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source: src/SymTab/Demangle.cc @ f135b50

ADTast-experimentalenumpthread-emulationqualifiedEnum

Last change on this file since f135b50 was f135b50, checked in by JiadaL <j82liang@…>, 2 years ago
The compiler is now trying to pass the value of enum const to code gen; but it won't work cause we must be able to evaluate the const_expr in compiler time. It is not currently passed as a Expression but won't be able to evaluate at compile time
Property mode set to `100644`
File size: 20.2 KB

Line
1	//
2	// Cforall Version 1.0.0 Copyright (C) 2018 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	// Demangler.cc --
8	//
9	// Author : Rob Schluntz
10	// Created On : Thu Jul 19 12:52:41 2018
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Mon Jan 11 21:28:27 2021
13	// Update Count : 11
14	//
15
16	#include <algorithm>
17	#include <sstream>
18
19	#include "CodeGen/GenType.h"
20	#include "Common/PassVisitor.h"
21	#include "Common/utility.h" // isPrefix
22	#include "Mangler.h"
23	#include "SynTree/Type.h"
24	#include "SynTree/Declaration.h"
25
26	#define DEBUG
27	#ifdef DEBUG
28	#define PRINT(x) x
29	#else
30	#define PRINT(x) {}
31	#endif
32
33	namespace {
34	struct GenType : public WithVisitorRef<GenType>, public WithShortCircuiting {
35	std::string typeString;
36	GenType( const std::string &typeString );
37
38	void previsit( BaseSyntaxNode * );
39	void postvisit( BaseSyntaxNode * );
40
41	void postvisit( FunctionType * funcType );
42	void postvisit( VoidType * voidType );
43	void postvisit( BasicType * basicType );
44	void postvisit( PointerType * pointerType );
45	void postvisit( ArrayType * arrayType );
46	void postvisit( ReferenceType * refType );
47	void postvisit( StructInstType * structInst );
48	void postvisit( UnionInstType * unionInst );
49	void postvisit( EnumInstType * enumInst );
50	void postvisit( TypeInstType * typeInst );
51	void postvisit( TupleType * tupleType );
52	void postvisit( VarArgsType * varArgsType );
53	void postvisit( ZeroType * zeroType );
54	void postvisit( OneType * oneType );
55	void postvisit( GlobalScopeType * globalType );
56	void postvisit( QualifiedType * qualType );
57
58	private:
59	void handleQualifiers( Type *type );
60	std::string handleGeneric( ReferenceToType * refType );
61	void genArray( const Type::Qualifiers &qualifiers, Type base, Expression dimension, bool isVarLen, bool isStatic );
62	};
63
64	std::string genDemangleType( Type * type, const std::string & baseString ) {
65	PassVisitor<GenType> gt( baseString );
66	assert( type );
67	type->accept( gt );
68	return gt.pass.typeString;
69	}
70
71	GenType::GenType( const std::string &typeString ) : typeString( typeString ) {}
72
73	// *** BaseSyntaxNode
74	void GenType::previsit( BaseSyntaxNode * ) {
75	// turn off automatic recursion for all nodes, to allow each visitor to
76	// precisely control the order in which its children are visited.
77	visit_children = false;
78	}
79
80	void GenType::postvisit( BaseSyntaxNode * node ) {
81	std::stringstream ss;
82	node->print( ss );
83	assertf( false, "Unhandled node reached in GenType: %s", ss.str().c_str() );
84	}
85
86	void GenType::postvisit( VoidType * voidType ) {
87	typeString = "void " + typeString;
88	handleQualifiers( voidType );
89	}
90
91	void GenType::postvisit( BasicType * basicType ) {
92	BasicType::Kind kind = basicType->kind;
93	assert( 0 <= kind && kind < BasicType::NUMBER_OF_BASIC_TYPES );
94	typeString = std::string( BasicType::typeNames[kind] ) + " " + typeString;
95	handleQualifiers( basicType );
96	}
97
98	void GenType::genArray( const Type::Qualifiers & qualifiers, Type * base, Expression *dimension, bool isVarLen, bool ) {
99	std::ostringstream os;
100	if ( typeString != "" ) {
101	if ( typeString[ 0 ] == '*' ) {
102	os << "(" << typeString << ")";
103	} else {
104	os << typeString;
105	} // if
106	} // if
107	os << "[";
108
109	if ( qualifiers.is_const ) {
110	os << "const ";
111	} // if
112	if ( qualifiers.is_volatile ) {
113	os << "volatile ";
114	} // if
115	if ( qualifiers.is_restrict ) {
116	os << "__restrict ";
117	} // if
118	if ( qualifiers.is_atomic ) {
119	os << "_Atomic ";
120	} // if
121	if ( dimension != 0 ) {
122	// TODO: ???
