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Reid Spencer5f016e22007-07-11 17:01:13 +00001//===--- SemaExprCXX.cpp - Semantic Analysis for Expressions --------------===//
2//
3// The LLVM Compiler Infrastructure
4//
Chris Lattner0bc735f2007-12-29 19:59:25 +00005// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
Reid Spencer5f016e22007-07-11 17:01:13 +00007//
8//===----------------------------------------------------------------------===//
9//
10// This file implements semantic analysis for C++ expressions.
11//
12//===----------------------------------------------------------------------===//
13
John McCall2d887082010-08-25 22:03:47 +000014#include "clang/Sema/SemaInternal.h"
John McCall2a7fb272010-08-25 05:32:35 +000015#include "clang/Sema/DeclSpec.h"
Douglas Gregore737f502010-08-12 20:07:10 +000016#include "clang/Sema/Initialization.h"
17#include "clang/Sema/Lookup.h"
John McCall2a7fb272010-08-25 05:32:35 +000018#include "clang/Sema/ParsedTemplate.h"
John McCall469a1eb2011-02-02 13:00:07 +000019#include "clang/Sema/ScopeInfo.h"
Richard Smith7a614d82011-06-11 17:19:42 +000020#include "clang/Sema/Scope.h"
John McCall2a7fb272010-08-25 05:32:35 +000021#include "clang/Sema/TemplateDeduction.h"
Steve Naroff210679c2007-08-25 14:02:58 +000022#include "clang/AST/ASTContext.h"
Nick Lewyckyfca84b22012-01-24 21:15:41 +000023#include "clang/AST/CharUnits.h"
Douglas Gregora8f32e02009-10-06 17:59:45 +000024#include "clang/AST/CXXInheritance.h"
John McCall7cd088e2010-08-24 07:21:54 +000025#include "clang/AST/DeclObjC.h"
Anders Carlssond497ba72009-08-26 22:59:12 +000026#include "clang/AST/ExprCXX.h"
Fariborz Jahaniand4266622010-06-16 18:56:04 +000027#include "clang/AST/ExprObjC.h"
Douglas Gregorb57fb492010-02-24 22:38:50 +000028#include "clang/AST/TypeLoc.h"
Anders Carlssond497ba72009-08-26 22:59:12 +000029#include "clang/Basic/PartialDiagnostic.h"
Sebastian Redlb5a57a62008-12-03 20:26:15 +000030#include "clang/Basic/TargetInfo.h"
Anders Carlssond497ba72009-08-26 22:59:12 +000031#include "clang/Lex/Preprocessor.h"
David Blaikie91ec7892011-12-16 16:03:09 +000032#include "TypeLocBuilder.h"
Sebastian Redlbd45d252012-02-16 12:59:47 +000033#include "llvm/ADT/APInt.h"
Douglas Gregor3fc749d2008-12-23 00:26:44 +000034#include "llvm/ADT/STLExtras.h"
Chandler Carruth73e0a912011-05-01 07:23:17 +000035#include "llvm/Support/ErrorHandling.h"
Reid Spencer5f016e22007-07-11 17:01:13 +000036using namespace clang;
John McCall2a7fb272010-08-25 05:32:35 +000037using namespace sema;
Reid Spencer5f016e22007-07-11 17:01:13 +000038
John McCallb3d87482010-08-24 05:47:05 +000039ParsedType Sema::getDestructorName(SourceLocation TildeLoc,
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +000040 IdentifierInfo &II,
John McCallb3d87482010-08-24 05:47:05 +000041 SourceLocation NameLoc,
42 Scope *S, CXXScopeSpec &SS,
43 ParsedType ObjectTypePtr,
44 bool EnteringContext) {
Douglas Gregor124b8782010-02-16 19:09:40 +000045 // Determine where to perform name lookup.
46
47 // FIXME: This area of the standard is very messy, and the current
48 // wording is rather unclear about which scopes we search for the
49 // destructor name; see core issues 399 and 555. Issue 399 in
50 // particular shows where the current description of destructor name
51 // lookup is completely out of line with existing practice, e.g.,
52 // this appears to be ill-formed:
53 //
54 // namespace N {
55 // template <typename T> struct S {
56 // ~S();
57 // };
58 // }
59 //
60 // void f(N::S<int>* s) {
61 // s->N::S<int>::~S();
62 // }
63 //
Douglas Gregor93649fd2010-02-23 00:15:22 +000064 // See also PR6358 and PR6359.
Sebastian Redlc0fee502010-07-07 23:17:38 +000065 // For this reason, we're currently only doing the C++03 version of this
66 // code; the C++0x version has to wait until we get a proper spec.
Douglas Gregor124b8782010-02-16 19:09:40 +000067 QualType SearchType;
68 DeclContext *LookupCtx = 0;
69 bool isDependent = false;
70 bool LookInScope = false;
71
72 // If we have an object type, it's because we are in a
73 // pseudo-destructor-expression or a member access expression, and
74 // we know what type we're looking for.
75 if (ObjectTypePtr)
76 SearchType = GetTypeFromParser(ObjectTypePtr);
77
78 if (SS.isSet()) {
Douglas Gregor93649fd2010-02-23 00:15:22 +000079 NestedNameSpecifier *NNS = (NestedNameSpecifier *)SS.getScopeRep();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +000080
Douglas Gregor93649fd2010-02-23 00:15:22 +000081 bool AlreadySearched = false;
82 bool LookAtPrefix = true;
Sebastian Redlc0fee502010-07-07 23:17:38 +000083 // C++ [basic.lookup.qual]p6:
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +000084 // If a pseudo-destructor-name (5.2.4) contains a nested-name-specifier,
Sebastian Redlc0fee502010-07-07 23:17:38 +000085 // the type-names are looked up as types in the scope designated by the
86 // nested-name-specifier. In a qualified-id of the form:
NAKAMURA Takumi00995302011-01-27 07:09:49 +000087 //
88 // ::[opt] nested-name-specifier ~ class-name
Sebastian Redlc0fee502010-07-07 23:17:38 +000089 //
90 // where the nested-name-specifier designates a namespace scope, and in
Chandler Carruth5e895a82010-02-21 10:19:54 +000091 // a qualified-id of the form:
Douglas Gregor124b8782010-02-16 19:09:40 +000092 //
NAKAMURA Takumi00995302011-01-27 07:09:49 +000093 // ::opt nested-name-specifier class-name :: ~ class-name
Douglas Gregor124b8782010-02-16 19:09:40 +000094 //
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +000095 // the class-names are looked up as types in the scope designated by
Sebastian Redlc0fee502010-07-07 23:17:38 +000096 // the nested-name-specifier.
Douglas Gregor124b8782010-02-16 19:09:40 +000097 //
Sebastian Redlc0fee502010-07-07 23:17:38 +000098 // Here, we check the first case (completely) and determine whether the
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +000099 // code below is permitted to look at the prefix of the
Sebastian Redlc0fee502010-07-07 23:17:38 +0000100 // nested-name-specifier.
101 DeclContext *DC = computeDeclContext(SS, EnteringContext);
102 if (DC && DC->isFileContext()) {
103 AlreadySearched = true;
104 LookupCtx = DC;
105 isDependent = false;
106 } else if (DC && isa<CXXRecordDecl>(DC))
107 LookAtPrefix = false;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000108
Sebastian Redlc0fee502010-07-07 23:17:38 +0000109 // The second case from the C++03 rules quoted further above.
Douglas Gregor93649fd2010-02-23 00:15:22 +0000110 NestedNameSpecifier *Prefix = 0;
111 if (AlreadySearched) {
112 // Nothing left to do.
113 } else if (LookAtPrefix && (Prefix = NNS->getPrefix())) {
114 CXXScopeSpec PrefixSS;
Douglas Gregor7e384942011-02-25 16:07:42 +0000115 PrefixSS.Adopt(NestedNameSpecifierLoc(Prefix, SS.location_data()));
Douglas Gregor93649fd2010-02-23 00:15:22 +0000116 LookupCtx = computeDeclContext(PrefixSS, EnteringContext);
117 isDependent = isDependentScopeSpecifier(PrefixSS);
Douglas Gregor93649fd2010-02-23 00:15:22 +0000118 } else if (ObjectTypePtr) {
Douglas Gregor124b8782010-02-16 19:09:40 +0000119 LookupCtx = computeDeclContext(SearchType);
120 isDependent = SearchType->isDependentType();
121 } else {
122 LookupCtx = computeDeclContext(SS, EnteringContext);
Douglas Gregor93649fd2010-02-23 00:15:22 +0000123 isDependent = LookupCtx && LookupCtx->isDependentContext();
Douglas Gregor124b8782010-02-16 19:09:40 +0000124 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000125
Douglas Gregoredc90502010-02-25 04:46:04 +0000126 LookInScope = false;
Douglas Gregor124b8782010-02-16 19:09:40 +0000127 } else if (ObjectTypePtr) {
128 // C++ [basic.lookup.classref]p3:
129 // If the unqualified-id is ~type-name, the type-name is looked up
130 // in the context of the entire postfix-expression. If the type T
131 // of the object expression is of a class type C, the type-name is
132 // also looked up in the scope of class C. At least one of the
133 // lookups shall find a name that refers to (possibly
134 // cv-qualified) T.
135 LookupCtx = computeDeclContext(SearchType);
136 isDependent = SearchType->isDependentType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000137 assert((isDependent || !SearchType->isIncompleteType()) &&
Douglas Gregor124b8782010-02-16 19:09:40 +0000138 "Caller should have completed object type");
139
140 LookInScope = true;
141 } else {
142 // Perform lookup into the current scope (only).
143 LookInScope = true;
144 }
145
Douglas Gregor7ec18732011-03-04 22:32:08 +0000146 TypeDecl *NonMatchingTypeDecl = 0;
Douglas Gregor124b8782010-02-16 19:09:40 +0000147 LookupResult Found(*this, &II, NameLoc, LookupOrdinaryName);
148 for (unsigned Step = 0; Step != 2; ++Step) {
149 // Look for the name first in the computed lookup context (if we
Douglas Gregor7ec18732011-03-04 22:32:08 +0000150 // have one) and, if that fails to find a match, in the scope (if
Douglas Gregor124b8782010-02-16 19:09:40 +0000151 // we're allowed to look there).
152 Found.clear();
153 if (Step == 0 && LookupCtx)
154 LookupQualifiedName(Found, LookupCtx);
Douglas Gregora2e7dd22010-02-25 01:56:36 +0000155 else if (Step == 1 && LookInScope && S)
Douglas Gregor124b8782010-02-16 19:09:40 +0000156 LookupName(Found, S);
157 else
158 continue;
159
160 // FIXME: Should we be suppressing ambiguities here?
161 if (Found.isAmbiguous())
John McCallb3d87482010-08-24 05:47:05 +0000162 return ParsedType();
Douglas Gregor124b8782010-02-16 19:09:40 +0000163
164 if (TypeDecl *Type = Found.getAsSingle<TypeDecl>()) {
165 QualType T = Context.getTypeDeclType(Type);
Douglas Gregor124b8782010-02-16 19:09:40 +0000166
167 if (SearchType.isNull() || SearchType->isDependentType() ||
168 Context.hasSameUnqualifiedType(T, SearchType)) {
169 // We found our type!
170
John McCallb3d87482010-08-24 05:47:05 +0000171 return ParsedType::make(T);
Douglas Gregor124b8782010-02-16 19:09:40 +0000172 }
John Wiegley36784e72011-03-08 08:13:22 +0000173
Douglas Gregor7ec18732011-03-04 22:32:08 +0000174 if (!SearchType.isNull())
175 NonMatchingTypeDecl = Type;
Douglas Gregor124b8782010-02-16 19:09:40 +0000176 }
177
178 // If the name that we found is a class template name, and it is
179 // the same name as the template name in the last part of the
180 // nested-name-specifier (if present) or the object type, then
181 // this is the destructor for that class.
182 // FIXME: This is a workaround until we get real drafting for core
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000183 // issue 399, for which there isn't even an obvious direction.
Douglas Gregor124b8782010-02-16 19:09:40 +0000184 if (ClassTemplateDecl *Template = Found.getAsSingle<ClassTemplateDecl>()) {
185 QualType MemberOfType;
186 if (SS.isSet()) {
187 if (DeclContext *Ctx = computeDeclContext(SS, EnteringContext)) {
188 // Figure out the type of the context, if it has one.
John McCall3cb0ebd2010-03-10 03:28:59 +0000189 if (CXXRecordDecl *Record = dyn_cast<CXXRecordDecl>(Ctx))
190 MemberOfType = Context.getTypeDeclType(Record);
Douglas Gregor124b8782010-02-16 19:09:40 +0000191 }
192 }
193 if (MemberOfType.isNull())
194 MemberOfType = SearchType;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000195
Douglas Gregor124b8782010-02-16 19:09:40 +0000196 if (MemberOfType.isNull())
197 continue;
198
199 // We're referring into a class template specialization. If the
200 // class template we found is the same as the template being
201 // specialized, we found what we are looking for.
202 if (const RecordType *Record = MemberOfType->getAs<RecordType>()) {
203 if (ClassTemplateSpecializationDecl *Spec
204 = dyn_cast<ClassTemplateSpecializationDecl>(Record->getDecl())) {
205 if (Spec->getSpecializedTemplate()->getCanonicalDecl() ==
206 Template->getCanonicalDecl())
John McCallb3d87482010-08-24 05:47:05 +0000207 return ParsedType::make(MemberOfType);
Douglas Gregor124b8782010-02-16 19:09:40 +0000208 }
209
210 continue;
211 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000212
Douglas Gregor124b8782010-02-16 19:09:40 +0000213 // We're referring to an unresolved class template
214 // specialization. Determine whether we class template we found
215 // is the same as the template being specialized or, if we don't
216 // know which template is being specialized, that it at least
217 // has the same name.
218 if (const TemplateSpecializationType *SpecType
219 = MemberOfType->getAs<TemplateSpecializationType>()) {
220 TemplateName SpecName = SpecType->getTemplateName();
221
222 // The class template we found is the same template being
223 // specialized.
224 if (TemplateDecl *SpecTemplate = SpecName.getAsTemplateDecl()) {
225 if (SpecTemplate->getCanonicalDecl() == Template->getCanonicalDecl())
John McCallb3d87482010-08-24 05:47:05 +0000226 return ParsedType::make(MemberOfType);
Douglas Gregor124b8782010-02-16 19:09:40 +0000227
228 continue;
229 }
230
231 // The class template we found has the same name as the
232 // (dependent) template name being specialized.
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000233 if (DependentTemplateName *DepTemplate
Douglas Gregor124b8782010-02-16 19:09:40 +0000234 = SpecName.getAsDependentTemplateName()) {
235 if (DepTemplate->isIdentifier() &&
236 DepTemplate->getIdentifier() == Template->getIdentifier())
John McCallb3d87482010-08-24 05:47:05 +0000237 return ParsedType::make(MemberOfType);
Douglas Gregor124b8782010-02-16 19:09:40 +0000238
239 continue;
240 }
241 }
242 }
243 }
244
245 if (isDependent) {
246 // We didn't find our type, but that's okay: it's dependent
247 // anyway.
Douglas Gregore29425b2011-02-28 22:42:13 +0000248
249 // FIXME: What if we have no nested-name-specifier?
250 QualType T = CheckTypenameType(ETK_None, SourceLocation(),
251 SS.getWithLocInContext(Context),
252 II, NameLoc);
John McCallb3d87482010-08-24 05:47:05 +0000253 return ParsedType::make(T);
Douglas Gregor124b8782010-02-16 19:09:40 +0000254 }
255
Douglas Gregor7ec18732011-03-04 22:32:08 +0000256 if (NonMatchingTypeDecl) {
257 QualType T = Context.getTypeDeclType(NonMatchingTypeDecl);
258 Diag(NameLoc, diag::err_destructor_expr_type_mismatch)
259 << T << SearchType;
260 Diag(NonMatchingTypeDecl->getLocation(), diag::note_destructor_type_here)
261 << T;
262 } else if (ObjectTypePtr)
263 Diag(NameLoc, diag::err_ident_in_dtor_not_a_type)
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000264 << &II;
Douglas Gregor124b8782010-02-16 19:09:40 +0000265 else
266 Diag(NameLoc, diag::err_destructor_class_name);
267
John McCallb3d87482010-08-24 05:47:05 +0000268 return ParsedType();
Douglas Gregor124b8782010-02-16 19:09:40 +0000269}
270
David Blaikie53a75c02011-12-08 16:13:53 +0000271ParsedType Sema::getDestructorType(const DeclSpec& DS, ParsedType ObjectType) {
David Blaikie4db8c442011-12-12 04:13:55 +0000272 if (DS.getTypeSpecType() == DeclSpec::TST_error || !ObjectType)
David Blaikie53a75c02011-12-08 16:13:53 +0000273 return ParsedType();
274 assert(DS.getTypeSpecType() == DeclSpec::TST_decltype
275 && "only get destructor types from declspecs");
276 QualType T = BuildDecltypeType(DS.getRepAsExpr(), DS.getTypeSpecTypeLoc());
277 QualType SearchType = GetTypeFromParser(ObjectType);
278 if (SearchType->isDependentType() || Context.hasSameUnqualifiedType(SearchType, T)) {
279 return ParsedType::make(T);
280 }
281
282 Diag(DS.getTypeSpecTypeLoc(), diag::err_destructor_expr_type_mismatch)
283 << T << SearchType;
284 return ParsedType();
285}
286
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000287/// \brief Build a C++ typeid expression with a type operand.
John McCall60d7b3a2010-08-24 06:29:42 +0000288ExprResult Sema::BuildCXXTypeId(QualType TypeInfoType,
Douglas Gregor4eb4f0f2010-09-08 23:14:30 +0000289 SourceLocation TypeidLoc,
290 TypeSourceInfo *Operand,
291 SourceLocation RParenLoc) {
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000292 // C++ [expr.typeid]p4:
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000293 // The top-level cv-qualifiers of the lvalue expression or the type-id
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000294 // that is the operand of typeid are always ignored.
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000295 // If the type of the type-id is a class type or a reference to a class
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000296 // type, the class shall be completely-defined.
Douglas Gregord1c1d7b2010-06-02 06:16:02 +0000297 Qualifiers Quals;
298 QualType T
299 = Context.getUnqualifiedArrayType(Operand->getType().getNonReferenceType(),
300 Quals);
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000301 if (T->getAs<RecordType>() &&
302 RequireCompleteType(TypeidLoc, T, diag::err_incomplete_typeid))
303 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000304
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000305 return Owned(new (Context) CXXTypeidExpr(TypeInfoType.withConst(),
306 Operand,
307 SourceRange(TypeidLoc, RParenLoc)));
308}
309
310/// \brief Build a C++ typeid expression with an expression operand.
John McCall60d7b3a2010-08-24 06:29:42 +0000311ExprResult Sema::BuildCXXTypeId(QualType TypeInfoType,
Douglas Gregor4eb4f0f2010-09-08 23:14:30 +0000312 SourceLocation TypeidLoc,
313 Expr *E,
314 SourceLocation RParenLoc) {
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000315 if (E && !E->isTypeDependent()) {
John McCall6dbba4f2011-10-11 23:14:30 +0000316 if (E->getType()->isPlaceholderType()) {
317 ExprResult result = CheckPlaceholderExpr(E);
318 if (result.isInvalid()) return ExprError();
319 E = result.take();
320 }
321
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000322 QualType T = E->getType();
323 if (const RecordType *RecordT = T->getAs<RecordType>()) {
324 CXXRecordDecl *RecordD = cast<CXXRecordDecl>(RecordT->getDecl());
325 // C++ [expr.typeid]p3:
326 // [...] If the type of the expression is a class type, the class
327 // shall be completely-defined.
328 if (RequireCompleteType(TypeidLoc, T, diag::err_incomplete_typeid))
329 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000330
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000331 // C++ [expr.typeid]p3:
Sebastian Redl906082e2010-07-20 04:20:21 +0000332 // When typeid is applied to an expression other than an glvalue of a
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000333 // polymorphic class type [...] [the] expression is an unevaluated
334 // operand. [...]
Sebastian Redl906082e2010-07-20 04:20:21 +0000335 if (RecordD->isPolymorphic() && E->Classify(Context).isGLValue()) {
Eli Friedmanef331b72012-01-20 01:26:23 +0000336 // The subexpression is potentially evaluated; switch the context
337 // and recheck the subexpression.
338 ExprResult Result = TranformToPotentiallyEvaluated(E);
339 if (Result.isInvalid()) return ExprError();
340 E = Result.take();
Douglas Gregor6fb745b2010-05-13 16:44:06 +0000341
342 // We require a vtable to query the type at run time.
343 MarkVTableUsed(TypeidLoc, RecordD);
344 }
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000345 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000346
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000347 // C++ [expr.typeid]p4:
348 // [...] If the type of the type-id is a reference to a possibly
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000349 // cv-qualified type, the result of the typeid expression refers to a
350 // std::type_info object representing the cv-unqualified referenced
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000351 // type.
Douglas Gregord1c1d7b2010-06-02 06:16:02 +0000352 Qualifiers Quals;
353 QualType UnqualT = Context.getUnqualifiedArrayType(T, Quals);
354 if (!Context.hasSameType(T, UnqualT)) {
355 T = UnqualT;
Eli Friedmanc1c0dfb2011-09-27 21:58:52 +0000356 E = ImpCastExprToType(E, UnqualT, CK_NoOp, E->getValueKind()).take();
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000357 }
358 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000359
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000360 return Owned(new (Context) CXXTypeidExpr(TypeInfoType.withConst(),
John McCall9ae2f072010-08-23 23:25:46 +0000361 E,
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000362 SourceRange(TypeidLoc, RParenLoc)));
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000363}
364
365/// ActOnCXXTypeidOfType - Parse typeid( type-id ) or typeid (expression);
John McCall60d7b3a2010-08-24 06:29:42 +0000366ExprResult
Sebastian Redlc42e1182008-11-11 11:37:55 +0000367Sema::ActOnCXXTypeid(SourceLocation OpLoc, SourceLocation LParenLoc,
368 bool isType, void *TyOrExpr, SourceLocation RParenLoc) {
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000369 // Find the std::type_info type.
Sebastian Redlce0682f2011-03-31 19:29:24 +0000370 if (!getStdNamespace())
Sebastian Redlf53597f2009-03-15 17:47:39 +0000371 return ExprError(Diag(OpLoc, diag::err_need_header_before_typeid));
Argyrios Kyrtzidise8661902009-08-19 01:28:28 +0000372
Douglas Gregor4eb4f0f2010-09-08 23:14:30 +0000373 if (!CXXTypeInfoDecl) {
374 IdentifierInfo *TypeInfoII = &PP.getIdentifierTable().get("type_info");
375 LookupResult R(*this, TypeInfoII, SourceLocation(), LookupTagName);
376 LookupQualifiedName(R, getStdNamespace());
377 CXXTypeInfoDecl = R.getAsSingle<RecordDecl>();
378 if (!CXXTypeInfoDecl)
379 return ExprError(Diag(OpLoc, diag::err_need_header_before_typeid));
380 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000381
Douglas Gregor4eb4f0f2010-09-08 23:14:30 +0000382 QualType TypeInfoType = Context.getTypeDeclType(CXXTypeInfoDecl);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000383
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000384 if (isType) {
385 // The operand is a type; handle it as such.
386 TypeSourceInfo *TInfo = 0;
John McCallb3d87482010-08-24 05:47:05 +0000387 QualType T = GetTypeFromParser(ParsedType::getFromOpaquePtr(TyOrExpr),
388 &TInfo);
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000389 if (T.isNull())
390 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000391
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000392 if (!TInfo)
393 TInfo = Context.getTrivialTypeSourceInfo(T, OpLoc);
Sebastian Redlc42e1182008-11-11 11:37:55 +0000394
Douglas Gregor57fdc8a2010-04-26 22:37:10 +0000395 return BuildCXXTypeId(TypeInfoType, OpLoc, TInfo, RParenLoc);
Douglas Gregorac7610d2009-06-22 20:57:11 +0000396 }
Mike Stump1eb44332009-09-09 15:08:12 +0000397
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000398 // The operand is an expression.
John McCall9ae2f072010-08-23 23:25:46 +0000399 return BuildCXXTypeId(TypeInfoType, OpLoc, (Expr*)TyOrExpr, RParenLoc);
Sebastian Redlc42e1182008-11-11 11:37:55 +0000400}
401
Francois Pichet6915c522010-12-27 01:32:00 +0000402/// Retrieve the UuidAttr associated with QT.
403static UuidAttr *GetUuidAttrOfType(QualType QT) {
404 // Optionally remove one level of pointer, reference or array indirection.
John McCallf4c73712011-01-19 06:33:43 +0000405 const Type *Ty = QT.getTypePtr();;
Francois Pichet913b7bf2010-12-20 03:51:03 +0000406 if (QT->isPointerType() || QT->isReferenceType())
407 Ty = QT->getPointeeType().getTypePtr();
408 else if (QT->isArrayType())
409 Ty = cast<ArrayType>(QT)->getElementType().getTypePtr();
410
Francois Pichet8db75a22011-05-08 10:02:20 +0000411 // Loop all record redeclaration looking for an uuid attribute.
Francois Pichet6915c522010-12-27 01:32:00 +0000412 CXXRecordDecl *RD = Ty->getAsCXXRecordDecl();
Francois Pichet8db75a22011-05-08 10:02:20 +0000413 for (CXXRecordDecl::redecl_iterator I = RD->redecls_begin(),
414 E = RD->redecls_end(); I != E; ++I) {
415 if (UuidAttr *Uuid = I->getAttr<UuidAttr>())
Francois Pichet6915c522010-12-27 01:32:00 +0000416 return Uuid;
Francois Pichet6915c522010-12-27 01:32:00 +0000417 }
Francois Pichet8db75a22011-05-08 10:02:20 +0000418
Francois Pichet6915c522010-12-27 01:32:00 +0000419 return 0;
Francois Pichet913b7bf2010-12-20 03:51:03 +0000420}
421
Francois Pichet01b7c302010-09-08 12:20:18 +0000422/// \brief Build a Microsoft __uuidof expression with a type operand.
423ExprResult Sema::BuildCXXUuidof(QualType TypeInfoType,
424 SourceLocation TypeidLoc,
425 TypeSourceInfo *Operand,
426 SourceLocation RParenLoc) {
Francois Pichet6915c522010-12-27 01:32:00 +0000427 if (!Operand->getType()->isDependentType()) {
428 if (!GetUuidAttrOfType(Operand->getType()))
429 return ExprError(Diag(TypeidLoc, diag::err_uuidof_without_guid));
430 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000431
Francois Pichet01b7c302010-09-08 12:20:18 +0000432 // FIXME: add __uuidof semantic analysis for type operand.
433 return Owned(new (Context) CXXUuidofExpr(TypeInfoType.withConst(),
434 Operand,
435 SourceRange(TypeidLoc, RParenLoc)));
436}
437
438/// \brief Build a Microsoft __uuidof expression with an expression operand.
439ExprResult Sema::BuildCXXUuidof(QualType TypeInfoType,
440 SourceLocation TypeidLoc,
441 Expr *E,
442 SourceLocation RParenLoc) {
Francois Pichet6915c522010-12-27 01:32:00 +0000443 if (!E->getType()->isDependentType()) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000444 if (!GetUuidAttrOfType(E->getType()) &&
Francois Pichet6915c522010-12-27 01:32:00 +0000445 !E->isNullPointerConstant(Context, Expr::NPC_ValueDependentIsNull))
446 return ExprError(Diag(TypeidLoc, diag::err_uuidof_without_guid));
447 }
448 // FIXME: add __uuidof semantic analysis for type operand.
Francois Pichet01b7c302010-09-08 12:20:18 +0000449 return Owned(new (Context) CXXUuidofExpr(TypeInfoType.withConst(),
450 E,
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000451 SourceRange(TypeidLoc, RParenLoc)));
Francois Pichet01b7c302010-09-08 12:20:18 +0000452}
453
454/// ActOnCXXUuidof - Parse __uuidof( type-id ) or __uuidof (expression);
455ExprResult
456Sema::ActOnCXXUuidof(SourceLocation OpLoc, SourceLocation LParenLoc,
457 bool isType, void *TyOrExpr, SourceLocation RParenLoc) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000458 // If MSVCGuidDecl has not been cached, do the lookup.
Francois Pichet01b7c302010-09-08 12:20:18 +0000459 if (!MSVCGuidDecl) {
460 IdentifierInfo *GuidII = &PP.getIdentifierTable().get("_GUID");
461 LookupResult R(*this, GuidII, SourceLocation(), LookupTagName);
462 LookupQualifiedName(R, Context.getTranslationUnitDecl());
463 MSVCGuidDecl = R.getAsSingle<RecordDecl>();
464 if (!MSVCGuidDecl)
465 return ExprError(Diag(OpLoc, diag::err_need_header_before_ms_uuidof));
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000466 }
467
Francois Pichet01b7c302010-09-08 12:20:18 +0000468 QualType GuidType = Context.getTypeDeclType(MSVCGuidDecl);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000469
Francois Pichet01b7c302010-09-08 12:20:18 +0000470 if (isType) {
471 // The operand is a type; handle it as such.
472 TypeSourceInfo *TInfo = 0;
473 QualType T = GetTypeFromParser(ParsedType::getFromOpaquePtr(TyOrExpr),
474 &TInfo);
475 if (T.isNull())
476 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000477
Francois Pichet01b7c302010-09-08 12:20:18 +0000478 if (!TInfo)
479 TInfo = Context.getTrivialTypeSourceInfo(T, OpLoc);
480
481 return BuildCXXUuidof(GuidType, OpLoc, TInfo, RParenLoc);
482 }
483
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000484 // The operand is an expression.
Francois Pichet01b7c302010-09-08 12:20:18 +0000485 return BuildCXXUuidof(GuidType, OpLoc, (Expr*)TyOrExpr, RParenLoc);
486}
487
Steve Naroff1b273c42007-09-16 14:56:35 +0000488/// ActOnCXXBoolLiteral - Parse {true,false} literals.
John McCall60d7b3a2010-08-24 06:29:42 +0000489ExprResult
Steve Naroff1b273c42007-09-16 14:56:35 +0000490Sema::ActOnCXXBoolLiteral(SourceLocation OpLoc, tok::TokenKind Kind) {
Douglas Gregor2f639b92008-10-24 15:36:09 +0000491 assert((Kind == tok::kw_true || Kind == tok::kw_false) &&
Reid Spencer5f016e22007-07-11 17:01:13 +0000492 "Unknown C++ Boolean value!");
Sebastian Redlf53597f2009-03-15 17:47:39 +0000493 return Owned(new (Context) CXXBoolLiteralExpr(Kind == tok::kw_true,
494 Context.BoolTy, OpLoc));
Reid Spencer5f016e22007-07-11 17:01:13 +0000495}
Chris Lattner50dd2892008-02-26 00:51:44 +0000496
Sebastian Redl6e8ed162009-05-10 18:38:11 +0000497/// ActOnCXXNullPtrLiteral - Parse 'nullptr'.
John McCall60d7b3a2010-08-24 06:29:42 +0000498ExprResult
Sebastian Redl6e8ed162009-05-10 18:38:11 +0000499Sema::ActOnCXXNullPtrLiteral(SourceLocation Loc) {
500 return Owned(new (Context) CXXNullPtrLiteralExpr(Context.NullPtrTy, Loc));
501}
502
Chris Lattner50dd2892008-02-26 00:51:44 +0000503/// ActOnCXXThrow - Parse throw expressions.
John McCall60d7b3a2010-08-24 06:29:42 +0000504ExprResult
Douglas Gregorbca01b42011-07-06 22:04:06 +0000505Sema::ActOnCXXThrow(Scope *S, SourceLocation OpLoc, Expr *Ex) {
506 bool IsThrownVarInScope = false;
507 if (Ex) {
508 // C++0x [class.copymove]p31:
509 // When certain criteria are met, an implementation is allowed to omit the
510 // copy/move construction of a class object [...]
511 //
512 // - in a throw-expression, when the operand is the name of a
513 // non-volatile automatic object (other than a function or catch-
514 // clause parameter) whose scope does not extend beyond the end of the
515 // innermost enclosing try-block (if there is one), the copy/move
516 // operation from the operand to the exception object (15.1) can be
517 // omitted by constructing the automatic object directly into the
518 // exception object
519 if (DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(Ex->IgnoreParens()))
520 if (VarDecl *Var = dyn_cast<VarDecl>(DRE->getDecl())) {
521 if (Var->hasLocalStorage() && !Var->getType().isVolatileQualified()) {
522 for( ; S; S = S->getParent()) {
523 if (S->isDeclScope(Var)) {
524 IsThrownVarInScope = true;
525 break;
526 }
527
528 if (S->getFlags() &
529 (Scope::FnScope | Scope::ClassScope | Scope::BlockScope |
530 Scope::FunctionPrototypeScope | Scope::ObjCMethodScope |
531 Scope::TryScope))
532 break;
533 }
534 }
535 }
536 }
537
538 return BuildCXXThrow(OpLoc, Ex, IsThrownVarInScope);
539}
540
541ExprResult Sema::BuildCXXThrow(SourceLocation OpLoc, Expr *Ex,
542 bool IsThrownVarInScope) {
Anders Carlsson729b8532011-02-23 03:46:46 +0000543 // Don't report an error if 'throw' is used in system headers.
Anders Carlsson15348ae2011-02-28 02:27:16 +0000544 if (!getLangOptions().CXXExceptions &&
Anders Carlsson729b8532011-02-23 03:46:46 +0000545 !getSourceManager().isInSystemHeader(OpLoc))
Anders Carlssonb1fba312011-02-19 21:53:09 +0000546 Diag(OpLoc, diag::err_exceptions_disabled) << "throw";
Douglas Gregorbca01b42011-07-06 22:04:06 +0000547
John Wiegley429bb272011-04-08 18:41:53 +0000548 if (Ex && !Ex->isTypeDependent()) {
Douglas Gregorbca01b42011-07-06 22:04:06 +0000549 ExprResult ExRes = CheckCXXThrowOperand(OpLoc, Ex, IsThrownVarInScope);
John Wiegley429bb272011-04-08 18:41:53 +0000550 if (ExRes.isInvalid())
551 return ExprError();
552 Ex = ExRes.take();
553 }
Douglas Gregorbca01b42011-07-06 22:04:06 +0000554
555 return Owned(new (Context) CXXThrowExpr(Ex, Context.VoidTy, OpLoc,
556 IsThrownVarInScope));
Sebastian Redl972041f2009-04-27 20:27:31 +0000557}
558
559/// CheckCXXThrowOperand - Validate the operand of a throw.
Douglas Gregorbca01b42011-07-06 22:04:06 +0000560ExprResult Sema::CheckCXXThrowOperand(SourceLocation ThrowLoc, Expr *E,
561 bool IsThrownVarInScope) {
Sebastian Redl972041f2009-04-27 20:27:31 +0000562 // C++ [except.throw]p3:
Douglas Gregor154fe982009-12-23 22:04:40 +0000563 // A throw-expression initializes a temporary object, called the exception
564 // object, the type of which is determined by removing any top-level
565 // cv-qualifiers from the static type of the operand of throw and adjusting
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000566 // the type from "array of T" or "function returning T" to "pointer to T"
Douglas Gregor154fe982009-12-23 22:04:40 +0000567 // or "pointer to function returning T", [...]
568 if (E->getType().hasQualifiers())
John Wiegley429bb272011-04-08 18:41:53 +0000569 E = ImpCastExprToType(E, E->getType().getUnqualifiedType(), CK_NoOp,
Eli Friedmanc1c0dfb2011-09-27 21:58:52 +0000570 E->getValueKind()).take();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000571
John Wiegley429bb272011-04-08 18:41:53 +0000572 ExprResult Res = DefaultFunctionArrayConversion(E);
573 if (Res.isInvalid())
574 return ExprError();
575 E = Res.take();
Sebastian Redl972041f2009-04-27 20:27:31 +0000576
577 // If the type of the exception would be an incomplete type or a pointer
578 // to an incomplete type other than (cv) void the program is ill-formed.
579 QualType Ty = E->getType();
John McCallac418162010-04-22 01:10:34 +0000580 bool isPointer = false;
Ted Kremenek6217b802009-07-29 21:53:49 +0000581 if (const PointerType* Ptr = Ty->getAs<PointerType>()) {
Sebastian Redl972041f2009-04-27 20:27:31 +0000582 Ty = Ptr->getPointeeType();
John McCallac418162010-04-22 01:10:34 +0000583 isPointer = true;
Sebastian Redl972041f2009-04-27 20:27:31 +0000584 }
585 if (!isPointer || !Ty->isVoidType()) {
586 if (RequireCompleteType(ThrowLoc, Ty,
Anders Carlssond497ba72009-08-26 22:59:12 +0000587 PDiag(isPointer ? diag::err_throw_incomplete_ptr
588 : diag::err_throw_incomplete)
589 << E->getSourceRange()))
John Wiegley429bb272011-04-08 18:41:53 +0000590 return ExprError();
Rafael Espindola7b9a5aa2010-03-02 21:28:26 +0000591
Douglas Gregorbf422f92010-04-15 18:05:39 +0000592 if (RequireNonAbstractType(ThrowLoc, E->getType(),
593 PDiag(diag::err_throw_abstract_type)
594 << E->getSourceRange()))
John Wiegley429bb272011-04-08 18:41:53 +0000595 return ExprError();
Sebastian Redl972041f2009-04-27 20:27:31 +0000596 }
597
John McCallac418162010-04-22 01:10:34 +0000598 // Initialize the exception result. This implicitly weeds out
599 // abstract types or types with inaccessible copy constructors.
Douglas Gregorbca01b42011-07-06 22:04:06 +0000600
601 // C++0x [class.copymove]p31:
602 // When certain criteria are met, an implementation is allowed to omit the
603 // copy/move construction of a class object [...]
604 //
605 // - in a throw-expression, when the operand is the name of a
606 // non-volatile automatic object (other than a function or catch-clause
607 // parameter) whose scope does not extend beyond the end of the
608 // innermost enclosing try-block (if there is one), the copy/move
609 // operation from the operand to the exception object (15.1) can be
610 // omitted by constructing the automatic object directly into the
611 // exception object
612 const VarDecl *NRVOVariable = 0;
613 if (IsThrownVarInScope)
614 NRVOVariable = getCopyElisionCandidate(QualType(), E, false);
615
John McCallac418162010-04-22 01:10:34 +0000616 InitializedEntity Entity =
Douglas Gregor72dfa272011-01-21 22:46:35 +0000617 InitializedEntity::InitializeException(ThrowLoc, E->getType(),
Douglas Gregorbca01b42011-07-06 22:04:06 +0000618 /*NRVO=*/NRVOVariable != 0);
John Wiegley429bb272011-04-08 18:41:53 +0000619 Res = PerformMoveOrCopyInitialization(Entity, NRVOVariable,
Douglas Gregorbca01b42011-07-06 22:04:06 +0000620 QualType(), E,
621 IsThrownVarInScope);
John McCallac418162010-04-22 01:10:34 +0000622 if (Res.isInvalid())
John Wiegley429bb272011-04-08 18:41:53 +0000623 return ExprError();
624 E = Res.take();
Douglas Gregor6fb745b2010-05-13 16:44:06 +0000625
Eli Friedman5ed9b932010-06-03 20:39:03 +0000626 // If the exception has class type, we need additional handling.
627 const RecordType *RecordTy = Ty->getAs<RecordType>();
628 if (!RecordTy)
John Wiegley429bb272011-04-08 18:41:53 +0000629 return Owned(E);
Eli Friedman5ed9b932010-06-03 20:39:03 +0000630 CXXRecordDecl *RD = cast<CXXRecordDecl>(RecordTy->getDecl());
631
Douglas Gregor6fb745b2010-05-13 16:44:06 +0000632 // If we are throwing a polymorphic class type or pointer thereof,
633 // exception handling will make use of the vtable.
Eli Friedman5ed9b932010-06-03 20:39:03 +0000634 MarkVTableUsed(ThrowLoc, RD);
635
Eli Friedman98efb9f2010-10-12 20:32:36 +0000636 // If a pointer is thrown, the referenced object will not be destroyed.
637 if (isPointer)
John Wiegley429bb272011-04-08 18:41:53 +0000638 return Owned(E);
Eli Friedman98efb9f2010-10-12 20:32:36 +0000639
Richard Smith213d70b2012-02-18 04:13:32 +0000640 // If the class has a destructor, we must be able to call it.
641 if (RD->hasIrrelevantDestructor())
John Wiegley429bb272011-04-08 18:41:53 +0000642 return Owned(E);
Eli Friedman5ed9b932010-06-03 20:39:03 +0000643
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000644 CXXDestructorDecl *Destructor
Douglas Gregordb89f282010-07-01 22:47:18 +0000645 = const_cast<CXXDestructorDecl*>(LookupDestructor(RD));
Eli Friedman5ed9b932010-06-03 20:39:03 +0000646 if (!Destructor)
John Wiegley429bb272011-04-08 18:41:53 +0000647 return Owned(E);
Eli Friedman5ed9b932010-06-03 20:39:03 +0000648
Eli Friedman5f2987c2012-02-02 03:46:19 +0000649 MarkFunctionReferenced(E->getExprLoc(), Destructor);
Eli Friedman5ed9b932010-06-03 20:39:03 +0000650 CheckDestructorAccess(E->getExprLoc(), Destructor,
Douglas Gregored8abf12010-07-08 06:14:04 +0000651 PDiag(diag::err_access_dtor_exception) << Ty);
Richard Smith213d70b2012-02-18 04:13:32 +0000652 DiagnoseUseOfDecl(Destructor, E->getExprLoc());
John Wiegley429bb272011-04-08 18:41:53 +0000653 return Owned(E);
Chris Lattner50dd2892008-02-26 00:51:44 +0000654}
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000655
Eli Friedman72899c32012-01-07 04:59:52 +0000656QualType Sema::getCurrentThisType() {
657 DeclContext *DC = getFunctionLevelDeclContext();
Richard Smith7a614d82011-06-11 17:19:42 +0000658 QualType ThisTy;
659 if (CXXMethodDecl *method = dyn_cast<CXXMethodDecl>(DC)) {
660 if (method && method->isInstance())
661 ThisTy = method->getThisType(Context);
662 } else if (CXXRecordDecl *RD = dyn_cast<CXXRecordDecl>(DC)) {
663 // C++0x [expr.prim]p4:
664 // Otherwise, if a member-declarator declares a non-static data member
665 // of a class X, the expression this is a prvalue of type "pointer to X"
666 // within the optional brace-or-equal-initializer.
