1e5dd7070Spatrick //===--- Expr.cpp - Expression AST Node Implementation --------------------===//
2e5dd7070Spatrick //
3e5dd7070Spatrick // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4e5dd7070Spatrick // See https://llvm.org/LICENSE.txt for license information.
5e5dd7070Spatrick // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6e5dd7070Spatrick //
7e5dd7070Spatrick //===----------------------------------------------------------------------===//
8e5dd7070Spatrick //
9e5dd7070Spatrick // This file implements the Expr class and subclasses.
10e5dd7070Spatrick //
11e5dd7070Spatrick //===----------------------------------------------------------------------===//
12e5dd7070Spatrick
13e5dd7070Spatrick #include "clang/AST/Expr.h"
14e5dd7070Spatrick #include "clang/AST/APValue.h"
15e5dd7070Spatrick #include "clang/AST/ASTContext.h"
16e5dd7070Spatrick #include "clang/AST/Attr.h"
17ec727ea7Spatrick #include "clang/AST/ComputeDependence.h"
18e5dd7070Spatrick #include "clang/AST/DeclCXX.h"
19e5dd7070Spatrick #include "clang/AST/DeclObjC.h"
20e5dd7070Spatrick #include "clang/AST/DeclTemplate.h"
21ec727ea7Spatrick #include "clang/AST/DependenceFlags.h"
22e5dd7070Spatrick #include "clang/AST/EvaluatedExprVisitor.h"
23e5dd7070Spatrick #include "clang/AST/ExprCXX.h"
24a9ac8606Spatrick #include "clang/AST/IgnoreExpr.h"
25e5dd7070Spatrick #include "clang/AST/Mangle.h"
26e5dd7070Spatrick #include "clang/AST/RecordLayout.h"
27e5dd7070Spatrick #include "clang/AST/StmtVisitor.h"
28e5dd7070Spatrick #include "clang/Basic/Builtins.h"
29e5dd7070Spatrick #include "clang/Basic/CharInfo.h"
30e5dd7070Spatrick #include "clang/Basic/SourceManager.h"
31e5dd7070Spatrick #include "clang/Basic/TargetInfo.h"
32e5dd7070Spatrick #include "clang/Lex/Lexer.h"
33e5dd7070Spatrick #include "clang/Lex/LiteralSupport.h"
34*12c85518Srobert #include "clang/Lex/Preprocessor.h"
35e5dd7070Spatrick #include "llvm/Support/ErrorHandling.h"
36a9ac8606Spatrick #include "llvm/Support/Format.h"
37e5dd7070Spatrick #include "llvm/Support/raw_ostream.h"
38e5dd7070Spatrick #include <algorithm>
39e5dd7070Spatrick #include <cstring>
40*12c85518Srobert #include <optional>
41e5dd7070Spatrick using namespace clang;
42e5dd7070Spatrick
getBestDynamicClassTypeExpr() const43e5dd7070Spatrick const Expr *Expr::getBestDynamicClassTypeExpr() const {
44e5dd7070Spatrick const Expr *E = this;
45e5dd7070Spatrick while (true) {
46a9ac8606Spatrick E = E->IgnoreParenBaseCasts();
47e5dd7070Spatrick
48e5dd7070Spatrick // Follow the RHS of a comma operator.
49e5dd7070Spatrick if (auto *BO = dyn_cast<BinaryOperator>(E)) {
50e5dd7070Spatrick if (BO->getOpcode() == BO_Comma) {
51e5dd7070Spatrick E = BO->getRHS();
52e5dd7070Spatrick continue;
53e5dd7070Spatrick }
54e5dd7070Spatrick }
55e5dd7070Spatrick
56e5dd7070Spatrick // Step into initializer for materialized temporaries.
57e5dd7070Spatrick if (auto *MTE = dyn_cast<MaterializeTemporaryExpr>(E)) {
58e5dd7070Spatrick E = MTE->getSubExpr();
59e5dd7070Spatrick continue;
60e5dd7070Spatrick }
61e5dd7070Spatrick
62e5dd7070Spatrick break;
63e5dd7070Spatrick }
64e5dd7070Spatrick
65e5dd7070Spatrick return E;
66e5dd7070Spatrick }
67e5dd7070Spatrick
getBestDynamicClassType() const68e5dd7070Spatrick const CXXRecordDecl *Expr::getBestDynamicClassType() const {
69e5dd7070Spatrick const Expr *E = getBestDynamicClassTypeExpr();
70e5dd7070Spatrick QualType DerivedType = E->getType();
71e5dd7070Spatrick if (const PointerType *PTy = DerivedType->getAs<PointerType>())
72e5dd7070Spatrick DerivedType = PTy->getPointeeType();
73e5dd7070Spatrick
74e5dd7070Spatrick if (DerivedType->isDependentType())
75e5dd7070Spatrick return nullptr;
76e5dd7070Spatrick
77e5dd7070Spatrick const RecordType *Ty = DerivedType->castAs<RecordType>();
78e5dd7070Spatrick Decl *D = Ty->getDecl();
79e5dd7070Spatrick return cast<CXXRecordDecl>(D);
80e5dd7070Spatrick }
81e5dd7070Spatrick
skipRValueSubobjectAdjustments(SmallVectorImpl<const Expr * > & CommaLHSs,SmallVectorImpl<SubobjectAdjustment> & Adjustments) const82e5dd7070Spatrick const Expr *Expr::skipRValueSubobjectAdjustments(
83e5dd7070Spatrick SmallVectorImpl<const Expr *> &CommaLHSs,
84e5dd7070Spatrick SmallVectorImpl<SubobjectAdjustment> &Adjustments) const {
85e5dd7070Spatrick const Expr *E = this;
86e5dd7070Spatrick while (true) {
87e5dd7070Spatrick E = E->IgnoreParens();
88e5dd7070Spatrick
89e5dd7070Spatrick if (const CastExpr *CE = dyn_cast<CastExpr>(E)) {
90e5dd7070Spatrick if ((CE->getCastKind() == CK_DerivedToBase ||
91e5dd7070Spatrick CE->getCastKind() == CK_UncheckedDerivedToBase) &&
92e5dd7070Spatrick E->getType()->isRecordType()) {
93e5dd7070Spatrick E = CE->getSubExpr();
94e5dd7070Spatrick auto *Derived =
95e5dd7070Spatrick cast<CXXRecordDecl>(E->getType()->castAs<RecordType>()->getDecl());
96e5dd7070Spatrick Adjustments.push_back(SubobjectAdjustment(CE, Derived));
97e5dd7070Spatrick continue;
98e5dd7070Spatrick }
99e5dd7070Spatrick
100e5dd7070Spatrick if (CE->getCastKind() == CK_NoOp) {
101e5dd7070Spatrick E = CE->getSubExpr();
102e5dd7070Spatrick continue;
103e5dd7070Spatrick }
104e5dd7070Spatrick } else if (const MemberExpr *ME = dyn_cast<MemberExpr>(E)) {
105e5dd7070Spatrick if (!ME->isArrow()) {
106e5dd7070Spatrick assert(ME->getBase()->getType()->isRecordType());
107e5dd7070Spatrick if (FieldDecl *Field = dyn_cast<FieldDecl>(ME->getMemberDecl())) {
108e5dd7070Spatrick if (!Field->isBitField() && !Field->getType()->isReferenceType()) {
109e5dd7070Spatrick E = ME->getBase();
110e5dd7070Spatrick Adjustments.push_back(SubobjectAdjustment(Field));
111e5dd7070Spatrick continue;
112e5dd7070Spatrick }
113e5dd7070Spatrick }
114e5dd7070Spatrick }
115e5dd7070Spatrick } else if (const BinaryOperator *BO = dyn_cast<BinaryOperator>(E)) {
116e5dd7070Spatrick if (BO->getOpcode() == BO_PtrMemD) {
117a9ac8606Spatrick assert(BO->getRHS()->isPRValue());
118e5dd7070Spatrick E = BO->getLHS();
119e5dd7070Spatrick const MemberPointerType *MPT =
120e5dd7070Spatrick BO->getRHS()->getType()->getAs<MemberPointerType>();
121e5dd7070Spatrick Adjustments.push_back(SubobjectAdjustment(MPT, BO->getRHS()));
122e5dd7070Spatrick continue;
123a9ac8606Spatrick }
124a9ac8606Spatrick if (BO->getOpcode() == BO_Comma) {
125e5dd7070Spatrick CommaLHSs.push_back(BO->getLHS());
126e5dd7070Spatrick E = BO->getRHS();
127e5dd7070Spatrick continue;
128e5dd7070Spatrick }
129e5dd7070Spatrick }
130e5dd7070Spatrick
131e5dd7070Spatrick // Nothing changed.
132e5dd7070Spatrick break;
133e5dd7070Spatrick }
134e5dd7070Spatrick return E;
135e5dd7070Spatrick }
136e5dd7070Spatrick
isKnownToHaveBooleanValue(bool Semantic) const137e5dd7070Spatrick bool Expr::isKnownToHaveBooleanValue(bool Semantic) const {
138e5dd7070Spatrick const Expr *E = IgnoreParens();
139e5dd7070Spatrick
140e5dd7070Spatrick // If this value has _Bool type, it is obvious 0/1.
141e5dd7070Spatrick if (E->getType()->isBooleanType()) return true;
142e5dd7070Spatrick // If this is a non-scalar-integer type, we don't care enough to try.
143e5dd7070Spatrick if (!E->getType()->isIntegralOrEnumerationType()) return false;
144e5dd7070Spatrick
145e5dd7070Spatrick if (const UnaryOperator *UO = dyn_cast<UnaryOperator>(E)) {
146e5dd7070Spatrick switch (UO->getOpcode()) {
147e5dd7070Spatrick case UO_Plus:
148e5dd7070Spatrick return UO->getSubExpr()->isKnownToHaveBooleanValue(Semantic);
149e5dd7070Spatrick case UO_LNot:
150e5dd7070Spatrick return true;
151e5dd7070Spatrick default:
152e5dd7070Spatrick return false;
153e5dd7070Spatrick }
154e5dd7070Spatrick }
155e5dd7070Spatrick
156e5dd7070Spatrick // Only look through implicit casts. If the user writes
157e5dd7070Spatrick // '(int) (a && b)' treat it as an arbitrary int.
158e5dd7070Spatrick // FIXME: Should we look through any cast expression in !Semantic mode?
159e5dd7070Spatrick if (const ImplicitCastExpr *CE = dyn_cast<ImplicitCastExpr>(E))
160e5dd7070Spatrick return CE->getSubExpr()->isKnownToHaveBooleanValue(Semantic);
161e5dd7070Spatrick
162e5dd7070Spatrick if (const BinaryOperator *BO = dyn_cast<BinaryOperator>(E)) {
163e5dd7070Spatrick switch (BO->getOpcode()) {
164e5dd7070Spatrick default: return false;
165e5dd7070Spatrick case BO_LT: // Relational operators.
166e5dd7070Spatrick case BO_GT:
167e5dd7070Spatrick case BO_LE:
168e5dd7070Spatrick case BO_GE:
169e5dd7070Spatrick case BO_EQ: // Equality operators.
170e5dd7070Spatrick case BO_NE:
171e5dd7070Spatrick case BO_LAnd: // AND operator.
172e5dd7070Spatrick case BO_LOr: // Logical OR operator.
173e5dd7070Spatrick return true;
174e5dd7070Spatrick
175e5dd7070Spatrick case BO_And: // Bitwise AND operator.
176e5dd7070Spatrick case BO_Xor: // Bitwise XOR operator.
177e5dd7070Spatrick case BO_Or: // Bitwise OR operator.
178e5dd7070Spatrick // Handle things like (x==2)|(y==12).
179e5dd7070Spatrick return BO->getLHS()->isKnownToHaveBooleanValue(Semantic) &&
180e5dd7070Spatrick BO->getRHS()->isKnownToHaveBooleanValue(Semantic);
181e5dd7070Spatrick
182e5dd7070Spatrick case BO_Comma:
183e5dd7070Spatrick case BO_Assign:
184e5dd7070Spatrick return BO->getRHS()->isKnownToHaveBooleanValue(Semantic);
185e5dd7070Spatrick }
186e5dd7070Spatrick }
187e5dd7070Spatrick
188e5dd7070Spatrick if (const ConditionalOperator *CO = dyn_cast<ConditionalOperator>(E))
189e5dd7070Spatrick return CO->getTrueExpr()->isKnownToHaveBooleanValue(Semantic) &&
190e5dd7070Spatrick CO->getFalseExpr()->isKnownToHaveBooleanValue(Semantic);
191e5dd7070Spatrick
192e5dd7070Spatrick if (isa<ObjCBoolLiteralExpr>(E))
193e5dd7070Spatrick return true;
194e5dd7070Spatrick
195e5dd7070Spatrick if (const auto *OVE = dyn_cast<OpaqueValueExpr>(E))
196e5dd7070Spatrick return OVE->getSourceExpr()->isKnownToHaveBooleanValue(Semantic);
197e5dd7070Spatrick
198e5dd7070Spatrick if (const FieldDecl *FD = E->getSourceBitField())
199e5dd7070Spatrick if (!Semantic && FD->getType()->isUnsignedIntegerType() &&
200e5dd7070Spatrick !FD->getBitWidth()->isValueDependent() &&
201e5dd7070Spatrick FD->getBitWidthValue(FD->getASTContext()) == 1)
202e5dd7070Spatrick return true;
203e5dd7070Spatrick
204e5dd7070Spatrick return false;
205e5dd7070Spatrick }
206e5dd7070Spatrick
isFlexibleArrayMemberLike(ASTContext & Context,LangOptions::StrictFlexArraysLevelKind StrictFlexArraysLevel,bool IgnoreTemplateOrMacroSubstitution) const207*12c85518Srobert bool Expr::isFlexibleArrayMemberLike(
208*12c85518Srobert ASTContext &Context,
209*12c85518Srobert LangOptions::StrictFlexArraysLevelKind StrictFlexArraysLevel,
210*12c85518Srobert bool IgnoreTemplateOrMacroSubstitution) const {
211*12c85518Srobert
212*12c85518Srobert // For compatibility with existing code, we treat arrays of length 0 or
213*12c85518Srobert // 1 as flexible array members.
214*12c85518Srobert const auto *CAT = Context.getAsConstantArrayType(getType());
215*12c85518Srobert if (CAT) {
216*12c85518Srobert llvm::APInt Size = CAT->getSize();
217*12c85518Srobert
218*12c85518Srobert using FAMKind = LangOptions::StrictFlexArraysLevelKind;
219*12c85518Srobert
220*12c85518Srobert if (StrictFlexArraysLevel == FAMKind::IncompleteOnly)
221*12c85518Srobert return false;
222*12c85518Srobert
223*12c85518Srobert // GCC extension, only allowed to represent a FAM.
224*12c85518Srobert if (Size == 0)
225*12c85518Srobert return true;
226*12c85518Srobert
227*12c85518Srobert if (StrictFlexArraysLevel == FAMKind::ZeroOrIncomplete && Size.uge(1))
228*12c85518Srobert return false;
229*12c85518Srobert
230*12c85518Srobert if (StrictFlexArraysLevel == FAMKind::OneZeroOrIncomplete && Size.uge(2))
231*12c85518Srobert return false;
232*12c85518Srobert } else if (!Context.getAsIncompleteArrayType(getType()))
233*12c85518Srobert return false;
234*12c85518Srobert
235*12c85518Srobert const Expr *E = IgnoreParens();
236*12c85518Srobert
237*12c85518Srobert const NamedDecl *ND = nullptr;
238*12c85518Srobert if (const auto *DRE = dyn_cast<DeclRefExpr>(E))
239*12c85518Srobert ND = DRE->getDecl();
240*12c85518Srobert else if (const auto *ME = dyn_cast<MemberExpr>(E))
241*12c85518Srobert ND = ME->getMemberDecl();
242*12c85518Srobert else if (const auto *IRE = dyn_cast<ObjCIvarRefExpr>(E))
243*12c85518Srobert return IRE->getDecl()->getNextIvar() == nullptr;
244*12c85518Srobert
245*12c85518Srobert if (!ND)
246*12c85518Srobert return false;
247*12c85518Srobert
248*12c85518Srobert // A flexible array member must be the last member in the class.
249*12c85518Srobert // FIXME: If the base type of the member expr is not FD->getParent(),
250*12c85518Srobert // this should not be treated as a flexible array member access.
251*12c85518Srobert if (const auto *FD = dyn_cast<FieldDecl>(ND)) {
252*12c85518Srobert // GCC treats an array memeber of a union as an FAM if the size is one or
253*12c85518Srobert // zero.
254*12c85518Srobert if (CAT) {
255*12c85518Srobert llvm::APInt Size = CAT->getSize();
256*12c85518Srobert if (FD->getParent()->isUnion() && (Size.isZero() || Size.isOne()))
257*12c85518Srobert return true;
258*12c85518Srobert }
259*12c85518Srobert
260*12c85518Srobert // Don't consider sizes resulting from macro expansions or template argument
261*12c85518Srobert // substitution to form C89 tail-padded arrays.
262*12c85518Srobert if (IgnoreTemplateOrMacroSubstitution) {
263*12c85518Srobert TypeSourceInfo *TInfo = FD->getTypeSourceInfo();
264*12c85518Srobert while (TInfo) {
265*12c85518Srobert TypeLoc TL = TInfo->getTypeLoc();
266*12c85518Srobert // Look through typedefs.
267*12c85518Srobert if (TypedefTypeLoc TTL = TL.getAsAdjusted<TypedefTypeLoc>()) {
268*12c85518Srobert const TypedefNameDecl *TDL = TTL.getTypedefNameDecl();
269*12c85518Srobert TInfo = TDL->getTypeSourceInfo();
270*12c85518Srobert continue;
271*12c85518Srobert }
272*12c85518Srobert if (ConstantArrayTypeLoc CTL = TL.getAs<ConstantArrayTypeLoc>()) {
273*12c85518Srobert const Expr *SizeExpr = dyn_cast<IntegerLiteral>(CTL.getSizeExpr());
274*12c85518Srobert if (!SizeExpr || SizeExpr->getExprLoc().isMacroID())
275*12c85518Srobert return false;
276*12c85518Srobert }
277*12c85518Srobert break;
278*12c85518Srobert }
279*12c85518Srobert }
280*12c85518Srobert
281*12c85518Srobert RecordDecl::field_iterator FI(
282*12c85518Srobert DeclContext::decl_iterator(const_cast<FieldDecl *>(FD)));
283*12c85518Srobert return ++FI == FD->getParent()->field_end();
284*12c85518Srobert }
285*12c85518Srobert
286*12c85518Srobert return false;
287*12c85518Srobert }
288*12c85518Srobert
289*12c85518Srobert const ValueDecl *
getAsBuiltinConstantDeclRef(const ASTContext & Context) const290*12c85518Srobert Expr::getAsBuiltinConstantDeclRef(const ASTContext &Context) const {
291*12c85518Srobert Expr::EvalResult Eval;
292*12c85518Srobert
293*12c85518Srobert if (EvaluateAsConstantExpr(Eval, Context)) {
294*12c85518Srobert APValue &Value = Eval.Val;
295*12c85518Srobert
296*12c85518Srobert if (Value.isMemberPointer())
297*12c85518Srobert return Value.getMemberPointerDecl();
298*12c85518Srobert
299*12c85518Srobert if (Value.isLValue() && Value.getLValueOffset().isZero())
300*12c85518Srobert return Value.getLValueBase().dyn_cast<const ValueDecl *>();
301*12c85518Srobert }
302*12c85518Srobert
303*12c85518Srobert return nullptr;
304*12c85518Srobert }
305*12c85518Srobert
306e5dd7070Spatrick // Amusing macro metaprogramming hack: check whether a class provides
307e5dd7070Spatrick // a more specific implementation of getExprLoc().
308e5dd7070Spatrick //
309e5dd7070Spatrick // See also Stmt.cpp:{getBeginLoc(),getEndLoc()}.
310e5dd7070Spatrick namespace {
311e5dd7070Spatrick /// This implementation is used when a class provides a custom
312e5dd7070Spatrick /// implementation of getExprLoc.
313e5dd7070Spatrick template <class E, class T>
getExprLocImpl(const Expr * expr,SourceLocation (T::* v)()const)314e5dd7070Spatrick SourceLocation getExprLocImpl(const Expr *expr,
315e5dd7070Spatrick SourceLocation (T::*v)() const) {
316e5dd7070Spatrick return static_cast<const E*>(expr)->getExprLoc();
317e5dd7070Spatrick }
318e5dd7070Spatrick
319e5dd7070Spatrick /// This implementation is used when a class doesn't provide
320e5dd7070Spatrick /// a custom implementation of getExprLoc. Overload resolution
321e5dd7070Spatrick /// should pick it over the implementation above because it's
322e5dd7070Spatrick /// more specialized according to function template partial ordering.
323e5dd7070Spatrick template <class E>
getExprLocImpl(const Expr * expr,SourceLocation (Expr::* v)()const)324e5dd7070Spatrick SourceLocation getExprLocImpl(const Expr *expr,
325e5dd7070Spatrick SourceLocation (Expr::*v)() const) {
326e5dd7070Spatrick return static_cast<const E *>(expr)->getBeginLoc();
327e5dd7070Spatrick }
328e5dd7070Spatrick }
329e5dd7070Spatrick
getExprLoc() const330e5dd7070Spatrick SourceLocation Expr::getExprLoc() const {
331e5dd7070Spatrick switch (getStmtClass()) {
332e5dd7070Spatrick case Stmt::NoStmtClass: llvm_unreachable("statement without class");
333e5dd7070Spatrick #define ABSTRACT_STMT(type)
334e5dd7070Spatrick #define STMT(type, base) \
335e5dd7070Spatrick case Stmt::type##Class: break;
336e5dd7070Spatrick #define EXPR(type, base) \
337e5dd7070Spatrick case Stmt::type##Class: return getExprLocImpl<type>(this, &type::getExprLoc);
338e5dd7070Spatrick #include "clang/AST/StmtNodes.inc"
339e5dd7070Spatrick }
340e5dd7070Spatrick llvm_unreachable("unknown expression kind");
341e5dd7070Spatrick }
342e5dd7070Spatrick
343e5dd7070Spatrick //===----------------------------------------------------------------------===//
344e5dd7070Spatrick // Primary Expressions.
345e5dd7070Spatrick //===----------------------------------------------------------------------===//
346e5dd7070Spatrick
AssertResultStorageKind(ConstantExpr::ResultStorageKind Kind)347e5dd7070Spatrick static void AssertResultStorageKind(ConstantExpr::ResultStorageKind Kind) {
348e5dd7070Spatrick assert((Kind == ConstantExpr::RSK_APValue ||
349e5dd7070Spatrick Kind == ConstantExpr::RSK_Int64 || Kind == ConstantExpr::RSK_None) &&
350e5dd7070Spatrick "Invalid StorageKind Value");
351ec727ea7Spatrick (void)Kind;
352e5dd7070Spatrick }
353e5dd7070Spatrick
354e5dd7070Spatrick ConstantExpr::ResultStorageKind
getStorageKind(const APValue & Value)355e5dd7070Spatrick ConstantExpr::getStorageKind(const APValue &Value) {
356e5dd7070Spatrick switch (Value.getKind()) {
357e5dd7070Spatrick case APValue::None:
358e5dd7070Spatrick case APValue::Indeterminate:
359e5dd7070Spatrick return ConstantExpr::RSK_None;
360e5dd7070Spatrick case APValue::Int:
361e5dd7070Spatrick if (!Value.getInt().needsCleanup())
362e5dd7070Spatrick return ConstantExpr::RSK_Int64;
363*12c85518Srobert [[fallthrough]];
364e5dd7070Spatrick default:
365e5dd7070Spatrick return ConstantExpr::RSK_APValue;
366e5dd7070Spatrick }
367e5dd7070Spatrick }
368e5dd7070Spatrick
369e5dd7070Spatrick ConstantExpr::ResultStorageKind
getStorageKind(const Type * T,const ASTContext & Context)370e5dd7070Spatrick ConstantExpr::getStorageKind(const Type *T, const ASTContext &Context) {
371e5dd7070Spatrick if (T->isIntegralOrEnumerationType() && Context.getTypeInfo(T).Width <= 64)
372e5dd7070Spatrick return ConstantExpr::RSK_Int64;
373e5dd7070Spatrick return ConstantExpr::RSK_APValue;
374e5dd7070Spatrick }
375e5dd7070Spatrick
ConstantExpr(Expr * SubExpr,ResultStorageKind StorageKind,bool IsImmediateInvocation)376ec727ea7Spatrick ConstantExpr::ConstantExpr(Expr *SubExpr, ResultStorageKind StorageKind,
377ec727ea7Spatrick bool IsImmediateInvocation)
378ec727ea7Spatrick : FullExpr(ConstantExprClass, SubExpr) {
379e5dd7070Spatrick ConstantExprBits.ResultKind = StorageKind;
380e5dd7070Spatrick ConstantExprBits.APValueKind = APValue::None;
381ec727ea7Spatrick ConstantExprBits.IsUnsigned = false;
382ec727ea7Spatrick ConstantExprBits.BitWidth = 0;
383e5dd7070Spatrick ConstantExprBits.HasCleanup = false;
384ec727ea7Spatrick ConstantExprBits.IsImmediateInvocation = IsImmediateInvocation;
385ec727ea7Spatrick
386e5dd7070Spatrick if (StorageKind == ConstantExpr::RSK_APValue)
387e5dd7070Spatrick ::new (getTrailingObjects<APValue>()) APValue();
388e5dd7070Spatrick }
389e5dd7070Spatrick
Create(const ASTContext & Context,Expr * E,ResultStorageKind StorageKind,bool IsImmediateInvocation)390e5dd7070Spatrick ConstantExpr *ConstantExpr::Create(const ASTContext &Context, Expr *E,
391ec727ea7Spatrick ResultStorageKind StorageKind,
392ec727ea7Spatrick bool IsImmediateInvocation) {
393e5dd7070Spatrick assert(!isa<ConstantExpr>(E));
394e5dd7070Spatrick AssertResultStorageKind(StorageKind);
395ec727ea7Spatrick
396e5dd7070Spatrick unsigned Size = totalSizeToAlloc<APValue, uint64_t>(
397e5dd7070Spatrick StorageKind == ConstantExpr::RSK_APValue,
398e5dd7070Spatrick StorageKind == ConstantExpr::RSK_Int64);
399e5dd7070Spatrick void *Mem = Context.Allocate(Size, alignof(ConstantExpr));
400ec727ea7Spatrick return new (Mem) ConstantExpr(E, StorageKind, IsImmediateInvocation);
401e5dd7070Spatrick }
402e5dd7070Spatrick
Create(const ASTContext & Context,Expr * E,const APValue & Result)403e5dd7070Spatrick ConstantExpr *ConstantExpr::Create(const ASTContext &Context, Expr *E,
404e5dd7070Spatrick const APValue &Result) {
405e5dd7070Spatrick ResultStorageKind StorageKind = getStorageKind(Result);
406e5dd7070Spatrick ConstantExpr *Self = Create(Context, E, StorageKind);
407e5dd7070Spatrick Self->SetResult(Result, Context);
408e5dd7070Spatrick return Self;
409e5dd7070Spatrick }
410e5dd7070Spatrick
ConstantExpr(EmptyShell Empty,ResultStorageKind StorageKind)411ec727ea7Spatrick ConstantExpr::ConstantExpr(EmptyShell Empty, ResultStorageKind StorageKind)
412e5dd7070Spatrick : FullExpr(ConstantExprClass, Empty) {
413ec727ea7Spatrick ConstantExprBits.ResultKind = StorageKind;
414ec727ea7Spatrick
415ec727ea7Spatrick if (StorageKind == ConstantExpr::RSK_APValue)
416ec727ea7Spatrick ::new (getTrailingObjects<APValue>()) APValue();
417e5dd7070Spatrick }
418e5dd7070Spatrick
CreateEmpty(const ASTContext & Context,ResultStorageKind StorageKind)419e5dd7070Spatrick ConstantExpr *ConstantExpr::CreateEmpty(const ASTContext &Context,
420ec727ea7Spatrick ResultStorageKind StorageKind) {
421e5dd7070Spatrick AssertResultStorageKind(StorageKind);
422ec727ea7Spatrick
423e5dd7070Spatrick unsigned Size = totalSizeToAlloc<APValue, uint64_t>(
424e5dd7070Spatrick StorageKind == ConstantExpr::RSK_APValue,
425e5dd7070Spatrick StorageKind == ConstantExpr::RSK_Int64);
426e5dd7070Spatrick void *Mem = Context.Allocate(Size, alignof(ConstantExpr));
427ec727ea7Spatrick return new (Mem) ConstantExpr(EmptyShell(), StorageKind);
428e5dd7070Spatrick }
429e5dd7070Spatrick
MoveIntoResult(APValue & Value,const ASTContext & Context)430e5dd7070Spatrick void ConstantExpr::MoveIntoResult(APValue &Value, const ASTContext &Context) {
431ec727ea7Spatrick assert((unsigned)getStorageKind(Value) <= ConstantExprBits.ResultKind &&
432e5dd7070Spatrick "Invalid storage for this value kind");
433e5dd7070Spatrick ConstantExprBits.APValueKind = Value.getKind();
434e5dd7070Spatrick switch (ConstantExprBits.ResultKind) {
435e5dd7070Spatrick case RSK_None:
436e5dd7070Spatrick return;
437e5dd7070Spatrick case RSK_Int64:
438e5dd7070Spatrick Int64Result() = *Value.getInt().getRawData();
439e5dd7070Spatrick ConstantExprBits.BitWidth = Value.getInt().getBitWidth();
440e5dd7070Spatrick ConstantExprBits.IsUnsigned = Value.getInt().isUnsigned();
441e5dd7070Spatrick return;
442e5dd7070Spatrick case RSK_APValue:
443e5dd7070Spatrick if (!ConstantExprBits.HasCleanup && Value.needsCleanup()) {
444e5dd7070Spatrick ConstantExprBits.HasCleanup = true;
445e5dd7070Spatrick Context.addDestruction(&APValueResult());
446e5dd7070Spatrick }
447e5dd7070Spatrick APValueResult() = std::move(Value);
448e5dd7070Spatrick return;
449e5dd7070Spatrick }
450e5dd7070Spatrick llvm_unreachable("Invalid ResultKind Bits");
451e5dd7070Spatrick }
452e5dd7070Spatrick
getResultAsAPSInt() const453e5dd7070Spatrick llvm::APSInt ConstantExpr::getResultAsAPSInt() const {
454e5dd7070Spatrick switch (ConstantExprBits.ResultKind) {
455e5dd7070Spatrick case ConstantExpr::RSK_APValue:
456e5dd7070Spatrick return APValueResult().getInt();
457e5dd7070Spatrick case ConstantExpr::RSK_Int64:
458e5dd7070Spatrick return llvm::APSInt(llvm::APInt(ConstantExprBits.BitWidth, Int64Result()),
459e5dd7070Spatrick ConstantExprBits.IsUnsigned);
460e5dd7070Spatrick default:
461e5dd7070Spatrick llvm_unreachable("invalid Accessor");
462e5dd7070Spatrick }
463e5dd7070Spatrick }
464e5dd7070Spatrick
getAPValueResult() const465e5dd7070Spatrick APValue ConstantExpr::getAPValueResult() const {
466ec727ea7Spatrick
467e5dd7070Spatrick switch (ConstantExprBits.ResultKind) {
468e5dd7070Spatrick case ConstantExpr::RSK_APValue:
469e5dd7070Spatrick return APValueResult();
470e5dd7070Spatrick case ConstantExpr::RSK_Int64:
471e5dd7070Spatrick return APValue(
472e5dd7070Spatrick llvm::APSInt(llvm::APInt(ConstantExprBits.BitWidth, Int64Result()),
473e5dd7070Spatrick ConstantExprBits.IsUnsigned));
474e5dd7070Spatrick case ConstantExpr::RSK_None:
475a9ac8606Spatrick if (ConstantExprBits.APValueKind == APValue::Indeterminate)
476a9ac8606Spatrick return APValue::IndeterminateValue();
477e5dd7070Spatrick return APValue();
478e5dd7070Spatrick }
479e5dd7070Spatrick llvm_unreachable("invalid ResultKind");
480e5dd7070Spatrick }
481e5dd7070Spatrick
DeclRefExpr(const ASTContext & Ctx,ValueDecl * D,bool RefersToEnclosingVariableOrCapture,QualType T,ExprValueKind VK,SourceLocation L,const DeclarationNameLoc & LocInfo,NonOdrUseReason NOUR)482e5dd7070Spatrick DeclRefExpr::DeclRefExpr(const ASTContext &Ctx, ValueDecl *D,
483e5dd7070Spatrick bool RefersToEnclosingVariableOrCapture, QualType T,
484e5dd7070Spatrick ExprValueKind VK, SourceLocation L,
485e5dd7070Spatrick const DeclarationNameLoc &LocInfo,
486e5dd7070Spatrick NonOdrUseReason NOUR)
487ec727ea7Spatrick : Expr(DeclRefExprClass, T, VK, OK_Ordinary), D(D), DNLoc(LocInfo) {
488e5dd7070Spatrick DeclRefExprBits.HasQualifier = false;
489e5dd7070Spatrick DeclRefExprBits.HasTemplateKWAndArgsInfo = false;
490e5dd7070Spatrick DeclRefExprBits.HasFoundDecl = false;
491e5dd7070Spatrick DeclRefExprBits.HadMultipleCandidates = false;
492e5dd7070Spatrick DeclRefExprBits.RefersToEnclosingVariableOrCapture =
493e5dd7070Spatrick RefersToEnclosingVariableOrCapture;
494e5dd7070Spatrick DeclRefExprBits.NonOdrUseReason = NOUR;
495e5dd7070Spatrick DeclRefExprBits.Loc = L;
496ec727ea7Spatrick setDependence(computeDependence(this, Ctx));
497e5dd7070Spatrick }
498e5dd7070Spatrick
DeclRefExpr(const ASTContext & Ctx,NestedNameSpecifierLoc QualifierLoc,SourceLocation TemplateKWLoc,ValueDecl * D,bool RefersToEnclosingVariableOrCapture,const DeclarationNameInfo & NameInfo,NamedDecl * FoundD,const TemplateArgumentListInfo * TemplateArgs,QualType T,ExprValueKind VK,NonOdrUseReason NOUR)499e5dd7070Spatrick DeclRefExpr::DeclRefExpr(const ASTContext &Ctx,
500e5dd7070Spatrick NestedNameSpecifierLoc QualifierLoc,
501e5dd7070Spatrick SourceLocation TemplateKWLoc, ValueDecl *D,
502e5dd7070Spatrick bool RefersToEnclosingVariableOrCapture,
503e5dd7070Spatrick const DeclarationNameInfo &NameInfo, NamedDecl *FoundD,
504e5dd7070Spatrick const TemplateArgumentListInfo *TemplateArgs,
505e5dd7070Spatrick QualType T, ExprValueKind VK, NonOdrUseReason NOUR)
506ec727ea7Spatrick : Expr(DeclRefExprClass, T, VK, OK_Ordinary), D(D),
507ec727ea7Spatrick DNLoc(NameInfo.getInfo()) {
508e5dd7070Spatrick DeclRefExprBits.Loc = NameInfo.getLoc();
509e5dd7070Spatrick DeclRefExprBits.HasQualifier = QualifierLoc ? 1 : 0;
510ec727ea7Spatrick if (QualifierLoc)
511e5dd7070Spatrick new (getTrailingObjects<NestedNameSpecifierLoc>())
512e5dd7070Spatrick NestedNameSpecifierLoc(QualifierLoc);
513e5dd7070Spatrick DeclRefExprBits.HasFoundDecl = FoundD ? 1 : 0;
514e5dd7070Spatrick if (FoundD)
515e5dd7070Spatrick *getTrailingObjects<NamedDecl *>() = FoundD;
516e5dd7070Spatrick DeclRefExprBits.HasTemplateKWAndArgsInfo
517e5dd7070Spatrick = (TemplateArgs || TemplateKWLoc.isValid()) ? 1 : 0;
518e5dd7070Spatrick DeclRefExprBits.RefersToEnclosingVariableOrCapture =
519e5dd7070Spatrick RefersToEnclosingVariableOrCapture;
520e5dd7070Spatrick DeclRefExprBits.NonOdrUseReason = NOUR;
521e5dd7070Spatrick if (TemplateArgs) {
522ec727ea7Spatrick auto Deps = TemplateArgumentDependence::None;
523e5dd7070Spatrick getTrailingObjects<ASTTemplateKWAndArgsInfo>()->initializeFrom(
524e5dd7070Spatrick TemplateKWLoc, *TemplateArgs, getTrailingObjects<TemplateArgumentLoc>(),
525ec727ea7Spatrick Deps);
526ec727ea7Spatrick assert(!(Deps & TemplateArgumentDependence::Dependent) &&
527ec727ea7Spatrick "built a DeclRefExpr with dependent template args");
528e5dd7070Spatrick } else if (TemplateKWLoc.isValid()) {
529e5dd7070Spatrick getTrailingObjects<ASTTemplateKWAndArgsInfo>()->initializeFrom(
530e5dd7070Spatrick TemplateKWLoc);
531e5dd7070Spatrick }
532e5dd7070Spatrick DeclRefExprBits.HadMultipleCandidates = 0;
533ec727ea7Spatrick setDependence(computeDependence(this, Ctx));
534e5dd7070Spatrick }
535e5dd7070Spatrick
Create(const ASTContext & Context,NestedNameSpecifierLoc QualifierLoc,SourceLocation TemplateKWLoc,ValueDecl * D,bool RefersToEnclosingVariableOrCapture,SourceLocation NameLoc,QualType T,ExprValueKind VK,NamedDecl * FoundD,const TemplateArgumentListInfo * TemplateArgs,NonOdrUseReason NOUR)536e5dd7070Spatrick DeclRefExpr *DeclRefExpr::Create(const ASTContext &Context,
537e5dd7070Spatrick NestedNameSpecifierLoc QualifierLoc,
538e5dd7070Spatrick SourceLocation TemplateKWLoc, ValueDecl *D,
539e5dd7070Spatrick bool RefersToEnclosingVariableOrCapture,
540e5dd7070Spatrick SourceLocation NameLoc, QualType T,
541e5dd7070Spatrick ExprValueKind VK, NamedDecl *FoundD,
542e5dd7070Spatrick const TemplateArgumentListInfo *TemplateArgs,
543e5dd7070Spatrick NonOdrUseReason NOUR) {
544e5dd7070Spatrick return Create(Context, QualifierLoc, TemplateKWLoc, D,
545e5dd7070Spatrick RefersToEnclosingVariableOrCapture,
546e5dd7070Spatrick DeclarationNameInfo(D->getDeclName(), NameLoc),
547e5dd7070Spatrick T, VK, FoundD, TemplateArgs, NOUR);
548e5dd7070Spatrick }
549e5dd7070Spatrick
Create(const ASTContext & Context,NestedNameSpecifierLoc QualifierLoc,SourceLocation TemplateKWLoc,ValueDecl * D,bool RefersToEnclosingVariableOrCapture,const DeclarationNameInfo & NameInfo,QualType T,ExprValueKind VK,NamedDecl * FoundD,const TemplateArgumentListInfo * TemplateArgs,NonOdrUseReason NOUR)550e5dd7070Spatrick DeclRefExpr *DeclRefExpr::Create(const ASTContext &Context,
551e5dd7070Spatrick NestedNameSpecifierLoc QualifierLoc,
552e5dd7070Spatrick SourceLocation TemplateKWLoc, ValueDecl *D,
553e5dd7070Spatrick bool RefersToEnclosingVariableOrCapture,
554e5dd7070Spatrick const DeclarationNameInfo &NameInfo,
555e5dd7070Spatrick QualType T, ExprValueKind VK,
556e5dd7070Spatrick NamedDecl *FoundD,
557e5dd7070Spatrick const TemplateArgumentListInfo *TemplateArgs,
558e5dd7070Spatrick NonOdrUseReason NOUR) {
559e5dd7070Spatrick // Filter out cases where the found Decl is the same as the value refenenced.
