package Data::Dump::Trace; $VERSION = "0.02"; # Todo: # - prototypes # in/out parameters key/value style # - exception # - wrap class # - configurable colors # - show call depth using indentation # - show nested calls sensibly # - time calls use strict; use base 'Exporter'; our @EXPORT_OK = qw(call mcall wrap autowrap trace); use Carp qw(croak); use overload (); my %obj_name; my %autowrap_class; my %name_count; sub autowrap { while (@_) { my $class = shift; my $info = shift; $info = { prefix => $info } unless ref($info); for ($info->{prefix}) { unless ($_) { $_ = lc($class); s/.*:://; } $_ = '$' . $_ unless /^\$/; } $autowrap_class{$class} = $info; } } sub wrap { my %arg = @_; my $name = $arg{name} || "func"; my $func = $arg{func}; my $proto = $arg{proto}; return sub { call($name, $func, $proto, @_); } if $func; if (my $obj = $arg{obj}) { $name = '$' . $name unless $name =~ /^\$/; $obj_name{overload::StrVal($obj)} = $name; return bless { name => $name, obj => $obj, proto => $arg{proto}, }, "Data::Dump::Trace::Wrapper"; } croak("Either the 'func' or 'obj' option must be given"); } sub trace { my($symbol, $prototype) = @_; no strict 'refs'; no warnings 'redefine'; *{$symbol} = wrap(name => $symbol, func => \&{$symbol}, proto => $prototype); } sub call { my $name = shift; my $func = shift; my $proto = shift; my $fmt = Data::Dump::Trace::Call->new($name, $proto, \@_); if (!defined wantarray) { $func->(@_); return $fmt->return_void(\@_); } elsif (wantarray) { return $fmt->return_list(\@_, $func->(@_)); } else { return $fmt->return_scalar(\@_, scalar $func->(@_)); } } sub mcall { my $o = shift; my $method = shift; my $proto = shift; return if $method eq "DESTROY" && !$o->can("DESTROY"); my $oname = ref($o) ? $obj_name{overload::StrVal($o)} || "\$o" : $o; my $fmt = Data::Dump::Trace::Call->new("$oname->$method", $proto, \@_); if (!defined wantarray) { $o->$method(@_); return $fmt->return_void(\@_); } elsif (wantarray) { return $fmt->return_list(\@_, $o->$method(@_)); } else { return $fmt->return_scalar(\@_, scalar $o->$method(@_)); } } package Data::Dump::Trace::Wrapper; sub AUTOLOAD { my $self = shift; our $AUTOLOAD; my $method = substr($AUTOLOAD, rindex($AUTOLOAD, '::')+2); Data::Dump::Trace::mcall($self->{obj}, $method, $self->{proto}{$method}, @_); } package Data::Dump::Trace::Call; use Term::ANSIColor (); use Data::Dump (); *_dump = \&Data::Dump::dump; our %COLOR = ( name => "yellow", output => "cyan", error => "red", debug => "red", ); %COLOR = () unless -t STDOUT; sub _dumpav { return "(" . _dump(@_) . ")" if @_ == 1; return _dump(@_); } sub _dumpkv { return _dumpav(@_) if @_ % 2; my %h = @_; my $str = _dump(\%h); $str =~ s/^\{/(/ && $str =~ s/\}\z/)/; return $str; } sub new { my($class, $name, $proto, $input_args) = @_; my $self = bless { name => $name, proto => $proto, }, $class; my $proto_arg = $self->proto_arg; if ($proto_arg =~ /o/) { for (@$input_args) { push(@{$self->{input_av}}, _dump($_)); } } else { $self->{input} = $proto_arg eq "%" ? _dumpkv(@$input_args) : _dumpav(@$input_args); } return $self; } sub proto_arg { my $self = shift; my($arg, $ret) = split(/\s*=\s*/, $self->{proto} || ""); $arg ||= '@'; return $arg; } sub proto_ret { my $self = shift; my($arg, $ret) = split(/\s*=\s*/, $self->{proto} || ""); $ret ||= '@'; return $ret; } sub color { my($self, $category, $text) = @_; return $text unless $COLOR{$category}; return Term::ANSIColor::colored($text, $COLOR{$category}); } sub print_call { my $self = shift; my $outarg = shift; print $self->color("name", "$self->{name}"); if (my $input = $self->{input}) { $input = "" if $input eq "()" && $self->{name} =~ /->/; print $self->color("input", $input); } else { my $proto_arg = $self->proto_arg; print "("; my $i = 0; for (@{$self->{input_av}}) { print ", " if $i; my $proto = substr($proto_arg, 0, 1, ""); if ($proto ne "o") { print $self->color("input", $_); } if ($proto eq "o" || $proto eq "O") { print " = " if $proto eq "O"; print $self->color("output", _dump($outarg->[$i])); } } continue { $i++; } print ")"; } } sub return_void { my $self = shift; my $arg = shift; $self->print_call($arg); print "\n"; return; } sub return_scalar { my $self = shift; my $arg = shift; $self->print_call($arg); my $s = shift; my $name; my $proto_ret = $self->proto_ret; my $wrap = $autowrap_class{ref($s)}; if ($proto_ret =~ /^\$\w+\z/ && ref($s) && ref($s) !