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source: src/Parser/DeclarationNode.cc @ 24cde55

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 24cde55 was ca1a547, checked in by Peter A. Buhr <pabuhr@…>, 8 years ago
fixed missing body in enumeration, removed hashBody function flag, only generate sue prototype if body
Property mode set to `100644`
File size: 34.8 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	// DeclarationNode.cc --
8	//
9	// Author : Rodolfo G. Esteves
10	// Created On : Sat May 16 12:34:05 2015
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Thu Feb 23 15:45:02 2017
13	// Update Count : 759
14	//
15
16	#include <string>
17	#include <list>
18	#include <iterator>
19	#include <algorithm>
20	#include <cassert>
21
22	#include "TypeData.h"
23
24	#include "SynTree/Attribute.h"
25	#include "SynTree/Declaration.h"
26	#include "SynTree/Expression.h"
27
28	#include "TypedefTable.h"
29	extern TypedefTable typedefTable;
30
31	using namespace std;
32
33	// These must remain in the same order as the corresponding DeclarationNode enumerations.
34	const char * DeclarationNode::storageName[] = { "extern", "static", "auto", "register", "inline", "fortran", "_Noreturn", "_Thread_local", "NoStorageClass" };
35	const char * DeclarationNode::qualifierName[] = { "const", "restrict", "volatile", "lvalue", "_Atomic", "NoQualifier" };
36	const char * DeclarationNode::basicTypeName[] = { "void", "_Bool", "char", "int", "float", "double", "long double", "NoBasicType" };
37	const char * DeclarationNode::complexTypeName[] = { "_Complex", "_Imaginary", "NoComplexType" };
38	const char * DeclarationNode::signednessName[] = { "signed", "unsigned", "NoSignedness" };
39	const char * DeclarationNode::lengthName[] = { "short", "long", "long long", "NoLength" };
40	const char * DeclarationNode::aggregateName[] = { "struct", "union", "context" };
41	const char * DeclarationNode::typeClassName[] = { "otype", "dtype", "ftype" };
42	const char * DeclarationNode::builtinTypeName[] = { "__builtin_va_list" };
43
44	UniqueName DeclarationNode::anonymous( "__anonymous" );
45
46	extern LinkageSpec::Spec linkage; // defined in parser.yy
47
48	DeclarationNode::DeclarationNode() :
49	type( nullptr ),
50	storageClass( NoStorageClass ),
51	bitfieldWidth( nullptr ),
52	isInline( false ),
53	isNoreturn( false ),
54	hasEllipsis( false ),
55	linkage( ::linkage ),
56	asmName( nullptr ),
57	initializer( nullptr ),
58	extension( false ),
59	asmStmt( nullptr ) {
60
61	// variable.name = nullptr;
62	variable.tyClass = NoTypeClass;
63	variable.assertions = nullptr;
64
65	// attr.name = nullptr;
66	attr.expr = nullptr;
67	attr.type = nullptr;
68	}
69
70	DeclarationNode::~DeclarationNode() {
71	// delete attr.name;
72	delete attr.expr;
73	delete attr.type;
74
75	// delete variable.name;
76	delete variable.assertions;
77
78	delete type;
79	delete bitfieldWidth;
80
81	delete asmStmt;
82	// asmName, no delete, passed to next stage
83	delete initializer;
84	}
85
86	DeclarationNode * DeclarationNode::clone() const {
87	DeclarationNode * newnode = new DeclarationNode;
88	newnode->set_next( maybeClone( get_next() ) );
89	newnode->name = name ? new string( *name ) : nullptr;
90
91	newnode->type = maybeClone( type );
92	newnode->storageClass = storageClass;
93	newnode->bitfieldWidth = maybeClone( bitfieldWidth );
94	newnode->isInline = isInline;
95	newnode->isNoreturn = isNoreturn;
96	newnode->enumeratorValue.reset( maybeClone( enumeratorValue.get() ) );
97	newnode->hasEllipsis = hasEllipsis;
98	newnode->linkage = linkage;
99	newnode->asmName = maybeClone( asmName );
100	cloneAll( attributes, newnode->attributes );
101	newnode->initializer = maybeClone( initializer );
102	newnode->extension = extension;
103	newnode->asmStmt = maybeClone( asmStmt );
104	newnode->error = error;
105
106	// newnode->variable.name = variable.name ? new string( *variable.name ) : nullptr;
107	newnode->variable.tyClass = variable.tyClass;
108	newnode->variable.assertions = maybeClone( variable.assertions );
109
110	// newnode->attr.name = attr.name ? new string( *attr.name ) : nullptr;
111	newnode->attr.expr = maybeClone( attr.expr );
112	newnode->attr.type = maybeClone( attr.type );
113	return newnode;
114	} // DeclarationNode::clone
115
116	bool DeclarationNode::get_hasEllipsis() const {
117	return hasEllipsis;
118	}
119
120	void DeclarationNode::print( std::ostream &os, int indent ) const {
121	os << string( indent, ' ' );
122	if ( name ) {
123	os << *name << ": ";
124	} else {
125	os << "unnamed: ";
126	} // if
127
128	if ( linkage != LinkageSpec::Cforall ) {
129	os << LinkageSpec::linkageName( linkage ) << " ";
130	} // if
131
132	if ( storageClass != NoStorageClass ) os << DeclarationNode::storageName[storageClass] << ' ';
133	if ( isInline ) os << DeclarationNode::storageName[Inline] << ' ';
