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source: src/Parser/TypeData.cc @ ca1c11f

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsctordeferred_resndemanglerenumforall-pointer-decaygc_noraiijacob/cs343-translationjenkins-sandboxmemorynew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumresolv-newwith_gc

Last change on this file since ca1c11f was f1e012b, checked in by Rob Schluntz <rschlunt@…>, 8 years ago
added intrinsic ctor/dtors to prelude, modified MakeLibCfa? to build prelude ctor/dtors, added ctor/dtor to polymorphic object type constraints, rudimentary fallback on initializer nodes if chosen ctor is intrinsic, remove intrinsic destructor statements to reduce output pollution
Property mode set to `100644`
File size: 27.7 KB

Line
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	// TypeData.cc --
8	//
9	// Author : Rodolfo G. Esteves
10	// Created On : Sat May 16 15:12:51 2015
11	// Last Modified By : Rob Schluntz
12	// Last Modified On : Thu Jan 14 10:43:42 2016
13	// Update Count : 36
14	//
15
16	#include <cassert>
17	#include <algorithm>
18	#include <iterator>
19	#include "utility.h"
20	#include "TypeData.h"
21	#include "SynTree/Type.h"
22	#include "SynTree/Declaration.h"
23	#include "SynTree/Expression.h"
24	#include "SynTree/Statement.h"
25
26	TypeData::TypeData( Kind k ) : kind( k ), base( 0 ), forall( 0 ) {
27	switch ( kind ) {
28	case Unknown:
29	case Pointer:
30	case EnumConstant:
31	// nothing else to initialize
32	break;
33	case Basic:
34	basic = new Basic_t;
35	break;
36	case Array:
37	array = new Array_t;
38	array->dimension = 0;
39	array->isVarLen = false;
40	array->isStatic = false;
41	break;
42	case Function:
43	function = new Function_t;
44	function->params = 0;
45	function->idList = 0;
46	function->oldDeclList = 0;
47	function->body = 0;
48	function->hasBody = false;
49	function->newStyle = false;
50	break;
51	case Aggregate:
52	aggregate = new Aggregate_t;
53	aggregate->params = 0;
54	aggregate->actuals = 0;
55	aggregate->fields = 0;
56	break;
57	case AggregateInst:
58	aggInst = new AggInst_t;
59	aggInst->aggregate = 0;
60	aggInst->params = 0;
61	break;
62	case Enum:
63	enumeration = new Enumeration_t;
64	enumeration->constants = 0;
65	break;
66	case Symbolic:
67	case SymbolicInst:
68	symbolic = new Symbolic_t;
69	symbolic->params = 0;
70	symbolic->actuals = 0;
71	symbolic->assertions = 0;
72	break;
73	case Variable:
74	variable = new Variable_t;
75	variable->tyClass = DeclarationNode::Type;
76	variable->assertions = 0;
77	break;
78	case Tuple:
79	tuple = new Tuple_t;
80	tuple->members = 0;
81	break;
82	case Typeof:
83	typeexpr = new Typeof_t;
84	typeexpr->expr = 0;
85	break;
86	case Attr:
87	attr = new Attr_t;
88	attr->expr = 0;
89	attr->type = 0;
90	break;
91	} // switch
92	}
93
94	TypeData::~TypeData() {
95	delete base;
96	delete forall;
97
98	switch ( kind ) {
99	case Unknown:
100	case Pointer:
101	case EnumConstant:
102	// nothing to destroy
103	break;
104	case Basic:
105	delete basic;
106	break;
107	case Array:
108	delete array->dimension;
109	delete array;
110	break;
111	case Function:
112	delete function->params;
113	delete function->idList;
114	delete function->oldDeclList;
115	delete function->body;
116	delete function;
117	break;
118	case Aggregate:
119	delete aggregate->params;
120	delete aggregate->actuals;
121	delete aggregate->fields;
122	delete aggregate;
123	break;
124	case AggregateInst:
125	delete aggInst->aggregate;
126	delete aggInst->params;
127	delete aggInst;
128	break;
129	case Enum:
130	delete enumeration->constants;
131	delete enumeration;
132	break;
133	case Symbolic:
134	case SymbolicInst:
135	delete symbolic->params;
136	delete symbolic->actuals;
137	delete symbolic->assertions;
138	delete symbolic;
139	break;
140	case Variable:
