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source: src/Parser/TypeData.cc @ 44adf1b

Last change on this file since 44adf1b was 44adf1b, checked in by Andrew Beach <ajbeach@…>, 3 months ago
Removed casts around get_next (also replaced with direct field access) that are no longer needed.
Property mode set to `100644`
File size: 43.3 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 : Peter A. Buhr
12	// Last Modified On : Fri Feb 23 08:58:30 2024
13	// Update Count : 734
14	//
15
16	#include "TypeData.h"
17
18	#include <cassert> // for assert
19	#include <ostream> // for operator<<, ostream, basic_ostream
20
21	#include "AST/Decl.hpp" // for AggregateDecl, ObjectDecl, TypeDe...
22	#include "AST/Attribute.hpp" // for Attribute
23	#include "AST/Init.hpp" // for SingleInit, ListInit
24	#include "AST/Print.hpp" // for print
25	#include "Common/SemanticError.h" // for SemanticError
26	#include "Common/utility.h" // for splice, spliceBegin
27	#include "Common/Iterate.hpp" // for reverseIterate
28	#include "Parser/ExpressionNode.h" // for ExpressionNode
29	#include "Parser/StatementNode.h" // for StatementNode
30
31	class Attribute;
32
33	using namespace std;
34
35	TypeData::TypeData( Kind k ) : location( yylloc ), kind( k ), base( nullptr ), forall( nullptr ) /, PTR1( (void)(0xdeadbeefdeadbeef)), PTR2( (void)(0xdeadbeefdeadbeef) ) / {
36	switch ( kind ) {
37	case Unknown:
38	case Pointer:
39	case Reference:
40	case EnumConstant:
41	case GlobalScope:
42	case Basic:
43	// No unique data to initialize.
44	break;
45	case Array:
46	array.dimension = nullptr;
47	array.isVarLen = false;
48	array.isStatic = false;
49	break;
50	case Function:
51	function.params = nullptr;
52	function.idList = nullptr;
53	function.oldDeclList = nullptr;
54	function.body = nullptr;
55	function.withExprs = nullptr;
56	break;
57	case Enum:
58	enumeration.name = nullptr;
59	enumeration.constants = nullptr;
60	enumeration.body = false;
61	enumeration.anon = false;
62	break;
63	case Aggregate:
64	aggregate.kind = ast::AggregateDecl::NoAggregate;
65	aggregate.name = nullptr;
66	aggregate.params = nullptr;
67	aggregate.actuals = nullptr;
68	aggregate.fields = nullptr;
69	aggregate.body = false;
70	aggregate.tagged = false;
71	aggregate.parent = nullptr;
72	aggregate.anon = false;
73	break;
74	case AggregateInst:
75	aggInst.aggregate = nullptr;
76	aggInst.params = nullptr;
77	aggInst.hoistType = false;
78	break;
79	case Symbolic:
80	case SymbolicInst:
81	symbolic.name = nullptr;
82	symbolic.params = nullptr;
83	symbolic.actuals = nullptr;
84	symbolic.assertions = nullptr;
85	break;
86	case Tuple:
87	tuple = nullptr;
88	break;
89	case Typeof:
90	case Basetypeof:
91	typeexpr = nullptr;
92	break;
93	case Vtable:
94	case Builtin:
95	// No unique data to initialize.
96	break;
97	case Qualified:
98	qualified.parent = nullptr;
99	qualified.child = nullptr;
100	break;
101	} // switch
102	} // TypeData::TypeData
103
104
105	TypeData::~TypeData() {
106	delete base;
107	delete forall;
108
109	switch ( kind ) {
110	case Unknown:
111	case Pointer:
112	case Reference:
113	case EnumConstant:
114	case GlobalScope:
115	case Basic:
116	// No unique data to deconstruct.
117	break;
118	case Array:
119	delete array.dimension;
120	break;
121	case Function:
122	delete function.params;
123	delete function.idList;
124	delete function.oldDeclList;
125	delete function.body;
126	delete function.withExprs;
127	break;
128	case Aggregate:
129	delete aggregate.name;
130	delete aggregate.params;
131	delete aggregate.actuals;
132	delete aggregate.fields;
133	break;
134	case AggregateInst:
135	delete aggInst.aggregate;
136	delete aggInst.params;
137	break;
138	case Enum:
139	delete enumeration.name;
140	delete enumeration.constants;
141	break;
142	case Symbolic:
143	case SymbolicInst:
144	delete symbolic.name;
145	delete symbolic.params;
146	delete symbolic.actuals;
147	delete symbolic.assertions;
148	break;
149	case Tuple:
150	delete tuple;
151	break;
152	case Typeof:
153	case Basetypeof:
154	delete typeexpr;
155	break;
156	case Vtable:
157	case Builtin:
158	// No unique data to deconstruct.
159	break;
160	case Qualified:
161	delete qualified.parent;
162	delete qualified.child;
163	break;
164	} // switch
165	} // TypeData::~TypeData
166
167
168	TypeData * TypeData::clone() const {
169	TypeData * newtype = new TypeData( kind );
170	newtype->qualifiers = qualifiers;
171	newtype->base = maybeCopy( base );
172	newtype->forall = maybeCopy( forall );
173
174	switch ( kind ) {
175	case Unknown:
176	case EnumConstant:
177	case Pointer:
178	case Reference:
179	case GlobalScope:
180	// nothing else to copy
181	break;
182	case Basic:
183	newtype->basictype = basictype;
184	newtype->complextype = complextype;
185	newtype->signedness = signedness;
186	newtype->length = length;
187	break;
188	case Array:
189	newtype->array.dimension = maybeCopy( array.dimension );
190	newtype->array.isVarLen = array.isVarLen;
191	newtype->array.isStatic = array.isStatic;
192	break;
193	case Function:
194	newtype->function.params = maybeCopy( function.params );
195	newtype->function.idList = maybeCopy( function.idList );
196	newtype->function.oldDeclList = maybeCopy( function.oldDeclList );
197	newtype->function.body = maybeCopy( function.body );
198	newtype->function.withExprs = maybeCopy( function.withExprs );
199	break;
200	case Aggregate:
201	newtype->aggregate.kind = aggregate.kind;
202	newtype->aggregate.name = aggregate.name ? new string( *aggregate.name ) : nullptr;
203	newtype->aggregate.parent = aggregate.parent ? new string( *aggregate.parent ) : nullptr;
204	newtype->aggregate.params = maybeCopy( aggregate.params );
205	newtype->aggregate.actuals = maybeCopy( aggregate.actuals );
206	newtype->aggregate.fields = maybeCopy( aggregate.fields );
207	newtype->aggregate.attributes = aggregate.attributes;
208	newtype->aggregate.body = aggregate.body;
209	newtype->aggregate.anon = aggregate.anon;
210	newtype->aggregate.tagged = aggregate.tagged;
211	break;