667 Scope *S = getScopeForContext(DC);
668 if (!S || S->getFlags() & Scope::ThisScope)
669 ThisTy = Context.getPointerType(Context.getRecordType(RD));
670 }
John McCall469a1eb2011-02-02 13:00:07 +0000671
Richard Smith7a614d82011-06-11 17:19:42 +0000672 return ThisTy;
John McCall5808ce42011-02-03 08:15:49 +0000673}
674
Douglas Gregora1f21142012-02-01 17:04:21 +0000675void Sema::CheckCXXThisCapture(SourceLocation Loc, bool Explicit) {
Eli Friedman72899c32012-01-07 04:59:52 +0000676 // We don't need to capture this in an unevaluated context.
Douglas Gregora1f21142012-02-01 17:04:21 +0000677 if (ExprEvalContexts.back().Context == Unevaluated && !Explicit)
Eli Friedman72899c32012-01-07 04:59:52 +0000678 return;
679
680 // Otherwise, check that we can capture 'this'.
681 unsigned NumClosures = 0;
682 for (unsigned idx = FunctionScopes.size() - 1; idx != 0; idx--) {
Eli Friedmanb69b42c2012-01-11 02:36:31 +0000683 if (CapturingScopeInfo *CSI =
684 dyn_cast<CapturingScopeInfo>(FunctionScopes[idx])) {
685 if (CSI->CXXThisCaptureIndex != 0) {
686 // 'this' is already being captured; there isn't anything more to do.
Eli Friedman72899c32012-01-07 04:59:52 +0000687 break;
688 }
Douglas Gregora1f21142012-02-01 17:04:21 +0000689
Eli Friedmanb69b42c2012-01-11 02:36:31 +0000690 if (CSI->ImpCaptureStyle == CapturingScopeInfo::ImpCap_LambdaByref ||
Douglas Gregor3ac109c2012-02-10 17:46:20 +0000691 CSI->ImpCaptureStyle == CapturingScopeInfo::ImpCap_LambdaByval ||
Douglas Gregora1f21142012-02-01 17:04:21 +0000692 CSI->ImpCaptureStyle == CapturingScopeInfo::ImpCap_Block ||
693 Explicit) {
694 // This closure can capture 'this'; continue looking upwards.
Eli Friedman72899c32012-01-07 04:59:52 +0000695 NumClosures++;
Douglas Gregora1f21142012-02-01 17:04:21 +0000696 Explicit = false;
Eli Friedman72899c32012-01-07 04:59:52 +0000697 continue;
698 }
Eli Friedmanb69b42c2012-01-11 02:36:31 +0000699 // This context can't implicitly capture 'this'; fail out.
Douglas Gregora1f21142012-02-01 17:04:21 +0000700 Diag(Loc, diag::err_this_capture) << Explicit;
Eli Friedman72899c32012-01-07 04:59:52 +0000701 return;
702 }
Eli Friedman72899c32012-01-07 04:59:52 +0000703 break;
704 }
705
706 // Mark that we're implicitly capturing 'this' in all the scopes we skipped.
707 // FIXME: We need to delay this marking in PotentiallyPotentiallyEvaluated
708 // contexts.
709 for (unsigned idx = FunctionScopes.size() - 1;
710 NumClosures; --idx, --NumClosures) {
Eli Friedmanb69b42c2012-01-11 02:36:31 +0000711 CapturingScopeInfo *CSI = cast<CapturingScopeInfo>(FunctionScopes[idx]);
Eli Friedman668165a2012-02-11 02:51:16 +0000712 Expr *ThisExpr = 0;
Douglas Gregor999713e2012-02-18 09:37:24 +0000713 QualType ThisTy = getCurrentThisType();
Eli Friedman668165a2012-02-11 02:51:16 +0000714 if (LambdaScopeInfo *LSI = dyn_cast<LambdaScopeInfo>(CSI)) {
715 // For lambda expressions, build a field and an initializing expression.
Eli Friedman668165a2012-02-11 02:51:16 +0000716 CXXRecordDecl *Lambda = LSI->Lambda;
717 FieldDecl *Field
718 = FieldDecl::Create(Context, Lambda, Loc, Loc, 0, ThisTy,
719 Context.getTrivialTypeSourceInfo(ThisTy, Loc),
720 0, false, false);
721 Field->setImplicit(true);
722 Field->setAccess(AS_private);
723 Lambda->addDecl(Field);
724 ThisExpr = new (Context) CXXThisExpr(Loc, ThisTy, /*isImplicit=*/true);
725 }
Eli Friedmanb69b42c2012-01-11 02:36:31 +0000726 bool isNested = NumClosures > 1;
Douglas Gregor999713e2012-02-18 09:37:24 +0000727 CSI->addThisCapture(isNested, Loc, ThisTy, ThisExpr);
Eli Friedman72899c32012-01-07 04:59:52 +0000728 }
729}
730
Richard Smith7a614d82011-06-11 17:19:42 +0000731ExprResult Sema::ActOnCXXThis(SourceLocation Loc) {
John McCall5808ce42011-02-03 08:15:49 +0000732 /// C++ 9.3.2: In the body of a non-static member function, the keyword this
733 /// is a non-lvalue expression whose value is the address of the object for
734 /// which the function is called.
735
Douglas Gregor341350e2011-10-18 16:47:30 +0000736 QualType ThisTy = getCurrentThisType();
Richard Smith7a614d82011-06-11 17:19:42 +0000737 if (ThisTy.isNull()) return Diag(Loc, diag::err_invalid_this_use);
John McCall5808ce42011-02-03 08:15:49 +0000738
Eli Friedman72899c32012-01-07 04:59:52 +0000739 CheckCXXThisCapture(Loc);
Richard Smith7a614d82011-06-11 17:19:42 +0000740 return Owned(new (Context) CXXThisExpr(Loc, ThisTy, /*isImplicit=*/false));
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000741}
Argyrios Kyrtzidis987a14b2008-08-22 15:38:55 +0000742
John McCall60d7b3a2010-08-24 06:29:42 +0000743ExprResult
Douglas Gregorab6677e2010-09-08 00:15:04 +0000744Sema::ActOnCXXTypeConstructExpr(ParsedType TypeRep,
Argyrios Kyrtzidis987a14b2008-08-22 15:38:55 +0000745 SourceLocation LParenLoc,
Sebastian Redlf53597f2009-03-15 17:47:39 +0000746 MultiExprArg exprs,
Argyrios Kyrtzidis987a14b2008-08-22 15:38:55 +0000747 SourceLocation RParenLoc) {
Douglas Gregorae4c77d2010-02-05 19:11:37 +0000748 if (!TypeRep)
749 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000750
John McCall9d125032010-01-15 18:39:57 +0000751 TypeSourceInfo *TInfo;
752 QualType Ty = GetTypeFromParser(TypeRep, &TInfo);
753 if (!TInfo)
754 TInfo = Context.getTrivialTypeSourceInfo(Ty, SourceLocation());
Douglas Gregorab6677e2010-09-08 00:15:04 +0000755
756 return BuildCXXTypeConstructExpr(TInfo, LParenLoc, exprs, RParenLoc);
757}
758
759/// ActOnCXXTypeConstructExpr - Parse construction of a specified type.
760/// Can be interpreted either as function-style casting ("int(x)")
761/// or class type construction ("ClassType(x,y,z)")
762/// or creation of a value-initialized type ("int()").
763ExprResult
764Sema::BuildCXXTypeConstructExpr(TypeSourceInfo *TInfo,
765 SourceLocation LParenLoc,
766 MultiExprArg exprs,
767 SourceLocation RParenLoc) {
768 QualType Ty = TInfo->getType();
Sebastian Redlf53597f2009-03-15 17:47:39 +0000769 unsigned NumExprs = exprs.size();
770 Expr **Exprs = (Expr**)exprs.get();
Douglas Gregorab6677e2010-09-08 00:15:04 +0000771 SourceLocation TyBeginLoc = TInfo->getTypeLoc().getBeginLoc();
Argyrios Kyrtzidis987a14b2008-08-22 15:38:55 +0000772
Sebastian Redlf53597f2009-03-15 17:47:39 +0000773 if (Ty->isDependentType() ||
Douglas Gregorba498172009-03-13 21:01:28 +0000774 CallExpr::hasAnyTypeDependentArguments(Exprs, NumExprs)) {
Sebastian Redlf53597f2009-03-15 17:47:39 +0000775 exprs.release();
Mike Stump1eb44332009-09-09 15:08:12 +0000776
Douglas Gregorab6677e2010-09-08 00:15:04 +0000777 return Owned(CXXUnresolvedConstructExpr::Create(Context, TInfo,
Douglas Gregord81e6ca2009-05-20 18:46:25 +0000778 LParenLoc,
779 Exprs, NumExprs,
780 RParenLoc));
Douglas Gregorba498172009-03-13 21:01:28 +0000781 }
782
Sebastian Redl6dc00f62012-02-12 18:41:05 +0000783 bool ListInitialization = LParenLoc.isInvalid();
784 assert((!ListInitialization || (NumExprs == 1 && isa<InitListExpr>(Exprs[0])))
785 && "List initialization must have initializer list as expression.");
786 SourceRange FullRange = SourceRange(TyBeginLoc,
787 ListInitialization ? Exprs[0]->getSourceRange().getEnd() : RParenLoc);
788
Anders Carlssonbb60a502009-08-27 03:53:50 +0000789 if (Ty->isArrayType())
790 return ExprError(Diag(TyBeginLoc,
791 diag::err_value_init_for_array_type) << FullRange);
792 if (!Ty->isVoidType() &&
793 RequireCompleteType(TyBeginLoc, Ty,
794 PDiag(diag::err_invalid_incomplete_type_use)
795 << FullRange))
796 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000797
Anders Carlssonbb60a502009-08-27 03:53:50 +0000798 if (RequireNonAbstractType(TyBeginLoc, Ty,
799 diag::err_allocation_of_abstract_type))
800 return ExprError();
Mike Stump1eb44332009-09-09 15:08:12 +0000801
802
Douglas Gregor506ae412009-01-16 18:33:17 +0000803 // C++ [expr.type.conv]p1:
Argyrios Kyrtzidis987a14b2008-08-22 15:38:55 +0000804 // If the expression list is a single expression, the type conversion
805 // expression is equivalent (in definedness, and if defined in meaning) to the
806 // corresponding cast expression.
Sebastian Redl20ff0e22012-02-13 19:55:43 +0000807 if (NumExprs == 1 && !ListInitialization) {
John McCallb45ae252011-10-05 07:41:44 +0000808 Expr *Arg = Exprs[0];
Anders Carlsson0aebc812009-09-09 21:33:21 +0000809 exprs.release();
John McCallb45ae252011-10-05 07:41:44 +0000810 return BuildCXXFunctionalCastExpr(TInfo, LParenLoc, Arg, RParenLoc);
Argyrios Kyrtzidis987a14b2008-08-22 15:38:55 +0000811 }
812
Douglas Gregor19311e72010-09-08 21:40:08 +0000813 InitializedEntity Entity = InitializedEntity::InitializeTemporary(TInfo);
814 InitializationKind Kind
Sebastian Redl20ff0e22012-02-13 19:55:43 +0000815 = NumExprs ? ListInitialization
816 ? InitializationKind::CreateDirectList(TyBeginLoc)
817 : InitializationKind::CreateDirect(TyBeginLoc,
818 LParenLoc, RParenLoc)
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000819 : InitializationKind::CreateValue(TyBeginLoc,
Douglas Gregor19311e72010-09-08 21:40:08 +0000820 LParenLoc, RParenLoc);
821 InitializationSequence InitSeq(*this, Entity, Kind, Exprs, NumExprs);
822 ExprResult Result = InitSeq.Perform(*this, Entity, Kind, move(exprs));
Sebastian Redlf53597f2009-03-15 17:47:39 +0000823
Sebastian Redl20ff0e22012-02-13 19:55:43 +0000824 if (!Result.isInvalid() && ListInitialization &&
825 isa<InitListExpr>(Result.get())) {
826 // If the list-initialization doesn't involve a constructor call, we'll get
827 // the initializer-list (with corrected type) back, but that's not what we
828 // want, since it will be treated as an initializer list in further
829 // processing. Explicitly insert a cast here.
830 InitListExpr *List = cast<InitListExpr>(Result.take());
831 Result = Owned(CXXFunctionalCastExpr::Create(Context, List->getType(),
832 Expr::getValueKindForType(TInfo->getType()),
833 TInfo, TyBeginLoc, CK_NoOp,
834 List, /*Path=*/0, RParenLoc));
835 }
836
Douglas Gregor19311e72010-09-08 21:40:08 +0000837 // FIXME: Improve AST representation?
838 return move(Result);
Argyrios Kyrtzidis987a14b2008-08-22 15:38:55 +0000839}
Argyrios Kyrtzidis59210932008-09-10 02:17:11 +0000840
John McCall6ec278d2011-01-27 09:37:56 +0000841/// doesUsualArrayDeleteWantSize - Answers whether the usual
842/// operator delete[] for the given type has a size_t parameter.
843static bool doesUsualArrayDeleteWantSize(Sema &S, SourceLocation loc,
844 QualType allocType) {
845 const RecordType *record =
846 allocType->getBaseElementTypeUnsafe()->getAs<RecordType>();
847 if (!record) return false;
848
849 // Try to find an operator delete[] in class scope.
850
851 DeclarationName deleteName =
852 S.Context.DeclarationNames.getCXXOperatorName(OO_Array_Delete);
853 LookupResult ops(S, deleteName, loc, Sema::LookupOrdinaryName);
854 S.LookupQualifiedName(ops, record->getDecl());
855
856 // We're just doing this for information.
857 ops.suppressDiagnostics();
858
859 // Very likely: there's no operator delete[].
860 if (ops.empty()) return false;
861
862 // If it's ambiguous, it should be illegal to call operator delete[]
863 // on this thing, so it doesn't matter if we allocate extra space or not.
864 if (ops.isAmbiguous()) return false;
865
866 LookupResult::Filter filter = ops.makeFilter();
867 while (filter.hasNext()) {
868 NamedDecl *del = filter.next()->getUnderlyingDecl();
869
870 // C++0x [basic.stc.dynamic.deallocation]p2:
871 // A template instance is never a usual deallocation function,
872 // regardless of its signature.
873 if (isa<FunctionTemplateDecl>(del)) {
874 filter.erase();
875 continue;
876 }
877
878 // C++0x [basic.stc.dynamic.deallocation]p2:
879 // If class T does not declare [an operator delete[] with one
880 // parameter] but does declare a member deallocation function
881 // named operator delete[] with exactly two parameters, the
882 // second of which has type std::size_t, then this function
883 // is a usual deallocation function.
884 if (!cast<CXXMethodDecl>(del)->isUsualDeallocationFunction()) {
885 filter.erase();
886 continue;
887 }
888 }
889 filter.done();
890
891 if (!ops.isSingleResult()) return false;
892
893 const FunctionDecl *del = cast<FunctionDecl>(ops.getFoundDecl());
894 return (del->getNumParams() == 2);
895}
Argyrios Kyrtzidis59210932008-09-10 02:17:11 +0000896
Sebastian Redl6dc00f62012-02-12 18:41:05 +0000897/// \brief Parsed a C++ 'new' expression (C++ 5.3.4).
898
899/// E.g.:
Sebastian Redl4c5d3202008-11-21 19:14:01 +0000900/// @code new (memory) int[size][4] @endcode
901/// or
902/// @code ::new Foo(23, "hello") @endcode
Sebastian Redl6dc00f62012-02-12 18:41:05 +0000903///
904/// \param StartLoc The first location of the expression.
905/// \param UseGlobal True if 'new' was prefixed with '::'.
906/// \param PlacementLParen Opening paren of the placement arguments.
907/// \param PlacementArgs Placement new arguments.
908/// \param PlacementRParen Closing paren of the placement arguments.
909/// \param TypeIdParens If the type is in parens, the source range.
910/// \param D The type to be allocated, as well as array dimensions.
911/// \param ConstructorLParen Opening paren of the constructor args, empty if
912/// initializer-list syntax is used.
913/// \param ConstructorArgs Constructor/initialization arguments.
914/// \param ConstructorRParen Closing paren of the constructor args.
John McCall60d7b3a2010-08-24 06:29:42 +0000915ExprResult
Sebastian Redl4c5d3202008-11-21 19:14:01 +0000916Sema::ActOnCXXNew(SourceLocation StartLoc, bool UseGlobal,
Sebastian Redlf53597f2009-03-15 17:47:39 +0000917 SourceLocation PlacementLParen, MultiExprArg PlacementArgs,
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000918 SourceLocation PlacementRParen, SourceRange TypeIdParens,
Sebastian Redl2aed8b82012-02-16 12:22:20 +0000919 Declarator &D, Expr *Initializer) {
Richard Smith34b41d92011-02-20 03:19:35 +0000920 bool TypeContainsAuto = D.getDeclSpec().getTypeSpecType() == DeclSpec::TST_auto;
921
Sebastian Redlcee63fb2008-12-02 14:43:59 +0000922 Expr *ArraySize = 0;
Sebastian Redlcee63fb2008-12-02 14:43:59 +0000923 // If the specified type is an array, unwrap it and save the expression.
924 if (D.getNumTypeObjects() > 0 &&
925 D.getTypeObject(0).Kind == DeclaratorChunk::Array) {
926 DeclaratorChunk &Chunk = D.getTypeObject(0);
Richard Smith34b41d92011-02-20 03:19:35 +0000927 if (TypeContainsAuto)
928 return ExprError(Diag(Chunk.Loc, diag::err_new_array_of_auto)
929 << D.getSourceRange());
Sebastian Redlcee63fb2008-12-02 14:43:59 +0000930 if (Chunk.Arr.hasStatic)
Sebastian Redlf53597f2009-03-15 17:47:39 +0000931 return ExprError(Diag(Chunk.Loc, diag::err_static_illegal_in_new)
932 << D.getSourceRange());
Sebastian Redlcee63fb2008-12-02 14:43:59 +0000933 if (!Chunk.Arr.NumElts)
Sebastian Redlf53597f2009-03-15 17:47:39 +0000934 return ExprError(Diag(Chunk.Loc, diag::err_array_new_needs_size)
935 << D.getSourceRange());
Sebastian Redl8ce35b02009-10-25 21:45:37 +0000936
Sebastian Redlcee63fb2008-12-02 14:43:59 +0000937 ArraySize = static_cast<Expr*>(Chunk.Arr.NumElts);
Sebastian Redl8ce35b02009-10-25 21:45:37 +0000938 D.DropFirstTypeObject();
Sebastian Redlcee63fb2008-12-02 14:43:59 +0000939 }
940
Douglas Gregor043cad22009-09-11 00:18:58 +0000941 // Every dimension shall be of constant size.
Sebastian Redl8ce35b02009-10-25 21:45:37 +0000942 if (ArraySize) {
943 for (unsigned I = 0, N = D.getNumTypeObjects(); I < N; ++I) {
Douglas Gregor043cad22009-09-11 00:18:58 +0000944 if (D.getTypeObject(I).Kind != DeclaratorChunk::Array)
945 break;
946
947 DeclaratorChunk::ArrayTypeInfo &Array = D.getTypeObject(I).Arr;
948 if (Expr *NumElts = (Expr *)Array.NumElts) {
Richard Smith282e7e62012-02-04 09:53:13 +0000949 if (!NumElts->isTypeDependent() && !NumElts->isValueDependent()) {
950 Array.NumElts = VerifyIntegerConstantExpression(NumElts, 0,
951 PDiag(diag::err_new_array_nonconst)).take();
952 if (!Array.NumElts)
953 return ExprError();
Douglas Gregor043cad22009-09-11 00:18:58 +0000954 }
955 }
956 }
957 }
Sebastian Redl8ce35b02009-10-25 21:45:37 +0000958
Argyrios Kyrtzidis0b8c98f2011-06-28 03:01:23 +0000959 TypeSourceInfo *TInfo = GetTypeForDeclarator(D, /*Scope=*/0);
John McCallbf1a0282010-06-04 23:28:52 +0000960 QualType AllocType = TInfo->getType();
Chris Lattnereaaebc72009-04-25 08:06:05 +0000961 if (D.isInvalidType())
Sebastian Redlf53597f2009-03-15 17:47:39 +0000962 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +0000963
Sebastian Redl2aed8b82012-02-16 12:22:20 +0000964 SourceRange DirectInitRange;
965 if (ParenListExpr *List = dyn_cast_or_null<ParenListExpr>(Initializer))
966 DirectInitRange = List->getSourceRange();
967
Mike Stump1eb44332009-09-09 15:08:12 +0000968 return BuildCXXNew(StartLoc, UseGlobal,
Douglas Gregor3433cf72009-05-21 00:00:09 +0000969 PlacementLParen,
Mike Stump1eb44332009-09-09 15:08:12 +0000970 move(PlacementArgs),
Douglas Gregor3433cf72009-05-21 00:00:09 +0000971 PlacementRParen,
Douglas Gregor4bd40312010-07-13 15:54:32 +0000972 TypeIdParens,
Mike Stump1eb44332009-09-09 15:08:12 +0000973 AllocType,
Douglas Gregor1bb2a932010-09-07 21:49:58 +0000974 TInfo,
John McCall9ae2f072010-08-23 23:25:46 +0000975 ArraySize,
Sebastian Redl2aed8b82012-02-16 12:22:20 +0000976 DirectInitRange,
977 Initializer,
Richard Smith34b41d92011-02-20 03:19:35 +0000978 TypeContainsAuto);
Douglas Gregor3433cf72009-05-21 00:00:09 +0000979}
980
Sebastian Redlbd45d252012-02-16 12:59:47 +0000981static bool isLegalArrayNewInitializer(CXXNewExpr::InitializationStyle Style,
982 Expr *Init) {
Sebastian Redl2aed8b82012-02-16 12:22:20 +0000983 if (!Init)
984 return true;
Sebastian Redl1f278052012-02-17 08:42:32 +0000985 if (ParenListExpr *PLE = dyn_cast<ParenListExpr>(Init))
986 return PLE->getNumExprs() == 0;
Sebastian Redl2aed8b82012-02-16 12:22:20 +0000987 if (isa<ImplicitValueInitExpr>(Init))
988 return true;
989 else if (CXXConstructExpr *CCE = dyn_cast<CXXConstructExpr>(Init))
990 return !CCE->isListInitialization() &&
991 CCE->getConstructor()->isDefaultConstructor();
Sebastian Redlbd45d252012-02-16 12:59:47 +0000992 else if (Style == CXXNewExpr::ListInit) {
993 assert(isa<InitListExpr>(Init) &&
994 "Shouldn't create list CXXConstructExprs for arrays.");
995 return true;
996 }
Sebastian Redl2aed8b82012-02-16 12:22:20 +0000997 return false;
998}
999
John McCall60d7b3a2010-08-24 06:29:42 +00001000ExprResult
Douglas Gregor3433cf72009-05-21 00:00:09 +00001001Sema::BuildCXXNew(SourceLocation StartLoc, bool UseGlobal,
1002 SourceLocation PlacementLParen,
1003 MultiExprArg PlacementArgs,
1004 SourceLocation PlacementRParen,
Douglas Gregor4bd40312010-07-13 15:54:32 +00001005 SourceRange TypeIdParens,
Douglas Gregor3433cf72009-05-21 00:00:09 +00001006 QualType AllocType,
Douglas Gregor1bb2a932010-09-07 21:49:58 +00001007 TypeSourceInfo *AllocTypeInfo,
John McCall9ae2f072010-08-23 23:25:46 +00001008 Expr *ArraySize,
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001009 SourceRange DirectInitRange,
1010 Expr *Initializer,
Richard Smith34b41d92011-02-20 03:19:35 +00001011 bool TypeMayContainAuto) {
Douglas Gregor1bb2a932010-09-07 21:49:58 +00001012 SourceRange TypeRange = AllocTypeInfo->getTypeLoc().getSourceRange();
Sebastian Redlcee63fb2008-12-02 14:43:59 +00001013
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001014 CXXNewExpr::InitializationStyle initStyle;
1015 if (DirectInitRange.isValid()) {
1016 assert(Initializer && "Have parens but no initializer.");
1017 initStyle = CXXNewExpr::CallInit;
1018 } else if (Initializer && isa<InitListExpr>(Initializer))
1019 initStyle = CXXNewExpr::ListInit;
1020 else {
Sebastian Redl428c6202012-02-22 09:07:21 +00001021 // In template instantiation, the initializer could be a CXXDefaultArgExpr
1022 // unwrapped from a CXXConstructExpr that was implicitly built. There is no
1023 // particularly sane way we can handle this (especially since it can even
1024 // occur for array new), so we throw the initializer away and have it be
1025 // rebuilt.
1026 if (Initializer && isa<CXXDefaultArgExpr>(Initializer))
1027 Initializer = 0;
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001028 assert((!Initializer || isa<ImplicitValueInitExpr>(Initializer) ||
1029 isa<CXXConstructExpr>(Initializer)) &&
1030 "Initializer expression that cannot have been implicitly created.");
1031 initStyle = CXXNewExpr::NoInit;
1032 }
1033
1034 Expr **Inits = &Initializer;
1035 unsigned NumInits = Initializer ? 1 : 0;
1036 if (initStyle == CXXNewExpr::CallInit) {
1037 if (ParenListExpr *List = dyn_cast<ParenListExpr>(Initializer)) {
1038 Inits = List->getExprs();
1039 NumInits = List->getNumExprs();
1040 } else if (CXXConstructExpr *CCE = dyn_cast<CXXConstructExpr>(Initializer)){
1041 if (!isa<CXXTemporaryObjectExpr>(CCE)) {
1042 // Can happen in template instantiation. Since this is just an implicit
1043 // construction, we just take it apart and rebuild it.
1044 Inits = CCE->getArgs();
1045 NumInits = CCE->getNumArgs();
1046 }
1047 }
1048 }
1049
Richard Smith34b41d92011-02-20 03:19:35 +00001050 // C++0x [decl.spec.auto]p6. Deduce the type which 'auto' stands in for.
1051 if (TypeMayContainAuto && AllocType->getContainedAutoType()) {
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001052 if (initStyle == CXXNewExpr::NoInit || NumInits == 0)
Richard Smith34b41d92011-02-20 03:19:35 +00001053 return ExprError(Diag(StartLoc, diag::err_auto_new_requires_ctor_arg)
1054 << AllocType << TypeRange);
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001055 if (initStyle == CXXNewExpr::ListInit)
1056 return ExprError(Diag(Inits[0]->getSourceRange().getBegin(),
1057 diag::err_auto_new_requires_parens)
1058 << AllocType << TypeRange);
1059 if (NumInits > 1) {
1060 Expr *FirstBad = Inits[1];
Richard Smith34b41d92011-02-20 03:19:35 +00001061 return ExprError(Diag(FirstBad->getSourceRange().getBegin(),
1062 diag::err_auto_new_ctor_multiple_expressions)
1063 << AllocType << TypeRange);
1064 }
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001065 Expr *Deduce = Inits[0];
Richard Smitha085da82011-03-17 16:11:59 +00001066 TypeSourceInfo *DeducedType = 0;
Sebastian Redl6dc00f62012-02-12 18:41:05 +00001067 if (DeduceAutoType(AllocTypeInfo, Deduce, DeducedType) ==
Sebastian Redlb832f6d2012-01-23 22:09:39 +00001068 DAR_Failed)
Richard Smith34b41d92011-02-20 03:19:35 +00001069 return ExprError(Diag(StartLoc, diag::err_auto_new_deduction_failure)
Sebastian Redl6dc00f62012-02-12 18:41:05 +00001070 << AllocType << Deduce->getType()
1071 << TypeRange << Deduce->getSourceRange());
Richard Smitha085da82011-03-17 16:11:59 +00001072 if (!DeducedType)
1073 return ExprError();
Richard Smith34b41d92011-02-20 03:19:35 +00001074
Richard Smitha085da82011-03-17 16:11:59 +00001075 AllocTypeInfo = DeducedType;
1076 AllocType = AllocTypeInfo->getType();
Richard Smith34b41d92011-02-20 03:19:35 +00001077 }
Sebastian Redl6dc00f62012-02-12 18:41:05 +00001078
Douglas Gregor3caf04e2010-05-16 16:01:03 +00001079 // Per C++0x [expr.new]p5, the type being constructed may be a
1080 // typedef of an array type.
John McCall9ae2f072010-08-23 23:25:46 +00001081 if (!ArraySize) {
Douglas Gregor3caf04e2010-05-16 16:01:03 +00001082 if (const ConstantArrayType *Array
1083 = Context.getAsConstantArrayType(AllocType)) {
Argyrios Kyrtzidis9996a7f2010-08-28 09:06:06 +00001084 ArraySize = IntegerLiteral::Create(Context, Array->getSize(),
1085 Context.getSizeType(),
1086 TypeRange.getEnd());
Douglas Gregor3caf04e2010-05-16 16:01:03 +00001087 AllocType = Array->getElementType();
1088 }
1089 }
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001090
Douglas Gregora0750762010-10-06 16:00:31 +00001091 if (CheckAllocatedType(AllocType, TypeRange.getBegin(), TypeRange))
1092 return ExprError();
1093
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001094 if (initStyle == CXXNewExpr::ListInit && isStdInitializerList(AllocType, 0)) {
Sebastian Redl6dc00f62012-02-12 18:41:05 +00001095 Diag(AllocTypeInfo->getTypeLoc().getBeginLoc(),
1096 diag::warn_dangling_std_initializer_list)
Sebastian Redl772291a2012-02-19 16:31:05 +00001097 << /*at end of FE*/0 << Inits[0]->getSourceRange();
Sebastian Redl6dc00f62012-02-12 18:41:05 +00001098 }
1099
John McCallf85e1932011-06-15 23:02:42 +00001100 // In ARC, infer 'retaining' for the allocated
1101 if (getLangOptions().ObjCAutoRefCount &&
1102 AllocType.getObjCLifetime() == Qualifiers::OCL_None &&
1103 AllocType->isObjCLifetimeType()) {
1104 AllocType = Context.getLifetimeQualifiedType(AllocType,
1105 AllocType->getObjCARCImplicitLifetime());
1106 }
Sebastian Redlcee63fb2008-12-02 14:43:59 +00001107
John McCallf85e1932011-06-15 23:02:42 +00001108 QualType ResultType = Context.getPointerType(AllocType);
1109
Richard Smithf39aec12012-02-04 07:07:42 +00001110 // C++98 5.3.4p6: "The expression in a direct-new-declarator shall have
1111 // integral or enumeration type with a non-negative value."
1112 // C++11 [expr.new]p6: The expression [...] shall be of integral or unscoped
1113 // enumeration type, or a class type for which a single non-explicit
1114 // conversion function to integral or unscoped enumeration type exists.
Sebastian Redl28507842009-02-26 14:39:58 +00001115 if (ArraySize && !ArraySize->isTypeDependent()) {
Eli Friedmanceccab92012-01-26 00:26:18 +00001116 ExprResult ConvertedSize = ConvertToIntegralOrEnumerationType(
Richard Smithebaf0e62011-10-18 20:49:44 +00001117 StartLoc, ArraySize,
Richard Smithf39aec12012-02-04 07:07:42 +00001118 PDiag(diag::err_array_size_not_integral) << getLangOptions().CPlusPlus0x,
Richard Smithebaf0e62011-10-18 20:49:44 +00001119 PDiag(diag::err_array_size_incomplete_type)
1120 << ArraySize->getSourceRange(),
1121 PDiag(diag::err_array_size_explicit_conversion),
1122 PDiag(diag::note_array_size_conversion),
1123 PDiag(diag::err_array_size_ambiguous_conversion),
1124 PDiag(diag::note_array_size_conversion),
1125 PDiag(getLangOptions().CPlusPlus0x ?
1126 diag::warn_cxx98_compat_array_size_conversion :
Richard Smithf39aec12012-02-04 07:07:42 +00001127 diag::ext_array_size_conversion),
1128 /*AllowScopedEnumerations*/ false);
Douglas Gregor6bc574d2010-06-30 00:20:43 +00001129 if (ConvertedSize.isInvalid())
1130 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001131
John McCall9ae2f072010-08-23 23:25:46 +00001132 ArraySize = ConvertedSize.take();
John McCall806054d2012-01-11 00:14:46 +00001133 QualType SizeType = ArraySize->getType();
Douglas Gregor1274ccd2010-10-08 23:50:27 +00001134 if (!SizeType->isIntegralOrUnscopedEnumerationType())
Douglas Gregor6bc574d2010-06-30 00:20:43 +00001135 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001136
Richard Smith0b458fd2012-02-04 05:35:53 +00001137 // C++98 [expr.new]p7:
1138 // The expression in a direct-new-declarator shall have integral type
1139 // with a non-negative value.
1140 //
1141 // Let's see if this is a constant < 0. If so, we reject it out of
1142 // hand. Otherwise, if it's not a constant, we must have an unparenthesized
1143 // array type.
1144 //
1145 // Note: such a construct has well-defined semantics in C++11: it throws
1146 // std::bad_array_new_length.
Sebastian Redl28507842009-02-26 14:39:58 +00001147 if (!ArraySize->isValueDependent()) {
1148 llvm::APSInt Value;
Richard Smith282e7e62012-02-04 09:53:13 +00001149 // We've already performed any required implicit conversion to integer or
1150 // unscoped enumeration type.
Richard Smith0b458fd2012-02-04 05:35:53 +00001151 if (ArraySize->isIntegerConstantExpr(Value, Context)) {
Sebastian Redl28507842009-02-26 14:39:58 +00001152 if (Value < llvm::APSInt(
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001153 llvm::APInt::getNullValue(Value.getBitWidth()),
Richard Smith0b458fd2012-02-04 05:35:53 +00001154 Value.isUnsigned())) {
1155 if (getLangOptions().CPlusPlus0x)
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001156 Diag(ArraySize->getSourceRange().getBegin(),
Richard Smith0b458fd2012-02-04 05:35:53 +00001157 diag::warn_typecheck_negative_array_new_size)
Douglas Gregor2767ce22010-08-18 00:39:00 +00001158 << ArraySize->getSourceRange();
Richard Smith0b458fd2012-02-04 05:35:53 +00001159 else
1160 return ExprError(Diag(ArraySize->getSourceRange().getBegin(),
1161 diag::err_typecheck_negative_array_size)
1162 << ArraySize->getSourceRange());
1163 } else if (!AllocType->isDependentType()) {
1164 unsigned ActiveSizeBits =
1165 ConstantArrayType::getNumAddressingBits(Context, AllocType, Value);
1166 if (ActiveSizeBits > ConstantArrayType::getMaxSizeBits(Context)) {
1167 if (getLangOptions().CPlusPlus0x)
1168 Diag(ArraySize->getSourceRange().getBegin(),
1169 diag::warn_array_new_too_large)
1170 << Value.toString(10)
1171 << ArraySize->getSourceRange();
1172 else
1173 return ExprError(Diag(ArraySize->getSourceRange().getBegin(),
1174 diag::err_array_too_large)
1175 << Value.toString(10)
1176 << ArraySize->getSourceRange());
Douglas Gregor2767ce22010-08-18 00:39:00 +00001177 }
1178 }
Douglas Gregor4bd40312010-07-13 15:54:32 +00001179 } else if (TypeIdParens.isValid()) {
1180 // Can't have dynamic array size when the type-id is in parentheses.
1181 Diag(ArraySize->getLocStart(), diag::ext_new_paren_array_nonconst)
1182 << ArraySize->getSourceRange()
1183 << FixItHint::CreateRemoval(TypeIdParens.getBegin())
1184 << FixItHint::CreateRemoval(TypeIdParens.getEnd());
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001185
Douglas Gregor4bd40312010-07-13 15:54:32 +00001186 TypeIdParens = SourceRange();
Sebastian Redl28507842009-02-26 14:39:58 +00001187 }
Sebastian Redlcee63fb2008-12-02 14:43:59 +00001188 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001189
John McCallf85e1932011-06-15 23:02:42 +00001190 // ARC: warn about ABI issues.
1191 if (getLangOptions().ObjCAutoRefCount) {
1192 QualType BaseAllocType = Context.getBaseElementType(AllocType);
1193 if (BaseAllocType.hasStrongOrWeakObjCLifetime())
1194 Diag(StartLoc, diag::warn_err_new_delete_object_array)
1195 << 0 << BaseAllocType;
1196 }
1197
John McCall7d166272011-05-15 07:14:44 +00001198 // Note that we do *not* convert the argument in any way. It can
1199 // be signed, larger than size_t, whatever.
Sebastian Redlcee63fb2008-12-02 14:43:59 +00001200 }
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001201
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001202 FunctionDecl *OperatorNew = 0;
1203 FunctionDecl *OperatorDelete = 0;
Sebastian Redlf53597f2009-03-15 17:47:39 +00001204 Expr **PlaceArgs = (Expr**)PlacementArgs.get();
1205 unsigned NumPlaceArgs = PlacementArgs.size();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001206
Sebastian Redl28507842009-02-26 14:39:58 +00001207 if (!AllocType->isDependentType() &&
1208 !Expr::hasAnyTypeDependentArguments(PlaceArgs, NumPlaceArgs) &&
1209 FindAllocationFunctions(StartLoc,
Sebastian Redl00e68e22009-02-09 18:24:27 +00001210 SourceRange(PlacementLParen, PlacementRParen),
1211 UseGlobal, AllocType, ArraySize, PlaceArgs,
1212 NumPlaceArgs, OperatorNew, OperatorDelete))
Sebastian Redlf53597f2009-03-15 17:47:39 +00001213 return ExprError();
John McCall6ec278d2011-01-27 09:37:56 +00001214
1215 // If this is an array allocation, compute whether the usual array
1216 // deallocation function for the type has a size_t parameter.
1217 bool UsualArrayDeleteWantsSize = false;
1218 if (ArraySize && !AllocType->isDependentType())
1219 UsualArrayDeleteWantsSize
1220 = doesUsualArrayDeleteWantSize(*this, StartLoc, AllocType);
1221
Chris Lattner5f9e2722011-07-23 10:55:15 +00001222 SmallVector<Expr *, 8> AllPlaceArgs;
Fariborz Jahanian498429f2009-11-19 18:39:40 +00001223 if (OperatorNew) {
1224 // Add default arguments, if any.
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001225 const FunctionProtoType *Proto =
Fariborz Jahanian498429f2009-11-19 18:39:40 +00001226 OperatorNew->getType()->getAs<FunctionProtoType>();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001227 VariadicCallType CallType =
Fariborz Jahanian4cd1c702009-11-24 19:27:49 +00001228 Proto->isVariadic() ? VariadicFunction : VariadicDoesNotApply;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001229
Anders Carlsson28e94832010-05-03 02:07:56 +00001230 if (GatherArgumentsForCall(PlacementLParen, OperatorNew,
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001231 Proto, 1, PlaceArgs, NumPlaceArgs,
Anders Carlsson28e94832010-05-03 02:07:56 +00001232 AllPlaceArgs, CallType))
Fariborz Jahanian048f52a2009-11-24 18:29:37 +00001233 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001234
Fariborz Jahanian498429f2009-11-19 18:39:40 +00001235 NumPlaceArgs = AllPlaceArgs.size();
1236 if (NumPlaceArgs > 0)
1237 PlaceArgs = &AllPlaceArgs[0];
Eli Friedmane61eb042012-02-18 04:48:30 +00001238
1239 DiagnoseSentinelCalls(OperatorNew, PlacementLParen,
1240 PlaceArgs, NumPlaceArgs);
1241
1242 // FIXME: Missing call to CheckFunctionCall or equivalent
Fariborz Jahanian498429f2009-11-19 18:39:40 +00001243 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001244
Nick Lewyckyfca84b22012-01-24 21:15:41 +00001245 // Warn if the type is over-aligned and is being allocated by global operator
1246 // new.
Nick Lewycky507a8a32012-02-04 03:30:14 +00001247 if (NumPlaceArgs == 0 && OperatorNew &&
Nick Lewyckyfca84b22012-01-24 21:15:41 +00001248 (OperatorNew->isImplicit() ||
1249 getSourceManager().isInSystemHeader(OperatorNew->getLocStart()))) {
1250 if (unsigned Align = Context.getPreferredTypeAlign(AllocType.getTypePtr())){
1251 unsigned SuitableAlign = Context.getTargetInfo().getSuitableAlign();
1252 if (Align > SuitableAlign)
1253 Diag(StartLoc, diag::warn_overaligned_type)
1254 << AllocType
1255 << unsigned(Align / Context.getCharWidth())
1256 << unsigned(SuitableAlign / Context.getCharWidth());
1257 }
1258 }
1259
Sebastian Redlbd45d252012-02-16 12:59:47 +00001260 QualType InitType = AllocType;
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001261 // Array 'new' can't have any initializers except empty parentheses.
Sebastian Redlbd45d252012-02-16 12:59:47 +00001262 // Initializer lists are also allowed, in C++11. Rely on the parser for the
1263 // dialect distinction.
1264 if (ResultType->isArrayType() || ArraySize) {
1265 if (!isLegalArrayNewInitializer(initStyle, Initializer)) {
1266 SourceRange InitRange(Inits[0]->getLocStart(),
1267 Inits[NumInits - 1]->getLocEnd());
1268 Diag(StartLoc, diag::err_new_array_init_args) << InitRange;
1269 return ExprError();
1270 }
1271 if (InitListExpr *ILE = dyn_cast_or_null<InitListExpr>(Initializer)) {
1272 // We do the initialization typechecking against the array type
1273 // corresponding to the number of initializers + 1 (to also check
1274 // default-initialization).
1275 unsigned NumElements = ILE->getNumInits() + 1;
1276 InitType = Context.getConstantArrayType(AllocType,
1277 llvm::APInt(Context.getTypeSize(Context.getSizeType()), NumElements),
1278 ArrayType::Normal, 0);
1279 }
Anders Carlsson48c95012010-05-03 15:45:23 +00001280 }
1281
Douglas Gregor99a2e602009-12-16 01:38:02 +00001282 if (!AllocType->isDependentType() &&
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001283 !Expr::hasAnyTypeDependentArguments(Inits, NumInits)) {
Sebastian Redl6dc00f62012-02-12 18:41:05 +00001284 // C++11 [expr.new]p15:
Douglas Gregor99a2e602009-12-16 01:38:02 +00001285 // A new-expression that creates an object of type T initializes that
1286 // object as follows:
1287 InitializationKind Kind
1288 // - If the new-initializer is omitted, the object is default-
1289 // initialized (8.5); if no initialization is performed,
1290 // the object has indeterminate value
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001291 = initStyle == CXXNewExpr::NoInit
1292 ? InitializationKind::CreateDefault(TypeRange.getBegin())
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001293 // - Otherwise, the new-initializer is interpreted according to the
Douglas Gregor99a2e602009-12-16 01:38:02 +00001294 // initialization rules of 8.5 for direct-initialization.