134	if ( isNoreturn ) os << DeclarationNode::storageName[Noreturn] << ' ';
135	if ( type ) {
136	type->print( os, indent );
137	} else {
138	os << "untyped entity ";
139	} // if
140
141	if ( bitfieldWidth ) {
142	os << endl << string( indent + 2, ' ' ) << "with bitfield width ";
143	bitfieldWidth->printOneLine( os );
144	} // if
145
146	if ( initializer ) {
147	os << endl << string( indent + 2, ' ' ) << "with initializer ";
148	initializer->printOneLine( os );
149	os << " maybe constructed? " << initializer->get_maybeConstructed();
150
151	} // if
152
153	os << endl;
154	}
155
156	void DeclarationNode::printList( std::ostream &os, int indent ) const {
157	ParseNode::printList( os, indent );
158	if ( hasEllipsis ) {
159	os << string( indent, ' ' ) << "and a variable number of other arguments" << endl;
160	} // if
161	}
162
163	DeclarationNode * DeclarationNode::newFunction( string * name, DeclarationNode * ret, DeclarationNode * param, StatementNode * body, bool newStyle ) {
164	DeclarationNode * newnode = new DeclarationNode;
165	newnode->name = name;
166	newnode->type = new TypeData( TypeData::Function );
167	newnode->type->function.params = param;
168	newnode->type->function.newStyle = newStyle;
169	newnode->type->function.body = body;
170
171	// ignore unnamed routine declarations: void p( int (*)(int) );
172	if ( newnode->name ) {
173	typedefTable.addToEnclosingScope( *newnode->name, TypedefTable::ID );
174	} // if
175
176	if ( ret ) {
177	newnode->type->base = ret->type;
178	ret->type = nullptr;
179	delete ret;
180	} // if
181
182	return newnode;
183	} // DeclarationNode::newFunction
184
185	DeclarationNode * DeclarationNode::newQualifier( Qualifier q ) {
186	DeclarationNode * newnode = new DeclarationNode;
187	newnode->type = new TypeData();
188	newnode->type->qualifiers[ q ] = 1;
189	return newnode;
190	} // DeclarationNode::newQualifier
191
192	DeclarationNode * DeclarationNode::newForall( DeclarationNode * forall ) {
193	DeclarationNode * newnode = new DeclarationNode;
194	newnode->type = new TypeData( TypeData::Unknown );
195	newnode->type->forall = forall;
196	return newnode;
197	} // DeclarationNode::newForall
198
199	DeclarationNode * DeclarationNode::newStorageClass( DeclarationNode::StorageClass sc ) {
200	DeclarationNode * newnode = new DeclarationNode;
201	newnode->storageClass = sc;
202	return newnode;
203	} // DeclarationNode::newStorageClass
204
205	DeclarationNode * DeclarationNode::newBasicType( BasicType bt ) {
206	DeclarationNode * newnode = new DeclarationNode;
207	newnode->type = new TypeData( TypeData::Basic );
208	newnode->type->basictype = bt;
209	return newnode;
210	} // DeclarationNode::newBasicType
211
212	DeclarationNode * DeclarationNode::newComplexType( ComplexType ct ) {
213	DeclarationNode * newnode = new DeclarationNode;
214	newnode->type = new TypeData( TypeData::Basic );
215	newnode->type->complextype = ct;
216	return newnode;
217	} // DeclarationNode::newComplexType
218
219	DeclarationNode * DeclarationNode::newSignedNess( Signedness sn ) {
220	DeclarationNode * newnode = new DeclarationNode;
221	newnode->type = new TypeData( TypeData::Basic );
222	newnode->type->signedness = sn;
223	return newnode;
224	} // DeclarationNode::newSignedNess
225
226	DeclarationNode * DeclarationNode::newLength( Length lnth ) {
227	DeclarationNode * newnode = new DeclarationNode;
228	newnode->type = new TypeData( TypeData::Basic );
229	newnode->type->length = lnth;
230	return newnode;
231	} // DeclarationNode::newLength
232
233	DeclarationNode * DeclarationNode::newFromTypedef( string * name ) {
234	DeclarationNode * newnode = new DeclarationNode;
235	newnode->type = new TypeData( TypeData::SymbolicInst );
236	newnode->type->symbolic.name = name;
237	newnode->type->symbolic.isTypedef = true;
238	newnode->type->symbolic.params = nullptr;
239	return newnode;
240	} // DeclarationNode::newFromTypedef
241
242	DeclarationNode * DeclarationNode::newAggregate( Aggregate kind, const string * name, ExpressionNode * actuals, DeclarationNode * fields, bool body ) {
243	DeclarationNode * newnode = new DeclarationNode;
244	newnode->type = new TypeData( TypeData::Aggregate );
245	newnode->type->aggregate.kind = kind;
246	if ( name ) {
247	newnode->type->aggregate.name = name;
248	} else { // anonymous aggregate ?
249	newnode->type->aggregate.name = new string( anonymous.newName() );
250	} // if
251	newnode->type->aggregate.actuals = actuals;
252	newnode->type->aggregate.fields = fields;
253	newnode->type->aggregate.body = body;
254	return newnode;
255	} // DeclarationNode::newAggregate
256
257	DeclarationNode * DeclarationNode::newEnum( string * name, DeclarationNode * constants, bool body ) {
258	DeclarationNode * newnode = new DeclarationNode;
259	newnode->type = new TypeData( TypeData::Enum );
260	if ( name ) {
261	newnode->type->enumeration.name = name;
262	} else { // anonymous aggregate ?