212	case AggregateInst:
213	newtype->aggInst.aggregate = maybeCopy( aggInst.aggregate );
214	newtype->aggInst.params = maybeCopy( aggInst.params );
215	newtype->aggInst.hoistType = aggInst.hoistType;
216	break;
217	case Enum:
218	newtype->enumeration.name = enumeration.name ? new string( *enumeration.name ) : nullptr;
219	newtype->enumeration.constants = maybeCopy( enumeration.constants );
220	newtype->enumeration.body = enumeration.body;
221	newtype->enumeration.anon = enumeration.anon;
222	break;
223	case Symbolic:
224	case SymbolicInst:
225	newtype->symbolic.name = symbolic.name ? new string( *symbolic.name ) : nullptr;
226	newtype->symbolic.params = maybeCopy( symbolic.params );
227	newtype->symbolic.actuals = maybeCopy( symbolic.actuals );
228	newtype->symbolic.assertions = maybeCopy( symbolic.assertions );
229	newtype->symbolic.isTypedef = symbolic.isTypedef;
230	break;
231	case Tuple:
232	newtype->tuple = maybeCopy( tuple );
233	break;
234	case Typeof:
235	case Basetypeof:
236	newtype->typeexpr = maybeCopy( typeexpr );
237	break;
238	case Vtable:
239	break;
240	case Builtin:
241	assert( builtintype == DeclarationNode::Zero \|\| builtintype == DeclarationNode::One );
242	newtype->builtintype = builtintype;
243	break;
244	case Qualified:
245	newtype->qualified.parent = maybeCopy( qualified.parent );
246	newtype->qualified.child = maybeCopy( qualified.child );
247	break;
248	} // switch
249	return newtype;
250	} // TypeData::clone
251
252
253	void TypeData::print( ostream &os, int indent ) const {
254	ast::print( os, qualifiers );
255
256	if ( forall ) {
257	os << "forall " << endl;
258	forall->printList( os, indent + 4 );
259	} // if
260
261	switch ( kind ) {
262	case Basic:
263	if ( signedness != DeclarationNode::NoSignedness ) os << DeclarationNode::signednessNames[ signedness ] << " ";
264	if ( length != DeclarationNode::NoLength ) os << DeclarationNode::lengthNames[ length ] << " ";
265	if ( complextype != DeclarationNode::NoComplexType ) os << DeclarationNode::complexTypeNames[ complextype ] << " ";
266	if ( basictype != DeclarationNode::NoBasicType ) os << DeclarationNode::basicTypeNames[ basictype ] << " ";
267	break;
268	case Pointer:
269	os << "pointer ";
270	if ( base ) {
271	os << "to ";
272	base->print( os, indent );
273	} // if
274	break;
275	case Reference:
276	os << "reference ";
277	if ( base ) {
278	os << "to ";
279	base->print( os, indent );
280	} // if
281	break;
282	case Array:
283	if ( array.isStatic ) {
284	os << "static ";
285	} // if
286	if ( array.dimension ) {
287	os << "array of ";
288	array.dimension->printOneLine( os, indent );
289	} else if ( array.isVarLen ) {
290	os << "variable-length array of ";
291	} else {
292	os << "open array of ";
293	} // if
294	if ( base ) {
295	base->print( os, indent );
296	} // if
297	break;
298	case Function:
299	os << "function" << endl;
300	if ( function.params ) {
301	os << string( indent + 2, ' ' ) << "with parameters " << endl;
302	function.params->printList( os, indent + 4 );
303	} else {
304	os << string( indent + 2, ' ' ) << "with no parameters" << endl;
305	} // if
306	if ( function.idList ) {
307	os << string( indent + 2, ' ' ) << "with old-style identifier list " << endl;
308	function.idList->printList( os, indent + 4 );
309	} // if
310	if ( function.oldDeclList ) {
311	os << string( indent + 2, ' ' ) << "with old-style declaration list " << endl;
312	function.oldDeclList->printList( os, indent + 4 );
313	} // if
314	os << string( indent + 2, ' ' ) << "returning ";
315	if ( base ) {
316	base->print( os, indent + 4 );
317	} else {
318	os << "nothing ";
319	} // if
320	os << endl;
321	if ( function.body ) {
322	os << string( indent + 2, ' ' ) << "with body " << endl;
323	function.body->printList( os, indent + 2 );
324	} // if
325	break;
326	case Aggregate:
327	os << ast::AggregateDecl::aggrString( aggregate.kind ) << ' ' << *aggregate.name << endl;
328	if ( aggregate.params ) {
329	os << string( indent + 2, ' ' ) << "with type parameters" << endl;
330	aggregate.params->printList( os, indent + 4 );
331	} // if
332	if ( aggregate.actuals ) {
333	os << string( indent + 2, ' ' ) << "instantiated with actual parameters" << endl;
334	aggregate.actuals->printList( os, indent + 4 );
335	} // if
336	if ( aggregate.fields ) {
337	os << string( indent + 2, ' ' ) << "with members" << endl;
338	aggregate.fields->printList( os, indent + 4 );
339	} // if
340	if ( aggregate.body ) {
341	os << string( indent + 2, ' ' ) << "with body" << endl;
342	} // if
343	if ( ! aggregate.attributes.empty() ) {
344	os << string( indent + 2, ' ' ) << "with attributes" << endl;
345	for ( ast::ptr<ast::Attribute> const & attr : reverseIterate( aggregate.attributes ) ) {
346	os << string( indent + 4, ' ' );
347	ast::print( os, attr, indent + 2 );
348	} // for
349	} // if
350	break;
351	case AggregateInst:
352	if ( aggInst.aggregate ) {
353	os << "instance of " ;
354	aggInst.aggregate->print( os, indent );
355	} else {
356	os << "instance of an unspecified aggregate ";
357	} // if
358	if ( aggInst.params ) {
359	os << string( indent + 2, ' ' ) << "with parameters" << endl;
360	aggInst.params->printList( os, indent + 2 );
361	} // if
362	break;
363	case Enum:
364	os << "enumeration " << *enumeration.name << endl;;
365	if ( enumeration.constants ) {
366	os << "with constants" << endl;
367	enumeration.constants->printList( os, indent + 2 );
368	} // if
369	if ( enumeration.body ) {
370	os << string( indent + 2, ' ' ) << "with body" << endl;
371	} // if
372	if ( base ) {
373	os << "for ";
374	base->print( os, indent + 2 );
375	} // if
376	break;
377	case EnumConstant:
378	os << "enumeration constant ";
379	break;
380	case Symbolic:
381	if ( symbolic.isTypedef ) {
382	os << "typedef definition ";
383	} else {
384	os << "type definition ";
385	} // if
386	if ( symbolic.params ) {
387	os << endl << string( indent + 2, ' ' ) << "with parameters" << endl;
388	symbolic.params->printList( os, indent + 2 );
389	} // if
390	if ( symbolic.assertions ) {
