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Chris Lattner3d1cee32008-04-08 05:04:30 +00001//===------ SemaDeclCXX.cpp - Semantic Analysis for C++ Declarations ------===//
2//
3// The LLVM Compiler Infrastructure
4//
5// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
7//
8//===----------------------------------------------------------------------===//
9//
10// This file implements semantic analysis for C++ declarations.
11//
12//===----------------------------------------------------------------------===//
13
14#include "Sema.h"
Douglas Gregor7ad83902008-11-05 04:29:56 +000015#include "SemaInherit.h"
Argyrios Kyrtzidisa4755c62008-08-09 00:58:37 +000016#include "clang/AST/ASTConsumer.h"
Douglas Gregore37ac4f2008-04-13 21:30:24 +000017#include "clang/AST/ASTContext.h"
Anders Carlsson8211eff2009-03-24 01:19:16 +000018#include "clang/AST/DeclVisitor.h"
Douglas Gregor02189362008-10-22 21:13:31 +000019#include "clang/AST/TypeOrdering.h"
Chris Lattner8123a952008-04-10 02:22:51 +000020#include "clang/AST/StmtVisitor.h"
Argyrios Kyrtzidis06ad1f52008-10-06 18:37:09 +000021#include "clang/Lex/Preprocessor.h"
Daniel Dunbar12bc6922008-08-11 03:27:53 +000022#include "clang/Parse/DeclSpec.h"
Douglas Gregor3fc749d2008-12-23 00:26:44 +000023#include "llvm/ADT/STLExtras.h"
Chris Lattner8123a952008-04-10 02:22:51 +000024#include "llvm/Support/Compiler.h"
Douglas Gregor8e9bebd2008-10-21 16:13:35 +000025#include <algorithm> // for std::equal
Douglas Gregorf8268ae2008-10-22 17:49:05 +000026#include <map>
Chris Lattner3d1cee32008-04-08 05:04:30 +000027
28using namespace clang;
29
Chris Lattner8123a952008-04-10 02:22:51 +000030//===----------------------------------------------------------------------===//
31// CheckDefaultArgumentVisitor
32//===----------------------------------------------------------------------===//
33
Chris Lattner9e979552008-04-12 23:52:44 +000034namespace {
35 /// CheckDefaultArgumentVisitor - C++ [dcl.fct.default] Traverses
36 /// the default argument of a parameter to determine whether it
37 /// contains any ill-formed subexpressions. For example, this will
38 /// diagnose the use of local variables or parameters within the
39 /// default argument expression.
40 class VISIBILITY_HIDDEN CheckDefaultArgumentVisitor
Chris Lattnerb77792e2008-07-26 22:17:49 +000041 : public StmtVisitor<CheckDefaultArgumentVisitor, bool> {
Chris Lattner9e979552008-04-12 23:52:44 +000042 Expr *DefaultArg;
43 Sema *S;
Chris Lattner8123a952008-04-10 02:22:51 +000044
Chris Lattner9e979552008-04-12 23:52:44 +000045 public:
46 CheckDefaultArgumentVisitor(Expr *defarg, Sema *s)
47 : DefaultArg(defarg), S(s) {}
Chris Lattner8123a952008-04-10 02:22:51 +000048
Chris Lattner9e979552008-04-12 23:52:44 +000049 bool VisitExpr(Expr *Node);
50 bool VisitDeclRefExpr(DeclRefExpr *DRE);
Douglas Gregor796da182008-11-04 14:32:21 +000051 bool VisitCXXThisExpr(CXXThisExpr *ThisE);
Chris Lattner9e979552008-04-12 23:52:44 +000052 };
Chris Lattner8123a952008-04-10 02:22:51 +000053
Chris Lattner9e979552008-04-12 23:52:44 +000054 /// VisitExpr - Visit all of the children of this expression.
55 bool CheckDefaultArgumentVisitor::VisitExpr(Expr *Node) {
56 bool IsInvalid = false;
Chris Lattnerb77792e2008-07-26 22:17:49 +000057 for (Stmt::child_iterator I = Node->child_begin(),
58 E = Node->child_end(); I != E; ++I)
59 IsInvalid |= Visit(*I);
Chris Lattner9e979552008-04-12 23:52:44 +000060 return IsInvalid;
Chris Lattner8123a952008-04-10 02:22:51 +000061 }
62
Chris Lattner9e979552008-04-12 23:52:44 +000063 /// VisitDeclRefExpr - Visit a reference to a declaration, to
64 /// determine whether this declaration can be used in the default
65 /// argument expression.
66 bool CheckDefaultArgumentVisitor::VisitDeclRefExpr(DeclRefExpr *DRE) {
Douglas Gregor8e9bebd2008-10-21 16:13:35 +000067 NamedDecl *Decl = DRE->getDecl();
Chris Lattner9e979552008-04-12 23:52:44 +000068 if (ParmVarDecl *Param = dyn_cast<ParmVarDecl>(Decl)) {
69 // C++ [dcl.fct.default]p9
70 // Default arguments are evaluated each time the function is
71 // called. The order of evaluation of function arguments is
72 // unspecified. Consequently, parameters of a function shall not
73 // be used in default argument expressions, even if they are not
74 // evaluated. Parameters of a function declared before a default
75 // argument expression are in scope and can hide namespace and
76 // class member names.
77 return S->Diag(DRE->getSourceRange().getBegin(),
Chris Lattnerfa25bbb2008-11-19 05:08:23 +000078 diag::err_param_default_argument_references_param)
Chris Lattner08631c52008-11-23 21:45:46 +000079 << Param->getDeclName() << DefaultArg->getSourceRange();
Steve Naroff248a7532008-04-15 22:42:06 +000080 } else if (VarDecl *VDecl = dyn_cast<VarDecl>(Decl)) {
Chris Lattner9e979552008-04-12 23:52:44 +000081 // C++ [dcl.fct.default]p7
82 // Local variables shall not be used in default argument
83 // expressions.
Steve Naroff248a7532008-04-15 22:42:06 +000084 if (VDecl->isBlockVarDecl())
85 return S->Diag(DRE->getSourceRange().getBegin(),
Chris Lattnerfa25bbb2008-11-19 05:08:23 +000086 diag::err_param_default_argument_references_local)
Chris Lattner08631c52008-11-23 21:45:46 +000087 << VDecl->getDeclName() << DefaultArg->getSourceRange();
Chris Lattner9e979552008-04-12 23:52:44 +000088 }
Chris Lattner8123a952008-04-10 02:22:51 +000089
Douglas Gregor3996f232008-11-04 13:41:56 +000090 return false;
91 }
Chris Lattner9e979552008-04-12 23:52:44 +000092
Douglas Gregor796da182008-11-04 14:32:21 +000093 /// VisitCXXThisExpr - Visit a C++ "this" expression.
94 bool CheckDefaultArgumentVisitor::VisitCXXThisExpr(CXXThisExpr *ThisE) {
95 // C++ [dcl.fct.default]p8:
96 // The keyword this shall not be used in a default argument of a
97 // member function.
98 return S->Diag(ThisE->getSourceRange().getBegin(),
Chris Lattnerfa25bbb2008-11-19 05:08:23 +000099 diag::err_param_default_argument_references_this)
100 << ThisE->getSourceRange();
Chris Lattner9e979552008-04-12 23:52:44 +0000101 }
Chris Lattner8123a952008-04-10 02:22:51 +0000102}
103
104/// ActOnParamDefaultArgument - Check whether the default argument
105/// provided for a function parameter is well-formed. If so, attach it
106/// to the parameter declaration.
Chris Lattner3d1cee32008-04-08 05:04:30 +0000107void
Chris Lattnerb28317a2009-03-28 19:18:32 +0000108Sema::ActOnParamDefaultArgument(DeclPtrTy param, SourceLocation EqualLoc,
Sebastian Redlf53597f2009-03-15 17:47:39 +0000109 ExprArg defarg) {
Chris Lattnerb28317a2009-03-28 19:18:32 +0000110 ParmVarDecl *Param = cast<ParmVarDecl>(param.getAs<Decl>());
Sebastian Redlf53597f2009-03-15 17:47:39 +0000111 ExprOwningPtr<Expr> DefaultArg(this, (Expr *)defarg.release());
Chris Lattner3d1cee32008-04-08 05:04:30 +0000112 QualType ParamType = Param->getType();
113
114 // Default arguments are only permitted in C++
115 if (!getLangOptions().CPlusPlus) {
Chris Lattnerfa25bbb2008-11-19 05:08:23 +0000116 Diag(EqualLoc, diag::err_param_default_argument)
117 << DefaultArg->getSourceRange();
Douglas Gregor72b505b2008-12-16 21:30:33 +0000118 Param->setInvalidDecl();
Chris Lattner3d1cee32008-04-08 05:04:30 +0000119 return;
120 }
121
122 // C++ [dcl.fct.default]p5
123 // A default argument expression is implicitly converted (clause
124 // 4) to the parameter type. The default argument expression has
125 // the same semantic constraints as the initializer expression in
126 // a declaration of a variable of the parameter type, using the
127 // copy-initialization semantics (8.5).
Chris Lattner3d1cee32008-04-08 05:04:30 +0000128 Expr *DefaultArgPtr = DefaultArg.get();
Douglas Gregor61366e92008-12-24 00:01:03 +0000129 bool DefaultInitFailed = CheckInitializerTypes(DefaultArgPtr, ParamType,
130 EqualLoc,
Douglas Gregor09f41cf2009-01-14 15:45:31 +0000131 Param->getDeclName(),
132 /*DirectInit=*/false);
Chris Lattner3d1cee32008-04-08 05:04:30 +0000133 if (DefaultArgPtr != DefaultArg.get()) {
134 DefaultArg.take();
135 DefaultArg.reset(DefaultArgPtr);
136 }
Douglas Gregoreb704f22008-11-04 13:57:51 +0000137 if (DefaultInitFailed) {
Chris Lattner3d1cee32008-04-08 05:04:30 +0000138 return;
139 }
140
Chris Lattner8123a952008-04-10 02:22:51 +0000141 // Check that the default argument is well-formed
Chris Lattner9e979552008-04-12 23:52:44 +0000142 CheckDefaultArgumentVisitor DefaultArgChecker(DefaultArg.get(), this);
Douglas Gregor72b505b2008-12-16 21:30:33 +0000143 if (DefaultArgChecker.Visit(DefaultArg.get())) {
144 Param->setInvalidDecl();
Chris Lattner8123a952008-04-10 02:22:51 +0000145 return;
Douglas Gregor72b505b2008-12-16 21:30:33 +0000146 }
Chris Lattner8123a952008-04-10 02:22:51 +0000147
Chris Lattner3d1cee32008-04-08 05:04:30 +0000148 // Okay: add the default argument to the parameter
149 Param->setDefaultArg(DefaultArg.take());
150}
151
Douglas Gregor61366e92008-12-24 00:01:03 +0000152/// ActOnParamUnparsedDefaultArgument - We've seen a default
153/// argument for a function parameter, but we can't parse it yet
154/// because we're inside a class definition. Note that this default
155/// argument will be parsed later.
Chris Lattnerb28317a2009-03-28 19:18:32 +0000156void Sema::ActOnParamUnparsedDefaultArgument(DeclPtrTy param,
Douglas Gregor61366e92008-12-24 00:01:03 +0000157 SourceLocation EqualLoc) {
Chris Lattnerb28317a2009-03-28 19:18:32 +0000158 ParmVarDecl *Param = cast<ParmVarDecl>(param.getAs<Decl>());
Douglas Gregor61366e92008-12-24 00:01:03 +0000159 if (Param)
160 Param->setUnparsedDefaultArg();
161}
162
Douglas Gregor72b505b2008-12-16 21:30:33 +0000163/// ActOnParamDefaultArgumentError - Parsing or semantic analysis of
164/// the default argument for the parameter param failed.
Chris Lattnerb28317a2009-03-28 19:18:32 +0000165void Sema::ActOnParamDefaultArgumentError(DeclPtrTy param) {
166 cast<ParmVarDecl>(param.getAs<Decl>())->setInvalidDecl();
Douglas Gregor72b505b2008-12-16 21:30:33 +0000167}
168
Douglas Gregor6d6eb572008-05-07 04:49:29 +0000169/// CheckExtraCXXDefaultArguments - Check for any extra default
170/// arguments in the declarator, which is not a function declaration
171/// or definition and therefore is not permitted to have default
172/// arguments. This routine should be invoked for every declarator
173/// that is not a function declaration or definition.
174void Sema::CheckExtraCXXDefaultArguments(Declarator &D) {
175 // C++ [dcl.fct.default]p3
176 // A default argument expression shall be specified only in the
177 // parameter-declaration-clause of a function declaration or in a
178 // template-parameter (14.1). It shall not be specified for a
179 // parameter pack. If it is specified in a
180 // parameter-declaration-clause, it shall not occur within a
181 // declarator or abstract-declarator of a parameter-declaration.
Chris Lattnerb28317a2009-03-28 19:18:32 +0000182 for (unsigned i = 0, e = D.getNumTypeObjects(); i != e; ++i) {
Douglas Gregor6d6eb572008-05-07 04:49:29 +0000183 DeclaratorChunk &chunk = D.getTypeObject(i);
184 if (chunk.Kind == DeclaratorChunk::Function) {
Chris Lattnerb28317a2009-03-28 19:18:32 +0000185 for (unsigned argIdx = 0, e = chunk.Fun.NumArgs; argIdx != e; ++argIdx) {
186 ParmVarDecl *Param =
187 cast<ParmVarDecl>(chunk.Fun.ArgInfo[argIdx].Param.getAs<Decl>());
Douglas Gregor61366e92008-12-24 00:01:03 +0000188 if (Param->hasUnparsedDefaultArg()) {
189 CachedTokens *Toks = chunk.Fun.ArgInfo[argIdx].DefaultArgTokens;
Douglas Gregor72b505b2008-12-16 21:30:33 +0000190 Diag(Param->getLocation(), diag::err_param_default_argument_nonfunc)
191 << SourceRange((*Toks)[1].getLocation(), Toks->back().getLocation());
192 delete Toks;
193 chunk.Fun.ArgInfo[argIdx].DefaultArgTokens = 0;
Douglas Gregor61366e92008-12-24 00:01:03 +0000194 } else if (Param->getDefaultArg()) {
195 Diag(Param->getLocation(), diag::err_param_default_argument_nonfunc)
196 << Param->getDefaultArg()->getSourceRange();
197 Param->setDefaultArg(0);
Douglas Gregor6d6eb572008-05-07 04:49:29 +0000198 }
199 }
200 }
201 }
202}
203
Chris Lattner3d1cee32008-04-08 05:04:30 +0000204// MergeCXXFunctionDecl - Merge two declarations of the same C++
205// function, once we already know that they have the same
Douglas Gregorcda9c672009-02-16 17:45:42 +0000206// type. Subroutine of MergeFunctionDecl. Returns true if there was an
207// error, false otherwise.
208bool Sema::MergeCXXFunctionDecl(FunctionDecl *New, FunctionDecl *Old) {
209 bool Invalid = false;
210
Chris Lattner3d1cee32008-04-08 05:04:30 +0000211 // C++ [dcl.fct.default]p4:
212 //
213 // For non-template functions, default arguments can be added in
214 // later declarations of a function in the same
215 // scope. Declarations in different scopes have completely
216 // distinct sets of default arguments. That is, declarations in
217 // inner scopes do not acquire default arguments from
218 // declarations in outer scopes, and vice versa. In a given
219 // function declaration, all parameters subsequent to a
220 // parameter with a default argument shall have default
221 // arguments supplied in this or previous declarations. A
222 // default argument shall not be redefined by a later
223 // declaration (not even to the same value).
224 for (unsigned p = 0, NumParams = Old->getNumParams(); p < NumParams; ++p) {
225 ParmVarDecl *OldParam = Old->getParamDecl(p);
226 ParmVarDecl *NewParam = New->getParamDecl(p);
227
228 if(OldParam->getDefaultArg() && NewParam->getDefaultArg()) {
229 Diag(NewParam->getLocation(),
Chris Lattnerfa25bbb2008-11-19 05:08:23 +0000230 diag::err_param_default_argument_redefinition)
231 << NewParam->getDefaultArg()->getSourceRange();
Chris Lattner5f4a6822008-11-23 23:12:31 +0000232 Diag(OldParam->getLocation(), diag::note_previous_definition);
Douglas Gregorcda9c672009-02-16 17:45:42 +0000233 Invalid = true;
Chris Lattner3d1cee32008-04-08 05:04:30 +0000234 } else if (OldParam->getDefaultArg()) {
235 // Merge the old default argument into the new parameter
236 NewParam->setDefaultArg(OldParam->getDefaultArg());
237 }
238 }
239
Douglas Gregorcda9c672009-02-16 17:45:42 +0000240 return Invalid;
Chris Lattner3d1cee32008-04-08 05:04:30 +0000241}
242
243/// CheckCXXDefaultArguments - Verify that the default arguments for a
244/// function declaration are well-formed according to C++
245/// [dcl.fct.default].
246void Sema::CheckCXXDefaultArguments(FunctionDecl *FD) {
247 unsigned NumParams = FD->getNumParams();
248 unsigned p;
249
250 // Find first parameter with a default argument
251 for (p = 0; p < NumParams; ++p) {
252 ParmVarDecl *Param = FD->getParamDecl(p);
253 if (Param->getDefaultArg())
254 break;
255 }
256
257 // C++ [dcl.fct.default]p4:
258 // In a given function declaration, all parameters
259 // subsequent to a parameter with a default argument shall
260 // have default arguments supplied in this or previous
261 // declarations. A default argument shall not be redefined
262 // by a later declaration (not even to the same value).
263 unsigned LastMissingDefaultArg = 0;
264 for(; p < NumParams; ++p) {
265 ParmVarDecl *Param = FD->getParamDecl(p);
266 if (!Param->getDefaultArg()) {
Douglas Gregor72b505b2008-12-16 21:30:33 +0000267 if (Param->isInvalidDecl())
268 /* We already complained about this parameter. */;
269 else if (Param->getIdentifier())
Chris Lattner3d1cee32008-04-08 05:04:30 +0000270 Diag(Param->getLocation(),
Chris Lattnerfa25bbb2008-11-19 05:08:23 +0000271 diag::err_param_default_argument_missing_name)
Chris Lattner43b628c2008-11-19 07:32:16 +0000272 << Param->getIdentifier();
Chris Lattner3d1cee32008-04-08 05:04:30 +0000273 else
274 Diag(Param->getLocation(),
275 diag::err_param_default_argument_missing);
276
277 LastMissingDefaultArg = p;
278 }
279 }
280
281 if (LastMissingDefaultArg > 0) {
282 // Some default arguments were missing. Clear out all of the
283 // default arguments up to (and including) the last missing
284 // default argument, so that we leave the function parameters
285 // in a semantically valid state.
286 for (p = 0; p <= LastMissingDefaultArg; ++p) {
287 ParmVarDecl *Param = FD->getParamDecl(p);
288 if (Param->getDefaultArg()) {
Douglas Gregor61366e92008-12-24 00:01:03 +0000289 if (!Param->hasUnparsedDefaultArg())
290 Param->getDefaultArg()->Destroy(Context);
Chris Lattner3d1cee32008-04-08 05:04:30 +0000291 Param->setDefaultArg(0);
292 }
293 }
294 }
295}
Douglas Gregore37ac4f2008-04-13 21:30:24 +0000296
Douglas Gregorb48fe382008-10-31 09:07:45 +0000297/// isCurrentClassName - Determine whether the identifier II is the
298/// name of the class type currently being defined. In the case of
299/// nested classes, this will only return true if II is the name of
300/// the innermost class.
Argyrios Kyrtzidiseb83ecd2008-11-08 16:45:02 +0000301bool Sema::isCurrentClassName(const IdentifierInfo &II, Scope *,
302 const CXXScopeSpec *SS) {
Argyrios Kyrtzidisef6e6472008-11-08 17:17:31 +0000303 CXXRecordDecl *CurDecl;
Douglas Gregore4e5b052009-03-19 00:18:19 +0000304 if (SS && SS->isSet() && !SS->isInvalid()) {
305 DeclContext *DC = computeDeclContext(*SS);
Argyrios Kyrtzidisef6e6472008-11-08 17:17:31 +0000306 CurDecl = dyn_cast_or_null<CXXRecordDecl>(DC);
307 } else
308 CurDecl = dyn_cast_or_null<CXXRecordDecl>(CurContext);
309
310 if (CurDecl)
Douglas Gregorb48fe382008-10-31 09:07:45 +0000311 return &II == CurDecl->getIdentifier();
312 else
313 return false;
314}
315
Douglas Gregor2943aed2009-03-03 04:44:36 +0000316/// \brief Check the validity of a C++ base class specifier.
