->set_column( 1, 0 ); } $maximum_field_index = 1; for my $j ( 0 .. $maximum_line_index ) { my $line = $group_lines[$j]; my $rfields = $line->get_rfields(); for my $k ( 0 .. $maximum_field_index ) { my $pad = length( $rfields->[$k] ) - $line->current_field_width($k); if ( $k == 0 ) { $pad += $group_lines[$j]->get_leading_space_count(); } if ( $pad > 0 ) { $line->increase_field_width( $k, $pad ) } } } return; } sub get_output_line_number { # the output line number reported to a caller is the number of items # written plus the number of items in the buffer my $self = shift; return 1 + $maximum_line_index + $file_writer_object->get_output_line_number(); } sub valign_output_step_B { ############################################################### # This is Step B in writing vertically aligned lines. # Vertical tightness is applied according to preset flags. # In particular this routine handles stacking of opening # and closing tokens. ############################################################### my ( $leading_space_count, $str, $side_comment_length, $outdent_long_lines, $rvertical_tightness_flags, $level ) = @_; # handle outdenting of long lines: if ($outdent_long_lines) { my $excess = length($str) - $side_comment_length + $leading_space_count - maximum_line_length_for_level($level); if ( $excess > 0 ) { $leading_space_count = 0; $last_outdented_line_at = $file_writer_object->get_output_line_number(); unless ($outdented_line_count) { $first_outdented_line_at = $last_outdented_line_at; } $outdented_line_count++; } } # Make preliminary leading whitespace. It could get changed # later by entabbing, so we have to keep track of any changes # to the leading_space_count from here on. my $leading_string = $leading_space_count > 0 ? ( ' ' x $leading_space_count ) : ""; # Unpack any recombination data; it was packed by # sub send_lines_to_vertical_aligner. Contents: # # [0] type: 1=opening non-block 2=closing non-block # 3=opening block brace 4=closing block brace # [1] flag: if opening: 1=no multiple steps, 2=multiple steps ok # if closing: spaces of padding to use # [2] sequence number of container # [3] valid flag: do not append if this flag is false # my ( $open_or_close, $tightness_flag, $seqno, $valid, $seqno_beg, $seqno_end ); if ($rvertical_tightness_flags) { ( $open_or_close, $tightness_flag, $seqno, $valid, $seqno_beg, $seqno_end ) = @{$rvertical_tightness_flags}; } $seqno_string = $seqno_end; # handle any cached line .. # either append this line to it or write it out if ( length($cached_line_text) ) { # Dump an invalid cached line if ( !$cached_line_valid ) { valign_output_step_C( $cached_line_text, $cached_line_leading_space_count, $last_level_written ); } # Handle cached line ending in OPENING tokens elsif ( $cached_line_type == 1 || $cached_line_type == 3 ) { my $gap = $leading_space_count - length($cached_line_text); # handle option of just one tight opening per line: if ( $cached_line_flag == 1 ) { if ( defined($open_or_close) && $open_or_close == 1 ) { $gap = -1; } } if ( $gap >= 0 && defined($seqno_beg) ) { $leading_string = $cached_line_text . ' ' x $gap; $leading_space_count = $cached_line_leading_space_count; $seqno_string = $cached_seqno_string . ':' . $seqno_beg; $level = $last_level_written; } else { valign_output_step_C( $cached_line_text, $cached_line_leading_space_count, $last_level_written ); } } # Handle cached line ending in CLOSING tokens else { my $test_line = $cached_line_text . ' ' x $cached_line_flag . $str; if ( # The new line must start with container $seqno_beg # The container combination must be okay.. && ( # okay to combine like types ( $open_or_close == $cached_line_type ) # closing block brace may append to non-block || ( $cached_line_type == 2 && $open_or_close == 4 ) # something like ');' || ( !$open_or_close && $cached_line_type == 2 ) ) # The combined line must fit && ( length($test_line) <= maximum_line_length_for_level($last_level_written) ) ) { $seqno_string = $cached_seqno_string . ':' . $seqno_beg; # Patch to outdent closing tokens ending # in ');' # If we are joining a line like ');' to a previous stacked # set of closing tokens, then decide if we may outdent the # combined stack to the indentation of the ');'. Since we # should not normally outdent any of the other tokens more than # the indentation of the lines that contained them, we will # only do this if all of the corresponding opening # tokens were on the same line. This can happen with # -sot and -sct. For example, it is ok here: # __PACKAGE__->load_components( qw( # PK::Auto # Core # )); # # But, for example, we do not outdent in this example because # that would put the closing sub brace out farther than the # opening sub brace: # # perltidy -sot -sct # $c->Tk::bind( # '' => sub { # my ($c) = @_; # my $e = $c->XEvent; # itemsUnderArea $c; # } ); # if ( $str =~ /^\);/ && $cached_line_text =~ /^[\)\}\]\s]*$/ ) { # The way to tell this is if the stacked sequence numbers # of this output line are the reverse of the stacked # sequence numbers of the previous non-blank line of # sequence numbers. So we can join if the previous # nonblank string of tokens is the mirror image. For # example if stack )}] is 13:8:6 then we are looking for a # leading stack like [{( which is 6:8:13 We only need to # check the two ends, because the intermediate tokens must # fall in order. Note on speed: having to split on colons # and eliminate multiple colons might appear to be slow, # but it's not an issue because we almost never come # through here. In a typical file we don't. $seqno_string =~ s/^:+//; $last_nonblank_seqno_string =~ s/^:+//; $seqno_string =~ s/:+/:/g; $last_nonblank_seqno_string =~ s/:+/:/g; # how many spaces can we outdent? my $diff = $cached_line_leading_space_count - $leading_space_count; if ( $diff > 0 && length($seqno_string) && length($last_nonblank_seqno_string) == length($seqno_string) ) { my @seqno_last = ( split ':', $last_nonblank_seqno_string ); my @seqno_now = ( split ':', $seqno_string ); if ( $seqno_now[-1] == $seqno_last[0] && $seqno_now[0] == $seqno_last[-1] ) { # OK to outdent .. # for absolute safety, be sure we only remove # whitespace my $ws = substr( $test_line, 0, $diff ); if ( ( length($ws) == $diff ) && $ws =~ /^\s+$/ ) { $test_line = substr( $test_line, $diff ); $cached_line_leading_space_count -= $diff; $last_level_written = level_change( $cached_line_leading_space_count, $diff, $last_level_written ); reduce_valign_buffer_indentation($diff); } # shouldn't happen, but not critical: ##else { ## ERROR transferring indentation here ##} } } } $str = $test_line; $leading_string = ""; $leading_space_count = $cached_line_leading_space_count; $level = $last_level_written; } else { valign_output_step_C( $cached_line_text, $cached_line_leading_space_count, $last_level_written ); } } } $cached_line_type = 0; $cached_line_text = ""; # make the line to be written my $line = $leading_string . $str; # write or cache this line if ( !$open_or_close || $side_comment_length > 0 ) { valign_output_step_C( $line, $leading_space_count, $level ); } else { $cached_line_text = $line; $cached_line_type = $open_or_close; $cached_line_flag = $tightness_flag; $cached_seqno = $seqno; $cached_line_valid = $valid; $cached_line_leading_space_count = $leading_space_count; $cached_seqno_string = $seqno_string; } $last_level_written = $level; $last_side_comment_length = $side_comment_length; $extra_indent_ok = 0; return; } sub valign_output_step_C { ############################################################### # This is Step C in writing vertically aligned lines. # Lines are either stored in a buffer or passed along to the next step. # The reason for storing lines is that we may later want to reduce their # indentation when -sot and -sct are both used. ############################################################### my @args = @_; # Dump any saved lines if we see a line with an unbalanced opening or # closing token. dump_valign_buffer() if ( $seqno_string && $valign_buffer_filling ); # Either store or write this line if ($valign_buffer_filling) { push @valign_buffer, [@args]; } else { valign_output_step_D(@args); } # For lines starting or ending with opening or closing tokens.. if ($seqno_string) { $last_nonblank_seqno_string = $seqno_string; # Start storing lines when we see a line with multiple stacked opening # tokens. # patch for RT #94354, requested by Colin Williams if ( $seqno_string =~ /^\d+(\:+\d+)+$/ && $args[0] !~ /^[\}\)\]\:\?]/ ) { # This test is efficient but a little subtle: The first test says # that we have multiple sequence numbers and hence multiple opening # or closing tokens in this line. The second part of the test # rejects stacked closing and ternary tokens. So if we get here # then we should have stacked unbalanced opening tokens. # Here is a complex example: # Foo($Bar[0], { # (side comment) # baz => 1, # }); # The first line has sequence 6::4. It does not begin with # a closing token or ternary, so it passes the test and must be # stacked opening tokens. # The last line has sequence 4:6 but is a stack of closing tokens, # so it gets rejected. # Note that the sequence number of an opening token for a qw quote # is a negative number and will be rejected. # For example, for the following line: # skip_symbols([qw( # $seqno_string='10:5:-1'. It would be okay to accept it but # I decided not to do this after testing. $valign_buffer_filling = $seqno_string; } } return; } sub valign_output_step_D { ############################################################### # This is Step D in writing vertically aligned lines. # Write one vertically aligned line of code to the output object. ############################################################### my ( $line, $leading_space_count, $level ) = @_; # The line is currently correct if there is no tabbing (recommended!) # We may have to lop off some leading spaces and replace with tabs. if ( $leading_space_count > 0 ) { # Nothing to do if no tabs if ( !( $rOpts_tabs || $rOpts_entab_leading_whitespace ) || $rOpts_indent_columns <= 0 ) { # nothing to do } # Handle entab option elsif ($rOpts_entab_leading_whitespace) { my $space_count = $leading_space_count % $rOpts_entab_leading_whitespace; my $tab_count = int( $leading_space_count / $rOpts_entab_leading_whitespace ); my $leading_string = "\t" x $tab_count . ' ' x $space_count; if ( $line =~ /^\s{$leading_space_count,$leading_space_count}/ ) { substr( $line, 0, $leading_space_count ) = $leading_string; } else { # shouldn't happen - program error counting whitespace # - skip entabbing VALIGN_DEBUG_FLAG_TABS && warning( "Error entabbing in valign_output_step_D: expected count=$leading_space_count\n" ); } } # Handle option of one tab per level else { my $leading_string = ( "\t" x $level ); my $space_count = $leading_space_count - $level * $rOpts_indent_columns; # shouldn't happen: if ( $space_count < 0 ) { # But it could be an outdented comment if ( $line !~ /^\s*#/ ) { VALIGN_DEBUG_FLAG_TABS && warning( "Error entabbing in valign_output_step_D: for level=$group_level count=$leading_space_count\n" ); } $leading_string = ( ' ' x $leading_space_count ); } else { $leading_string .= ( ' ' x $space_count ); } if ( $line =~ /^\s{$leading_space_count,$leading_space_count}/ ) { substr( $line, 0, $leading_space_count ) = $leading_string; } else { # shouldn't happen - program error counting whitespace # we'll skip entabbing VALIGN_DEBUG_FLAG_TABS && warning( "Error entabbing in valign_output_step_D: expected count=$leading_space_count\n" ); } } } $file_writer_object->write_code_line( $line . "\n" ); return; } { # begin get_leading_string my @leading_string_cache; sub get_leading_string { # define the leading whitespace string for this line.. my $leading_whitespace_count = shift; # Handle case of zero whitespace, which includes multi-line quotes # (which may have a finite level; this prevents tab problems) if ( $leading_whitespace_count <= 0 ) { return ""; } # look for previous result elsif ( $leading_string_cache[$leading_whitespace_count] ) { return $leading_string_cache[$leading_whitespace_count]; } # must compute a string for this number of spaces my $leading_string; # Handle simple case of no tabs if ( !( $rOpts_tabs || $rOpts_entab_leading_whitespace ) || $rOpts_indent_columns <= 0 ) { $leading_string = ( ' ' x $leading_whitespace_count ); } # Handle entab option elsif ($rOpts_entab_leading_whitespace) { my $space_count = $leading_whitespace_count % $rOpts_entab_leading_whitespace; my $tab_count = int( $leading_whitespace_count / $rOpts_entab_leading_whitespace ); $leading_string = "\t" x $tab_count . ' ' x $space_count; } # Handle option of one tab per level else { $leading_string = ( "\t" x $group_level ); my $space_count = $leading_whitespace_count - $group_level * $rOpts_indent_columns; # shouldn't happen: if ( $space_count < 0 ) { VALIGN_DEBUG_FLAG_TABS && warning( "Error in get_leading_string: for level=$group_level count=$leading_whitespace_count\n" ); # -- skip entabbing $leading_string = ( ' ' x $leading_whitespace_count ); } else { $leading_string .= ( ' ' x $space_count ); } } $leading_string_cache[$leading_whitespace_count] = $leading_string; return $leading_string; } } # end get_leading_string sub report_anything_unusual { my $self = shift; if ( $outdented_line_count > 0 ) { write_logfile_entry( "$outdented_line_count long lines were outdented:\n"); write_logfile_entry( " First at output line $first_outdented_line_at\n"); if ( $outdented_line_count > 1 ) { write_logfile_entry( " Last at output line $last_outdented_line_at\n"); } write_logfile_entry( " use -noll to prevent outdenting, -l=n to increase line length\n" ); write_logfile_entry("\n"); } return; } ##################################################################### # # the Perl::Tidy::FileWriter class writes the output file # ##################################################################### package Perl::Tidy::FileWriter; # Maximum number of little messages; probably need not be changed. use constant MAX_NAG_MESSAGES => 6; sub write_logfile_entry { my ( $self, $msg ) = @_; my $logger_object = $self->{_logger_object}; if ($logger_object) { $logger_object->write_logfile_entry($msg); } return; } sub new { my ( $class, $line_sink_object, $rOpts, $logger_object ) = @_; return bless { _line_sink_object => $line_sink_object, _logger_object => $logger_object, _rOpts => $rOpts, _output_line_number => 1, _consecutive_blank_lines => 0, _consecutive_nonblank_lines => 0, _first_line_length_error => 0, _max_line_length_error => 0, _last_line_length_error => 0, _first_line_length_error_at => 0, _max_line_length_error_at => 0, _last_line_length_error_at => 0, _line_length_error_count => 0, _max_output_line_length => 0, _max_output_line_length_at => 0, }, $class; } sub tee_on { my $self = shift; $self->{_line_sink_object}->tee_on(); return; } sub tee_off { my $self = shift; $self->{_line_sink_object}->tee_off(); return; } sub get_output_line_number { my $self = shift; return $self->{_output_line_number}; } sub decrement_output_line_number { my $self = shift; $self->{_output_line_number}--; return; } sub get_consecutive_nonblank_lines { my $self = shift; return $self->{_consecutive_nonblank_lines}; } sub reset_consecutive_blank_lines { my $self = shift; $self->{_consecutive_blank_lines} = 0; return; } sub want_blank_line { my $self = shift; unless ( $self->{_consecutive_blank_lines} ) { $self->write_blank_code_line(); } return; } sub require_blank_code_lines { # write out the requested number of blanks regardless of the value of -mbl # unless -mbl=0. This allows extra blank lines to be written for subs and # packages even with the default -mbl=1 my ( $self, $count ) = @_; my $need = $count - $self->{_consecutive_blank_lines}; my $rOpts = $self->{_rOpts}; my $forced = $rOpts->{'maximum-consecutive-blank-lines'} > 0; foreach my $i ( 0 .. $need - 1 ) { $self->write_blank_code_line($forced); } return; } sub write_blank_code_line { my $self = shift; my $forced = shift; my $rOpts = $self->{_rOpts}; return if (!$forced && $self->{_consecutive_blank_lines} >= $rOpts->{'maximum-consecutive-blank-lines'} ); $self->{_consecutive_blank_lines}++; $self->{_consecutive_nonblank_lines} = 0; $self->write_line("\n"); return; } sub write_code_line { my $self = shift; my $a = shift; if ( $a =~ /^\s*$/ ) { my $rOpts = $self->{_rOpts}; return if ( $self->{_consecutive_blank_lines} >= $rOpts->{'maximum-consecutive-blank-lines'} ); $self->{_consecutive_blank_lines}++; $self->{_consecutive_nonblank_lines} = 0; } else { $self->{_consecutive_blank_lines} = 0; $self->{_consecutive_nonblank_lines}++; } $self->write_line($a); return; } sub write_line { my ( $self, $a ) = @_; # TODO: go through and see if the test is necessary here if ( $a =~ /\n$/ ) { $self->{_output_line_number}++; } $self->{_line_sink_object}->write_line($a); # This calculation of excess line length ignores any internal tabs my $rOpts = $self->{_rOpts}; my $exceed = length($a) - $rOpts->{'maximum-line-length'} - 1; if ( $a =~ /^\t+/g ) { $exceed += pos($a) * ( $rOpts->{'indent-columns'} - 1 ); } # Note that we just incremented output line number to future value # so we must subtract 1 for current line number if ( length($a) > 1 + $self->{_max_output_line_length} ) { $self->{_max_output_line_length} = length($a) - 1; $self->{_max_output_line_length_at} = $self->{_output_line_number} - 1; } if ( $exceed > 0 ) { my $output_line_number = $self->{_output_line_number}; $self->{_last_line_length_error} = $exceed; $self->{_last_line_length_error_at} = $output_line_number - 1; if ( $self->{_line_length_error_count} == 0 ) { $self->{_first_line_length_error} = $exceed; $self->{_first_line_length_error_at} = $output_line_number - 1; } if ( $self->{_last_line_length_error} > $self->{_max_line_length_error} ) { $self->{_max_line_length_error} = $exceed; $self->{_max_line_length_error_at} = $output_line_number - 1; } if ( $self->{_line_length_error_count} < MAX_NAG_MESSAGES ) { $self->write_logfile_entry( "Line length exceeded by $exceed characters\n"); } $self->{_line_length_error_count}++; } return; } sub report_line_length_errors { my $self = shift; my $rOpts = $self->{_rOpts}; my $line_length_error_count = $self->{_line_length_error_count}; if ( $line_length_error_count == 0 ) { $self->write_logfile_entry( "No lines exceeded $rOpts->{'maximum-line-length'} characters\n"); my $max_output_line_length = $self->{_max_output_line_length}; my $max_output_line_length_at = $self->{_max_output_line_length_at}; $self->write_logfile_entry( " Maximum output line length was $max_output_line_length at line $max_output_line_length_at\n" ); } else { my $word = ( $line_length_error_count > 1 ) ? "s" : ""; $self->write_logfile_entry( "$line_length_error_count output line$word exceeded $rOpts->{'maximum-line-length'} characters:\n" ); $word = ( $line_length_error_count > 1 ) ? "First" : ""; my $first_line_length_error = $self->{_first_line_length_error}; my $first_line_length_error_at = $self->{_first_line_length_error_at}; $self->write_logfile_entry( " $word at line $first_line_length_error_at by $first_line_length_error characters\n" ); if ( $line_length_error_count > 1 ) { my $max_line_length_error = $self->{_max_line_length_error}; my $max_line_length_error_at = $self->{_max_line_length_error_at}; my $last_line_length_error = $self->{_last_line_length_error}; my $last_line_length_error_at = $self->{_last_line_length_error_at}; $self->write_logfile_entry( " Maximum at line $max_line_length_error_at by $max_line_length_error characters\n" ); $self->write_logfile_entry( " Last at line $last_line_length_error_at by $last_line_length_error characters\n" ); } } return; } ##################################################################### # # The Perl::Tidy::Debugger class shows line tokenization # ##################################################################### package Perl::Tidy::Debugger; sub new { my ( $class, $filename ) = @_; return bless { _debug_file => $filename, _debug_file_opened => 0, _fh => undef, }, $class; } sub really_open_debug_file { my $self = shift; my $debug_file = $self->{_debug_file}; my $fh; unless ( $fh = IO::File->new("> $debug_file") ) { Perl::Tidy::Warn("can't open $debug_file: $!\n"); } $self->{_debug_file_opened} = 1; $self->{_fh} = $fh; print $fh "Use -dump-token-types (-dtt) to get a list of token type codes\n"; return; } sub close_debug_file { my $self = shift; my $fh = $self->{_fh}; if ( $self->{_debug_file_opened} ) { eval { $self->{_fh}->close() }; } return; } sub write_debug_entry { # This is a debug dump routine which may be modified as necessary # to dump tokens on a line-by-line basis. The output will be written # to the .DEBUG file when the -D flag is entered. my ( $self, $line_of_tokens ) = @_; my $input_line = $line_of_tokens->{_line_text}; my $rtoken_type = $line_of_tokens->{_rtoken_type}; my $rtokens = $line_of_tokens->{_rtokens}; my $rlevels = $line_of_tokens->{_rlevels}; my $rslevels = $line_of_tokens->{_rslevels}; my $rblock_type = $line_of_tokens->{_rblock_type}; my $input_line_number = $line_of_tokens->{_line_number}; my $line_type = $line_of_tokens->{_line_type}; ##my $rtoken_array = $line_of_tokens->{_token_array}; my ( $j, $num ); my $token_str = "$input_line_number: "; my $reconstructed_original = "$input_line_number: "; my $block_str = "$input_line_number: "; #$token_str .= "$line_type: "; #$reconstructed_original .= "$line_type: "; my $pattern = ""; my @next_char = ( '"', '"' ); my $i_next = 0; unless ( $self->{_debug_file_opened} ) { $self->really_open_debug_file() } my $fh = $self->{_fh}; # FIXME: could convert to use of token_array instead foreach my $j ( 0 .. @{$rtoken_type} - 1 ) { # testing patterns if ( $rtoken_type->[$j] eq 'k' ) { $pattern .= $rtokens->[$j]; } else { $pattern .= $rtoken_type->[$j]; } $reconstructed_original .= $rtokens->[$j]; $block_str .= "($rblock_type->[$j])"; $num = length( $rtokens->[$j] ); my $type_str = $rtoken_type->[$j]; # be sure there are no blank tokens (shouldn't happen) # This can only happen if a programming error has been made # because all valid tokens are non-blank if ( $type_str eq ' ' ) { print $fh "BLANK TOKEN on the next line\n"; $type_str = $next_char[$i_next]; $i_next = 1 - $i_next; } if ( length($type_str) == 1 ) { $type_str = $type_str x $num; } $token_str .= $type_str; } # Write what you want here ... # print $fh "$input_line\n"; # print $fh "$pattern\n"; print $fh "$reconstructed_original\n"; print $fh "$token_str\n"; #print $fh "$block_str\n"; return; } ##################################################################### # # The Perl::Tidy::LineBuffer class supplies a 'get_line()' # method for returning the next line to be parsed, as well as a # 'peek_ahead()' method # # The input parameter is an object with a 'get_line()' method # which returns the next line to be parsed # ##################################################################### package Perl::Tidy::LineBuffer; sub new { my ( $class, $line_source_object ) = @_; return bless { _line_source_object => $line_source_object, _rlookahead_buffer => [], }, $class; } sub peek_ahead { my ( $self, $buffer_index ) = @_; my $line = undef; my $line_source_object = $self->{_line_source_object}; my $rlookahead_buffer = $self->{_rlookahead_buffer}; if ( $buffer_index < scalar( @{$rlookahead_buffer} ) ) { $line = $rlookahead_buffer->[$buffer_index]; } else { $line = $line_source_object->get_line(); push( @{$rlookahead_buffer}, $line ); } return $line; } sub get_line { my $self = shift; my $line = undef; my $line_source_object = $self->{_line_source_object}; my $rlookahead_buffer = $self->{_rlookahead_buffer}; if ( scalar( @{$rlookahead_buffer} ) ) { $line = shift @{$rlookahead_buffer}; } else { $line = $line_source_object->get_line(); } return $line; } ######################################################################## # # the Perl::Tidy::Tokenizer package is essentially a filter which # reads lines of perl source code from a source object and provides # corresponding tokenized lines through its get_line() method. Lines # flow from the source_object to the caller like this: # # source_object --> LineBuffer_object --> Tokenizer --> calling routine # get_line() get_line() get_line() line_of_tokens # # The source object can be any object with a get_line() method which # supplies one line (a character string) perl call. # The LineBuffer object is created by the Tokenizer. # The Tokenizer returns a reference to a data structure 'line_of_tokens' # containing one tokenized line for each call to its get_line() method. # # WARNING: This is not a real class yet. Only one tokenizer my be used. # ######################################################################## package Perl::Tidy::Tokenizer; BEGIN { # Caution: these debug flags produce a lot of output # They should all be 0 except when debugging small scripts use constant TOKENIZER_DEBUG_FLAG_EXPECT => 0; use constant TOKENIZER_DEBUG_FLAG_NSCAN => 0; use constant TOKENIZER_DEBUG_FLAG_QUOTE => 0; use constant TOKENIZER_DEBUG_FLAG_SCAN_ID => 0; use constant TOKENIZER_DEBUG_FLAG_TOKENIZE => 0; my $debug_warning = sub { print STDOUT "TOKENIZER_DEBUGGING with key $_[0]\n"; }; TOKENIZER_DEBUG_FLAG_EXPECT && $debug_warning->('EXPECT'); TOKENIZER_DEBUG_FLAG_NSCAN && $debug_warning->('NSCAN'); TOKENIZER_DEBUG_FLAG_QUOTE && $debug_warning->('QUOTE'); TOKENIZER_DEBUG_FLAG_SCAN_ID && $debug_warning->('SCAN_ID'); TOKENIZER_DEBUG_FLAG_TOKENIZE && $debug_warning->('TOKENIZE'); } use Carp; # PACKAGE VARIABLES for processing an entire FILE. use vars qw{ $tokenizer_self $last_nonblank_token $last_nonblank_type $last_nonblank_block_type $statement_type $in_attribute_list $current_package $context %is_constant %is_user_function %user_function_prototype %is_block_function %is_block_list_function %saw_function_definition $brace_depth $paren_depth $square_bracket_depth @current_depth @total_depth $total_depth @nesting_sequence_number @current_sequence_number @paren_type @paren_semicolon_count @paren_structural_type @brace_type @brace_structural_type @brace_context @brace_package @square_bracket_type @square_bracket_structural_type @depth_array @nested_ternary_flag @nested_statement_type @starting_line_of_current_depth }; # GLOBAL CONSTANTS for routines in this package use vars qw{ %is_indirect_object_taker %is_block_operator %expecting_operator_token %expecting_operator_types %expecting_term_types %expecting_term_token %is_digraph %is_file_test_operator %is_trigraph %is_tetragraph %is_valid_token_type %is_keyword %is_code_block_token %really_want_term @opening_brace_names @closing_brace_names %is_keyword_taking_list %is_q_qq_qw_qx_qr_s_y_tr_m }; # possible values of operator_expected() use constant TERM => -1; use constant UNKNOWN => 0; use constant OPERATOR => 1; # possible values of context use constant SCALAR_CONTEXT => -1; use constant UNKNOWN_CONTEXT => 0; use constant LIST_CONTEXT => 1; # Maximum number of little messages; probably need not be changed. use constant MAX_NAG_MESSAGES => 6; { # methods to count instances my $_count = 0; sub get_count { return $_count; } sub _increment_count { return ++$_count } sub _decrement_count { return --$_count } } sub DESTROY { my $self = shift; $self->_decrement_count(); return; } sub new { my $class = shift; # Note: 'tabs' and 'indent_columns' are temporary and should be # removed asap my %defaults = ( source_object => undef, debugger_object => undef, diagnostics_object => undef, logger_object => undef, starting_level => undef, indent_columns => 4, tabsize => 8, look_for_hash_bang => 0, trim_qw => 1, look_for_autoloader => 1, look_for_selfloader => 1, starting_line_number => 1, extended_syntax => 0, ); my %args = ( %defaults, @_ ); # we are given an object with a get_line() method to supply source lines my $source_object = $args{source_object}; # we create another object with a get_line() and peek_ahead() method my $line_buffer_object = Perl::Tidy::LineBuffer->new($source_object); # Tokenizer state data is as follows: # _rhere_target_list reference to list of here-doc targets # _here_doc_target the target string for a here document # _here_quote_character the type of here-doc quoting (" ' ` or none) # to determine if interpolation is done # _quote_target character we seek if chasing a quote # _line_start_quote line where we started looking for a long quote # _in_here_doc flag indicating if we are in a here-doc # _in_pod flag set if we are in pod documentation # _in_error flag set if we saw severe error (binary in script) # _in_data flag set if we are in __DATA__ section # _in_end flag set if we are in __END__ section # _in_format flag set if we are in a format description # _in_attribute_list flag telling if we are looking for attributes # _in_quote flag telling if we are chasing a quote # _starting_level indentation level of first line # _line_buffer_object object with get_line() method to supply source code # _diagnostics_object place to write debugging information # _unexpected_error_count error count used to limit output # _lower_case_labels_at line numbers where lower case labels seen # _hit_bug program bug detected $tokenizer_self = { _rhere_target_list => [], _in_here_doc => 0, _here_doc_target => "", _here_quote_character => "", _in_data => 0, _in_end => 0, _in_format => 0, _in_error => 0, _in_pod => 0, _in_attribute_list => 0, _in_quote => 0, _quote_target => "", _line_start_quote => -1, _starting_level => $args{starting_level}, _know_starting_level => defined( $args{starting_level} ), _tabsize => $args{tabsize}, _indent_columns => $args{indent_columns}, _look_for_hash_bang => $args{look_for_hash_bang}, _trim_qw => $args{trim_qw}, _continuation_indentation => $args{continuation_indentation}, _outdent_labels => $args{outdent_labels}, _last_line_number => $args{starting_line_number} - 1, _saw_perl_dash_P => 0, _saw_perl_dash_w => 0, _saw_use_strict => 0, _saw_v_string => 0, _hit_bug => 0, _look_for_autoloader => $args{look_for_autoloader}, _look_for_selfloader => $args{look_for_selfloader}, _saw_autoloader => 0, _saw_selfloader => 0, _saw_hash_bang => 0, _saw_end => 0, _saw_data => 0, _saw_negative_indentation => 0, _started_tokenizing => 0, _line_buffer_object => $line_buffer_object, _debugger_object => $args{debugger_object}, _diagnostics_object => $args{diagnostics_object}, _logger_object => $args{logger_object}, _unexpected_error_count => 0, _started_looking_for_here_target_at => 0, _nearly_matched_here_target_at => undef, _line_text => "", _rlower_case_labels_at => undef, _extended_syntax => $args{extended_syntax}, }; prepare_for_a_new_file(); find_starting_indentation_level(); bless $tokenizer_self, $class; # This is not a full class yet, so die if an attempt is made to # create more than one object. if ( _increment_count() > 1 ) { confess "Attempt to create more than 1 object in $class, which is not a true class yet\n"; } return $tokenizer_self; } # interface to Perl::Tidy::Logger routines sub warning { my $msg = shift; my $logger_object = $tokenizer_self->{_logger_object}; if ($logger_object) { $logger_object->warning($msg); } return; } sub complain { my $msg = shift; my $logger_object = $tokenizer_self->{_logger_object}; if ($logger_object) { $logger_object->complain($msg); } return; } sub write_logfile_entry { my $msg = shift; my $logger_object = $tokenizer_self->{_logger_object}; if ($logger_object) { $logger_object->write_logfile_entry($msg); } return; } sub interrupt_logfile { my $logger_object = $tokenizer_self->{_logger_object}; if ($logger_object) { $logger_object->interrupt_logfile(); } return; } sub resume_logfile { my $logger_object = $tokenizer_self->{_logger_object}; if ($logger_object) { $logger_object->resume_logfile(); } return; } sub increment_brace_error { my $logger_object = $tokenizer_self->{_logger_object}; if ($logger_object) { $logger_object->increment_brace_error(); } return; } sub report_definite_bug { $tokenizer_self->{_hit_bug} = 1; my $logger_object = $tokenizer_self->{_logger_object}; if ($logger_object) { $logger_object->report_definite_bug(); } return; } sub brace_warning { my $msg = shift; my $logger_object = $tokenizer_self->{_logger_object}; if ($logger_object) { $logger_object->brace_warning($msg); } return; } sub get_saw_brace_error { my $logger_object = $tokenizer_self->{_logger_object}; if ($logger_object) { return $logger_object->get_saw_brace_error(); } else { return 0; } } # interface to Perl::Tidy::Diagnostics routines sub write_diagnostics { my $msg = shift; if ( $tokenizer_self->{_diagnostics_object} ) { $tokenizer_self->{_diagnostics_object}->write_diagnostics($msg); } return; } sub report_tokenization_errors { my $self = shift; my $severe_error = $self->{_in_error}; my $level = get_indentation_level(); if ( $level != $tokenizer_self->{_starting_level} ) { warning("final indentation level: $level\n"); } check_final_nesting_depths(); if ( $tokenizer_self->{_look_for_hash_bang} && !