package Imager::Expr::Assem; use strict; use Imager::Expr; use Imager::Regops; use vars qw($VERSION); $VERSION = "1.003"; use vars qw(@ISA); @ISA = qw(Imager::Expr); __PACKAGE__->register_type('assem'); sub compile { my ($self, $expr, $opts) = @_; my %nregs; my @vars = $self->_variables(); my @nregs = (0) x @vars; my @cregs; my %vars; @vars{@vars} = map { "r$_" } 0..$#vars; my %labels; my @ops; my @msgs; my $attr = \%Imager::Regops::Attr; # initially produce [ $linenum, $result, $opcode, @parms ] my $lineno = 0; while ($expr =~ s/^([^\n]+)(?:\n|$)//) { ++$lineno; my $line = $1; $line =~ s/#.*//; next if $line =~ /^\s*$/; for my $op (split /;/, $line) { if (my ($name, $type) = $op =~ /^\s*var\s+([^:]+):(\S+)\s*$/) { if (exists $vars{$name}) { push(@msgs, "$lineno: duplicate variable name '$name'"); next; } if ($type eq 'num' || $type eq 'n') { $vars{$name} = 'r'.@nregs; push(@nregs, undef); next; } elsif ($type eq 'pixel' || $type eq 'p' || $type eq 'c') { $vars{$name} = 'p'.@cregs; push(@cregs, undef); next; } push(@msgs, "$lineno: unknown variable type $type"); next; } # any statement can have a label if ($op =~ s/^\s*(\w+):\s*//) { if ($labels{$1}) { push(@msgs, "$lineno: duplicate label $1 (previous on $labels{$1}[1])"); next; } $labels{$1} = [ scalar @ops, $lineno ]; } next if $op =~ /^\s*$/; # jumps have special operand handling if ($op =~ /^\s*jump\s+(\w+)\s*$/) { push(@ops, [$lineno, "", "jump", $1]); } elsif (my ($code, $reg, $targ) = ($op =~ /^\s*(jumpz|jumpnz)\s+(\S+)\s+(\S+)\s*$/)) { push(@ops, [$lineno, "", $code, $reg, $targ]); } elsif ($op =~ /^\s*print\s+(\S+)\s*/) { push(@ops, [$lineno, "", 'print', $1 ]); } elsif ($op =~ /^\s*ret\s+(\S+)\s*/) { push(@ops, [$lineno, "", 'ret', $1]); } elsif ($op =~ s/\s*(\S+)\s*=\s*(\S+)\s*$//) { # simple assignment push(@ops, [$lineno, $1, "set", $2]); } elsif ($op =~ s/\s*(\S+)\s*=\s*(\S+)\s*//) { # some normal ops finally my ($result, $opcode) = ($1, $2); unless ($attr->{$opcode}) { push(@msgs, "$lineno: unknown operator $opcode"); next; } my @oper; while ($op =~ s/(\S+)\s*//) { push(@oper, $1); } push(@ops, [$lineno, $result, $opcode, @oper]); } else { push(@msgs, "$lineno: invalid statement '$op'"); } } } my $max_opr = $Imager::Regops::MaxOperands; my $numre = $self->numre; my $trans = sub { # translate a name/number to a my ($name) = @_; $name = $self->{constants}{$name} if exists $self->{constants}{$name}; if ($vars{$name}) { return $vars{$name}; } elsif ($name =~ /^$numre$/) { $vars{$name} = 'r'.@nregs; push(@nregs, $name); return $vars{$name}; } else { push(@msgs, "$lineno: undefined variable $name"); return ''; } }; # now to translate symbols and so on OP: for my $op (@ops) { $lineno = shift @$op; if ($op->[1] eq 'jump') { unless (exists $labels{$op->[2]}) { push(@msgs, "$lineno: unknown label $op->[2]"); next; } $op = [ 'jump', "j$labels{$op->[2]}[0]", (0) x $max_opr ]; } elsif ($op->[1] =~ /^jump/) { unless (exists $labels{$op->[3]}) { push(@msgs, "$lineno: unknown label $op->[2]"); next; } $op = [ $op->[1], $trans->($op->[2]), "j$labels{$op->[3]}[0]", (0) x ($max_opr-1) ]; } elsif ($op->[1] eq 'print') { $op = [ $op->[1], $trans->($op->[2]), (0) x $max_opr ]; } elsif ($op->[1] eq 'ret') { $op = [ 'ret', $trans->($op->[2]), (0) x $max_opr ]; } else { # a normal operator my ($result, $name, @parms) = @$op; if ($result =~ /^$numre$/) { push(@msgs, "$lineno: target of operator cannot be a constant"); next; } $result = $trans->($result); for my $parm (@parms) { $parm = $trans->($parm); } push(@parms, (0) x ($max_opr-@parms)); $op = [ $op->[1], @parms, $result ]; } } # more validation than a real assembler # not trying to solve the halting problem... if (@ops && $ops[-1][0] ne 'ret' && $ops[-1][0] ne 'jump') { push(@msgs, ": the last instruction must be ret or jump"); } $self->{nregs} = \@nregs; $self->{cregs} = \@cregs; if (@msgs) { $self->error(join("\n", @msgs)); return 0; } return \@ops; } 1; __END__ =head1 NAME Imager::Expr::Assem - an assembler for producing code for the Imager register machine =head1 SYNOPSIS use Imager::Expr::Assem; my $expr = Imager::Expr->new(assem=>'...', ...) =head1 DESCRIPTION This module is a simple Imager::Expr compiler that compiles a low-level language that has a nearly 1-to-1 relationship to the internal representation used for compiled register machine code. =head2 Syntax Each line can contain multiple statements separated by semi-colons. Anything after '#' in a line is ignored. Types of statements: =over 4 =item variable definition =over 4 C I:I =back defines variable I to have I, which can be any of C or C for a numeric type or C, C

or C for a pixel or color type. Variable names cannot include white-space. =item operators Operators can be split into 3 basic types, those that have a result value, those that don't and the null operator, eg. jump has no value. The format for operators that return a value is typically: =over 4 I = I I ... =back and for those that don't return a value: =over 4 I I =back where operator is any valid register machine operator, result is any variable defined with C, and operands are variables, constants or literals, or for jump operators, labels. The set operator can be simplified to: =over 4 I = I =back All operators maybe preceded by a label, which is any non-white-space text immediately followed by a colon (':'). =back =head1 BUGS Note that the current optimizer may produce incorrect optimization for your code, fortunately the optimizer will disable itself if you include any jump operator in your code. A single jump to anywhere after your final C operator can be used to disable the optimizer without slowing down your code. There's currently no high-level code generation that can generate code with loops or real conditions. =head1 SEE ALSO Imager(3), F, F =head1 AUTHOR Tony Cook =cut