317///
318/// \returns a new CXXBaseSpecifier if well-formed, emits diagnostics
319/// and returns NULL otherwise.
320CXXBaseSpecifier *
321Sema::CheckBaseSpecifier(CXXRecordDecl *Class,
322 SourceRange SpecifierRange,
323 bool Virtual, AccessSpecifier Access,
324 QualType BaseType,
325 SourceLocation BaseLoc) {
326 // C++ [class.union]p1:
327 // A union shall not have base classes.
328 if (Class->isUnion()) {
329 Diag(Class->getLocation(), diag::err_base_clause_on_union)
330 << SpecifierRange;
331 return 0;
332 }
333
334 if (BaseType->isDependentType())
335 return new CXXBaseSpecifier(SpecifierRange, Virtual,
336 Class->getTagKind() == RecordDecl::TK_class,
337 Access, BaseType);
338
339 // Base specifiers must be record types.
340 if (!BaseType->isRecordType()) {
341 Diag(BaseLoc, diag::err_base_must_be_class) << SpecifierRange;
342 return 0;
343 }
344
345 // C++ [class.union]p1:
346 // A union shall not be used as a base class.
347 if (BaseType->isUnionType()) {
348 Diag(BaseLoc, diag::err_union_as_base_class) << SpecifierRange;
349 return 0;
350 }
351
352 // C++ [class.derived]p2:
353 // The class-name in a base-specifier shall not be an incompletely
354 // defined class.
Douglas Gregor86447ec2009-03-09 16:13:40 +0000355 if (RequireCompleteType(BaseLoc, BaseType, diag::err_incomplete_base_class,
Douglas Gregor26dce442009-03-10 00:06:19 +0000356 SpecifierRange))
Douglas Gregor2943aed2009-03-03 04:44:36 +0000357 return 0;
358
359 // If the base class is polymorphic, the new one is, too.
360 RecordDecl *BaseDecl = BaseType->getAsRecordType()->getDecl();
361 assert(BaseDecl && "Record type has no declaration");
362 BaseDecl = BaseDecl->getDefinition(Context);
363 assert(BaseDecl && "Base type is not incomplete, but has no definition");
364 if (cast<CXXRecordDecl>(BaseDecl)->isPolymorphic())
365 Class->setPolymorphic(true);
366
367 // C++ [dcl.init.aggr]p1:
368 // An aggregate is [...] a class with [...] no base classes [...].
369 Class->setAggregate(false);
370 Class->setPOD(false);
371
372 // Create the base specifier.
373 // FIXME: Allocate via ASTContext?
374 return new CXXBaseSpecifier(SpecifierRange, Virtual,
375 Class->getTagKind() == RecordDecl::TK_class,
376 Access, BaseType);
377}
378
Douglas Gregore37ac4f2008-04-13 21:30:24 +0000379/// ActOnBaseSpecifier - Parsed a base specifier. A base specifier is
380/// one entry in the base class list of a class specifier, for
381/// example:
382/// class foo : public bar, virtual private baz {
383/// 'public bar' and 'virtual private baz' are each base-specifiers.
Douglas Gregorf8268ae2008-10-22 17:49:05 +0000384Sema::BaseResult
Chris Lattnerb28317a2009-03-28 19:18:32 +0000385Sema::ActOnBaseSpecifier(DeclPtrTy classdecl, SourceRange SpecifierRange,
Douglas Gregorf8268ae2008-10-22 17:49:05 +0000386 bool Virtual, AccessSpecifier Access,
387 TypeTy *basetype, SourceLocation BaseLoc) {
Douglas Gregor40808ce2009-03-09 23:48:35 +0000388 AdjustDeclIfTemplate(classdecl);
Chris Lattnerb28317a2009-03-28 19:18:32 +0000389 CXXRecordDecl *Class = cast<CXXRecordDecl>(classdecl.getAs<Decl>());
Douglas Gregor1a51b4a2009-02-09 15:09:02 +0000390 QualType BaseType = QualType::getFromOpaquePtr(basetype);
Douglas Gregor2943aed2009-03-03 04:44:36 +0000391 if (CXXBaseSpecifier *BaseSpec = CheckBaseSpecifier(Class, SpecifierRange,
392 Virtual, Access,
393 BaseType, BaseLoc))
394 return BaseSpec;
395
396 return true;
Douglas Gregorf8268ae2008-10-22 17:49:05 +0000397}
Douglas Gregore37ac4f2008-04-13 21:30:24 +0000398
Douglas Gregor2943aed2009-03-03 04:44:36 +0000399/// \brief Performs the actual work of attaching the given base class
400/// specifiers to a C++ class.
401bool Sema::AttachBaseSpecifiers(CXXRecordDecl *Class, CXXBaseSpecifier **Bases,
402 unsigned NumBases) {
403 if (NumBases == 0)
404 return false;
Douglas Gregorf8268ae2008-10-22 17:49:05 +0000405
406 // Used to keep track of which base types we have already seen, so
407 // that we can properly diagnose redundant direct base types. Note
Douglas Gregor57c856b2008-10-23 18:13:27 +0000408 // that the key is always the unqualified canonical type of the base
409 // class.
Douglas Gregorf8268ae2008-10-22 17:49:05 +0000410 std::map<QualType, CXXBaseSpecifier*, QualTypeOrdering> KnownBaseTypes;
411
412 // Copy non-redundant base specifiers into permanent storage.
Douglas Gregor57c856b2008-10-23 18:13:27 +0000413 unsigned NumGoodBases = 0;
Douglas Gregor2943aed2009-03-03 04:44:36 +0000414 bool Invalid = false;
Douglas Gregor57c856b2008-10-23 18:13:27 +0000415 for (unsigned idx = 0; idx < NumBases; ++idx) {
Douglas Gregorf8268ae2008-10-22 17:49:05 +0000416 QualType NewBaseType
Douglas Gregor2943aed2009-03-03 04:44:36 +0000417 = Context.getCanonicalType(Bases[idx]->getType());
Douglas Gregor57c856b2008-10-23 18:13:27 +0000418 NewBaseType = NewBaseType.getUnqualifiedType();
419
Douglas Gregorf8268ae2008-10-22 17:49:05 +0000420 if (KnownBaseTypes[NewBaseType]) {
421 // C++ [class.mi]p3:
422 // A class shall not be specified as a direct base class of a
423 // derived class more than once.
Douglas Gregor2943aed2009-03-03 04:44:36 +0000424 Diag(Bases[idx]->getSourceRange().getBegin(),
Chris Lattnerfa25bbb2008-11-19 05:08:23 +0000425 diag::err_duplicate_base_class)
Chris Lattnerd1625842008-11-24 06:25:27 +0000426 << KnownBaseTypes[NewBaseType]->getType()
Douglas Gregor2943aed2009-03-03 04:44:36 +0000427 << Bases[idx]->getSourceRange();
Douglas Gregor57c856b2008-10-23 18:13:27 +0000428
429 // Delete the duplicate base class specifier; we're going to
430 // overwrite its pointer later.
Douglas Gregor2943aed2009-03-03 04:44:36 +0000431 delete Bases[idx];
432
433 Invalid = true;
Douglas Gregorf8268ae2008-10-22 17:49:05 +0000434 } else {
435 // Okay, add this new base class.
Douglas Gregor2943aed2009-03-03 04:44:36 +0000436 KnownBaseTypes[NewBaseType] = Bases[idx];
437 Bases[NumGoodBases++] = Bases[idx];
Douglas Gregorf8268ae2008-10-22 17:49:05 +0000438 }
439 }
440
441 // Attach the remaining base class specifiers to the derived class.
Douglas Gregor2943aed2009-03-03 04:44:36 +0000442 Class->setBases(Bases, NumGoodBases);
Douglas Gregor57c856b2008-10-23 18:13:27 +0000443
444 // Delete the remaining (good) base class specifiers, since their
445 // data has been copied into the CXXRecordDecl.
446 for (unsigned idx = 0; idx < NumGoodBases; ++idx)
Douglas Gregor2943aed2009-03-03 04:44:36 +0000447 delete Bases[idx];
448
449 return Invalid;
450}
451
452/// ActOnBaseSpecifiers - Attach the given base specifiers to the
453/// class, after checking whether there are any duplicate base
454/// classes.
Chris Lattnerb28317a2009-03-28 19:18:32 +0000455void Sema::ActOnBaseSpecifiers(DeclPtrTy ClassDecl, BaseTy **Bases,
Douglas Gregor2943aed2009-03-03 04:44:36 +0000456 unsigned NumBases) {
457 if (!ClassDecl || !Bases || !NumBases)
458 return;
459
460 AdjustDeclIfTemplate(ClassDecl);
Chris Lattnerb28317a2009-03-28 19:18:32 +0000461 AttachBaseSpecifiers(cast<CXXRecordDecl>(ClassDecl.getAs<Decl>()),
Douglas Gregor2943aed2009-03-03 04:44:36 +0000462 (CXXBaseSpecifier**)(Bases), NumBases);
Douglas Gregore37ac4f2008-04-13 21:30:24 +0000463}
Argyrios Kyrtzidis2d1c5d32008-04-27 13:50:30 +0000464
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000465//===----------------------------------------------------------------------===//
466// C++ class member Handling
467//===----------------------------------------------------------------------===//
468
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000469/// ActOnCXXMemberDeclarator - This is invoked when a C++ class member
470/// declarator is parsed. 'AS' is the access specifier, 'BW' specifies the
471/// bitfield width if there is one and 'InitExpr' specifies the initializer if
472/// any. 'LastInGroup' is non-null for cases where one declspec has multiple
473/// declarators on it.
Chris Lattnerb28317a2009-03-28 19:18:32 +0000474Sema::DeclPtrTy
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000475Sema::ActOnCXXMemberDeclarator(Scope *S, AccessSpecifier AS, Declarator &D,
Sebastian Redle2b68332009-04-12 17:16:29 +0000476 ExprTy *BW, ExprTy *InitExpr, bool Deleted) {
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000477 const DeclSpec &DS = D.getDeclSpec();
Douglas Gregor10bd3682008-11-17 22:58:34 +0000478 DeclarationName Name = GetNameForDeclarator(D);
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000479 Expr *BitWidth = static_cast<Expr*>(BW);
480 Expr *Init = static_cast<Expr*>(InitExpr);
481 SourceLocation Loc = D.getIdentifierLoc();
482
Sebastian Redl669d5d72008-11-14 23:42:31 +0000483 bool isFunc = D.isFunctionDeclarator();
484
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000485 // C++ 9.2p6: A member shall not be declared to have automatic storage
486 // duration (auto, register) or with the extern storage-class-specifier.
Sebastian Redl669d5d72008-11-14 23:42:31 +0000487 // C++ 7.1.1p8: The mutable specifier can be applied only to names of class
488 // data members and cannot be applied to names declared const or static,
489 // and cannot be applied to reference members.
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000490 switch (DS.getStorageClassSpec()) {
491 case DeclSpec::SCS_unspecified:
492 case DeclSpec::SCS_typedef:
493 case DeclSpec::SCS_static:
494 // FALL THROUGH.
495 break;
Sebastian Redl669d5d72008-11-14 23:42:31 +0000496 case DeclSpec::SCS_mutable:
497 if (isFunc) {
498 if (DS.getStorageClassSpecLoc().isValid())
Chris Lattnerfa25bbb2008-11-19 05:08:23 +0000499 Diag(DS.getStorageClassSpecLoc(), diag::err_mutable_function);
Sebastian Redl669d5d72008-11-14 23:42:31 +0000500 else
Chris Lattnerfa25bbb2008-11-19 05:08:23 +0000501 Diag(DS.getThreadSpecLoc(), diag::err_mutable_function);
502
Sebastian Redla11f42f2008-11-17 23:24:37 +0000503 // FIXME: It would be nicer if the keyword was ignored only for this
504 // declarator. Otherwise we could get follow-up errors.
Sebastian Redl669d5d72008-11-14 23:42:31 +0000505 D.getMutableDeclSpec().ClearStorageClassSpecs();
506 } else {
507 QualType T = GetTypeForDeclarator(D, S);
508 diag::kind err = static_cast<diag::kind>(0);
509 if (T->isReferenceType())
510 err = diag::err_mutable_reference;
511 else if (T.isConstQualified())
512 err = diag::err_mutable_const;
513 if (err != 0) {
514 if (DS.getStorageClassSpecLoc().isValid())
515 Diag(DS.getStorageClassSpecLoc(), err);
516 else
517 Diag(DS.getThreadSpecLoc(), err);
Sebastian Redla11f42f2008-11-17 23:24:37 +0000518 // FIXME: It would be nicer if the keyword was ignored only for this
519 // declarator. Otherwise we could get follow-up errors.
Sebastian Redl669d5d72008-11-14 23:42:31 +0000520 D.getMutableDeclSpec().ClearStorageClassSpecs();
521 }
522 }
523 break;
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000524 default:
525 if (DS.getStorageClassSpecLoc().isValid())
526 Diag(DS.getStorageClassSpecLoc(),
527 diag::err_storageclass_invalid_for_member);
528 else
529 Diag(DS.getThreadSpecLoc(), diag::err_storageclass_invalid_for_member);
530 D.getMutableDeclSpec().ClearStorageClassSpecs();
531 }
532
Argyrios Kyrtzidisd6caa9e2008-10-15 20:23:22 +0000533 if (!isFunc &&
Douglas Gregor1a51b4a2009-02-09 15:09:02 +0000534 D.getDeclSpec().getTypeSpecType() == DeclSpec::TST_typename &&
Argyrios Kyrtzidisd6caa9e2008-10-15 20:23:22 +0000535 D.getNumTypeObjects() == 0) {
Argyrios Kyrtzidisde933f02008-10-08 22:20:31 +0000536 // Check also for this case:
537 //
538 // typedef int f();
539 // f a;
540 //
Douglas Gregor1a51b4a2009-02-09 15:09:02 +0000541 QualType TDType = QualType::getFromOpaquePtr(DS.getTypeRep());
542 isFunc = TDType->isFunctionType();
Argyrios Kyrtzidisde933f02008-10-08 22:20:31 +0000543 }
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000544
Sebastian Redl669d5d72008-11-14 23:42:31 +0000545 bool isInstField = ((DS.getStorageClassSpec() == DeclSpec::SCS_unspecified ||
546 DS.getStorageClassSpec() == DeclSpec::SCS_mutable) &&
Argyrios Kyrtzidisde933f02008-10-08 22:20:31 +0000547 !isFunc);
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000548
549 Decl *Member;
Chris Lattner24793662009-03-05 22:45:59 +0000550 if (isInstField) {
Douglas Gregor4dd55f52009-03-11 20:50:30 +0000551 Member = HandleField(S, cast<CXXRecordDecl>(CurContext), Loc, D, BitWidth,
552 AS);
Chris Lattner6f8ce142009-03-05 23:03:49 +0000553 assert(Member && "HandleField never returns null");
Chris Lattner24793662009-03-05 22:45:59 +0000554 } else {
Chris Lattner682bf922009-03-29 16:50:03 +0000555 Member = ActOnDeclarator(S, D).getAs<Decl>();
Chris Lattner6f8ce142009-03-05 23:03:49 +0000556 if (!Member) {
557 if (BitWidth) DeleteExpr(BitWidth);
Chris Lattner682bf922009-03-29 16:50:03 +0000558 return DeclPtrTy();
Chris Lattner6f8ce142009-03-05 23:03:49 +0000559 }
Chris Lattner8b963ef2009-03-05 23:01:03 +0000560
561 // Non-instance-fields can't have a bitfield.
562 if (BitWidth) {
563 if (Member->isInvalidDecl()) {
564 // don't emit another diagnostic.
Douglas Gregor2d2e9cf2009-03-11 20:22:50 +0000565 } else if (isa<VarDecl>(Member)) {
Chris Lattner8b963ef2009-03-05 23:01:03 +0000566 // C++ 9.6p3: A bit-field shall not be a static member.
567 // "static member 'A' cannot be a bit-field"
568 Diag(Loc, diag::err_static_not_bitfield)
569 << Name << BitWidth->getSourceRange();
570 } else if (isa<TypedefDecl>(Member)) {
571 // "typedef member 'x' cannot be a bit-field"
572 Diag(Loc, diag::err_typedef_not_bitfield)
573 << Name << BitWidth->getSourceRange();
574 } else {
575 // A function typedef ("typedef int f(); f a;").
576 // C++ 9.6p3: A bit-field shall have integral or enumeration type.
577 Diag(Loc, diag::err_not_integral_type_bitfield)
Douglas Gregor3cf538d2009-03-11 18:59:21 +0000578 << Name << cast<ValueDecl>(Member)->getType()
579 << BitWidth->getSourceRange();
Chris Lattner8b963ef2009-03-05 23:01:03 +0000580 }
581
582 DeleteExpr(BitWidth);
583 BitWidth = 0;
584 Member->setInvalidDecl();
585 }
Douglas Gregor4dd55f52009-03-11 20:50:30 +0000586
587 Member->setAccess(AS);
Chris Lattner24793662009-03-05 22:45:59 +0000588 }
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000589
Douglas Gregor10bd3682008-11-17 22:58:34 +0000590 assert((Name || isInstField) && "No identifier for non-field ?");
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000591
Douglas Gregor021c3b32009-03-11 23:00:04 +0000592 if (Init)
Chris Lattnerb28317a2009-03-28 19:18:32 +0000593 AddInitializerToDecl(DeclPtrTy::make(Member), ExprArg(*this, Init), false);
Sebastian Redle2b68332009-04-12 17:16:29 +0000594 if (Deleted) // FIXME: Source location is not very good.
595 SetDeclDeleted(DeclPtrTy::make(Member), D.getSourceRange().getBegin());
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000596
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000597 if (isInstField) {
Douglas Gregor44b43212008-12-11 16:49:14 +0000598 FieldCollector->Add(cast<FieldDecl>(Member));
Chris Lattner682bf922009-03-29 16:50:03 +0000599 return DeclPtrTy();
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000600 }
Chris Lattnerb28317a2009-03-28 19:18:32 +0000601 return DeclPtrTy::make(Member);
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000602}
603
Douglas Gregor7ad83902008-11-05 04:29:56 +0000604/// ActOnMemInitializer - Handle a C++ member initializer.
605Sema::MemInitResult
Chris Lattnerb28317a2009-03-28 19:18:32 +0000606Sema::ActOnMemInitializer(DeclPtrTy ConstructorD,
Douglas Gregor7ad83902008-11-05 04:29:56 +0000607 Scope *S,
608 IdentifierInfo *MemberOrBase,
609 SourceLocation IdLoc,
610 SourceLocation LParenLoc,
611 ExprTy **Args, unsigned NumArgs,
612 SourceLocation *CommaLocs,
613 SourceLocation RParenLoc) {
614 CXXConstructorDecl *Constructor
Chris Lattnerb28317a2009-03-28 19:18:32 +0000615 = dyn_cast<CXXConstructorDecl>(ConstructorD.getAs<Decl>());
Douglas Gregor7ad83902008-11-05 04:29:56 +0000616 if (!Constructor) {
617 // The user wrote a constructor initializer on a function that is
618 // not a C++ constructor. Ignore the error for now, because we may
619 // have more member initializers coming; we'll diagnose it just
620 // once in ActOnMemInitializers.
621 return true;
622 }
623
624 CXXRecordDecl *ClassDecl = Constructor->getParent();
625
626 // C++ [class.base.init]p2:
627 // Names in a mem-initializer-id are looked up in the scope of the
628 // constructor’s class and, if not found in that scope, are looked
629 // up in the scope containing the constructor’s
630 // definition. [Note: if the constructor’s class contains a member
631 // with the same name as a direct or virtual base class of the
632 // class, a mem-initializer-id naming the member or base class and
633 // composed of a single identifier refers to the class member. A
634 // mem-initializer-id for the hidden base class may be specified
635 // using a qualified name. ]
636 // Look for a member, first.
Douglas Gregor44b43212008-12-11 16:49:14 +0000637 FieldDecl *Member = 0;
Douglas Gregor6ab35242009-04-09 21:40:53 +0000638 DeclContext::lookup_result Result
639 = ClassDecl->lookup(Context, MemberOrBase);
Douglas Gregor44b43212008-12-11 16:49:14 +0000640 if (Result.first != Result.second)
641 Member = dyn_cast<FieldDecl>(*Result.first);
Douglas Gregor7ad83902008-11-05 04:29:56 +0000642
643 // FIXME: Handle members of an anonymous union.
644
645 if (Member) {
646 // FIXME: Perform direct initialization of the member.
647 return new CXXBaseOrMemberInitializer(Member, (Expr **)Args, NumArgs);
648 }
649
650 // It didn't name a member, so see if it names a class.
Douglas Gregorb696ea32009-02-04 17:00:24 +0000651 TypeTy *BaseTy = getTypeName(*MemberOrBase, IdLoc, S, 0/*SS*/);
Douglas Gregor7ad83902008-11-05 04:29:56 +0000652 if (!BaseTy)
Chris Lattner3c73c412008-11-19 08:23:25 +0000653 return Diag(IdLoc, diag::err_mem_init_not_member_or_class)
654 << MemberOrBase << SourceRange(IdLoc, RParenLoc);
Douglas Gregor7ad83902008-11-05 04:29:56 +0000655
Douglas Gregor1a51b4a2009-02-09 15:09:02 +0000656 QualType BaseType = QualType::getFromOpaquePtr(BaseTy);
Douglas Gregor7ad83902008-11-05 04:29:56 +0000657 if (!BaseType->isRecordType())
Chris Lattner3c73c412008-11-19 08:23:25 +0000658 return Diag(IdLoc, diag::err_base_init_does_not_name_class)
Chris Lattner08631c52008-11-23 21:45:46 +0000659 << BaseType << SourceRange(IdLoc, RParenLoc);
Douglas Gregor7ad83902008-11-05 04:29:56 +0000660
661 // C++ [class.base.init]p2:
662 // [...] Unless the mem-initializer-id names a nonstatic data
663 // member of the constructor’s class or a direct or virtual base
664 // of that class, the mem-initializer is ill-formed. A
665 // mem-initializer-list can initialize a base class using any
666 // name that denotes that base class type.
667
668 // First, check for a direct base class.
669 const CXXBaseSpecifier *DirectBaseSpec = 0;
670 for (CXXRecordDecl::base_class_const_iterator Base = ClassDecl->bases_begin();
671 Base != ClassDecl->bases_end(); ++Base) {
672 if (Context.getCanonicalType(BaseType).getUnqualifiedType() ==
673 Context.getCanonicalType(Base->getType()).getUnqualifiedType()) {
674 // We found a direct base of this type. That's what we're
675 // initializing.
676 DirectBaseSpec = &*Base;
677 break;
678 }
679 }
680
681 // Check for a virtual base class.
682 // FIXME: We might be able to short-circuit this if we know in
683 // advance that there are no virtual bases.
684 const CXXBaseSpecifier *VirtualBaseSpec = 0;
685 if (!DirectBaseSpec || !DirectBaseSpec->isVirtual()) {
686 // We haven't found a base yet; search the class hierarchy for a
687 // virtual base class.
688 BasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/true,
689 /*DetectVirtual=*/false);
690 if (IsDerivedFrom(Context.getTypeDeclType(ClassDecl), BaseType, Paths)) {
691 for (BasePaths::paths_iterator Path = Paths.begin();
692 Path != Paths.end(); ++Path) {
693 if (Path->back().Base->isVirtual()) {
694 VirtualBaseSpec = Path->back().Base;
695 break;
696 }
697 }
698 }
699 }
700
701 // C++ [base.class.init]p2:
702 // If a mem-initializer-id is ambiguous because it designates both
703 // a direct non-virtual base class and an inherited virtual base
704 // class, the mem-initializer is ill-formed.
705 if (DirectBaseSpec && VirtualBaseSpec)
Chris Lattner3c73c412008-11-19 08:23:25 +0000706 return Diag(IdLoc, diag::err_base_init_direct_and_virtual)
707 << MemberOrBase << SourceRange(IdLoc, RParenLoc);
Douglas Gregor7ad83902008-11-05 04:29:56 +0000708
709 return new CXXBaseOrMemberInitializer(BaseType, (Expr **)Args, NumArgs);
710}
711
Chris Lattnerb28317a2009-03-28 19:18:32 +0000712void Sema::ActOnMemInitializers(DeclPtrTy ConstructorDecl,
Anders Carlssona7b35212009-03-25 02:58:17 +0000713 SourceLocation ColonLoc,
714 MemInitTy **MemInits, unsigned NumMemInits) {
715 CXXConstructorDecl *Constructor =
Chris Lattnerb28317a2009-03-28 19:18:32 +0000716 dyn_cast<CXXConstructorDecl>(ConstructorDecl.getAs<Decl>());
Anders Carlssona7b35212009-03-25 02:58:17 +0000717
718 if (!Constructor) {
719 Diag(ColonLoc, diag::err_only_constructors_take_base_inits);
720 return;
721 }
722}
723
Anders Carlsson67e4dd22009-03-22 01:52:17 +0000724namespace {
725 /// PureVirtualMethodCollector - traverses a class and its superclasses
726 /// and determines if it has any pure virtual methods.
727 class VISIBILITY_HIDDEN PureVirtualMethodCollector {
728 ASTContext &Context;
729
Sebastian Redldfe292d2009-03-22 21:28:55 +0000730 public:
Anders Carlsson67e4dd22009-03-22 01:52:17 +0000731 typedef llvm::SmallVector<const CXXMethodDecl*, 8> MethodList;
Sebastian Redldfe292d2009-03-22 21:28:55 +0000732
733 private:
Anders Carlsson67e4dd22009-03-22 01:52:17 +0000734 MethodList Methods;
735
736 void Collect(const CXXRecordDecl* RD, MethodList& Methods);
737
738 public:
739 PureVirtualMethodCollector(ASTContext &Ctx, const CXXRecordDecl* RD)
740 : Context(Ctx) {
741
742 MethodList List;
743 Collect(RD, List);
744
745 // Copy the temporary list to methods, and make sure to ignore any
746 // null entries.
747 for (size_t i = 0, e = List.size(); i != e; ++i) {
748 if (List[i])
749 Methods.push_back(List[i]);
750 }
751 }
752
Anders Carlsson4681ebd2009-03-22 20:18:17 +0000753 bool empty() const { return Methods.empty(); }
754
755 MethodList::const_iterator methods_begin() { return Methods.begin(); }
756 MethodList::const_iterator methods_end() { return Methods.end(); }
Anders Carlsson67e4dd22009-03-22 01:52:17 +0000757 };
758
759 void PureVirtualMethodCollector::Collect(const CXXRecordDecl* RD,
760 MethodList& Methods) {
761 // First, collect the pure virtual methods for the base classes.
762 for (CXXRecordDecl::base_class_const_iterator Base = RD->bases_begin(),
763 BaseEnd = RD->bases_end(); Base != BaseEnd; ++Base) {
764 if (const RecordType *RT = Base->getType()->getAsRecordType()) {
Chris Lattner64540d72009-03-29 05:01:10 +0000765 const CXXRecordDecl *BaseDecl = cast<CXXRecordDecl>(RT->getDecl());
Anders Carlsson67e4dd22009-03-22 01:52:17 +0000766 if (BaseDecl && BaseDecl->isAbstract())
767 Collect(BaseDecl, Methods);
768 }
769 }
770
771 // Next, zero out any pure virtual methods that this class overrides.
772 for (size_t i = 0, e = Methods.size(); i != e; ++i) {
773 const CXXMethodDecl *VMD = dyn_cast_or_null<CXXMethodDecl>(Methods[i]);
774 if (!VMD)
775 continue;
776
777 DeclContext::lookup_const_iterator I, E;
Douglas Gregor6ab35242009-04-09 21:40:53 +0000778 for (llvm::tie(I, E) = RD->lookup(Context, VMD->getDeclName());
779 I != E; ++I) {
Anders Carlsson67e4dd22009-03-22 01:52:17 +0000780 if (const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(*I)) {
781 if (Context.getCanonicalType(MD->getType()) ==
782 Context.getCanonicalType(VMD->getType())) {
783 // We did find a matching method, which means that this is not a
784 // pure virtual method in the current class. Zero it out.
785 Methods[i] = 0;
786 }
787 }
788 }
789 }
790
791 // Finally, add pure virtual methods from this class.
Douglas Gregor6ab35242009-04-09 21:40:53 +0000792 for (RecordDecl::decl_iterator i = RD->decls_begin(Context),
793 e = RD->decls_end(Context);
Anders Carlsson67e4dd22009-03-22 01:52:17 +0000794 i != e; ++i) {
795 if (CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(*i)) {
796 if (MD->isPure())
797 Methods.push_back(MD);
798 }
799 }
800 }
801}
Douglas Gregor7ad83902008-11-05 04:29:56 +0000802
Anders Carlsson4681ebd2009-03-22 20:18:17 +0000803bool Sema::RequireNonAbstractType(SourceLocation Loc, QualType T,
Anders Carlssone65a3c82009-03-24 17:23:42 +0000804 unsigned DiagID, AbstractDiagSelID SelID,
805 const CXXRecordDecl *CurrentRD) {
Anders Carlsson4681ebd2009-03-22 20:18:17 +0000806
807 if (!getLangOptions().CPlusPlus)
808 return false;
Anders Carlsson11f21a02009-03-23 19:10:31 +0000809
810 if (const ArrayType *AT = Context.getAsArrayType(T))
Anders Carlssone65a3c82009-03-24 17:23:42 +0000811 return RequireNonAbstractType(Loc, AT->getElementType(), DiagID, SelID,
812 CurrentRD);
Anders Carlsson5eff73c2009-03-24 01:46:45 +0000813
814 if (const PointerType *PT = T->getAsPointerType()) {
815 // Find the innermost pointer type.
816 while (const PointerType *T = PT->getPointeeType()->getAsPointerType())
817 PT = T;
Anders Carlsson4681ebd2009-03-22 20:18:17 +0000818
Anders Carlsson5eff73c2009-03-24 01:46:45 +0000819 if (const ArrayType *AT = Context.getAsArrayType(PT->getPointeeType()))
Anders Carlssone65a3c82009-03-24 17:23:42 +0000820 return RequireNonAbstractType(Loc, AT->getElementType(), DiagID, SelID,
821 CurrentRD);
Anders Carlsson5eff73c2009-03-24 01:46:45 +0000822 }
823
Anders Carlsson4681ebd2009-03-22 20:18:17 +0000824 const RecordType *RT = T->getAsRecordType();
825 if (!RT)
826 return false;
827
828 const CXXRecordDecl *RD = dyn_cast<CXXRecordDecl>(RT->getDecl());
829 if (!RD)
830 return false;
831
Anders Carlssone65a3c82009-03-24 17:23:42 +0000832 if (CurrentRD && CurrentRD != RD)
833 return false;
834
Anders Carlsson4681ebd2009-03-22 20:18:17 +0000835 if (!RD->isAbstract())
836 return false;
837
Anders Carlssonb9bbe492009-03-23 17:49:10 +0000838 Diag(Loc, DiagID) << RD->getDeclName() << SelID;
Anders Carlsson4681ebd2009-03-22 20:18:17 +0000839
840 // Check if we've already emitted the list of pure virtual functions for this
841 // class.
842 if (PureVirtualClassDiagSet && PureVirtualClassDiagSet->count(RD))
843 return true;
844
845 PureVirtualMethodCollector Collector(Context, RD);
846
847 for (PureVirtualMethodCollector::MethodList::const_iterator I =
848 Collector.methods_begin(), E = Collector.methods_end(); I != E; ++I) {
849 const CXXMethodDecl *MD = *I;
850
851 Diag(MD->getLocation(), diag::note_pure_virtual_function) <<
852 MD->getDeclName();
853 }
854
855 if (!PureVirtualClassDiagSet)
856 PureVirtualClassDiagSet.reset(new RecordDeclSetTy);
857 PureVirtualClassDiagSet->insert(RD);
858
859 return true;
860}
861
Anders Carlsson8211eff2009-03-24 01:19:16 +0000862namespace {
863 class VISIBILITY_HIDDEN AbstractClassUsageDiagnoser
864 : public DeclVisitor<AbstractClassUsageDiagnoser, bool> {
865 Sema &SemaRef;
866 CXXRecordDecl *AbstractClass;
867
Anders Carlssone65a3c82009-03-24 17:23:42 +0000868 bool VisitDeclContext(const DeclContext *DC) {
Anders Carlsson8211eff2009-03-24 01:19:16 +0000869 bool Invalid = false;
870
Douglas Gregor6ab35242009-04-09 21:40:53 +0000871 for (CXXRecordDecl::decl_iterator I = DC->decls_begin(SemaRef.Context),
872 E = DC->decls_end(SemaRef.Context); I != E; ++I)
Anders Carlsson8211eff2009-03-24 01:19:16 +0000873 Invalid |= Visit(*I);
Anders Carlssone65a3c82009-03-24 17:23:42 +0000874
Anders Carlsson8211eff2009-03-24 01:19:16 +0000875 return Invalid;
876 }
Anders Carlssone65a3c82009-03-24 17:23:42 +0000877
878 public:
879 AbstractClassUsageDiagnoser(Sema& SemaRef, CXXRecordDecl *ac)
880 : SemaRef(SemaRef), AbstractClass(ac) {
881 Visit(SemaRef.Context.getTranslationUnitDecl());
882 }
Anders Carlsson8211eff2009-03-24 01:19:16 +0000883
Anders Carlssone65a3c82009-03-24 17:23:42 +0000884 bool VisitFunctionDecl(const FunctionDecl *FD) {
885 if (FD->isThisDeclarationADefinition()) {
886 // No need to do the check if we're in a definition, because it requires
887 // that the return/param types are complete.
888 // because that requires
889 return VisitDeclContext(FD);
890 }
891
892 // Check the return type.
893 QualType RTy = FD->getType()->getAsFunctionType()->getResultType();
894 bool Invalid =
895 SemaRef.RequireNonAbstractType(FD->getLocation(), RTy,
896 diag::err_abstract_type_in_decl,
897 Sema::AbstractReturnType,
898 AbstractClass);
899
900 for (FunctionDecl::param_const_iterator I = FD->param_begin(),
901 E = FD->param_end(); I != E; ++I) {
Anders Carlsson8211eff2009-03-24 01:19:16 +0000902 const ParmVarDecl *VD = *I;
903 Invalid |=
904 SemaRef.RequireNonAbstractType(VD->getLocation(),
905 VD->getOriginalType(),
906 diag::err_abstract_type_in_decl,
Anders Carlssone65a3c82009-03-24 17:23:42 +0000907 Sema::AbstractParamType,
908 AbstractClass);
Anders Carlsson8211eff2009-03-24 01:19:16 +0000909 }
910
911 return Invalid;
912 }
Anders Carlssone65a3c82009-03-24 17:23:42 +0000913
914 bool VisitDecl(const Decl* D) {
915 if (const DeclContext *DC = dyn_cast<DeclContext>(D))
916 return VisitDeclContext(DC);
917
918 return false;
919 }
Anders Carlsson8211eff2009-03-24 01:19:16 +0000920 };
921}
922
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000923void Sema::ActOnFinishCXXMemberSpecification(Scope* S, SourceLocation RLoc,
Chris Lattnerb28317a2009-03-28 19:18:32 +0000924 DeclPtrTy TagDecl,
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000925 SourceLocation LBrac,
926 SourceLocation RBrac) {
Douglas Gregor2943aed2009-03-03 04:44:36 +0000927 TemplateDecl *Template = AdjustDeclIfTemplate(TagDecl);
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000928 ActOnFields(S, RLoc, TagDecl,
Chris Lattnerb28317a2009-03-28 19:18:32 +0000929 (DeclPtrTy*)FieldCollector->getCurFields(),
Daniel Dunbar1bfe1c22008-10-03 02:03:53 +0000930 FieldCollector->getCurNumFields(), LBrac, RBrac, 0);
Douglas Gregor2943aed2009-03-03 04:44:36 +0000931
Chris Lattnerb28317a2009-03-28 19:18:32 +0000932 CXXRecordDecl *RD = cast<CXXRecordDecl>(TagDecl.getAs<Decl>());
Anders Carlsson67e4dd22009-03-22 01:52:17 +0000933 if (!RD->isAbstract()) {
934 // Collect all the pure virtual methods and see if this is an abstract
935 // class after all.
936 PureVirtualMethodCollector Collector(Context, RD);
937 if (!Collector.empty())
938 RD->setAbstract(true);
939 }
940
Anders Carlssone65a3c82009-03-24 17:23:42 +0000941 if (RD->isAbstract())
942 AbstractClassUsageDiagnoser(*this, RD);
Anders Carlsson8211eff2009-03-24 01:19:16 +0000943
Douglas Gregor2943aed2009-03-03 04:44:36 +0000944 if (!Template)
Anders Carlsson67e4dd22009-03-22 01:52:17 +0000945 AddImplicitlyDeclaredMembersToClass(RD);
Argyrios Kyrtzidis07952322008-07-01 10:37:29 +0000946}
947
Douglas Gregor396b7cd2008-11-03 17:51:48 +0000948/// AddImplicitlyDeclaredMembersToClass - Adds any implicitly-declared
949/// special functions, such as the default constructor, copy
950/// constructor, or destructor, to the given C++ class (C++
951/// [special]p1). This routine can only be executed just before the
952/// definition of the class is complete.
953void Sema::AddImplicitlyDeclaredMembersToClass(CXXRecordDecl *ClassDecl) {
Douglas Gregor2e1cd422008-11-17 14:58:09 +0000954 QualType ClassType = Context.getTypeDeclType(ClassDecl);
955 ClassType = Context.getCanonicalType(ClassType);
956
Douglas Gregor396b7cd2008-11-03 17:51:48 +0000957 if (!ClassDecl->hasUserDeclaredConstructor()) {
958 // C++ [class.ctor]p5:
959 // A default constructor for a class X is a constructor of class X
960 // that can be called without an argument. If there is no
961 // user-declared constructor for class X, a default constructor is
962 // implicitly declared. An implicitly-declared default constructor
963 // is an inline public member of its class.
Douglas Gregor2e1cd422008-11-17 14:58:09 +0000964 DeclarationName Name
965 = Context.DeclarationNames.getCXXConstructorName(ClassType);
Douglas Gregor396b7cd2008-11-03 17:51:48 +0000966 CXXConstructorDecl *DefaultCon =
967 CXXConstructorDecl::Create(Context, ClassDecl,
Douglas Gregor2e1cd422008-11-17 14:58:09 +0000968 ClassDecl->getLocation(), Name,
Douglas Gregor396b7cd2008-11-03 17:51:48 +0000969 Context.getFunctionType(Context.VoidTy,
970 0, 0, false, 0),
971 /*isExplicit=*/false,
972 /*isInline=*/true,
973 /*isImplicitlyDeclared=*/true);
974 DefaultCon->setAccess(AS_public);
Douglas Gregor6b3945f2009-01-07 19:46:03 +0000975 DefaultCon->setImplicit();
Douglas Gregor6ab35242009-04-09 21:40:53 +0000976 ClassDecl->addDecl(Context, DefaultCon);
Douglas Gregor9e7d9de2008-12-15 21:24:18 +0000977
978 // Notify the class that we've added a constructor.
979 ClassDecl->addedConstructor(Context, DefaultCon);
Douglas Gregor396b7cd2008-11-03 17:51:48 +0000980 }
981
982 if (!ClassDecl->hasUserDeclaredCopyConstructor()) {
983 // C++ [class.copy]p4:
984 // If the class definition does not explicitly declare a copy
985 // constructor, one is declared implicitly.
986
987 // C++ [class.copy]p5:
988 // The implicitly-declared copy constructor for a class X will
989 // have the form
990 //
991 // X::X(const X&)
992 //
993 // if
994 bool HasConstCopyConstructor = true;
995
996 // -- each direct or virtual base class B of X has a copy
997 // constructor whose first parameter is of type const B& or
998 // const volatile B&, and
999 for (CXXRecordDecl::base_class_iterator Base = ClassDecl->bases_begin();
1000 HasConstCopyConstructor && Base != ClassDecl->bases_end(); ++Base) {
1001 const CXXRecordDecl *BaseClassDecl
1002 = cast<CXXRecordDecl>(Base->getType()->getAsRecordType()->getDecl());
1003 HasConstCopyConstructor
1004 = BaseClassDecl->hasConstCopyConstructor(Context);
1005 }
1006
1007 // -- for all the nonstatic data members of X that are of a
1008 // class type M (or array thereof), each such class type
1009 // has a copy constructor whose first parameter is of type
1010 // const M& or const volatile M&.
Douglas Gregor6ab35242009-04-09 21:40:53 +00001011 for (CXXRecordDecl::field_iterator Field = ClassDecl->field_begin(Context);
1012 HasConstCopyConstructor && Field != ClassDecl->field_end(Context);
1013 ++Field) {
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001014 QualType FieldType = (*Field)->getType();
1015 if (const ArrayType *Array = Context.getAsArrayType(FieldType))
1016 FieldType = Array->getElementType();
1017 if (const RecordType *FieldClassType = FieldType->getAsRecordType()) {
1018 const CXXRecordDecl *FieldClassDecl
1019 = cast<CXXRecordDecl>(FieldClassType->getDecl());
1020 HasConstCopyConstructor
1021 = FieldClassDecl->hasConstCopyConstructor(Context);
1022 }
1023 }
1024
Sebastian Redl64b45f72009-01-05 20:52:13 +00001025 // Otherwise, the implicitly declared copy constructor will have
1026 // the form
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001027 //
1028 // X::X(X&)
Sebastian Redl64b45f72009-01-05 20:52:13 +00001029 QualType ArgType = ClassType;
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001030 if (HasConstCopyConstructor)
1031 ArgType = ArgType.withConst();
Sebastian Redl7c80bd62009-03-16 23:22:08 +00001032 ArgType = Context.getLValueReferenceType(ArgType);
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001033
Sebastian Redl64b45f72009-01-05 20:52:13 +00001034 // An implicitly-declared copy constructor is an inline public
1035 // member of its class.
Douglas Gregor2e1cd422008-11-17 14:58:09 +00001036 DeclarationName Name
1037 = Context.DeclarationNames.getCXXConstructorName(ClassType);
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001038 CXXConstructorDecl *CopyConstructor
1039 = CXXConstructorDecl::Create(Context, ClassDecl,
Douglas Gregor2e1cd422008-11-17 14:58:09 +00001040 ClassDecl->getLocation(), Name,
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001041 Context.getFunctionType(Context.VoidTy,
1042 &ArgType, 1,
1043 false, 0),
1044 /*isExplicit=*/false,
1045 /*isInline=*/true,
1046 /*isImplicitlyDeclared=*/true);
1047 CopyConstructor->setAccess(AS_public);
Douglas Gregor6b3945f2009-01-07 19:46:03 +00001048 CopyConstructor->setImplicit();
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001049
1050 // Add the parameter to the constructor.
1051 ParmVarDecl *FromParam = ParmVarDecl::Create(Context, CopyConstructor,
1052 ClassDecl->getLocation(),
1053 /*IdentifierInfo=*/0,
Douglas Gregor4afa39d2009-01-20 01:17:11 +00001054 ArgType, VarDecl::None, 0);
Ted Kremenekfc767612009-01-14 00:42:25 +00001055 CopyConstructor->setParams(Context, &FromParam, 1);
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001056
Douglas Gregor9e7d9de2008-12-15 21:24:18 +00001057 ClassDecl->addedConstructor(Context, CopyConstructor);
Douglas Gregor6ab35242009-04-09 21:40:53 +00001058 ClassDecl->addDecl(Context, CopyConstructor);
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001059 }
1060
Sebastian Redl64b45f72009-01-05 20:52:13 +00001061 if (!ClassDecl->hasUserDeclaredCopyAssignment()) {
1062 // Note: The following rules are largely analoguous to the copy
1063 // constructor rules. Note that virtual bases are not taken into account
1064 // for determining the argument type of the operator. Note also that
1065 // operators taking an object instead of a reference are allowed.
1066 //
1067 // C++ [class.copy]p10:
1068 // If the class definition does not explicitly declare a copy
1069 // assignment operator, one is declared implicitly.
1070 // The implicitly-defined copy assignment operator for a class X
1071 // will have the form
1072 //
1073 // X& X::operator=(const X&)
1074 //
1075 // if
1076 bool HasConstCopyAssignment = true;
1077
1078 // -- each direct base class B of X has a copy assignment operator
1079 // whose parameter is of type const B&, const volatile B& or B,
1080 // and
1081 for (CXXRecordDecl::base_class_iterator Base = ClassDecl->bases_begin();
1082 HasConstCopyAssignment && Base != ClassDecl->bases_end(); ++Base) {
1083 const CXXRecordDecl *BaseClassDecl
1084 = cast<CXXRecordDecl>(Base->getType()->getAsRecordType()->getDecl());
1085 HasConstCopyAssignment = BaseClassDecl->hasConstCopyAssignment(Context);
1086 }
1087
1088 // -- for all the nonstatic data members of X that are of a class
1089 // type M (or array thereof), each such class type has a copy
1090 // assignment operator whose parameter is of type const M&,
1091 // const volatile M& or M.
Douglas Gregor6ab35242009-04-09 21:40:53 +00001092 for (CXXRecordDecl::field_iterator Field = ClassDecl->field_begin(Context);
1093 HasConstCopyAssignment && Field != ClassDecl->field_end(Context);
1094 ++Field) {
Sebastian Redl64b45f72009-01-05 20:52:13 +00001095 QualType FieldType = (*Field)->getType();
1096 if (const ArrayType *Array = Context.getAsArrayType(FieldType))
1097 FieldType = Array->getElementType();
1098 if (const RecordType *FieldClassType = FieldType->getAsRecordType()) {
1099 const CXXRecordDecl *FieldClassDecl
1100 = cast<CXXRecordDecl>(FieldClassType->getDecl());
1101 HasConstCopyAssignment
1102 = FieldClassDecl->hasConstCopyAssignment(Context);
1103 }
1104 }
1105
1106 // Otherwise, the implicitly declared copy assignment operator will
1107 // have the form
1108 //
1109 // X& X::operator=(X&)
1110 QualType ArgType = ClassType;
Sebastian Redl7c80bd62009-03-16 23:22:08 +00001111 QualType RetType = Context.getLValueReferenceType(ArgType);
Sebastian Redl64b45f72009-01-05 20:52:13 +00001112 if (HasConstCopyAssignment)
1113 ArgType = ArgType.withConst();
Sebastian Redl7c80bd62009-03-16 23:22:08 +00001114 ArgType = Context.getLValueReferenceType(ArgType);
Sebastian Redl64b45f72009-01-05 20:52:13 +00001115
1116 // An implicitly-declared copy assignment operator is an inline public
1117 // member of its class.
1118 DeclarationName Name =
1119 Context.DeclarationNames.getCXXOperatorName(OO_Equal);
1120 CXXMethodDecl *CopyAssignment =
1121 CXXMethodDecl::Create(Context, ClassDecl, ClassDecl->getLocation(), Name,
1122 Context.getFunctionType(RetType, &ArgType, 1,
1123 false, 0),
Douglas Gregor4afa39d2009-01-20 01:17:11 +00001124 /*isStatic=*/false, /*isInline=*/true);
Sebastian Redl64b45f72009-01-05 20:52:13 +00001125 CopyAssignment->setAccess(AS_public);
Douglas Gregor6b3945f2009-01-07 19:46:03 +00001126 CopyAssignment->setImplicit();
Sebastian Redl64b45f72009-01-05 20:52:13 +00001127
1128 // Add the parameter to the operator.
1129 ParmVarDecl *FromParam = ParmVarDecl::Create(Context, CopyAssignment,
1130 ClassDecl->getLocation(),
1131 /*IdentifierInfo=*/0,
Douglas Gregor4afa39d2009-01-20 01:17:11 +00001132 ArgType, VarDecl::None, 0);
Ted Kremenekfc767612009-01-14 00:42:25 +00001133 CopyAssignment->setParams(Context, &FromParam, 1);
Sebastian Redl64b45f72009-01-05 20:52:13 +00001134
1135 // Don't call addedAssignmentOperator. There is no way to distinguish an
1136 // implicit from an explicit assignment operator.
Douglas Gregor6ab35242009-04-09 21:40:53 +00001137 ClassDecl->addDecl(Context, CopyAssignment);
Sebastian Redl64b45f72009-01-05 20:52:13 +00001138 }
1139
Douglas Gregor9e7d9de2008-12-15 21:24:18 +00001140 if (!ClassDecl->hasUserDeclaredDestructor()) {
Douglas Gregor42a552f2008-11-05 20:51:48 +00001141 // C++ [class.dtor]p2:
1142 // If a class has no user-declared destructor, a destructor is
1143 // declared implicitly. An implicitly-declared destructor is an
1144 // inline public member of its class.
Douglas Gregor2e1cd422008-11-17 14:58:09 +00001145 DeclarationName Name
1146 = Context.DeclarationNames.getCXXDestructorName(ClassType);
Douglas Gregor42a552f2008-11-05 20:51:48 +00001147 CXXDestructorDecl *Destructor
1148 = CXXDestructorDecl::Create(Context, ClassDecl,
Douglas Gregor2e1cd422008-11-17 14:58:09 +00001149 ClassDecl->getLocation(), Name,
Douglas Gregor42a552f2008-11-05 20:51:48 +00001150 Context.getFunctionType(Context.VoidTy,
1151 0, 0, false, 0),
1152 /*isInline=*/true,
1153 /*isImplicitlyDeclared=*/true);
1154 Destructor->setAccess(AS_public);
Douglas Gregor6b3945f2009-01-07 19:46:03 +00001155 Destructor->setImplicit();
Douglas Gregor6ab35242009-04-09 21:40:53 +00001156 ClassDecl->addDecl(Context, Destructor);
Douglas Gregor42a552f2008-11-05 20:51:48 +00001157 }
Douglas Gregor396b7cd2008-11-03 17:51:48 +00001158}
1159
Douglas Gregor72b505b2008-12-16 21:30:33 +00001160/// ActOnStartDelayedCXXMethodDeclaration - We have completed
1161/// parsing a top-level (non-nested) C++ class, and we are now
1162/// parsing those parts of the given Method declaration that could
1163/// not be parsed earlier (C++ [class.mem]p2), such as default
1164/// arguments. This action should enter the scope of the given
1165/// Method declaration as if we had just parsed the qualified method
1166/// name. However, it should not bring the parameters into scope;
1167/// that will be performed by ActOnDelayedCXXMethodParameter.
Chris Lattnerb28317a2009-03-28 19:18:32 +00001168void Sema::ActOnStartDelayedCXXMethodDeclaration(Scope *S, DeclPtrTy MethodD) {
Douglas Gregor72b505b2008-12-16 21:30:33 +00001169 CXXScopeSpec SS;
Chris Lattnerb28317a2009-03-28 19:18:32 +00001170 FunctionDecl *Method = cast<FunctionDecl>(MethodD.getAs<Decl>());
Douglas Gregorab452ba2009-03-26 23:50:42 +00001171 QualType ClassTy
1172 = Context.getTypeDeclType(cast<RecordDecl>(Method->getDeclContext()));
1173 SS.setScopeRep(
1174 NestedNameSpecifier::Create(Context, 0, false, ClassTy.getTypePtr()));
Douglas Gregor72b505b2008-12-16 21:30:33 +00001175 ActOnCXXEnterDeclaratorScope(S, SS);
1176}
1177
1178/// ActOnDelayedCXXMethodParameter - We've already started a delayed
1179/// C++ method declaration. We're (re-)introducing the given
1180/// function parameter into scope for use in parsing later parts of
1181/// the method declaration. For example, we could see an
1182/// ActOnParamDefaultArgument event for this parameter.
Chris Lattnerb28317a2009-03-28 19:18:32 +00001183void Sema::ActOnDelayedCXXMethodParameter(Scope *S, DeclPtrTy ParamD) {
1184 ParmVarDecl *Param = cast<ParmVarDecl>(ParamD.getAs<Decl>());
Douglas Gregor61366e92008-12-24 00:01:03 +00001185
1186 // If this parameter has an unparsed default argument, clear it out
1187 // to make way for the parsed default argument.
1188 if (Param->hasUnparsedDefaultArg())
1189 Param->setDefaultArg(0);
1190
Chris Lattnerb28317a2009-03-28 19:18:32 +00001191 S->AddDecl(DeclPtrTy::make(Param));
Douglas Gregor72b505b2008-12-16 21:30:33 +00001192 if (Param->getDeclName())
1193 IdResolver.AddDecl(Param);
1194}
1195
1196/// ActOnFinishDelayedCXXMethodDeclaration - We have finished
1197/// processing the delayed method declaration for Method. The method
1198/// declaration is now considered finished. There may be a separate
1199/// ActOnStartOfFunctionDef action later (not necessarily
1200/// immediately!) for this method, if it was also defined inside the
1201/// class body.
Chris Lattnerb28317a2009-03-28 19:18:32 +00001202void Sema::ActOnFinishDelayedCXXMethodDeclaration(Scope *S, DeclPtrTy MethodD) {
1203 FunctionDecl *Method = cast<FunctionDecl>(MethodD.getAs<Decl>());
Douglas Gregor72b505b2008-12-16 21:30:33 +00001204 CXXScopeSpec SS;
Douglas Gregorab452ba2009-03-26 23:50:42 +00001205 QualType ClassTy
1206 = Context.getTypeDeclType(cast<RecordDecl>(Method->getDeclContext()));
1207 SS.setScopeRep(
1208 NestedNameSpecifier::Create(Context, 0, false, ClassTy.getTypePtr()));
Douglas Gregor72b505b2008-12-16 21:30:33 +00001209 ActOnCXXExitDeclaratorScope(S, SS);
1210
1211 // Now that we have our default arguments, check the constructor
1212 // again. It could produce additional diagnostics or affect whether
1213 // the class has implicitly-declared destructors, among other
1214 // things.
1215 if (CXXConstructorDecl *Constructor = dyn_cast<CXXConstructorDecl>(Method)) {
1216 if (CheckConstructor(Constructor))
1217 Constructor->setInvalidDecl();
1218 }
1219
1220 // Check the default arguments, which we may have added.
1221 if (!Method->isInvalidDecl())
1222 CheckCXXDefaultArguments(Method);
1223}
1224
Douglas Gregor42a552f2008-11-05 20:51:48 +00001225/// CheckConstructorDeclarator - Called by ActOnDeclarator to check
Douglas Gregor72b505b2008-12-16 21:30:33 +00001226/// the well-formedness of the constructor declarator @p D with type @p
Douglas Gregor42a552f2008-11-05 20:51:48 +00001227/// R. If there are any errors in the declarator, this routine will
1228/// emit diagnostics and return true. Otherwise, it will return
1229/// false. Either way, the type @p R will be updated to reflect a
1230/// well-formed type for the constructor.
1231bool Sema::CheckConstructorDeclarator(Declarator &D, QualType &R,
1232 FunctionDecl::StorageClass& SC) {
1233 bool isVirtual = D.getDeclSpec().isVirtualSpecified();
1234 bool isInvalid = false;
1235
1236 // C++ [class.ctor]p3:
1237 // A constructor shall not be virtual (10.3) or static (9.4). A
1238 // constructor can be invoked for a const, volatile or const
1239 // volatile object. A constructor shall not be declared const,
1240 // volatile, or const volatile (9.3.2).
1241 if (isVirtual) {
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001242 Diag(D.getIdentifierLoc(), diag::err_constructor_cannot_be)
1243 << "virtual" << SourceRange(D.getDeclSpec().getVirtualSpecLoc())
1244 << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001245 isInvalid = true;
1246 }
1247 if (SC == FunctionDecl::Static) {
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001248 Diag(D.getIdentifierLoc(), diag::err_constructor_cannot_be)
1249 << "static" << SourceRange(D.getDeclSpec().getStorageClassSpecLoc())
1250 << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001251 isInvalid = true;
1252 SC = FunctionDecl::None;
1253 }
1254 if (D.getDeclSpec().hasTypeSpecifier()) {
1255 // Constructors don't have return types, but the parser will
1256 // happily parse something like:
1257 //
1258 // class X {
1259 // float X(float);
1260 // };
1261 //
1262 // The return type will be eliminated later.
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001263 Diag(D.getIdentifierLoc(), diag::err_constructor_return_type)
1264 << SourceRange(D.getDeclSpec().getTypeSpecTypeLoc())
1265 << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001266 }
Douglas Gregor72564e72009-02-26 23:50:07 +00001267 if (R->getAsFunctionProtoType()->getTypeQuals() != 0) {
Douglas Gregor42a552f2008-11-05 20:51:48 +00001268 DeclaratorChunk::FunctionTypeInfo &FTI = D.getTypeObject(0).Fun;
1269 if (FTI.TypeQuals & QualType::Const)
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001270 Diag(D.getIdentifierLoc(), diag::err_invalid_qualified_constructor)
1271 << "const" << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001272 if (FTI.TypeQuals & QualType::Volatile)
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001273 Diag(D.getIdentifierLoc(), diag::err_invalid_qualified_constructor)
1274 << "volatile" << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001275 if (FTI.TypeQuals & QualType::Restrict)
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001276 Diag(D.getIdentifierLoc(), diag::err_invalid_qualified_constructor)
1277 << "restrict" << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001278 }
1279
1280 // Rebuild the function type "R" without any type qualifiers (in
1281 // case any of the errors above fired) and with "void" as the
1282 // return type, since constructors don't have return types. We
1283 // *always* have to do this, because GetTypeForDeclarator will
1284 // put in a result type of "int" when none was specified.
Douglas Gregor72564e72009-02-26 23:50:07 +00001285 const FunctionProtoType *Proto = R->getAsFunctionProtoType();
Douglas Gregor42a552f2008-11-05 20:51:48 +00001286 R = Context.getFunctionType(Context.VoidTy, Proto->arg_type_begin(),
1287 Proto->getNumArgs(),
1288 Proto->isVariadic(),
1289 0);
1290
1291 return isInvalid;
1292}
1293
Douglas Gregor72b505b2008-12-16 21:30:33 +00001294/// CheckConstructor - Checks a fully-formed constructor for
1295/// well-formedness, issuing any diagnostics required. Returns true if
1296/// the constructor declarator is invalid.
1297bool Sema::CheckConstructor(CXXConstructorDecl *Constructor) {
Douglas Gregor33297562009-03-27 04:38:56 +00001298 CXXRecordDecl *ClassDecl
1299 = dyn_cast<CXXRecordDecl>(Constructor->getDeclContext());
1300 if (!ClassDecl)
Douglas Gregor72b505b2008-12-16 21:30:33 +00001301 return true;
1302
Douglas Gregor33297562009-03-27 04:38:56 +00001303 bool Invalid = Constructor->isInvalidDecl();
Douglas Gregor72b505b2008-12-16 21:30:33 +00001304
1305 // C++ [class.copy]p3:
1306 // A declaration of a constructor for a class X is ill-formed if
1307 // its first parameter is of type (optionally cv-qualified) X and
1308 // either there are no other parameters or else all other
1309 // parameters have default arguments.
Douglas Gregor33297562009-03-27 04:38:56 +00001310 if (!Constructor->isInvalidDecl() &&
1311 ((Constructor->getNumParams() == 1) ||
1312 (Constructor->getNumParams() > 1 &&
1313 Constructor->getParamDecl(1)->getDefaultArg() != 0))) {
Douglas Gregor72b505b2008-12-16 21:30:33 +00001314 QualType ParamType = Constructor->getParamDecl(0)->getType();
1315 QualType ClassTy = Context.getTagDeclType(ClassDecl);
1316 if (Context.getCanonicalType(ParamType).getUnqualifiedType() == ClassTy) {
Douglas Gregora3a83512009-04-01 23:51:29 +00001317 SourceLocation ParamLoc = Constructor->getParamDecl(0)->getLocation();
1318 Diag(ParamLoc, diag::err_constructor_byvalue_arg)
Douglas Gregor558cb562009-04-02 01:08:08 +00001319 << CodeModificationHint::CreateInsertion(ParamLoc, " const &");
Douglas Gregor72b505b2008-12-16 21:30:33 +00001320 Invalid = true;
1321 }
1322 }
1323
1324 // Notify the class that we've added a constructor.
1325 ClassDecl->addedConstructor(Context, Constructor);
1326
1327 return Invalid;
1328}
1329
Douglas Gregor42a552f2008-11-05 20:51:48 +00001330/// CheckDestructorDeclarator - Called by ActOnDeclarator to check
1331/// the well-formednes of the destructor declarator @p D with type @p
1332/// R. If there are any errors in the declarator, this routine will
1333/// emit diagnostics and return true. Otherwise, it will return
1334/// false. Either way, the type @p R will be updated to reflect a
1335/// well-formed type for the destructor.
1336bool Sema::CheckDestructorDeclarator(Declarator &D, QualType &R,
1337 FunctionDecl::StorageClass& SC) {
1338 bool isInvalid = false;
1339
1340 // C++ [class.dtor]p1:
1341 // [...] A typedef-name that names a class is a class-name
1342 // (7.1.3); however, a typedef-name that names a class shall not
1343 // be used as the identifier in the declarator for a destructor
1344 // declaration.
