xref: /freebsd/contrib/llvm-project/clang/lib/AST/ExprClassification.cpp (revision e40139ff33b48b56a24c808b166b04b8ee6f5b21)
1 //===- ExprClassification.cpp - Expression AST Node Implementation --------===//
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 // This file implements Expr::classify.
10 //
11 //===----------------------------------------------------------------------===//
12 
13 #include "clang/AST/Expr.h"
14 #include "clang/AST/ASTContext.h"
15 #include "clang/AST/DeclCXX.h"
16 #include "clang/AST/DeclObjC.h"
17 #include "clang/AST/DeclTemplate.h"
18 #include "clang/AST/ExprCXX.h"
19 #include "clang/AST/ExprObjC.h"
20 #include "llvm/Support/ErrorHandling.h"
21 
22 using namespace clang;
23 
24 using Cl = Expr::Classification;
25 
26 static Cl::Kinds ClassifyInternal(ASTContext &Ctx, const Expr *E);
27 static Cl::Kinds ClassifyDecl(ASTContext &Ctx, const Decl *D);
28 static Cl::Kinds ClassifyUnnamed(ASTContext &Ctx, QualType T);
29 static Cl::Kinds ClassifyMemberExpr(ASTContext &Ctx, const MemberExpr *E);
30 static Cl::Kinds ClassifyBinaryOp(ASTContext &Ctx, const BinaryOperator *E);
31 static Cl::Kinds ClassifyConditional(ASTContext &Ctx,
32                                      const Expr *trueExpr,
33                                      const Expr *falseExpr);
34 static Cl::ModifiableType IsModifiable(ASTContext &Ctx, const Expr *E,
35                                        Cl::Kinds Kind, SourceLocation &Loc);
36 
37 Cl Expr::ClassifyImpl(ASTContext &Ctx, SourceLocation *Loc) const {
38   assert(!TR->isReferenceType() && "Expressions can't have reference type.");
39 
40   Cl::Kinds kind = ClassifyInternal(Ctx, this);
41   // C99 6.3.2.1: An lvalue is an expression with an object type or an
42   //   incomplete type other than void.
43   if (!Ctx.getLangOpts().CPlusPlus) {
44     // Thus, no functions.
45     if (TR->isFunctionType() || TR == Ctx.OverloadTy)
46       kind = Cl::CL_Function;
47     // No void either, but qualified void is OK because it is "other than void".
48     // Void "lvalues" are classified as addressable void values, which are void
49     // expressions whose address can be taken.
50     else if (TR->isVoidType() && !TR.hasQualifiers())
51       kind = (kind == Cl::CL_LValue ? Cl::CL_AddressableVoid : Cl::CL_Void);
52   }
53 
54   // Enable this assertion for testing.
55   switch (kind) {
56   case Cl::CL_LValue: assert(getValueKind() == VK_LValue); break;
57   case Cl::CL_XValue: assert(getValueKind() == VK_XValue); break;
58   case Cl::CL_Function:
59   case Cl::CL_Void:
60   case Cl::CL_AddressableVoid:
61   case Cl::CL_DuplicateVectorComponents:
62   case Cl::CL_MemberFunction:
63   case Cl::CL_SubObjCPropertySetting:
64   case Cl::CL_ClassTemporary:
65   case Cl::CL_ArrayTemporary:
66   case Cl::CL_ObjCMessageRValue:
67   case Cl::CL_PRValue: assert(getValueKind() == VK_RValue); break;
68   }
69 
70   Cl::ModifiableType modifiable = Cl::CM_Untested;
71   if (Loc)
72     modifiable = IsModifiable(Ctx, this, kind, *Loc);
73   return Classification(kind, modifiable);
74 }
75 
76 /// Classify an expression which creates a temporary, based on its type.
77 static Cl::Kinds ClassifyTemporary(QualType T) {
78   if (T->isRecordType())
79     return Cl::CL_ClassTemporary;
80   if (T->isArrayType())
81     return Cl::CL_ArrayTemporary;
82 
83   // No special classification: these don't behave differently from normal
84   // prvalues.
85   return Cl::CL_PRValue;
86 }
87 
88 static Cl::Kinds ClassifyExprValueKind(const LangOptions &Lang,
89                                        const Expr *E,
90                                        ExprValueKind Kind) {
91   switch (Kind) {
92   case VK_RValue:
93     return Lang.CPlusPlus ? ClassifyTemporary(E->getType()) : Cl::CL_PRValue;
94   case VK_LValue:
95     return Cl::CL_LValue;
96   case VK_XValue:
97     return Cl::CL_XValue;
98   }
99   llvm_unreachable("Invalid value category of implicit cast.");
100 }
101 
102 static Cl::Kinds ClassifyInternal(ASTContext &Ctx, const Expr *E) {
103   // This function takes the first stab at classifying expressions.