141	delete variable->assertions;
142	delete variable;
143	break;
144	case Tuple:
145	delete tuple->members;
146	delete tuple;
147	break;
148	case Typeof:
149	delete typeexpr->expr;
150	delete typeexpr;
151	break;
152	case Attr:
153	delete attr->expr;
154	delete attr->type;
155	delete attr;
156	break;
157	} // switch
158	}
159
160	TypeData *TypeData::clone() const {
161	TypeData *newtype = new TypeData( kind );
162	newtype->qualifiers = qualifiers;
163	newtype->base = maybeClone( base );
164	newtype->forall = maybeClone( forall );
165
166	switch ( kind ) {
167	case Unknown:
168	case EnumConstant:
169	case Pointer:
170	// nothing else to copy
171	break;
172	case Basic:
173	newtype->basic->typeSpec = basic->typeSpec;
174	newtype->basic->modifiers = basic->modifiers;
175	break;
176	case Array:
177	newtype->array->dimension = maybeClone( array->dimension );
178	newtype->array->isVarLen = array->isVarLen;
179	newtype->array->isStatic = array->isStatic;
180	break;
181	case Function:
182	newtype->function->params = maybeClone( function->params );
183	newtype->function->idList = maybeClone( function->idList );
184	newtype->function->oldDeclList = maybeClone( function->oldDeclList );
185	newtype->function->body = maybeClone( function->body );
186	newtype->function->hasBody = function->hasBody;
187	newtype->function->newStyle = function->newStyle;
188	break;
189	case Aggregate:
190	newtype->aggregate->params = maybeClone( aggregate->params );
191	newtype->aggregate->actuals = maybeClone( aggregate->actuals );
192	newtype->aggregate->fields = maybeClone( aggregate->fields );
193	newtype->aggregate->name = aggregate->name;
194	newtype->aggregate->kind = aggregate->kind;
195	break;
196	case AggregateInst:
197	newtype->aggInst->aggregate = maybeClone( aggInst->aggregate );
198	newtype->aggInst->params = maybeClone( aggInst->params );
199	break;
200	case Enum:
201	newtype->enumeration->name = enumeration->name;
202	newtype->enumeration->constants = maybeClone( enumeration->constants );
203	break;
204	case Symbolic:
205	case SymbolicInst:
206	newtype->symbolic->params = maybeClone( symbolic->params );
207	newtype->symbolic->actuals = maybeClone( symbolic->actuals );
208	newtype->symbolic->assertions = maybeClone( symbolic->assertions );
209	newtype->symbolic->isTypedef = symbolic->isTypedef;
210	newtype->symbolic->name = symbolic->name;
211	break;
212	case Variable:
213	newtype->variable->assertions = maybeClone( variable->assertions );
214	newtype->variable->name = variable->name;
215	newtype->variable->tyClass = variable->tyClass;
216	break;
217	case Tuple:
218	newtype->tuple->members = maybeClone( tuple->members );
219	break;
220	case Typeof:
221	newtype->typeexpr->expr = maybeClone( typeexpr->expr );
222	break;
223	case Attr:
224	newtype->attr->expr = maybeClone( attr->expr );
225	newtype->attr->type = maybeClone( attr->type );
226	break;
227	} // switch
228	return newtype;
229	}
230
231	void TypeData::print( std::ostream &os, int indent ) const {
232	using std::endl;
233	using std::string;
234
235	printEnums( qualifiers.begin(), qualifiers.end(), DeclarationNode::qualifierName, os );
236
237	if ( forall ) {
238	os << "forall " << endl;
239	forall->printList( os, indent + 4 );
240	} // if
241
242	switch ( kind ) {
243	case Unknown:
244	os << "entity of unknown type ";
245	break;
246	case Pointer:
247	os << "pointer ";
248	if ( base ) {
249	os << "to ";
250	base->print( os, indent );
251	} // if
252	break;
253	case EnumConstant:
254	os << "enumeration constant ";
255	break;
256	case Basic:
257	printEnums( basic->modifiers.begin(), basic->modifiers.end(), DeclarationNode::modifierName, os );
258	printEnums( basic->typeSpec.begin(), basic->typeSpec.end(), DeclarationNode::basicTypeName, os );
259	break;
260	case Array:
261	if ( array->isStatic ) {
