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Mangler.cc @ 9a063c8

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 9a063c8 was 23b6643f, checked in by Rob Schluntz <rschlunt@…>, 8 years ago

Merge branch 'master' into tuples

Conflicts:

src/Makefile.in
src/ResolvExpr/Unify.cc
src/SynTree/Type.h

Property mode set to 100644

File size: 8.9 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	// Mangler.cc --
8	//
9	// Author : Richard C. Bilson
10	// Created On : Sun May 17 21:40:29 2015
11	// Last Modified By : Rob Schluntz
12	// Last Modified On : Wed Aug 19 15:52:24 2015
13	// Update Count : 19
14	//
15
16	#include <cassert>
17	#include <string>
18	#include <algorithm>
19	#include <iterator>
20	#include <functional>
21	#include <set>
22
23	#include "SynTree/Declaration.h"
24	#include "SynTree/Type.h"
25	#include "SynTree/Expression.h"
26	#include "SynTree/Initializer.h"
27	#include "SynTree/Statement.h"
28	#include "Mangler.h"
29	#include "CodeGen/OperatorTable.h"
30
31	namespace SymTab {
32	std::string Mangler::mangleType( Type *ty ) {
33	Mangler mangler( false, true );
34	maybeAccept( ty, mangler );
35	return mangler.get_mangleName();
36	}
37
38	Mangler::Mangler( bool mangleOverridable, bool typeMode )
39	: nextVarNum( 0 ), isTopLevel( true ), mangleOverridable( mangleOverridable ), typeMode( typeMode ) {}
40
41	Mangler::Mangler( const Mangler &rhs ) : mangleName() {
42	varNums = rhs.varNums;
43	nextVarNum = rhs.nextVarNum;
44	isTopLevel = rhs.isTopLevel;
45	mangleOverridable = rhs.mangleOverridable;
46	typeMode = rhs.typeMode;
47	}
48
49	void Mangler::mangleDecl( DeclarationWithType *declaration ) {
50	bool wasTopLevel = isTopLevel;
51	if ( isTopLevel ) {
52	varNums.clear();
53	nextVarNum = 0;
54	isTopLevel = false;
55	} // if
56	mangleName << "__";
57	CodeGen::OperatorInfo opInfo;
58	if ( operatorLookup( declaration->get_name(), opInfo ) ) {
59	mangleName << opInfo.outputName;
60	} else {
61	mangleName << declaration->get_name();
62	} // if
63	mangleName << "__";
64	maybeAccept( declaration->get_type(), *this );
65	if ( mangleOverridable && LinkageSpec::isOverridable( declaration->get_linkage() ) ) {
66	// want to be able to override autogenerated and intrinsic routines,
67	// so they need a different name mangling
68	if ( declaration->get_linkage() == LinkageSpec::AutoGen ) {
69	mangleName << "autogen__";
70	} else if ( declaration->get_linkage() == LinkageSpec::Intrinsic ) {
71	mangleName << "intrinsic__";
72	} else {
73	// if we add another kind of overridable function, this has to change
74	assert( false );
75	} // if
76	}
77	isTopLevel = wasTopLevel;
78	}
79
80	void Mangler::visit( ObjectDecl *declaration ) {
81	mangleDecl( declaration );
82	}
83
84	void Mangler::visit( FunctionDecl *declaration ) {
85	mangleDecl( declaration );
86	}
87
88	void Mangler::visit( VoidType *voidType ) {
89	printQualifiers( voidType );
90	mangleName << "v";
91	}
92
93	void Mangler::visit( BasicType *basicType ) {
94	static const char *btLetter[] = {
95	"b", // Bool
96	"c", // Char
97	"Sc", // SignedChar
98	"Uc", // UnsignedChar
99	"s", // ShortSignedInt
100	"Us", // ShortUnsignedInt
101	"i", // SignedInt
102	"Ui", // UnsignedInt
103	"l", // LongSignedInt
104	"Ul", // LongUnsignedInt
105	"q", // LongLongSignedInt
106	"Uq", // LongLongUnsignedInt
107	"f", // Float