104   const LangOptions &Lang = Ctx.getLangOpts();
105 
106   switch (E->getStmtClass()) {
107   case Stmt::NoStmtClass:
108 #define ABSTRACT_STMT(Kind)
109 #define STMT(Kind, Base) case Expr::Kind##Class:
110 #define EXPR(Kind, Base)
111 #include "clang/AST/StmtNodes.inc"
112     llvm_unreachable("cannot classify a statement");
113 
114     // First come the expressions that are always lvalues, unconditionally.
115   case Expr::ObjCIsaExprClass:
116     // C++ [expr.prim.general]p1: A string literal is an lvalue.
117   case Expr::StringLiteralClass:
118     // @encode is equivalent to its string
119   case Expr::ObjCEncodeExprClass:
120     // __func__ and friends are too.
121   case Expr::PredefinedExprClass:
122     // Property references are lvalues
123   case Expr::ObjCSubscriptRefExprClass:
124   case Expr::ObjCPropertyRefExprClass:
125     // C++ [expr.typeid]p1: The result of a typeid expression is an lvalue of...
126   case Expr::CXXTypeidExprClass:
127     // Unresolved lookups and uncorrected typos get classified as lvalues.
128     // FIXME: Is this wise? Should they get their own kind?
129   case Expr::UnresolvedLookupExprClass:
130   case Expr::UnresolvedMemberExprClass:
131   case Expr::TypoExprClass:
132   case Expr::DependentCoawaitExprClass:
133   case Expr::CXXDependentScopeMemberExprClass:
134   case Expr::DependentScopeDeclRefExprClass:
135     // ObjC instance variables are lvalues
136     // FIXME: ObjC++0x might have different rules
137   case Expr::ObjCIvarRefExprClass:
138   case Expr::FunctionParmPackExprClass:
139   case Expr::MSPropertyRefExprClass:
140   case Expr::MSPropertySubscriptExprClass:
141   case Expr::OMPArraySectionExprClass:
142     return Cl::CL_LValue;
143 
144     // C99 6.5.2.5p5 says that compound literals are lvalues.
145     // In C++, they're prvalue temporaries, except for file-scope arrays.
146   case Expr::CompoundLiteralExprClass:
147     return !E->isLValue() ? ClassifyTemporary(E->getType()) : Cl::CL_LValue;
148 
149     // Expressions that are prvalues.
150   case Expr::CXXBoolLiteralExprClass:
151   case Expr::CXXPseudoDestructorExprClass:
152   case Expr::UnaryExprOrTypeTraitExprClass:
153   case Expr::CXXNewExprClass:
154   case Expr::CXXThisExprClass:
155   case Expr::CXXNullPtrLiteralExprClass:
156   case Expr::ImaginaryLiteralClass:
157   case Expr::GNUNullExprClass:
158   case Expr::OffsetOfExprClass:
159   case Expr::CXXThrowExprClass:
160   case Expr::ShuffleVectorExprClass:
161   case Expr::ConvertVectorExprClass:
162   case Expr::IntegerLiteralClass:
163   case Expr::FixedPointLiteralClass:
164   case Expr::CharacterLiteralClass:
165   case Expr::AddrLabelExprClass:
166   case Expr::CXXDeleteExprClass:
167   case Expr::ImplicitValueInitExprClass:
168   case Expr::BlockExprClass:
169   case Expr::FloatingLiteralClass:
170   case Expr::CXXNoexceptExprClass:
171   case Expr::CXXScalarValueInitExprClass:
172   case Expr::TypeTraitExprClass:
173   case Expr::ArrayTypeTraitExprClass:
174   case Expr::ExpressionTraitExprClass:
175   case Expr::ObjCSelectorExprClass:
176   case Expr::ObjCProtocolExprClass:
177   case Expr::ObjCStringLiteralClass:
178   case Expr::ObjCBoxedExprClass:
179   case Expr::ObjCArrayLiteralClass:
180   case Expr::ObjCDictionaryLiteralClass:
181   case Expr::ObjCBoolLiteralExprClass:
182   case Expr::ObjCAvailabilityCheckExprClass:
183   case Expr::ParenListExprClass:
184   case Expr::SizeOfPackExprClass:
185   case Expr::SubstNonTypeTemplateParmPackExprClass:
186   case Expr::AsTypeExprClass:
187   case Expr::ObjCIndirectCopyRestoreExprClass:
188   case Expr::AtomicExprClass:
189   case Expr::CXXFoldExprClass:
190   case Expr::ArrayInitLoopExprClass:
191   case Expr::ArrayInitIndexExprClass:
192   case Expr::NoInitExprClass:
193   case Expr::DesignatedInitUpdateExprClass:
194   case Expr::SourceLocExprClass:
195   case Expr::ConceptSpecializationExprClass:
196     return Cl::CL_PRValue;
197 
198   case Expr::ConstantExprClass:
199     return ClassifyInternal(Ctx, cast<ConstantExpr>(E)->getSubExpr());
200 
201     // Next come the complicated cases.