262	os << "static ";
263	} // if
264	if ( array->dimension ) {
265	os << "array of ";
266	array->dimension->printOneLine( os, indent );
267	} else if ( array->isVarLen ) {
268	os << "variable-length array of ";
269	} else {
270	os << "open array of ";
271	} // if
272	if ( base ) {
273	base->print( os, indent );
274	} // if
275	break;
276	case Function:
277	os << "function" << endl;
278	if ( function->params ) {
279	os << string( indent + 2, ' ' ) << "with parameters " << endl;
280	function->params->printList( os, indent + 4 );
281	} else {
282	os << string( indent + 2, ' ' ) << "with no parameters " << endl;
283	} // if
284	if ( function->idList ) {
285	os << string( indent + 2, ' ' ) << "with old-style identifier list " << endl;
286	function->idList->printList( os, indent + 4 );
287	} // if
288	if ( function->oldDeclList ) {
289	os << string( indent + 2, ' ' ) << "with old-style declaration list " << endl;
290	function->oldDeclList->printList( os, indent + 4 );
291	} // if
292	os << string( indent + 2, ' ' ) << "returning ";
293	if ( base ) {
294	base->print( os, indent + 4 );
295	} else {
296	os << "nothing ";
297	} // if
298	os << endl;
299	if ( function->hasBody ) {
300	os << string( indent + 2, ' ' ) << "with body " << endl;
301	} // if
302	if ( function->body ) {
303	function->body->printList( os, indent + 2 );
304	} // if
305	break;
306	case Aggregate:
307	os << DeclarationNode::aggregateName[ aggregate->kind ] << ' ' << aggregate->name << endl;
308	if ( aggregate->params ) {
309	os << string( indent + 2, ' ' ) << "with type parameters " << endl;
310	aggregate->params->printList( os, indent + 4 );
311	} // if
312	if ( aggregate->actuals ) {
313	os << string( indent + 2, ' ' ) << "instantiated with actual parameters " << endl;
314	aggregate->actuals->printList( os, indent + 4 );
315	} // if
316	if ( aggregate->fields ) {
317	os << string( indent + 2, ' ' ) << "with members " << endl;
318	aggregate->fields->printList( os, indent + 4 );
319	/// } else {
320	/// os << string( indent + 2, ' ' ) << "with no members " << endl;
321	} // if
322	break;
323	case AggregateInst:
324	if ( aggInst->aggregate ) {
325	os << "instance of " ;
326	aggInst->aggregate->print( os, indent );
327	} else {
328	os << "instance of an unspecified aggregate ";
329	} // if
330	if ( aggInst->params ) {
331	os << string( indent + 2, ' ' ) << "with parameters " << endl;
332	aggInst->params->printList( os, indent + 2 );
333	} // if
334	break;
335	case Enum:
336	os << "enumeration ";
337	if ( enumeration->constants ) {
338	os << "with constants" << endl;
339	enumeration->constants->printList( os, indent + 2 );
340	} // if
341	break;
342	case SymbolicInst:
343	os << "instance of type " << symbolic->name;
344	if ( symbolic->actuals ) {
345	os << " with parameters" << endl;
346	symbolic->actuals->printList( os, indent + 2 );
347	} // if
348	break;
349	case Symbolic:
350	if ( symbolic->isTypedef ) {
351	os << "typedef definition ";
352	} else {
353	os << "type definition ";
354	} // if
355	if ( symbolic->params ) {
356	os << endl << string( indent + 2, ' ' ) << "with parameters" << endl;
357	symbolic->params->printList( os, indent + 2 );
358	} // if
359	if ( symbolic->assertions ) {
360	os << endl << string( indent + 2, ' ' ) << "with assertions" << endl;
361	symbolic->assertions->printList( os, indent + 4 );
362	os << string( indent + 2, ' ' );
363	} // if
364	if ( base ) {
365	os << "for ";
366	base->print( os, indent + 2 );
367	} // if
368	break;
369	case Variable:
370	os << DeclarationNode::typeClassName[ variable->tyClass ] << " variable ";
371	if ( variable->assertions ) {
372	os << endl << string( indent + 2, ' ' ) << "with assertions" << endl;
373	variable->assertions->printList( os, indent + 4 );
374	os << string( indent + 2, ' ' );
375	} // if
376	break;
