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source: src/CodeGen/CodeGenerator.cc @ 01b9928

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsdeferred_resndemanglerenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumresolv-newwith_gc

Last change on this file since 01b9928 was 01b9928, checked in by Rob Schluntz <rschlunt@…>, 7 years ago
permit empty initializer lists [fixes #12]
Property mode set to `100644`
File size: 30.3 KB

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1	//
2	// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
3	//
4	// The contents of this file are covered under the licence agreement in the
5	// file "LICENCE" distributed with Cforall.
6	//
7	// CodeGenerator.cc --
8	//
9	// Author : Richard C. Bilson
10	// Created On : Mon May 18 07:44:20 2015
11	// Last Modified By : Andrew Beach
12	// Last Modified On : Wed May 10 14:45:00 2017
13	// Update Count : 484
14	//
15
16	#include <algorithm>
17	#include <iostream>
18	#include <cassert>
19	#include <list>
20
21	#include "Parser/ParseNode.h"
22
23	#include "SynTree/Declaration.h"
24	#include "SynTree/Expression.h"
25	#include "SynTree/Initializer.h"
26	#include "SynTree/Statement.h"
27	#include "SynTree/Type.h"
28	#include "SynTree/Attribute.h"
29
30	#include "Common/utility.h"
31	#include "Common/UnimplementedError.h"
32
33	#include "CodeGenerator.h"
34	#include "OperatorTable.h"
35	#include "GenType.h"
36
37	#include "InitTweak/InitTweak.h"
38
39	using namespace std;
40
41	namespace CodeGen {
42	int CodeGenerator::tabsize = 4;
43
44	// the kinds of statements that would ideally be followed by whitespace
45	bool wantSpacing( Statement * stmt) {
46	return dynamic_cast< IfStmt * >( stmt ) \|\| dynamic_cast< CompoundStmt * >( stmt ) \|\|
47	dynamic_cast< WhileStmt * >( stmt ) \|\| dynamic_cast< ForStmt * >( stmt ) \|\| dynamic_cast< SwitchStmt *>( stmt );
48	}
49
50	void CodeGenerator::extension( Expression * expr ) {
51	if ( expr->get_extension() ) {
52	output << "__extension__ ";
53	} // if
54	} // extension
55
56	void CodeGenerator::extension( Declaration * decl ) {
57	if ( decl->get_extension() ) {
58	output << "__extension__ ";
59	} // if
60	} // extension
61
62	void CodeGenerator::asmName( DeclarationWithType * decl ) {
63	if ( ConstantExpr * asmName = decl->get_asmName() ) {
64	output << " asm ( " << asmName->get_constant()->get_value() << " )";
65	} // if
66	} // extension
67
68	ostream & CodeGenerator::Indenter::operator()( ostream & output ) const {
69	return output << string( cg.cur_indent, ' ' );
70	}
71
72	ostream & operator<<( ostream & output, const CodeGenerator::Indenter &indent ) {
73	return indent( output );
74	}
75
76	CodeGenerator::LabelPrinter & CodeGenerator::LabelPrinter::operator()( std::list< Label > & l ) {
77	labels = &l;
78	return *this;
79	}
80
81	ostream & operator<<( ostream & output, CodeGenerator::LabelPrinter & printLabels ) {
82	std::list< Label > & labs = *printLabels.labels;
83	// l.unique(); // assumes a sorted list. Why not use set? Does order matter?