263	newnode->type->enumeration.name = new string( anonymous.newName() );
264	} // if
265	newnode->type->enumeration.constants = constants;
266	newnode->type->enumeration.body = body;
267	return newnode;
268	} // DeclarationNode::newEnum
269
270	DeclarationNode * DeclarationNode::newEnumConstant( string * name, ExpressionNode * constant ) {
271	DeclarationNode * newnode = new DeclarationNode;
272	newnode->name = name;
273	newnode->enumeratorValue.reset( constant );
274	typedefTable.addToEnclosingScope( *newnode->name, TypedefTable::ID );
275	return newnode;
276	} // DeclarationNode::newEnumConstant
277
278	DeclarationNode * DeclarationNode::newName( string * name ) {
279	DeclarationNode * newnode = new DeclarationNode;
280	newnode->name = name;
281	return newnode;
282	} // DeclarationNode::newName
283
284	DeclarationNode * DeclarationNode::newFromTypeGen( string * name, ExpressionNode * params ) {
285	DeclarationNode * newnode = new DeclarationNode;
286	newnode->type = new TypeData( TypeData::SymbolicInst );
287	newnode->type->symbolic.name = name;
288	newnode->type->symbolic.isTypedef = false;
289	newnode->type->symbolic.actuals = params;
290	return newnode;
291	} // DeclarationNode::newFromTypeGen
292
293	DeclarationNode * DeclarationNode::newTypeParam( TypeClass tc, string * name ) {
294	DeclarationNode * newnode = new DeclarationNode;
295	newnode->type = nullptr;
296	assert( ! newnode->name );
297	// newnode->variable.name = name;
298	newnode->name = name;
299	newnode->variable.tyClass = tc;
300	newnode->variable.assertions = nullptr;
301	return newnode;
302	} // DeclarationNode::newTypeParam
303
304	DeclarationNode * DeclarationNode::newTrait( const string * name, DeclarationNode * params, DeclarationNode * asserts ) {
305	DeclarationNode * newnode = new DeclarationNode;
306	newnode->type = new TypeData( TypeData::Aggregate );
307	newnode->type->aggregate.name = name;
308	newnode->type->aggregate.kind = Trait;
309	newnode->type->aggregate.params = params;
310	newnode->type->aggregate.fields = asserts;
311	return newnode;
312	} // DeclarationNode::newTrait
313
314	DeclarationNode * DeclarationNode::newTraitUse( const string * name, ExpressionNode * params ) {
315	DeclarationNode * newnode = new DeclarationNode;
316	newnode->type = new TypeData( TypeData::AggregateInst );
317	newnode->type->aggInst.aggregate = new TypeData( TypeData::Aggregate );
318	newnode->type->aggInst.aggregate->aggregate.kind = Trait;
319	newnode->type->aggInst.aggregate->aggregate.name = name;
320	newnode->type->aggInst.params = params;
321	return newnode;
322	} // DeclarationNode::newTraitUse
323
324	DeclarationNode * DeclarationNode::newTypeDecl( string * name, DeclarationNode * typeParams ) {
325	DeclarationNode * newnode = new DeclarationNode;
326	newnode->type = new TypeData( TypeData::Symbolic );
327	newnode->type->symbolic.isTypedef = false;
328	newnode->type->symbolic.params = typeParams;
329	newnode->type->symbolic.name = name;
330	return newnode;
331	} // DeclarationNode::newTypeDecl
332
333	DeclarationNode * DeclarationNode::newPointer( DeclarationNode * qualifiers ) {
334	DeclarationNode * newnode = new DeclarationNode;
335	newnode->type = new TypeData( TypeData::Pointer );
336	return newnode->addQualifiers( qualifiers );
337	} // DeclarationNode::newPointer
338
339	DeclarationNode * DeclarationNode::newArray( ExpressionNode * size, DeclarationNode * qualifiers, bool isStatic ) {
340	DeclarationNode * newnode = new DeclarationNode;
341	newnode->type = new TypeData( TypeData::Array );
342	newnode->type->array.dimension = size;
343	newnode->type->array.isStatic = isStatic;
344	if ( newnode->type->array.dimension == nullptr \|\| newnode->type->array.dimension->isExpressionType<ConstantExpr * >() ) {
345	newnode->type->array.isVarLen = false;
346	} else {
347	newnode->type->array.isVarLen = true;
348	} // if
349	return newnode->addQualifiers( qualifiers );
350	} // DeclarationNode::newArray
351
352	DeclarationNode * DeclarationNode::newVarArray( DeclarationNode * qualifiers ) {
353	DeclarationNode * newnode = new DeclarationNode;
354	newnode->type = new TypeData( TypeData::Array );
355	newnode->type->array.dimension = nullptr;
356	newnode->type->array.isStatic = false;
357	newnode->type->array.isVarLen = true;
358	return newnode->addQualifiers( qualifiers );
359	}
360
361	DeclarationNode * DeclarationNode::newBitfield( ExpressionNode * size ) {
362	DeclarationNode * newnode = new DeclarationNode;
363	newnode->bitfieldWidth = size;
364	return newnode;
365	}
366
367	DeclarationNode * DeclarationNode::newTuple( DeclarationNode * members ) {
368	DeclarationNode * newnode = new DeclarationNode;
369	newnode->type = new TypeData( TypeData::Tuple );
370	newnode->type->tuple = members;
371	return newnode;
372	}
373