377	case Tuple:
378	os << "tuple ";
379	if ( tuple->members ) {
380	os << "with members " << endl;
381	tuple->members->printList( os, indent + 2 );
382	} // if
383	break;
384	case Typeof:
385	os << "type-of expression ";
386	if ( typeexpr->expr ) {
387	typeexpr->expr->print( os, indent + 2 );
388	} // if
389	break;
390	case Attr:
391	os << "attribute type decl " << attr->name << " applied to ";
392	if ( attr->expr ) {
393	attr->expr->print( os, indent + 2 );
394	} // if
395	if ( attr->type ) {
396	attr->type->print( os, indent + 2 );
397	} // if
398	break;
399	default:
400	os << "internal error: TypeData::print " << kind << endl;
401	assert( false );
402	} // switch
403	}
404
405	TypeData *TypeData::extractAggregate( bool toplevel ) const {
406	TypeData *ret = 0;
407
408	switch ( kind ) {
409	case Aggregate:
410	if ( ! toplevel && aggregate->fields ) {
411	ret = clone();
412	ret->qualifiers.clear();
413	} // if
414	break;
415	case Enum:
416	if ( ! toplevel && enumeration->constants ) {
417	ret = clone();
418	ret->qualifiers.clear();
419	} // if
420	break;
421	case AggregateInst:
422	if ( aggInst->aggregate ) {
423	ret = aggInst->aggregate->extractAggregate( false );
424	} // if
425	break;
426	default:
427	if ( base ) {
428	ret = base->extractAggregate( false );
429	} // if
430	} // switch
431	return ret;
432	}
433
434	void buildForall( const DeclarationNode firstNode, std::list< TypeDecl > &outputList ) {
435	buildList( firstNode, outputList );
436	for ( std::list< TypeDecl* >::iterator i = outputList.begin(); i != outputList.end(); ++i ) {
437	if ( (*i)->get_kind() == TypeDecl::Any ) {
438	// add assertion parameters to `type' tyvars
439	// add: T * ?=?(T *, T)
440	FunctionType *assignType = new FunctionType( Type::Qualifiers(), false );
441	assignType->get_parameters().push_back( new ObjectDecl( "", DeclarationNode::NoStorageClass, LinkageSpec::Cforall, 0, new PointerType( Type::Qualifiers(), new TypeInstType( Type::Qualifiers(), (i)->get_name(), i ) ), 0 ) );
442	assignType->get_parameters().push_back( new ObjectDecl( "", DeclarationNode::NoStorageClass, LinkageSpec::Cforall, 0, new TypeInstType( Type::Qualifiers(), (i)->get_name(), i ), 0 ) );
443	assignType->get_returnVals().push_back( new ObjectDecl( "", DeclarationNode::NoStorageClass, LinkageSpec::Cforall, 0, new TypeInstType( Type::Qualifiers(), (i)->get_name(), i ), 0 ) );
444	(*i)->get_assertions().push_front( new FunctionDecl( "?=?", DeclarationNode::NoStorageClass, LinkageSpec::Cforall, assignType, 0, false, false ) );
445
446	// add: void ?{}(T *)
447	FunctionType *ctorType = new FunctionType( Type::Qualifiers(), false );
448	ctorType->get_parameters().push_back( new ObjectDecl( "", DeclarationNode::NoStorageClass, LinkageSpec::Cforall, 0, new PointerType( Type::Qualifiers(), new TypeInstType( Type::Qualifiers(), (i)->get_name(), i ) ), 0 ) );
449	(*i)->get_assertions().push_front( new FunctionDecl( "?{}", DeclarationNode::NoStorageClass, LinkageSpec::Cforall, ctorType, 0, false, false ) );
450
451	// add: void ^?{}(T *)
452	FunctionType *dtorType = new FunctionType( Type::Qualifiers(), false );
453	dtorType->get_parameters().push_back( new ObjectDecl( "", DeclarationNode::NoStorageClass, LinkageSpec::Cforall, 0, new PointerType( Type::Qualifiers(), new TypeInstType( Type::Qualifiers(), (i)->get_name(), i ) ), 0 ) );
454	(*i)->get_assertions().push_front( new FunctionDecl( "^?{}", DeclarationNode::NoStorageClass, LinkageSpec::Cforall, dtorType, 0, false, false ) );
455	} // if
456	} // for
457	}
458
459	Declaration TypeData::buildDecl( std::string name, DeclarationNode::StorageClass sc, Expression bitfieldWidth, bool isInline, bool isNoreturn, LinkageSpec::Type linkage, Initializer *init ) const {
460	if ( kind == TypeData::Function ) {
461	FunctionDecl *decl;