84	for ( Label & l : labs ) {
85	output << l.get_name() + ": ";
86	printLabels.cg.genAttributes( l.get_attributes() );
87	} // for
88	return output;
89	}
90
91	CodeGenerator::LineMarker::LineMarker(
92	CodeLocation const & loc, bool toPrint) :
93	loc(loc), toPrint(toPrint)
94	{}
95
96	CodeGenerator::LineMarker CodeGenerator::lineDirective(
97	BaseSyntaxNode const * node) {
98	return LineMarker(node->location, lineMarks);
99	}
100
101	std::ostream & operator<<(std::ostream & out,
102	CodeGenerator::LineMarker const & marker) {
103	if (marker.toPrint && marker.loc.isSet()) {
104	return out << "\n# " << marker.loc.linenumber << " \""
105	<< marker.loc.filename << "\"\n";
106	} else if (marker.toPrint) {
107	return out << "\n/* Missing CodeLocation */\n";
108	} else {
109	return out;
110	}
111	}
112
113	CodeGenerator::CodeGenerator( std::ostream & os, bool pretty, bool genC, bool lineMarks ) : indent( this), cur_indent( 0 ), insideFunction( false ), output( os ), printLabels( this ), pretty( pretty ), genC( genC ), lineMarks( lineMarks ) {}
114
115	CodeGenerator::CodeGenerator( std::ostream & os, std::string init, int indentation, bool infunp )
116	: indent( this), cur_indent( indentation ), insideFunction( infunp ), output( os ), printLabels( this ) {
117	//output << std::string( init );
118	}
119
120	CodeGenerator::CodeGenerator( std::ostream & os, char * init, int indentation, bool infunp )
121	: indent( this ), cur_indent( indentation ), insideFunction( infunp ), output( os ), printLabels( this ) {
122	//output << std::string( init );
123	}
124
125	string CodeGenerator::mangleName( DeclarationWithType * decl ) {
126	if ( pretty ) return decl->get_name();
127	if ( decl->get_mangleName() != "" ) {
128	// need to incorporate scope level in order to differentiate names for destructors
129	return decl->get_scopedMangleName();
130	} else {
131	return decl->get_name();
132	} // if
133	}
134
135	void CodeGenerator::genAttributes( list< Attribute * > & attributes ) {
136	if ( attributes.empty() ) return;
137	output << "__attribute__ ((";
138	for ( list< Attribute * >::iterator attr( attributes.begin() );; ) {
139	output << (*attr)->get_name();
140	if ( ! (*attr)->get_parameters().empty() ) {
141	output << "(";
142	genCommaList( (attr)->get_parameters().begin(), (attr)->get_parameters().end() );
143	output << ")";
144	} // if
145	if ( ++attr == attributes.end() ) break;
146	output << ","; // separator
147	} // for
148	output << ")) ";
149	} // CodeGenerator::genAttributes
150
151
152	// *** Declarations
153	void CodeGenerator::visit( FunctionDecl * functionDecl ) {
154	extension( functionDecl );
155	genAttributes( functionDecl->get_attributes() );
156
157	handleStorageClass( functionDecl );
158	functionDecl->get_funcSpec().print( output );
159
160	output << genType( functionDecl->get_functionType(), mangleName( functionDecl ), pretty, genC );
161
162	asmName( functionDecl );
163
164	// acceptAll( functionDecl->get_oldDecls(), *this );
165	if ( functionDecl->get_statements() ) {
166	functionDecl->get_statements()->accept( *this );
167	} // if
168	}
169
170	void CodeGenerator::visit( ObjectDecl * objectDecl ) {
171	if (objectDecl->get_name().empty() && genC ) {
172	// only generate an anonymous name when generating C code, otherwise it clutters the output too much
173	static UniqueName name = { "__anonymous_object" };
174	objectDecl->set_name( name.newName() );
175	}
176
177	extension( objectDecl );
178	genAttributes( objectDecl->get_attributes() );
179
180	handleStorageClass( objectDecl );
181	output << genType( objectDecl->get_type(), mangleName( objectDecl ), pretty, genC );
182
183	asmName( objectDecl );
184
185	if ( objectDecl->get_init() ) {
186	output << " = ";
187	objectDecl->get_init()->accept( *this );
188	} // if
189
190	if ( objectDecl->get_bitfieldWidth() ) {
191	output << ":";
192	objectDecl->get_bitfieldWidth()->accept( *this );
193	} // if
194	}
195
196	void CodeGenerator::handleAggregate( AggregateDecl * aggDecl, const std::string & kind ) {
197	genAttributes( aggDecl->get_attributes() );
198
199	if( ! aggDecl->get_parameters().empty() && ! genC ) {
200	// assertf( ! genC, "Aggregate type parameters should not reach code generation." );
201	output << "forall(";
202	genCommaList( aggDecl->get_parameters().begin(), aggDecl->get_parameters().end() );
203	output << ")" << endl;
204	}
205
206	output << kind;
207	if ( aggDecl->get_name() != "" )
208	output << aggDecl->get_name();
209
210	if ( aggDecl->has_body() ) {
211	std::list< Declaration * > & memb = aggDecl->get_members();
212	output << " {" << endl;
213
214	cur_indent += CodeGenerator::tabsize;
215	for ( std::list< Declaration* >::iterator i = memb.begin(); i != memb.end(); i++ ) {
216	output << lineDirective( *i ) << indent;
217	(i)->accept( this );
218	output << ";" << endl;
219	} // for
220
221	cur_indent -= CodeGenerator::tabsize;
222