Douglas Gregor1a51b4a2009-02-09 15:09:02 +00001345 QualType DeclaratorType = QualType::getFromOpaquePtr(D.getDeclaratorIdType());
1346 if (DeclaratorType->getAsTypedefType()) {
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001347 Diag(D.getIdentifierLoc(), diag::err_destructor_typedef_name)
Douglas Gregor1a51b4a2009-02-09 15:09:02 +00001348 << DeclaratorType;
Douglas Gregor55c60952008-11-10 14:41:22 +00001349 isInvalid = true;
Douglas Gregor42a552f2008-11-05 20:51:48 +00001350 }
1351
1352 // C++ [class.dtor]p2:
1353 // A destructor is used to destroy objects of its class type. A
1354 // destructor takes no parameters, and no return type can be
1355 // specified for it (not even void). The address of a destructor
1356 // shall not be taken. A destructor shall not be static. A
1357 // destructor can be invoked for a const, volatile or const
1358 // volatile object. A destructor shall not be declared const,
1359 // volatile or const volatile (9.3.2).
1360 if (SC == FunctionDecl::Static) {
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001361 Diag(D.getIdentifierLoc(), diag::err_destructor_cannot_be)
1362 << "static" << SourceRange(D.getDeclSpec().getStorageClassSpecLoc())
1363 << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001364 isInvalid = true;
1365 SC = FunctionDecl::None;
1366 }
1367 if (D.getDeclSpec().hasTypeSpecifier()) {
1368 // Destructors don't have return types, but the parser will
1369 // happily parse something like:
1370 //
1371 // class X {
1372 // float ~X();
1373 // };
1374 //
1375 // The return type will be eliminated later.
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001376 Diag(D.getIdentifierLoc(), diag::err_destructor_return_type)
1377 << SourceRange(D.getDeclSpec().getTypeSpecTypeLoc())
1378 << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001379 }
Douglas Gregor72564e72009-02-26 23:50:07 +00001380 if (R->getAsFunctionProtoType()->getTypeQuals() != 0) {
Douglas Gregor42a552f2008-11-05 20:51:48 +00001381 DeclaratorChunk::FunctionTypeInfo &FTI = D.getTypeObject(0).Fun;
1382 if (FTI.TypeQuals & QualType::Const)
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001383 Diag(D.getIdentifierLoc(), diag::err_invalid_qualified_destructor)
1384 << "const" << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001385 if (FTI.TypeQuals & QualType::Volatile)
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001386 Diag(D.getIdentifierLoc(), diag::err_invalid_qualified_destructor)
1387 << "volatile" << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001388 if (FTI.TypeQuals & QualType::Restrict)
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001389 Diag(D.getIdentifierLoc(), diag::err_invalid_qualified_destructor)
1390 << "restrict" << SourceRange(D.getIdentifierLoc());
Douglas Gregor42a552f2008-11-05 20:51:48 +00001391 }
1392
1393 // Make sure we don't have any parameters.
Douglas Gregor72564e72009-02-26 23:50:07 +00001394 if (R->getAsFunctionProtoType()->getNumArgs() > 0) {
Douglas Gregor42a552f2008-11-05 20:51:48 +00001395 Diag(D.getIdentifierLoc(), diag::err_destructor_with_params);
1396
1397 // Delete the parameters.
Chris Lattner1833a832009-01-20 21:06:38 +00001398 D.getTypeObject(0).Fun.freeArgs();
Douglas Gregor42a552f2008-11-05 20:51:48 +00001399 }
1400
1401 // Make sure the destructor isn't variadic.
Douglas Gregor72564e72009-02-26 23:50:07 +00001402 if (R->getAsFunctionProtoType()->isVariadic())
Douglas Gregor42a552f2008-11-05 20:51:48 +00001403 Diag(D.getIdentifierLoc(), diag::err_destructor_variadic);
1404
1405 // Rebuild the function type "R" without any type qualifiers or
1406 // parameters (in case any of the errors above fired) and with
1407 // "void" as the return type, since destructors don't have return
1408 // types. We *always* have to do this, because GetTypeForDeclarator
1409 // will put in a result type of "int" when none was specified.
1410 R = Context.getFunctionType(Context.VoidTy, 0, 0, false, 0);
1411
1412 return isInvalid;
1413}
1414
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001415/// CheckConversionDeclarator - Called by ActOnDeclarator to check the
1416/// well-formednes of the conversion function declarator @p D with
1417/// type @p R. If there are any errors in the declarator, this routine
1418/// will emit diagnostics and return true. Otherwise, it will return
1419/// false. Either way, the type @p R will be updated to reflect a
1420/// well-formed type for the conversion operator.
1421bool Sema::CheckConversionDeclarator(Declarator &D, QualType &R,
1422 FunctionDecl::StorageClass& SC) {
1423 bool isInvalid = false;
1424
1425 // C++ [class.conv.fct]p1:
1426 // Neither parameter types nor return type can be specified. The
1427 // type of a conversion function (8.3.5) is “function taking no
1428 // parameter returning conversion-type-id.”
1429 if (SC == FunctionDecl::Static) {
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001430 Diag(D.getIdentifierLoc(), diag::err_conv_function_not_member)
1431 << "static" << SourceRange(D.getDeclSpec().getStorageClassSpecLoc())
1432 << SourceRange(D.getIdentifierLoc());
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001433 isInvalid = true;
1434 SC = FunctionDecl::None;
1435 }
1436 if (D.getDeclSpec().hasTypeSpecifier()) {
1437 // Conversion functions don't have return types, but the parser will
1438 // happily parse something like:
1439 //
1440 // class X {
1441 // float operator bool();
1442 // };
1443 //
1444 // The return type will be changed later anyway.
Chris Lattnerfa25bbb2008-11-19 05:08:23 +00001445 Diag(D.getIdentifierLoc(), diag::err_conv_function_return_type)
1446 << SourceRange(D.getDeclSpec().getTypeSpecTypeLoc())
1447 << SourceRange(D.getIdentifierLoc());
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001448 }
1449
1450 // Make sure we don't have any parameters.
Douglas Gregor72564e72009-02-26 23:50:07 +00001451 if (R->getAsFunctionProtoType()->getNumArgs() > 0) {
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001452 Diag(D.getIdentifierLoc(), diag::err_conv_function_with_params);
1453
1454 // Delete the parameters.
Chris Lattner1833a832009-01-20 21:06:38 +00001455 D.getTypeObject(0).Fun.freeArgs();
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001456 }
1457
1458 // Make sure the conversion function isn't variadic.
Douglas Gregor72564e72009-02-26 23:50:07 +00001459 if (R->getAsFunctionProtoType()->isVariadic())
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001460 Diag(D.getIdentifierLoc(), diag::err_conv_function_variadic);
1461
1462 // C++ [class.conv.fct]p4:
1463 // The conversion-type-id shall not represent a function type nor
1464 // an array type.
1465 QualType ConvType = QualType::getFromOpaquePtr(D.getDeclaratorIdType());
1466 if (ConvType->isArrayType()) {
1467 Diag(D.getIdentifierLoc(), diag::err_conv_function_to_array);
1468 ConvType = Context.getPointerType(ConvType);
1469 } else if (ConvType->isFunctionType()) {
1470 Diag(D.getIdentifierLoc(), diag::err_conv_function_to_function);
1471 ConvType = Context.getPointerType(ConvType);
1472 }
1473
1474 // Rebuild the function type "R" without any parameters (in case any
1475 // of the errors above fired) and with the conversion type as the
1476 // return type.
1477 R = Context.getFunctionType(ConvType, 0, 0, false,
Douglas Gregor72564e72009-02-26 23:50:07 +00001478 R->getAsFunctionProtoType()->getTypeQuals());
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001479
Douglas Gregor09f41cf2009-01-14 15:45:31 +00001480 // C++0x explicit conversion operators.
1481 if (D.getDeclSpec().isExplicitSpecified() && !getLangOptions().CPlusPlus0x)
1482 Diag(D.getDeclSpec().getExplicitSpecLoc(),
1483 diag::warn_explicit_conversion_functions)
1484 << SourceRange(D.getDeclSpec().getExplicitSpecLoc());
1485
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001486 return isInvalid;
1487}
1488
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001489/// ActOnConversionDeclarator - Called by ActOnDeclarator to complete
1490/// the declaration of the given C++ conversion function. This routine
1491/// is responsible for recording the conversion function in the C++
1492/// class, if possible.
Chris Lattnerb28317a2009-03-28 19:18:32 +00001493Sema::DeclPtrTy Sema::ActOnConversionDeclarator(CXXConversionDecl *Conversion) {
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001494 assert(Conversion && "Expected to receive a conversion function declaration");
1495
Douglas Gregor9d350972008-12-12 08:25:50 +00001496 // Set the lexical context of this conversion function
1497 Conversion->setLexicalDeclContext(CurContext);
1498
1499 CXXRecordDecl *ClassDecl = cast<CXXRecordDecl>(Conversion->getDeclContext());
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001500
1501 // Make sure we aren't redeclaring the conversion function.
1502 QualType ConvType = Context.getCanonicalType(Conversion->getConversionType());
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001503
1504 // C++ [class.conv.fct]p1:
1505 // [...] A conversion function is never used to convert a
1506 // (possibly cv-qualified) object to the (possibly cv-qualified)
1507 // same object type (or a reference to it), to a (possibly
1508 // cv-qualified) base class of that type (or a reference to it),
1509 // or to (possibly cv-qualified) void.
1510 // FIXME: Suppress this warning if the conversion function ends up
1511 // being a virtual function that overrides a virtual function in a
1512 // base class.
1513 QualType ClassType
1514 = Context.getCanonicalType(Context.getTypeDeclType(ClassDecl));
1515 if (const ReferenceType *ConvTypeRef = ConvType->getAsReferenceType())
1516 ConvType = ConvTypeRef->getPointeeType();
1517 if (ConvType->isRecordType()) {
1518 ConvType = Context.getCanonicalType(ConvType).getUnqualifiedType();
1519 if (ConvType == ClassType)
Chris Lattner5dc266a2008-11-20 06:13:02 +00001520 Diag(Conversion->getLocation(), diag::warn_conv_to_self_not_used)
Chris Lattnerd1625842008-11-24 06:25:27 +00001521 << ClassType;
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001522 else if (IsDerivedFrom(ClassType, ConvType))
Chris Lattner5dc266a2008-11-20 06:13:02 +00001523 Diag(Conversion->getLocation(), diag::warn_conv_to_base_not_used)
Chris Lattnerd1625842008-11-24 06:25:27 +00001524 << ClassType << ConvType;
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001525 } else if (ConvType->isVoidType()) {
Chris Lattner5dc266a2008-11-20 06:13:02 +00001526 Diag(Conversion->getLocation(), diag::warn_conv_to_void_not_used)
Chris Lattnerd1625842008-11-24 06:25:27 +00001527 << ClassType << ConvType;
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001528 }
1529
Douglas Gregor70316a02008-12-26 15:00:45 +00001530 if (Conversion->getPreviousDeclaration()) {
1531 OverloadedFunctionDecl *Conversions = ClassDecl->getConversionFunctions();
1532 for (OverloadedFunctionDecl::function_iterator
1533 Conv = Conversions->function_begin(),
1534 ConvEnd = Conversions->function_end();
1535 Conv != ConvEnd; ++Conv) {
1536 if (*Conv == Conversion->getPreviousDeclaration()) {
1537 *Conv = Conversion;
Chris Lattnerb28317a2009-03-28 19:18:32 +00001538 return DeclPtrTy::make(Conversion);
Douglas Gregor70316a02008-12-26 15:00:45 +00001539 }
1540 }
1541 assert(Conversion->isInvalidDecl() && "Conversion should not get here.");
1542 } else
1543 ClassDecl->addConversionFunction(Context, Conversion);
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001544
Chris Lattnerb28317a2009-03-28 19:18:32 +00001545 return DeclPtrTy::make(Conversion);
Douglas Gregor2f1bc522008-11-07 20:08:42 +00001546}
1547
Argyrios Kyrtzidis2d1c5d32008-04-27 13:50:30 +00001548//===----------------------------------------------------------------------===//
1549// Namespace Handling
1550//===----------------------------------------------------------------------===//
1551
1552/// ActOnStartNamespaceDef - This is called at the start of a namespace
1553/// definition.
Chris Lattnerb28317a2009-03-28 19:18:32 +00001554Sema::DeclPtrTy Sema::ActOnStartNamespaceDef(Scope *NamespcScope,
1555 SourceLocation IdentLoc,
1556 IdentifierInfo *II,
1557 SourceLocation LBrace) {
Argyrios Kyrtzidis2d1c5d32008-04-27 13:50:30 +00001558 NamespaceDecl *Namespc =
1559 NamespaceDecl::Create(Context, CurContext, IdentLoc, II);
1560 Namespc->setLBracLoc(LBrace);
1561
1562 Scope *DeclRegionScope = NamespcScope->getParent();
1563
1564 if (II) {
1565 // C++ [namespace.def]p2:
1566 // The identifier in an original-namespace-definition shall not have been
1567 // previously defined in the declarative region in which the
1568 // original-namespace-definition appears. The identifier in an
1569 // original-namespace-definition is the name of the namespace. Subsequently
1570 // in that declarative region, it is treated as an original-namespace-name.
1571
Douglas Gregor47b9a1c2009-02-04 17:27:36 +00001572 NamedDecl *PrevDecl = LookupName(DeclRegionScope, II, LookupOrdinaryName,
1573 true);
Douglas Gregor44b43212008-12-11 16:49:14 +00001574
1575 if (NamespaceDecl *OrigNS = dyn_cast_or_null<NamespaceDecl>(PrevDecl)) {
1576 // This is an extended namespace definition.
1577 // Attach this namespace decl to the chain of extended namespace
1578 // definitions.
1579 OrigNS->setNextNamespace(Namespc);
1580 Namespc->setOriginalNamespace(OrigNS->getOriginalNamespace());
Argyrios Kyrtzidis2d1c5d32008-04-27 13:50:30 +00001581
Douglas Gregor44b43212008-12-11 16:49:14 +00001582 // Remove the previous declaration from the scope.
Chris Lattnerb28317a2009-03-28 19:18:32 +00001583 if (DeclRegionScope->isDeclScope(DeclPtrTy::make(OrigNS))) {
Douglas Gregore267ff32008-12-11 20:41:00 +00001584 IdResolver.RemoveDecl(OrigNS);
Chris Lattnerb28317a2009-03-28 19:18:32 +00001585 DeclRegionScope->RemoveDecl(DeclPtrTy::make(OrigNS));
Argyrios Kyrtzidis2d1c5d32008-04-27 13:50:30 +00001586 }
Douglas Gregor44b43212008-12-11 16:49:14 +00001587 } else if (PrevDecl) {
1588 // This is an invalid name redefinition.
1589 Diag(Namespc->getLocation(), diag::err_redefinition_different_kind)
1590 << Namespc->getDeclName();
1591 Diag(PrevDecl->getLocation(), diag::note_previous_definition);
1592 Namespc->setInvalidDecl();
1593 // Continue on to push Namespc as current DeclContext and return it.
1594 }
1595
1596 PushOnScopeChains(Namespc, DeclRegionScope);
1597 } else {
Argyrios Kyrtzidis2d1c5d32008-04-27 13:50:30 +00001598 // FIXME: Handle anonymous namespaces
1599 }
1600
1601 // Although we could have an invalid decl (i.e. the namespace name is a
1602 // redefinition), push it as current DeclContext and try to continue parsing.
Douglas Gregor44b43212008-12-11 16:49:14 +00001603 // FIXME: We should be able to push Namespc here, so that the
1604 // each DeclContext for the namespace has the declarations
1605 // that showed up in that particular namespace definition.
1606 PushDeclContext(NamespcScope, Namespc);
Chris Lattnerb28317a2009-03-28 19:18:32 +00001607 return DeclPtrTy::make(Namespc);
Argyrios Kyrtzidis2d1c5d32008-04-27 13:50:30 +00001608}
1609
1610/// ActOnFinishNamespaceDef - This callback is called after a namespace is
1611/// exited. Decl is the DeclTy returned by ActOnStartNamespaceDef.
Chris Lattnerb28317a2009-03-28 19:18:32 +00001612void Sema::ActOnFinishNamespaceDef(DeclPtrTy D, SourceLocation RBrace) {
1613 Decl *Dcl = D.getAs<Decl>();
Argyrios Kyrtzidis2d1c5d32008-04-27 13:50:30 +00001614 NamespaceDecl *Namespc = dyn_cast_or_null<NamespaceDecl>(Dcl);
1615 assert(Namespc && "Invalid parameter, expected NamespaceDecl");
1616 Namespc->setRBracLoc(RBrace);
1617 PopDeclContext();
1618}
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001619
Chris Lattnerb28317a2009-03-28 19:18:32 +00001620Sema::DeclPtrTy Sema::ActOnUsingDirective(Scope *S,
1621 SourceLocation UsingLoc,
1622 SourceLocation NamespcLoc,
1623 const CXXScopeSpec &SS,
1624 SourceLocation IdentLoc,
1625 IdentifierInfo *NamespcName,
1626 AttributeList *AttrList) {
Douglas Gregorf780abc2008-12-30 03:27:21 +00001627 assert(!SS.isInvalid() && "Invalid CXXScopeSpec.");
1628 assert(NamespcName && "Invalid NamespcName.");
1629 assert(IdentLoc.isValid() && "Invalid NamespceName location.");
Douglas Gregor2a3009a2009-02-03 19:21:40 +00001630 assert(S->getFlags() & Scope::DeclScope && "Invalid Scope.");
Douglas Gregorf780abc2008-12-30 03:27:21 +00001631
Douglas Gregor2a3009a2009-02-03 19:21:40 +00001632 UsingDirectiveDecl *UDir = 0;
Douglas Gregorf780abc2008-12-30 03:27:21 +00001633
Douglas Gregoreb11cd02009-01-14 22:20:51 +00001634 // Lookup namespace name.
Douglas Gregor2a3009a2009-02-03 19:21:40 +00001635 LookupResult R = LookupParsedName(S, &SS, NamespcName,
1636 LookupNamespaceName, false);
1637 if (R.isAmbiguous()) {
1638 DiagnoseAmbiguousLookup(R, NamespcName, IdentLoc);
Chris Lattnerb28317a2009-03-28 19:18:32 +00001639 return DeclPtrTy();
Douglas Gregor2a3009a2009-02-03 19:21:40 +00001640 }
Douglas Gregor47b9a1c2009-02-04 17:27:36 +00001641 if (NamedDecl *NS = R) {
Douglas Gregorf780abc2008-12-30 03:27:21 +00001642 assert(isa<NamespaceDecl>(NS) && "expected namespace decl");
Douglas Gregor2a3009a2009-02-03 19:21:40 +00001643 // C++ [namespace.udir]p1:
1644 // A using-directive specifies that the names in the nominated
1645 // namespace can be used in the scope in which the
1646 // using-directive appears after the using-directive. During
1647 // unqualified name lookup (3.4.1), the names appear as if they
1648 // were declared in the nearest enclosing namespace which
1649 // contains both the using-directive and the nominated
1650 // namespace. [Note: in this context, “contains” means “contains
1651 // directly or indirectly”. ]
1652
1653 // Find enclosing context containing both using-directive and
1654 // nominated namespace.
1655 DeclContext *CommonAncestor = cast<DeclContext>(NS);
1656 while (CommonAncestor && !CommonAncestor->Encloses(CurContext))
1657 CommonAncestor = CommonAncestor->getParent();
1658
1659 UDir = UsingDirectiveDecl::Create(Context, CurContext, UsingLoc,
1660 NamespcLoc, IdentLoc,
1661 cast<NamespaceDecl>(NS),
1662 CommonAncestor);
1663 PushUsingDirective(S, UDir);
Douglas Gregorf780abc2008-12-30 03:27:21 +00001664 } else {
Chris Lattneread013e2009-01-06 07:24:29 +00001665 Diag(IdentLoc, diag::err_expected_namespace_name) << SS.getRange();
Douglas Gregorf780abc2008-12-30 03:27:21 +00001666 }
1667
Douglas Gregor2a3009a2009-02-03 19:21:40 +00001668 // FIXME: We ignore attributes for now.
Douglas Gregorf780abc2008-12-30 03:27:21 +00001669 delete AttrList;
Chris Lattnerb28317a2009-03-28 19:18:32 +00001670 return DeclPtrTy::make(UDir);
Douglas Gregor2a3009a2009-02-03 19:21:40 +00001671}
1672
1673void Sema::PushUsingDirective(Scope *S, UsingDirectiveDecl *UDir) {
1674 // If scope has associated entity, then using directive is at namespace
1675 // or translation unit scope. We add UsingDirectiveDecls, into
1676 // it's lookup structure.
1677 if (DeclContext *Ctx = static_cast<DeclContext*>(S->getEntity()))
Douglas Gregor6ab35242009-04-09 21:40:53 +00001678 Ctx->addDecl(Context, UDir);
Douglas Gregor2a3009a2009-02-03 19:21:40 +00001679 else
1680 // Otherwise it is block-sope. using-directives will affect lookup
1681 // only to the end of scope.
Chris Lattnerb28317a2009-03-28 19:18:32 +00001682 S->PushUsingDirective(DeclPtrTy::make(UDir));
Douglas Gregorf780abc2008-12-30 03:27:21 +00001683}
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001684
Anders Carlsson81c85c42009-03-28 23:53:49 +00001685/// getNamespaceDecl - Returns the namespace a decl represents. If the decl
1686/// is a namespace alias, returns the namespace it points to.
1687static inline NamespaceDecl *getNamespaceDecl(NamedDecl *D) {
1688 if (NamespaceAliasDecl *AD = dyn_cast_or_null<NamespaceAliasDecl>(D))
1689 return AD->getNamespace();
1690 return dyn_cast_or_null<NamespaceDecl>(D);
1691}
1692
Chris Lattnerb28317a2009-03-28 19:18:32 +00001693Sema::DeclPtrTy Sema::ActOnNamespaceAliasDef(Scope *S,
Anders Carlsson03bd5a12009-03-28 22:53:22 +00001694 SourceLocation NamespaceLoc,
Chris Lattnerb28317a2009-03-28 19:18:32 +00001695 SourceLocation AliasLoc,
1696 IdentifierInfo *Alias,
1697 const CXXScopeSpec &SS,
Anders Carlsson03bd5a12009-03-28 22:53:22 +00001698 SourceLocation IdentLoc,
1699 IdentifierInfo *Ident) {
Anders Carlsson8d7ba402009-03-28 06:23:46 +00001700
Anders Carlsson81c85c42009-03-28 23:53:49 +00001701 // Lookup the namespace name.
1702 LookupResult R = LookupParsedName(S, &SS, Ident, LookupNamespaceName, false);
1703
Anders Carlsson8d7ba402009-03-28 06:23:46 +00001704 // Check if we have a previous declaration with the same name.
Anders Carlssondd729fc2009-03-28 23:49:35 +00001705 if (NamedDecl *PrevDecl = LookupName(S, Alias, LookupOrdinaryName, true)) {
Anders Carlsson81c85c42009-03-28 23:53:49 +00001706 if (NamespaceAliasDecl *AD = dyn_cast<NamespaceAliasDecl>(PrevDecl)) {
1707 // We already have an alias with the same name that points to the same
1708 // namespace, so don't create a new one.
1709 if (!R.isAmbiguous() && AD->getNamespace() == getNamespaceDecl(R))
1710 return DeclPtrTy();
1711 }
1712
Anders Carlsson8d7ba402009-03-28 06:23:46 +00001713 unsigned DiagID = isa<NamespaceDecl>(PrevDecl) ? diag::err_redefinition :
1714 diag::err_redefinition_different_kind;
1715 Diag(AliasLoc, DiagID) << Alias;
1716 Diag(PrevDecl->getLocation(), diag::note_previous_definition);
Chris Lattnerb28317a2009-03-28 19:18:32 +00001717 return DeclPtrTy();
Anders Carlsson8d7ba402009-03-28 06:23:46 +00001718 }
1719
Anders Carlsson5721c682009-03-28 06:42:02 +00001720 if (R.isAmbiguous()) {
Anders Carlsson03bd5a12009-03-28 22:53:22 +00001721 DiagnoseAmbiguousLookup(R, Ident, IdentLoc);
Chris Lattnerb28317a2009-03-28 19:18:32 +00001722 return DeclPtrTy();
Anders Carlsson5721c682009-03-28 06:42:02 +00001723 }
1724
1725 if (!R) {
1726 Diag(NamespaceLoc, diag::err_expected_namespace_name) << SS.getRange();
Chris Lattnerb28317a2009-03-28 19:18:32 +00001727 return DeclPtrTy();
Anders Carlsson5721c682009-03-28 06:42:02 +00001728 }
1729
Anders Carlsson68771c72009-03-28 22:58:02 +00001730 NamespaceAliasDecl *AliasDecl =
1731 NamespaceAliasDecl::Create(Context, CurContext, NamespaceLoc, AliasLoc, Alias,
1732 IdentLoc, R);
1733
Douglas Gregor6ab35242009-04-09 21:40:53 +00001734 CurContext->addDecl(Context, AliasDecl);
Anders Carlsson68771c72009-03-28 22:58:02 +00001735 return DeclPtrTy::make(AliasDecl);
Anders Carlssondbb00942009-03-28 05:27:17 +00001736}
1737
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001738/// AddCXXDirectInitializerToDecl - This action is called immediately after
1739/// ActOnDeclarator, when a C++ direct initializer is present.
1740/// e.g: "int x(1);"
Chris Lattnerb28317a2009-03-28 19:18:32 +00001741void Sema::AddCXXDirectInitializerToDecl(DeclPtrTy Dcl,
1742 SourceLocation LParenLoc,
Sebastian Redlf53597f2009-03-15 17:47:39 +00001743 MultiExprArg Exprs,
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001744 SourceLocation *CommaLocs,
1745 SourceLocation RParenLoc) {
Sebastian Redlf53597f2009-03-15 17:47:39 +00001746 unsigned NumExprs = Exprs.size();
1747 assert(NumExprs != 0 && Exprs.get() && "missing expressions");
Chris Lattnerb28317a2009-03-28 19:18:32 +00001748 Decl *RealDecl = Dcl.getAs<Decl>();
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001749
1750 // If there is no declaration, there was an error parsing it. Just ignore
1751 // the initializer.
Chris Lattnerb28317a2009-03-28 19:18:32 +00001752 if (RealDecl == 0)
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001753 return;
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001754
1755 VarDecl *VDecl = dyn_cast<VarDecl>(RealDecl);
1756 if (!VDecl) {
1757 Diag(RealDecl->getLocation(), diag::err_illegal_initializer);
1758 RealDecl->setInvalidDecl();
1759 return;
1760 }
1761
Douglas Gregor615c5d42009-03-24 16:43:20 +00001762 // FIXME: Need to handle dependent types and expressions here.
1763
Argyrios Kyrtzidisce8e2922008-10-06 23:08:37 +00001764 // We will treat direct-initialization as a copy-initialization:
1765 // int x(1); -as-> int x = 1;
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001766 // ClassType x(a,b,c); -as-> ClassType x = ClassType(a,b,c);
1767 //
1768 // Clients that want to distinguish between the two forms, can check for
1769 // direct initializer using VarDecl::hasCXXDirectInitializer().
1770 // A major benefit is that clients that don't particularly care about which
1771 // exactly form was it (like the CodeGen) can handle both cases without
1772 // special case code.
Argyrios Kyrtzidis06ad1f52008-10-06 18:37:09 +00001773
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001774 // C++ 8.5p11:
1775 // The form of initialization (using parentheses or '=') is generally
1776 // insignificant, but does matter when the entity being initialized has a
Argyrios Kyrtzidis06ad1f52008-10-06 18:37:09 +00001777 // class type.
Douglas Gregor18fe5682008-11-03 20:45:27 +00001778 QualType DeclInitType = VDecl->getType();
1779 if (const ArrayType *Array = Context.getAsArrayType(DeclInitType))
1780 DeclInitType = Array->getElementType();
Argyrios Kyrtzidis06ad1f52008-10-06 18:37:09 +00001781
Douglas Gregor615c5d42009-03-24 16:43:20 +00001782 // FIXME: This isn't the right place to complete the type.
1783 if (RequireCompleteType(VDecl->getLocation(), VDecl->getType(),
1784 diag::err_typecheck_decl_incomplete_type)) {
1785 VDecl->setInvalidDecl();
1786 return;
1787 }
1788
Argyrios Kyrtzidis06ad1f52008-10-06 18:37:09 +00001789 if (VDecl->getType()->isRecordType()) {
Douglas Gregor18fe5682008-11-03 20:45:27 +00001790 CXXConstructorDecl *Constructor
Sebastian Redlf53597f2009-03-15 17:47:39 +00001791 = PerformInitializationByConstructor(DeclInitType,
1792 (Expr **)Exprs.get(), NumExprs,
Douglas Gregorf03d7c72008-11-05 15:29:30 +00001793 VDecl->getLocation(),
1794 SourceRange(VDecl->getLocation(),
1795 RParenLoc),
Chris Lattnerd9d22dd2008-11-24 05:29:24 +00001796 VDecl->getDeclName(),
Douglas Gregorf03d7c72008-11-05 15:29:30 +00001797 IK_Direct);
Sebastian Redlf53597f2009-03-15 17:47:39 +00001798 if (!Constructor)
Douglas Gregor18fe5682008-11-03 20:45:27 +00001799 RealDecl->setInvalidDecl();
Sebastian Redlf53597f2009-03-15 17:47:39 +00001800 else
1801 Exprs.release();
Douglas Gregorf03d7c72008-11-05 15:29:30 +00001802
1803 // Let clients know that initialization was done with a direct
1804 // initializer.
1805 VDecl->setCXXDirectInitializer(true);
1806
1807 // FIXME: Add ExprTys and Constructor to the RealDecl as part of
1808 // the initializer.
Argyrios Kyrtzidis06ad1f52008-10-06 18:37:09 +00001809 return;
1810 }
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001811
Argyrios Kyrtzidisce8e2922008-10-06 23:08:37 +00001812 if (NumExprs > 1) {
Chris Lattnerdcd5ef12008-11-19 05:27:50 +00001813 Diag(CommaLocs[0], diag::err_builtin_direct_init_more_than_one_arg)
1814 << SourceRange(VDecl->getLocation(), RParenLoc);
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001815 RealDecl->setInvalidDecl();
1816 return;
1817 }
1818
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001819 // Let clients know that initialization was done with a direct initializer.
1820 VDecl->setCXXDirectInitializer(true);
Argyrios Kyrtzidisce8e2922008-10-06 23:08:37 +00001821
1822 assert(NumExprs == 1 && "Expected 1 expression");
1823 // Set the init expression, handles conversions.
Sebastian Redlf53597f2009-03-15 17:47:39 +00001824 AddInitializerToDecl(Dcl, ExprArg(*this, Exprs.release()[0]),
1825 /*DirectInit=*/true);
Argyrios Kyrtzidis73a0d882008-10-06 17:10:33 +00001826}
Douglas Gregor27c8dc02008-10-29 00:13:59 +00001827
Douglas Gregorf03d7c72008-11-05 15:29:30 +00001828/// PerformInitializationByConstructor - Perform initialization by
1829/// constructor (C++ [dcl.init]p14), which may occur as part of
1830/// direct-initialization or copy-initialization. We are initializing
1831/// an object of type @p ClassType with the given arguments @p
1832/// Args. @p Loc is the location in the source code where the
1833/// initializer occurs (e.g., a declaration, member initializer,
1834/// functional cast, etc.) while @p Range covers the whole
1835/// initialization. @p InitEntity is the entity being initialized,
1836/// which may by the name of a declaration or a type. @p Kind is the
1837/// kind of initialization we're performing, which affects whether
1838/// explicit constructors will be considered. When successful, returns
Douglas Gregor18fe5682008-11-03 20:45:27 +00001839/// the constructor that will be used to perform the initialization;
Douglas Gregorf03d7c72008-11-05 15:29:30 +00001840/// when the initialization fails, emits a diagnostic and returns
1841/// null.
Douglas Gregor18fe5682008-11-03 20:45:27 +00001842CXXConstructorDecl *
Douglas Gregorf03d7c72008-11-05 15:29:30 +00001843Sema::PerformInitializationByConstructor(QualType ClassType,
1844 Expr **Args, unsigned NumArgs,
1845 SourceLocation Loc, SourceRange Range,
Chris Lattnerd9d22dd2008-11-24 05:29:24 +00001846 DeclarationName InitEntity,
Douglas Gregorf03d7c72008-11-05 15:29:30 +00001847 InitializationKind Kind) {
Douglas Gregor18fe5682008-11-03 20:45:27 +00001848 const RecordType *ClassRec = ClassType->getAsRecordType();
1849 assert(ClassRec && "Can only initialize a class type here");
1850
1851 // C++ [dcl.init]p14:
1852 //
1853 // If the initialization is direct-initialization, or if it is
1854 // copy-initialization where the cv-unqualified version of the
1855 // source type is the same class as, or a derived class of, the
1856 // class of the destination, constructors are considered. The
1857 // applicable constructors are enumerated (13.3.1.3), and the
1858 // best one is chosen through overload resolution (13.3). The
1859 // constructor so selected is called to initialize the object,
1860 // with the initializer expression(s) as its argument(s). If no
1861 // constructor applies, or the overload resolution is ambiguous,
1862 // the initialization is ill-formed.
Douglas Gregor18fe5682008-11-03 20:45:27 +00001863 const CXXRecordDecl *ClassDecl = cast<CXXRecordDecl>(ClassRec->getDecl());
1864 OverloadCandidateSet CandidateSet;
Douglas Gregorf03d7c72008-11-05 15:29:30 +00001865
1866 // Add constructors to the overload set.
Douglas Gregor9e7d9de2008-12-15 21:24:18 +00001867 DeclarationName ConstructorName
1868 = Context.DeclarationNames.getCXXConstructorName(
1869 Context.getCanonicalType(ClassType.getUnqualifiedType()));
Douglas Gregor3fc749d2008-12-23 00:26:44 +00001870 DeclContext::lookup_const_iterator Con, ConEnd;
Douglas Gregor6ab35242009-04-09 21:40:53 +00001871 for (llvm::tie(Con, ConEnd) = ClassDecl->lookup(Context, ConstructorName);
Douglas Gregor3fc749d2008-12-23 00:26:44 +00001872 Con != ConEnd; ++Con) {
1873 CXXConstructorDecl *Constructor = cast<CXXConstructorDecl>(*Con);
Douglas Gregorf03d7c72008-11-05 15:29:30 +00001874 if ((Kind == IK_Direct) ||
1875 (Kind == IK_Copy && Constructor->isConvertingConstructor()) ||
1876 (Kind == IK_Default && Constructor->isDefaultConstructor()))
1877 AddOverloadCandidate(Constructor, Args, NumArgs, CandidateSet);
1878 }
1879
Douglas Gregor9e7d9de2008-12-15 21:24:18 +00001880 // FIXME: When we decide not to synthesize the implicitly-declared
1881 // constructors, we'll need to make them appear here.
1882
Douglas Gregor18fe5682008-11-03 20:45:27 +00001883 OverloadCandidateSet::iterator Best;
Douglas Gregor18fe5682008-11-03 20:45:27 +00001884 switch (BestViableFunction(CandidateSet, Best)) {
1885 case OR_Success:
1886 // We found a constructor. Return it.
1887 return cast<CXXConstructorDecl>(Best->Function);
1888
1889 case OR_No_Viable_Function:
Douglas Gregor87fd7032009-02-02 17:43:21 +00001890 if (InitEntity)
1891 Diag(Loc, diag::err_ovl_no_viable_function_in_init)
Chris Lattner4330d652009-02-17 07:29:20 +00001892 << InitEntity << Range;
Douglas Gregor87fd7032009-02-02 17:43:21 +00001893 else
1894 Diag(Loc, diag::err_ovl_no_viable_function_in_init)
Chris Lattner4330d652009-02-17 07:29:20 +00001895 << ClassType << Range;
Sebastian Redle4c452c2008-11-22 13:44:36 +00001896 PrintOverloadCandidates(CandidateSet, /*OnlyViable=*/false);
Douglas Gregor18fe5682008-11-03 20:45:27 +00001897 return 0;
1898
1899 case OR_Ambiguous:
Douglas Gregor87fd7032009-02-02 17:43:21 +00001900 if (InitEntity)
1901 Diag(Loc, diag::err_ovl_ambiguous_init) << InitEntity << Range;
1902 else
1903 Diag(Loc, diag::err_ovl_ambiguous_init) << ClassType << Range;
Douglas Gregor18fe5682008-11-03 20:45:27 +00001904 PrintOverloadCandidates(CandidateSet, /*OnlyViable=*/true);
1905 return 0;
Douglas Gregor48f3bb92009-02-18 21:56:37 +00001906
1907 case OR_Deleted:
1908 if (InitEntity)
1909 Diag(Loc, diag::err_ovl_deleted_init)
1910 << Best->Function->isDeleted()
1911 << InitEntity << Range;
1912 else
1913 Diag(Loc, diag::err_ovl_deleted_init)
1914 << Best->Function->isDeleted()
1915 << InitEntity << Range;
1916 PrintOverloadCandidates(CandidateSet, /*OnlyViable=*/true);
1917 return 0;
Douglas Gregor18fe5682008-11-03 20:45:27 +00001918 }
1919
1920 return 0;
1921}
1922
Douglas Gregor27c8dc02008-10-29 00:13:59 +00001923/// CompareReferenceRelationship - Compare the two types T1 and T2 to
1924/// determine whether they are reference-related,
1925/// reference-compatible, reference-compatible with added
1926/// qualification, or incompatible, for use in C++ initialization by
1927/// reference (C++ [dcl.ref.init]p4). Neither type can be a reference
1928/// type, and the first type (T1) is the pointee type of the reference
1929/// type being initialized.
1930Sema::ReferenceCompareResult
Douglas Gregor15da57e2008-10-29 02:00:59 +00001931Sema::CompareReferenceRelationship(QualType T1, QualType T2,
1932 bool& DerivedToBase) {
Sebastian Redl7c80bd62009-03-16 23:22:08 +00001933 assert(!T1->isReferenceType() &&
1934 "T1 must be the pointee type of the reference type");
Douglas Gregor27c8dc02008-10-29 00:13:59 +00001935 assert(!T2->isReferenceType() && "T2 cannot be a reference type");
1936
1937 T1 = Context.getCanonicalType(T1);
1938 T2 = Context.getCanonicalType(T2);
1939 QualType UnqualT1 = T1.getUnqualifiedType();
1940 QualType UnqualT2 = T2.getUnqualifiedType();
1941
1942 // C++ [dcl.init.ref]p4:
1943 // Given types “cv1 T1” and “cv2 T2,” “cv1 T1” is
1944 // reference-related to “cv2 T2” if T1 is the same type as T2, or
1945 // T1 is a base class of T2.
Douglas Gregor15da57e2008-10-29 02:00:59 +00001946 if (UnqualT1 == UnqualT2)
1947 DerivedToBase = false;
1948 else if (IsDerivedFrom(UnqualT2, UnqualT1))
1949 DerivedToBase = true;
1950 else
Douglas Gregor27c8dc02008-10-29 00:13:59 +00001951 return Ref_Incompatible;
1952
1953 // At this point, we know that T1 and T2 are reference-related (at
1954 // least).
1955
1956 // C++ [dcl.init.ref]p4:
1957 // "cv1 T1” is reference-compatible with “cv2 T2” if T1 is
1958 // reference-related to T2 and cv1 is the same cv-qualification
1959 // as, or greater cv-qualification than, cv2. For purposes of
1960 // overload resolution, cases for which cv1 is greater
1961 // cv-qualification than cv2 are identified as
1962 // reference-compatible with added qualification (see 13.3.3.2).
1963 if (T1.getCVRQualifiers() == T2.getCVRQualifiers())
1964 return Ref_Compatible;
1965 else if (T1.isMoreQualifiedThan(T2))
1966 return Ref_Compatible_With_Added_Qualification;
1967 else
1968 return Ref_Related;
1969}
1970
1971/// CheckReferenceInit - Check the initialization of a reference
1972/// variable with the given initializer (C++ [dcl.init.ref]). Init is
1973/// the initializer (either a simple initializer or an initializer
Douglas Gregor3205a782008-10-29 23:31:03 +00001974/// list), and DeclType is the type of the declaration. When ICS is
1975/// non-null, this routine will compute the implicit conversion
1976/// sequence according to C++ [over.ics.ref] and will not produce any
1977/// diagnostics; when ICS is null, it will emit diagnostics when any
1978/// errors are found. Either way, a return value of true indicates
1979/// that there was a failure, a return value of false indicates that
1980/// the reference initialization succeeded.