391	os << endl << string( indent + 2, ' ' ) << "with assertions" << endl;
392	symbolic.assertions->printList( os, indent + 4 );
393	os << string( indent + 2, ' ' );
394	} // if
395	if ( base ) {
396	os << "for ";
397	base->print( os, indent + 2 );
398	} // if
399	break;
400	case SymbolicInst:
401	os << *symbolic.name;
402	if ( symbolic.actuals ) {
403	os << "(";
404	symbolic.actuals->printList( os, indent + 2 );
405	os << ")";
406	} // if
407	break;
408	case Tuple:
409	os << "tuple ";
410	if ( tuple ) {
411	os << "with members" << endl;
412	tuple->printList( os, indent + 2 );
413	} // if
414	break;
415	case Basetypeof:
416	os << "base-";
417	#if defined(__GNUC__) && __GNUC__ >= 7
418	__attribute__((fallthrough));
419	#endif
420	// FALL THROUGH
421	case Typeof:
422	os << "type-of expression ";
423	if ( typeexpr ) {
424	typeexpr->print( os, indent + 2 );
425	} // if
426	break;
427	case Vtable:
428	os << "vtable";
429	break;
430	case Builtin:
431	os << DeclarationNode::builtinTypeNames[builtintype];
432	break;
433	case GlobalScope:
434	break;
435	case Qualified:
436	qualified.parent->print( os );
437	os << ".";
438	qualified.child->print( os );
439	break;
440	case Unknown:
441	os << "entity of unknown type ";
442	break;
443	default:
444	os << "internal error: TypeData::print " << kind << endl;
445	assert( false );
446	} // switch
447	} // TypeData::print
448
449	const std::string * TypeData::leafName() const {
450	switch ( kind ) {
451	case Unknown:
452	case Pointer:
453	case Reference:
454	case EnumConstant:
455	case GlobalScope:
456	case Array:
457	case Basic:
458	case Function:
459	case AggregateInst:
460	case Tuple:
461	case Typeof:
462	case Basetypeof:
463	case Builtin:
464	case Vtable:
465	assertf(false, "Tried to get leaf name from kind without a name: %d", kind);
466	break;
467	case Aggregate:
468	return aggregate.name;
469	case Enum:
470	return enumeration.name;
471	case Symbolic:
472	case SymbolicInst:
473	return symbolic.name;
474	case Qualified:
475	return qualified.child->leafName();
476	} // switch
477	assert(false);
478	}
479
480
481	void buildForall(
482	const DeclarationNode * firstNode,
483	std::vector<ast::ptr<ast::TypeInstType>> &outputList ) {
484	{
485	std::vector<ast::ptr<ast::Type>> tmpList;
486	buildTypeList( firstNode, tmpList );
487	for ( auto tmp : tmpList ) {
488	outputList.emplace_back(
489	strict_dynamic_cast<const ast::TypeInstType *>(
490	tmp.release() ) );
491	}
492	}
493	auto n = firstNode;
494	for ( auto i = outputList.begin() ;
495	i != outputList.end() ;
496	++i, n = n->next ) {
497	// Only the object type class adds additional assertions.
498	if ( n->variable.tyClass != ast::TypeDecl::Otype ) {
499	continue;
500	}
501
502	ast::TypeDecl const * td = i->strict_as<ast::TypeDecl>();
503	std::vector<ast::ptr<ast::DeclWithType>> newAssertions;
504	auto mutTypeDecl = ast::mutate( td );
505	const CodeLocation & location = mutTypeDecl->location;
506	*i = mutTypeDecl;
507
508	// add assertion parameters to `type' tyvars in reverse order
509	// add assignment operator: T * ?=?(T *, T)
510	newAssertions.push_back( new ast::FunctionDecl(
511	location,
512	"?=?",
513	{}, // forall
514	{}, // assertions
515	{
516	new ast::ObjectDecl(
517	location,
518	"",
519	new ast::ReferenceType( i->get() ),
520	(ast::Init *)nullptr,
521	ast::Storage::Classes(),
522	ast::Linkage::Cforall,
523	(ast::Expr *)nullptr
524	),
525	new ast::ObjectDecl(
526	location,
527	"",
528	i->get(),
529	(ast::Init *)nullptr,
530	ast::Storage::Classes(),
531	ast::Linkage::Cforall,
532	(ast::Expr *)nullptr
533	),
534	}, // params
535	{
536	new ast::ObjectDecl(
537	location,
538	"",
539	i->get(),
540	(ast::Init *)nullptr,
541	ast::Storage::Classes(),
542	ast::Linkage::Cforall,
543	(ast::Expr *)nullptr
544	),
545	}, // returns
546	(ast::CompoundStmt *)nullptr,
547	ast::Storage::Classes(),
548	ast::Linkage::Cforall
549	) );
550
551	// add default ctor: void ?{}(T *)
552	newAssertions.push_back( new ast::FunctionDecl(
553	location,
554	"?{}",
555	{}, // forall
556	{}, // assertions
557	{
558	new ast::ObjectDecl(
559	location,
560	"",
561	new ast::ReferenceType( i->get() ),
562	(ast::Init *)nullptr,
563	ast::Storage::Classes(),
564	ast::Linkage::Cforall,
565	(ast::Expr *)nullptr
566	),
567	}, // params
568	{}, // returns
569	(ast::CompoundStmt *)nullptr,
570	ast::Storage::Classes(),
571	ast::Linkage::Cforall
572	) );
573
574	// add copy ctor: void ?{}(T *, T)
575	newAssertions.push_back( new ast::FunctionDecl(
576	location,
577	"?{}",
578	{}, // forall
579	{}, // assertions
580	{
581	new ast::ObjectDecl(
582	location,
583	"",
584	new ast::ReferenceType( i->get() ),
585	(ast::Init *)nullptr,
586	ast::Storage::Classes(),
587	ast::Linkage::Cforall,
588	(ast::Expr *)nullptr
589	),
590	new ast::ObjectDecl(
591	location,
592	"",
593	i->get(),
594	(ast::Init *)nullptr,
595	ast::Storage::Classes(),
596	ast::Linkage::Cforall,
597	(ast::Expr *)nullptr
598	),
599	}, // params
600	{}, // returns
601	(ast::CompoundStmt *)nullptr,
602	ast::Storage::Classes(),
603	ast::Linkage::Cforall
604	) );
605
606	// add dtor: void ^?{}(T *)
607	newAssertions.push_back( new ast::FunctionDecl(
608	location,
609	"^?{}",
610	{}, // forall
611	{}, // assertions
612	{
613	new ast::ObjectDecl(
614	location,
615	"",
616	new ast::ReferenceType( i->get() ),
617	(ast::Init *)nullptr,
618	ast::Storage::Classes(),
619	ast::Linkage::Cforall,
620	(ast::Expr *)nullptr
621	),
622	}, // params
623	{}, // returns
624	(ast::CompoundStmt *)nullptr,
625	ast::Storage::Classes(),
626	ast::Linkage::Cforall
627	) );
628
629	spliceBegin( mutTypeDecl->assertions, newAssertions );
630	} // for
631	}
632
633
634	void buildForall(
635	const DeclarationNode * firstNode,
636	std::vector<ast::ptr<ast::TypeDecl>> &outputForall ) {
637	buildList( firstNode, outputForall );
638	auto n = firstNode;
639	for ( auto i = outputForall.begin() ;
640	i != outputForall.end() ;
641	++i, n = n->next ) {
642	// Only the object type class adds additional assertions.