223	output << indent << "}";
224	} // if
225	}
226
227	void CodeGenerator::visit( StructDecl * structDecl ) {
228	extension( structDecl );
229	handleAggregate( structDecl, "struct " );
230	}
231
232	void CodeGenerator::visit( UnionDecl * unionDecl ) {
233	extension( unionDecl );
234	handleAggregate( unionDecl, "union " );
235	}
236
237	void CodeGenerator::visit( EnumDecl * enumDecl ) {
238	extension( enumDecl );
239	output << lineDirective ( enumDecl );
240	output << "enum ";
241	genAttributes( enumDecl->get_attributes() );
242
243	if ( enumDecl->get_name() != "" )
244	output << enumDecl->get_name();
245
246	std::list< Declaration* > &memb = enumDecl->get_members();
247
248	if ( ! memb.empty() ) {
249	output << " {" << endl;
250
251	cur_indent += CodeGenerator::tabsize;
252	for ( std::list< Declaration* >::iterator i = memb.begin(); i != memb.end(); i++) {
253	ObjectDecl * obj = dynamic_cast< ObjectDecl* >( *i );
254	assert( obj );
255	output << lineDirective( obj ) << indent << mangleName( obj );
256	if ( obj->get_init() ) {
257	output << " = ";
258	obj->get_init()->accept( *this );
259	} // if
260	output << "," << endl;
261	} // for
262
263	cur_indent -= CodeGenerator::tabsize;
264
265	output << indent << "}";
266	} // if
267	}
268
269	void CodeGenerator::visit( TraitDecl * traitDecl ) {}
270
271	void CodeGenerator::visit( TypedefDecl * typeDecl ) {
272	assertf( ! genC, "Typedefs are removed and substituted in earlier passes." );
273	output << lineDirective( typeDecl );
274	output << "typedef ";
275	output << genType( typeDecl->get_base(), typeDecl->get_name(), pretty, genC ) << endl;
276	}
277
278	void CodeGenerator::visit( TypeDecl * typeDecl ) {
279	if ( genC ) {
280	// really, we should mutate this into something that isn't a TypeDecl but that requires large-scale changes,
281	// still to be done
282	extension( typeDecl );
283	output << "extern unsigned long " << typeDecl->get_name();
284	if ( typeDecl->get_base() ) {
285	output << " = sizeof( " << genType( typeDecl->get_base(), "", pretty, genC ) << " )";
286	} // if
287	} else {
288	output << typeDecl->genTypeString() << " " << typeDecl->get_name();
289	if ( typeDecl->get_kind() != TypeDecl::Any && typeDecl->get_sized() ) {
290	output << " \| sized(" << typeDecl->get_name() << ")";
291	}
292	if ( ! typeDecl->get_assertions().empty() ) {
293	output << " \| { ";
294	genCommaList( typeDecl->get_assertions().begin(), typeDecl->get_assertions().end() );
295	output << " }";
296	}
297	}
298	}
299
300	void CodeGenerator::printDesignators( std::list< Expression * > & designators ) {
301	typedef std::list< Expression * > DesignatorList;
302	if ( designators.size() == 0 ) return;
303	for ( DesignatorList::iterator iter = designators.begin(); iter != designators.end(); ++iter ) {
304	if ( dynamic_cast< NameExpr * >( *iter ) ) {
305	// if expression is a name, then initializing aggregate member
306	output << ".";
307	(iter)->accept( this );
308	} else {
309	// if not a simple name, it has to be a constant expression, i.e. an array designator
310	output << "[";
311	(iter)->accept( this );
312	output << "]";
313	} // if
314	} // for
315	output << " = ";
316	}
317
318	void CodeGenerator::visit( SingleInit * init ) {
319	printDesignators( init->get_designators() );
320	init->get_value()->accept( *this );
321	}
322
323	void CodeGenerator::visit( ListInit * init ) {
324	printDesignators( init->get_designators() );
325	output << "{ ";
326	genCommaList( init->begin(), init->end() );
327	output << " }";
328	}
329
330	void CodeGenerator::visit( ConstructorInit * init ){
331	assertf( ! genC, "ConstructorInit nodes should not reach code generation." );
332	// xxx - generate something reasonable for constructor/destructor pairs
333	output << "<ctorinit>";
334	}
335
336	void CodeGenerator::visit( Constant * constant ) {
337	output << constant->get_value() ;
338	}
339
340	// *** Expressions
341	void CodeGenerator::visit( ApplicationExpr * applicationExpr ) {
342	extension( applicationExpr );
343	if ( VariableExpr * varExpr = dynamic_cast< VariableExpr* >( applicationExpr->get_function() ) ) {
344	OperatorInfo opInfo;
345	if ( varExpr->get_var()->get_linkage() == LinkageSpec::Intrinsic && operatorLookup( varExpr->get_var()->get_name(), opInfo ) ) {
346	std::list< Expression* >::iterator arg = applicationExpr->get_args().begin();
347	switch ( opInfo.type ) {
348	case OT_PREFIXASSIGN:
349	case OT_POSTFIXASSIGN:
350	case OT_INFIXASSIGN:
351	case OT_CTOR:
352	case OT_DTOR:
353	{
354	assert( arg != applicationExpr->get_args().end() );
355	if ( AddressExpr * addrExpr = dynamic_cast< AddressExpr * >( *arg ) ) {
356	// remove & from first assignment/ctor argument
357	*arg = addrExpr->get_arg();
358	} else {
359	// no address-of operator, so must be a pointer - add dereference
360	// NOTE: if the assertion starts to trigger, check that the application expr isn't being shared.