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001295 : initStyle == CXXNewExpr::ListInit
1296 ? InitializationKind::CreateDirectList(TypeRange.getBegin())
1297 : InitializationKind::CreateDirect(TypeRange.getBegin(),
1298 DirectInitRange.getBegin(),
1299 DirectInitRange.getEnd());
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001300
Douglas Gregor99a2e602009-12-16 01:38:02 +00001301 InitializedEntity Entity
Sebastian Redlbd45d252012-02-16 12:59:47 +00001302 = InitializedEntity::InitializeNew(StartLoc, InitType);
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001303 InitializationSequence InitSeq(*this, Entity, Kind, Inits, NumInits);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001304 ExprResult FullInit = InitSeq.Perform(*this, Entity, Kind,
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001305 MultiExprArg(Inits, NumInits));
Douglas Gregor99a2e602009-12-16 01:38:02 +00001306 if (FullInit.isInvalid())
1307 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001308
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001309 // FullInit is our initializer; strip off CXXBindTemporaryExprs, because
1310 // we don't want the initialized object to be destructed.
1311 if (CXXBindTemporaryExpr *Binder =
1312 dyn_cast_or_null<CXXBindTemporaryExpr>(FullInit.get()))
1313 FullInit = Owned(Binder->getSubExpr());
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001314
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001315 Initializer = FullInit.take();
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001316 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001317
Douglas Gregor6d908702010-02-26 05:06:18 +00001318 // Mark the new and delete operators as referenced.
1319 if (OperatorNew)
Eli Friedman5f2987c2012-02-02 03:46:19 +00001320 MarkFunctionReferenced(StartLoc, OperatorNew);
Douglas Gregor6d908702010-02-26 05:06:18 +00001321 if (OperatorDelete)
Eli Friedman5f2987c2012-02-02 03:46:19 +00001322 MarkFunctionReferenced(StartLoc, OperatorDelete);
Douglas Gregor6d908702010-02-26 05:06:18 +00001323
John McCall84ff0fc2011-07-13 20:12:57 +00001324 // C++0x [expr.new]p17:
1325 // If the new expression creates an array of objects of class type,
1326 // access and ambiguity control are done for the destructor.
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001327 if (ArraySize && AllocType->isRecordType() && !AllocType->isDependentType()) {
1328 if (CXXDestructorDecl *dtor = LookupDestructor(
1329 cast<CXXRecordDecl>(AllocType->getAs<RecordType>()->getDecl()))) {
Eli Friedman5f2987c2012-02-02 03:46:19 +00001330 MarkFunctionReferenced(StartLoc, dtor);
John McCall84ff0fc2011-07-13 20:12:57 +00001331 CheckDestructorAccess(StartLoc, dtor,
1332 PDiag(diag::err_access_dtor)
1333 << Context.getBaseElementType(AllocType));
Richard Smith213d70b2012-02-18 04:13:32 +00001334 DiagnoseUseOfDecl(dtor, StartLoc);
John McCall84ff0fc2011-07-13 20:12:57 +00001335 }
1336 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001337
Sebastian Redlf53597f2009-03-15 17:47:39 +00001338 PlacementArgs.release();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001339
Ted Kremenekad7fe862010-02-11 22:51:03 +00001340 return Owned(new (Context) CXXNewExpr(Context, UseGlobal, OperatorNew,
Abramo Bagnara7cc58b42011-10-05 07:56:41 +00001341 OperatorDelete,
John McCall6ec278d2011-01-27 09:37:56 +00001342 UsualArrayDeleteWantsSize,
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001343 PlaceArgs, NumPlaceArgs, TypeIdParens,
1344 ArraySize, initStyle, Initializer,
Douglas Gregor1bb2a932010-09-07 21:49:58 +00001345 ResultType, AllocTypeInfo,
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001346 StartLoc, DirectInitRange));
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001347}
1348
Sebastian Redl2aed8b82012-02-16 12:22:20 +00001349/// \brief Checks that a type is suitable as the allocated type
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001350/// in a new-expression.
Douglas Gregor3433cf72009-05-21 00:00:09 +00001351bool Sema::CheckAllocatedType(QualType AllocType, SourceLocation Loc,
Mike Stump1eb44332009-09-09 15:08:12 +00001352 SourceRange R) {
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001353 // C++ 5.3.4p1: "[The] type shall be a complete object type, but not an
1354 // abstract class type or array thereof.
Douglas Gregore7450f52009-03-24 19:52:54 +00001355 if (AllocType->isFunctionType())
Douglas Gregor3433cf72009-05-21 00:00:09 +00001356 return Diag(Loc, diag::err_bad_new_type)
1357 << AllocType << 0 << R;
Douglas Gregore7450f52009-03-24 19:52:54 +00001358 else if (AllocType->isReferenceType())
Douglas Gregor3433cf72009-05-21 00:00:09 +00001359 return Diag(Loc, diag::err_bad_new_type)
1360 << AllocType << 1 << R;
Douglas Gregore7450f52009-03-24 19:52:54 +00001361 else if (!AllocType->isDependentType() &&
Douglas Gregor3433cf72009-05-21 00:00:09 +00001362 RequireCompleteType(Loc, AllocType,
Anders Carlssonb7906612009-08-26 23:45:07 +00001363 PDiag(diag::err_new_incomplete_type)
1364 << R))
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001365 return true;
Douglas Gregor3433cf72009-05-21 00:00:09 +00001366 else if (RequireNonAbstractType(Loc, AllocType,
Douglas Gregore7450f52009-03-24 19:52:54 +00001367 diag::err_allocation_of_abstract_type))
1368 return true;
Douglas Gregora0750762010-10-06 16:00:31 +00001369 else if (AllocType->isVariablyModifiedType())
1370 return Diag(Loc, diag::err_variably_modified_new_type)
1371 << AllocType;
Douglas Gregor5666d362011-04-15 19:46:20 +00001372 else if (unsigned AddressSpace = AllocType.getAddressSpace())
1373 return Diag(Loc, diag::err_address_space_qualified_new)
1374 << AllocType.getUnqualifiedType() << AddressSpace;
John McCallf85e1932011-06-15 23:02:42 +00001375 else if (getLangOptions().ObjCAutoRefCount) {
1376 if (const ArrayType *AT = Context.getAsArrayType(AllocType)) {
1377 QualType BaseAllocType = Context.getBaseElementType(AT);
1378 if (BaseAllocType.getObjCLifetime() == Qualifiers::OCL_None &&
1379 BaseAllocType->isObjCLifetimeType())
Argyrios Kyrtzidisb8b03132011-06-24 00:08:59 +00001380 return Diag(Loc, diag::err_arc_new_array_without_ownership)
John McCallf85e1932011-06-15 23:02:42 +00001381 << BaseAllocType;
1382 }
1383 }
Douglas Gregor5666d362011-04-15 19:46:20 +00001384
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001385 return false;
1386}
1387
Douglas Gregor6d908702010-02-26 05:06:18 +00001388/// \brief Determine whether the given function is a non-placement
1389/// deallocation function.
1390static bool isNonPlacementDeallocationFunction(FunctionDecl *FD) {
1391 if (FD->isInvalidDecl())
1392 return false;
1393
1394 if (CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(FD))
1395 return Method->isUsualDeallocationFunction();
1396
1397 return ((FD->getOverloadedOperator() == OO_Delete ||
1398 FD->getOverloadedOperator() == OO_Array_Delete) &&
1399 FD->getNumParams() == 1);
1400}
1401
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001402/// FindAllocationFunctions - Finds the overloads of operator new and delete
1403/// that are appropriate for the allocation.
Sebastian Redl00e68e22009-02-09 18:24:27 +00001404bool Sema::FindAllocationFunctions(SourceLocation StartLoc, SourceRange Range,
1405 bool UseGlobal, QualType AllocType,
1406 bool IsArray, Expr **PlaceArgs,
1407 unsigned NumPlaceArgs,
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001408 FunctionDecl *&OperatorNew,
Mike Stump1eb44332009-09-09 15:08:12 +00001409 FunctionDecl *&OperatorDelete) {
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001410 // --- Choosing an allocation function ---
1411 // C++ 5.3.4p8 - 14 & 18
1412 // 1) If UseGlobal is true, only look in the global scope. Else, also look
1413 // in the scope of the allocated class.
1414 // 2) If an array size is given, look for operator new[], else look for
1415 // operator new.
1416 // 3) The first argument is always size_t. Append the arguments from the
1417 // placement form.
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001418
Chris Lattner5f9e2722011-07-23 10:55:15 +00001419 SmallVector<Expr*, 8> AllocArgs(1 + NumPlaceArgs);
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001420 // We don't care about the actual value of this argument.
1421 // FIXME: Should the Sema create the expression and embed it in the syntax
1422 // tree? Or should the consumer just recalculate the value?
Argyrios Kyrtzidis9996a7f2010-08-28 09:06:06 +00001423 IntegerLiteral Size(Context, llvm::APInt::getNullValue(
Douglas Gregorbcfd1f52011-09-02 00:18:52 +00001424 Context.getTargetInfo().getPointerWidth(0)),
Anders Carlssond67c4c32009-08-16 20:29:29 +00001425 Context.getSizeType(),
1426 SourceLocation());
1427 AllocArgs[0] = &Size;
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001428 std::copy(PlaceArgs, PlaceArgs + NumPlaceArgs, AllocArgs.begin() + 1);
1429
Douglas Gregor6d908702010-02-26 05:06:18 +00001430 // C++ [expr.new]p8:
1431 // If the allocated type is a non-array type, the allocation
NAKAMURA Takumi00995302011-01-27 07:09:49 +00001432 // function's name is operator new and the deallocation function's
Douglas Gregor6d908702010-02-26 05:06:18 +00001433 // name is operator delete. If the allocated type is an array
NAKAMURA Takumi00995302011-01-27 07:09:49 +00001434 // type, the allocation function's name is operator new[] and the
1435 // deallocation function's name is operator delete[].
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001436 DeclarationName NewName = Context.DeclarationNames.getCXXOperatorName(
1437 IsArray ? OO_Array_New : OO_New);
Douglas Gregor6d908702010-02-26 05:06:18 +00001438 DeclarationName DeleteName = Context.DeclarationNames.getCXXOperatorName(
1439 IsArray ? OO_Array_Delete : OO_Delete);
1440
Argyrios Kyrtzidisd2932982010-08-25 23:14:56 +00001441 QualType AllocElemType = Context.getBaseElementType(AllocType);
1442
1443 if (AllocElemType->isRecordType() && !UseGlobal) {
Mike Stump1eb44332009-09-09 15:08:12 +00001444 CXXRecordDecl *Record
Argyrios Kyrtzidisd2932982010-08-25 23:14:56 +00001445 = cast<CXXRecordDecl>(AllocElemType->getAs<RecordType>()->getDecl());
Sebastian Redl00e68e22009-02-09 18:24:27 +00001446 if (FindAllocationOverload(StartLoc, Range, NewName, &AllocArgs[0],
Sebastian Redl7f662392008-12-04 22:20:51 +00001447 AllocArgs.size(), Record, /*AllowMissing=*/true,
1448 OperatorNew))
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001449 return true;
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001450 }
1451 if (!OperatorNew) {
1452 // Didn't find a member overload. Look for a global one.
1453 DeclareGlobalNewDelete();
Sebastian Redl7f662392008-12-04 22:20:51 +00001454 DeclContext *TUDecl = Context.getTranslationUnitDecl();
Sebastian Redl00e68e22009-02-09 18:24:27 +00001455 if (FindAllocationOverload(StartLoc, Range, NewName, &AllocArgs[0],
Sebastian Redl7f662392008-12-04 22:20:51 +00001456 AllocArgs.size(), TUDecl, /*AllowMissing=*/false,
1457 OperatorNew))
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001458 return true;
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001459 }
1460
John McCall9c82afc2010-04-20 02:18:25 +00001461 // We don't need an operator delete if we're running under
1462 // -fno-exceptions.
1463 if (!getLangOptions().Exceptions) {
1464 OperatorDelete = 0;
1465 return false;
1466 }
1467
Anders Carlssond9583892009-05-31 20:26:12 +00001468 // FindAllocationOverload can change the passed in arguments, so we need to
1469 // copy them back.
1470 if (NumPlaceArgs > 0)
1471 std::copy(&AllocArgs[1], AllocArgs.end(), PlaceArgs);
Mike Stump1eb44332009-09-09 15:08:12 +00001472
Douglas Gregor6d908702010-02-26 05:06:18 +00001473 // C++ [expr.new]p19:
1474 //
1475 // If the new-expression begins with a unary :: operator, the
NAKAMURA Takumi00995302011-01-27 07:09:49 +00001476 // deallocation function's name is looked up in the global
Douglas Gregor6d908702010-02-26 05:06:18 +00001477 // scope. Otherwise, if the allocated type is a class type T or an
NAKAMURA Takumi00995302011-01-27 07:09:49 +00001478 // array thereof, the deallocation function's name is looked up in
Douglas Gregor6d908702010-02-26 05:06:18 +00001479 // the scope of T. If this lookup fails to find the name, or if
1480 // the allocated type is not a class type or array thereof, the
NAKAMURA Takumi00995302011-01-27 07:09:49 +00001481 // deallocation function's name is looked up in the global scope.
Douglas Gregor6d908702010-02-26 05:06:18 +00001482 LookupResult FoundDelete(*this, DeleteName, StartLoc, LookupOrdinaryName);
Argyrios Kyrtzidisd2932982010-08-25 23:14:56 +00001483 if (AllocElemType->isRecordType() && !UseGlobal) {
Douglas Gregor6d908702010-02-26 05:06:18 +00001484 CXXRecordDecl *RD
Argyrios Kyrtzidisd2932982010-08-25 23:14:56 +00001485 = cast<CXXRecordDecl>(AllocElemType->getAs<RecordType>()->getDecl());
Douglas Gregor6d908702010-02-26 05:06:18 +00001486 LookupQualifiedName(FoundDelete, RD);
1487 }
John McCall90c8c572010-03-18 08:19:33 +00001488 if (FoundDelete.isAmbiguous())
1489 return true; // FIXME: clean up expressions?
Douglas Gregor6d908702010-02-26 05:06:18 +00001490
1491 if (FoundDelete.empty()) {
1492 DeclareGlobalNewDelete();
1493 LookupQualifiedName(FoundDelete, Context.getTranslationUnitDecl());
1494 }
1495
1496 FoundDelete.suppressDiagnostics();
John McCall9aa472c2010-03-19 07:35:19 +00001497
Chris Lattner5f9e2722011-07-23 10:55:15 +00001498 SmallVector<std::pair<DeclAccessPair,FunctionDecl*>, 2> Matches;
John McCall9aa472c2010-03-19 07:35:19 +00001499
John McCalledeb6c92010-09-14 21:34:24 +00001500 // Whether we're looking for a placement operator delete is dictated
1501 // by whether we selected a placement operator new, not by whether
1502 // we had explicit placement arguments. This matters for things like
1503 // struct A { void *operator new(size_t, int = 0); ... };
1504 // A *a = new A()
1505 bool isPlacementNew = (NumPlaceArgs > 0 || OperatorNew->param_size() != 1);
1506
1507 if (isPlacementNew) {
Douglas Gregor6d908702010-02-26 05:06:18 +00001508 // C++ [expr.new]p20:
1509 // A declaration of a placement deallocation function matches the
1510 // declaration of a placement allocation function if it has the
1511 // same number of parameters and, after parameter transformations
1512 // (8.3.5), all parameter types except the first are
1513 // identical. [...]
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001514 //
Douglas Gregor6d908702010-02-26 05:06:18 +00001515 // To perform this comparison, we compute the function type that
1516 // the deallocation function should have, and use that type both
1517 // for template argument deduction and for comparison purposes.
John McCalle23cf432010-12-14 08:05:40 +00001518 //
1519 // FIXME: this comparison should ignore CC and the like.
Douglas Gregor6d908702010-02-26 05:06:18 +00001520 QualType ExpectedFunctionType;
1521 {
1522 const FunctionProtoType *Proto
1523 = OperatorNew->getType()->getAs<FunctionProtoType>();
John McCalle23cf432010-12-14 08:05:40 +00001524
Chris Lattner5f9e2722011-07-23 10:55:15 +00001525 SmallVector<QualType, 4> ArgTypes;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001526 ArgTypes.push_back(Context.VoidPtrTy);
Douglas Gregor6d908702010-02-26 05:06:18 +00001527 for (unsigned I = 1, N = Proto->getNumArgs(); I < N; ++I)
1528 ArgTypes.push_back(Proto->getArgType(I));
1529
John McCalle23cf432010-12-14 08:05:40 +00001530 FunctionProtoType::ExtProtoInfo EPI;
1531 EPI.Variadic = Proto->isVariadic();
1532
Douglas Gregor6d908702010-02-26 05:06:18 +00001533 ExpectedFunctionType
1534 = Context.getFunctionType(Context.VoidTy, ArgTypes.data(),
John McCalle23cf432010-12-14 08:05:40 +00001535 ArgTypes.size(), EPI);
Douglas Gregor6d908702010-02-26 05:06:18 +00001536 }
1537
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001538 for (LookupResult::iterator D = FoundDelete.begin(),
Douglas Gregor6d908702010-02-26 05:06:18 +00001539 DEnd = FoundDelete.end();
1540 D != DEnd; ++D) {
1541 FunctionDecl *Fn = 0;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001542 if (FunctionTemplateDecl *FnTmpl
Douglas Gregor6d908702010-02-26 05:06:18 +00001543 = dyn_cast<FunctionTemplateDecl>((*D)->getUnderlyingDecl())) {
1544 // Perform template argument deduction to try to match the
1545 // expected function type.
1546 TemplateDeductionInfo Info(Context, StartLoc);
1547 if (DeduceTemplateArguments(FnTmpl, 0, ExpectedFunctionType, Fn, Info))
1548 continue;
1549 } else
1550 Fn = cast<FunctionDecl>((*D)->getUnderlyingDecl());
1551
1552 if (Context.hasSameType(Fn->getType(), ExpectedFunctionType))
John McCall9aa472c2010-03-19 07:35:19 +00001553 Matches.push_back(std::make_pair(D.getPair(), Fn));
Douglas Gregor6d908702010-02-26 05:06:18 +00001554 }
1555 } else {
1556 // C++ [expr.new]p20:
1557 // [...] Any non-placement deallocation function matches a
1558 // non-placement allocation function. [...]
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001559 for (LookupResult::iterator D = FoundDelete.begin(),
Douglas Gregor6d908702010-02-26 05:06:18 +00001560 DEnd = FoundDelete.end();
1561 D != DEnd; ++D) {
1562 if (FunctionDecl *Fn = dyn_cast<FunctionDecl>((*D)->getUnderlyingDecl()))
1563 if (isNonPlacementDeallocationFunction(Fn))
John McCall9aa472c2010-03-19 07:35:19 +00001564 Matches.push_back(std::make_pair(D.getPair(), Fn));
Douglas Gregor6d908702010-02-26 05:06:18 +00001565 }
1566 }
1567
1568 // C++ [expr.new]p20:
1569 // [...] If the lookup finds a single matching deallocation
1570 // function, that function will be called; otherwise, no
1571 // deallocation function will be called.
1572 if (Matches.size() == 1) {
John McCall9aa472c2010-03-19 07:35:19 +00001573 OperatorDelete = Matches[0].second;
Douglas Gregor6d908702010-02-26 05:06:18 +00001574
1575 // C++0x [expr.new]p20:
1576 // If the lookup finds the two-parameter form of a usual
1577 // deallocation function (3.7.4.2) and that function, considered
1578 // as a placement deallocation function, would have been
1579 // selected as a match for the allocation function, the program
1580 // is ill-formed.
1581 if (NumPlaceArgs && getLangOptions().CPlusPlus0x &&
1582 isNonPlacementDeallocationFunction(OperatorDelete)) {
1583 Diag(StartLoc, diag::err_placement_new_non_placement_delete)
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001584 << SourceRange(PlaceArgs[0]->getLocStart(),
Douglas Gregor6d908702010-02-26 05:06:18 +00001585 PlaceArgs[NumPlaceArgs - 1]->getLocEnd());
1586 Diag(OperatorDelete->getLocation(), diag::note_previous_decl)
1587 << DeleteName;
John McCall90c8c572010-03-18 08:19:33 +00001588 } else {
1589 CheckAllocationAccess(StartLoc, Range, FoundDelete.getNamingClass(),
John McCall9aa472c2010-03-19 07:35:19 +00001590 Matches[0].first);
Douglas Gregor6d908702010-02-26 05:06:18 +00001591 }
1592 }
1593
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001594 return false;
1595}
1596
Sebastian Redl7f662392008-12-04 22:20:51 +00001597/// FindAllocationOverload - Find an fitting overload for the allocation
1598/// function in the specified scope.
Sebastian Redl00e68e22009-02-09 18:24:27 +00001599bool Sema::FindAllocationOverload(SourceLocation StartLoc, SourceRange Range,
1600 DeclarationName Name, Expr** Args,
1601 unsigned NumArgs, DeclContext *Ctx,
Sean Hunt2be7e902011-05-12 22:46:29 +00001602 bool AllowMissing, FunctionDecl *&Operator,
1603 bool Diagnose) {
John McCalla24dc2e2009-11-17 02:14:36 +00001604 LookupResult R(*this, Name, StartLoc, LookupOrdinaryName);
1605 LookupQualifiedName(R, Ctx);
John McCallf36e02d2009-10-09 21:13:30 +00001606 if (R.empty()) {
Sean Hunt2be7e902011-05-12 22:46:29 +00001607 if (AllowMissing || !Diagnose)
Sebastian Redl7f662392008-12-04 22:20:51 +00001608 return false;
Sebastian Redl7f662392008-12-04 22:20:51 +00001609 return Diag(StartLoc, diag::err_ovl_no_viable_function_in_call)
Chris Lattner4330d652009-02-17 07:29:20 +00001610 << Name << Range;
Sebastian Redl7f662392008-12-04 22:20:51 +00001611 }
1612
John McCall90c8c572010-03-18 08:19:33 +00001613 if (R.isAmbiguous())
1614 return true;
1615
1616 R.suppressDiagnostics();
John McCallf36e02d2009-10-09 21:13:30 +00001617
John McCall5769d612010-02-08 23:07:23 +00001618 OverloadCandidateSet Candidates(StartLoc);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001619 for (LookupResult::iterator Alloc = R.begin(), AllocEnd = R.end();
Douglas Gregor5d64e5b2009-09-30 00:03:47 +00001620 Alloc != AllocEnd; ++Alloc) {
Douglas Gregor3fc749d2008-12-23 00:26:44 +00001621 // Even member operator new/delete are implicitly treated as
1622 // static, so don't use AddMemberCandidate.
John McCall9aa472c2010-03-19 07:35:19 +00001623 NamedDecl *D = (*Alloc)->getUnderlyingDecl();
Chandler Carruth4a73ea92010-02-03 11:02:14 +00001624
John McCall9aa472c2010-03-19 07:35:19 +00001625 if (FunctionTemplateDecl *FnTemplate = dyn_cast<FunctionTemplateDecl>(D)) {
1626 AddTemplateOverloadCandidate(FnTemplate, Alloc.getPair(),
Chandler Carruth4a73ea92010-02-03 11:02:14 +00001627 /*ExplicitTemplateArgs=*/0, Args, NumArgs,
1628 Candidates,
1629 /*SuppressUserConversions=*/false);
Douglas Gregor90916562009-09-29 18:16:17 +00001630 continue;
Chandler Carruth4a73ea92010-02-03 11:02:14 +00001631 }
1632
John McCall9aa472c2010-03-19 07:35:19 +00001633 FunctionDecl *Fn = cast<FunctionDecl>(D);
1634 AddOverloadCandidate(Fn, Alloc.getPair(), Args, NumArgs, Candidates,
Chandler Carruth4a73ea92010-02-03 11:02:14 +00001635 /*SuppressUserConversions=*/false);
Sebastian Redl7f662392008-12-04 22:20:51 +00001636 }
1637
1638 // Do the resolution.
1639 OverloadCandidateSet::iterator Best;
John McCall120d63c2010-08-24 20:38:10 +00001640 switch (Candidates.BestViableFunction(*this, StartLoc, Best)) {
Sebastian Redl7f662392008-12-04 22:20:51 +00001641 case OR_Success: {
1642 // Got one!
1643 FunctionDecl *FnDecl = Best->Function;
Eli Friedman5f2987c2012-02-02 03:46:19 +00001644 MarkFunctionReferenced(StartLoc, FnDecl);
Sebastian Redl7f662392008-12-04 22:20:51 +00001645 // The first argument is size_t, and the first parameter must be size_t,
1646 // too. This is checked on declaration and can be assumed. (It can't be
1647 // asserted on, though, since invalid decls are left in there.)
John McCall90c8c572010-03-18 08:19:33 +00001648 // Watch out for variadic allocator function.
Fariborz Jahanian048f52a2009-11-24 18:29:37 +00001649 unsigned NumArgsInFnDecl = FnDecl->getNumParams();
1650 for (unsigned i = 0; (i < NumArgs && i < NumArgsInFnDecl); ++i) {
Sean Hunt2be7e902011-05-12 22:46:29 +00001651 InitializedEntity Entity = InitializedEntity::InitializeParameter(Context,
1652 FnDecl->getParamDecl(i));
1653
1654 if (!Diagnose && !CanPerformCopyInitialization(Entity, Owned(Args[i])))
1655 return true;
1656
John McCall60d7b3a2010-08-24 06:29:42 +00001657 ExprResult Result
Sean Hunt2be7e902011-05-12 22:46:29 +00001658 = PerformCopyInitialization(Entity, SourceLocation(), Owned(Args[i]));
Douglas Gregor29ecaba2010-03-26 20:35:59 +00001659 if (Result.isInvalid())
Sebastian Redl7f662392008-12-04 22:20:51 +00001660 return true;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001661
Douglas Gregor29ecaba2010-03-26 20:35:59 +00001662 Args[i] = Result.takeAs<Expr>();
Sebastian Redl7f662392008-12-04 22:20:51 +00001663 }
1664 Operator = FnDecl;
Sean Hunt2be7e902011-05-12 22:46:29 +00001665 CheckAllocationAccess(StartLoc, Range, R.getNamingClass(), Best->FoundDecl,
1666 Diagnose);
Sebastian Redl7f662392008-12-04 22:20:51 +00001667 return false;
1668 }
1669
1670 case OR_No_Viable_Function:
Chandler Carruth361d3802011-06-08 10:26:03 +00001671 if (Diagnose) {
Sean Hunt2be7e902011-05-12 22:46:29 +00001672 Diag(StartLoc, diag::err_ovl_no_viable_function_in_call)
1673 << Name << Range;
Chandler Carruth361d3802011-06-08 10:26:03 +00001674 Candidates.NoteCandidates(*this, OCD_AllCandidates, Args, NumArgs);
1675 }
Sebastian Redl7f662392008-12-04 22:20:51 +00001676 return true;
1677
1678 case OR_Ambiguous:
Chandler Carruth361d3802011-06-08 10:26:03 +00001679 if (Diagnose) {
Sean Hunt2be7e902011-05-12 22:46:29 +00001680 Diag(StartLoc, diag::err_ovl_ambiguous_call)
1681 << Name << Range;
Chandler Carruth361d3802011-06-08 10:26:03 +00001682 Candidates.NoteCandidates(*this, OCD_ViableCandidates, Args, NumArgs);
1683 }
Sebastian Redl7f662392008-12-04 22:20:51 +00001684 return true;
Douglas Gregor48f3bb92009-02-18 21:56:37 +00001685
Douglas Gregor0a0d2b12011-03-23 00:50:03 +00001686 case OR_Deleted: {
Chandler Carruth361d3802011-06-08 10:26:03 +00001687 if (Diagnose) {
Sean Hunt2be7e902011-05-12 22:46:29 +00001688 Diag(StartLoc, diag::err_ovl_deleted_call)
1689 << Best->Function->isDeleted()
1690 << Name
1691 << getDeletedOrUnavailableSuffix(Best->Function)
1692 << Range;
Chandler Carruth361d3802011-06-08 10:26:03 +00001693 Candidates.NoteCandidates(*this, OCD_AllCandidates, Args, NumArgs);
1694 }
Douglas Gregor48f3bb92009-02-18 21:56:37 +00001695 return true;
Sebastian Redl7f662392008-12-04 22:20:51 +00001696 }
Douglas Gregor0a0d2b12011-03-23 00:50:03 +00001697 }
David Blaikieb219cfc2011-09-23 05:06:16 +00001698 llvm_unreachable("Unreachable, bad result from BestViableFunction");
Sebastian Redl7f662392008-12-04 22:20:51 +00001699}
1700
1701
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001702/// DeclareGlobalNewDelete - Declare the global forms of operator new and
1703/// delete. These are:
1704/// @code
Sebastian Redl8999fe12011-03-14 18:08:30 +00001705/// // C++03:
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001706/// void* operator new(std::size_t) throw(std::bad_alloc);
1707/// void* operator new[](std::size_t) throw(std::bad_alloc);
1708/// void operator delete(void *) throw();
1709/// void operator delete[](void *) throw();
Sebastian Redl8999fe12011-03-14 18:08:30 +00001710/// // C++0x:
1711/// void* operator new(std::size_t);
1712/// void* operator new[](std::size_t);
1713/// void operator delete(void *);
1714/// void operator delete[](void *);
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001715/// @endcode
Sebastian Redl8999fe12011-03-14 18:08:30 +00001716/// C++0x operator delete is implicitly noexcept.
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001717/// Note that the placement and nothrow forms of new are *not* implicitly
1718/// declared. Their use requires including \<new\>.
Mike Stump1eb44332009-09-09 15:08:12 +00001719void Sema::DeclareGlobalNewDelete() {
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001720 if (GlobalNewDeleteDeclared)
1721 return;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001722
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001723 // C++ [basic.std.dynamic]p2:
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001724 // [...] The following allocation and deallocation functions (18.4) are
1725 // implicitly declared in global scope in each translation unit of a
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001726 // program
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001727 //
Sebastian Redl8999fe12011-03-14 18:08:30 +00001728 // C++03:
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001729 // void* operator new(std::size_t) throw(std::bad_alloc);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001730 // void* operator new[](std::size_t) throw(std::bad_alloc);
1731 // void operator delete(void*) throw();
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001732 // void operator delete[](void*) throw();
Sebastian Redl8999fe12011-03-14 18:08:30 +00001733 // C++0x:
1734 // void* operator new(std::size_t);
1735 // void* operator new[](std::size_t);
1736 // void operator delete(void*);
1737 // void operator delete[](void*);
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001738 //
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001739 // These implicit declarations introduce only the function names operator
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001740 // new, operator new[], operator delete, operator delete[].
1741 //
1742 // Here, we need to refer to std::bad_alloc, so we will implicitly declare
1743 // "std" or "bad_alloc" as necessary to form the exception specification.
1744 // However, we do not make these implicit declarations visible to name
1745 // lookup.
Sebastian Redl8999fe12011-03-14 18:08:30 +00001746 // Note that the C++0x versions of operator delete are deallocation functions,
1747 // and thus are implicitly noexcept.
1748 if (!StdBadAlloc && !getLangOptions().CPlusPlus0x) {
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001749 // The "std::bad_alloc" class has not yet been declared, so build it
1750 // implicitly.
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001751 StdBadAlloc = CXXRecordDecl::Create(Context, TTK_Class,
1752 getOrCreateStdNamespace(),
Abramo Bagnaraba877ad2011-03-09 14:09:51 +00001753 SourceLocation(), SourceLocation(),
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001754 &PP.getIdentifierTable().get("bad_alloc"),
Abramo Bagnaraba877ad2011-03-09 14:09:51 +00001755 0);
Argyrios Kyrtzidis76c38d32010-08-02 07:14:54 +00001756 getStdBadAlloc()->setImplicit(true);
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001757 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001758
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001759 GlobalNewDeleteDeclared = true;
1760
1761 QualType VoidPtr = Context.getPointerType(Context.VoidTy);
1762 QualType SizeT = Context.getSizeType();
Nuno Lopesfc284482009-12-16 16:59:22 +00001763 bool AssumeSaneOperatorNew = getLangOptions().AssumeSaneOperatorNew;
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001764
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001765 DeclareGlobalAllocationFunction(
1766 Context.DeclarationNames.getCXXOperatorName(OO_New),
Nuno Lopesfc284482009-12-16 16:59:22 +00001767 VoidPtr, SizeT, AssumeSaneOperatorNew);
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001768 DeclareGlobalAllocationFunction(
1769 Context.DeclarationNames.getCXXOperatorName(OO_Array_New),
Nuno Lopesfc284482009-12-16 16:59:22 +00001770 VoidPtr, SizeT, AssumeSaneOperatorNew);
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001771 DeclareGlobalAllocationFunction(
1772 Context.DeclarationNames.getCXXOperatorName(OO_Delete),
1773 Context.VoidTy, VoidPtr);
1774 DeclareGlobalAllocationFunction(
1775 Context.DeclarationNames.getCXXOperatorName(OO_Array_Delete),
1776 Context.VoidTy, VoidPtr);
1777}
1778
1779/// DeclareGlobalAllocationFunction - Declares a single implicit global
1780/// allocation function if it doesn't already exist.
1781void Sema::DeclareGlobalAllocationFunction(DeclarationName Name,
Nuno Lopesfc284482009-12-16 16:59:22 +00001782 QualType Return, QualType Argument,
1783 bool AddMallocAttr) {
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001784 DeclContext *GlobalCtx = Context.getTranslationUnitDecl();
1785
1786 // Check if this function is already declared.
Douglas Gregor6ed40e32008-12-23 21:05:05 +00001787 {
Douglas Gregor5cc37092008-12-23 22:05:29 +00001788 DeclContext::lookup_iterator Alloc, AllocEnd;
Argyrios Kyrtzidis17945a02009-06-30 02:36:12 +00001789 for (llvm::tie(Alloc, AllocEnd) = GlobalCtx->lookup(Name);
Douglas Gregor6ed40e32008-12-23 21:05:05 +00001790 Alloc != AllocEnd; ++Alloc) {
Chandler Carruth4a73ea92010-02-03 11:02:14 +00001791 // Only look at non-template functions, as it is the predefined,
1792 // non-templated allocation function we are trying to declare here.
1793 if (FunctionDecl *Func = dyn_cast<FunctionDecl>(*Alloc)) {
1794 QualType InitialParamType =
Douglas Gregor6e790ab2009-12-22 23:42:49 +00001795 Context.getCanonicalType(
Chandler Carruth4a73ea92010-02-03 11:02:14 +00001796 Func->getParamDecl(0)->getType().getUnqualifiedType());
1797 // FIXME: Do we need to check for default arguments here?
Douglas Gregor7b868622010-08-18 15:06:25 +00001798 if (Func->getNumParams() == 1 && InitialParamType == Argument) {
1799 if(AddMallocAttr && !Func->hasAttr<MallocAttr>())
Sean Huntcf807c42010-08-18 23:23:40 +00001800 Func->addAttr(::new (Context) MallocAttr(SourceLocation(), Context));
Chandler Carruth4a73ea92010-02-03 11:02:14 +00001801 return;
Douglas Gregor7b868622010-08-18 15:06:25 +00001802 }
Chandler Carruth4a73ea92010-02-03 11:02:14 +00001803 }
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001804 }
1805 }
1806
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001807 QualType BadAllocType;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001808 bool HasBadAllocExceptionSpec
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001809 = (Name.getCXXOverloadedOperator() == OO_New ||
1810 Name.getCXXOverloadedOperator() == OO_Array_New);
Sebastian Redl8999fe12011-03-14 18:08:30 +00001811 if (HasBadAllocExceptionSpec && !getLangOptions().CPlusPlus0x) {
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001812 assert(StdBadAlloc && "Must have std::bad_alloc declared");
Argyrios Kyrtzidis76c38d32010-08-02 07:14:54 +00001813 BadAllocType = Context.getTypeDeclType(getStdBadAlloc());
Douglas Gregor7adb10f2009-09-15 22:30:29 +00001814 }
John McCalle23cf432010-12-14 08:05:40 +00001815
1816 FunctionProtoType::ExtProtoInfo EPI;
John McCalle23cf432010-12-14 08:05:40 +00001817 if (HasBadAllocExceptionSpec) {
Sebastian Redl8999fe12011-03-14 18:08:30 +00001818 if (!getLangOptions().CPlusPlus0x) {
1819 EPI.ExceptionSpecType = EST_Dynamic;
1820 EPI.NumExceptions = 1;
1821 EPI.Exceptions = &BadAllocType;
1822 }
Sebastian Redl60618fa2011-03-12 11:50:43 +00001823 } else {
Sebastian Redl8999fe12011-03-14 18:08:30 +00001824 EPI.ExceptionSpecType = getLangOptions().CPlusPlus0x ?
1825 EST_BasicNoexcept : EST_DynamicNone;
John McCalle23cf432010-12-14 08:05:40 +00001826 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001827
John McCalle23cf432010-12-14 08:05:40 +00001828 QualType FnType = Context.getFunctionType(Return, &Argument, 1, EPI);
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001829 FunctionDecl *Alloc =
Abramo Bagnaraff676cb2011-03-08 08:55:46 +00001830 FunctionDecl::Create(Context, GlobalCtx, SourceLocation(),
1831 SourceLocation(), Name,
John McCalld931b082010-08-26 03:08:43 +00001832 FnType, /*TInfo=*/0, SC_None,
1833 SC_None, false, true);
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001834 Alloc->setImplicit();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001835
Nuno Lopesfc284482009-12-16 16:59:22 +00001836 if (AddMallocAttr)
Sean Huntcf807c42010-08-18 23:23:40 +00001837 Alloc->addAttr(::new (Context) MallocAttr(SourceLocation(), Context));
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001838
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001839 ParmVarDecl *Param = ParmVarDecl::Create(Context, Alloc, SourceLocation(),
Abramo Bagnaraff676cb2011-03-08 08:55:46 +00001840 SourceLocation(), 0,
1841 Argument, /*TInfo=*/0,
1842 SC_None, SC_None, 0);
David Blaikie4278c652011-09-21 18:16:56 +00001843 Alloc->setParams(Param);
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001844
Douglas Gregor6ed40e32008-12-23 21:05:05 +00001845 // FIXME: Also add this declaration to the IdentifierResolver, but
1846 // make sure it is at the end of the chain to coincide with the
1847 // global scope.
John McCall5f1e0942010-08-24 08:50:51 +00001848 Context.getTranslationUnitDecl()->addDecl(Alloc);
Sebastian Redlb5a57a62008-12-03 20:26:15 +00001849}
1850
Anders Carlsson78f74552009-11-15 18:45:20 +00001851bool Sema::FindDeallocationFunction(SourceLocation StartLoc, CXXRecordDecl *RD,
1852 DeclarationName Name,
Sean Hunt2be7e902011-05-12 22:46:29 +00001853 FunctionDecl* &Operator, bool Diagnose) {
John McCalla24dc2e2009-11-17 02:14:36 +00001854 LookupResult Found(*this, Name, StartLoc, LookupOrdinaryName);
Anders Carlsson78f74552009-11-15 18:45:20 +00001855 // Try to find operator delete/operator delete[] in class scope.
John McCalla24dc2e2009-11-17 02:14:36 +00001856 LookupQualifiedName(Found, RD);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001857
John McCalla24dc2e2009-11-17 02:14:36 +00001858 if (Found.isAmbiguous())
Anders Carlsson78f74552009-11-15 18:45:20 +00001859 return true;
Anders Carlsson78f74552009-11-15 18:45:20 +00001860
Chandler Carruth23893242010-06-28 00:30:51 +00001861 Found.suppressDiagnostics();
1862
Chris Lattner5f9e2722011-07-23 10:55:15 +00001863 SmallVector<DeclAccessPair,4> Matches;
Anders Carlsson78f74552009-11-15 18:45:20 +00001864 for (LookupResult::iterator F = Found.begin(), FEnd = Found.end();
1865 F != FEnd; ++F) {
Chandler Carruth09556fd2010-08-08 07:04:00 +00001866 NamedDecl *ND = (*F)->getUnderlyingDecl();
1867
1868 // Ignore template operator delete members from the check for a usual
1869 // deallocation function.
1870 if (isa<FunctionTemplateDecl>(ND))
1871 continue;
1872
1873 if (cast<CXXMethodDecl>(ND)->isUsualDeallocationFunction())
John McCall046a7462010-08-04 00:31:26 +00001874 Matches.push_back(F.getPair());
1875 }
1876
1877 // There's exactly one suitable operator; pick it.
1878 if (Matches.size() == 1) {
1879 Operator = cast<CXXMethodDecl>(Matches[0]->getUnderlyingDecl());
Sean Hunt2be7e902011-05-12 22:46:29 +00001880
1881 if (Operator->isDeleted()) {
1882 if (Diagnose) {
1883 Diag(StartLoc, diag::err_deleted_function_use);
Richard Smith7a9f4922012-02-25 09:42:26 +00001884 Diag(Operator->getLocation(), diag::note_unavailable_here)
1885 << /*function*/ 1 << /*deleted*/ 1;
Sean Hunt2be7e902011-05-12 22:46:29 +00001886 }
1887 return true;
1888 }
1889
John McCall046a7462010-08-04 00:31:26 +00001890 CheckAllocationAccess(StartLoc, SourceRange(), Found.getNamingClass(),
Sean Hunt2be7e902011-05-12 22:46:29 +00001891 Matches[0], Diagnose);
John McCall046a7462010-08-04 00:31:26 +00001892 return false;
1893
1894 // We found multiple suitable operators; complain about the ambiguity.
1895 } else if (!Matches.empty()) {
Sean Hunt2be7e902011-05-12 22:46:29 +00001896 if (Diagnose) {
Sean Huntcb45a0f2011-05-12 22:46:25 +00001897 Diag(StartLoc, diag::err_ambiguous_suitable_delete_member_function_found)
1898 << Name << RD;
John McCall046a7462010-08-04 00:31:26 +00001899
Chris Lattner5f9e2722011-07-23 10:55:15 +00001900 for (SmallVectorImpl<DeclAccessPair>::iterator
Sean Huntcb45a0f2011-05-12 22:46:25 +00001901 F = Matches.begin(), FEnd = Matches.end(); F != FEnd; ++F)
1902 Diag((*F)->getUnderlyingDecl()->getLocation(),
1903 diag::note_member_declared_here) << Name;
1904 }
John McCall046a7462010-08-04 00:31:26 +00001905 return true;
Anders Carlsson78f74552009-11-15 18:45:20 +00001906 }
1907
1908 // We did find operator delete/operator delete[] declarations, but
1909 // none of them were suitable.
1910 if (!Found.empty()) {
Sean Hunt2be7e902011-05-12 22:46:29 +00001911 if (Diagnose) {
Sean Huntcb45a0f2011-05-12 22:46:25 +00001912 Diag(StartLoc, diag::err_no_suitable_delete_member_function_found)
1913 << Name << RD;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001914
Sean Huntcb45a0f2011-05-12 22:46:25 +00001915 for (LookupResult::iterator F = Found.begin(), FEnd = Found.end();
1916 F != FEnd; ++F)
1917 Diag((*F)->getUnderlyingDecl()->getLocation(),
1918 diag::note_member_declared_here) << Name;
1919 }
Anders Carlsson78f74552009-11-15 18:45:20 +00001920 return true;
1921 }
1922
1923 // Look for a global declaration.