462	if ( function->hasBody ) {
463	if ( function->body ) {
464	Statement *stmt = function->body->build();
465	CompoundStmt body = dynamic_cast< CompoundStmt >( stmt );
466	assert( body );
467	decl = new FunctionDecl( name, sc, linkage, buildFunction(), body, isInline, isNoreturn );
468	} else {
469	// std::list<Label> ls;
470	decl = new FunctionDecl( name, sc, linkage, buildFunction(), new CompoundStmt( std::list<Label>() ), isInline, isNoreturn );
471	} // if
472	} else {
473	decl = new FunctionDecl( name, sc, linkage, buildFunction(), 0, isInline, isNoreturn );
474	} // if
475	for ( DeclarationNode cur = function->idList; cur != 0; cur = dynamic_cast< DeclarationNode >( cur->get_link() ) ) {
476	if ( cur->get_name() != "" ) {
477	decl->get_oldIdents().insert( decl->get_oldIdents().end(), cur->get_name() );
478	} // if
479	} // for
480	buildList( function->oldDeclList, decl->get_oldDecls() );
481	return decl;
482	} else if ( kind == TypeData::Aggregate ) {
483	return buildAggregate();
484	} else if ( kind == TypeData::Enum ) {
485	return buildEnum();
486	} else if ( kind == TypeData::Symbolic ) {
487	return buildSymbolic( name, sc );
488	} else if ( kind == TypeData::Variable ) {
489	return buildVariable();
490	} else {
491	return new ObjectDecl( name, sc, linkage, bitfieldWidth, build(), init, isInline, isNoreturn );
492	} // if
493	return 0;
494	}
495
496	Type *TypeData::build() const {
497	switch ( kind ) {
498	case Unknown:
499	// fill in implicit int
500	return new BasicType( buildQualifiers(), BasicType::SignedInt );
501	case Basic:
502	return buildBasicType();
503	case Pointer:
504	return buildPointer();
505	case Array:
506	return buildArray();
507	case Function:
508	return buildFunction();
509	case AggregateInst:
510	return buildAggInst();
511	case EnumConstant:
512	// the name gets filled in later -- by SymTab::Validate
513	return new EnumInstType( buildQualifiers(), "" );
514	case SymbolicInst:
515	return buildSymbolicInst();;
516	case Tuple:
517	return buildTuple();
518	case Typeof:
519	return buildTypeof();
520	case Attr:
521	return buildAttr();
522	case Symbolic:
523	case Enum:
524	case Aggregate:
525	case Variable:
526	assert( false );
527	} // switch
528	return 0;
529	}
530
531	Type::Qualifiers TypeData::buildQualifiers() const {
532	Type::Qualifiers q;
533	for ( std::list< DeclarationNode::Qualifier >::const_iterator i = qualifiers.begin(); i != qualifiers.end(); ++i ) {
534	switch ( *i ) {
535	case DeclarationNode::Const:
536	q.isConst = true;
537	break;
538	case DeclarationNode::Volatile:
539	q.isVolatile = true;
540	break;
541	case DeclarationNode::Restrict:
542	q.isRestrict = true;
543	break;
544	case DeclarationNode::Lvalue:
545	q.isLvalue = true;
546	break;
547	case DeclarationNode::Atomic:
548	q.isAtomic = true;
549	break;
550	} // switch
551	} // for
552	return q;
553	}
554
555	Type *TypeData::buildBasicType() const {
556	static const BasicType::Kind kindMap[] = { BasicType::Char, BasicType::SignedInt, BasicType::Float, BasicType::Double,
557	BasicType::Char /* void */, BasicType::Bool, BasicType::DoubleComplex,
558	BasicType::DoubleImaginary };
559	bool init = false;
560	bool sawDouble = false;
561	bool sawSigned = false;
562	BasicType::Kind ret;
563
564	for ( std::list< DeclarationNode::BasicType >::const_iterator i = basic->typeSpec.begin(); i != basic->typeSpec.end(); ++i ) {
565	if ( ! init ) {
566	init = true;
567	if ( *i == DeclarationNode::Void ) {
568	if ( basic->typeSpec.size() != 1 \|\| ! basic->modifiers.empty() ) {
569	throw SemanticError( "invalid type specifier \"void\" in type: ", this );
570	} else {
571	return new VoidType( buildQualifiers() );
572	} // if
573	} else {
574	ret = kindMap[ *i ];
575	} // if
576	} else {
577	switch ( *i ) {
578	case DeclarationNode::Float:
579	if ( sawDouble ) {