$tokenizer_self->{_saw_hash_bang} ) { warning( "hit EOF without seeing hash-bang line; maybe don't need -x?\n"); } if ( $tokenizer_self->{_in_format} ) { warning("hit EOF while in format description\n"); } if ( $tokenizer_self->{_in_pod} ) { # Just write log entry if this is after __END__ or __DATA__ # because this happens to often, and it is not likely to be # a parsing error. if ( $tokenizer_self->{_saw_data} || $tokenizer_self->{_saw_end} ) { write_logfile_entry( "hit eof while in pod documentation (no =cut seen)\n\tthis can cause trouble with some pod utilities\n" ); } else { complain( "hit eof while in pod documentation (no =cut seen)\n\tthis can cause trouble with some pod utilities\n" ); } } if ( $tokenizer_self->{_in_here_doc} ) { $severe_error = 1; my $here_doc_target = $tokenizer_self->{_here_doc_target}; my $started_looking_for_here_target_at = $tokenizer_self->{_started_looking_for_here_target_at}; if ($here_doc_target) { warning( "hit EOF in here document starting at line $started_looking_for_here_target_at with target: $here_doc_target\n" ); } else { warning( "hit EOF in here document starting at line $started_looking_for_here_target_at with empty target string\n" ); } my $nearly_matched_here_target_at = $tokenizer_self->{_nearly_matched_here_target_at}; if ($nearly_matched_here_target_at) { warning( "NOTE: almost matched at input line $nearly_matched_here_target_at except for whitespace\n" ); } } if ( $tokenizer_self->{_in_quote} ) { $severe_error = 1; my $line_start_quote = $tokenizer_self->{_line_start_quote}; my $quote_target = $tokenizer_self->{_quote_target}; my $what = ( $tokenizer_self->{_in_attribute_list} ) ? "attribute list" : "quote/pattern"; warning( "hit EOF seeking end of $what starting at line $line_start_quote ending in $quote_target\n" ); } if ( $tokenizer_self->{_hit_bug} ) { $severe_error = 1; } my $logger_object = $tokenizer_self->{_logger_object}; # TODO: eventually may want to activate this to cause file to be output verbatim if (0) { # Set the severe error for a fairly high warning count because # some of the warnings do not harm formatting, such as duplicate # sub names. my $warning_count = $logger_object->{_warning_count}; if ( $warning_count > 50 ) { $severe_error = 1; } # Brace errors are significant, so set the severe error flag at # a low number. my $saw_brace_error = $logger_object->{_saw_brace_error}; if ( $saw_brace_error > 2 ) { $severe_error = 1; } } unless ( $tokenizer_self->{_saw_perl_dash_w} ) { if ( $] < 5.006 ) { write_logfile_entry("Suggest including '-w parameter'\n"); } else { write_logfile_entry("Suggest including 'use warnings;'\n"); } } if ( $tokenizer_self->{_saw_perl_dash_P} ) { write_logfile_entry("Use of -P parameter for defines is discouraged\n"); } unless ( $tokenizer_self->{_saw_use_strict} ) { write_logfile_entry("Suggest including 'use strict;'\n"); } # it is suggested that labels have at least one upper case character # for legibility and to avoid code breakage as new keywords are introduced if ( $tokenizer_self->{_rlower_case_labels_at} ) { my @lower_case_labels_at = @{ $tokenizer_self->{_rlower_case_labels_at} }; write_logfile_entry( "Suggest using upper case characters in label(s)\n"); local $" = ')('; write_logfile_entry(" defined at line(s): (@lower_case_labels_at)\n"); } return $severe_error; } sub report_v_string { # warn if this version can't handle v-strings my $tok = shift; unless ( $tokenizer_self->{_saw_v_string} ) { $tokenizer_self->{_saw_v_string} = $tokenizer_self->{_last_line_number}; } if ( $] < 5.006 ) { warning( "Found v-string '$tok' but v-strings are not implemented in your version of perl; see Camel 3 book ch 2\n" ); } return; } sub get_input_line_number { return $tokenizer_self->{_last_line_number}; } # returns the next tokenized line sub get_line { my $self = shift; # USES GLOBAL VARIABLES: $tokenizer_self, $brace_depth, # $square_bracket_depth, $paren_depth my $input_line = $tokenizer_self->{_line_buffer_object}->get_line(); $tokenizer_self->{_line_text} = $input_line; return unless ($input_line); my $input_line_number = ++$tokenizer_self->{_last_line_number}; # Find and remove what characters terminate this line, including any # control r my $input_line_separator = ""; if ( chomp($input_line) ) { $input_line_separator = $/ } # TODO: what other characters should be included here? if ( $input_line =~ s/((\r|\035|\032)+)$// ) { $input_line_separator = $2 . $input_line_separator; } # for backwards compatibility we keep the line text terminated with # a newline character $input_line .= "\n"; $tokenizer_self->{_line_text} = $input_line; # update # create a data structure describing this line which will be # returned to the caller. # _line_type codes are: # SYSTEM - system-specific code before hash-bang line # CODE - line of perl code (including comments) # POD_START - line starting pod, such as '=head' # POD - pod documentation text # POD_END - last line of pod section, '=cut' # HERE - text of here-document # HERE_END - last line of here-doc (target word) # FORMAT - format section # FORMAT_END - last line of format section, '.' # DATA_START - __DATA__ line # DATA - unidentified text following __DATA__ # END_START - __END__ line # END - unidentified text following __END__ # ERROR - we are in big trouble, probably not a perl script # Other variables: # _curly_brace_depth - depth of curly braces at start of line # _square_bracket_depth - depth of square brackets at start of line # _paren_depth - depth of parens at start of line # _starting_in_quote - this line continues a multi-line quote # (so don't trim leading blanks!) # _ending_in_quote - this line ends in a multi-line quote # (so don't trim trailing blanks!) my $line_of_tokens = { _line_type => 'EOF', _line_text => $input_line, _line_number => $input_line_number, _rtoken_type => undef, _rtokens => undef, _rlevels => undef, _rslevels => undef, _rblock_type => undef, _rcontainer_type => undef, _rcontainer_environment => undef, _rtype_sequence => undef, _rnesting_tokens => undef, _rci_levels => undef, _rnesting_blocks => undef, _guessed_indentation_level => 0, _starting_in_quote => 0, # to be set by subroutine _ending_in_quote => 0, _curly_brace_depth => $brace_depth, _square_bracket_depth => $square_bracket_depth, _paren_depth => $paren_depth, _quote_character => '', }; # must print line unchanged if we are in a here document if ( $tokenizer_self->{_in_here_doc} ) { $line_of_tokens->{_line_type} = 'HERE'; my $here_doc_target = $tokenizer_self->{_here_doc_target}; my $here_quote_character = $tokenizer_self->{_here_quote_character}; my $candidate_target = $input_line; chomp $candidate_target; # Handle <<~ targets, which are indicated here by a leading space on # the here quote character if ( $here_quote_character =~ /^\s/ ) { $candidate_target =~ s/^\s*//; } if ( $candidate_target eq $here_doc_target ) { $tokenizer_self->{_nearly_matched_here_target_at} = undef; $line_of_tokens->{_line_type} = 'HERE_END'; write_logfile_entry("Exiting HERE document $here_doc_target\n"); my $rhere_target_list = $tokenizer_self->{_rhere_target_list}; if ( @{$rhere_target_list} ) { # there can be multiple here targets ( $here_doc_target, $here_quote_character ) = @{ shift @{$rhere_target_list} }; $tokenizer_self->{_here_doc_target} = $here_doc_target; $tokenizer_self->{_here_quote_character} = $here_quote_character; write_logfile_entry( "Entering HERE document $here_doc_target\n"); $tokenizer_self->{_nearly_matched_here_target_at} = undef; $tokenizer_self->{_started_looking_for_here_target_at} = $input_line_number; } else { $tokenizer_self->{_in_here_doc} = 0; $tokenizer_self->{_here_doc_target} = ""; $tokenizer_self->{_here_quote_character} = ""; } } # check for error of extra whitespace # note for PERL6: leading whitespace is allowed else { $candidate_target =~ s/\s*$//; $candidate_target =~ s/^\s*//; if ( $candidate_target eq $here_doc_target ) { $tokenizer_self->{_nearly_matched_here_target_at} = $input_line_number; } } return $line_of_tokens; } # must print line unchanged if we are in a format section elsif ( $tokenizer_self->{_in_format} ) { if ( $input_line =~ /^\.[\s#]*$/ ) { write_logfile_entry("Exiting format section\n"); $tokenizer_self->{_in_format} = 0; $line_of_tokens->{_line_type} = 'FORMAT_END'; } else { $line_of_tokens->{_line_type} = 'FORMAT'; } return $line_of_tokens; } # must print line unchanged if we are in pod documentation elsif ( $tokenizer_self->{_in_pod} ) { $line_of_tokens->{_line_type} = 'POD'; if ( $input_line =~ /^=cut/ ) { $line_of_tokens->{_line_type} = 'POD_END'; write_logfile_entry("Exiting POD section\n"); $tokenizer_self->{_in_pod} = 0; } if ( $input_line =~ /^\#\!.*perl\b/ ) { warning( "Hash-bang in pod can cause older versions of perl to fail! \n" ); } return $line_of_tokens; } # must print line unchanged if we have seen a severe error (i.e., we # are seeing illegal tokens and cannot continue. Syntax errors do # not pass this route). Calling routine can decide what to do, but # the default can be to just pass all lines as if they were after __END__ elsif ( $tokenizer_self->{_in_error} ) { $line_of_tokens->{_line_type} = 'ERROR'; return $line_of_tokens; } # print line unchanged if we are __DATA__ section elsif ( $tokenizer_self->{_in_data} ) { # ...but look for POD # Note that the _in_data and _in_end flags remain set # so that we return to that state after seeing the # end of a pod section if ( $input_line =~ /^=(?!cut)/ ) { $line_of_tokens->{_line_type} = 'POD_START'; write_logfile_entry("Entering POD section\n"); $tokenizer_self->{_in_pod} = 1; return $line_of_tokens; } else { $line_of_tokens->{_line_type} = 'DATA'; return $line_of_tokens; } } # print line unchanged if we are in __END__ section elsif ( $tokenizer_self->{_in_end} ) { # ...but look for POD # Note that the _in_data and _in_end flags remain set # so that we return to that state after seeing the # end of a pod section if ( $input_line =~ /^=(?!cut)/ ) { $line_of_tokens->{_line_type} = 'POD_START'; write_logfile_entry("Entering POD section\n"); $tokenizer_self->{_in_pod} = 1; return $line_of_tokens; } else { $line_of_tokens->{_line_type} = 'END'; return $line_of_tokens; } } # check for a hash-bang line if we haven't seen one if ( !$tokenizer_self->{_saw_hash_bang} ) { if ( $input_line =~ /^\#\!.*perl\b/ ) { $tokenizer_self->{_saw_hash_bang} = $input_line_number; # check for -w and -P flags if ( $input_line =~ /^\#\!.*perl\s.*-.*P/ ) { $tokenizer_self->{_saw_perl_dash_P} = 1; } if ( $input_line =~ /^\#\!.*perl\s.*-.*w/ ) { $tokenizer_self->{_saw_perl_dash_w} = 1; } if ( ( $input_line_number > 1 ) # leave any hash bang in a BEGIN block alone # i.e. see 'debugger-duck_type.t' && !( $last_nonblank_block_type && $last_nonblank_block_type eq 'BEGIN' ) && ( !$tokenizer_self->{_look_for_hash_bang} ) ) { # this is helpful for VMS systems; we may have accidentally # tokenized some DCL commands if ( $tokenizer_self->{_started_tokenizing} ) { warning( "There seems to be a hash-bang after line 1; do you need to run with -x ?\n" ); } else { complain("Useless hash-bang after line 1\n"); } } # Report the leading hash-bang as a system line # This will prevent -dac from deleting it else { $line_of_tokens->{_line_type} = 'SYSTEM'; return $line_of_tokens; } } } # wait for a hash-bang before parsing if the user invoked us with -x if ( $tokenizer_self->{_look_for_hash_bang} && !$tokenizer_self->{_saw_hash_bang} ) { $line_of_tokens->{_line_type} = 'SYSTEM'; return $line_of_tokens; } # a first line of the form ': #' will be marked as SYSTEM # since lines of this form may be used by tcsh if ( $input_line_number == 1 && $input_line =~ /^\s*\:\s*\#/ ) { $line_of_tokens->{_line_type} = 'SYSTEM'; return $line_of_tokens; } # now we know that it is ok to tokenize the line... # the line tokenizer will modify any of these private variables: # _rhere_target_list # _in_data # _in_end # _in_format # _in_error # _in_pod # _in_quote my $ending_in_quote_last = $tokenizer_self->{_in_quote}; tokenize_this_line($line_of_tokens); # Now finish defining the return structure and return it $line_of_tokens->{_ending_in_quote} = $tokenizer_self->{_in_quote}; # handle severe error (binary data in script) if ( $tokenizer_self->{_in_error} ) { $tokenizer_self->{_in_quote} = 0; # to avoid any more messages warning("Giving up after error\n"); $line_of_tokens->{_line_type} = 'ERROR'; reset_indentation_level(0); # avoid error messages return $line_of_tokens; } # handle start of pod documentation if ( $tokenizer_self->{_in_pod} ) { # This gets tricky..above a __DATA__ or __END__ section, perl # accepts '=cut' as the start of pod section. But afterwards, # only pod utilities see it and they may ignore an =cut without # leading =head. In any case, this isn't good. if ( $input_line =~ /^=cut\b/ ) { if ( $tokenizer_self->{_saw_data} || $tokenizer_self->{_saw_end} ) { complain("=cut while not in pod ignored\n"); $tokenizer_self->{_in_pod} = 0; $line_of_tokens->{_line_type} = 'POD_END'; } else { $line_of_tokens->{_line_type} = 'POD_START'; complain( "=cut starts a pod section .. this can fool pod utilities.\n" ); write_logfile_entry("Entering POD section\n"); } } else { $line_of_tokens->{_line_type} = 'POD_START'; write_logfile_entry("Entering POD section\n"); } return $line_of_tokens; } # update indentation levels for log messages if ( $input_line !~ /^\s*$/ ) { my $rlevels = $line_of_tokens->{_rlevels}; $line_of_tokens->{_guessed_indentation_level} = guess_old_indentation_level($input_line); } # see if this line contains here doc targets my $rhere_target_list = $tokenizer_self->{_rhere_target_list}; if ( @{$rhere_target_list} ) { my ( $here_doc_target, $here_quote_character ) = @{ shift @{$rhere_target_list} }; $tokenizer_self->{_in_here_doc} = 1; $tokenizer_self->{_here_doc_target} = $here_doc_target; $tokenizer_self->{_here_quote_character} = $here_quote_character; write_logfile_entry("Entering HERE document $here_doc_target\n"); $tokenizer_self->{_started_looking_for_here_target_at} = $input_line_number; } # NOTE: __END__ and __DATA__ statements are written unformatted # because they can theoretically contain additional characters # which are not tokenized (and cannot be read with either!). if ( $tokenizer_self->{_in_data} ) { $line_of_tokens->{_line_type} = 'DATA_START'; write_logfile_entry("Starting __DATA__ section\n"); $tokenizer_self->{_saw_data} = 1; # keep parsing after __DATA__ if use SelfLoader was seen if ( $tokenizer_self->{_saw_selfloader} ) { $tokenizer_self->{_in_data} = 0; write_logfile_entry( "SelfLoader seen, continuing; -nlsl deactivates\n"); } return $line_of_tokens; } elsif ( $tokenizer_self->{_in_end} ) { $line_of_tokens->{_line_type} = 'END_START'; write_logfile_entry("Starting __END__ section\n"); $tokenizer_self->{_saw_end} = 1; # keep parsing after __END__ if use AutoLoader was seen if ( $tokenizer_self->{_saw_autoloader} ) { $tokenizer_self->{_in_end} = 0; write_logfile_entry( "AutoLoader seen, continuing; -nlal deactivates\n"); } return $line_of_tokens; } # now, finally, we know that this line is type 'CODE' $line_of_tokens->{_line_type} = 'CODE'; # remember if we have seen any real code if ( !$tokenizer_self->{_started_tokenizing} && $input_line !~ /^\s*$/ && $input_line !~ /^\s*#/ ) { $tokenizer_self->{_started_tokenizing} = 1; } if ( $tokenizer_self->{_debugger_object} ) { $tokenizer_self->{_debugger_object}->write_debug_entry($line_of_tokens); } # Note: if keyword 'format' occurs in this line code, it is still CODE # (keyword 'format' need not start a line) if ( $tokenizer_self->{_in_format} ) { write_logfile_entry("Entering format section\n"); } if ( $tokenizer_self->{_in_quote} and ( $tokenizer_self->{_line_start_quote} < 0 ) ) { #if ( ( my $quote_target = get_quote_target() ) !~ /^\s*$/ ) { if ( ( my $quote_target = $tokenizer_self->{_quote_target} ) !~ /^\s*$/ ) { $tokenizer_self->{_line_start_quote} = $input_line_number; write_logfile_entry( "Start multi-line quote or pattern ending in $quote_target\n"); } } elsif ( ( $tokenizer_self->{_line_start_quote} >= 0 ) && !$tokenizer_self->{_in_quote} ) { $tokenizer_self->{_line_start_quote} = -1; write_logfile_entry("End of multi-line quote or pattern\n"); } # we are returning a line of CODE return $line_of_tokens; } sub find_starting_indentation_level { # We need to find the indentation level of the first line of the # script being formatted. Often it will be zero for an entire file, # but if we are formatting a local block of code (within an editor for # example) it may not be zero. The user may specify this with the # -sil=n parameter but normally doesn't so we have to guess. # # USES GLOBAL VARIABLES: $tokenizer_self my $starting_level = 0; # use value if given as parameter if ( $tokenizer_self->{_know_starting_level} ) { $starting_level = $tokenizer_self->{_starting_level}; } # if we know there is a hash_bang line, the level must be zero elsif ( $tokenizer_self->{_look_for_hash_bang} ) { $tokenizer_self->{_know_starting_level} = 1; } # otherwise figure it out from the input file else { my $line; my $i = 0; # keep looking at lines until we find a hash bang or piece of code my $msg = ""; while ( $line = $tokenizer_self->{_line_buffer_object}->peek_ahead( $i++ ) ) { # if first line is #! then assume starting level is zero if ( $i == 1 && $line =~ /^\#\!/ ) { $starting_level = 0; last; } next if ( $line =~ /^\s*#/ ); # skip past comments next if ( $line =~ /^\s*$/ ); # skip past blank lines $starting_level = guess_old_indentation_level($line); last; } $msg = "Line $i implies starting-indentation-level = $starting_level\n"; write_logfile_entry("$msg"); } $tokenizer_self->{_starting_level} = $starting_level; reset_indentation_level($starting_level); return; } sub guess_old_indentation_level { my ($line) = @_; # Guess the indentation level of an input line. # # For the first line of code this result will define the starting # indentation level. It will mainly be non-zero when perltidy is applied # within an editor to a local block of code. # # This is an impossible task in general because we can't know what tabs # meant for the old script and how many spaces were used for one # indentation level in the given input script. For example it may have # been previously formatted with -i=7 -et=3. But we can at least try to # make sure that perltidy guesses correctly if it is applied repeatedly to # a block of code within an editor, so that the block stays at the same # level when perltidy is applied repeatedly. # # USES GLOBAL VARIABLES: $tokenizer_self my $level = 0; # find leading tabs, spaces, and any statement label my $spaces = 0; if ( $line =~ /^(\t+)?(\s+)?(\w+:[^:])?/ ) { # If there are leading tabs, we use the tab scheme for this run, if # any, so that the code will remain stable when editing. if ($1) { $spaces += length($1) * $tokenizer_self->{_tabsize} } if ($2) { $spaces += length($2) } # correct for outdented labels if ( $3 && $tokenizer_self->{'_outdent_labels'} ) { $spaces += $tokenizer_self->{_continuation_indentation}; } } # compute indentation using the value of -i for this run. # If -i=0 is used for this run (which is possible) it doesn't matter # what we do here but we'll guess that the old run used 4 spaces per level. my $indent_columns = $tokenizer_self->{_indent_columns}; $indent_columns = 4 if ( !$indent_columns ); $level = int( $spaces / $indent_columns ); return ($level); } # This is a currently unused debug routine sub dump_functions { my $fh = *STDOUT; foreach my $pkg ( keys %is_user_function ) { print $fh "\nnon-constant subs in package $pkg\n"; foreach my $sub ( keys %{ $is_user_function{$pkg} } ) { my $msg = ""; if ( $is_block_list_function{$pkg}{$sub} ) { $msg = 'block_list'; } if ( $is_block_function{$pkg}{$sub} ) { $msg = 'block'; } print $fh "$sub $msg\n"; } } foreach my $pkg ( keys %is_constant ) { print $fh "\nconstants and constant subs in package $pkg\n"; foreach my $sub ( keys %{ $is_constant{$pkg} } ) { print $fh "$sub\n"; } } return; } sub ones_count { # count number of 1's in a string of 1's and 0's # example: ones_count("010101010101") gives 6 my $str = shift; return $str =~ tr/1/0/; } sub prepare_for_a_new_file { # previous tokens needed to determine what to expect next $last_nonblank_token = ';'; # the only possible starting state which $last_nonblank_type = ';'; # will make a leading brace a code block $last_nonblank_block_type = ''; # scalars for remembering statement types across multiple lines $statement_type = ''; # '' or 'use' or 'sub..' or 'case..' $in_attribute_list = 0; # scalars for remembering where we are in the file $current_package = "main"; $context = UNKNOWN_CONTEXT; # hashes used to remember function information %is_constant = (); # user-defined constants %is_user_function = (); # user-defined functions %user_function_prototype = (); # their prototypes %is_block_function = (); %is_block_list_function = (); %saw_function_definition = (); # variables used to track depths of various containers # and report nesting errors $paren_depth = 0; $brace_depth = 0; $square_bracket_depth = 0; @current_depth[ 0 .. $#closing_brace_names ] = (0) x scalar @closing_brace_names; $total_depth = 0; @total_depth = (); @nesting_sequence_number[ 0 .. $#closing_brace_names ] = ( 0 .. $#closing_brace_names ); @current_sequence_number = (); $paren_type[$paren_depth] = ''; $paren_semicolon_count[$paren_depth] = 0; $paren_structural_type[$brace_depth] = ''; $brace_type[$brace_depth] = ';'; # identify opening brace as code block $brace_structural_type[$brace_depth] = ''; $brace_context[$brace_depth] = UNKNOWN_CONTEXT; $brace_package[$paren_depth] = $current_package; $square_bracket_type[$square_bracket_depth] = ''; $square_bracket_structural_type[$square_bracket_depth] = ''; initialize_tokenizer_state(); return; } { # begin tokenize_this_line use constant BRACE => 0; use constant SQUARE_BRACKET => 1; use constant PAREN => 2; use constant QUESTION_COLON => 3; # TV1: scalars for processing one LINE. # Re-initialized on each entry to sub tokenize_this_line. my ( $block_type, $container_type, $expecting, $i, $i_tok, $input_line, $input_line_number, $last_nonblank_i, $max_token_index, $next_tok, $next_type, $peeked_ahead, $prototype, $rhere_target_list, $rtoken_map, $rtoken_type, $rtokens, $tok, $type, $type_sequence, $indent_flag, ); # TV2: refs to ARRAYS for processing one LINE # Re-initialized on each call. my $routput_token_list = []; # stack of output token indexes my $routput_token_type = []; # token types my $routput_block_type = []; # types of code block my $routput_container_type = []; # paren types, such as if, elsif, .. my $routput_type_sequence = []; # nesting sequential number my $routput_indent_flag = []; # # TV3: SCALARS for quote variables. These are initialized with a # subroutine call and continually updated as lines are processed. my ( $in_quote, $quote_type, $quote_character, $quote_pos, $quote_depth, $quoted_string_1, $quoted_string_2, $allowed_quote_modifiers, ); # TV4: SCALARS for multi-line identifiers and # statements. These are initialized with a subroutine call # and continually updated as lines are processed. my ( $id_scan_state, $identifier, $want_paren, $indented_if_level ); # TV5: SCALARS for tracking indentation level. # Initialized once and continually updated as lines are # processed. my ( $nesting_token_string, $nesting_type_string, $nesting_block_string, $nesting_block_flag, $nesting_list_string, $nesting_list_flag, $ci_string_in_tokenizer, $continuation_string_in_tokenizer, $in_statement_continuation, $level_in_tokenizer, $slevel_in_tokenizer, $rslevel_stack, ); # TV6: SCALARS for remembering several previous # tokens. Initialized once and continually updated as # lines are processed. my ( $last_nonblank_container_type, $last_nonblank_type_sequence, $last_last_nonblank_token, $last_last_nonblank_type, $last_last_nonblank_block_type, $last_last_nonblank_container_type, $last_last_nonblank_type_sequence, $last_nonblank_prototype, ); # ---------------------------------------------------------------- # beginning of tokenizer variable access and manipulation routines # ---------------------------------------------------------------- sub initialize_tokenizer_state { # TV1: initialized on each call # TV2: initialized on each call # TV3: $in_quote = 0; $quote_type = 'Q'; $quote_character = ""; $quote_pos = 0; $quote_depth = 0; $quoted_string_1 = ""; $quoted_string_2 = ""; $allowed_quote_modifiers = ""; # TV4: $id_scan_state = ''; $identifier = ''; $want_paren = ""; $indented_if_level = 0; # TV5: $nesting_token_string = ""; $nesting_type_string = ""; $nesting_block_string = '1'; # initially in a block $nesting_block_flag = 1; $nesting_list_string = '0'; # initially not in a list $nesting_list_flag = 0; # initially not in a list $ci_string_in_tokenizer = ""; $continuation_string_in_tokenizer = "0"; $in_statement_continuation = 0; $level_in_tokenizer = 0; $slevel_in_tokenizer = 0; $rslevel_stack = []; # TV6: $last_nonblank_container_type = ''; $last_nonblank_type_sequence = ''; $last_last_nonblank_token = ';'; $last_last_nonblank_type = ';'; $last_last_nonblank_block_type = ''; $last_last_nonblank_container_type = ''; $last_last_nonblank_type_sequence = ''; $last_nonblank_prototype = ""; return; } sub save_tokenizer_state { my $rTV1 = [ $block_type, $container_type, $expecting, $i, $i_tok, $input_line, $input_line_number, $last_nonblank_i, $max_token_index, $next_tok, $next_type, $peeked_ahead, $prototype, $rhere_target_list, $rtoken_map, $rtoken_type, $rtokens, $tok, $type, $type_sequence, $indent_flag, ]; my $rTV2 = [ $routput_token_list, $routput_token_type, $routput_block_type, $routput_container_type, $routput_type_sequence, $routput_indent_flag, ]; my $rTV3 = [ $in_quote, $quote_type, $quote_character, $quote_pos, $quote_depth, $quoted_string_1, $quoted_string_2, $allowed_quote_modifiers, ]; my $rTV4 = [ $id_scan_state, $identifier, $want_paren, $indented_if_level ]; my $rTV5 = [ $nesting_token_string, $nesting_type_string, $nesting_block_string, $nesting_block_flag, $nesting_list_string, $nesting_list_flag, $ci_string_in_tokenizer, $continuation_string_in_tokenizer, $in_statement_continuation, $level_in_tokenizer, $slevel_in_tokenizer, $rslevel_stack, ]; my $rTV6 = [ $last_nonblank_container_type, $last_nonblank_type_sequence, $last_last_nonblank_token, $last_last_nonblank_type, $last_last_nonblank_block_type, $last_last_nonblank_container_type, $last_last_nonblank_type_sequence, $last_nonblank_prototype, ]; return [ $rTV1, $rTV2, $rTV3, $rTV4, $rTV5, $rTV6 ]; } sub restore_tokenizer_state { my ($rstate) = @_; my ( $rTV1, $rTV2, $rTV3, $rTV4, $rTV5, $rTV6 ) = @{$rstate}; ( $block_type, $container_type, $expecting, $i, $i_tok, $input_line, $input_line_number, $last_nonblank_i, $max_token_index, $next_tok, $next_type, $peeked_ahead, $prototype, $rhere_target_list, $rtoken_map, $rtoken_type, $rtokens, $tok, $type, $type_sequence, $indent_flag, ) = @{$rTV1}; ( $routput_token_list, $routput_token_type, $routput_block_type, $routput_container_type, $routput_type_sequence, $routput_type_sequence, ) = @{$rTV2}; ( $in_quote, $quote_type, $quote_character, $quote_pos, $quote_depth, $quoted_string_1, $quoted_string_2, $allowed_quote_modifiers, ) = @{$rTV3}; ( $id_scan_state, $identifier, $want_paren, $indented_if_level ) = @{$rTV4}; ( $nesting_token_string, $nesting_type_string, $nesting_block_string, $nesting_block_flag, $nesting_list_string, $nesting_list_flag, $ci_string_in_tokenizer, $continuation_string_in_tokenizer, $in_statement_continuation, $level_in_tokenizer, $slevel_in_tokenizer, $rslevel_stack, ) = @{$rTV5}; ( $last_nonblank_container_type, $last_nonblank_type_sequence, $last_last_nonblank_token, $last_last_nonblank_type, $last_last_nonblank_block_type, $last_last_nonblank_container_type, $last_last_nonblank_type_sequence, $last_nonblank_prototype, ) = @{$rTV6}; return; } sub get_indentation_level { # patch to avoid reporting error if indented if is not terminated if ($indented_if_level) { return $level_in_tokenizer - 1 } return $level_in_tokenizer; } sub reset_indentation_level { $level_in_tokenizer = $slevel_in_tokenizer = shift; push @{$rslevel_stack}, $slevel_in_tokenizer; return; } sub peeked_ahead { my $flag = shift; $peeked_ahead = defined($flag) ? $flag : $peeked_ahead; return $peeked_ahead; } # ------------------------------------------------------------ # end of tokenizer variable access and manipulation routines # ------------------------------------------------------------ # ------------------------------------------------------------ # beginning of various scanner interface routines # ------------------------------------------------------------ sub scan_replacement_text { # check for here-docs in replacement text invoked by # a substitution operator with executable modifier 'e'. # # given: # $replacement_text # return: # $rht = reference to any here-doc targets my ($replacement_text) = @_; # quick check return unless ( $replacement_text =~ /<{_logger_object}; # localize all package variables local ( $tokenizer_self, $last_nonblank_token, $last_nonblank_type, $last_nonblank_block_type, $statement_type, $in_attribute_list, $current_package, $context, %is_constant, %is_user_function, %user_function_prototype, %is_block_function, %is_block_list_function, %saw_function_definition, $brace_depth, $paren_depth, $square_bracket_depth, @current_depth, @total_depth, $total_depth, @nesting_sequence_number, @current_sequence_number, @paren_type, @paren_semicolon_count, @paren_structural_type, @brace_type, @brace_structural_type, @brace_context, @brace_package, @square_bracket_type, @square_bracket_structural_type, @depth_array, @starting_line_of_current_depth, @nested_ternary_flag, @nested_statement_type, ); # save all lexical variables my $rstate = save_tokenizer_state(); _decrement_count(); # avoid error check for multiple tokenizers # make a new tokenizer my $rOpts = {}; my $rpending_logfile_message; my $source_object = Perl::Tidy::LineSource->new( \$replacement_text, $rOpts, $rpending_logfile_message ); my $tokenizer = Perl::Tidy::Tokenizer->new( source_object => $source_object, logger_object => $logger_object, starting_line_number => $input_line_number, ); # scan the replacement text 1 while ( $tokenizer->get_line() ); # remove any here doc targets my $rht = undef; if ( $tokenizer_self->{_in_here_doc} ) { $rht = []; push @{$rht}, [ $tokenizer_self->{_here_doc_target}, $tokenizer_self->{_here_quote_character} ]; if ( $tokenizer_self->{_rhere_target_list} ) { push @{$rht}, @{ $tokenizer_self->{_rhere_target_list} }; $tokenizer_self->{_rhere_target_list} = undef; } $tokenizer_self->{_in_here_doc} = undef; } # now its safe to report errors my $severe_error = $tokenizer->report_tokenization_errors(); # TODO: Could propagate a severe error up # restore all tokenizer lexical variables restore_tokenizer_state($rstate); # return the here doc targets return $rht; } sub scan_bare_identifier { ( $i, $tok, $type, $prototype ) = scan_bare_identifier_do( $input_line, $i, $tok, $type, $prototype, $rtoken_map, $max_token_index ); return; } sub scan_identifier { ( $i, $tok, $type, $id_scan_state, $identifier ) = scan_identifier_do( $i, $id_scan_state, $identifier, $rtokens, $max_token_index, $expecting, $paren_type[$paren_depth] ); return; } sub scan_id { ( $i, $tok, $type, $id_scan_state ) = scan_id_do( $input_line, $i, $tok, $rtokens, $rtoken_map, $id_scan_state, $max_token_index ); return; } sub scan_number { my $number; ( $i, $type, $number ) = scan_number_do( $input_line, $i, $rtoken_map, $type, $max_token_index ); return $number; } # a sub to warn if token found where term expected sub error_if_expecting_TERM { if ( $expecting == TERM ) { if ( $really_want_term{$last_nonblank_type} ) { report_unexpected( $tok, "term", $i_tok, $last_nonblank_i, $rtoken_map, $rtoken_type, $input_line ); return 1; } } return; } # a sub to warn if token found where operator expected sub error_if_expecting_OPERATOR { my $thing = shift; if ( $expecting == OPERATOR ) { if ( !defined($thing) ) { $thing = $tok } report_unexpected( $thing, "operator", $i_tok, $last_nonblank_i, $rtoken_map, $rtoken_type, $input_line ); if ( $i_tok == 0 ) { interrupt_logfile(); warning("Missing ';' above?\n"); resume_logfile(); } return 1; } return; } # ------------------------------------------------------------ # end scanner interfaces # ------------------------------------------------------------ my %is_for_foreach; @_ = qw(for foreach); @is_for_foreach{@_} = (1) x scalar(@_); my %is_my_our; @_ = qw(my our); @is_my_our{@_} = (1) x scalar(@_); # These keywords may introduce blocks after parenthesized expressions, # in the form: # keyword ( .... ) { BLOCK } # patch for SWITCH/CASE: added 'switch' 'case' 'given' 'when' my %is_blocktype_with_paren; @_ = qw(if elsif unless while until for foreach switch case given when catch); @is_blocktype_with_paren{@_} = (1) x scalar(@_); # ------------------------------------------------------------ # begin hash of code for handling most token types # ------------------------------------------------------------ my $tokenization_code = { # no special code for these types yet, but syntax checks # could be added ## '!' => undef, ## '!=' => undef, ## '!~' => undef, ## '%=' => undef, ## '&&=' => undef, ## '&=' => undef, ## '+=' => undef, ## '-=' => undef, ## '..' => undef, ## '..' => undef, ## '...' => undef, ## '.=' => undef, ## '<<=' => undef, ## '<=' => undef, ## '<=>' => undef, ## '<>' => undef, ## '=' => undef, ## '==' => undef, ## '=~' => undef, ## '>=' => undef, ## '>>' => undef, ## '>>=' => undef, ## '\\' => undef, ## '^=' => undef, ## '|=' => undef, ## '||=' => undef, ## '//=' => undef, ## '~' => undef, ## '~~' => undef, ## '!~~' => undef, '>' => sub { error_if_expecting_TERM() if ( $expecting == TERM ); }, '|' => sub { error_if_expecting_TERM() if ( $expecting == TERM ); }, '$' => sub { # start looking for a scalar error_if_expecting_OPERATOR("Scalar") if ( $expecting == OPERATOR ); scan_identifier(); if ( $identifier eq '$^W' ) { $tokenizer_self->{_saw_perl_dash_w} = 1; } # Check for identifier in indirect object slot # (vorboard.pl, sort.t). Something like: # /^(print|printf|sort|exec|system)$/ if ( $is_indirect_object_taker{$last_nonblank_token} || ( ( $last_nonblank_token eq '(' ) && $is_indirect_object_taker{ $paren_type[$paren_depth] } ) || ( $last_nonblank_type =~ /^[Uw]$/ ) # possible object ) { $type = 'Z'; } }, '(' => sub { ++$paren_depth; $paren_semicolon_count[$paren_depth] = 0; if ($want_paren) { $container_type = $want_paren; $want_paren = ""; } elsif ( $statement_type =~ /^sub\b/ ) { $container_type = $statement_type; } else { $container_type = $last_nonblank_token; # We can check for a syntax error here of unexpected '(', # but this is going to get messy... if ( $expecting == OPERATOR # be sure this is not a method call of the form # &method(...), $method->(..), &{method}(...), # $ref[2](list) is ok & short for $ref[2]->(list) # NOTE: at present, braces in something like &{ xxx } # are not marked as a block, we might have a method call && $last_nonblank_token !~ /^([\]\}\&]|\-\>)/ ) { # ref: camel 3 p 703. if ( $last_last_nonblank_token eq 'do' ) { complain( "do SUBROUTINE is deprecated; consider & or -> notation\n" ); } else { # if this is an empty list, (), then it is not an # error; for example, we might have a constant pi and # invoke it with pi() or just pi; my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i, $rtokens, $max_token_index ); if ( $next_nonblank_token ne ')' ) { my $hint; error_if_expecting_OPERATOR('('); if ( $last_nonblank_type eq 'C' ) { $hint = "$last_nonblank_token has a void prototype\n"; } elsif ( $last_nonblank_type eq 'i' ) { if ( $i_tok > 0 && $last_nonblank_token =~ /^\$/ ) { $hint = "Do you mean '$last_nonblank_token->(' ?\n"; } } if ($hint) { interrupt_logfile(); warning($hint); resume_logfile(); } } ## end if ( $next_nonblank_token... } ## end else [ if ( $last_last_nonblank_token... } ## end if ( $expecting == OPERATOR... } $paren_type[$paren_depth] = $container_type; ( $type_sequence, $indent_flag ) = increase_nesting_depth( PAREN, $rtoken_map->[$i_tok] ); # propagate types down through nested parens # for example: the second paren in 'if ((' would be structural # since the first is. if ( $last_nonblank_token eq '(' ) { $type = $last_nonblank_type; } # We exclude parens as structural after a ',' because it # causes subtle problems with continuation indentation for # something like this, where the first 'or' will not get # indented. # # assert( # __LINE__, # ( not defined $check ) # or ref $check # or $check eq "new" # or $check eq "old", # ); # # Likewise, we exclude parens where a statement can start # because of problems with continuation indentation, like # these: # # ($firstline =~ /^#\!.*perl/) # and (print $File::Find::name, "\n") # and (return 1); # # (ref($usage_fref) =~ /CODE/) # ? &$usage_fref # : (&blast_usage, &blast_params, &blast_general_params); else { $type = '{'; } if ( $last_nonblank_type eq ')' ) { warning( "Syntax error? found token '$last_nonblank_type' then '('\n" ); } $paren_structural_type[$paren_depth] = $type; }, ')' => sub { ( $type_sequence, $indent_flag ) = decrease_nesting_depth( PAREN, $rtoken_map->[$i_tok] ); if ( $paren_structural_type[$paren_depth] eq '{' ) { $type = '}'; } $container_type = $paren_type[$paren_depth]; # restore statement type as 'sub' at closing paren of a signature # so that a subsequent ':' is identified as an attribute if ( $container_type =~ /^sub\b/ ) { $statement_type = $container_type; } # /^(for|foreach)$/ if ( $is_for_foreach{ $paren_type[$paren_depth] } ) { my $num_sc = $paren_semicolon_count[$paren_depth]; if ( $num_sc > 0 && $num_sc != 2 ) { warning("Expected 2 ';' in 'for(;;)' but saw $num_sc\n"); } } if ( $paren_depth > 0 ) { $paren_depth-- } }, ',' => sub { if ( $last_nonblank_type eq ',' ) { complain("Repeated ','s \n"); } # patch for operator_expected: note if we are in the list (use.t) if ( $statement_type eq 'use' ) { $statement_type = '_use' } ## FIXME: need to move this elsewhere, perhaps check after a '(' ## elsif ($last_nonblank_token eq '(') { ## warning("Leading ','s illegal in some versions of perl\n"); ## } }, ';' => sub { $context = UNKNOWN_CONTEXT; $statement_type = ''; $want_paren = ""; # /^(for|foreach)$/ if ( $is_for_foreach{ $paren_type[$paren_depth] } ) { # mark ; in for loop # Be careful: we do not want a semicolon such as the # following to be included: # # for (sort {strcoll($a,$b);} keys %investments) { if ( $brace_depth == $depth_array[PAREN][BRACE][$paren_depth] && $square_bracket_depth == $depth_array[PAREN][SQUARE_BRACKET][$paren_depth] ) { $type = 'f'; $paren_semicolon_count[$paren_depth]++; } } }, '"' => sub { error_if_expecting_OPERATOR("String") if ( $expecting == OPERATOR ); $in_quote = 1; $type = 'Q'; $allowed_quote_modifiers = ""; }, "'" => sub { error_if_expecting_OPERATOR("String") if ( $expecting == OPERATOR ); $in_quote = 1; $type = 'Q'; $allowed_quote_modifiers = ""; }, '`' => sub { error_if_expecting_OPERATOR("String") if ( $expecting == OPERATOR ); $in_quote = 1; $type = 'Q'; $allowed_quote_modifiers = ""; }, '/' => sub { my $is_pattern; if ( $expecting == UNKNOWN ) { # indeterminate, must guess.. my $msg; ( $is_pattern, $msg ) = guess_if_pattern_or_division( $i, $rtokens, $rtoken_map, $max_token_index ); if ($msg) { write_diagnostics("DIVIDE:$msg\n"); write_logfile_entry($msg); } } else { $is_pattern = ( $expecting == TERM ) } if ($is_pattern) { $in_quote = 1; $type = 'Q'; $allowed_quote_modifiers = '[msixpodualngc]'; } else { # not a pattern; check for a /= token if ( $rtokens->[ $i + 1 ] eq '=' ) { # form token /= $i++; $tok = '/='; $type = $tok; } #DEBUG - collecting info on what tokens follow a divide # for development of guessing algorithm #if ( numerator_expected( $i, $rtokens, $max_token_index ) < 0 ) { # #write_diagnostics( "DIVIDE? $input_line\n" ); #} } }, '{' => sub { # if we just saw a ')', we will label this block with # its type. We need to do this to allow sub # code_block_type to determine if this brace starts a # code block or anonymous hash. (The type of a paren # pair is the preceding token, such as 'if', 'else', # etc). $container_type = ""; # ATTRS: for a '{' following an attribute list, reset # things to look like we just saw the sub name if ( $statement_type =~ /^sub/ ) { $last_nonblank_token = $statement_type; $last_nonblank_type = 'i'; $statement_type = ""; } # patch for SWITCH/CASE: hide these keywords from an immediately # following opening brace elsif ( ( $statement_type eq 'case' || $statement_type eq 'when' ) && $statement_type eq $last_nonblank_token ) { $last_nonblank_token = ";"; } elsif ( $last_nonblank_token eq ')' ) { $last_nonblank_token = $paren_type[ $paren_depth + 1 ]; # defensive move in case of a nesting error (pbug.t) # in which this ')' had no previous '(' # this nesting error will have been caught if ( !defined($last_nonblank_token) ) { $last_nonblank_token = 'if'; } # check for syntax error here; unless ( $is_blocktype_with_paren{$last_nonblank_token} ) { if ( $tokenizer_self->{'_extended_syntax'} ) { # we append a trailing () to mark this as an unknown # block type. This allows perltidy to format some # common extensions of perl syntax. # This is used by sub code_block_type $last_nonblank_token .= '()'; } else { my $list = join( ' ', sort keys %is_blocktype_with_paren ); warning( "syntax error at ') {', didn't see one of: <<$list>>; If this code is okay try using the -xs flag\n" ); } } } # patch for paren-less for/foreach glitch, part 2. # see note below under 'qw' elsif ($last_nonblank_token eq 'qw' && $is_for_foreach{$want_paren} ) { $last_nonblank_token = $want_paren; if ( $last_last_nonblank_token eq $want_paren ) { warning( "syntax error at '$want_paren .. {' -- missing \$ loop variable\n" ); } $want_paren = ""; } # now identify which of the three possible types of # curly braces we have: hash index container, anonymous # hash reference, or code block. # non-structural (hash index) curly brace pair # get marked 'L' and 'R' if ( is_non_structural_brace() ) { $type = 'L'; # patch for SWITCH/CASE: # allow paren-less identifier after 'when' # if the brace is preceded by a space if ( $statement_type eq 'when' && $last_nonblank_type eq 'i' && $last_last_nonblank_type eq 'k' && ( $i_tok == 0 || $rtoken_type->[ $i_tok - 1 ] eq 'b' ) ) { $type = '{'; $block_type = $statement_type; } } # code and anonymous hash have the same type, '{', but are # distinguished by 'block_type', # which will be blank for an anonymous hash else { $block_type = code_block_type( $i_tok, $rtokens, $rtoken_type, $max_token_index ); # patch to promote bareword type to function taking block if ( $block_type && $last_nonblank_type eq 'w' && $last_nonblank_i >= 0 ) { if ( $routput_token_type->[$last_nonblank_i] eq 'w' ) { $routput_token_type->[$last_nonblank_i] = 'G'; } } # patch for SWITCH/CASE: if we find a stray opening block brace # where we might accept a 'case' or 'when' block, then take it if ( $statement_type eq 'case' || $statement_type eq 'when' ) { if ( !$block_type || $block_type eq '}' ) { $block_type = $statement_type; } } } $brace_type[ ++$brace_depth ] = $block_type; $brace_package[$brace_depth] = $current_package; $brace_structural_type[$brace_depth] = $type; $brace_context[$brace_depth] = $context; ( $type_sequence, $indent_flag ) = increase_nesting_depth( BRACE, $rtoken_map->[$i_tok] ); }, '}' => sub { $block_type = $brace_type[$brace_depth]; if ($block_type) { $statement_type = '' } if ( defined( $brace_package[$brace_depth] ) ) { $current_package = $brace_package[$brace_depth]; } # can happen on brace error (caught elsewhere) else { } ( $type_sequence, $indent_flag ) = decrease_nesting_depth( BRACE, $rtoken_map->[$i_tok] ); if ( $brace_structural_type[$brace_depth] eq 'L' ) { $type = 'R'; } # propagate type information for 'do' and 'eval' blocks, and also # for smartmatch operator. This is necessary to enable us to know # if an operator or term is expected next. if ( $is_block_operator{$block_type} ) { $tok = $block_type; } $context = $brace_context[$brace_depth]; if ( $brace_depth > 0 ) { $brace_depth--; } }, '&' => sub { # maybe sub call? start looking # We have to check for sub call unless we are sure we # are expecting an operator. This example from s2p # got mistaken as a q operator in an early version: # print BODY &q(<<'EOT'); if ( $expecting != OPERATOR ) { # But only look for a sub call if we are expecting a term or # if there is no existing space after the &. # For example we probably don't want & as sub call here: # Fcntl::S_IRUSR & $mode; if ( $expecting == TERM || $next_type ne 'b' ) { scan_identifier(); } } else { } }, '<' => sub { # angle operator or less than? if ( $expecting != OPERATOR ) { ( $i, $type ) = find_angle_operator_termination( $input_line, $i, $rtoken_map, $expecting, $max_token_index ); if ( $type eq '<' && $expecting == TERM ) { error_if_expecting_TERM(); interrupt_logfile(); warning("Unterminated <> operator?\n"); resume_logfile(); } } else { } }, '?' => sub { # ?: conditional or starting pattern? my $is_pattern; if ( $expecting == UNKNOWN ) { my $msg; ( $is_pattern, $msg ) = guess_if_pattern_or_conditional( $i, $rtokens, $rtoken_map, $max_token_index ); if ($msg) { write_logfile_entry($msg) } } else { $is_pattern = ( $expecting == TERM ) } if ($is_pattern) { $in_quote = 1; $type = 'Q'; $allowed_quote_modifiers = '[msixpodualngc]'; } else { ( $type_sequence, $indent_flag ) = increase_nesting_depth( QUESTION_COLON, $rtoken_map->[$i_tok] ); } }, '*' => sub { # typeglob, or multiply? if ( $expecting == TERM ) { scan_identifier(); } else { if ( $rtokens->[ $i + 1 ] eq '=' ) { $tok = '*='; $type = $tok; $i++; } elsif ( $rtokens->[ $i + 1 ] eq '*' ) { $tok = '**'; $type = $tok; $i++; if ( $rtokens->[ $i + 1 ] eq '=' ) { $tok = '**='; $type = $tok; $i++; } } } }, '.' => sub { # what kind of . ? if ( $expecting != OPERATOR ) { scan_number(); if ( $type eq '.' ) { error_if_expecting_TERM() if ( $expecting == TERM ); } } else { } }, ':' => sub { # if this is the first nonblank character, call it a label # since perl seems to just swallow it if ( $input_line_number == 1 && $last_nonblank_i == -1 ) { $type = 'J'; } # ATTRS: check for a ':' which introduces an attribute list # (this might eventually get its own token type) elsif ( $statement_type =~ /^sub\b/ ) { $type = 'A'; $in_attribute_list = 1; } # check for scalar attribute, such as # my $foo : shared = 1; elsif ($is_my_our{$statement_type} && $current_depth[QUESTION_COLON] == 0 ) { $type = 'A'; $in_attribute_list = 1; } # otherwise, it should be part of a ?/: operator else { ( $type_sequence, $indent_flag ) = decrease_nesting_depth( QUESTION_COLON, $rtoken_map->[$i_tok] ); if ( $last_nonblank_token eq '?' ) { warning("Syntax error near ? :\n"); } } }, '+' => sub { # what kind of plus? if ( $expecting == TERM ) { my $number = scan_number(); # unary plus is safest assumption if not a number if ( !defined($number) ) { $type = 'p'; } } elsif ( $expecting == OPERATOR ) { } else { if ( $next_type eq 'w' ) { $type = 'p' } } }, '@' => sub { error_if_expecting_OPERATOR("Array") if ( $expecting == OPERATOR ); scan_identifier(); }, '%' => sub { # hash or modulo? # first guess is hash if no following blank if ( $expecting == UNKNOWN ) { if ( $next_type ne 'b' ) { $expecting = TERM } } if ( $expecting == TERM ) { scan_identifier(); } }, '[' => sub { $square_bracket_type[ ++$square_bracket_depth ] = $last_nonblank_token; ( $type_sequence, $indent_flag ) = increase_nesting_depth( SQUARE_BRACKET, $rtoken_map->[$i_tok] ); # It may seem odd, but structural square brackets have # type '{' and '}'. This simplifies the indentation logic. if ( !is_non_structural_brace() ) { $type = '{'; } $square_bracket_structural_type[$square_bracket_depth] = $type; }, ']' => sub { ( $type_sequence, $indent_flag ) = decrease_nesting_depth( SQUARE_BRACKET, $rtoken_map->[$i_tok] ); if ( $square_bracket_structural_type[$square_bracket_depth] eq '{' ) { $type = '}'; } # propagate type information for smartmatch operator. This is # necessary to enable us to know if an operator or term is expected # next. if ( $square_bracket_type[$square_bracket_depth] eq '~~' ) { $tok = $square_bracket_type[$square_bracket_depth]; } if ( $square_bracket_depth > 0 ) { $square_bracket_depth--; } }, '-' => sub { # what kind of minus? if ( ( $expecting != OPERATOR ) && $is_file_test_operator{$next_tok} ) { my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i + 1, $rtokens, $max_token_index ); # check for a quoted word like "-w=>xx"; # it is sufficient to just check for a following '=' if ( $next_nonblank_token eq '=' ) { $type = 'm'; } else { $i++; $tok .= $next_tok; $type = 'F'; } } elsif ( $expecting == TERM ) { my $number = scan_number(); # maybe part of bareword token? unary is safest if ( !defined($number) ) { $type = 'm'; } } elsif ( $expecting == OPERATOR ) { } else { if ( $next_type eq 'w' ) { $type = 'm'; } } }, '^' => sub { # check for special variables like ${^WARNING_BITS} if ( $expecting == TERM ) { # FIXME: this should work but will not catch errors # because we also have to be sure that previous token is # a type character ($,@,%). if ( $last_nonblank_token eq '{' && ( $next_tok =~ /^[A-Za-z_]/ ) ) { if ( $next_tok eq 'W' ) { $tokenizer_self->{_saw_perl_dash_w} = 1; } $tok = $tok . $next_tok; $i = $i + 1; $type = 'w'; } else { unless ( error_if_expecting_TERM() ) { # Something like this is valid but strange: # undef ^I; complain("The '^' seems unusual here\n"); } } } }, '::' => sub { # probably a sub call scan_bare_identifier(); }, '<<' => sub { # maybe a here-doc? return unless ( $i < $max_token_index ) ; # here-doc not possible if end of line if ( $expecting != OPERATOR ) { my ( $found_target, $here_doc_target, $here_quote_character, $saw_error ); ( $found_target, $here_doc_target, $here_quote_character, $i, $saw_error ) = find_here_doc( $expecting, $i, $rtokens, $rtoken_map, $max_token_index ); if ($found_target) { push @{$rhere_target_list}, [ $here_doc_target, $here_quote_character ]; $type = 'h'; if ( length($here_doc_target) > 80 ) { my $truncated = substr( $here_doc_target, 0, 80 ); complain("Long here-target: '$truncated' ...\n"); } elsif ( $here_doc_target !~ /^[A-Z_]\w+$/ ) { complain( "Unconventional here-target: '$here_doc_target'\n"); } } elsif ( $expecting == TERM ) { unless ($saw_error) { # shouldn't happen.. warning("Program bug; didn't find here doc target\n"); report_definite_bug(); } } } else { } }, '<<~' => sub { # a here-doc, new type added in v26 return unless ( $i < $max_token_index ) ; # here-doc not possible if end of line if ( $expecting != OPERATOR ) { my ( $found_target, $here_doc_target, $here_quote_character, $saw_error ); ( $found_target, $here_doc_target, $here_quote_character, $i, $saw_error ) = find_here_doc( $expecting, $i, $rtokens, $rtoken_map, $max_token_index ); if ($found_target) { if ( length($here_doc_target) > 80 ) { my $truncated = substr( $here_doc_target, 0, 80 ); complain("Long here-target: '$truncated' ...\n"); } elsif ( $here_doc_target !