374	DeclarationNode * DeclarationNode::newTypeof( ExpressionNode * expr ) {
375	DeclarationNode * newnode = new DeclarationNode;
376	newnode->type = new TypeData( TypeData::Typeof );
377	newnode->type->typeexpr = expr;
378	return newnode;
379	}
380
381	DeclarationNode * DeclarationNode::newBuiltinType( BuiltinType bt ) {
382	DeclarationNode * newnode = new DeclarationNode;
383	newnode->type = new TypeData( TypeData::Builtin );
384	newnode->builtin = bt;
385	newnode->type->builtintype = newnode->builtin;
386	return newnode;
387	} // DeclarationNode::newBuiltinType
388
389	DeclarationNode * DeclarationNode::newAttr( string * name, ExpressionNode * expr ) {
390	DeclarationNode * newnode = new DeclarationNode;
391	newnode->type = nullptr;
392	// newnode->attr.name = name;
393	newnode->name = name;
394	newnode->attr.expr = expr;
395	return newnode;
396	}
397
398	DeclarationNode * DeclarationNode::newAttr( string * name, DeclarationNode * type ) {
399	DeclarationNode * newnode = new DeclarationNode;
400	newnode->type = nullptr;
401	// newnode->attr.name = name;
402	newnode->name = name;
403	newnode->attr.type = type;
404	return newnode;
405	}
406
407	DeclarationNode * DeclarationNode::newAttribute( string * name, ExpressionNode * expr ) {
408	DeclarationNode * newnode = new DeclarationNode;
409	newnode->type = nullptr;
410	std::list< Expression * > exprs;
411	buildList( expr, exprs );
412	newnode->attributes.push_back( new Attribute( *name, exprs ) );
413	delete name;
414	return newnode;
415	}
416
417	DeclarationNode * DeclarationNode::newAsmStmt( StatementNode * stmt ) {
418	DeclarationNode * newnode = new DeclarationNode;
419	newnode->asmStmt = stmt;
420	return newnode;
421	}
422
423	void appendError( string & dst, const string & src ) {
424	if ( src.empty() ) return;
425	if ( dst.empty() ) { dst = src; return; }
426	dst += ", " + src;
427	} // appendError
428
429	void DeclarationNode::checkQualifiers( const TypeData * src, const TypeData * dst ) {
430	TypeData::Qualifiers qsrc = src->qualifiers, qdst = dst->qualifiers; // optimization
431
432	if ( (qsrc & qdst).any() ) { // common qualifier ?
433	for ( int i = 0; i < NoQualifier; i += 1 ) { // find common qualifiers
434	if ( qsrc[i] && qdst[i] ) {
435	appendError( error, string( "duplicate " ) + DeclarationNode::qualifierName[i] );
436	} // if
437	} // for
438	} // if
439	} // DeclarationNode::checkQualifiers
440
441	void DeclarationNode::checkStorageClasses( DeclarationNode * q ) {
442	if ( storageClass != NoStorageClass && q->storageClass != NoStorageClass ) {
443	if ( storageClass == q->storageClass ) { // duplicate qualifier
444	appendError( error, string( "duplicate " ) + storageName[ storageClass ] );
445	} else { // only one storage class
446	appendError( error, string( "conflicting " ) + storageName[ storageClass ] + " & " + storageName[ q->storageClass ] );
447	q->storageClass = storageClass; // FIX ERROR, prevent assertions from triggering
448	} // if
449	} // if
450	appendError( error, q->error );
451	} // DeclarationNode::checkStorageClasses
452
453	DeclarationNode * DeclarationNode::copyStorageClasses( DeclarationNode * q ) {
454	isInline = isInline \|\| q->isInline;
455	isNoreturn = isNoreturn \|\| q->isNoreturn;
456	// do not overwrite an existing value with NoStorageClass
457	if ( q->storageClass != NoStorageClass ) {
458	assert( storageClass == NoStorageClass \|\| storageClass == q->storageClass );
459	storageClass = q->storageClass;
460	} // if
461
462	for ( Attribute *attr: reverseIterate( q->attributes ) ) {
463	attributes.push_front( attr->clone() );
464	} // for
465	return this;
466	} // DeclarationNode::copyStorageClasses
467
468	static void addQualifiersToType( TypeData &src, TypeData dst ) {
469	if ( src->forall && dst->kind == TypeData::Function ) {
470	if ( dst->forall ) {
471	dst->forall->appendList( src->forall );
472	} else {
473	dst->forall = src->forall;
474	} // if
475	src->forall = nullptr;
476	} // if
477	if ( dst->base ) {
478	addQualifiersToType( src, dst->base );
479	} else if ( dst->kind == TypeData::Function ) {
480	dst->base = src;
481	src = nullptr;
482	} else {
483	dst->qualifiers \|= src->qualifiers;
484	} // if
485	} // addQualifiersToType
486
487	DeclarationNode * DeclarationNode::addQualifiers( DeclarationNode * q ) {
488	if ( ! q ) { delete q; return this; }
489
490	checkStorageClasses( q );
491	copyStorageClasses( q );
492
493	if ( ! q->type ) {
494	delete q;
495	return this;
496	} // if
497
498	if ( ! type ) {
499	type = q->type; // reuse this structure
500	q->type = nullptr;
501	delete q;
502	return this;
503	} // if
504
505	if ( q->type->forall ) {
506	if ( type->forall ) {
507	type->forall->appendList( q->type->forall );
508	} else {
509	if ( type->kind == TypeData::Aggregate ) {
510	type->aggregate.params = q->type->forall;