643	if ( n->variable.tyClass != ast::TypeDecl::Otype ) {
644	continue;
645	}
646
647	ast::TypeDecl const * td = i->strict_as<ast::TypeDecl>();
648	std::vector<ast::ptr<ast::DeclWithType>> newAssertions;
649	auto mutTypeDecl = ast::mutate( td );
650	const CodeLocation & location = mutTypeDecl->location;
651	*i = mutTypeDecl;
652
653	// add assertion parameters to `type' tyvars in reverse order
654	// add assignment operator: T * ?=?(T *, T)
655	newAssertions.push_back( new ast::FunctionDecl(
656	location,
657	"?=?",
658	{}, // forall
659	{}, // assertions
660	{
661	new ast::ObjectDecl(
662	location,
663	"",
664	new ast::ReferenceType( new ast::TypeInstType( td->name, *i ) ),
665	(ast::Init *)nullptr,
666	ast::Storage::Classes(),
667	ast::Linkage::Cforall,
668	(ast::Expr *)nullptr
669	),
670	new ast::ObjectDecl(
671	location,
672	"",
673	new ast::TypeInstType( td->name, *i ),
674	(ast::Init *)nullptr,
675	ast::Storage::Classes(),
676	ast::Linkage::Cforall,
677	(ast::Expr *)nullptr
678	),
679	}, // params
680	{
681	new ast::ObjectDecl(
682	location,
683	"",
684	new ast::TypeInstType( td->name, *i ),
685	(ast::Init *)nullptr,
686	ast::Storage::Classes(),
687	ast::Linkage::Cforall,
688	(ast::Expr *)nullptr
689	),
690	}, // returns
691	(ast::CompoundStmt *)nullptr,
692	ast::Storage::Classes(),
693	ast::Linkage::Cforall
694	) );
695
696	// add default ctor: void ?{}(T *)
697	newAssertions.push_back( new ast::FunctionDecl(
698	location,
699	"?{}",
700	{}, // forall
701	{}, // assertions
702	{
703	new ast::ObjectDecl(
704	location,
705	"",
706	new ast::ReferenceType(
707	new ast::TypeInstType( td->name, i->get() ) ),
708	(ast::Init *)nullptr,
709	ast::Storage::Classes(),
710	ast::Linkage::Cforall,
711	(ast::Expr *)nullptr
712	),
713	}, // params
714	{}, // returns
715	(ast::CompoundStmt *)nullptr,
716	ast::Storage::Classes(),
717	ast::Linkage::Cforall
718	) );
719
720	// add copy ctor: void ?{}(T *, T)
721	newAssertions.push_back( new ast::FunctionDecl(
722	location,
723	"?{}",
724	{}, // forall
725	{}, // assertions
726	{
727	new ast::ObjectDecl(
728	location,
729	"",
730	new ast::ReferenceType(
731	new ast::TypeInstType( td->name, *i ) ),
732	(ast::Init *)nullptr,
733	ast::Storage::Classes(),
734	ast::Linkage::Cforall,
735	(ast::Expr *)nullptr
736	),
737	new ast::ObjectDecl(
738	location,
739	"",
740	new ast::TypeInstType( td->name, *i ),
741	(ast::Init *)nullptr,
742	ast::Storage::Classes(),
743	ast::Linkage::Cforall,
744	(ast::Expr *)nullptr
745	),
746	}, // params
747	{}, // returns
748	(ast::CompoundStmt *)nullptr,
749	ast::Storage::Classes(),
750	ast::Linkage::Cforall
751	) );
752
753	// add dtor: void ^?{}(T *)
754	newAssertions.push_back( new ast::FunctionDecl(
755	location,
756	"^?{}",
757	{}, // forall
758	{}, // assertions
759	{
760	new ast::ObjectDecl(
761	location,
762	"",
763	new ast::ReferenceType(
764	new ast::TypeInstType( i->get() )
765	),
766	(ast::Init *)nullptr,
767	ast::Storage::Classes(),
768	ast::Linkage::Cforall,
769	(ast::Expr *)nullptr
770	),
771	}, // params
772	{}, // returns
773	(ast::CompoundStmt *)nullptr,
774	ast::Storage::Classes(),
775	ast::Linkage::Cforall
776	) );
777
778	spliceBegin( mutTypeDecl->assertions, newAssertions );
779	} // for
780	} // buildForall
781
782
783	ast::Type * typebuild( const TypeData * td ) {
784	assert( td );
785	switch ( td->kind ) {
786	case TypeData::Unknown:
787	// fill in implicit int
788	return new ast::BasicType(
789	ast::BasicType::SignedInt,
790	buildQualifiers( td )
791	);
792	case TypeData::Basic:
793	return buildBasicType( td );
794	case TypeData::Pointer:
795	return buildPointer( td );
796	case TypeData::Array:
797	return buildArray( td );
798	case TypeData::Reference:
799	return buildReference( td );
800	case TypeData::Function:
801	return buildFunctionType( td );
802	case TypeData::AggregateInst:
803	return buildAggInst( td );
804	case TypeData::EnumConstant:
805	return new ast::EnumInstType( "", buildQualifiers( td ) );
806	case TypeData::SymbolicInst:
807	return buildSymbolicInst( td );
808	case TypeData::Tuple:
809	return buildTuple( td );
810	case TypeData::Typeof:
811	case TypeData::Basetypeof:
812	return buildTypeof( td );
813	case TypeData::Vtable:
814	return buildVtable( td );
815	case TypeData::Builtin:
816	switch ( td->builtintype ) {
817	case DeclarationNode::Zero:
818	return new ast::ZeroType();
819	case DeclarationNode::One:
820	return new ast::OneType();
821	default:
822	return new ast::VarArgsType( buildQualifiers( td ) );
823	} // switch
824	case TypeData::GlobalScope:
825	return new ast::GlobalScopeType();
826	case TypeData::Qualified:
827	return new ast::QualifiedType(
828	typebuild( td->qualified.parent ),
829	typebuild( td->qualified.child ),
830	buildQualifiers( td )
831	);
832	case TypeData::Symbolic:
833	case TypeData::Enum:
834	case TypeData::Aggregate:
835	assert( false );
836	} // switch
837
838	return nullptr;
839	} // typebuild
840
841
842	TypeData * typeextractAggregate( const TypeData * td, bool toplevel ) {
843	TypeData * ret = nullptr;
844
845	switch ( td->kind ) {
846	case TypeData::Aggregate:
847	if ( ! toplevel && td->aggregate.body ) {
848	ret = td->clone();
849	} // if
850	break;
851	case TypeData::Enum:
852	if ( ! toplevel && td->enumeration.body ) {
853	ret = td->clone();
854	} // if
855	break;
856	case TypeData::AggregateInst:
857	if ( td->aggInst.aggregate ) {
858	ret = typeextractAggregate( td->aggInst.aggregate, false );
859	} // if
860	break;
861	default:
862	if ( td->base ) {
863	ret = typeextractAggregate( td->base, false );
864	} // if
865	} // switch
866	return ret;
867	} // typeextractAggregate
868
869
870	ast::CV::Qualifiers buildQualifiers( const TypeData * td ) {
871	return td->qualifiers;
872	} // buildQualifiers
873
874
875	static string genTSError( string msg, DeclarationNode::BasicType basictype ) {
876	SemanticError( yylloc, "invalid type specifier \"%s\" for type \"%s\".", msg.c_str(), DeclarationNode::basicTypeNames[basictype] );
877	} // genTSError
878
879	ast::Type * buildBasicType( const TypeData * td ) {
880	ast::BasicType::Kind ret;
881
882	switch ( td->basictype ) {
883	case DeclarationNode::Void:
884	if ( td->signedness != DeclarationNode::NoSignedness ) {
885	genTSError( DeclarationNode::signednessNames[ td->signedness ], td->basictype );
886	} // if
887	if ( td->length != DeclarationNode::NoLength ) {
888	genTSError( DeclarationNode::lengthNames[ td->length ], td->basictype );
889	} // if
890	return new ast::VoidType( buildQualifiers( td ) );
891	break;
892
893	case DeclarationNode::Bool:
894	if ( td->signedness != DeclarationNode::NoSignedness ) {
895	genTSError( DeclarationNode::signednessNames[ td->signedness ], td->basictype );
896	} // if
897	if ( td->length != DeclarationNode::NoLength ) {
898	genTSError( DeclarationNode::lengthNames[ td->length ], td->basictype );
899	} // if
900
901	ret = ast::BasicType::Bool;
902	break;
903
904	case DeclarationNode::Char:
905	// C11 Standard 6.2.5.15: The three types char, signed char, and unsigned char are collectively called the
906	// character types. The implementation shall define char to have the same range, representation, and behavior as
907	// either signed char or unsigned char.