361	// Since its arguments are modified here, this assertion most commonly triggers when the application
362	// is visited multiple times.
363	UntypedExpr * newExpr = new UntypedExpr( new NameExpr( "*?" ) );
364	newExpr->get_args().push_back( *arg );
365	Type * type = InitTweak::getPointerBase( (*arg)->get_result() );
366	assertf( type, "First argument to a derefence must be a pointer. Ensure that expressions are not being shared." );
367	newExpr->set_result( type->clone() );
368	*arg = newExpr;
369	} // if
370	break;
371	}
372
373	default:
374	// do nothing
375	;
376	} // switch
377
378	switch ( opInfo.type ) {
379	case OT_INDEX:
380	assert( applicationExpr->get_args().size() == 2 );
381	(arg++)->accept( this );
382	output << "[";
383	(arg)->accept( this );
384	output << "]";
385	break;
386
387	case OT_CALL:
388	// there are no intrinsic definitions of the function call operator
389	assert( false );
390	break;
391
392	case OT_CTOR:
393	case OT_DTOR:
394	if ( applicationExpr->get_args().size() == 1 ) {
395	// the expression fed into a single parameter constructor or destructor may contain side
396	// effects, so must still output this expression
397	output << "(";
398	(arg++)->accept( this );
399	output << ") /* " << opInfo.inputName << " */";
400	} else if ( applicationExpr->get_args().size() == 2 ) {
401	// intrinsic two parameter constructors are essentially bitwise assignment
402	output << "(";
403	(arg++)->accept( this );
404	output << opInfo.symbol;
405	(arg)->accept( this );
406	output << ") /* " << opInfo.inputName << " */";
407	} else {
408	// no constructors with 0 or more than 2 parameters
409	assert( false );
410	} // if
411	break;
412
413	case OT_PREFIX:
414	case OT_PREFIXASSIGN:
415	assert( applicationExpr->get_args().size() == 1 );
416	output << "(";
417	output << opInfo.symbol;
418	(arg)->accept( this );
419	output << ")";
420	break;
421
422	case OT_POSTFIX:
423	case OT_POSTFIXASSIGN:
424	assert( applicationExpr->get_args().size() == 1 );
425	(arg)->accept( this );
426	output << opInfo.symbol;
427	break;
428
429
430	case OT_INFIX:
431	case OT_INFIXASSIGN:
432	assert( applicationExpr->get_args().size() == 2 );
433	output << "(";
434	(arg++)->accept( this );
435	output << opInfo.symbol;
436	(arg)->accept( this );
437	output << ")";
438	break;
439
440	case OT_CONSTANT:
441	case OT_LABELADDRESS:
442	// there are no intrinsic definitions of 0/1 or label addresses as functions
443	assert( false );
444	} // switch
445	} else {
446	varExpr->accept( *this );
447	output << "(";
448	genCommaList( applicationExpr->get_args().begin(), applicationExpr->get_args().end() );
449	output << ")";
450	} // if
451	} else {
452	applicationExpr->get_function()->accept( *this );
453	output << "(";
454	genCommaList( applicationExpr->get_args().begin(), applicationExpr->get_args().end() );
455	output << ")";
456	} // if
457	}
458
459	void CodeGenerator::visit( UntypedExpr * untypedExpr ) {
460	extension( untypedExpr );
461	if ( NameExpr * nameExpr = dynamic_cast< NameExpr* >( untypedExpr->get_function() ) ) {
462	OperatorInfo opInfo;
463	if ( operatorLookup( nameExpr->get_name(), opInfo ) ) {
464	std::list< Expression* >::iterator arg = untypedExpr->get_args().begin();
465	switch ( opInfo.type ) {
466	case OT_INDEX:
467	assert( untypedExpr->get_args().size() == 2 );
468	(arg++)->accept( this );
469	output << "[";
470	(arg)->accept( this );
471	output << "]";
472	break;
473
474	case OT_CALL:
475	assert( false );
476
477	case OT_CTOR:
478	case OT_DTOR:
479	if ( untypedExpr->get_args().size() == 1 ) {
480	// the expression fed into a single parameter constructor or destructor may contain side
481	// effects, so must still output this expression
482	output << "(";
483	(arg++)->accept( this );
484	output << ") /* " << opInfo.inputName << " */";
485	} else if ( untypedExpr->get_args().size() == 2 ) {
486	// intrinsic two parameter constructors are essentially bitwise assignment
487	output << "(";
488	(arg++)->accept( this );
489	output << opInfo.symbol;