1924 DeclareGlobalNewDelete();
1925 DeclContext *TUDecl = Context.getTranslationUnitDecl();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001926
Anders Carlsson78f74552009-11-15 18:45:20 +00001927 CXXNullPtrLiteralExpr Null(Context.VoidPtrTy, SourceLocation());
1928 Expr* DeallocArgs[1];
1929 DeallocArgs[0] = &Null;
1930 if (FindAllocationOverload(StartLoc, SourceRange(), Name,
Sean Hunt2be7e902011-05-12 22:46:29 +00001931 DeallocArgs, 1, TUDecl, !Diagnose,
1932 Operator, Diagnose))
Anders Carlsson78f74552009-11-15 18:45:20 +00001933 return true;
1934
1935 assert(Operator && "Did not find a deallocation function!");
1936 return false;
1937}
1938
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001939/// ActOnCXXDelete - Parsed a C++ 'delete' expression (C++ 5.3.5), as in:
1940/// @code ::delete ptr; @endcode
1941/// or
1942/// @code delete [] ptr; @endcode
John McCall60d7b3a2010-08-24 06:29:42 +00001943ExprResult
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001944Sema::ActOnCXXDelete(SourceLocation StartLoc, bool UseGlobal,
John Wiegley429bb272011-04-08 18:41:53 +00001945 bool ArrayForm, Expr *ExE) {
Douglas Gregor9cd9f3f2009-09-09 23:39:55 +00001946 // C++ [expr.delete]p1:
1947 // The operand shall have a pointer type, or a class type having a single
1948 // conversion function to a pointer type. The result has type void.
1949 //
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001950 // DR599 amends "pointer type" to "pointer to object type" in both cases.
1951
John Wiegley429bb272011-04-08 18:41:53 +00001952 ExprResult Ex = Owned(ExE);
Anders Carlssond67c4c32009-08-16 20:29:29 +00001953 FunctionDecl *OperatorDelete = 0;
Argyrios Kyrtzidis4076dac2010-09-13 20:15:54 +00001954 bool ArrayFormAsWritten = ArrayForm;
John McCall6ec278d2011-01-27 09:37:56 +00001955 bool UsualArrayDeleteWantsSize = false;
Mike Stump1eb44332009-09-09 15:08:12 +00001956
John Wiegley429bb272011-04-08 18:41:53 +00001957 if (!Ex.get()->isTypeDependent()) {
1958 QualType Type = Ex.get()->getType();
Sebastian Redl4c5d3202008-11-21 19:14:01 +00001959
Douglas Gregor9cd9f3f2009-09-09 23:39:55 +00001960 if (const RecordType *Record = Type->getAs<RecordType>()) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001961 if (RequireCompleteType(StartLoc, Type,
Douglas Gregor254a9422010-07-29 14:44:35 +00001962 PDiag(diag::err_delete_incomplete_class_type)))
1963 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001964
Chris Lattner5f9e2722011-07-23 10:55:15 +00001965 SmallVector<CXXConversionDecl*, 4> ObjectPtrConversions;
John McCall32daa422010-03-31 01:36:47 +00001966
Fariborz Jahanian53462782009-09-11 21:44:33 +00001967 CXXRecordDecl *RD = cast<CXXRecordDecl>(Record->getDecl());
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001968 const UnresolvedSetImpl *Conversions = RD->getVisibleConversionFunctions();
John McCalleec51cf2010-01-20 00:46:10 +00001969 for (UnresolvedSetImpl::iterator I = Conversions->begin(),
John McCallba135432009-11-21 08:51:07 +00001970 E = Conversions->end(); I != E; ++I) {
John McCall32daa422010-03-31 01:36:47 +00001971 NamedDecl *D = I.getDecl();
1972 if (isa<UsingShadowDecl>(D))
1973 D = cast<UsingShadowDecl>(D)->getTargetDecl();
1974
Douglas Gregor9cd9f3f2009-09-09 23:39:55 +00001975 // Skip over templated conversion functions; they aren't considered.
John McCall32daa422010-03-31 01:36:47 +00001976 if (isa<FunctionTemplateDecl>(D))
Douglas Gregor9cd9f3f2009-09-09 23:39:55 +00001977 continue;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001978
John McCall32daa422010-03-31 01:36:47 +00001979 CXXConversionDecl *Conv = cast<CXXConversionDecl>(D);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00001980
Douglas Gregor9cd9f3f2009-09-09 23:39:55 +00001981 QualType ConvType = Conv->getConversionType().getNonReferenceType();
1982 if (const PointerType *ConvPtrType = ConvType->getAs<PointerType>())
Eli Friedman13578692010-08-05 02:49:48 +00001983 if (ConvPtrType->getPointeeType()->isIncompleteOrObjectType())
Fariborz Jahanian8b915e72009-09-15 22:15:23 +00001984 ObjectPtrConversions.push_back(Conv);
Douglas Gregor9cd9f3f2009-09-09 23:39:55 +00001985 }
Fariborz Jahanian8b915e72009-09-15 22:15:23 +00001986 if (ObjectPtrConversions.size() == 1) {
1987 // We have a single conversion to a pointer-to-object type. Perform
1988 // that conversion.
John McCall32daa422010-03-31 01:36:47 +00001989 // TODO: don't redo the conversion calculation.
John Wiegley429bb272011-04-08 18:41:53 +00001990 ExprResult Res =
1991 PerformImplicitConversion(Ex.get(),
John McCall32daa422010-03-31 01:36:47 +00001992 ObjectPtrConversions.front()->getConversionType(),
John Wiegley429bb272011-04-08 18:41:53 +00001993 AA_Converting);
1994 if (Res.isUsable()) {
1995 Ex = move(Res);
1996 Type = Ex.get()->getType();
Fariborz Jahanian8b915e72009-09-15 22:15:23 +00001997 }
1998 }
1999 else if (ObjectPtrConversions.size() > 1) {
2000 Diag(StartLoc, diag::err_ambiguous_delete_operand)
John Wiegley429bb272011-04-08 18:41:53 +00002001 << Type << Ex.get()->getSourceRange();
John McCall32daa422010-03-31 01:36:47 +00002002 for (unsigned i= 0; i < ObjectPtrConversions.size(); i++)
2003 NoteOverloadCandidate(ObjectPtrConversions[i]);
Fariborz Jahanian8b915e72009-09-15 22:15:23 +00002004 return ExprError();
Douglas Gregor9cd9f3f2009-09-09 23:39:55 +00002005 }
Sebastian Redl28507842009-02-26 14:39:58 +00002006 }
2007
Sebastian Redlf53597f2009-03-15 17:47:39 +00002008 if (!Type->isPointerType())
2009 return ExprError(Diag(StartLoc, diag::err_delete_operand)
John Wiegley429bb272011-04-08 18:41:53 +00002010 << Type << Ex.get()->getSourceRange());
Sebastian Redl28507842009-02-26 14:39:58 +00002011
Ted Kremenek6217b802009-07-29 21:53:49 +00002012 QualType Pointee = Type->getAs<PointerType>()->getPointeeType();
Eli Friedmane52c9142011-07-26 22:25:31 +00002013 QualType PointeeElem = Context.getBaseElementType(Pointee);
2014
2015 if (unsigned AddressSpace = Pointee.getAddressSpace())
2016 return Diag(Ex.get()->getLocStart(),
2017 diag::err_address_space_qualified_delete)
2018 << Pointee.getUnqualifiedType() << AddressSpace;
2019
2020 CXXRecordDecl *PointeeRD = 0;
Douglas Gregor94a61572010-05-24 17:01:56 +00002021 if (Pointee->isVoidType() && !isSFINAEContext()) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002022 // The C++ standard bans deleting a pointer to a non-object type, which
Douglas Gregor94a61572010-05-24 17:01:56 +00002023 // effectively bans deletion of "void*". However, most compilers support
2024 // this, so we treat it as a warning unless we're in a SFINAE context.
2025 Diag(StartLoc, diag::ext_delete_void_ptr_operand)
John Wiegley429bb272011-04-08 18:41:53 +00002026 << Type << Ex.get()->getSourceRange();
Eli Friedmane52c9142011-07-26 22:25:31 +00002027 } else if (Pointee->isFunctionType() || Pointee->isVoidType()) {
Sebastian Redlf53597f2009-03-15 17:47:39 +00002028 return ExprError(Diag(StartLoc, diag::err_delete_operand)
John Wiegley429bb272011-04-08 18:41:53 +00002029 << Type << Ex.get()->getSourceRange());
Eli Friedmane52c9142011-07-26 22:25:31 +00002030 } else if (!Pointee->isDependentType()) {
2031 if (!RequireCompleteType(StartLoc, Pointee,
2032 PDiag(diag::warn_delete_incomplete)
2033 << Ex.get()->getSourceRange())) {
2034 if (const RecordType *RT = PointeeElem->getAs<RecordType>())
2035 PointeeRD = cast<CXXRecordDecl>(RT->getDecl());
2036 }
2037 }
2038
Abramo Bagnara30bb4202011-11-16 15:42:13 +00002039 // Perform lvalue-to-rvalue cast, if needed.
2040 Ex = DefaultLvalueConversion(Ex.take());
2041
Douglas Gregor1070c9f2009-09-29 21:38:53 +00002042 // C++ [expr.delete]p2:
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002043 // [Note: a pointer to a const type can be the operand of a
2044 // delete-expression; it is not necessary to cast away the constness
2045 // (5.2.11) of the pointer expression before it is used as the operand
Douglas Gregor1070c9f2009-09-29 21:38:53 +00002046 // of the delete-expression. ]
John McCallf85e1932011-06-15 23:02:42 +00002047 if (!Context.hasSameType(Ex.get()->getType(), Context.VoidPtrTy))
Abramo Bagnara30bb4202011-11-16 15:42:13 +00002048 Ex = Owned(ImplicitCastExpr::Create(Context, Context.VoidPtrTy,
2049 CK_BitCast, Ex.take(), 0, VK_RValue));
Argyrios Kyrtzidis4076dac2010-09-13 20:15:54 +00002050
2051 if (Pointee->isArrayType() && !ArrayForm) {
2052 Diag(StartLoc, diag::warn_delete_array_type)
John Wiegley429bb272011-04-08 18:41:53 +00002053 << Type << Ex.get()->getSourceRange()
Argyrios Kyrtzidis4076dac2010-09-13 20:15:54 +00002054 << FixItHint::CreateInsertion(PP.getLocForEndOfToken(StartLoc), "[]");
2055 ArrayForm = true;
2056 }
2057
Anders Carlssond67c4c32009-08-16 20:29:29 +00002058 DeclarationName DeleteName = Context.DeclarationNames.getCXXOperatorName(
2059 ArrayForm ? OO_Array_Delete : OO_Delete);
2060
Eli Friedmane52c9142011-07-26 22:25:31 +00002061 if (PointeeRD) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002062 if (!UseGlobal &&
Eli Friedmane52c9142011-07-26 22:25:31 +00002063 FindDeallocationFunction(StartLoc, PointeeRD, DeleteName,
2064 OperatorDelete))
Anders Carlsson0ba63ea2009-11-14 03:17:38 +00002065 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002066
John McCall6ec278d2011-01-27 09:37:56 +00002067 // If we're allocating an array of records, check whether the
2068 // usual operator delete[] has a size_t parameter.
2069 if (ArrayForm) {
2070 // If the user specifically asked to use the global allocator,
2071 // we'll need to do the lookup into the class.
2072 if (UseGlobal)
2073 UsualArrayDeleteWantsSize =
2074 doesUsualArrayDeleteWantSize(*this, StartLoc, PointeeElem);
2075
2076 // Otherwise, the usual operator delete[] should be the
2077 // function we just found.
2078 else if (isa<CXXMethodDecl>(OperatorDelete))
2079 UsualArrayDeleteWantsSize = (OperatorDelete->getNumParams() == 2);
2080 }
2081
Richard Smith213d70b2012-02-18 04:13:32 +00002082 if (!PointeeRD->hasIrrelevantDestructor())
Eli Friedmane52c9142011-07-26 22:25:31 +00002083 if (CXXDestructorDecl *Dtor = LookupDestructor(PointeeRD)) {
Eli Friedman5f2987c2012-02-02 03:46:19 +00002084 MarkFunctionReferenced(StartLoc,
Fariborz Jahanian34374e62009-09-03 23:18:17 +00002085 const_cast<CXXDestructorDecl*>(Dtor));
Douglas Gregor9b623632010-10-12 23:32:35 +00002086 DiagnoseUseOfDecl(Dtor, StartLoc);
2087 }
Argyrios Kyrtzidis6f0074a2011-05-24 19:53:26 +00002088
2089 // C++ [expr.delete]p3:
2090 // In the first alternative (delete object), if the static type of the
2091 // object to be deleted is different from its dynamic type, the static
2092 // type shall be a base class of the dynamic type of the object to be
2093 // deleted and the static type shall have a virtual destructor or the
2094 // behavior is undefined.
2095 //
2096 // Note: a final class cannot be derived from, no issue there
Eli Friedmanef8c79c2011-07-26 23:27:24 +00002097 if (PointeeRD->isPolymorphic() && !PointeeRD->hasAttr<FinalAttr>()) {
Eli Friedmane52c9142011-07-26 22:25:31 +00002098 CXXDestructorDecl *dtor = PointeeRD->getDestructor();
Eli Friedmanef8c79c2011-07-26 23:27:24 +00002099 if (dtor && !dtor->isVirtual()) {
2100 if (PointeeRD->isAbstract()) {
2101 // If the class is abstract, we warn by default, because we're
2102 // sure the code has undefined behavior.
2103 Diag(StartLoc, diag::warn_delete_abstract_non_virtual_dtor)
2104 << PointeeElem;
2105 } else if (!ArrayForm) {
2106 // Otherwise, if this is not an array delete, it's a bit suspect,
2107 // but not necessarily wrong.
2108 Diag(StartLoc, diag::warn_delete_non_virtual_dtor) << PointeeElem;
2109 }
2110 }
Argyrios Kyrtzidis6f0074a2011-05-24 19:53:26 +00002111 }
John McCallf85e1932011-06-15 23:02:42 +00002112
2113 } else if (getLangOptions().ObjCAutoRefCount &&
2114 PointeeElem->isObjCLifetimeType() &&
2115 (PointeeElem.getObjCLifetime() == Qualifiers::OCL_Strong ||
2116 PointeeElem.getObjCLifetime() == Qualifiers::OCL_Weak) &&
2117 ArrayForm) {
2118 Diag(StartLoc, diag::warn_err_new_delete_object_array)
2119 << 1 << PointeeElem;
Anders Carlssond67c4c32009-08-16 20:29:29 +00002120 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002121
Anders Carlssond67c4c32009-08-16 20:29:29 +00002122 if (!OperatorDelete) {
Anders Carlsson78f74552009-11-15 18:45:20 +00002123 // Look for a global declaration.
Anders Carlssond67c4c32009-08-16 20:29:29 +00002124 DeclareGlobalNewDelete();
2125 DeclContext *TUDecl = Context.getTranslationUnitDecl();
John Wiegley429bb272011-04-08 18:41:53 +00002126 Expr *Arg = Ex.get();
Mike Stump1eb44332009-09-09 15:08:12 +00002127 if (FindAllocationOverload(StartLoc, SourceRange(), DeleteName,
John Wiegley429bb272011-04-08 18:41:53 +00002128 &Arg, 1, TUDecl, /*AllowMissing=*/false,
Anders Carlssond67c4c32009-08-16 20:29:29 +00002129 OperatorDelete))
2130 return ExprError();
2131 }
Mike Stump1eb44332009-09-09 15:08:12 +00002132
Eli Friedman5f2987c2012-02-02 03:46:19 +00002133 MarkFunctionReferenced(StartLoc, OperatorDelete);
John McCall6ec278d2011-01-27 09:37:56 +00002134
Douglas Gregord880f522011-02-01 15:50:11 +00002135 // Check access and ambiguity of operator delete and destructor.
Eli Friedmane52c9142011-07-26 22:25:31 +00002136 if (PointeeRD) {
2137 if (CXXDestructorDecl *Dtor = LookupDestructor(PointeeRD)) {
John Wiegley429bb272011-04-08 18:41:53 +00002138 CheckDestructorAccess(Ex.get()->getExprLoc(), Dtor,
Douglas Gregord880f522011-02-01 15:50:11 +00002139 PDiag(diag::err_access_dtor) << PointeeElem);
2140 }
2141 }
2142
Sebastian Redl4c5d3202008-11-21 19:14:01 +00002143 }
2144
Sebastian Redlf53597f2009-03-15 17:47:39 +00002145 return Owned(new (Context) CXXDeleteExpr(Context.VoidTy, UseGlobal, ArrayForm,
John McCall6ec278d2011-01-27 09:37:56 +00002146 ArrayFormAsWritten,
2147 UsualArrayDeleteWantsSize,
John Wiegley429bb272011-04-08 18:41:53 +00002148 OperatorDelete, Ex.take(), StartLoc));
Sebastian Redl4c5d3202008-11-21 19:14:01 +00002149}
2150
Douglas Gregor8cfe5a72009-11-23 23:44:04 +00002151/// \brief Check the use of the given variable as a C++ condition in an if,
2152/// while, do-while, or switch statement.
John McCall60d7b3a2010-08-24 06:29:42 +00002153ExprResult Sema::CheckConditionVariable(VarDecl *ConditionVar,
John McCallf89e55a2010-11-18 06:31:45 +00002154 SourceLocation StmtLoc,
2155 bool ConvertToBoolean) {
Douglas Gregor8cfe5a72009-11-23 23:44:04 +00002156 QualType T = ConditionVar->getType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002157
Douglas Gregor8cfe5a72009-11-23 23:44:04 +00002158 // C++ [stmt.select]p2:
2159 // The declarator shall not specify a function or an array.
2160 if (T->isFunctionType())
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002161 return ExprError(Diag(ConditionVar->getLocation(),
Douglas Gregor8cfe5a72009-11-23 23:44:04 +00002162 diag::err_invalid_use_of_function_type)
2163 << ConditionVar->getSourceRange());
2164 else if (T->isArrayType())
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002165 return ExprError(Diag(ConditionVar->getLocation(),
Douglas Gregor8cfe5a72009-11-23 23:44:04 +00002166 diag::err_invalid_use_of_array_type)
2167 << ConditionVar->getSourceRange());
Douglas Gregora7605db2009-11-24 16:07:02 +00002168
John Wiegley429bb272011-04-08 18:41:53 +00002169 ExprResult Condition =
Abramo Bagnarae4b92762012-01-27 09:46:47 +00002170 Owned(DeclRefExpr::Create(Context, NestedNameSpecifierLoc(),
2171 SourceLocation(),
2172 ConditionVar,
2173 ConditionVar->getLocation(),
2174 ConditionVar->getType().getNonReferenceType(),
John Wiegley429bb272011-04-08 18:41:53 +00002175 VK_LValue));
Eli Friedmancf7c14c2012-01-16 21:00:51 +00002176
Eli Friedman5f2987c2012-02-02 03:46:19 +00002177 MarkDeclRefReferenced(cast<DeclRefExpr>(Condition.get()));
Eli Friedmancf7c14c2012-01-16 21:00:51 +00002178
John Wiegley429bb272011-04-08 18:41:53 +00002179 if (ConvertToBoolean) {
2180 Condition = CheckBooleanCondition(Condition.take(), StmtLoc);
2181 if (Condition.isInvalid())
2182 return ExprError();
2183 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002184
John Wiegley429bb272011-04-08 18:41:53 +00002185 return move(Condition);
Douglas Gregor8cfe5a72009-11-23 23:44:04 +00002186}
2187
Argyrios Kyrtzidis59210932008-09-10 02:17:11 +00002188/// CheckCXXBooleanCondition - Returns true if a conversion to bool is invalid.
John Wiegley429bb272011-04-08 18:41:53 +00002189ExprResult Sema::CheckCXXBooleanCondition(Expr *CondExpr) {
Argyrios Kyrtzidis59210932008-09-10 02:17:11 +00002190 // C++ 6.4p4:
2191 // The value of a condition that is an initialized declaration in a statement
2192 // other than a switch statement is the value of the declared variable
2193 // implicitly converted to type bool. If that conversion is ill-formed, the
2194 // program is ill-formed.
2195 // The value of a condition that is an expression is the value of the
2196 // expression, implicitly converted to bool.
2197 //
Douglas Gregor09f41cf2009-01-14 15:45:31 +00002198 return PerformContextuallyConvertToBool(CondExpr);
Argyrios Kyrtzidis59210932008-09-10 02:17:11 +00002199}
Douglas Gregor77a52232008-09-12 00:47:35 +00002200
2201/// Helper function to determine whether this is the (deprecated) C++
2202/// conversion from a string literal to a pointer to non-const char or
2203/// non-const wchar_t (for narrow and wide string literals,
2204/// respectively).
Mike Stump1eb44332009-09-09 15:08:12 +00002205bool
Douglas Gregor77a52232008-09-12 00:47:35 +00002206Sema::IsStringLiteralToNonConstPointerConversion(Expr *From, QualType ToType) {
2207 // Look inside the implicit cast, if it exists.
2208 if (ImplicitCastExpr *Cast = dyn_cast<ImplicitCastExpr>(From))
2209 From = Cast->getSubExpr();
2210
2211 // A string literal (2.13.4) that is not a wide string literal can
2212 // be converted to an rvalue of type "pointer to char"; a wide
2213 // string literal can be converted to an rvalue of type "pointer
2214 // to wchar_t" (C++ 4.2p2).
Douglas Gregor1984eb92010-06-22 23:47:37 +00002215 if (StringLiteral *StrLit = dyn_cast<StringLiteral>(From->IgnoreParens()))
Ted Kremenek6217b802009-07-29 21:53:49 +00002216 if (const PointerType *ToPtrType = ToType->getAs<PointerType>())
Mike Stump1eb44332009-09-09 15:08:12 +00002217 if (const BuiltinType *ToPointeeType
John McCall183700f2009-09-21 23:43:11 +00002218 = ToPtrType->getPointeeType()->getAs<BuiltinType>()) {
Douglas Gregor77a52232008-09-12 00:47:35 +00002219 // This conversion is considered only when there is an
2220 // explicit appropriate pointer target type (C++ 4.2p2).
Douglas Gregor5cee1192011-07-27 05:40:30 +00002221 if (!ToPtrType->getPointeeType().hasQualifiers()) {
2222 switch (StrLit->getKind()) {
2223 case StringLiteral::UTF8:
2224 case StringLiteral::UTF16:
2225 case StringLiteral::UTF32:
2226 // We don't allow UTF literals to be implicitly converted
2227 break;
2228 case StringLiteral::Ascii:
2229 return (ToPointeeType->getKind() == BuiltinType::Char_U ||
2230 ToPointeeType->getKind() == BuiltinType::Char_S);
2231 case StringLiteral::Wide:
2232 return ToPointeeType->isWideCharType();
2233 }
2234 }
Douglas Gregor77a52232008-09-12 00:47:35 +00002235 }
2236
2237 return false;
2238}
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002239
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002240static ExprResult BuildCXXCastArgument(Sema &S,
John McCall2de56d12010-08-25 11:45:40 +00002241 SourceLocation CastLoc,
2242 QualType Ty,
2243 CastKind Kind,
2244 CXXMethodDecl *Method,
John McCallca82a822011-09-21 08:36:56 +00002245 DeclAccessPair FoundDecl,
Abramo Bagnara7cc58b42011-10-05 07:56:41 +00002246 bool HadMultipleCandidates,
John McCall2de56d12010-08-25 11:45:40 +00002247 Expr *From) {
Douglas Gregorba70ab62010-04-16 22:17:36 +00002248 switch (Kind) {
David Blaikieb219cfc2011-09-23 05:06:16 +00002249 default: llvm_unreachable("Unhandled cast kind!");
John McCall2de56d12010-08-25 11:45:40 +00002250 case CK_ConstructorConversion: {
Douglas Gregor13e1bca2011-10-10 22:41:00 +00002251 CXXConstructorDecl *Constructor = cast<CXXConstructorDecl>(Method);
John McCallca0408f2010-08-23 06:44:23 +00002252 ASTOwningVector<Expr*> ConstructorArgs(S);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002253
Douglas Gregor13e1bca2011-10-10 22:41:00 +00002254 if (S.CompleteConstructorCall(Constructor,
John McCallf312b1e2010-08-26 23:41:50 +00002255 MultiExprArg(&From, 1),
Douglas Gregorba70ab62010-04-16 22:17:36 +00002256 CastLoc, ConstructorArgs))
John McCallf312b1e2010-08-26 23:41:50 +00002257 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002258
Douglas Gregor13e1bca2011-10-10 22:41:00 +00002259 S.CheckConstructorAccess(CastLoc, Constructor, Constructor->getAccess(),
2260 S.PDiag(diag::err_access_ctor));
2261
2262 ExprResult Result
2263 = S.BuildCXXConstructExpr(CastLoc, Ty, cast<CXXConstructorDecl>(Method),
2264 move_arg(ConstructorArgs),
2265 HadMultipleCandidates, /*ZeroInit*/ false,
2266 CXXConstructExpr::CK_Complete, SourceRange());
Douglas Gregorba70ab62010-04-16 22:17:36 +00002267 if (Result.isInvalid())
John McCallf312b1e2010-08-26 23:41:50 +00002268 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002269
Douglas Gregorba70ab62010-04-16 22:17:36 +00002270 return S.MaybeBindToTemporary(Result.takeAs<Expr>());
2271 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002272
John McCall2de56d12010-08-25 11:45:40 +00002273 case CK_UserDefinedConversion: {
Douglas Gregorba70ab62010-04-16 22:17:36 +00002274 assert(!From->getType()->isPointerType() && "Arg can't have pointer type!");
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002275
Douglas Gregorba70ab62010-04-16 22:17:36 +00002276 // Create an implicit call expr that calls it.
Abramo Bagnara7cc58b42011-10-05 07:56:41 +00002277 ExprResult Result = S.BuildCXXMemberCallExpr(From, FoundDecl, Method,
2278 HadMultipleCandidates);
Douglas Gregorf2ae5262011-01-20 00:18:04 +00002279 if (Result.isInvalid())
2280 return ExprError();
Abramo Bagnara960809e2011-11-16 22:46:05 +00002281 // Record usage of conversion in an implicit cast.
2282 Result = S.Owned(ImplicitCastExpr::Create(S.Context,
2283 Result.get()->getType(),
2284 CK_UserDefinedConversion,
2285 Result.get(), 0,
2286 Result.get()->getValueKind()));
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002287
John McCallca82a822011-09-21 08:36:56 +00002288 S.CheckMemberOperatorAccess(CastLoc, From, /*arg*/ 0, FoundDecl);
2289
Douglas Gregorf2ae5262011-01-20 00:18:04 +00002290 return S.MaybeBindToTemporary(Result.get());
Douglas Gregorba70ab62010-04-16 22:17:36 +00002291 }
2292 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002293}
Douglas Gregorba70ab62010-04-16 22:17:36 +00002294
Douglas Gregor09f41cf2009-01-14 15:45:31 +00002295/// PerformImplicitConversion - Perform an implicit conversion of the
2296/// expression From to the type ToType using the pre-computed implicit
John Wiegley429bb272011-04-08 18:41:53 +00002297/// conversion sequence ICS. Returns the converted
Douglas Gregor68647482009-12-16 03:45:30 +00002298/// expression. Action is the kind of conversion we're performing,
Douglas Gregor09f41cf2009-01-14 15:45:31 +00002299/// used in the error message.
John Wiegley429bb272011-04-08 18:41:53 +00002300ExprResult
2301Sema::PerformImplicitConversion(Expr *From, QualType ToType,
Douglas Gregor09f41cf2009-01-14 15:45:31 +00002302 const ImplicitConversionSequence &ICS,
John McCallf85e1932011-06-15 23:02:42 +00002303 AssignmentAction Action,
2304 CheckedConversionKind CCK) {
John McCall1d318332010-01-12 00:44:57 +00002305 switch (ICS.getKind()) {
John Wiegley429bb272011-04-08 18:41:53 +00002306 case ImplicitConversionSequence::StandardConversion: {
Richard Smithc8d7f582011-11-29 22:48:16 +00002307 ExprResult Res = PerformImplicitConversion(From, ToType, ICS.Standard,
2308 Action, CCK);
John Wiegley429bb272011-04-08 18:41:53 +00002309 if (Res.isInvalid())
2310 return ExprError();
2311 From = Res.take();
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002312 break;
John Wiegley429bb272011-04-08 18:41:53 +00002313 }
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002314
Anders Carlssonf6c213a2009-09-15 06:28:28 +00002315 case ImplicitConversionSequence::UserDefinedConversion: {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002316
Fariborz Jahanian7fe5d722009-08-28 22:04:50 +00002317 FunctionDecl *FD = ICS.UserDefined.ConversionFunction;
John McCalldaa8e4e2010-11-15 09:13:47 +00002318 CastKind CastKind;
Anders Carlssonf6c213a2009-09-15 06:28:28 +00002319 QualType BeforeToType;
Sebastian Redlcc7a6482011-11-01 15:53:09 +00002320 assert(FD && "FIXME: aggregate initialization from init list");
Anders Carlssonf6c213a2009-09-15 06:28:28 +00002321 if (const CXXConversionDecl *Conv = dyn_cast<CXXConversionDecl>(FD)) {
John McCall2de56d12010-08-25 11:45:40 +00002322 CastKind = CK_UserDefinedConversion;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002323
Anders Carlssonf6c213a2009-09-15 06:28:28 +00002324 // If the user-defined conversion is specified by a conversion function,
2325 // the initial standard conversion sequence converts the source type to
2326 // the implicit object parameter of the conversion function.
2327 BeforeToType = Context.getTagDeclType(Conv->getParent());
John McCall9ec94452010-12-04 09:57:16 +00002328 } else {
2329 const CXXConstructorDecl *Ctor = cast<CXXConstructorDecl>(FD);
John McCall2de56d12010-08-25 11:45:40 +00002330 CastKind = CK_ConstructorConversion;
Fariborz Jahanian966256a2009-11-06 00:23:08 +00002331 // Do no conversion if dealing with ... for the first conversion.
Douglas Gregore44201a2009-11-20 02:31:03 +00002332 if (!ICS.UserDefined.EllipsisConversion) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002333 // If the user-defined conversion is specified by a constructor, the
Fariborz Jahanian966256a2009-11-06 00:23:08 +00002334 // initial standard conversion sequence converts the source type to the
2335 // type required by the argument of the constructor
Douglas Gregore44201a2009-11-20 02:31:03 +00002336 BeforeToType = Ctor->getParamDecl(0)->getType().getNonReferenceType();
2337 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002338 }
Douglas Gregora3998bd2010-12-02 21:47:04 +00002339 // Watch out for elipsis conversion.
Fariborz Jahanian4c0cea22009-11-06 00:55:14 +00002340 if (!ICS.UserDefined.EllipsisConversion) {
John Wiegley429bb272011-04-08 18:41:53 +00002341 ExprResult Res =
Richard Smithc8d7f582011-11-29 22:48:16 +00002342 PerformImplicitConversion(From, BeforeToType,
2343 ICS.UserDefined.Before, AA_Converting,
2344 CCK);
John Wiegley429bb272011-04-08 18:41:53 +00002345 if (Res.isInvalid())
2346 return ExprError();
2347 From = Res.take();
Fariborz Jahanian966256a2009-11-06 00:23:08 +00002348 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002349
2350 ExprResult CastArg
Douglas Gregorba70ab62010-04-16 22:17:36 +00002351 = BuildCXXCastArgument(*this,
2352 From->getLocStart(),
Anders Carlsson0aebc812009-09-09 21:33:21 +00002353 ToType.getNonReferenceType(),
Douglas Gregor83eecbe2011-01-20 01:32:05 +00002354 CastKind, cast<CXXMethodDecl>(FD),
2355 ICS.UserDefined.FoundConversionFunction,
Abramo Bagnara7cc58b42011-10-05 07:56:41 +00002356 ICS.UserDefined.HadMultipleCandidates,
John McCall9ae2f072010-08-23 23:25:46 +00002357 From);
Anders Carlsson0aebc812009-09-09 21:33:21 +00002358
2359 if (CastArg.isInvalid())
John Wiegley429bb272011-04-08 18:41:53 +00002360 return ExprError();
Eli Friedmand8889622009-11-27 04:41:50 +00002361
John Wiegley429bb272011-04-08 18:41:53 +00002362 From = CastArg.take();
Eli Friedmand8889622009-11-27 04:41:50 +00002363
Richard Smithc8d7f582011-11-29 22:48:16 +00002364 return PerformImplicitConversion(From, ToType, ICS.UserDefined.After,
2365 AA_Converting, CCK);
Fariborz Jahanian93034ca2009-10-16 19:20:59 +00002366 }
John McCall1d318332010-01-12 00:44:57 +00002367
2368 case ImplicitConversionSequence::AmbiguousConversion:
John McCall120d63c2010-08-24 20:38:10 +00002369 ICS.DiagnoseAmbiguousConversion(*this, From->getExprLoc(),
John McCall1d318332010-01-12 00:44:57 +00002370 PDiag(diag::err_typecheck_ambiguous_condition)
2371 << From->getSourceRange());
John Wiegley429bb272011-04-08 18:41:53 +00002372 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002373
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002374 case ImplicitConversionSequence::EllipsisConversion:
David Blaikieb219cfc2011-09-23 05:06:16 +00002375 llvm_unreachable("Cannot perform an ellipsis conversion");
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002376
2377 case ImplicitConversionSequence::BadConversion:
John Wiegley429bb272011-04-08 18:41:53 +00002378 return ExprError();
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002379 }
2380
2381 // Everything went well.
John Wiegley429bb272011-04-08 18:41:53 +00002382 return Owned(From);
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002383}
2384
Richard Smithc8d7f582011-11-29 22:48:16 +00002385/// PerformImplicitConversion - Perform an implicit conversion of the
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002386/// expression From to the type ToType by following the standard
John Wiegley429bb272011-04-08 18:41:53 +00002387/// conversion sequence SCS. Returns the converted
Douglas Gregor45920e82008-12-19 17:40:08 +00002388/// expression. Flavor is the context in which we're performing this
2389/// conversion, for use in error messages.
John Wiegley429bb272011-04-08 18:41:53 +00002390ExprResult
Richard Smithc8d7f582011-11-29 22:48:16 +00002391Sema::PerformImplicitConversion(Expr *From, QualType ToType,
Douglas Gregor45920e82008-12-19 17:40:08 +00002392 const StandardConversionSequence& SCS,
John McCallf85e1932011-06-15 23:02:42 +00002393 AssignmentAction Action,
2394 CheckedConversionKind CCK) {
2395 bool CStyle = (CCK == CCK_CStyleCast || CCK == CCK_FunctionalCast);
2396
Mike Stump390b4cc2009-05-16 07:39:55 +00002397 // Overall FIXME: we are recomputing too many types here and doing far too
2398 // much extra work. What this means is that we need to keep track of more
2399 // information that is computed when we try the implicit conversion initially,
2400 // so that we don't need to recompute anything here.
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002401 QualType FromType = From->getType();
John McCallf85e1932011-06-15 23:02:42 +00002402
Douglas Gregor225c41e2008-11-03 19:09:14 +00002403 if (SCS.CopyConstructor) {
Anders Carlsson7c3e8a12009-05-19 04:45:15 +00002404 // FIXME: When can ToType be a reference type?
2405 assert(!ToType->isReferenceType());
Fariborz Jahanianb3c47742009-09-25 18:59:21 +00002406 if (SCS.Second == ICK_Derived_To_Base) {
John McCallca0408f2010-08-23 06:44:23 +00002407 ASTOwningVector<Expr*> ConstructorArgs(*this);
Fariborz Jahanianb3c47742009-09-25 18:59:21 +00002408 if (CompleteConstructorCall(cast<CXXConstructorDecl>(SCS.CopyConstructor),
John McCallca0408f2010-08-23 06:44:23 +00002409 MultiExprArg(*this, &From, 1),
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002410 /*FIXME:ConstructLoc*/SourceLocation(),
Fariborz Jahanianb3c47742009-09-25 18:59:21 +00002411 ConstructorArgs))
John Wiegley429bb272011-04-08 18:41:53 +00002412 return ExprError();
2413 return BuildCXXConstructExpr(/*FIXME:ConstructLoc*/SourceLocation(),
2414 ToType, SCS.CopyConstructor,
2415 move_arg(ConstructorArgs),
Abramo Bagnara7cc58b42011-10-05 07:56:41 +00002416 /*HadMultipleCandidates*/ false,
John Wiegley429bb272011-04-08 18:41:53 +00002417 /*ZeroInit*/ false,
2418 CXXConstructExpr::CK_Complete,
2419 SourceRange());
Fariborz Jahanianb3c47742009-09-25 18:59:21 +00002420 }
John Wiegley429bb272011-04-08 18:41:53 +00002421 return BuildCXXConstructExpr(/*FIXME:ConstructLoc*/SourceLocation(),
2422 ToType, SCS.CopyConstructor,
2423 MultiExprArg(*this, &From, 1),
Abramo Bagnara7cc58b42011-10-05 07:56:41 +00002424 /*HadMultipleCandidates*/ false,
John Wiegley429bb272011-04-08 18:41:53 +00002425 /*ZeroInit*/ false,
2426 CXXConstructExpr::CK_Complete,
2427 SourceRange());
Douglas Gregor225c41e2008-11-03 19:09:14 +00002428 }
2429
Douglas Gregorad4e02f2010-04-29 18:24:40 +00002430 // Resolve overloaded function references.
2431 if (Context.hasSameType(FromType, Context.OverloadTy)) {
2432 DeclAccessPair Found;
2433 FunctionDecl *Fn = ResolveAddressOfOverloadedFunction(From, ToType,
2434 true, Found);
2435 if (!Fn)
John Wiegley429bb272011-04-08 18:41:53 +00002436 return ExprError();
Douglas Gregorad4e02f2010-04-29 18:24:40 +00002437
2438 if (DiagnoseUseOfDecl(Fn, From->getSourceRange().getBegin()))
John Wiegley429bb272011-04-08 18:41:53 +00002439 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002440
Douglas Gregorad4e02f2010-04-29 18:24:40 +00002441 From = FixOverloadedFunctionReference(From, Found, Fn);
2442 FromType = From->getType();
2443 }
2444
Richard Smithc8d7f582011-11-29 22:48:16 +00002445 // Perform the first implicit conversion.
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002446 switch (SCS.First) {
2447 case ICK_Identity:
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002448 // Nothing to do.
2449 break;
2450
Eli Friedmand814eaf2012-01-24 22:51:26 +00002451 case ICK_Lvalue_To_Rvalue: {
John McCall3c3b7f92011-10-25 17:37:35 +00002452 assert(From->getObjectKind() != OK_ObjCProperty);
John McCallf6a16482010-12-04 03:47:34 +00002453 FromType = FromType.getUnqualifiedType();
Eli Friedmand814eaf2012-01-24 22:51:26 +00002454 ExprResult FromRes = DefaultLvalueConversion(From);
2455 assert(!FromRes.isInvalid() && "Can't perform deduced conversion?!");
2456 From = FromRes.take();
John McCallf6a16482010-12-04 03:47:34 +00002457 break;
Eli Friedmand814eaf2012-01-24 22:51:26 +00002458 }
John McCallf6a16482010-12-04 03:47:34 +00002459
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002460 case ICK_Array_To_Pointer:
Douglas Gregor48f3bb92009-02-18 21:56:37 +00002461 FromType = Context.getArrayDecayedType(FromType);
Richard Smithc8d7f582011-11-29 22:48:16 +00002462 From = ImpCastExprToType(From, FromType, CK_ArrayToPointerDecay,
2463 VK_RValue, /*BasePath=*/0, CCK).take();
Douglas Gregor48f3bb92009-02-18 21:56:37 +00002464 break;
2465
2466 case ICK_Function_To_Pointer:
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002467 FromType = Context.getPointerType(FromType);
Richard Smithc8d7f582011-11-29 22:48:16 +00002468 From = ImpCastExprToType(From, FromType, CK_FunctionToPointerDecay,
2469 VK_RValue, /*BasePath=*/0, CCK).take();
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002470 break;
2471
2472 default:
David Blaikieb219cfc2011-09-23 05:06:16 +00002473 llvm_unreachable("Improper first standard conversion");
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002474 }
2475
Richard Smithc8d7f582011-11-29 22:48:16 +00002476 // Perform the second implicit conversion
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002477 switch (SCS.Second) {
2478 case ICK_Identity:
Sebastian Redl2c7588f2009-10-10 12:04:10 +00002479 // If both sides are functions (or pointers/references to them), there could
2480 // be incompatible exception declarations.
2481 if (CheckExceptionSpecCompatibility(From, ToType))
John Wiegley429bb272011-04-08 18:41:53 +00002482 return ExprError();
Sebastian Redl2c7588f2009-10-10 12:04:10 +00002483 // Nothing else to do.
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002484 break;
2485
Douglas Gregor43c79c22009-12-09 00:47:37 +00002486 case ICK_NoReturn_Adjustment:
2487 // If both sides are functions (or pointers/references to them), there could
2488 // be incompatible exception declarations.