908	static ast::BasicType::Kind chartype[] = { ast::BasicType::SignedChar, ast::BasicType::UnsignedChar, ast::BasicType::Char };
909
910	if ( td->length != DeclarationNode::NoLength ) {
911	genTSError( DeclarationNode::lengthNames[ td->length ], td->basictype );
912	} // if
913
914	ret = chartype[ td->signedness ];
915	break;
916
917	case DeclarationNode::Int:
918	static ast::BasicType::Kind inttype[2][4] = {
919	{ ast::BasicType::ShortSignedInt, ast::BasicType::LongSignedInt, ast::BasicType::LongLongSignedInt, ast::BasicType::SignedInt },
920	{ ast::BasicType::ShortUnsignedInt, ast::BasicType::LongUnsignedInt, ast::BasicType::LongLongUnsignedInt, ast::BasicType::UnsignedInt },
921	};
922
923	Integral: ;
924	if ( td->signedness == DeclarationNode::NoSignedness ) {
925	const_cast<TypeData *>(td)->signedness = DeclarationNode::Signed;
926	} // if
927	ret = inttype[ td->signedness ][ td->length ];
928	break;
929
930	case DeclarationNode::Int128:
931	ret = td->signedness == DeclarationNode::Unsigned ? ast::BasicType::UnsignedInt128 : ast::BasicType::SignedInt128;
932	if ( td->length != DeclarationNode::NoLength ) {
933	genTSError( DeclarationNode::lengthNames[ td->length ], td->basictype );
934	} // if
935	break;
936
937	case DeclarationNode::Float:
938	case DeclarationNode::Double:
939	case DeclarationNode::LongDouble: // not set until below
940	case DeclarationNode::uuFloat80:
941	case DeclarationNode::uuFloat128:
942	case DeclarationNode::uFloat16:
943	case DeclarationNode::uFloat32:
944	case DeclarationNode::uFloat32x:
945	case DeclarationNode::uFloat64:
946	case DeclarationNode::uFloat64x:
947	case DeclarationNode::uFloat128:
948	case DeclarationNode::uFloat128x:
949	static ast::BasicType::Kind floattype[2][12] = {
950	{ ast::BasicType::FloatComplex, ast::BasicType::DoubleComplex, ast::BasicType::LongDoubleComplex, (ast::BasicType::Kind)-1, (ast::BasicType::Kind)-1, ast::BasicType::uFloat16Complex, ast::BasicType::uFloat32Complex, ast::BasicType::uFloat32xComplex, ast::BasicType::uFloat64Complex, ast::BasicType::uFloat64xComplex, ast::BasicType::uFloat128Complex, ast::BasicType::uFloat128xComplex, },
951	{ ast::BasicType::Float, ast::BasicType::Double, ast::BasicType::LongDouble, ast::BasicType::uuFloat80, ast::BasicType::uuFloat128, ast::BasicType::uFloat16, ast::BasicType::uFloat32, ast::BasicType::uFloat32x, ast::BasicType::uFloat64, ast::BasicType::uFloat64x, ast::BasicType::uFloat128, ast::BasicType::uFloat128x, },
952	};
953
954	FloatingPoint: ;
955	if ( td->signedness != DeclarationNode::NoSignedness ) {
956	genTSError( DeclarationNode::signednessNames[ td->signedness ], td->basictype );
957	} // if
958	if ( td->length == DeclarationNode::Short \|\| td->length == DeclarationNode::LongLong ) {
959	genTSError( DeclarationNode::lengthNames[ td->length ], td->basictype );
960	} // if
961	if ( td->basictype != DeclarationNode::Double && td->length == DeclarationNode::Long ) {
962	genTSError( DeclarationNode::lengthNames[ td->length ], td->basictype );
963	} // if
964	if ( td->complextype == DeclarationNode::Imaginary ) {
965	genTSError( DeclarationNode::complexTypeNames[ td->complextype ], td->basictype );
966	} // if
967	if ( (td->basictype == DeclarationNode::uuFloat80 \|\| td->basictype == DeclarationNode::uuFloat128) && td->complextype == DeclarationNode::Complex ) { // gcc unsupported
968	genTSError( DeclarationNode::complexTypeNames[ td->complextype ], td->basictype );
969	} // if
970	if ( td->length == DeclarationNode::Long ) {
971	const_cast<TypeData *>(td)->basictype = DeclarationNode::LongDouble;
972	} // if
973
974	ret = floattype[ td->complextype ][ td->basictype - DeclarationNode::Float ];
975	//printf( "XXXX %d %d %d %d\n", td->complextype, td->basictype, DeclarationNode::Float, ret );
976	break;
977
978	case DeclarationNode::NoBasicType:
979	// No basic type in declaration => default double for Complex/Imaginary and int type for integral types
980	if ( td->complextype == DeclarationNode::Complex \|\| td->complextype == DeclarationNode::Imaginary ) {
981	const_cast<TypeData *>(td)->basictype = DeclarationNode::Double;
982	goto FloatingPoint;
983	} // if
984
985	const_cast<TypeData *>(td)->basictype = DeclarationNode::Int;
986	goto Integral;
987	default:
988	assertf( false, "unknown basic type" );
989	return nullptr;
990	} // switch
991
992	ast::BasicType * bt = new ast::BasicType( ret, buildQualifiers( td ) );
993	return bt;
994	} // buildBasicType
995
996
997	ast::PointerType * buildPointer( const TypeData * td ) {
998	ast::PointerType * pt;
999	if ( td->base ) {
1000	pt = new ast::PointerType(
1001	typebuild( td->base ),
1002	buildQualifiers( td )
1003	);
1004	} else {
1005	pt = new ast::PointerType(
1006	new ast::BasicType( ast::BasicType::SignedInt ),
1007	buildQualifiers( td )
1008	);
1009	} // if
1010	return pt;
1011	} // buildPointer
1012
1013
1014	ast::ArrayType * buildArray( const TypeData * td ) {
1015	ast::ArrayType * at;
1016	if ( td->base ) {
1017	at = new ast::ArrayType(
1018	typebuild( td->base ),
1019	maybeBuild( td->array.dimension ),
1020	td->array.isVarLen ? ast::VariableLen : ast::FixedLen,
1021	td->array.isStatic ? ast::StaticDim : ast::DynamicDim,
1022	buildQualifiers( td )
