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source: translator/Parser.old/ExpressionNode.cc @ 3c70d38

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Last change on this file since 3c70d38 was 51b7345, checked in by Peter A. Buhr <pabuhr@…>, 10 years ago
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1	/* -- C++ -- */
2	#include <cassert>
3	#include <cctype>
4	#include <algorithm>
5
6	#include "ParseNode.h"
7	#include "SynTree/Type.h"
8	#include "SynTree/Constant.h"
9	#include "SynTree/Expression.h"
10	#include "SynTree/Declaration.h"
11	#include "UnimplementedError.h"
12	#include "parseutility.h"
13	#include "utility.h"
14
15	using namespace std;
16
17	/// ExpressionNode::ExpressionNode() : ParseNode(), argName( 0 ) {
18	/// }
19
20	ExpressionNode::ExpressionNode( std::string name_, char filename, int lineno )
21	: ParseNode( *name_, filename, lineno ), argName( 0 )
22	{
23	delete name_;
24	}
25
26	ExpressionNode::ExpressionNode( const ExpressionNode &other )
27	: ParseNode( other.name, other.filename, other.lineno )
28	{
29	if( other.argName ) {
30	argName = other.argName->clone();
31	} else {
32	argName = 0;
33	}
34	}
35
36	ExpressionNode * ExpressionNode::set_asArgName( struct token &tok ) {
37	argName = new VarRefNode( tok );
38	return this;
39	}
40
41	ExpressionNode * ExpressionNode::set_asArgName( ExpressionNode *aDesignator ) {
42	argName = aDesignator;
43	return this;
44	}
45
46	void ExpressionNode::printDesignation( std::ostream &os, int indent ) const {
47	if( argName ) {
48	os << string(' ', indent) << "(designated by: ";
49	argName->printOneLine(os, indent );
50	os << ")" << std::endl;
51	}
52	}
53
54	NullExprNode::NullExprNode( char *filename, int lineno )
55	: ExpressionNode( &nullstr, filename, lineno )
56	{
57	}
58
59	NullExprNode *
60	NullExprNode::clone() const
61	{
62	return new NullExprNode( filename, lineno );
63	}
64
65	void
66	NullExprNode::print(std::ostream & os, int indent) const
67	{
68	printDesignation(os);
69	os << "null expression";
70	}
71
72	void
73	NullExprNode::printOneLine(std::ostream & os, int indent) const
74	{
75	printDesignation(os);
76	os << "null";
77	}
78
79	Expression *
80	NullExprNode::build() const
81	{
82	return 0;
83	}
84
85	CommaExprNode ExpressionNode::add_to_list(ExpressionNode exp){
86	return new CommaExprNode(this, exp );
87	}
88
89	// enum ConstantNode::Type = { Integer, Float, Character, String, Range }
90
91	/// ConstantNode::ConstantNode() :
92	/// ExpressionNode(), sign(true), longs(0), size(0)
93	/// {}
94
95	ConstantNode::ConstantNode( struct token &tok ) :
96	ExpressionNode( tok.str, tok.filename, tok.lineno ), sign(true), longs(0), size(0)
97	{}
98
99	ConstantNode::ConstantNode( Type t, struct token &tok ) :
100	ExpressionNode( tok.str, tok.filename, tok.lineno ), type(t), sign(true), longs(0), size(0)
101	{
102	if( tok.str ) {
103	value = *tok.str;
104	delete tok.str;
105	} else {
106	value = "";
107	}
108
109	classify(value);
110	}
111
112	ConstantNode::ConstantNode( const ConstantNode &other )
113	: ExpressionNode( other ), type( other.type ), value( other.value ), sign( other.sign ), base( other.base ), longs( other.longs ), size( other.size )
114	{
115	}
116
