File Coverage

blib/lib/Imager/Expr.pm

Criterion	Covered	Total	%
statement	216	266	81.2
branch	63	96	65.6
condition	10	18	55.5
subroutine	20	23	86.9
pod	13	13	100.0
total	322	416	77.4

line	stmt	bran	cond	sub	pod	time	code
1							package Imager::Expr;
2	5			5		122876	use 5.006;
	5					35
3	5			5		1727	use Imager::Regops;
	5					16
	5					665
4	5			5		61	use strict;
	5					8
	5					9808
5
6							our $VERSION = "1.008";
7
8							my %expr_types;
9
10							my $error;
11
12							sub error {
13	0	0		0	1	0	shift if UNIVERSAL::isa($_[0], 'Imager::Expr');
14	0	0				0	if (@_) {
15	0					0	$error = "@_";
16							}
17							else {
18	0					0	return $error;
19							}
20							}
21
22							# what else?
23							my %default_constants =
24							(
25							# too many digits, better than too few
26							pi=>3.14159265358979323846264338327950288419716939937510582097494
27							);
28
29							sub new {
30	31			31	1	257	my ($class, $opts) = @_;
31
32							# possibly this is a very bad idea
33	31					159	my ($type) = grep exists $expr_types{$_}, keys %$opts;
34	31	50				70	die "Imager::Expr: No known expression type"
35							if !defined $type;
36	31					92	my $self = bless {}, $expr_types{$type};
37	31					46	$self->{variables} = [ @{$opts->{variables}} ];
	31					93
38	31	50				67	$self->{constants} = { %default_constants, %{$opts->{constants} \|\| {}} };
	31					189
39	31	50				113	$self->{ops} = $self->compile($opts->{$type}, $opts)
40							or return;
41	31	50				102	$self->optimize()
42							or return;
43	31	50				121	$self->{code} = $self->assemble()
44							or return;
45	31					107	$self;
46							}
47
48							sub register_type {
49	13			13	1	37	my ($pack, $name) = @_;
50	13					101	$expr_types{$name} = $pack;
51							}
52
53							sub type_registered {
54	1			1	1	154	my ($class, $name) = @_;
55
56	1					9	$expr_types{$name};
57							}
58
59							sub _variables {
60	37			37		45	return @{$_[0]->{variables}};
	37					110
61							}
62
63							sub code {
64	28			28	1	89	return $_[0]->{code};
65							}
66
67							sub nregs {
68	28			28	1	57	return $_[0]->{nregs};
69							}
70
71							sub cregs {
72	28			28	1	32052	return $_[0]->{cregs};
73							}
74
75							my $numre = '[+-]?(?:\d+\.?\d*\|\.\d+)(?:[eE][+-]?\d+)?';
76
77							sub numre {
78	1			1	1	3	$numre;
79							}
80
81							# optimize the code
82							sub optimize {
83	31			31	1	51	my ($self) = @_;
84
85	31					39	my @ops = @{$self->{ops}};
	31					76
86
87							# this function cannot current handle code with jumps
88	31	100				137	return 1 if grep $_->[0] =~ /^jump/, @ops;
89
90							# optimization - common sub-expression elimination
91							# it's possible to fold this into the code generation - but it will wait
92
93	30					57	my $max_opr = $Imager::Regops::MaxOperands;
94	30					78	my $attr = \%Imager::Regops::Attr;
95	30					48	my $foundops = 1;
96	30					68	while ($foundops) {
97	30					43	$foundops = 0;
98	30					70	my %seen;
99							my $index;
100	30					0	my @out;
101	30					57	while (@ops) {
102	188					208	my $op = shift @ops;
103	188					239	my $desc = join(",", @{$op}[0..$max_opr]);
	188					319
104	188	50				370	if ($seen{$desc}) {
105	0					0	push(@out, @ops);
106	0					0	my $old = $op->[-1];
107	0					0	my $new = $seen{$desc};
108	0					0	for $op (@out) {
109	0					0	for my $reg (@{$op}[1..$max_opr]) {
	0					0
110	0	0				0	$reg = $new if $reg eq $old;
111							}
112							}
113	0					0	$foundops=1;
114	0					0	last;
115							}
116	188					335	$seen{$desc} = $op->[-1];
117	188					314	push(@out, $op);
118							}
119	30					140	@ops = @out;
120							}
121							# strength reduction
122	30					58	for my $op (@ops) {
123							# reduce division by a constant to multiplication by a constant