1023	);
1024	} else {
1025	at = new ast::ArrayType(
1026	new ast::BasicType( ast::BasicType::SignedInt ),
1027	maybeBuild( td->array.dimension ),
1028	td->array.isVarLen ? ast::VariableLen : ast::FixedLen,
1029	td->array.isStatic ? ast::StaticDim : ast::DynamicDim,
1030	buildQualifiers( td )
1031	);
1032	} // if
1033	return at;
1034	} // buildArray
1035
1036
1037	ast::ReferenceType * buildReference( const TypeData * td ) {
1038	ast::ReferenceType * rt;
1039	if ( td->base ) {
1040	rt = new ast::ReferenceType(
1041	typebuild( td->base ),
1042	buildQualifiers( td )
1043	);
1044	} else {
1045	rt = new ast::ReferenceType(
1046	new ast::BasicType( ast::BasicType::SignedInt ),
1047	buildQualifiers( td )
1048	);
1049	} // if
1050	return rt;
1051	} // buildReference
1052
1053
1054	ast::AggregateDecl * buildAggregate( const TypeData * td, std::vector<ast::ptr<ast::Attribute>> attributes, ast::Linkage::Spec linkage ) {
1055	assert( td->kind == TypeData::Aggregate );
1056	ast::AggregateDecl * at;
1057	switch ( td->aggregate.kind ) {
1058	case ast::AggregateDecl::Struct:
1059	case ast::AggregateDecl::Coroutine:
1060	case ast::AggregateDecl::Exception:
1061	case ast::AggregateDecl::Generator:
1062	case ast::AggregateDecl::Monitor:
1063	case ast::AggregateDecl::Thread:
1064	at = new ast::StructDecl( td->location,
1065	*td->aggregate.name,
1066	td->aggregate.kind,
1067	std::move( attributes ),
1068	linkage
1069	);
1070	buildForall( td->aggregate.params, at->params );
1071	break;
1072	case ast::AggregateDecl::Union:
1073	at = new ast::UnionDecl( td->location,
1074	*td->aggregate.name,
1075	std::move( attributes ),
1076	linkage
1077	);
1078	buildForall( td->aggregate.params, at->params );
1079	break;
1080	case ast::AggregateDecl::Trait:
1081	at = new ast::TraitDecl( td->location,
1082	*td->aggregate.name,
1083	std::move( attributes ),
1084	linkage
1085	);
1086	buildList( td->aggregate.params, at->params );
1087	break;
1088	default:
1089	assert( false );
1090	} // switch
1091
1092	buildList( td->aggregate.fields, at->members );
1093	at->set_body( td->aggregate.body );
1094
1095	return at;
1096	} // buildAggregate
1097
1098
1099	ast::BaseInstType * buildComAggInst(
1100	const TypeData * td,
1101	std::vector<ast::ptr<ast::Attribute>> && attributes,
1102	ast::Linkage::Spec linkage ) {
1103	switch ( td->kind ) {
1104	case TypeData::Enum:
1105	if ( td->enumeration.body ) {
1106	ast::EnumDecl * typedecl =
1107	buildEnum( td, std::move( attributes ), linkage );
1108	return new ast::EnumInstType(
1109	typedecl,
1110	buildQualifiers( td )
1111	);
1112	} else {
1113	return new ast::EnumInstType(
1114	*td->enumeration.name,
1115	buildQualifiers( td )
1116	);
1117	} // if
1118	break;
1119	case TypeData::Aggregate:
1120	if ( td->aggregate.body ) {
1121	ast::AggregateDecl * typedecl =
1122	buildAggregate( td, std::move( attributes ), linkage );
1123	switch ( td->aggregate.kind ) {
1124	case ast::AggregateDecl::Struct:
1125	case ast::AggregateDecl::Coroutine:
1126	case ast::AggregateDecl::Monitor:
1127	case ast::AggregateDecl::Thread:
1128	return new ast::StructInstType(
1129	strict_dynamic_cast<ast::StructDecl *>( typedecl ),
1130	buildQualifiers( td )
1131	);
1132	case ast::AggregateDecl::Union:
1133	return new ast::UnionInstType(
1134	strict_dynamic_cast<ast::UnionDecl *>( typedecl ),
1135	buildQualifiers( td )
1136	);
1137	case ast::AggregateDecl::Trait:
1138	assert( false );
1139	break;
1140	default:
1141	assert( false );
1142	} // switch
1143	} else {
1144	switch ( td->aggregate.kind ) {
1145	case ast::AggregateDecl::Struct:
1146	case ast::AggregateDecl::Coroutine:
1147	case ast::AggregateDecl::Monitor:
1148	case ast::AggregateDecl::Thread:
1149	return new ast::StructInstType(
1150	*td->aggregate.name,
1151	buildQualifiers( td )
1152	);
1153	case ast::AggregateDecl::Union:
1154	return new ast::UnionInstType(
1155	*td->aggregate.name,
1156	buildQualifiers( td )
1157	);
1158	case ast::AggregateDecl::Trait:
1159	return new ast::TraitInstType(
1160	*td->aggregate.name,
1161	buildQualifiers( td )
1162	);
1163	default:
1164	assert( false );
1165	} // switch
1166	break;
1167	} // if
1168	break;
1169	default:
1170	assert( false );
1171	} // switch
1172	assert( false );
1173	} // buildAggInst
1174
1175
1176	ast::BaseInstType * buildAggInst( const TypeData * td ) {
1177	assert( td->kind == TypeData::AggregateInst );
1178
1179	ast::BaseInstType * ret = nullptr;
1180	TypeData * type = td->aggInst.aggregate;
1181	switch ( type->kind ) {
1182	case TypeData::Enum:
1183	return new ast::EnumInstType(
1184	*type->enumeration.name,
1185	buildQualifiers( type )
1186	);
1187	case TypeData::Aggregate:
1188	switch ( type->aggregate.kind ) {
1189	case ast::AggregateDecl::Struct:
1190	case ast::AggregateDecl::Coroutine:
1191	case ast::AggregateDecl::Monitor:
1192	case ast::AggregateDecl::Thread:
1193	ret = new ast::StructInstType(
1194	*type->aggregate.name,
1195	buildQualifiers( type )
1196	);
1197	break;
1198	case ast::AggregateDecl::Union:
1199	ret = new ast::UnionInstType(
1200	*type->aggregate.name,
1201	buildQualifiers( type )
1202	);
1203	break;
1204	case ast::AggregateDecl::Trait:
1205	ret = new ast::TraitInstType(
1206	*type->aggregate.name,