117	// for some reason, std::tolower doesn't work as an argument to std::transform in g++ 3.1
118	inline char
119	tolower_hack( char c )
120	{
121	return std::tolower( c );
122	}
123
124	void ConstantNode::classify(std::string &str){
125	switch(type){
126	case Integer:
127	case Float:
128	{
129	std::string sfx("");
130	char c;
131	int i = str.length() - 1;
132
133	while( i >= 0 && !isxdigit(c = str.at(i--)) )
134	sfx += c;
135
136	value = str.substr( 0, i + 2 );
137
138	// get rid of underscores
139	value.erase(remove(value.begin(), value.end(), '_'), value.end());
140
141	std::transform(sfx.begin(), sfx.end(), sfx.begin(), tolower_hack);
142
143	if( sfx.find("ll") != string::npos ){
144	longs = 2;
145	} else if (sfx.find("l") != string::npos ){
146	longs = 1;
147	}
148
149	assert((longs >= 0) && (longs <= 2));
150
151	if( sfx.find("u") != string::npos )
152	sign = false;
153
154	break;
155	}
156	case Character:
157	{
158	// remove underscores from hex and oct escapes
159	if(str.substr(1,2) == "\\x")
160	value.erase(remove(value.begin(), value.end(), '_'), value.end());
161
162	break;
163	}
164	default:
165	// shouldn't be here
166	;
167	}
168	}
169
170	ConstantNode::Type ConstantNode::get_type(void) const {
171	return type;
172	}
173
174	ConstantNode*
175	ConstantNode::append( std::string *newValue )
176	{
177	if( newValue ) {
178	if (type == String){
179	std::string temp = *newValue;
180	value.resize( value.size() - 1 );
181	value += newValue->substr(1, newValue->size());
182	} else
183	value += *newValue;
184
185	delete newValue;
186	}
187	return this;
188	}
189
190	void ConstantNode::printOneLine(std::ostream &os, int indent ) const
191	{
192	os << string(indent, ' ');
193	printDesignation(os);
194
195	switch( type ) {
196	/* integers */
197	case Integer:
198	os << value ;
199	break;
200	case Float:
201	os << value ;
202	break;
203
204	case Character:
205	os << "'" << value << "'";
206	break;
207
208	case String:
209	os << '"' << value << '"';
210	break;
211	}
212
213	os << ' ';
214	}
215
216	void ConstantNode::print(std::ostream &os, int indent ) const
217	{
218	printOneLine( os, indent );
219	os << endl;
220	}
221
222	Expression *ConstantNode::build() const {
223	Type::Qualifiers q;
224	BasicType *bt;
225
226	switch(get_type()){
227	case Integer:
228	/* Cfr. standard 6.4.4.1 */
229	//bt.set_kind(BasicType::SignedInt);
230	bt = new BasicType(q, BasicType::SignedInt);
231	break;
232
233	case Float:
234	bt = new BasicType(q, BasicType::Float);
235	break;
236
237	case Character:
238	bt = new BasicType(q, BasicType::Char);
239	break;
240
241	case String:
242	// string should probably be a primitive type
243	ArrayType *at;
244	std::string value = get_value();
245	at = new ArrayType(q, new BasicType(q, BasicType::Char),
246	new ConstantExpr( Constant( new BasicType(q, BasicType::SignedInt),
247	toString( value.size() - 1 ) ) ), // account for '\0'
248	false, false );
249
250	return new ConstantExpr( Constant(at, value), maybeBuild< Expression >( get_argName() ) );
251	}
252
253	return new ConstantExpr( Constant(bt, get_value()), maybeBuild< Expression >( get_argName() ) );
254	}
255
256
257	/// VarRefNode::VarRefNode() : isLabel(false) {}
258