~ /^[A-Z_]\w+$/ ) { complain( "Unconventional here-target: '$here_doc_target'\n"); } # Note that we put a leading space on the here quote # character indicate that it may be preceded by spaces $here_quote_character = " " . $here_quote_character; push @{$rhere_target_list}, [ $here_doc_target, $here_quote_character ]; $type = 'h'; } elsif ( $expecting == TERM ) { unless ($saw_error) { # shouldn't happen.. warning("Program bug; didn't find here doc target\n"); report_definite_bug(); } } } else { } }, '->' => sub { # if -> points to a bare word, we must scan for an identifier, # otherwise something like ->y would look like the y operator scan_identifier(); }, # type = 'pp' for pre-increment, '++' for post-increment '++' => sub { if ( $expecting == TERM ) { $type = 'pp' } elsif ( $expecting == UNKNOWN ) { my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i, $rtokens, $max_token_index ); if ( $next_nonblank_token eq '$' ) { $type = 'pp' } } }, '=>' => sub { if ( $last_nonblank_type eq $tok ) { complain("Repeated '=>'s \n"); } # patch for operator_expected: note if we are in the list (use.t) # TODO: make version numbers a new token type if ( $statement_type eq 'use' ) { $statement_type = '_use' } }, # type = 'mm' for pre-decrement, '--' for post-decrement '--' => sub { if ( $expecting == TERM ) { $type = 'mm' } elsif ( $expecting == UNKNOWN ) { my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i, $rtokens, $max_token_index ); if ( $next_nonblank_token eq '$' ) { $type = 'mm' } } }, '&&' => sub { error_if_expecting_TERM() if ( $expecting == TERM ); }, '||' => sub { error_if_expecting_TERM() if ( $expecting == TERM ); }, '//' => sub { error_if_expecting_TERM() if ( $expecting == TERM ); }, }; # ------------------------------------------------------------ # end hash of code for handling individual token types # ------------------------------------------------------------ my %matching_start_token = ( '}' => '{', ']' => '[', ')' => '(' ); # These block types terminate statements and do not need a trailing # semicolon # patched for SWITCH/CASE/ my %is_zero_continuation_block_type; @_ = qw( } { BEGIN END CHECK INIT AUTOLOAD DESTROY UNITCHECK continue ; if elsif else unless while until for foreach switch case given when); @is_zero_continuation_block_type{@_} = (1) x scalar(@_); my %is_not_zero_continuation_block_type; @_ = qw(sort grep map do eval); @is_not_zero_continuation_block_type{@_} = (1) x scalar(@_); my %is_logical_container; @_ = qw(if elsif unless while and or err not && ! || for foreach); @is_logical_container{@_} = (1) x scalar(@_); my %is_binary_type; @_ = qw(|| &&); @is_binary_type{@_} = (1) x scalar(@_); my %is_binary_keyword; @_ = qw(and or err eq ne cmp); @is_binary_keyword{@_} = (1) x scalar(@_); # 'L' is token for opening { at hash key my %is_opening_type; @_ = qw" L { ( [ "; @is_opening_type{@_} = (1) x scalar(@_); # 'R' is token for closing } at hash key my %is_closing_type; @_ = qw" R } ) ] "; @is_closing_type{@_} = (1) x scalar(@_); my %is_redo_last_next_goto; @_ = qw(redo last next goto); @is_redo_last_next_goto{@_} = (1) x scalar(@_); my %is_use_require; @_ = qw(use require); @is_use_require{@_} = (1) x scalar(@_); my %is_sub_package; @_ = qw(sub package); @is_sub_package{@_} = (1) x scalar(@_); # This hash holds the hash key in $tokenizer_self for these keywords: my %is_format_END_DATA = ( 'format' => '_in_format', '__END__' => '_in_end', '__DATA__' => '_in_data', ); # original ref: camel 3 p 147, # but perl may accept undocumented flags # perl 5.10 adds 'p' (preserve) # Perl version 5.22 added 'n' # From http://perldoc.perl.org/perlop.html we have # /PATTERN/msixpodualngc or m?PATTERN?msixpodualngc # s/PATTERN/REPLACEMENT/msixpodualngcer # y/SEARCHLIST/REPLACEMENTLIST/cdsr # tr/SEARCHLIST/REPLACEMENTLIST/cdsr # qr/STRING/msixpodualn my %quote_modifiers = ( 's' => '[msixpodualngcer]', 'y' => '[cdsr]', 'tr' => '[cdsr]', 'm' => '[msixpodualngc]', 'qr' => '[msixpodualn]', 'q' => "", 'qq' => "", 'qw' => "", 'qx' => "", ); # table showing how many quoted things to look for after quote operator.. # s, y, tr have 2 (pattern and replacement) # others have 1 (pattern only) my %quote_items = ( 's' => 2, 'y' => 2, 'tr' => 2, 'm' => 1, 'qr' => 1, 'q' => 1, 'qq' => 1, 'qw' => 1, 'qx' => 1, ); sub tokenize_this_line { # This routine breaks a line of perl code into tokens which are of use in # indentation and reformatting. One of my goals has been to define tokens # such that a newline may be inserted between any pair of tokens without # changing or invalidating the program. This version comes close to this, # although there are necessarily a few exceptions which must be caught by # the formatter. Many of these involve the treatment of bare words. # # The tokens and their types are returned in arrays. See previous # routine for their names. # # See also the array "valid_token_types" in the BEGIN section for an # up-to-date list. # # To simplify things, token types are either a single character, or they # are identical to the tokens themselves. # # As a debugging aid, the -D flag creates a file containing a side-by-side # comparison of the input string and its tokenization for each line of a file. # This is an invaluable debugging aid. # # In addition to tokens, and some associated quantities, the tokenizer # also returns flags indication any special line types. These include # quotes, here_docs, formats. # # ----------------------------------------------------------------------- # # How to add NEW_TOKENS: # # New token types will undoubtedly be needed in the future both to keep up # with changes in perl and to help adapt the tokenizer to other applications. # # Here are some notes on the minimal steps. I wrote these notes while # adding the 'v' token type for v-strings, which are things like version # numbers 5.6.0, and ip addresses, and will use that as an example. ( You # can use your editor to search for the string "NEW_TOKENS" to find the # appropriate sections to change): # # *. Try to talk somebody else into doing it! If not, .. # # *. Make a backup of your current version in case things don't work out! # # *. Think of a new, unused character for the token type, and add to # the array @valid_token_types in the BEGIN section of this package. # For example, I used 'v' for v-strings. # # *. Implement coding to recognize the $type of the token in this routine. # This is the hardest part, and is best done by imitating or modifying # some of the existing coding. For example, to recognize v-strings, I # patched 'sub scan_bare_identifier' to recognize v-strings beginning with # 'v' and 'sub scan_number' to recognize v-strings without the leading 'v'. # # *. Update sub operator_expected. This update is critically important but # the coding is trivial. Look at the comments in that routine for help. # For v-strings, which should behave like numbers, I just added 'v' to the # regex used to handle numbers and strings (types 'n' and 'Q'). # # *. Implement a 'bond strength' rule in sub set_bond_strengths in # Perl::Tidy::Formatter for breaking lines around this token type. You can # skip this step and take the default at first, then adjust later to get # desired results. For adding type 'v', I looked at sub bond_strength and # saw that number type 'n' was using default strengths, so I didn't do # anything. I may tune it up someday if I don't like the way line # breaks with v-strings look. # # *. Implement a 'whitespace' rule in sub set_whitespace_flags in # Perl::Tidy::Formatter. For adding type 'v', I looked at this routine # and saw that type 'n' used spaces on both sides, so I just added 'v' # to the array @spaces_both_sides. # # *. Update HtmlWriter package so that users can colorize the token as # desired. This is quite easy; see comments identified by 'NEW_TOKENS' in # that package. For v-strings, I initially chose to use a default color # equal to the default for numbers, but it might be nice to change that # eventually. # # *. Update comments in Perl::Tidy::Tokenizer::dump_token_types. # # *. Run lots and lots of debug tests. Start with special files designed # to test the new token type. Run with the -D flag to create a .DEBUG # file which shows the tokenization. When these work ok, test as many old # scripts as possible. Start with all of the '.t' files in the 'test' # directory of the distribution file. Compare .tdy output with previous # version and updated version to see the differences. Then include as # many more files as possible. My own technique has been to collect a huge # number of perl scripts (thousands!) into one directory and run perltidy # *, then run diff between the output of the previous version and the # current version. # # *. For another example, search for the smartmatch operator '~~' # with your editor to see where updates were made for it. # # ----------------------------------------------------------------------- my $line_of_tokens = shift; my ($untrimmed_input_line) = $line_of_tokens->{_line_text}; # patch while coding change is underway # make callers private data to allow access # $tokenizer_self = $caller_tokenizer_self; # extract line number for use in error messages $input_line_number = $line_of_tokens->{_line_number}; # reinitialize for multi-line quote $line_of_tokens->{_starting_in_quote} = $in_quote && $quote_type eq 'Q'; # check for pod documentation if ( ( $untrimmed_input_line =~ /^=[A-Za-z_]/ ) ) { # must not be in multi-line quote # and must not be in an equation if ( !$in_quote && ( operator_expected( 'b', '=', 'b' ) == TERM ) ) { $tokenizer_self->{_in_pod} = 1; return; } } $input_line = $untrimmed_input_line; chomp $input_line; # trim start of this line unless we are continuing a quoted line # do not trim end because we might end in a quote (test: deken4.pl) # Perl::Tidy::Formatter will delete needless trailing blanks unless ( $in_quote && ( $quote_type eq 'Q' ) ) { $input_line =~ s/^\s*//; # trim left end } # Set a flag to indicate if we might be at an __END__ or __DATA__ line # This will be used below to avoid quoting a bare word followed by # a fat comma. my $is_END_or_DATA = $input_line =~ /^\s*__(END|DATA)__\s*$/; # update the copy of the line for use in error messages # This must be exactly what we give the pre_tokenizer $tokenizer_self->{_line_text} = $input_line; # re-initialize for the main loop $routput_token_list = []; # stack of output token indexes $routput_token_type = []; # token types $routput_block_type = []; # types of code block $routput_container_type = []; # paren types, such as if, elsif, .. $routput_type_sequence = []; # nesting sequential number $rhere_target_list = []; $tok = $last_nonblank_token; $type = $last_nonblank_type; $prototype = $last_nonblank_prototype; $last_nonblank_i = -1; $block_type = $last_nonblank_block_type; $container_type = $last_nonblank_container_type; $type_sequence = $last_nonblank_type_sequence; $indent_flag = 0; $peeked_ahead = 0; # tokenization is done in two stages.. # stage 1 is a very simple pre-tokenization my $max_tokens_wanted = 0; # this signals pre_tokenize to get all tokens # a little optimization for a full-line comment if ( !$in_quote && ( $input_line =~ /^#/ ) ) { $max_tokens_wanted = 1 # no use tokenizing a comment } # start by breaking the line into pre-tokens ( $rtokens, $rtoken_map, $rtoken_type ) = pre_tokenize( $input_line, $max_tokens_wanted ); $max_token_index = scalar( @{$rtokens} ) - 1; push( @{$rtokens}, ' ', ' ', ' ' ); # extra whitespace simplifies logic push( @{$rtoken_map}, 0, 0, 0 ); # shouldn't be referenced push( @{$rtoken_type}, 'b', 'b', 'b' ); # initialize for main loop foreach my $ii ( 0 .. $max_token_index + 3 ) { $routput_token_type->[$ii] = ""; $routput_block_type->[$ii] = ""; $routput_container_type->[$ii] = ""; $routput_type_sequence->[$ii] = ""; $routput_indent_flag->[$ii] = 0; } $i = -1; $i_tok = -1; # ------------------------------------------------------------ # begin main tokenization loop # ------------------------------------------------------------ # we are looking at each pre-token of one line and combining them # into tokens while ( ++$i <= $max_token_index ) { if ($in_quote) { # continue looking for end of a quote $type = $quote_type; unless ( @{$routput_token_list} ) { # initialize if continuation line push( @{$routput_token_list}, $i ); $routput_token_type->[$i] = $type; } $tok = $quote_character unless ( $quote_character =~ /^\s*$/ ); # scan for the end of the quote or pattern ( $i, $in_quote, $quote_character, $quote_pos, $quote_depth, $quoted_string_1, $quoted_string_2 ) = do_quote( $i, $in_quote, $quote_character, $quote_pos, $quote_depth, $quoted_string_1, $quoted_string_2, $rtokens, $rtoken_map, $max_token_index ); # all done if we didn't find it last if ($in_quote); # save pattern and replacement text for rescanning my $qs1 = $quoted_string_1; my $qs2 = $quoted_string_2; # re-initialize for next search $quote_character = ''; $quote_pos = 0; $quote_type = 'Q'; $quoted_string_1 = ""; $quoted_string_2 = ""; last if ( ++$i > $max_token_index ); # look for any modifiers if ($allowed_quote_modifiers) { # check for exact quote modifiers if ( $rtokens->[$i] =~ /^[A-Za-z_]/ ) { my $str = $rtokens->[$i]; my $saw_modifier_e; while ( $str =~ /\G$allowed_quote_modifiers/gc ) { my $pos = pos($str); my $char = substr( $str, $pos - 1, 1 ); $saw_modifier_e ||= ( $char eq 'e' ); } # For an 'e' quote modifier we must scan the replacement # text for here-doc targets. if ($saw_modifier_e) { my $rht = scan_replacement_text($qs1); # Change type from 'Q' to 'h' for quotes with # here-doc targets so that the formatter (see sub # print_line_of_tokens) will not make any line # breaks after this point. if ($rht) { push @{$rhere_target_list}, @{$rht}; $type = 'h'; if ( $i_tok < 0 ) { my $ilast = $routput_token_list->[-1]; $routput_token_type->[$ilast] = $type; } } } if ( defined( pos($str) ) ) { # matched if ( pos($str) == length($str) ) { last if ( ++$i > $max_token_index ); } # Looks like a joined quote modifier # and keyword, maybe something like # s/xxx/yyy/gefor @k=... # Example is "galgen.pl". Would have to split # the word and insert a new token in the # pre-token list. This is so rare that I haven't # done it. Will just issue a warning citation. # This error might also be triggered if my quote # modifier characters are incomplete else { warning(<[$i]\n"; # my $num = length($str) - pos($str); # $rtokens->[$i]=substr($rtokens->[$i],pos($str),$num); # print "continuing with new token $rtokens->[$i]\n"; # skipping past this token does least damage last if ( ++$i > $max_token_index ); } } else { # example file: rokicki4.pl # This error might also be triggered if my quote # modifier characters are incomplete write_logfile_entry( "Note: found word $str at quote modifier location\n" ); } } # re-initialize $allowed_quote_modifiers = ""; } } unless ( $tok =~ /^\s*$/ || $tok eq 'CORE::' ) { # try to catch some common errors if ( ( $type eq 'n' ) && ( $tok ne '0' ) ) { if ( $last_nonblank_token eq 'eq' ) { complain("Should 'eq' be '==' here ?\n"); } elsif ( $last_nonblank_token eq 'ne' ) { complain("Should 'ne' be '!=' here ?\n"); } } $last_last_nonblank_token = $last_nonblank_token; $last_last_nonblank_type = $last_nonblank_type; $last_last_nonblank_block_type = $last_nonblank_block_type; $last_last_nonblank_container_type = $last_nonblank_container_type; $last_last_nonblank_type_sequence = $last_nonblank_type_sequence; $last_nonblank_token = $tok; $last_nonblank_type = $type; $last_nonblank_prototype = $prototype; $last_nonblank_block_type = $block_type; $last_nonblank_container_type = $container_type; $last_nonblank_type_sequence = $type_sequence; $last_nonblank_i = $i_tok; } # store previous token type if ( $i_tok >= 0 ) { $routput_token_type->[$i_tok] = $type; $routput_block_type->[$i_tok] = $block_type; $routput_container_type->[$i_tok] = $container_type; $routput_type_sequence->[$i_tok] = $type_sequence; $routput_indent_flag->[$i_tok] = $indent_flag; } my $pre_tok = $rtokens->[$i]; # get the next pre-token my $pre_type = $rtoken_type->[$i]; # and type $tok = $pre_tok; $type = $pre_type; # to be modified as necessary $block_type = ""; # blank for all tokens except code block braces $container_type = ""; # blank for all tokens except some parens $type_sequence = ""; # blank for all tokens except ?/: $indent_flag = 0; $prototype = ""; # blank for all tokens except user defined subs $i_tok = $i; # this pre-token will start an output token push( @{$routput_token_list}, $i_tok ); # continue gathering identifier if necessary # but do not start on blanks and comments if ( $id_scan_state && $pre_type !~ /[b#]/ ) { if ( $id_scan_state =~ /^(sub|package)/ ) { scan_id(); } else { scan_identifier(); } last if ($id_scan_state); next if ( ( $i > 0 ) || $type ); # didn't find any token; start over $type = $pre_type; $tok = $pre_tok; } # handle whitespace tokens.. next if ( $type eq 'b' ); my $prev_tok = $i > 0 ? $rtokens->[ $i - 1 ] : ' '; my $prev_type = $i > 0 ? $rtoken_type->[ $i - 1 ] : 'b'; # Build larger tokens where possible, since we are not in a quote. # # First try to assemble digraphs. The following tokens are # excluded and handled specially: # '/=' is excluded because the / might start a pattern. # 'x=' is excluded since it might be $x=, with $ on previous line # '**' and *= might be typeglobs of punctuation variables # I have allowed tokens starting with <, such as <=, # because I don't think these could be valid angle operators. # test file: storrs4.pl my $test_tok = $tok . $rtokens->[ $i + 1 ]; my $combine_ok = $is_digraph{$test_tok}; # check for special cases which cannot be combined if ($combine_ok) { # '//' must be defined_or operator if an operator is expected. # TODO: Code for other ambiguous digraphs (/=, x=, **, *=) # could be migrated here for clarity # Patch for RT#102371, misparsing a // in the following snippet: # state $b //= ccc(); # The solution is to always accept the digraph (or trigraph) after # token type 'Z' (possible file handle). The reason is that # sub operator_expected gives TERM expected here, which is # wrong in this case. if ( $test_tok eq '//' && $last_nonblank_type ne 'Z' ) { my $next_type = $rtokens->[ $i + 1 ]; my $expecting = operator_expected( $prev_type, $tok, $next_type ); # Patched for RT#101547, was 'unless ($expecting==OPERATOR)' $combine_ok = 0 if ( $expecting == TERM ); } # Patch for RT #114359: Missparsing of "print $x ** 0.5; # Accept the digraphs '**' only after type 'Z' # Otherwise postpone the decision. if ( $test_tok eq '**' ) { if ( $last_nonblank_type ne 'Z' ) { $combine_ok = 0 } } } if ( $combine_ok && ( $test_tok ne '/=' ) # might be pattern && ( $test_tok ne 'x=' ) # might be $x && ( $test_tok ne '*=' ) # typeglob? # Moved above as part of fix for # RT #114359: Missparsing of "print $x ** 0.5; # && ( $test_tok ne '**' ) # typeglob? ) { $tok = $test_tok; $i++; # Now try to assemble trigraphs. Note that all possible # perl trigraphs can be constructed by appending a character # to a digraph. $test_tok = $tok . $rtokens->[ $i + 1 ]; if ( $is_trigraph{$test_tok} ) { $tok = $test_tok; $i++; } # The only current tetragraph is the double diamond operator # and its first three characters are not a trigraph, so # we do can do a special test for it elsif ( $test_tok eq '<<>' ) { $test_tok .= $rtokens->[ $i + 2 ]; if ( $is_tetragraph{$test_tok} ) { $tok = $test_tok; $i += 2; } } } $type = $tok; $next_tok = $rtokens->[ $i + 1 ]; $next_type = $rtoken_type->[ $i + 1 ]; TOKENIZER_DEBUG_FLAG_TOKENIZE && do { local $" = ')('; my @debug_list = ( $last_nonblank_token, $tok, $next_tok, $brace_depth, $brace_type[$brace_depth], $paren_depth, $paren_type[$paren_depth] ); print STDOUT "TOKENIZE:(@debug_list)\n"; }; # turn off attribute list on first non-blank, non-bareword if ( $pre_type ne 'w' ) { $in_attribute_list = 0 } ############################################################### # We have the next token, $tok. # Now we have to examine this token and decide what it is # and define its $type # # section 1: bare words ############################################################### if ( $pre_type eq 'w' ) { $expecting = operator_expected( $prev_type, $tok, $next_type ); my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i, $rtokens, $max_token_index ); # ATTRS: handle sub and variable attributes if ($in_attribute_list) { # treat bare word followed by open paren like qw( if ( $next_nonblank_token eq '(' ) { $in_quote = $quote_items{'q'}; $allowed_quote_modifiers = $quote_modifiers{'q'}; $type = 'q'; $quote_type = 'q'; next; } # handle bareword not followed by open paren else { $type = 'w'; next; } } # quote a word followed by => operator # unless the word __END__ or __DATA__ and the only word on # the line. if ( !$is_END_or_DATA && $next_nonblank_token eq '=' ) { if ( $rtokens->[ $i_next + 1 ] eq '>' ) { if ( $is_constant{$current_package}{$tok} ) { $type = 'C'; } elsif ( $is_user_function{$current_package}{$tok} ) { $type = 'U'; $prototype = $user_function_prototype{$current_package}{$tok}; } elsif ( $tok =~ /^v\d+$/ ) { $type = 'v'; report_v_string($tok); } else { $type = 'w' } next; } } # quote a bare word within braces..like xxx->{s}; note that we # must be sure this is not a structural brace, to avoid # mistaking {s} in the following for a quoted bare word: # for(@[){s}bla}BLA} # Also treat q in something like var{-q} as a bare word, not qoute operator if ( $next_nonblank_token eq '}' && ( $last_nonblank_type eq 'L' || ( $last_nonblank_type eq 'm' && $last_last_nonblank_type eq 'L' ) ) ) { $type = 'w'; next; } # a bare word immediately followed by :: is not a keyword; # use $tok_kw when testing for keywords to avoid a mistake my $tok_kw = $tok; if ( $rtokens->[ $i + 1 ] eq ':' && $rtokens->[ $i + 2 ] eq ':' ) { $tok_kw .= '::'; } # handle operator x (now we know it isn't $x=) if ( ( $tok =~ /^x\d*$/ ) && ( $expecting == OPERATOR ) ) { if ( $tok eq 'x' ) { if ( $rtokens->[ $i + 1 ] eq '=' ) { # x= $tok = 'x='; $type = $tok; $i++; } else { $type = 'x'; } } # FIXME: Patch: mark something like x4 as an integer for now # It gets fixed downstream. This is easier than # splitting the pretoken. else { $type = 'n'; } } elsif ( $tok_kw eq 'CORE::' ) { $type = $tok = $tok_kw; $i += 2; } elsif ( ( $tok eq 'strict' ) and ( $last_nonblank_token eq 'use' ) ) { $tokenizer_self->{_saw_use_strict} = 1; scan_bare_identifier(); } elsif ( ( $tok eq 'warnings' ) and ( $last_nonblank_token eq 'use' ) ) { $tokenizer_self->{_saw_perl_dash_w} = 1; # scan as identifier, so that we pick up something like: # use warnings::register scan_bare_identifier(); } elsif ( $tok eq 'AutoLoader' && $tokenizer_self->{_look_for_autoloader} && ( $last_nonblank_token eq 'use' # these regexes are from AutoSplit.pm, which we want # to mimic || $input_line =~ /^\s*(use|require)\s+AutoLoader\b/ || $input_line =~ /\bISA\s*=.*\bAutoLoader\b/ ) ) { write_logfile_entry("AutoLoader seen, -nlal deactivates\n"); $tokenizer_self->{_saw_autoloader} = 1; $tokenizer_self->{_look_for_autoloader} = 0; scan_bare_identifier(); } elsif ( $tok eq 'SelfLoader' && $tokenizer_self->{_look_for_selfloader} && ( $last_nonblank_token eq 'use' || $input_line =~ /^\s*(use|require)\s+SelfLoader\b/ || $input_line =~ /\bISA\s*=.*\bSelfLoader\b/ ) ) { write_logfile_entry("SelfLoader seen, -nlsl deactivates\n"); $tokenizer_self->{_saw_selfloader} = 1; $tokenizer_self->{_look_for_selfloader} = 0; scan_bare_identifier(); } elsif ( ( $tok eq 'constant' ) and ( $last_nonblank_token eq 'use' ) ) { scan_bare_identifier(); my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i, $rtokens, $max_token_index ); if ($next_nonblank_token) { if ( $is_keyword{$next_nonblank_token} ) { # Assume qw is used as a quote and okay, as in: # use constant qw{ DEBUG 0 }; # Not worth trying to parse for just a warning # NOTE: This warning is deactivated because recent # versions of perl do not complain here, but # the coding is retained for reference. if ( 0 && $next_nonblank_token ne 'qw' ) { warning( "Attempting to define constant '$next_nonblank_token' which is a perl keyword\n" ); } } # FIXME: could check for error in which next token is # not a word (number, punctuation, ..) else { $is_constant{$current_package}{$next_nonblank_token} = 1; } } } # various quote operators elsif ( $is_q_qq_qw_qx_qr_s_y_tr_m{$tok} ) { ##NICOL PATCH if ( $expecting == OPERATOR ) { # Be careful not to call an error for a qw quote # where a parenthesized list is allowed. For example, # it could also be a for/foreach construct such as # # foreach my $key qw\Uno Due Tres Quadro\ { # print "Set $key\n"; # } # # Or it could be a function call. # NOTE: Braces in something like &{ xxx } are not # marked as a block, we might have a method call. # &method(...), $method->(..), &{method}(...), # $ref[2](list) is ok & short for $ref[2]->(list) # # See notes in 'sub code_block_type' and # 'sub is_non_structural_brace' unless ( $tok eq 'qw' && ( $last_nonblank_token =~ /^([\]\}\&]|\-\>)/ || $is_for_foreach{$want_paren} ) ) { error_if_expecting_OPERATOR(); } } $in_quote = $quote_items{$tok}; $allowed_quote_modifiers = $quote_modifiers{$tok}; # All quote types are 'Q' except possibly qw quotes. # qw quotes are special in that they may generally be trimmed # of leading and trailing whitespace. So they are given a # separate type, 'q', unless requested otherwise. $type = ( $tok eq 'qw' && $tokenizer_self->{_trim_qw} ) ? 'q' : 'Q'; $quote_type = $type; } # check for a statement label elsif ( ( $next_nonblank_token eq ':' ) && ( $rtokens->[ $i_next + 1 ] ne ':' ) && ( $i_next <= $max_token_index ) # colon on same line && label_ok() ) { if ( $tok !~ /[A-Z]/ ) { push @{ $tokenizer_self->{_rlower_case_labels_at} }, $input_line_number; } $type = 'J'; $tok .= ':'; $i = $i_next; next; } # 'sub' || 'package' elsif ( $is_sub_package{$tok_kw} ) { error_if_expecting_OPERATOR() if ( $expecting == OPERATOR ); scan_id(); } # Note on token types for format, __DATA__, __END__: # It simplifies things to give these type ';', so that when we # start rescanning we will be expecting a token of type TERM. # We will switch to type 'k' before outputting the tokens. elsif ( $is_format_END_DATA{$tok_kw} ) { $type = ';'; # make tokenizer look for TERM next $tokenizer_self->{ $is_format_END_DATA{$tok_kw} } = 1; last; } elsif ( $is_keyword{$tok_kw} ) { $type = 'k'; # Since for and foreach may not be followed immediately # by an opening paren, we have to remember which keyword # is associated with the next '(' if ( $is_for_foreach{$tok} ) { if ( new_statement_ok() ) { $want_paren = $tok; } } # recognize 'use' statements, which are special elsif ( $is_use_require{$tok} ) { $statement_type = $tok; error_if_expecting_OPERATOR() if ( $expecting == OPERATOR ); } # remember my and our to check for trailing ": shared" elsif ( $is_my_our{$tok} ) { $statement_type = $tok; } # Check for misplaced 'elsif' and 'else', but allow isolated # else or elsif blocks to be formatted. This is indicated # by a last noblank token of ';' elsif ( $tok eq 'elsif' ) { if ( $last_nonblank_token ne ';' && $last_nonblank_block_type !~ /^(if|elsif|unless)$/ ) { warning( "expecting '$tok' to follow one of 'if|elsif|unless'\n" ); } } elsif ( $tok eq 'else' ) { # patched for SWITCH/CASE if ( $last_nonblank_token ne ';' && $last_nonblank_block_type !~ /^(if|elsif|unless|case|when)$/ # patch to avoid an unwanted error message for # the case of a parenless 'case' (RT 105484): # switch ( 1 ) { case x { 2 } else { } } && $statement_type !~ /^(if|elsif|unless|case|when)$/ ) { warning( "expecting '$tok' to follow one of 'if|elsif|unless|case|when'\n" ); } } elsif ( $tok eq 'continue' ) { if ( $last_nonblank_token ne ';' && $last_nonblank_block_type !~ /(^(\{|\}|;|while|until|for|foreach)|:$)/ ) { # note: ';' '{' and '}' in list above # because continues can follow bare blocks; # ':' is labeled block # ############################################ # NOTE: This check has been deactivated because # continue has an alternative usage for given/when # blocks in perl 5.10 ## warning("'$tok' should follow a block\n"); ############################################ } } # patch for SWITCH/CASE if 'case' and 'when are # treated as keywords. elsif ( $tok eq 'when' || $tok eq 'case' ) { $statement_type = $tok; # next '{' is block } # # indent trailing if/unless/while/until # outdenting will be handled by later indentation loop ## DEACTIVATED: unfortunately this can cause some unwanted indentation like: ##$opt_o = 1 ## if !( ## $opt_b ## || $opt_c ## || $opt_d ## || $opt_f ## || $opt_i ## || $opt_l ## || $opt_o ## || $opt_x ## ); ## if ( $tok =~ /^(if|unless|while|until)$/ ## && $next_nonblank_token ne '(' ) ## { ## $indent_flag = 1; ## } } # check for inline label following # /^(redo|last|next|goto)$/ elsif (( $last_nonblank_type eq 'k' ) && ( $is_redo_last_next_goto{$last_nonblank_token} ) ) { $type = 'j'; next; } # something else -- else { scan_bare_identifier(); if ( $type eq 'w' ) { if ( $expecting == OPERATOR ) { # don't complain about possible indirect object # notation. # For example: # package main; # sub new($) { ... } # $b = new A::; # calls A::new # $c = new A; # same thing but suspicious # This will call A::new but we have a 'new' in # main:: which looks like a constant. # if ( $last_nonblank_type eq 'C' ) { if ( $tok !