202   case Expr::SubstNonTypeTemplateParmExprClass:
203     return ClassifyInternal(Ctx,
204                  cast<SubstNonTypeTemplateParmExpr>(E)->getReplacement());
205 
206     // C, C++98 [expr.sub]p1: The result is an lvalue of type "T".
207     // C++11 (DR1213): in the case of an array operand, the result is an lvalue
208     //                 if that operand is an lvalue and an xvalue otherwise.
209     // Subscripting vector types is more like member access.
210   case Expr::ArraySubscriptExprClass:
211     if (cast<ArraySubscriptExpr>(E)->getBase()->getType()->isVectorType())
212       return ClassifyInternal(Ctx, cast<ArraySubscriptExpr>(E)->getBase());
213     if (Lang.CPlusPlus11) {
214       // Step over the array-to-pointer decay if present, but not over the
215       // temporary materialization.
216       auto *Base = cast<ArraySubscriptExpr>(E)->getBase()->IgnoreImpCasts();
217       if (Base->getType()->isArrayType())
218         return ClassifyInternal(Ctx, Base);
219     }
220     return Cl::CL_LValue;
221 
222     // C++ [expr.prim.general]p3: The result is an lvalue if the entity is a
223     //   function or variable and a prvalue otherwise.
224   case Expr::DeclRefExprClass:
225     if (E->getType() == Ctx.UnknownAnyTy)
226       return isa<FunctionDecl>(cast<DeclRefExpr>(E)->getDecl())
227                ? Cl::CL_PRValue : Cl::CL_LValue;
228     return ClassifyDecl(Ctx, cast<DeclRefExpr>(E)->getDecl());
229 
230     // Member access is complex.
231   case Expr::MemberExprClass:
232     return ClassifyMemberExpr(Ctx, cast<MemberExpr>(E));
233 
234   case Expr::UnaryOperatorClass:
235     switch (cast<UnaryOperator>(E)->getOpcode()) {
236       // C++ [expr.unary.op]p1: The unary * operator performs indirection:
237       //   [...] the result is an lvalue referring to the object or function
238       //   to which the expression points.
239     case UO_Deref:
240       return Cl::CL_LValue;
241 
242       // GNU extensions, simply look through them.
243     case UO_Extension:
244       return ClassifyInternal(Ctx, cast<UnaryOperator>(E)->getSubExpr());
245 
246     // Treat _Real and _Imag basically as if they were member
247     // expressions:  l-value only if the operand is a true l-value.
248     case UO_Real:
249     case UO_Imag: {
250       const Expr *Op = cast<UnaryOperator>(E)->getSubExpr()->IgnoreParens();
251       Cl::Kinds K = ClassifyInternal(Ctx, Op);
252       if (K != Cl::CL_LValue) return K;
253 
254       if (isa<ObjCPropertyRefExpr>(Op))
255         return Cl::CL_SubObjCPropertySetting;
256       return Cl::CL_LValue;
257     }
258 
259       // C++ [expr.pre.incr]p1: The result is the updated operand; it is an
260       //   lvalue, [...]
261       // Not so in C.
262     case UO_PreInc:
263     case UO_PreDec:
264       return Lang.CPlusPlus ? Cl::CL_LValue : Cl::CL_PRValue;
265 
266     default:
267       return Cl::CL_PRValue;
268     }
269 
270   case Expr::OpaqueValueExprClass:
271     return ClassifyExprValueKind(Lang, E, E->getValueKind());
272 
273     // Pseudo-object expressions can produce l-values with reference magic.
274   case Expr::PseudoObjectExprClass:
275     return ClassifyExprValueKind(Lang, E,
276                                  cast<PseudoObjectExpr>(E)->getValueKind());
277 
278     // Implicit casts are lvalues if they're lvalue casts. Other than that, we
279     // only specifically record class temporaries.