123	// PassVisitor<CodeGenerator> cg( os, pretty, genC, lineMarks );
124	// dimension->accept( cg );
125	} else if ( isVarLen ) {
126	// no dimension expression on a VLA means it came in with the * token
127	os << "*";
128	} // if
129	os << "]";
130
131	typeString = os.str();
132
133	base->accept( *visitor );
134	}
135
136	void GenType::postvisit( PointerType * pointerType ) {
137	assert( pointerType->base != 0);
138	if ( pointerType->get_isStatic() \|\| pointerType->get_isVarLen() \|\| pointerType->dimension ) {
139	assert(false);
140	genArray( pointerType->get_qualifiers(), pointerType->base, pointerType->dimension, pointerType->get_isVarLen(), pointerType->get_isStatic() );
141	} else {
142	handleQualifiers( pointerType );
143	if ( typeString[ 0 ] == '?' ) {
144	typeString = "* " + typeString;
145	} else {
146	typeString = "*" + typeString;
147	} // if
148	pointerType->base->accept( *visitor );
149	} // if
150	}
151
152	void GenType::postvisit( ArrayType * arrayType ) {
153	genArray( arrayType->get_qualifiers(), arrayType->base, arrayType->dimension, arrayType->get_isVarLen(), arrayType->get_isStatic() );
154	}
155
156	void GenType::postvisit( ReferenceType * refType ) {
157	assert( false );
158	assert( refType->base != 0);
159	handleQualifiers( refType );
160	typeString = "&" + typeString;
161	refType->base->accept( *visitor );
162	}
163
164	void GenType::postvisit( FunctionType * funcType ) {
165	std::ostringstream os;
166
167	if ( typeString != "" ) {
168	if ( typeString[0] == '*' ) {
169	os << "(" << typeString << ")";
170	} else {
171	os << typeString;
172	} // if
173	} // if
174
175	/*********** parameters *************/
176	const std::list<DeclarationWithType *> &pars = funcType->parameters;
177
178	if ( pars.empty() ) {
179	if ( funcType->get_isVarArgs() ) {
180	os << "()";
181	} else {
182	os << "(void)";
183	} // if
184	} else {
185	os << "(" ;
186
187	unsigned int i = 0;
188	for (DeclarationWithType * p : pars) {
189	os << genDemangleType( p->get_type(), "" );
190	if (++i != pars.size()) os << ", ";
191	}
192
193	if ( funcType->get_isVarArgs() ) {
194	os << ", ...";
195	} // if
196	os << ")";
197	} // if
198
199	typeString = os.str();
200
201	if ( funcType->returnVals.size() == 0 ) {
202	typeString += ": void";
203	} else {
204	typeString += ": " + genDemangleType(funcType->returnVals.front()->get_type(), "");
205	} // if
206
207	// add forall
208	if( ! funcType->forall.empty() ) {
209	std::ostringstream os;
210	os << "forall(";
211	unsigned int i = 0;
212	for ( auto td : funcType->forall ) {
213	os << td->typeString() << " " << td->name;
214	if (! td->assertions.empty()) {
215	os << " \| { ";
216	unsigned int j = 0;
217	for (DeclarationWithType * assert : td->assertions) {
218	os << genDemangleType(assert->get_type(), assert->name);
219	if (++j != td->assertions.size()) os << ", ";
220	}
221	os << "}";
222	}
223	if (++i != funcType->forall.size()) os << ", ";
224	}
225	os << ")";
226	typeString = typeString + " -> " + os.str();
227	}
228	}
229
230	std::string GenType::handleGeneric( ReferenceToType * refType ) {
231	if ( ! refType->parameters.empty() ) {
232	std::ostringstream os;
233	// TODO: ???