560e5dd7070Spatrick if (D == FoundD)
561e5dd7070Spatrick FoundD = nullptr;
562e5dd7070Spatrick
563e5dd7070Spatrick bool HasTemplateKWAndArgsInfo = TemplateArgs || TemplateKWLoc.isValid();
564e5dd7070Spatrick std::size_t Size =
565e5dd7070Spatrick totalSizeToAlloc<NestedNameSpecifierLoc, NamedDecl *,
566e5dd7070Spatrick ASTTemplateKWAndArgsInfo, TemplateArgumentLoc>(
567e5dd7070Spatrick QualifierLoc ? 1 : 0, FoundD ? 1 : 0,
568e5dd7070Spatrick HasTemplateKWAndArgsInfo ? 1 : 0,
569e5dd7070Spatrick TemplateArgs ? TemplateArgs->size() : 0);
570e5dd7070Spatrick
571e5dd7070Spatrick void *Mem = Context.Allocate(Size, alignof(DeclRefExpr));
572e5dd7070Spatrick return new (Mem) DeclRefExpr(Context, QualifierLoc, TemplateKWLoc, D,
573e5dd7070Spatrick RefersToEnclosingVariableOrCapture, NameInfo,
574e5dd7070Spatrick FoundD, TemplateArgs, T, VK, NOUR);
575e5dd7070Spatrick }
576e5dd7070Spatrick
CreateEmpty(const ASTContext & Context,bool HasQualifier,bool HasFoundDecl,bool HasTemplateKWAndArgsInfo,unsigned NumTemplateArgs)577e5dd7070Spatrick DeclRefExpr *DeclRefExpr::CreateEmpty(const ASTContext &Context,
578e5dd7070Spatrick bool HasQualifier,
579e5dd7070Spatrick bool HasFoundDecl,
580e5dd7070Spatrick bool HasTemplateKWAndArgsInfo,
581e5dd7070Spatrick unsigned NumTemplateArgs) {
582e5dd7070Spatrick assert(NumTemplateArgs == 0 || HasTemplateKWAndArgsInfo);
583e5dd7070Spatrick std::size_t Size =
584e5dd7070Spatrick totalSizeToAlloc<NestedNameSpecifierLoc, NamedDecl *,
585e5dd7070Spatrick ASTTemplateKWAndArgsInfo, TemplateArgumentLoc>(
586e5dd7070Spatrick HasQualifier ? 1 : 0, HasFoundDecl ? 1 : 0, HasTemplateKWAndArgsInfo,
587e5dd7070Spatrick NumTemplateArgs);
588e5dd7070Spatrick void *Mem = Context.Allocate(Size, alignof(DeclRefExpr));
589e5dd7070Spatrick return new (Mem) DeclRefExpr(EmptyShell());
590e5dd7070Spatrick }
591e5dd7070Spatrick
setDecl(ValueDecl * NewD)592a9ac8606Spatrick void DeclRefExpr::setDecl(ValueDecl *NewD) {
593a9ac8606Spatrick D = NewD;
594a9ac8606Spatrick if (getType()->isUndeducedType())
595a9ac8606Spatrick setType(NewD->getType());
596a9ac8606Spatrick setDependence(computeDependence(this, NewD->getASTContext()));
597a9ac8606Spatrick }
598a9ac8606Spatrick
getBeginLoc() const599e5dd7070Spatrick SourceLocation DeclRefExpr::getBeginLoc() const {
600e5dd7070Spatrick if (hasQualifier())
601e5dd7070Spatrick return getQualifierLoc().getBeginLoc();
602e5dd7070Spatrick return getNameInfo().getBeginLoc();
603e5dd7070Spatrick }
getEndLoc() const604e5dd7070Spatrick SourceLocation DeclRefExpr::getEndLoc() const {
605e5dd7070Spatrick if (hasExplicitTemplateArgs())
606e5dd7070Spatrick return getRAngleLoc();
607e5dd7070Spatrick return getNameInfo().getEndLoc();
608e5dd7070Spatrick }
609e5dd7070Spatrick
SYCLUniqueStableNameExpr(SourceLocation OpLoc,SourceLocation LParen,SourceLocation RParen,QualType ResultTy,TypeSourceInfo * TSI)610a9ac8606Spatrick SYCLUniqueStableNameExpr::SYCLUniqueStableNameExpr(SourceLocation OpLoc,
611a9ac8606Spatrick SourceLocation LParen,
612a9ac8606Spatrick SourceLocation RParen,
613a9ac8606Spatrick QualType ResultTy,
614a9ac8606Spatrick TypeSourceInfo *TSI)
615a9ac8606Spatrick : Expr(SYCLUniqueStableNameExprClass, ResultTy, VK_PRValue, OK_Ordinary),
616a9ac8606Spatrick OpLoc(OpLoc), LParen(LParen), RParen(RParen) {
617a9ac8606Spatrick setTypeSourceInfo(TSI);
618a9ac8606Spatrick setDependence(computeDependence(this));
619a9ac8606Spatrick }
620a9ac8606Spatrick
SYCLUniqueStableNameExpr(EmptyShell Empty,QualType ResultTy)621a9ac8606Spatrick SYCLUniqueStableNameExpr::SYCLUniqueStableNameExpr(EmptyShell Empty,
622a9ac8606Spatrick QualType ResultTy)
623a9ac8606Spatrick : Expr(SYCLUniqueStableNameExprClass, ResultTy, VK_PRValue, OK_Ordinary) {}
624a9ac8606Spatrick
625a9ac8606Spatrick SYCLUniqueStableNameExpr *
Create(const ASTContext & Ctx,SourceLocation OpLoc,SourceLocation LParen,SourceLocation RParen,TypeSourceInfo * TSI)626a9ac8606Spatrick SYCLUniqueStableNameExpr::Create(const ASTContext &Ctx, SourceLocation OpLoc,
627a9ac8606Spatrick SourceLocation LParen, SourceLocation RParen,
628a9ac8606Spatrick TypeSourceInfo *TSI) {
629a9ac8606Spatrick QualType ResultTy = Ctx.getPointerType(Ctx.CharTy.withConst());
630a9ac8606Spatrick return new (Ctx)
631a9ac8606Spatrick SYCLUniqueStableNameExpr(OpLoc, LParen, RParen, ResultTy, TSI);
632a9ac8606Spatrick }
633a9ac8606Spatrick
634a9ac8606Spatrick SYCLUniqueStableNameExpr *
CreateEmpty(const ASTContext & Ctx)635a9ac8606Spatrick SYCLUniqueStableNameExpr::CreateEmpty(const ASTContext &Ctx) {
636a9ac8606Spatrick QualType ResultTy = Ctx.getPointerType(Ctx.CharTy.withConst());
637a9ac8606Spatrick return new (Ctx) SYCLUniqueStableNameExpr(EmptyShell(), ResultTy);
638a9ac8606Spatrick }
639a9ac8606Spatrick
ComputeName(ASTContext & Context) const640a9ac8606Spatrick std::string SYCLUniqueStableNameExpr::ComputeName(ASTContext &Context) const {
641a9ac8606Spatrick return SYCLUniqueStableNameExpr::ComputeName(Context,
642a9ac8606Spatrick getTypeSourceInfo()->getType());
643a9ac8606Spatrick }
644a9ac8606Spatrick
ComputeName(ASTContext & Context,QualType Ty)645a9ac8606Spatrick std::string SYCLUniqueStableNameExpr::ComputeName(ASTContext &Context,
646a9ac8606Spatrick QualType Ty) {
647a9ac8606Spatrick auto MangleCallback = [](ASTContext &Ctx,
648*12c85518Srobert const NamedDecl *ND) -> std::optional<unsigned> {
649*12c85518Srobert if (const auto *RD = dyn_cast<CXXRecordDecl>(ND))
650*12c85518Srobert return RD->getDeviceLambdaManglingNumber();
651*12c85518Srobert return std::nullopt;
652a9ac8606Spatrick };
653*12c85518Srobert
654a9ac8606Spatrick std::unique_ptr<MangleContext> Ctx{ItaniumMangleContext::create(
655a9ac8606Spatrick Context, Context.getDiagnostics(), MangleCallback)};
656a9ac8606Spatrick
657a9ac8606Spatrick std::string Buffer;
658a9ac8606Spatrick Buffer.reserve(128);
659a9ac8606Spatrick llvm::raw_string_ostream Out(Buffer);
660a9ac8606Spatrick Ctx->mangleTypeName(Ty, Out);
661a9ac8606Spatrick
662a9ac8606Spatrick return Out.str();
663a9ac8606Spatrick }
664a9ac8606Spatrick
PredefinedExpr(SourceLocation L,QualType FNTy,IdentKind IK,StringLiteral * SL)665e5dd7070Spatrick PredefinedExpr::PredefinedExpr(SourceLocation L, QualType FNTy, IdentKind IK,
666e5dd7070Spatrick StringLiteral *SL)
667ec727ea7Spatrick : Expr(PredefinedExprClass, FNTy, VK_LValue, OK_Ordinary) {
668e5dd7070Spatrick PredefinedExprBits.Kind = IK;
669e5dd7070Spatrick assert((getIdentKind() == IK) &&
670e5dd7070Spatrick "IdentKind do not fit in PredefinedExprBitfields!");
671e5dd7070Spatrick bool HasFunctionName = SL != nullptr;
672e5dd7070Spatrick PredefinedExprBits.HasFunctionName = HasFunctionName;
673e5dd7070Spatrick PredefinedExprBits.Loc = L;
674e5dd7070Spatrick if (HasFunctionName)
675e5dd7070Spatrick setFunctionName(SL);
676ec727ea7Spatrick setDependence(computeDependence(this));
677ec727ea7Spatrick }
678ec727ea7Spatrick
PredefinedExpr(EmptyShell Empty,bool HasFunctionName)679e5dd7070Spatrick PredefinedExpr::PredefinedExpr(EmptyShell Empty, bool HasFunctionName)
680e5dd7070Spatrick : Expr(PredefinedExprClass, Empty) {
681e5dd7070Spatrick PredefinedExprBits.HasFunctionName = HasFunctionName;
682e5dd7070Spatrick }
683e5dd7070Spatrick
Create(const ASTContext & Ctx,SourceLocation L,QualType FNTy,IdentKind IK,StringLiteral * SL)684e5dd7070Spatrick PredefinedExpr *PredefinedExpr::Create(const ASTContext &Ctx, SourceLocation L,
685e5dd7070Spatrick QualType FNTy, IdentKind IK,
686e5dd7070Spatrick StringLiteral *SL) {
687e5dd7070Spatrick bool HasFunctionName = SL != nullptr;
688a9ac8606Spatrick void *Mem = Ctx.Allocate(totalSizeToAlloc<Stmt *>(HasFunctionName),
689e5dd7070Spatrick alignof(PredefinedExpr));
690e5dd7070Spatrick return new (Mem) PredefinedExpr(L, FNTy, IK, SL);
691e5dd7070Spatrick }
692e5dd7070Spatrick
CreateEmpty(const ASTContext & Ctx,bool HasFunctionName)693e5dd7070Spatrick PredefinedExpr *PredefinedExpr::CreateEmpty(const ASTContext &Ctx,
694e5dd7070Spatrick bool HasFunctionName) {
695a9ac8606Spatrick void *Mem = Ctx.Allocate(totalSizeToAlloc<Stmt *>(HasFunctionName),
696e5dd7070Spatrick alignof(PredefinedExpr));
697e5dd7070Spatrick return new (Mem) PredefinedExpr(EmptyShell(), HasFunctionName);
698e5dd7070Spatrick }
699e5dd7070Spatrick
getIdentKindName(PredefinedExpr::IdentKind IK)700e5dd7070Spatrick StringRef PredefinedExpr::getIdentKindName(PredefinedExpr::IdentKind IK) {
701e5dd7070Spatrick switch (IK) {
702e5dd7070Spatrick case Func:
703e5dd7070Spatrick return "__func__";
704e5dd7070Spatrick case Function:
705e5dd7070Spatrick return "__FUNCTION__";
706e5dd7070Spatrick case FuncDName:
707e5dd7070Spatrick return "__FUNCDNAME__";
708e5dd7070Spatrick case LFunction:
709e5dd7070Spatrick return "L__FUNCTION__";
710e5dd7070Spatrick case PrettyFunction:
711e5dd7070Spatrick return "__PRETTY_FUNCTION__";
712e5dd7070Spatrick case FuncSig:
713e5dd7070Spatrick return "__FUNCSIG__";
714e5dd7070Spatrick case LFuncSig:
715e5dd7070Spatrick return "L__FUNCSIG__";
716e5dd7070Spatrick case PrettyFunctionNoVirtual:
717e5dd7070Spatrick break;
718e5dd7070Spatrick }
719e5dd7070Spatrick llvm_unreachable("Unknown ident kind for PredefinedExpr");
720e5dd7070Spatrick }
721e5dd7070Spatrick
722e5dd7070Spatrick // FIXME: Maybe this should use DeclPrinter with a special "print predefined
723e5dd7070Spatrick // expr" policy instead.
ComputeName(IdentKind IK,const Decl * CurrentDecl)724e5dd7070Spatrick std::string PredefinedExpr::ComputeName(IdentKind IK, const Decl *CurrentDecl) {
725e5dd7070Spatrick ASTContext &Context = CurrentDecl->getASTContext();
726e5dd7070Spatrick
727e5dd7070Spatrick if (IK == PredefinedExpr::FuncDName) {
728e5dd7070Spatrick if (const NamedDecl *ND = dyn_cast<NamedDecl>(CurrentDecl)) {
729e5dd7070Spatrick std::unique_ptr<MangleContext> MC;
730e5dd7070Spatrick MC.reset(Context.createMangleContext());
731e5dd7070Spatrick
732e5dd7070Spatrick if (MC->shouldMangleDeclName(ND)) {
733e5dd7070Spatrick SmallString<256> Buffer;
734e5dd7070Spatrick llvm::raw_svector_ostream Out(Buffer);
735ec727ea7Spatrick GlobalDecl GD;
736e5dd7070Spatrick if (const CXXConstructorDecl *CD = dyn_cast<CXXConstructorDecl>(ND))
737ec727ea7Spatrick GD = GlobalDecl(CD, Ctor_Base);
738e5dd7070Spatrick else if (const CXXDestructorDecl *DD = dyn_cast<CXXDestructorDecl>(ND))
739ec727ea7Spatrick GD = GlobalDecl(DD, Dtor_Base);
740ec727ea7Spatrick else if (ND->hasAttr<CUDAGlobalAttr>())
741ec727ea7Spatrick GD = GlobalDecl(cast<FunctionDecl>(ND));
742e5dd7070Spatrick else
743ec727ea7Spatrick GD = GlobalDecl(ND);
744ec727ea7Spatrick MC->mangleName(GD, Out);
745e5dd7070Spatrick
746e5dd7070Spatrick if (!Buffer.empty() && Buffer.front() == '\01')
747ec727ea7Spatrick return std::string(Buffer.substr(1));
748ec727ea7Spatrick return std::string(Buffer.str());
749a9ac8606Spatrick }
750ec727ea7Spatrick return std::string(ND->getIdentifier()->getName());
751e5dd7070Spatrick }
752e5dd7070Spatrick return "";
753e5dd7070Spatrick }
754e5dd7070Spatrick if (isa<BlockDecl>(CurrentDecl)) {
755e5dd7070Spatrick // For blocks we only emit something if it is enclosed in a function
756e5dd7070Spatrick // For top-level block we'd like to include the name of variable, but we
757e5dd7070Spatrick // don't have it at this point.
758e5dd7070Spatrick auto DC = CurrentDecl->getDeclContext();
759e5dd7070Spatrick if (DC->isFileContext())
760e5dd7070Spatrick return "";
761e5dd7070Spatrick
762e5dd7070Spatrick SmallString<256> Buffer;
763e5dd7070Spatrick llvm::raw_svector_ostream Out(Buffer);
764e5dd7070Spatrick if (auto *DCBlock = dyn_cast<BlockDecl>(DC))
765e5dd7070Spatrick // For nested blocks, propagate up to the parent.
766e5dd7070Spatrick Out << ComputeName(IK, DCBlock);
767e5dd7070Spatrick else if (auto *DCDecl = dyn_cast<Decl>(DC))
768e5dd7070Spatrick Out << ComputeName(IK, DCDecl) << "_block_invoke";
769ec727ea7Spatrick return std::string(Out.str());
770e5dd7070Spatrick }
771e5dd7070Spatrick if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(CurrentDecl)) {
772e5dd7070Spatrick if (IK != PrettyFunction && IK != PrettyFunctionNoVirtual &&
773e5dd7070Spatrick IK != FuncSig && IK != LFuncSig)
774e5dd7070Spatrick return FD->getNameAsString();
775e5dd7070Spatrick
776e5dd7070Spatrick SmallString<256> Name;
777e5dd7070Spatrick llvm::raw_svector_ostream Out(Name);
778e5dd7070Spatrick
779e5dd7070Spatrick if (const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(FD)) {
780e5dd7070Spatrick if (MD->isVirtual() && IK != PrettyFunctionNoVirtual)
781e5dd7070Spatrick Out << "virtual ";
782e5dd7070Spatrick if (MD->isStatic())
783e5dd7070Spatrick Out << "static ";
784e5dd7070Spatrick }
785e5dd7070Spatrick
786e5dd7070Spatrick PrintingPolicy Policy(Context.getLangOpts());
787e5dd7070Spatrick std::string Proto;
788e5dd7070Spatrick llvm::raw_string_ostream POut(Proto);
789e5dd7070Spatrick
790e5dd7070Spatrick const FunctionDecl *Decl = FD;
791e5dd7070Spatrick if (const FunctionDecl* Pattern = FD->getTemplateInstantiationPattern())
792e5dd7070Spatrick Decl = Pattern;
793e5dd7070Spatrick const FunctionType *AFT = Decl->getType()->getAs<FunctionType>();
794e5dd7070Spatrick const FunctionProtoType *FT = nullptr;
795e5dd7070Spatrick if (FD->hasWrittenPrototype())
796e5dd7070Spatrick FT = dyn_cast<FunctionProtoType>(AFT);
797e5dd7070Spatrick
798e5dd7070Spatrick if (IK == FuncSig || IK == LFuncSig) {
799e5dd7070Spatrick switch (AFT->getCallConv()) {
800e5dd7070Spatrick case CC_C: POut << "__cdecl "; break;
801e5dd7070Spatrick case CC_X86StdCall: POut << "__stdcall "; break;
802e5dd7070Spatrick case CC_X86FastCall: POut << "__fastcall "; break;
803e5dd7070Spatrick case CC_X86ThisCall: POut << "__thiscall "; break;
804e5dd7070Spatrick case CC_X86VectorCall: POut << "__vectorcall "; break;
805e5dd7070Spatrick case CC_X86RegCall: POut << "__regcall "; break;
806e5dd7070Spatrick // Only bother printing the conventions that MSVC knows about.
807e5dd7070Spatrick default: break;
808e5dd7070Spatrick }
809e5dd7070Spatrick }
810e5dd7070Spatrick
811e5dd7070Spatrick FD->printQualifiedName(POut, Policy);
812e5dd7070Spatrick
813e5dd7070Spatrick POut << "(";
814e5dd7070Spatrick if (FT) {
815e5dd7070Spatrick for (unsigned i = 0, e = Decl->getNumParams(); i != e; ++i) {
816e5dd7070Spatrick if (i) POut << ", ";
817e5dd7070Spatrick POut << Decl->getParamDecl(i)->getType().stream(Policy);
818e5dd7070Spatrick }
819e5dd7070Spatrick
820e5dd7070Spatrick if (FT->isVariadic()) {
821e5dd7070Spatrick if (FD->getNumParams()) POut << ", ";
822e5dd7070Spatrick POut << "...";
823e5dd7070Spatrick } else if ((IK == FuncSig || IK == LFuncSig ||
824e5dd7070Spatrick !Context.getLangOpts().CPlusPlus) &&
825e5dd7070Spatrick !Decl->getNumParams()) {
826e5dd7070Spatrick POut << "void";
827e5dd7070Spatrick }
828e5dd7070Spatrick }
829e5dd7070Spatrick POut << ")";
830e5dd7070Spatrick
831e5dd7070Spatrick if (const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(FD)) {
832e5dd7070Spatrick assert(FT && "We must have a written prototype in this case.");
833e5dd7070Spatrick if (FT->isConst())
834e5dd7070Spatrick POut << " const";
835e5dd7070Spatrick if (FT->isVolatile())
836e5dd7070Spatrick POut << " volatile";
837e5dd7070Spatrick RefQualifierKind Ref = MD->getRefQualifier();
838e5dd7070Spatrick if (Ref == RQ_LValue)
839e5dd7070Spatrick POut << " &";
840e5dd7070Spatrick else if (Ref == RQ_RValue)
841e5dd7070Spatrick POut << " &&";
842e5dd7070Spatrick }
843e5dd7070Spatrick
844e5dd7070Spatrick typedef SmallVector<const ClassTemplateSpecializationDecl *, 8> SpecsTy;
845e5dd7070Spatrick SpecsTy Specs;
846e5dd7070Spatrick const DeclContext *Ctx = FD->getDeclContext();
847e5dd7070Spatrick while (Ctx && isa<NamedDecl>(Ctx)) {
848e5dd7070Spatrick const ClassTemplateSpecializationDecl *Spec
849e5dd7070Spatrick = dyn_cast<ClassTemplateSpecializationDecl>(Ctx);
850e5dd7070Spatrick if (Spec && !Spec->isExplicitSpecialization())
851e5dd7070Spatrick Specs.push_back(Spec);
852e5dd7070Spatrick Ctx = Ctx->getParent();
853e5dd7070Spatrick }
854e5dd7070Spatrick
855e5dd7070Spatrick std::string TemplateParams;
856e5dd7070Spatrick llvm::raw_string_ostream TOut(TemplateParams);
857*12c85518Srobert for (const ClassTemplateSpecializationDecl *D : llvm::reverse(Specs)) {
858*12c85518Srobert const TemplateParameterList *Params =
859*12c85518Srobert D->getSpecializedTemplate()->getTemplateParameters();
860*12c85518Srobert const TemplateArgumentList &Args = D->getTemplateArgs();
861e5dd7070Spatrick assert(Params->size() == Args.size());
862e5dd7070Spatrick for (unsigned i = 0, numParams = Params->size(); i != numParams; ++i) {
863e5dd7070Spatrick StringRef Param = Params->getParam(i)->getName();
864e5dd7070Spatrick if (Param.empty()) continue;
865e5dd7070Spatrick TOut << Param << " = ";
866*12c85518Srobert Args.get(i).print(Policy, TOut,
867*12c85518Srobert TemplateParameterList::shouldIncludeTypeForArgument(
868*12c85518Srobert Policy, Params, i));
869e5dd7070Spatrick TOut << ", ";
870e5dd7070Spatrick }
871e5dd7070Spatrick }
872e5dd7070Spatrick
873e5dd7070Spatrick FunctionTemplateSpecializationInfo *FSI
874e5dd7070Spatrick = FD->getTemplateSpecializationInfo();
875e5dd7070Spatrick if (FSI && !FSI->isExplicitSpecialization()) {
876e5dd7070Spatrick const TemplateParameterList* Params
877e5dd7070Spatrick = FSI->getTemplate()->getTemplateParameters();
878e5dd7070Spatrick const TemplateArgumentList* Args = FSI->TemplateArguments;
879e5dd7070Spatrick assert(Params->size() == Args->size());
880e5dd7070Spatrick for (unsigned i = 0, e = Params->size(); i != e; ++i) {
881e5dd7070Spatrick StringRef Param = Params->getParam(i)->getName();
882e5dd7070Spatrick if (Param.empty()) continue;
883e5dd7070Spatrick TOut << Param << " = ";
884a9ac8606Spatrick Args->get(i).print(Policy, TOut, /*IncludeType*/ true);
885e5dd7070Spatrick TOut << ", ";
886e5dd7070Spatrick }
887e5dd7070Spatrick }
888e5dd7070Spatrick
889e5dd7070Spatrick TOut.flush();
890e5dd7070Spatrick if (!TemplateParams.empty()) {
891e5dd7070Spatrick // remove the trailing comma and space
892e5dd7070Spatrick TemplateParams.resize(TemplateParams.size() - 2);
893e5dd7070Spatrick POut << " [" << TemplateParams << "]";
894e5dd7070Spatrick }
895e5dd7070Spatrick
896e5dd7070Spatrick POut.flush();
897e5dd7070Spatrick
898e5dd7070Spatrick // Print "auto" for all deduced return types. This includes C++1y return
899e5dd7070Spatrick // type deduction and lambdas. For trailing return types resolve the
900e5dd7070Spatrick // decltype expression. Otherwise print the real type when this is
901e5dd7070Spatrick // not a constructor or destructor.
902e5dd7070Spatrick if (isa<CXXMethodDecl>(FD) &&
903e5dd7070Spatrick cast<CXXMethodDecl>(FD)->getParent()->isLambda())
904e5dd7070Spatrick Proto = "auto " + Proto;
905e5dd7070Spatrick else if (FT && FT->getReturnType()->getAs<DecltypeType>())
906e5dd7070Spatrick FT->getReturnType()
907e5dd7070Spatrick ->getAs<DecltypeType>()
908e5dd7070Spatrick ->getUnderlyingType()
909e5dd7070Spatrick .getAsStringInternal(Proto, Policy);
910e5dd7070Spatrick else if (!isa<CXXConstructorDecl>(FD) && !isa<CXXDestructorDecl>(FD))
911e5dd7070Spatrick AFT->getReturnType().getAsStringInternal(Proto, Policy);
912e5dd7070Spatrick
913e5dd7070Spatrick Out << Proto;
914e5dd7070Spatrick
915ec727ea7Spatrick return std::string(Name);
916e5dd7070Spatrick }
917e5dd7070Spatrick if (const CapturedDecl *CD = dyn_cast<CapturedDecl>(CurrentDecl)) {
918e5dd7070Spatrick for (const DeclContext *DC = CD->getParent(); DC; DC = DC->getParent())
919e5dd7070Spatrick // Skip to its enclosing function or method, but not its enclosing
920e5dd7070Spatrick // CapturedDecl.
921e5dd7070Spatrick if (DC->isFunctionOrMethod() && (DC->getDeclKind() != Decl::Captured)) {
922e5dd7070Spatrick const Decl *D = Decl::castFromDeclContext(DC);
923e5dd7070Spatrick return ComputeName(IK, D);
924e5dd7070Spatrick }
925e5dd7070Spatrick llvm_unreachable("CapturedDecl not inside a function or method");
926e5dd7070Spatrick }
927e5dd7070Spatrick if (const ObjCMethodDecl *MD = dyn_cast<ObjCMethodDecl>(CurrentDecl)) {
928e5dd7070Spatrick SmallString<256> Name;
929e5dd7070Spatrick llvm::raw_svector_ostream Out(Name);
930e5dd7070Spatrick Out << (MD->isInstanceMethod() ? '-' : '+');
931e5dd7070Spatrick Out << '[';
932e5dd7070Spatrick
933e5dd7070Spatrick // For incorrect code, there might not be an ObjCInterfaceDecl. Do
934e5dd7070Spatrick // a null check to avoid a crash.
935e5dd7070Spatrick if (const ObjCInterfaceDecl *ID = MD->getClassInterface())
936e5dd7070Spatrick Out << *ID;
937e5dd7070Spatrick
938e5dd7070Spatrick if (const ObjCCategoryImplDecl *CID =
939e5dd7070Spatrick dyn_cast<ObjCCategoryImplDecl>(MD->getDeclContext()))
940e5dd7070Spatrick Out << '(' << *CID << ')';
941e5dd7070Spatrick
942e5dd7070Spatrick Out << ' ';
943e5dd7070Spatrick MD->getSelector().print(Out);
944e5dd7070Spatrick Out << ']';
945e5dd7070Spatrick
946ec727ea7Spatrick return std::string(Name);
947e5dd7070Spatrick }
948e5dd7070Spatrick if (isa<TranslationUnitDecl>(CurrentDecl) && IK == PrettyFunction) {
949e5dd7070Spatrick // __PRETTY_FUNCTION__ -> "top level", the others produce an empty string.
950e5dd7070Spatrick return "top level";
951e5dd7070Spatrick }
952e5dd7070Spatrick return "";
953e5dd7070Spatrick }
954e5dd7070Spatrick
setIntValue(const ASTContext & C,const llvm::APInt & Val)955e5dd7070Spatrick void APNumericStorage::setIntValue(const ASTContext &C,
956e5dd7070Spatrick const llvm::APInt &Val) {
957e5dd7070Spatrick if (hasAllocation())
958e5dd7070Spatrick C.Deallocate(pVal);
959e5dd7070Spatrick
960e5dd7070Spatrick BitWidth = Val.getBitWidth();
961e5dd7070Spatrick unsigned NumWords = Val.getNumWords();
962e5dd7070Spatrick const uint64_t* Words = Val.getRawData();
963e5dd7070Spatrick if (NumWords > 1) {
964e5dd7070Spatrick pVal = new (C) uint64_t[NumWords];
965e5dd7070Spatrick std::copy(Words, Words + NumWords, pVal);
966e5dd7070Spatrick } else if (NumWords == 1)
967e5dd7070Spatrick VAL = Words[0];
968e5dd7070Spatrick else
969e5dd7070Spatrick VAL = 0;
970e5dd7070Spatrick }
971e5dd7070Spatrick
IntegerLiteral(const ASTContext & C,const llvm::APInt & V,QualType type,SourceLocation l)972e5dd7070Spatrick IntegerLiteral::IntegerLiteral(const ASTContext &C, const llvm::APInt &V,
973e5dd7070Spatrick QualType type, SourceLocation l)
974a9ac8606Spatrick : Expr(IntegerLiteralClass, type, VK_PRValue, OK_Ordinary), Loc(l) {
975e5dd7070Spatrick assert(type->isIntegerType() && "Illegal type in IntegerLiteral");
976e5dd7070Spatrick assert(V.getBitWidth() == C.getIntWidth(type) &&
977e5dd7070Spatrick "Integer type is not the correct size for constant.");
978e5dd7070Spatrick setValue(C, V);
979ec727ea7Spatrick setDependence(ExprDependence::None);
980e5dd7070Spatrick }
981e5dd7070Spatrick
982e5dd7070Spatrick IntegerLiteral *
Create(const ASTContext & C,const llvm::APInt & V,QualType type,SourceLocation l)983e5dd7070Spatrick IntegerLiteral::Create(const ASTContext &C, const llvm::APInt &V,
984e5dd7070Spatrick QualType type, SourceLocation l) {
985e5dd7070Spatrick return new (C) IntegerLiteral(C, V, type, l);
986e5dd7070Spatrick }
987e5dd7070Spatrick
988e5dd7070Spatrick IntegerLiteral *
Create(const ASTContext & C,EmptyShell Empty)989e5dd7070Spatrick IntegerLiteral::Create(const ASTContext &C, EmptyShell Empty) {
990e5dd7070Spatrick return new (C) IntegerLiteral(Empty);
991e5dd7070Spatrick }
992e5dd7070Spatrick
FixedPointLiteral(const ASTContext & C,const llvm::APInt & V,QualType type,SourceLocation l,unsigned Scale)993e5dd7070Spatrick FixedPointLiteral::FixedPointLiteral(const ASTContext &C, const llvm::APInt &V,
994e5dd7070Spatrick QualType type, SourceLocation l,
995e5dd7070Spatrick unsigned Scale)
996a9ac8606Spatrick : Expr(FixedPointLiteralClass, type, VK_PRValue, OK_Ordinary), Loc(l),
997ec727ea7Spatrick Scale(Scale) {
998e5dd7070Spatrick assert(type->isFixedPointType() && "Illegal type in FixedPointLiteral");
999e5dd7070Spatrick assert(V.getBitWidth() == C.getTypeInfo(type).Width &&
1000e5dd7070Spatrick "Fixed point type is not the correct size for constant.");
1001e5dd7070Spatrick setValue(C, V);
1002ec727ea7Spatrick setDependence(ExprDependence::None);
1003e5dd7070Spatrick }
1004e5dd7070Spatrick
CreateFromRawInt(const ASTContext & C,const llvm::APInt & V,QualType type,SourceLocation l,unsigned Scale)1005e5dd7070Spatrick FixedPointLiteral *FixedPointLiteral::CreateFromRawInt(const ASTContext &C,
1006e5dd7070Spatrick const llvm::APInt &V,
1007e5dd7070Spatrick QualType type,
1008e5dd7070Spatrick SourceLocation l,
1009e5dd7070Spatrick unsigned Scale) {
1010e5dd7070Spatrick return new (C) FixedPointLiteral(C, V, type, l, Scale);
1011e5dd7070Spatrick }
1012e5dd7070Spatrick
Create(const ASTContext & C,EmptyShell Empty)1013ec727ea7Spatrick FixedPointLiteral *FixedPointLiteral::Create(const ASTContext &C,
1014ec727ea7Spatrick EmptyShell Empty) {
1015ec727ea7Spatrick return new (C) FixedPointLiteral(Empty);
1016ec727ea7Spatrick }
1017ec727ea7Spatrick
getValueAsString(unsigned Radix) const1018e5dd7070Spatrick std::string FixedPointLiteral::getValueAsString(unsigned Radix) const {
1019e5dd7070Spatrick // Currently the longest decimal number that can be printed is the max for an
1020e5dd7070Spatrick // unsigned long _Accum: 4294967295.99999999976716935634613037109375
1021e5dd7070Spatrick // which is 43 characters.
1022e5dd7070Spatrick SmallString<64> S;
1023e5dd7070Spatrick FixedPointValueToString(
1024e5dd7070Spatrick S, llvm::APSInt::getUnsigned(getValue().getZExtValue()), Scale);
1025ec727ea7Spatrick return std::string(S.str());
1026e5dd7070Spatrick }
1027e5dd7070Spatrick
print(unsigned Val,CharacterKind Kind,raw_ostream & OS)1028a9ac8606Spatrick void CharacterLiteral::print(unsigned Val, CharacterKind Kind,
1029a9ac8606Spatrick raw_ostream &OS) {
1030a9ac8606Spatrick switch (Kind) {
1031a9ac8606Spatrick case CharacterLiteral::Ascii:
1032a9ac8606Spatrick break; // no prefix.
1033a9ac8606Spatrick case CharacterLiteral::Wide:
1034a9ac8606Spatrick OS << 'L';
1035a9ac8606Spatrick break;
1036a9ac8606Spatrick case CharacterLiteral::UTF8:
1037a9ac8606Spatrick OS << "u8";
1038a9ac8606Spatrick break;
1039a9ac8606Spatrick case CharacterLiteral::UTF16:
1040a9ac8606Spatrick OS << 'u';
1041a9ac8606Spatrick break;
1042a9ac8606Spatrick case CharacterLiteral::UTF32:
1043a9ac8606Spatrick OS << 'U';
1044a9ac8606Spatrick break;
1045a9ac8606Spatrick }
1046a9ac8606Spatrick
1047*12c85518Srobert StringRef Escaped = escapeCStyle<EscapeChar::Single>(Val);
1048*12c85518Srobert if (!Escaped.empty()) {
1049*12c85518Srobert OS << "'" << Escaped << "'";
1050*12c85518Srobert } else {
1051a9ac8606Spatrick // A character literal might be sign-extended, which
1052a9ac8606Spatrick // would result in an invalid \U escape sequence.
1053a9ac8606Spatrick // FIXME: multicharacter literals such as '\xFF\xFF\xFF\xFF'
1054a9ac8606Spatrick // are not correctly handled.
1055a9ac8606Spatrick if ((Val & ~0xFFu) == ~0xFFu && Kind == CharacterLiteral::Ascii)
1056a9ac8606Spatrick Val &= 0xFFu;
1057a9ac8606Spatrick if (Val < 256 && isPrintable((unsigned char)Val))
1058a9ac8606Spatrick OS << "'" << (char)Val << "'";
1059a9ac8606Spatrick else if (Val < 256)
1060a9ac8606Spatrick OS << "'\\x" << llvm::format("%02x", Val) << "'";
1061a9ac8606Spatrick else if (Val <= 0xFFFF)
1062a9ac8606Spatrick OS << "'\\u" << llvm::format("%04x", Val) << "'";
1063a9ac8606Spatrick else
1064a9ac8606Spatrick OS << "'\\U" << llvm::format("%08x", Val) << "'";
1065a9ac8606Spatrick }
1066a9ac8606Spatrick }
1067a9ac8606Spatrick
FloatingLiteral(const ASTContext & C,const llvm::APFloat & V,bool isexact,QualType Type,SourceLocation L)1068e5dd7070Spatrick FloatingLiteral::FloatingLiteral(const ASTContext &C, const llvm::APFloat &V,
1069e5dd7070Spatrick bool isexact, QualType Type, SourceLocation L)
1070a9ac8606Spatrick : Expr(FloatingLiteralClass, Type, VK_PRValue, OK_Ordinary), Loc(L) {
1071e5dd7070Spatrick setSemantics(V.getSemantics());
1072e5dd7070Spatrick FloatingLiteralBits.IsExact = isexact;
1073e5dd7070Spatrick setValue(C, V);
1074ec727ea7Spatrick setDependence(ExprDependence::None);
1075e5dd7070Spatrick }
1076e5dd7070Spatrick
FloatingLiteral(const ASTContext & C,EmptyShell Empty)1077e5dd7070Spatrick FloatingLiteral::FloatingLiteral(const ASTContext &C, EmptyShell Empty)
1078e5dd7070Spatrick : Expr(FloatingLiteralClass, Empty) {
1079e5dd7070Spatrick setRawSemantics(llvm::APFloatBase::S_IEEEhalf);
1080e5dd7070Spatrick FloatingLiteralBits.IsExact = false;
1081e5dd7070Spatrick }
1082e5dd7070Spatrick
1083e5dd7070Spatrick FloatingLiteral *
Create(const ASTContext & C,const llvm::APFloat & V,bool isexact,QualType Type,SourceLocation L)1084e5dd7070Spatrick FloatingLiteral::Create(const ASTContext &C, const llvm::APFloat &V,
1085e5dd7070Spatrick bool isexact, QualType Type, SourceLocation L) {
1086e5dd7070Spatrick return new (C) FloatingLiteral(C, V, isexact, Type, L);
1087e5dd7070Spatrick }
1088e5dd7070Spatrick
1089e5dd7070Spatrick FloatingLiteral *
Create(const ASTContext & C,EmptyShell Empty)1090e5dd7070Spatrick FloatingLiteral::Create(const ASTContext &C, EmptyShell Empty) {
1091e5dd7070Spatrick return new (C) FloatingLiteral(C, Empty);
1092e5dd7070Spatrick }
1093e5dd7070Spatrick
1094e5dd7070Spatrick /// getValueAsApproximateDouble - This returns the value as an inaccurate
1095e5dd7070Spatrick /// double. Note that this may cause loss of precision, but is useful for
1096e5dd7070Spatrick /// debugging dumps, etc.
getValueAsApproximateDouble() const1097e5dd7070Spatrick double FloatingLiteral::getValueAsApproximateDouble() const {
1098e5dd7070Spatrick llvm::APFloat V = getValue();
1099e5dd7070Spatrick bool ignored;
1100e5dd7070Spatrick V.convert(llvm::APFloat::IEEEdouble(), llvm::APFloat::rmNearestTiesToEven,
1101e5dd7070Spatrick &ignored);
1102e5dd7070Spatrick return V.convertToDouble();
1103e5dd7070Spatrick }
1104e5dd7070Spatrick
mapCharByteWidth(TargetInfo const & Target,StringKind SK)1105e5dd7070Spatrick unsigned StringLiteral::mapCharByteWidth(TargetInfo const &Target,
1106e5dd7070Spatrick StringKind SK) {
1107e5dd7070Spatrick unsigned CharByteWidth = 0;
1108e5dd7070Spatrick switch (SK) {
1109*12c85518Srobert case Ordinary:
1110e5dd7070Spatrick case UTF8:
1111e5dd7070Spatrick CharByteWidth = Target.getCharWidth();
1112e5dd7070Spatrick break;
1113e5dd7070Spatrick case Wide:
1114e5dd7070Spatrick CharByteWidth = Target.getWCharWidth();
1115e5dd7070Spatrick break;
1116e5dd7070Spatrick case UTF16:
1117e5dd7070Spatrick CharByteWidth = Target.getChar16Width();
1118e5dd7070Spatrick break;
1119e5dd7070Spatrick case UTF32:
1120e5dd7070Spatrick CharByteWidth = Target.getChar32Width();
1121e5dd7070Spatrick break;
1122e5dd7070Spatrick }
1123e5dd7070Spatrick assert((CharByteWidth & 7) == 0 && "Assumes character size is byte multiple");
1124e5dd7070Spatrick CharByteWidth /= 8;
1125e5dd7070Spatrick assert((CharByteWidth == 1 || CharByteWidth == 2 || CharByteWidth == 4) &&
1126e5dd7070Spatrick "The only supported character byte widths are 1,2 and 4!");
1127e5dd7070Spatrick return CharByteWidth;
1128e5dd7070Spatrick }
1129e5dd7070Spatrick
StringLiteral(const ASTContext & Ctx,StringRef Str,StringKind Kind,bool Pascal,QualType Ty,const SourceLocation * Loc,unsigned NumConcatenated)1130e5dd7070Spatrick StringLiteral::StringLiteral(const ASTContext &Ctx, StringRef Str,
1131e5dd7070Spatrick StringKind Kind, bool Pascal, QualType Ty,
1132e5dd7070Spatrick const SourceLocation *Loc,
1133e5dd7070Spatrick unsigned NumConcatenated)
1134ec727ea7Spatrick : Expr(StringLiteralClass, Ty, VK_LValue, OK_Ordinary) {
1135e5dd7070Spatrick assert(Ctx.getAsConstantArrayType(Ty) &&
1136e5dd7070Spatrick "StringLiteral must be of constant array type!");
1137e5dd7070Spatrick unsigned CharByteWidth = mapCharByteWidth(Ctx.getTargetInfo(), Kind);
1138e5dd7070Spatrick unsigned ByteLength = Str.size();
1139e5dd7070Spatrick assert((ByteLength % CharByteWidth == 0) &&
1140e5dd7070Spatrick "The size of the data must be a multiple of CharByteWidth!");
1141e5dd7070Spatrick
1142e5dd7070Spatrick // Avoid the expensive division. The compiler should be able to figure it
1143e5dd7070Spatrick // out by itself. However as of clang 7, even with the appropriate
1144e5dd7070Spatrick // llvm_unreachable added just here, it is not able to do so.
1145e5dd7070Spatrick unsigned Length;
1146e5dd7070Spatrick switch (CharByteWidth) {
1147e5dd7070Spatrick case 1:
1148e5dd7070Spatrick Length = ByteLength;
1149e5dd7070Spatrick break;
1150e5dd7070Spatrick case 2:
1151e5dd7070Spatrick Length = ByteLength / 2;
1152e5dd7070Spatrick break;
1153e5dd7070Spatrick case 4:
1154e5dd7070Spatrick Length = ByteLength / 4;
1155e5dd7070Spatrick break;
1156e5dd7070Spatrick default:
1157e5dd7070Spatrick llvm_unreachable("Unsupported character width!");
1158e5dd7070Spatrick }
1159e5dd7070Spatrick
1160e5dd7070Spatrick StringLiteralBits.Kind = Kind;
1161e5dd7070Spatrick StringLiteralBits.CharByteWidth = CharByteWidth;
1162e5dd7070Spatrick StringLiteralBits.IsPascal = Pascal;
1163e5dd7070Spatrick StringLiteralBits.NumConcatenated = NumConcatenated;
1164e5dd7070Spatrick *getTrailingObjects<unsigned>() = Length;
1165e5dd7070Spatrick
1166e5dd7070Spatrick // Initialize the trailing array of SourceLocation.
1167e5dd7070Spatrick // This is safe since SourceLocation is POD-like.
1168e5dd7070Spatrick std::memcpy(getTrailingObjects<SourceLocation>(), Loc,
1169e5dd7070Spatrick NumConcatenated * sizeof(SourceLocation));
1170e5dd7070Spatrick
1171e5dd7070Spatrick // Initialize the trailing array of char holding the string data.
1172e5dd7070Spatrick std::memcpy(getTrailingObjects<char>(), Str.data(), ByteLength);
1173ec727ea7Spatrick
1174ec727ea7Spatrick setDependence(ExprDependence::None);
1175e5dd7070Spatrick }
1176e5dd7070Spatrick
StringLiteral(EmptyShell Empty,unsigned NumConcatenated,unsigned Length,unsigned CharByteWidth)1177e5dd7070Spatrick StringLiteral::StringLiteral(EmptyShell Empty, unsigned NumConcatenated,
1178e5dd7070Spatrick unsigned Length, unsigned CharByteWidth)
1179e5dd7070Spatrick : Expr(StringLiteralClass, Empty) {
1180e5dd7070Spatrick StringLiteralBits.CharByteWidth = CharByteWidth;
1181e5dd7070Spatrick StringLiteralBits.NumConcatenated = NumConcatenated;
1182e5dd7070Spatrick *getTrailingObjects<unsigned>() = Length;
1183e5dd7070Spatrick }
1184e5dd7070Spatrick
Create(const ASTContext & Ctx,StringRef Str,StringKind Kind,bool Pascal,QualType Ty,const SourceLocation * Loc,unsigned NumConcatenated)1185e5dd7070Spatrick StringLiteral *StringLiteral::Create(const ASTContext &Ctx, StringRef Str,
1186e5dd7070Spatrick StringKind Kind, bool Pascal, QualType Ty,
1187e5dd7070Spatrick const SourceLocation *Loc,
1188e5dd7070Spatrick unsigned NumConcatenated) {
1189e5dd7070Spatrick void *Mem = Ctx.Allocate(totalSizeToAlloc<unsigned, SourceLocation, char>(
1190e5dd7070Spatrick 1, NumConcatenated, Str.size()),
1191e5dd7070Spatrick alignof(StringLiteral));
1192e5dd7070Spatrick return new (Mem)
1193e5dd7070Spatrick StringLiteral(Ctx, Str, Kind, Pascal, Ty, Loc, NumConcatenated);
1194e5dd7070Spatrick }
1195e5dd7070Spatrick
CreateEmpty(const ASTContext & Ctx,unsigned NumConcatenated,unsigned Length,unsigned CharByteWidth)1196e5dd7070Spatrick StringLiteral *StringLiteral::CreateEmpty(const ASTContext &Ctx,
1197e5dd7070Spatrick unsigned NumConcatenated,
1198e5dd7070Spatrick unsigned Length,
1199e5dd7070Spatrick unsigned CharByteWidth) {
1200e5dd7070Spatrick void *Mem = Ctx.Allocate(totalSizeToAlloc<unsigned, SourceLocation, char>(
1201e5dd7070Spatrick 1, NumConcatenated, Length * CharByteWidth),
1202e5dd7070Spatrick alignof(StringLiteral));
1203e5dd7070Spatrick return new (Mem)
1204e5dd7070Spatrick StringLiteral(EmptyShell(), NumConcatenated, Length, CharByteWidth);
1205e5dd7070Spatrick }
1206e5dd7070Spatrick
outputString(raw_ostream & OS) const1207e5dd7070Spatrick void StringLiteral::outputString(raw_ostream &OS) const {
1208e5dd7070Spatrick switch (getKind()) {
1209*12c85518Srobert case Ordinary:
1210*12c85518Srobert break; // no prefix.
1211e5dd7070Spatrick case Wide: OS << 'L'; break;
1212e5dd7070Spatrick case UTF8: OS << "u8"; break;
1213e5dd7070Spatrick case UTF16: OS << 'u'; break;
1214e5dd7070Spatrick case UTF32: OS << 'U'; break;
1215e5dd7070Spatrick }
1216e5dd7070Spatrick OS << '"';
1217e5dd7070Spatrick static const char Hex[] = "0123456789ABCDEF";
1218e5dd7070Spatrick
1219e5dd7070Spatrick unsigned LastSlashX = getLength();
1220e5dd7070Spatrick for (unsigned I = 0, N = getLength(); I != N; ++I) {
1221*12c85518Srobert uint32_t Char = getCodeUnit(I);
1222*12c85518Srobert StringRef Escaped = escapeCStyle<EscapeChar::Double>(Char);
1223*12c85518Srobert if (Escaped.empty()) {
1224e5dd7070Spatrick // FIXME: Convert UTF-8 back to codepoints before rendering.
1225e5dd7070Spatrick
1226e5dd7070Spatrick // Convert UTF-16 surrogate pairs back to codepoints before rendering.
1227e5dd7070Spatrick // Leave invalid surrogates alone; we'll use \x for those.
1228e5dd7070Spatrick if (getKind() == UTF16 && I != N - 1 && Char >= 0xd800 &&
1229e5dd7070Spatrick Char <= 0xdbff) {
1230e5dd7070Spatrick uint32_t Trail = getCodeUnit(I + 1);
1231e5dd7070Spatrick if (Trail >= 0xdc00 && Trail <= 0xdfff) {
1232e5dd7070Spatrick Char = 0x10000 + ((Char - 0xd800) << 10) + (Trail - 0xdc00);
1233e5dd7070Spatrick ++I;
1234e5dd7070Spatrick }
1235e5dd7070Spatrick }
1236e5dd7070Spatrick
1237e5dd7070Spatrick if (Char > 0xff) {
1238e5dd7070Spatrick // If this is a wide string, output characters over 0xff using \x
1239e5dd7070Spatrick // escapes. Otherwise, this is a UTF-16 or UTF-32 string, and Char is a
1240e5dd7070Spatrick // codepoint: use \x escapes for invalid codepoints.
1241e5dd7070Spatrick if (getKind() == Wide ||
1242e5dd7070Spatrick (Char >= 0xd800 && Char <= 0xdfff) || Char >= 0x110000) {
1243e5dd7070Spatrick // FIXME: Is this the best way to print wchar_t?
1244e5dd7070Spatrick OS << "\\x";
1245e5dd7070Spatrick int Shift = 28;
1246e5dd7070Spatrick while ((Char >> Shift) == 0)
1247e5dd7070Spatrick Shift -= 4;
1248e5dd7070Spatrick for (/**/; Shift >= 0; Shift -= 4)
1249e5dd7070Spatrick OS << Hex[(Char >> Shift) & 15];
1250e5dd7070Spatrick LastSlashX = I;
1251*12c85518Srobert continue;
1252e5dd7070Spatrick }
1253e5dd7070Spatrick
1254e5dd7070Spatrick if (Char > 0xffff)
1255e5dd7070Spatrick OS << "\\U00"
1256e5dd7070Spatrick << Hex[(Char >> 20) & 15]
1257e5dd7070Spatrick << Hex[(Char >> 16) & 15];
1258e5dd7070Spatrick else
1259e5dd7070Spatrick OS << "\\u";
1260e5dd7070Spatrick OS << Hex[(Char >> 12) & 15]
1261e5dd7070Spatrick << Hex[(Char >> 8) & 15]
1262e5dd7070Spatrick << Hex[(Char >> 4) & 15]
1263e5dd7070Spatrick << Hex[(Char >> 0) & 15];
1264*12c85518Srobert continue;
1265e5dd7070Spatrick }
1266e5dd7070Spatrick
1267e5dd7070Spatrick // If we used \x... for the previous character, and this character is a
1268e5dd7070Spatrick // hexadecimal digit, prevent it being slurped as part of the \x.
1269e5dd7070Spatrick if (LastSlashX + 1 == I) {
1270e5dd7070Spatrick switch (Char) {
1271e5dd7070Spatrick case '0': case '1': case '2': case '3': case '4':
1272e5dd7070Spatrick case '5': case '6': case '7': case '8': case '9':
1273e5dd7070Spatrick case 'a': case 'b': case 'c': case 'd': case 'e': case 'f':
1274e5dd7070Spatrick case 'A': case 'B': case 'C': case 'D': case 'E': case 'F':
1275e5dd7070Spatrick OS << "\"\"";
1276e5dd7070Spatrick }
1277e5dd7070Spatrick }
1278e5dd7070Spatrick
1279e5dd7070Spatrick assert(Char <= 0xff &&
1280e5dd7070Spatrick "Characters above 0xff should already have been handled.");
1281e5dd7070Spatrick
1282e5dd7070Spatrick if (isPrintable(Char))
1283e5dd7070Spatrick OS << (char)Char;
1284e5dd7070Spatrick else // Output anything hard as an octal escape.
1285e5dd7070Spatrick OS << '\\'
1286e5dd7070Spatrick << (char)('0' + ((Char >> 6) & 7))
1287e5dd7070Spatrick << (char)('0' + ((Char >> 3) & 7))
1288e5dd7070Spatrick << (char)('0' + ((Char >> 0) & 7));
1289*12c85518Srobert } else {
1290e5dd7070Spatrick // Handle some common non-printable cases to make dumps prettier.
1291*12c85518Srobert OS << Escaped;
1292e5dd7070Spatrick }
1293e5dd7070Spatrick }
1294e5dd7070Spatrick OS << '"';
1295e5dd7070Spatrick }
1296e5dd7070Spatrick
1297e5dd7070Spatrick /// getLocationOfByte - Return a source location that points to the specified
1298e5dd7070Spatrick /// byte of this string literal.
1299e5dd7070Spatrick ///
1300e5dd7070Spatrick /// Strings are amazingly complex. They can be formed from multiple tokens and
1301e5dd7070Spatrick /// can have escape sequences in them in addition to the usual trigraph and
1302e5dd7070Spatrick /// escaped newline business. This routine handles this complexity.
1303e5dd7070Spatrick ///
1304e5dd7070Spatrick /// The *StartToken sets the first token to be searched in this function and
1305e5dd7070Spatrick /// the *StartTokenByteOffset is the byte offset of the first token. Before
1306e5dd7070Spatrick /// returning, it updates the *StartToken to the TokNo of the token being found
1307e5dd7070Spatrick /// and sets *StartTokenByteOffset to the byte offset of the token in the
1308e5dd7070Spatrick /// string.
1309e5dd7070Spatrick /// Using these two parameters can reduce the time complexity from O(n^2) to
1310e5dd7070Spatrick /// O(n) if one wants to get the location of byte for all the tokens in a
1311e5dd7070Spatrick /// string.
1312e5dd7070Spatrick ///
1313e5dd7070Spatrick SourceLocation
getLocationOfByte(unsigned ByteNo,const SourceManager & SM,const LangOptions & Features,const TargetInfo & Target,unsigned * StartToken,unsigned * StartTokenByteOffset) const1314e5dd7070Spatrick StringLiteral::getLocationOfByte(unsigned ByteNo, const SourceManager &SM,
1315e5dd7070Spatrick const LangOptions &Features,
1316e5dd7070Spatrick const TargetInfo &Target, unsigned *StartToken,
1317e5dd7070Spatrick unsigned *StartTokenByteOffset) const {
1318*12c85518Srobert assert((getKind() == StringLiteral::Ordinary ||
1319e5dd7070Spatrick getKind() == StringLiteral::UTF8) &&
1320e5dd7070Spatrick "Only narrow string literals are currently supported");
1321e5dd7070Spatrick
1322e5dd7070Spatrick // Loop over all of the tokens in this string until we find the one that
1323e5dd7070Spatrick // contains the byte we're looking for.
1324e5dd7070Spatrick unsigned TokNo = 0;
1325e5dd7070Spatrick unsigned StringOffset = 0;
1326e5dd7070Spatrick if (StartToken)
1327e5dd7070Spatrick TokNo = *StartToken;
1328e5dd7070Spatrick if (StartTokenByteOffset) {
1329e5dd7070Spatrick StringOffset = *StartTokenByteOffset;
1330e5dd7070Spatrick ByteNo -= StringOffset;
1331e5dd7070Spatrick }
1332*12c85518Srobert while (true) {
1333e5dd7070Spatrick assert(TokNo < getNumConcatenated() && "Invalid byte number!");
1334e5dd7070Spatrick SourceLocation StrTokLoc = getStrTokenLoc(TokNo);
1335e5dd7070Spatrick
1336e5dd7070Spatrick // Get the spelling of the string so that we can get the data that makes up
1337e5dd7070Spatrick // the string literal, not the identifier for the macro it is potentially
1338e5dd7070Spatrick // expanded through.
1339e5dd7070Spatrick SourceLocation StrTokSpellingLoc = SM.getSpellingLoc(StrTokLoc);
1340e5dd7070Spatrick
1341e5dd7070Spatrick // Re-lex the token to get its length and original spelling.
1342e5dd7070Spatrick std::pair<FileID, unsigned> LocInfo =
1343e5dd7070Spatrick SM.getDecomposedLoc(StrTokSpellingLoc);
1344e5dd7070Spatrick bool Invalid = false;
1345e5dd7070Spatrick StringRef Buffer = SM.getBufferData(LocInfo.first, &Invalid);
1346e5dd7070Spatrick if (Invalid) {
1347e5dd7070Spatrick if (StartTokenByteOffset != nullptr)
1348e5dd7070Spatrick *StartTokenByteOffset = StringOffset;
1349e5dd7070Spatrick if (StartToken != nullptr)
1350e5dd7070Spatrick *StartToken = TokNo;
1351e5dd7070Spatrick return StrTokSpellingLoc;
1352e5dd7070Spatrick }
1353e5dd7070Spatrick
1354e5dd7070Spatrick const char *StrData = Buffer.data()+LocInfo.second;
1355e5dd7070Spatrick
1356e5dd7070Spatrick // Create a lexer starting at the beginning of this token.
1357e5dd7070Spatrick Lexer TheLexer(SM.getLocForStartOfFile(LocInfo.first), Features,
1358e5dd7070Spatrick Buffer.begin(), StrData, Buffer.end());
1359e5dd7070Spatrick Token TheTok;
1360e5dd7070Spatrick TheLexer.LexFromRawLexer(TheTok);
1361e5dd7070Spatrick
1362e5dd7070Spatrick // Use the StringLiteralParser to compute the length of the string in bytes.
1363e5dd7070Spatrick StringLiteralParser SLP(TheTok, SM, Features, Target);
1364e5dd7070Spatrick unsigned TokNumBytes = SLP.GetStringLength();
1365e5dd7070Spatrick
1366e5dd7070Spatrick // If the byte is in this token, return the location of the byte.
1367e5dd7070Spatrick if (ByteNo < TokNumBytes ||
1368e5dd7070Spatrick (ByteNo == TokNumBytes && TokNo == getNumConcatenated() - 1)) {
1369e5dd7070Spatrick unsigned Offset = SLP.getOffsetOfStringByte(TheTok, ByteNo);
1370e5dd7070Spatrick
1371e5dd7070Spatrick // Now that we know the offset of the token in the spelling, use the
1372e5dd7070Spatrick // preprocessor to get the offset in the original source.
1373e5dd7070Spatrick if (StartTokenByteOffset != nullptr)
1374e5dd7070Spatrick *StartTokenByteOffset = StringOffset;
1375e5dd7070Spatrick if (StartToken != nullptr)
1376e5dd7070Spatrick *StartToken = TokNo;
1377e5dd7070Spatrick return Lexer::AdvanceToTokenCharacter(StrTokLoc, Offset, SM, Features);
1378e5dd7070Spatrick }
1379e5dd7070Spatrick
1380e5dd7070Spatrick // Move to the next string token.
1381e5dd7070Spatrick StringOffset += TokNumBytes;
1382e5dd7070Spatrick ++TokNo;
1383e5dd7070Spatrick ByteNo -= TokNumBytes;
1384e5dd7070Spatrick }
1385e5dd7070Spatrick }
1386e5dd7070Spatrick
1387e5dd7070Spatrick /// getOpcodeStr - Turn an Opcode enum value into the punctuation char it
1388e5dd7070Spatrick /// corresponds to, e.g. "sizeof" or "[pre]++".
getOpcodeStr(Opcode Op)1389e5dd7070Spatrick StringRef UnaryOperator::getOpcodeStr(Opcode Op) {
1390e5dd7070Spatrick switch (Op) {
1391e5dd7070Spatrick #define UNARY_OPERATION(Name, Spelling) case UO_##Name: return Spelling;
1392e5dd7070Spatrick #include "clang/AST/OperationKinds.def"
1393e5dd7070Spatrick }
1394e5dd7070Spatrick llvm_unreachable("Unknown unary operator");
1395e5dd7070Spatrick }
1396e5dd7070Spatrick
1397e5dd7070Spatrick UnaryOperatorKind
getOverloadedOpcode(OverloadedOperatorKind OO,bool Postfix)1398e5dd7070Spatrick UnaryOperator::getOverloadedOpcode(OverloadedOperatorKind OO, bool Postfix) {
1399e5dd7070Spatrick switch (OO) {
1400e5dd7070Spatrick default: llvm_unreachable("No unary operator for overloaded function");
1401e5dd7070Spatrick case OO_PlusPlus: return Postfix ? UO_PostInc : UO_PreInc;
1402e5dd7070Spatrick case OO_MinusMinus: return Postfix ? UO_PostDec : UO_PreDec;
1403e5dd7070Spatrick case OO_Amp: return UO_AddrOf;
1404e5dd7070Spatrick case OO_Star: return UO_Deref;
1405e5dd7070Spatrick case OO_Plus: return UO_Plus;
1406e5dd7070Spatrick case OO_Minus: return UO_Minus;
1407e5dd7070Spatrick case OO_Tilde: return UO_Not;
1408e5dd7070Spatrick case OO_Exclaim: return UO_LNot;
1409e5dd7070Spatrick case OO_Coawait: return UO_Coawait;
1410e5dd7070Spatrick }
1411e5dd7070Spatrick }
1412e5dd7070Spatrick
getOverloadedOperator(Opcode Opc)1413e5dd7070Spatrick OverloadedOperatorKind UnaryOperator::getOverloadedOperator(Opcode Opc) {
1414e5dd7070Spatrick switch (Opc) {
1415e5dd7070Spatrick case UO_PostInc: case UO_PreInc: return OO_PlusPlus;
1416e5dd7070Spatrick case UO_PostDec: case UO_PreDec: return OO_MinusMinus;
1417e5dd7070Spatrick case UO_AddrOf: return OO_Amp;
1418e5dd7070Spatrick case UO_Deref: return OO_Star;
1419e5dd7070Spatrick case UO_Plus: return OO_Plus;
1420e5dd7070Spatrick case UO_Minus: return OO_Minus;
1421e5dd7070Spatrick case UO_Not: return OO_Tilde;
1422e5dd7070Spatrick case UO_LNot: return OO_Exclaim;
1423e5dd7070Spatrick case UO_Coawait: return OO_Coawait;
1424e5dd7070Spatrick default: return OO_None;
1425e5dd7070Spatrick }
1426e5dd7070Spatrick }
1427e5dd7070Spatrick
1428e5dd7070Spatrick
1429e5dd7070Spatrick //===----------------------------------------------------------------------===//
1430e5dd7070Spatrick // Postfix Operators.
1431e5dd7070Spatrick //===----------------------------------------------------------------------===//
1432e5dd7070Spatrick
CallExpr(StmtClass SC,Expr * Fn,ArrayRef<Expr * > PreArgs,ArrayRef<Expr * > Args,QualType Ty,ExprValueKind VK,SourceLocation RParenLoc,FPOptionsOverride FPFeatures,unsigned MinNumArgs,ADLCallKind UsesADL)1433e5dd7070Spatrick CallExpr::CallExpr(StmtClass SC, Expr *Fn, ArrayRef<Expr *> PreArgs,
1434e5dd7070Spatrick ArrayRef<Expr *> Args, QualType Ty, ExprValueKind VK,
1435a9ac8606Spatrick SourceLocation RParenLoc, FPOptionsOverride FPFeatures,
1436a9ac8606Spatrick unsigned MinNumArgs, ADLCallKind UsesADL)
1437ec727ea7Spatrick : Expr(SC, Ty, VK, OK_Ordinary), RParenLoc(RParenLoc) {
1438e5dd7070Spatrick NumArgs = std::max<unsigned>(Args.size(), MinNumArgs);
1439e5dd7070Spatrick unsigned NumPreArgs = PreArgs.size();
1440e5dd7070Spatrick CallExprBits.NumPreArgs = NumPreArgs;
1441e5dd7070Spatrick assert((NumPreArgs == getNumPreArgs()) && "NumPreArgs overflow!");
1442e5dd7070Spatrick
1443e5dd7070Spatrick unsigned OffsetToTrailingObjects = offsetToTrailingObjects(SC);
1444e5dd7070Spatrick CallExprBits.OffsetToTrailingObjects = OffsetToTrailingObjects;
1445e5dd7070Spatrick assert((CallExprBits.OffsetToTrailingObjects == OffsetToTrailingObjects) &&
1446e5dd7070Spatrick "OffsetToTrailingObjects overflow!");
1447e5dd7070Spatrick
1448e5dd7070Spatrick CallExprBits.UsesADL = static_cast<bool>(UsesADL);
1449e5dd7070Spatrick
1450e5dd7070Spatrick setCallee(Fn);
1451ec727ea7Spatrick for (unsigned I = 0; I != NumPreArgs; ++I)
1452e5dd7070Spatrick setPreArg(I, PreArgs[I]);
1453ec727ea7Spatrick for (unsigned I = 0; I != Args.size(); ++I)
1454e5dd7070Spatrick setArg(I, Args[I]);
1455ec727ea7Spatrick for (unsigned I = Args.size(); I != NumArgs; ++I)
1456e5dd7070Spatrick setArg(I, nullptr);
1457ec727ea7Spatrick
1458a9ac8606Spatrick this->computeDependence();
1459a9ac8606Spatrick
1460a9ac8606Spatrick CallExprBits.HasFPFeatures = FPFeatures.requiresTrailingStorage();
1461a9ac8606Spatrick if (hasStoredFPFeatures())
1462a9ac8606Spatrick setStoredFPFeatures(FPFeatures);
1463e5dd7070Spatrick }
1464e5dd7070Spatrick
CallExpr(StmtClass SC,unsigned NumPreArgs,unsigned NumArgs,bool HasFPFeatures,EmptyShell Empty)1465e5dd7070Spatrick CallExpr::CallExpr(StmtClass SC, unsigned NumPreArgs, unsigned NumArgs,
1466a9ac8606Spatrick bool HasFPFeatures, EmptyShell Empty)
1467e5dd7070Spatrick : Expr(SC, Empty), NumArgs(NumArgs) {
1468e5dd7070Spatrick CallExprBits.NumPreArgs = NumPreArgs;
1469e5dd7070Spatrick assert((NumPreArgs == getNumPreArgs()) && "NumPreArgs overflow!");
1470e5dd7070Spatrick
1471e5dd7070Spatrick unsigned OffsetToTrailingObjects = offsetToTrailingObjects(SC);
1472e5dd7070Spatrick CallExprBits.OffsetToTrailingObjects = OffsetToTrailingObjects;
1473e5dd7070Spatrick assert((CallExprBits.OffsetToTrailingObjects == OffsetToTrailingObjects) &&
1474e5dd7070Spatrick "OffsetToTrailingObjects overflow!");
1475a9ac8606Spatrick CallExprBits.HasFPFeatures = HasFPFeatures;
1476e5dd7070Spatrick }
1477e5dd7070Spatrick
Create(const ASTContext & Ctx,Expr * Fn,ArrayRef<Expr * > Args,QualType Ty,ExprValueKind VK,SourceLocation RParenLoc,FPOptionsOverride FPFeatures,unsigned MinNumArgs,ADLCallKind UsesADL)1478e5dd7070Spatrick CallExpr *CallExpr::Create(const ASTContext &Ctx, Expr *Fn,
1479e5dd7070Spatrick ArrayRef<Expr *> Args, QualType Ty, ExprValueKind VK,
1480a9ac8606Spatrick SourceLocation RParenLoc,
1481a9ac8606Spatrick FPOptionsOverride FPFeatures, unsigned MinNumArgs,
1482e5dd7070Spatrick ADLCallKind UsesADL) {
1483e5dd7070Spatrick unsigned NumArgs = std::max<unsigned>(Args.size(), MinNumArgs);
1484a9ac8606Spatrick unsigned SizeOfTrailingObjects = CallExpr::sizeOfTrailingObjects(
1485a9ac8606Spatrick /*NumPreArgs=*/0, NumArgs, FPFeatures.requiresTrailingStorage());
1486e5dd7070Spatrick void *Mem =
1487e5dd7070Spatrick Ctx.Allocate(sizeof(CallExpr) + SizeOfTrailingObjects, alignof(CallExpr));
1488e5dd7070Spatrick return new (Mem) CallExpr(CallExprClass, Fn, /*PreArgs=*/{}, Args, Ty, VK,
1489a9ac8606Spatrick RParenLoc, FPFeatures, MinNumArgs, UsesADL);
1490e5dd7070Spatrick }
1491e5dd7070Spatrick
CreateTemporary(void * Mem,Expr * Fn,QualType Ty,ExprValueKind VK,SourceLocation RParenLoc,ADLCallKind UsesADL)1492e5dd7070Spatrick CallExpr *CallExpr::CreateTemporary(void *Mem, Expr *Fn, QualType Ty,
1493e5dd7070Spatrick ExprValueKind VK, SourceLocation RParenLoc,
1494e5dd7070Spatrick ADLCallKind UsesADL) {
1495e5dd7070Spatrick assert(!(reinterpret_cast<uintptr_t>(Mem) % alignof(CallExpr)) &&
1496e5dd7070Spatrick "Misaligned memory in CallExpr::CreateTemporary!");
1497e5dd7070Spatrick return new (Mem) CallExpr(CallExprClass, Fn, /*PreArgs=*/{}, /*Args=*/{}, Ty,
1498a9ac8606Spatrick VK, RParenLoc, FPOptionsOverride(),
1499ec727ea7Spatrick /*MinNumArgs=*/0, UsesADL);
1500e5dd7070Spatrick }
1501e5dd7070Spatrick
CreateEmpty(const ASTContext & Ctx,unsigned NumArgs,bool HasFPFeatures,EmptyShell Empty)1502e5dd7070Spatrick CallExpr *CallExpr::CreateEmpty(const ASTContext &Ctx, unsigned NumArgs,
1503a9ac8606Spatrick bool HasFPFeatures, EmptyShell Empty) {
1504e5dd7070Spatrick unsigned SizeOfTrailingObjects =
1505a9ac8606Spatrick CallExpr::sizeOfTrailingObjects(/*NumPreArgs=*/0, NumArgs, HasFPFeatures);
1506e5dd7070Spatrick void *Mem =
1507e5dd7070Spatrick Ctx.Allocate(sizeof(CallExpr) + SizeOfTrailingObjects, alignof(CallExpr));
1508a9ac8606Spatrick return new (Mem)
1509a9ac8606Spatrick CallExpr(CallExprClass, /*NumPreArgs=*/0, NumArgs, HasFPFeatures, Empty);
1510e5dd7070Spatrick }
1511e5dd7070Spatrick
offsetToTrailingObjects(StmtClass SC)1512e5dd7070Spatrick unsigned CallExpr::offsetToTrailingObjects(StmtClass SC) {
1513e5dd7070Spatrick switch (SC) {
1514e5dd7070Spatrick case CallExprClass:
1515e5dd7070Spatrick return sizeof(CallExpr);
1516e5dd7070Spatrick case CXXOperatorCallExprClass:
1517e5dd7070Spatrick return sizeof(CXXOperatorCallExpr);
1518e5dd7070Spatrick case CXXMemberCallExprClass:
1519e5dd7070Spatrick return sizeof(CXXMemberCallExpr);
1520e5dd7070Spatrick case UserDefinedLiteralClass:
1521e5dd7070Spatrick return sizeof(UserDefinedLiteral);
1522e5dd7070Spatrick case CUDAKernelCallExprClass:
1523e5dd7070Spatrick return sizeof(CUDAKernelCallExpr);
1524e5dd7070Spatrick default:
1525e5dd7070Spatrick llvm_unreachable("unexpected class deriving from CallExpr!");
1526e5dd7070Spatrick }
1527e5dd7070Spatrick }
1528e5dd7070Spatrick
getReferencedDeclOfCallee()1529e5dd7070Spatrick Decl *Expr::getReferencedDeclOfCallee() {
1530e5dd7070Spatrick Expr *CEE = IgnoreParenImpCasts();
1531e5dd7070Spatrick
1532ec727ea7Spatrick while (SubstNonTypeTemplateParmExpr *NTTP =
1533ec727ea7Spatrick dyn_cast<SubstNonTypeTemplateParmExpr>(CEE)) {
1534ec727ea7Spatrick CEE = NTTP->getReplacement()->IgnoreParenImpCasts();
1535e5dd7070Spatrick }
1536e5dd7070Spatrick
1537e5dd7070Spatrick // If we're calling a dereference, look at the pointer instead.
1538ec727ea7Spatrick while (true) {
1539e5dd7070Spatrick if (BinaryOperator *BO = dyn_cast<BinaryOperator>(CEE)) {
1540ec727ea7Spatrick if (BO->isPtrMemOp()) {
1541ec727ea7Spatrick CEE = BO->getRHS()->IgnoreParenImpCasts();
1542ec727ea7Spatrick continue;
1543e5dd7070Spatrick }
1544ec727ea7Spatrick } else if (UnaryOperator *UO = dyn_cast<UnaryOperator>(CEE)) {
1545ec727ea7Spatrick if (UO->getOpcode() == UO_Deref || UO->getOpcode() == UO_AddrOf ||
1546ec727ea7Spatrick UO->getOpcode() == UO_Plus) {
1547ec727ea7Spatrick CEE = UO->getSubExpr()->IgnoreParenImpCasts();
1548ec727ea7Spatrick continue;
1549ec727ea7Spatrick }
1550ec727ea7Spatrick }
1551ec727ea7Spatrick break;
1552ec727ea7Spatrick }
1553ec727ea7Spatrick
1554e5dd7070Spatrick if (DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(CEE))
1555e5dd7070Spatrick return DRE->getDecl();
1556e5dd7070Spatrick if (MemberExpr *ME = dyn_cast<MemberExpr>(CEE))
1557e5dd7070Spatrick return ME->getMemberDecl();
1558e5dd7070Spatrick if (auto *BE = dyn_cast<BlockExpr>(CEE))
1559e5dd7070Spatrick return BE->getBlockDecl();
1560e5dd7070Spatrick
1561e5dd7070Spatrick return nullptr;
1562e5dd7070Spatrick }
1563e5dd7070Spatrick
1564ec727ea7Spatrick /// If this is a call to a builtin, return the builtin ID. If not, return 0.
getBuiltinCallee() const1565e5dd7070Spatrick unsigned CallExpr::getBuiltinCallee() const {
1566*12c85518Srobert auto *FDecl = getDirectCallee();
1567ec727ea7Spatrick return FDecl ? FDecl->getBuiltinID() : 0;
1568e5dd7070Spatrick }
1569e5dd7070Spatrick
isUnevaluatedBuiltinCall(const ASTContext & Ctx) const1570e5dd7070Spatrick bool CallExpr::isUnevaluatedBuiltinCall(const ASTContext &Ctx) const {
1571e5dd7070Spatrick if (unsigned BI = getBuiltinCallee())
1572e5dd7070Spatrick return Ctx.BuiltinInfo.isUnevaluated(BI);
1573e5dd7070Spatrick return false;
1574e5dd7070Spatrick }
1575e5dd7070Spatrick
getCallReturnType(const ASTContext & Ctx) const1576e5dd7070Spatrick QualType CallExpr::getCallReturnType(const ASTContext &Ctx) const {
1577e5dd7070Spatrick const Expr *Callee = getCallee();
1578e5dd7070Spatrick QualType CalleeType = Callee->getType();
1579e5dd7070Spatrick if (const auto *FnTypePtr = CalleeType->getAs<PointerType>()) {
1580e5dd7070Spatrick CalleeType = FnTypePtr->getPointeeType();
1581e5dd7070Spatrick } else if (const auto *BPT = CalleeType->getAs<BlockPointerType>()) {
1582e5dd7070Spatrick CalleeType = BPT->getPointeeType();
1583e5dd7070Spatrick } else if (CalleeType->isSpecificPlaceholderType(BuiltinType::BoundMember)) {
1584e5dd7070Spatrick if (isa<CXXPseudoDestructorExpr>(Callee->IgnoreParens()))
1585e5dd7070Spatrick return Ctx.VoidTy;
1586e5dd7070Spatrick
1587a9ac8606Spatrick if (isa<UnresolvedMemberExpr>(Callee->IgnoreParens()))
1588a9ac8606Spatrick return Ctx.DependentTy;
1589a9ac8606Spatrick
1590e5dd7070Spatrick // This should never be overloaded and so should never return null.
1591e5dd7070Spatrick CalleeType = Expr::findBoundMemberType(Callee);
1592a9ac8606Spatrick assert(!CalleeType.isNull());
1593a9ac8606Spatrick } else if (CalleeType->isDependentType() ||
1594a9ac8606Spatrick CalleeType->isSpecificPlaceholderType(BuiltinType::Overload)) {
1595a9ac8606Spatrick return Ctx.DependentTy;
1596e5dd7070Spatrick }
1597e5dd7070Spatrick
1598e5dd7070Spatrick const FunctionType *FnType = CalleeType->castAs<FunctionType>();
1599e5dd7070Spatrick return FnType->getReturnType();
1600e5dd7070Spatrick }
1601e5dd7070Spatrick
getUnusedResultAttr(const ASTContext & Ctx) const1602e5dd7070Spatrick const Attr *CallExpr::getUnusedResultAttr(const ASTContext &Ctx) const {
1603e5dd7070Spatrick // If the return type is a struct, union, or enum that is marked nodiscard,
1604e5dd7070Spatrick // then return the return type attribute.
1605e5dd7070Spatrick if (const TagDecl *TD = getCallReturnType(Ctx)->getAsTagDecl())
1606e5dd7070Spatrick if (const auto *A = TD->getAttr<WarnUnusedResultAttr>())
1607e5dd7070Spatrick return A;
1608e5dd7070Spatrick
1609*12c85518Srobert for (const auto *TD = getCallReturnType(Ctx)->getAs<TypedefType>(); TD;
1610*12c85518Srobert TD = TD->desugar()->getAs<TypedefType>())
1611*12c85518Srobert if (const auto *A = TD->getDecl()->getAttr<WarnUnusedResultAttr>())
1612*12c85518Srobert return A;
1613*12c85518Srobert
1614e5dd7070Spatrick // Otherwise, see if the callee is marked nodiscard and return that attribute
1615e5dd7070Spatrick // instead.
1616e5dd7070Spatrick const Decl *D = getCalleeDecl();
1617e5dd7070Spatrick return D ? D->getAttr<WarnUnusedResultAttr>() : nullptr;
1618e5dd7070Spatrick }
1619e5dd7070Spatrick
getBeginLoc() const1620e5dd7070Spatrick SourceLocation CallExpr::getBeginLoc() const {
1621e5dd7070Spatrick if (isa<CXXOperatorCallExpr>(this))
1622e5dd7070Spatrick return cast<CXXOperatorCallExpr>(this)->getBeginLoc();
1623e5dd7070Spatrick
1624e5dd7070Spatrick SourceLocation begin = getCallee()->getBeginLoc();
1625e5dd7070Spatrick if (begin.isInvalid() && getNumArgs() > 0 && getArg(0))
1626e5dd7070Spatrick begin = getArg(0)->getBeginLoc();
1627e5dd7070Spatrick return begin;
1628e5dd7070Spatrick }
getEndLoc() const1629e5dd7070Spatrick SourceLocation CallExpr::getEndLoc() const {
1630e5dd7070Spatrick if (isa<CXXOperatorCallExpr>(this))
1631e5dd7070Spatrick return cast<CXXOperatorCallExpr>(this)->getEndLoc();
1632e5dd7070Spatrick
1633e5dd7070Spatrick SourceLocation end = getRParenLoc();
1634e5dd7070Spatrick if (end.isInvalid() && getNumArgs() > 0 && getArg(getNumArgs() - 1))
1635e5dd7070Spatrick end = getArg(getNumArgs() - 1)->getEndLoc();
1636e5dd7070Spatrick return end;
1637e5dd7070Spatrick }
1638e5dd7070Spatrick
Create(const ASTContext & C,QualType type,SourceLocation OperatorLoc,TypeSourceInfo * tsi,ArrayRef<OffsetOfNode> comps,ArrayRef<Expr * > exprs,SourceLocation RParenLoc)1639e5dd7070Spatrick OffsetOfExpr *OffsetOfExpr::Create(const ASTContext &C, QualType type,
1640e5dd7070Spatrick SourceLocation OperatorLoc,
1641e5dd7070Spatrick TypeSourceInfo *tsi,
1642e5dd7070Spatrick ArrayRef<OffsetOfNode> comps,
1643e5dd7070Spatrick ArrayRef<Expr*> exprs,
1644e5dd7070Spatrick SourceLocation RParenLoc) {
1645e5dd7070Spatrick void *Mem = C.Allocate(
1646e5dd7070Spatrick totalSizeToAlloc<OffsetOfNode, Expr *>(comps.size(), exprs.size()));
1647e5dd7070Spatrick
1648e5dd7070Spatrick return new (Mem) OffsetOfExpr(C, type, OperatorLoc, tsi, comps, exprs,
1649e5dd7070Spatrick RParenLoc);
1650e5dd7070Spatrick }
1651e5dd7070Spatrick
CreateEmpty(const ASTContext & C,unsigned numComps,unsigned numExprs)1652e5dd7070Spatrick OffsetOfExpr *OffsetOfExpr::CreateEmpty(const ASTContext &C,
1653e5dd7070Spatrick unsigned numComps, unsigned numExprs) {
1654e5dd7070Spatrick void *Mem =
1655e5dd7070Spatrick C.Allocate(totalSizeToAlloc<OffsetOfNode, Expr *>(numComps, numExprs));
1656e5dd7070Spatrick return new (Mem) OffsetOfExpr(numComps, numExprs);
1657e5dd7070Spatrick }
1658e5dd7070Spatrick
OffsetOfExpr(const ASTContext & C,QualType type,SourceLocation OperatorLoc,TypeSourceInfo * tsi,ArrayRef<OffsetOfNode> comps,ArrayRef<Expr * > exprs,SourceLocation RParenLoc)1659e5dd7070Spatrick OffsetOfExpr::OffsetOfExpr(const ASTContext &C, QualType type,
1660e5dd7070Spatrick SourceLocation OperatorLoc, TypeSourceInfo *tsi,
1661e5dd7070Spatrick ArrayRef<OffsetOfNode> comps, ArrayRef<Expr *> exprs,
1662e5dd7070Spatrick SourceLocation RParenLoc)
1663a9ac8606Spatrick : Expr(OffsetOfExprClass, type, VK_PRValue, OK_Ordinary),
1664e5dd7070Spatrick OperatorLoc(OperatorLoc), RParenLoc(RParenLoc), TSInfo(tsi),
1665ec727ea7Spatrick NumComps(comps.size()), NumExprs(exprs.size()) {
1666ec727ea7Spatrick for (unsigned i = 0; i != comps.size(); ++i)
1667e5dd7070Spatrick setComponent(i, comps[i]);
1668ec727ea7Spatrick for (unsigned i = 0; i != exprs.size(); ++i)
1669e5dd7070Spatrick setIndexExpr(i, exprs[i]);
1670ec727ea7Spatrick
1671ec727ea7Spatrick setDependence(computeDependence(this));
1672e5dd7070Spatrick }
1673e5dd7070Spatrick
getFieldName() const1674e5dd7070Spatrick IdentifierInfo *OffsetOfNode::getFieldName() const {
1675e5dd7070Spatrick assert(getKind() == Field || getKind() == Identifier);
1676e5dd7070Spatrick if (getKind() == Field)
1677e5dd7070Spatrick return getField()->getIdentifier();
1678e5dd7070Spatrick
1679e5dd7070Spatrick return reinterpret_cast<IdentifierInfo *> (Data & ~(uintptr_t)Mask);
1680e5dd7070Spatrick }
1681e5dd7070Spatrick
UnaryExprOrTypeTraitExpr(UnaryExprOrTypeTrait ExprKind,Expr * E,QualType resultType,SourceLocation op,SourceLocation rp)1682e5dd7070Spatrick UnaryExprOrTypeTraitExpr::UnaryExprOrTypeTraitExpr(
1683e5dd7070Spatrick UnaryExprOrTypeTrait ExprKind, Expr *E, QualType resultType,
1684e5dd7070Spatrick SourceLocation op, SourceLocation rp)
1685a9ac8606Spatrick : Expr(UnaryExprOrTypeTraitExprClass, resultType, VK_PRValue, OK_Ordinary),
1686e5dd7070Spatrick OpLoc(op), RParenLoc(rp) {
1687ec727ea7Spatrick assert(ExprKind <= UETT_Last && "invalid enum value!");
1688e5dd7070Spatrick UnaryExprOrTypeTraitExprBits.Kind = ExprKind;
1689ec727ea7Spatrick assert(static_cast<unsigned>(ExprKind) == UnaryExprOrTypeTraitExprBits.Kind &&
1690ec727ea7Spatrick "UnaryExprOrTypeTraitExprBits.Kind overflow!");
1691e5dd7070Spatrick UnaryExprOrTypeTraitExprBits.IsType = false;
1692e5dd7070Spatrick Argument.Ex = E;
1693ec727ea7Spatrick setDependence(computeDependence(this));
1694e5dd7070Spatrick }
1695e5dd7070Spatrick
MemberExpr(Expr * Base,bool IsArrow,SourceLocation OperatorLoc,ValueDecl * MemberDecl,const DeclarationNameInfo & NameInfo,QualType T,ExprValueKind VK,ExprObjectKind OK,NonOdrUseReason NOUR)1696e5dd7070Spatrick MemberExpr::MemberExpr(Expr *Base, bool IsArrow, SourceLocation OperatorLoc,
1697e5dd7070Spatrick ValueDecl *MemberDecl,
1698e5dd7070Spatrick const DeclarationNameInfo &NameInfo, QualType T,
1699e5dd7070Spatrick ExprValueKind VK, ExprObjectKind OK,
1700e5dd7070Spatrick NonOdrUseReason NOUR)
1701ec727ea7Spatrick : Expr(MemberExprClass, T, VK, OK), Base(Base), MemberDecl(MemberDecl),
1702ec727ea7Spatrick MemberDNLoc(NameInfo.getInfo()), MemberLoc(NameInfo.getLoc()) {
1703e5dd7070Spatrick assert(!NameInfo.getName() ||
1704e5dd7070Spatrick MemberDecl->getDeclName() == NameInfo.getName());
1705e5dd7070Spatrick MemberExprBits.IsArrow = IsArrow;
1706e5dd7070Spatrick MemberExprBits.HasQualifierOrFoundDecl = false;
1707e5dd7070Spatrick MemberExprBits.HasTemplateKWAndArgsInfo = false;
1708e5dd7070Spatrick MemberExprBits.HadMultipleCandidates = false;
1709e5dd7070Spatrick MemberExprBits.NonOdrUseReason = NOUR;
1710e5dd7070Spatrick MemberExprBits.OperatorLoc = OperatorLoc;
1711ec727ea7Spatrick setDependence(computeDependence(this));
1712e5dd7070Spatrick }
1713e5dd7070Spatrick
Create(const ASTContext & C,Expr * Base,bool IsArrow,SourceLocation OperatorLoc,NestedNameSpecifierLoc QualifierLoc,SourceLocation TemplateKWLoc,ValueDecl * MemberDecl,DeclAccessPair FoundDecl,DeclarationNameInfo NameInfo,const TemplateArgumentListInfo * TemplateArgs,QualType T,ExprValueKind VK,ExprObjectKind OK,NonOdrUseReason NOUR)1714e5dd7070Spatrick MemberExpr *MemberExpr::Create(
1715e5dd7070Spatrick const ASTContext &C, Expr *Base, bool IsArrow, SourceLocation OperatorLoc,
1716e5dd7070Spatrick NestedNameSpecifierLoc QualifierLoc, SourceLocation TemplateKWLoc,
1717e5dd7070Spatrick ValueDecl *MemberDecl, DeclAccessPair FoundDecl,
1718e5dd7070Spatrick DeclarationNameInfo NameInfo, const TemplateArgumentListInfo *TemplateArgs,
1719e5dd7070Spatrick QualType T, ExprValueKind VK, ExprObjectKind OK, NonOdrUseReason NOUR) {
1720e5dd7070Spatrick bool HasQualOrFound = QualifierLoc || FoundDecl.getDecl() != MemberDecl ||
1721e5dd7070Spatrick FoundDecl.getAccess() != MemberDecl->getAccess();
1722e5dd7070Spatrick bool HasTemplateKWAndArgsInfo = TemplateArgs || TemplateKWLoc.isValid();
1723e5dd7070Spatrick std::size_t Size =
1724e5dd7070Spatrick totalSizeToAlloc<MemberExprNameQualifier, ASTTemplateKWAndArgsInfo,
1725e5dd7070Spatrick TemplateArgumentLoc>(
1726e5dd7070Spatrick HasQualOrFound ? 1 : 0, HasTemplateKWAndArgsInfo ? 1 : 0,
1727e5dd7070Spatrick TemplateArgs ? TemplateArgs->size() : 0);
1728e5dd7070Spatrick
1729e5dd7070Spatrick void *Mem = C.Allocate(Size, alignof(MemberExpr));
1730e5dd7070Spatrick MemberExpr *E = new (Mem) MemberExpr(Base, IsArrow, OperatorLoc, MemberDecl,
1731e5dd7070Spatrick NameInfo, T, VK, OK, NOUR);
1732e5dd7070Spatrick
1733ec727ea7Spatrick // FIXME: remove remaining dependence computation to computeDependence().
1734ec727ea7Spatrick auto Deps = E->getDependence();
1735e5dd7070Spatrick if (HasQualOrFound) {
1736e5dd7070Spatrick // FIXME: Wrong. We should be looking at the member declaration we found.
1737ec727ea7Spatrick if (QualifierLoc && QualifierLoc.getNestedNameSpecifier()->isDependent())
1738ec727ea7Spatrick Deps |= ExprDependence::TypeValueInstantiation;
1739e5dd7070Spatrick else if (QualifierLoc &&
1740e5dd7070Spatrick QualifierLoc.getNestedNameSpecifier()->isInstantiationDependent())
1741ec727ea7Spatrick Deps |= ExprDependence::Instantiation;
1742e5dd7070Spatrick
1743e5dd7070Spatrick E->MemberExprBits.HasQualifierOrFoundDecl = true;
1744e5dd7070Spatrick
1745e5dd7070Spatrick MemberExprNameQualifier *NQ =
1746e5dd7070Spatrick E->getTrailingObjects<MemberExprNameQualifier>();
1747e5dd7070Spatrick NQ->QualifierLoc = QualifierLoc;
1748e5dd7070Spatrick NQ->FoundDecl = FoundDecl;
1749e5dd7070Spatrick }
1750e5dd7070Spatrick
1751e5dd7070Spatrick E->MemberExprBits.HasTemplateKWAndArgsInfo =
1752e5dd7070Spatrick TemplateArgs || TemplateKWLoc.isValid();
1753e5dd7070Spatrick
1754e5dd7070Spatrick if (TemplateArgs) {
1755ec727ea7Spatrick auto TemplateArgDeps = TemplateArgumentDependence::None;
1756e5dd7070Spatrick E->getTrailingObjects<ASTTemplateKWAndArgsInfo>()->initializeFrom(
1757e5dd7070Spatrick TemplateKWLoc, *TemplateArgs,
1758ec727ea7Spatrick E->getTrailingObjects<TemplateArgumentLoc>(), TemplateArgDeps);
1759ec727ea7Spatrick if (TemplateArgDeps & TemplateArgumentDependence::Instantiation)
1760ec727ea7Spatrick Deps |= ExprDependence::Instantiation;
1761e5dd7070Spatrick } else if (TemplateKWLoc.isValid()) {
1762e5dd7070Spatrick E->getTrailingObjects<ASTTemplateKWAndArgsInfo>()->initializeFrom(
1763e5dd7070Spatrick TemplateKWLoc);
1764e5dd7070Spatrick }
1765ec727ea7Spatrick E->setDependence(Deps);
1766e5dd7070Spatrick
1767e5dd7070Spatrick return E;
1768e5dd7070Spatrick }
1769e5dd7070Spatrick
CreateEmpty(const ASTContext & Context,bool HasQualifier,bool HasFoundDecl,bool HasTemplateKWAndArgsInfo,unsigned NumTemplateArgs)1770e5dd7070Spatrick MemberExpr *MemberExpr::CreateEmpty(const ASTContext &Context,
1771e5dd7070Spatrick bool HasQualifier, bool HasFoundDecl,
1772e5dd7070Spatrick bool HasTemplateKWAndArgsInfo,
1773e5dd7070Spatrick unsigned NumTemplateArgs) {
1774e5dd7070Spatrick assert((!NumTemplateArgs || HasTemplateKWAndArgsInfo) &&
1775e5dd7070Spatrick "template args but no template arg info?");
1776e5dd7070Spatrick bool HasQualOrFound = HasQualifier || HasFoundDecl;
1777e5dd7070Spatrick std::size_t Size =
1778e5dd7070Spatrick totalSizeToAlloc<MemberExprNameQualifier, ASTTemplateKWAndArgsInfo,
1779e5dd7070Spatrick TemplateArgumentLoc>(HasQualOrFound ? 1 : 0,
1780e5dd7070Spatrick HasTemplateKWAndArgsInfo ? 1 : 0,
1781e5dd7070Spatrick NumTemplateArgs);
1782e5dd7070Spatrick void *Mem = Context.Allocate(Size, alignof(MemberExpr));
1783e5dd7070Spatrick return new (Mem) MemberExpr(EmptyShell());
1784e5dd7070Spatrick }
1785e5dd7070Spatrick
setMemberDecl(ValueDecl * NewD)1786a9ac8606Spatrick void MemberExpr::setMemberDecl(ValueDecl *NewD) {
1787a9ac8606Spatrick MemberDecl = NewD;
1788a9ac8606Spatrick if (getType()->isUndeducedType())
1789a9ac8606Spatrick setType(NewD->getType());
1790a9ac8606Spatrick setDependence(computeDependence(this));
1791a9ac8606Spatrick }
1792a9ac8606Spatrick
getBeginLoc() const1793e5dd7070Spatrick SourceLocation MemberExpr::getBeginLoc() const {
1794e5dd7070Spatrick if (isImplicitAccess()) {
1795e5dd7070Spatrick if (hasQualifier())
1796e5dd7070Spatrick return getQualifierLoc().getBeginLoc();
1797e5dd7070Spatrick return MemberLoc;
1798e5dd7070Spatrick }
1799e5dd7070Spatrick
1800e5dd7070Spatrick // FIXME: We don't want this to happen. Rather, we should be able to
1801e5dd7070Spatrick // detect all kinds of implicit accesses more cleanly.
1802e5dd7070Spatrick SourceLocation BaseStartLoc = getBase()->getBeginLoc();
1803e5dd7070Spatrick if (BaseStartLoc.isValid())
1804e5dd7070Spatrick return BaseStartLoc;
1805e5dd7070Spatrick return MemberLoc;
1806e5dd7070Spatrick }
getEndLoc() const1807e5dd7070Spatrick SourceLocation MemberExpr::getEndLoc() const {
1808e5dd7070Spatrick SourceLocation EndLoc = getMemberNameInfo().getEndLoc();
1809e5dd7070Spatrick if (hasExplicitTemplateArgs())
1810e5dd7070Spatrick EndLoc = getRAngleLoc();
1811e5dd7070Spatrick else if (EndLoc.isInvalid())
1812e5dd7070Spatrick EndLoc = getBase()->getEndLoc();
1813e5dd7070Spatrick return EndLoc;
1814e5dd7070Spatrick }
1815e5dd7070Spatrick
CastConsistency() const1816e5dd7070Spatrick bool CastExpr::CastConsistency() const {
1817e5dd7070Spatrick switch (getCastKind()) {
1818e5dd7070Spatrick case CK_DerivedToBase:
1819e5dd7070Spatrick case CK_UncheckedDerivedToBase:
1820e5dd7070Spatrick case CK_DerivedToBaseMemberPointer:
1821e5dd7070Spatrick case CK_BaseToDerived:
1822e5dd7070Spatrick case CK_BaseToDerivedMemberPointer:
1823e5dd7070Spatrick assert(!path_empty() && "Cast kind should have a base path!");
1824e5dd7070Spatrick break;
1825e5dd7070Spatrick
1826e5dd7070Spatrick case CK_CPointerToObjCPointerCast:
1827e5dd7070Spatrick assert(getType()->isObjCObjectPointerType());
1828e5dd7070Spatrick assert(getSubExpr()->getType()->isPointerType());
1829e5dd7070Spatrick goto CheckNoBasePath;
1830e5dd7070Spatrick
1831e5dd7070Spatrick case CK_BlockPointerToObjCPointerCast:
1832e5dd7070Spatrick assert(getType()->isObjCObjectPointerType());
1833e5dd7070Spatrick assert(getSubExpr()->getType()->isBlockPointerType());
1834e5dd7070Spatrick goto CheckNoBasePath;
1835e5dd7070Spatrick
1836e5dd7070Spatrick case CK_ReinterpretMemberPointer:
1837e5dd7070Spatrick assert(getType()->isMemberPointerType());
1838e5dd7070Spatrick assert(getSubExpr()->getType()->isMemberPointerType());
1839e5dd7070Spatrick goto CheckNoBasePath;
1840e5dd7070Spatrick
1841e5dd7070Spatrick case CK_BitCast:
1842e5dd7070Spatrick // Arbitrary casts to C pointer types count as bitcasts.
1843e5dd7070Spatrick // Otherwise, we should only have block and ObjC pointer casts
1844e5dd7070Spatrick // here if they stay within the type kind.
1845e5dd7070Spatrick if (!getType()->isPointerType()) {
1846e5dd7070Spatrick assert(getType()->isObjCObjectPointerType() ==
1847e5dd7070Spatrick getSubExpr()->getType()->isObjCObjectPointerType());
1848e5dd7070Spatrick assert(getType()->isBlockPointerType() ==
1849e5dd7070Spatrick getSubExpr()->getType()->isBlockPointerType());
1850e5dd7070Spatrick }
1851e5dd7070Spatrick goto CheckNoBasePath;
1852e5dd7070Spatrick
1853e5dd7070Spatrick case CK_AnyPointerToBlockPointerCast:
1854e5dd7070Spatrick assert(getType()->isBlockPointerType());
1855e5dd7070Spatrick assert(getSubExpr()->getType()->isAnyPointerType() &&
1856e5dd7070Spatrick !getSubExpr()->getType()->isBlockPointerType());
1857e5dd7070Spatrick goto CheckNoBasePath;
1858e5dd7070Spatrick
1859e5dd7070Spatrick case CK_CopyAndAutoreleaseBlockObject:
1860e5dd7070Spatrick assert(getType()->isBlockPointerType());
1861e5dd7070Spatrick assert(getSubExpr()->getType()->isBlockPointerType());
1862e5dd7070Spatrick goto CheckNoBasePath;
1863e5dd7070Spatrick
1864e5dd7070Spatrick case CK_FunctionToPointerDecay:
1865e5dd7070Spatrick assert(getType()->isPointerType());
1866e5dd7070Spatrick assert(getSubExpr()->getType()->isFunctionType());
1867e5dd7070Spatrick goto CheckNoBasePath;
1868e5dd7070Spatrick
1869e5dd7070Spatrick case CK_AddressSpaceConversion: {
1870e5dd7070Spatrick auto Ty = getType();
1871e5dd7070Spatrick auto SETy = getSubExpr()->getType();
1872e5dd7070Spatrick assert(getValueKindForType(Ty) == Expr::getValueKindForType(SETy));
1873a9ac8606Spatrick if (isPRValue() && !Ty->isDependentType() && !SETy->isDependentType()) {
1874e5dd7070Spatrick Ty = Ty->getPointeeType();
1875e5dd7070Spatrick SETy = SETy->getPointeeType();
1876e5dd7070Spatrick }
1877ec727ea7Spatrick assert((Ty->isDependentType() || SETy->isDependentType()) ||
1878ec727ea7Spatrick (!Ty.isNull() && !SETy.isNull() &&
1879ec727ea7Spatrick Ty.getAddressSpace() != SETy.getAddressSpace()));
1880e5dd7070Spatrick goto CheckNoBasePath;
1881e5dd7070Spatrick }
1882e5dd7070Spatrick // These should not have an inheritance path.
1883e5dd7070Spatrick case CK_Dynamic:
1884e5dd7070Spatrick case CK_ToUnion:
1885e5dd7070Spatrick case CK_ArrayToPointerDecay:
1886e5dd7070Spatrick case CK_NullToMemberPointer:
1887e5dd7070Spatrick case CK_NullToPointer:
1888e5dd7070Spatrick case CK_ConstructorConversion:
1889e5dd7070Spatrick case CK_IntegralToPointer:
1890e5dd7070Spatrick case CK_PointerToIntegral:
1891e5dd7070Spatrick case CK_ToVoid:
1892e5dd7070Spatrick case CK_VectorSplat:
1893e5dd7070Spatrick case CK_IntegralCast:
1894e5dd7070Spatrick case CK_BooleanToSignedIntegral:
1895e5dd7070Spatrick case CK_IntegralToFloating:
1896e5dd7070Spatrick case CK_FloatingToIntegral:
1897e5dd7070Spatrick case CK_FloatingCast:
1898e5dd7070Spatrick case CK_ObjCObjectLValueCast:
1899e5dd7070Spatrick case CK_FloatingRealToComplex:
1900e5dd7070Spatrick case CK_FloatingComplexToReal:
1901e5dd7070Spatrick case CK_FloatingComplexCast:
1902e5dd7070Spatrick case CK_FloatingComplexToIntegralComplex:
1903e5dd7070Spatrick case CK_IntegralRealToComplex:
1904e5dd7070Spatrick case CK_IntegralComplexToReal:
1905e5dd7070Spatrick case CK_IntegralComplexCast:
1906e5dd7070Spatrick case CK_IntegralComplexToFloatingComplex:
1907e5dd7070Spatrick case CK_ARCProduceObject:
1908e5dd7070Spatrick case CK_ARCConsumeObject:
1909e5dd7070Spatrick case CK_ARCReclaimReturnedObject:
1910e5dd7070Spatrick case CK_ARCExtendBlockObject:
1911e5dd7070Spatrick case CK_ZeroToOCLOpaqueType:
1912e5dd7070Spatrick case CK_IntToOCLSampler:
1913a9ac8606Spatrick case CK_FloatingToFixedPoint:
1914a9ac8606Spatrick case CK_FixedPointToFloating:
1915e5dd7070Spatrick case CK_FixedPointCast:
1916e5dd7070Spatrick case CK_FixedPointToIntegral:
1917e5dd7070Spatrick case CK_IntegralToFixedPoint:
1918a9ac8606Spatrick case CK_MatrixCast:
1919e5dd7070Spatrick assert(!getType()->isBooleanType() && "unheralded conversion to bool");
1920e5dd7070Spatrick goto CheckNoBasePath;
1921e5dd7070Spatrick
1922e5dd7070Spatrick case CK_Dependent:
1923e5dd7070Spatrick case CK_LValueToRValue:
1924e5dd7070Spatrick case CK_NoOp:
1925e5dd7070Spatrick case CK_AtomicToNonAtomic:
1926e5dd7070Spatrick case CK_NonAtomicToAtomic:
1927e5dd7070Spatrick case CK_PointerToBoolean:
1928e5dd7070Spatrick case CK_IntegralToBoolean:
1929e5dd7070Spatrick case CK_FloatingToBoolean:
1930e5dd7070Spatrick case CK_MemberPointerToBoolean:
1931e5dd7070Spatrick case CK_FloatingComplexToBoolean:
1932e5dd7070Spatrick case CK_IntegralComplexToBoolean:
1933e5dd7070Spatrick case CK_LValueBitCast: // -> bool&
1934e5dd7070Spatrick case CK_LValueToRValueBitCast:
1935e5dd7070Spatrick case CK_UserDefinedConversion: // operator bool()
1936e5dd7070Spatrick case CK_BuiltinFnToFnPtr:
1937e5dd7070Spatrick case CK_FixedPointToBoolean:
1938e5dd7070Spatrick CheckNoBasePath:
1939e5dd7070Spatrick assert(path_empty() && "Cast kind should not have a base path!");
1940e5dd7070Spatrick break;
1941e5dd7070Spatrick }
1942e5dd7070Spatrick return true;
1943e5dd7070Spatrick }
1944e5dd7070Spatrick
getCastKindName(CastKind CK)1945e5dd7070Spatrick const char *CastExpr::getCastKindName(CastKind CK) {
1946e5dd7070Spatrick switch (CK) {
1947e5dd7070Spatrick #define CAST_OPERATION(Name) case CK_##Name: return #Name;
1948e5dd7070Spatrick #include "clang/AST/OperationKinds.def"
1949e5dd7070Spatrick }
1950e5dd7070Spatrick llvm_unreachable("Unhandled cast kind!");
1951e5dd7070Spatrick }
1952e5dd7070Spatrick
1953e5dd7070Spatrick namespace {
1954*12c85518Srobert // Skip over implicit nodes produced as part of semantic analysis.
1955*12c85518Srobert // Designed for use with IgnoreExprNodes.
ignoreImplicitSemaNodes(Expr * E)1956*12c85518Srobert Expr *ignoreImplicitSemaNodes(Expr *E) {
1957e5dd7070Spatrick if (auto *Materialize = dyn_cast<MaterializeTemporaryExpr>(E))
1958*12c85518Srobert return Materialize->getSubExpr();
1959e5dd7070Spatrick
1960e5dd7070Spatrick if (auto *Binder = dyn_cast<CXXBindTemporaryExpr>(E))
1961*12c85518Srobert return Binder->getSubExpr();
1962*12c85518Srobert
1963*12c85518Srobert if (auto *Full = dyn_cast<FullExpr>(E))
1964*12c85518Srobert return Full->getSubExpr();
1965*12c85518Srobert
1966*12c85518Srobert if (auto *CPLIE = dyn_cast<CXXParenListInitExpr>(E);
1967*12c85518Srobert CPLIE && CPLIE->getInitExprs().size() == 1)
1968*12c85518Srobert return CPLIE->getInitExprs()[0];
1969e5dd7070Spatrick
1970e5dd7070Spatrick return E;
1971e5dd7070Spatrick }
1972*12c85518Srobert } // namespace
1973e5dd7070Spatrick
getSubExprAsWritten()1974e5dd7070Spatrick Expr *CastExpr::getSubExprAsWritten() {
1975e5dd7070Spatrick const Expr *SubExpr = nullptr;
1976*12c85518Srobert
1977*12c85518Srobert for (const CastExpr *E = this; E; E = dyn_cast<ImplicitCastExpr>(SubExpr)) {
1978*12c85518Srobert SubExpr = IgnoreExprNodes(E->getSubExpr(), ignoreImplicitSemaNodes);
1979e5dd7070Spatrick
1980e5dd7070Spatrick // Conversions by constructor and conversion functions have a
1981e5dd7070Spatrick // subexpression describing the call; strip it off.
1982*12c85518Srobert if (E->getCastKind() == CK_ConstructorConversion) {
1983*12c85518Srobert SubExpr = IgnoreExprNodes(cast<CXXConstructExpr>(SubExpr)->getArg(0),
1984*12c85518Srobert ignoreImplicitSemaNodes);
1985*12c85518Srobert } else if (E->getCastKind() == CK_UserDefinedConversion) {
1986*12c85518Srobert assert((isa<CXXMemberCallExpr>(SubExpr) || isa<BlockExpr>(SubExpr)) &&
1987e5dd7070Spatrick "Unexpected SubExpr for CK_UserDefinedConversion.");
1988e5dd7070Spatrick if (auto *MCE = dyn_cast<CXXMemberCallExpr>(SubExpr))
1989e5dd7070Spatrick SubExpr = MCE->getImplicitObjectArgument();
1990e5dd7070Spatrick }
1991*12c85518Srobert }
1992e5dd7070Spatrick
1993e5dd7070Spatrick return const_cast<Expr *>(SubExpr);
1994e5dd7070Spatrick }
1995e5dd7070Spatrick
getConversionFunction() const1996e5dd7070Spatrick NamedDecl *CastExpr::getConversionFunction() const {
1997e5dd7070Spatrick const Expr *SubExpr = nullptr;
1998e5dd7070Spatrick
1999e5dd7070Spatrick for (const CastExpr *E = this; E; E = dyn_cast<ImplicitCastExpr>(SubExpr)) {
2000*12c85518Srobert SubExpr = IgnoreExprNodes(E->getSubExpr(), ignoreImplicitSemaNodes);
2001e5dd7070Spatrick
2002e5dd7070Spatrick if (E->getCastKind() == CK_ConstructorConversion)
2003e5dd7070Spatrick return cast<CXXConstructExpr>(SubExpr)->getConstructor();
2004e5dd7070Spatrick
2005e5dd7070Spatrick if (E->getCastKind() == CK_UserDefinedConversion) {
2006e5dd7070Spatrick if (auto *MCE = dyn_cast<CXXMemberCallExpr>(SubExpr))
2007e5dd7070Spatrick return MCE->getMethodDecl();
2008e5dd7070Spatrick }
2009e5dd7070Spatrick }
2010e5dd7070Spatrick
2011e5dd7070Spatrick return nullptr;
2012e5dd7070Spatrick }
2013e5dd7070Spatrick
path_buffer()2014e5dd7070Spatrick CXXBaseSpecifier **CastExpr::path_buffer() {
2015e5dd7070Spatrick switch (getStmtClass()) {
2016e5dd7070Spatrick #define ABSTRACT_STMT(x)
2017e5dd7070Spatrick #define CASTEXPR(Type, Base) \
2018e5dd7070Spatrick case Stmt::Type##Class: \
2019e5dd7070Spatrick return static_cast<Type *>(this)->getTrailingObjects<CXXBaseSpecifier *>();
2020e5dd7070Spatrick #define STMT(Type, Base)
2021e5dd7070Spatrick #include "clang/AST/StmtNodes.inc"
2022e5dd7070Spatrick default:
2023e5dd7070Spatrick llvm_unreachable("non-cast expressions not possible here");
2024e5dd7070Spatrick }
2025e5dd7070Spatrick }
2026e5dd7070Spatrick
getTargetFieldForToUnionCast(QualType unionType,QualType opType)2027e5dd7070Spatrick const FieldDecl *CastExpr::getTargetFieldForToUnionCast(QualType unionType,
2028e5dd7070Spatrick QualType opType) {
2029e5dd7070Spatrick auto RD = unionType->castAs<RecordType>()->getDecl();
2030e5dd7070Spatrick return getTargetFieldForToUnionCast(RD, opType);
2031e5dd7070Spatrick }
2032e5dd7070Spatrick
getTargetFieldForToUnionCast(const RecordDecl * RD,QualType OpType)2033e5dd7070Spatrick const FieldDecl *CastExpr::getTargetFieldForToUnionCast(const RecordDecl *RD,
2034e5dd7070Spatrick QualType OpType) {
2035e5dd7070Spatrick auto &Ctx = RD->getASTContext();
2036e5dd7070Spatrick RecordDecl::field_iterator Field, FieldEnd;
2037e5dd7070Spatrick for (Field = RD->field_begin(), FieldEnd = RD->field_end();
2038e5dd7070Spatrick Field != FieldEnd; ++Field) {
2039e5dd7070Spatrick if (Ctx.hasSameUnqualifiedType(Field->getType(), OpType) &&
2040e5dd7070Spatrick !Field->isUnnamedBitfield()) {
2041e5dd7070Spatrick return *Field;
2042e5dd7070Spatrick }
2043e5dd7070Spatrick }
2044e5dd7070Spatrick return nullptr;
2045e5dd7070Spatrick }
2046e5dd7070Spatrick
getTrailingFPFeatures()2047a9ac8606Spatrick FPOptionsOverride *CastExpr::getTrailingFPFeatures() {
2048a9ac8606Spatrick assert(hasStoredFPFeatures());
2049a9ac8606Spatrick switch (getStmtClass()) {
2050a9ac8606Spatrick case ImplicitCastExprClass:
2051a9ac8606Spatrick return static_cast<ImplicitCastExpr *>(this)
2052a9ac8606Spatrick ->getTrailingObjects<FPOptionsOverride>();
2053a9ac8606Spatrick case CStyleCastExprClass:
2054a9ac8606Spatrick return static_cast<CStyleCastExpr *>(this)
2055a9ac8606Spatrick ->getTrailingObjects<FPOptionsOverride>();
2056a9ac8606Spatrick case CXXFunctionalCastExprClass:
2057a9ac8606Spatrick return static_cast<CXXFunctionalCastExpr *>(this)
2058a9ac8606Spatrick ->getTrailingObjects<FPOptionsOverride>();
2059a9ac8606Spatrick case CXXStaticCastExprClass:
2060a9ac8606Spatrick return static_cast<CXXStaticCastExpr *>(this)
2061a9ac8606Spatrick ->getTrailingObjects<FPOptionsOverride>();
2062a9ac8606Spatrick default:
2063a9ac8606Spatrick llvm_unreachable("Cast does not have FPFeatures");
2064a9ac8606Spatrick }
2065a9ac8606Spatrick }
2066a9ac8606Spatrick
Create(const ASTContext & C,QualType T,CastKind Kind,Expr * Operand,const CXXCastPath * BasePath,ExprValueKind VK,FPOptionsOverride FPO)2067e5dd7070Spatrick ImplicitCastExpr *ImplicitCastExpr::Create(const ASTContext &C, QualType T,
2068e5dd7070Spatrick CastKind Kind, Expr *Operand,
2069e5dd7070Spatrick const CXXCastPath *BasePath,
2070a9ac8606Spatrick ExprValueKind VK,
2071a9ac8606Spatrick FPOptionsOverride FPO) {
2072e5dd7070Spatrick unsigned PathSize = (BasePath ? BasePath->size() : 0);
2073a9ac8606Spatrick void *Buffer =
2074a9ac8606Spatrick C.Allocate(totalSizeToAlloc<CXXBaseSpecifier *, FPOptionsOverride>(
2075a9ac8606Spatrick PathSize, FPO.requiresTrailingStorage()));
2076e5dd7070Spatrick // Per C++ [conv.lval]p3, lvalue-to-rvalue conversions on class and
2077e5dd7070Spatrick // std::nullptr_t have special semantics not captured by CK_LValueToRValue.
2078e5dd7070Spatrick assert((Kind != CK_LValueToRValue ||
2079e5dd7070Spatrick !(T->isNullPtrType() || T->getAsCXXRecordDecl())) &&
2080e5dd7070Spatrick "invalid type for lvalue-to-rvalue conversion");
2081e5dd7070Spatrick ImplicitCastExpr *E =
2082a9ac8606Spatrick new (Buffer) ImplicitCastExpr(T, Kind, Operand, PathSize, FPO, VK);
2083e5dd7070Spatrick if (PathSize)
2084e5dd7070Spatrick std::uninitialized_copy_n(BasePath->data(), BasePath->size(),
2085e5dd7070Spatrick E->getTrailingObjects<CXXBaseSpecifier *>());
2086e5dd7070Spatrick return E;
2087e5dd7070Spatrick }
2088e5dd7070Spatrick
CreateEmpty(const ASTContext & C,unsigned PathSize,bool HasFPFeatures)2089e5dd7070Spatrick ImplicitCastExpr *ImplicitCastExpr::CreateEmpty(const ASTContext &C,
2090a9ac8606Spatrick unsigned PathSize,
2091a9ac8606Spatrick bool HasFPFeatures) {
2092a9ac8606Spatrick void *Buffer =
2093a9ac8606Spatrick C.Allocate(totalSizeToAlloc<CXXBaseSpecifier *, FPOptionsOverride>(
2094a9ac8606Spatrick PathSize, HasFPFeatures));
2095a9ac8606Spatrick return new (Buffer) ImplicitCastExpr(EmptyShell(), PathSize, HasFPFeatures);
2096e5dd7070Spatrick }
2097e5dd7070Spatrick
Create(const ASTContext & C,QualType T,ExprValueKind VK,CastKind K,Expr * Op,const CXXCastPath * BasePath,FPOptionsOverride FPO,TypeSourceInfo * WrittenTy,SourceLocation L,SourceLocation R)2098e5dd7070Spatrick CStyleCastExpr *CStyleCastExpr::Create(const ASTContext &C, QualType T,
2099e5dd7070Spatrick ExprValueKind VK, CastKind K, Expr *Op,
2100e5dd7070Spatrick const CXXCastPath *BasePath,
2101a9ac8606Spatrick FPOptionsOverride FPO,
2102e5dd7070Spatrick TypeSourceInfo *WrittenTy,
2103e5dd7070Spatrick SourceLocation L, SourceLocation R) {
2104e5dd7070Spatrick unsigned PathSize = (BasePath ? BasePath->size() : 0);
2105a9ac8606Spatrick void *Buffer =
2106a9ac8606Spatrick C.Allocate(totalSizeToAlloc<CXXBaseSpecifier *, FPOptionsOverride>(
2107a9ac8606Spatrick PathSize, FPO.requiresTrailingStorage()));
2108e5dd7070Spatrick CStyleCastExpr *E =
2109a9ac8606Spatrick new (Buffer) CStyleCastExpr(T, VK, K, Op, PathSize, FPO, WrittenTy, L, R);
2110e5dd7070Spatrick if (PathSize)
2111e5dd7070Spatrick std::uninitialized_copy_n(BasePath->data(), BasePath->size(),
2112e5dd7070Spatrick E->getTrailingObjects<CXXBaseSpecifier *>());
2113e5dd7070Spatrick return E;
2114e5dd7070Spatrick }
2115e5dd7070Spatrick
CreateEmpty(const ASTContext & C,unsigned PathSize,bool HasFPFeatures)2116e5dd7070Spatrick CStyleCastExpr *CStyleCastExpr::CreateEmpty(const ASTContext &C,
2117a9ac8606Spatrick unsigned PathSize,
2118a9ac8606Spatrick bool HasFPFeatures) {
2119a9ac8606Spatrick void *Buffer =
2120a9ac8606Spatrick C.Allocate(totalSizeToAlloc<CXXBaseSpecifier *, FPOptionsOverride>(
2121a9ac8606Spatrick PathSize, HasFPFeatures));
2122a9ac8606Spatrick return new (Buffer) CStyleCastExpr(EmptyShell(), PathSize, HasFPFeatures);
2123e5dd7070Spatrick }
2124e5dd7070Spatrick
2125e5dd7070Spatrick /// getOpcodeStr - Turn an Opcode enum value into the punctuation char it
2126e5dd7070Spatrick /// corresponds to, e.g. "<<=".
getOpcodeStr(Opcode Op)2127e5dd7070Spatrick StringRef BinaryOperator::getOpcodeStr(Opcode Op) {
2128e5dd7070Spatrick switch (Op) {
2129e5dd7070Spatrick #define BINARY_OPERATION(Name, Spelling) case BO_##Name: return Spelling;
2130e5dd7070Spatrick #include "clang/AST/OperationKinds.def"
2131e5dd7070Spatrick }
2132e5dd7070Spatrick llvm_unreachable("Invalid OpCode!");
2133e5dd7070Spatrick }
2134e5dd7070Spatrick
2135e5dd7070Spatrick BinaryOperatorKind
getOverloadedOpcode(OverloadedOperatorKind OO)2136e5dd7070Spatrick BinaryOperator::getOverloadedOpcode(OverloadedOperatorKind OO) {
2137e5dd7070Spatrick switch (OO) {
2138e5dd7070Spatrick default: llvm_unreachable("Not an overloadable binary operator");
2139e5dd7070Spatrick case OO_Plus: return BO_Add;
2140e5dd7070Spatrick case OO_Minus: return BO_Sub;
2141e5dd7070Spatrick case OO_Star: return BO_Mul;
2142e5dd7070Spatrick case OO_Slash: return BO_Div;
2143e5dd7070Spatrick case OO_Percent: return BO_Rem;
2144e5dd7070Spatrick case OO_Caret: return BO_Xor;
2145e5dd7070Spatrick case OO_Amp: return BO_And;
2146e5dd7070Spatrick case OO_Pipe: return BO_Or;
2147e5dd7070Spatrick case OO_Equal: return BO_Assign;
2148e5dd7070Spatrick case OO_Spaceship: return BO_Cmp;
2149e5dd7070Spatrick case OO_Less: return BO_LT;
2150e5dd7070Spatrick case OO_Greater: return BO_GT;
2151e5dd7070Spatrick case OO_PlusEqual: return BO_AddAssign;
2152e5dd7070Spatrick case OO_MinusEqual: return BO_SubAssign;
2153e5dd7070Spatrick case OO_StarEqual: return BO_MulAssign;
2154e5dd7070Spatrick case OO_SlashEqual: return BO_DivAssign;
2155e5dd7070Spatrick case OO_PercentEqual: return BO_RemAssign;
2156e5dd7070Spatrick case OO_CaretEqual: return BO_XorAssign;
2157e5dd7070Spatrick case OO_AmpEqual: return BO_AndAssign;
2158e5dd7070Spatrick case OO_PipeEqual: return BO_OrAssign;
2159e5dd7070Spatrick case OO_LessLess: return BO_Shl;
2160e5dd7070Spatrick case OO_GreaterGreater: return BO_Shr;
2161e5dd7070Spatrick case OO_LessLessEqual: return BO_ShlAssign;
2162e5dd7070Spatrick case OO_GreaterGreaterEqual: return BO_ShrAssign;
2163e5dd7070Spatrick case OO_EqualEqual: return BO_EQ;
2164e5dd7070Spatrick case OO_ExclaimEqual: return BO_NE;
2165e5dd7070Spatrick case OO_LessEqual: return BO_LE;
2166e5dd7070Spatrick case OO_GreaterEqual: return BO_GE;
2167e5dd7070Spatrick case OO_AmpAmp: return BO_LAnd;
2168e5dd7070Spatrick case OO_PipePipe: return BO_LOr;
2169e5dd7070Spatrick case OO_Comma: return BO_Comma;
2170e5dd7070Spatrick case OO_ArrowStar: return BO_PtrMemI;
2171e5dd7070Spatrick }
2172e5dd7070Spatrick }
2173e5dd7070Spatrick
getOverloadedOperator(Opcode Opc)2174e5dd7070Spatrick OverloadedOperatorKind BinaryOperator::getOverloadedOperator(Opcode Opc) {
2175e5dd7070Spatrick static const OverloadedOperatorKind OverOps[] = {
2176e5dd7070Spatrick /* .* Cannot be overloaded */OO_None, OO_ArrowStar,
2177e5dd7070Spatrick OO_Star, OO_Slash, OO_Percent,
2178e5dd7070Spatrick OO_Plus, OO_Minus,
2179e5dd7070Spatrick OO_LessLess, OO_GreaterGreater,
2180e5dd7070Spatrick OO_Spaceship,
2181e5dd7070Spatrick OO_Less, OO_Greater, OO_LessEqual, OO_GreaterEqual,
2182e5dd7070Spatrick OO_EqualEqual, OO_ExclaimEqual,
2183e5dd7070Spatrick OO_Amp,
2184e5dd7070Spatrick OO_Caret,
2185e5dd7070Spatrick OO_Pipe,
2186e5dd7070Spatrick OO_AmpAmp,
2187e5dd7070Spatrick OO_PipePipe,
2188e5dd7070Spatrick OO_Equal, OO_StarEqual,
2189e5dd7070Spatrick OO_SlashEqual, OO_PercentEqual,
2190e5dd7070Spatrick OO_PlusEqual, OO_MinusEqual,
2191e5dd7070Spatrick OO_LessLessEqual, OO_GreaterGreaterEqual,
2192e5dd7070Spatrick OO_AmpEqual, OO_CaretEqual,
2193e5dd7070Spatrick OO_PipeEqual,
2194e5dd7070Spatrick OO_Comma
2195e5dd7070Spatrick };
2196e5dd7070Spatrick return OverOps[Opc];
2197e5dd7070Spatrick }
2198e5dd7070Spatrick
isNullPointerArithmeticExtension(ASTContext & Ctx,Opcode Opc,Expr * LHS,Expr * RHS)2199e5dd7070Spatrick bool BinaryOperator::isNullPointerArithmeticExtension(ASTContext &Ctx,
2200e5dd7070Spatrick Opcode Opc,
2201e5dd7070Spatrick Expr *LHS, Expr *RHS) {
2202e5dd7070Spatrick if (Opc != BO_Add)
2203e5dd7070Spatrick return false;
2204e5dd7070Spatrick
2205e5dd7070Spatrick // Check that we have one pointer and one integer operand.
2206e5dd7070Spatrick Expr *PExp;
2207e5dd7070Spatrick if (LHS->getType()->isPointerType()) {
2208e5dd7070Spatrick if (!RHS->getType()->isIntegerType())
2209e5dd7070Spatrick return false;
2210e5dd7070Spatrick PExp = LHS;
2211e5dd7070Spatrick } else if (RHS->getType()->isPointerType()) {
2212e5dd7070Spatrick if (!LHS->getType()->isIntegerType())
2213e5dd7070Spatrick return false;
2214e5dd7070Spatrick PExp = RHS;
2215e5dd7070Spatrick } else {
2216e5dd7070Spatrick return false;
2217e5dd7070Spatrick }
2218e5dd7070Spatrick
2219e5dd7070Spatrick // Check that the pointer is a nullptr.
2220e5dd7070Spatrick if (!PExp->IgnoreParenCasts()
2221e5dd7070Spatrick ->isNullPointerConstant(Ctx, Expr::NPC_ValueDependentIsNotNull))
2222e5dd7070Spatrick return false;
2223e5dd7070Spatrick
2224e5dd7070Spatrick // Check that the pointee type is char-sized.
2225e5dd7070Spatrick const PointerType *PTy = PExp->getType()->getAs<PointerType>();
2226e5dd7070Spatrick if (!PTy || !PTy->getPointeeType()->isCharType())
2227e5dd7070Spatrick return false;
2228e5dd7070Spatrick
2229e5dd7070Spatrick return true;
2230e5dd7070Spatrick }
2231e5dd7070Spatrick
SourceLocExpr(const ASTContext & Ctx,IdentKind Kind,QualType ResultTy,SourceLocation BLoc,SourceLocation RParenLoc,DeclContext * ParentContext)2232e5dd7070Spatrick SourceLocExpr::SourceLocExpr(const ASTContext &Ctx, IdentKind Kind,
2233*12c85518Srobert QualType ResultTy, SourceLocation BLoc,
2234*12c85518Srobert SourceLocation RParenLoc,
2235e5dd7070Spatrick DeclContext *ParentContext)
2236*12c85518Srobert : Expr(SourceLocExprClass, ResultTy, VK_PRValue, OK_Ordinary),
2237e5dd7070Spatrick BuiltinLoc(BLoc), RParenLoc(RParenLoc), ParentContext(ParentContext) {
2238e5dd7070Spatrick SourceLocExprBits.Kind = Kind;
2239ec727ea7Spatrick setDependence(ExprDependence::None);
2240e5dd7070Spatrick }
2241e5dd7070Spatrick
getBuiltinStr() const2242e5dd7070Spatrick StringRef SourceLocExpr::getBuiltinStr() const {
2243e5dd7070Spatrick switch (getIdentKind()) {
2244e5dd7070Spatrick case File:
2245e5dd7070Spatrick return "__builtin_FILE";
2246e5dd7070Spatrick case Function:
2247e5dd7070Spatrick return "__builtin_FUNCTION";
2248e5dd7070Spatrick case Line:
2249e5dd7070Spatrick return "__builtin_LINE";
2250e5dd7070Spatrick case Column:
2251e5dd7070Spatrick return "__builtin_COLUMN";
2252*12c85518Srobert case SourceLocStruct:
2253*12c85518Srobert return "__builtin_source_location";
2254e5dd7070Spatrick }
2255e5dd7070Spatrick llvm_unreachable("unexpected IdentKind!");
2256e5dd7070Spatrick }
2257e5dd7070Spatrick
EvaluateInContext(const ASTContext & Ctx,const Expr * DefaultExpr) const2258e5dd7070Spatrick APValue SourceLocExpr::EvaluateInContext(const ASTContext &Ctx,
2259e5dd7070Spatrick const Expr *DefaultExpr) const {
2260e5dd7070Spatrick SourceLocation Loc;
2261e5dd7070Spatrick const DeclContext *Context;
2262e5dd7070Spatrick
2263e5dd7070Spatrick std::tie(Loc,
2264e5dd7070Spatrick Context) = [&]() -> std::pair<SourceLocation, const DeclContext *> {
2265e5dd7070Spatrick if (auto *DIE = dyn_cast_or_null<CXXDefaultInitExpr>(DefaultExpr))
2266e5dd7070Spatrick return {DIE->getUsedLocation(), DIE->getUsedContext()};
2267e5dd7070Spatrick if (auto *DAE = dyn_cast_or_null<CXXDefaultArgExpr>(DefaultExpr))
2268e5dd7070Spatrick return {DAE->getUsedLocation(), DAE->getUsedContext()};
2269e5dd7070Spatrick return {this->getLocation(), this->getParentContext()};
2270e5dd7070Spatrick }();
2271e5dd7070Spatrick
2272e5dd7070Spatrick PresumedLoc PLoc = Ctx.getSourceManager().getPresumedLoc(
2273e5dd7070Spatrick Ctx.getSourceManager().getExpansionRange(Loc).getEnd());
2274e5dd7070Spatrick
2275e5dd7070Spatrick auto MakeStringLiteral = [&](StringRef Tmp) {
2276e5dd7070Spatrick using LValuePathEntry = APValue::LValuePathEntry;
2277e5dd7070Spatrick StringLiteral *Res = Ctx.getPredefinedStringLiteralFromCache(Tmp);
2278e5dd7070Spatrick // Decay the string to a pointer to the first character.
2279e5dd7070Spatrick LValuePathEntry Path[1] = {LValuePathEntry::ArrayIndex(0)};
2280e5dd7070Spatrick return APValue(Res, CharUnits::Zero(), Path, /*OnePastTheEnd=*/false);
2281e5dd7070Spatrick };
2282e5dd7070Spatrick
2283e5dd7070Spatrick switch (getIdentKind()) {
2284a9ac8606Spatrick case SourceLocExpr::File: {
2285a9ac8606Spatrick SmallString<256> Path(PLoc.getFilename());
2286*12c85518Srobert clang::Preprocessor::processPathForFileMacro(Path, Ctx.getLangOpts(),
2287*12c85518Srobert Ctx.getTargetInfo());
2288a9ac8606Spatrick return MakeStringLiteral(Path);
2289a9ac8606Spatrick }
2290e5dd7070Spatrick case SourceLocExpr::Function: {
2291*12c85518Srobert const auto *CurDecl = dyn_cast<Decl>(Context);
2292e5dd7070Spatrick return MakeStringLiteral(
2293e5dd7070Spatrick CurDecl ? PredefinedExpr::ComputeName(PredefinedExpr::Function, CurDecl)
2294e5dd7070Spatrick : std::string(""));
2295e5dd7070Spatrick }
2296e5dd7070Spatrick case SourceLocExpr::Line:
2297e5dd7070Spatrick case SourceLocExpr::Column: {
2298e5dd7070Spatrick llvm::APSInt IntVal(Ctx.getIntWidth(Ctx.UnsignedIntTy),
2299e5dd7070Spatrick /*isUnsigned=*/true);
2300e5dd7070Spatrick IntVal = getIdentKind() == SourceLocExpr::Line ? PLoc.getLine()
2301e5dd7070Spatrick : PLoc.getColumn();
2302e5dd7070Spatrick return APValue(IntVal);
2303e5dd7070Spatrick }
2304*12c85518Srobert case SourceLocExpr::SourceLocStruct: {
2305*12c85518Srobert // Fill in a std::source_location::__impl structure, by creating an
2306*12c85518Srobert // artificial file-scoped CompoundLiteralExpr, and returning a pointer to
2307*12c85518Srobert // that.
2308*12c85518Srobert const CXXRecordDecl *ImplDecl = getType()->getPointeeCXXRecordDecl();
2309*12c85518Srobert assert(ImplDecl);
2310*12c85518Srobert
2311*12c85518Srobert // Construct an APValue for the __impl struct, and get or create a Decl
2312*12c85518Srobert // corresponding to that. Note that we've already verified that the shape of
2313*12c85518Srobert // the ImplDecl type is as expected.
2314*12c85518Srobert
2315*12c85518Srobert APValue Value(APValue::UninitStruct(), 0, 4);
2316*12c85518Srobert for (FieldDecl *F : ImplDecl->fields()) {
2317*12c85518Srobert StringRef Name = F->getName();
2318*12c85518Srobert if (Name == "_M_file_name") {
2319*12c85518Srobert SmallString<256> Path(PLoc.getFilename());
2320*12c85518Srobert clang::Preprocessor::processPathForFileMacro(Path, Ctx.getLangOpts(),
2321*12c85518Srobert Ctx.getTargetInfo());
2322*12c85518Srobert Value.getStructField(F->getFieldIndex()) = MakeStringLiteral(Path);
2323*12c85518Srobert } else if (Name == "_M_function_name") {
2324*12c85518Srobert // Note: this emits the PrettyFunction name -- different than what
2325*12c85518Srobert // __builtin_FUNCTION() above returns!
2326*12c85518Srobert const auto *CurDecl = dyn_cast<Decl>(Context);
2327*12c85518Srobert Value.getStructField(F->getFieldIndex()) = MakeStringLiteral(
2328*12c85518Srobert CurDecl && !isa<TranslationUnitDecl>(CurDecl)
2329*12c85518Srobert ? StringRef(PredefinedExpr::ComputeName(
2330*12c85518Srobert PredefinedExpr::PrettyFunction, CurDecl))
2331*12c85518Srobert : "");
2332*12c85518Srobert } else if (Name == "_M_line") {
2333*12c85518Srobert QualType Ty = F->getType();
2334*12c85518Srobert llvm::APSInt IntVal(Ctx.getIntWidth(Ty),
2335*12c85518Srobert Ty->hasUnsignedIntegerRepresentation());
2336*12c85518Srobert IntVal = PLoc.getLine();
2337*12c85518Srobert Value.getStructField(F->getFieldIndex()) = APValue(IntVal);
2338*12c85518Srobert } else if (Name == "_M_column") {
2339*12c85518Srobert QualType Ty = F->getType();
2340*12c85518Srobert llvm::APSInt IntVal(Ctx.getIntWidth(Ty),
2341*12c85518Srobert Ty->hasUnsignedIntegerRepresentation());
2342*12c85518Srobert IntVal = PLoc.getColumn();
2343*12c85518Srobert Value.getStructField(F->getFieldIndex()) = APValue(IntVal);
2344*12c85518Srobert }
2345*12c85518Srobert }
2346*12c85518Srobert
2347*12c85518Srobert UnnamedGlobalConstantDecl *GV =
2348*12c85518Srobert Ctx.getUnnamedGlobalConstantDecl(getType()->getPointeeType(), Value);
2349*12c85518Srobert
2350*12c85518Srobert return APValue(GV, CharUnits::Zero(), ArrayRef<APValue::LValuePathEntry>{},
2351*12c85518Srobert false);
2352*12c85518Srobert }
2353e5dd7070Spatrick }
2354e5dd7070Spatrick llvm_unreachable("unhandled case");
2355e5dd7070Spatrick }
2356e5dd7070Spatrick
InitListExpr(const ASTContext & C,SourceLocation lbraceloc,ArrayRef<Expr * > initExprs,SourceLocation rbraceloc)2357e5dd7070Spatrick InitListExpr::InitListExpr(const ASTContext &C, SourceLocation lbraceloc,
2358e5dd7070Spatrick ArrayRef<Expr *> initExprs, SourceLocation rbraceloc)
2359a9ac8606Spatrick : Expr(InitListExprClass, QualType(), VK_PRValue, OK_Ordinary),
2360ec727ea7Spatrick InitExprs(C, initExprs.size()), LBraceLoc(lbraceloc),
2361ec727ea7Spatrick RBraceLoc(rbraceloc), AltForm(nullptr, true) {
2362e5dd7070Spatrick sawArrayRangeDesignator(false);
2363e5dd7070Spatrick InitExprs.insert(C, InitExprs.end(), initExprs.begin(), initExprs.end());
2364ec727ea7Spatrick
2365ec727ea7Spatrick setDependence(computeDependence(this));
2366e5dd7070Spatrick }
2367e5dd7070Spatrick
reserveInits(const ASTContext & C,unsigned NumInits)2368e5dd7070Spatrick void InitListExpr::reserveInits(const ASTContext &C, unsigned NumInits) {
2369e5dd7070Spatrick if (NumInits > InitExprs.size())
2370e5dd7070Spatrick InitExprs.reserve(C, NumInits);
2371e5dd7070Spatrick }
2372e5dd7070Spatrick
resizeInits(const ASTContext & C,unsigned NumInits)2373e5dd7070Spatrick void InitListExpr::resizeInits(const ASTContext &C, unsigned NumInits) {
2374e5dd7070Spatrick InitExprs.resize(C, NumInits, nullptr);
2375e5dd7070Spatrick }
2376e5dd7070Spatrick
updateInit(const ASTContext & C,unsigned Init,Expr * expr)2377e5dd7070Spatrick Expr *InitListExpr::updateInit(const ASTContext &C, unsigned Init, Expr *expr) {
2378e5dd7070Spatrick if (Init >= InitExprs.size()) {
2379e5dd7070Spatrick InitExprs.insert(C, InitExprs.end(), Init - InitExprs.size() + 1, nullptr);
2380e5dd7070Spatrick setInit(Init, expr);
2381e5dd7070Spatrick return nullptr;
2382e5dd7070Spatrick }
2383e5dd7070Spatrick
2384e5dd7070Spatrick Expr *Result = cast_or_null<Expr>(InitExprs[Init]);
2385e5dd7070Spatrick setInit(Init, expr);
2386e5dd7070Spatrick return Result;
2387e5dd7070Spatrick }
2388e5dd7070Spatrick
setArrayFiller(Expr * filler)2389e5dd7070Spatrick void InitListExpr::setArrayFiller(Expr *filler) {
2390e5dd7070Spatrick assert(!hasArrayFiller() && "Filler already set!");
2391e5dd7070Spatrick ArrayFillerOrUnionFieldInit = filler;
2392e5dd7070Spatrick // Fill out any "holes" in the array due to designated initializers.
2393e5dd7070Spatrick Expr **inits = getInits();
2394e5dd7070Spatrick for (unsigned i = 0, e = getNumInits(); i != e; ++i)
2395e5dd7070Spatrick if (inits[i] == nullptr)
2396e5dd7070Spatrick inits[i] = filler;
2397e5dd7070Spatrick }
2398e5dd7070Spatrick
isStringLiteralInit() const2399e5dd7070Spatrick bool InitListExpr::isStringLiteralInit() const {
2400e5dd7070Spatrick if (getNumInits() != 1)
2401e5dd7070Spatrick return false;
2402e5dd7070Spatrick const ArrayType *AT = getType()->getAsArrayTypeUnsafe();
2403e5dd7070Spatrick if (!AT || !AT->getElementType()->isIntegerType())
2404e5dd7070Spatrick return false;
2405e5dd7070Spatrick // It is possible for getInit() to return null.
2406e5dd7070Spatrick const Expr *Init = getInit(0);
2407e5dd7070Spatrick if (!Init)
2408e5dd7070Spatrick return false;
2409*12c85518Srobert Init = Init->IgnoreParenImpCasts();
2410e5dd7070Spatrick return isa<StringLiteral>(Init) || isa<ObjCEncodeExpr>(Init);
2411e5dd7070Spatrick }
2412e5dd7070Spatrick
isTransparent() const2413e5dd7070Spatrick bool InitListExpr::isTransparent() const {
2414e5dd7070Spatrick assert(isSemanticForm() && "syntactic form never semantically transparent");
2415e5dd7070Spatrick
2416e5dd7070Spatrick // A glvalue InitListExpr is always just sugar.
2417e5dd7070Spatrick if (isGLValue()) {
2418e5dd7070Spatrick assert(getNumInits() == 1 && "multiple inits in glvalue init list");
2419e5dd7070Spatrick return true;
2420e5dd7070Spatrick }
2421e5dd7070Spatrick
2422e5dd7070Spatrick // Otherwise, we're sugar if and only if we have exactly one initializer that
2423e5dd7070Spatrick // is of the same type.
2424e5dd7070Spatrick if (getNumInits() != 1 || !getInit(0))
2425e5dd7070Spatrick return false;
2426e5dd7070Spatrick
2427e5dd7070Spatrick // Don't confuse aggregate initialization of a struct X { X &x; }; with a
2428e5dd7070Spatrick // transparent struct copy.
2429a9ac8606Spatrick if (!getInit(0)->isPRValue() && getType()->isRecordType())
2430e5dd7070Spatrick return false;
2431e5dd7070Spatrick
2432e5dd7070Spatrick return getType().getCanonicalType() ==
2433e5dd7070Spatrick getInit(0)->getType().getCanonicalType();
2434e5dd7070Spatrick }
2435e5dd7070Spatrick
isIdiomaticZeroInitializer(const LangOptions & LangOpts) const2436e5dd7070Spatrick bool InitListExpr::isIdiomaticZeroInitializer(const LangOptions &LangOpts) const {
2437e5dd7070Spatrick assert(isSyntacticForm() && "only test syntactic form as zero initializer");
2438e5dd7070Spatrick
2439e5dd7070Spatrick if (LangOpts.CPlusPlus || getNumInits() != 1 || !getInit(0)) {
2440e5dd7070Spatrick return false;
2441e5dd7070Spatrick }
2442e5dd7070Spatrick
2443e5dd7070Spatrick const IntegerLiteral *Lit = dyn_cast<IntegerLiteral>(getInit(0)->IgnoreImplicit());
2444e5dd7070Spatrick return Lit && Lit->getValue() == 0;
2445e5dd7070Spatrick }
2446e5dd7070Spatrick
getBeginLoc() const2447e5dd7070Spatrick SourceLocation InitListExpr::getBeginLoc() const {
2448e5dd7070Spatrick if (InitListExpr *SyntacticForm = getSyntacticForm())
2449e5dd7070Spatrick return SyntacticForm->getBeginLoc();
2450e5dd7070Spatrick SourceLocation Beg = LBraceLoc;
2451e5dd7070Spatrick if (Beg.isInvalid()) {
2452e5dd7070Spatrick // Find the first non-null initializer.
2453e5dd7070Spatrick for (InitExprsTy::const_iterator I = InitExprs.begin(),
2454e5dd7070Spatrick E = InitExprs.end();
2455e5dd7070Spatrick I != E; ++I) {
2456e5dd7070Spatrick if (Stmt *S = *I) {
2457e5dd7070Spatrick Beg = S->getBeginLoc();
2458e5dd7070Spatrick break;
2459e5dd7070Spatrick }
2460e5dd7070Spatrick }
2461e5dd7070Spatrick }
2462e5dd7070Spatrick return Beg;
2463e5dd7070Spatrick }
2464e5dd7070Spatrick
getEndLoc() const2465e5dd7070Spatrick SourceLocation InitListExpr::getEndLoc() const {
2466e5dd7070Spatrick if (InitListExpr *SyntacticForm = getSyntacticForm())
2467e5dd7070Spatrick return SyntacticForm->getEndLoc();
2468e5dd7070Spatrick SourceLocation End = RBraceLoc;
2469e5dd7070Spatrick if (End.isInvalid()) {
2470e5dd7070Spatrick // Find the first non-null initializer from the end.
2471*12c85518Srobert for (Stmt *S : llvm::reverse(InitExprs)) {
2472*12c85518Srobert if (S) {
2473e5dd7070Spatrick End = S->getEndLoc();
2474e5dd7070Spatrick break;
2475e5dd7070Spatrick }
2476e5dd7070Spatrick }
2477e5dd7070Spatrick }
2478e5dd7070Spatrick return End;
2479e5dd7070Spatrick }
2480e5dd7070Spatrick
2481e5dd7070Spatrick /// getFunctionType - Return the underlying function type for this block.
2482e5dd7070Spatrick ///
getFunctionType() const2483e5dd7070Spatrick const FunctionProtoType *BlockExpr::getFunctionType() const {
2484e5dd7070Spatrick // The block pointer is never sugared, but the function type might be.
2485e5dd7070Spatrick return cast<BlockPointerType>(getType())
2486e5dd7070Spatrick ->getPointeeType()->castAs<FunctionProtoType>();
2487e5dd7070Spatrick }
2488e5dd7070Spatrick
getCaretLocation() const2489e5dd7070Spatrick SourceLocation BlockExpr::getCaretLocation() const {
2490e5dd7070Spatrick return TheBlock->getCaretLocation();
2491e5dd7070Spatrick }
getBody() const2492e5dd7070Spatrick const Stmt *BlockExpr::getBody() const {
2493e5dd7070Spatrick return TheBlock->getBody();
2494e5dd7070Spatrick }
getBody()2495e5dd7070Spatrick Stmt *BlockExpr::getBody() {
2496e5dd7070Spatrick return TheBlock->getBody();
2497e5dd7070Spatrick }
2498e5dd7070Spatrick
2499e5dd7070Spatrick
2500e5dd7070Spatrick //===----------------------------------------------------------------------===//
2501e5dd7070Spatrick // Generic Expression Routines
2502e5dd7070Spatrick //===----------------------------------------------------------------------===//
2503e5dd7070Spatrick
isReadIfDiscardedInCPlusPlus11() const2504ec727ea7Spatrick bool Expr::isReadIfDiscardedInCPlusPlus11() const {
2505ec727ea7Spatrick // In C++11, discarded-value expressions of a certain form are special,
2506ec727ea7Spatrick // according to [expr]p10:
2507ec727ea7Spatrick // The lvalue-to-rvalue conversion (4.1) is applied only if the
2508a9ac8606Spatrick // expression is a glvalue of volatile-qualified type and it has
2509ec727ea7Spatrick // one of the following forms:
2510ec727ea7Spatrick if (!isGLValue() || !getType().isVolatileQualified())
2511ec727ea7Spatrick return false;
2512ec727ea7Spatrick
2513ec727ea7Spatrick const Expr *E = IgnoreParens();
2514ec727ea7Spatrick
2515ec727ea7Spatrick // - id-expression (5.1.1),
2516ec727ea7Spatrick if (isa<DeclRefExpr>(E))
2517ec727ea7Spatrick return true;
2518ec727ea7Spatrick
2519ec727ea7Spatrick // - subscripting (5.2.1),
2520ec727ea7Spatrick if (isa<ArraySubscriptExpr>(E))
2521ec727ea7Spatrick return true;
2522ec727ea7Spatrick
2523ec727ea7Spatrick // - class member access (5.2.5),
2524ec727ea7Spatrick if (isa<MemberExpr>(E))
2525ec727ea7Spatrick return true;
2526ec727ea7Spatrick
2527ec727ea7Spatrick // - indirection (5.3.1),
2528ec727ea7Spatrick if (auto *UO = dyn_cast<UnaryOperator>(E))
2529ec727ea7Spatrick if (UO->getOpcode() == UO_Deref)
2530ec727ea7Spatrick return true;
2531ec727ea7Spatrick
2532ec727ea7Spatrick if (auto *BO = dyn_cast<BinaryOperator>(E)) {
2533ec727ea7Spatrick // - pointer-to-member operation (5.5),
2534ec727ea7Spatrick if (BO->isPtrMemOp())
2535ec727ea7Spatrick return true;
2536ec727ea7Spatrick
2537ec727ea7Spatrick // - comma expression (5.18) where the right operand is one of the above.
2538ec727ea7Spatrick if (BO->getOpcode() == BO_Comma)
2539ec727ea7Spatrick return BO->getRHS()->isReadIfDiscardedInCPlusPlus11();
2540ec727ea7Spatrick }
2541ec727ea7Spatrick
2542ec727ea7Spatrick // - conditional expression (5.16) where both the second and the third
2543ec727ea7Spatrick // operands are one of the above, or
2544ec727ea7Spatrick if (auto *CO = dyn_cast<ConditionalOperator>(E))
2545ec727ea7Spatrick return CO->getTrueExpr()->isReadIfDiscardedInCPlusPlus11() &&
2546ec727ea7Spatrick CO->getFalseExpr()->isReadIfDiscardedInCPlusPlus11();
2547ec727ea7Spatrick // The related edge case of "*x ?: *x".
2548ec727ea7Spatrick if (auto *BCO =
2549ec727ea7Spatrick dyn_cast<BinaryConditionalOperator>(E)) {
2550ec727ea7Spatrick if (auto *OVE = dyn_cast<OpaqueValueExpr>(BCO->getTrueExpr()))
2551ec727ea7Spatrick return OVE->getSourceExpr()->isReadIfDiscardedInCPlusPlus11() &&
2552ec727ea7Spatrick BCO->getFalseExpr()->isReadIfDiscardedInCPlusPlus11();
2553ec727ea7Spatrick }
2554ec727ea7Spatrick
2555ec727ea7Spatrick // Objective-C++ extensions to the rule.
2556*12c85518Srobert if (isa<ObjCIvarRefExpr>(E))
2557ec727ea7Spatrick return true;
2558*12c85518Srobert if (const auto *POE = dyn_cast<PseudoObjectExpr>(E)) {
2559*12c85518Srobert if (isa<ObjCPropertyRefExpr, ObjCSubscriptRefExpr>(POE->getSyntacticForm()))
2560*12c85518Srobert return true;
2561*12c85518Srobert }
2562ec727ea7Spatrick
2563ec727ea7Spatrick return false;
2564ec727ea7Spatrick }
2565ec727ea7Spatrick
2566e5dd7070Spatrick /// isUnusedResultAWarning - Return true if this immediate expression should
2567e5dd7070Spatrick /// be warned about if the result is unused. If so, fill in Loc and Ranges
2568e5dd7070Spatrick /// with location to warn on and the source range[s] to report with the
2569e5dd7070Spatrick /// warning.
isUnusedResultAWarning(const Expr * & WarnE,SourceLocation & Loc,SourceRange & R1,SourceRange & R2,ASTContext & Ctx) const2570e5dd7070Spatrick bool Expr::isUnusedResultAWarning(const Expr *&WarnE, SourceLocation &Loc,
2571e5dd7070Spatrick SourceRange &R1, SourceRange &R2,
2572e5dd7070Spatrick ASTContext &Ctx) const {
2573e5dd7070Spatrick // Don't warn if the expr is type dependent. The type could end up
2574e5dd7070Spatrick // instantiating to void.
2575e5dd7070Spatrick if (isTypeDependent())
2576e5dd7070Spatrick return false;
2577e5dd7070Spatrick
2578e5dd7070Spatrick switch (getStmtClass()) {
2579e5dd7070Spatrick default:
2580e5dd7070Spatrick if (getType()->isVoidType())
2581e5dd7070Spatrick return false;
2582e5dd7070Spatrick WarnE = this;
2583e5dd7070Spatrick Loc = getExprLoc();
2584e5dd7070Spatrick R1 = getSourceRange();
2585e5dd7070Spatrick return true;
2586e5dd7070Spatrick case ParenExprClass:
2587e5dd7070Spatrick return cast<ParenExpr>(this)->getSubExpr()->
2588e5dd7070Spatrick isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2589e5dd7070Spatrick case GenericSelectionExprClass:
2590e5dd7070Spatrick return cast<GenericSelectionExpr>(this)->getResultExpr()->
2591e5dd7070Spatrick isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2592e5dd7070Spatrick case CoawaitExprClass:
2593e5dd7070Spatrick case CoyieldExprClass:
2594e5dd7070Spatrick return cast<CoroutineSuspendExpr>(this)->getResumeExpr()->
2595e5dd7070Spatrick isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2596e5dd7070Spatrick case ChooseExprClass:
2597e5dd7070Spatrick return cast<ChooseExpr>(this)->getChosenSubExpr()->
2598e5dd7070Spatrick isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2599e5dd7070Spatrick case UnaryOperatorClass: {
2600e5dd7070Spatrick const UnaryOperator *UO = cast<UnaryOperator>(this);
2601e5dd7070Spatrick
2602e5dd7070Spatrick switch (UO->getOpcode()) {
2603e5dd7070Spatrick case UO_Plus:
2604e5dd7070Spatrick case UO_Minus:
2605e5dd7070Spatrick case UO_AddrOf:
2606e5dd7070Spatrick case UO_Not:
2607e5dd7070Spatrick case UO_LNot:
2608e5dd7070Spatrick case UO_Deref:
2609e5dd7070Spatrick break;
2610e5dd7070Spatrick case UO_Coawait:
2611e5dd7070Spatrick // This is just the 'operator co_await' call inside the guts of a
2612e5dd7070Spatrick // dependent co_await call.
2613e5dd7070Spatrick case UO_PostInc:
2614e5dd7070Spatrick case UO_PostDec:
2615e5dd7070Spatrick case UO_PreInc:
2616e5dd7070Spatrick case UO_PreDec: // ++/--
2617e5dd7070Spatrick return false; // Not a warning.
2618e5dd7070Spatrick case UO_Real:
2619e5dd7070Spatrick case UO_Imag:
2620e5dd7070Spatrick // accessing a piece of a volatile complex is a side-effect.
2621e5dd7070Spatrick if (Ctx.getCanonicalType(UO->getSubExpr()->getType())
2622e5dd7070Spatrick .isVolatileQualified())
2623e5dd7070Spatrick return false;
2624e5dd7070Spatrick break;
2625e5dd7070Spatrick case UO_Extension:
2626e5dd7070Spatrick return UO->getSubExpr()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2627e5dd7070Spatrick }
2628e5dd7070Spatrick WarnE = this;
2629e5dd7070Spatrick Loc = UO->getOperatorLoc();
2630e5dd7070Spatrick R1 = UO->getSubExpr()->getSourceRange();
2631e5dd7070Spatrick return true;
2632e5dd7070Spatrick }
2633e5dd7070Spatrick case BinaryOperatorClass: {
2634e5dd7070Spatrick const BinaryOperator *BO = cast<BinaryOperator>(this);
2635e5dd7070Spatrick switch (BO->getOpcode()) {
2636e5dd7070Spatrick default:
2637e5dd7070Spatrick break;
2638e5dd7070Spatrick // Consider the RHS of comma for side effects. LHS was checked by
2639e5dd7070Spatrick // Sema::CheckCommaOperands.
2640e5dd7070Spatrick case BO_Comma:
2641e5dd7070Spatrick // ((foo = <blah>), 0) is an idiom for hiding the result (and
2642e5dd7070Spatrick // lvalue-ness) of an assignment written in a macro.
2643e5dd7070Spatrick if (IntegerLiteral *IE =
2644e5dd7070Spatrick dyn_cast<IntegerLiteral>(BO->getRHS()->IgnoreParens()))
2645e5dd7070Spatrick if (IE->getValue() == 0)
2646e5dd7070Spatrick return false;
2647e5dd7070Spatrick return BO->getRHS()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2648e5dd7070Spatrick // Consider '||', '&&' to have side effects if the LHS or RHS does.
2649e5dd7070Spatrick case BO_LAnd:
2650e5dd7070Spatrick case BO_LOr:
2651e5dd7070Spatrick if (!BO->getLHS()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx) ||
2652e5dd7070Spatrick !BO->getRHS()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx))
2653e5dd7070Spatrick return false;
2654e5dd7070Spatrick break;
2655e5dd7070Spatrick }
2656e5dd7070Spatrick if (BO->isAssignmentOp())
2657e5dd7070Spatrick return false;
2658e5dd7070Spatrick WarnE = this;
2659e5dd7070Spatrick Loc = BO->getOperatorLoc();
2660e5dd7070Spatrick R1 = BO->getLHS()->getSourceRange();
2661e5dd7070Spatrick R2 = BO->getRHS()->getSourceRange();
2662e5dd7070Spatrick return true;
2663e5dd7070Spatrick }
2664e5dd7070Spatrick case CompoundAssignOperatorClass:
2665e5dd7070Spatrick case VAArgExprClass:
2666e5dd7070Spatrick case AtomicExprClass:
2667e5dd7070Spatrick return false;
2668e5dd7070Spatrick
2669e5dd7070Spatrick case ConditionalOperatorClass: {
2670e5dd7070Spatrick // If only one of the LHS or RHS is a warning, the operator might
2671e5dd7070Spatrick // be being used for control flow. Only warn if both the LHS and
2672e5dd7070Spatrick // RHS are warnings.
2673e5dd7070Spatrick const auto *Exp = cast<ConditionalOperator>(this);
2674e5dd7070Spatrick return Exp->getLHS()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx) &&
2675e5dd7070Spatrick Exp->getRHS()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2676e5dd7070Spatrick }
2677e5dd7070Spatrick case BinaryConditionalOperatorClass: {
2678e5dd7070Spatrick const auto *Exp = cast<BinaryConditionalOperator>(this);
2679e5dd7070Spatrick return Exp->getFalseExpr()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2680e5dd7070Spatrick }
2681e5dd7070Spatrick
2682e5dd7070Spatrick case MemberExprClass:
2683e5dd7070Spatrick WarnE = this;
2684e5dd7070Spatrick Loc = cast<MemberExpr>(this)->getMemberLoc();
2685e5dd7070Spatrick R1 = SourceRange(Loc, Loc);
2686e5dd7070Spatrick R2 = cast<MemberExpr>(this)->getBase()->getSourceRange();
2687e5dd7070Spatrick return true;
2688e5dd7070Spatrick
2689e5dd7070Spatrick case ArraySubscriptExprClass:
2690e5dd7070Spatrick WarnE = this;
2691e5dd7070Spatrick Loc = cast<ArraySubscriptExpr>(this)->getRBracketLoc();
2692e5dd7070Spatrick R1 = cast<ArraySubscriptExpr>(this)->getLHS()->getSourceRange();
2693e5dd7070Spatrick R2 = cast<ArraySubscriptExpr>(this)->getRHS()->getSourceRange();
2694e5dd7070Spatrick return true;
2695e5dd7070Spatrick
2696e5dd7070Spatrick case CXXOperatorCallExprClass: {
2697e5dd7070Spatrick // Warn about operator ==,!=,<,>,<=, and >= even when user-defined operator
2698e5dd7070Spatrick // overloads as there is no reasonable way to define these such that they
2699e5dd7070Spatrick // have non-trivial, desirable side-effects. See the -Wunused-comparison
2700e5dd7070Spatrick // warning: operators == and != are commonly typo'ed, and so warning on them
2701e5dd7070Spatrick // provides additional value as well. If this list is updated,
2702e5dd7070Spatrick // DiagnoseUnusedComparison should be as well.
2703e5dd7070Spatrick const CXXOperatorCallExpr *Op = cast<CXXOperatorCallExpr>(this);
2704e5dd7070Spatrick switch (Op->getOperator()) {
2705e5dd7070Spatrick default:
2706e5dd7070Spatrick break;
2707e5dd7070Spatrick case OO_EqualEqual:
2708e5dd7070Spatrick case OO_ExclaimEqual:
2709e5dd7070Spatrick case OO_Less:
2710e5dd7070Spatrick case OO_Greater:
2711e5dd7070Spatrick case OO_GreaterEqual:
2712e5dd7070Spatrick case OO_LessEqual:
2713e5dd7070Spatrick if (Op->getCallReturnType(Ctx)->isReferenceType() ||
2714e5dd7070Spatrick Op->getCallReturnType(Ctx)->isVoidType())
2715e5dd7070Spatrick break;
2716e5dd7070Spatrick WarnE = this;
2717e5dd7070Spatrick Loc = Op->getOperatorLoc();
2718e5dd7070Spatrick R1 = Op->getSourceRange();
2719e5dd7070Spatrick return true;
2720e5dd7070Spatrick }
2721e5dd7070Spatrick
2722e5dd7070Spatrick // Fallthrough for generic call handling.
2723*12c85518Srobert [[fallthrough]];
2724e5dd7070Spatrick }
2725e5dd7070Spatrick case CallExprClass:
2726e5dd7070Spatrick case CXXMemberCallExprClass:
2727e5dd7070Spatrick case UserDefinedLiteralClass: {
2728e5dd7070Spatrick // If this is a direct call, get the callee.
2729e5dd7070Spatrick const CallExpr *CE = cast<CallExpr>(this);
2730e5dd7070Spatrick if (const Decl *FD = CE->getCalleeDecl()) {
2731e5dd7070Spatrick // If the callee has attribute pure, const, or warn_unused_result, warn
2732e5dd7070Spatrick // about it. void foo() { strlen("bar"); } should warn.
2733e5dd7070Spatrick //
2734e5dd7070Spatrick // Note: If new cases are added here, DiagnoseUnusedExprResult should be
2735e5dd7070Spatrick // updated to match for QoI.
2736e5dd7070Spatrick if (CE->hasUnusedResultAttr(Ctx) ||
2737e5dd7070Spatrick FD->hasAttr<PureAttr>() || FD->hasAttr<ConstAttr>()) {
2738e5dd7070Spatrick WarnE = this;
2739e5dd7070Spatrick Loc = CE->getCallee()->getBeginLoc();
2740e5dd7070Spatrick R1 = CE->getCallee()->getSourceRange();
2741e5dd7070Spatrick
2742e5dd7070Spatrick if (unsigned NumArgs = CE->getNumArgs())
2743e5dd7070Spatrick R2 = SourceRange(CE->getArg(0)->getBeginLoc(),
2744e5dd7070Spatrick CE->getArg(NumArgs - 1)->getEndLoc());
2745e5dd7070Spatrick return true;
2746e5dd7070Spatrick }
2747e5dd7070Spatrick }
2748e5dd7070Spatrick return false;
2749e5dd7070Spatrick }
2750e5dd7070Spatrick
2751e5dd7070Spatrick // If we don't know precisely what we're looking at, let's not warn.
2752e5dd7070Spatrick case UnresolvedLookupExprClass:
2753e5dd7070Spatrick case CXXUnresolvedConstructExprClass:
2754ec727ea7Spatrick case RecoveryExprClass:
2755e5dd7070Spatrick return false;
2756e5dd7070Spatrick
2757e5dd7070Spatrick case CXXTemporaryObjectExprClass:
2758e5dd7070Spatrick case CXXConstructExprClass: {
2759e5dd7070Spatrick if (const CXXRecordDecl *Type = getType()->getAsCXXRecordDecl()) {
2760e5dd7070Spatrick const auto *WarnURAttr = Type->getAttr<WarnUnusedResultAttr>();
2761e5dd7070Spatrick if (Type->hasAttr<WarnUnusedAttr>() ||
2762e5dd7070Spatrick (WarnURAttr && WarnURAttr->IsCXX11NoDiscard())) {
2763e5dd7070Spatrick WarnE = this;
2764e5dd7070Spatrick Loc = getBeginLoc();
2765e5dd7070Spatrick R1 = getSourceRange();
2766e5dd7070Spatrick return true;
2767e5dd7070Spatrick }
2768e5dd7070Spatrick }
2769e5dd7070Spatrick
2770e5dd7070Spatrick const auto *CE = cast<CXXConstructExpr>(this);
2771e5dd7070Spatrick if (const CXXConstructorDecl *Ctor = CE->getConstructor()) {
2772e5dd7070Spatrick const auto *WarnURAttr = Ctor->getAttr<WarnUnusedResultAttr>();
2773e5dd7070Spatrick if (WarnURAttr && WarnURAttr->IsCXX11NoDiscard()) {
2774e5dd7070Spatrick WarnE = this;
2775e5dd7070Spatrick Loc = getBeginLoc();
2776e5dd7070Spatrick R1 = getSourceRange();
2777e5dd7070Spatrick
2778e5dd7070Spatrick if (unsigned NumArgs = CE->getNumArgs())
2779e5dd7070Spatrick R2 = SourceRange(CE->getArg(0)->getBeginLoc(),
2780e5dd7070Spatrick CE->getArg(NumArgs - 1)->getEndLoc());
2781e5dd7070Spatrick return true;
2782e5dd7070Spatrick }
2783e5dd7070Spatrick }
2784e5dd7070Spatrick
2785e5dd7070Spatrick return false;
2786e5dd7070Spatrick }
2787e5dd7070Spatrick
2788e5dd7070Spatrick case ObjCMessageExprClass: {
2789e5dd7070Spatrick const ObjCMessageExpr *ME = cast<ObjCMessageExpr>(this);
2790e5dd7070Spatrick if (Ctx.getLangOpts().ObjCAutoRefCount &&
2791e5dd7070Spatrick ME->isInstanceMessage() &&
2792e5dd7070Spatrick !ME->getType()->isVoidType() &&
2793e5dd7070Spatrick ME->getMethodFamily() == OMF_init) {
2794e5dd7070Spatrick WarnE = this;
2795e5dd7070Spatrick Loc = getExprLoc();
2796e5dd7070Spatrick R1 = ME->getSourceRange();
2797e5dd7070Spatrick return true;
2798e5dd7070Spatrick }
2799e5dd7070Spatrick
2800e5dd7070Spatrick if (const ObjCMethodDecl *MD = ME->getMethodDecl())
2801e5dd7070Spatrick if (MD->hasAttr<WarnUnusedResultAttr>()) {
2802e5dd7070Spatrick WarnE = this;
2803e5dd7070Spatrick Loc = getExprLoc();
2804e5dd7070Spatrick return true;
2805e5dd7070Spatrick }
2806e5dd7070Spatrick
2807e5dd7070Spatrick return false;
2808e5dd7070Spatrick }
2809e5dd7070Spatrick
2810e5dd7070Spatrick case ObjCPropertyRefExprClass:
2811*12c85518Srobert case ObjCSubscriptRefExprClass:
2812e5dd7070Spatrick WarnE = this;
2813e5dd7070Spatrick Loc = getExprLoc();
2814e5dd7070Spatrick R1 = getSourceRange();
2815e5dd7070Spatrick return true;
2816e5dd7070Spatrick
2817e5dd7070Spatrick case PseudoObjectExprClass: {
2818*12c85518Srobert const auto *POE = cast<PseudoObjectExpr>(this);
2819e5dd7070Spatrick
2820*12c85518Srobert // For some syntactic forms, we should always warn.
2821*12c85518Srobert if (isa<ObjCPropertyRefExpr, ObjCSubscriptRefExpr>(
2822*12c85518Srobert POE->getSyntacticForm())) {
2823e5dd7070Spatrick WarnE = this;
2824e5dd7070Spatrick Loc = getExprLoc();
2825e5dd7070Spatrick R1 = getSourceRange();
2826e5dd7070Spatrick return true;
2827e5dd7070Spatrick }
2828e5dd7070Spatrick
2829*12c85518Srobert // For others, we should never warn.
2830*12c85518Srobert if (auto *BO = dyn_cast<BinaryOperator>(POE->getSyntacticForm()))
2831*12c85518Srobert if (BO->isAssignmentOp())
2832*12c85518Srobert return false;
2833*12c85518Srobert if (auto *UO = dyn_cast<UnaryOperator>(POE->getSyntacticForm()))
2834*12c85518Srobert if (UO->isIncrementDecrementOp())
2835*12c85518Srobert return false;
2836*12c85518Srobert
2837*12c85518Srobert // Otherwise, warn if the result expression would warn.
2838*12c85518Srobert const Expr *Result = POE->getResultExpr();
2839*12c85518Srobert return Result && Result->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2840*12c85518Srobert }
2841*12c85518Srobert
2842e5dd7070Spatrick case StmtExprClass: {
2843e5dd7070Spatrick // Statement exprs don't logically have side effects themselves, but are
2844e5dd7070Spatrick // sometimes used in macros in ways that give them a type that is unused.