2489 if (CheckExceptionSpecCompatibility(From, ToType))
John Wiegley429bb272011-04-08 18:41:53 +00002490 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002491
Richard Smithc8d7f582011-11-29 22:48:16 +00002492 From = ImpCastExprToType(From, ToType, CK_NoOp,
2493 VK_RValue, /*BasePath=*/0, CCK).take();
Douglas Gregor43c79c22009-12-09 00:47:37 +00002494 break;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002495
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002496 case ICK_Integral_Promotion:
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002497 case ICK_Integral_Conversion:
Richard Smithc8d7f582011-11-29 22:48:16 +00002498 From = ImpCastExprToType(From, ToType, CK_IntegralCast,
2499 VK_RValue, /*BasePath=*/0, CCK).take();
Eli Friedman73c39ab2009-10-20 08:27:19 +00002500 break;
2501
2502 case ICK_Floating_Promotion:
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002503 case ICK_Floating_Conversion:
Richard Smithc8d7f582011-11-29 22:48:16 +00002504 From = ImpCastExprToType(From, ToType, CK_FloatingCast,
2505 VK_RValue, /*BasePath=*/0, CCK).take();
Eli Friedman73c39ab2009-10-20 08:27:19 +00002506 break;
2507
2508 case ICK_Complex_Promotion:
John McCalldaa8e4e2010-11-15 09:13:47 +00002509 case ICK_Complex_Conversion: {
2510 QualType FromEl = From->getType()->getAs<ComplexType>()->getElementType();
2511 QualType ToEl = ToType->getAs<ComplexType>()->getElementType();
2512 CastKind CK;
2513 if (FromEl->isRealFloatingType()) {
2514 if (ToEl->isRealFloatingType())
2515 CK = CK_FloatingComplexCast;
2516 else
2517 CK = CK_FloatingComplexToIntegralComplex;
2518 } else if (ToEl->isRealFloatingType()) {
2519 CK = CK_IntegralComplexToFloatingComplex;
2520 } else {
2521 CK = CK_IntegralComplexCast;
2522 }
Richard Smithc8d7f582011-11-29 22:48:16 +00002523 From = ImpCastExprToType(From, ToType, CK,
2524 VK_RValue, /*BasePath=*/0, CCK).take();
Eli Friedman73c39ab2009-10-20 08:27:19 +00002525 break;
John McCalldaa8e4e2010-11-15 09:13:47 +00002526 }
Eli Friedman73c39ab2009-10-20 08:27:19 +00002527
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002528 case ICK_Floating_Integral:
Douglas Gregor0c293ea2010-06-22 23:07:26 +00002529 if (ToType->isRealFloatingType())
Richard Smithc8d7f582011-11-29 22:48:16 +00002530 From = ImpCastExprToType(From, ToType, CK_IntegralToFloating,
2531 VK_RValue, /*BasePath=*/0, CCK).take();
Eli Friedman73c39ab2009-10-20 08:27:19 +00002532 else
Richard Smithc8d7f582011-11-29 22:48:16 +00002533 From = ImpCastExprToType(From, ToType, CK_FloatingToIntegral,
2534 VK_RValue, /*BasePath=*/0, CCK).take();
Eli Friedman73c39ab2009-10-20 08:27:19 +00002535 break;
2536
Douglas Gregorf9201e02009-02-11 23:02:49 +00002537 case ICK_Compatible_Conversion:
Richard Smithc8d7f582011-11-29 22:48:16 +00002538 From = ImpCastExprToType(From, ToType, CK_NoOp,
2539 VK_RValue, /*BasePath=*/0, CCK).take();
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002540 break;
2541
John McCallf85e1932011-06-15 23:02:42 +00002542 case ICK_Writeback_Conversion:
Anders Carlsson61faec12009-09-12 04:46:44 +00002543 case ICK_Pointer_Conversion: {
Douglas Gregora3998bd2010-12-02 21:47:04 +00002544 if (SCS.IncompatibleObjC && Action != AA_Casting) {
Douglas Gregor45920e82008-12-19 17:40:08 +00002545 // Diagnose incompatible Objective-C conversions
Douglas Gregor8cf0d222011-06-11 04:42:12 +00002546 if (Action == AA_Initializing || Action == AA_Assigning)
Fariborz Jahanian84950c72011-03-21 19:08:42 +00002547 Diag(From->getSourceRange().getBegin(),
2548 diag::ext_typecheck_convert_incompatible_pointer)
2549 << ToType << From->getType() << Action
Anna Zaks67221552011-07-28 19:51:27 +00002550 << From->getSourceRange() << 0;
Fariborz Jahanian84950c72011-03-21 19:08:42 +00002551 else
2552 Diag(From->getSourceRange().getBegin(),
2553 diag::ext_typecheck_convert_incompatible_pointer)
2554 << From->getType() << ToType << Action
Anna Zaks67221552011-07-28 19:51:27 +00002555 << From->getSourceRange() << 0;
John McCallf85e1932011-06-15 23:02:42 +00002556
Douglas Gregor926df6c2011-06-11 01:09:30 +00002557 if (From->getType()->isObjCObjectPointerType() &&
2558 ToType->isObjCObjectPointerType())
2559 EmitRelatedResultTypeNote(From);
Fariborz Jahanian82007c32011-07-08 17:41:42 +00002560 }
2561 else if (getLangOptions().ObjCAutoRefCount &&
2562 !CheckObjCARCUnavailableWeakConversion(ToType,
2563 From->getType())) {
John McCall7f3a6d32011-09-09 06:12:06 +00002564 if (Action == AA_Initializing)
2565 Diag(From->getSourceRange().getBegin(),
2566 diag::err_arc_weak_unavailable_assign);
2567 else
2568 Diag(From->getSourceRange().getBegin(),
2569 diag::err_arc_convesion_of_weak_unavailable)
2570 << (Action == AA_Casting) << From->getType() << ToType
2571 << From->getSourceRange();
2572 }
Fariborz Jahanian82007c32011-07-08 17:41:42 +00002573
John McCalldaa8e4e2010-11-15 09:13:47 +00002574 CastKind Kind = CK_Invalid;
John McCallf871d0c2010-08-07 06:22:56 +00002575 CXXCastPath BasePath;
Douglas Gregor14d0aee2011-01-27 00:58:17 +00002576 if (CheckPointerConversion(From, ToType, Kind, BasePath, CStyle))
John Wiegley429bb272011-04-08 18:41:53 +00002577 return ExprError();
John McCalldc05b112011-09-10 01:16:55 +00002578
2579 // Make sure we extend blocks if necessary.
2580 // FIXME: doing this here is really ugly.
2581 if (Kind == CK_BlockPointerToObjCPointerCast) {
2582 ExprResult E = From;
2583 (void) PrepareCastToObjCObjectPointer(E);
2584 From = E.take();
2585 }
2586
Richard Smithc8d7f582011-11-29 22:48:16 +00002587 From = ImpCastExprToType(From, ToType, Kind, VK_RValue, &BasePath, CCK)
2588 .take();
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002589 break;
Anders Carlsson61faec12009-09-12 04:46:44 +00002590 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002591
Anders Carlsson61faec12009-09-12 04:46:44 +00002592 case ICK_Pointer_Member: {
John McCalldaa8e4e2010-11-15 09:13:47 +00002593 CastKind Kind = CK_Invalid;
John McCallf871d0c2010-08-07 06:22:56 +00002594 CXXCastPath BasePath;
Douglas Gregor14d0aee2011-01-27 00:58:17 +00002595 if (CheckMemberPointerConversion(From, ToType, Kind, BasePath, CStyle))
John Wiegley429bb272011-04-08 18:41:53 +00002596 return ExprError();
Sebastian Redl2c7588f2009-10-10 12:04:10 +00002597 if (CheckExceptionSpecCompatibility(From, ToType))
John Wiegley429bb272011-04-08 18:41:53 +00002598 return ExprError();
Richard Smithc8d7f582011-11-29 22:48:16 +00002599 From = ImpCastExprToType(From, ToType, Kind, VK_RValue, &BasePath, CCK)
2600 .take();
Anders Carlsson61faec12009-09-12 04:46:44 +00002601 break;
2602 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002603
Abramo Bagnara737d5442011-04-07 09:26:19 +00002604 case ICK_Boolean_Conversion:
Anton Korobeynikovaa4a99b2011-10-14 23:23:15 +00002605 // Perform half-to-boolean conversion via float.
2606 if (From->getType()->isHalfType()) {
2607 From = ImpCastExprToType(From, Context.FloatTy, CK_FloatingCast).take();
2608 FromType = Context.FloatTy;
2609 }
2610
Richard Smithc8d7f582011-11-29 22:48:16 +00002611 From = ImpCastExprToType(From, Context.BoolTy,
2612 ScalarTypeToBooleanCastKind(FromType),
2613 VK_RValue, /*BasePath=*/0, CCK).take();
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002614 break;
2615
Douglas Gregor6fb745b2010-05-13 16:44:06 +00002616 case ICK_Derived_To_Base: {
John McCallf871d0c2010-08-07 06:22:56 +00002617 CXXCastPath BasePath;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002618 if (CheckDerivedToBaseConversion(From->getType(),
Douglas Gregorb7a86f52009-11-06 01:02:41 +00002619 ToType.getNonReferenceType(),
2620 From->getLocStart(),
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002621 From->getSourceRange(),
Douglas Gregor6fb745b2010-05-13 16:44:06 +00002622 &BasePath,
Douglas Gregor14d0aee2011-01-27 00:58:17 +00002623 CStyle))
John Wiegley429bb272011-04-08 18:41:53 +00002624 return ExprError();
Douglas Gregor6fb745b2010-05-13 16:44:06 +00002625
Richard Smithc8d7f582011-11-29 22:48:16 +00002626 From = ImpCastExprToType(From, ToType.getNonReferenceType(),
2627 CK_DerivedToBase, From->getValueKind(),
2628 &BasePath, CCK).take();
Douglas Gregorb7a86f52009-11-06 01:02:41 +00002629 break;
Douglas Gregor6fb745b2010-05-13 16:44:06 +00002630 }
2631
Douglas Gregorfb4a5432010-05-18 22:42:18 +00002632 case ICK_Vector_Conversion:
Richard Smithc8d7f582011-11-29 22:48:16 +00002633 From = ImpCastExprToType(From, ToType, CK_BitCast,
2634 VK_RValue, /*BasePath=*/0, CCK).take();
Douglas Gregorfb4a5432010-05-18 22:42:18 +00002635 break;
2636
2637 case ICK_Vector_Splat:
Richard Smithc8d7f582011-11-29 22:48:16 +00002638 From = ImpCastExprToType(From, ToType, CK_VectorSplat,
2639 VK_RValue, /*BasePath=*/0, CCK).take();
Douglas Gregorfb4a5432010-05-18 22:42:18 +00002640 break;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00002641
Douglas Gregorfb4a5432010-05-18 22:42:18 +00002642 case ICK_Complex_Real:
John McCalldaa8e4e2010-11-15 09:13:47 +00002643 // Case 1. x -> _Complex y
2644 if (const ComplexType *ToComplex = ToType->getAs<ComplexType>()) {
2645 QualType ElType = ToComplex->getElementType();
2646 bool isFloatingComplex = ElType->isRealFloatingType();
2647
2648 // x -> y
2649 if (Context.hasSameUnqualifiedType(ElType, From->getType())) {
2650 // do nothing
2651 } else if (From->getType()->isRealFloatingType()) {
Richard Smithc8d7f582011-11-29 22:48:16 +00002652 From = ImpCastExprToType(From, ElType,
2653 isFloatingComplex ? CK_FloatingCast : CK_FloatingToIntegral).take();
John McCalldaa8e4e2010-11-15 09:13:47 +00002654 } else {
2655 assert(From->getType()->isIntegerType());
Richard Smithc8d7f582011-11-29 22:48:16 +00002656 From = ImpCastExprToType(From, ElType,
2657 isFloatingComplex ? CK_IntegralToFloating : CK_IntegralCast).take();
John McCalldaa8e4e2010-11-15 09:13:47 +00002658 }
2659 // y -> _Complex y
Richard Smithc8d7f582011-11-29 22:48:16 +00002660 From = ImpCastExprToType(From, ToType,
2661 isFloatingComplex ? CK_FloatingRealToComplex
2662 : CK_IntegralRealToComplex).take();
John McCalldaa8e4e2010-11-15 09:13:47 +00002663
2664 // Case 2. _Complex x -> y
2665 } else {
2666 const ComplexType *FromComplex = From->getType()->getAs<ComplexType>();
2667 assert(FromComplex);
2668
2669 QualType ElType = FromComplex->getElementType();
2670 bool isFloatingComplex = ElType->isRealFloatingType();
2671
2672 // _Complex x -> x
Richard Smithc8d7f582011-11-29 22:48:16 +00002673 From = ImpCastExprToType(From, ElType,
2674 isFloatingComplex ? CK_FloatingComplexToReal
2675 : CK_IntegralComplexToReal,
2676 VK_RValue, /*BasePath=*/0, CCK).take();
John McCalldaa8e4e2010-11-15 09:13:47 +00002677
2678 // x -> y
2679 if (Context.hasSameUnqualifiedType(ElType, ToType)) {
2680 // do nothing
2681 } else if (ToType->isRealFloatingType()) {
Richard Smithc8d7f582011-11-29 22:48:16 +00002682 From = ImpCastExprToType(From, ToType,
2683 isFloatingComplex ? CK_FloatingCast : CK_IntegralToFloating,
2684 VK_RValue, /*BasePath=*/0, CCK).take();
John McCalldaa8e4e2010-11-15 09:13:47 +00002685 } else {
2686 assert(ToType->isIntegerType());
Richard Smithc8d7f582011-11-29 22:48:16 +00002687 From = ImpCastExprToType(From, ToType,
2688 isFloatingComplex ? CK_FloatingToIntegral : CK_IntegralCast,
2689 VK_RValue, /*BasePath=*/0, CCK).take();
John McCalldaa8e4e2010-11-15 09:13:47 +00002690 }
2691 }
Douglas Gregorfb4a5432010-05-18 22:42:18 +00002692 break;
Fariborz Jahaniane3c8c642011-02-12 19:07:46 +00002693
2694 case ICK_Block_Pointer_Conversion: {
Richard Smithc8d7f582011-11-29 22:48:16 +00002695 From = ImpCastExprToType(From, ToType.getUnqualifiedType(), CK_BitCast,
2696 VK_RValue, /*BasePath=*/0, CCK).take();
John McCallf85e1932011-06-15 23:02:42 +00002697 break;
2698 }
Fariborz Jahaniane3c8c642011-02-12 19:07:46 +00002699
Fariborz Jahaniand97f5582011-03-23 19:50:54 +00002700 case ICK_TransparentUnionConversion: {
John Wiegley429bb272011-04-08 18:41:53 +00002701 ExprResult FromRes = Owned(From);
Fariborz Jahaniand97f5582011-03-23 19:50:54 +00002702 Sema::AssignConvertType ConvTy =
John Wiegley429bb272011-04-08 18:41:53 +00002703 CheckTransparentUnionArgumentConstraints(ToType, FromRes);
2704 if (FromRes.isInvalid())
2705 return ExprError();
2706 From = FromRes.take();
Fariborz Jahaniand97f5582011-03-23 19:50:54 +00002707 assert ((ConvTy == Sema::Compatible) &&
2708 "Improper transparent union conversion");
2709 (void)ConvTy;
2710 break;
2711 }
2712
Douglas Gregorfb4a5432010-05-18 22:42:18 +00002713 case ICK_Lvalue_To_Rvalue:
2714 case ICK_Array_To_Pointer:
2715 case ICK_Function_To_Pointer:
2716 case ICK_Qualification:
2717 case ICK_Num_Conversion_Kinds:
David Blaikieb219cfc2011-09-23 05:06:16 +00002718 llvm_unreachable("Improper second standard conversion");
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002719 }
2720
2721 switch (SCS.Third) {
2722 case ICK_Identity:
2723 // Nothing to do.
2724 break;
2725
Sebastian Redl906082e2010-07-20 04:20:21 +00002726 case ICK_Qualification: {
2727 // The qualification keeps the category of the inner expression, unless the
2728 // target type isn't a reference.
John McCall5baba9d2010-08-25 10:28:54 +00002729 ExprValueKind VK = ToType->isReferenceType() ?
Eli Friedmanc1c0dfb2011-09-27 21:58:52 +00002730 From->getValueKind() : VK_RValue;
Richard Smithc8d7f582011-11-29 22:48:16 +00002731 From = ImpCastExprToType(From, ToType.getNonLValueExprType(Context),
2732 CK_NoOp, VK, /*BasePath=*/0, CCK).take();
Douglas Gregora9bff302010-02-28 18:30:25 +00002733
Douglas Gregor069a6da2011-03-14 16:13:32 +00002734 if (SCS.DeprecatedStringLiteralToCharPtr &&
2735 !getLangOptions().WritableStrings)
Douglas Gregora9bff302010-02-28 18:30:25 +00002736 Diag(From->getLocStart(), diag::warn_deprecated_string_literal_conversion)
2737 << ToType.getNonReferenceType();
2738
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002739 break;
Sebastian Redl906082e2010-07-20 04:20:21 +00002740 }
2741
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002742 default:
David Blaikieb219cfc2011-09-23 05:06:16 +00002743 llvm_unreachable("Improper third standard conversion");
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002744 }
2745
John Wiegley429bb272011-04-08 18:41:53 +00002746 return Owned(From);
Douglas Gregor94b1dd22008-10-24 04:54:22 +00002747}
2748
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002749ExprResult Sema::ActOnUnaryTypeTrait(UnaryTypeTrait UTT,
Douglas Gregor3d37c0a2010-09-09 16:14:44 +00002750 SourceLocation KWLoc,
2751 ParsedType Ty,
2752 SourceLocation RParen) {
2753 TypeSourceInfo *TSInfo;
2754 QualType T = GetTypeFromParser(Ty, &TSInfo);
Mike Stump1eb44332009-09-09 15:08:12 +00002755
Douglas Gregor3d37c0a2010-09-09 16:14:44 +00002756 if (!TSInfo)
2757 TSInfo = Context.getTrivialTypeSourceInfo(T);
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002758 return BuildUnaryTypeTrait(UTT, KWLoc, TSInfo, RParen);
Douglas Gregor3d37c0a2010-09-09 16:14:44 +00002759}
2760
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002761/// \brief Check the completeness of a type in a unary type trait.
2762///
2763/// If the particular type trait requires a complete type, tries to complete
2764/// it. If completing the type fails, a diagnostic is emitted and false
2765/// returned. If completing the type succeeds or no completion was required,
2766/// returns true.
2767static bool CheckUnaryTypeTraitTypeCompleteness(Sema &S,
2768 UnaryTypeTrait UTT,
2769 SourceLocation Loc,
2770 QualType ArgTy) {
2771 // C++0x [meta.unary.prop]p3:
2772 // For all of the class templates X declared in this Clause, instantiating
2773 // that template with a template argument that is a class template
2774 // specialization may result in the implicit instantiation of the template
2775 // argument if and only if the semantics of X require that the argument
2776 // must be a complete type.
2777 // We apply this rule to all the type trait expressions used to implement
2778 // these class templates. We also try to follow any GCC documented behavior
2779 // in these expressions to ensure portability of standard libraries.
2780 switch (UTT) {
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002781 // is_complete_type somewhat obviously cannot require a complete type.
2782 case UTT_IsCompleteType:
Chandler Carruthd6efe9b2011-05-01 19:18:02 +00002783 // Fall-through
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002784
2785 // These traits are modeled on the type predicates in C++0x
2786 // [meta.unary.cat] and [meta.unary.comp]. They are not specified as
2787 // requiring a complete type, as whether or not they return true cannot be
2788 // impacted by the completeness of the type.
2789 case UTT_IsVoid:
2790 case UTT_IsIntegral:
2791 case UTT_IsFloatingPoint:
2792 case UTT_IsArray:
2793 case UTT_IsPointer:
2794 case UTT_IsLvalueReference:
2795 case UTT_IsRvalueReference:
2796 case UTT_IsMemberFunctionPointer:
2797 case UTT_IsMemberObjectPointer:
2798 case UTT_IsEnum:
2799 case UTT_IsUnion:
2800 case UTT_IsClass:
2801 case UTT_IsFunction:
2802 case UTT_IsReference:
2803 case UTT_IsArithmetic:
2804 case UTT_IsFundamental:
2805 case UTT_IsObject:
2806 case UTT_IsScalar:
2807 case UTT_IsCompound:
2808 case UTT_IsMemberPointer:
Chandler Carruthd6efe9b2011-05-01 19:18:02 +00002809 // Fall-through
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002810
2811 // These traits are modeled on type predicates in C++0x [meta.unary.prop]
2812 // which requires some of its traits to have the complete type. However,
2813 // the completeness of the type cannot impact these traits' semantics, and
2814 // so they don't require it. This matches the comments on these traits in
2815 // Table 49.
2816 case UTT_IsConst:
2817 case UTT_IsVolatile:
2818 case UTT_IsSigned:
2819 case UTT_IsUnsigned:
2820 return true;
2821
2822 // C++0x [meta.unary.prop] Table 49 requires the following traits to be
Chandler Carruthd6efe9b2011-05-01 19:18:02 +00002823 // applied to a complete type.
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002824 case UTT_IsTrivial:
Sean Huntfeb375d2011-05-13 00:31:07 +00002825 case UTT_IsTriviallyCopyable:
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002826 case UTT_IsStandardLayout:
2827 case UTT_IsPOD:
2828 case UTT_IsLiteral:
2829 case UTT_IsEmpty:
2830 case UTT_IsPolymorphic:
2831 case UTT_IsAbstract:
Chandler Carruthd6efe9b2011-05-01 19:18:02 +00002832 // Fall-through
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002833
Douglas Gregor5e9392b2011-12-03 18:14:24 +00002834 // These traits require a complete type.
2835 case UTT_IsFinal:
2836
Chandler Carruthd6efe9b2011-05-01 19:18:02 +00002837 // These trait expressions are designed to help implement predicates in
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002838 // [meta.unary.prop] despite not being named the same. They are specified
2839 // by both GCC and the Embarcadero C++ compiler, and require the complete
2840 // type due to the overarching C++0x type predicates being implemented
2841 // requiring the complete type.
2842 case UTT_HasNothrowAssign:
2843 case UTT_HasNothrowConstructor:
2844 case UTT_HasNothrowCopy:
2845 case UTT_HasTrivialAssign:
Sean Hunt023df372011-05-09 18:22:59 +00002846 case UTT_HasTrivialDefaultConstructor:
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002847 case UTT_HasTrivialCopy:
2848 case UTT_HasTrivialDestructor:
2849 case UTT_HasVirtualDestructor:
2850 // Arrays of unknown bound are expressly allowed.
2851 QualType ElTy = ArgTy;
2852 if (ArgTy->isIncompleteArrayType())
2853 ElTy = S.Context.getAsArrayType(ArgTy)->getElementType();
2854
2855 // The void type is expressly allowed.
2856 if (ElTy->isVoidType())
2857 return true;
2858
2859 return !S.RequireCompleteType(
2860 Loc, ElTy, diag::err_incomplete_type_used_in_type_trait_expr);
John Wiegleycf566412011-04-28 02:06:46 +00002861 }
Chandler Carruth73e0a912011-05-01 07:23:17 +00002862 llvm_unreachable("Type trait not handled by switch");
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00002863}
2864
2865static bool EvaluateUnaryTypeTrait(Sema &Self, UnaryTypeTrait UTT,
2866 SourceLocation KeyLoc, QualType T) {
Chandler Carruthd064c702011-05-01 08:41:10 +00002867 assert(!T->isDependentType() && "Cannot evaluate traits of dependent type");
John Wiegleycf566412011-04-28 02:06:46 +00002868
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002869 ASTContext &C = Self.Context;
2870 switch(UTT) {
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002871 // Type trait expressions corresponding to the primary type category
2872 // predicates in C++0x [meta.unary.cat].
2873 case UTT_IsVoid:
2874 return T->isVoidType();
2875 case UTT_IsIntegral:
2876 return T->isIntegralType(C);
2877 case UTT_IsFloatingPoint:
2878 return T->isFloatingType();
2879 case UTT_IsArray:
2880 return T->isArrayType();
2881 case UTT_IsPointer:
2882 return T->isPointerType();
2883 case UTT_IsLvalueReference:
2884 return T->isLValueReferenceType();
2885 case UTT_IsRvalueReference:
2886 return T->isRValueReferenceType();
2887 case UTT_IsMemberFunctionPointer:
2888 return T->isMemberFunctionPointerType();
2889 case UTT_IsMemberObjectPointer:
2890 return T->isMemberDataPointerType();
2891 case UTT_IsEnum:
2892 return T->isEnumeralType();
Chandler Carruth28eeb382011-05-01 06:11:03 +00002893 case UTT_IsUnion:
Chandler Carruthaaf147b2011-05-01 09:29:58 +00002894 return T->isUnionType();
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002895 case UTT_IsClass:
Chandler Carruthaaf147b2011-05-01 09:29:58 +00002896 return T->isClassType() || T->isStructureType();
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002897 case UTT_IsFunction:
2898 return T->isFunctionType();
2899
2900 // Type trait expressions which correspond to the convenient composition
2901 // predicates in C++0x [meta.unary.comp].
2902 case UTT_IsReference:
2903 return T->isReferenceType();
2904 case UTT_IsArithmetic:
Chandler Carruthaaf147b2011-05-01 09:29:58 +00002905 return T->isArithmeticType() && !T->isEnumeralType();
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002906 case UTT_IsFundamental:
Chandler Carruthaaf147b2011-05-01 09:29:58 +00002907 return T->isFundamentalType();
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002908 case UTT_IsObject:
Chandler Carruthaaf147b2011-05-01 09:29:58 +00002909 return T->isObjectType();
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002910 case UTT_IsScalar:
John McCallf85e1932011-06-15 23:02:42 +00002911 // Note: semantic analysis depends on Objective-C lifetime types to be
2912 // considered scalar types. However, such types do not actually behave
2913 // like scalar types at run time (since they may require retain/release
2914 // operations), so we report them as non-scalar.
2915 if (T->isObjCLifetimeType()) {
2916 switch (T.getObjCLifetime()) {
2917 case Qualifiers::OCL_None:
2918 case Qualifiers::OCL_ExplicitNone:
2919 return true;
2920
2921 case Qualifiers::OCL_Strong:
2922 case Qualifiers::OCL_Weak:
2923 case Qualifiers::OCL_Autoreleasing:
2924 return false;
2925 }
2926 }
2927
Chandler Carruthcec0ced2011-05-01 09:29:55 +00002928 return T->isScalarType();
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002929 case UTT_IsCompound:
Chandler Carruthaaf147b2011-05-01 09:29:58 +00002930 return T->isCompoundType();
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002931 case UTT_IsMemberPointer:
2932 return T->isMemberPointerType();
2933
2934 // Type trait expressions which correspond to the type property predicates
2935 // in C++0x [meta.unary.prop].
2936 case UTT_IsConst:
2937 return T.isConstQualified();
2938 case UTT_IsVolatile:
2939 return T.isVolatileQualified();
2940 case UTT_IsTrivial:
John McCallf85e1932011-06-15 23:02:42 +00002941 return T.isTrivialType(Self.Context);
Sean Huntfeb375d2011-05-13 00:31:07 +00002942 case UTT_IsTriviallyCopyable:
John McCallf85e1932011-06-15 23:02:42 +00002943 return T.isTriviallyCopyableType(Self.Context);
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002944 case UTT_IsStandardLayout:
2945 return T->isStandardLayoutType();
2946 case UTT_IsPOD:
John McCallf85e1932011-06-15 23:02:42 +00002947 return T.isPODType(Self.Context);
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002948 case UTT_IsLiteral:
2949 return T->isLiteralType();
2950 case UTT_IsEmpty:
2951 if (const CXXRecordDecl *RD = T->getAsCXXRecordDecl())
2952 return !RD->isUnion() && RD->isEmpty();
2953 return false;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002954 case UTT_IsPolymorphic:
Chandler Carruth28eeb382011-05-01 06:11:03 +00002955 if (const CXXRecordDecl *RD = T->getAsCXXRecordDecl())
2956 return RD->isPolymorphic();
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002957 return false;
2958 case UTT_IsAbstract:
Chandler Carruth28eeb382011-05-01 06:11:03 +00002959 if (const CXXRecordDecl *RD = T->getAsCXXRecordDecl())
2960 return RD->isAbstract();
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002961 return false;
Douglas Gregor5e9392b2011-12-03 18:14:24 +00002962 case UTT_IsFinal:
2963 if (const CXXRecordDecl *RD = T->getAsCXXRecordDecl())
2964 return RD->hasAttr<FinalAttr>();
2965 return false;
John Wiegley20c0da72011-04-27 23:09:49 +00002966 case UTT_IsSigned:
2967 return T->isSignedIntegerType();
John Wiegley20c0da72011-04-27 23:09:49 +00002968 case UTT_IsUnsigned:
2969 return T->isUnsignedIntegerType();
Chandler Carruthc41d6b52011-05-01 06:11:07 +00002970
2971 // Type trait expressions which query classes regarding their construction,
2972 // destruction, and copying. Rather than being based directly on the
2973 // related type predicates in the standard, they are specified by both
2974 // GCC[1] and the Embarcadero C++ compiler[2], and Clang implements those
2975 // specifications.
2976 //
2977 // 1: http://gcc.gnu/.org/onlinedocs/gcc/Type-Traits.html
2978 // 2: http://docwiki.embarcadero.com/RADStudio/XE/en/Type_Trait_Functions_(C%2B%2B0x)_Index
Sean Hunt023df372011-05-09 18:22:59 +00002979 case UTT_HasTrivialDefaultConstructor:
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002980 // http://gcc.gnu.org/onlinedocs/gcc/Type-Traits.html:
2981 // If __is_pod (type) is true then the trait is true, else if type is
2982 // a cv class or union type (or array thereof) with a trivial default
2983 // constructor ([class.ctor]) then the trait is true, else it is false.
John McCallf85e1932011-06-15 23:02:42 +00002984 if (T.isPODType(Self.Context))
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002985 return true;
2986 if (const RecordType *RT =
2987 C.getBaseElementType(T)->getAs<RecordType>())
Sean Hunt023df372011-05-09 18:22:59 +00002988 return cast<CXXRecordDecl>(RT->getDecl())->hasTrivialDefaultConstructor();
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002989 return false;
2990 case UTT_HasTrivialCopy:
2991 // http://gcc.gnu.org/onlinedocs/gcc/Type-Traits.html:
2992 // If __is_pod (type) is true or type is a reference type then
2993 // the trait is true, else if type is a cv class or union type
2994 // with a trivial copy constructor ([class.copy]) then the trait
2995 // is true, else it is false.
John McCallf85e1932011-06-15 23:02:42 +00002996 if (T.isPODType(Self.Context) || T->isReferenceType())
Sebastian Redl0dfd8482010-09-13 20:56:31 +00002997 return true;
2998 if (const RecordType *RT = T->getAs<RecordType>())
2999 return cast<CXXRecordDecl>(RT->getDecl())->hasTrivialCopyConstructor();
3000 return false;
3001 case UTT_HasTrivialAssign:
3002 // http://gcc.gnu.org/onlinedocs/gcc/Type-Traits.html:
3003 // If type is const qualified or is a reference type then the
3004 // trait is false. Otherwise if __is_pod (type) is true then the
3005 // trait is true, else if type is a cv class or union type with
3006 // a trivial copy assignment ([class.copy]) then the trait is
3007 // true, else it is false.
3008 // Note: the const and reference restrictions are interesting,
3009 // given that const and reference members don't prevent a class
3010 // from having a trivial copy assignment operator (but do cause
3011 // errors if the copy assignment operator is actually used, q.v.
3012 // [class.copy]p12).
3013
3014 if (C.getBaseElementType(T).isConstQualified())
3015 return false;
John McCallf85e1932011-06-15 23:02:42 +00003016 if (T.isPODType(Self.Context))
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003017 return true;
3018 if (const RecordType *RT = T->getAs<RecordType>())
3019 return cast<CXXRecordDecl>(RT->getDecl())->hasTrivialCopyAssignment();
3020 return false;
3021 case UTT_HasTrivialDestructor:
3022 // http://gcc.gnu.org/onlinedocs/gcc/Type-Traits.html:
3023 // If __is_pod (type) is true or type is a reference type
3024 // then the trait is true, else if type is a cv class or union
3025 // type (or array thereof) with a trivial destructor
3026 // ([class.dtor]) then the trait is true, else it is
3027 // false.
John McCallf85e1932011-06-15 23:02:42 +00003028 if (T.isPODType(Self.Context) || T->isReferenceType())
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003029 return true;
John McCallf85e1932011-06-15 23:02:42 +00003030
3031 // Objective-C++ ARC: autorelease types don't require destruction.
3032 if (T->isObjCLifetimeType() &&
3033 T.getObjCLifetime() == Qualifiers::OCL_Autoreleasing)
3034 return true;
3035
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003036 if (const RecordType *RT =
3037 C.getBaseElementType(T)->getAs<RecordType>())
3038 return cast<CXXRecordDecl>(RT->getDecl())->hasTrivialDestructor();
3039 return false;
3040 // TODO: Propagate nothrowness for implicitly declared special members.
3041 case UTT_HasNothrowAssign:
3042 // http://gcc.gnu.org/onlinedocs/gcc/Type-Traits.html:
3043 // If type is const qualified or is a reference type then the
3044 // trait is false. Otherwise if __has_trivial_assign (type)
3045 // is true then the trait is true, else if type is a cv class
3046 // or union type with copy assignment operators that are known
3047 // not to throw an exception then the trait is true, else it is
3048 // false.
3049 if (C.getBaseElementType(T).isConstQualified())
3050 return false;
3051 if (T->isReferenceType())
3052 return false;
John McCallf85e1932011-06-15 23:02:42 +00003053 if (T.isPODType(Self.Context) || T->isObjCLifetimeType())
3054 return true;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003055 if (const RecordType *RT = T->getAs<RecordType>()) {
3056 CXXRecordDecl* RD = cast<CXXRecordDecl>(RT->getDecl());
3057 if (RD->hasTrivialCopyAssignment())
3058 return true;
3059
3060 bool FoundAssign = false;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003061 DeclarationName Name = C.DeclarationNames.getCXXOperatorName(OO_Equal);
Sebastian Redlf8aca862010-09-14 23:40:14 +00003062 LookupResult Res(Self, DeclarationNameInfo(Name, KeyLoc),
3063 Sema::LookupOrdinaryName);
3064 if (Self.LookupQualifiedName(Res, RD)) {
Douglas Gregord41679d2011-10-12 15:40:49 +00003065 Res.suppressDiagnostics();
Sebastian Redlf8aca862010-09-14 23:40:14 +00003066 for (LookupResult::iterator Op = Res.begin(), OpEnd = Res.end();
3067 Op != OpEnd; ++Op) {
Douglas Gregord41679d2011-10-12 15:40:49 +00003068 if (isa<FunctionTemplateDecl>(*Op))
3069 continue;
3070
Sebastian Redlf8aca862010-09-14 23:40:14 +00003071 CXXMethodDecl *Operator = cast<CXXMethodDecl>(*Op);
3072 if (Operator->isCopyAssignmentOperator()) {
3073 FoundAssign = true;
3074 const FunctionProtoType *CPT
3075 = Operator->getType()->getAs<FunctionProtoType>();
Richard Smith7a614d82011-06-11 17:19:42 +00003076 if (CPT->getExceptionSpecType() == EST_Delayed)
3077 return false;
3078 if (!CPT->isNothrow(Self.Context))
3079 return false;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003080 }
3081 }
3082 }
Douglas Gregord41679d2011-10-12 15:40:49 +00003083
Richard Smith7a614d82011-06-11 17:19:42 +00003084 return FoundAssign;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003085 }
3086 return false;
3087 case UTT_HasNothrowCopy:
3088 // http://gcc.gnu.org/onlinedocs/gcc/Type-Traits.html:
3089 // If __has_trivial_copy (type) is true then the trait is true, else
3090 // if type is a cv class or union type with copy constructors that are
3091 // known not to throw an exception then the trait is true, else it is
3092 // false.
John McCallf85e1932011-06-15 23:02:42 +00003093 if (T.isPODType(C) || T->isReferenceType() || T->isObjCLifetimeType())
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003094 return true;
3095 if (const RecordType *RT = T->getAs<RecordType>()) {
3096 CXXRecordDecl *RD = cast<CXXRecordDecl>(RT->getDecl());
3097 if (RD->hasTrivialCopyConstructor())
3098 return true;
3099
3100 bool FoundConstructor = false;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003101 unsigned FoundTQs;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003102 DeclContext::lookup_const_iterator Con, ConEnd;
Sebastian Redl5f4e8992010-09-13 21:10:20 +00003103 for (llvm::tie(Con, ConEnd) = Self.LookupConstructors(RD);
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003104 Con != ConEnd; ++Con) {
Sebastian Redl08295a52010-09-13 22:18:28 +00003105 // A template constructor is never a copy constructor.
3106 // FIXME: However, it may actually be selected at the actual overload
3107 // resolution point.
3108 if (isa<FunctionTemplateDecl>(*Con))
3109 continue;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003110 CXXConstructorDecl *Constructor = cast<CXXConstructorDecl>(*Con);
3111 if (Constructor->isCopyConstructor(FoundTQs)) {
3112 FoundConstructor = true;
3113 const FunctionProtoType *CPT
3114 = Constructor->getType()->getAs<FunctionProtoType>();
Richard Smith7a614d82011-06-11 17:19:42 +00003115 if (CPT->getExceptionSpecType() == EST_Delayed)
3116 return false;
Sebastian Redl60618fa2011-03-12 11:50:43 +00003117 // FIXME: check whether evaluating default arguments can throw.
Sebastian Redl751025d2010-09-13 22:02:47 +00003118 // For now, we'll be conservative and assume that they can throw.
Richard Smith7a614d82011-06-11 17:19:42 +00003119 if (!CPT->isNothrow(Self.Context) || CPT->getNumArgs() > 1)
3120 return false;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003121 }
3122 }
3123
Richard Smith7a614d82011-06-11 17:19:42 +00003124 return FoundConstructor;
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003125 }
3126 return false;
3127 case UTT_HasNothrowConstructor:
3128 // http://gcc.gnu.org/onlinedocs/gcc/Type-Traits.html:
3129 // If __has_trivial_constructor (type) is true then the trait is
3130 // true, else if type is a cv class or union type (or array
3131 // thereof) with a default constructor that is known not to
3132 // throw an exception then the trait is true, else it is false.
John McCallf85e1932011-06-15 23:02:42 +00003133 if (T.isPODType(C) || T->isObjCLifetimeType())
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003134 return true;
3135 if (const RecordType *RT = C.getBaseElementType(T)->getAs<RecordType>()) {
3136 CXXRecordDecl *RD = cast<CXXRecordDecl>(RT->getDecl());
Sean Hunt023df372011-05-09 18:22:59 +00003137 if (RD->hasTrivialDefaultConstructor())
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003138 return true;
3139
Sebastian Redl751025d2010-09-13 22:02:47 +00003140 DeclContext::lookup_const_iterator Con, ConEnd;
3141 for (llvm::tie(Con, ConEnd) = Self.LookupConstructors(RD);
3142 Con != ConEnd; ++Con) {
Sebastian Redl08295a52010-09-13 22:18:28 +00003143 // FIXME: In C++0x, a constructor template can be a default constructor.
3144 if (isa<FunctionTemplateDecl>(*Con))
3145 continue;
Sebastian Redl751025d2010-09-13 22:02:47 +00003146 CXXConstructorDecl *Constructor = cast<CXXConstructorDecl>(*Con);
3147 if (Constructor->isDefaultConstructor()) {
3148 const FunctionProtoType *CPT
3149 = Constructor->getType()->getAs<FunctionProtoType>();
Richard Smith7a614d82011-06-11 17:19:42 +00003150 if (CPT->getExceptionSpecType() == EST_Delayed)
3151 return false;
Sebastian Redl751025d2010-09-13 22:02:47 +00003152 // TODO: check whether evaluating default arguments can throw.
3153 // For now, we'll be conservative and assume that they can throw.
Sebastian Redl8026f6d2011-03-13 17:09:40 +00003154 return CPT->isNothrow(Self.Context) && CPT->getNumArgs() == 0;
Sebastian Redl751025d2010-09-13 22:02:47 +00003155 }
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003156 }
3157 }
3158 return false;
3159 case UTT_HasVirtualDestructor:
3160 // http://gcc.gnu.org/onlinedocs/gcc/Type-Traits.html:
3161 // If type is a class type with a virtual destructor ([class.dtor])
3162 // then the trait is true, else it is false.
3163 if (const RecordType *Record = T->getAs<RecordType>()) {
3164 CXXRecordDecl *RD = cast<CXXRecordDecl>(Record->getDecl());
Sebastian Redlf8aca862010-09-14 23:40:14 +00003165 if (CXXDestructorDecl *Destructor = Self.LookupDestructor(RD))
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003166 return Destructor->isVirtual();
3167 }
3168 return false;
Chandler Carruthc41d6b52011-05-01 06:11:07 +00003169
3170 // These type trait expressions are modeled on the specifications for the
3171 // Embarcadero C++0x type trait functions:
3172 // http://docwiki.embarcadero.com/RADStudio/XE/en/Type_Trait_Functions_(C%2B%2B0x)_Index
3173 case UTT_IsCompleteType:
3174 // http://docwiki.embarcadero.com/RADStudio/XE/en/Is_complete_type_(typename_T_):
3175 // Returns True if and only if T is a complete type at the point of the
3176 // function call.
3177 return !T->isIncompleteType();
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003178 }
Chandler Carruth83f563c2011-05-01 07:44:17 +00003179 llvm_unreachable("Type trait not covered by switch");
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003180}
3181
3182ExprResult Sema::BuildUnaryTypeTrait(UnaryTypeTrait UTT,
Douglas Gregor3d37c0a2010-09-09 16:14:44 +00003183 SourceLocation KWLoc,
3184 TypeSourceInfo *TSInfo,
3185 SourceLocation RParen) {
3186 QualType T = TSInfo->getType();
Chandler Carrutheb65a102011-04-30 10:07:32 +00003187 if (!CheckUnaryTypeTraitTypeCompleteness(*this, UTT, KWLoc, T))
3188 return ExprError();
Sebastian Redl64b45f72009-01-05 20:52:13 +00003189
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003190 bool Value = false;
3191 if (!T->isDependentType())
Chandler Carruthccb4ecf2011-05-01 06:51:22 +00003192 Value = EvaluateUnaryTypeTrait(*this, UTT, KWLoc, T);
Sebastian Redl0dfd8482010-09-13 20:56:31 +00003193
3194 return Owned(new (Context) UnaryTypeTraitExpr(KWLoc, UTT, TSInfo, Value,
Anders Carlsson3292d5c2009-07-07 19:06:02 +00003195 RParen, Context.BoolTy));
Sebastian Redl64b45f72009-01-05 20:52:13 +00003196}
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003197
Francois Pichet6ad6f282010-12-07 00:08:36 +00003198ExprResult Sema::ActOnBinaryTypeTrait(BinaryTypeTrait BTT,
3199 SourceLocation KWLoc,
3200 ParsedType LhsTy,
3201 ParsedType RhsTy,
3202 SourceLocation RParen) {
3203 TypeSourceInfo *LhsTSInfo;
3204 QualType LhsT = GetTypeFromParser(LhsTy, &LhsTSInfo);
3205 if (!LhsTSInfo)
3206 LhsTSInfo = Context.getTrivialTypeSourceInfo(LhsT);
3207
3208 TypeSourceInfo *RhsTSInfo;
3209 QualType RhsT = GetTypeFromParser(RhsTy, &RhsTSInfo);
3210 if (!RhsTSInfo)
3211 RhsTSInfo = Context.getTrivialTypeSourceInfo(RhsT);
3212
3213 return BuildBinaryTypeTrait(BTT, KWLoc, LhsTSInfo, RhsTSInfo, RParen);
3214}
3215
Douglas Gregor4ca8ac22012-02-24 07:38:34 +00003216static bool evaluateTypeTrait(Sema &S, TypeTrait Kind, SourceLocation KWLoc,
3217 ArrayRef<TypeSourceInfo *> Args,
3218 SourceLocation RParenLoc) {
3219 switch (Kind) {
3220 case clang::TT_IsTriviallyConstructible: {
3221 // C++11 [meta.unary.prop]:
Dmitri Gribenko62348f02012-02-24 20:03:35 +00003222 // is_trivially_constructible is defined as:
Douglas Gregor4ca8ac22012-02-24 07:38:34 +00003223 //
Dmitri Gribenko62348f02012-02-24 20:03:35 +00003224 // is_constructible<T, Args...>::value is true and the variable
3225 // definition for is_constructible, as defined below, is known to call no
3226 // operation that is not trivial.