280   case Expr::ImplicitCastExprClass:
281     return ClassifyExprValueKind(Lang, E, E->getValueKind());
282 
283     // C++ [expr.prim.general]p4: The presence of parentheses does not affect
284     //   whether the expression is an lvalue.
285   case Expr::ParenExprClass:
286     return ClassifyInternal(Ctx, cast<ParenExpr>(E)->getSubExpr());
287 
288     // C11 6.5.1.1p4: [A generic selection] is an lvalue, a function designator,
289     // or a void expression if its result expression is, respectively, an
290     // lvalue, a function designator, or a void expression.
291   case Expr::GenericSelectionExprClass:
292     if (cast<GenericSelectionExpr>(E)->isResultDependent())
293       return Cl::CL_PRValue;
294     return ClassifyInternal(Ctx,cast<GenericSelectionExpr>(E)->getResultExpr());
295 
296   case Expr::BinaryOperatorClass:
297   case Expr::CompoundAssignOperatorClass:
298     // C doesn't have any binary expressions that are lvalues.
299     if (Lang.CPlusPlus)
300       return ClassifyBinaryOp(Ctx, cast<BinaryOperator>(E));
301     return Cl::CL_PRValue;
302 
303   case Expr::CallExprClass:
304   case Expr::CXXOperatorCallExprClass:
305   case Expr::CXXMemberCallExprClass:
306   case Expr::UserDefinedLiteralClass:
307   case Expr::CUDAKernelCallExprClass:
308     return ClassifyUnnamed(Ctx, cast<CallExpr>(E)->getCallReturnType(Ctx));
309 
310   case Expr::CXXRewrittenBinaryOperatorClass:
311     return ClassifyInternal(
312         Ctx, cast<CXXRewrittenBinaryOperator>(E)->getSemanticForm());
313 
314     // __builtin_choose_expr is equivalent to the chosen expression.
315   case Expr::ChooseExprClass:
316     return ClassifyInternal(Ctx, cast<ChooseExpr>(E)->getChosenSubExpr());
317 
318     // Extended vector element access is an lvalue unless there are duplicates
319     // in the shuffle expression.
320   case Expr::ExtVectorElementExprClass:
321     if (cast<ExtVectorElementExpr>(E)->containsDuplicateElements())
322       return Cl::CL_DuplicateVectorComponents;
323     if (cast<ExtVectorElementExpr>(E)->isArrow())
324       return Cl::CL_LValue;
325     return ClassifyInternal(Ctx, cast<ExtVectorElementExpr>(E)->getBase());
326 
327     // Simply look at the actual default argument.
328   case Expr::CXXDefaultArgExprClass:
329     return ClassifyInternal(Ctx, cast<CXXDefaultArgExpr>(E)->getExpr());
330 
331     // Same idea for default initializers.
332   case Expr::CXXDefaultInitExprClass:
333     return ClassifyInternal(Ctx, cast<CXXDefaultInitExpr>(E)->getExpr());
334 
335     // Same idea for temporary binding.
336   case Expr::CXXBindTemporaryExprClass:
337     return ClassifyInternal(Ctx, cast<CXXBindTemporaryExpr>(E)->getSubExpr());
338 
339     // And the cleanups guard.
340   case Expr::ExprWithCleanupsClass:
341     return ClassifyInternal(Ctx, cast<ExprWithCleanups>(E)->getSubExpr());
342 
343     // Casts depend completely on the target type. All casts work the same.
344   case Expr::CStyleCastExprClass:
345   case Expr::CXXFunctionalCastExprClass:
346   case Expr::CXXStaticCastExprClass:
347   case Expr::CXXDynamicCastExprClass:
348   case Expr::CXXReinterpretCastExprClass:
349   case Expr::CXXConstCastExprClass:
350   case Expr::ObjCBridgedCastExprClass:
351   case Expr::BuiltinBitCastExprClass:
352     // Only in C++ can casts be interesting at all.
353     if (!Lang.CPlusPlus) return Cl::CL_PRValue;
354     return ClassifyUnnamed(Ctx, cast<ExplicitCastExpr>(E)->getTypeAsWritten());
355 
356   case Expr::CXXUnresolvedConstructExprClass:
357     return ClassifyUnnamed(Ctx,
358                       cast<CXXUnresolvedConstructExpr>(E)->getTypeAsWritten());
359 
360   case Expr::BinaryConditionalOperatorClass: {
361     if (!Lang.CPlusPlus) return Cl::CL_PRValue;
362     const auto *co = cast<BinaryConditionalOperator>(E);
363     return ClassifyConditional(Ctx, co->getTrueExpr(), co->getFalseExpr());
364   }
365 
366   case Expr::ConditionalOperatorClass: {
367     // Once again, only C++ is interesting.
368     if (!Lang.CPlusPlus) return Cl::CL_PRValue;
369     const auto *co = cast<ConditionalOperator>(E);
370     return ClassifyConditional(Ctx, co->getTrueExpr(), co->getFalseExpr());
371   }
372 
373     // ObjC message sends are effectively function calls, if the target function
374     // is known.
375   case Expr::ObjCMessageExprClass:
376     if (const ObjCMethodDecl *Method =
377           cast<ObjCMessageExpr>(E)->getMethodDecl()) {
378       Cl::Kinds kind = ClassifyUnnamed(Ctx, Method->getReturnType());
379       return (kind == Cl::CL_PRValue) ? Cl::CL_ObjCMessageRValue : kind;
380     }
381     return Cl::CL_PRValue;
382 
383     // Some C++ expressions are always class temporaries.
384   case Expr::CXXConstructExprClass:
385   case Expr::CXXInheritedCtorInitExprClass:
386   case Expr::CXXTemporaryObjectExprClass:
387   case Expr::LambdaExprClass:
388   case Expr::CXXStdInitializerListExprClass:
389     return Cl::CL_ClassTemporary;
390 
391   case Expr::VAArgExprClass:
392     return ClassifyUnnamed(Ctx, E->getType());
393 
394   case Expr::DesignatedInitExprClass:
395     return ClassifyInternal(Ctx, cast<DesignatedInitExpr>(E)->getInit());
396 
397   case Expr::StmtExprClass: {
398     const CompoundStmt *S = cast<StmtExpr>(E)->getSubStmt();
399     if (const auto *LastExpr = dyn_cast_or_null<Expr>(S->body_back()))
400       return ClassifyUnnamed(Ctx, LastExpr->getType());
401     return Cl::CL_PRValue;
402   }
403 
404   case Expr::CXXUuidofExprClass:
405     return Cl::CL_LValue;
406 
407   case Expr::PackExpansionExprClass:
408     return ClassifyInternal(Ctx, cast<PackExpansionExpr>(E)->getPattern());
409 
410   case Expr::MaterializeTemporaryExprClass:
411     return cast<MaterializeTemporaryExpr>(E)->isBoundToLvalueReference()
412               ? Cl::CL_LValue
413               : Cl::CL_XValue;
414 
415   case Expr::InitListExprClass:
416     // An init list can be an lvalue if it is bound to a reference and
417     // contains only one element. In that case, we look at that element
418     // for an exact classification. Init list creation takes care of the
419     // value kind for us, so we only need to fine-tune.
420     if (E->isRValue())
421       return ClassifyExprValueKind(Lang, E, E->getValueKind());
422     assert(cast<InitListExpr>(E)->getNumInits() == 1 &&
423            "Only 1-element init lists can be glvalues.");
424     return ClassifyInternal(Ctx, cast<InitListExpr>(E)->getInit(0));
425 
426   case Expr::CoawaitExprClass:
427   case Expr::CoyieldExprClass:
428     return ClassifyInternal(Ctx, cast<CoroutineSuspendExpr>(E)->getResumeExpr());
429   }
430 
431   llvm_unreachable("unhandled expression kind in classification");
432 }
433 
434 /// ClassifyDecl - Return the classification of an expression referencing the
435 /// given declaration.
436 static Cl::Kinds ClassifyDecl(ASTContext &Ctx, const Decl *D) {
437   // C++ [expr.prim.general]p6: The result is an lvalue if the entity is a
438   //   function, variable, or data member and a prvalue otherwise.
439   // In C, functions are not lvalues.
440   // In addition, NonTypeTemplateParmDecl derives from VarDecl but isn't an
441   // lvalue unless it's a reference type (C++ [temp.param]p6), so we need to
442   // special-case this.
443 
444   if (isa<CXXMethodDecl>(D) && cast<CXXMethodDecl>(D)->isInstance())
445     return Cl::CL_MemberFunction;
446 
447   bool islvalue;
448   if (const auto *NTTParm = dyn_cast<NonTypeTemplateParmDecl>(D))
449     islvalue = NTTParm->getType()->isReferenceType();
450   else
451     islvalue = isa<VarDecl>(D) || isa<FieldDecl>(D) ||
452                isa<IndirectFieldDecl>(D) ||
453                isa<BindingDecl>(D) ||
454                (Ctx.getLangOpts().CPlusPlus &&
455                 (isa<FunctionDecl>(D) || isa<MSPropertyDecl>(D) ||
456                  isa<FunctionTemplateDecl>(D)));
457 
458   return islvalue ? Cl::CL_LValue : Cl::CL_PRValue;
459 }
460 
461 /// ClassifyUnnamed - Return the classification of an expression yielding an
462 /// unnamed value of the given type. This applies in particular to function
463 /// calls and casts.
464 static Cl::Kinds ClassifyUnnamed(ASTContext &Ctx, QualType T) {
465   // In C, function calls are always rvalues.
466   if (!Ctx.getLangOpts().CPlusPlus) return Cl::CL_PRValue;
467 
468   // C++ [expr.call]p10: A function call is an lvalue if the result type is an
469   //   lvalue reference type or an rvalue reference to function type, an xvalue
470   //   if the result type is an rvalue reference to object type, and a prvalue
471   //   otherwise.
472   if (T->isLValueReferenceType())
473     return Cl::CL_LValue;
474   const auto *RV = T->getAs<RValueReferenceType>();
475   if (!RV) // Could still be a class temporary, though.
476     return ClassifyTemporary(T);
477 
478   return RV->getPointeeType()->isFunctionType() ? Cl::CL_LValue : Cl::CL_XValue;
479 }
480 
481 static Cl::Kinds ClassifyMemberExpr(ASTContext &Ctx, const MemberExpr *E) {
482   if (E->getType() == Ctx.UnknownAnyTy)
483     return (isa<FunctionDecl>(E->getMemberDecl())
484               ? Cl::CL_PRValue : Cl::CL_LValue);
485 
486   // Handle C first, it's easier.
487   if (!Ctx.getLangOpts().CPlusPlus) {
488     // C99 6.5.2.3p3
489     // For dot access, the expression is an lvalue if the first part is. For
490     // arrow access, it always is an lvalue.
491     if (E->isArrow())
492       return Cl::CL_LValue;
493     // ObjC property accesses are not lvalues, but get special treatment.
494     Expr *Base = E->getBase()->IgnoreParens();
495     if (isa<ObjCPropertyRefExpr>(Base))
496       return Cl::CL_SubObjCPropertySetting;
497     return ClassifyInternal(Ctx, Base);
498   }
499 
500   NamedDecl *Member = E->getMemberDecl();
501   // C++ [expr.ref]p3: E1->E2 is converted to the equivalent form (*(E1)).E2.
502   // C++ [expr.ref]p4: If E2 is declared to have type "reference to T", then
503   //   E1.E2 is an lvalue.
504   if (const auto *Value = dyn_cast<ValueDecl>(Member))
505     if (Value->getType()->isReferenceType())
506       return Cl::CL_LValue;
507 
508   //   Otherwise, one of the following rules applies.
509   //   -- If E2 is a static member [...] then E1.E2 is an lvalue.
510   if (isa<VarDecl>(Member) && Member->getDeclContext()->isRecord())
511     return Cl::CL_LValue;
512 
513   //   -- If E2 is a non-static data member [...]. If E1 is an lvalue, then
514   //      E1.E2 is an lvalue; if E1 is an xvalue, then E1.E2 is an xvalue;
515   //      otherwise, it is a prvalue.
516   if (isa<FieldDecl>(Member)) {
517     // *E1 is an lvalue
518     if (E->isArrow())
519       return Cl::CL_LValue;
520     Expr *Base = E->getBase()->IgnoreParenImpCasts();
521     if (isa<ObjCPropertyRefExpr>(Base))
522       return Cl::CL_SubObjCPropertySetting;
523     return ClassifyInternal(Ctx, E->getBase());
524   }
525 
526   //   -- If E2 is a [...] member function, [...]
527   //      -- If it refers to a static member function [...], then E1.E2 is an
528   //         lvalue; [...]
529   //      -- Otherwise [...] E1.E2 is a prvalue.
530   if (const auto *Method = dyn_cast<CXXMethodDecl>(Member))
531     return Method->isStatic() ? Cl::CL_LValue : Cl::CL_MemberFunction;
532 
533   //   -- If E2 is a member enumerator [...], the expression E1.E2 is a prvalue.
534   // So is everything else we haven't handled yet.
535   return Cl::CL_PRValue;
536 }
537 
538 static Cl::Kinds ClassifyBinaryOp(ASTContext &Ctx, const BinaryOperator *E) {
539   assert(Ctx.getLangOpts().CPlusPlus &&
540          "This is only relevant for C++.");
541   // C++ [expr.ass]p1: All [...] return an lvalue referring to the left operand.
542   // Except we override this for writes to ObjC properties.