580	throw SemanticError( "invalid type specifier \"float\" in type: ", this );
581	} else {
582	switch ( ret ) {
583	case BasicType::DoubleComplex:
584	ret = BasicType::FloatComplex;
585	break;
586	case BasicType::DoubleImaginary:
587	ret = BasicType::FloatImaginary;
588	break;
589	default:
590	throw SemanticError( "invalid type specifier \"float\" in type: ", this );
591	} // switch
592	} // if
593	break;
594	case DeclarationNode::Double:
595	if ( sawDouble ) {
596	throw SemanticError( "duplicate type specifier \"double\" in type: ", this );
597	} else {
598	switch ( ret ) {
599	case BasicType::DoubleComplex:
600	case BasicType::DoubleImaginary:
601	break;
602	default:
603	throw SemanticError( "invalid type specifier \"double\" in type: ", this );
604	} // switch
605	} // if
606	break;
607	case DeclarationNode::Complex:
608	switch ( ret ) {
609	case BasicType::Float:
610	ret = BasicType::FloatComplex;
611	break;
612	case BasicType::Double:
613	ret = BasicType::DoubleComplex;
614	break;
615	default:
616	throw SemanticError( "invalid type specifier \"_Complex\" in type: ", this );
617	} // switch
618	break;
619	case DeclarationNode::Imaginary:
620	switch ( ret ) {
621	case BasicType::Float:
622	ret = BasicType::FloatImaginary;
623	break;
624	case BasicType::Double:
625	ret = BasicType::DoubleImaginary;
626	break;
627	default:
628	throw SemanticError( "invalid type specifier \"_Imaginary\" in type: ", this );
629	} // switch
630	break;
631	default:
632	throw SemanticError( std::string( "invalid type specifier \"" ) + DeclarationNode::basicTypeName[ *i ] + "\" in type: ", this );
633	} // switch
634	} // if
635	if ( *i == DeclarationNode::Double ) {
636	sawDouble = true;
637	} // if
638	} // for
639
640	for ( std::list< DeclarationNode::Modifier >::const_iterator i = basic->modifiers.begin(); i != basic->modifiers.end(); ++i ) {
641	switch ( *i ) {
642	case DeclarationNode::Long:
643	if ( ! init ) {
644	init = true;
645	ret = BasicType::LongSignedInt;
646	} else {
647	switch ( ret ) {
648	case BasicType::SignedInt:
649	ret = BasicType::LongSignedInt;
650	break;
651	case BasicType::UnsignedInt:
652	ret = BasicType::LongUnsignedInt;
653	break;
654	case BasicType::LongSignedInt:
655	ret = BasicType::LongLongSignedInt;
656	break;
657	case BasicType::LongUnsignedInt:
658	ret = BasicType::LongLongUnsignedInt;
659	break;
660	case BasicType::Double:
661	ret = BasicType::LongDouble;
662	break;
663	case BasicType::DoubleComplex:
664	ret = BasicType::LongDoubleComplex;
665	break;
666	case BasicType::DoubleImaginary:
667	ret = BasicType::LongDoubleImaginary;
668	break;
669	default:
670	throw SemanticError( "invalid type modifier \"long\" in type: ", this );
671	} // switch
672	} // if
673	break;
674	case DeclarationNode::Short:
675	if ( ! init ) {
676	init = true;
677	ret = BasicType::ShortSignedInt;
678	} else {
679	switch ( ret ) {
680	case BasicType::SignedInt:
681	ret = BasicType::ShortSignedInt;
682	break;
683	case BasicType::UnsignedInt:
684	ret = BasicType::ShortUnsignedInt;
685	break;
686	default:
687	throw SemanticError( "invalid type modifier \"short\" in type: ", this );
688	} // switch
689	} // if
690	break;
691	case DeclarationNode::Signed:
692	if ( ! init ) {
693	init = true;
694	ret = BasicType::SignedInt;
695	} else if ( sawSigned ) {
696	throw SemanticError( "duplicate type modifer \"signed\" in type: ", this );
697	} else {
698	switch ( ret ) {
699	case BasicType::LongLongSignedInt:
700	ret = BasicType::LongLongUnsignedInt;
701	break;
702	case BasicType::LongSignedInt:
703	ret = BasicType::LongUnsignedInt;
704	break;
705	case BasicType::SignedInt:
706	case BasicType::ShortSignedInt:
707	break;
708	case BasicType::Char:
709	ret = BasicType::SignedChar;
710	break;
711	default:
712	throw SemanticError( "invalid type modifer \"signed\" in type: ", this );
713	} // switch
714	} // if
715	break;
716	case DeclarationNode::Unsigned:
717	if ( ! init ) {
718	init = true;
719	ret = BasicType::UnsignedInt;
720	} else if ( sawSigned ) {
721	throw SemanticError( "invalid type modifer \"unsigned\" in type: ", this );
722	} else {
723	switch ( ret ) {
724	case BasicType::LongLongSignedInt:
725	ret = BasicType::LongLongUnsignedInt;
726	break;
727	case BasicType::LongSignedInt:
728	ret = BasicType::LongUnsignedInt;
729	break;
730	case BasicType::SignedInt:
731	ret = BasicType::UnsignedInt;
732	break;
733	case BasicType::ShortSignedInt:
734	ret = BasicType::ShortUnsignedInt;
735	break;
736	case BasicType::Char:
737	ret = BasicType::UnsignedChar;
738	break;
739	default:
740	throw SemanticError( "invalid type modifer \"unsigned\" in type: ", this );
741	} // switch
742	} // if
743	break;
744	} // switch
745
746	if ( *i == DeclarationNode::Signed ) {
747	sawSigned = true;
748	} // if
749	} // for
750
751	BasicType *bt;
752	if ( ! init ) {
753	bt = new BasicType( buildQualifiers(), BasicType::SignedInt );
754	} else {
755	bt = new BasicType( buildQualifiers(), ret );
756	} // if
757	buildForall( forall, bt->get_forall() );
758	return bt;
759	}
760
761
762	PointerType *TypeData::buildPointer() const {
763	PointerType *pt;
764	if ( base ) {
765	pt = new PointerType( buildQualifiers(), base->build() );
766	} else {
767	pt = new PointerType( buildQualifiers(), new BasicType( Type::Qualifiers(), BasicType::SignedInt ) );
768	} // if
769	buildForall( forall, pt->get_forall() );
770	return pt;
771	}
772
773	ArrayType *TypeData::buildArray() const {
774	ArrayType *at;
775	if ( base ) {
776	at = new ArrayType( buildQualifiers(), base->build(), maybeBuild< Expression >( array->dimension ),
777	array->isVarLen, array->isStatic );
778	} else {
779	at = new ArrayType( buildQualifiers(), new BasicType( Type::Qualifiers(), BasicType::SignedInt ),
780	maybeBuild< Expression >( array->dimension ), array->isVarLen, array->isStatic );
781	} // if
782	buildForall( forall, at->get_forall() );
783	return at;
784	}
785
786	FunctionType *TypeData::buildFunction() const {
787	assert( kind == Function );
788	bool hasEllipsis = function->params ? function->params->get_hasEllipsis() : true;
789	if ( ! function->params ) hasEllipsis = ! function->newStyle;
790	FunctionType *ft = new FunctionType( buildQualifiers(), hasEllipsis );
791	buildList( function->params, ft->get_parameters() );
792	buildForall( forall, ft->get_forall() );
793	if ( base ) {
794	switch ( base->kind ) {
795	case Tuple:
796	buildList( base->tuple->members, ft->get_returnVals() );
797	break;
798	default:
799	ft->get_returnVals().push_back( dynamic_cast< DeclarationWithType* >( base->buildDecl( "", DeclarationNode::NoStorageClass, 0, false, false, LinkageSpec::Cforall ) ) );
800	} // switch
801	} else {
802	ft->get_returnVals().push_back( new ObjectDecl( "", DeclarationNode::NoStorageClass, LinkageSpec::Cforall, 0, new BasicType( Type::Qualifiers(), BasicType::SignedInt ), 0 ) );
803	} // if
804	return ft;
805	}
806
807	AggregateDecl *TypeData::buildAggregate() const {
808	assert( kind == Aggregate );
809	AggregateDecl *at;
810	switch ( aggregate->kind ) {
811	case DeclarationNode::Struct:
812	at = new StructDecl( aggregate->name );
813	buildForall( aggregate->params, at->get_parameters() );
814	break;
815	case DeclarationNode::Union:
816	at = new UnionDecl( aggregate->name );
817	buildForall( aggregate->params, at->get_parameters() );
818	break;
819	case DeclarationNode::Context:
820	at = new ContextDecl( aggregate->name );
821	buildList( aggregate->params, at->get_parameters() );
822	break;
823	default:
824	assert( false );
825	} // switch
826	// buildList( aggregate->params, at->get_parameters() );