Douglas Gregor4ca8ac22012-02-24 07:38:34 +00003227 //
3228 // The predicate condition for a template specialization
3229 // is_constructible<T, Args...> shall be satisfied if and only if the
3230 // following variable definition would be well-formed for some invented
3231 // variable t:
3232 //
3233 // T t(create<Args>()...);
3234 if (Args.empty()) {
3235 S.Diag(KWLoc, diag::err_type_trait_arity)
3236 << 1 << 1 << 1 << (int)Args.size();
3237 return false;
3238 }
3239
3240 bool SawVoid = false;
3241 for (unsigned I = 0, N = Args.size(); I != N; ++I) {
3242 if (Args[I]->getType()->isVoidType()) {
3243 SawVoid = true;
3244 continue;
3245 }
3246
3247 if (!Args[I]->getType()->isIncompleteType() &&
3248 S.RequireCompleteType(KWLoc, Args[I]->getType(),
3249 diag::err_incomplete_type_used_in_type_trait_expr))
3250 return false;
3251 }
3252
3253 // If any argument was 'void', of course it won't type-check.
3254 if (SawVoid)
3255 return false;
3256
3257 llvm::SmallVector<OpaqueValueExpr, 2> OpaqueArgExprs;
3258 llvm::SmallVector<Expr *, 2> ArgExprs;
3259 ArgExprs.reserve(Args.size() - 1);
3260 for (unsigned I = 1, N = Args.size(); I != N; ++I) {
3261 QualType T = Args[I]->getType();
3262 if (T->isObjectType() || T->isFunctionType())
3263 T = S.Context.getRValueReferenceType(T);
3264 OpaqueArgExprs.push_back(
3265 OpaqueValueExpr(Args[I]->getTypeLoc().getSourceRange().getBegin(),
3266 T.getNonLValueExprType(S.Context),
3267 Expr::getValueKindForType(T)));
3268 ArgExprs.push_back(&OpaqueArgExprs.back());
3269 }
3270
3271 // Perform the initialization in an unevaluated context within a SFINAE
3272 // trap at translation unit scope.
3273 EnterExpressionEvaluationContext Unevaluated(S, Sema::Unevaluated);
3274 Sema::SFINAETrap SFINAE(S, /*AccessCheckingSFINAE=*/true);
3275 Sema::ContextRAII TUContext(S, S.Context.getTranslationUnitDecl());
3276 InitializedEntity To(InitializedEntity::InitializeTemporary(Args[0]));
3277 InitializationKind InitKind(InitializationKind::CreateDirect(KWLoc, KWLoc,
3278 RParenLoc));
3279 InitializationSequence Init(S, To, InitKind,
3280 ArgExprs.begin(), ArgExprs.size());
3281 if (Init.Failed())
3282 return false;
3283
3284 ExprResult Result = Init.Perform(S, To, InitKind,
3285 MultiExprArg(ArgExprs.data(),
3286 ArgExprs.size()));
3287 if (Result.isInvalid() || SFINAE.hasErrorOccurred())
3288 return false;
3289
3290 // The initialization succeeded; not make sure there are no non-trivial
3291 // calls.
3292 return !Result.get()->hasNonTrivialCall(S.Context);
3293 }
3294 }
3295
3296 return false;
3297}
3298
3299ExprResult Sema::BuildTypeTrait(TypeTrait Kind, SourceLocation KWLoc,
3300 ArrayRef<TypeSourceInfo *> Args,
3301 SourceLocation RParenLoc) {
3302 bool Dependent = false;
3303 for (unsigned I = 0, N = Args.size(); I != N; ++I) {
3304 if (Args[I]->getType()->isDependentType()) {
3305 Dependent = true;
3306 break;
3307 }
3308 }
3309
3310 bool Value = false;
3311 if (!Dependent)
3312 Value = evaluateTypeTrait(*this, Kind, KWLoc, Args, RParenLoc);
3313
3314 return TypeTraitExpr::Create(Context, Context.BoolTy, KWLoc, Kind,
3315 Args, RParenLoc, Value);
3316}
3317
3318ExprResult Sema::ActOnTypeTrait(TypeTrait Kind, SourceLocation KWLoc,
3319 ArrayRef<ParsedType> Args,
3320 SourceLocation RParenLoc) {
3321 llvm::SmallVector<TypeSourceInfo *, 4> ConvertedArgs;
3322 ConvertedArgs.reserve(Args.size());
3323
3324 for (unsigned I = 0, N = Args.size(); I != N; ++I) {
3325 TypeSourceInfo *TInfo;
3326 QualType T = GetTypeFromParser(Args[I], &TInfo);
3327 if (!TInfo)
3328 TInfo = Context.getTrivialTypeSourceInfo(T, KWLoc);
3329
3330 ConvertedArgs.push_back(TInfo);
3331 }
3332
3333 return BuildTypeTrait(Kind, KWLoc, ConvertedArgs, RParenLoc);
3334}
3335
Francois Pichet6ad6f282010-12-07 00:08:36 +00003336static bool EvaluateBinaryTypeTrait(Sema &Self, BinaryTypeTrait BTT,
3337 QualType LhsT, QualType RhsT,
3338 SourceLocation KeyLoc) {
Chandler Carruthd064c702011-05-01 08:41:10 +00003339 assert(!LhsT->isDependentType() && !RhsT->isDependentType() &&
3340 "Cannot evaluate traits of dependent types");
Francois Pichet6ad6f282010-12-07 00:08:36 +00003341
3342 switch(BTT) {
John McCalld89d30f2011-01-28 22:02:36 +00003343 case BTT_IsBaseOf: {
Francois Pichet6ad6f282010-12-07 00:08:36 +00003344 // C++0x [meta.rel]p2
John McCalld89d30f2011-01-28 22:02:36 +00003345 // Base is a base class of Derived without regard to cv-qualifiers or
Francois Pichet6ad6f282010-12-07 00:08:36 +00003346 // Base and Derived are not unions and name the same class type without
3347 // regard to cv-qualifiers.
Francois Pichet6ad6f282010-12-07 00:08:36 +00003348
John McCalld89d30f2011-01-28 22:02:36 +00003349 const RecordType *lhsRecord = LhsT->getAs<RecordType>();
3350 if (!lhsRecord) return false;
3351
3352 const RecordType *rhsRecord = RhsT->getAs<RecordType>();
3353 if (!rhsRecord) return false;
3354
3355 assert(Self.Context.hasSameUnqualifiedType(LhsT, RhsT)
3356 == (lhsRecord == rhsRecord));
3357
3358 if (lhsRecord == rhsRecord)
3359 return !lhsRecord->getDecl()->isUnion();
3360
3361 // C++0x [meta.rel]p2:
3362 // If Base and Derived are class types and are different types
3363 // (ignoring possible cv-qualifiers) then Derived shall be a
3364 // complete type.
3365 if (Self.RequireCompleteType(KeyLoc, RhsT,
3366 diag::err_incomplete_type_used_in_type_trait_expr))
3367 return false;
3368
3369 return cast<CXXRecordDecl>(rhsRecord->getDecl())
3370 ->isDerivedFrom(cast<CXXRecordDecl>(lhsRecord->getDecl()));
3371 }
John Wiegley20c0da72011-04-27 23:09:49 +00003372 case BTT_IsSame:
3373 return Self.Context.hasSameType(LhsT, RhsT);
Francois Pichetf1872372010-12-08 22:35:30 +00003374 case BTT_TypeCompatible:
3375 return Self.Context.typesAreCompatible(LhsT.getUnqualifiedType(),
3376 RhsT.getUnqualifiedType());
John Wiegley20c0da72011-04-27 23:09:49 +00003377 case BTT_IsConvertible:
Douglas Gregor9f361132011-01-27 20:28:01 +00003378 case BTT_IsConvertibleTo: {
3379 // C++0x [meta.rel]p4:
3380 // Given the following function prototype:
3381 //
3382 // template <class T>
3383 // typename add_rvalue_reference<T>::type create();
3384 //
3385 // the predicate condition for a template specialization
3386 // is_convertible<From, To> shall be satisfied if and only if
3387 // the return expression in the following code would be
3388 // well-formed, including any implicit conversions to the return
3389 // type of the function:
3390 //
3391 // To test() {
3392 // return create<From>();
3393 // }
3394 //
3395 // Access checking is performed as if in a context unrelated to To and
3396 // From. Only the validity of the immediate context of the expression
3397 // of the return-statement (including conversions to the return type)
3398 // is considered.
3399 //
3400 // We model the initialization as a copy-initialization of a temporary
3401 // of the appropriate type, which for this expression is identical to the
3402 // return statement (since NRVO doesn't apply).
3403 if (LhsT->isObjectType() || LhsT->isFunctionType())
3404 LhsT = Self.Context.getRValueReferenceType(LhsT);
3405
3406 InitializedEntity To(InitializedEntity::InitializeTemporary(RhsT));
Douglas Gregorb608b982011-01-28 02:26:04 +00003407 OpaqueValueExpr From(KeyLoc, LhsT.getNonLValueExprType(Self.Context),
Douglas Gregor9f361132011-01-27 20:28:01 +00003408 Expr::getValueKindForType(LhsT));
3409 Expr *FromPtr = &From;
3410 InitializationKind Kind(InitializationKind::CreateCopy(KeyLoc,
3411 SourceLocation()));
3412
Eli Friedman3add9f02012-01-25 01:05:57 +00003413 // Perform the initialization in an unevaluated context within a SFINAE
3414 // trap at translation unit scope.
3415 EnterExpressionEvaluationContext Unevaluated(Self, Sema::Unevaluated);
Douglas Gregor1eee5dc2011-01-27 22:31:44 +00003416 Sema::SFINAETrap SFINAE(Self, /*AccessCheckingSFINAE=*/true);
3417 Sema::ContextRAII TUContext(Self, Self.Context.getTranslationUnitDecl());
Douglas Gregor9f361132011-01-27 20:28:01 +00003418 InitializationSequence Init(Self, To, Kind, &FromPtr, 1);
Sebastian Redl383616c2011-06-05 12:23:28 +00003419 if (Init.Failed())
Douglas Gregor9f361132011-01-27 20:28:01 +00003420 return false;
Douglas Gregor1eee5dc2011-01-27 22:31:44 +00003421
Douglas Gregor9f361132011-01-27 20:28:01 +00003422 ExprResult Result = Init.Perform(Self, To, Kind, MultiExprArg(&FromPtr, 1));
3423 return !Result.isInvalid() && !SFINAE.hasErrorOccurred();
3424 }
Douglas Gregor25d0a0f2012-02-23 07:33:15 +00003425
3426 case BTT_IsTriviallyAssignable: {
3427 // C++11 [meta.unary.prop]p3:
3428 // is_trivially_assignable is defined as:
3429 // is_assignable<T, U>::value is true and the assignment, as defined by
3430 // is_assignable, is known to call no operation that is not trivial
3431 //
3432 // is_assignable is defined as:
3433 // The expression declval<T>() = declval<U>() is well-formed when
3434 // treated as an unevaluated operand (Clause 5).
3435 //
3436 // For both, T and U shall be complete types, (possibly cv-qualified)
3437 // void, or arrays of unknown bound.
3438 if (!LhsT->isVoidType() && !LhsT->isIncompleteArrayType() &&
3439 Self.RequireCompleteType(KeyLoc, LhsT,
3440 diag::err_incomplete_type_used_in_type_trait_expr))
3441 return false;
3442 if (!RhsT->isVoidType() && !RhsT->isIncompleteArrayType() &&
3443 Self.RequireCompleteType(KeyLoc, RhsT,
3444 diag::err_incomplete_type_used_in_type_trait_expr))
3445 return false;
3446
3447 // cv void is never assignable.
3448 if (LhsT->isVoidType() || RhsT->isVoidType())
3449 return false;
3450
3451 // Build expressions that emulate the effect of declval<T>() and
3452 // declval<U>().
3453 if (LhsT->isObjectType() || LhsT->isFunctionType())
3454 LhsT = Self.Context.getRValueReferenceType(LhsT);
3455 if (RhsT->isObjectType() || RhsT->isFunctionType())
3456 RhsT = Self.Context.getRValueReferenceType(RhsT);
3457 OpaqueValueExpr Lhs(KeyLoc, LhsT.getNonLValueExprType(Self.Context),
3458 Expr::getValueKindForType(LhsT));
3459 OpaqueValueExpr Rhs(KeyLoc, RhsT.getNonLValueExprType(Self.Context),
3460 Expr::getValueKindForType(RhsT));
3461
3462 // Attempt the assignment in an unevaluated context within a SFINAE
3463 // trap at translation unit scope.
3464 EnterExpressionEvaluationContext Unevaluated(Self, Sema::Unevaluated);
3465 Sema::SFINAETrap SFINAE(Self, /*AccessCheckingSFINAE=*/true);
3466 Sema::ContextRAII TUContext(Self, Self.Context.getTranslationUnitDecl());
3467 ExprResult Result = Self.BuildBinOp(/*S=*/0, KeyLoc, BO_Assign, &Lhs, &Rhs);
3468 if (Result.isInvalid() || SFINAE.hasErrorOccurred())
3469 return false;
3470
3471 return !Result.get()->hasNonTrivialCall(Self.Context);
3472 }
Francois Pichet6ad6f282010-12-07 00:08:36 +00003473 }
3474 llvm_unreachable("Unknown type trait or not implemented");
3475}
3476
3477ExprResult Sema::BuildBinaryTypeTrait(BinaryTypeTrait BTT,
3478 SourceLocation KWLoc,
3479 TypeSourceInfo *LhsTSInfo,
3480 TypeSourceInfo *RhsTSInfo,
3481 SourceLocation RParen) {
3482 QualType LhsT = LhsTSInfo->getType();
3483 QualType RhsT = RhsTSInfo->getType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003484
John McCalld89d30f2011-01-28 22:02:36 +00003485 if (BTT == BTT_TypeCompatible) {
Francois Pichetf1872372010-12-08 22:35:30 +00003486 if (getLangOptions().CPlusPlus) {
3487 Diag(KWLoc, diag::err_types_compatible_p_in_cplusplus)
3488 << SourceRange(KWLoc, RParen);
3489 return ExprError();
3490 }
Francois Pichet6ad6f282010-12-07 00:08:36 +00003491 }
3492
3493 bool Value = false;
3494 if (!LhsT->isDependentType() && !RhsT->isDependentType())
3495 Value = EvaluateBinaryTypeTrait(*this, BTT, LhsT, RhsT, KWLoc);
3496
Francois Pichetf1872372010-12-08 22:35:30 +00003497 // Select trait result type.
3498 QualType ResultType;
3499 switch (BTT) {
Francois Pichetf1872372010-12-08 22:35:30 +00003500 case BTT_IsBaseOf: ResultType = Context.BoolTy; break;
John Wiegley20c0da72011-04-27 23:09:49 +00003501 case BTT_IsConvertible: ResultType = Context.BoolTy; break;
3502 case BTT_IsSame: ResultType = Context.BoolTy; break;
Francois Pichetf1872372010-12-08 22:35:30 +00003503 case BTT_TypeCompatible: ResultType = Context.IntTy; break;
Douglas Gregor9f361132011-01-27 20:28:01 +00003504 case BTT_IsConvertibleTo: ResultType = Context.BoolTy; break;
Douglas Gregor25d0a0f2012-02-23 07:33:15 +00003505 case BTT_IsTriviallyAssignable: ResultType = Context.BoolTy;
Francois Pichetf1872372010-12-08 22:35:30 +00003506 }
3507
Francois Pichet6ad6f282010-12-07 00:08:36 +00003508 return Owned(new (Context) BinaryTypeTraitExpr(KWLoc, BTT, LhsTSInfo,
3509 RhsTSInfo, Value, RParen,
Francois Pichetf1872372010-12-08 22:35:30 +00003510 ResultType));
Francois Pichet6ad6f282010-12-07 00:08:36 +00003511}
3512
John Wiegley21ff2e52011-04-28 00:16:57 +00003513ExprResult Sema::ActOnArrayTypeTrait(ArrayTypeTrait ATT,
3514 SourceLocation KWLoc,
3515 ParsedType Ty,
3516 Expr* DimExpr,
3517 SourceLocation RParen) {
3518 TypeSourceInfo *TSInfo;
3519 QualType T = GetTypeFromParser(Ty, &TSInfo);
3520 if (!TSInfo)
3521 TSInfo = Context.getTrivialTypeSourceInfo(T);
3522
3523 return BuildArrayTypeTrait(ATT, KWLoc, TSInfo, DimExpr, RParen);
3524}
3525
3526static uint64_t EvaluateArrayTypeTrait(Sema &Self, ArrayTypeTrait ATT,
3527 QualType T, Expr *DimExpr,
3528 SourceLocation KeyLoc) {
Chandler Carruthd064c702011-05-01 08:41:10 +00003529 assert(!T->isDependentType() && "Cannot evaluate traits of dependent type");
John Wiegley21ff2e52011-04-28 00:16:57 +00003530
3531 switch(ATT) {
3532 case ATT_ArrayRank:
3533 if (T->isArrayType()) {
3534 unsigned Dim = 0;
3535 while (const ArrayType *AT = Self.Context.getAsArrayType(T)) {
3536 ++Dim;
3537 T = AT->getElementType();
3538 }
3539 return Dim;
John Wiegley21ff2e52011-04-28 00:16:57 +00003540 }
John Wiegleycf566412011-04-28 02:06:46 +00003541 return 0;
3542
John Wiegley21ff2e52011-04-28 00:16:57 +00003543 case ATT_ArrayExtent: {
3544 llvm::APSInt Value;
3545 uint64_t Dim;
Richard Smith282e7e62012-02-04 09:53:13 +00003546 if (Self.VerifyIntegerConstantExpression(DimExpr, &Value,
3547 Self.PDiag(diag::err_dimension_expr_not_constant_integer),
3548 false).isInvalid())
3549 return 0;
3550 if (Value.isSigned() && Value.isNegative()) {
3551 Self.Diag(KeyLoc, diag::err_dimension_expr_not_constant_integer),
John Wiegleycf566412011-04-28 02:06:46 +00003552 DimExpr->getSourceRange();
Richard Smith282e7e62012-02-04 09:53:13 +00003553 return 0;
John Wiegleycf566412011-04-28 02:06:46 +00003554 }
Richard Smith282e7e62012-02-04 09:53:13 +00003555 Dim = Value.getLimitedValue();
John Wiegley21ff2e52011-04-28 00:16:57 +00003556
3557 if (T->isArrayType()) {
3558 unsigned D = 0;
3559 bool Matched = false;
3560 while (const ArrayType *AT = Self.Context.getAsArrayType(T)) {
3561 if (Dim == D) {
3562 Matched = true;
3563 break;
3564 }
3565 ++D;
3566 T = AT->getElementType();
3567 }
3568
John Wiegleycf566412011-04-28 02:06:46 +00003569 if (Matched && T->isArrayType()) {
3570 if (const ConstantArrayType *CAT = Self.Context.getAsConstantArrayType(T))
3571 return CAT->getSize().getLimitedValue();
3572 }
John Wiegley21ff2e52011-04-28 00:16:57 +00003573 }
John Wiegleycf566412011-04-28 02:06:46 +00003574 return 0;
John Wiegley21ff2e52011-04-28 00:16:57 +00003575 }
3576 }
3577 llvm_unreachable("Unknown type trait or not implemented");
3578}
3579
3580ExprResult Sema::BuildArrayTypeTrait(ArrayTypeTrait ATT,
3581 SourceLocation KWLoc,
3582 TypeSourceInfo *TSInfo,
3583 Expr* DimExpr,
3584 SourceLocation RParen) {
3585 QualType T = TSInfo->getType();
John Wiegley21ff2e52011-04-28 00:16:57 +00003586
Chandler Carruthaf5a3c62011-05-01 08:48:21 +00003587 // FIXME: This should likely be tracked as an APInt to remove any host
3588 // assumptions about the width of size_t on the target.
Chandler Carruthd064c702011-05-01 08:41:10 +00003589 uint64_t Value = 0;
3590 if (!T->isDependentType())
3591 Value = EvaluateArrayTypeTrait(*this, ATT, T, DimExpr, KWLoc);
3592
Chandler Carruthaf5a3c62011-05-01 08:48:21 +00003593 // While the specification for these traits from the Embarcadero C++
3594 // compiler's documentation says the return type is 'unsigned int', Clang
3595 // returns 'size_t'. On Windows, the primary platform for the Embarcadero
3596 // compiler, there is no difference. On several other platforms this is an
3597 // important distinction.
John Wiegley21ff2e52011-04-28 00:16:57 +00003598 return Owned(new (Context) ArrayTypeTraitExpr(KWLoc, ATT, TSInfo, Value,
Chandler Carruth06207f62011-05-01 07:49:26 +00003599 DimExpr, RParen,
Chandler Carruthaf5a3c62011-05-01 08:48:21 +00003600 Context.getSizeType()));
John Wiegley21ff2e52011-04-28 00:16:57 +00003601}
3602
John Wiegley55262202011-04-25 06:54:41 +00003603ExprResult Sema::ActOnExpressionTrait(ExpressionTrait ET,
Chandler Carruth4aa0af32011-05-01 07:44:20 +00003604 SourceLocation KWLoc,
3605 Expr *Queried,
3606 SourceLocation RParen) {
John Wiegley55262202011-04-25 06:54:41 +00003607 // If error parsing the expression, ignore.
3608 if (!Queried)
Chandler Carruth4aa0af32011-05-01 07:44:20 +00003609 return ExprError();
John Wiegley55262202011-04-25 06:54:41 +00003610
Chandler Carruth4aa0af32011-05-01 07:44:20 +00003611 ExprResult Result = BuildExpressionTrait(ET, KWLoc, Queried, RParen);
John Wiegley55262202011-04-25 06:54:41 +00003612
3613 return move(Result);
3614}
3615
Chandler Carruth4aa0af32011-05-01 07:44:20 +00003616static bool EvaluateExpressionTrait(ExpressionTrait ET, Expr *E) {
3617 switch (ET) {
3618 case ET_IsLValueExpr: return E->isLValue();
3619 case ET_IsRValueExpr: return E->isRValue();
3620 }
3621 llvm_unreachable("Expression trait not covered by switch");
3622}
3623
John Wiegley55262202011-04-25 06:54:41 +00003624ExprResult Sema::BuildExpressionTrait(ExpressionTrait ET,
Chandler Carruth4aa0af32011-05-01 07:44:20 +00003625 SourceLocation KWLoc,
3626 Expr *Queried,
3627 SourceLocation RParen) {
John Wiegley55262202011-04-25 06:54:41 +00003628 if (Queried->isTypeDependent()) {
3629 // Delay type-checking for type-dependent expressions.
3630 } else if (Queried->getType()->isPlaceholderType()) {
3631 ExprResult PE = CheckPlaceholderExpr(Queried);
3632 if (PE.isInvalid()) return ExprError();
3633 return BuildExpressionTrait(ET, KWLoc, PE.take(), RParen);
3634 }
3635
Chandler Carruth4aa0af32011-05-01 07:44:20 +00003636 bool Value = EvaluateExpressionTrait(ET, Queried);
Chandler Carruthf7ef0002011-05-01 08:48:19 +00003637
Chandler Carruth4aa0af32011-05-01 07:44:20 +00003638 return Owned(new (Context) ExpressionTraitExpr(KWLoc, ET, Queried, Value,
3639 RParen, Context.BoolTy));
John Wiegley55262202011-04-25 06:54:41 +00003640}
3641
Richard Trieudd225092011-09-15 21:56:47 +00003642QualType Sema::CheckPointerToMemberOperands(ExprResult &LHS, ExprResult &RHS,
John McCallf89e55a2010-11-18 06:31:45 +00003643 ExprValueKind &VK,
3644 SourceLocation Loc,
3645 bool isIndirect) {
Richard Trieudd225092011-09-15 21:56:47 +00003646 assert(!LHS.get()->getType()->isPlaceholderType() &&
3647 !RHS.get()->getType()->isPlaceholderType() &&
John McCallea4aba02011-06-30 17:15:34 +00003648 "placeholders should have been weeded out by now");
3649
3650 // The LHS undergoes lvalue conversions if this is ->*.
3651 if (isIndirect) {
Richard Trieudd225092011-09-15 21:56:47 +00003652 LHS = DefaultLvalueConversion(LHS.take());
3653 if (LHS.isInvalid()) return QualType();
John McCallea4aba02011-06-30 17:15:34 +00003654 }
3655
3656 // The RHS always undergoes lvalue conversions.
Richard Trieudd225092011-09-15 21:56:47 +00003657 RHS = DefaultLvalueConversion(RHS.take());
3658 if (RHS.isInvalid()) return QualType();
John McCallea4aba02011-06-30 17:15:34 +00003659
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003660 const char *OpSpelling = isIndirect ? "->*" : ".*";
3661 // C++ 5.5p2
3662 // The binary operator .* [p3: ->*] binds its second operand, which shall
3663 // be of type "pointer to member of T" (where T is a completely-defined
3664 // class type) [...]
Richard Trieudd225092011-09-15 21:56:47 +00003665 QualType RHSType = RHS.get()->getType();
3666 const MemberPointerType *MemPtr = RHSType->getAs<MemberPointerType>();
Douglas Gregore7450f52009-03-24 19:52:54 +00003667 if (!MemPtr) {
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003668 Diag(Loc, diag::err_bad_memptr_rhs)
Richard Trieudd225092011-09-15 21:56:47 +00003669 << OpSpelling << RHSType << RHS.get()->getSourceRange();
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003670 return QualType();
Mike Stump1eb44332009-09-09 15:08:12 +00003671 }
Douglas Gregore7450f52009-03-24 19:52:54 +00003672
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003673 QualType Class(MemPtr->getClass(), 0);
3674
Douglas Gregor7d520ba2010-10-13 20:41:14 +00003675 // Note: C++ [expr.mptr.oper]p2-3 says that the class type into which the
3676 // member pointer points must be completely-defined. However, there is no
3677 // reason for this semantic distinction, and the rule is not enforced by
3678 // other compilers. Therefore, we do not check this property, as it is
3679 // likely to be considered a defect.
Sebastian Redl59fc2692010-04-10 10:14:54 +00003680
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003681 // C++ 5.5p2
3682 // [...] to its first operand, which shall be of class T or of a class of
3683 // which T is an unambiguous and accessible base class. [p3: a pointer to
3684 // such a class]
Richard Trieudd225092011-09-15 21:56:47 +00003685 QualType LHSType = LHS.get()->getType();
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003686 if (isIndirect) {
Richard Trieudd225092011-09-15 21:56:47 +00003687 if (const PointerType *Ptr = LHSType->getAs<PointerType>())
3688 LHSType = Ptr->getPointeeType();
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003689 else {
3690 Diag(Loc, diag::err_bad_memptr_lhs)
Richard Trieudd225092011-09-15 21:56:47 +00003691 << OpSpelling << 1 << LHSType
Douglas Gregor849b2432010-03-31 17:46:05 +00003692 << FixItHint::CreateReplacement(SourceRange(Loc), ".*");
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003693 return QualType();
3694 }
3695 }
3696
Richard Trieudd225092011-09-15 21:56:47 +00003697 if (!Context.hasSameUnqualifiedType(Class, LHSType)) {
Sebastian Redl17e1d352010-04-23 17:18:26 +00003698 // If we want to check the hierarchy, we need a complete type.
Richard Trieudd225092011-09-15 21:56:47 +00003699 if (RequireCompleteType(Loc, LHSType, PDiag(diag::err_bad_memptr_lhs)
Sebastian Redl17e1d352010-04-23 17:18:26 +00003700 << OpSpelling << (int)isIndirect)) {
3701 return QualType();
3702 }
Anders Carlsson5cf86ba2010-04-24 19:06:50 +00003703 CXXBasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/true,
Douglas Gregora8f32e02009-10-06 17:59:45 +00003704 /*DetectVirtual=*/false);
Mike Stump390b4cc2009-05-16 07:39:55 +00003705 // FIXME: Would it be useful to print full ambiguity paths, or is that
3706 // overkill?
Richard Trieudd225092011-09-15 21:56:47 +00003707 if (!IsDerivedFrom(LHSType, Class, Paths) ||
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003708 Paths.isAmbiguous(Context.getCanonicalType(Class))) {
3709 Diag(Loc, diag::err_bad_memptr_lhs) << OpSpelling
Richard Trieudd225092011-09-15 21:56:47 +00003710 << (int)isIndirect << LHS.get()->getType();
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003711 return QualType();
3712 }
Eli Friedman3005efe2010-01-16 00:00:48 +00003713 // Cast LHS to type of use.
3714 QualType UseType = isIndirect ? Context.getPointerType(Class) : Class;
Eli Friedmanc1c0dfb2011-09-27 21:58:52 +00003715 ExprValueKind VK = isIndirect ? VK_RValue : LHS.get()->getValueKind();
Sebastian Redl906082e2010-07-20 04:20:21 +00003716
John McCallf871d0c2010-08-07 06:22:56 +00003717 CXXCastPath BasePath;
Anders Carlsson5cf86ba2010-04-24 19:06:50 +00003718 BuildBasePathArray(Paths, BasePath);
Richard Trieudd225092011-09-15 21:56:47 +00003719 LHS = ImpCastExprToType(LHS.take(), UseType, CK_DerivedToBase, VK,
3720 &BasePath);
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003721 }
3722
Richard Trieudd225092011-09-15 21:56:47 +00003723 if (isa<CXXScalarValueInitExpr>(RHS.get()->IgnoreParens())) {
Fariborz Jahanian05ebda92009-11-18 21:54:48 +00003724 // Diagnose use of pointer-to-member type which when used as
3725 // the functional cast in a pointer-to-member expression.
3726 Diag(Loc, diag::err_pointer_to_member_type) << isIndirect;
3727 return QualType();
3728 }
John McCallf89e55a2010-11-18 06:31:45 +00003729
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003730 // C++ 5.5p2
3731 // The result is an object or a function of the type specified by the
3732 // second operand.
3733 // The cv qualifiers are the union of those in the pointer and the left side,
3734 // in accordance with 5.5p5 and 5.2.5.
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003735 QualType Result = MemPtr->getPointeeType();
Richard Trieudd225092011-09-15 21:56:47 +00003736 Result = Context.getCVRQualifiedType(Result, LHSType.getCVRQualifiers());
John McCallf89e55a2010-11-18 06:31:45 +00003737
Douglas Gregor6b4df912011-01-26 16:40:18 +00003738 // C++0x [expr.mptr.oper]p6:
3739 // In a .* expression whose object expression is an rvalue, the program is
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003740 // ill-formed if the second operand is a pointer to member function with
3741 // ref-qualifier &. In a ->* expression or in a .* expression whose object
3742 // expression is an lvalue, the program is ill-formed if the second operand
Douglas Gregor6b4df912011-01-26 16:40:18 +00003743 // is a pointer to member function with ref-qualifier &&.
3744 if (const FunctionProtoType *Proto = Result->getAs<FunctionProtoType>()) {
3745 switch (Proto->getRefQualifier()) {
3746 case RQ_None:
3747 // Do nothing
3748 break;
3749
3750 case RQ_LValue:
Richard Trieudd225092011-09-15 21:56:47 +00003751 if (!isIndirect && !LHS.get()->Classify(Context).isLValue())
Douglas Gregor6b4df912011-01-26 16:40:18 +00003752 Diag(Loc, diag::err_pointer_to_member_oper_value_classify)
Richard Trieudd225092011-09-15 21:56:47 +00003753 << RHSType << 1 << LHS.get()->getSourceRange();
Douglas Gregor6b4df912011-01-26 16:40:18 +00003754 break;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003755
Douglas Gregor6b4df912011-01-26 16:40:18 +00003756 case RQ_RValue:
Richard Trieudd225092011-09-15 21:56:47 +00003757 if (isIndirect || !LHS.get()->Classify(Context).isRValue())
Douglas Gregor6b4df912011-01-26 16:40:18 +00003758 Diag(Loc, diag::err_pointer_to_member_oper_value_classify)
Richard Trieudd225092011-09-15 21:56:47 +00003759 << RHSType << 0 << LHS.get()->getSourceRange();
Douglas Gregor6b4df912011-01-26 16:40:18 +00003760 break;
3761 }
3762 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003763
John McCallf89e55a2010-11-18 06:31:45 +00003764 // C++ [expr.mptr.oper]p6:
3765 // The result of a .* expression whose second operand is a pointer
3766 // to a data member is of the same value category as its
3767 // first operand. The result of a .* expression whose second
3768 // operand is a pointer to a member function is a prvalue. The
3769 // result of an ->* expression is an lvalue if its second operand
3770 // is a pointer to data member and a prvalue otherwise.
John McCall864c0412011-04-26 20:42:42 +00003771 if (Result->isFunctionType()) {
John McCallf89e55a2010-11-18 06:31:45 +00003772 VK = VK_RValue;
John McCall864c0412011-04-26 20:42:42 +00003773 return Context.BoundMemberTy;
3774 } else if (isIndirect) {
John McCallf89e55a2010-11-18 06:31:45 +00003775 VK = VK_LValue;
John McCall864c0412011-04-26 20:42:42 +00003776 } else {
Richard Trieudd225092011-09-15 21:56:47 +00003777 VK = LHS.get()->getValueKind();
John McCall864c0412011-04-26 20:42:42 +00003778 }
John McCallf89e55a2010-11-18 06:31:45 +00003779
Sebastian Redl7c8bd602009-02-07 20:10:22 +00003780 return Result;
3781}
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003782
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003783/// \brief Try to convert a type to another according to C++0x 5.16p3.
3784///
3785/// This is part of the parameter validation for the ? operator. If either
3786/// value operand is a class type, the two operands are attempted to be
3787/// converted to each other. This function does the conversion in one direction.
Douglas Gregorb70cf442010-03-26 20:14:36 +00003788/// It returns true if the program is ill-formed and has already been diagnosed
3789/// as such.
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003790static bool TryClassUnification(Sema &Self, Expr *From, Expr *To,
3791 SourceLocation QuestionLoc,
Douglas Gregorb70cf442010-03-26 20:14:36 +00003792 bool &HaveConversion,
3793 QualType &ToType) {
3794 HaveConversion = false;
3795 ToType = To->getType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003796
3797 InitializationKind Kind = InitializationKind::CreateCopy(To->getLocStart(),
Douglas Gregorb70cf442010-03-26 20:14:36 +00003798 SourceLocation());
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003799 // C++0x 5.16p3
3800 // The process for determining whether an operand expression E1 of type T1
3801 // can be converted to match an operand expression E2 of type T2 is defined
3802 // as follows:
3803 // -- If E2 is an lvalue:
John McCall7eb0a9e2010-11-24 05:12:34 +00003804 bool ToIsLvalue = To->isLValue();
Douglas Gregor0fd8ff72010-03-26 20:59:55 +00003805 if (ToIsLvalue) {
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003806 // E1 can be converted to match E2 if E1 can be implicitly converted to
3807 // type "lvalue reference to T2", subject to the constraint that in the
3808 // conversion the reference must bind directly to E1.
Douglas Gregorb70cf442010-03-26 20:14:36 +00003809 QualType T = Self.Context.getLValueReferenceType(ToType);
3810 InitializedEntity Entity = InitializedEntity::InitializeTemporary(T);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003811
Douglas Gregorb70cf442010-03-26 20:14:36 +00003812 InitializationSequence InitSeq(Self, Entity, Kind, &From, 1);
3813 if (InitSeq.isDirectReferenceBinding()) {
3814 ToType = T;
3815 HaveConversion = true;
3816 return false;
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003817 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003818
Douglas Gregorb70cf442010-03-26 20:14:36 +00003819 if (InitSeq.isAmbiguous())
3820 return InitSeq.Diagnose(Self, Entity, Kind, &From, 1);
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003821 }
John McCallb1bdc622010-02-25 01:37:24 +00003822
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003823 // -- If E2 is an rvalue, or if the conversion above cannot be done:
3824 // -- if E1 and E2 have class type, and the underlying class types are
3825 // the same or one is a base class of the other:
3826 QualType FTy = From->getType();
3827 QualType TTy = To->getType();
Ted Kremenek6217b802009-07-29 21:53:49 +00003828 const RecordType *FRec = FTy->getAs<RecordType>();
3829 const RecordType *TRec = TTy->getAs<RecordType>();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003830 bool FDerivedFromT = FRec && TRec && FRec != TRec &&
Douglas Gregorb70cf442010-03-26 20:14:36 +00003831 Self.IsDerivedFrom(FTy, TTy);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003832 if (FRec && TRec &&
Douglas Gregorb70cf442010-03-26 20:14:36 +00003833 (FRec == TRec || FDerivedFromT || Self.IsDerivedFrom(TTy, FTy))) {
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003834 // E1 can be converted to match E2 if the class of T2 is the
3835 // same type as, or a base class of, the class of T1, and
3836 // [cv2 > cv1].
John McCallb1bdc622010-02-25 01:37:24 +00003837 if (FRec == TRec || FDerivedFromT) {
3838 if (TTy.isAtLeastAsQualifiedAs(FTy)) {
Douglas Gregorb70cf442010-03-26 20:14:36 +00003839 InitializedEntity Entity = InitializedEntity::InitializeTemporary(TTy);
3840 InitializationSequence InitSeq(Self, Entity, Kind, &From, 1);
Sebastian Redl383616c2011-06-05 12:23:28 +00003841 if (InitSeq) {
Douglas Gregorb70cf442010-03-26 20:14:36 +00003842 HaveConversion = true;
3843 return false;
3844 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003845
Douglas Gregorb70cf442010-03-26 20:14:36 +00003846 if (InitSeq.isAmbiguous())
3847 return InitSeq.Diagnose(Self, Entity, Kind, &From, 1);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003848 }
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003849 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003850
Douglas Gregorb70cf442010-03-26 20:14:36 +00003851 return false;
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003852 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003853
Douglas Gregorb70cf442010-03-26 20:14:36 +00003854 // -- Otherwise: E1 can be converted to match E2 if E1 can be
3855 // implicitly converted to the type that expression E2 would have
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003856 // if E2 were converted to an rvalue (or the type it has, if E2 is
Douglas Gregor0fd8ff72010-03-26 20:59:55 +00003857 // an rvalue).
3858 //
3859 // This actually refers very narrowly to the lvalue-to-rvalue conversion, not
3860 // to the array-to-pointer or function-to-pointer conversions.
3861 if (!TTy->getAs<TagType>())
3862 TTy = TTy.getUnqualifiedType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003863
Douglas Gregorb70cf442010-03-26 20:14:36 +00003864 InitializedEntity Entity = InitializedEntity::InitializeTemporary(TTy);
3865 InitializationSequence InitSeq(Self, Entity, Kind, &From, 1);
Sebastian Redl383616c2011-06-05 12:23:28 +00003866 HaveConversion = !InitSeq.Failed();
Douglas Gregorb70cf442010-03-26 20:14:36 +00003867 ToType = TTy;
3868 if (InitSeq.isAmbiguous())
3869 return InitSeq.Diagnose(Self, Entity, Kind, &From, 1);
3870
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003871 return false;
3872}
3873
3874/// \brief Try to find a common type for two according to C++0x 5.16p5.
3875///
3876/// This is part of the parameter validation for the ? operator. If either
3877/// value operand is a class type, overload resolution is used to find a
3878/// conversion to a common type.
John Wiegley429bb272011-04-08 18:41:53 +00003879static bool FindConditionalOverload(Sema &Self, ExprResult &LHS, ExprResult &RHS,
Chandler Carruth82214a82011-02-18 23:54:50 +00003880 SourceLocation QuestionLoc) {
John Wiegley429bb272011-04-08 18:41:53 +00003881 Expr *Args[2] = { LHS.get(), RHS.get() };
Chandler Carruth82214a82011-02-18 23:54:50 +00003882 OverloadCandidateSet CandidateSet(QuestionLoc);
3883 Self.AddBuiltinOperatorCandidates(OO_Conditional, QuestionLoc, Args, 2,
3884 CandidateSet);
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003885
3886 OverloadCandidateSet::iterator Best;
Chandler Carruth82214a82011-02-18 23:54:50 +00003887 switch (CandidateSet.BestViableFunction(Self, QuestionLoc, Best)) {
John Wiegley429bb272011-04-08 18:41:53 +00003888 case OR_Success: {
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003889 // We found a match. Perform the conversions on the arguments and move on.
John Wiegley429bb272011-04-08 18:41:53 +00003890 ExprResult LHSRes =
3891 Self.PerformImplicitConversion(LHS.get(), Best->BuiltinTypes.ParamTypes[0],
3892 Best->Conversions[0], Sema::AA_Converting);
3893 if (LHSRes.isInvalid())
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003894 break;
John Wiegley429bb272011-04-08 18:41:53 +00003895 LHS = move(LHSRes);
3896
3897 ExprResult RHSRes =
3898 Self.PerformImplicitConversion(RHS.get(), Best->BuiltinTypes.ParamTypes[1],
3899 Best->Conversions[1], Sema::AA_Converting);
3900 if (RHSRes.isInvalid())
3901 break;
3902 RHS = move(RHSRes);
Chandler Carruth25ca4212011-02-25 19:41:05 +00003903 if (Best->Function)
Eli Friedman5f2987c2012-02-02 03:46:19 +00003904 Self.MarkFunctionReferenced(QuestionLoc, Best->Function);
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003905 return false;
John Wiegley429bb272011-04-08 18:41:53 +00003906 }
3907
Douglas Gregor20093b42009-12-09 23:02:17 +00003908 case OR_No_Viable_Function:
Chandler Carruth82214a82011-02-18 23:54:50 +00003909
3910 // Emit a better diagnostic if one of the expressions is a null pointer
3911 // constant and the other is a pointer type. In this case, the user most
3912 // likely forgot to take the address of the other expression.