511	// change implicit typedef from TYPEDEFname to TYPEGENname
512	typedefTable.changeKind( *type->aggregate.name, TypedefTable::TG );
513	} else {
514	type->forall = q->type->forall;
515	} // if
516	} // if
517	q->type->forall = nullptr;
518	} // if
519
520	checkQualifiers( q->type, type );
521	addQualifiersToType( q->type, type );
522
523	delete q;
524	return this;
525	} // addQualifiers
526
527	static void addTypeToType( TypeData &src, TypeData &dst ) {
528	if ( src->forall && dst->kind == TypeData::Function ) {
529	if ( dst->forall ) {
530	dst->forall->appendList( src->forall );
531	} else {
532	dst->forall = src->forall;
533	} // if
534	src->forall = nullptr;
535	} // if
536	if ( dst->base ) {
537	addTypeToType( src, dst->base );
538	} else {
539	switch ( dst->kind ) {
540	case TypeData::Unknown:
541	src->qualifiers \|= dst->qualifiers;
542	dst = src;
543	src = nullptr;
544	break;
545	case TypeData::Basic:
546	dst->qualifiers \|= src->qualifiers;
547	if ( src->kind != TypeData::Unknown ) {
548	assert( src->kind == TypeData::Basic );
549
550	if ( dst->basictype == DeclarationNode::NoBasicType ) {
551	dst->basictype = src->basictype;
552	} else if ( src->basictype != DeclarationNode::NoBasicType )
553	throw SemanticError( string( "conflicting type specifier " ) + DeclarationNode::basicTypeName[ src->basictype ] + " in type: ", src );
554
555	if ( dst->complextype == DeclarationNode::NoComplexType ) {
556	dst->complextype = src->complextype;
557	} else if ( src->complextype != DeclarationNode::NoComplexType )
558	throw SemanticError( string( "conflicting type specifier " ) + DeclarationNode::complexTypeName[ src->complextype ] + " in type: ", src );
559
560	if ( dst->signedness == DeclarationNode::NoSignedness ) {
561	dst->signedness = src->signedness;
562	} else if ( src->signedness != DeclarationNode::NoSignedness )
563	throw SemanticError( string( "conflicting type specifier " ) + DeclarationNode::signednessName[ src->signedness ] + " in type: ", src );
564
565	if ( dst->length == DeclarationNode::NoLength ) {
566	dst->length = src->length;
567	} else if ( dst->length == DeclarationNode::Long && src->length == DeclarationNode::Long ) {
568	dst->length = DeclarationNode::LongLong;
569	} else if ( src->length != DeclarationNode::NoLength )
570	throw SemanticError( string( "conflicting type specifier " ) + DeclarationNode::lengthName[ src->length ] + " in type: ", src );
571	} // if
572	break;
573	default:
574	switch ( src->kind ) {
575	case TypeData::Aggregate:
576	case TypeData::Enum:
577	dst->base = new TypeData( TypeData::AggregateInst );
578	dst->base->aggInst.aggregate = src;
579	if ( src->kind == TypeData::Aggregate ) {
580	dst->base->aggInst.params = maybeClone( src->aggregate.actuals );
581	} // if
582	dst->base->qualifiers \|= src->qualifiers;
583	src = nullptr;
584	break;
585	default:
586	if ( dst->forall ) {
587	dst->forall->appendList( src->forall );
588	} else {
589	dst->forall = src->forall;
590	} // if
591	src->forall = nullptr;
592	dst->base = src;
593	src = nullptr;
594	} // switch
595	} // switch
596	} // if
597	}
598
599	DeclarationNode * DeclarationNode::addType( DeclarationNode * o ) {
600	if ( o ) {
601	checkStorageClasses( o );
602	copyStorageClasses( o );
603	if ( o->type ) {
604	if ( ! type ) {
605	if ( o->type->kind == TypeData::Aggregate \|\| o->type->kind == TypeData::Enum ) {
606	type = new TypeData( TypeData::AggregateInst );
607	type->aggInst.aggregate = o->type;
608	if ( o->type->kind == TypeData::Aggregate ) {
609	type->aggInst.params = maybeClone( o->type->aggregate.actuals );
610	} // if
611	type->qualifiers \|= o->type->qualifiers;
612	} else {
613	type = o->type;
614	} // if
615	o->type = nullptr;
616	} else {
617	addTypeToType( o->type, type );
618	} // if
619	} // if
620	if ( o->bitfieldWidth ) {
621	bitfieldWidth = o->bitfieldWidth;
622	} // if
623
624	// there may be typedefs chained onto the type
625	if ( o->get_next() ) {
626	set_last( o->get_next()->clone() );
627	} // if
628	} // if
629	delete o;
630	return this;
631	}
632
633	DeclarationNode * DeclarationNode::addTypedef() {
634	TypeData * newtype = new TypeData( TypeData::Symbolic );
635	newtype->symbolic.params = nullptr;
636	newtype->symbolic.isTypedef = true;
637	newtype->symbolic.name = name ? new string( *name ) : nullptr;
638	newtype->base = type;
639	type = newtype;
640	return this;
641	}
642
643	DeclarationNode * DeclarationNode::addAssertions( DeclarationNode * assertions ) {
644	if ( variable.tyClass != NoTypeClass ) {
645	if ( variable.assertions ) {
646	variable.assertions->appendList( assertions );
647	} else {
648	variable.assertions = assertions;
649	} // if
650	return this;
651	} // if
652
653	assert( type );
654	switch ( type->kind ) {
655	case TypeData::Symbolic:
656	if ( type->symbolic.assertions ) {
657	type->symbolic.assertions->appendList( assertions );
658	} else {
659	type->symbolic.assertions = assertions;
660	} // if
661	break;
662	default:
663	assert( false );
664	} // switch
665
666	return this;
667	}
668
669	DeclarationNode * DeclarationNode::addName( string * newname ) {
670	assert( ! name );
671	name = newname;
672	return this;
673	}
674
675	DeclarationNode * DeclarationNode::addAsmName( DeclarationNode * newname ) {
676	assert( ! asmName );
677	asmName = newname ? newname->asmName : nullptr;
678	return this->addQualifiers( newname );
679	}
680
681	DeclarationNode * DeclarationNode::addBitfield( ExpressionNode * size ) {
682	bitfieldWidth = size;
683	return this;
684	}
685
686	DeclarationNode * DeclarationNode::addVarArgs() {
687	assert( type );
688	hasEllipsis = true;
689	return this;
690	}
691
692	DeclarationNode * DeclarationNode::addFunctionBody( StatementNode * body ) {
693	assert( type );
694	assert( type->kind == TypeData::Function );
695	assert( ! type->function.body );
696	type->function.body = body;
697	return this;
698	}
699
700	DeclarationNode * DeclarationNode::addOldDeclList( DeclarationNode * list ) {
701	assert( type );
702	assert( type->kind == TypeData::Function );
703	assert( ! type->function.oldDeclList );
704	type->function.oldDeclList = list;
705	return this;
706	}
707
708	DeclarationNode * DeclarationNode::setBase( TypeData * newType ) {
709	if ( type ) {
710	TypeData * prevBase = type;
711	TypeData * curBase = type->base;
712	while ( curBase != nullptr ) {
713	prevBase = curBase;
714	curBase = curBase->base;
715	} // while
716	prevBase->base = newType;
717	} else {
718	type = newType;
719	} // if
720	return this;
721	}
722
723	DeclarationNode * DeclarationNode::copyAttribute( DeclarationNode * a ) {
724	if ( a ) {
725	for ( Attribute *attr: reverseIterate( a->attributes ) ) {
726	attributes.push_front( attr );
727	} // for
728	a->attributes.clear();
729	} // if
730	return this;
731	} // copyAttribute
732
733	DeclarationNode * DeclarationNode::addPointer( DeclarationNode * p ) {
734	if ( p ) {
735	assert( p->type->kind == TypeData::Pointer );
736	setBase( p->type );
737	p->type = nullptr;
738	copyAttribute( p );
739	delete p;
740	} // if
741	return this;
742	}
743
744	DeclarationNode * DeclarationNode::addArray( DeclarationNode * a ) {
745	if ( a ) {
746	assert( a->type->kind == TypeData::Array );
747	setBase( a->type );
748	a->type = nullptr;
749	copyAttribute( a );
750	delete a;
751	} // if
752	return this;
753	}
754
755	DeclarationNode * DeclarationNode::addNewPointer( DeclarationNode * p ) {
756	if ( p ) {
757	assert( p->type->kind == TypeData::Pointer );
758	if ( type ) {
759	switch ( type->kind ) {
760	case TypeData::Aggregate:
761	case TypeData::Enum:
762	p->type->base = new TypeData( TypeData::AggregateInst );
763	p->type->base->aggInst.aggregate = type;
764	if ( type->kind == TypeData::Aggregate ) {
765	p->type->base->aggInst.params = maybeClone( type->aggregate.actuals );
766	} // if
767	p->type->base->qualifiers \|= type->qualifiers;
768	break;
769
770	default:
771	p->type->base = type;
772	} // switch
773	type = nullptr;
774	} // if
775	delete this;
776	return p;
777	} else {
778	return this;
779	} // if
780	}
781
782	static TypeData * findLast( TypeData * a ) {
783	assert( a );
784	TypeData * cur = a;
785	while ( cur->base ) {
786	cur = cur->base;
787	} // while
788	return cur;
789	}
790
791	DeclarationNode * DeclarationNode::addNewArray( DeclarationNode * a ) {
792	if ( a ) {
793	assert( a->type->kind == TypeData::Array );
794	TypeData * lastArray = findLast( a->type );
795	if ( type ) {
796	switch ( type->kind ) {
797	case TypeData::Aggregate:
798	case TypeData::Enum:
799	lastArray->base = new TypeData( TypeData::AggregateInst );
800	lastArray->base->aggInst.aggregate = type;
801	if ( type->kind == TypeData::Aggregate ) {
802	lastArray->base->aggInst.params = maybeClone( type->aggregate.actuals );
803	} // if
804	lastArray->base->qualifiers \|= type->qualifiers;
805	break;
806	default:
807	lastArray->base = type;
808	} // switch
809	type = nullptr;
810	} // if
811	delete this;
812	return a;
813	} else {
814	return this;
815	} // if
816	}
817
818	DeclarationNode * DeclarationNode::addParamList( DeclarationNode * params ) {
819	TypeData * ftype = new TypeData( TypeData::Function );
820	ftype->function.params = params;
821	setBase( ftype );
822	return this;
823	}
824
825	static TypeData * addIdListToType( TypeData * type, DeclarationNode * ids ) {
826	if ( type ) {
827	if ( type->kind != TypeData::Function ) {
828	type->base = addIdListToType( type->base, ids );
829	} else {
830	type->function.idList = ids;
831	} // if
832	return type;
833	} else {
834	TypeData * newtype = new TypeData( TypeData::Function );