2845e5dd7070Spatrick // For example ({ blah; foo(); }) will end up with a type if foo has a type.
2846e5dd7070Spatrick // however, if the result of the stmt expr is dead, we don't want to emit a
2847e5dd7070Spatrick // warning.
2848e5dd7070Spatrick const CompoundStmt *CS = cast<StmtExpr>(this)->getSubStmt();
2849e5dd7070Spatrick if (!CS->body_empty()) {
2850e5dd7070Spatrick if (const Expr *E = dyn_cast<Expr>(CS->body_back()))
2851e5dd7070Spatrick return E->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2852e5dd7070Spatrick if (const LabelStmt *Label = dyn_cast<LabelStmt>(CS->body_back()))
2853e5dd7070Spatrick if (const Expr *E = dyn_cast<Expr>(Label->getSubStmt()))
2854e5dd7070Spatrick return E->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2855e5dd7070Spatrick }
2856e5dd7070Spatrick
2857e5dd7070Spatrick if (getType()->isVoidType())
2858e5dd7070Spatrick return false;
2859e5dd7070Spatrick WarnE = this;
2860e5dd7070Spatrick Loc = cast<StmtExpr>(this)->getLParenLoc();
2861e5dd7070Spatrick R1 = getSourceRange();
2862e5dd7070Spatrick return true;
2863e5dd7070Spatrick }
2864e5dd7070Spatrick case CXXFunctionalCastExprClass:
2865e5dd7070Spatrick case CStyleCastExprClass: {
2866ec727ea7Spatrick // Ignore an explicit cast to void, except in C++98 if the operand is a
2867ec727ea7Spatrick // volatile glvalue for which we would trigger an implicit read in any
2868ec727ea7Spatrick // other language mode. (Such an implicit read always happens as part of
2869ec727ea7Spatrick // the lvalue conversion in C, and happens in C++ for expressions of all
2870ec727ea7Spatrick // forms where it seems likely the user intended to trigger a volatile
2871ec727ea7Spatrick // load.)
2872e5dd7070Spatrick const CastExpr *CE = cast<CastExpr>(this);
2873ec727ea7Spatrick const Expr *SubE = CE->getSubExpr()->IgnoreParens();
2874e5dd7070Spatrick if (CE->getCastKind() == CK_ToVoid) {
2875ec727ea7Spatrick if (Ctx.getLangOpts().CPlusPlus && !Ctx.getLangOpts().CPlusPlus11 &&
2876ec727ea7Spatrick SubE->isReadIfDiscardedInCPlusPlus11()) {
2877ec727ea7Spatrick // Suppress the "unused value" warning for idiomatic usage of
2878ec727ea7Spatrick // '(void)var;' used to suppress "unused variable" warnings.
2879ec727ea7Spatrick if (auto *DRE = dyn_cast<DeclRefExpr>(SubE))
2880ec727ea7Spatrick if (auto *VD = dyn_cast<VarDecl>(DRE->getDecl()))
2881ec727ea7Spatrick if (!VD->isExternallyVisible())
2882ec727ea7Spatrick return false;
2883ec727ea7Spatrick
2884ec727ea7Spatrick // The lvalue-to-rvalue conversion would have no effect for an array.
2885ec727ea7Spatrick // It's implausible that the programmer expected this to result in a
2886ec727ea7Spatrick // volatile array load, so don't warn.
2887ec727ea7Spatrick if (SubE->getType()->isArrayType())
2888ec727ea7Spatrick return false;
2889ec727ea7Spatrick
2890ec727ea7Spatrick return SubE->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2891e5dd7070Spatrick }
2892e5dd7070Spatrick return false;
2893e5dd7070Spatrick }
2894e5dd7070Spatrick
2895e5dd7070Spatrick // If this is a cast to a constructor conversion, check the operand.
2896e5dd7070Spatrick // Otherwise, the result of the cast is unused.
2897e5dd7070Spatrick if (CE->getCastKind() == CK_ConstructorConversion)
2898e5dd7070Spatrick return CE->getSubExpr()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2899a9ac8606Spatrick if (CE->getCastKind() == CK_Dependent)
2900a9ac8606Spatrick return false;
2901e5dd7070Spatrick
2902e5dd7070Spatrick WarnE = this;
2903e5dd7070Spatrick if (const CXXFunctionalCastExpr *CXXCE =
2904e5dd7070Spatrick dyn_cast<CXXFunctionalCastExpr>(this)) {
2905e5dd7070Spatrick Loc = CXXCE->getBeginLoc();
2906e5dd7070Spatrick R1 = CXXCE->getSubExpr()->getSourceRange();
2907e5dd7070Spatrick } else {
2908e5dd7070Spatrick const CStyleCastExpr *CStyleCE = cast<CStyleCastExpr>(this);
2909e5dd7070Spatrick Loc = CStyleCE->getLParenLoc();
2910e5dd7070Spatrick R1 = CStyleCE->getSubExpr()->getSourceRange();
2911e5dd7070Spatrick }
2912e5dd7070Spatrick return true;
2913e5dd7070Spatrick }
2914e5dd7070Spatrick case ImplicitCastExprClass: {
2915e5dd7070Spatrick const CastExpr *ICE = cast<ImplicitCastExpr>(this);
2916e5dd7070Spatrick
2917e5dd7070Spatrick // lvalue-to-rvalue conversion on a volatile lvalue is a side-effect.
2918e5dd7070Spatrick if (ICE->getCastKind() == CK_LValueToRValue &&
2919e5dd7070Spatrick ICE->getSubExpr()->getType().isVolatileQualified())
2920e5dd7070Spatrick return false;
2921e5dd7070Spatrick
2922e5dd7070Spatrick return ICE->getSubExpr()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2923e5dd7070Spatrick }
2924e5dd7070Spatrick case CXXDefaultArgExprClass:
2925e5dd7070Spatrick return (cast<CXXDefaultArgExpr>(this)
2926e5dd7070Spatrick ->getExpr()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx));
2927e5dd7070Spatrick case CXXDefaultInitExprClass:
2928e5dd7070Spatrick return (cast<CXXDefaultInitExpr>(this)
2929e5dd7070Spatrick ->getExpr()->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx));
2930e5dd7070Spatrick
2931e5dd7070Spatrick case CXXNewExprClass:
2932e5dd7070Spatrick // FIXME: In theory, there might be new expressions that don't have side
2933e5dd7070Spatrick // effects (e.g. a placement new with an uninitialized POD).
2934e5dd7070Spatrick case CXXDeleteExprClass:
2935e5dd7070Spatrick return false;
2936e5dd7070Spatrick case MaterializeTemporaryExprClass:
2937e5dd7070Spatrick return cast<MaterializeTemporaryExpr>(this)
2938e5dd7070Spatrick ->getSubExpr()
2939e5dd7070Spatrick ->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2940e5dd7070Spatrick case CXXBindTemporaryExprClass:
2941e5dd7070Spatrick return cast<CXXBindTemporaryExpr>(this)->getSubExpr()
2942e5dd7070Spatrick ->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2943e5dd7070Spatrick case ExprWithCleanupsClass:
2944e5dd7070Spatrick return cast<ExprWithCleanups>(this)->getSubExpr()
2945e5dd7070Spatrick ->isUnusedResultAWarning(WarnE, Loc, R1, R2, Ctx);
2946e5dd7070Spatrick }
2947e5dd7070Spatrick }
2948e5dd7070Spatrick
2949e5dd7070Spatrick /// isOBJCGCCandidate - Check if an expression is objc gc'able.
2950e5dd7070Spatrick /// returns true, if it is; false otherwise.
isOBJCGCCandidate(ASTContext & Ctx) const2951e5dd7070Spatrick bool Expr::isOBJCGCCandidate(ASTContext &Ctx) const {
2952e5dd7070Spatrick const Expr *E = IgnoreParens();
2953e5dd7070Spatrick switch (E->getStmtClass()) {
2954e5dd7070Spatrick default:
2955e5dd7070Spatrick return false;
2956e5dd7070Spatrick case ObjCIvarRefExprClass:
2957e5dd7070Spatrick return true;
2958e5dd7070Spatrick case Expr::UnaryOperatorClass:
2959e5dd7070Spatrick return cast<UnaryOperator>(E)->getSubExpr()->isOBJCGCCandidate(Ctx);
2960e5dd7070Spatrick case ImplicitCastExprClass:
2961e5dd7070Spatrick return cast<ImplicitCastExpr>(E)->getSubExpr()->isOBJCGCCandidate(Ctx);
2962e5dd7070Spatrick case MaterializeTemporaryExprClass:
2963e5dd7070Spatrick return cast<MaterializeTemporaryExpr>(E)->getSubExpr()->isOBJCGCCandidate(
2964e5dd7070Spatrick Ctx);
2965e5dd7070Spatrick case CStyleCastExprClass:
2966e5dd7070Spatrick return cast<CStyleCastExpr>(E)->getSubExpr()->isOBJCGCCandidate(Ctx);
2967e5dd7070Spatrick case DeclRefExprClass: {
2968e5dd7070Spatrick const Decl *D = cast<DeclRefExpr>(E)->getDecl();
2969e5dd7070Spatrick
2970e5dd7070Spatrick if (const VarDecl *VD = dyn_cast<VarDecl>(D)) {
2971e5dd7070Spatrick if (VD->hasGlobalStorage())
2972e5dd7070Spatrick return true;
2973e5dd7070Spatrick QualType T = VD->getType();
2974e5dd7070Spatrick // dereferencing to a pointer is always a gc'able candidate,
2975e5dd7070Spatrick // unless it is __weak.
2976e5dd7070Spatrick return T->isPointerType() &&
2977e5dd7070Spatrick (Ctx.getObjCGCAttrKind(T) != Qualifiers::Weak);
2978e5dd7070Spatrick }
2979e5dd7070Spatrick return false;
2980e5dd7070Spatrick }
2981e5dd7070Spatrick case MemberExprClass: {
2982e5dd7070Spatrick const MemberExpr *M = cast<MemberExpr>(E);
2983e5dd7070Spatrick return M->getBase()->isOBJCGCCandidate(Ctx);
2984e5dd7070Spatrick }
2985e5dd7070Spatrick case ArraySubscriptExprClass:
2986e5dd7070Spatrick return cast<ArraySubscriptExpr>(E)->getBase()->isOBJCGCCandidate(Ctx);
2987e5dd7070Spatrick }
2988e5dd7070Spatrick }
2989e5dd7070Spatrick
isBoundMemberFunction(ASTContext & Ctx) const2990e5dd7070Spatrick bool Expr::isBoundMemberFunction(ASTContext &Ctx) const {
2991e5dd7070Spatrick if (isTypeDependent())
2992e5dd7070Spatrick return false;
2993e5dd7070Spatrick return ClassifyLValue(Ctx) == Expr::LV_MemberFunction;
2994e5dd7070Spatrick }
2995e5dd7070Spatrick
findBoundMemberType(const Expr * expr)2996e5dd7070Spatrick QualType Expr::findBoundMemberType(const Expr *expr) {
2997e5dd7070Spatrick assert(expr->hasPlaceholderType(BuiltinType::BoundMember));
2998e5dd7070Spatrick
2999e5dd7070Spatrick // Bound member expressions are always one of these possibilities:
3000e5dd7070Spatrick // x->m x.m x->*y x.*y
3001e5dd7070Spatrick // (possibly parenthesized)
3002e5dd7070Spatrick
3003e5dd7070Spatrick expr = expr->IgnoreParens();
3004e5dd7070Spatrick if (const MemberExpr *mem = dyn_cast<MemberExpr>(expr)) {
3005e5dd7070Spatrick assert(isa<CXXMethodDecl>(mem->getMemberDecl()));
3006e5dd7070Spatrick return mem->getMemberDecl()->getType();
3007e5dd7070Spatrick }
3008e5dd7070Spatrick
3009e5dd7070Spatrick if (const BinaryOperator *op = dyn_cast<BinaryOperator>(expr)) {
3010e5dd7070Spatrick QualType type = op->getRHS()->getType()->castAs<MemberPointerType>()
3011e5dd7070Spatrick ->getPointeeType();
3012e5dd7070Spatrick assert(type->isFunctionType());
3013e5dd7070Spatrick return type;
3014e5dd7070Spatrick }
3015e5dd7070Spatrick
3016e5dd7070Spatrick assert(isa<UnresolvedMemberExpr>(expr) || isa<CXXPseudoDestructorExpr>(expr));
3017e5dd7070Spatrick return QualType();
3018e5dd7070Spatrick }
3019e5dd7070Spatrick
IgnoreImpCasts()3020e5dd7070Spatrick Expr *Expr::IgnoreImpCasts() {
3021a9ac8606Spatrick return IgnoreExprNodes(this, IgnoreImplicitCastsSingleStep);
3022e5dd7070Spatrick }
3023e5dd7070Spatrick
IgnoreCasts()3024e5dd7070Spatrick Expr *Expr::IgnoreCasts() {
3025e5dd7070Spatrick return IgnoreExprNodes(this, IgnoreCastsSingleStep);
3026e5dd7070Spatrick }
3027e5dd7070Spatrick
IgnoreImplicit()3028e5dd7070Spatrick Expr *Expr::IgnoreImplicit() {
3029e5dd7070Spatrick return IgnoreExprNodes(this, IgnoreImplicitSingleStep);
3030e5dd7070Spatrick }
3031e5dd7070Spatrick
IgnoreImplicitAsWritten()3032e5dd7070Spatrick Expr *Expr::IgnoreImplicitAsWritten() {
3033e5dd7070Spatrick return IgnoreExprNodes(this, IgnoreImplicitAsWrittenSingleStep);
3034e5dd7070Spatrick }
3035e5dd7070Spatrick
IgnoreParens()3036e5dd7070Spatrick Expr *Expr::IgnoreParens() {
3037e5dd7070Spatrick return IgnoreExprNodes(this, IgnoreParensSingleStep);
3038e5dd7070Spatrick }
3039e5dd7070Spatrick
IgnoreParenImpCasts()3040e5dd7070Spatrick Expr *Expr::IgnoreParenImpCasts() {
3041e5dd7070Spatrick return IgnoreExprNodes(this, IgnoreParensSingleStep,
3042a9ac8606Spatrick IgnoreImplicitCastsExtraSingleStep);
3043e5dd7070Spatrick }
3044e5dd7070Spatrick
IgnoreParenCasts()3045e5dd7070Spatrick Expr *Expr::IgnoreParenCasts() {
3046e5dd7070Spatrick return IgnoreExprNodes(this, IgnoreParensSingleStep, IgnoreCastsSingleStep);
3047e5dd7070Spatrick }
3048e5dd7070Spatrick
IgnoreConversionOperatorSingleStep()3049a9ac8606Spatrick Expr *Expr::IgnoreConversionOperatorSingleStep() {
3050e5dd7070Spatrick if (auto *MCE = dyn_cast<CXXMemberCallExpr>(this)) {
3051e5dd7070Spatrick if (MCE->getMethodDecl() && isa<CXXConversionDecl>(MCE->getMethodDecl()))
3052e5dd7070Spatrick return MCE->getImplicitObjectArgument();
3053e5dd7070Spatrick }
3054e5dd7070Spatrick return this;
3055e5dd7070Spatrick }
3056e5dd7070Spatrick
IgnoreParenLValueCasts()3057e5dd7070Spatrick Expr *Expr::IgnoreParenLValueCasts() {
3058e5dd7070Spatrick return IgnoreExprNodes(this, IgnoreParensSingleStep,
3059e5dd7070Spatrick IgnoreLValueCastsSingleStep);
3060e5dd7070Spatrick }
3061e5dd7070Spatrick
IgnoreParenBaseCasts()3062a9ac8606Spatrick Expr *Expr::IgnoreParenBaseCasts() {
3063e5dd7070Spatrick return IgnoreExprNodes(this, IgnoreParensSingleStep,
3064e5dd7070Spatrick IgnoreBaseCastsSingleStep);
3065e5dd7070Spatrick }
3066e5dd7070Spatrick
IgnoreParenNoopCasts(const ASTContext & Ctx)3067e5dd7070Spatrick Expr *Expr::IgnoreParenNoopCasts(const ASTContext &Ctx) {
3068a9ac8606Spatrick auto IgnoreNoopCastsSingleStep = [&Ctx](Expr *E) {
3069a9ac8606Spatrick if (auto *CE = dyn_cast<CastExpr>(E)) {
3070a9ac8606Spatrick // We ignore integer <-> casts that are of the same width, ptr<->ptr and
3071a9ac8606Spatrick // ptr<->int casts of the same width. We also ignore all identity casts.
3072a9ac8606Spatrick Expr *SubExpr = CE->getSubExpr();
3073a9ac8606Spatrick bool IsIdentityCast =
3074a9ac8606Spatrick Ctx.hasSameUnqualifiedType(E->getType(), SubExpr->getType());
3075a9ac8606Spatrick bool IsSameWidthCast = (E->getType()->isPointerType() ||
3076a9ac8606Spatrick E->getType()->isIntegralType(Ctx)) &&
3077a9ac8606Spatrick (SubExpr->getType()->isPointerType() ||
3078a9ac8606Spatrick SubExpr->getType()->isIntegralType(Ctx)) &&
3079a9ac8606Spatrick (Ctx.getTypeSize(E->getType()) ==
3080a9ac8606Spatrick Ctx.getTypeSize(SubExpr->getType()));
3081a9ac8606Spatrick
3082a9ac8606Spatrick if (IsIdentityCast || IsSameWidthCast)
3083a9ac8606Spatrick return SubExpr;
3084a9ac8606Spatrick } else if (auto *NTTP = dyn_cast<SubstNonTypeTemplateParmExpr>(E))
3085a9ac8606Spatrick return NTTP->getReplacement();
3086a9ac8606Spatrick
3087a9ac8606Spatrick return E;
3088a9ac8606Spatrick };
3089a9ac8606Spatrick return IgnoreExprNodes(this, IgnoreParensSingleStep,
3090a9ac8606Spatrick IgnoreNoopCastsSingleStep);
3091e5dd7070Spatrick }
3092e5dd7070Spatrick
IgnoreUnlessSpelledInSource()3093e5dd7070Spatrick Expr *Expr::IgnoreUnlessSpelledInSource() {
3094a9ac8606Spatrick auto IgnoreImplicitConstructorSingleStep = [](Expr *E) {
3095a9ac8606Spatrick if (auto *Cast = dyn_cast<CXXFunctionalCastExpr>(E)) {
3096a9ac8606Spatrick auto *SE = Cast->getSubExpr();
3097a9ac8606Spatrick if (SE->getSourceRange() == E->getSourceRange())
3098a9ac8606Spatrick return SE;
3099a9ac8606Spatrick }
3100e5dd7070Spatrick
3101e5dd7070Spatrick if (auto *C = dyn_cast<CXXConstructExpr>(E)) {
3102ec727ea7Spatrick auto NumArgs = C->getNumArgs();
3103ec727ea7Spatrick if (NumArgs == 1 ||
3104ec727ea7Spatrick (NumArgs > 1 && isa<CXXDefaultArgExpr>(C->getArg(1)))) {
3105e5dd7070Spatrick Expr *A = C->getArg(0);
3106a9ac8606Spatrick if (A->getSourceRange() == E->getSourceRange() || C->isElidable())
3107a9ac8606Spatrick return A;
3108e5dd7070Spatrick }
3109e5dd7070Spatrick }
3110a9ac8606Spatrick return E;
3111a9ac8606Spatrick };
3112a9ac8606Spatrick auto IgnoreImplicitMemberCallSingleStep = [](Expr *E) {
3113e5dd7070Spatrick if (auto *C = dyn_cast<CXXMemberCallExpr>(E)) {
3114ec727ea7Spatrick Expr *ExprNode = C->getImplicitObjectArgument();
3115a9ac8606Spatrick if (ExprNode->getSourceRange() == E->getSourceRange()) {
3116a9ac8606Spatrick return ExprNode;
3117ec727ea7Spatrick }
3118ec727ea7Spatrick if (auto *PE = dyn_cast<ParenExpr>(ExprNode)) {
3119ec727ea7Spatrick if (PE->getSourceRange() == C->getSourceRange()) {
3120a9ac8606Spatrick return cast<Expr>(PE);
3121ec727ea7Spatrick }
3122ec727ea7Spatrick }
3123ec727ea7Spatrick ExprNode = ExprNode->IgnoreParenImpCasts();
3124a9ac8606Spatrick if (ExprNode->getSourceRange() == E->getSourceRange())
3125a9ac8606Spatrick return ExprNode;
3126e5dd7070Spatrick }
3127e5dd7070Spatrick return E;
3128a9ac8606Spatrick };
3129a9ac8606Spatrick return IgnoreExprNodes(
3130a9ac8606Spatrick this, IgnoreImplicitSingleStep, IgnoreImplicitCastsExtraSingleStep,
3131a9ac8606Spatrick IgnoreParensOnlySingleStep, IgnoreImplicitConstructorSingleStep,
3132a9ac8606Spatrick IgnoreImplicitMemberCallSingleStep);
3133e5dd7070Spatrick }
3134e5dd7070Spatrick
isDefaultArgument() const3135e5dd7070Spatrick bool Expr::isDefaultArgument() const {
3136e5dd7070Spatrick const Expr *E = this;
3137e5dd7070Spatrick if (const MaterializeTemporaryExpr *M = dyn_cast<MaterializeTemporaryExpr>(E))
3138e5dd7070Spatrick E = M->getSubExpr();
3139e5dd7070Spatrick
3140e5dd7070Spatrick while (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(E))
3141e5dd7070Spatrick E = ICE->getSubExprAsWritten();
3142e5dd7070Spatrick
3143e5dd7070Spatrick return isa<CXXDefaultArgExpr>(E);
3144e5dd7070Spatrick }
3145e5dd7070Spatrick
3146e5dd7070Spatrick /// Skip over any no-op casts and any temporary-binding
3147e5dd7070Spatrick /// expressions.
skipTemporaryBindingsNoOpCastsAndParens(const Expr * E)3148e5dd7070Spatrick static const Expr *skipTemporaryBindingsNoOpCastsAndParens(const Expr *E) {
3149e5dd7070Spatrick if (const MaterializeTemporaryExpr *M = dyn_cast<MaterializeTemporaryExpr>(E))
3150e5dd7070Spatrick E = M->getSubExpr();
3151e5dd7070Spatrick
3152e5dd7070Spatrick while (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(E)) {
3153e5dd7070Spatrick if (ICE->getCastKind() == CK_NoOp)
3154e5dd7070Spatrick E = ICE->getSubExpr();
3155e5dd7070Spatrick else
3156e5dd7070Spatrick break;
3157e5dd7070Spatrick }
3158e5dd7070Spatrick
3159e5dd7070Spatrick while (const CXXBindTemporaryExpr *BE = dyn_cast<CXXBindTemporaryExpr>(E))
3160e5dd7070Spatrick E = BE->getSubExpr();
3161e5dd7070Spatrick
3162e5dd7070Spatrick while (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(E)) {
3163e5dd7070Spatrick if (ICE->getCastKind() == CK_NoOp)
3164e5dd7070Spatrick E = ICE->getSubExpr();
3165e5dd7070Spatrick else
3166e5dd7070Spatrick break;
3167e5dd7070Spatrick }
3168e5dd7070Spatrick
3169e5dd7070Spatrick return E->IgnoreParens();
3170e5dd7070Spatrick }
3171e5dd7070Spatrick
3172e5dd7070Spatrick /// isTemporaryObject - Determines if this expression produces a
3173e5dd7070Spatrick /// temporary of the given class type.
isTemporaryObject(ASTContext & C,const CXXRecordDecl * TempTy) const3174e5dd7070Spatrick bool Expr::isTemporaryObject(ASTContext &C, const CXXRecordDecl *TempTy) const {
3175e5dd7070Spatrick if (!C.hasSameUnqualifiedType(getType(), C.getTypeDeclType(TempTy)))
3176e5dd7070Spatrick return false;
3177e5dd7070Spatrick
3178e5dd7070Spatrick const Expr *E = skipTemporaryBindingsNoOpCastsAndParens(this);
3179e5dd7070Spatrick
3180e5dd7070Spatrick // Temporaries are by definition pr-values of class type.
3181e5dd7070Spatrick if (!E->Classify(C).isPRValue()) {
3182e5dd7070Spatrick // In this context, property reference is a message call and is pr-value.
3183e5dd7070Spatrick if (!isa<ObjCPropertyRefExpr>(E))
3184e5dd7070Spatrick return false;
3185e5dd7070Spatrick }
3186e5dd7070Spatrick
3187e5dd7070Spatrick // Black-list a few cases which yield pr-values of class type that don't
3188e5dd7070Spatrick // refer to temporaries of that type:
3189e5dd7070Spatrick
3190e5dd7070Spatrick // - implicit derived-to-base conversions
3191e5dd7070Spatrick if (isa<ImplicitCastExpr>(E)) {
3192e5dd7070Spatrick switch (cast<ImplicitCastExpr>(E)->getCastKind()) {
3193e5dd7070Spatrick case CK_DerivedToBase:
3194e5dd7070Spatrick case CK_UncheckedDerivedToBase:
3195e5dd7070Spatrick return false;
3196e5dd7070Spatrick default:
3197e5dd7070Spatrick break;
3198e5dd7070Spatrick }
3199e5dd7070Spatrick }
3200e5dd7070Spatrick
3201e5dd7070Spatrick // - member expressions (all)
3202e5dd7070Spatrick if (isa<MemberExpr>(E))
3203e5dd7070Spatrick return false;
3204e5dd7070Spatrick
3205e5dd7070Spatrick if (const BinaryOperator *BO = dyn_cast<BinaryOperator>(E))
3206e5dd7070Spatrick if (BO->isPtrMemOp())
3207e5dd7070Spatrick return false;
3208e5dd7070Spatrick
3209e5dd7070Spatrick // - opaque values (all)
3210e5dd7070Spatrick if (isa<OpaqueValueExpr>(E))
3211e5dd7070Spatrick return false;
3212e5dd7070Spatrick
3213e5dd7070Spatrick return true;
3214e5dd7070Spatrick }
3215e5dd7070Spatrick
isImplicitCXXThis() const3216e5dd7070Spatrick bool Expr::isImplicitCXXThis() const {
3217e5dd7070Spatrick const Expr *E = this;
3218e5dd7070Spatrick
3219e5dd7070Spatrick // Strip away parentheses and casts we don't care about.
3220e5dd7070Spatrick while (true) {
3221e5dd7070Spatrick if (const ParenExpr *Paren = dyn_cast<ParenExpr>(E)) {
3222e5dd7070Spatrick E = Paren->getSubExpr();
3223e5dd7070Spatrick continue;
3224e5dd7070Spatrick }
3225e5dd7070Spatrick
3226e5dd7070Spatrick if (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(E)) {
3227e5dd7070Spatrick if (ICE->getCastKind() == CK_NoOp ||
3228e5dd7070Spatrick ICE->getCastKind() == CK_LValueToRValue ||
3229e5dd7070Spatrick ICE->getCastKind() == CK_DerivedToBase ||
3230e5dd7070Spatrick ICE->getCastKind() == CK_UncheckedDerivedToBase) {
3231e5dd7070Spatrick E = ICE->getSubExpr();
3232e5dd7070Spatrick continue;
3233e5dd7070Spatrick }
3234e5dd7070Spatrick }
3235e5dd7070Spatrick
3236e5dd7070Spatrick if (const UnaryOperator* UnOp = dyn_cast<UnaryOperator>(E)) {
3237e5dd7070Spatrick if (UnOp->getOpcode() == UO_Extension) {
3238e5dd7070Spatrick E = UnOp->getSubExpr();
3239e5dd7070Spatrick continue;
3240e5dd7070Spatrick }
3241e5dd7070Spatrick }
3242e5dd7070Spatrick
3243e5dd7070Spatrick if (const MaterializeTemporaryExpr *M
3244e5dd7070Spatrick = dyn_cast<MaterializeTemporaryExpr>(E)) {
3245e5dd7070Spatrick E = M->getSubExpr();
3246e5dd7070Spatrick continue;
3247e5dd7070Spatrick }
3248e5dd7070Spatrick
3249e5dd7070Spatrick break;
3250e5dd7070Spatrick }
3251e5dd7070Spatrick
3252e5dd7070Spatrick if (const CXXThisExpr *This = dyn_cast<CXXThisExpr>(E))
3253e5dd7070Spatrick return This->isImplicit();
3254e5dd7070Spatrick
3255e5dd7070Spatrick return false;
3256e5dd7070Spatrick }
3257e5dd7070Spatrick
3258e5dd7070Spatrick /// hasAnyTypeDependentArguments - Determines if any of the expressions
3259e5dd7070Spatrick /// in Exprs is type-dependent.
hasAnyTypeDependentArguments(ArrayRef<Expr * > Exprs)3260e5dd7070Spatrick bool Expr::hasAnyTypeDependentArguments(ArrayRef<Expr *> Exprs) {
3261e5dd7070Spatrick for (unsigned I = 0; I < Exprs.size(); ++I)
3262e5dd7070Spatrick if (Exprs[I]->isTypeDependent())
3263e5dd7070Spatrick return true;
3264e5dd7070Spatrick
3265e5dd7070Spatrick return false;
3266e5dd7070Spatrick }
3267e5dd7070Spatrick
isConstantInitializer(ASTContext & Ctx,bool IsForRef,const Expr ** Culprit) const3268e5dd7070Spatrick bool Expr::isConstantInitializer(ASTContext &Ctx, bool IsForRef,
3269e5dd7070Spatrick const Expr **Culprit) const {
3270e5dd7070Spatrick assert(!isValueDependent() &&
3271e5dd7070Spatrick "Expression evaluator can't be called on a dependent expression.");
3272e5dd7070Spatrick
3273e5dd7070Spatrick // This function is attempting whether an expression is an initializer
3274e5dd7070Spatrick // which can be evaluated at compile-time. It very closely parallels
3275e5dd7070Spatrick // ConstExprEmitter in CGExprConstant.cpp; if they don't match, it
3276e5dd7070Spatrick // will lead to unexpected results. Like ConstExprEmitter, it falls back
3277e5dd7070Spatrick // to isEvaluatable most of the time.
3278e5dd7070Spatrick //
3279e5dd7070Spatrick // If we ever capture reference-binding directly in the AST, we can
3280e5dd7070Spatrick // kill the second parameter.
3281e5dd7070Spatrick
3282e5dd7070Spatrick if (IsForRef) {
3283e5dd7070Spatrick EvalResult Result;
3284e5dd7070Spatrick if (EvaluateAsLValue(Result, Ctx) && !Result.HasSideEffects)
3285e5dd7070Spatrick return true;
3286e5dd7070Spatrick if (Culprit)
3287e5dd7070Spatrick *Culprit = this;
3288e5dd7070Spatrick return false;
3289e5dd7070Spatrick }
3290e5dd7070Spatrick
3291e5dd7070Spatrick switch (getStmtClass()) {
3292e5dd7070Spatrick default: break;
3293ec727ea7Spatrick case Stmt::ExprWithCleanupsClass:
3294ec727ea7Spatrick return cast<ExprWithCleanups>(this)->getSubExpr()->isConstantInitializer(
3295ec727ea7Spatrick Ctx, IsForRef, Culprit);
3296e5dd7070Spatrick case StringLiteralClass:
3297e5dd7070Spatrick case ObjCEncodeExprClass:
3298e5dd7070Spatrick return true;
3299e5dd7070Spatrick case CXXTemporaryObjectExprClass:
3300e5dd7070Spatrick case CXXConstructExprClass: {
3301e5dd7070Spatrick const CXXConstructExpr *CE = cast<CXXConstructExpr>(this);
3302e5dd7070Spatrick
3303e5dd7070Spatrick if (CE->getConstructor()->isTrivial() &&
3304e5dd7070Spatrick CE->getConstructor()->getParent()->hasTrivialDestructor()) {
3305e5dd7070Spatrick // Trivial default constructor
3306e5dd7070Spatrick if (!CE->getNumArgs()) return true;
3307e5dd7070Spatrick
3308e5dd7070Spatrick // Trivial copy constructor
3309e5dd7070Spatrick assert(CE->getNumArgs() == 1 && "trivial ctor with > 1 argument");
3310e5dd7070Spatrick return CE->getArg(0)->isConstantInitializer(Ctx, false, Culprit);
3311e5dd7070Spatrick }
3312e5dd7070Spatrick
3313e5dd7070Spatrick break;
3314e5dd7070Spatrick }
3315e5dd7070Spatrick case ConstantExprClass: {
3316e5dd7070Spatrick // FIXME: We should be able to return "true" here, but it can lead to extra
3317e5dd7070Spatrick // error messages. E.g. in Sema/array-init.c.
3318e5dd7070Spatrick const Expr *Exp = cast<ConstantExpr>(this)->getSubExpr();
3319e5dd7070Spatrick return Exp->isConstantInitializer(Ctx, false, Culprit);
3320e5dd7070Spatrick }
3321e5dd7070Spatrick case CompoundLiteralExprClass: {
3322e5dd7070Spatrick // This handles gcc's extension that allows global initializers like
3323e5dd7070Spatrick // "struct x {int x;} x = (struct x) {};".
3324e5dd7070Spatrick // FIXME: This accepts other cases it shouldn't!
3325e5dd7070Spatrick const Expr *Exp = cast<CompoundLiteralExpr>(this)->getInitializer();
3326e5dd7070Spatrick return Exp->isConstantInitializer(Ctx, false, Culprit);
3327e5dd7070Spatrick }
3328e5dd7070Spatrick case DesignatedInitUpdateExprClass: {
3329e5dd7070Spatrick const DesignatedInitUpdateExpr *DIUE = cast<DesignatedInitUpdateExpr>(this);
3330e5dd7070Spatrick return DIUE->getBase()->isConstantInitializer(Ctx, false, Culprit) &&
3331e5dd7070Spatrick DIUE->getUpdater()->isConstantInitializer(Ctx, false, Culprit);
3332e5dd7070Spatrick }
3333e5dd7070Spatrick case InitListExprClass: {
3334e5dd7070Spatrick const InitListExpr *ILE = cast<InitListExpr>(this);
3335e5dd7070Spatrick assert(ILE->isSemanticForm() && "InitListExpr must be in semantic form");
3336e5dd7070Spatrick if (ILE->getType()->isArrayType()) {
3337e5dd7070Spatrick unsigned numInits = ILE->getNumInits();
3338e5dd7070Spatrick for (unsigned i = 0; i < numInits; i++) {
3339e5dd7070Spatrick if (!ILE->getInit(i)->isConstantInitializer(Ctx, false, Culprit))
3340e5dd7070Spatrick return false;
3341e5dd7070Spatrick }
3342e5dd7070Spatrick return true;
3343e5dd7070Spatrick }
3344e5dd7070Spatrick
3345e5dd7070Spatrick if (ILE->getType()->isRecordType()) {
3346e5dd7070Spatrick unsigned ElementNo = 0;
3347e5dd7070Spatrick RecordDecl *RD = ILE->getType()->castAs<RecordType>()->getDecl();
3348e5dd7070Spatrick for (const auto *Field : RD->fields()) {
3349e5dd7070Spatrick // If this is a union, skip all the fields that aren't being initialized.