John Wiegley429bb272011-04-08 18:41:53 +00003913 if (Self.DiagnoseConditionalForNull(LHS.get(), RHS.get(), QuestionLoc))
Chandler Carruth82214a82011-02-18 23:54:50 +00003914 return true;
3915
3916 Self.Diag(QuestionLoc, diag::err_typecheck_cond_incompatible_operands)
John Wiegley429bb272011-04-08 18:41:53 +00003917 << LHS.get()->getType() << RHS.get()->getType()
3918 << LHS.get()->getSourceRange() << RHS.get()->getSourceRange();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003919 return true;
3920
Douglas Gregor20093b42009-12-09 23:02:17 +00003921 case OR_Ambiguous:
Chandler Carruth82214a82011-02-18 23:54:50 +00003922 Self.Diag(QuestionLoc, diag::err_conditional_ambiguous_ovl)
John Wiegley429bb272011-04-08 18:41:53 +00003923 << LHS.get()->getType() << RHS.get()->getType()
3924 << LHS.get()->getSourceRange() << RHS.get()->getSourceRange();
Mike Stump390b4cc2009-05-16 07:39:55 +00003925 // FIXME: Print the possible common types by printing the return types of
3926 // the viable candidates.
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003927 break;
3928
Douglas Gregor20093b42009-12-09 23:02:17 +00003929 case OR_Deleted:
David Blaikieb219cfc2011-09-23 05:06:16 +00003930 llvm_unreachable("Conditional operator has only built-in overloads");
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003931 }
3932 return true;
3933}
3934
Sebastian Redl76458502009-04-17 16:30:52 +00003935/// \brief Perform an "extended" implicit conversion as returned by
3936/// TryClassUnification.
John Wiegley429bb272011-04-08 18:41:53 +00003937static bool ConvertForConditional(Sema &Self, ExprResult &E, QualType T) {
Douglas Gregorb70cf442010-03-26 20:14:36 +00003938 InitializedEntity Entity = InitializedEntity::InitializeTemporary(T);
John Wiegley429bb272011-04-08 18:41:53 +00003939 InitializationKind Kind = InitializationKind::CreateCopy(E.get()->getLocStart(),
Douglas Gregorb70cf442010-03-26 20:14:36 +00003940 SourceLocation());
John Wiegley429bb272011-04-08 18:41:53 +00003941 Expr *Arg = E.take();
3942 InitializationSequence InitSeq(Self, Entity, Kind, &Arg, 1);
3943 ExprResult Result = InitSeq.Perform(Self, Entity, Kind, MultiExprArg(&Arg, 1));
Douglas Gregorb70cf442010-03-26 20:14:36 +00003944 if (Result.isInvalid())
Sebastian Redl76458502009-04-17 16:30:52 +00003945 return true;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00003946
John Wiegley429bb272011-04-08 18:41:53 +00003947 E = Result;
Sebastian Redl76458502009-04-17 16:30:52 +00003948 return false;
3949}
3950
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003951/// \brief Check the operands of ?: under C++ semantics.
3952///
3953/// See C++ [expr.cond]. Note that LHS is never null, even for the GNU x ?: y
3954/// extension. In this case, LHS == Cond. (But they're not aliases.)
John Wiegley429bb272011-04-08 18:41:53 +00003955QualType Sema::CXXCheckConditionalOperands(ExprResult &Cond, ExprResult &LHS, ExprResult &RHS,
John McCall56ca35d2011-02-17 10:25:35 +00003956 ExprValueKind &VK, ExprObjectKind &OK,
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003957 SourceLocation QuestionLoc) {
Mike Stump390b4cc2009-05-16 07:39:55 +00003958 // FIXME: Handle C99's complex types, vector types, block pointers and Obj-C++
3959 // interface pointers.
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003960
3961 // C++0x 5.16p1
3962 // The first expression is contextually converted to bool.
John Wiegley429bb272011-04-08 18:41:53 +00003963 if (!Cond.get()->isTypeDependent()) {
3964 ExprResult CondRes = CheckCXXBooleanCondition(Cond.take());
3965 if (CondRes.isInvalid())
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003966 return QualType();
John Wiegley429bb272011-04-08 18:41:53 +00003967 Cond = move(CondRes);
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003968 }
3969
John McCallf89e55a2010-11-18 06:31:45 +00003970 // Assume r-value.
3971 VK = VK_RValue;
John McCall09431682010-11-18 19:01:18 +00003972 OK = OK_Ordinary;
John McCallf89e55a2010-11-18 06:31:45 +00003973
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003974 // Either of the arguments dependent?
John Wiegley429bb272011-04-08 18:41:53 +00003975 if (LHS.get()->isTypeDependent() || RHS.get()->isTypeDependent())
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003976 return Context.DependentTy;
3977
3978 // C++0x 5.16p2
3979 // If either the second or the third operand has type (cv) void, ...
John Wiegley429bb272011-04-08 18:41:53 +00003980 QualType LTy = LHS.get()->getType();
3981 QualType RTy = RHS.get()->getType();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003982 bool LVoid = LTy->isVoidType();
3983 bool RVoid = RTy->isVoidType();
3984 if (LVoid || RVoid) {
3985 // ... then the [l2r] conversions are performed on the second and third
3986 // operands ...
John Wiegley429bb272011-04-08 18:41:53 +00003987 LHS = DefaultFunctionArrayLvalueConversion(LHS.take());
3988 RHS = DefaultFunctionArrayLvalueConversion(RHS.take());
3989 if (LHS.isInvalid() || RHS.isInvalid())
3990 return QualType();
3991 LTy = LHS.get()->getType();
3992 RTy = RHS.get()->getType();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003993
3994 // ... and one of the following shall hold:
3995 // -- The second or the third operand (but not both) is a throw-
3996 // expression; the result is of the type of the other and is an rvalue.
John Wiegley429bb272011-04-08 18:41:53 +00003997 bool LThrow = isa<CXXThrowExpr>(LHS.get());
3998 bool RThrow = isa<CXXThrowExpr>(RHS.get());
Sebastian Redl3201f6b2009-04-16 17:51:27 +00003999 if (LThrow && !RThrow)
4000 return RTy;
4001 if (RThrow && !LThrow)
4002 return LTy;
4003
4004 // -- Both the second and third operands have type void; the result is of
4005 // type void and is an rvalue.
4006 if (LVoid && RVoid)
4007 return Context.VoidTy;
4008
4009 // Neither holds, error.
4010 Diag(QuestionLoc, diag::err_conditional_void_nonvoid)
4011 << (LVoid ? RTy : LTy) << (LVoid ? 0 : 1)
John Wiegley429bb272011-04-08 18:41:53 +00004012 << LHS.get()->getSourceRange() << RHS.get()->getSourceRange();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004013 return QualType();
4014 }
4015
4016 // Neither is void.
4017
4018 // C++0x 5.16p3
4019 // Otherwise, if the second and third operand have different types, and
4020 // either has (cv) class type, and attempt is made to convert each of those
4021 // operands to the other.
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004022 if (!Context.hasSameType(LTy, RTy) &&
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004023 (LTy->isRecordType() || RTy->isRecordType())) {
4024 ImplicitConversionSequence ICSLeftToRight, ICSRightToLeft;
4025 // These return true if a single direction is already ambiguous.
Douglas Gregorb70cf442010-03-26 20:14:36 +00004026 QualType L2RType, R2LType;
4027 bool HaveL2R, HaveR2L;
John Wiegley429bb272011-04-08 18:41:53 +00004028 if (TryClassUnification(*this, LHS.get(), RHS.get(), QuestionLoc, HaveL2R, L2RType))
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004029 return QualType();
John Wiegley429bb272011-04-08 18:41:53 +00004030 if (TryClassUnification(*this, RHS.get(), LHS.get(), QuestionLoc, HaveR2L, R2LType))
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004031 return QualType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004032
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004033 // If both can be converted, [...] the program is ill-formed.
4034 if (HaveL2R && HaveR2L) {
4035 Diag(QuestionLoc, diag::err_conditional_ambiguous)
John Wiegley429bb272011-04-08 18:41:53 +00004036 << LTy << RTy << LHS.get()->getSourceRange() << RHS.get()->getSourceRange();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004037 return QualType();
4038 }
4039
4040 // If exactly one conversion is possible, that conversion is applied to
4041 // the chosen operand and the converted operands are used in place of the
4042 // original operands for the remainder of this section.
4043 if (HaveL2R) {
John Wiegley429bb272011-04-08 18:41:53 +00004044 if (ConvertForConditional(*this, LHS, L2RType) || LHS.isInvalid())
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004045 return QualType();
John Wiegley429bb272011-04-08 18:41:53 +00004046 LTy = LHS.get()->getType();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004047 } else if (HaveR2L) {
John Wiegley429bb272011-04-08 18:41:53 +00004048 if (ConvertForConditional(*this, RHS, R2LType) || RHS.isInvalid())
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004049 return QualType();
John Wiegley429bb272011-04-08 18:41:53 +00004050 RTy = RHS.get()->getType();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004051 }
4052 }
4053
4054 // C++0x 5.16p4
John McCallf89e55a2010-11-18 06:31:45 +00004055 // If the second and third operands are glvalues of the same value
4056 // category and have the same type, the result is of that type and
4057 // value category and it is a bit-field if the second or the third
4058 // operand is a bit-field, or if both are bit-fields.
John McCall09431682010-11-18 19:01:18 +00004059 // We only extend this to bitfields, not to the crazy other kinds of
4060 // l-values.
Douglas Gregor1927b1f2010-04-01 22:47:07 +00004061 bool Same = Context.hasSameType(LTy, RTy);
John McCallf89e55a2010-11-18 06:31:45 +00004062 if (Same &&
John Wiegley429bb272011-04-08 18:41:53 +00004063 LHS.get()->isGLValue() &&
4064 LHS.get()->getValueKind() == RHS.get()->getValueKind() &&
4065 LHS.get()->isOrdinaryOrBitFieldObject() &&
4066 RHS.get()->isOrdinaryOrBitFieldObject()) {
4067 VK = LHS.get()->getValueKind();
4068 if (LHS.get()->getObjectKind() == OK_BitField ||
4069 RHS.get()->getObjectKind() == OK_BitField)
John McCall09431682010-11-18 19:01:18 +00004070 OK = OK_BitField;
John McCallf89e55a2010-11-18 06:31:45 +00004071 return LTy;
Fariborz Jahanian3911a1a2010-09-25 01:08:05 +00004072 }
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004073
4074 // C++0x 5.16p5
4075 // Otherwise, the result is an rvalue. If the second and third operands
4076 // do not have the same type, and either has (cv) class type, ...
4077 if (!Same && (LTy->isRecordType() || RTy->isRecordType())) {
4078 // ... overload resolution is used to determine the conversions (if any)
4079 // to be applied to the operands. If the overload resolution fails, the
4080 // program is ill-formed.
4081 if (FindConditionalOverload(*this, LHS, RHS, QuestionLoc))
4082 return QualType();
4083 }
4084
4085 // C++0x 5.16p6
4086 // LValue-to-rvalue, array-to-pointer, and function-to-pointer standard
4087 // conversions are performed on the second and third operands.
John Wiegley429bb272011-04-08 18:41:53 +00004088 LHS = DefaultFunctionArrayLvalueConversion(LHS.take());
4089 RHS = DefaultFunctionArrayLvalueConversion(RHS.take());
4090 if (LHS.isInvalid() || RHS.isInvalid())
4091 return QualType();
4092 LTy = LHS.get()->getType();
4093 RTy = RHS.get()->getType();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004094
4095 // After those conversions, one of the following shall hold:
4096 // -- The second and third operands have the same type; the result
Douglas Gregorb65a4582010-05-19 23:40:50 +00004097 // is of that type. If the operands have class type, the result
4098 // is a prvalue temporary of the result type, which is
4099 // copy-initialized from either the second operand or the third
4100 // operand depending on the value of the first operand.
4101 if (Context.getCanonicalType(LTy) == Context.getCanonicalType(RTy)) {
4102 if (LTy->isRecordType()) {
4103 // The operands have class type. Make a temporary copy.
4104 InitializedEntity Entity = InitializedEntity::InitializeTemporary(LTy);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004105 ExprResult LHSCopy = PerformCopyInitialization(Entity,
4106 SourceLocation(),
John Wiegley429bb272011-04-08 18:41:53 +00004107 LHS);
Douglas Gregorb65a4582010-05-19 23:40:50 +00004108 if (LHSCopy.isInvalid())
4109 return QualType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004110
4111 ExprResult RHSCopy = PerformCopyInitialization(Entity,
4112 SourceLocation(),
John Wiegley429bb272011-04-08 18:41:53 +00004113 RHS);
Douglas Gregorb65a4582010-05-19 23:40:50 +00004114 if (RHSCopy.isInvalid())
4115 return QualType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004116
John Wiegley429bb272011-04-08 18:41:53 +00004117 LHS = LHSCopy;
4118 RHS = RHSCopy;
Douglas Gregorb65a4582010-05-19 23:40:50 +00004119 }
4120
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004121 return LTy;
Douglas Gregorb65a4582010-05-19 23:40:50 +00004122 }
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004123
Douglas Gregorfb4a5432010-05-18 22:42:18 +00004124 // Extension: conditional operator involving vector types.
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004125 if (LTy->isVectorType() || RTy->isVectorType())
Eli Friedmanb9b4b782011-06-23 18:10:35 +00004126 return CheckVectorOperands(LHS, RHS, QuestionLoc, /*isCompAssign*/false);
Douglas Gregorfb4a5432010-05-18 22:42:18 +00004127
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004128 // -- The second and third operands have arithmetic or enumeration type;
4129 // the usual arithmetic conversions are performed to bring them to a
4130 // common type, and the result is of that type.
4131 if (LTy->isArithmeticType() && RTy->isArithmeticType()) {
4132 UsualArithmeticConversions(LHS, RHS);
John Wiegley429bb272011-04-08 18:41:53 +00004133 if (LHS.isInvalid() || RHS.isInvalid())
4134 return QualType();
4135 return LHS.get()->getType();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004136 }
4137
4138 // -- The second and third operands have pointer type, or one has pointer
4139 // type and the other is a null pointer constant; pointer conversions
4140 // and qualification conversions are performed to bring them to their
4141 // composite pointer type. The result is of the composite pointer type.
Eli Friedmande8ac492010-01-02 22:56:07 +00004142 // -- The second and third operands have pointer to member type, or one has
4143 // pointer to member type and the other is a null pointer constant;
4144 // pointer to member conversions and qualification conversions are
4145 // performed to bring them to a common type, whose cv-qualification
4146 // shall match the cv-qualification of either the second or the third
4147 // operand. The result is of the common type.
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004148 bool NonStandardCompositeType = false;
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004149 QualType Composite = FindCompositePointerType(QuestionLoc, LHS, RHS,
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004150 isSFINAEContext()? 0 : &NonStandardCompositeType);
4151 if (!Composite.isNull()) {
4152 if (NonStandardCompositeType)
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004153 Diag(QuestionLoc,
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004154 diag::ext_typecheck_cond_incompatible_operands_nonstandard)
4155 << LTy << RTy << Composite
John Wiegley429bb272011-04-08 18:41:53 +00004156 << LHS.get()->getSourceRange() << RHS.get()->getSourceRange();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004157
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004158 return Composite;
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004159 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004160
Douglas Gregor1927b1f2010-04-01 22:47:07 +00004161 // Similarly, attempt to find composite type of two objective-c pointers.
Fariborz Jahanian55016362009-12-10 20:46:08 +00004162 Composite = FindCompositeObjCPointerType(LHS, RHS, QuestionLoc);
4163 if (!Composite.isNull())
4164 return Composite;
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004165
Chandler Carruth7ef93242011-02-19 00:13:59 +00004166 // Check if we are using a null with a non-pointer type.
John Wiegley429bb272011-04-08 18:41:53 +00004167 if (DiagnoseConditionalForNull(LHS.get(), RHS.get(), QuestionLoc))
Chandler Carruth7ef93242011-02-19 00:13:59 +00004168 return QualType();
4169
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004170 Diag(QuestionLoc, diag::err_typecheck_cond_incompatible_operands)
John Wiegley429bb272011-04-08 18:41:53 +00004171 << LHS.get()->getType() << RHS.get()->getType()
4172 << LHS.get()->getSourceRange() << RHS.get()->getSourceRange();
Sebastian Redl3201f6b2009-04-16 17:51:27 +00004173 return QualType();
4174}
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004175
4176/// \brief Find a merged pointer type and convert the two expressions to it.
4177///
Douglas Gregor20b3e992009-08-24 17:42:35 +00004178/// This finds the composite pointer type (or member pointer type) for @p E1
4179/// and @p E2 according to C++0x 5.9p2. It converts both expressions to this
4180/// type and returns it.
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004181/// It does not emit diagnostics.
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004182///
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004183/// \param Loc The location of the operator requiring these two expressions to
4184/// be converted to the composite pointer type.
4185///
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004186/// If \p NonStandardCompositeType is non-NULL, then we are permitted to find
4187/// a non-standard (but still sane) composite type to which both expressions
4188/// can be converted. When such a type is chosen, \c *NonStandardCompositeType
4189/// will be set true.
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004190QualType Sema::FindCompositePointerType(SourceLocation Loc,
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004191 Expr *&E1, Expr *&E2,
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004192 bool *NonStandardCompositeType) {
4193 if (NonStandardCompositeType)
4194 *NonStandardCompositeType = false;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004195
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004196 assert(getLangOptions().CPlusPlus && "This function assumes C++");
4197 QualType T1 = E1->getType(), T2 = E2->getType();
Mike Stump1eb44332009-09-09 15:08:12 +00004198
Fariborz Jahanian0cedfbd2009-12-08 20:04:24 +00004199 if (!T1->isAnyPointerType() && !T1->isMemberPointerType() &&
4200 !T2->isAnyPointerType() && !T2->isMemberPointerType())
Douglas Gregor20b3e992009-08-24 17:42:35 +00004201 return QualType();
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004202
4203 // C++0x 5.9p2
4204 // Pointer conversions and qualification conversions are performed on
4205 // pointer operands to bring them to their composite pointer type. If
4206 // one operand is a null pointer constant, the composite pointer type is
4207 // the type of the other operand.
Douglas Gregorce940492009-09-25 04:25:58 +00004208 if (E1->isNullPointerConstant(Context, Expr::NPC_ValueDependentIsNull)) {
Eli Friedman73c39ab2009-10-20 08:27:19 +00004209 if (T2->isMemberPointerType())
John Wiegley429bb272011-04-08 18:41:53 +00004210 E1 = ImpCastExprToType(E1, T2, CK_NullToMemberPointer).take();
Eli Friedman73c39ab2009-10-20 08:27:19 +00004211 else
John Wiegley429bb272011-04-08 18:41:53 +00004212 E1 = ImpCastExprToType(E1, T2, CK_NullToPointer).take();
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004213 return T2;
4214 }
Douglas Gregorce940492009-09-25 04:25:58 +00004215 if (E2->isNullPointerConstant(Context, Expr::NPC_ValueDependentIsNull)) {
Eli Friedman73c39ab2009-10-20 08:27:19 +00004216 if (T1->isMemberPointerType())
John Wiegley429bb272011-04-08 18:41:53 +00004217 E2 = ImpCastExprToType(E2, T1, CK_NullToMemberPointer).take();
Eli Friedman73c39ab2009-10-20 08:27:19 +00004218 else
John Wiegley429bb272011-04-08 18:41:53 +00004219 E2 = ImpCastExprToType(E2, T1, CK_NullToPointer).take();
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004220 return T1;
4221 }
Mike Stump1eb44332009-09-09 15:08:12 +00004222
Douglas Gregor20b3e992009-08-24 17:42:35 +00004223 // Now both have to be pointers or member pointers.
Sebastian Redla439e6f2009-11-16 21:03:45 +00004224 if ((!T1->isPointerType() && !T1->isMemberPointerType()) ||
4225 (!T2->isPointerType() && !T2->isMemberPointerType()))
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004226 return QualType();
4227
4228 // Otherwise, of one of the operands has type "pointer to cv1 void," then
4229 // the other has type "pointer to cv2 T" and the composite pointer type is
4230 // "pointer to cv12 void," where cv12 is the union of cv1 and cv2.
4231 // Otherwise, the composite pointer type is a pointer type similar to the
4232 // type of one of the operands, with a cv-qualification signature that is
4233 // the union of the cv-qualification signatures of the operand types.
4234 // In practice, the first part here is redundant; it's subsumed by the second.
4235 // What we do here is, we build the two possible composite types, and try the
4236 // conversions in both directions. If only one works, or if the two composite
4237 // types are the same, we have succeeded.
John McCall0953e762009-09-24 19:53:00 +00004238 // FIXME: extended qualifiers?
Chris Lattner5f9e2722011-07-23 10:55:15 +00004239 typedef SmallVector<unsigned, 4> QualifierVector;
Sebastian Redla439e6f2009-11-16 21:03:45 +00004240 QualifierVector QualifierUnion;
Chris Lattner5f9e2722011-07-23 10:55:15 +00004241 typedef SmallVector<std::pair<const Type *, const Type *>, 4>
Sebastian Redla439e6f2009-11-16 21:03:45 +00004242 ContainingClassVector;
4243 ContainingClassVector MemberOfClass;
4244 QualType Composite1 = Context.getCanonicalType(T1),
4245 Composite2 = Context.getCanonicalType(T2);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004246 unsigned NeedConstBefore = 0;
Douglas Gregor20b3e992009-08-24 17:42:35 +00004247 do {
4248 const PointerType *Ptr1, *Ptr2;
4249 if ((Ptr1 = Composite1->getAs<PointerType>()) &&
4250 (Ptr2 = Composite2->getAs<PointerType>())) {
4251 Composite1 = Ptr1->getPointeeType();
4252 Composite2 = Ptr2->getPointeeType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004253
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004254 // If we're allowed to create a non-standard composite type, keep track
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004255 // of where we need to fill in additional 'const' qualifiers.
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004256 if (NonStandardCompositeType &&
4257 Composite1.getCVRQualifiers() != Composite2.getCVRQualifiers())
4258 NeedConstBefore = QualifierUnion.size();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004259
Douglas Gregor20b3e992009-08-24 17:42:35 +00004260 QualifierUnion.push_back(
4261 Composite1.getCVRQualifiers() | Composite2.getCVRQualifiers());
4262 MemberOfClass.push_back(std::make_pair((const Type *)0, (const Type *)0));
4263 continue;
4264 }
Mike Stump1eb44332009-09-09 15:08:12 +00004265
Douglas Gregor20b3e992009-08-24 17:42:35 +00004266 const MemberPointerType *MemPtr1, *MemPtr2;
4267 if ((MemPtr1 = Composite1->getAs<MemberPointerType>()) &&
4268 (MemPtr2 = Composite2->getAs<MemberPointerType>())) {
4269 Composite1 = MemPtr1->getPointeeType();
4270 Composite2 = MemPtr2->getPointeeType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004271
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004272 // If we're allowed to create a non-standard composite type, keep track
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004273 // of where we need to fill in additional 'const' qualifiers.
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004274 if (NonStandardCompositeType &&
4275 Composite1.getCVRQualifiers() != Composite2.getCVRQualifiers())
4276 NeedConstBefore = QualifierUnion.size();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004277
Douglas Gregor20b3e992009-08-24 17:42:35 +00004278 QualifierUnion.push_back(
4279 Composite1.getCVRQualifiers() | Composite2.getCVRQualifiers());
4280 MemberOfClass.push_back(std::make_pair(MemPtr1->getClass(),
4281 MemPtr2->getClass()));
4282 continue;
4283 }
Mike Stump1eb44332009-09-09 15:08:12 +00004284
Douglas Gregor20b3e992009-08-24 17:42:35 +00004285 // FIXME: block pointer types?
Mike Stump1eb44332009-09-09 15:08:12 +00004286
Douglas Gregor20b3e992009-08-24 17:42:35 +00004287 // Cannot unwrap any more types.
4288 break;
4289 } while (true);
Mike Stump1eb44332009-09-09 15:08:12 +00004290
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004291 if (NeedConstBefore && NonStandardCompositeType) {
4292 // Extension: Add 'const' to qualifiers that come before the first qualifier
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004293 // mismatch, so that our (non-standard!) composite type meets the
Douglas Gregorb2cb1cb2010-02-25 22:29:57 +00004294 // requirements of C++ [conv.qual]p4 bullet 3.
4295 for (unsigned I = 0; I != NeedConstBefore; ++I) {
4296 if ((QualifierUnion[I] & Qualifiers::Const) == 0) {
4297 QualifierUnion[I] = QualifierUnion[I] | Qualifiers::Const;
4298 *NonStandardCompositeType = true;
4299 }
4300 }
4301 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004302
Douglas Gregor20b3e992009-08-24 17:42:35 +00004303 // Rewrap the composites as pointers or member pointers with the union CVRs.
Sebastian Redla439e6f2009-11-16 21:03:45 +00004304 ContainingClassVector::reverse_iterator MOC
4305 = MemberOfClass.rbegin();
4306 for (QualifierVector::reverse_iterator
4307 I = QualifierUnion.rbegin(),
4308 E = QualifierUnion.rend();
Douglas Gregor20b3e992009-08-24 17:42:35 +00004309 I != E; (void)++I, ++MOC) {
John McCall0953e762009-09-24 19:53:00 +00004310 Qualifiers Quals = Qualifiers::fromCVRMask(*I);
Douglas Gregor20b3e992009-08-24 17:42:35 +00004311 if (MOC->first && MOC->second) {
4312 // Rebuild member pointer type
John McCall0953e762009-09-24 19:53:00 +00004313 Composite1 = Context.getMemberPointerType(
4314 Context.getQualifiedType(Composite1, Quals),
4315 MOC->first);
4316 Composite2 = Context.getMemberPointerType(
4317 Context.getQualifiedType(Composite2, Quals),
4318 MOC->second);
Douglas Gregor20b3e992009-08-24 17:42:35 +00004319 } else {
4320 // Rebuild pointer type
John McCall0953e762009-09-24 19:53:00 +00004321 Composite1
4322 = Context.getPointerType(Context.getQualifiedType(Composite1, Quals));
4323 Composite2
4324 = Context.getPointerType(Context.getQualifiedType(Composite2, Quals));
Douglas Gregor20b3e992009-08-24 17:42:35 +00004325 }
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004326 }
4327
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004328 // Try to convert to the first composite pointer type.
4329 InitializedEntity Entity1
4330 = InitializedEntity::InitializeTemporary(Composite1);
4331 InitializationKind Kind
4332 = InitializationKind::CreateCopy(Loc, SourceLocation());
4333 InitializationSequence E1ToC1(*this, Entity1, Kind, &E1, 1);
4334 InitializationSequence E2ToC1(*this, Entity1, Kind, &E2, 1);
Mike Stump1eb44332009-09-09 15:08:12 +00004335
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004336 if (E1ToC1 && E2ToC1) {
4337 // Conversion to Composite1 is viable.
4338 if (!Context.hasSameType(Composite1, Composite2)) {
4339 // Composite2 is a different type from Composite1. Check whether
4340 // Composite2 is also viable.
4341 InitializedEntity Entity2
4342 = InitializedEntity::InitializeTemporary(Composite2);
4343 InitializationSequence E1ToC2(*this, Entity2, Kind, &E1, 1);
4344 InitializationSequence E2ToC2(*this, Entity2, Kind, &E2, 1);
4345 if (E1ToC2 && E2ToC2) {
4346 // Both Composite1 and Composite2 are viable and are different;
4347 // this is an ambiguity.
4348 return QualType();
4349 }
4350 }
4351
4352 // Convert E1 to Composite1
John McCall60d7b3a2010-08-24 06:29:42 +00004353 ExprResult E1Result
John McCallca0408f2010-08-23 06:44:23 +00004354 = E1ToC1.Perform(*this, Entity1, Kind, MultiExprArg(*this,&E1,1));
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004355 if (E1Result.isInvalid())
4356 return QualType();
4357 E1 = E1Result.takeAs<Expr>();
4358
4359 // Convert E2 to Composite1
John McCall60d7b3a2010-08-24 06:29:42 +00004360 ExprResult E2Result
John McCallca0408f2010-08-23 06:44:23 +00004361 = E2ToC1.Perform(*this, Entity1, Kind, MultiExprArg(*this,&E2,1));
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004362 if (E2Result.isInvalid())
4363 return QualType();
4364 E2 = E2Result.takeAs<Expr>();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004365
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004366 return Composite1;
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004367 }
4368
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004369 // Check whether Composite2 is viable.
4370 InitializedEntity Entity2
4371 = InitializedEntity::InitializeTemporary(Composite2);
4372 InitializationSequence E1ToC2(*this, Entity2, Kind, &E1, 1);
4373 InitializationSequence E2ToC2(*this, Entity2, Kind, &E2, 1);
4374 if (!E1ToC2 || !E2ToC2)
4375 return QualType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004376
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004377 // Convert E1 to Composite2
John McCall60d7b3a2010-08-24 06:29:42 +00004378 ExprResult E1Result
John McCallca0408f2010-08-23 06:44:23 +00004379 = E1ToC2.Perform(*this, Entity2, Kind, MultiExprArg(*this, &E1, 1));
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004380 if (E1Result.isInvalid())
4381 return QualType();
4382 E1 = E1Result.takeAs<Expr>();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004383
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004384 // Convert E2 to Composite2
John McCall60d7b3a2010-08-24 06:29:42 +00004385 ExprResult E2Result
John McCallca0408f2010-08-23 06:44:23 +00004386 = E2ToC2.Perform(*this, Entity2, Kind, MultiExprArg(*this, &E2, 1));
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004387 if (E2Result.isInvalid())
4388 return QualType();
4389 E2 = E2Result.takeAs<Expr>();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004390
Douglas Gregor8f00dcf2010-04-16 23:20:25 +00004391 return Composite2;
Sebastian Redld1bd7fc2009-04-19 19:26:31 +00004392}
Anders Carlsson165a0a02009-05-17 18:41:29 +00004393
John McCall60d7b3a2010-08-24 06:29:42 +00004394ExprResult Sema::MaybeBindToTemporary(Expr *E) {
Douglas Gregor19cc1c72010-11-01 21:10:29 +00004395 if (!E)
4396 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004397
John McCallf85e1932011-06-15 23:02:42 +00004398 assert(!isa<CXXBindTemporaryExpr>(E) && "Double-bound temporary?");
4399
4400 // If the result is a glvalue, we shouldn't bind it.
4401 if (!E->isRValue())
Anders Carlsson089c2602009-08-15 23:41:35 +00004402 return Owned(E);
Mike Stump1eb44332009-09-09 15:08:12 +00004403
John McCallf85e1932011-06-15 23:02:42 +00004404 // In ARC, calls that return a retainable type can return retained,
4405 // in which case we have to insert a consuming cast.
4406 if (getLangOptions().ObjCAutoRefCount &&
4407 E->getType()->isObjCRetainableType()) {
4408
4409 bool ReturnsRetained;
4410
4411 // For actual calls, we compute this by examining the type of the
4412 // called value.
4413 if (CallExpr *Call = dyn_cast<CallExpr>(E)) {
4414 Expr *Callee = Call->getCallee()->IgnoreParens();
4415 QualType T = Callee->getType();
4416
4417 if (T == Context.BoundMemberTy) {
4418 // Handle pointer-to-members.
4419 if (BinaryOperator *BinOp = dyn_cast<BinaryOperator>(Callee))
4420 T = BinOp->getRHS()->getType();
4421 else if (MemberExpr *Mem = dyn_cast<MemberExpr>(Callee))
4422 T = Mem->getMemberDecl()->getType();
4423 }
4424
4425 if (const PointerType *Ptr = T->getAs<PointerType>())
4426 T = Ptr->getPointeeType();
4427 else if (const BlockPointerType *Ptr = T->getAs<BlockPointerType>())
4428 T = Ptr->getPointeeType();
4429 else if (const MemberPointerType *MemPtr = T->getAs<MemberPointerType>())
4430 T = MemPtr->getPointeeType();
4431
4432 const FunctionType *FTy = T->getAs<FunctionType>();
4433 assert(FTy && "call to value not of function type?");
4434 ReturnsRetained = FTy->getExtInfo().getProducesResult();
4435
4436 // ActOnStmtExpr arranges things so that StmtExprs of retainable
4437 // type always produce a +1 object.
4438 } else if (isa<StmtExpr>(E)) {
4439 ReturnsRetained = true;
4440
4441 // For message sends and property references, we try to find an
4442 // actual method. FIXME: we should infer retention by selector in
4443 // cases where we don't have an actual method.
4444 } else {
John McCallfc4b1912011-08-03 07:02:44 +00004445 ObjCMethodDecl *D = 0;
John McCallf85e1932011-06-15 23:02:42 +00004446 if (ObjCMessageExpr *Send = dyn_cast<ObjCMessageExpr>(E)) {
4447 D = Send->getMethodDecl();
John McCallf85e1932011-06-15 23:02:42 +00004448 }
4449
4450 ReturnsRetained = (D && D->hasAttr<NSReturnsRetainedAttr>());
John McCallfc4b1912011-08-03 07:02:44 +00004451
4452 // Don't do reclaims on performSelector calls; despite their
4453 // return type, the invoked method doesn't necessarily actually
4454 // return an object.
4455 if (!ReturnsRetained &&
4456 D && D->getMethodFamily() == OMF_performSelector)
4457 return Owned(E);
John McCallf85e1932011-06-15 23:02:42 +00004458 }
4459
John McCall567c5862011-11-14 19:53:16 +00004460 // Don't reclaim an object of Class type.
4461 if (!ReturnsRetained && E->getType()->isObjCARCImplicitlyUnretainedType())
4462 return Owned(E);
4463
John McCall7e5e5f42011-07-07 06:58:02 +00004464 ExprNeedsCleanups = true;
4465
John McCall33e56f32011-09-10 06:18:15 +00004466 CastKind ck = (ReturnsRetained ? CK_ARCConsumeObject
4467 : CK_ARCReclaimReturnedObject);
John McCall7e5e5f42011-07-07 06:58:02 +00004468 return Owned(ImplicitCastExpr::Create(Context, E->getType(), ck, E, 0,
4469 VK_RValue));
John McCallf85e1932011-06-15 23:02:42 +00004470 }
4471
4472 if (!getLangOptions().CPlusPlus)
4473 return Owned(E);
Douglas Gregor51326552009-12-24 18:51:59 +00004474
Peter Collingbourneb4ab8432012-01-26 03:33:51 +00004475 // Search for the base element type (cf. ASTContext::getBaseElementType) with
4476 // a fast path for the common case that the type is directly a RecordType.
4477 const Type *T = Context.getCanonicalType(E->getType().getTypePtr());
4478 const RecordType *RT = 0;
4479 while (!RT) {
4480 switch (T->getTypeClass()) {
4481 case Type::Record:
4482 RT = cast<RecordType>(T);
4483 break;
4484 case Type::ConstantArray:
4485 case Type::IncompleteArray:
4486 case Type::VariableArray:
4487 case Type::DependentSizedArray:
4488 T = cast<ArrayType>(T)->getElementType().getTypePtr();
4489 break;
4490 default:
4491 return Owned(E);
4492 }
4493 }
Mike Stump1eb44332009-09-09 15:08:12 +00004494
Richard Smith76f3f692012-02-22 02:04:18 +00004495 // That should be enough to guarantee that this type is complete, if we're
4496 // not processing a decltype expression.
Jeffrey Yasskinb7ee2e52011-01-27 19:17:54 +00004497 CXXRecordDecl *RD = cast<CXXRecordDecl>(RT->getDecl());
Richard Smith213d70b2012-02-18 04:13:32 +00004498 if (RD->isInvalidDecl() || RD->isDependentContext())
John McCall86ff3082010-02-04 22:26:26 +00004499 return Owned(E);
Richard Smith76f3f692012-02-22 02:04:18 +00004500
4501 bool IsDecltype = ExprEvalContexts.back().IsDecltype;
4502 CXXDestructorDecl *Destructor = IsDecltype ? 0 : LookupDestructor(RD);
John McCallf85e1932011-06-15 23:02:42 +00004503
John McCallf85e1932011-06-15 23:02:42 +00004504 if (Destructor) {
Eli Friedman5f2987c2012-02-02 03:46:19 +00004505 MarkFunctionReferenced(E->getExprLoc(), Destructor);
John McCallc91cc662010-04-07 00:41:46 +00004506 CheckDestructorAccess(E->getExprLoc(), Destructor,
4507 PDiag(diag::err_access_dtor_temp)
4508 << E->getType());
Richard Smith213d70b2012-02-18 04:13:32 +00004509 DiagnoseUseOfDecl(Destructor, E->getExprLoc());
John McCallf85e1932011-06-15 23:02:42 +00004510
Richard Smith76f3f692012-02-22 02:04:18 +00004511 // If destructor is trivial, we can avoid the extra copy.
4512 if (Destructor->isTrivial())
4513 return Owned(E);
Richard Smith213d70b2012-02-18 04:13:32 +00004514
John McCall80ee6e82011-11-10 05:35:25 +00004515 // We need a cleanup, but we don't need to remember the temporary.
John McCallf85e1932011-06-15 23:02:42 +00004516 ExprNeedsCleanups = true;
Richard Smith76f3f692012-02-22 02:04:18 +00004517 }
Richard Smith213d70b2012-02-18 04:13:32 +00004518
4519 CXXTemporary *Temp = CXXTemporary::Create(Context, Destructor);
Richard Smith76f3f692012-02-22 02:04:18 +00004520 CXXBindTemporaryExpr *Bind = CXXBindTemporaryExpr::Create(Context, Temp, E);
4521
4522 if (IsDecltype)
4523 ExprEvalContexts.back().DelayedDecltypeBinds.push_back(Bind);
4524
4525 return Owned(Bind);
Anders Carlssondef11992009-05-30 20:36:53 +00004526}
4527
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004528ExprResult
John McCall4765fa02010-12-06 08:20:24 +00004529Sema::MaybeCreateExprWithCleanups(ExprResult SubExpr) {
Douglas Gregor90f93822009-12-22 22:17:25 +00004530 if (SubExpr.isInvalid())
4531 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004532
John McCall4765fa02010-12-06 08:20:24 +00004533 return Owned(MaybeCreateExprWithCleanups(SubExpr.take()));
Douglas Gregor90f93822009-12-22 22:17:25 +00004534}
4535
John McCall80ee6e82011-11-10 05:35:25 +00004536Expr *Sema::MaybeCreateExprWithCleanups(Expr *SubExpr) {
4537 assert(SubExpr && "sub expression can't be null!");
4538
Eli Friedmand2cce132012-02-02 23:15:15 +00004539 CleanupVarDeclMarking();
4540
John McCall80ee6e82011-11-10 05:35:25 +00004541 unsigned FirstCleanup = ExprEvalContexts.back().NumCleanupObjects;
4542 assert(ExprCleanupObjects.size() >= FirstCleanup);
4543 assert(ExprNeedsCleanups || ExprCleanupObjects.size() == FirstCleanup);
4544 if (!ExprNeedsCleanups)
4545 return SubExpr;
4546
4547 ArrayRef<ExprWithCleanups::CleanupObject> Cleanups
4548 = llvm::makeArrayRef(ExprCleanupObjects.begin() + FirstCleanup,
4549 ExprCleanupObjects.size() - FirstCleanup);
4550
4551 Expr *E = ExprWithCleanups::Create(Context, SubExpr, Cleanups);
4552 DiscardCleanupsInEvaluationContext();
4553
4554 return E;
4555}
4556
John McCall4765fa02010-12-06 08:20:24 +00004557Stmt *Sema::MaybeCreateStmtWithCleanups(Stmt *SubStmt) {
Argyrios Kyrtzidisbf8cafa2010-11-02 02:33:08 +00004558 assert(SubStmt && "sub statement can't be null!");
4559
Eli Friedmand2cce132012-02-02 23:15:15 +00004560 CleanupVarDeclMarking();
4561
John McCallf85e1932011-06-15 23:02:42 +00004562 if (!ExprNeedsCleanups)
Argyrios Kyrtzidisbf8cafa2010-11-02 02:33:08 +00004563 return SubStmt;
4564
4565 // FIXME: In order to attach the temporaries, wrap the statement into
4566 // a StmtExpr; currently this is only used for asm statements.
4567 // This is hacky, either create a new CXXStmtWithTemporaries statement or
4568 // a new AsmStmtWithTemporaries.
4569 CompoundStmt *CompStmt = new (Context) CompoundStmt(Context, &SubStmt, 1,
4570 SourceLocation(),
4571 SourceLocation());
4572 Expr *E = new (Context) StmtExpr(CompStmt, Context.VoidTy, SourceLocation(),
4573 SourceLocation());
John McCall4765fa02010-12-06 08:20:24 +00004574 return MaybeCreateExprWithCleanups(E);
Argyrios Kyrtzidisbf8cafa2010-11-02 02:33:08 +00004575}
4576
Richard Smith76f3f692012-02-22 02:04:18 +00004577/// Process the expression contained within a decltype. For such expressions,
4578/// certain semantic checks on temporaries are delayed until this point, and
4579/// are omitted for the 'topmost' call in the decltype expression. If the
4580/// topmost call bound a temporary, strip that temporary off the expression.
4581ExprResult Sema::ActOnDecltypeExpression(Expr *E) {
4582 ExpressionEvaluationContextRecord &Rec = ExprEvalContexts.back();
4583 assert(Rec.IsDecltype && "not in a decltype expression");
4584
4585 // C++11 [expr.call]p11:
4586 // If a function call is a prvalue of object type,
4587 // -- if the function call is either
4588 // -- the operand of a decltype-specifier, or
4589 // -- the right operand of a comma operator that is the operand of a
4590 // decltype-specifier,
4591 // a temporary object is not introduced for the prvalue.
4592
4593 // Recursively rebuild ParenExprs and comma expressions to strip out the
4594 // outermost CXXBindTemporaryExpr, if any.
4595 if (ParenExpr *PE = dyn_cast<ParenExpr>(E)) {
4596 ExprResult SubExpr = ActOnDecltypeExpression(PE->getSubExpr());
4597 if (SubExpr.isInvalid())
4598 return ExprError();
4599 if (SubExpr.get() == PE->getSubExpr())
4600 return Owned(E);
4601 return ActOnParenExpr(PE->getLParen(), PE->getRParen(), SubExpr.take());
4602 }
4603 if (BinaryOperator *BO = dyn_cast<BinaryOperator>(E)) {
4604 if (BO->getOpcode() == BO_Comma) {
4605 ExprResult RHS = ActOnDecltypeExpression(BO->getRHS());
4606 if (RHS.isInvalid())
4607 return ExprError();
4608 if (RHS.get() == BO->getRHS())
4609 return Owned(E);
4610 return Owned(new (Context) BinaryOperator(BO->getLHS(), RHS.take(),
4611 BO_Comma, BO->getType(),
4612 BO->getValueKind(),
4613 BO->getObjectKind(),
4614 BO->getOperatorLoc()));
4615 }
4616 }
4617
4618 CXXBindTemporaryExpr *TopBind = dyn_cast<CXXBindTemporaryExpr>(E);
4619 if (TopBind)
4620 E = TopBind->getSubExpr();
4621
4622 // Disable the special decltype handling now.