234	// PassVisitor<CodeGenerator> cg( os, pretty, genC, lineMarks );
235	os << "(";
236	// cg.pass.genCommaList( refType->parameters.begin(), refType->parameters.end() );
237	os << ") ";
238	return os.str();
239	}
240	return "";
241	}
242
243	void GenType::postvisit( StructInstType * structInst ) {
244	typeString = "struct " + structInst->name + handleGeneric( structInst ) + " " + typeString;
245	handleQualifiers( structInst );
246	}
247
248	void GenType::postvisit( UnionInstType * unionInst ) {
249	typeString = "union " + unionInst->name + handleGeneric( unionInst ) + " " + typeString;
250	handleQualifiers( unionInst );
251	}
252
253	void GenType::postvisit( EnumInstType * enumInst ) {
254	typeString = "enum /* Marker demangle::EnumInstType */ " + enumInst->name + " " + typeString;
255	handleQualifiers( enumInst );
256	}
257
258	void GenType::postvisit( TypeInstType * typeInst ) {
259	typeString = typeInst->name + " " + typeString;
260	handleQualifiers( typeInst );
261	}
262
263	void GenType::postvisit( TupleType * tupleType ) {
264	unsigned int i = 0;
265	std::ostringstream os;
266	os << "[";
267	for ( Type * t : *tupleType ) {
268	i++;
269	os << genDemangleType( t, "" ) << (i == tupleType->size() ? "" : ", ");
270	}
271	os << "] ";
272	typeString = os.str() + typeString;
273	}
274
275	void GenType::postvisit( VarArgsType * varArgsType ) {
276	typeString = "__builtin_va_list " + typeString;
277	handleQualifiers( varArgsType );
278	}
279
280	void GenType::postvisit( ZeroType * zeroType ) {
281	// ideally these wouldn't hit codegen at all, but should be safe to make them ints
282	typeString = "zero_t " + typeString;
283	handleQualifiers( zeroType );
284	}
285
286	void GenType::postvisit( OneType * oneType ) {
287	// ideally these wouldn't hit codegen at all, but should be safe to make them ints
288	typeString = "one_t " + typeString;
289	handleQualifiers( oneType );
290	}
291
292	void GenType::postvisit( GlobalScopeType * globalType ) {
293	handleQualifiers( globalType );
294	}
295
296	void GenType::postvisit( QualifiedType * qualType ) {
297	std::ostringstream os;
298	os << genDemangleType( qualType->parent, "" ) << "." << genDemangleType( qualType->child, "" ) << typeString;
299	typeString = os.str();
300	handleQualifiers( qualType );
301	}
302
303	void GenType::handleQualifiers( Type * type ) {
304	if ( type->get_const() ) {
305	typeString = "const " + typeString;
306	} // if
307	if ( type->get_volatile() ) {
308	typeString = "volatile " + typeString;
309	} // if
310	if ( type->get_restrict() ) {
311	typeString = "__restrict " + typeString;
312	} // if
313	if ( type->get_atomic() ) {
314	typeString = "_Atomic " + typeString;
315	} // if
316	}
317	}
318
319
320	namespace SymTab {
321	namespace Mangler {
322	namespace {
323	struct StringView {
324	private:
325	std::string str;
326	size_t idx = 0;
327	// typedef Type * (StringView::*parser)(Type::Qualifiers);
328	typedef std::function<Type * (Type::Qualifiers)> parser;
329	std::vector<std::pair<std::string, parser>> parsers;
330	public:
331	StringView(const std::string & str);
332
333	bool done() const { return idx >= str.size(); }
334	char cur() const { assert(! done()); return str[idx]; }
335
336	bool expect(char ch) { return str[idx++] == ch; }
337	void next(size_t inc = 1) { idx += inc; }
338
339	/// determines if `pref` is a prefix of `str`
340	bool isPrefix(const std::string & pref);
341	bool extractNumber(size_t & out);
342	bool extractName(std::string & out);
343	bool stripMangleName(std::string & name);
344
345	Type * parseFunction(Type::Qualifiers tq);
346	Type * parseTuple(Type::Qualifiers tq);