259	VarRefNode::VarRefNode( struct token &tok, bool labelp ) :
260	ExpressionNode( tok.str, tok.filename, tok.lineno ), isLabel(labelp) {}
261
262	VarRefNode::VarRefNode( const VarRefNode &other )
263	: ExpressionNode( other ), isLabel( other.isLabel )
264	{
265	}
266
267	Expression *VarRefNode::build() const {
268	return new NameExpr( get_name(), maybeBuild< Expression >( get_argName() ) );
269	}
270
271	void VarRefNode::printOneLine(std::ostream &os, int indent ) const {
272	printDesignation(os);
273	os << get_name() << ' ';
274	}
275
276	void VarRefNode::print(std::ostream &os, int indent ) const {
277	printDesignation(os);
278	os << '\r' << string(indent, ' ') << "Referencing: ";
279
280	os << "Variable: " << get_name();
281
282	os << endl;
283	}
284
285	std::string nullstr = "";
286
287	OperatorNode::OperatorNode( Type t, char *filename, int lineno )
288	: ExpressionNode( &nullstr, filename, lineno ), type(t) {}
289
290	OperatorNode::OperatorNode( const OperatorNode &other )
291	: ExpressionNode( other ), type( other.type )
292	{
293	}
294
295	OperatorNode::~OperatorNode() {}
296
297	OperatorNode::Type OperatorNode::get_type(void) const{
298	return type;
299	}
300
301	void OperatorNode::printOneLine( std::ostream &os, int indent ) const
302	{
303	printDesignation(os);
304	os << OpName[ type ] << ' ';
305	}
306
307	void OperatorNode::print( std::ostream &os, int indent ) const{
308	printDesignation(os);
309	os << '\r' << string(indent, ' ') << "Operator: " << OpName[type] << endl;
310
311	return;
312	}
313
314	std::string OperatorNode::get_typename(void) const{
315	return string(OpName[ type ]);
316	}
317
318	const char *OperatorNode::OpName[] =
319	{ "TupleC", "Comma", "TupleFieldSel",// "TuplePFieldSel", //n-adic
320	// triadic
321	"Cond", "NCond",
322	// diadic
323	"SizeOf", "AlignOf", "CompLit", "Plus", "Minus", "Mul", "Div", "Mod", "Or",
324	"And", "BitOr", "BitAnd", "Xor", "Cast", "LShift", "RShift", "LThan", "GThan",
325	"LEThan", "GEThan", "Eq", "Neq", "Assign", "MulAssn", "DivAssn", "ModAssn", "PlusAssn",
326	"MinusAssn", "LSAssn", "RSAssn", "AndAssn", "ERAssn", "OrAssn", "Index", "FieldSel","PFieldSel",
327	"Range",
328	// monadic
329	"UnPlus", "UnMinus", "AddressOf", "PointTo", "Neg", "BitNeg", "Incr", "IncrPost", "Decr", "DecrPost", "LabelAddress"
330	};
331
332	/// CompositeExprNode::CompositeExprNode(void) : ExpressionNode(), function( 0 ), arguments( 0 ) {
333	/// }
334
335	CompositeExprNode::CompositeExprNode( struct token &tok )
336	: ExpressionNode( tok.str, tok.filename, tok.lineno ), function( 0 ), arguments( 0 )
337	{
338	}
339
340	CompositeExprNode::CompositeExprNode(ExpressionNode f, ExpressionNode args)
341	: ExpressionNode( &nullstr, f->filename, min( f->get_lineno(), args->get_lineno() ) ), function(f), arguments(args)
342	{
343	}
344
345	CompositeExprNode::CompositeExprNode(ExpressionNode f, ExpressionNode arg1, ExpressionNode *arg2)
346	: ExpressionNode( &nullstr, f->filename, min( f->get_lineno(), arg1->get_lineno() ) ), function(f), arguments(arg1)
347	{
348	arguments->set_link(arg2);
349	}
350
351	CompositeExprNode::CompositeExprNode( const CompositeExprNode &other )
352	: ExpressionNode( other ), function( maybeClone( other.function ) )