1207	buildQualifiers( type )
1208	);
1209	break;
1210	default:
1211	assert( false );
1212	} // switch
1213	break;
1214	default:
1215	assert( false );
1216	} // switch
1217
1218	ret->hoistType = td->aggInst.hoistType;
1219	buildList( td->aggInst.params, ret->params );
1220	return ret;
1221	} // buildAggInst
1222
1223
1224	ast::NamedTypeDecl * buildSymbolic(
1225	const TypeData * td,
1226	std::vector<ast::ptr<ast::Attribute>> attributes,
1227	const std::string & name,
1228	ast::Storage::Classes scs,
1229	ast::Linkage::Spec linkage ) {
1230	assert( td->kind == TypeData::Symbolic );
1231	ast::NamedTypeDecl * ret;
1232	assert( td->base );
1233	if ( td->symbolic.isTypedef ) {
1234	ret = new ast::TypedefDecl(
1235	td->location,
1236	name,
1237	scs,
1238	typebuild( td->base ),
1239	linkage
1240	);
1241	} else {
1242	ret = new ast::TypeDecl(
1243	td->location,
1244	name,
1245	scs,
1246	typebuild( td->base ),
1247	ast::TypeDecl::Dtype,
1248	true
1249	);
1250	} // if
1251	buildList( td->symbolic.assertions, ret->assertions );
1252	splice( ret->base.get_and_mutate()->attributes, attributes );
1253	return ret;
1254	} // buildSymbolic
1255
1256
1257	ast::EnumDecl * buildEnum(
1258	const TypeData * td,
1259	std::vector<ast::ptr<ast::Attribute>> && attributes,
1260	ast::Linkage::Spec linkage ) {
1261	assert( td->kind == TypeData::Enum );
1262	ast::Type * baseType = td->base ? typebuild(td->base) : nullptr;
1263	ast::EnumDecl * ret = new ast::EnumDecl(
1264	td->location,
1265	*td->enumeration.name,
1266	td->enumeration.typed,
1267	std::move( attributes ),
1268	linkage,
1269	baseType
1270	);
1271	buildList( td->enumeration.constants, ret->members );
1272	auto members = ret->members.begin();
1273	ret->hide = td->enumeration.hiding == EnumHiding::Hide ? ast::EnumDecl::EnumHiding::Hide : ast::EnumDecl::EnumHiding::Visible;
1274	for ( const DeclarationNode * cur = td->enumeration.constants; cur != nullptr; cur = cur->next, ++members ) {
1275	if ( cur->enumInLine ) {
1276	// Do Nothing
1277	} else if ( ret->isTyped && !ret->base && cur->has_enumeratorValue() ) {
1278	SemanticError( td->location, "Enumerator of enum(void) cannot have an explicit initializer value." );
1279	} else if ( cur->has_enumeratorValue() ) {
1280	ast::Decl * member = members->get_and_mutate();
1281	ast::ObjectDecl * object = strict_dynamic_cast<ast::ObjectDecl *>( member );
1282	object->init = new ast::SingleInit(
1283	td->location,
1284	maybeMoveBuild( cur->consume_enumeratorValue() ),
1285	ast::NoConstruct
1286	);
1287	} else if ( !cur->initializer ) {
1288	if ( baseType && (!dynamic_cast<ast::BasicType >(baseType) \|\| !dynamic_cast<ast::BasicType >(baseType)->isInteger())) {
1289	SemanticError( td->location, "Enumerators of an non-integer typed enum must be explicitly initialized." );
1290	}
1291	}
1292	// else cur is a List Initializer and has been set as init in buildList()
1293	// if
1294	} // for
1295	ret->body = td->enumeration.body;
1296	return ret;
1297	} // buildEnum
1298
1299
1300	ast::TypeInstType * buildSymbolicInst( const TypeData * td ) {
1301	assert( td->kind == TypeData::SymbolicInst );
1302	ast::TypeInstType * ret = new ast::TypeInstType(
1303	*td->symbolic.name,
1304	ast::TypeDecl::Dtype,
1305	buildQualifiers( td )
1306	);
1307	buildList( td->symbolic.actuals, ret->params );
1308	return ret;
1309	} // buildSymbolicInst
1310
1311
1312	ast::TupleType * buildTuple( const TypeData * td ) {
1313	assert( td->kind == TypeData::Tuple );
1314	std::vector<ast::ptr<ast::Type>> types;
1315	buildTypeList( td->tuple, types );
1316	ast::TupleType * ret = new ast::TupleType(
1317	std::move( types ),
1318	buildQualifiers( td )
1319	);
1320	return ret;
1321	} // buildTuple
1322
1323
1324	ast::TypeofType * buildTypeof( const TypeData * td ) {
1325	assert( td->kind == TypeData::Typeof \|\| td->kind == TypeData::Basetypeof );
1326	assert( td->typeexpr );
1327	return new ast::TypeofType(
1328	td->typeexpr->build(),
1329	td->kind == TypeData::Typeof
1330	? ast::TypeofType::Typeof : ast::TypeofType::Basetypeof,
1331	buildQualifiers( td )
1332	);
1333	} // buildTypeof
1334
1335
1336	ast::VTableType * buildVtable( const TypeData * td ) {
1337	assert( td->base );
1338	return new ast::VTableType(
1339	typebuild( td->base ),
1340	buildQualifiers( td )
1341	);
1342	} // buildVtable
1343
1344
1345	ast::FunctionDecl * buildFunctionDecl(
1346	const TypeData * td,
1347	const string &name,
1348	ast::Storage::Classes scs,
1349	ast::Function::Specs funcSpec,
1350	ast::Linkage::Spec linkage,
1351	ast::Expr * asmName,
1352	std::vector<ast::ptr<ast::Attribute>> && attributes ) {
1353	assert( td->kind == TypeData::Function );
1354	// For some reason FunctionDecl takes a bool instead of an ArgumentFlag.
1355	bool isVarArgs = !td->function.params \|\| td->function.params->hasEllipsis;
1356	ast::CV::Qualifiers cvq = buildQualifiers( td );
1357	std::vector<ast::ptr<ast::TypeDecl>> forall;
1358	std::vector<ast::ptr<ast::DeclWithType>> assertions;
1359	std::vector<ast::ptr<ast::DeclWithType>> params;
1360	std::vector<ast::ptr<ast::DeclWithType>> returns;
1361	buildList( td->function.params, params );
1362	buildForall( td->forall, forall );
1363	// Functions do not store their assertions there anymore.