347	Type * parseVoid(Type::Qualifiers tq);
348	Type * parsePointer(Type::Qualifiers tq);
349	Type * parseArray(Type::Qualifiers tq);
350	Type * parseStruct(Type::Qualifiers tq);
351	Type * parseUnion(Type::Qualifiers tq);
352	Type * parseEnum(Type::Qualifiers tq);
353	Type * parseType(Type::Qualifiers tq);
354
355	Type * parseType();
356	bool parse(std::string & name, Type *& type);
357	};
358
359	StringView::StringView(const std::string & str) : str(str) {
360	// basic types
361	for (size_t k = 0; k < BasicType::NUMBER_OF_BASIC_TYPES; ++k) {
362	parsers.emplace_back(Encoding::basicTypes[k], [k](Type::Qualifiers tq) {
363	PRINT( std::cerr << "basic type: " << k << std::endl; )
364	return new BasicType(tq, (BasicType::Kind)k);
365	});
366	}
367	// type variable types
368	for (size_t k = 0; k < TypeDecl::NUMBER_OF_KINDS; ++k) {
369	static const std::string typeVariableNames[] = { "DT", "DST", "OT", "FT", "TT", "ALT", };
370	static_assert(
371	sizeof(typeVariableNames)/sizeof(typeVariableNames[0]) == TypeDecl::NUMBER_OF_KINDS,
372	"Each type variable kind should have a demangle name prefix"
373	);
374	parsers.emplace_back(Encoding::typeVariables[k], [k, this](Type::Qualifiers tq) -> TypeInstType * {
375	PRINT( std::cerr << "type variable type: " << k << std::endl; )
376	size_t N;
377	if (! extractNumber(N)) return nullptr;
378	return new TypeInstType(tq, toString(typeVariableNames[k], N), (TypeDecl::Kind)k != TypeDecl::Ftype);
379	});
380	}
381	// everything else
382	parsers.emplace_back(Encoding::void_t, [this](Type::Qualifiers tq) { return parseVoid(tq); });
383	parsers.emplace_back(Encoding::function, [this](Type::Qualifiers tq) { return parseFunction(tq); });
384	parsers.emplace_back(Encoding::pointer, [this](Type::Qualifiers tq) { return parsePointer(tq); });
385	parsers.emplace_back(Encoding::array, [this](Type::Qualifiers tq) { return parseArray(tq); });
386	parsers.emplace_back(Encoding::tuple, [this](Type::Qualifiers tq) { return parseTuple(tq); });
387	parsers.emplace_back(Encoding::struct_t, [this](Type::Qualifiers tq) { return parseStruct(tq); });
388	parsers.emplace_back(Encoding::union_t, [this](Type::Qualifiers tq) { return parseUnion(tq); });
389	parsers.emplace_back(Encoding::enum_t, [this](Type::Qualifiers tq) { return parseEnum(tq); });
390	parsers.emplace_back(Encoding::type, [this](Type::Qualifiers tq) { return parseType(tq); });
391	parsers.emplace_back(Encoding::zero, [](Type::Qualifiers tq) { return new ZeroType(tq); });
392	parsers.emplace_back(Encoding::one, [](Type::Qualifiers tq) { return new OneType(tq); });
393	}
394
395	bool StringView::extractNumber(size_t & out) {
396	std::stringstream numss;
397	if (idx >= str.size()) return false;
398	while (isdigit(str[idx])) {
399	numss << str[idx];
400	++idx;
401	if (idx == str.size()) break;
402	}
403	if (! (numss >> out)) return false;
404	PRINT( std::cerr << "extractNumber success: " << out << std::endl; )
405	return true;
406	}
407
408	bool StringView::extractName(std::string & out) {
409	size_t len;
410	if (! extractNumber(len)) return false;
411	if (idx+len > str.size()) return false;
412	out = str.substr(idx, len);
413	idx += len;
414	PRINT( std::cerr << "extractName success: " << out << std::endl; )
415	return true;
416	}
417
418	bool StringView::isPrefix(const std::string & pref) {
419	// if ( pref.size() > str.size()-idx ) return false;
420	// auto its = std::mismatch( pref.begin(), pref.end(), std::next(str.begin(), idx) );
421	// if (its.first == pref.end()) {
422	// idx += pref.size();
423	// return true;
424	// }
425
426	// This update is untested because there are no tests for this code.