~ /^(?:ARRAY|HASH|CODE|GLOB)\z/) { $name = $proto_ret; } else { $name = $wrap->{prefix} if $wrap; } if ($name) { $name .= $name_count{$name} if $name_count{$name}++; print " = ", $self->color("output", $name), "\n"; $s = Data::Dump::Trace::wrap(name => $name, obj => $s, proto => $wrap->{proto}); } else { print " = ", $self->color("output", _dump($s)); if (!$s && $proto_ret =~ /!/ && $!) { print " ", $self->color("error", errno($!)); } print "\n"; } return $s; } sub return_list { my $self = shift; my $arg = shift; $self->print_call($arg); print " = ", $self->color("output", $self->proto_ret eq "%" ? _dumpkv(@_) : _dumpav(@_)), "\n"; return @_; } sub errno { my $t = ""; for (keys %!) { if ($!{$_}) { $t = $_; last; } } my $n = int($!); return "$t($n) $!"; } 1; __END__ =head1 NAME Data::Dump::Trace - Helpers to trace function and method calls =head1 SYNOPSIS use Data::Dump::Trace qw(autowrap mcall); autowrap("LWP::UserAgent" => "ua", "HTTP::Response" => "res"); use LWP::UserAgent; $ua = mcall(LWP::UserAgent => "new"); # instead of LWP::UserAgent->new; $ua->get("http://www.example.com")->dump; =head1 DESCRIPTION The following functions are provided: =over =item autowrap( $class ) =item autowrap( $class => $prefix ) =item autowrap( $class1 => $prefix1, $class2 => $prefix2, ... ) =item autowrap( $class1 => \%info1, $class2 => \%info2, ... ) Register classes whose objects are automatically wrapped when returned by one of the call functions below. If $prefix is provided it will be used as to name the objects. Alternative is to pass an %info hash for each class. The recognized keys are: =over =item prefix => $string The prefix string used to name objects of this type. =item proto => \%hash A hash of prototypes to use for the methods when an object is wrapped. =back =item wrap( name => $str, func => \&func, proto => $proto ) =item wrap( name => $str, obj => $obj, proto => \%hash ) Returns a wrapped function or object. When a wrapped function is invoked then a trace is printed after the underlying function has returned. When a method on a wrapped object is invoked then a trace is printed after the methods on the underlying objects has returned. See L for description of the C argument. =item call( $name, \&func, $proto, @ARGS ) Calls the given function with the given arguments. The trace will use $name as the name of the function. See L for description of the $proto argument. =item mcall( $class, $method, $proto, @ARGS ) =item mcall( $object, $method, $proto, @ARGS ) Calls the given method with the given arguments. See L for description of the $proto argument. =item trace( $symbol, $prototype ) Replaces the function given by $symbol with a wrapped function. =back =head2 Prototypes B. The $proto argument to call() and mcall() can optionally provide a prototype for the function call. This give the tracer hints about how to best format the argument lists and if there are I or I arguments. The general form for the prototype string is: = The default prototype is "@ = @"; list of values as input and list of values as output. The value '%' can be used for both arguments and return value to say that key/value pair style lists are used. Alternatively, individual positional arguments can be listed each represented by a letter: =over =item C input argument =item C output argument =item C both input and output argument =back If the return value prototype has C appended, then it signals that this function sets errno ($!) when it returns a false value. The trace will display the current value of errno in that case. If the return value prototype looks like a variable name (with C<$> prefix), and the function returns a blessed object, then the variable name will be used as prefix and the returned object automatically traced. =head1 SEE ALSO L =head1 AUTHOR Copyright 2009 Gisle Aas. This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut