1 //===- ComputeDependence.cpp ----------------------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8
9 #include "clang/AST/ComputeDependence.h"
10 #include "clang/AST/Attr.h"
11 #include "clang/AST/DeclCXX.h"
12 #include "clang/AST/DeclarationName.h"
13 #include "clang/AST/DependenceFlags.h"
14 #include "clang/AST/Expr.h"
15 #include "clang/AST/ExprCXX.h"
16 #include "clang/AST/ExprConcepts.h"
17 #include "clang/AST/ExprObjC.h"
18 #include "clang/AST/ExprOpenMP.h"
19 #include "clang/Basic/ExceptionSpecificationType.h"
20 #include "llvm/ADT/ArrayRef.h"
21
22 using namespace clang;
23
computeDependence(FullExpr * E)24 ExprDependence clang::computeDependence(FullExpr *E) {
25 return E->getSubExpr()->getDependence();
26 }
27
computeDependence(OpaqueValueExpr * E)28 ExprDependence clang::computeDependence(OpaqueValueExpr *E) {
29 auto D = toExprDependenceForImpliedType(E->getType()->getDependence());
30 if (auto *S = E->getSourceExpr())
31 D |= S->getDependence();
32 assert(!(D & ExprDependence::UnexpandedPack));
33 return D;
34 }
35
computeDependence(ParenExpr * E)36 ExprDependence clang::computeDependence(ParenExpr *E) {
37 return E->getSubExpr()->getDependence();
38 }
39
computeDependence(UnaryOperator * E,const ASTContext & Ctx)40 ExprDependence clang::computeDependence(UnaryOperator *E,
41 const ASTContext &Ctx) {
42 ExprDependence Dep =
43 // FIXME: Do we need to look at the type?
44 toExprDependenceForImpliedType(E->getType()->getDependence()) |
45 E->getSubExpr()->getDependence();
46
47 // C++ [temp.dep.constexpr]p5:
48 // An expression of the form & qualified-id where the qualified-id names a
49 // dependent member of the current instantiation is value-dependent. An
50 // expression of the form & cast-expression is also value-dependent if
51 // evaluating cast-expression as a core constant expression succeeds and
52 // the result of the evaluation refers to a templated entity that is an
53 // object with static or thread storage duration or a member function.
54 //
55 // What this amounts to is: constant-evaluate the operand and check whether it
56 // refers to a templated entity other than a variable with local storage.
57 if (Ctx.getLangOpts().CPlusPlus && E->getOpcode() == UO_AddrOf &&
58 !(Dep & ExprDependence::Value)) {
59 Expr::EvalResult Result;
60 SmallVector<PartialDiagnosticAt, 8> Diag;
61 Result.Diag = &Diag;
62 // FIXME: This doesn't enforce the C++98 constant expression rules.
63 if (E->getSubExpr()->EvaluateAsConstantExpr(Result, Ctx) && Diag.empty() &&
64 Result.Val.isLValue()) {
65 auto *VD = Result.Val.getLValueBase().dyn_cast<const ValueDecl *>();
66 if (VD && VD->isTemplated()) {
67 auto *VarD = dyn_cast<VarDecl>(VD);
68 if (!VarD || !VarD->hasLocalStorage())
69 Dep |= ExprDependence::Value;
70 }
71 }
72 }
73
74 return Dep;
75 }
76
computeDependence(UnaryExprOrTypeTraitExpr * E)77 ExprDependence clang::computeDependence(UnaryExprOrTypeTraitExpr *E) {
78 // Never type-dependent (C++ [temp.dep.expr]p3).
79 // Value-dependent if the argument is type-dependent.
80 if (E->isArgumentType())
81 return turnTypeToValueDependence(
82 toExprDependenceAsWritten(E->getArgumentType()->getDependence()));
83
84 auto ArgDeps = E->getArgumentExpr()->getDependence();
85 auto Deps = ArgDeps & ~ExprDependence::TypeValue;
86 // Value-dependent if the argument is type-dependent.
87 if (ArgDeps & ExprDependence::Type)
88 Deps |= ExprDependence::Value;
89 // Check to see if we are in the situation where alignof(decl) should be
90 // dependent because decl's alignment is dependent.
91 auto ExprKind = E->getKind();
92 if (ExprKind != UETT_AlignOf && ExprKind != UETT_PreferredAlignOf)
93 return Deps;
94 if ((Deps & ExprDependence::Value) && (Deps & ExprDependence::Instantiation))
95 return Deps;
96
97 auto *NoParens = E->getArgumentExpr()->IgnoreParens();
98 const ValueDecl *D = nullptr;
99 if (const auto *DRE = dyn_cast<DeclRefExpr>(NoParens))
100 D = DRE->getDecl();
101 else if (const auto *ME = dyn_cast<MemberExpr>(NoParens))
102 D = ME->getMemberDecl();
103 if (!D)
104 return Deps;
105 for (const auto *I : D->specific_attrs<AlignedAttr>()) {
106 if (I->isAlignmentErrorDependent())
107 Deps |= ExprDependence::Error;
108 if (I->isAlignmentDependent())
109 Deps |= ExprDependence::ValueInstantiation;
110 }
111 return Deps;
112 }
113
computeDependence(ArraySubscriptExpr * E)114 ExprDependence clang::computeDependence(ArraySubscriptExpr *E) {
115 return E->getLHS()->getDependence() | E->getRHS()->getDependence();
116 }
117
computeDependence(MatrixSubscriptExpr * E)118 ExprDependence clang::computeDependence(MatrixSubscriptExpr *E) {
119 return E->getBase()->getDependence() | E->getRowIdx()->getDependence() |
120 (E->getColumnIdx() ? E->getColumnIdx()->getDependence()
121 : ExprDependence::None);
122 }
123
computeDependence(CompoundLiteralExpr * E)124 ExprDependence clang::computeDependence(CompoundLiteralExpr *E) {
125 return toExprDependenceAsWritten(
126 E->getTypeSourceInfo()->getType()->getDependence()) |
127 toExprDependenceForImpliedType(E->getType()->getDependence()) |
128 turnTypeToValueDependence(E->getInitializer()->getDependence());
129 }
130
computeDependence(ImplicitCastExpr * E)131 ExprDependence clang::computeDependence(ImplicitCastExpr *E) {
132 // We model implicit conversions as combining the dependence of their
133 // subexpression, apart from its type, with the semantic portion of the
134 // target type.