108	"d", // Double
109	"r", // LongDouble
110	"Xf", // FloatComplex
111	"Xd", // DoubleComplex
112	"Xr", // LongDoubleComplex
113	"If", // FloatImaginary
114	"Id", // DoubleImaginary
115	"Ir", // LongDoubleImaginary
116	};
117
118	printQualifiers( basicType );
119	mangleName << btLetter[ basicType->get_kind() ];
120	}
121
122	void Mangler::visit( PointerType *pointerType ) {
123	printQualifiers( pointerType );
124	mangleName << "P";
125	maybeAccept( pointerType->get_base(), *this );
126	}
127
128	void Mangler::visit( ArrayType *arrayType ) {
129	// TODO: encode dimension
130	printQualifiers( arrayType );
131	mangleName << "A0";
132	maybeAccept( arrayType->get_base(), *this );
133	}
134
135	namespace {
136	inline std::list< Type* > getTypes( const std::list< DeclarationWithType* > decls ) {
137	std::list< Type* > ret;
138	std::transform( decls.begin(), decls.end(), std::back_inserter( ret ),
139	std::mem_fun( &DeclarationWithType::get_type ) );
140	return ret;
141	}
142	}
143
144	void Mangler::visit( FunctionType *functionType ) {
145	printQualifiers( functionType );
146	mangleName << "F";
147	std::list< Type* > returnTypes = getTypes( functionType->get_returnVals() );
148	acceptAll( returnTypes, *this );
149	mangleName << "_";
150	std::list< Type* > paramTypes = getTypes( functionType->get_parameters() );
151	acceptAll( paramTypes, *this );
152	mangleName << "_";
153	}
154
155	void Mangler::mangleRef( ReferenceToType *refType, std::string prefix ) {
156	printQualifiers( refType );
157
158	mangleName << ( refType->get_name().length() + prefix.length() ) << prefix << refType->get_name();
159	}
160
161	void Mangler::mangleGenericRef( ReferenceToType *refType, std::string prefix ) {
162	printQualifiers( refType );
163
164	std::ostringstream oldName( mangleName.str() );
165	mangleName.clear();
166
167	mangleName << prefix << refType->get_name();
168
169	std::list< Expression* >& params = refType->get_parameters();
170	if ( ! params.empty() ) {
171	mangleName << "_";
172	for ( std::list< Expression* >::const_iterator param = params.begin(); param != params.end(); ++param ) {
173	TypeExpr paramType = dynamic_cast< TypeExpr >( *param );
174	assert(paramType && "Aggregate parameters should be type expressions");
175	maybeAccept( paramType->get_type(), *this );
176	}
177	mangleName << "_";
178	}
179
180	oldName << mangleName.str().length() << mangleName.str();
181	mangleName.str( oldName.str() );
182	}
183
184	void Mangler::visit( StructInstType *aggregateUseType ) {
185	if ( typeMode ) mangleGenericRef( aggregateUseType, "s" );
186	else mangleRef( aggregateUseType, "s" );
187	}
188
189	void Mangler::visit( UnionInstType *aggregateUseType ) {
190	if ( typeMode ) mangleGenericRef( aggregateUseType, "u" );
191	else mangleRef( aggregateUseType, "u" );
192	}
193
194	void Mangler::visit( EnumInstType *aggregateUseType ) {
195	mangleRef( aggregateUseType, "e" );
196	}
197
198	void Mangler::visit( TypeInstType *typeInst ) {
199	VarMapType::iterator varNum = varNums.find( typeInst->get_name() );
200	if ( varNum == varNums.end() ) {
201	mangleRef( typeInst, "t" );
202	} else {
203	printQualifiers( typeInst );
204	std::ostringstream numStream;
205	numStream << varNum->second.first;
206	switch ( (TypeDecl::Kind )varNum->second.second ) {
207	case TypeDecl::Any:
208	mangleName << "t";