427	if ( ::isPrefix( str, pref, idx ) ) {
428	idx += pref.size();
429	return true;
430	}
431	return false;
432	}
433
434	// strips __NAME__cfa__TYPE_N, where N is [0-9]+: returns str is a match is found, returns empty string otherwise
435	bool StringView::stripMangleName(std::string & name) {
436	PRINT( std::cerr << "====== " << str.size() << " " << str << std::endl; )
437	if (str.size() < 2+Encoding::manglePrefix.size()) return false; // +2 for at least _1 suffix
438	if ( ! isPrefix(Encoding::manglePrefix) \|\| ! isdigit(str.back() ) ) return false;
439
440	// get name
441	if (! extractName(name)) return false;
442
443	// find bounds for type
444	PRINT( std::cerr << idx << " " << str.size() << std::endl; )
445	PRINT( std::cerr << "[");
446	while (isdigit(str.back())) {
447	PRINT(std::cerr << ".");
448	str.pop_back();
449	if (str.size() <= idx) return false;
450	}
451	PRINT( std::cerr << "]" << std::endl );
452	if (str.back() != '_') return false;
453	str.pop_back();
454	PRINT( std::cerr << str.size() << " " << name << " " << str.substr(idx) << std::endl; )
455	return str.size() > idx;
456	}
457
458	Type * StringView::parseFunction(Type::Qualifiers tq) {
459	PRINT( std::cerr << "function..." << std::endl; )
460	if (done()) return nullptr;
461	FunctionType * ftype = new FunctionType( tq, false );
462	std::unique_ptr<Type> manager(ftype);
463	Type * retVal = parseType();
464	if (! retVal) return nullptr;
465	PRINT( std::cerr << "with return type: " << retVal << std::endl; )
466	ftype->returnVals.push_back(ObjectDecl::newObject("", retVal, nullptr));
467	if (done() \|\| ! expect('_')) return nullptr;
468	while (! done()) {
469	PRINT( std::cerr << "got ch: " << cur() << std::endl; )
470	if (cur() == '_') return manager.release();
471	Type * param = parseType();
472	if (! param) return nullptr;
473	PRINT( std::cerr << "with parameter : " << param << std::endl; )
474	ftype->parameters.push_back(ObjectDecl::newObject("", param, nullptr));
475	}
476	return nullptr;
477	}
478
479	Type * StringView::parseTuple(Type::Qualifiers tq) {
480	PRINT( std::cerr << "tuple..." << std::endl; )
481	std::list< Type * > types;
482	size_t ncomponents;
483	if (! extractNumber(ncomponents)) return nullptr;
484	for (size_t i = 0; i < ncomponents; ++i) {
485	// TODO: delete all on return
486	if (done()) return nullptr;
487	PRINT( std::cerr << "got ch: " << cur() << std::endl; )
488	Type * t = parseType();
489	if (! t) return nullptr;
490	PRINT( std::cerr << "with type : " << t << std::endl; )
491	types.push_back(t);
492	}
493	return new TupleType( tq, types );
494	}
495
496	Type * StringView::parseVoid(Type::Qualifiers tq) {
497	return new VoidType( tq );
498	}
499
500	Type * StringView::parsePointer(Type::Qualifiers tq) {
501	PRINT( std::cerr << "pointer..." << std::endl; )
502	Type * t = parseType();
503	if (! t) return nullptr;
504	return new PointerType( tq, t );
505	}
506
507	Type * StringView::parseArray(Type::Qualifiers tq) {
508	PRINT( std::cerr << "array..." << std::endl; )
509	size_t length;
510	if (! extractNumber(length)) return nullptr;
511	Type * t = parseType();
512	if (! t) return nullptr;
513	return new ArrayType( tq, t, new ConstantExpr( Constant::from_ulong(length) ), false, false );
514	}
515
516	Type * StringView::parseStruct(Type::Qualifiers tq) {
517	PRINT( std::cerr << "struct..." << std::endl; )
518	std::string name;
519	if (! extractName(name)) return nullptr;
520	return new StructInstType(tq, name);
521	}
522
523	Type * StringView::parseUnion(Type::Qualifiers tq) {
524	PRINT( std::cerr << "union..." << std::endl; )