490	(arg)->accept( this );
491	output << ") /* " << opInfo.inputName << " */";
492	} else {
493	// no constructors with 0 or more than 2 parameters
494	assert( false );
495	} // if
496	break;
497
498	case OT_PREFIX:
499	case OT_PREFIXASSIGN:
500	case OT_LABELADDRESS:
501	assert( untypedExpr->get_args().size() == 1 );
502	output << "(";
503	output << opInfo.symbol;
504	(arg)->accept( this );
505	output << ")";
506	break;
507
508	case OT_POSTFIX:
509	case OT_POSTFIXASSIGN:
510	assert( untypedExpr->get_args().size() == 1 );
511	(arg)->accept( this );
512	output << opInfo.symbol;
513	break;
514
515	case OT_INFIX:
516	case OT_INFIXASSIGN:
517	assert( untypedExpr->get_args().size() == 2 );
518	output << "(";
519	(arg++)->accept( this );
520	output << opInfo.symbol;
521	(arg)->accept( this );
522	output << ")";
523	break;
524
525	case OT_CONSTANT:
526	// there are no intrinsic definitions of 0 or 1 as functions
527	assert( false );
528	} // switch
529	} else {
530	if ( nameExpr->get_name() == "..." ) { // case V1 ... V2 or case V1~V2
531	assert( untypedExpr->get_args().size() == 2 );
532	(untypedExpr->get_args().begin())->accept( this );
533	output << " ... ";
534	(--untypedExpr->get_args().end())->accept( this );
535	} else { // builtin routines
536	nameExpr->accept( *this );
537	output << "(";
538	genCommaList( untypedExpr->get_args().begin(), untypedExpr->get_args().end() );
539	output << ")";
540	} // if
541	} // if
542	} else {
543	untypedExpr->get_function()->accept( *this );
544	output << "(";
545	genCommaList( untypedExpr->get_args().begin(), untypedExpr->get_args().end() );
546	output << ")";
547	} // if
548	}
549
550	void CodeGenerator::visit( RangeExpr * rangeExpr ) {
551	rangeExpr->get_low()->accept( *this );
552	output << " ... ";
553	rangeExpr->get_high()->accept( *this );
554	}
555
556	void CodeGenerator::visit( NameExpr * nameExpr ) {
557	extension( nameExpr );
558	OperatorInfo opInfo;
559	if ( operatorLookup( nameExpr->get_name(), opInfo ) ) {
560	assert( opInfo.type == OT_CONSTANT );
561	output << opInfo.symbol;
562	} else {
563	output << nameExpr->get_name();
564	} // if
565	}
566
567	void CodeGenerator::visit( AddressExpr * addressExpr ) {
568	extension( addressExpr );
569	output << "(&";
570	// this hack makes sure that we don't convert "constant_zero" to "0" if we're taking its address
571	if ( VariableExpr * variableExpr = dynamic_cast< VariableExpr* >( addressExpr->get_arg() ) ) {
572	output << mangleName( variableExpr->get_var() );
573	} else {
574	addressExpr->get_arg()->accept( *this );
575	} // if
576	output << ")";
577	}
578
579	void CodeGenerator::visit( CastExpr * castExpr ) {
580	extension( castExpr );
581	output << "(";
582	if ( castExpr->get_result()->isVoid() ) {
583	output << "(void)" ;
584	} else if ( ! castExpr->get_result()->get_lvalue() ) {
585	// at least one result type of cast, but not an lvalue
586	output << "(";
587	output << genType( castExpr->get_result(), "", pretty, genC );
588	output << ")";
589	} else {
590	// otherwise, the cast is to an lvalue type, so the cast should be dropped, since the result of a cast is
591	// never an lvalue in C
592	} // if
593	castExpr->get_arg()->accept( *this );
594	output << ")";
595	}
596
597	void CodeGenerator::visit( UntypedMemberExpr * memberExpr ) {
598	assertf( ! genC, "UntypedMemberExpr should not reach code generation." );
599	extension( memberExpr );
600	memberExpr->get_aggregate()->accept( *this );
601	output << ".";
602	memberExpr->get_member()->accept( *this );
603	}
604
605	void CodeGenerator::visit( MemberExpr * memberExpr ) {
606	extension( memberExpr );
607	memberExpr->get_aggregate()->accept( *this );
608	output << "." << mangleName( memberExpr->get_member() );
609	}
610
611	void CodeGenerator::visit( VariableExpr * variableExpr ) {
612	extension( variableExpr );
613	OperatorInfo opInfo;
614	if ( variableExpr->get_var()->get_linkage() == LinkageSpec::Intrinsic && operatorLookup( variableExpr->get_var()->get_name(), opInfo ) && opInfo.type == OT_CONSTANT ) {