835	newtype->function.idList = ids;
836	return newtype;
837	} // if
838	} // addIdListToType
839
840	DeclarationNode * DeclarationNode::addIdList( DeclarationNode * ids ) {
841	type = addIdListToType( type, ids );
842	return this;
843	}
844
845	DeclarationNode * DeclarationNode::addInitializer( InitializerNode * init ) {
846	initializer = init;
847	return this;
848	}
849
850	DeclarationNode * DeclarationNode::cloneType( string * newName ) {
851	DeclarationNode * newnode = new DeclarationNode;
852	newnode->type = maybeClone( type );
853	assert( storageClass == NoStorageClass );
854	newnode->copyStorageClasses( this );
855	assert( newName );
856	newnode->name = newName;
857	return newnode;
858	}
859
860	DeclarationNode * DeclarationNode::cloneBaseType( DeclarationNode * o ) {
861	if ( ! o ) return nullptr;
862
863	o->copyStorageClasses( this );
864	if ( type ) {
865	TypeData * srcType = type;
866
867	// search for the base type by scanning off pointers and array designators
868	while ( srcType->base ) {
869	srcType = srcType->base;
870	} // while
871
872	TypeData * newType = srcType->clone();
873	if ( newType->kind == TypeData::AggregateInst ) {
874	// don't duplicate members
875	if ( newType->aggInst.aggregate->kind == TypeData::Enum ) {
876	delete newType->aggInst.aggregate->enumeration.constants;
877	newType->aggInst.aggregate->enumeration.constants = nullptr;
878	} else {
879	assert( newType->aggInst.aggregate->kind == TypeData::Aggregate );
880	delete newType->aggInst.aggregate->aggregate.fields;
881	newType->aggInst.aggregate->aggregate.fields = nullptr;
882	} // if
883	} // if
884
885	newType->forall = maybeClone( type->forall );
886	if ( ! o->type ) {
887	o->type = newType;
888	} else {
889	addTypeToType( newType, o->type );
890	delete newType;
891	} // if
892	} // if
893	return o;
894	}
895
896	DeclarationNode * DeclarationNode::extractAggregate() const {
897	if ( type ) {
898	TypeData * ret = typeextractAggregate( type );
899	if ( ret ) {
900	DeclarationNode * newnode = new DeclarationNode;
901	newnode->type = ret;
902	return newnode;
903	} // if
904	} // if
905	return nullptr;
906	}
907
908	void buildList( const DeclarationNode * firstNode, std::list< Declaration * > &outputList ) {
909	SemanticError errors;
910	std::back_insert_iterator< std::list< Declaration * > > out( outputList );
911
912	for ( const DeclarationNode * cur = firstNode; cur; cur = dynamic_cast< DeclarationNode * >( cur->get_next() ) ) {
913	try {
914	if ( DeclarationNode * extr = cur->extractAggregate() ) {
915	// handle the case where a structure declaration is contained within an object or type declaration
916	Declaration * decl = extr->build();
917	if ( decl ) {
918	decl->location = cur->location;
919	* out++ = decl;
920	} // if
921	delete extr;
922	} // if
923
924	Declaration * decl = cur->build();
925	if ( decl ) {
926	decl->location = cur->location;
927	* out++ = decl;
928	} // if
929	} catch( SemanticError &e ) {
930	e.set_location( cur->location );
931	errors.append( e );
932	} // try
933	} // while
934
935	if ( ! errors.isEmpty() ) {
936	throw errors;
937	} // if
938	} // buildList
939
940	void buildList( const DeclarationNode * firstNode, std::list< DeclarationWithType * > &outputList ) {
941	SemanticError errors;
942	std::back_insert_iterator< std::list< DeclarationWithType * > > out( outputList );
943
944	for ( const DeclarationNode * cur = firstNode; cur; cur = dynamic_cast< DeclarationNode * >( cur->get_next() ) ) {
945	try {
946	Declaration * decl = cur->build();
947	if ( decl ) {
948	if ( DeclarationWithType * dwt = dynamic_cast< DeclarationWithType * >( decl ) ) {
949	dwt->location = cur->location;
950	* out++ = dwt;
951	} else if ( StructDecl * agg = dynamic_cast< StructDecl * >( decl ) ) {
952	StructInstType * inst = new StructInstType( Type::Qualifiers(), agg->get_name() );
953	auto obj = new ObjectDecl( "", DeclarationNode::NoStorageClass, linkage, nullptr, inst, nullptr );
954	obj->location = cur->location;
955	* out++ = obj;
956	delete agg;
957	} else if ( UnionDecl * agg = dynamic_cast< UnionDecl * >( decl ) ) {
958	UnionInstType * inst = new UnionInstType( Type::Qualifiers(), agg->get_name() );
959	auto obj = new ObjectDecl( "", DeclarationNode::NoStorageClass, linkage, nullptr, inst, nullptr );
960	obj->location = cur->location;
961	* out++ = obj;
962	} // if
963	} // if
964	} catch( SemanticError &e ) {
965	e.set_location( cur->location );
966	errors.append( e );
967	} // try
968	} // for
969
970	if ( ! errors.isEmpty() ) {
971	throw errors;
972	} // if
973	} // buildList
974
975	void buildTypeList( const DeclarationNode * firstNode, std::list< Type * > &outputList ) {
976	SemanticError errors;
977	std::back_insert_iterator< std::list< Type * > > out( outputList );
978	const DeclarationNode * cur = firstNode;