124	188	100	66			416	if ($op->[0] eq 'div' && $op->[2] =~ /^r(\d+)/
			100
125							&& defined($self->{"nregs"}[$1])) {
126	12					21	my $newreg = @{$self->{"nregs"}};
	12					21
127	12					23	push(@{$self->{"nregs"}}, 1.0/$self->{"nregs"}[$1]);
	12					41
128	12					20	$op->[0] = 'mult';
129	12					25	$op->[2] = 'r'.$newreg;
130							}
131							}
132	30					79	$self->{ops} = \@ops;
133	30					83	1;
134							}
135
136							sub assemble {
137	31			31	1	48	my ($self) = @_;
138	31					48	my $attr = \%Imager::Regops::Attr;
139	31					87	my $max_opr = $Imager::Regops::MaxOperands;
140	31					37	my @ops = @{$self->{ops}};
	31					67
141	31					68	for my $op (@ops) {
142	194					352	$op->[0] = $attr->{$op->[0]}{opcode};
143	194					234	for (@{$op}[1..$max_opr+1]) { s/^[rpj]// }
	194					253
	970					1649
144							}
145	31					71	my $pack = $Imager::Regops::PackCode x (2+$Imager::Regops::MaxOperands);
146
147	31					86	return join("", ,map { pack($pack, @$_, ) } @ops);
	194					612
148							}
149
150							# converts stack code to register code
151							sub stack_to_reg {
152	29			29	1	140	my ($self, @st_ops) = @_;
153	29					40	my @regstack;
154							my %nregs;
155	29					78	my @vars = $self->_variables();
156	29					76	my @nregs = (0) x scalar(@vars);
157	29					37	my @cregs;
158	29					39	my $attr = \%Imager::Regops::Attr;
159	29					41	my %vars;
160							my %names;
161	29					35	my $max_opr = $Imager::Regops::MaxOperands;
162	29					66	@vars{@vars} = map { "r$_" } 0..$#vars;
	58					172
163
164	29					49	my @ops;
165	29					47	for (@st_ops) {
166	362	100	66			2075	if (/^$numre$/) {
		100
		100
		100
		50
167							# combining constants makes the optimization below work
168	146	100				286	if (exists $nregs{$_}) {
169	64					133	push(@regstack, $nregs{$_});
170							}
171							else {
172	82					184	$nregs{$_} = "r".@nregs;
173	82					152	push(@regstack,"r".@nregs);
174	82					148	push(@nregs, $_);
175							}
176							}
177							elsif (exists $vars{$_}) {
178	20					51	push(@regstack, $vars{$_});
179							}
180							elsif (exists $attr->{$_} && length $attr->{$_}{types}) {
181	154	50				298	if (@regstack < $attr->{$_}{parms}) {
182	0					0	error("Imager::transform2: stack underflow on $_");
183	0					0	return;
184							}
185	154					291	my @parms = splice(@regstack, -$attr->{$_}{parms});
186	154					234	my $types = join("", map {substr($_,0,1)} @parms);
	307					627
187	154	100				317	if ($types ne $attr->{$_}{types}) {
188	6	50	33			30	if (exists $attr->{$_.'p'} && $types eq $attr->{$_.'p'}{types}) {
189	6					10	$_ .= 'p';
190							}
191							else {
192	0					0	error("Imager::transform2: Call to $_ with incorrect types");
193	0					0	return;
194							}
195							}
196	154					152	my $result;
197	154	100				231	if ($attr->{$_}{result} eq 'r') {
198	104					148	$result = "r".@nregs;
199	104					177	push(@nregs, undef);
200							}
201							else {
202	50					96	$result = "p".@cregs;
203	50					83	push(@cregs, -1);
204							}
205	154					203	push(@regstack, $result);
206	154					427	push(@parms, "0") while @parms < $max_opr;
207	154					501	push(@ops, [ $_, @parms, $result ]);
208							#print "$result <- $_ @parms\n";
209							}
210							elsif (/^!(\w+)$/) {
211	13	50				27	if (!@regstack) {
212	0					0	error("Imager::transform2: stack underflow with $_");
213	0					0	return;
214							}
215	13					41	$names{$1} = pop(@regstack);
216							}
217							elsif (/^\@(\w+)$/) {
218	29	50				63	if (exists $names{$1}) {
219	29					107	push(@regstack, $names{$1});
220							}
221							else {
222	0					0	error("Imager::Expr: unknown storage \@$1");
223	0					0	return;
224							}
225							}
226							else {