615	output << opInfo.symbol;
616	} else {
617	output << mangleName( variableExpr->get_var() );
618	} // if
619	}
620
621	void CodeGenerator::visit( ConstantExpr * constantExpr ) {
622	assert( constantExpr->get_constant() );
623	extension( constantExpr );
624	constantExpr->get_constant()->accept( *this );
625	}
626
627	void CodeGenerator::visit( SizeofExpr * sizeofExpr ) {
628	extension( sizeofExpr );
629	output << "sizeof(";
630	if ( sizeofExpr->get_isType() ) {
631	output << genType( sizeofExpr->get_type(), "", pretty, genC );
632	} else {
633	sizeofExpr->get_expr()->accept( *this );
634	} // if
635	output << ")";
636	}
637
638	void CodeGenerator::visit( AlignofExpr * alignofExpr ) {
639	// use GCC extension to avoid bumping std to C11
640	extension( alignofExpr );
641	output << "__alignof__(";
642	if ( alignofExpr->get_isType() ) {
643	output << genType( alignofExpr->get_type(), "", pretty, genC );
644	} else {
645	alignofExpr->get_expr()->accept( *this );
646	} // if
647	output << ")";
648	}
649
650	void CodeGenerator::visit( UntypedOffsetofExpr * offsetofExpr ) {
651	assertf( ! genC, "UntypedOffsetofExpr should not reach code generation." );
652	output << "offsetof(";
653	output << genType( offsetofExpr->get_type(), "", pretty, genC );
654	output << ", " << offsetofExpr->get_member();
655	output << ")";
656	}
657
658	void CodeGenerator::visit( OffsetofExpr * offsetofExpr ) {
659	// use GCC builtin
660	output << "__builtin_offsetof(";
661	output << genType( offsetofExpr->get_type(), "", pretty, genC );
662	output << ", " << mangleName( offsetofExpr->get_member() );
663	output << ")";
664	}
665
666	void CodeGenerator::visit( OffsetPackExpr * offsetPackExpr ) {
667	assertf( ! genC, "OffsetPackExpr should not reach code generation." );
668	output << "__CFA_offsetpack(" << genType( offsetPackExpr->get_type(), "", pretty, genC ) << ")";
669	}
670
671	void CodeGenerator::visit( LogicalExpr * logicalExpr ) {
672	extension( logicalExpr );
673	output << "(";
674	logicalExpr->get_arg1()->accept( *this );
675	if ( logicalExpr->get_isAnd() ) {
676	output << " && ";
677	} else {
678	output << " \|\| ";
679	} // if
680	logicalExpr->get_arg2()->accept( *this );
681	output << ")";
682	}
683
684	void CodeGenerator::visit( ConditionalExpr * conditionalExpr ) {
685	extension( conditionalExpr );
686	output << "(";
687	conditionalExpr->get_arg1()->accept( *this );
688	output << " ? ";
689	conditionalExpr->get_arg2()->accept( *this );
690	output << " : ";
691	conditionalExpr->get_arg3()->accept( *this );
692	output << ")";
693	}
694
695	void CodeGenerator::visit( CommaExpr * commaExpr ) {
696	extension( commaExpr );
697	output << "(";
698	commaExpr->get_arg1()->accept( *this );
699	output << " , ";
700	commaExpr->get_arg2()->accept( *this );
701	output << ")";
702	}
703
704	void CodeGenerator::visit( UntypedTupleExpr * tupleExpr ) {
705	assertf( ! genC, "UntypedTupleExpr should not reach code generation." );
706	extension( tupleExpr );
707	output << "[";
708	genCommaList( tupleExpr->get_exprs().begin(), tupleExpr->get_exprs().end() );
709	output << "]";
710	}
711
712	void CodeGenerator::visit( TupleExpr * tupleExpr ) {
713	assertf( ! genC, "TupleExpr should not reach code generation." );
714	extension( tupleExpr );
715	output << "[";
716	genCommaList( tupleExpr->get_exprs().begin(), tupleExpr->get_exprs().end() );
717	output << "]";
718	}
719
720	void CodeGenerator::visit( TupleIndexExpr * tupleExpr ) {
721	assertf( ! genC, "TupleIndexExpr should not reach code generation." );
722	extension( tupleExpr );
723	tupleExpr->get_tuple()->accept( *this );
724	output << "." << tupleExpr->get_index();
725	}
726
727	void CodeGenerator::visit( TypeExpr * typeExpr ) {
728	assertf( ! genC, "TypeExpr should not reach code generation." );
729	output<< genType( typeExpr->get_type(), "", pretty, genC );
730	}
731
732	void CodeGenerator::visit( AsmExpr * asmExpr ) {
733	if ( asmExpr->get_inout() ) {
734	output << "[ ";
735	asmExpr->get_inout()->accept( *this );
736	output << " ] ";
737	} // if
738	asmExpr->get_constraint()->accept( *this );
739	output << " ( ";
740	asmExpr->get_operand()->accept( *this );
741	output << " )";
742	}
743
744	void CodeGenerator::visit( CompoundLiteralExpr *compLitExpr ) {
745	assert( compLitExpr->get_result() && dynamic_cast< ListInit * > ( compLitExpr->get_initializer() ) );
746	output << "(" << genType( compLitExpr->get_result(), "", pretty, genC ) << ")";
747	compLitExpr->get_initializer()->accept( *this );
748	}
749
750	void CodeGenerator::visit( StmtExpr * stmtExpr ) {
751	std::list< Statement * > & stmts = stmtExpr->get_statements()->get_kids();
752	output << lineDirective( stmtExpr) << "({" << std::endl;
753	cur_indent += CodeGenerator::tabsize;
754	unsigned int numStmts = stmts.size();
755	unsigned int i = 0;
756	for ( Statement * stmt : stmts ) {
757	output << lineDirective( stmt ) << indent;
758	output << printLabels( stmt->get_labels() );
759	if ( i+1 == numStmts ) {
760	// last statement in a statement expression needs to be handled specially -
761	// cannot cast to void, otherwise the expression statement has no value
762	if ( ExprStmt * exprStmt = dynamic_cast< ExprStmt * >( stmt ) ) {
763	exprStmt->get_expr()->accept( *this );
764	output << ";" << endl;
765	++i;
766	break;
767	}
768	}
769	stmt->accept( *this );
770	output << endl;
771	if ( wantSpacing( stmt ) ) {
772	output << endl;
773	} // if
774	++i;
775	}
776	cur_indent -= CodeGenerator::tabsize;
777	output << indent << "})";
778	}
779
780	// *** Statements
781	void CodeGenerator::visit( CompoundStmt * compoundStmt ) {
782	std::list<Statement*> ks = compoundStmt->get_kids();
783	output << "{" << endl;
784
785	cur_indent += CodeGenerator::tabsize;
786
787	for ( std::list<Statement *>::iterator i = ks.begin(); i != ks.end(); i++ ) {
788	output << indent << printLabels( (*i)->get_labels() );
789	(i)->accept( this );
790
791	output << endl;
792	if ( wantSpacing( *i ) ) {
793	output << endl;
794	} // if
795	} // for
796	cur_indent -= CodeGenerator::tabsize;
797
798	output << indent << "}";
799	}
800
801	void CodeGenerator::visit( ExprStmt * exprStmt ) {
802	assert( exprStmt );
803	Expression * expr = exprStmt->get_expr();
804	if ( genC ) {
805	// cast the top-level expression to void to reduce gcc warnings.
806	expr = new CastExpr( expr );
807	}
808	expr->accept( *this );
809	output << ";";
810	}
811
812	void CodeGenerator::visit( AsmStmt * asmStmt ) {
813	output << "asm ";
814	if ( asmStmt->get_voltile() ) output << "volatile ";
815	if ( ! asmStmt->get_gotolabels().empty() ) output << "goto ";
816	output << "( ";
817	if ( asmStmt->get_instruction() ) asmStmt->get_instruction()->accept( *this );
818	output << " : ";
819	genCommaList( asmStmt->get_output().begin(), asmStmt->get_output().end() );
820	output << " : ";
821	genCommaList( asmStmt->get_input().begin(), asmStmt->get_input().end() );
822	output << " : ";
823	genCommaList( asmStmt->get_clobber().begin(), asmStmt->get_clobber().end() );
824	if ( ! asmStmt->get_gotolabels().empty() ) {
825	output << " : ";
826	for ( std::list<Label>::iterator begin = asmStmt->get_gotolabels().begin();; ) {
827	output << *begin++;
828	if ( begin == asmStmt->get_gotolabels().end() ) break;
829	output << ", ";
830	} // for
831	} // if
832	output << " );" ;
833	}
834
835	void CodeGenerator::visit( AsmDecl * asmDecl ) {
836	output << "asm ";
837	AsmStmt * asmStmt = asmDecl->get_stmt();
838	output << "( ";
839	if ( asmStmt->get_instruction() ) asmStmt->get_instruction()->accept( *this );
840	output << " )" ;
841	}
842
843	void CodeGenerator::visit( IfStmt * ifStmt ) {
844	output << lineDirective( ifStmt );
845	output << "if ( ";
846	ifStmt->get_condition()->accept( *this );
847	output << " ) ";
848
849	ifStmt->get_thenPart()->accept( *this );
850
851	if ( ifStmt->get_elsePart() != 0) {
852	output << " else ";
853	ifStmt->get_elsePart()->accept( *this );
854	} // if
855	}
856
857	void CodeGenerator::visit( SwitchStmt * switchStmt ) {
858	output << lineDirective( switchStmt );
859	output << "switch ( " ;