979
980	while ( cur ) {
981	try {
982	* out++ = cur->buildType();
983	} catch( SemanticError &e ) {
984	e.set_location( cur->location );
985	errors.append( e );
986	} // try
987	cur = dynamic_cast< DeclarationNode * >( cur->get_next() );
988	} // while
989
990	if ( ! errors.isEmpty() ) {
991	throw errors;
992	} // if
993	} // buildTypeList
994
995	Declaration * DeclarationNode::build() const {
996	if ( ! error.empty() ) throw SemanticError( error + " in declaration of ", this );
997
998	if ( asmStmt ) {
999	return new AsmDecl( safe_dynamic_cast<AsmStmt *>( asmStmt->build() ) );
1000	} // if
1001
1002	// if ( variable.name ) {
1003	if ( variable.tyClass != NoTypeClass ) {
1004	static const TypeDecl::Kind kindMap[] = { TypeDecl::Any, TypeDecl::Dtype, TypeDecl::Ftype, TypeDecl::Ttype };
1005	assertf( sizeof(kindMap)/sizeof(kindMap[0] == NoTypeClass-1), "DeclarationNode::build: kindMap is out of sync." );
1006	assertf( variable.tyClass < sizeof(kindMap)/sizeof(kindMap[0]), "Variable's tyClass is out of bounds." );
1007	// TypeDecl * ret = new TypeDecl( *variable.name, DeclarationNode::NoStorageClass, nullptr, kindMap[ variable.tyClass ] );
1008	TypeDecl * ret = new TypeDecl( *name, DeclarationNode::NoStorageClass, nullptr, kindMap[ variable.tyClass ] );
1009	buildList( variable.assertions, ret->get_assertions() );
1010	return ret;
1011	} // if
1012
1013	if ( type ) {
1014	return buildDecl( type, name ? *name : string( "" ), storageClass, maybeBuild< Expression >( bitfieldWidth ), isInline, isNoreturn, linkage, asmName, maybeBuild< Initializer >(initializer), attributes )->set_extension( extension );
1015	} // if
1016
1017	if ( ! isInline && ! isNoreturn ) {
1018	assertf( name, "ObjectDecl are assumed to have names\n" );
1019	return (new ObjectDecl( *name, storageClass, linkage, maybeBuild< Expression >( bitfieldWidth ), nullptr, maybeBuild< Initializer >( initializer ) ))->set_asmName( asmName )->set_extension( extension );
1020	} // if
1021
1022	throw SemanticError( "invalid function specifier ", this );
1023	}
1024
1025	Type * DeclarationNode::buildType() const {
1026	assert( type );
1027
1028	if ( attr.expr ) {
1029	// return new AttrType( buildQualifiers( type ), *attr.name, attr.expr->build() );
1030	return new AttrType( buildQualifiers( type ), *name, attr.expr->build(), attributes );
1031	} else if ( attr.type ) {
1032	// return new AttrType( buildQualifiers( type ), *attr.name, attr.type->buildType() );
1033	return new AttrType( buildQualifiers( type ), *name, attr.type->buildType(), attributes );
1034	} // if
1035
1036	switch ( type->kind ) {
1037	case TypeData::Enum: {
1038	if ( type->enumeration.body ) {
1039	EnumDecl * typedecl = buildEnum( type, attributes );
1040	return new EnumInstType( buildQualifiers( type ), typedecl );
1041	} else {
1042	return new EnumInstType( buildQualifiers( type ), *type->enumeration.name );
1043	}
1044	}
1045	case TypeData::Aggregate: {
1046	ReferenceToType * ret;
1047	if ( type->aggregate.body ) {
1048	AggregateDecl * typedecl = buildAggregate( type, attributes );
1049	switch ( type->aggregate.kind ) {
1050	case DeclarationNode::Struct:
1051	ret = new StructInstType( buildQualifiers( type ), (StructDecl *)typedecl );
1052	break;
1053	case DeclarationNode::Union:
1054	ret = new UnionInstType( buildQualifiers( type ), (UnionDecl *)typedecl );
1055	break;
1056	case DeclarationNode::Trait:
1057	assert( false );
1058	//ret = new TraitInstType( buildQualifiers( type ), (TraitDecl *)typedecl );
1059	break;
1060	default:
1061	assert( false );
1062	} // switch
1063	} else {
1064	switch ( type->aggregate.kind ) {
1065	case DeclarationNode::Struct:
1066	ret = new StructInstType( buildQualifiers( type ), *type->aggregate.name );
1067	break;
1068	case DeclarationNode::Union:
1069	ret = new UnionInstType( buildQualifiers( type ), *type->aggregate.name );
1070	break;
1071	case DeclarationNode::Trait:
1072	assert( false );
1073	//ret = new TraitInstType( buildQualifiers( type ), (TraitDecl *)typedecl );
1074	break;
1075	default:
1076	assert( false );
1077	} // switch
1078	} // if
1079	buildList( type->aggregate.actuals, ret->get_parameters() );
1080	return ret;
1081	}
1082	case TypeData::Symbolic: {
1083	TypeInstType * ret = new TypeInstType( buildQualifiers( type ), *type->symbolic.name, false, attributes );
1084	buildList( type->symbolic.actuals, ret->get_parameters() );
1085	return ret;
1086	}
1087	default:
1088	Type * simpletypes = typebuild( type );
1089	simpletypes->get_attributes() = attributes; // copy because member is const
1090	return simpletypes;
1091	} // switch
1092	}
1093
1094	// Local Variables: //
1095	// tab-width: 4 //
1096	// mode: c++ //
1097	// compile-command: "make install" //
1098	// End: //

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