543   if (E->isAssignmentOp())
544     return (E->getLHS()->getObjectKind() == OK_ObjCProperty
545               ? Cl::CL_PRValue : Cl::CL_LValue);
546 
547   // C++ [expr.comma]p1: the result is of the same value category as its right
548   //   operand, [...].
549   if (E->getOpcode() == BO_Comma)
550     return ClassifyInternal(Ctx, E->getRHS());
551 
552   // C++ [expr.mptr.oper]p6: The result of a .* expression whose second operand
553   //   is a pointer to a data member is of the same value category as its first
554   //   operand.
555   if (E->getOpcode() == BO_PtrMemD)
556     return (E->getType()->isFunctionType() ||
557             E->hasPlaceholderType(BuiltinType::BoundMember))
558              ? Cl::CL_MemberFunction
559              : ClassifyInternal(Ctx, E->getLHS());
560 
561   // C++ [expr.mptr.oper]p6: The result of an ->* expression is an lvalue if its
562   //   second operand is a pointer to data member and a prvalue otherwise.
563   if (E->getOpcode() == BO_PtrMemI)
564     return (E->getType()->isFunctionType() ||
565             E->hasPlaceholderType(BuiltinType::BoundMember))
566              ? Cl::CL_MemberFunction
567              : Cl::CL_LValue;
568 
569   // All other binary operations are prvalues.
570   return Cl::CL_PRValue;
571 }
572 
573 static Cl::Kinds ClassifyConditional(ASTContext &Ctx, const Expr *True,
574                                      const Expr *False) {
575   assert(Ctx.getLangOpts().CPlusPlus &&
576          "This is only relevant for C++.");
577 
578   // C++ [expr.cond]p2
579   //   If either the second or the third operand has type (cv) void,
580   //   one of the following shall hold:
581   if (True->getType()->isVoidType() || False->getType()->isVoidType()) {
582     // The second or the third operand (but not both) is a (possibly
583     // parenthesized) throw-expression; the result is of the [...] value
584     // category of the other.
585     bool TrueIsThrow = isa<CXXThrowExpr>(True->IgnoreParenImpCasts());
586     bool FalseIsThrow = isa<CXXThrowExpr>(False->IgnoreParenImpCasts());
587     if (const Expr *NonThrow = TrueIsThrow ? (FalseIsThrow ? nullptr : False)
588                                            : (FalseIsThrow ? True : nullptr))
589       return ClassifyInternal(Ctx, NonThrow);
590 
591     //   [Otherwise] the result [...] is a prvalue.
592     return Cl::CL_PRValue;
593   }
594 
595   // Note that at this point, we have already performed all conversions
596   // according to [expr.cond]p3.
597   // C++ [expr.cond]p4: If the second and third operands are glvalues of the
598   //   same value category [...], the result is of that [...] value category.
599   // C++ [expr.cond]p5: Otherwise, the result is a prvalue.
600   Cl::Kinds LCl = ClassifyInternal(Ctx, True),
601             RCl = ClassifyInternal(Ctx, False);
602   return LCl == RCl ? LCl : Cl::CL_PRValue;
603 }
604 
605 static Cl::ModifiableType IsModifiable(ASTContext &Ctx, const Expr *E,
606                                        Cl::Kinds Kind, SourceLocation &Loc) {
607   // As a general rule, we only care about lvalues. But there are some rvalues
608   // for which we want to generate special results.
609   if (Kind == Cl::CL_PRValue) {
610     // For the sake of better diagnostics, we want to specifically recognize
611     // use of the GCC cast-as-lvalue extension.
612     if (const auto *CE = dyn_cast<ExplicitCastExpr>(E->IgnoreParens())) {
613       if (CE->getSubExpr()->IgnoreParenImpCasts()->isLValue()) {
614         Loc = CE->getExprLoc();
615         return Cl::CM_LValueCast;
616       }
617     }
618   }
619   if (Kind != Cl::CL_LValue)
620     return Cl::CM_RValue;
621 
622   // This is the lvalue case.
623   // Functions are lvalues in C++, but not modifiable. (C++ [basic.lval]p6)
624   if (Ctx.getLangOpts().CPlusPlus && E->getType()->isFunctionType())
625     return Cl::CM_Function;
626 
627   // Assignment to a property in ObjC is an implicit setter access. But a
628   // setter might not exist.
629   if (const auto *Expr = dyn_cast<ObjCPropertyRefExpr>(E)) {
630     if (Expr->isImplicitProperty() &&
631         Expr->getImplicitPropertySetter() == nullptr)
632       return Cl::CM_NoSetterProperty;
633   }
634 
635   CanQualType CT = Ctx.getCanonicalType(E->getType());
636   // Const stuff is obviously not modifiable.