353	{
354	ParseNode *cur = other.arguments;
355	while( cur ) {
356	if( arguments ) {
357	arguments->set_link( cur->clone() );
358	} else {
359	arguments = (ExpressionNode*)cur->clone();
360	}
361	cur = cur->get_link();
362	}
363	}
364
365	CompositeExprNode::~CompositeExprNode()
366	{
367	delete function;
368	delete arguments;
369	}
370
371	// the names that users use to define operator functions
372	static const char *opFuncName[] =
373	{ "", "", "",
374	"", "",
375	// diadic
376	"", "", "", "?+?", "?-?", "?*?", "?/?", "?%?", "", "",
377	"?\|?", "?&?", "?^?", "", "?<<?", "?>>?", "?<?", "?>?", "?<=?",
378	"?>=?", "?==?", "?!=?", "?=?", "?*=?", "?/=?", "?%=?", "?+=?", "?-=?",
379	"?<<=?", "?>>=?", "?&=?", "?^=?", "?\|=?", "?[?]", "","","Range",
380	// monadic
381	"+?", "-?", "", "*?", "!?", "~?", "++?", "?++", "--?", "?--", "LabAddress"
382	};
383
384	Expression *CompositeExprNode::build() const {
385	OperatorNode *op;
386	std::list<Expression *> args;
387
388	buildList(get_args(), args);
389
390	if (!( op = dynamic_cast<OperatorNode *>(function)) ){
391	// a function as opposed to an operator
392	return new UntypedExpr(function->build(), args, maybeBuild< Expression >( get_argName() ));
393
394	} else {
395
396	switch(op->get_type()){
397	case OperatorNode::Incr:
398	case OperatorNode::Decr:
399	case OperatorNode::IncrPost:
400	case OperatorNode::DecrPost:
401	case OperatorNode::Assign:
402	case OperatorNode::MulAssn:
403	case OperatorNode::DivAssn:
404	case OperatorNode::ModAssn:
405	case OperatorNode::PlusAssn:
406	case OperatorNode::MinusAssn:
407	case OperatorNode::LSAssn:
408	case OperatorNode::RSAssn:
409	case OperatorNode::AndAssn:
410	case OperatorNode::ERAssn:
411	case OperatorNode::OrAssn:
412	// the rewrite rules for these expressions specify that the first argument has its address taken
413	assert( !args.empty() );
414	args.front() = new AddressExpr( args.front() );
415	break;
416
417	default:
418	/* do nothing */
419	;
420	}
421
422	switch(op->get_type()){
423
424	case OperatorNode::Incr:
425	case OperatorNode::Decr:
426	case OperatorNode::IncrPost:
427	case OperatorNode::DecrPost:
428	case OperatorNode::Assign:
429	case OperatorNode::MulAssn:
430	case OperatorNode::DivAssn:
431	case OperatorNode::ModAssn:
432	case OperatorNode::PlusAssn:
433	case OperatorNode::MinusAssn:
434	case OperatorNode::LSAssn:
435	case OperatorNode::RSAssn:
436	case OperatorNode::AndAssn:
437	case OperatorNode::ERAssn:
438	case OperatorNode::OrAssn:
439	case OperatorNode::Plus:
440	case OperatorNode::Minus:
441	case OperatorNode::Mul:
442	case OperatorNode::Div:
443	case OperatorNode::Mod:
444	case OperatorNode::BitOr:
445	case OperatorNode::BitAnd:
446	case OperatorNode::Xor:
447	case OperatorNode::LShift:
448	case OperatorNode::RShift:
449	case OperatorNode::LThan:
450	case OperatorNode::GThan:
451	case OperatorNode::LEThan:
452	case OperatorNode::GEThan:
453	case OperatorNode::Eq:
454	case OperatorNode::Neq:
455	case OperatorNode::Index:
456	case OperatorNode::Range:
457	case OperatorNode::UnPlus:
458	case OperatorNode::UnMinus:
459	case OperatorNode::PointTo:
460	case OperatorNode::Neg:
461	case OperatorNode::BitNeg:
462	case OperatorNode::LabelAddress:
463	return new UntypedExpr( new NameExpr( opFuncName[ op->get_type() ] ), args );
464
465	case OperatorNode::AddressOf:
466	assert( args.size() == 1 );
467	assert( args.front() );
468
469	return new AddressExpr( args.front() );
470
471	case OperatorNode::Cast:
472	{
473	TypeValueNode * arg = dynamic_cast<TypeValueNode *>(get_args());
474	assert( arg );
475
476	DeclarationNode *decl_node = arg->get_decl();
477	ExpressionNode expr_node = dynamic_cast<ExpressionNode >(arg->get_link());
478
479	Type *targetType = decl_node->buildType();
480	if( dynamic_cast< VoidType* >( targetType ) ) {
481	delete targetType;
482	return new CastExpr( expr_node->build(), maybeBuild< Expression >( get_argName() ) );
483	} else {
484	return new CastExpr(expr_node->build(),targetType, maybeBuild< Expression >( get_argName() ) );
485	}
486	}
487
488	case OperatorNode::FieldSel:
489	{
490	assert( args.size() == 2 );
491
492	NameExpr member = dynamic_cast<NameExpr >(args.back());
493	// TupleExpr memberTup = dynamic_cast<TupleExpr >(args.back());
494
495	if ( member != 0 )
496	{
497	UntypedMemberExpr *ret = new UntypedMemberExpr(member->get_name(), args.front());
498	delete member;
499	return ret;
500	}
501	/* else if ( memberTup != 0 )
502	{
503	UntypedMemberExpr *ret = new UntypedMemberExpr(memberTup->get_name(), args.front());
504	delete member;
505	return ret;
506	} */
507	else
508	assert( false );
509	}
510
511	case OperatorNode::PFieldSel:
512	{
513	assert( args.size() == 2 );
514
515	NameExpr member = dynamic_cast<NameExpr >(args.back()); // modify for Tuples xxx
516	assert( member != 0 );
517
518	UntypedExpr deref = new UntypedExpr( new NameExpr( "?" ) );
519	deref->get_args().push_back( args.front() );
520
521	UntypedMemberExpr *ret = new UntypedMemberExpr(member->get_name(), deref);
522	delete member;
523	return ret;
524	}
525
526	case OperatorNode::AlignOf:
527	case OperatorNode::SizeOf:
528	{
529	/// bool isSizeOf = (op->get_type() == OperatorNode::SizeOf);
530
531	if( TypeValueNode * arg = dynamic_cast<TypeValueNode *>(get_args()) ) {
532	return new SizeofExpr(arg->get_decl()->buildType());
533	} else {
534	return new SizeofExpr(args.front());
535	}
536	}
537
538	case OperatorNode::CompLit:
539	throw UnimplementedError( "C99 compound literals" );
540
541	// the short-circuited operators
542	case OperatorNode::Or:
543	case OperatorNode::And:
544	assert(args.size() == 2);
545	return new LogicalExpr( notZeroExpr( args.front() ), notZeroExpr( args.back() ), (op->get_type() == OperatorNode::And) );
546
547	case OperatorNode::Cond:
548	{
549	assert(args.size() == 3);
550	std::list< Expression* >::const_iterator i = args.begin();
551	Expression arg1 = notZeroExpr( i++ );
552	Expression arg2 = i++;
553	Expression arg3 = i++;
554	return new ConditionalExpr( arg1, arg2, arg3 );
555	}
556
557	case OperatorNode::NCond:
558	throw UnimplementedError( "GNU 2-argument conditional expression" );
559
560	case OperatorNode::Comma:
561	{
562	assert(args.size() == 2);
563	std::list< Expression* >::const_iterator i = args.begin();
564	Expression ret = i++;
565	while( i != args.end() ) {
566	ret = new CommaExpr( ret, *i++ );
567	}
568	return ret;
569	}
570
571	// Tuples