~ /::$/ ) { complain(<[ $i + 1 ]; if ( $next_tok eq '(' ) { $type = 'U'; } # underscore after file test operator is file handle if ( $tok eq '_' && $last_nonblank_type eq 'F' ) { $type = 'Z'; } # patch for SWITCH/CASE if 'case' and 'when are # not treated as keywords: if ( ( $tok eq 'case' && $brace_type[$brace_depth] eq 'switch' ) || ( $tok eq 'when' && $brace_type[$brace_depth] eq 'given' ) ) { $statement_type = $tok; # next '{' is block $type = 'k'; # for keyword syntax coloring } # patch for SWITCH/CASE if switch and given not keywords # Switch is not a perl 5 keyword, but we will gamble # and mark switch followed by paren as a keyword. This # is only necessary to get html syntax coloring nice, # and does not commit this as being a switch/case. if ( $next_nonblank_token eq '(' && ( $tok eq 'switch' || $tok eq 'given' ) ) { $type = 'k'; # for keyword syntax coloring } } } } ############################################################### # section 2: strings of digits ############################################################### elsif ( $pre_type eq 'd' ) { $expecting = operator_expected( $prev_type, $tok, $next_type ); error_if_expecting_OPERATOR("Number") if ( $expecting == OPERATOR ); my $number = scan_number(); if ( !defined($number) ) { # shouldn't happen - we should always get a number warning("non-number beginning with digit--program bug\n"); report_definite_bug(); } } ############################################################### # section 3: all other tokens ############################################################### else { last if ( $tok eq '#' ); my $code = $tokenization_code->{$tok}; if ($code) { $expecting = operator_expected( $prev_type, $tok, $next_type ); $code->(); redo if $in_quote; } } } # ----------------------------- # end of main tokenization loop # ----------------------------- if ( $i_tok >= 0 ) { $routput_token_type->[$i_tok] = $type; $routput_block_type->[$i_tok] = $block_type; $routput_container_type->[$i_tok] = $container_type; $routput_type_sequence->[$i_tok] = $type_sequence; $routput_indent_flag->[$i_tok] = $indent_flag; } unless ( ( $type eq 'b' ) || ( $type eq '#' ) ) { $last_last_nonblank_token = $last_nonblank_token; $last_last_nonblank_type = $last_nonblank_type; $last_last_nonblank_block_type = $last_nonblank_block_type; $last_last_nonblank_container_type = $last_nonblank_container_type; $last_last_nonblank_type_sequence = $last_nonblank_type_sequence; $last_nonblank_token = $tok; $last_nonblank_type = $type; $last_nonblank_block_type = $block_type; $last_nonblank_container_type = $container_type; $last_nonblank_type_sequence = $type_sequence; $last_nonblank_prototype = $prototype; } # reset indentation level if necessary at a sub or package # in an attempt to recover from a nesting error if ( $level_in_tokenizer < 0 ) { if ( $input_line =~ /^\s*(sub|package)\s+(\w+)/ ) { reset_indentation_level(0); brace_warning("resetting level to 0 at $1 $2\n"); } } # all done tokenizing this line ... # now prepare the final list of tokens and types my @token_type = (); # stack of output token types my @block_type = (); # stack of output code block types my @container_type = (); # stack of output code container types my @type_sequence = (); # stack of output type sequence numbers my @tokens = (); # output tokens my @levels = (); # structural brace levels of output tokens my @slevels = (); # secondary nesting levels of output tokens my @nesting_tokens = (); # string of tokens leading to this depth my @nesting_types = (); # string of token types leading to this depth my @nesting_blocks = (); # string of block types leading to this depth my @nesting_lists = (); # string of list types leading to this depth my @ci_string = (); # string needed to compute continuation indentation my @container_environment = (); # BLOCK or LIST my $container_environment = ''; my $im = -1; # previous $i value my $num; my $ci_string_sum = ones_count($ci_string_in_tokenizer); # Computing Token Indentation # # The final section of the tokenizer forms tokens and also computes # parameters needed to find indentation. It is much easier to do it # in the tokenizer than elsewhere. Here is a brief description of how # indentation is computed. Perl::Tidy computes indentation as the sum # of 2 terms: # # (1) structural indentation, such as if/else/elsif blocks # (2) continuation indentation, such as long parameter call lists. # # These are occasionally called primary and secondary indentation. # # Structural indentation is introduced by tokens of type '{', although # the actual tokens might be '{', '(', or '['. Structural indentation # is of two types: BLOCK and non-BLOCK. Default structural indentation # is 4 characters if the standard indentation scheme is used. # # Continuation indentation is introduced whenever a line at BLOCK level # is broken before its termination. Default continuation indentation # is 2 characters in the standard indentation scheme. # # Both types of indentation may be nested arbitrarily deep and # interlaced. The distinction between the two is somewhat arbitrary. # # For each token, we will define two variables which would apply if # the current statement were broken just before that token, so that # that token started a new line: # # $level = the structural indentation level, # $ci_level = the continuation indentation level # # The total indentation will be $level * (4 spaces) + $ci_level * (2 spaces), # assuming defaults. However, in some special cases it is customary # to modify $ci_level from this strict value. # # The total structural indentation is easy to compute by adding and # subtracting 1 from a saved value as types '{' and '}' are seen. The # running value of this variable is $level_in_tokenizer. # # The total continuation is much more difficult to compute, and requires # several variables. These variables are: # # $ci_string_in_tokenizer = a string of 1's and 0's indicating, for # each indentation level, if there are intervening open secondary # structures just prior to that level. # $continuation_string_in_tokenizer = a string of 1's and 0's indicating # if the last token at that level is "continued", meaning that it # is not the first token of an expression. # $nesting_block_string = a string of 1's and 0's indicating, for each # indentation level, if the level is of type BLOCK or not. # $nesting_block_flag = the most recent 1 or 0 of $nesting_block_string # $nesting_list_string = a string of 1's and 0's indicating, for each # indentation level, if it is appropriate for list formatting. # If so, continuation indentation is used to indent long list items. # $nesting_list_flag = the most recent 1 or 0 of $nesting_list_string # @{$rslevel_stack} = a stack of total nesting depths at each # structural indentation level, where "total nesting depth" means # the nesting depth that would occur if every nesting token -- '{', '[', # and '(' -- , regardless of context, is used to compute a nesting # depth. #my $nesting_block_flag = ($nesting_block_string =~ /1$/); #my $nesting_list_flag = ($nesting_list_string =~ /1$/); my ( $ci_string_i, $level_i, $nesting_block_string_i, $nesting_list_string_i, $nesting_token_string_i, $nesting_type_string_i, ); foreach my $i ( @{$routput_token_list} ) { # scan the list of pre-tokens indexes # self-checking for valid token types my $type = $routput_token_type->[$i]; my $forced_indentation_flag = $routput_indent_flag->[$i]; # See if we should undo the $forced_indentation_flag. # Forced indentation after 'if', 'unless', 'while' and 'until' # expressions without trailing parens is optional and doesn't # always look good. It is usually okay for a trailing logical # expression, but if the expression is a function call, code block, # or some kind of list it puts in an unwanted extra indentation # level which is hard to remove. # # Example where extra indentation looks ok: # return 1 # if $det_a < 0 and $det_b > 0 # or $det_a > 0 and $det_b < 0; # # Example where extra indentation is not needed because # the eval brace also provides indentation: # print "not " if defined eval { # reduce { die if $b > 2; $a + $b } 0, 1, 2, 3, 4; # }; # # The following rule works fairly well: # Undo the flag if the end of this line, or start of the next # line, is an opening container token or a comma. # This almost always works, but if not after another pass it will # be stable. if ( $forced_indentation_flag && $type eq 'k' ) { my $ixlast = -1; my $ilast = $routput_token_list->[$ixlast]; my $toklast = $routput_token_type->[$ilast]; if ( $toklast eq '#' ) { $ixlast--; $ilast = $routput_token_list->[$ixlast]; $toklast = $routput_token_type->[$ilast]; } if ( $toklast eq 'b' ) { $ixlast--; $ilast = $routput_token_list->[$ixlast]; $toklast = $routput_token_type->[$ilast]; } if ( $toklast =~ /^[\{,]$/ ) { $forced_indentation_flag = 0; } else { ( $toklast, my $i_next ) = find_next_nonblank_token( $max_token_index, $rtokens, $max_token_index ); if ( $toklast =~ /^[\{,]$/ ) { $forced_indentation_flag = 0; } } } # if we are already in an indented if, see if we should outdent if ($indented_if_level) { # don't try to nest trailing if's - shouldn't happen if ( $type eq 'k' ) { $forced_indentation_flag = 0; } # check for the normal case - outdenting at next ';' elsif ( $type eq ';' ) { if ( $level_in_tokenizer == $indented_if_level ) { $forced_indentation_flag = -1; $indented_if_level = 0; } } # handle case of missing semicolon elsif ( $type eq '}' ) { if ( $level_in_tokenizer == $indented_if_level ) { $indented_if_level = 0; # TBD: This could be a subroutine call $level_in_tokenizer--; if ( @{$rslevel_stack} > 1 ) { pop( @{$rslevel_stack} ); } if ( length($nesting_block_string) > 1 ) { # true for valid script chop $nesting_block_string; chop $nesting_list_string; } } } } my $tok = $rtokens->[$i]; # the token, but ONLY if same as pretoken $level_i = $level_in_tokenizer; # This can happen by running perltidy on non-scripts # although it could also be bug introduced by programming change. # Perl silently accepts a 032 (^Z) and takes it as the end if ( !$is_valid_token_type{$type} ) { my $val = ord($type); warning( "unexpected character decimal $val ($type) in script\n"); $tokenizer_self->{_in_error} = 1; } # ---------------------------------------------------------------- # TOKEN TYPE PATCHES # output __END__, __DATA__, and format as type 'k' instead of ';' # to make html colors correct, etc. my $fix_type = $type; if ( $type eq ';' && $tok =~ /\w/ ) { $fix_type = 'k' } # output anonymous 'sub' as keyword if ( $type eq 't' && $tok eq 'sub' ) { $fix_type = 'k' } # ----------------------------------------------------------------- $nesting_token_string_i = $nesting_token_string; $nesting_type_string_i = $nesting_type_string; $nesting_block_string_i = $nesting_block_string; $nesting_list_string_i = $nesting_list_string; # set primary indentation levels based on structural braces # Note: these are set so that the leading braces have a HIGHER # level than their CONTENTS, which is convenient for indentation # Also, define continuation indentation for each token. if ( $type eq '{' || $type eq 'L' || $forced_indentation_flag > 0 ) { # use environment before updating $container_environment = $nesting_block_flag ? 'BLOCK' : $nesting_list_flag ? 'LIST' : ""; # if the difference between total nesting levels is not 1, # there are intervening non-structural nesting types between # this '{' and the previous unclosed '{' my $intervening_secondary_structure = 0; if ( @{$rslevel_stack} ) { $intervening_secondary_structure = $slevel_in_tokenizer - $rslevel_stack->[-1]; } # Continuation Indentation # # Having tried setting continuation indentation both in the formatter and # in the tokenizer, I can say that setting it in the tokenizer is much, # much easier. The formatter already has too much to do, and can't # make decisions on line breaks without knowing what 'ci' will be at # arbitrary locations. # # But a problem with setting the continuation indentation (ci) here # in the tokenizer is that we do not know where line breaks will actually # be. As a result, we don't know if we should propagate continuation # indentation to higher levels of structure. # # For nesting of only structural indentation, we never need to do this. # For example, in a long if statement, like this # # if ( !$output_block_type[$i] # && ($in_statement_continuation) ) # { <--outdented # do_something(); # } # # the second line has ci but we do normally give the lines within the BLOCK # any ci. This would be true if we had blocks nested arbitrarily deeply. # # But consider something like this, where we have created a break after # an opening paren on line 1, and the paren is not (currently) a # structural indentation token: # # my $file = $menubar->Menubutton( # qw/-text File -underline 0 -menuitems/ => [ # [ # Cascade => '~View', # -menuitems => [ # ... # # The second line has ci, so it would seem reasonable to propagate it # down, giving the third line 1 ci + 1 indentation. This suggests the # following rule, which is currently used to propagating ci down: if there # are any non-structural opening parens (or brackets, or braces), before # an opening structural brace, then ci is propagated down, and otherwise # not. The variable $intervening_secondary_structure contains this # information for the current token, and the string # "$ci_string_in_tokenizer" is a stack of previous values of this # variable. # save the current states push( @{$rslevel_stack}, 1 + $slevel_in_tokenizer ); $level_in_tokenizer++; if ($forced_indentation_flag) { # break BEFORE '?' when there is forced indentation if ( $type eq '?' ) { $level_i = $level_in_tokenizer; } if ( $type eq 'k' ) { $indented_if_level = $level_in_tokenizer; } # do not change container environment here if we are not # at a real list. Adding this check prevents "blinkers" # often near 'unless" clauses, such as in the following # code: ## next ## unless -e ( ## $archive = ## File::Spec->catdir( $_, "auto", $root, "$sub$lib_ext" ) ## ); $nesting_block_string .= "$nesting_block_flag"; } else { if ( $routput_block_type->[$i] ) { $nesting_block_flag = 1; $nesting_block_string .= '1'; } else { $nesting_block_flag = 0; $nesting_block_string .= '0'; } } # we will use continuation indentation within containers # which are not blocks and not logical expressions my $bit = 0; if ( !$routput_block_type->[$i] ) { # propagate flag down at nested open parens if ( $routput_container_type->[$i] eq '(' ) { $bit = 1 if $nesting_list_flag; } # use list continuation if not a logical grouping # /^(if|elsif|unless|while|and|or|not|&&|!|\|\||for|foreach)$/ else { $bit = 1 unless $is_logical_container{ $routput_container_type->[$i] }; } } $nesting_list_string .= $bit; $nesting_list_flag = $bit; $ci_string_in_tokenizer .= ( $intervening_secondary_structure != 0 ) ? '1' : '0'; $ci_string_sum = ones_count($ci_string_in_tokenizer); $continuation_string_in_tokenizer .= ( $in_statement_continuation > 0 ) ? '1' : '0'; # Sometimes we want to give an opening brace continuation indentation, # and sometimes not. For code blocks, we don't do it, so that the leading # '{' gets outdented, like this: # # if ( !$output_block_type[$i] # && ($in_statement_continuation) ) # { <--outdented # # For other types, we will give them continuation indentation. For example, # here is how a list looks with the opening paren indented: # # @LoL = # ( [ "fred", "barney" ], [ "george", "jane", "elroy" ], # [ "homer", "marge", "bart" ], ); # # This looks best when 'ci' is one-half of the indentation (i.e., 2 and 4) my $total_ci = $ci_string_sum; if ( !$routput_block_type->[$i] # patch: skip for BLOCK && ($in_statement_continuation) && !( $forced_indentation_flag && $type eq ':' ) ) { $total_ci += $in_statement_continuation unless ( $ci_string_in_tokenizer =~ /1$/ ); } $ci_string_i = $total_ci; $in_statement_continuation = 0; } elsif ($type eq '}' || $type eq 'R' || $forced_indentation_flag < 0 ) { # only a nesting error in the script would prevent popping here if ( @{$rslevel_stack} > 1 ) { pop( @{$rslevel_stack} ); } $level_i = --$level_in_tokenizer; # restore previous level values if ( length($nesting_block_string) > 1 ) { # true for valid script chop $nesting_block_string; $nesting_block_flag = ( $nesting_block_string =~ /1$/ ); chop $nesting_list_string; $nesting_list_flag = ( $nesting_list_string =~ /1$/ ); chop $ci_string_in_tokenizer; $ci_string_sum = ones_count($ci_string_in_tokenizer); $in_statement_continuation = chop $continuation_string_in_tokenizer; # zero continuation flag at terminal BLOCK '}' which # ends a statement. if ( $routput_block_type->[$i] ) { # ...These include non-anonymous subs # note: could be sub ::abc { or sub 'abc if ( $routput_block_type->[$i] =~ m/^sub\s*/gc ) { # note: older versions of perl require the /gc modifier # here or else the \G does not work. if ( $routput_block_type->[$i] =~ /\G('|::|\w)/gc ) { $in_statement_continuation = 0; } } # ...and include all block types except user subs with # block prototypes and these: (sort|grep|map|do|eval) # /^(\}|\{|BEGIN|END|CHECK|INIT|AUTOLOAD|DESTROY|UNITCHECK|continue|;|if|elsif|else|unless|while|until|for|foreach)$/ elsif ( $is_zero_continuation_block_type{ $routput_block_type->[$i] } ) { $in_statement_continuation = 0; } # ..but these are not terminal types: # /^(sort|grep|map|do|eval)$/ ) elsif ( $is_not_zero_continuation_block_type{ $routput_block_type->[$i] } ) { } # ..and a block introduced by a label # /^\w+\s*:$/gc ) { elsif ( $routput_block_type->[$i] =~ /:$/ ) { $in_statement_continuation = 0; } # user function with block prototype else { $in_statement_continuation = 0; } } # If we are in a list, then # we must set continuation indentation at the closing # paren of something like this (paren after $check): # assert( # __LINE__, # ( not defined $check ) # or ref $check # or $check eq "new" # or $check eq "old", # ); elsif ( $tok eq ')' ) { $in_statement_continuation = 1 if $routput_container_type->[$i] =~ /^[;,\{\}]$/; } elsif ( $tok eq ';' ) { $in_statement_continuation = 0 } } # use environment after updating $container_environment = $nesting_block_flag ? 'BLOCK' : $nesting_list_flag ? 'LIST' : ""; $ci_string_i = $ci_string_sum + $in_statement_continuation; $nesting_block_string_i = $nesting_block_string; $nesting_list_string_i = $nesting_list_string; } # not a structural indentation type.. else { $container_environment = $nesting_block_flag ? 'BLOCK' : $nesting_list_flag ? 'LIST' : ""; # zero the continuation indentation at certain tokens so # that they will be at the same level as its container. For # commas, this simplifies the -lp indentation logic, which # counts commas. For ?: it makes them stand out. if ($nesting_list_flag) { if ( $type =~ /^[,\?\:]$/ ) { $in_statement_continuation = 0; } } # be sure binary operators get continuation indentation if ( $container_environment && ( $type eq 'k' && $is_binary_keyword{$tok} || $is_binary_type{$type} ) ) { $in_statement_continuation = 1; } # continuation indentation is sum of any open ci from previous # levels plus the current level $ci_string_i = $ci_string_sum + $in_statement_continuation; # update continuation flag ... # if this isn't a blank or comment.. if ( $type ne 'b' && $type ne '#' ) { # and we are in a BLOCK if ($nesting_block_flag) { # the next token after a ';' and label starts a new stmt if ( $type eq ';' || $type eq 'J' ) { $in_statement_continuation = 0; } # otherwise, we are continuing the current statement else { $in_statement_continuation = 1; } } # if we are not in a BLOCK.. else { # do not use continuation indentation if not list # environment (could be within if/elsif clause) if ( !$nesting_list_flag ) { $in_statement_continuation = 0; } # otherwise, the token after a ',' starts a new term # Patch FOR RT#99961; no continuation after a ';' # This is needed because perltidy currently marks # a block preceded by a type character like % or @ # as a non block, to simplify formatting. But these # are actually blocks and can have semicolons. # See code_block_type() and is_non_structural_brace(). elsif ( $type eq ',' || $type eq ';' ) { $in_statement_continuation = 0; } # otherwise, we are continuing the current term else { $in_statement_continuation = 1; } } } } if ( $level_in_tokenizer < 0 ) { unless ( $tokenizer_self->{_saw_negative_indentation} ) { $tokenizer_self->{_saw_negative_indentation} = 1; warning("Starting negative indentation\n"); } } # set secondary nesting levels based on all containment token types # Note: these are set so that the nesting depth is the depth # of the PREVIOUS TOKEN, which is convenient for setting # the strength of token bonds my $slevel_i = $slevel_in_tokenizer; # /^[L\{\(\[]$/ if ( $is_opening_type{$type} ) { $slevel_in_tokenizer++; $nesting_token_string .= $tok; $nesting_type_string .= $type; } # /^[R\}\)\]]$/ elsif ( $is_closing_type{$type} ) { $slevel_in_tokenizer--; my $char = chop $nesting_token_string; if ( $char ne $matching_start_token{$tok} ) { $nesting_token_string .= $char . $tok; $nesting_type_string .= $type; } else { chop $nesting_type_string; } } push( @block_type, $routput_block_type->[$i] ); push( @ci_string, $ci_string_i ); push( @container_environment, $container_environment ); push( @container_type, $routput_container_type->[$i] ); push( @levels, $level_i ); push( @nesting_tokens, $nesting_token_string_i ); push( @nesting_types, $nesting_type_string_i ); push( @slevels, $slevel_i ); push( @token_type, $fix_type ); push( @type_sequence, $routput_type_sequence->[$i] ); push( @nesting_blocks, $nesting_block_string ); push( @nesting_lists, $nesting_list_string ); # now form the previous token if ( $im >= 0 ) { $num = $rtoken_map->[$i] - $rtoken_map->[$im]; # how many characters if ( $num > 0 ) { push( @tokens, substr( $input_line, $rtoken_map->[$im], $num ) ); } } $im = $i; } $num = length($input_line) - $rtoken_map->[$im]; # make the last token if ( $num > 0 ) { push( @tokens, substr( $input_line, $rtoken_map->[$im], $num ) ); } $tokenizer_self->{_in_attribute_list} = $in_attribute_list; $tokenizer_self->{_in_quote} = $in_quote; $tokenizer_self->{_quote_target} = $in_quote ? matching_end_token($quote_character) : ""; $tokenizer_self->{_rhere_target_list} = $rhere_target_list; $line_of_tokens->{_rtoken_type} = \@token_type; $line_of_tokens->{_rtokens} = \@tokens; $line_of_tokens->{_rblock_type} = \@block_type; $line_of_tokens->{_rcontainer_type} = \@container_type; $line_of_tokens->{_rcontainer_environment} = \@container_environment; $line_of_tokens->{_rtype_sequence} = \@type_sequence; $line_of_tokens->{_rlevels} = \@levels; $line_of_tokens->{_rslevels} = \@slevels; $line_of_tokens->{_rnesting_tokens} = \@nesting_tokens; $line_of_tokens->{_rci_levels} = \@ci_string; $line_of_tokens->{_rnesting_blocks} = \@nesting_blocks; return; } } # end tokenize_this_line #########i############################################################# # Tokenizer routines which assist in identifying token types ####################################################################### sub operator_expected { # Many perl symbols have two or more meanings. For example, '<<' # can be a shift operator or a here-doc operator. The # interpretation of these symbols depends on the current state of # the tokenizer, which may either be expecting a term or an # operator. For this example, a << would be a shift if an operator # is expected, and a here-doc if a term is expected. This routine # is called to make this decision for any current token. It returns # one of three possible values: # # OPERATOR - operator expected (or at least, not a term) # UNKNOWN - can't tell # TERM - a term is expected (or at least, not an operator) # # The decision is based on what has been seen so far. This # information is stored in the "$last_nonblank_type" and # "$last_nonblank_token" variables. For example, if the # $last_nonblank_type is '=~', then we are expecting a TERM, whereas # if $last_nonblank_type is 'n' (numeric), we are expecting an # OPERATOR. # # If a UNKNOWN is returned, the calling routine must guess. A major # goal of this tokenizer is to minimize the possibility of returning # UNKNOWN, because a wrong guess can spoil the formatting of a # script. # # adding NEW_TOKENS: it is critically important that this routine be # updated to allow it to determine if an operator or term is to be # expected after the new token. Doing this simply involves adding # the new token character to one of the regexes in this routine or # to one of the hash lists # that it uses, which are initialized in the BEGIN section. # USES GLOBAL VARIABLES: $last_nonblank_type, $last_nonblank_token, # $statement_type my ( $prev_type, $tok, $next_type ) = @_; my $op_expected = UNKNOWN; ##print "tok=$tok last type=$last_nonblank_type last tok=$last_nonblank_token\n"; # Note: function prototype is available for token type 'U' for future # program development. It contains the leading and trailing parens, # and no blanks. It might be used to eliminate token type 'C', for # example (prototype = '()'). Thus: # if ($last_nonblank_type eq 'U') { # print "previous token=$last_nonblank_token type=$last_nonblank_type prototype=$last_nonblank_prototype\n"; # } # A possible filehandle (or object) requires some care... if ( $last_nonblank_type eq 'Z' ) { # angle.t if ( $last_nonblank_token =~ /^[A-Za-z_]/ ) { $op_expected = UNKNOWN; } # For possible file handle like "$a", Perl uses weird parsing rules. # For example: # print $a/2,"/hi"; - division # print $a / 2,"/hi"; - division # print $a/ 2,"/hi"; - division # print $a /2,"/hi"; - pattern (and error)! elsif ( ( $prev_type eq 'b' ) && ( $next_type ne 'b' ) ) { $op_expected = TERM; } # Note when an operation is being done where a # filehandle might be expected, since a change in whitespace # could change the interpretation of the statement. else { if ( $tok =~ /^([x\/\+\-\*\%\&\.\?\<]|\>\>)$/ ) { complain("operator in print statement not recommended\n"); $op_expected = OPERATOR; } } } # Check for smartmatch operator before preceding brace or square bracket. # For example, at the ? after the ] in the following expressions we are # expecting an operator: # # qr/3/ ~~ ['1234'] ? 1 : 0; # map { $_ ~~ [ '0', '1' ] ? 'x' : 'o' } @a; elsif ( $last_nonblank_type eq '}' && $last_nonblank_token eq '~~' ) { $op_expected = OPERATOR; } # handle something after 'do' and 'eval' elsif ( $is_block_operator{$last_nonblank_token} ) { # something like $a = eval "expression"; # ^ if ( $last_nonblank_type eq 'k' ) { $op_expected = TERM; # expression or list mode following keyword } # something like $a = do { BLOCK } / 2; # or this ? after a smartmatch anonynmous hash or array reference: # qr/3/ ~~ ['1234'] ? 1 : 0; # ^ else { $op_expected = OPERATOR; # block mode following } } } # handle bare word.. elsif ( $last_nonblank_type eq 'w' ) { # unfortunately, we can't tell what type of token to expect next # after most bare words $op_expected = UNKNOWN; } # operator, but not term possible after these types # Note: moved ')' from type to token because parens in list context # get marked as '{' '}' now. This is a minor glitch in the following: # my %opts = (ref $_[0] eq 'HASH') ? %{shift()} : (); # elsif (( $last_nonblank_type =~ /^[\]RnviQh]$/ ) || ( $last_nonblank_token =~ /^(\)|\$|\-\>)/ ) ) { $op_expected = OPERATOR; # in a 'use' statement, numbers and v-strings are not true # numbers, so to avoid incorrect error messages, we will # mark them as unknown for now (use.t) # TODO: it would be much nicer to create a new token V for VERSION # number in a use statement. Then this could be a check on type V # and related patches which change $statement_type for '=>' # and ',' could be removed. Further, it would clean things up to # scan the 'use' statement with a separate subroutine. if ( ( $statement_type eq 'use' ) && ( $last_nonblank_type =~ /^[nv]$/ ) ) { $op_expected = UNKNOWN; } # expecting VERSION or {} after package NAMESPACE elsif ($statement_type =~ /^package\b/ && $last_nonblank_token =~ /^package\b/ ) { $op_expected = TERM; } } # no operator after many keywords, such as "die", "warn", etc elsif ( $expecting_term_token{$last_nonblank_token} ) { # patch for dor.t (defined or). # perl functions which may be unary operators # TODO: This list is incomplete, and these should be put # into a hash. if ( $tok eq '/' && $next_type eq '/' && $last_nonblank_type eq 'k' && $last_nonblank_token =~ /^eof|undef|shift|pop$/ ) { $op_expected = OPERATOR; } else { $op_expected = TERM; } } # no operator after things like + - ** (i.e., other operators) elsif ( $expecting_term_types{$last_nonblank_type} ) { $op_expected = TERM; } # a few operators, like "time", have an empty prototype () and so # take no parameters but produce a value to operate on elsif ( $expecting_operator_token{$last_nonblank_token} ) { $op_expected = OPERATOR; } # post-increment and decrement produce values to be operated on elsif ( $expecting_operator_types{$last_nonblank_type} ) { $op_expected = OPERATOR; } # no value to operate on after sub block elsif ( $last_nonblank_token =~ /^sub\s/ ) { $op_expected = TERM; } # a right brace here indicates the end of a simple block. # all non-structural right braces have type 'R' # all braces associated with block operator keywords have been given those # keywords as "last_nonblank_token" and caught above. # (This statement is order dependent, and must come after checking # $last_nonblank_token). elsif ( $last_nonblank_type eq '}' ) { # patch for dor.t (defined or). if ( $tok eq '/' && $next_type eq '/' && $last_nonblank_token eq ']' ) { $op_expected = OPERATOR; } # Patch for RT #116344: misparse a ternary operator after an anonymous # hash, like this: # return ref {} ? 