637   if (CT.isConstQualified())
638     return Cl::CM_ConstQualified;
639   if (Ctx.getLangOpts().OpenCL &&
640       CT.getQualifiers().getAddressSpace() == LangAS::opencl_constant)
641     return Cl::CM_ConstAddrSpace;
642 
643   // Arrays are not modifiable, only their elements are.
644   if (CT->isArrayType())
645     return Cl::CM_ArrayType;
646   // Incomplete types are not modifiable.
647   if (CT->isIncompleteType())
648     return Cl::CM_IncompleteType;
649 
650   // Records with any const fields (recursively) are not modifiable.
651   if (const RecordType *R = CT->getAs<RecordType>())
652     if (R->hasConstFields())
653       return Cl::CM_ConstQualifiedField;
654 
655   return Cl::CM_Modifiable;
656 }
657 
658 Expr::LValueClassification Expr::ClassifyLValue(ASTContext &Ctx) const {
659   Classification VC = Classify(Ctx);
660   switch (VC.getKind()) {
661   case Cl::CL_LValue: return LV_Valid;
662   case Cl::CL_XValue: return LV_InvalidExpression;
663   case Cl::CL_Function: return LV_NotObjectType;
664   case Cl::CL_Void: return LV_InvalidExpression;
665   case Cl::CL_AddressableVoid: return LV_IncompleteVoidType;
666   case Cl::CL_DuplicateVectorComponents: return LV_DuplicateVectorComponents;
667   case Cl::CL_MemberFunction: return LV_MemberFunction;
668   case Cl::CL_SubObjCPropertySetting: return LV_SubObjCPropertySetting;
669   case Cl::CL_ClassTemporary: return LV_ClassTemporary;
670   case Cl::CL_ArrayTemporary: return LV_ArrayTemporary;
671   case Cl::CL_ObjCMessageRValue: return LV_InvalidMessageExpression;
672   case Cl::CL_PRValue: return LV_InvalidExpression;
673   }
674   llvm_unreachable("Unhandled kind");
675 }
676 
677 Expr::isModifiableLvalueResult
678 Expr::isModifiableLvalue(ASTContext &Ctx, SourceLocation *Loc) const {
679   SourceLocation dummy;
680   Classification VC = ClassifyModifiable(Ctx, Loc ? *Loc : dummy);
681   switch (VC.getKind()) {
682   case Cl::CL_LValue: break;
683   case Cl::CL_XValue: return MLV_InvalidExpression;
684   case Cl::CL_Function: return MLV_NotObjectType;
685   case Cl::CL_Void: return MLV_InvalidExpression;
686   case Cl::CL_AddressableVoid: return MLV_IncompleteVoidType;
687   case Cl::CL_DuplicateVectorComponents: return MLV_DuplicateVectorComponents;
688   case Cl::CL_MemberFunction: return MLV_MemberFunction;
689   case Cl::CL_SubObjCPropertySetting: return MLV_SubObjCPropertySetting;
690   case Cl::CL_ClassTemporary: return MLV_ClassTemporary;
691   case Cl::CL_ArrayTemporary: return MLV_ArrayTemporary;
692   case Cl::CL_ObjCMessageRValue: return MLV_InvalidMessageExpression;
693   case Cl::CL_PRValue:
694     return VC.getModifiable() == Cl::CM_LValueCast ?
695       MLV_LValueCast : MLV_InvalidExpression;
696   }
697   assert(VC.getKind() == Cl::CL_LValue && "Unhandled kind");
698   switch (VC.getModifiable()) {
699   case Cl::CM_Untested: llvm_unreachable("Did not test modifiability");
700   case Cl::CM_Modifiable: return MLV_Valid;
701   case Cl::CM_RValue: llvm_unreachable("CM_RValue and CL_LValue don't match");
702   case Cl::CM_Function: return MLV_NotObjectType;
703   case Cl::CM_LValueCast:
704     llvm_unreachable("CM_LValueCast and CL_LValue don't match");
705   case Cl::CM_NoSetterProperty: return MLV_NoSetterProperty;
706   case Cl::CM_ConstQualified: return MLV_ConstQualified;
707   case Cl::CM_ConstQualifiedField: return MLV_ConstQualifiedField;
708   case Cl::CM_ConstAddrSpace: return MLV_ConstAddrSpace;
709   case Cl::CM_ArrayType: return MLV_ArrayType;
710   case Cl::CM_IncompleteType: return MLV_IncompleteType;
711   }
712   llvm_unreachable("Unhandled modifiable type");
713 }
714