572	case OperatorNode::TupleC:
573	{
574	TupleExpr *ret = new TupleExpr();
575	std::copy( args.begin(), args.end(), back_inserter( ret->get_exprs() ) );
576	return ret;
577	}
578
579	default:
580	// shouldn't happen
581	return 0;
582	}
583	}
584	}
585
586	void CompositeExprNode::printOneLine(std::ostream &os, int indent) const
587	{
588	printDesignation(os);
589	os << "( ";
590	function->printOneLine( os, indent );
591	for( ExpressionNode cur = arguments; cur != 0; cur = dynamic_cast< ExpressionNode >( cur->get_link() ) ) {
592	cur->printOneLine( os, indent );
593	}
594	os << ") ";
595	}
596
597	void CompositeExprNode::print(std::ostream &os, int indent) const
598	{
599	printDesignation(os);
600	os << '\r' << string(indent, ' ') << "Application of: " << endl;
601	function->print( os, indent + ParseNode::indent_by );
602
603	os << '\r' << string(indent, ' ') ;
604	if( arguments ) {
605	os << "... on arguments: " << endl;
606	arguments->printList(os, indent + ParseNode::indent_by);
607	} else
608	os << "... on no arguments: " << endl;
609	}
610
611	void CompositeExprNode::set_function(ExpressionNode *f){
612	function = f;
613	}
614
615	void CompositeExprNode::set_args(ExpressionNode *args){
616	arguments = args;
617	}
618
619	ExpressionNode *CompositeExprNode::get_function(void) const {
620	return function;
621	}
622
623	ExpressionNode *CompositeExprNode::get_args(void) const {
624	return arguments;
625	}
626
627	void CompositeExprNode::add_arg(ExpressionNode *arg){
628	if(arguments)
629	arguments->set_link(arg);
630	else
631	set_args(arg);
632	}
633
634	/// CommaExprNode::CommaExprNode(): CompositeExprNode(new OperatorNode(OperatorNode::Comma)) {}
635
636	CommaExprNode::CommaExprNode(ExpressionNode *exp)
637	: CompositeExprNode( new OperatorNode( OperatorNode::Comma, exp->get_filename(), exp->get_lineno() ), exp )
638	{
639	}
640
641	CommaExprNode::CommaExprNode(ExpressionNode exp1, ExpressionNode exp2)
642	: CompositeExprNode(new OperatorNode(OperatorNode::Comma, exp1->get_filename(), exp1->get_lineno()), exp1, exp2)
643	{
644	}
645
646	CommaExprNode CommaExprNode::add_to_list(ExpressionNode exp){
647	add_arg(exp);
648
649	return this;
650	}
651
652	CommaExprNode::CommaExprNode( const CommaExprNode &other )
653	: CompositeExprNode( other )
654	{
655	}
656
657	ValofExprNode::ValofExprNode(StatementNode *s)
658	: ExpressionNode( &nullstr, s->get_filename(), s->get_lineno() ), body(s)
659	{
660	}
661
662	ValofExprNode::ValofExprNode( const ValofExprNode &other )
663	: ExpressionNode( other ), body( maybeClone( body ) )
664	{
665	}
666
667	ValofExprNode::~ValofExprNode() {
668	delete body;
669	}
670
671	void ValofExprNode::print( std::ostream &os, int indent ) const {
672	printDesignation(os);
673	os << string(indent, ' ') << "Valof Expression:" << std::endl;
674	get_body()->print(os, indent + 4);
675	}
676
677	void ValofExprNode::printOneLine( std::ostream &, int indent ) const
678	{
679	assert( false );
680	}
681
682	Expression *ValofExprNode::build() const {
683	return new UntypedValofExpr ( get_body()->build(), maybeBuild< Expression >( get_argName() ) );
684	}
685
686	ForCtlExprNode::ForCtlExprNode(ParseNode init_, ExpressionNode cond, ExpressionNode *incr)