525	std::string name;
526	if (! extractName(name)) return nullptr;
527	return new UnionInstType(tq, name);
528	}
529
530	Type * StringView::parseEnum(Type::Qualifiers tq) {
531	PRINT( std::cerr << "enum..." << std::endl; )
532	std::string name;
533	if (! extractName(name)) return nullptr;
534	return new EnumInstType(tq, name);
535	}
536
537	Type * StringView::parseType(Type::Qualifiers tq) {
538	PRINT( std::cerr << "type..." << std::endl; )
539	std::string name;
540	if (! extractName(name)) return nullptr;
541	PRINT( std::cerr << "typename..." << name << std::endl; )
542	return new TypeInstType(tq, name, false);
543	}
544
545	Type * StringView::parseType() {
546	if (done()) return nullptr;
547
548	std::list<TypeDecl *> forall;
549	if (isPrefix(Encoding::forall)) {
550	PRINT( std::cerr << "polymorphic with..." << std::endl; )
551	size_t dcount, fcount, vcount, acount;
552	if (! extractNumber(dcount)) return nullptr;
553	PRINT( std::cerr << dcount << " dtypes" << std::endl; )
554	if (! expect('_')) return nullptr;
555	if (! extractNumber(fcount)) return nullptr;
556	PRINT( std::cerr << fcount << " ftypes" << std::endl; )
557	if (! expect('_')) return nullptr;
558	if (! extractNumber(vcount)) return nullptr;
559	PRINT( std::cerr << vcount << " ttypes" << std::endl; )
560	if (! expect('_')) return nullptr;
561	if (! extractNumber(acount)) return nullptr;
562	PRINT( std::cerr << acount << " assertions" << std::endl; )
563	if (! expect('_')) return nullptr;
564	for (size_t i = 0; i < acount; ++i) {
565	// TODO: need to recursively parse assertions, but for now just return nullptr so that
566	// demangler does not crash if there are assertions
567	return nullptr;
568	}
569	if (! expect('_')) return nullptr;
570	}
571
572	// qualifiers
573	Type::Qualifiers tq;
574	while (true) {
575	auto qual = std::find_if(Encoding::qualifiers.begin(), Encoding::qualifiers.end(), [this](decltype(Encoding::qualifiers)::value_type val) {
576	return isPrefix(val.second);
577	});
578	if (qual == Encoding::qualifiers.end()) break;
579	tq \|= qual->first;
580	}
581
582	// find the correct type parser and use it
583	auto iter = std::find_if(parsers.begin(), parsers.end(), [this](std::pair<std::string, parser> & p) {
584	return isPrefix(p.first);
585	});
586	assertf(iter != parsers.end(), "Unhandled type letter: %c at index: %zd", cur(), idx);
587	Type * ret = iter->second(tq);
588	if (! ret) return nullptr;
589	ret->forall = std::move(forall);
590	return ret;
591	}
592
593	bool StringView::parse(std::string & name, Type *& type) {
594	if (! stripMangleName(name)) return false;
595	PRINT( std::cerr << "stripped name: " << name << std::endl; )
596	Type * t = parseType();
597	if (! t) return false;
598	type = t;
599	return true;
600	}
601
602	std::string demangle(const std::string & mangleName) {
603	SymTab::Mangler::StringView view(mangleName);
604	std::string name;
605	Type * type = nullptr;
606	if (! view.parse(name, type)) return mangleName;
607	std::unique_ptr<Type> manager(type);
608	return genDemangleType(type, name);
609	}
610	} // namespace
611	} // namespace Mangler
612	} // namespace SymTab
613
614	extern "C" {
615	char * cforall_demangle(const char * mangleName, int option __attribute__((unused))) {
616	const std::string & demangleName = SymTab::Mangler::demangle(mangleName);
617	return strdup(demangleName.c_str());
618	}
619	}
620
621	// Local Variables: //
622	// tab-width: 4 //
623	// mode: c++ //
624	// compile-command: "make install" //
625	// End: //

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