135 ExprDependence D =
136 toExprDependenceForImpliedType(E->getType()->getDependence());
137 if (auto *S = E->getSubExpr())
138 D |= S->getDependence() & ~ExprDependence::Type;
139 return D;
140 }
141
computeDependence(ExplicitCastExpr * E)142 ExprDependence clang::computeDependence(ExplicitCastExpr *E) {
143 // Cast expressions are type-dependent if the type is
144 // dependent (C++ [temp.dep.expr]p3).
145 // Cast expressions are value-dependent if the type is
146 // dependent or if the subexpression is value-dependent.
147 //
148 // Note that we also need to consider the dependence of the actual type here,
149 // because when the type as written is a deduced type, that type is not
150 // dependent, but it may be deduced as a dependent type.
151 ExprDependence D =
152 toExprDependenceAsWritten(
153 cast<ExplicitCastExpr>(E)->getTypeAsWritten()->getDependence()) |
154 toExprDependenceForImpliedType(E->getType()->getDependence());
155 if (auto *S = E->getSubExpr())
156 D |= S->getDependence() & ~ExprDependence::Type;
157 return D;
158 }
159
computeDependence(BinaryOperator * E)160 ExprDependence clang::computeDependence(BinaryOperator *E) {
161 return E->getLHS()->getDependence() | E->getRHS()->getDependence();
162 }
163
computeDependence(ConditionalOperator * E)164 ExprDependence clang::computeDependence(ConditionalOperator *E) {
165 // The type of the conditional operator depends on the type of the conditional
166 // to support the GCC vector conditional extension. Additionally,
167 // [temp.dep.expr] does specify that this should be dependent on ALL sub
168 // expressions.
169 return E->getCond()->getDependence() | E->getLHS()->getDependence() |
170 E->getRHS()->getDependence();
171 }
172
computeDependence(BinaryConditionalOperator * E)173 ExprDependence clang::computeDependence(BinaryConditionalOperator *E) {
174 return E->getCommon()->getDependence() | E->getFalseExpr()->getDependence();
175 }
176
computeDependence(StmtExpr * E,unsigned TemplateDepth)177 ExprDependence clang::computeDependence(StmtExpr *E, unsigned TemplateDepth) {
178 auto D = toExprDependenceForImpliedType(E->getType()->getDependence());
179 // Propagate dependence of the result.
180 if (const auto *CompoundExprResult =
181 dyn_cast_or_null<ValueStmt>(E->getSubStmt()->getStmtExprResult()))
182 if (const Expr *ResultExpr = CompoundExprResult->getExprStmt())
183 D |= ResultExpr->getDependence();
184 // Note: we treat a statement-expression in a dependent context as always
185 // being value- and instantiation-dependent. This matches the behavior of
186 // lambda-expressions and GCC.
187 if (TemplateDepth)
188 D |= ExprDependence::ValueInstantiation;
189 // A param pack cannot be expanded over stmtexpr boundaries.
190 return D & ~ExprDependence::UnexpandedPack;
191 }
192
computeDependence(ConvertVectorExpr * E)193 ExprDependence clang::computeDependence(ConvertVectorExpr *E) {
194 auto D = toExprDependenceAsWritten(
195 E->getTypeSourceInfo()->getType()->getDependence()) |
196 E->getSrcExpr()->getDependence();
197 if (!E->getType()->isDependentType())
198 D &= ~ExprDependence::Type;
199 return D;
200 }
201
computeDependence(ChooseExpr * E)202 ExprDependence clang::computeDependence(ChooseExpr *E) {
203 if (E->isConditionDependent())
204 return ExprDependence::TypeValueInstantiation |
205 E->getCond()->getDependence() | E->getLHS()->getDependence() |
206 E->getRHS()->getDependence();
207
208 auto Cond = E->getCond()->getDependence();
209 auto Active = E->getLHS()->getDependence();
210 auto Inactive = E->getRHS()->getDependence();
211 if (!E->isConditionTrue())
212 std::swap(Active, Inactive);
213 // Take type- and value- dependency from the active branch. Propagate all
214 // other flags from all branches.
215 return (Active & ExprDependence::TypeValue) |
216 ((Cond | Active | Inactive) & ~ExprDependence::TypeValue);
217 }
218
computeDependence(ParenListExpr * P)219 ExprDependence clang::computeDependence(ParenListExpr *P) {
220 auto D = ExprDependence::None;
221 for (auto *E : P->exprs())
222 D |= E->getDependence();
223 return D;
224 }
225
computeDependence(VAArgExpr * E)226 ExprDependence clang::computeDependence(VAArgExpr *E) {
227 auto D = toExprDependenceAsWritten(
228 E->getWrittenTypeInfo()->getType()->getDependence()) |
229 (E->getSubExpr()->getDependence() & ~ExprDependence::Type);
230 return D;
231 }
232
computeDependence(NoInitExpr * E)233 ExprDependence clang::computeDependence(NoInitExpr *E) {
234 return toExprDependenceForImpliedType(E->getType()->getDependence()) &
235 (ExprDependence::Instantiation | ExprDependence::Error);
236 }
237
computeDependence(ArrayInitLoopExpr * E)238 ExprDependence clang::computeDependence(ArrayInitLoopExpr *E) {
239 auto D = E->getCommonExpr()->getDependence() |
240 E->getSubExpr()->getDependence() | ExprDependence::Instantiation;
241 if (!E->getType()->isInstantiationDependentType())
242 D &= ~ExprDependence::Instantiation;
243 return turnTypeToValueDependence(D);
244 }
245
computeDependence(ImplicitValueInitExpr * E)246 ExprDependence clang::computeDependence(ImplicitValueInitExpr *E) {
247 return toExprDependenceForImpliedType(E->getType()->getDependence()) &
248 ExprDependence::Instantiation;
249 }
250
computeDependence(ExtVectorElementExpr * E)251 ExprDependence clang::computeDependence(ExtVectorElementExpr *E) {
252 return E->getBase()->getDependence();
253 }
254
computeDependence(BlockExpr * E,bool ContainsUnexpandedParameterPack)255 ExprDependence clang::computeDependence(BlockExpr *E,
256 bool ContainsUnexpandedParameterPack) {
257 auto D = toExprDependenceForImpliedType(E->getType()->getDependence());
258 if (E->getBlockDecl()->isDependentContext())
259 D |= ExprDependence::Instantiation;
260 if (ContainsUnexpandedParameterPack)
261 D |= ExprDependence::UnexpandedPack;
262 return D;
263 }
264
computeDependence(AsTypeExpr * E)265 ExprDependence clang::computeDependence(AsTypeExpr *E) {
266 // FIXME: AsTypeExpr doesn't store the type as written. Assume the expression
267 // type has identical sugar for now, so is a type-as-written.
268 auto D = toExprDependenceAsWritten(E->getType()->getDependence()) |
269 E->getSrcExpr()->getDependence();
270 if (!E->getType()->isDependentType())
271 D &= ~ExprDependence::Type;
272 return D;
273 }
274
computeDependence(CXXRewrittenBinaryOperator * E)275 ExprDependence clang::computeDependence(CXXRewrittenBinaryOperator *E) {
276 return E->getSemanticForm()->getDependence();
277 }
278
computeDependence(CXXStdInitializerListExpr * E)279 ExprDependence clang::computeDependence(CXXStdInitializerListExpr *E) {
280 auto D = turnTypeToValueDependence(E->getSubExpr()->getDependence());
281 D |= toExprDependenceForImpliedType(E->getType()->getDependence());
282 return D;
283 }
284
computeDependence(CXXTypeidExpr * E)285 ExprDependence clang::computeDependence(CXXTypeidExpr *E) {
286 auto D = ExprDependence::None;
287 if (E->isTypeOperand())
288 D = toExprDependenceAsWritten(
289 E->getTypeOperandSourceInfo()->getType()->getDependence());
290 else
291 D = turnTypeToValueDependence(E->getExprOperand()->getDependence());
292 // typeid is never type-dependent (C++ [temp.dep.expr]p4)
293 return D & ~ExprDependence::Type;
294 }
295
computeDependence(MSPropertyRefExpr * E)296 ExprDependence clang::computeDependence(MSPropertyRefExpr *E) {
297 return E->getBaseExpr()->getDependence() & ~ExprDependence::Type;
298 }
299
computeDependence(MSPropertySubscriptExpr * E)300 ExprDependence clang::computeDependence(MSPropertySubscriptExpr *E) {
301 return E->getIdx()->getDependence();
302 }
303
computeDependence(CXXUuidofExpr * E)304 ExprDependence clang::computeDependence(CXXUuidofExpr *E) {
305 if (E->isTypeOperand())
306 return turnTypeToValueDependence(toExprDependenceAsWritten(
307 E->getTypeOperandSourceInfo()->getType()->getDependence()));
308
309 return turnTypeToValueDependence(E->getExprOperand()->getDependence());
310 }
311
computeDependence(CXXThisExpr * E)312 ExprDependence clang::computeDependence(CXXThisExpr *E) {
313 // 'this' is type-dependent if the class type of the enclosing
314 // member function is dependent (C++ [temp.dep.expr]p2)
315 auto D = toExprDependenceForImpliedType(E->getType()->getDependence());
316
317 // If a lambda with an explicit object parameter captures '*this', then
318 // 'this' now refers to the captured copy of lambda, and if the lambda
319 // is type-dependent, so is the object and thus 'this'.
320 //
321 // Note: The standard does not mention this case explicitly, but we need
322 // to do this so we can mark NSDM accesses as dependent.
323 if (E->isCapturedByCopyInLambdaWithExplicitObjectParameter())
324 D |= ExprDependence::Type;
325
326 assert(!(D & ExprDependence::UnexpandedPack));
327 return D;
328 }
329
computeDependence(CXXThrowExpr * E)330 ExprDependence clang::computeDependence(CXXThrowExpr *E) {
331 auto *Op = E->getSubExpr();
332 if (!Op)
333 return ExprDependence::None;
334 return Op->getDependence() & ~ExprDependence::TypeValue;
335 }
336
computeDependence(CXXBindTemporaryExpr * E)337 ExprDependence clang::computeDependence(CXXBindTemporaryExpr *E) {
338 return E->getSubExpr()->getDependence();
339 }
340
computeDependence(CXXScalarValueInitExpr * E)341 ExprDependence clang::computeDependence(CXXScalarValueInitExpr *E) {
342 auto D = toExprDependenceForImpliedType(E->getType()->getDependence());
343 if (auto *TSI = E->getTypeSourceInfo())
344 D |= toExprDependenceAsWritten(TSI->getType()->getDependence());
345 return D;
346 }
347
computeDependence(CXXDeleteExpr * E)348 ExprDependence clang::computeDependence(CXXDeleteExpr *E) {
349 return turnTypeToValueDependence(E->getArgument()->getDependence());
350 }
351
computeDependence(ArrayTypeTraitExpr * E)352 ExprDependence clang::computeDependence(ArrayTypeTraitExpr *E) {
353 auto D = toExprDependenceAsWritten(E->getQueriedType()->getDependence());
354 if (auto *Dim = E->getDimensionExpression())
355 D |= Dim->getDependence();
356 return turnTypeToValueDependence(D);
357 }
358
computeDependence(ExpressionTraitExpr * E)359 ExprDependence clang::computeDependence(ExpressionTraitExpr *E) {
360 // Never type-dependent.
361 auto D = E->getQueriedExpression()->getDependence() & ~ExprDependence::Type;
362 // Value-dependent if the argument is type-dependent.
363 if (E->getQueriedExpression()->isTypeDependent())
364 D |= ExprDependence::Value;
365 return D;
366 }
367
computeDependence(CXXNoexceptExpr * E,CanThrowResult CT)368 ExprDependence clang::computeDependence(CXXNoexceptExpr *E, CanThrowResult CT) {
369 auto D = E->getOperand()->getDependence() & ~ExprDependence::TypeValue;
370 if (CT == CT_Dependent)
371 D |= ExprDependence::ValueInstantiation;
372 return D;
373 }
374
computeDependence(PackExpansionExpr * E)375 ExprDependence clang::computeDependence(PackExpansionExpr *E) {
376 return (E->getPattern()->getDependence() & ~ExprDependence::UnexpandedPack) |
377 ExprDependence::TypeValueInstantiation;
378 }
379
computeDependence(PackIndexingExpr * E)380 ExprDependence clang::computeDependence(PackIndexingExpr *E) {
381
382 ExprDependence PatternDep = E->getPackIdExpression()->getDependence() &
383 ~ExprDependence::UnexpandedPack;
384
385 ExprDependence D = E->getIndexExpr()->getDependence();
386 if (D & ExprDependence::TypeValueInstantiation)
387 D |= E->getIndexExpr()->getDependence() | PatternDep |
388 ExprDependence::Instantiation;
389
390 ArrayRef<Expr *> Exprs = E->getExpressions();
391 if (Exprs.empty() || !E->isFullySubstituted())
392 D |= PatternDep | ExprDependence::Instantiation;
393 else if (!E->getIndexExpr()->isInstantiationDependent()) {
394 UnsignedOrNone Index = E->getSelectedIndex();
395 assert(Index && *Index < Exprs.size() && "pack index out of bound");
396 D |= Exprs[*Index]->getDependence();
397 }
398 return D;
399 }
400
computeDependence(SubstNonTypeTemplateParmExpr * E)401 ExprDependence clang::computeDependence(SubstNonTypeTemplateParmExpr *E) {
402 return E->getReplacement()->getDependence();
403 }
404
computeDependence(CoroutineSuspendExpr * E)405 ExprDependence clang::computeDependence(CoroutineSuspendExpr *E) {
406 if (auto *Resume = E->getResumeExpr())
407 return (Resume->getDependence() &
408 (ExprDependence::TypeValue | ExprDependence::Error)) |
409 (E->getCommonExpr()->getDependence() & ~ExprDependence::TypeValue);
410 return E->getCommonExpr()->getDependence() |
411 ExprDependence::TypeValueInstantiation;
412 }
413
computeDependence(DependentCoawaitExpr * E)414 ExprDependence clang::computeDependence(DependentCoawaitExpr *E) {
415 return E->getOperand()->getDependence() |
416 ExprDependence::TypeValueInstantiation;
417 }
418
computeDependence(ObjCBoxedExpr * E)419 ExprDependence clang::computeDependence(ObjCBoxedExpr *E) {
420 return E->getSubExpr()->getDependence();
421 }
422
computeDependence(ObjCEncodeExpr * E)423 ExprDependence clang::computeDependence(ObjCEncodeExpr *E) {
424 return toExprDependenceAsWritten(E->getEncodedType()->getDependence());
425 }
426
computeDependence(ObjCIvarRefExpr * E)427 ExprDependence clang::computeDependence(ObjCIvarRefExpr *E) {
428 return turnTypeToValueDependence(E->getBase()->getDependence());
429 }
430
computeDependence(ObjCPropertyRefExpr * E)431 ExprDependence clang::computeDependence(ObjCPropertyRefExpr *E) {
432 if (E->isObjectReceiver())
433 return E->getBase()->getDependence() & ~ExprDependence::Type;
434 if (E->isSuperReceiver())
435 return toExprDependenceForImpliedType(
436 E->getSuperReceiverType()->getDependence()) &
437 ~ExprDependence::TypeValue;
438 assert(E->isClassReceiver());
439 return ExprDependence::None;
440 }
441
computeDependence(ObjCSubscriptRefExpr * E)442 ExprDependence clang::computeDependence(ObjCSubscriptRefExpr *E) {
443 return E->getBaseExpr()->getDependence() | E->getKeyExpr()->getDependence();
444 }
445
computeDependence(ObjCIsaExpr * E)446 ExprDependence clang::computeDependence(ObjCIsaExpr *E) {
447 return E->getBase()->getDependence() & ~ExprDependence::Type &
448 ~ExprDependence::UnexpandedPack;
449 }
450
computeDependence(ObjCIndirectCopyRestoreExpr * E)451 ExprDependence clang::computeDependence(ObjCIndirectCopyRestoreExpr *E) {
452 return E->getSubExpr()->getDependence();
453 }
454
computeDependence(ArraySectionExpr * E)455 ExprDependence clang::computeDependence(ArraySectionExpr *E) {
456 auto D = E->getBase()->getDependence();
457 if (auto *LB = E->getLowerBound())
458 D |= LB->getDependence();
459 if (auto *Len = E->getLength())
460 D |= Len->getDependence();
461
462 if (E->isOMPArraySection()) {
463 if (auto *Stride = E->getStride())
464 D |= Stride->getDependence();
465 }
466 return D;
467 }
468
computeDependence(OMPArrayShapingExpr * E)469 ExprDependence clang::computeDependence(OMPArrayShapingExpr *E) {
470 auto D = E->getBase()->getDependence();
471 for (Expr *Dim: E->getDimensions())
472 if (Dim)
473 D |= turnValueToTypeDependence(Dim->getDependence());
474 return D;
475 }
476
computeDependence(OMPIteratorExpr * E)477 ExprDependence clang::computeDependence(OMPIteratorExpr *E) {
478 auto D = toExprDependenceForImpliedType(E->getType()->getDependence());
479 for (unsigned I = 0, End = E->numOfIterators(); I < End; ++I) {
480 if (auto *DD = cast_or_null<DeclaratorDecl>(E->getIteratorDecl(I))) {
481 // If the type is omitted, it's 'int', and is not dependent in any way.
482 if (auto *TSI = DD->getTypeSourceInfo()) {
483 D |= toExprDependenceAsWritten(TSI->getType()->getDependence());
484 }
485 }
486 OMPIteratorExpr::IteratorRange IR = E->getIteratorRange(I);
487 if (Expr *BE = IR.Begin)
488 D |= BE->getDependence();
489 if (Expr *EE = IR.End)
490 D |= EE->getDependence();
491 if (Expr *SE = IR.Step)
492 D |= SE->getDependence();
493 }
494 return D;
495 }
496
497 /// Compute the type-, value-, and instantiation-dependence of a
498 /// declaration reference
499 /// based on the declaration being referenced.
computeDependence(DeclRefExpr * E,const ASTContext & Ctx)500 ExprDependence clang::computeDependence(DeclRefExpr *E, const ASTContext &Ctx) {
501 auto Deps = ExprDependence::None;
502
503 if (auto *NNS = E->getQualifier())
504 Deps |= toExprDependence(NNS->getDependence() &
505 ~NestedNameSpecifierDependence::Dependent);
506
507 if (auto *FirstArg = E->getTemplateArgs()) {
508 unsigned NumArgs = E->getNumTemplateArgs();
509 for (auto *Arg = FirstArg, *End = FirstArg + NumArgs; Arg < End; ++Arg)
510 Deps |= toExprDependence(Arg->getArgument().getDependence());
511 }
512
513 auto *Decl = E->getDecl();
514 auto Type = E->getType();
515
516 if (Decl->isParameterPack())
517 Deps |= ExprDependence::UnexpandedPack;
518 Deps |= toExprDependenceForImpliedType(Type->getDependence()) &
519 ExprDependence::Error;
520
521 // C++ [temp.dep.expr]p3:
522 // An id-expression is type-dependent if it contains:
523
524 // - an identifier associated by name lookup with one or more declarations
525 // declared with a dependent type
526 // - an identifier associated by name lookup with an entity captured by
527 // copy ([expr.prim.lambda.capture])
528 // in a lambda-expression that has an explicit object parameter whose
529 // type is dependent ([dcl.fct]),
530 //
531 // [The "or more" case is not modeled as a DeclRefExpr. There are a bunch
532 // more bullets here that we handle by treating the declaration as having a
533 // dependent type if they involve a placeholder type that can't be deduced.]
534 if (Type->isDependentType())
535 Deps |= ExprDependence::TypeValueInstantiation;
536 else if (Type->isInstantiationDependentType())
537 Deps |= ExprDependence::Instantiation;
538
539 // - an identifier associated by name lookup with an entity captured by
540 // copy ([expr.prim.lambda.capture])
541 if (E->isCapturedByCopyInLambdaWithExplicitObjectParameter())
542 Deps |= ExprDependence::Type;
543
544 // - a conversion-function-id that specifies a dependent type
545 if (Decl->getDeclName().getNameKind() ==
546 DeclarationName::CXXConversionFunctionName) {
547 QualType T = Decl->getDeclName().getCXXNameType();
548 if (T->isDependentType())
549 return Deps | ExprDependence::TypeValueInstantiation;
550
551 if (T->isInstantiationDependentType())
552 Deps |= ExprDependence::Instantiation;
553 }
554
555 // - a template-id that is dependent,
556 // - a nested-name-specifier or a qualified-id that names a member of an
557 // unknown specialization
558 // [These are not modeled as DeclRefExprs.]
559
560 // or if it names a dependent member of the current instantiation that is a
561 // static data member of type "array of unknown bound of T" for some T
562 // [handled below].
563
564 // C++ [temp.dep.constexpr]p2:
565 // An id-expression is value-dependent if:
566
567 // - it is type-dependent [handled above]
568
569 // - it is the name of a non-type template parameter,
570 if (isa<NonTypeTemplateParmDecl>(Decl))
571 return Deps | ExprDependence::ValueInstantiation;
572
573 // - it names a potentially-constant variable that is initialized with an
574 // expression that is value-dependent
575 if (const auto *Var = dyn_cast<VarDecl>(Decl)) {
576 if (const Expr *Init = Var->getAnyInitializer()) {
577 if (Init->containsErrors())
578 Deps |= ExprDependence::Error;
579
580 if (Var->mightBeUsableInConstantExpressions(Ctx) &&
581 Init->isValueDependent())
582 Deps |= ExprDependence::ValueInstantiation;
583 }
584
585 // - it names a static data member that is a dependent member of the
586 // current instantiation and is not initialized in a member-declarator,
587 if (Var->isStaticDataMember() &&
588 Var->getDeclContext()->isDependentContext() &&
589 !Var->getFirstDecl()->hasInit()) {
590 const VarDecl *First = Var->getFirstDecl();
591 TypeSourceInfo *TInfo = First->getTypeSourceInfo();
592 if (TInfo->getType()->isIncompleteArrayType()) {
593 Deps |= ExprDependence::TypeValueInstantiation;
594 } else if (!First->hasInit()) {
595 Deps |= ExprDependence::ValueInstantiation;
596 }
597 }
598
599 return Deps;
600 }
601
602 // - it names a static member function that is a dependent member of the
603 // current instantiation
604 //
605 // FIXME: It's unclear that the restriction to static members here has any
606 // effect: any use of a non-static member function name requires either
607 // forming a pointer-to-member or providing an object parameter, either of
608 // which makes the overall expression value-dependent.
609 if (auto *MD = dyn_cast<CXXMethodDecl>(Decl)) {
610 if (MD->isStatic() && Decl->getDeclContext()->isDependentContext())
611 Deps |= ExprDependence::ValueInstantiation;
612 }
613
614 return Deps;
615 }
616
computeDependence(RecoveryExpr * E)617 ExprDependence clang::computeDependence(RecoveryExpr *E) {
618 // RecoveryExpr is
619 // - always value-dependent, and therefore instantiation dependent
620 // - contains errors (ExprDependence::Error), by definition
621 // - type-dependent if we don't know the type (fallback to an opaque
622 // dependent type), or the type is known and dependent, or it has
623 // type-dependent subexpressions.
624 auto D = toExprDependenceAsWritten(E->getType()->getDependence()) |
625 ExprDependence::ErrorDependent;
626 // FIXME: remove the type-dependent bit from subexpressions, if the
627 // RecoveryExpr has a non-dependent type.
628 for (auto *S : E->subExpressions())
629 D |= S->getDependence();
630 return D;
631 }
632
computeDependence(SYCLUniqueStableNameExpr * E)633 ExprDependence clang::computeDependence(SYCLUniqueStableNameExpr *E) {
634 return toExprDependenceAsWritten(
635 E->getTypeSourceInfo()->getType()->getDependence());
636 }
637
computeDependence(PredefinedExpr * E)638 ExprDependence clang::computeDependence(PredefinedExpr *E) {
639 return toExprDependenceForImpliedType(E->getType()->getDependence());
640 }
641
computeDependence(CallExpr * E,ArrayRef<Expr * > PreArgs)642 ExprDependence clang::computeDependence(CallExpr *E, ArrayRef<Expr *> PreArgs) {
643 auto D = E->getCallee()->getDependence();
644 if (E->getType()->isDependentType())
645 D |= ExprDependence::Type;
646 for (auto *A : ArrayRef(E->getArgs(), E->getNumArgs())) {
647 if (A)
648 D |= A->getDependence();
649 }
650 for (auto *A : PreArgs)
651 D |= A->getDependence();
652 return D;
653 }
654
computeDependence(OffsetOfExpr * E)655 ExprDependence clang::computeDependence(OffsetOfExpr *E) {
656 auto D = turnTypeToValueDependence(toExprDependenceAsWritten(
657 E->getTypeSourceInfo()->getType()->getDependence()));
658 for (unsigned I = 0, N = E->getNumExpressions(); I < N; ++I)
659 D |= turnTypeToValueDependence(E->getIndexExpr(I)->getDependence());
660 return D;
661 }
662
getDependenceInExpr(DeclarationNameInfo Name)663 static inline ExprDependence getDependenceInExpr(DeclarationNameInfo Name) {
664 auto D = ExprDependence::None;
665 if (Name.isInstantiationDependent())
666 D |= ExprDependence::Instantiation;
667 if (Name.containsUnexpandedParameterPack())
668 D |= ExprDependence::UnexpandedPack;
669 return D;
670 }
671
computeDependence(MemberExpr * E)672 ExprDependence clang::computeDependence(MemberExpr *E) {
673 auto D = E->getBase()->getDependence();
674 D |= getDependenceInExpr(E->getMemberNameInfo());
675
676 if (auto *NNS = E->getQualifier())
677 D |= toExprDependence(NNS->getDependence() &
678 ~NestedNameSpecifierDependence::Dependent);
679
680 for (const auto &A : E->template_arguments())
681 D |= toExprDependence(A.getArgument().getDependence());
682
683 auto *MemberDecl = E->getMemberDecl();
684 if (FieldDecl *FD = dyn_cast<FieldDecl>(MemberDecl)) {
685 DeclContext *DC = MemberDecl->getDeclContext();
686 // dyn_cast_or_null is used to handle objC variables which do not
687 // have a declaration context.
688 CXXRecordDecl *RD = dyn_cast_or_null<CXXRecordDecl>(DC);
689 if (RD && RD->isDependentContext() && RD->isCurrentInstantiation(DC)) {
690 if (!E->getType()->isDependentType())
691 D &= ~ExprDependence::Type;
692 }
693
694 // Bitfield with value-dependent width is type-dependent.