687	throw (SemanticError)
688	: ExpressionNode( &nullstr, init_->get_filename(), init_->get_lineno() ), condition(cond), change(incr)
689	{
690	if(init_ == 0)
691	init = 0;
692	else {
693	DeclarationNode *decl;
694	ExpressionNode *exp;
695
696	if((decl = dynamic_cast<DeclarationNode *>(init_)) != 0)
697	init = new StatementNode(decl);
698	else if((exp = dynamic_cast<ExpressionNode *>(init_)) != 0)
699	init = new StatementNode(StatementNode::Exp, exp->get_filename(), exp->get_lineno(), exp);
700	else
701	throw SemanticError("Error in for control expression");
702	}
703	}
704
705	ForCtlExprNode::ForCtlExprNode( const ForCtlExprNode &other )
706	: ExpressionNode( other ), init( maybeClone( other.init ) ), condition( maybeClone( other.condition ) ), change( maybeClone( other.change ) )
707	{
708	}
709
710	ForCtlExprNode::~ForCtlExprNode(){
711	delete init;
712	delete condition;
713	delete change;
714	}
715
716	Expression *ForCtlExprNode::build() const {
717	// this shouldn't be used!
718	assert( false );
719	return 0;
720	}
721
722	void ForCtlExprNode::print( std::ostream &os, int indent ) const{
723	os << string(indent,' ') << "For Control Expression -- : " << endl;
724
725	os << "\r" << string(indent + 2,' ') << "initialization: ";
726	if(init != 0)
727	init->print(os, indent + 4);
728
729	os << "\n\r" << string(indent + 2,' ') << "condition: ";
730	if(condition != 0)
731	condition->print(os, indent + 4);
732	os << "\n\r" << string(indent + 2,' ') << "increment: ";
733	if(change != 0)
734	change->print(os, indent + 4);
735	}
736
737	void
738	ForCtlExprNode::printOneLine( std::ostream &, int indent ) const
739	{
740	assert( false );
741	}
742
743	TypeValueNode::TypeValueNode(DeclarationNode *decl)
744	: ExpressionNode( &nullstr, decl->get_filename(), decl->get_lineno() ), decl( decl )
745	{
746	}
747
748	TypeValueNode::TypeValueNode( const TypeValueNode &other )
749	: ExpressionNode( other ), decl( maybeClone( other.decl ) )
750	{
751	}
752
753	Expression *
754	TypeValueNode::build() const
755	{
756	return new TypeExpr( decl->buildType() );
757	}
758
759	void
760	TypeValueNode::print(std::ostream &os, int indent) const
761	{
762	os << std::string( indent, ' ' ) << "Type:";
763	get_decl()->print(os, indent + 2);
764	}
765
766	void
767	TypeValueNode::printOneLine(std::ostream &os, int indent) const
768	{
769	os << "Type:";
770	get_decl()->print(os, indent + 2);
771	}
772
773	ExpressionNode flattenCommas( ExpressionNode list )
774	{
775	if( CompositeExprNode composite = dynamic_cast< CompositeExprNode >( list ) )
776	{
777	OperatorNode *op;
778	if ( (op = dynamic_cast< OperatorNode * >( composite->get_function() )) && (op->get_type() == OperatorNode::Comma) )
779	{
780	if ( ExpressionNode next = dynamic_cast< ExpressionNode >( list->get_link() ) )
781	composite->add_arg( next );
782	return flattenCommas( composite->get_args() );
783	}
784	}
785
786	if ( ExpressionNode next = dynamic_cast< ExpressionNode >( list->get_link() ) )
787	list->set_next( flattenCommas( next ) );
788
789	return list;
790	}
791
792	// Local Variables: //
793	// mode: C++ //
794	// compile-command: "gmake" //
795	// End: //

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