Douglas Gregor225c41e2008-11-03 19:09:14 +00001981///
1982/// When @p SuppressUserConversions, user-defined conversions are
1983/// suppressed.
Douglas Gregor09f41cf2009-01-14 15:45:31 +00001984/// When @p AllowExplicit, we also permit explicit user-defined
1985/// conversion functions.
Sebastian Redle2b68332009-04-12 17:16:29 +00001986/// When @p ForceRValue, we unconditionally treat the initializer as an rvalue.
Douglas Gregor15da57e2008-10-29 02:00:59 +00001987bool
1988Sema::CheckReferenceInit(Expr *&Init, QualType &DeclType,
Douglas Gregor225c41e2008-11-03 19:09:14 +00001989 ImplicitConversionSequence *ICS,
Douglas Gregor09f41cf2009-01-14 15:45:31 +00001990 bool SuppressUserConversions,
Sebastian Redle2b68332009-04-12 17:16:29 +00001991 bool AllowExplicit, bool ForceRValue) {
Douglas Gregor27c8dc02008-10-29 00:13:59 +00001992 assert(DeclType->isReferenceType() && "Reference init needs a reference");
1993
1994 QualType T1 = DeclType->getAsReferenceType()->getPointeeType();
1995 QualType T2 = Init->getType();
1996
Douglas Gregor904eed32008-11-10 20:40:00 +00001997 // If the initializer is the address of an overloaded function, try
1998 // to resolve the overloaded function. If all goes well, T2 is the
1999 // type of the resulting function.
Douglas Gregor063daf62009-03-13 18:40:31 +00002000 if (Context.getCanonicalType(T2) == Context.OverloadTy) {
Douglas Gregor904eed32008-11-10 20:40:00 +00002001 FunctionDecl *Fn = ResolveAddressOfOverloadedFunction(Init, DeclType,
2002 ICS != 0);
2003 if (Fn) {
2004 // Since we're performing this reference-initialization for
2005 // real, update the initializer with the resulting function.
Douglas Gregor48f3bb92009-02-18 21:56:37 +00002006 if (!ICS) {
2007 if (DiagnoseUseOfDecl(Fn, Init->getSourceRange().getBegin()))
2008 return true;
2009
Douglas Gregor904eed32008-11-10 20:40:00 +00002010 FixOverloadedFunctionReference(Init, Fn);
Douglas Gregor48f3bb92009-02-18 21:56:37 +00002011 }
Douglas Gregor904eed32008-11-10 20:40:00 +00002012
2013 T2 = Fn->getType();
2014 }
2015 }
2016
Douglas Gregor15da57e2008-10-29 02:00:59 +00002017 // Compute some basic properties of the types and the initializer.
Sebastian Redl7c80bd62009-03-16 23:22:08 +00002018 bool isRValRef = DeclType->isRValueReferenceType();
Douglas Gregor15da57e2008-10-29 02:00:59 +00002019 bool DerivedToBase = false;
Sebastian Redle2b68332009-04-12 17:16:29 +00002020 Expr::isLvalueResult InitLvalue = ForceRValue ? Expr::LV_InvalidExpression :
2021 Init->isLvalue(Context);
Douglas Gregor15da57e2008-10-29 02:00:59 +00002022 ReferenceCompareResult RefRelationship
2023 = CompareReferenceRelationship(T1, T2, DerivedToBase);
2024
2025 // Most paths end in a failed conversion.
2026 if (ICS)
2027 ICS->ConversionKind = ImplicitConversionSequence::BadConversion;
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002028
2029 // C++ [dcl.init.ref]p5:
2030 // A reference to type “cv1 T1” is initialized by an expression
2031 // of type “cv2 T2” as follows:
2032
2033 // -- If the initializer expression
2034
Sebastian Redla9845802009-03-29 15:27:50 +00002035 // Rvalue references cannot bind to lvalues (N2812).
2036 // There is absolutely no situation where they can. In particular, note that
2037 // this is ill-formed, even if B has a user-defined conversion to A&&:
2038 // B b;
2039 // A&& r = b;
2040 if (isRValRef && InitLvalue == Expr::LV_Valid) {
2041 if (!ICS)
2042 Diag(Init->getSourceRange().getBegin(), diag::err_lvalue_to_rvalue_ref)
2043 << Init->getSourceRange();
2044 return true;
2045 }
2046
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002047 bool BindsDirectly = false;
2048 // -- is an lvalue (but is not a bit-field), and “cv1 T1” is
2049 // reference-compatible with “cv2 T2,” or
Douglas Gregor15da57e2008-10-29 02:00:59 +00002050 //
2051 // Note that the bit-field check is skipped if we are just computing
2052 // the implicit conversion sequence (C++ [over.best.ics]p2).
2053 if (InitLvalue == Expr::LV_Valid && (ICS || !Init->isBitField()) &&
2054 RefRelationship >= Ref_Compatible_With_Added_Qualification) {
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002055 BindsDirectly = true;
2056
Douglas Gregor15da57e2008-10-29 02:00:59 +00002057 if (ICS) {
2058 // C++ [over.ics.ref]p1:
2059 // When a parameter of reference type binds directly (8.5.3)
2060 // to an argument expression, the implicit conversion sequence
2061 // is the identity conversion, unless the argument expression
2062 // has a type that is a derived class of the parameter type,
2063 // in which case the implicit conversion sequence is a
2064 // derived-to-base Conversion (13.3.3.1).
2065 ICS->ConversionKind = ImplicitConversionSequence::StandardConversion;
2066 ICS->Standard.First = ICK_Identity;
2067 ICS->Standard.Second = DerivedToBase? ICK_Derived_To_Base : ICK_Identity;
2068 ICS->Standard.Third = ICK_Identity;
2069 ICS->Standard.FromTypePtr = T2.getAsOpaquePtr();
2070 ICS->Standard.ToTypePtr = T1.getAsOpaquePtr();
Douglas Gregorf70bdb92008-10-29 14:50:44 +00002071 ICS->Standard.ReferenceBinding = true;
2072 ICS->Standard.DirectBinding = true;
Sebastian Redla9845802009-03-29 15:27:50 +00002073 ICS->Standard.RRefBinding = false;
Douglas Gregor15da57e2008-10-29 02:00:59 +00002074
2075 // Nothing more to do: the inaccessibility/ambiguity check for
2076 // derived-to-base conversions is suppressed when we're
2077 // computing the implicit conversion sequence (C++
2078 // [over.best.ics]p2).
2079 return false;
2080 } else {
2081 // Perform the conversion.
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002082 // FIXME: Binding to a subobject of the lvalue is going to require
2083 // more AST annotation than this.
Douglas Gregoreb8f3062008-11-12 17:17:38 +00002084 ImpCastExprToType(Init, T1, /*isLvalue=*/true);
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002085 }
2086 }
2087
2088 // -- has a class type (i.e., T2 is a class type) and can be
2089 // implicitly converted to an lvalue of type “cv3 T3,”
2090 // where “cv1 T1” is reference-compatible with “cv3 T3”
2091 // 92) (this conversion is selected by enumerating the
2092 // applicable conversion functions (13.3.1.6) and choosing
2093 // the best one through overload resolution (13.3)),
Sebastian Redl7c80bd62009-03-16 23:22:08 +00002094 if (!isRValRef && !SuppressUserConversions && T2->isRecordType()) {
Douglas Gregorcb9b9772008-11-10 16:14:15 +00002095 // FIXME: Look for conversions in base classes!
2096 CXXRecordDecl *T2RecordDecl
2097 = dyn_cast<CXXRecordDecl>(T2->getAsRecordType()->getDecl());
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002098
Douglas Gregorcb9b9772008-11-10 16:14:15 +00002099 OverloadCandidateSet CandidateSet;
2100 OverloadedFunctionDecl *Conversions
2101 = T2RecordDecl->getConversionFunctions();
2102 for (OverloadedFunctionDecl::function_iterator Func
2103 = Conversions->function_begin();
2104 Func != Conversions->function_end(); ++Func) {
2105 CXXConversionDecl *Conv = cast<CXXConversionDecl>(*Func);
Sebastian Redldfe292d2009-03-22 21:28:55 +00002106
Douglas Gregorcb9b9772008-11-10 16:14:15 +00002107 // If the conversion function doesn't return a reference type,
2108 // it can't be considered for this conversion.
Sebastian Redl7c80bd62009-03-16 23:22:08 +00002109 if (Conv->getConversionType()->isLValueReferenceType() &&
Douglas Gregor09f41cf2009-01-14 15:45:31 +00002110 (AllowExplicit || !Conv->isExplicit()))
Douglas Gregorcb9b9772008-11-10 16:14:15 +00002111 AddConversionCandidate(Conv, Init, DeclType, CandidateSet);
2112 }
2113
2114 OverloadCandidateSet::iterator Best;
2115 switch (BestViableFunction(CandidateSet, Best)) {
2116 case OR_Success:
2117 // This is a direct binding.
2118 BindsDirectly = true;
2119
2120 if (ICS) {
2121 // C++ [over.ics.ref]p1:
2122 //
2123 // [...] If the parameter binds directly to the result of
2124 // applying a conversion function to the argument
2125 // expression, the implicit conversion sequence is a
2126 // user-defined conversion sequence (13.3.3.1.2), with the
2127 // second standard conversion sequence either an identity
2128 // conversion or, if the conversion function returns an
2129 // entity of a type that is a derived class of the parameter
2130 // type, a derived-to-base Conversion.
2131 ICS->ConversionKind = ImplicitConversionSequence::UserDefinedConversion;
2132 ICS->UserDefined.Before = Best->Conversions[0].Standard;
2133 ICS->UserDefined.After = Best->FinalConversion;
2134 ICS->UserDefined.ConversionFunction = Best->Function;
2135 assert(ICS->UserDefined.After.ReferenceBinding &&
2136 ICS->UserDefined.After.DirectBinding &&
2137 "Expected a direct reference binding!");
2138 return false;
2139 } else {
2140 // Perform the conversion.
2141 // FIXME: Binding to a subobject of the lvalue is going to require
2142 // more AST annotation than this.
Douglas Gregoreb8f3062008-11-12 17:17:38 +00002143 ImpCastExprToType(Init, T1, /*isLvalue=*/true);
Douglas Gregorcb9b9772008-11-10 16:14:15 +00002144 }
2145 break;
2146
2147 case OR_Ambiguous:
2148 assert(false && "Ambiguous reference binding conversions not implemented.");
2149 return true;
2150
2151 case OR_No_Viable_Function:
Douglas Gregor48f3bb92009-02-18 21:56:37 +00002152 case OR_Deleted:
2153 // There was no suitable conversion, or we found a deleted
2154 // conversion; continue with other checks.
Douglas Gregorcb9b9772008-11-10 16:14:15 +00002155 break;
2156 }
2157 }
2158
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002159 if (BindsDirectly) {
2160 // C++ [dcl.init.ref]p4:
2161 // [...] In all cases where the reference-related or
2162 // reference-compatible relationship of two types is used to
2163 // establish the validity of a reference binding, and T1 is a
2164 // base class of T2, a program that necessitates such a binding
2165 // is ill-formed if T1 is an inaccessible (clause 11) or
2166 // ambiguous (10.2) base class of T2.
2167 //
2168 // Note that we only check this condition when we're allowed to
2169 // complain about errors, because we should not be checking for
2170 // ambiguity (or inaccessibility) unless the reference binding
2171 // actually happens.
Douglas Gregor15da57e2008-10-29 02:00:59 +00002172 if (DerivedToBase)
2173 return CheckDerivedToBaseConversion(T2, T1,
2174 Init->getSourceRange().getBegin(),
2175 Init->getSourceRange());
2176 else
2177 return false;
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002178 }
2179
2180 // -- Otherwise, the reference shall be to a non-volatile const
Sebastian Redla9845802009-03-29 15:27:50 +00002181 // type (i.e., cv1 shall be const), or the reference shall be an
2182 // rvalue reference and the initializer expression shall be an rvalue.
Sebastian Redl7c80bd62009-03-16 23:22:08 +00002183 if (!isRValRef && T1.getCVRQualifiers() != QualType::Const) {
Douglas Gregor15da57e2008-10-29 02:00:59 +00002184 if (!ICS)
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002185 Diag(Init->getSourceRange().getBegin(),
Chris Lattnerc9c7c4e2008-11-18 22:52:51 +00002186 diag::err_not_reference_to_const_init)
Chris Lattnerd1625842008-11-24 06:25:27 +00002187 << T1 << (InitLvalue != Expr::LV_Valid? "temporary" : "value")
2188 << T2 << Init->getSourceRange();
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002189 return true;
2190 }
2191
2192 // -- If the initializer expression is an rvalue, with T2 a
2193 // class type, and “cv1 T1” is reference-compatible with
2194 // “cv2 T2,” the reference is bound in one of the
2195 // following ways (the choice is implementation-defined):
2196 //
2197 // -- The reference is bound to the object represented by
2198 // the rvalue (see 3.10) or to a sub-object within that
2199 // object.
2200 //
2201 // -- A temporary of type “cv1 T2” [sic] is created, and
2202 // a constructor is called to copy the entire rvalue
2203 // object into the temporary. The reference is bound to
2204 // the temporary or to a sub-object within the
2205 // temporary.
2206 //
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002207 // The constructor that would be used to make the copy
2208 // shall be callable whether or not the copy is actually
2209 // done.
2210 //
Sebastian Redla9845802009-03-29 15:27:50 +00002211 // Note that C++0x [dcl.init.ref]p5 takes away this implementation
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002212 // freedom, so we will always take the first option and never build
2213 // a temporary in this case. FIXME: We will, however, have to check
2214 // for the presence of a copy constructor in C++98/03 mode.
2215 if (InitLvalue != Expr::LV_Valid && T2->isRecordType() &&
Douglas Gregor15da57e2008-10-29 02:00:59 +00002216 RefRelationship >= Ref_Compatible_With_Added_Qualification) {
2217 if (ICS) {
2218 ICS->ConversionKind = ImplicitConversionSequence::StandardConversion;
2219 ICS->Standard.First = ICK_Identity;
2220 ICS->Standard.Second = DerivedToBase? ICK_Derived_To_Base : ICK_Identity;
2221 ICS->Standard.Third = ICK_Identity;
2222 ICS->Standard.FromTypePtr = T2.getAsOpaquePtr();
2223 ICS->Standard.ToTypePtr = T1.getAsOpaquePtr();
Douglas Gregorf70bdb92008-10-29 14:50:44 +00002224 ICS->Standard.ReferenceBinding = true;
Sebastian Redla9845802009-03-29 15:27:50 +00002225 ICS->Standard.DirectBinding = false;
2226 ICS->Standard.RRefBinding = isRValRef;
Douglas Gregor15da57e2008-10-29 02:00:59 +00002227 } else {
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002228 // FIXME: Binding to a subobject of the rvalue is going to require
2229 // more AST annotation than this.
Douglas Gregoreb8f3062008-11-12 17:17:38 +00002230 ImpCastExprToType(Init, T1, /*isLvalue=*/true);
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002231 }
2232 return false;
2233 }
2234
2235 // -- Otherwise, a temporary of type “cv1 T1” is created and
2236 // initialized from the initializer expression using the
2237 // rules for a non-reference copy initialization (8.5). The
2238 // reference is then bound to the temporary. If T1 is
2239 // reference-related to T2, cv1 must be the same
2240 // cv-qualification as, or greater cv-qualification than,
2241 // cv2; otherwise, the program is ill-formed.
2242 if (RefRelationship == Ref_Related) {
2243 // If cv1 == cv2 or cv1 is a greater cv-qualified than cv2, then
2244 // we would be reference-compatible or reference-compatible with
2245 // added qualification. But that wasn't the case, so the reference
2246 // initialization fails.
Douglas Gregor15da57e2008-10-29 02:00:59 +00002247 if (!ICS)
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002248 Diag(Init->getSourceRange().getBegin(),
Chris Lattnerc9c7c4e2008-11-18 22:52:51 +00002249 diag::err_reference_init_drops_quals)
Chris Lattnerd1625842008-11-24 06:25:27 +00002250 << T1 << (InitLvalue != Expr::LV_Valid? "temporary" : "value")
2251 << T2 << Init->getSourceRange();
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002252 return true;
2253 }
2254
Douglas Gregor734d9862009-01-30 23:27:23 +00002255 // If at least one of the types is a class type, the types are not
2256 // related, and we aren't allowed any user conversions, the
2257 // reference binding fails. This case is important for breaking
2258 // recursion, since TryImplicitConversion below will attempt to
2259 // create a temporary through the use of a copy constructor.
2260 if (SuppressUserConversions && RefRelationship == Ref_Incompatible &&
2261 (T1->isRecordType() || T2->isRecordType())) {
2262 if (!ICS)
2263 Diag(Init->getSourceRange().getBegin(),
2264 diag::err_typecheck_convert_incompatible)
2265 << DeclType << Init->getType() << "initializing" << Init->getSourceRange();
2266 return true;
2267 }
2268
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002269 // Actually try to convert the initializer to T1.
Douglas Gregor15da57e2008-10-29 02:00:59 +00002270 if (ICS) {
Sebastian Redla9845802009-03-29 15:27:50 +00002271 // C++ [over.ics.ref]p2:
2272 //
2273 // When a parameter of reference type is not bound directly to
2274 // an argument expression, the conversion sequence is the one
2275 // required to convert the argument expression to the
2276 // underlying type of the reference according to
2277 // 13.3.3.1. Conceptually, this conversion sequence corresponds
2278 // to copy-initializing a temporary of the underlying type with
2279 // the argument expression. Any difference in top-level
2280 // cv-qualification is subsumed by the initialization itself
2281 // and does not constitute a conversion.
Douglas Gregor225c41e2008-11-03 19:09:14 +00002282 *ICS = TryImplicitConversion(Init, T1, SuppressUserConversions);
Sebastian Redla9845802009-03-29 15:27:50 +00002283 // Of course, that's still a reference binding.
2284 if (ICS->ConversionKind == ImplicitConversionSequence::StandardConversion) {
2285 ICS->Standard.ReferenceBinding = true;
2286 ICS->Standard.RRefBinding = isRValRef;
2287 } else if(ICS->ConversionKind ==
2288 ImplicitConversionSequence::UserDefinedConversion) {
2289 ICS->UserDefined.After.ReferenceBinding = true;
2290 ICS->UserDefined.After.RRefBinding = isRValRef;
2291 }
Douglas Gregor15da57e2008-10-29 02:00:59 +00002292 return ICS->ConversionKind == ImplicitConversionSequence::BadConversion;
2293 } else {
Douglas Gregor45920e82008-12-19 17:40:08 +00002294 return PerformImplicitConversion(Init, T1, "initializing");
Douglas Gregor15da57e2008-10-29 02:00:59 +00002295 }
Douglas Gregor27c8dc02008-10-29 00:13:59 +00002296}
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002297
2298/// CheckOverloadedOperatorDeclaration - Check whether the declaration
2299/// of this overloaded operator is well-formed. If so, returns false;
2300/// otherwise, emits appropriate diagnostics and returns true.
2301bool Sema::CheckOverloadedOperatorDeclaration(FunctionDecl *FnDecl) {
Douglas Gregor43c7bad2008-11-17 16:14:12 +00002302 assert(FnDecl && FnDecl->isOverloadedOperator() &&
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002303 "Expected an overloaded operator declaration");
2304
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002305 OverloadedOperatorKind Op = FnDecl->getOverloadedOperator();
2306
2307 // C++ [over.oper]p5:
2308 // The allocation and deallocation functions, operator new,
2309 // operator new[], operator delete and operator delete[], are
2310 // described completely in 3.7.3. The attributes and restrictions
2311 // found in the rest of this subclause do not apply to them unless
2312 // explicitly stated in 3.7.3.
2313 // FIXME: Write a separate routine for checking this. For now, just
2314 // allow it.
2315 if (Op == OO_New || Op == OO_Array_New ||
2316 Op == OO_Delete || Op == OO_Array_Delete)
2317 return false;
2318
2319 // C++ [over.oper]p6:
2320 // An operator function shall either be a non-static member
2321 // function or be a non-member function and have at least one
2322 // parameter whose type is a class, a reference to a class, an
2323 // enumeration, or a reference to an enumeration.