827	buildList( aggregate->fields, at->get_members() );
828
829	return at;
830	}
831
832	/// namespace {
833	/// Type*
834	/// makeType( Declaration* decl )
835	/// {
836	/// if ( DeclarationWithType dwt = dynamic_cast< DeclarationWithType >( decl ) ) {
837	/// return dwt->get_type()->clone();
838	/// } else {
839	/// return 0;
840	/// }
841	/// }
842	/// }
843
844	ReferenceToType *TypeData::buildAggInst() const {
845	assert( kind == AggregateInst );
846
847	ReferenceToType *ret;
848	if ( aggInst->aggregate->kind == Enum ) {
849	ret = new EnumInstType( buildQualifiers(), aggInst->aggregate->enumeration->name );
850	} else {
851	assert( aggInst->aggregate->kind == Aggregate );
852	switch ( aggInst->aggregate->aggregate->kind ) {
853	case DeclarationNode::Struct:
854	ret = new StructInstType( buildQualifiers(), aggInst->aggregate->aggregate->name );
855	break;
856	case DeclarationNode::Union:
857	ret = new UnionInstType( buildQualifiers(), aggInst->aggregate->aggregate->name );
858	break;
859	case DeclarationNode::Context:
860	ret = new ContextInstType( buildQualifiers(), aggInst->aggregate->aggregate->name );
861	break;
862	default:
863	assert( false );
864	} // switch
865	} // if
866	buildList( aggInst->params, ret->get_parameters() );
867	buildForall( forall, ret->get_forall() );
868	return ret;
869	}
870
871	NamedTypeDecl *TypeData::buildSymbolic( const std::string &name, DeclarationNode::StorageClass sc ) const {
872	assert( kind == Symbolic );
873	NamedTypeDecl *ret;
874	if ( symbolic->isTypedef ) {
875	ret = new TypedefDecl( name, sc, maybeBuild< Type >( base ) );
876	} else {
877	ret = new TypeDecl( name, sc, maybeBuild< Type >( base ), TypeDecl::Any );
878	} // if
879	buildList( symbolic->params, ret->get_parameters() );
880	buildList( symbolic->assertions, ret->get_assertions() );
881	return ret;
882	}
883
884	TypeDecl *TypeData::buildVariable() const {
885	assert( kind == Variable );
886	static const TypeDecl::Kind kindMap[] = { TypeDecl::Any, TypeDecl::Ftype, TypeDecl::Dtype };
887
888	TypeDecl *ret = new TypeDecl( variable->name, DeclarationNode::NoStorageClass, 0, kindMap[ variable->tyClass ] );
889	buildList( variable->assertions, ret->get_assertions() );
890	return ret;
891	}
892
893	EnumDecl *TypeData::buildEnum() const {
894	assert( kind == Enum );
895	EnumDecl *ret = new EnumDecl( enumeration->name );
896	buildList( enumeration->constants, ret->get_members() );
897	return ret;
898	}
899
900	TypeInstType *TypeData::buildSymbolicInst() const {
901	assert( kind == SymbolicInst );
902	TypeInstType *ret = new TypeInstType( buildQualifiers(), symbolic->name, false );
903	buildList( symbolic->actuals, ret->get_parameters() );
904	buildForall( forall, ret->get_forall() );
905	return ret;
906	}
907
908	TupleType *TypeData::buildTuple() const {
909	assert( kind == Tuple );
910	TupleType *ret = new TupleType( buildQualifiers() );
911	buildTypeList( tuple->members, ret->get_types() );
912	buildForall( forall, ret->get_forall() );
913	return ret;
914	}
915
916	TypeofType *TypeData::buildTypeof() const {
917	assert( kind == Typeof );
918	assert( typeexpr );
919	assert( typeexpr->expr );
920	TypeofType *ret = new TypeofType( buildQualifiers(), typeexpr->expr->build() );
921	return ret;
922	}
923
924	AttrType *TypeData::buildAttr() const {
925	assert( kind == Attr );
926	assert( attr );
927	AttrType *ret;
928	if ( attr->expr ) {
929	ret = new AttrType( buildQualifiers(), attr->name, attr->expr->build() );
930	} else {
931	assert( attr->type );
932	ret = new AttrType( buildQualifiers(), attr->name, attr->type->buildType() );
933	} // if
934	return ret;
935	}
936
937	// Local Variables: //
938	// tab-width: 4 //
939	// mode: c++ //
940	// compile-command: "make install" //
941	// End: //

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