1364	for ( ast::ptr<ast::TypeDecl> & type_param : forall ) {
1365	auto mut = type_param.get_and_mutate();
1366	splice( assertions, mut->assertions );
1367	}
1368	if ( td->base ) {
1369	switch ( td->base->kind ) {
1370	case TypeData::Tuple:
1371	buildList( td->base->tuple, returns );
1372	break;
1373	default:
1374	returns.push_back( dynamic_cast<ast::DeclWithType *>(
1375	buildDecl(
1376	td->base,
1377	"",
1378	ast::Storage::Classes(),
1379	(ast::Expr *)nullptr, // bitfieldWidth
1380	ast::Function::Specs(),
1381	ast::Linkage::Cforall,
1382	(ast::Expr *)nullptr // asmName
1383	)
1384	) );
1385	} // switch
1386	} else {
1387	returns.push_back( new ast::ObjectDecl(
1388	td->location,
1389	"",
1390	new ast::BasicType( ast::BasicType::SignedInt ),
1391	(ast::Init *)nullptr,
1392	ast::Storage::Classes(),
1393	ast::Linkage::Cforall
1394	) );
1395	} // if
1396	ast::Stmt * stmt = maybeBuild( td->function.body );
1397	ast::CompoundStmt * body = dynamic_cast<ast::CompoundStmt *>( stmt );
1398	ast::FunctionDecl * decl = new ast::FunctionDecl( td->location,
1399	name,
1400	std::move( forall ),
1401	std::move( assertions ),
1402	std::move( params ),
1403	std::move( returns ),
1404	body,
1405	scs,
1406	linkage,
1407	std::move( attributes ),
1408	funcSpec,
1409	(isVarArgs) ? ast::VariableArgs : ast::FixedArgs
1410	);
1411	buildList( td->function.withExprs, decl->withExprs );
1412	decl->asmName = asmName;
1413	// This may be redundant on a declaration.
1414	decl->type.get_and_mutate()->qualifiers = cvq;
1415	return decl;
1416	} // buildFunctionDecl
1417
1418
1419	ast::Decl * buildDecl(
1420	const TypeData * td,
1421	const string &name,
1422	ast::Storage::Classes scs,
1423	ast::Expr * bitfieldWidth,
1424	ast::Function::Specs funcSpec,
1425	ast::Linkage::Spec linkage,
1426	ast::Expr * asmName,
1427	ast::Init * init,
1428	std::vector<ast::ptr<ast::Attribute>> && attributes ) {
1429	if ( td->kind == TypeData::Function ) {
1430	if ( td->function.idList ) { // KR function ?
1431	buildKRFunction( td->function ); // transform into C11 function
1432	} // if
1433
1434	return buildFunctionDecl(
1435	td, name, scs, funcSpec, linkage,
1436	asmName, std::move( attributes ) );
1437	} else if ( td->kind == TypeData::Aggregate ) {
1438	return buildAggregate( td, std::move( attributes ), linkage );
1439	} else if ( td->kind == TypeData::Enum ) {
1440	return buildEnum( td, std::move( attributes ), linkage );
1441	} else if ( td->kind == TypeData::Symbolic ) {
1442	return buildSymbolic( td, std::move( attributes ), name, scs, linkage );
1443	} else {
1444	auto ret = new ast::ObjectDecl( td->location,
1445	name,
1446	typebuild( td ),
1447	init,
1448	scs,
1449	linkage,
1450	bitfieldWidth,
1451	std::move( attributes )
1452	);
1453	ret->asmName = asmName;
1454	return ret;
1455	} // if
1456	return nullptr;
1457	} // buildDecl
1458
1459
1460	ast::FunctionType * buildFunctionType( const TypeData * td ) {
1461	assert( td->kind == TypeData::Function );
1462	ast::FunctionType * ft = new ast::FunctionType(
1463	( !td->function.params \|\| td->function.params->hasEllipsis )
1464	? ast::VariableArgs : ast::FixedArgs,
1465	buildQualifiers( td )
1466	);
1467	buildTypeList( td->function.params, ft->params );
1468	buildForall( td->forall, ft->forall );
1469	if ( td->base ) {
1470	switch ( td->base->kind ) {
1471	case TypeData::Tuple:
1472	buildTypeList( td->base->tuple, ft->returns );
1473	break;
1474	default:
1475	ft->returns.push_back( typebuild( td->base ) );
1476	break;
1477	} // switch
1478	} else {
1479	ft->returns.push_back(
1480	new ast::BasicType( ast::BasicType::SignedInt ) );
1481	} // if
1482	return ft;
1483	} // buildFunctionType
1484
1485
1486	// Transform KR routine declarations into C99 routine declarations:
1487	//
1488	// rtn( a, b, c ) int a, c; double b {} => int rtn( int a, double c, int b ) {}
1489	//
1490	// The type information for each post-declaration is moved to the corresponding pre-parameter and the post-declaration
1491	// is deleted. Note, the order of the parameter names may not be the same as the declaration names. Duplicate names and
1492	// extra names are disallowed.
1493	//
1494	// Note, there is no KR routine-prototype syntax:
1495	//
1496	// rtn( a, b, c ) int a, c; double b; // invalid KR prototype
1497	// rtn(); // valid KR prototype
1498
1499	void buildKRFunction( const TypeData::Function_t & function ) {
1500	assert( ! function.params );
1501	// loop over declaration first as it is easier to spot errors
1502	for ( DeclarationNode * decl = function.oldDeclList; decl != nullptr; decl = decl->next ) {
1503	// scan ALL parameter names for each declaration name to check for duplicates
1504	for ( DeclarationNode * param = function.idList; param != nullptr; param = param->next ) {
1505	if ( decl->name == param->name ) {
1506	// type set => parameter name already transformed by a declaration names so there is a duplicate
1507	// declaration name attempting a second transformation
1508	if ( param->type ) SemanticError( param->location, "duplicate declaration name \"%s\".", param->name->c_str() );
1509	// declaration type reset => declaration already transformed by a parameter name so there is a duplicate
1510	// parameter name attempting a second transformation
1511	if ( ! decl->type ) SemanticError( param->location, "duplicate parameter name \"%s\".", param->name->c_str() );
1512	param->type = decl->type; // set copy declaration type to parameter type
1513	decl->type = nullptr; // reset declaration type
1514	// Copy and reset attributes from declaration to parameter:
1515	splice( param->attributes, decl->attributes );
1516	} // if
1517	} // for
1518	// declaration type still set => type not moved to a matching parameter so there is a missing parameter name
1519	if ( decl->type ) SemanticError( decl->location, "missing name in parameter list %s", decl->name->c_str() );
1520	} // for
1521
1522	// Parameter names without a declaration default to type int:
1523	//
1524	// rtb( a, b, c ) const char * b; {} => int rtn( int a, const char * b, int c ) {}
1525
1526	for ( DeclarationNode * param = function.idList; param != nullptr; param = param->next ) {
1527	if ( ! param->type ) { // generate type int for empty parameter type
1528	param->type = new TypeData( TypeData::Basic );
1529	param->type->basictype = DeclarationNode::Int;
1530	} // if
1531	} // for
1532
1533	function.params = function.idList; // newly modified idList becomes parameters
1534	function.idList = nullptr; // idList now empty
1535	delete function.oldDeclList; // deletes entire list
1536	function.oldDeclList = nullptr; // reset
1537	} // buildKRFunction
1538
1539	// Local Variables: //
1540	// tab-width: 4 //
1541	// mode: c++ //
1542	// compile-command: "make install" //
1543	// End: //

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