227	0					0	error("Imager::Expr: unknown operator $_");
228	0					0	return;
229							}
230							}
231	29	50				53	if (@regstack != 1) {
232	0					0	error("stack must have only one item at end");
233	0					0	return;
234							}
235	29	50				89	if ($regstack[0] !~ /^p/) {
236	0					0	error("you must have a color value at the top of the stack at end");
237	0					0	return;
238							}
239	29					129	push(@ops, [ "ret", $regstack[0], (-1) x $max_opr ]);
240
241	29					62	$self->{"nregs"} = \@nregs;
242	29					65	$self->{"cregs"} = \@cregs;
243
244	29					197	return \@ops;
245							}
246
247							sub dumpops {
248	0			0	1	0	my $result = '';
249	0					0	for my $op (@{$_[0]->{ops}}) {
	0					0
250	0					0	$result .= "@{$op}\n";
	0					0
251							}
252	0					0	$result;
253							}
254
255							# unassembles the compiled code
256							sub dumpcode {
257	3			3	1	1565	my ($self) = @_;
258	3					7	my $code = $self->{"code"};
259	3					8	my $attr = \%Imager::Regops::Attr;
260	3					52	my @code = unpack("${Imager::Regops::PackCode}*", $code);
261	3					62	my %names = map { $attr->{$_}{opcode}, $_ } keys %Imager::Regops::Attr;
	159					464
262	3					29	my @vars = $self->_variables();
263	3					8	my $result = '';
264	3					26	my $index = 0;
265	3					22	while (my @op = splice(@code, 0, 2+$Imager::Regops::MaxOperands)) {
266	15					22	my $opcode = shift @op;
267	15					22	my $name = $names{$opcode};
268	15	50				25	if ($name) {
269	15					32	$result .= "j$index: $name($opcode)";
270	15					35	my @types = split //, $attr->{$name}{types};
271	15					30	for my $parm (@types) {
272	26					32	my $reg = shift @op;
273	26					37	$result .= " $parm$reg";
274	26	100				48	if ($parm eq 'r') {
275	23	100				61	if ($reg < @vars) {
		100
276	6					15	$result.= "($vars[$reg])";
277							}
278							elsif (defined $self->{"nregs"}[$reg]) {
279	9					34	$result .= "($self->{\"nregs\"}[$reg])";
280							}
281							}
282							}
283
284							$result .= " -> $attr->{$name}{result}$op[-1]"
285	15	100				38	if $attr->{$name}{result};
286	15					24	$result .= "\n";
287							}
288							else {
289	0					0	$result .= "unknown($opcode) @op\n";
290							}
291	15					39	++$index;
292							}
293
294	3					26	$result;
295							}
296
297							package Imager::Expr::Postfix;
298							our @ISA = qw(Imager::Expr);
299
300							Imager::Expr::Postfix->register_type('rpnexpr');
301
302							my %op_names = ( '+'=>'add', '-'=>'subtract', '*'=>'mult', '/' => 'div',
303							'%'=>'mod', '**'=>'pow' );
304
305							sub compile {
306	29			29		60	my ($self, $expr, $opts) = @_;
307
308	29					67	$expr =~ s/#.*//; # remove comments
309	29					136	my @st_ops = split ' ', $expr;
310
311	29					56	for (@st_ops) {
312	362	100				516	$_ = $op_names{$_} if exists $op_names{$_};
313	362	100				529	$_ = $self->{constants}{$_} if exists $self->{constants}{$_};
314							}
315	29					77	return $self->stack_to_reg(@st_ops);
316							}
317
318							package Imager::Expr::Infix;
319
320							our @ISA = qw(Imager::Expr);
321	5			5		55	use Imager::Regops qw(%Attr $MaxOperands);
	5					41
	5					4947
322
323							{
324							local @INC = @INC;
325							pop @INC if $INC[-1] eq '.';
326	5			5		5458	eval "use Parse::RecDescent;";
	5					176025
	5					38
327							__PACKAGE__->register_type('expr') if !$@;
328							}
329
330							# I really prefer bottom-up parsers
331							my $grammar = <<'GRAMMAR';
332
333							code : assigns 'return' expr
334							{ $return = [ @item[1,3] ] }
335
336							assigns : assign(s?) { $return = [ @{$item[1]} ] }
337
338							assign : identifier '=' expr ';'
339							{ $return = [ @item[1,3] ] }
340
341							expr : relation
342
343							relation : addition (relstuff)(s?)