1 : 0; # The right brace should really be marked type 'R' in this case, and # it is safest to return an UNKNOWN here. Expecting a TERM will # cause the '?' to always be interpreted as a pattern delimiter # rather than introducing a ternary operator. elsif ( $tok eq '?' ) { $op_expected = UNKNOWN; } else { $op_expected = TERM; } } # something else..what did I forget? else { # collecting diagnostics on unknown operator types..see what was missed $op_expected = UNKNOWN; write_diagnostics( "OP: unknown after type=$last_nonblank_type token=$last_nonblank_token\n" ); } TOKENIZER_DEBUG_FLAG_EXPECT && do { print STDOUT "EXPECT: returns $op_expected for last type $last_nonblank_type token $last_nonblank_token\n"; }; return $op_expected; } sub new_statement_ok { # return true if the current token can start a new statement # USES GLOBAL VARIABLES: $last_nonblank_type return label_ok() # a label would be ok here || $last_nonblank_type eq 'J'; # or we follow a label } sub label_ok { # Decide if a bare word followed by a colon here is a label # USES GLOBAL VARIABLES: $last_nonblank_token, $last_nonblank_type, # $brace_depth, @brace_type # if it follows an opening or closing code block curly brace.. if ( ( $last_nonblank_token eq '{' || $last_nonblank_token eq '}' ) && $last_nonblank_type eq $last_nonblank_token ) { # it is a label if and only if the curly encloses a code block return $brace_type[$brace_depth]; } # otherwise, it is a label if and only if it follows a ';' (real or fake) # or another label else { return ( $last_nonblank_type eq ';' || $last_nonblank_type eq 'J' ); } } sub code_block_type { # Decide if this is a block of code, and its type. # Must be called only when $type = $token = '{' # The problem is to distinguish between the start of a block of code # and the start of an anonymous hash reference # Returns "" if not code block, otherwise returns 'last_nonblank_token' # to indicate the type of code block. (For example, 'last_nonblank_token' # might be 'if' for an if block, 'else' for an else block, etc). # USES GLOBAL VARIABLES: $last_nonblank_token, $last_nonblank_type, # $last_nonblank_block_type, $brace_depth, @brace_type # handle case of multiple '{'s # print "BLOCK_TYPE EXAMINING: type=$last_nonblank_type tok=$last_nonblank_token\n"; my ( $i, $rtokens, $rtoken_type, $max_token_index ) = @_; if ( $last_nonblank_token eq '{' && $last_nonblank_type eq $last_nonblank_token ) { # opening brace where a statement may appear is probably # a code block but might be and anonymous hash reference if ( $brace_type[$brace_depth] ) { return decide_if_code_block( $i, $rtokens, $rtoken_type, $max_token_index ); } # cannot start a code block within an anonymous hash else { return ""; } } elsif ( $last_nonblank_token eq ';' ) { # an opening brace where a statement may appear is probably # a code block but might be and anonymous hash reference return decide_if_code_block( $i, $rtokens, $rtoken_type, $max_token_index ); } # handle case of '}{' elsif ($last_nonblank_token eq '}' && $last_nonblank_type eq $last_nonblank_token ) { # a } { situation ... # could be hash reference after code block..(blktype1.t) if ($last_nonblank_block_type) { return decide_if_code_block( $i, $rtokens, $rtoken_type, $max_token_index ); } # must be a block if it follows a closing hash reference else { return $last_nonblank_token; } } ################################################################ # NOTE: braces after type characters start code blocks, but for # simplicity these are not identified as such. See also # sub is_non_structural_brace. ################################################################ ## elsif ( $last_nonblank_type eq 't' ) { ## return $last_nonblank_token; ## } # brace after label: elsif ( $last_nonblank_type eq 'J' ) { return $last_nonblank_token; } # otherwise, look at previous token. This must be a code block if # it follows any of these: # /^(BEGIN|END|CHECK|INIT|AUTOLOAD|DESTROY|UNITCHECK|continue|if|elsif|else|unless|do|while|until|eval|for|foreach|map|grep|sort)$/ elsif ( $is_code_block_token{$last_nonblank_token} ) { # Bug Patch: Note that the opening brace after the 'if' in the following # snippet is an anonymous hash ref and not a code block! # print 'hi' if { x => 1, }->{x}; # We can identify this situation because the last nonblank type # will be a keyword (instead of a closing peren) if ( $last_nonblank_token =~ /^(if|unless)$/ && $last_nonblank_type eq 'k' ) { return ""; } else { return $last_nonblank_token; } } # or a sub or package BLOCK elsif ( ( $last_nonblank_type eq 'i' || $last_nonblank_type eq 't' ) && $last_nonblank_token =~ /^(sub|package)\b/ ) { return $last_nonblank_token; } elsif ( $statement_type =~ /^(sub|package)\b/ ) { return $statement_type; } # user-defined subs with block parameters (like grep/map/eval) elsif ( $last_nonblank_type eq 'G' ) { return $last_nonblank_token; } # check bareword elsif ( $last_nonblank_type eq 'w' ) { return decide_if_code_block( $i, $rtokens, $rtoken_type, $max_token_index ); } # Patch for bug # RT #94338 reported by Daniel Trizen # for-loop in a parenthesized block-map triggering an error message: # map( { foreach my $item ( '0', '1' ) { print $item} } qw(a b c) ); # Check for a code block within a parenthesized function call elsif ( $last_nonblank_token eq '(' ) { my $paren_type = $paren_type[$paren_depth]; if ( $paren_type && $paren_type =~ /^(map|grep|sort)$/ ) { # We will mark this as a code block but use type 't' instead # of the name of the contining function. This will allow for # correct parsing but will usually produce better formatting. # Braces with block type 't' are not broken open automatically # in the formatter as are other code block types, and this usually # works best. return 't'; # (Not $paren_type) } else { return ""; } } # handle unknown syntax ') {' # we previously appended a '()' to mark this case elsif ( $last_nonblank_token =~ /\(\)$/ ) { return $last_nonblank_token; } # anything else must be anonymous hash reference else { return ""; } } sub decide_if_code_block { # USES GLOBAL VARIABLES: $last_nonblank_token my ( $i, $rtokens, $rtoken_type, $max_token_index ) = @_; my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i, $rtokens, $max_token_index ); # we are at a '{' where a statement may appear. # We must decide if this brace starts an anonymous hash or a code # block. # return "" if anonymous hash, and $last_nonblank_token otherwise # initialize to be code BLOCK my $code_block_type = $last_nonblank_token; # Check for the common case of an empty anonymous hash reference: # Maybe something like sub { { } } if ( $next_nonblank_token eq '}' ) { $code_block_type = ""; } else { # To guess if this '{' is an anonymous hash reference, look ahead # and test as follows: # # it is a hash reference if next come: # - a string or digit followed by a comma or => # - bareword followed by => # otherwise it is a code block # # Examples of anonymous hash ref: # {'aa',}; # {1,2} # # Examples of code blocks: # {1; print "hello\n", 1;} # {$a,1}; # We are only going to look ahead one more (nonblank/comment) line. # Strange formatting could cause a bad guess, but that's unlikely. my @pre_types; my @pre_tokens; # Ignore the rest of this line if it is a side comment if ( $next_nonblank_token ne '#' ) { @pre_types = @{$rtoken_type}[ $i + 1 .. $max_token_index ]; @pre_tokens = @{$rtokens}[ $i + 1 .. $max_token_index ]; } my ( $rpre_tokens, $rpre_types ) = peek_ahead_for_n_nonblank_pre_tokens(20); # 20 is arbitrary but # generous, and prevents # wasting lots of # time in mangled files if ( defined($rpre_types) && @{$rpre_types} ) { push @pre_types, @{$rpre_types}; push @pre_tokens, @{$rpre_tokens}; } # put a sentinel token to simplify stopping the search push @pre_types, '}'; push @pre_types, '}'; my $jbeg = 0; $jbeg = 1 if $pre_types[0] eq 'b'; # first look for one of these # - bareword # - bareword with leading - # - digit # - quoted string my $j = $jbeg; if ( $pre_types[$j] =~ /^[\'\"]/ ) { # find the closing quote; don't worry about escapes my $quote_mark = $pre_types[$j]; foreach my $k ( $j + 1 .. $#pre_types - 1 ) { if ( $pre_types[$k] eq $quote_mark ) { $j = $k + 1; my $next = $pre_types[$j]; last; } } } elsif ( $pre_types[$j] eq 'd' ) { $j++; } elsif ( $pre_types[$j] eq 'w' ) { $j++; } elsif ( $pre_types[$j] eq '-' && $pre_types[ ++$j ] eq 'w' ) { $j++; } if ( $j > $jbeg ) { $j++ if $pre_types[$j] eq 'b'; # Patched for RT #95708 if ( # it is a comma which is not a pattern delimeter except for qw ( $pre_types[$j] eq ',' && $pre_tokens[$jbeg] !~ /^(s|m|y|tr|qr|q|qq|qx)$/ ) # or a => || ( $pre_types[$j] eq '=' && $pre_types[ ++$j ] eq '>' ) ) { $code_block_type = ""; } } } return $code_block_type; } sub report_unexpected { # report unexpected token type and show where it is # USES GLOBAL VARIABLES: $tokenizer_self my ( $found, $expecting, $i_tok, $last_nonblank_i, $rpretoken_map, $rpretoken_type, $input_line ) = @_; if ( ++$tokenizer_self->{_unexpected_error_count} <= MAX_NAG_MESSAGES ) { my $msg = "found $found where $expecting expected"; my $pos = $rpretoken_map->[$i_tok]; interrupt_logfile(); my $input_line_number = $tokenizer_self->{_last_line_number}; my ( $offset, $numbered_line, $underline ) = make_numbered_line( $input_line_number, $input_line, $pos ); $underline = write_on_underline( $underline, $pos - $offset, '^' ); my $trailer = ""; if ( ( $i_tok > 0 ) && ( $last_nonblank_i >= 0 ) ) { my $pos_prev = $rpretoken_map->[$last_nonblank_i]; my $num; if ( $rpretoken_type->[ $i_tok - 1 ] eq 'b' ) { $num = $rpretoken_map->[ $i_tok - 1 ] - $pos_prev; } else { $num = $pos - $pos_prev; } if ( $num > 40 ) { $num = 40; $pos_prev = $pos - 40; } $underline = write_on_underline( $underline, $pos_prev - $offset, '-' x $num ); $trailer = " (previous token underlined)"; } warning( $numbered_line . "\n" ); warning( $underline . "\n" ); warning( $msg . $trailer . "\n" ); resume_logfile(); } return; } sub is_non_structural_brace { # Decide if a brace or bracket is structural or non-structural # by looking at the previous token and type # USES GLOBAL VARIABLES: $last_nonblank_type, $last_nonblank_token # EXPERIMENTAL: Mark slices as structural; idea was to improve formatting. # Tentatively deactivated because it caused the wrong operator expectation # for this code: # $user = @vars[1] / 100; # Must update sub operator_expected before re-implementing. # if ( $last_nonblank_type eq 'i' && $last_nonblank_token =~ /^@/ ) { # return 0; # } ################################################################ # NOTE: braces after type characters start code blocks, but for # simplicity these are not identified as such. See also # sub code_block_type ################################################################ ##if ($last_nonblank_type eq 't') {return 0} # otherwise, it is non-structural if it is decorated # by type information. # For example, the '{' here is non-structural: ${xxx} return ( $last_nonblank_token =~ /^([\$\@\*\&\%\)]|->|::)/ # or if we follow a hash or array closing curly brace or bracket # For example, the second '{' in this is non-structural: $a{'x'}{'y'} # because the first '}' would have been given type 'R' || $last_nonblank_type =~ /^([R\]])$/ ); } #########i############################################################# # Tokenizer routines for tracking container nesting depths ####################################################################### # The following routines keep track of nesting depths of the nesting # types, ( [ { and ?. This is necessary for determining the indentation # level, and also for debugging programs. Not only do they keep track of # nesting depths of the individual brace types, but they check that each # of the other brace types is balanced within matching pairs. For # example, if the program sees this sequence: # # { ( ( ) } # # then it can determine that there is an extra left paren somewhere # between the { and the }. And so on with every other possible # combination of outer and inner brace types. For another # example: # # ( [ ..... ] ] ) # # which has an extra ] within the parens. # # The brace types have indexes 0 .. 3 which are indexes into # the matrices. # # The pair ? : are treated as just another nesting type, with ? acting # as the opening brace and : acting as the closing brace. # # The matrix # # $depth_array[$a][$b][ $current_depth[$a] ] = $current_depth[$b]; # # saves the nesting depth of brace type $b (where $b is either of the other # nesting types) when brace type $a enters a new depth. When this depth # decreases, a check is made that the current depth of brace types $b is # unchanged, or otherwise there must have been an error. This can # be very useful for localizing errors, particularly when perl runs to # the end of a large file (such as this one) and announces that there # is a problem somewhere. # # A numerical sequence number is maintained for every nesting type, # so that each matching pair can be uniquely identified in a simple # way. sub increase_nesting_depth { my ( $aa, $pos ) = @_; # USES GLOBAL VARIABLES: $tokenizer_self, @current_depth, # @current_sequence_number, @depth_array, @starting_line_of_current_depth, # $statement_type $current_depth[$aa]++; $total_depth++; $total_depth[$aa][ $current_depth[$aa] ] = $total_depth; my $input_line_number = $tokenizer_self->{_last_line_number}; my $input_line = $tokenizer_self->{_line_text}; # Sequence numbers increment by number of items. This keeps # a unique set of numbers but still allows the relative location # of any type to be determined. $nesting_sequence_number[$aa] += scalar(@closing_brace_names); my $seqno = $nesting_sequence_number[$aa]; $current_sequence_number[$aa][ $current_depth[$aa] ] = $seqno; $starting_line_of_current_depth[$aa][ $current_depth[$aa] ] = [ $input_line_number, $input_line, $pos ]; for my $bb ( 0 .. $#closing_brace_names ) { next if ( $bb == $aa ); $depth_array[$aa][$bb][ $current_depth[$aa] ] = $current_depth[$bb]; } # set a flag for indenting a nested ternary statement my $indent = 0; if ( $aa == QUESTION_COLON ) { $nested_ternary_flag[ $current_depth[$aa] ] = 0; if ( $current_depth[$aa] > 1 ) { if ( $nested_ternary_flag[ $current_depth[$aa] - 1 ] == 0 ) { my $pdepth = $total_depth[$aa][ $current_depth[$aa] - 1 ]; if ( $pdepth == $total_depth - 1 ) { $indent = 1; $nested_ternary_flag[ $current_depth[$aa] - 1 ] = -1; } } } } $nested_statement_type[$aa][ $current_depth[$aa] ] = $statement_type; $statement_type = ""; return ( $seqno, $indent ); } sub decrease_nesting_depth { my ( $aa, $pos ) = @_; # USES GLOBAL VARIABLES: $tokenizer_self, @current_depth, # @current_sequence_number, @depth_array, @starting_line_of_current_depth # $statement_type my $seqno = 0; my $input_line_number = $tokenizer_self->{_last_line_number}; my $input_line = $tokenizer_self->{_line_text}; my $outdent = 0; $total_depth--; if ( $current_depth[$aa] > 0 ) { # set a flag for un-indenting after seeing a nested ternary statement $seqno = $current_sequence_number[$aa][ $current_depth[$aa] ]; if ( $aa == QUESTION_COLON ) { $outdent = $nested_ternary_flag[ $current_depth[$aa] ]; } $statement_type = $nested_statement_type[$aa][ $current_depth[$aa] ]; # check that any brace types $bb contained within are balanced for my $bb ( 0 .. $#closing_brace_names ) { next if ( $bb == $aa ); unless ( $depth_array[$aa][$bb][ $current_depth[$aa] ] == $current_depth[$bb] ) { my $diff = $current_depth[$bb] - $depth_array[$aa][$bb][ $current_depth[$aa] ]; # don't whine too many times my $saw_brace_error = get_saw_brace_error(); if ( $saw_brace_error <= MAX_NAG_MESSAGES # if too many closing types have occurred, we probably # already caught this error && ( ( $diff > 0 ) || ( $saw_brace_error <= 0 ) ) ) { interrupt_logfile(); my $rsl = $starting_line_of_current_depth[$aa] [ $current_depth[$aa] ]; my $sl = $rsl->[0]; my $rel = [ $input_line_number, $input_line, $pos ]; my $el = $rel->[0]; my ($ess); if ( $diff == 1 || $diff == -1 ) { $ess = ''; } else { $ess = 's'; } my $bname = ( $diff > 0 ) ? $opening_brace_names[$bb] : $closing_brace_names[$bb]; write_error_indicator_pair( @{$rsl}, '^' ); my $msg = <<"EOM"; Found $diff extra $bname$ess between $opening_brace_names[$aa] on line $sl and $closing_brace_names[$aa] on line $el EOM if ( $diff > 0 ) { my $rml = $starting_line_of_current_depth[$bb] [ $current_depth[$bb] ]; my $ml = $rml->[0]; $msg .= " The most recent un-matched $bname is on line $ml\n"; write_error_indicator_pair( @{$rml}, '^' ); } write_error_indicator_pair( @{$rel}, '^' ); warning($msg); resume_logfile(); } increment_brace_error(); } } $current_depth[$aa]--; } else { my $saw_brace_error = get_saw_brace_error(); if ( $saw_brace_error <= MAX_NAG_MESSAGES ) { my $msg = <<"EOM"; There is no previous $opening_brace_names[$aa] to match a $closing_brace_names[$aa] on line $input_line_number EOM indicate_error( $msg, $input_line_number, $input_line, $pos, '^' ); } increment_brace_error(); } return ( $seqno, $outdent ); } sub check_final_nesting_depths { # USES GLOBAL VARIABLES: @current_depth, @starting_line_of_current_depth for my $aa ( 0 .. $#closing_brace_names ) { if ( $current_depth[$aa] ) { my $rsl = $starting_line_of_current_depth[$aa][ $current_depth[$aa] ]; my $sl = $rsl->[0]; my $msg = <<"EOM"; Final nesting depth of $opening_brace_names[$aa]s is $current_depth[$aa] The most recent un-matched $opening_brace_names[$aa] is on line $sl EOM indicate_error( $msg, @{$rsl}, '^' ); increment_brace_error(); } } return; } #########i############################################################# # Tokenizer routines for looking ahead in input stream ####################################################################### sub peek_ahead_for_n_nonblank_pre_tokens { # returns next n pretokens if they exist # returns undef's if hits eof without seeing any pretokens # USES GLOBAL VARIABLES: $tokenizer_self my $max_pretokens = shift; my $line; my $i = 0; my ( $rpre_tokens, $rmap, $rpre_types ); while ( $line = $tokenizer_self->{_line_buffer_object}->peek_ahead( $i++ ) ) { $line =~ s/^\s*//; # trim leading blanks next if ( length($line) <= 0 ); # skip blank next if ( $line =~ /^#/ ); # skip comment ( $rpre_tokens, $rmap, $rpre_types ) = pre_tokenize( $line, $max_pretokens ); last; } return ( $rpre_tokens, $rpre_types ); } # look ahead for next non-blank, non-comment line of code sub peek_ahead_for_nonblank_token { # USES GLOBAL VARIABLES: $tokenizer_self my ( $rtokens, $max_token_index ) = @_; my $line; my $i = 0; while ( $line = $tokenizer_self->{_line_buffer_object}->peek_ahead( $i++ ) ) { $line =~ s/^\s*//; # trim leading blanks next if ( length($line) <= 0 ); # skip blank next if ( $line =~ /^#/ ); # skip comment my ( $rtok, $rmap, $rtype ) = pre_tokenize( $line, 2 ); # only need 2 pre-tokens my $j = $max_token_index + 1; foreach my $tok ( @{$rtok} ) { last if ( $tok =~ "\n" ); $rtokens->[ ++$j ] = $tok; } last; } return $rtokens; } #########i############################################################# # Tokenizer guessing routines for ambiguous situations ####################################################################### sub guess_if_pattern_or_conditional { # this routine is called when we have encountered a ? following an # unknown bareword, and we must decide if it starts a pattern or not # input parameters: # $i - token index of the ? starting possible pattern # output parameters: # $is_pattern = 0 if probably not pattern, =1 if probably a pattern # msg = a warning or diagnostic message # USES GLOBAL VARIABLES: $last_nonblank_token # FIXME: this needs to be rewritten my ( $i, $rtokens, $rtoken_map, $max_token_index ) = @_; my $is_pattern = 0; my $msg = "guessing that ? after $last_nonblank_token starts a "; if ( $i >= $max_token_index ) { $msg .= "conditional (no end to pattern found on the line)\n"; } else { my $ibeg = $i; $i = $ibeg + 1; my $next_token = $rtokens->[$i]; # first token after ? # look for a possible ending ? on this line.. my $in_quote = 1; my $quote_depth = 0; my $quote_character = ''; my $quote_pos = 0; my $quoted_string; ( $i, $in_quote, $quote_character, $quote_pos, $quote_depth, $quoted_string ) = follow_quoted_string( $ibeg, $in_quote, $rtokens, $quote_character, $quote_pos, $quote_depth, $max_token_index ); if ($in_quote) { # we didn't find an ending ? on this line, # so we bias towards conditional $is_pattern = 0; $msg .= "conditional (no ending ? on this line)\n"; # we found an ending ?, so we bias towards a pattern } else { # Watch out for an ending ? in quotes, like this # my $case_flag = File::Spec->case_tolerant ? '(?i)' : ''; my $s_quote = 0; my $d_quote = 0; my $colons = 0; foreach my $ii ( $ibeg + 1 .. $i - 1 ) { my $tok = $rtokens->[$ii]; if ( $tok eq ":" ) { $colons++ } if ( $tok eq "'" ) { $s_quote++ } if ( $tok eq '"' ) { $d_quote++ } } if ( $s_quote % 2 || $d_quote % 2 || $colons ) { $is_pattern = 0; $msg .= "found ending ? but unbalanced quote chars\n"; } elsif ( pattern_expected( $i, $rtokens, $max_token_index ) >= 0 ) { $is_pattern = 1; $msg .= "pattern (found ending ? and pattern expected)\n"; } else { $msg .= "pattern (uncertain, but found ending ?)\n"; } } } return ( $is_pattern, $msg ); } sub guess_if_pattern_or_division { # this routine is called when we have encountered a / following an # unknown bareword, and we must decide if it starts a pattern or is a # division # input parameters: # $i - token index of the / starting possible pattern # output parameters: # $is_pattern = 0 if probably division, =1 if probably a pattern # msg = a warning or diagnostic message # USES GLOBAL VARIABLES: $last_nonblank_token my ( $i, $rtokens, $rtoken_map, $max_token_index ) = @_; my $is_pattern = 0; my $msg = "guessing that / after $last_nonblank_token starts a "; if ( $i >= $max_token_index ) { $msg .= "division (no end to pattern found on the line)\n"; } else { my $ibeg = $i; my $divide_expected = numerator_expected( $i, $rtokens, $max_token_index ); $i = $ibeg + 1; my $next_token = $rtokens->[$i]; # first token after slash # look for a possible ending / on this line.. my $in_quote = 1; my $quote_depth = 0; my $quote_character = ''; my $quote_pos = 0; my $quoted_string; ( $i, $in_quote, $quote_character, $quote_pos, $quote_depth, $quoted_string ) = follow_quoted_string( $ibeg, $in_quote, $rtokens, $quote_character, $quote_pos, $quote_depth, $max_token_index ); if ($in_quote) { # we didn't find an ending / on this line, # so we bias towards division if ( $divide_expected >= 0 ) { $is_pattern = 0; $msg .= "division (no ending / on this line)\n"; } else { $msg = "multi-line pattern (division not possible)\n"; $is_pattern = 1; } } # we found an ending /, so we bias towards a pattern else { if ( pattern_expected( $i, $rtokens, $max_token_index ) >= 0 ) { if ( $divide_expected >= 0 ) { if ( $i - $ibeg > 60 ) { $msg .= "division (matching / too distant)\n"; $is_pattern = 0; } else { $msg .= "pattern (but division possible too)\n"; $is_pattern = 1; } } else { $is_pattern = 1; $msg .= "pattern (division not possible)\n"; } } else { if ( $divide_expected >= 0 ) { $is_pattern = 0; $msg .= "division (pattern not possible)\n"; } else { $is_pattern = 1; $msg .= "pattern (uncertain, but division would not work here)\n"; } } } } return ( $is_pattern, $msg ); } # try to resolve here-doc vs. shift by looking ahead for # non-code or the end token (currently only looks for end token) # returns 1 if it is probably a here doc, 0 if not sub guess_if_here_doc { # This is how many lines we will search for a target as part of the # guessing strategy. It is a constant because there is probably # little reason to change it. # USES GLOBAL VARIABLES: $tokenizer_self, $current_package # %is_constant, my $HERE_DOC_WINDOW = 40; my $next_token = shift; my $here_doc_expected = 0; my $line; my $k = 0; my $msg = "checking <<"; while ( $line = $tokenizer_self->{_line_buffer_object}->peek_ahead( $k++ ) ) { chomp $line; if ( $line =~ /^$next_token$/ ) { $msg .= " -- found target $next_token ahead $k lines\n"; $here_doc_expected = 1; # got it last; } last if ( $k >= $HERE_DOC_WINDOW ); } unless ($here_doc_expected) { if ( !defined($line) ) { $here_doc_expected = -1; # hit eof without seeing target $msg .= " -- must be shift; target $next_token not in file\n"; } else { # still unsure..taking a wild guess if ( !$is_constant{$current_package}{$next_token} ) { $here_doc_expected = 1; $msg .= " -- guessing it's a here-doc ($next_token not a constant)\n"; } else { $msg .= " -- guessing it's a shift ($next_token is a constant)\n"; } } } write_logfile_entry($msg); return $here_doc_expected; } #########i############################################################# # Tokenizer Routines for scanning identifiers and related items ####################################################################### sub scan_bare_identifier_do { # this routine is called to scan a token starting with an alphanumeric # variable or package separator, :: or '. # USES GLOBAL VARIABLES: $current_package, $last_nonblank_token, # $last_nonblank_type,@paren_type, $paren_depth my ( $input_line, $i, $tok, $type, $prototype, $rtoken_map, $max_token_index ) = @_; my $i_begin = $i; my $package = undef; my $i_beg = $i; # we have to back up one pretoken at a :: since each : is one pretoken if ( $tok eq '::' ) { $i_beg-- } if ( $tok eq '->' ) { $i_beg-- } my $pos_beg = $rtoken_map->[$i_beg]; pos($input_line) = $pos_beg; # Examples: # A::B::C # A:: # ::A # A'B if ( $input_line =~ m/\G\s*((?:\w*(?:'|::)))*(?:(?:->)?(\w+))?/gc ) { my $pos = pos($input_line); my $numc = $pos - $pos_beg; $tok = substr( $input_line, $pos_beg, $numc ); # type 'w' includes anything without leading type info # ($,%,@,*) including something like abc::def::ghi $type = 'w'; my $sub_name = ""; if ( defined($2) ) { $sub_name = $2; } if ( defined($1) ) { $package = $1; # patch: don't allow isolated package name which just ends # in the old style package separator (single quote). Example: # use CGI':all'; if ( !($sub_name) && substr( $package, -1, 1 ) eq '\'' ) { $pos--; } $package =~ s/\'/::/g; if ( $package =~ /^\:/ ) { $package = 'main' . $package } $package =~ s/::$//; } else { $package = $current_package; if ( $is_keyword{$tok} ) { $type = 'k'; } } # if it is a bareword.. if ( $type eq 'w' ) { # check for v-string with leading 'v' type character # (This seems to have precedence over filehandle, type 'Y') if ( $tok =~ /^v\d[_\d]*$/ ) { # we only have the first part - something like 'v101' - # look for more if ( $input_line =~ m/\G(\.\d[_\d]*)+/gc ) { $pos = pos($input_line); $numc = $pos - $pos_beg; $tok = substr( $input_line, $pos_beg, $numc ); } $type = 'v'; # warn if this version can't handle v-strings report_v_string($tok); } elsif ( $is_constant{$package}{$sub_name} ) { $type = 'C'; } # bareword after sort has implied empty prototype; for example: # @sorted = sort numerically ( 53, 29, 11, 32, 7 ); # This has priority over whatever the user has specified. elsif ($last_nonblank_token eq 'sort' && $last_nonblank_type eq 'k' ) { $type = 'Z'; } # Note: strangely, perl does not seem to really let you create # functions which act like eval and do, in the sense that eval # and do may have operators following the final }, but any operators # that you create with prototype (&) apparently do not allow # trailing operators, only terms. This seems strange. # If this ever changes, here is the update # to make perltidy behave accordingly: # elsif ( $is_block_function{$package}{$tok} ) { # $tok='eval'; # patch to do braces like eval - doesn't work # $type = 'k'; #} # FIXME: This could become a separate type to allow for different # future behavior: elsif ( $is_block_function{$package}{$sub_name} ) { $type = 'G'; } elsif ( $is_block_list_function{$package}{$sub_name} ) { $type = 'G'; } elsif ( $is_user_function{$package}{$sub_name} ) { $type = 'U'; $prototype = $user_function_prototype{$package}{$sub_name}; } # check for indirect object elsif ( # added 2001-03-27: must not be followed immediately by '(' # see fhandle.t ( $input_line !