Douglas Gregor43c7bad2008-11-17 16:14:12 +00002324 if (CXXMethodDecl *MethodDecl = dyn_cast<CXXMethodDecl>(FnDecl)) {
2325 if (MethodDecl->isStatic())
2326 return Diag(FnDecl->getLocation(),
Chris Lattnerd9d22dd2008-11-24 05:29:24 +00002327 diag::err_operator_overload_static) << FnDecl->getDeclName();
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002328 } else {
2329 bool ClassOrEnumParam = false;
Douglas Gregor43c7bad2008-11-17 16:14:12 +00002330 for (FunctionDecl::param_iterator Param = FnDecl->param_begin(),
2331 ParamEnd = FnDecl->param_end();
2332 Param != ParamEnd; ++Param) {
2333 QualType ParamType = (*Param)->getType().getNonReferenceType();
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002334 if (ParamType->isRecordType() || ParamType->isEnumeralType()) {
2335 ClassOrEnumParam = true;
2336 break;
2337 }
2338 }
2339
Douglas Gregor43c7bad2008-11-17 16:14:12 +00002340 if (!ClassOrEnumParam)
2341 return Diag(FnDecl->getLocation(),
Chris Lattnerf3a41af2008-11-20 06:38:18 +00002342 diag::err_operator_overload_needs_class_or_enum)
Chris Lattnerd9d22dd2008-11-24 05:29:24 +00002343 << FnDecl->getDeclName();
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002344 }
2345
2346 // C++ [over.oper]p8:
2347 // An operator function cannot have default arguments (8.3.6),
2348 // except where explicitly stated below.
2349 //
2350 // Only the function-call operator allows default arguments
2351 // (C++ [over.call]p1).
2352 if (Op != OO_Call) {
2353 for (FunctionDecl::param_iterator Param = FnDecl->param_begin();
2354 Param != FnDecl->param_end(); ++Param) {
Douglas Gregor61366e92008-12-24 00:01:03 +00002355 if ((*Param)->hasUnparsedDefaultArg())
2356 return Diag((*Param)->getLocation(),
2357 diag::err_operator_overload_default_arg)
2358 << FnDecl->getDeclName();
2359 else if (Expr *DefArg = (*Param)->getDefaultArg())
Douglas Gregor43c7bad2008-11-17 16:14:12 +00002360 return Diag((*Param)->getLocation(),
Chris Lattnerd3a94e22008-11-20 06:06:08 +00002361 diag::err_operator_overload_default_arg)
Chris Lattnerd9d22dd2008-11-24 05:29:24 +00002362 << FnDecl->getDeclName() << DefArg->getSourceRange();
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002363 }
2364 }
2365
Douglas Gregor02bcd4c2008-11-10 13:38:07 +00002366 static const bool OperatorUses[NUM_OVERLOADED_OPERATORS][3] = {
2367 { false, false, false }
2368#define OVERLOADED_OPERATOR(Name,Spelling,Token,Unary,Binary,MemberOnly) \
2369 , { Unary, Binary, MemberOnly }
2370#include "clang/Basic/OperatorKinds.def"
2371 };
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002372
Douglas Gregor02bcd4c2008-11-10 13:38:07 +00002373 bool CanBeUnaryOperator = OperatorUses[Op][0];
2374 bool CanBeBinaryOperator = OperatorUses[Op][1];
2375 bool MustBeMemberOperator = OperatorUses[Op][2];
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002376
2377 // C++ [over.oper]p8:
2378 // [...] Operator functions cannot have more or fewer parameters
2379 // than the number required for the corresponding operator, as
2380 // described in the rest of this subclause.
Douglas Gregor43c7bad2008-11-17 16:14:12 +00002381 unsigned NumParams = FnDecl->getNumParams()
2382 + (isa<CXXMethodDecl>(FnDecl)? 1 : 0);
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002383 if (Op != OO_Call &&
2384 ((NumParams == 1 && !CanBeUnaryOperator) ||
2385 (NumParams == 2 && !CanBeBinaryOperator) ||
2386 (NumParams < 1) || (NumParams > 2))) {
2387 // We have the wrong number of parameters.
Chris Lattner416e46f2008-11-21 07:57:12 +00002388 unsigned ErrorKind;
Douglas Gregor02bcd4c2008-11-10 13:38:07 +00002389 if (CanBeUnaryOperator && CanBeBinaryOperator) {
Chris Lattner416e46f2008-11-21 07:57:12 +00002390 ErrorKind = 2; // 2 -> unary or binary.
Douglas Gregor02bcd4c2008-11-10 13:38:07 +00002391 } else if (CanBeUnaryOperator) {
Chris Lattner416e46f2008-11-21 07:57:12 +00002392 ErrorKind = 0; // 0 -> unary
Douglas Gregor02bcd4c2008-11-10 13:38:07 +00002393 } else {
Chris Lattneraf7ae4e2008-11-21 07:50:02 +00002394 assert(CanBeBinaryOperator &&
2395 "All non-call overloaded operators are unary or binary!");
Chris Lattner416e46f2008-11-21 07:57:12 +00002396 ErrorKind = 1; // 1 -> binary
Douglas Gregor02bcd4c2008-11-10 13:38:07 +00002397 }
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002398
Chris Lattner416e46f2008-11-21 07:57:12 +00002399 return Diag(FnDecl->getLocation(), diag::err_operator_overload_must_be)
Chris Lattnerd9d22dd2008-11-24 05:29:24 +00002400 << FnDecl->getDeclName() << NumParams << ErrorKind;
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002401 }
Sebastian Redl64b45f72009-01-05 20:52:13 +00002402
Douglas Gregor43c7bad2008-11-17 16:14:12 +00002403 // Overloaded operators other than operator() cannot be variadic.
2404 if (Op != OO_Call &&
Douglas Gregor72564e72009-02-26 23:50:07 +00002405 FnDecl->getType()->getAsFunctionProtoType()->isVariadic()) {
Chris Lattnerf3a41af2008-11-20 06:38:18 +00002406 return Diag(FnDecl->getLocation(), diag::err_operator_overload_variadic)
Chris Lattnerd9d22dd2008-11-24 05:29:24 +00002407 << FnDecl->getDeclName();
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002408 }
2409
2410 // Some operators must be non-static member functions.
Douglas Gregor43c7bad2008-11-17 16:14:12 +00002411 if (MustBeMemberOperator && !isa<CXXMethodDecl>(FnDecl)) {
2412 return Diag(FnDecl->getLocation(),
Chris Lattnerf3a41af2008-11-20 06:38:18 +00002413 diag::err_operator_overload_must_be_member)
Chris Lattnerd9d22dd2008-11-24 05:29:24 +00002414 << FnDecl->getDeclName();
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002415 }
2416
2417 // C++ [over.inc]p1:
2418 // The user-defined function called operator++ implements the
2419 // prefix and postfix ++ operator. If this function is a member
2420 // function with no parameters, or a non-member function with one
2421 // parameter of class or enumeration type, it defines the prefix
2422 // increment operator ++ for objects of that type. If the function
2423 // is a member function with one parameter (which shall be of type
2424 // int) or a non-member function with two parameters (the second
2425 // of which shall be of type int), it defines the postfix
2426 // increment operator ++ for objects of that type.
2427 if ((Op == OO_PlusPlus || Op == OO_MinusMinus) && NumParams == 2) {
2428 ParmVarDecl *LastParam = FnDecl->getParamDecl(FnDecl->getNumParams() - 1);
2429 bool ParamIsInt = false;
2430 if (const BuiltinType *BT = LastParam->getType()->getAsBuiltinType())
2431 ParamIsInt = BT->getKind() == BuiltinType::Int;
2432
Chris Lattneraf7ae4e2008-11-21 07:50:02 +00002433 if (!ParamIsInt)
2434 return Diag(LastParam->getLocation(),
2435 diag::err_operator_overload_post_incdec_must_be_int)
Chris Lattnerd1625842008-11-24 06:25:27 +00002436 << LastParam->getType() << (Op == OO_MinusMinus);
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002437 }
2438
Sebastian Redl64b45f72009-01-05 20:52:13 +00002439 // Notify the class if it got an assignment operator.
2440 if (Op == OO_Equal) {
2441 // Would have returned earlier otherwise.
2442 assert(isa<CXXMethodDecl>(FnDecl) &&
2443 "Overloaded = not member, but not filtered.");
2444 CXXMethodDecl *Method = cast<CXXMethodDecl>(FnDecl);
2445 Method->getParent()->addedAssignmentOperator(Context, Method);
2446 }
2447
Douglas Gregor43c7bad2008-11-17 16:14:12 +00002448 return false;
Douglas Gregor1cd1b1e2008-11-06 22:13:31 +00002449}
Chris Lattner5a003a42008-12-17 07:09:26 +00002450
Douglas Gregor074149e2009-01-05 19:45:36 +00002451/// ActOnStartLinkageSpecification - Parsed the beginning of a C++
2452/// linkage specification, including the language and (if present)
2453/// the '{'. ExternLoc is the location of the 'extern', LangLoc is
2454/// the location of the language string literal, which is provided
2455/// by Lang/StrSize. LBraceLoc, if valid, provides the location of
2456/// the '{' brace. Otherwise, this linkage specification does not
2457/// have any braces.
Chris Lattnerb28317a2009-03-28 19:18:32 +00002458Sema::DeclPtrTy Sema::ActOnStartLinkageSpecification(Scope *S,
2459 SourceLocation ExternLoc,
2460 SourceLocation LangLoc,
2461 const char *Lang,
2462 unsigned StrSize,
2463 SourceLocation LBraceLoc) {
Chris Lattnercc98eac2008-12-17 07:13:27 +00002464 LinkageSpecDecl::LanguageIDs Language;
2465 if (strncmp(Lang, "\"C\"", StrSize) == 0)
2466 Language = LinkageSpecDecl::lang_c;
2467 else if (strncmp(Lang, "\"C++\"", StrSize) == 0)
2468 Language = LinkageSpecDecl::lang_cxx;
2469 else {
Douglas Gregor074149e2009-01-05 19:45:36 +00002470 Diag(LangLoc, diag::err_bad_language);
Chris Lattnerb28317a2009-03-28 19:18:32 +00002471 return DeclPtrTy();
Chris Lattnercc98eac2008-12-17 07:13:27 +00002472 }
2473
2474 // FIXME: Add all the various semantics of linkage specifications
2475
Douglas Gregor074149e2009-01-05 19:45:36 +00002476 LinkageSpecDecl *D = LinkageSpecDecl::Create(Context, CurContext,
2477 LangLoc, Language,
2478 LBraceLoc.isValid());
Douglas Gregor6ab35242009-04-09 21:40:53 +00002479 CurContext->addDecl(Context, D);
Douglas Gregor074149e2009-01-05 19:45:36 +00002480 PushDeclContext(S, D);
Chris Lattnerb28317a2009-03-28 19:18:32 +00002481 return DeclPtrTy::make(D);
Chris Lattnercc98eac2008-12-17 07:13:27 +00002482}
2483
Douglas Gregor074149e2009-01-05 19:45:36 +00002484/// ActOnFinishLinkageSpecification - Completely the definition of
2485/// the C++ linkage specification LinkageSpec. If RBraceLoc is
2486/// valid, it's the position of the closing '}' brace in a linkage
2487/// specification that uses braces.
Chris Lattnerb28317a2009-03-28 19:18:32 +00002488Sema::DeclPtrTy Sema::ActOnFinishLinkageSpecification(Scope *S,
2489 DeclPtrTy LinkageSpec,
2490 SourceLocation RBraceLoc) {
Douglas Gregor074149e2009-01-05 19:45:36 +00002491 if (LinkageSpec)
2492 PopDeclContext();
2493 return LinkageSpec;
Chris Lattner5a003a42008-12-17 07:09:26 +00002494}
2495
Sebastian Redl4b07b292008-12-22 19:15:10 +00002496/// ActOnExceptionDeclarator - Parsed the exception-declarator in a C++ catch
2497/// handler.
Chris Lattnerb28317a2009-03-28 19:18:32 +00002498Sema::DeclPtrTy Sema::ActOnExceptionDeclarator(Scope *S, Declarator &D) {
Sebastian Redl4b07b292008-12-22 19:15:10 +00002499 QualType ExDeclType = GetTypeForDeclarator(D, S);
2500 SourceLocation Begin = D.getDeclSpec().getSourceRange().getBegin();
2501
2502 bool Invalid = false;
2503
2504 // Arrays and functions decay.
2505 if (ExDeclType->isArrayType())
2506 ExDeclType = Context.getArrayDecayedType(ExDeclType);
2507 else if (ExDeclType->isFunctionType())
2508 ExDeclType = Context.getPointerType(ExDeclType);
2509
2510 // C++ 15.3p1: The exception-declaration shall not denote an incomplete type.
2511 // The exception-declaration shall not denote a pointer or reference to an
2512 // incomplete type, other than [cv] void*.
Sebastian Redlf2e21e52009-03-22 23:49:27 +00002513 // N2844 forbids rvalue references.
2514 if(ExDeclType->isRValueReferenceType()) {
2515 Diag(Begin, diag::err_catch_rvalue_ref) << D.getSourceRange();
2516 Invalid = true;
2517 }
Sebastian Redl4b07b292008-12-22 19:15:10 +00002518 QualType BaseType = ExDeclType;
2519 int Mode = 0; // 0 for direct type, 1 for pointer, 2 for reference
Douglas Gregor4ec339f2009-01-19 19:26:10 +00002520 unsigned DK = diag::err_catch_incomplete;
Sebastian Redl4b07b292008-12-22 19:15:10 +00002521 if (const PointerType *Ptr = BaseType->getAsPointerType()) {
2522 BaseType = Ptr->getPointeeType();
2523 Mode = 1;
Douglas Gregor4ec339f2009-01-19 19:26:10 +00002524 DK = diag::err_catch_incomplete_ptr;
Sebastian Redl4b07b292008-12-22 19:15:10 +00002525 } else if(const ReferenceType *Ref = BaseType->getAsReferenceType()) {
Sebastian Redlf2e21e52009-03-22 23:49:27 +00002526 // For the purpose of error recovery, we treat rvalue refs like lvalue refs.
Sebastian Redl4b07b292008-12-22 19:15:10 +00002527 BaseType = Ref->getPointeeType();
2528 Mode = 2;
Douglas Gregor4ec339f2009-01-19 19:26:10 +00002529 DK = diag::err_catch_incomplete_ref;
Sebastian Redl4b07b292008-12-22 19:15:10 +00002530 }
Sebastian Redlf2e21e52009-03-22 23:49:27 +00002531 if (!Invalid && (Mode == 0 || !BaseType->isVoidType()) &&
Douglas Gregor86447ec2009-03-09 16:13:40 +00002532 RequireCompleteType(Begin, BaseType, DK))
Sebastian Redl4b07b292008-12-22 19:15:10 +00002533 Invalid = true;
Sebastian Redl4b07b292008-12-22 19:15:10 +00002534
Sebastian Redl8351da02008-12-22 21:35:02 +00002535 // FIXME: Need to test for ability to copy-construct and destroy the
2536 // exception variable.
2537 // FIXME: Need to check for abstract classes.
2538
Sebastian Redl4b07b292008-12-22 19:15:10 +00002539 IdentifierInfo *II = D.getIdentifier();
Douglas Gregor47b9a1c2009-02-04 17:27:36 +00002540 if (NamedDecl *PrevDecl = LookupName(S, II, LookupOrdinaryName)) {
Sebastian Redl4b07b292008-12-22 19:15:10 +00002541 // The scope should be freshly made just for us. There is just no way
2542 // it contains any previous declaration.
Chris Lattnerb28317a2009-03-28 19:18:32 +00002543 assert(!S->isDeclScope(DeclPtrTy::make(PrevDecl)));
Sebastian Redl4b07b292008-12-22 19:15:10 +00002544 if (PrevDecl->isTemplateParameter()) {
2545 // Maybe we will complain about the shadowed template parameter.
2546 DiagnoseTemplateParameterShadow(D.getIdentifierLoc(), PrevDecl);
Sebastian Redl4b07b292008-12-22 19:15:10 +00002547 }
2548 }
2549
2550 VarDecl *ExDecl = VarDecl::Create(Context, CurContext, D.getIdentifierLoc(),
Douglas Gregor4afa39d2009-01-20 01:17:11 +00002551 II, ExDeclType, VarDecl::None, Begin);
Sebastian Redl4b07b292008-12-22 19:15:10 +00002552 if (D.getInvalidType() || Invalid)
2553 ExDecl->setInvalidDecl();
2554
2555 if (D.getCXXScopeSpec().isSet()) {
2556 Diag(D.getIdentifierLoc(), diag::err_qualified_catch_declarator)
2557 << D.getCXXScopeSpec().getRange();
2558 ExDecl->setInvalidDecl();
2559 }
2560
2561 // Add the exception declaration into this scope.
Chris Lattnerb28317a2009-03-28 19:18:32 +00002562 S->AddDecl(DeclPtrTy::make(ExDecl));
Sebastian Redl4b07b292008-12-22 19:15:10 +00002563 if (II)
2564 IdResolver.AddDecl(ExDecl);
2565
2566 ProcessDeclAttributes(ExDecl, D);
Chris Lattnerb28317a2009-03-28 19:18:32 +00002567 return DeclPtrTy::make(ExDecl);
Sebastian Redl4b07b292008-12-22 19:15:10 +00002568}
Anders Carlssonfb311762009-03-14 00:25:26 +00002569
Chris Lattnerb28317a2009-03-28 19:18:32 +00002570Sema::DeclPtrTy Sema::ActOnStaticAssertDeclaration(SourceLocation AssertLoc,
2571 ExprArg assertexpr,
2572 ExprArg assertmessageexpr) {
Anders Carlssonfb311762009-03-14 00:25:26 +00002573 Expr *AssertExpr = (Expr *)assertexpr.get();
2574 StringLiteral *AssertMessage =
2575 cast<StringLiteral>((Expr *)assertmessageexpr.get());
2576
Anders Carlssonc3082412009-03-14 00:33:21 +00002577 if (!AssertExpr->isTypeDependent() && !AssertExpr->isValueDependent()) {
2578 llvm::APSInt Value(32);
2579 if (!AssertExpr->isIntegerConstantExpr(Value, Context)) {
2580 Diag(AssertLoc, diag::err_static_assert_expression_is_not_constant) <<
2581 AssertExpr->getSourceRange();
Chris Lattnerb28317a2009-03-28 19:18:32 +00002582 return DeclPtrTy();
Anders Carlssonc3082412009-03-14 00:33:21 +00002583 }
Anders Carlssonfb311762009-03-14 00:25:26 +00002584
Anders Carlssonc3082412009-03-14 00:33:21 +00002585 if (Value == 0) {
2586 std::string str(AssertMessage->getStrData(),
2587 AssertMessage->getByteLength());
Anders Carlsson94b15fb2009-03-15 18:44:04 +00002588 Diag(AssertLoc, diag::err_static_assert_failed)
2589 << str << AssertExpr->getSourceRange();
Anders Carlssonc3082412009-03-14 00:33:21 +00002590 }
2591 }
2592
Anders Carlsson77d81422009-03-15 17:35:16 +00002593 assertexpr.release();
2594 assertmessageexpr.release();
Anders Carlssonfb311762009-03-14 00:25:26 +00002595 Decl *Decl = StaticAssertDecl::Create(Context, CurContext, AssertLoc,
2596 AssertExpr, AssertMessage);
Anders Carlssonfb311762009-03-14 00:25:26 +00002597
Douglas Gregor6ab35242009-04-09 21:40:53 +00002598 CurContext->addDecl(Context, Decl);
Chris Lattnerb28317a2009-03-28 19:18:32 +00002599 return DeclPtrTy::make(Decl);
Anders Carlssonfb311762009-03-14 00:25:26 +00002600}
Sebastian Redl50de12f2009-03-24 22:27:57 +00002601
Chris Lattnerb28317a2009-03-28 19:18:32 +00002602void Sema::SetDeclDeleted(DeclPtrTy dcl, SourceLocation DelLoc) {
2603 Decl *Dcl = dcl.getAs<Decl>();
Sebastian Redl50de12f2009-03-24 22:27:57 +00002604 FunctionDecl *Fn = dyn_cast<FunctionDecl>(Dcl);
2605 if (!Fn) {
2606 Diag(DelLoc, diag::err_deleted_non_function);
2607 return;
2608 }
2609 if (const FunctionDecl *Prev = Fn->getPreviousDeclaration()) {
2610 Diag(DelLoc, diag::err_deleted_decl_not_first);
2611 Diag(Prev->getLocation(), diag::note_previous_declaration);
2612 // If the declaration wasn't the first, we delete the function anyway for
2613 // recovery.
2614 }
2615 Fn->setDeleted();
2616}