695 if (FD && FD->isBitField() && FD->getBitWidth()->isValueDependent()) {
696 D |= ExprDependence::Type;
697 }
698 }
699 return D;
700 }
701
computeDependence(InitListExpr * E)702 ExprDependence clang::computeDependence(InitListExpr *E) {
703 auto D = ExprDependence::None;
704 for (auto *A : E->inits())
705 D |= A->getDependence();
706 return D;
707 }
708
computeDependence(ShuffleVectorExpr * E)709 ExprDependence clang::computeDependence(ShuffleVectorExpr *E) {
710 auto D = toExprDependenceForImpliedType(E->getType()->getDependence());
711 for (auto *C : ArrayRef(E->getSubExprs(), E->getNumSubExprs()))
712 D |= C->getDependence();
713 return D;
714 }
715
computeDependence(GenericSelectionExpr * E,bool ContainsUnexpandedPack)716 ExprDependence clang::computeDependence(GenericSelectionExpr *E,
717 bool ContainsUnexpandedPack) {
718 auto D = ContainsUnexpandedPack ? ExprDependence::UnexpandedPack
719 : ExprDependence::None;
720 for (auto *AE : E->getAssocExprs())
721 D |= AE->getDependence() & ExprDependence::Error;
722
723 if (E->isExprPredicate())
724 D |= E->getControllingExpr()->getDependence() & ExprDependence::Error;
725 else
726 D |= toExprDependenceAsWritten(
727 E->getControllingType()->getType()->getDependence());
728
729 if (E->isResultDependent())
730 return D | ExprDependence::TypeValueInstantiation;
731 return D | (E->getResultExpr()->getDependence() &
732 ~ExprDependence::UnexpandedPack);
733 }
734
computeDependence(DesignatedInitExpr * E)735 ExprDependence clang::computeDependence(DesignatedInitExpr *E) {
736 auto Deps = E->getInit()->getDependence();
737 for (const auto &D : E->designators()) {
738 auto DesignatorDeps = ExprDependence::None;
739 if (D.isArrayDesignator())
740 DesignatorDeps |= E->getArrayIndex(D)->getDependence();
741 else if (D.isArrayRangeDesignator())
742 DesignatorDeps |= E->getArrayRangeStart(D)->getDependence() |
743 E->getArrayRangeEnd(D)->getDependence();
744 Deps |= DesignatorDeps;
745 if (DesignatorDeps & ExprDependence::TypeValue)
746 Deps |= ExprDependence::TypeValueInstantiation;
747 }
748 return Deps;
749 }
750
computeDependence(PseudoObjectExpr * O)751 ExprDependence clang::computeDependence(PseudoObjectExpr *O) {
752 auto D = O->getSyntacticForm()->getDependence();
753 for (auto *E : O->semantics())
754 D |= E->getDependence();
755 return D;
756 }
757
computeDependence(AtomicExpr * A)758 ExprDependence clang::computeDependence(AtomicExpr *A) {
759 auto D = ExprDependence::None;
760 for (auto *E : ArrayRef(A->getSubExprs(), A->getNumSubExprs()))
761 D |= E->getDependence();
762 return D;
763 }
764
computeDependence(CXXNewExpr * E)765 ExprDependence clang::computeDependence(CXXNewExpr *E) {
766 auto D = toExprDependenceAsWritten(
767 E->getAllocatedTypeSourceInfo()->getType()->getDependence());
768 D |= toExprDependenceForImpliedType(E->getAllocatedType()->getDependence());
769 auto Size = E->getArraySize();
770 if (Size && *Size)
771 D |= turnTypeToValueDependence((*Size)->getDependence());
772 if (auto *I = E->getInitializer())
773 D |= turnTypeToValueDependence(I->getDependence());
774 for (auto *A : E->placement_arguments())
775 D |= turnTypeToValueDependence(A->getDependence());
776 return D;
777 }
778
computeDependence(CXXPseudoDestructorExpr * E)779 ExprDependence clang::computeDependence(CXXPseudoDestructorExpr *E) {
780 auto D = E->getBase()->getDependence();
781 if (auto *TSI = E->getDestroyedTypeInfo())
782 D |= toExprDependenceAsWritten(TSI->getType()->getDependence());
783 if (auto *ST = E->getScopeTypeInfo())
784 D |= turnTypeToValueDependence(
785 toExprDependenceAsWritten(ST->getType()->getDependence()));
786 if (auto *Q = E->getQualifier())
787 D |= toExprDependence(Q->getDependence() &
788 ~NestedNameSpecifierDependence::Dependent);
789 return D;
790 }
791
792 ExprDependence
computeDependence(OverloadExpr * E,bool KnownDependent,bool KnownInstantiationDependent,bool KnownContainsUnexpandedParameterPack)793 clang::computeDependence(OverloadExpr *E, bool KnownDependent,
794 bool KnownInstantiationDependent,
795 bool KnownContainsUnexpandedParameterPack) {
796 auto Deps = ExprDependence::None;
797 if (KnownDependent)
798 Deps |= ExprDependence::TypeValue;
799 if (KnownInstantiationDependent)
800 Deps |= ExprDependence::Instantiation;
801 if (KnownContainsUnexpandedParameterPack)
802 Deps |= ExprDependence::UnexpandedPack;
803 Deps |= getDependenceInExpr(E->getNameInfo());
804 if (auto *Q = E->getQualifier())
805 Deps |= toExprDependence(Q->getDependence() &
806 ~NestedNameSpecifierDependence::Dependent);
807 for (auto *D : E->decls()) {
808 if (D->getDeclContext()->isDependentContext() ||
809 isa<UnresolvedUsingValueDecl>(D))
810 Deps |= ExprDependence::TypeValueInstantiation;
811 }
812 // If we have explicit template arguments, check for dependent
813 // template arguments and whether they contain any unexpanded pack
814 // expansions.