~ m/\G\(/gc ) # and && ( # preceded by keyword like 'print', 'printf' and friends $is_indirect_object_taker{$last_nonblank_token} # or preceded by something like 'print(' or 'printf(' || ( ( $last_nonblank_token eq '(' ) && $is_indirect_object_taker{ $paren_type[$paren_depth] } ) ) ) { # may not be indirect object unless followed by a space if ( $input_line =~ m/\G\s+/gc ) { $type = 'Y'; # Abandon Hope ... # Perl's indirect object notation is a very bad # thing and can cause subtle bugs, especially for # beginning programmers. And I haven't even been # able to figure out a sane warning scheme which # doesn't get in the way of good scripts. # Complain if a filehandle has any lower case # letters. This is suggested good practice. # Use 'sub_name' because something like # main::MYHANDLE is ok for filehandle if ( $sub_name =~ /[a-z]/ ) { # could be bug caused by older perltidy if # followed by '(' if ( $input_line =~ m/\G\s*\(/gc ) { complain( "Caution: unknown word '$tok' in indirect object slot\n" ); } } } # bareword not followed by a space -- may not be filehandle # (may be function call defined in a 'use' statement) else { $type = 'Z'; } } } # Now we must convert back from character position # to pre_token index. # I don't think an error flag can occur here ..but who knows my $error; ( $i, $error ) = inverse_pretoken_map( $i, $pos, $rtoken_map, $max_token_index ); if ($error) { warning("scan_bare_identifier: Possibly invalid tokenization\n"); } } # no match but line not blank - could be syntax error # perl will take '::' alone without complaint else { $type = 'w'; # change this warning to log message if it becomes annoying warning("didn't find identifier after leading ::\n"); } return ( $i, $tok, $type, $prototype ); } sub scan_id_do { # This is the new scanner and will eventually replace scan_identifier. # Only type 'sub' and 'package' are implemented. # Token types $ * % @ & -> are not yet implemented. # # Scan identifier following a type token. # The type of call depends on $id_scan_state: $id_scan_state = '' # for starting call, in which case $tok must be the token defining # the type. # # If the type token is the last nonblank token on the line, a value # of $id_scan_state = $tok is returned, indicating that further # calls must be made to get the identifier. If the type token is # not the last nonblank token on the line, the identifier is # scanned and handled and a value of '' is returned. # USES GLOBAL VARIABLES: $current_package, $last_nonblank_token, $in_attribute_list, # $statement_type, $tokenizer_self my ( $input_line, $i, $tok, $rtokens, $rtoken_map, $id_scan_state, $max_token_index ) = @_; my $type = ''; my ( $i_beg, $pos_beg ); #print "NSCAN:entering i=$i, tok=$tok, type=$type, state=$id_scan_state\n"; #my ($a,$b,$c) = caller; #print "NSCAN: scan_id called with tok=$tok $a $b $c\n"; # on re-entry, start scanning at first token on the line if ($id_scan_state) { $i_beg = $i; $type = ''; } # on initial entry, start scanning just after type token else { $i_beg = $i + 1; $id_scan_state = $tok; $type = 't'; } # find $i_beg = index of next nonblank token, # and handle empty lines my $blank_line = 0; my $next_nonblank_token = $rtokens->[$i_beg]; if ( $i_beg > $max_token_index ) { $blank_line = 1; } else { # only a '#' immediately after a '$' is not a comment if ( $next_nonblank_token eq '#' ) { unless ( $tok eq '$' ) { $blank_line = 1; } } if ( $next_nonblank_token =~ /^\s/ ) { ( $next_nonblank_token, $i_beg ) = find_next_nonblank_token_on_this_line( $i_beg, $rtokens, $max_token_index ); if ( $next_nonblank_token =~ /(^#|^\s*$)/ ) { $blank_line = 1; } } } # handle non-blank line; identifier, if any, must follow unless ($blank_line) { if ( $id_scan_state eq 'sub' ) { ( $i, $tok, $type, $id_scan_state ) = do_scan_sub( $input_line, $i, $i_beg, $tok, $type, $rtokens, $rtoken_map, $id_scan_state, $max_token_index ); } elsif ( $id_scan_state eq 'package' ) { ( $i, $tok, $type ) = do_scan_package( $input_line, $i, $i_beg, $tok, $type, $rtokens, $rtoken_map, $max_token_index ); $id_scan_state = ''; } else { warning("invalid token in scan_id: $tok\n"); $id_scan_state = ''; } } if ( $id_scan_state && ( !defined($type) || !$type ) ) { # shouldn't happen: warning( "Program bug in scan_id: undefined type but scan_state=$id_scan_state\n" ); report_definite_bug(); } TOKENIZER_DEBUG_FLAG_NSCAN && do { print STDOUT "NSCAN: returns i=$i, tok=$tok, type=$type, state=$id_scan_state\n"; }; return ( $i, $tok, $type, $id_scan_state ); } sub check_prototype { my ( $proto, $package, $subname ) = @_; return unless ( defined($package) && defined($subname) ); if ( defined($proto) ) { $proto =~ s/^\s*\(\s*//; $proto =~ s/\s*\)$//; if ($proto) { $is_user_function{$package}{$subname} = 1; $user_function_prototype{$package}{$subname} = "($proto)"; # prototypes containing '&' must be treated specially.. if ( $proto =~ /\&/ ) { # right curly braces of prototypes ending in # '&' may be followed by an operator if ( $proto =~ /\&$/ ) { $is_block_function{$package}{$subname} = 1; } # right curly braces of prototypes NOT ending in # '&' may NOT be followed by an operator elsif ( $proto !~ /\&$/ ) { $is_block_list_function{$package}{$subname} = 1; } } } else { $is_constant{$package}{$subname} = 1; } } else { $is_user_function{$package}{$subname} = 1; } return; } sub do_scan_package { # do_scan_package parses a package name # it is called with $i_beg equal to the index of the first nonblank # token following a 'package' token. # USES GLOBAL VARIABLES: $current_package, # package NAMESPACE # package NAMESPACE VERSION # package NAMESPACE BLOCK # package NAMESPACE VERSION BLOCK # # If VERSION is provided, package sets the $VERSION variable in the given # namespace to a version object with the VERSION provided. VERSION must be # a "strict" style version number as defined by the version module: a # positive decimal number (integer or decimal-fraction) without # exponentiation or else a dotted-decimal v-string with a leading 'v' # character and at least three components. # reference http://perldoc.perl.org/functions/package.html my ( $input_line, $i, $i_beg, $tok, $type, $rtokens, $rtoken_map, $max_token_index ) = @_; my $package = undef; my $pos_beg = $rtoken_map->[$i_beg]; pos($input_line) = $pos_beg; # handle non-blank line; package name, if any, must follow if ( $input_line =~ m/\G\s*((?:\w*(?:'|::))*\w+)/gc ) { $package = $1; $package = ( defined($1) && $1 ) ? $1 : 'main'; $package =~ s/\'/::/g; if ( $package =~ /^\:/ ) { $package = 'main' . $package } $package =~ s/::$//; my $pos = pos($input_line); my $numc = $pos - $pos_beg; $tok = 'package ' . substr( $input_line, $pos_beg, $numc ); $type = 'i'; # Now we must convert back from character position # to pre_token index. # I don't think an error flag can occur here ..but ? my $error; ( $i, $error ) = inverse_pretoken_map( $i, $pos, $rtoken_map, $max_token_index ); if ($error) { warning("Possibly invalid package\n") } $current_package = $package; # we should now have package NAMESPACE # now expecting VERSION, BLOCK, or ; to follow ... # package NAMESPACE VERSION # package NAMESPACE BLOCK # package NAMESPACE VERSION BLOCK my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i, $rtokens, $max_token_index ); # check that something recognizable follows, but do not parse. # A VERSION number will be parsed later as a number or v-string in the # normal way. What is important is to set the statement type if # everything looks okay so that the operator_expected() routine # knows that the number is in a package statement. # Examples of valid primitive tokens that might follow are: # 1235 . ; { } v3 v if ( $next_nonblank_token =~ /^([v\.\d;\{\}])|v\d|\d+$/ ) { $statement_type = $tok; } else { warning( "Unexpected '$next_nonblank_token' after package name '$tok'\n" ); } } # no match but line not blank -- # could be a label with name package, like package: , for example. else { $type = 'k'; } return ( $i, $tok, $type ); } sub scan_identifier_do { # This routine assembles tokens into identifiers. It maintains a # scan state, id_scan_state. It updates id_scan_state based upon # current id_scan_state and token, and returns an updated # id_scan_state and the next index after the identifier. # USES GLOBAL VARIABLES: $context, $last_nonblank_token, # $last_nonblank_type my ( $i, $id_scan_state, $identifier, $rtokens, $max_token_index, $expecting, $container_type ) = @_; my $i_begin = $i; my $type = ''; my $tok_begin = $rtokens->[$i_begin]; if ( $tok_begin eq ':' ) { $tok_begin = '::' } my $id_scan_state_begin = $id_scan_state; my $identifier_begin = $identifier; my $tok = $tok_begin; my $message = ""; my $in_prototype_or_signature = $container_type =~ /^sub/; # these flags will be used to help figure out the type: my $saw_alpha = ( $tok =~ /^[A-Za-z_]/ ); my $saw_type; # allow old package separator (') except in 'use' statement my $allow_tick = ( $last_nonblank_token ne 'use' ); # get started by defining a type and a state if necessary unless ($id_scan_state) { $context = UNKNOWN_CONTEXT; # fixup for digraph if ( $tok eq '>' ) { $tok = '->'; $tok_begin = $tok; } $identifier = $tok; if ( $tok eq '$' || $tok eq '*' ) { $id_scan_state = '$'; $context = SCALAR_CONTEXT; } elsif ( $tok eq '%' || $tok eq '@' ) { $id_scan_state = '$'; $context = LIST_CONTEXT; } elsif ( $tok eq '&' ) { $id_scan_state = '&'; } elsif ( $tok eq 'sub' or $tok eq 'package' ) { $saw_alpha = 0; # 'sub' is considered type info here $id_scan_state = '$'; $identifier .= ' '; # need a space to separate sub from sub name } elsif ( $tok eq '::' ) { $id_scan_state = 'A'; } elsif ( $tok =~ /^[A-Za-z_]/ ) { $id_scan_state = ':'; } elsif ( $tok eq '->' ) { $id_scan_state = '$'; } else { # shouldn't happen my ( $a, $b, $c ) = caller; warning("Program Bug: scan_identifier given bad token = $tok \n"); warning(" called from sub $a line: $c\n"); report_definite_bug(); } $saw_type = !$saw_alpha; } else { $i--; $saw_type = ( $tok =~ /([\$\%\@\*\&])/ ); } # now loop to gather the identifier my $i_save = $i; while ( $i < $max_token_index ) { $i_save = $i unless ( $tok =~ /^\s*$/ ); $tok = $rtokens->[ ++$i ]; if ( ( $tok eq ':' ) && ( $rtokens->[ $i + 1 ] eq ':' ) ) { $tok = '::'; $i++; } if ( $id_scan_state eq '$' ) { # starting variable name if ( $tok eq '$' ) { $identifier .= $tok; # we've got a punctuation variable if end of line (punct.t) if ( $i == $max_token_index ) { $type = 'i'; $id_scan_state = ''; last; } } # POSTDEFREF ->@ ->% ->& ->* elsif ( ( $tok =~ /^[\@\%\&\*]$/ ) && $identifier =~ /\-\>$/ ) { $identifier .= $tok; } elsif ( $tok =~ /^[A-Za-z_]/ ) { # alphanumeric .. $saw_alpha = 1; $id_scan_state = ':'; # now need :: $identifier .= $tok; } elsif ( $tok eq "'" && $allow_tick ) { # alphanumeric .. $saw_alpha = 1; $id_scan_state = ':'; # now need :: $identifier .= $tok; # Perl will accept leading digits in identifiers, # although they may not always produce useful results. # Something like $main::0 is ok. But this also works: # # sub howdy::123::bubba{ print "bubba $54321!\n" } # howdy::123::bubba(); # } elsif ( $tok =~ /^[0-9]/ ) { # numeric $saw_alpha = 1; $id_scan_state = ':'; # now need :: $identifier .= $tok; } elsif ( $tok eq '::' ) { $id_scan_state = 'A'; $identifier .= $tok; } # $# and POSTDEFREF ->$# elsif ( ( $tok eq '#' ) && ( $identifier =~ /\$$/ ) ) { # $#array $identifier .= $tok; # keep same state, a $ could follow } elsif ( $tok eq '{' ) { # check for something like ${#} or ${©} if ( ( $identifier eq '$' || $identifier eq '@' || $identifier eq '$#' ) && $i + 2 <= $max_token_index && $rtokens->[ $i + 2 ] eq '}' && $rtokens->[ $i + 1 ] !~ /[\s\w]/ ) { my $next2 = $rtokens->[ $i + 2 ]; my $next1 = $rtokens->[ $i + 1 ]; $identifier .= $tok . $next1 . $next2; $i += 2; $id_scan_state = ''; last; } # skip something like ${xxx} or ->{ $id_scan_state = ''; # if this is the first token of a line, any tokens for this # identifier have already been accumulated if ( $identifier eq '$' || $i == 0 ) { $identifier = ''; } $i = $i_save; last; } # space ok after leading $ % * & @ elsif ( $tok =~ /^\s*$/ ) { if ( $identifier =~ /^[\$\%\*\&\@]/ ) { if ( length($identifier) > 1 ) { $id_scan_state = ''; $i = $i_save; $type = 'i'; # probably punctuation variable last; } else { # spaces after $'s are common, and space after @ # is harmless, so only complain about space # after other type characters. Space after $ and # @ will be removed in formatting. Report space # after % and * because they might indicate a # parsing error. In other words '% ' might be a # modulo operator. Delete this warning if it # gets annoying. if ( $identifier !~ /^[\@\$]$/ ) { $message = "Space in identifier, following $identifier\n"; } } } # else: # space after '->' is ok } elsif ( $tok eq '^' ) { # check for some special variables like $^W if ( $identifier =~ /^[\$\*\@\%]$/ ) { $identifier .= $tok; $id_scan_state = 'A'; # Perl accepts '$^]' or '@^]', but # there must not be a space before the ']'. my $next1 = $rtokens->[ $i + 1 ]; if ( $next1 eq ']' ) { $i++; $identifier .= $next1; $id_scan_state = ""; last; } } else { $id_scan_state = ''; } } else { # something else if ( $in_prototype_or_signature && $tok =~ /^[\),=]/ ) { $id_scan_state = ''; $i = $i_save; $type = 'i'; # probably punctuation variable last; } # check for various punctuation variables if ( $identifier =~ /^[\$\*\@\%]$/ ) { $identifier .= $tok; } # POSTDEFREF: Postfix reference ->$* ->%* ->@* ->** ->&* ->$#* elsif ( $tok eq '*' && $identifier =~ /([\@\%\$\*\&]|\$\#)$/ ) { $identifier .= $tok; } elsif ( $identifier eq '$#' ) { if ( $tok eq '{' ) { $type = 'i'; $i = $i_save } # perl seems to allow just these: $#: $#- $#+ elsif ( $tok =~ /^[\:\-\+]$/ ) { $type = 'i'; $identifier .= $tok; } else { $i = $i_save; write_logfile_entry( 'Use of $# is deprecated' . "\n" ); } } elsif ( $identifier eq '$$' ) { # perl does not allow references to punctuation # variables without braces. For example, this # won't work: # $:=\4; # $a = $$:; # You would have to use # $a = ${$:}; $i = $i_save; if ( $tok eq '{' ) { $type = 't' } else { $type = 'i' } } elsif ( $identifier eq '->' ) { $i = $i_save; } else { $i = $i_save; if ( length($identifier) == 1 ) { $identifier = ''; } } $id_scan_state = ''; last; } } elsif ( $id_scan_state eq '&' ) { # starting sub call? if ( $tok =~ /^[\$A-Za-z_]/ ) { # alphanumeric .. $id_scan_state = ':'; # now need :: $saw_alpha = 1; $identifier .= $tok; } elsif ( $tok eq "'" && $allow_tick ) { # alphanumeric .. $id_scan_state = ':'; # now need :: $saw_alpha = 1; $identifier .= $tok; } elsif ( $tok =~ /^[0-9]/ ) { # numeric..see comments above $id_scan_state = ':'; # now need :: $saw_alpha = 1; $identifier .= $tok; } elsif ( $tok =~ /^\s*$/ ) { # allow space } elsif ( $tok eq '::' ) { # leading :: $id_scan_state = 'A'; # accept alpha next $identifier .= $tok; } elsif ( $tok eq '{' ) { if ( $identifier eq '&' || $i == 0 ) { $identifier = ''; } $i = $i_save; $id_scan_state = ''; last; } else { # punctuation variable? # testfile: cunningham4.pl # # We have to be careful here. If we are in an unknown state, # we will reject the punctuation variable. In the following # example the '&' is a binary operator but we are in an unknown # state because there is no sigil on 'Prima', so we don't # know what it is. But it is a bad guess that # '&~' is a function variable. # $self->{text}->{colorMap}->[ # Prima::PodView::COLOR_CODE_FOREGROUND # & ~tb::COLOR_INDEX ] = # $sec->{ColorCode} if ( $identifier eq '&' && $expecting ) { $identifier .= $tok; } else { $identifier = ''; $i = $i_save; $type = '&'; } $id_scan_state = ''; last; } } elsif ( $id_scan_state eq 'A' ) { # looking for alpha (after ::) if ( $tok =~ /^[A-Za-z_]/ ) { # found it $identifier .= $tok; $id_scan_state = ':'; # now need :: $saw_alpha = 1; } elsif ( $tok eq "'" && $allow_tick ) { $identifier .= $tok; $id_scan_state = ':'; # now need :: $saw_alpha = 1; } elsif ( $tok =~ /^[0-9]/ ) { # numeric..see comments above $identifier .= $tok; $id_scan_state = ':'; # now need :: $saw_alpha = 1; } elsif ( ( $identifier =~ /^sub / ) && ( $tok =~ /^\s*$/ ) ) { $id_scan_state = '('; $identifier .= $tok; } elsif ( ( $identifier =~ /^sub / ) && ( $tok eq '(' ) ) { $id_scan_state = ')'; $identifier .= $tok; } else { $id_scan_state = ''; $i = $i_save; last; } } elsif ( $id_scan_state eq ':' ) { # looking for :: after alpha if ( $tok eq '::' ) { # got it $identifier .= $tok; $id_scan_state = 'A'; # now require alpha } elsif ( $tok =~ /^[A-Za-z_]/ ) { # more alphanumeric is ok here $identifier .= $tok; $id_scan_state = ':'; # now need :: $saw_alpha = 1; } elsif ( $tok =~ /^[0-9]/ ) { # numeric..see comments above $identifier .= $tok; $id_scan_state = ':'; # now need :: $saw_alpha = 1; } elsif ( $tok eq "'" && $allow_tick ) { # tick if ( $is_keyword{$identifier} ) { $id_scan_state = ''; # that's all $i = $i_save; } else { $identifier .= $tok; } } elsif ( ( $identifier =~ /^sub / ) && ( $tok =~ /^\s*$/ ) ) { $id_scan_state = '('; $identifier .= $tok; } elsif ( ( $identifier =~ /^sub / ) && ( $tok eq '(' ) ) { $id_scan_state = ')'; $identifier .= $tok; } else { $id_scan_state = ''; # that's all $i = $i_save; last; } } elsif ( $id_scan_state eq '(' ) { # looking for ( of prototype if ( $tok eq '(' ) { # got it $identifier .= $tok; $id_scan_state = ')'; # now find the end of it } elsif ( $tok =~ /^\s*$/ ) { # blank - keep going $identifier .= $tok; } else { $id_scan_state = ''; # that's all - no prototype $i = $i_save; last; } } elsif ( $id_scan_state eq ')' ) { # looking for ) to end if ( $tok eq ')' ) { # got it $identifier .= $tok; $id_scan_state = ''; # all done last; } elsif ( $tok =~ /^[\s\$\%\\\*\@\&\;]/ ) { $identifier .= $tok; } else { # probable error in script, but keep going warning("Unexpected '$tok' while seeking end of prototype\n"); $identifier .= $tok; } } else { # can get here due to error in initialization $id_scan_state = ''; $i = $i_save; last; } } if ( $id_scan_state eq ')' ) { warning("Hit end of line while seeking ) to end prototype\n"); } # once we enter the actual identifier, it may not extend beyond # the end of the current line if ( $id_scan_state =~ /^[A\:\(\)]/ ) { $id_scan_state = ''; } if ( $i < 0 ) { $i = 0 } unless ($type) { if ($saw_type) { if ($saw_alpha) { if ( $identifier =~ /^->/ && $last_nonblank_type eq 'w' ) { $type = 'w'; } else { $type = 'i' } } elsif ( $identifier eq '->' ) { $type = '->'; } elsif ( ( length($identifier) > 1 ) # In something like '@$=' we have an identifier '@$' # In something like '$${' we have type '$$' (and only # part of an identifier) && !( $identifier =~ /\$$/ && $tok eq '{' ) && ( $identifier !~ /^(sub |package )$/ ) ) { $type = 'i'; } else { $type = 't' } } elsif ($saw_alpha) { # type 'w' includes anything without leading type info # ($,%,@,*) including something like abc::def::ghi $type = 'w'; } else { $type = ''; } # this can happen on a restart } if ($identifier) { $tok = $identifier; if ($message) { write_logfile_entry($message) } } else { $tok = $tok_begin; $i = $i_begin; } TOKENIZER_DEBUG_FLAG_SCAN_ID && do { my ( $a, $b, $c ) = caller; print STDOUT "SCANID: called from $a $b $c with tok, i, state, identifier =$tok_begin, $i_begin, $id_scan_state_begin, $identifier_begin\n"; print STDOUT "SCANID: returned with tok, i, state, identifier =$tok, $i, $id_scan_state, $identifier\n"; }; return ( $i, $tok, $type, $id_scan_state, $identifier ); } { # saved package and subnames in case prototype is on separate line my ( $package_saved, $subname_saved ); sub do_scan_sub { # do_scan_sub parses a sub name and prototype # it is called with $i_beg equal to the index of the first nonblank # token following a 'sub' token. # TODO: add future error checks to be sure we have a valid # sub name. For example, 'sub &doit' is wrong. Also, be sure # a name is given if and only if a non-anonymous sub is # appropriate. # USES GLOBAL VARS: $current_package, $last_nonblank_token, # $in_attribute_list, %saw_function_definition, # $statement_type my ( $input_line, $i, $i_beg, $tok, $type, $rtokens, $rtoken_map, $id_scan_state, $max_token_index ) = @_; $id_scan_state = ""; # normally we get everything in one call my $subname = undef; my $package = undef; my $proto = undef; my $attrs = undef; my $match; my $pos_beg = $rtoken_map->[$i_beg]; pos($input_line) = $pos_beg; # Look for the sub NAME if ( $input_line =~ m/\G\s* ((?:\w*(?:'|::))*) # package - something that ends in :: or ' (\w+) # NAME - required /gcx ) { $match = 1; $subname = $2; $package = ( defined($1) && $1 ) ? $1 : $current_package; $package =~ s/\'/::/g; if ( $package =~ /^\:/ ) { $package = 'main' . $package } $package =~ s/::$//; my $pos = pos($input_line); my $numc = $pos - $pos_beg; $tok = 'sub ' . substr( $input_line, $pos_beg, $numc ); $type = 'i'; } # Now look for PROTO ATTRS # Look for prototype/attributes which are usually on the same # line as the sub name but which might be on a separate line. # For example, we might have an anonymous sub with attributes, # or a prototype on a separate line from its sub name # NOTE: We only want to parse PROTOTYPES here. If we see anything that # does not look like a prototype, we assume it is a SIGNATURE and we # will stop and let the the standard tokenizer handle it. In # particular, we stop if we see any nested parens, braces, or commas. my $saw_opening_paren = $input_line =~ /\G\s*\(/; if ( $input_line =~ m/\G(\s*\([^\)\(\}\{\,]*\))? # PROTO (\s*:)? # ATTRS leading ':' /gcx && ( $1 || $2 ) ) { $proto = $1; $attrs = $2; # If we also found the sub name on this call then append PROTO. # This is not necessary but for compatability with previous # versions when the -csc flag is used: if ( $match && $proto ) { $tok .= $proto; } $match ||= 1; # Handle prototype on separate line from subname if ($subname_saved) { $package = $package_saved; $subname = $subname_saved; $tok = $last_nonblank_token; } $type = 'i'; } if ($match) { # ATTRS: if there are attributes, back up and let the ':' be # found later by the scanner. my $pos = pos($input_line); if ($attrs) { $pos -= length($attrs); } my $next_nonblank_token = $tok; # catch case of line with leading ATTR ':' after anonymous sub if ( $pos == $pos_beg && $tok eq ':' ) { $type = 'A'; $in_attribute_list = 1; } # Otherwise, if we found a match we must convert back from # string position to the pre_token index for continued parsing. else { # I don't think an error flag can occur here ..but ? my $error; ( $i, $error ) = inverse_pretoken_map( $i, $pos, $rtoken_map, $max_token_index ); if ($error) { warning("Possibly invalid sub\n") } # check for multiple definitions of a sub ( $next_nonblank_token, my $i_next ) = find_next_nonblank_token_on_this_line( $i, $rtokens, $max_token_index ); } if ( $next_nonblank_token =~ /^(\s*|#)$/ ) { # skip blank or side comment my ( $rpre_tokens, $rpre_types ) = peek_ahead_for_n_nonblank_pre_tokens(1); if ( defined($rpre_tokens) && @{$rpre_tokens} ) { $next_nonblank_token = $rpre_tokens->[0]; } else { $next_nonblank_token = '}'; } } $package_saved = ""; $subname_saved = ""; # See what's next... if ( $next_nonblank_token eq '{' ) { if ($subname) { # Check for multiple definitions of a sub, but # it is ok to have multiple sub BEGIN, etc, # so we do not complain if name is all caps if ( $saw_function_definition{$package}{$subname} && $subname !~ /^[A-Z]+$/ ) { my $lno = $saw_function_definition{$package}{$subname}; warning( "already saw definition of 'sub $subname' in package '$package' at line $lno\n" ); } $saw_function_definition{$package}{$subname} = $tokenizer_self->{_last_line_number}; } } elsif ( $next_nonblank_token eq ';' ) { } elsif ( $next_nonblank_token eq '}' ) { } # ATTRS - if an attribute list follows, remember the name # of the sub so the next opening brace can be labeled. # Setting 'statement_type' causes any ':'s to introduce # attributes. elsif ( $next_nonblank_token eq ':' ) { $statement_type = $tok; } # if we stopped before an open paren ... elsif ( $next_nonblank_token eq '(' ) { # If we DID NOT see this paren above then it must be on the # next line so we will set a flag to come back here and see if # it is a PROTOTYPE # Otherwise, we assume it is a SIGNATURE rather than a # PROTOTYPE and let the normal tokenizer handle it as a list if ( !$saw_opening_paren ) { $id_scan_state = 'sub'; # we must come back to get proto $package_saved = $package; $subname_saved = $subname; } $statement_type = $tok; } elsif ($next_nonblank_token) { # EOF technically ok warning( "expecting ':' or ';' or '{' after definition or declaration of sub '$subname' but saw '$next_nonblank_token'\n" ); } check_prototype( $proto, $package, $subname ); } # no match but line not blank else { } return ( $i, $tok, $type, $id_scan_state ); } } #########i############################################################### # Tokenizer utility routines which may use CONSTANTS but no other GLOBALS ######################################################################### sub find_next_nonblank_token { my ( $i, $rtokens, $max_token_index ) = @_; if ( $i >= $max_token_index ) { if ( !peeked_ahead() ) { peeked_ahead(1); $rtokens = peek_ahead_for_nonblank_token( $rtokens, $max_token_index ); } } my $next_nonblank_token = $rtokens->[ ++$i ]; if ( $next_nonblank_token =~ /^\s*$/ ) { $next_nonblank_token = $rtokens->[ ++$i ]; } return ( $next_nonblank_token, $i ); } sub numerator_expected { # this is a filter for a possible numerator, in support of guessing # for the / pattern delimiter token. # returns - # 1 - yes # 0 - can't tell # -1 - no # Note: I am using the convention that variables ending in # _expected have these 3 possible values. my ( $i, $rtokens, $max_token_index ) = @_; my $numerator_expected = 0; my $next_token = $rtokens->[ $i + 1 ]; if ( $next_token eq '=' ) { $i++; } # handle /= my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i, $rtokens, $max_token_index ); if ( $next_nonblank_token =~ /(\(|\$|\w|\.|\@)/ ) { $numerator_expected = 1; } else { if ( $next_nonblank_token =~ /^\s*$/ ) { $numerator_expected = 0; } else { $numerator_expected = -1; } } return $numerator_expected; } sub pattern_expected { # This is the start of a filter for a possible pattern. # It looks at the token after a possible pattern and tries to # determine if that token could end a pattern. # returns - # 1 - yes # 0 - can't tell # -1 - no my ( $i, $rtokens, $max_token_index ) = @_; my $is_pattern = 0; my $next_token = $rtokens->[ $i + 1 ]; if ( $next_token =~ /^[msixpodualgc]/ ) { $i++; } # skip possible modifier my ( $next_nonblank_token, $i_next ) = find_next_nonblank_token( $i, $rtokens, $max_token_index ); # list of tokens which may follow a pattern # (can probably be expanded) if ( $next_nonblank_token =~ /(\)|\}|\;|\&\&|\|\||and|or|while|if|unless)/ ) { $is_pattern = 1; } else { if ( $next_nonblank_token =~ /^\s*$/ ) { $is_pattern = 0; } else { $is_pattern = -1; } } return $is_pattern; } sub find_next_nonblank_token_on_this_line { my ( $i, $rtokens, $max_token_index ) = @_; my $next_nonblank_token; if ( $i < $max_token_index ) { $next_nonblank_token = $rtokens->[ ++$i ]; if ( $next_nonblank_token =~ /^\s*$/ ) { if ( $i < $max_token_index ) { $next_nonblank_token = $rtokens->[ ++$i ]; } } } else { $next_nonblank_token = ""; } return ( $next_nonblank_token, $i ); } sub find_angle_operator_termination { # We are looking at a '<' and want to know if it is an angle operator. # We are to return: # $i = pretoken index of ending '>' if found, current $i otherwise # $type = 'Q' if found, '>' otherwise my ( $input_line, $i_beg, $rtoken_map, $expecting, $max_token_index ) = @_; my $i = $i_beg; my $type = '<'; pos($input_line) = 1 + $rtoken_map->[$i]; my $filter; # we just have to find the next '>' if a term is expected if ( $expecting == TERM ) { $filter = '[\>]' } # we have to guess if we don't know what is expected elsif ( $expecting == UNKNOWN ) { $filter = '[\>\;\=\#\|\<]' } # shouldn't happen - we shouldn't be here if operator is expected else { warning("Program Bug in find_angle_operator_termination\n") } # To illustrate what we might be looking at, in case we are # guessing, here are some examples of valid angle operators # (or file globs): # # # <$fh> # <*.c *.h> # <_> # ( glob.t) # <${PREFIX}*img*.$IMAGE_TYPE> # # # <$LATEX2HTMLVERSIONS${dd}html[1-9].[0-9].pl> # # Here are some examples of lines which do not have angle operators: # return undef unless $self->[2]++ < $#{$self->[1]}; # < 2 || @$t > # # the following line from dlister.pl caused trouble: # print'~'x79,"\n",$D<1024?"0.