4623 Rec.IsDecltype = false;
4624
4625 // Perform the semantic checks we delayed until this point.
4626 CallExpr *TopCall = dyn_cast<CallExpr>(E);
4627 for (unsigned I = 0, N = Rec.DelayedDecltypeCalls.size(); I != N; ++I) {
4628 CallExpr *Call = Rec.DelayedDecltypeCalls[I];
4629 if (Call == TopCall)
4630 continue;
4631
4632 if (CheckCallReturnType(Call->getCallReturnType(),
4633 Call->getSourceRange().getBegin(),
4634 Call, Call->getDirectCallee()))
4635 return ExprError();
4636 }
4637
4638 // Now all relevant types are complete, check the destructors are accessible
4639 // and non-deleted, and annotate them on the temporaries.
4640 for (unsigned I = 0, N = Rec.DelayedDecltypeBinds.size(); I != N; ++I) {
4641 CXXBindTemporaryExpr *Bind = Rec.DelayedDecltypeBinds[I];
4642 if (Bind == TopBind)
4643 continue;
4644
4645 CXXTemporary *Temp = Bind->getTemporary();
4646
4647 CXXRecordDecl *RD =
4648 Bind->getType()->getBaseElementTypeUnsafe()->getAsCXXRecordDecl();
4649 CXXDestructorDecl *Destructor = LookupDestructor(RD);
4650 Temp->setDestructor(Destructor);
4651
4652 MarkFunctionReferenced(E->getExprLoc(), Destructor);
4653 CheckDestructorAccess(E->getExprLoc(), Destructor,
4654 PDiag(diag::err_access_dtor_temp)
4655 << E->getType());
4656 DiagnoseUseOfDecl(Destructor, E->getExprLoc());
4657
4658 // We need a cleanup, but we don't need to remember the temporary.
4659 ExprNeedsCleanups = true;
4660 }
4661
4662 // Possibly strip off the top CXXBindTemporaryExpr.
4663 return Owned(E);
4664}
4665
John McCall60d7b3a2010-08-24 06:29:42 +00004666ExprResult
John McCall9ae2f072010-08-23 23:25:46 +00004667Sema::ActOnStartCXXMemberReference(Scope *S, Expr *Base, SourceLocation OpLoc,
John McCallb3d87482010-08-24 05:47:05 +00004668 tok::TokenKind OpKind, ParsedType &ObjectType,
Douglas Gregord4dca082010-02-24 18:44:31 +00004669 bool &MayBePseudoDestructor) {
Douglas Gregor2dd078a2009-09-02 22:59:36 +00004670 // Since this might be a postfix expression, get rid of ParenListExprs.
John McCall60d7b3a2010-08-24 06:29:42 +00004671 ExprResult Result = MaybeConvertParenListExprToParenExpr(S, Base);
John McCall9ae2f072010-08-23 23:25:46 +00004672 if (Result.isInvalid()) return ExprError();
4673 Base = Result.get();
Mike Stump1eb44332009-09-09 15:08:12 +00004674
John McCall3c3b7f92011-10-25 17:37:35 +00004675 Result = CheckPlaceholderExpr(Base);
4676 if (Result.isInvalid()) return ExprError();
4677 Base = Result.take();
4678
John McCall9ae2f072010-08-23 23:25:46 +00004679 QualType BaseType = Base->getType();
Douglas Gregord4dca082010-02-24 18:44:31 +00004680 MayBePseudoDestructor = false;
Douglas Gregor2dd078a2009-09-02 22:59:36 +00004681 if (BaseType->isDependentType()) {
Douglas Gregor43d88632009-11-04 22:49:18 +00004682 // If we have a pointer to a dependent type and are using the -> operator,
4683 // the object type is the type that the pointer points to. We might still
4684 // have enough information about that type to do something useful.
4685 if (OpKind == tok::arrow)
4686 if (const PointerType *Ptr = BaseType->getAs<PointerType>())
4687 BaseType = Ptr->getPointeeType();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004688
John McCallb3d87482010-08-24 05:47:05 +00004689 ObjectType = ParsedType::make(BaseType);
Douglas Gregord4dca082010-02-24 18:44:31 +00004690 MayBePseudoDestructor = true;
John McCall9ae2f072010-08-23 23:25:46 +00004691 return Owned(Base);
Douglas Gregor2dd078a2009-09-02 22:59:36 +00004692 }
Mike Stump1eb44332009-09-09 15:08:12 +00004693
Douglas Gregor2dd078a2009-09-02 22:59:36 +00004694 // C++ [over.match.oper]p8:
Mike Stump1eb44332009-09-09 15:08:12 +00004695 // [...] When operator->returns, the operator-> is applied to the value
Douglas Gregor2dd078a2009-09-02 22:59:36 +00004696 // returned, with the original second operand.
4697 if (OpKind == tok::arrow) {
John McCallc4e83212009-09-30 01:01:30 +00004698 // The set of types we've considered so far.
John McCall432887f2009-09-30 01:30:54 +00004699 llvm::SmallPtrSet<CanQualType,8> CTypes;
Chris Lattner5f9e2722011-07-23 10:55:15 +00004700 SmallVector<SourceLocation, 8> Locations;
John McCall432887f2009-09-30 01:30:54 +00004701 CTypes.insert(Context.getCanonicalType(BaseType));
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004702
Douglas Gregor2dd078a2009-09-02 22:59:36 +00004703 while (BaseType->isRecordType()) {
John McCall9ae2f072010-08-23 23:25:46 +00004704 Result = BuildOverloadedArrowExpr(S, Base, OpLoc);
4705 if (Result.isInvalid())
Douglas Gregor2dd078a2009-09-02 22:59:36 +00004706 return ExprError();
John McCall9ae2f072010-08-23 23:25:46 +00004707 Base = Result.get();
4708 if (CXXOperatorCallExpr *OpCall = dyn_cast<CXXOperatorCallExpr>(Base))
Anders Carlssonde699e52009-10-13 22:55:59 +00004709 Locations.push_back(OpCall->getDirectCallee()->getLocation());
John McCall9ae2f072010-08-23 23:25:46 +00004710 BaseType = Base->getType();
John McCallc4e83212009-09-30 01:01:30 +00004711 CanQualType CBaseType = Context.getCanonicalType(BaseType);
John McCall432887f2009-09-30 01:30:54 +00004712 if (!CTypes.insert(CBaseType)) {
Fariborz Jahanian4a4e3452009-09-30 00:19:41 +00004713 Diag(OpLoc, diag::err_operator_arrow_circular);
Fariborz Jahanian7a8233a2009-09-30 17:46:20 +00004714 for (unsigned i = 0; i < Locations.size(); i++)
4715 Diag(Locations[i], diag::note_declared_at);
Fariborz Jahanian4a4e3452009-09-30 00:19:41 +00004716 return ExprError();
4717 }
Douglas Gregor2dd078a2009-09-02 22:59:36 +00004718 }
Mike Stump1eb44332009-09-09 15:08:12 +00004719
Douglas Gregor1d7049a2012-01-12 16:11:24 +00004720 if (BaseType->isPointerType() || BaseType->isObjCObjectPointerType())
Douglas Gregor31658df2009-11-20 19:58:21 +00004721 BaseType = BaseType->getPointeeType();
4722 }
Mike Stump1eb44332009-09-09 15:08:12 +00004723
Douglas Gregor1d7049a2012-01-12 16:11:24 +00004724 // Objective-C properties allow "." access on Objective-C pointer types,
4725 // so adjust the base type to the object type itself.
4726 if (BaseType->isObjCObjectPointerType())
4727 BaseType = BaseType->getPointeeType();
4728
4729 // C++ [basic.lookup.classref]p2:
4730 // [...] If the type of the object expression is of pointer to scalar
4731 // type, the unqualified-id is looked up in the context of the complete
4732 // postfix-expression.
4733 //
4734 // This also indicates that we could be parsing a pseudo-destructor-name.
4735 // Note that Objective-C class and object types can be pseudo-destructor
4736 // expressions or normal member (ivar or property) access expressions.
4737 if (BaseType->isObjCObjectOrInterfaceType()) {
4738 MayBePseudoDestructor = true;
4739 } else if (!BaseType->isRecordType()) {
John McCallb3d87482010-08-24 05:47:05 +00004740 ObjectType = ParsedType();
Douglas Gregord4dca082010-02-24 18:44:31 +00004741 MayBePseudoDestructor = true;
John McCall9ae2f072010-08-23 23:25:46 +00004742 return Owned(Base);
Douglas Gregorc68afe22009-09-03 21:38:09 +00004743 }
Mike Stump1eb44332009-09-09 15:08:12 +00004744
Douglas Gregor03c57052009-11-17 05:17:33 +00004745 // The object type must be complete (or dependent).
4746 if (!BaseType->isDependentType() &&
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004747 RequireCompleteType(OpLoc, BaseType,
Douglas Gregor03c57052009-11-17 05:17:33 +00004748 PDiag(diag::err_incomplete_member_access)))
4749 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004750
Douglas Gregorc68afe22009-09-03 21:38:09 +00004751 // C++ [basic.lookup.classref]p2:
Mike Stump1eb44332009-09-09 15:08:12 +00004752 // If the id-expression in a class member access (5.2.5) is an
Douglas Gregor03c57052009-11-17 05:17:33 +00004753 // unqualified-id, and the type of the object expression is of a class
Douglas Gregorc68afe22009-09-03 21:38:09 +00004754 // type C (or of pointer to a class type C), the unqualified-id is looked
4755 // up in the scope of class C. [...]
John McCallb3d87482010-08-24 05:47:05 +00004756 ObjectType = ParsedType::make(BaseType);
Mike Stump1eb44332009-09-09 15:08:12 +00004757 return move(Base);
Douglas Gregor2dd078a2009-09-02 22:59:36 +00004758}
4759
John McCall60d7b3a2010-08-24 06:29:42 +00004760ExprResult Sema::DiagnoseDtorReference(SourceLocation NameLoc,
John McCall9ae2f072010-08-23 23:25:46 +00004761 Expr *MemExpr) {
Douglas Gregor77549082010-02-24 21:29:12 +00004762 SourceLocation ExpectedLParenLoc = PP.getLocForEndOfToken(NameLoc);
John McCall9ae2f072010-08-23 23:25:46 +00004763 Diag(MemExpr->getLocStart(), diag::err_dtor_expr_without_call)
4764 << isa<CXXPseudoDestructorExpr>(MemExpr)
Douglas Gregor849b2432010-03-31 17:46:05 +00004765 << FixItHint::CreateInsertion(ExpectedLParenLoc, "()");
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004766
Douglas Gregor77549082010-02-24 21:29:12 +00004767 return ActOnCallExpr(/*Scope*/ 0,
John McCall9ae2f072010-08-23 23:25:46 +00004768 MemExpr,
Douglas Gregor77549082010-02-24 21:29:12 +00004769 /*LPLoc*/ ExpectedLParenLoc,
John McCallf312b1e2010-08-26 23:41:50 +00004770 MultiExprArg(),
Douglas Gregor77549082010-02-24 21:29:12 +00004771 /*RPLoc*/ ExpectedLParenLoc);
4772}
Douglas Gregord4dca082010-02-24 18:44:31 +00004773
Eli Friedmane0dbedf2012-01-25 04:29:24 +00004774static bool CheckArrow(Sema& S, QualType& ObjectType, Expr *&Base,
David Blaikie91ec7892011-12-16 16:03:09 +00004775 tok::TokenKind& OpKind, SourceLocation OpLoc) {
Eli Friedmane0dbedf2012-01-25 04:29:24 +00004776 if (Base->hasPlaceholderType()) {
4777 ExprResult result = S.CheckPlaceholderExpr(Base);
4778 if (result.isInvalid()) return true;
4779 Base = result.take();
4780 }
4781 ObjectType = Base->getType();
4782
David Blaikie91ec7892011-12-16 16:03:09 +00004783 // C++ [expr.pseudo]p2:
4784 // The left-hand side of the dot operator shall be of scalar type. The
4785 // left-hand side of the arrow operator shall be of pointer to scalar type.
4786 // This scalar type is the object type.
Eli Friedmane0dbedf2012-01-25 04:29:24 +00004787 // Note that this is rather different from the normal handling for the
4788 // arrow operator.
David Blaikie91ec7892011-12-16 16:03:09 +00004789 if (OpKind == tok::arrow) {
4790 if (const PointerType *Ptr = ObjectType->getAs<PointerType>()) {
4791 ObjectType = Ptr->getPointeeType();
4792 } else if (!Base->isTypeDependent()) {
4793 // The user wrote "p->" when she probably meant "p."; fix it.
4794 S.Diag(OpLoc, diag::err_typecheck_member_reference_suggestion)
4795 << ObjectType << true
4796 << FixItHint::CreateReplacement(OpLoc, ".");
4797 if (S.isSFINAEContext())
4798 return true;
4799
4800 OpKind = tok::period;
4801 }
4802 }
4803
4804 return false;
4805}
4806
John McCall60d7b3a2010-08-24 06:29:42 +00004807ExprResult Sema::BuildPseudoDestructorExpr(Expr *Base,
John McCall2d9f5fa2011-02-25 05:21:17 +00004808 SourceLocation OpLoc,
4809 tok::TokenKind OpKind,
4810 const CXXScopeSpec &SS,
4811 TypeSourceInfo *ScopeTypeInfo,
4812 SourceLocation CCLoc,
4813 SourceLocation TildeLoc,
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004814 PseudoDestructorTypeStorage Destructed,
John McCall2d9f5fa2011-02-25 05:21:17 +00004815 bool HasTrailingLParen) {
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004816 TypeSourceInfo *DestructedTypeInfo = Destructed.getTypeSourceInfo();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004817
Eli Friedman8c9fe202012-01-25 04:35:06 +00004818 QualType ObjectType;
David Blaikie91ec7892011-12-16 16:03:09 +00004819 if (CheckArrow(*this, ObjectType, Base, OpKind, OpLoc))
4820 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004821
Douglas Gregorb57fb492010-02-24 22:38:50 +00004822 if (!ObjectType->isDependentType() && !ObjectType->isScalarType()) {
Nico Weberdf1be862012-01-23 05:50:57 +00004823 if (getLangOptions().MicrosoftMode && ObjectType->isVoidType())
Nico Weber2d757ec2012-01-23 06:08:16 +00004824 Diag(OpLoc, diag::ext_pseudo_dtor_on_void) << Base->getSourceRange();
Nico Weberdf1be862012-01-23 05:50:57 +00004825 else
4826 Diag(OpLoc, diag::err_pseudo_dtor_base_not_scalar)
4827 << ObjectType << Base->getSourceRange();
Douglas Gregorb57fb492010-02-24 22:38:50 +00004828 return ExprError();
4829 }
4830
4831 // C++ [expr.pseudo]p2:
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004832 // [...] The cv-unqualified versions of the object type and of the type
Douglas Gregorb57fb492010-02-24 22:38:50 +00004833 // designated by the pseudo-destructor-name shall be the same type.
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004834 if (DestructedTypeInfo) {
4835 QualType DestructedType = DestructedTypeInfo->getType();
4836 SourceLocation DestructedTypeStart
Abramo Bagnarabd054db2010-05-20 10:00:11 +00004837 = DestructedTypeInfo->getTypeLoc().getLocalSourceRange().getBegin();
John McCallf85e1932011-06-15 23:02:42 +00004838 if (!DestructedType->isDependentType() && !ObjectType->isDependentType()) {
4839 if (!Context.hasSameUnqualifiedType(DestructedType, ObjectType)) {
4840 Diag(DestructedTypeStart, diag::err_pseudo_dtor_type_mismatch)
4841 << ObjectType << DestructedType << Base->getSourceRange()
4842 << DestructedTypeInfo->getTypeLoc().getLocalSourceRange();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004843
John McCallf85e1932011-06-15 23:02:42 +00004844 // Recover by setting the destructed type to the object type.
4845 DestructedType = ObjectType;
4846 DestructedTypeInfo = Context.getTrivialTypeSourceInfo(ObjectType,
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004847 DestructedTypeStart);
John McCallf85e1932011-06-15 23:02:42 +00004848 Destructed = PseudoDestructorTypeStorage(DestructedTypeInfo);
4849 } else if (DestructedType.getObjCLifetime() !=
4850 ObjectType.getObjCLifetime()) {
4851
4852 if (DestructedType.getObjCLifetime() == Qualifiers::OCL_None) {
4853 // Okay: just pretend that the user provided the correctly-qualified
4854 // type.
4855 } else {
4856 Diag(DestructedTypeStart, diag::err_arc_pseudo_dtor_inconstant_quals)
4857 << ObjectType << DestructedType << Base->getSourceRange()
4858 << DestructedTypeInfo->getTypeLoc().getLocalSourceRange();
4859 }
4860
4861 // Recover by setting the destructed type to the object type.
4862 DestructedType = ObjectType;
4863 DestructedTypeInfo = Context.getTrivialTypeSourceInfo(ObjectType,
4864 DestructedTypeStart);
4865 Destructed = PseudoDestructorTypeStorage(DestructedTypeInfo);
4866 }
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004867 }
Douglas Gregorb57fb492010-02-24 22:38:50 +00004868 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004869
Douglas Gregorb57fb492010-02-24 22:38:50 +00004870 // C++ [expr.pseudo]p2:
4871 // [...] Furthermore, the two type-names in a pseudo-destructor-name of the
4872 // form
4873 //
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004874 // ::[opt] nested-name-specifier[opt] type-name :: ~ type-name
Douglas Gregorb57fb492010-02-24 22:38:50 +00004875 //
4876 // shall designate the same scalar type.
4877 if (ScopeTypeInfo) {
4878 QualType ScopeType = ScopeTypeInfo->getType();
4879 if (!ScopeType->isDependentType() && !ObjectType->isDependentType() &&
John McCall81e317a2010-06-11 17:36:40 +00004880 !Context.hasSameUnqualifiedType(ScopeType, ObjectType)) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004881
Abramo Bagnarabd054db2010-05-20 10:00:11 +00004882 Diag(ScopeTypeInfo->getTypeLoc().getLocalSourceRange().getBegin(),
Douglas Gregorb57fb492010-02-24 22:38:50 +00004883 diag::err_pseudo_dtor_type_mismatch)
John McCall9ae2f072010-08-23 23:25:46 +00004884 << ObjectType << ScopeType << Base->getSourceRange()
Abramo Bagnarabd054db2010-05-20 10:00:11 +00004885 << ScopeTypeInfo->getTypeLoc().getLocalSourceRange();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004886
Douglas Gregorb57fb492010-02-24 22:38:50 +00004887 ScopeType = QualType();
4888 ScopeTypeInfo = 0;
4889 }
4890 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004891
John McCall9ae2f072010-08-23 23:25:46 +00004892 Expr *Result
4893 = new (Context) CXXPseudoDestructorExpr(Context, Base,
4894 OpKind == tok::arrow, OpLoc,
Douglas Gregorf3db29f2011-02-25 18:19:59 +00004895 SS.getWithLocInContext(Context),
John McCall9ae2f072010-08-23 23:25:46 +00004896 ScopeTypeInfo,
4897 CCLoc,
4898 TildeLoc,
4899 Destructed);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004900
Douglas Gregorb57fb492010-02-24 22:38:50 +00004901 if (HasTrailingLParen)
John McCall9ae2f072010-08-23 23:25:46 +00004902 return Owned(Result);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004903
John McCall9ae2f072010-08-23 23:25:46 +00004904 return DiagnoseDtorReference(Destructed.getLocation(), Result);
Douglas Gregor77549082010-02-24 21:29:12 +00004905}
4906
John McCall60d7b3a2010-08-24 06:29:42 +00004907ExprResult Sema::ActOnPseudoDestructorExpr(Scope *S, Expr *Base,
John McCall2d9f5fa2011-02-25 05:21:17 +00004908 SourceLocation OpLoc,
4909 tok::TokenKind OpKind,
4910 CXXScopeSpec &SS,
4911 UnqualifiedId &FirstTypeName,
4912 SourceLocation CCLoc,
4913 SourceLocation TildeLoc,
4914 UnqualifiedId &SecondTypeName,
4915 bool HasTrailingLParen) {
Douglas Gregor77549082010-02-24 21:29:12 +00004916 assert((FirstTypeName.getKind() == UnqualifiedId::IK_TemplateId ||
4917 FirstTypeName.getKind() == UnqualifiedId::IK_Identifier) &&
4918 "Invalid first type name in pseudo-destructor");
4919 assert((SecondTypeName.getKind() == UnqualifiedId::IK_TemplateId ||
4920 SecondTypeName.getKind() == UnqualifiedId::IK_Identifier) &&
4921 "Invalid second type name in pseudo-destructor");
4922
Eli Friedman8c9fe202012-01-25 04:35:06 +00004923 QualType ObjectType;
David Blaikie91ec7892011-12-16 16:03:09 +00004924 if (CheckArrow(*this, ObjectType, Base, OpKind, OpLoc))
4925 return ExprError();
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004926
4927 // Compute the object type that we should use for name lookup purposes. Only
4928 // record types and dependent types matter.
John McCallb3d87482010-08-24 05:47:05 +00004929 ParsedType ObjectTypePtrForLookup;
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004930 if (!SS.isSet()) {
John McCall2d9f5fa2011-02-25 05:21:17 +00004931 if (ObjectType->isRecordType())
4932 ObjectTypePtrForLookup = ParsedType::make(ObjectType);
John McCallb3d87482010-08-24 05:47:05 +00004933 else if (ObjectType->isDependentType())
4934 ObjectTypePtrForLookup = ParsedType::make(Context.DependentTy);
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004935 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004936
4937 // Convert the name of the type being destructed (following the ~) into a
Douglas Gregorb57fb492010-02-24 22:38:50 +00004938 // type (with source-location information).
Douglas Gregor77549082010-02-24 21:29:12 +00004939 QualType DestructedType;
4940 TypeSourceInfo *DestructedTypeInfo = 0;
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004941 PseudoDestructorTypeStorage Destructed;
Douglas Gregor77549082010-02-24 21:29:12 +00004942 if (SecondTypeName.getKind() == UnqualifiedId::IK_Identifier) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004943 ParsedType T = getTypeName(*SecondTypeName.Identifier,
John McCallb3d87482010-08-24 05:47:05 +00004944 SecondTypeName.StartLocation,
Fariborz Jahanian1e52dfc2011-02-08 18:05:59 +00004945 S, &SS, true, false, ObjectTypePtrForLookup);
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004946 if (!T &&
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004947 ((SS.isSet() && !computeDeclContext(SS, false)) ||
4948 (!SS.isSet() && ObjectType->isDependentType()))) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004949 // The name of the type being destroyed is a dependent name, and we
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004950 // couldn't find anything useful in scope. Just store the identifier and
4951 // it's location, and we'll perform (qualified) name lookup again at
4952 // template instantiation time.
4953 Destructed = PseudoDestructorTypeStorage(SecondTypeName.Identifier,
4954 SecondTypeName.StartLocation);
4955 } else if (!T) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004956 Diag(SecondTypeName.StartLocation,
Douglas Gregor77549082010-02-24 21:29:12 +00004957 diag::err_pseudo_dtor_destructor_non_type)
4958 << SecondTypeName.Identifier << ObjectType;
4959 if (isSFINAEContext())
4960 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004961
Douglas Gregor77549082010-02-24 21:29:12 +00004962 // Recover by assuming we had the right type all along.
4963 DestructedType = ObjectType;
Douglas Gregorb57fb492010-02-24 22:38:50 +00004964 } else
Douglas Gregor77549082010-02-24 21:29:12 +00004965 DestructedType = GetTypeFromParser(T, &DestructedTypeInfo);
Douglas Gregor77549082010-02-24 21:29:12 +00004966 } else {
Douglas Gregorb57fb492010-02-24 22:38:50 +00004967 // Resolve the template-id to a type.
Douglas Gregor77549082010-02-24 21:29:12 +00004968 TemplateIdAnnotation *TemplateId = SecondTypeName.TemplateId;
Douglas Gregorb57fb492010-02-24 22:38:50 +00004969 ASTTemplateArgsPtr TemplateArgsPtr(*this,
4970 TemplateId->getTemplateArgs(),
4971 TemplateId->NumArgs);
Douglas Gregor059101f2011-03-02 00:47:37 +00004972 TypeResult T = ActOnTemplateIdType(TemplateId->SS,
Abramo Bagnara55d23c92012-02-06 14:41:24 +00004973 TemplateId->TemplateKWLoc,
Douglas Gregor059101f2011-03-02 00:47:37 +00004974 TemplateId->Template,
Douglas Gregorb57fb492010-02-24 22:38:50 +00004975 TemplateId->TemplateNameLoc,
4976 TemplateId->LAngleLoc,
4977 TemplateArgsPtr,
4978 TemplateId->RAngleLoc);
4979 if (T.isInvalid() || !T.get()) {
4980 // Recover by assuming we had the right type all along.
4981 DestructedType = ObjectType;
4982 } else
4983 DestructedType = GetTypeFromParser(T.get(), &DestructedTypeInfo);
Douglas Gregor77549082010-02-24 21:29:12 +00004984 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004985
4986 // If we've performed some kind of recovery, (re-)build the type source
Douglas Gregorb57fb492010-02-24 22:38:50 +00004987 // information.
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004988 if (!DestructedType.isNull()) {
4989 if (!DestructedTypeInfo)
4990 DestructedTypeInfo = Context.getTrivialTypeSourceInfo(DestructedType,
Douglas Gregorb57fb492010-02-24 22:38:50 +00004991 SecondTypeName.StartLocation);
Douglas Gregora2e7dd22010-02-25 01:56:36 +00004992 Destructed = PseudoDestructorTypeStorage(DestructedTypeInfo);
4993 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004994
Douglas Gregorb57fb492010-02-24 22:38:50 +00004995 // Convert the name of the scope type (the type prior to '::') into a type.
4996 TypeSourceInfo *ScopeTypeInfo = 0;
Douglas Gregor77549082010-02-24 21:29:12 +00004997 QualType ScopeType;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00004998 if (FirstTypeName.getKind() == UnqualifiedId::IK_TemplateId ||
Douglas Gregor77549082010-02-24 21:29:12 +00004999 FirstTypeName.Identifier) {
5000 if (FirstTypeName.getKind() == UnqualifiedId::IK_Identifier) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00005001 ParsedType T = getTypeName(*FirstTypeName.Identifier,
John McCallb3d87482010-08-24 05:47:05 +00005002 FirstTypeName.StartLocation,
Douglas Gregorf3db29f2011-02-25 18:19:59 +00005003 S, &SS, true, false, ObjectTypePtrForLookup);
Douglas Gregor77549082010-02-24 21:29:12 +00005004 if (!T) {
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00005005 Diag(FirstTypeName.StartLocation,
Douglas Gregor77549082010-02-24 21:29:12 +00005006 diag::err_pseudo_dtor_destructor_non_type)
5007 << FirstTypeName.Identifier << ObjectType;
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00005008
Douglas Gregorb57fb492010-02-24 22:38:50 +00005009 if (isSFINAEContext())
5010 return ExprError();
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00005011
Douglas Gregorb57fb492010-02-24 22:38:50 +00005012 // Just drop this type. It's unnecessary anyway.
5013 ScopeType = QualType();
5014 } else
5015 ScopeType = GetTypeFromParser(T, &ScopeTypeInfo);
Douglas Gregor77549082010-02-24 21:29:12 +00005016 } else {
Douglas Gregorb57fb492010-02-24 22:38:50 +00005017 // Resolve the template-id to a type.
Douglas Gregor77549082010-02-24 21:29:12 +00005018 TemplateIdAnnotation *TemplateId = FirstTypeName.TemplateId;
Douglas Gregorb57fb492010-02-24 22:38:50 +00005019 ASTTemplateArgsPtr TemplateArgsPtr(*this,
5020 TemplateId->getTemplateArgs(),
5021 TemplateId->NumArgs);
Douglas Gregor059101f2011-03-02 00:47:37 +00005022 TypeResult T = ActOnTemplateIdType(TemplateId->SS,
Abramo Bagnara55d23c92012-02-06 14:41:24 +00005023 TemplateId->TemplateKWLoc,
Douglas Gregor059101f2011-03-02 00:47:37 +00005024 TemplateId->Template,
Douglas Gregorb57fb492010-02-24 22:38:50 +00005025 TemplateId->TemplateNameLoc,
5026 TemplateId->LAngleLoc,
5027 TemplateArgsPtr,
5028 TemplateId->RAngleLoc);
5029 if (T.isInvalid() || !T.get()) {
5030 // Recover by dropping this type.
5031 ScopeType = QualType();
5032 } else
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00005033 ScopeType = GetTypeFromParser(T.get(), &ScopeTypeInfo);
Douglas Gregor77549082010-02-24 21:29:12 +00005034 }
5035 }
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00005036
Douglas Gregorb4a418f2010-02-24 23:02:30 +00005037 if (!ScopeType.isNull() && !ScopeTypeInfo)
5038 ScopeTypeInfo = Context.getTrivialTypeSourceInfo(ScopeType,
5039 FirstTypeName.StartLocation);
5040
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00005041
John McCall9ae2f072010-08-23 23:25:46 +00005042 return BuildPseudoDestructorExpr(Base, OpLoc, OpKind, SS,
Douglas Gregorfce46ee2010-02-24 23:50:37 +00005043 ScopeTypeInfo, CCLoc, TildeLoc,
Douglas Gregora2e7dd22010-02-25 01:56:36 +00005044 Destructed, HasTrailingLParen);
Douglas Gregord4dca082010-02-24 18:44:31 +00005045}
5046
David Blaikie91ec7892011-12-16 16:03:09 +00005047ExprResult Sema::ActOnPseudoDestructorExpr(Scope *S, Expr *Base,
5048 SourceLocation OpLoc,
5049 tok::TokenKind OpKind,
5050 SourceLocation TildeLoc,
5051 const DeclSpec& DS,
5052 bool HasTrailingLParen) {
Eli Friedman8c9fe202012-01-25 04:35:06 +00005053 QualType ObjectType;
David Blaikie91ec7892011-12-16 16:03:09 +00005054 if (CheckArrow(*this, ObjectType, Base, OpKind, OpLoc))
5055 return ExprError();
5056
5057 QualType T = BuildDecltypeType(DS.getRepAsExpr(), DS.getTypeSpecTypeLoc());
5058
5059 TypeLocBuilder TLB;
5060 DecltypeTypeLoc DecltypeTL = TLB.push<DecltypeTypeLoc>(T);
5061 DecltypeTL.setNameLoc(DS.getTypeSpecTypeLoc());
5062 TypeSourceInfo *DestructedTypeInfo = TLB.getTypeSourceInfo(Context, T);
5063 PseudoDestructorTypeStorage Destructed(DestructedTypeInfo);
5064
5065 return BuildPseudoDestructorExpr(Base, OpLoc, OpKind, CXXScopeSpec(),
5066 0, SourceLocation(), TildeLoc,
5067 Destructed, HasTrailingLParen);
5068}
5069
John Wiegley429bb272011-04-08 18:41:53 +00005070ExprResult Sema::BuildCXXMemberCallExpr(Expr *E, NamedDecl *FoundDecl,
Abramo Bagnara7cc58b42011-10-05 07:56:41 +00005071 CXXMethodDecl *Method,
5072 bool HadMultipleCandidates) {
John Wiegley429bb272011-04-08 18:41:53 +00005073 ExprResult Exp = PerformObjectArgumentInitialization(E, /*Qualifier=*/0,
5074 FoundDecl, Method);
5075 if (Exp.isInvalid())
Douglas Gregorf2ae5262011-01-20 00:18:04 +00005076 return true;
Eli Friedman772fffa2009-12-09 04:53:56 +00005077
NAKAMURA Takumidfbb02a2011-01-27 07:10:08 +00005078 MemberExpr *ME =
John Wiegley429bb272011-04-08 18:41:53 +00005079 new (Context) MemberExpr(Exp.take(), /*IsArrow=*/false, Method,
Abramo Bagnara960809e2011-11-16 22:46:05 +00005080 SourceLocation(), Context.BoundMemberTy,
John McCallf89e55a2010-11-18 06:31:45 +00005081 VK_RValue, OK_Ordinary);
Abramo Bagnara7cc58b42011-10-05 07:56:41 +00005082 if (HadMultipleCandidates)
5083 ME->setHadMultipleCandidates(true);
5084
John McCallf89e55a2010-11-18 06:31:45 +00005085 QualType ResultType = Method->getResultType();
5086 ExprValueKind VK = Expr::getValueKindForType(ResultType);
5087 ResultType = ResultType.getNonLValueExprType(Context);
5088
Eli Friedman5f2987c2012-02-02 03:46:19 +00005089 MarkFunctionReferenced(Exp.get()->getLocStart(), Method);
Douglas Gregor7edfb692009-11-23 12:27:39 +00005090 CXXMemberCallExpr *CE =
John McCallf89e55a2010-11-18 06:31:45 +00005091 new (Context) CXXMemberCallExpr(Context, ME, 0, 0, ResultType, VK,
John Wiegley429bb272011-04-08 18:41:53 +00005092 Exp.get()->getLocEnd());
Fariborz Jahanianb7400232009-09-28 23:23:40 +00005093 return CE;
5094}
5095
Sebastian Redl2e156222010-09-10 20:55:43 +00005096ExprResult Sema::BuildCXXNoexceptExpr(SourceLocation KeyLoc, Expr *Operand,
5097 SourceLocation RParen) {
Sebastian Redl2e156222010-09-10 20:55:43 +00005098 return Owned(new (Context) CXXNoexceptExpr(Context.BoolTy, Operand,
5099 Operand->CanThrow(Context),
5100 KeyLoc, RParen));
5101}
5102
5103ExprResult Sema::ActOnNoexceptExpr(SourceLocation KeyLoc, SourceLocation,
5104 Expr *Operand, SourceLocation RParen) {
5105 return BuildCXXNoexceptExpr(KeyLoc, Operand, RParen);
Sebastian Redl02bc21a2010-09-10 20:55:37 +00005106}
5107
John McCallf6a16482010-12-04 03:47:34 +00005108/// Perform the conversions required for an expression used in a
5109/// context that ignores the result.
John Wiegley429bb272011-04-08 18:41:53 +00005110ExprResult Sema::IgnoredValueConversions(Expr *E) {
John McCall3c3b7f92011-10-25 17:37:35 +00005111 if (E->hasPlaceholderType()) {
5112 ExprResult result = CheckPlaceholderExpr(E);
5113 if (result.isInvalid()) return Owned(E);
5114 E = result.take();
5115 }
5116
John McCalla878cda2010-12-02 02:07:15 +00005117 // C99 6.3.2.1:
5118 // [Except in specific positions,] an lvalue that does not have
5119 // array type is converted to the value stored in the
5120 // designated object (and is no longer an lvalue).
John McCalle6d134b2011-06-27 21:24:11 +00005121 if (E->isRValue()) {
5122 // In C, function designators (i.e. expressions of function type)
5123 // are r-values, but we still want to do function-to-pointer decay
5124 // on them. This is both technically correct and convenient for
5125 // some clients.
5126 if (!getLangOptions().CPlusPlus && E->getType()->isFunctionType())
5127 return DefaultFunctionArrayConversion(E);
5128
5129 return Owned(E);
5130 }
John McCalla878cda2010-12-02 02:07:15 +00005131
John McCallf6a16482010-12-04 03:47:34 +00005132 // Otherwise, this rule does not apply in C++, at least not for the moment.
John Wiegley429bb272011-04-08 18:41:53 +00005133 if (getLangOptions().CPlusPlus) return Owned(E);
John McCallf6a16482010-12-04 03:47:34 +00005134
5135 // GCC seems to also exclude expressions of incomplete enum type.
5136 if (const EnumType *T = E->getType()->getAs<EnumType>()) {
5137 if (!T->getDecl()->isComplete()) {
5138 // FIXME: stupid workaround for a codegen bug!
John Wiegley429bb272011-04-08 18:41:53 +00005139 E = ImpCastExprToType(E, Context.VoidTy, CK_ToVoid).take();
5140 return Owned(E);
John McCallf6a16482010-12-04 03:47:34 +00005141 }
5142 }
5143
John Wiegley429bb272011-04-08 18:41:53 +00005144 ExprResult Res = DefaultFunctionArrayLvalueConversion(E);
5145 if (Res.isInvalid())
5146 return Owned(E);
5147 E = Res.take();
5148
John McCall85515d62010-12-04 12:29:11 +00005149 if (!E->getType()->isVoidType())
5150 RequireCompleteType(E->getExprLoc(), E->getType(),
5151 diag::err_incomplete_type);
John Wiegley429bb272011-04-08 18:41:53 +00005152 return Owned(E);
John McCallf6a16482010-12-04 03:47:34 +00005153}
5154
John Wiegley429bb272011-04-08 18:41:53 +00005155ExprResult Sema::ActOnFinishFullExpr(Expr *FE) {
5156 ExprResult FullExpr = Owned(FE);
5157
5158 if (!FullExpr.get())
Douglas Gregorbebbe0d2010-12-15 01:34:56 +00005159 return ExprError();
John McCallf6a16482010-12-04 03:47:34 +00005160
John Wiegley429bb272011-04-08 18:41:53 +00005161 if (DiagnoseUnexpandedParameterPack(FullExpr.get()))
Douglas Gregord0937222010-12-13 22:49:22 +00005162 return ExprError();
5163
Douglas Gregor5e3a8be2011-12-15 00:53:32 +00005164 // Top-level message sends default to 'id' when we're in a debugger.
Sean Callanan50a9a122012-02-04 01:29:37 +00005165 if (getLangOptions().DebuggerCastResultToId &&
Douglas Gregor5e3a8be2011-12-15 00:53:32 +00005166 FullExpr.get()->getType() == Context.UnknownAnyTy &&
5167 isa<ObjCMessageExpr>(FullExpr.get())) {
5168 FullExpr = forceUnknownAnyToType(FullExpr.take(), Context.getObjCIdType());
5169 if (FullExpr.isInvalid())
5170 return ExprError();
5171 }
5172
John McCallfb8721c2011-04-10 19:13:55 +00005173 FullExpr = CheckPlaceholderExpr(FullExpr.take());
5174 if (FullExpr.isInvalid())
5175 return ExprError();
Douglas Gregor353ee242011-03-07 02:05:23 +00005176
John Wiegley429bb272011-04-08 18:41:53 +00005177 FullExpr = IgnoredValueConversions(FullExpr.take());
5178 if (FullExpr.isInvalid())
5179 return ExprError();
5180
Richard Trieuf1f8b1a2011-09-23 20:10:00 +00005181 CheckImplicitConversions(FullExpr.get(), FullExpr.get()->getExprLoc());
John McCall4765fa02010-12-06 08:20:24 +00005182 return MaybeCreateExprWithCleanups(FullExpr);
Anders Carlsson165a0a02009-05-17 18:41:29 +00005183}
Argyrios Kyrtzidisbf8cafa2010-11-02 02:33:08 +00005184
5185StmtResult Sema::ActOnFinishFullStmt(Stmt *FullStmt) {
5186 if (!FullStmt) return StmtError();
5187
John McCall4765fa02010-12-06 08:20:24 +00005188 return MaybeCreateStmtWithCleanups(FullStmt);
Argyrios Kyrtzidisbf8cafa2010-11-02 02:33:08 +00005189}
Francois Pichet1e862692011-05-06 20:48:22 +00005190
Douglas Gregorba0513d2011-10-25 01:33:02 +00005191Sema::IfExistsResult
5192Sema::CheckMicrosoftIfExistsSymbol(Scope *S,
5193 CXXScopeSpec &SS,
5194 const DeclarationNameInfo &TargetNameInfo) {
Francois Pichet1e862692011-05-06 20:48:22 +00005195 DeclarationName TargetName = TargetNameInfo.getName();
5196 if (!TargetName)
Douglas Gregor3896fc52011-10-24 22:31:10 +00005197 return IER_DoesNotExist;
Douglas Gregorba0513d2011-10-25 01:33:02 +00005198
Douglas Gregor3896fc52011-10-24 22:31:10 +00005199 // If the name itself is dependent, then the result is dependent.
5200 if (TargetName.isDependentName())
5201 return IER_Dependent;
Douglas Gregorba0513d2011-10-25 01:33:02 +00005202
Francois Pichet1e862692011-05-06 20:48:22 +00005203 // Do the redeclaration lookup in the current scope.
5204 LookupResult R(*this, TargetNameInfo, Sema::LookupAnyName,
5205 Sema::NotForRedeclaration);
Douglas Gregor3896fc52011-10-24 22:31:10 +00005206 LookupParsedName(R, S, &SS);
Francois Pichet1e862692011-05-06 20:48:22 +00005207 R.suppressDiagnostics();
Douglas Gregor3896fc52011-10-24 22:31:10 +00005208
5209 switch (R.getResultKind()) {
5210 case LookupResult::Found:
5211 case LookupResult::FoundOverloaded:
5212 case LookupResult::FoundUnresolvedValue:
5213 case LookupResult::Ambiguous:
5214 return IER_Exists;
5215
5216 case LookupResult::NotFound:
5217 return IER_DoesNotExist;
5218
5219 case LookupResult::NotFoundInCurrentInstantiation:
5220 return IER_Dependent;
5221 }
David Blaikie7530c032012-01-17 06:56:22 +00005222
5223 llvm_unreachable("Invalid LookupResult Kind!");
Francois Pichet1e862692011-05-06 20:48:22 +00005224}
Douglas Gregorba0513d2011-10-25 01:33:02 +00005225
Douglas Gregor65019ac2011-10-25 03:44:56 +00005226Sema::IfExistsResult
5227Sema::CheckMicrosoftIfExistsSymbol(Scope *S, SourceLocation KeywordLoc,
5228 bool IsIfExists, CXXScopeSpec &SS,
5229 UnqualifiedId &Name) {
Douglas Gregorba0513d2011-10-25 01:33:02 +00005230 DeclarationNameInfo TargetNameInfo = GetNameFromUnqualifiedId(Name);
Douglas Gregor65019ac2011-10-25 03:44:56 +00005231
5232 // Check for unexpanded parameter packs.
5233 SmallVector<UnexpandedParameterPack, 4> Unexpanded;
5234 collectUnexpandedParameterPacks(SS, Unexpanded);
5235 collectUnexpandedParameterPacks(TargetNameInfo, Unexpanded);
5236 if (!Unexpanded.empty()) {
5237 DiagnoseUnexpandedParameterPacks(KeywordLoc,
5238 IsIfExists? UPPC_IfExists
5239 : UPPC_IfNotExists,
5240 Unexpanded);
5241 return IER_Error;
5242 }
5243
Douglas Gregorba0513d2011-10-25 01:33:02 +00005244 return CheckMicrosoftIfExistsSymbol(S, SS, TargetNameInfo);
5245}