344							{
345							$return = $item[1];
346							for my $op(@{$item[2]}) { $return = [ $op->[0], $return, $op->[1] ] }
347							1;
348							}
349
350							relstuff : relop addition { $return = [ @item[1,2] ] }
351
352							relop : '<=' { $return = 'le' }
353							\| '<' { $return = 'lt' }
354							\| '==' { $return = 'eq' }
355							\| '>=' { $return = 'ge' }
356							\| '>' { $return = 'gt' }
357							\| '!=' { $return = 'ne' }
358
359							addition : multiply (addstuff)(s?)
360							{
361							$return = $item[1];
362							# for my $op(@{$item[2]}) { $return .= " @{$op}[1,0]"; }
363							for my $op(@{$item[2]}) { $return = [ $op->[0], $return, $op->[1] ] }
364							1;
365							}
366							addstuff : addop multiply { $return = [ @item[1,2] ] }
367							addop : '+' { $return = 'add' }
368							\| '-' { $return = 'subtract' }
369
370							multiply : power mulstuff(s?)
371							{ $return = $item[1];
372							# for my $op(@{$item[2]}) { $return .= " @{$op}[1,0]"; }
373							for my $op(@{$item[2]}) { $return = [ $op->[0], $return, $op->[1] ] }
374							1;
375							}
376
377							mulstuff : mulop power { $return = [ @item[1,2] ] }
378							mulop : '*' { $return = 'mult' }
379							\| '/' { $return = 'div' }
380							\| '%' { $return = 'mod' }
381
382							power : powstuff(s?) atom
383							{
384							$return = $item[2];
385							for my $op(reverse @{$item[1]}) { $return = [ @{$op}[1,0], $return ] }
386							1;
387							}
388							\| atom
389							powstuff : atom powop { $return = [ @item[1,2] ] }
390							powop : '**' { $return = 'pow' }
391
392							atom: '(' expr ')' { $return = $item[2] }
393							\| '-' atom { $return = [ uminus=>$item[2] ] }
394							\| number
395							\| funccall
396							\| identifier
397
398							number : /[+-]?(?:\d+\.?\d*\|\.\d+)(?:[eE][+-]?\d+)?/
399
400							exprlist : expr ',' exprlist { $return = [ $item[1], @{$item[3]} ] }
401							\| expr { $return = [ $item[1] ] }
402
403							funccall : identifier '(' exprlist ')'
404							{ $return = [ $item[1], @{$item[3]} ] }
405
406							identifier : /[^\W\d]\w*/ { $return = $item[1] }
407
408							GRAMMAR
409
410							my $parser;
411
412							sub init_parser {
413	0	0		0		0	if (!$parser) {
414	0					0	$parser = Parse::RecDescent->new($grammar);
415							}
416							}
417
418							sub compile {
419	1			1		4	my ($self, $expr, $opts) = @_;
420	1	50				3	if (!$parser) {
421	1					10	$parser = Parse::RecDescent->new($grammar);
422							}
423	1					112584	my $optree = $parser->code($expr);
424	1	50				73622	if (!$optree) {
425	0					0	$self->error("Error in $expr\n");
426	0					0	return;
427							}
428
429	1					17	@{$self->{inputs}}{$self->_variables} = ();
	1					6
430	1					4	$self->{varregs} = {};
431	1					4	@{$self->{varregs}}{$self->_variables} = map { "r$_" } 0..$self->_variables-1;
	1					6
	2					10
432	1					6	$self->{"nregs"} = [ (undef) x $self->_variables ];
433	1					3	$self->{"cregs"} = [];