$D":$D>>10,"K, $C files\n\n\n"; # # If the '<' starts an angle operator, it must end on this line and # it must not have certain characters like ';' and '=' in it. I use # this to limit the testing. This filter should be improved if # possible. if ( $input_line =~ /($filter)/g ) { if ( $1 eq '>' ) { # We MAY have found an angle operator termination if we get # here, but we need to do more to be sure we haven't been # fooled. my $pos = pos($input_line); my $pos_beg = $rtoken_map->[$i]; my $str = substr( $input_line, $pos_beg, ( $pos - $pos_beg ) ); # Reject if the closing '>' follows a '-' as in: # if ( VERSION < 5.009 && $op-> name eq 'assign' ) { } if ( $expecting eq UNKNOWN ) { my $check = substr( $input_line, $pos - 2, 1 ); if ( $check eq '-' ) { return ( $i, $type ); } } ######################################debug##### #write_diagnostics( "ANGLE? :$str\n"); #print "ANGLE: found $1 at pos=$pos str=$str check=$check\n"; ######################################debug##### $type = 'Q'; my $error; ( $i, $error ) = inverse_pretoken_map( $i, $pos, $rtoken_map, $max_token_index ); # It may be possible that a quote ends midway in a pretoken. # If this happens, it may be necessary to split the pretoken. if ($error) { warning( "Possible tokinization error..please check this line\n"); report_possible_bug(); } # Now let's see where we stand.... # OK if math op not possible if ( $expecting == TERM ) { } # OK if there are no more than 2 pre-tokens inside # (not possible to write 2 token math between < and >) # This catches most common cases elsif ( $i <= $i_beg + 3 ) { write_diagnostics("ANGLE(1 or 2 tokens): $str\n"); } # Not sure.. else { # Let's try a Brace Test: any braces inside must balance my $br = 0; while ( $str =~ /\{/g ) { $br++ } while ( $str =~ /\}/g ) { $br-- } my $sb = 0; while ( $str =~ /\[/g ) { $sb++ } while ( $str =~ /\]/g ) { $sb-- } my $pr = 0; while ( $str =~ /\(/g ) { $pr++ } while ( $str =~ /\)/g ) { $pr-- } # if braces do not balance - not angle operator if ( $br || $sb || $pr ) { $i = $i_beg; $type = '<'; write_diagnostics( "NOT ANGLE (BRACE={$br ($pr [$sb ):$str\n"); } # we should keep doing more checks here...to be continued # Tentatively accepting this as a valid angle operator. # There are lots more things that can be checked. else { write_diagnostics( "ANGLE-Guessing yes: $str expecting=$expecting\n"); write_logfile_entry("Guessing angle operator here: $str\n"); } } } # didn't find ending > else { if ( $expecting == TERM ) { warning("No ending > for angle operator\n"); } } } return ( $i, $type ); } sub scan_number_do { # scan a number in any of the formats that Perl accepts # Underbars (_) are allowed in decimal numbers. # input parameters - # $input_line - the string to scan # $i - pre_token index to start scanning # $rtoken_map - reference to the pre_token map giving starting # character position in $input_line of token $i # output parameters - # $i - last pre_token index of the number just scanned # number - the number (characters); or undef if not a number my ( $input_line, $i, $rtoken_map, $input_type, $max_token_index ) = @_; my $pos_beg = $rtoken_map->[$i]; my $pos; my $i_begin = $i; my $number = undef; my $type = $input_type; my $first_char = substr( $input_line, $pos_beg, 1 ); # Look for bad starting characters; Shouldn't happen.. if ( $first_char !~ /[\d\.\+\-Ee]/ ) { warning("Program bug - scan_number given character $first_char\n"); report_definite_bug(); return ( $i, $type, $number ); } # handle v-string without leading 'v' character ('Two Dot' rule) # (vstring.t) # TODO: v-strings may contain underscores pos($input_line) = $pos_beg; if ( $input_line =~ /\G((\d+)?\.\d+(\.\d+)+)/g ) { $pos = pos($input_line); my $numc = $pos - $pos_beg; $number = substr( $input_line, $pos_beg, $numc ); $type = 'v'; report_v_string($number); } # handle octal, hex, binary if ( !defined($number) ) { pos($input_line) = $pos_beg; if ( $input_line =~ /\G[+-]?0(([xX][0-9a-fA-F_]+)|([0-7_]+)|([bB][01_]+))/g ) { $pos = pos($input_line); my $numc = $pos - $pos_beg; $number = substr( $input_line, $pos_beg, $numc ); $type = 'n'; } } # handle decimal if ( !defined($number) ) { pos($input_line) = $pos_beg; if ( $input_line =~ /\G([+-]?[\d_]*(\.[\d_]*)?([Ee][+-]?(\d+))?)/g ) { $pos = pos($input_line); # watch out for things like 0..40 which would give 0. by this; if ( ( substr( $input_line, $pos - 1, 1 ) eq '.' ) && ( substr( $input_line, $pos, 1 ) eq '.' ) ) { $pos--; } my $numc = $pos - $pos_beg; $number = substr( $input_line, $pos_beg, $numc ); $type = 'n'; } } # filter out non-numbers like e + - . e2 .e3 +e6 # the rule: at least one digit, and any 'e' must be preceded by a digit if ( $number !~ /\d/ # no digits || ( $number =~ /^(.*)[eE]/ && $1 !~ /\d/ ) # or no digits before the 'e' ) { $number = undef; $type = $input_type; return ( $i, $type, $number ); } # Found a number; now we must convert back from character position # to pre_token index. An error here implies user syntax error. # An example would be an invalid octal number like '009'. my $error; ( $i, $error ) = inverse_pretoken_map( $i, $pos, $rtoken_map, $max_token_index ); if ($error) { warning("Possibly invalid number\n") } return ( $i, $type, $number ); } sub inverse_pretoken_map { # Starting with the current pre_token index $i, scan forward until # finding the index of the next pre_token whose position is $pos. my ( $i, $pos, $rtoken_map, $max_token_index ) = @_; my $error = 0; while ( ++$i <= $max_token_index ) { if ( $pos <= $rtoken_map->[$i] ) { # Let the calling routine handle errors in which we do not # land on a pre-token boundary. It can happen by running # perltidy on some non-perl scripts, for example. if ( $pos < $rtoken_map->[$i] ) { $error = 1 } $i--; last; } } return ( $i, $error ); } sub find_here_doc { # find the target of a here document, if any # input parameters: # $i - token index of the second < of << # ($i must be less than the last token index if this is called) # output parameters: # $found_target = 0 didn't find target; =1 found target # HERE_TARGET - the target string (may be empty string) # $i - unchanged if not here doc, # or index of the last token of the here target # $saw_error - flag noting unbalanced quote on here target my ( $expecting, $i, $rtokens, $rtoken_map, $max_token_index ) = @_; my $ibeg = $i; my $found_target = 0; my $here_doc_target = ''; my $here_quote_character = ''; my $saw_error = 0; my ( $next_nonblank_token, $i_next_nonblank, $next_token ); $next_token = $rtokens->[ $i + 1 ]; # perl allows a backslash before the target string (heredoc.t) my $backslash = 0; if ( $next_token eq '\\' ) { $backslash = 1; $next_token = $rtokens->[ $i + 2 ]; } ( $next_nonblank_token, $i_next_nonblank ) = find_next_nonblank_token_on_this_line( $i, $rtokens, $max_token_index ); if ( $next_nonblank_token =~ /[\'\"\`]/ ) { my $in_quote = 1; my $quote_depth = 0; my $quote_pos = 0; my $quoted_string; ( $i, $in_quote, $here_quote_character, $quote_pos, $quote_depth, $quoted_string ) = follow_quoted_string( $i_next_nonblank, $in_quote, $rtokens, $here_quote_character, $quote_pos, $quote_depth, $max_token_index ); if ($in_quote) { # didn't find end of quote, so no target found $i = $ibeg; if ( $expecting == TERM ) { warning( "Did not find here-doc string terminator ($here_quote_character) before end of line \n" ); $saw_error = 1; } } else { # found ending quote ##my $j; $found_target = 1; my $tokj; foreach my $j ( $i_next_nonblank + 1 .. $i - 1 ) { $tokj = $rtokens->[$j]; # we have to remove any backslash before the quote character # so that the here-doc-target exactly matches this string next if ( $tokj eq "\\" && $j < $i - 1 && $rtokens->[ $j + 1 ] eq $here_quote_character ); $here_doc_target .= $tokj; } } } elsif ( ( $next_token =~ /^\s*$/ ) and ( $expecting == TERM ) ) { $found_target = 1; write_logfile_entry( "found blank here-target after <<; suggest using \"\"\n"); $i = $ibeg; } elsif ( $next_token =~ /^\w/ ) { # simple bareword or integer after << my $here_doc_expected; if ( $expecting == UNKNOWN ) { $here_doc_expected = guess_if_here_doc($next_token); } else { $here_doc_expected = 1; } if ($here_doc_expected) { $found_target = 1; $here_doc_target = $next_token; $i = $ibeg + 1; } } else { if ( $expecting == TERM ) { $found_target = 1; write_logfile_entry("Note: bare here-doc operator <<\n"); } else { $i = $ibeg; } } # patch to neglect any prepended backslash if ( $found_target && $backslash ) { $i++ } return ( $found_target, $here_doc_target, $here_quote_character, $i, $saw_error ); } sub do_quote { # follow (or continue following) quoted string(s) # $in_quote return code: # 0 - ok, found end # 1 - still must find end of quote whose target is $quote_character # 2 - still looking for end of first of two quotes # # Returns updated strings: # $quoted_string_1 = quoted string seen while in_quote=1 # $quoted_string_2 = quoted string seen while in_quote=2 my ( $i, $in_quote, $quote_character, $quote_pos, $quote_depth, $quoted_string_1, $quoted_string_2, $rtokens, $rtoken_map, $max_token_index ) = @_; my $in_quote_starting = $in_quote; my $quoted_string; if ( $in_quote == 2 ) { # two quotes/quoted_string_1s to follow my $ibeg = $i; ( $i, $in_quote, $quote_character, $quote_pos, $quote_depth, $quoted_string ) = follow_quoted_string( $i, $in_quote, $rtokens, $quote_character, $quote_pos, $quote_depth, $max_token_index ); $quoted_string_2 .= $quoted_string; if ( $in_quote == 1 ) { if ( $quote_character =~ /[\{\[\<\(]/ ) { $i++; } $quote_character = ''; } else { $quoted_string_2 .= "\n"; } } if ( $in_quote == 1 ) { # one (more) quote to follow my $ibeg = $i; ( $i, $in_quote, $quote_character, $quote_pos, $quote_depth, $quoted_string ) = follow_quoted_string( $ibeg, $in_quote, $rtokens, $quote_character, $quote_pos, $quote_depth, $max_token_index ); $quoted_string_1 .= $quoted_string; if ( $in_quote == 1 ) { $quoted_string_1 .= "\n"; } } return ( $i, $in_quote, $quote_character, $quote_pos, $quote_depth, $quoted_string_1, $quoted_string_2 ); } sub follow_quoted_string { # scan for a specific token, skipping escaped characters # if the quote character is blank, use the first non-blank character # input parameters: # $rtokens = reference to the array of tokens # $i = the token index of the first character to search # $in_quote = number of quoted strings being followed # $beginning_tok = the starting quote character # $quote_pos = index to check next for alphanumeric delimiter # output parameters: # $i = the token index of the ending quote character # $in_quote = decremented if found end, unchanged if not # $beginning_tok = the starting quote character # $quote_pos = index to check next for alphanumeric delimiter # $quote_depth = nesting depth, since delimiters '{ ( [ <' can be nested. # $quoted_string = the text of the quote (without quotation tokens) my ( $i_beg, $in_quote, $rtokens, $beginning_tok, $quote_pos, $quote_depth, $max_token_index ) = @_; my ( $tok, $end_tok ); my $i = $i_beg - 1; my $quoted_string = ""; TOKENIZER_DEBUG_FLAG_QUOTE && do { print STDOUT "QUOTE entering with quote_pos = $quote_pos i=$i beginning_tok =$beginning_tok\n"; }; # get the corresponding end token if ( $beginning_tok !~ /^\s*$/ ) { $end_tok = matching_end_token($beginning_tok); } # a blank token means we must find and use the first non-blank one else { my $allow_quote_comments = ( $i < 0 ) ? 1 : 0; # i<0 means we saw a while ( $i < $max_token_index ) { $tok = $rtokens->[ ++$i ]; if ( $tok !~ /^\s*$/ ) { if ( ( $tok eq '#' ) && ($allow_quote_comments) ) { $i = $max_token_index; } else { if ( length($tok) > 1 ) { if ( $quote_pos <= 0 ) { $quote_pos = 1 } $beginning_tok = substr( $tok, $quote_pos - 1, 1 ); } else { $beginning_tok = $tok; $quote_pos = 0; } $end_tok = matching_end_token($beginning_tok); $quote_depth = 1; last; } } else { $allow_quote_comments = 1; } } } # There are two different loops which search for the ending quote # character. In the rare case of an alphanumeric quote delimiter, we # have to look through alphanumeric tokens character-by-character, since # the pre-tokenization process combines multiple alphanumeric # characters, whereas for a non-alphanumeric delimiter, only tokens of # length 1 can match. ################################################################### # Case 1 (rare): loop for case of alphanumeric quote delimiter.. # "quote_pos" is the position the current word to begin searching ################################################################### if ( $beginning_tok =~ /\w/ ) { # Note this because it is not recommended practice except # for obfuscated perl contests if ( $in_quote == 1 ) { write_logfile_entry( "Note: alphanumeric quote delimiter ($beginning_tok) \n"); } while ( $i < $max_token_index ) { if ( $quote_pos == 0 || ( $i < 0 ) ) { $tok = $rtokens->[ ++$i ]; if ( $tok eq '\\' ) { # retain backslash unless it hides the end token $quoted_string .= $tok unless $rtokens->[ $i + 1 ] eq $end_tok; $quote_pos++; last if ( $i >= $max_token_index ); $tok = $rtokens->[ ++$i ]; } } my $old_pos = $quote_pos; unless ( defined($tok) && defined($end_tok) && defined($quote_pos) ) { } $quote_pos = 1 + index( $tok, $end_tok, $quote_pos ); if ( $quote_pos > 0 ) { $quoted_string .= substr( $tok, $old_pos, $quote_pos - $old_pos - 1 ); $quote_depth--; if ( $quote_depth == 0 ) { $in_quote--; last; } } else { $quoted_string .= substr( $tok, $old_pos ); } } } ######################################################################## # Case 2 (normal): loop for case of a non-alphanumeric quote delimiter.. ######################################################################## else { while ( $i < $max_token_index ) { $tok = $rtokens->[ ++$i ]; if ( $tok eq $end_tok ) { $quote_depth--; if ( $quote_depth == 0 ) { $in_quote--; last; } } elsif ( $tok eq $beginning_tok ) { $quote_depth++; } elsif ( $tok eq '\\' ) { # retain backslash unless it hides the beginning or end token $tok = $rtokens->[ ++$i ]; $quoted_string .= '\\' unless ( $tok eq $end_tok || $tok eq $beginning_tok ); } $quoted_string .= $tok; } } if ( $i > $max_token_index ) { $i = $max_token_index } return ( $i, $in_quote, $beginning_tok, $quote_pos, $quote_depth, $quoted_string ); } sub indicate_error { my ( $msg, $line_number, $input_line, $pos, $carrat ) = @_; interrupt_logfile(); warning($msg); write_error_indicator_pair( $line_number, $input_line, $pos, $carrat ); resume_logfile(); return; } sub write_error_indicator_pair { my ( $line_number, $input_line, $pos, $carrat ) = @_; my ( $offset, $numbered_line, $underline ) = make_numbered_line( $line_number, $input_line, $pos ); $underline = write_on_underline( $underline, $pos - $offset, $carrat ); warning( $numbered_line . "\n" ); $underline =~ s/\s*$//; warning( $underline . "\n" ); return; } sub make_numbered_line { # Given an input line, its line number, and a character position of # interest, create a string not longer than 80 characters of the form # $lineno: sub_string # such that the sub_string of $str contains the position of interest # # Here is an example of what we want, in this case we add trailing # '...' because the line is long. # # 2: (One of QAML 2.0's authors is a member of the World Wide Web Con ... # # Here is another example, this time in which we used leading '...' # because of excessive length: # # 2: ... er of the World Wide Web Consortium's # # input parameters are: # $lineno = line number # $str = the text of the line # $pos = position of interest (the error) : 0 = first character # # We return : # - $offset = an offset which corrects the position in case we only # display part of a line, such that $pos-$offset is the effective # position from the start of the displayed line. # - $numbered_line = the numbered line as above, # - $underline = a blank 'underline' which is all spaces with the same # number of characters as the numbered line. my ( $lineno, $str, $pos ) = @_; my $offset = ( $pos < 60 ) ? 0 : $pos - 40; my $excess = length($str) - $offset - 68; my $numc = ( $excess > 0 ) ? 68 : undef; if ( defined($numc) ) { if ( $offset == 0 ) { $str = substr( $str, $offset, $numc - 4 ) . " ..."; } else { $str = "... " . substr( $str, $offset + 4, $numc - 4 ) . " ..."; } } else { if ( $offset == 0 ) { } else { $str = "... " . substr( $str, $offset + 4 ); } } my $numbered_line = sprintf( "%d: ", $lineno ); $offset -= length($numbered_line); $numbered_line .= $str; my $underline = " " x length($numbered_line); return ( $offset, $numbered_line, $underline ); } sub write_on_underline { # The "underline" is a string that shows where an error is; it starts # out as a string of blanks with the same length as the numbered line of # code above it, and we have to add marking to show where an error is. # In the example below, we want to write the string '--^' just below # the line of bad code: # # 2: (One of QAML 2.0's authors is a member of the World Wide Web Con ... # ---^ # We are given the current underline string, plus a position and a # string to write on it. # # In the above example, there will be 2 calls to do this: # First call: $pos=19, pos_chr=^ # Second call: $pos=16, pos_chr=--- # # This is a trivial thing to do with substr, but there is some # checking to do. my ( $underline, $pos, $pos_chr ) = @_; # check for error..shouldn't happen unless ( ( $pos >= 0 ) && ( $pos <= length($underline) ) ) { return $underline; } my $excess = length($pos_chr) + $pos - length($underline); if ( $excess > 0 ) { $pos_chr = substr( $pos_chr, 0, length($pos_chr) - $excess ); } substr( $underline, $pos, length($pos_chr) ) = $pos_chr; return ($underline); } sub pre_tokenize { # Break a string, $str, into a sequence of preliminary tokens. We # are interested in these types of tokens: # words (type='w'), example: 'max_tokens_wanted' # digits (type = 'd'), example: '0755' # whitespace (type = 'b'), example: ' ' # any other single character (i.e. punct; type = the character itself). # We cannot do better than this yet because we might be in a quoted # string or pattern. Caller sets $max_tokens_wanted to 0 to get all # tokens. my ( $str, $max_tokens_wanted ) = @_; # we return references to these 3 arrays: my @tokens = (); # array of the tokens themselves my @token_map = (0); # string position of start of each token my @type = (); # 'b'=whitespace, 'd'=digits, 'w'=alpha, or punct do { # whitespace if ( $str =~ /\G(\s+)/gc ) { push @type, 'b'; } # numbers # note that this must come before words! elsif ( $str =~ /\G(\d+)/gc ) { push @type, 'd'; } # words elsif ( $str =~ /\G(\w+)/gc ) { push @type, 'w'; } # single-character punctuation elsif ( $str =~ /\G(\W)/gc ) { push @type, $1; } # that's all.. else { return ( \@tokens, \@token_map, \@type ); } push @tokens, $1; push @token_map, pos($str); } while ( --$max_tokens_wanted != 0 ); return ( \@tokens, \@token_map, \@type ); } sub show_tokens { # this is an old debug routine # not called, but saved for reference my ( $rtokens, $rtoken_map ) = @_; my $num = scalar( @{$rtokens} ); foreach my $i ( 0 .. $num - 1 ) { my $len = length( $rtokens->[$i] ); print STDOUT "$i:$len:$rtoken_map->[$i]:$rtokens->[$i]:\n"; } return; } { my %matching_end_token; BEGIN { %matching_end_token = ( '{' => '}', '(' => ')', '[' => ']', '<' => '>', ); } sub matching_end_token { # return closing character for a pattern my $beginning_token = shift; if ( $matching_end_token{$beginning_token} ) { return $matching_end_token{$beginning_token}; } return ($beginning_token); } } sub dump_token_types { my ( $class, $fh ) = @_; # This should be the latest list of token types in use # adding NEW_TOKENS: add a comment here print $fh <<'END_OF_LIST'; Here is a list of the token types currently used for lines of type 'CODE'. For the following tokens, the "type" of a token is just the token itself. .. :: << >> ** && .. || // -> => += -= .= %= &= |= ^= *= <> ( ) <= >= == =~ !~ != ++ -- /= x= ... **= <<= >>= &&= ||= //= <=> , + - / * | % ! x ~ = \ ? : . < > ^ & The following additional token types are defined: type meaning b blank (white space) { indent: opening structural curly brace or square bracket or paren (code block, anonymous hash reference, or anonymous array reference) } outdent: right structural curly brace or square bracket or paren [ left non-structural square bracket (enclosing an array index) ] right non-structural square bracket ( left non-structural paren (all but a list right of an =) ) right non-structural paren L left non-structural curly brace (enclosing a key) R right non-structural curly brace ; terminal semicolon f indicates a semicolon in a "for" statement h here_doc operator << # a comment Q indicates a quote or pattern q indicates a qw quote block k a perl keyword C user-defined constant or constant function (with void prototype = ()) U user-defined function taking parameters G user-defined function taking block parameter (like grep/map/eval) M (unused, but reserved for subroutine definition name) P (unused, but -html uses it to label pod text) t type indicater such as %,$,@,*,&,sub w bare word (perhaps a subroutine call) i identifier of some type (with leading %, $, @, *, &, sub, -> ) n a number v a v-string F a file test operator (like -e) Y File handle Z identifier in indirect object slot: may be file handle, object J LABEL: code block label j LABEL after next, last, redo, goto p unary + m unary - pp pre-increment operator ++ mm pre-decrement operator -- A : used as attribute separator Here are the '_line_type' codes used internally: SYSTEM - system-specific code before hash-bang line CODE - line of perl code (including comments) POD_START - line starting pod, such as '=head' POD - pod documentation text POD_END - last line of pod section, '=cut' HERE - text of here-document HERE_END - last line of here-doc (target word) FORMAT - format section FORMAT_END - last line of format section, '.' DATA_START - __DATA__ line DATA - unidentified text following __DATA__ END_START - __END__ line END - unidentified text following __END__ ERROR - we are in big trouble, probably not a perl script END_OF_LIST return; } BEGIN { # These names are used in error messages @opening_brace_names = qw# '{' '[' '(' '?' #; @closing_brace_names = qw# '}' ']' ')' ':' #; my @q; my @digraphs = qw( .. :: << >> ** && .. || // -> => += -= .= %= &= |= ^= *= <> <= >= == =~ !~ != ++ -- /= x= ~~ ~. |. &. ^. ); @is_digraph{@digraphs} = (1) x scalar(@digraphs); my @trigraphs = qw( ... **= <<= >>= &&= ||= //= <=> !~~ &.= |.= ^.= <<~); @is_trigraph{@trigraphs} = (1) x scalar(@trigraphs); my @tetragraphs = qw( <<>> ); @is_tetragraph{@tetragraphs} = (1) x scalar(@tetragraphs); # make a hash of all valid token types for self-checking the tokenizer # (adding NEW_TOKENS : select a new character and add to this list) my @valid_token_types = qw# A b C G L R f h Q k t w i q n p m F pp mm U j J Y Z v { } ( ) [ ] ; + - / * | % ! x ~ = \ ? : . < > ^ & #; push( @valid_token_types, @digraphs ); push( @valid_token_types, @trigraphs ); push( @valid_token_types, @tetragraphs ); push( @valid_token_types, ( '#', ',', 'CORE::' ) ); @is_valid_token_type{@valid_token_types} = (1) x scalar(@valid_token_types); # a list of file test letters, as in -e (Table 3-4 of 'camel 3') my @file_test_operators = qw( A B C M O R S T W X b c d e f g k l o p r s t u w x z); @is_file_test_operator{@file_test_operators} = (1) x scalar(@file_test_operators); # these functions have prototypes of the form (&), so when they are # followed by a block, that block MAY BE followed by an operator. # Smartmatch operator ~~ may be followed by anonymous hash or array ref @q = qw( do eval ); @is_block_operator{@q} = (1) x scalar(@q); # these functions allow an identifier in the indirect object slot @q = qw( print printf sort exec system say); @is_indirect_object_taker{@q} = (1) x scalar(@q); # These tokens may precede a code block # patched for SWITCH/CASE/CATCH. Actually these could be removed # now and we could let the extended-syntax coding handle them @q = qw( BEGIN END CHECK INIT AUTOLOAD DESTROY UNITCHECK continue if elsif else unless do while until eval for foreach map grep sort switch case given when catch try finally); @is_code_block_token{@q} = (1) x scalar(@q); # I'll build the list of keywords incrementally my @Keywords = (); # keywords and tokens after which a value or pattern is expected, # but not an operator. In other words, these should consume terms # to their right, or at least they are not expected to be followed # immediately by operators. my @value_requestor = qw( AUTOLOAD BEGIN CHECK DESTROY END EQ GE GT INIT LE LT NE UNITCHECK abs accept alarm and atan2 bind binmode bless break caller chdir chmod chomp chop chown chr chroot close closedir cmp connect continue cos crypt dbmclose dbmopen defined delete die dump each else elsif eof eq exec exists exit exp fcntl fileno flock for foreach formline ge getc getgrgid getgrnam gethostbyaddr gethostbyname getnetbyaddr getnetbyname getpeername getpgrp getpriority getprotobyname getprotobynumber getpwnam getpwuid getservbyname getservbyport getsockname getsockopt glob gmtime goto grep gt hex if index int ioctl join keys kill last lc lcfirst le length link listen local localtime lock log lstat lt map mkdir msgctl msgget msgrcv msgsnd my ne next no not oct open opendir or ord our pack pipe pop pos print printf prototype push quotemeta rand read readdir readlink readline readpipe recv redo ref rename require reset return reverse rewinddir rindex rmdir scalar seek seekdir select semctl semget semop send sethostent setnetent setpgrp setpriority setprotoent setservent setsockopt shift shmctl shmget shmread shmwrite shutdown sin sleep socket socketpair sort splice split sprintf sqrt srand stat study substr symlink syscall sysopen sysread sysseek system syswrite tell telldir tie tied truncate uc ucfirst umask undef unless unlink unpack unshift untie until use utime values vec waitpid warn while write xor switch case given when err say catch ); # patched above for SWITCH/CASE given/when err say # 'err' is a fairly safe addition. # TODO: 'default' still needed if appropriate # 'use feature' seen, but perltidy works ok without it. # Concerned that 'default' could break code. push( @Keywords, @value_requestor ); # These are treated the same but are not keywords: my @extra_vr = qw( constant vars ); push( @value_requestor, @extra_vr ); @expecting_term_token{@value_requestor} = (1) x scalar(@value_requestor); # this list contains keywords which do not look for arguments, # so that they might be followed by an operator, or at least # not a term. my @operator_requestor = qw( endgrent endhostent endnetent endprotoent endpwent endservent fork getgrent gethostent getlogin getnetent getppid getprotoent getpwent getservent setgrent setpwent time times wait wantarray ); push( @Keywords, @operator_requestor ); # These are treated the same but are not considered keywords: my @extra_or = qw( STDERR STDIN STDOUT ); push( @operator_requestor, @extra_or ); @expecting_operator_token{@operator_requestor} = (1) x scalar(@operator_requestor); # these token TYPES expect trailing operator but not a term # note: ++ and -- are post-increment and decrement, 'C' = constant my @operator_requestor_types = qw( ++ -- C <> q ); @expecting_operator_types{@operator_requestor_types} = (1) x scalar(@operator_requestor_types); # these token TYPES consume values (terms) # note: pp and mm are pre-increment and decrement # f=semicolon in for, F=file test operator my @value_requestor_type = qw# L { ( [ ~ !~ =~ ; . .. ... A : && ! || // = + - x **= += -= .= /= *= %= x= &= |= ^= <<= >>= &&= ||= //= <= >= == != => \ > < % * / ? & | ** <=> ~~ !~~ f F pp mm Y p m U J G j >> << ^ t ~. ^. |. &. ^.= |.= &.= #; push( @value_requestor_type, ',' ) ; # (perl doesn't like a ',' in a qw block) @expecting_term_types{@value_requestor_type} = (1) x scalar(@value_requestor_type); # Note: the following valid token types are not assigned here to # hashes requesting to be followed by values or terms, but are # instead currently hard-coded into sub operator_expected: # ) -> :: Q R Z ] b h i k n v w } # # For simple syntax checking, it is nice to have a list of operators which # will really be unhappy if not followed by a term. This includes most # of the above... %really_want_term = %expecting_term_types; # with these exceptions... delete $really_want_term{'U'}; # user sub, depends on prototype delete $really_want_term{'F'}; # file test works on $_ if no following term delete $really_want_term{'Y'}; # indirect object, too risky to check syntax; # let perl do it @q = qw(q qq qw qx qr s y tr m); @is_q_qq_qw_qx_qr_s_y_tr_m{@q} = (1) x scalar(@q); # These keywords are handled specially in the tokenizer code: my @special_keywords = qw( do eval format m package q qq qr qw qx s sub tr y ); push( @Keywords, @special_keywords ); # Keywords after which list formatting may be used # WARNING: do not include |map|grep|eval or perl may die on # syntax errors (map1.t). my @keyword_taking_list = qw( and chmod chomp chop chown dbmopen die elsif exec fcntl for foreach formline getsockopt if index ioctl join kill local msgctl msgrcv msgsnd my open or our pack print printf push read readpipe recv return reverse rindex seek select semctl semget send setpriority setsockopt shmctl shmget shmread shmwrite socket socketpair sort splice split sprintf substr syscall sysopen sysread sysseek system syswrite tie unless unlink unpack unshift until vec warn while given when ); @is_keyword_taking_list{@keyword_taking_list} = (1) x scalar(@keyword_taking_list); # These are not used in any way yet # my @unused_keywords = qw( # __FILE__ # __LINE__ # __PACKAGE__ # ); # The list of keywords was originally extracted from function 'keyword' in # perl file toke.c version 5.005.03, using this utility, plus a # little editing: (file getkwd.pl): # while (<>) { while (/\"(.*)\"/g) { print "$1\n"; } } # Add 'get' prefix where necessary, then split into the above lists. # This list should be updated as necessary. # The list should not contain these special variables: # ARGV DATA ENV SIG STDERR STDIN STDOUT # __DATA__ __END__ @is_keyword{@Keywords} = (1) x scalar(@Keywords); } 1;