860	switchStmt->get_condition()->accept( *this );
861	output << " ) ";
862
863	output << "{" << std::endl;
864	cur_indent += CodeGenerator::tabsize;
865	acceptAll( switchStmt->get_statements(), *this );
866	cur_indent -= CodeGenerator::tabsize;
867	output << indent << "}";
868	}
869
870	void CodeGenerator::visit( CaseStmt * caseStmt ) {
871	output << lineDirective( caseStmt );
872	output << indent;
873	if ( caseStmt->isDefault()) {
874	output << "default";
875	} else {
876	output << "case ";
877	caseStmt->get_condition()->accept( *this );
878	} // if
879	output << ":\n";
880
881	std::list<Statement *> sts = caseStmt->get_statements();
882
883	cur_indent += CodeGenerator::tabsize;
884	for ( std::list<Statement *>::iterator i = sts.begin(); i != sts.end(); i++) {
885	output << indent << printLabels( (*i)->get_labels() ) ;
886	(i)->accept( this );
887	output << endl;
888	} // for
889	cur_indent -= CodeGenerator::tabsize;
890	}
891
892	void CodeGenerator::visit( BranchStmt * branchStmt ) {
893	switch ( branchStmt->get_type()) {
894	case BranchStmt::Goto:
895	if ( ! branchStmt->get_target().empty() )
896	output << "goto " << branchStmt->get_target();
897	else {
898	if ( branchStmt->get_computedTarget() != 0 ) {
899	output << "goto *";
900	branchStmt->get_computedTarget()->accept( *this );
901	} // if
902	} // if
903	break;
904	case BranchStmt::Break:
905	output << "break";
906	break;
907	case BranchStmt::Continue:
908	output << "continue";
909	break;
910	} // switch
911	output << ";";
912	}
913
914	void CodeGenerator::visit( ReturnStmt * returnStmt ) {
915	output << "return ";
916	maybeAccept( returnStmt->get_expr(), *this );
917	output << ";";
918	}
919
920	void CodeGenerator::visit( WhileStmt * whileStmt ) {
921	if ( whileStmt->get_isDoWhile() ) {
922	output << "do" ;
923	} else {
924	output << "while (" ;
925	whileStmt->get_condition()->accept( *this );
926	output << ")";
927	} // if
928	output << " ";
929
930	output << CodeGenerator::printLabels( whileStmt->get_body()->get_labels() );
931	whileStmt->get_body()->accept( *this );
932
933	output << indent;
934
935	if ( whileStmt->get_isDoWhile() ) {
936	output << " while (" ;
937	whileStmt->get_condition()->accept( *this );
938	output << ");";
939	} // if
940	}
941
942	void CodeGenerator::visit( ForStmt * forStmt ) {
943	// initialization is always hoisted, so don't bother doing anything with that
944	output << "for (;";
945
946	if ( forStmt->get_condition() != 0 ) {
947	forStmt->get_condition()->accept( *this );
948	} // if
949	output << ";";
950
951	if ( forStmt->get_increment() != 0 ) {
952	// cast the top-level expression to void to reduce gcc warnings.
953	Expression * expr = new CastExpr( forStmt->get_increment() );
954	expr->accept( *this );
955	} // if
956	output << ") ";
957
958	if ( forStmt->get_body() != 0 ) {
959	output << CodeGenerator::printLabels( forStmt->get_body()->get_labels() );
960	forStmt->get_body()->accept( *this );
961	} // if
962	}
963
964	void CodeGenerator::visit( NullStmt * nullStmt ) {
965	//output << indent << CodeGenerator::printLabels( nullStmt->get_labels() );
966	output << "/* null statement */ ;";
967	}
968
969	void CodeGenerator::visit( DeclStmt * declStmt ) {
970	declStmt->get_decl()->accept( *this );
971
972	if ( doSemicolon( declStmt->get_decl() ) ) {
973	output << ";";
974	} // if
975	}
976
977	void CodeGenerator::handleStorageClass( DeclarationWithType * decl ) {
978	if ( decl->get_storageClasses().any() ) {
979	decl->get_storageClasses().print( output );
980	} // if
981	} // CodeGenerator::handleStorageClass
982
983	std::string genName( DeclarationWithType * decl ) {
984	CodeGen::OperatorInfo opInfo;
985	if ( operatorLookup( decl->get_name(), opInfo ) ) {
986	return opInfo.outputName;
987	} else {
988	return decl->get_name();
989	} // if
990	}
991	} // namespace CodeGen
992
993	// Local Variables: //
994	// tab-width: 4 //
995	// mode: c++ //
996	// compile-command: "make install" //
997	// End: //

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