434	1					63	$self->{"lits"} = {};
435
436	1					4	eval {
437							# generate code for the assignments
438	1					2	for my $assign (@{$optree->[0]}) {
	1					4
439	1					4	my ($varname, $tree) = @$assign;
440	1	50				27	if (exists $self->{inputs}{$varname}) {
441	0					0	$self->error("$varname is an input - you can't assign to it");
442	0					0	return;
443							}
444	1					7	$self->{varregs}{$varname} = $self->gencode($tree);
445							}
446
447							# generate the final result
448	1					4	my $result = $self->gencode($optree->[1]);
449	1	50				6	if ($result !~ /^p\d+$/) {
450	0					0	$self->error("You must return a color value");
451	0					0	return;
452							}
453	1					2	push(@{$self->{genops}}, [ 'ret', $result, (0) x $MaxOperands ])
	1					7
454							};
455	1	50				4	if ($@) {
456	0					0	$self->error($@);
457	0					0	return;
458							}
459
460	1					10	return $self->{genops};
461							}
462
463							sub gencode {
464	11			11		18	my ($self, $tree) = @_;
465
466	11	100	66			109	if (ref $tree) {
		100
		50
467	4					11	my ($op, @parms) = @$tree;
468
469	4	50				13	if (!exists $Attr{$op}) {
470	0					0	die "Unknown operator or function $op";
471							}
472
473	4					7	for my $subtree (@parms) {
474	9					27	$subtree = $self->gencode($subtree);
475							}
476	4					8	my $types = join("", map {substr($_,0,1)} @parms);
	9					22
477
478	4	50				13	if (length($types) < length($Attr{$op}{types})) {
479	0					0	die "Too few parameters in call to $op";
480							}
481	4	50				9	if ($types ne $Attr{$op}{types}) {
482							# some alternate operators have the same name followed by p
483	0					0	my $opp = $op."p";
484	0	0	0			0	if (exists $Attr{$opp} &&
485							$types eq $Attr{$opp}{types}) {
486	0					0	$op = $opp;
487							}
488							else {
489	0					0	die "Call to $_ with incorrect types";
490							}
491							}
492	4					5	my $result;
493	4	100				10	if ($Attr{$op}{result} eq 'r') {
494	3					5	$result = "r".@{$self->{nregs}};
	3					5
495	3					4	push(@{$self->{nregs}}, undef);
	3					6
496							}
497							else {
498	1					11	$result = "p".@{$self->{cregs}};
	1					3
499	1					2	push(@{$self->{cregs}}, undef);
	1					3
500							}
501	4					13	push(@parms, "0") while @parms < $MaxOperands;
502	4					5	push(@{$self->{genops}}, [ $op, @parms, $result]);
	4					13
503	4					10	return $result;
504							}
505							elsif (exists $self->{varregs}{$tree}) {
506	3					8	return $self->{varregs}{$tree};
507							}
508							elsif ($tree =~ /^$numre$/ \|\| exists $self->{constants}{$tree}) {
509	4	100				11	$tree = $self->{constants}{$tree} if exists $self->{constants}{$tree};
510
511	4	100				9	if (exists $self->{lits}{$tree}) {
512	1					3	return $self->{lits}{$tree};
513							}
514	3					5	my $reg = "r".@{$self->{nregs}};
	3					8
515	3					13	push(@{$self->{nregs}}, $tree);
	3					9
516	3					8	$self->{lits}{$tree} = $reg;
517
518	3					11	return $reg;
519							}
520							}
521
522							1;
523
524							__END__