209	break;
210	case TypeDecl::Dtype:
211	mangleName << "d";
212	break;
213	case TypeDecl::Ftype:
214	mangleName << "f";
215	break;
216	} // switch
217	mangleName << numStream.str();
218	} // if
219	}
220
221	void Mangler::visit( TupleType *tupleType ) {
222	printQualifiers( tupleType );
223	mangleName << "T";
224	acceptAll( tupleType->get_types(), *this );
225	mangleName << "_";
226	}
227
228	void Mangler::visit( VarArgsType *varArgsType ) {
229	printQualifiers( varArgsType );
230	mangleName << "VARGS";
231	}
232
233	void Mangler::visit( ZeroType *zeroType ) {
234	mangleName << "Z";
235	}
236
237	void Mangler::visit( OneType *oneType ) {
238	mangleName << "O";
239	}
240
241	void Mangler::visit( TypeDecl *decl ) {
242	static const char *typePrefix[] = { "BT", "BD", "BF" };
243	mangleName << typePrefix[ decl->get_kind() ] << ( decl->get_name().length() + 1 ) << decl->get_name();
244	}
245
246	void printVarMap( const std::map< std::string, std::pair< int, int > > &varMap, std::ostream &os ) {
247	for ( std::map< std::string, std::pair< int, int > >::const_iterator i = varMap.begin(); i != varMap.end(); ++i ) {
248	os << i->first << "(" << i->second.first << "/" << i->second.second << ")" << std::endl;
249	} // for
250	}
251
252	void Mangler::printQualifiers( Type *type ) {
253	// skip if not including qualifiers
254	if ( typeMode ) return;
255
256	if ( ! type->get_forall().empty() ) {
257	std::list< std::string > assertionNames;
258	int tcount = 0, dcount = 0, fcount = 0;
259	mangleName << "A";
260	for ( Type::ForallList::iterator i = type->get_forall().begin(); i != type->get_forall().end(); ++i ) {
261	switch ( (*i)->get_kind() ) {
262	case TypeDecl::Any:
263	tcount++;
264	break;
265	case TypeDecl::Dtype:
266	dcount++;
267	break;
268	case TypeDecl::Ftype:
269	fcount++;
270	break;
271	} // switch
272	varNums[ (i )->get_name() ] = std::pair< int, int >( nextVarNum++, (int )(i )->get_kind() );
273	for ( std::list< DeclarationWithType* >::iterator assert = (i )->get_assertions().begin(); assert != (i )->get_assertions().end(); ++assert ) {
274	Mangler sub_mangler( mangleOverridable, typeMode );
275	sub_mangler.nextVarNum = nextVarNum;
276	sub_mangler.isTopLevel = false;
277	sub_mangler.varNums = varNums;
278	(*assert)->accept( sub_mangler );
279	assertionNames.push_back( sub_mangler.mangleName.str() );
280	} // for
281	} // for
282	mangleName << tcount << "_" << dcount << "_" << fcount << "_";
283	std::copy( assertionNames.begin(), assertionNames.end(), std::ostream_iterator< std::string >( mangleName, "" ) );
284	mangleName << "_";
285	} // if
286	if ( type->get_isConst() ) {
287	mangleName << "C";
288	} // if
289	if ( type->get_isVolatile() ) {
290	mangleName << "V";
291	} // if
292	// Removed due to restrict not affecting function compatibility in GCC
293	// if ( type->get_isRestrict() ) {
294	// mangleName << "R";
295	// } // if
296	if ( type->get_isLvalue() ) {
297	mangleName << "L";
298	} // if
299	if ( type->get_isAtomic() ) {
300	mangleName << "A";
301	} // if
302	}
303	} // namespace SymTab
304
305	// Local Variables: //
306	// tab-width: 4 //
307	// mode: c++ //
308	// compile-command: "make install" //
309	// End: //

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source: src/SymTab/Mangler.cc @ 9a063c8

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