815 for (const auto &A : E->template_arguments())
816 Deps |= toExprDependence(A.getArgument().getDependence());
817 return Deps;
818 }
819
computeDependence(DependentScopeDeclRefExpr * E)820 ExprDependence clang::computeDependence(DependentScopeDeclRefExpr *E) {
821 auto D = ExprDependence::TypeValue;
822 D |= getDependenceInExpr(E->getNameInfo());
823 if (auto *Q = E->getQualifier())
824 D |= toExprDependence(Q->getDependence());
825 for (const auto &A : E->template_arguments())
826 D |= toExprDependence(A.getArgument().getDependence());
827 return D;
828 }
829
computeDependence(CXXConstructExpr * E)830 ExprDependence clang::computeDependence(CXXConstructExpr *E) {
831 ExprDependence D =
832 toExprDependenceForImpliedType(E->getType()->getDependence());
833 for (auto *A : E->arguments())
834 D |= A->getDependence() & ~ExprDependence::Type;
835 return D;
836 }
837
computeDependence(CXXTemporaryObjectExpr * E)838 ExprDependence clang::computeDependence(CXXTemporaryObjectExpr *E) {
839 CXXConstructExpr *BaseE = E;
840 return toExprDependenceAsWritten(
841 E->getTypeSourceInfo()->getType()->getDependence()) |
842 computeDependence(BaseE);
843 }
844
computeDependence(CXXDefaultInitExpr * E)845 ExprDependence clang::computeDependence(CXXDefaultInitExpr *E) {
846 return E->getExpr()->getDependence();
847 }
848
computeDependence(CXXDefaultArgExpr * E)849 ExprDependence clang::computeDependence(CXXDefaultArgExpr *E) {
850 return E->getExpr()->getDependence();
851 }
852
computeDependence(LambdaExpr * E,bool ContainsUnexpandedParameterPack)853 ExprDependence clang::computeDependence(LambdaExpr *E,
854 bool ContainsUnexpandedParameterPack) {
855 auto D = toExprDependenceForImpliedType(E->getType()->getDependence());
856 if (ContainsUnexpandedParameterPack)
857 D |= ExprDependence::UnexpandedPack;
858 return D;
859 }
860
computeDependence(CXXUnresolvedConstructExpr * E)861 ExprDependence clang::computeDependence(CXXUnresolvedConstructExpr *E) {
862 auto D = ExprDependence::ValueInstantiation;
863 D |= toExprDependenceAsWritten(E->getTypeAsWritten()->getDependence());
864 D |= toExprDependenceForImpliedType(E->getType()->getDependence());
865 for (auto *A : E->arguments())
866 D |= A->getDependence() &
867 (ExprDependence::UnexpandedPack | ExprDependence::Error);
868 return D;
869 }
870
computeDependence(CXXDependentScopeMemberExpr * E)871 ExprDependence clang::computeDependence(CXXDependentScopeMemberExpr *E) {
872 auto D = ExprDependence::TypeValueInstantiation;
873 if (!E->isImplicitAccess())
874 D |= E->getBase()->getDependence();
875 if (auto *Q = E->getQualifier())
876 D |= toExprDependence(Q->getDependence());
877 D |= getDependenceInExpr(E->getMemberNameInfo());
878 for (const auto &A : E->template_arguments())
879 D |= toExprDependence(A.getArgument().getDependence());
880 return D;
881 }
882
computeDependence(MaterializeTemporaryExpr * E)883 ExprDependence clang::computeDependence(MaterializeTemporaryExpr *E) {
884 return E->getSubExpr()->getDependence();
885 }
886
computeDependence(CXXFoldExpr * E)887 ExprDependence clang::computeDependence(CXXFoldExpr *E) {
888 auto D = ExprDependence::TypeValueInstantiation;
889 for (const auto *C : {E->getLHS(), E->getRHS()}) {
890 if (C)
891 D |= C->getDependence() & ~ExprDependence::UnexpandedPack;
892 }
893 return D;
894 }
895
computeDependence(CXXParenListInitExpr * E)896 ExprDependence clang::computeDependence(CXXParenListInitExpr *E) {
897 auto D = ExprDependence::None;
898 for (const auto *A : E->getInitExprs())
899 D |= A->getDependence();
900 return D;
901 }
902
computeDependence(TypeTraitExpr * E)903 ExprDependence clang::computeDependence(TypeTraitExpr *E) {
904 auto D = ExprDependence::None;
905 for (const auto *A : E->getArgs())
906 D |= toExprDependenceAsWritten(A->getType()->getDependence()) &
907 ~ExprDependence::Type;
908 return D;
909 }
910
computeDependence(ConceptSpecializationExpr * E,bool ValueDependent)911 ExprDependence clang::computeDependence(ConceptSpecializationExpr *E,
912 bool ValueDependent) {
913 auto TA = TemplateArgumentDependence::None;
914 const auto InterestingDeps = TemplateArgumentDependence::Instantiation |
915 TemplateArgumentDependence::UnexpandedPack;
916 for (const TemplateArgumentLoc &ArgLoc :
917 E->getTemplateArgsAsWritten()->arguments()) {
918 TA |= ArgLoc.getArgument().getDependence() & InterestingDeps;
919 if (TA == InterestingDeps)
920 break;
921 }
922
923 ExprDependence D =
924 ValueDependent ? ExprDependence::Value : ExprDependence::None;
925 auto Res = D | toExprDependence(TA);
926 if(!ValueDependent && E->getSatisfaction().ContainsErrors)
927 Res |= ExprDependence::Error;
928 return Res;
929 }
930
computeDependence(ObjCArrayLiteral * E)931 ExprDependence clang::computeDependence(ObjCArrayLiteral *E) {
932 auto D = ExprDependence::None;
933 Expr **Elements = E->getElements();
934 for (unsigned I = 0, N = E->getNumElements(); I != N; ++I)
935 D |= turnTypeToValueDependence(Elements[I]->getDependence());
936 return D;
937 }
938
computeDependence(ObjCDictionaryLiteral * E)939 ExprDependence clang::computeDependence(ObjCDictionaryLiteral *E) {
940 auto Deps = ExprDependence::None;
941 for (unsigned I = 0, N = E->getNumElements(); I < N; ++I) {
942 auto KV = E->getKeyValueElement(I);
943 auto KVDeps = turnTypeToValueDependence(KV.Key->getDependence() |
944 KV.Value->getDependence());
945 if (KV.EllipsisLoc.isValid())
946 KVDeps &= ~ExprDependence::UnexpandedPack;
947 Deps |= KVDeps;
948 }
949 return Deps;
950 }
951
computeDependence(ObjCMessageExpr * E)952 ExprDependence clang::computeDependence(ObjCMessageExpr *E) {
953 auto D = ExprDependence::None;
954 if (auto *R = E->getInstanceReceiver())
955 D |= R->getDependence();
956 else
957 D |= toExprDependenceForImpliedType(E->getType()->getDependence());
958 for (auto *A : E->arguments())
959 D |= A->getDependence();
960 return D;
961 }
962
computeDependence(OpenACCAsteriskSizeExpr * E)963 ExprDependence clang::computeDependence(OpenACCAsteriskSizeExpr *E) {
964 // This represents a simple asterisk as typed, so cannot be dependent in any
965 // way.
966 return ExprDependence::None;
967 }
968