3350e5dd7070Spatrick if (RD->isUnion() && ILE->getInitializedFieldInUnion() != Field)
3351e5dd7070Spatrick continue;
3352e5dd7070Spatrick
3353e5dd7070Spatrick // Don't emit anonymous bitfields, they just affect layout.
3354e5dd7070Spatrick if (Field->isUnnamedBitfield())
3355e5dd7070Spatrick continue;
3356e5dd7070Spatrick
3357e5dd7070Spatrick if (ElementNo < ILE->getNumInits()) {
3358e5dd7070Spatrick const Expr *Elt = ILE->getInit(ElementNo++);
3359e5dd7070Spatrick if (Field->isBitField()) {
3360e5dd7070Spatrick // Bitfields have to evaluate to an integer.
3361e5dd7070Spatrick EvalResult Result;
3362e5dd7070Spatrick if (!Elt->EvaluateAsInt(Result, Ctx)) {
3363e5dd7070Spatrick if (Culprit)
3364e5dd7070Spatrick *Culprit = Elt;
3365e5dd7070Spatrick return false;
3366e5dd7070Spatrick }
3367e5dd7070Spatrick } else {
3368e5dd7070Spatrick bool RefType = Field->getType()->isReferenceType();
3369e5dd7070Spatrick if (!Elt->isConstantInitializer(Ctx, RefType, Culprit))
3370e5dd7070Spatrick return false;
3371e5dd7070Spatrick }
3372e5dd7070Spatrick }
3373e5dd7070Spatrick }
3374e5dd7070Spatrick return true;
3375e5dd7070Spatrick }
3376e5dd7070Spatrick
3377e5dd7070Spatrick break;
3378e5dd7070Spatrick }
3379e5dd7070Spatrick case ImplicitValueInitExprClass:
3380e5dd7070Spatrick case NoInitExprClass:
3381e5dd7070Spatrick return true;
3382e5dd7070Spatrick case ParenExprClass:
3383e5dd7070Spatrick return cast<ParenExpr>(this)->getSubExpr()
3384e5dd7070Spatrick ->isConstantInitializer(Ctx, IsForRef, Culprit);
3385e5dd7070Spatrick case GenericSelectionExprClass:
3386e5dd7070Spatrick return cast<GenericSelectionExpr>(this)->getResultExpr()
3387e5dd7070Spatrick ->isConstantInitializer(Ctx, IsForRef, Culprit);
3388e5dd7070Spatrick case ChooseExprClass:
3389e5dd7070Spatrick if (cast<ChooseExpr>(this)->isConditionDependent()) {
3390e5dd7070Spatrick if (Culprit)
3391e5dd7070Spatrick *Culprit = this;
3392e5dd7070Spatrick return false;
3393e5dd7070Spatrick }
3394e5dd7070Spatrick return cast<ChooseExpr>(this)->getChosenSubExpr()
3395e5dd7070Spatrick ->isConstantInitializer(Ctx, IsForRef, Culprit);
3396e5dd7070Spatrick case UnaryOperatorClass: {
3397e5dd7070Spatrick const UnaryOperator* Exp = cast<UnaryOperator>(this);
3398e5dd7070Spatrick if (Exp->getOpcode() == UO_Extension)
3399e5dd7070Spatrick return Exp->getSubExpr()->isConstantInitializer(Ctx, false, Culprit);
3400e5dd7070Spatrick break;
3401e5dd7070Spatrick }
3402e5dd7070Spatrick case CXXFunctionalCastExprClass:
3403e5dd7070Spatrick case CXXStaticCastExprClass:
3404e5dd7070Spatrick case ImplicitCastExprClass:
3405e5dd7070Spatrick case CStyleCastExprClass:
3406e5dd7070Spatrick case ObjCBridgedCastExprClass:
3407e5dd7070Spatrick case CXXDynamicCastExprClass:
3408e5dd7070Spatrick case CXXReinterpretCastExprClass:
3409ec727ea7Spatrick case CXXAddrspaceCastExprClass:
3410e5dd7070Spatrick case CXXConstCastExprClass: {
3411e5dd7070Spatrick const CastExpr *CE = cast<CastExpr>(this);
3412e5dd7070Spatrick
3413e5dd7070Spatrick // Handle misc casts we want to ignore.
3414e5dd7070Spatrick if (CE->getCastKind() == CK_NoOp ||
3415e5dd7070Spatrick CE->getCastKind() == CK_LValueToRValue ||
3416e5dd7070Spatrick CE->getCastKind() == CK_ToUnion ||
3417e5dd7070Spatrick CE->getCastKind() == CK_ConstructorConversion ||
3418e5dd7070Spatrick CE->getCastKind() == CK_NonAtomicToAtomic ||
3419e5dd7070Spatrick CE->getCastKind() == CK_AtomicToNonAtomic ||
3420e5dd7070Spatrick CE->getCastKind() == CK_IntToOCLSampler)
3421e5dd7070Spatrick return CE->getSubExpr()->isConstantInitializer(Ctx, false, Culprit);
3422e5dd7070Spatrick
3423e5dd7070Spatrick break;
3424e5dd7070Spatrick }
3425e5dd7070Spatrick case MaterializeTemporaryExprClass:
3426e5dd7070Spatrick return cast<MaterializeTemporaryExpr>(this)
3427e5dd7070Spatrick ->getSubExpr()
3428e5dd7070Spatrick ->isConstantInitializer(Ctx, false, Culprit);
3429e5dd7070Spatrick
3430e5dd7070Spatrick case SubstNonTypeTemplateParmExprClass:
3431e5dd7070Spatrick return cast<SubstNonTypeTemplateParmExpr>(this)->getReplacement()
3432e5dd7070Spatrick ->isConstantInitializer(Ctx, false, Culprit);
3433e5dd7070Spatrick case CXXDefaultArgExprClass:
3434e5dd7070Spatrick return cast<CXXDefaultArgExpr>(this)->getExpr()
3435e5dd7070Spatrick ->isConstantInitializer(Ctx, false, Culprit);
3436e5dd7070Spatrick case CXXDefaultInitExprClass:
3437e5dd7070Spatrick return cast<CXXDefaultInitExpr>(this)->getExpr()
3438e5dd7070Spatrick ->isConstantInitializer(Ctx, false, Culprit);
3439e5dd7070Spatrick }
3440e5dd7070Spatrick // Allow certain forms of UB in constant initializers: signed integer
3441e5dd7070Spatrick // overflow and floating-point division by zero. We'll give a warning on
3442e5dd7070Spatrick // these, but they're common enough that we have to accept them.
3443e5dd7070Spatrick if (isEvaluatable(Ctx, SE_AllowUndefinedBehavior))
3444e5dd7070Spatrick return true;
3445e5dd7070Spatrick if (Culprit)
3446e5dd7070Spatrick *Culprit = this;
3447e5dd7070Spatrick return false;
3448e5dd7070Spatrick }
3449e5dd7070Spatrick
isBuiltinAssumeFalse(const ASTContext & Ctx) const3450e5dd7070Spatrick bool CallExpr::isBuiltinAssumeFalse(const ASTContext &Ctx) const {
3451*12c85518Srobert unsigned BuiltinID = getBuiltinCallee();
3452*12c85518Srobert if (BuiltinID != Builtin::BI__assume &&
3453*12c85518Srobert BuiltinID != Builtin::BI__builtin_assume)
3454e5dd7070Spatrick return false;
3455e5dd7070Spatrick
3456e5dd7070Spatrick const Expr* Arg = getArg(0);
3457e5dd7070Spatrick bool ArgVal;
3458e5dd7070Spatrick return !Arg->isValueDependent() &&
3459e5dd7070Spatrick Arg->EvaluateAsBooleanCondition(ArgVal, Ctx) && !ArgVal;
3460e5dd7070Spatrick }
3461e5dd7070Spatrick
isCallToStdMove() const3462*12c85518Srobert bool CallExpr::isCallToStdMove() const {
3463*12c85518Srobert return getBuiltinCallee() == Builtin::BImove;
3464*12c85518Srobert }
3465*12c85518Srobert
3466e5dd7070Spatrick namespace {
3467e5dd7070Spatrick /// Look for any side effects within a Stmt.
3468e5dd7070Spatrick class SideEffectFinder : public ConstEvaluatedExprVisitor<SideEffectFinder> {
3469e5dd7070Spatrick typedef ConstEvaluatedExprVisitor<SideEffectFinder> Inherited;
3470e5dd7070Spatrick const bool IncludePossibleEffects;
3471e5dd7070Spatrick bool HasSideEffects;
3472e5dd7070Spatrick
3473e5dd7070Spatrick public:
SideEffectFinder(const ASTContext & Context,bool IncludePossible)3474e5dd7070Spatrick explicit SideEffectFinder(const ASTContext &Context, bool IncludePossible)
3475e5dd7070Spatrick : Inherited(Context),
3476e5dd7070Spatrick IncludePossibleEffects(IncludePossible), HasSideEffects(false) { }
3477e5dd7070Spatrick
hasSideEffects() const3478e5dd7070Spatrick bool hasSideEffects() const { return HasSideEffects; }
3479e5dd7070Spatrick
VisitDecl(const Decl * D)3480ec727ea7Spatrick void VisitDecl(const Decl *D) {
3481ec727ea7Spatrick if (!D)
3482ec727ea7Spatrick return;
3483ec727ea7Spatrick
3484ec727ea7Spatrick // We assume the caller checks subexpressions (eg, the initializer, VLA
3485ec727ea7Spatrick // bounds) for side-effects on our behalf.
3486ec727ea7Spatrick if (auto *VD = dyn_cast<VarDecl>(D)) {
3487ec727ea7Spatrick // Registering a destructor is a side-effect.
3488ec727ea7Spatrick if (IncludePossibleEffects && VD->isThisDeclarationADefinition() &&
3489ec727ea7Spatrick VD->needsDestruction(Context))
3490ec727ea7Spatrick HasSideEffects = true;
3491ec727ea7Spatrick }
3492ec727ea7Spatrick }
3493ec727ea7Spatrick
VisitDeclStmt(const DeclStmt * DS)3494ec727ea7Spatrick void VisitDeclStmt(const DeclStmt *DS) {
3495ec727ea7Spatrick for (auto *D : DS->decls())
3496ec727ea7Spatrick VisitDecl(D);
3497ec727ea7Spatrick Inherited::VisitDeclStmt(DS);
3498ec727ea7Spatrick }
3499ec727ea7Spatrick
VisitExpr(const Expr * E)3500e5dd7070Spatrick void VisitExpr(const Expr *E) {
3501e5dd7070Spatrick if (!HasSideEffects &&
3502e5dd7070Spatrick E->HasSideEffects(Context, IncludePossibleEffects))
3503e5dd7070Spatrick HasSideEffects = true;
3504e5dd7070Spatrick }
3505e5dd7070Spatrick };
3506e5dd7070Spatrick }
3507e5dd7070Spatrick
HasSideEffects(const ASTContext & Ctx,bool IncludePossibleEffects) const3508e5dd7070Spatrick bool Expr::HasSideEffects(const ASTContext &Ctx,
3509e5dd7070Spatrick bool IncludePossibleEffects) const {
3510e5dd7070Spatrick // In circumstances where we care about definite side effects instead of
3511e5dd7070Spatrick // potential side effects, we want to ignore expressions that are part of a
3512e5dd7070Spatrick // macro expansion as a potential side effect.
3513e5dd7070Spatrick if (!IncludePossibleEffects && getExprLoc().isMacroID())
3514e5dd7070Spatrick return false;
3515e5dd7070Spatrick
3516e5dd7070Spatrick switch (getStmtClass()) {
3517e5dd7070Spatrick case NoStmtClass:
3518e5dd7070Spatrick #define ABSTRACT_STMT(Type)
3519e5dd7070Spatrick #define STMT(Type, Base) case Type##Class:
3520e5dd7070Spatrick #define EXPR(Type, Base)
3521e5dd7070Spatrick #include "clang/AST/StmtNodes.inc"
3522e5dd7070Spatrick llvm_unreachable("unexpected Expr kind");
3523e5dd7070Spatrick
3524e5dd7070Spatrick case DependentScopeDeclRefExprClass:
3525e5dd7070Spatrick case CXXUnresolvedConstructExprClass:
3526e5dd7070Spatrick case CXXDependentScopeMemberExprClass:
3527e5dd7070Spatrick case UnresolvedLookupExprClass:
3528e5dd7070Spatrick case UnresolvedMemberExprClass:
3529e5dd7070Spatrick case PackExpansionExprClass:
3530e5dd7070Spatrick case SubstNonTypeTemplateParmPackExprClass:
3531e5dd7070Spatrick case FunctionParmPackExprClass:
3532e5dd7070Spatrick case TypoExprClass:
3533ec727ea7Spatrick case RecoveryExprClass:
3534e5dd7070Spatrick case CXXFoldExprClass:
3535a9ac8606Spatrick // Make a conservative assumption for dependent nodes.
3536a9ac8606Spatrick return IncludePossibleEffects;
3537e5dd7070Spatrick
3538e5dd7070Spatrick case DeclRefExprClass:
3539e5dd7070Spatrick case ObjCIvarRefExprClass:
3540e5dd7070Spatrick case PredefinedExprClass:
3541e5dd7070Spatrick case IntegerLiteralClass:
3542e5dd7070Spatrick case FixedPointLiteralClass:
3543e5dd7070Spatrick case FloatingLiteralClass:
3544e5dd7070Spatrick case ImaginaryLiteralClass:
3545e5dd7070Spatrick case StringLiteralClass:
3546e5dd7070Spatrick case CharacterLiteralClass:
3547e5dd7070Spatrick case OffsetOfExprClass:
3548e5dd7070Spatrick case ImplicitValueInitExprClass:
3549e5dd7070Spatrick case UnaryExprOrTypeTraitExprClass:
3550e5dd7070Spatrick case AddrLabelExprClass:
3551e5dd7070Spatrick case GNUNullExprClass:
3552e5dd7070Spatrick case ArrayInitIndexExprClass:
3553e5dd7070Spatrick case NoInitExprClass:
3554e5dd7070Spatrick case CXXBoolLiteralExprClass:
3555e5dd7070Spatrick case CXXNullPtrLiteralExprClass:
3556e5dd7070Spatrick case CXXThisExprClass:
3557e5dd7070Spatrick case CXXScalarValueInitExprClass:
3558e5dd7070Spatrick case TypeTraitExprClass:
3559e5dd7070Spatrick case ArrayTypeTraitExprClass:
3560e5dd7070Spatrick case ExpressionTraitExprClass:
3561e5dd7070Spatrick case CXXNoexceptExprClass:
3562e5dd7070Spatrick case SizeOfPackExprClass:
3563e5dd7070Spatrick case ObjCStringLiteralClass:
3564e5dd7070Spatrick case ObjCEncodeExprClass:
3565e5dd7070Spatrick case ObjCBoolLiteralExprClass:
3566e5dd7070Spatrick case ObjCAvailabilityCheckExprClass:
3567e5dd7070Spatrick case CXXUuidofExprClass:
3568e5dd7070Spatrick case OpaqueValueExprClass:
3569e5dd7070Spatrick case SourceLocExprClass:
3570e5dd7070Spatrick case ConceptSpecializationExprClass:
3571e5dd7070Spatrick case RequiresExprClass:
3572a9ac8606Spatrick case SYCLUniqueStableNameExprClass:
3573e5dd7070Spatrick // These never have a side-effect.
3574e5dd7070Spatrick return false;
3575e5dd7070Spatrick
3576e5dd7070Spatrick case ConstantExprClass:
3577e5dd7070Spatrick // FIXME: Move this into the "return false;" block above.
3578e5dd7070Spatrick return cast<ConstantExpr>(this)->getSubExpr()->HasSideEffects(
3579e5dd7070Spatrick Ctx, IncludePossibleEffects);
3580e5dd7070Spatrick
3581e5dd7070Spatrick case CallExprClass:
3582e5dd7070Spatrick case CXXOperatorCallExprClass:
3583e5dd7070Spatrick case CXXMemberCallExprClass:
3584e5dd7070Spatrick case CUDAKernelCallExprClass:
3585e5dd7070Spatrick case UserDefinedLiteralClass: {
3586e5dd7070Spatrick // We don't know a call definitely has side effects, except for calls
3587e5dd7070Spatrick // to pure/const functions that definitely don't.
3588e5dd7070Spatrick // If the call itself is considered side-effect free, check the operands.
3589e5dd7070Spatrick const Decl *FD = cast<CallExpr>(this)->getCalleeDecl();
3590e5dd7070Spatrick bool IsPure = FD && (FD->hasAttr<ConstAttr>() || FD->hasAttr<PureAttr>());
3591e5dd7070Spatrick if (IsPure || !IncludePossibleEffects)
3592e5dd7070Spatrick break;
3593e5dd7070Spatrick return true;
3594e5dd7070Spatrick }
3595e5dd7070Spatrick
3596e5dd7070Spatrick case BlockExprClass:
3597e5dd7070Spatrick case CXXBindTemporaryExprClass:
3598e5dd7070Spatrick if (!IncludePossibleEffects)
3599e5dd7070Spatrick break;
3600e5dd7070Spatrick return true;
3601e5dd7070Spatrick
3602e5dd7070Spatrick case MSPropertyRefExprClass:
3603e5dd7070Spatrick case MSPropertySubscriptExprClass:
3604e5dd7070Spatrick case CompoundAssignOperatorClass:
3605e5dd7070Spatrick case VAArgExprClass:
3606e5dd7070Spatrick case AtomicExprClass:
3607e5dd7070Spatrick case CXXThrowExprClass:
3608e5dd7070Spatrick case CXXNewExprClass:
3609e5dd7070Spatrick case CXXDeleteExprClass:
3610e5dd7070Spatrick case CoawaitExprClass:
3611e5dd7070Spatrick case DependentCoawaitExprClass:
3612e5dd7070Spatrick case CoyieldExprClass:
3613e5dd7070Spatrick // These always have a side-effect.
3614e5dd7070Spatrick return true;
3615e5dd7070Spatrick
3616e5dd7070Spatrick case StmtExprClass: {
3617e5dd7070Spatrick // StmtExprs have a side-effect if any substatement does.
3618e5dd7070Spatrick SideEffectFinder Finder(Ctx, IncludePossibleEffects);
3619e5dd7070Spatrick Finder.Visit(cast<StmtExpr>(this)->getSubStmt());
3620e5dd7070Spatrick return Finder.hasSideEffects();
3621e5dd7070Spatrick }
3622e5dd7070Spatrick
3623e5dd7070Spatrick case ExprWithCleanupsClass:
3624e5dd7070Spatrick if (IncludePossibleEffects)
3625e5dd7070Spatrick if (cast<ExprWithCleanups>(this)->cleanupsHaveSideEffects())
3626e5dd7070Spatrick return true;
3627e5dd7070Spatrick break;
3628e5dd7070Spatrick
3629e5dd7070Spatrick case ParenExprClass:
3630e5dd7070Spatrick case ArraySubscriptExprClass:
3631ec727ea7Spatrick case MatrixSubscriptExprClass:
3632e5dd7070Spatrick case OMPArraySectionExprClass:
3633ec727ea7Spatrick case OMPArrayShapingExprClass:
3634ec727ea7Spatrick case OMPIteratorExprClass:
3635e5dd7070Spatrick case MemberExprClass:
3636e5dd7070Spatrick case ConditionalOperatorClass:
3637e5dd7070Spatrick case BinaryConditionalOperatorClass:
3638e5dd7070Spatrick case CompoundLiteralExprClass:
3639e5dd7070Spatrick case ExtVectorElementExprClass:
3640e5dd7070Spatrick case DesignatedInitExprClass:
3641e5dd7070Spatrick case DesignatedInitUpdateExprClass:
3642e5dd7070Spatrick case ArrayInitLoopExprClass:
3643e5dd7070Spatrick case ParenListExprClass:
3644e5dd7070Spatrick case CXXPseudoDestructorExprClass:
3645e5dd7070Spatrick case CXXRewrittenBinaryOperatorClass:
3646e5dd7070Spatrick case CXXStdInitializerListExprClass:
3647e5dd7070Spatrick case SubstNonTypeTemplateParmExprClass:
3648e5dd7070Spatrick case MaterializeTemporaryExprClass:
3649e5dd7070Spatrick case ShuffleVectorExprClass:
3650e5dd7070Spatrick case ConvertVectorExprClass:
3651e5dd7070Spatrick case AsTypeExprClass:
3652*12c85518Srobert case CXXParenListInitExprClass:
3653e5dd7070Spatrick // These have a side-effect if any subexpression does.
3654e5dd7070Spatrick break;
3655e5dd7070Spatrick
3656e5dd7070Spatrick case UnaryOperatorClass:
3657e5dd7070Spatrick if (cast<UnaryOperator>(this)->isIncrementDecrementOp())
3658e5dd7070Spatrick return true;
3659e5dd7070Spatrick break;
3660e5dd7070Spatrick
3661e5dd7070Spatrick case BinaryOperatorClass:
3662e5dd7070Spatrick if (cast<BinaryOperator>(this)->isAssignmentOp())
3663e5dd7070Spatrick return true;
3664e5dd7070Spatrick break;
3665e5dd7070Spatrick
3666e5dd7070Spatrick case InitListExprClass:
3667e5dd7070Spatrick // FIXME: The children for an InitListExpr doesn't include the array filler.
3668e5dd7070Spatrick if (const Expr *E = cast<InitListExpr>(this)->getArrayFiller())
3669e5dd7070Spatrick if (E->HasSideEffects(Ctx, IncludePossibleEffects))
3670e5dd7070Spatrick return true;
3671e5dd7070Spatrick break;
3672e5dd7070Spatrick
3673e5dd7070Spatrick case GenericSelectionExprClass:
3674e5dd7070Spatrick return cast<GenericSelectionExpr>(this)->getResultExpr()->
3675e5dd7070Spatrick HasSideEffects(Ctx, IncludePossibleEffects);
3676e5dd7070Spatrick
3677e5dd7070Spatrick case ChooseExprClass:
3678e5dd7070Spatrick return cast<ChooseExpr>(this)->getChosenSubExpr()->HasSideEffects(
3679e5dd7070Spatrick Ctx, IncludePossibleEffects);
3680e5dd7070Spatrick
3681e5dd7070Spatrick case CXXDefaultArgExprClass:
3682e5dd7070Spatrick return cast<CXXDefaultArgExpr>(this)->getExpr()->HasSideEffects(
3683e5dd7070Spatrick Ctx, IncludePossibleEffects);
3684e5dd7070Spatrick
3685e5dd7070Spatrick case CXXDefaultInitExprClass: {
3686e5dd7070Spatrick const FieldDecl *FD = cast<CXXDefaultInitExpr>(this)->getField();
3687e5dd7070Spatrick if (const Expr *E = FD->getInClassInitializer())
3688e5dd7070Spatrick return E->HasSideEffects(Ctx, IncludePossibleEffects);
3689e5dd7070Spatrick // If we've not yet parsed the initializer, assume it has side-effects.
3690e5dd7070Spatrick return true;
3691e5dd7070Spatrick }
3692e5dd7070Spatrick
3693e5dd7070Spatrick case CXXDynamicCastExprClass: {
3694e5dd7070Spatrick // A dynamic_cast expression has side-effects if it can throw.
3695e5dd7070Spatrick const CXXDynamicCastExpr *DCE = cast<CXXDynamicCastExpr>(this);
3696e5dd7070Spatrick if (DCE->getTypeAsWritten()->isReferenceType() &&
3697e5dd7070Spatrick DCE->getCastKind() == CK_Dynamic)
3698e5dd7070Spatrick return true;
3699e5dd7070Spatrick }
3700*12c85518Srobert [[fallthrough]];
3701e5dd7070Spatrick case ImplicitCastExprClass:
3702e5dd7070Spatrick case CStyleCastExprClass:
3703e5dd7070Spatrick case CXXStaticCastExprClass:
3704e5dd7070Spatrick case CXXReinterpretCastExprClass:
3705e5dd7070Spatrick case CXXConstCastExprClass:
3706ec727ea7Spatrick case CXXAddrspaceCastExprClass:
3707e5dd7070Spatrick case CXXFunctionalCastExprClass:
3708e5dd7070Spatrick case BuiltinBitCastExprClass: {
3709e5dd7070Spatrick // While volatile reads are side-effecting in both C and C++, we treat them
3710e5dd7070Spatrick // as having possible (not definite) side-effects. This allows idiomatic
3711e5dd7070Spatrick // code to behave without warning, such as sizeof(*v) for a volatile-
3712e5dd7070Spatrick // qualified pointer.
3713e5dd7070Spatrick if (!IncludePossibleEffects)
3714e5dd7070Spatrick break;
3715e5dd7070Spatrick
3716e5dd7070Spatrick const CastExpr *CE = cast<CastExpr>(this);
3717e5dd7070Spatrick if (CE->getCastKind() == CK_LValueToRValue &&
3718e5dd7070Spatrick CE->getSubExpr()->getType().isVolatileQualified())
3719e5dd7070Spatrick return true;
3720e5dd7070Spatrick break;
3721e5dd7070Spatrick }
3722e5dd7070Spatrick
3723e5dd7070Spatrick case CXXTypeidExprClass:
3724e5dd7070Spatrick // typeid might throw if its subexpression is potentially-evaluated, so has
3725e5dd7070Spatrick // side-effects in that case whether or not its subexpression does.
3726e5dd7070Spatrick return cast<CXXTypeidExpr>(this)->isPotentiallyEvaluated();
3727e5dd7070Spatrick
3728e5dd7070Spatrick case CXXConstructExprClass:
3729e5dd7070Spatrick case CXXTemporaryObjectExprClass: {
3730e5dd7070Spatrick const CXXConstructExpr *CE = cast<CXXConstructExpr>(this);
3731e5dd7070Spatrick if (!CE->getConstructor()->isTrivial() && IncludePossibleEffects)
3732e5dd7070Spatrick return true;
3733e5dd7070Spatrick // A trivial constructor does not add any side-effects of its own. Just look
3734e5dd7070Spatrick // at its arguments.
3735e5dd7070Spatrick break;
3736e5dd7070Spatrick }
3737e5dd7070Spatrick
3738e5dd7070Spatrick case CXXInheritedCtorInitExprClass: {
3739e5dd7070Spatrick const auto *ICIE = cast<CXXInheritedCtorInitExpr>(this);
3740e5dd7070Spatrick if (!ICIE->getConstructor()->isTrivial() && IncludePossibleEffects)
3741e5dd7070Spatrick return true;
3742e5dd7070Spatrick break;
3743e5dd7070Spatrick }
3744e5dd7070Spatrick
3745e5dd7070Spatrick case LambdaExprClass: {
3746e5dd7070Spatrick const LambdaExpr *LE = cast<LambdaExpr>(this);
3747e5dd7070Spatrick for (Expr *E : LE->capture_inits())
3748ec727ea7Spatrick if (E && E->HasSideEffects(Ctx, IncludePossibleEffects))
3749e5dd7070Spatrick return true;
3750e5dd7070Spatrick return false;
3751e5dd7070Spatrick }
3752e5dd7070Spatrick
3753e5dd7070Spatrick case PseudoObjectExprClass: {
3754e5dd7070Spatrick // Only look for side-effects in the semantic form, and look past
3755e5dd7070Spatrick // OpaqueValueExpr bindings in that form.
3756e5dd7070Spatrick const PseudoObjectExpr *PO = cast<PseudoObjectExpr>(this);
3757e5dd7070Spatrick for (PseudoObjectExpr::const_semantics_iterator I = PO->semantics_begin(),
3758e5dd7070Spatrick E = PO->semantics_end();
3759e5dd7070Spatrick I != E; ++I) {
3760e5dd7070Spatrick const Expr *Subexpr = *I;
3761e5dd7070Spatrick if (const OpaqueValueExpr *OVE = dyn_cast<OpaqueValueExpr>(Subexpr))
3762e5dd7070Spatrick Subexpr = OVE->getSourceExpr();
3763e5dd7070Spatrick if (Subexpr->HasSideEffects(Ctx, IncludePossibleEffects))
3764e5dd7070Spatrick return true;
3765e5dd7070Spatrick }
3766e5dd7070Spatrick return false;
3767e5dd7070Spatrick }
3768e5dd7070Spatrick
3769e5dd7070Spatrick case ObjCBoxedExprClass:
3770e5dd7070Spatrick case ObjCArrayLiteralClass:
3771e5dd7070Spatrick case ObjCDictionaryLiteralClass:
3772e5dd7070Spatrick case ObjCSelectorExprClass:
3773e5dd7070Spatrick case ObjCProtocolExprClass:
3774e5dd7070Spatrick case ObjCIsaExprClass:
3775e5dd7070Spatrick case ObjCIndirectCopyRestoreExprClass:
3776e5dd7070Spatrick case ObjCSubscriptRefExprClass:
3777e5dd7070Spatrick case ObjCBridgedCastExprClass:
3778e5dd7070Spatrick case ObjCMessageExprClass:
3779e5dd7070Spatrick case ObjCPropertyRefExprClass:
3780e5dd7070Spatrick // FIXME: Classify these cases better.
3781e5dd7070Spatrick if (IncludePossibleEffects)
3782e5dd7070Spatrick return true;
3783e5dd7070Spatrick break;
3784e5dd7070Spatrick }
3785e5dd7070Spatrick
3786e5dd7070Spatrick // Recurse to children.
3787e5dd7070Spatrick for (const Stmt *SubStmt : children())
3788e5dd7070Spatrick if (SubStmt &&
3789e5dd7070Spatrick cast<Expr>(SubStmt)->HasSideEffects(Ctx, IncludePossibleEffects))
3790e5dd7070Spatrick return true;
3791e5dd7070Spatrick
3792e5dd7070Spatrick return false;
3793e5dd7070Spatrick }
3794e5dd7070Spatrick
getFPFeaturesInEffect(const LangOptions & LO) const3795a9ac8606Spatrick FPOptions Expr::getFPFeaturesInEffect(const LangOptions &LO) const {
3796a9ac8606Spatrick if (auto Call = dyn_cast<CallExpr>(this))
3797a9ac8606Spatrick return Call->getFPFeaturesInEffect(LO);
3798a9ac8606Spatrick if (auto UO = dyn_cast<UnaryOperator>(this))
3799a9ac8606Spatrick return UO->getFPFeaturesInEffect(LO);
3800a9ac8606Spatrick if (auto BO = dyn_cast<BinaryOperator>(this))
3801a9ac8606Spatrick return BO->getFPFeaturesInEffect(LO);
3802a9ac8606Spatrick if (auto Cast = dyn_cast<CastExpr>(this))
3803a9ac8606Spatrick return Cast->getFPFeaturesInEffect(LO);
3804a9ac8606Spatrick return FPOptions::defaultWithoutTrailingStorage(LO);
3805a9ac8606Spatrick }
3806a9ac8606Spatrick
3807e5dd7070Spatrick namespace {
3808e5dd7070Spatrick /// Look for a call to a non-trivial function within an expression.
3809e5dd7070Spatrick class NonTrivialCallFinder : public ConstEvaluatedExprVisitor<NonTrivialCallFinder>
3810e5dd7070Spatrick {
3811e5dd7070Spatrick typedef ConstEvaluatedExprVisitor<NonTrivialCallFinder> Inherited;
3812e5dd7070Spatrick
3813e5dd7070Spatrick bool NonTrivial;
3814e5dd7070Spatrick
3815e5dd7070Spatrick public:
NonTrivialCallFinder(const ASTContext & Context)3816e5dd7070Spatrick explicit NonTrivialCallFinder(const ASTContext &Context)
3817e5dd7070Spatrick : Inherited(Context), NonTrivial(false) { }
3818e5dd7070Spatrick
hasNonTrivialCall() const3819e5dd7070Spatrick bool hasNonTrivialCall() const { return NonTrivial; }
3820e5dd7070Spatrick
VisitCallExpr(const CallExpr * E)3821e5dd7070Spatrick void VisitCallExpr(const CallExpr *E) {
3822e5dd7070Spatrick if (const CXXMethodDecl *Method
3823e5dd7070Spatrick = dyn_cast_or_null<const CXXMethodDecl>(E->getCalleeDecl())) {
3824e5dd7070Spatrick if (Method->isTrivial()) {
3825e5dd7070Spatrick // Recurse to children of the call.
3826e5dd7070Spatrick Inherited::VisitStmt(E);
3827e5dd7070Spatrick return;
3828e5dd7070Spatrick }
3829e5dd7070Spatrick }
3830e5dd7070Spatrick
3831e5dd7070Spatrick NonTrivial = true;
3832e5dd7070Spatrick }
3833e5dd7070Spatrick
VisitCXXConstructExpr(const CXXConstructExpr * E)3834e5dd7070Spatrick void VisitCXXConstructExpr(const CXXConstructExpr *E) {
3835e5dd7070Spatrick if (E->getConstructor()->isTrivial()) {
3836e5dd7070Spatrick // Recurse to children of the call.
3837e5dd7070Spatrick Inherited::VisitStmt(E);
3838e5dd7070Spatrick return;
3839e5dd7070Spatrick }
3840e5dd7070Spatrick
3841e5dd7070Spatrick NonTrivial = true;
3842e5dd7070Spatrick }
3843e5dd7070Spatrick
VisitCXXBindTemporaryExpr(const CXXBindTemporaryExpr * E)3844e5dd7070Spatrick void VisitCXXBindTemporaryExpr(const CXXBindTemporaryExpr *E) {
3845e5dd7070Spatrick if (E->getTemporary()->getDestructor()->isTrivial()) {
3846e5dd7070Spatrick Inherited::VisitStmt(E);
3847e5dd7070Spatrick return;
3848e5dd7070Spatrick }
3849e5dd7070Spatrick
3850e5dd7070Spatrick NonTrivial = true;
3851e5dd7070Spatrick }
3852e5dd7070Spatrick };
3853e5dd7070Spatrick }
3854e5dd7070Spatrick
hasNonTrivialCall(const ASTContext & Ctx) const3855e5dd7070Spatrick bool Expr::hasNonTrivialCall(const ASTContext &Ctx) const {
3856e5dd7070Spatrick NonTrivialCallFinder Finder(Ctx);
3857e5dd7070Spatrick Finder.Visit(this);
3858e5dd7070Spatrick return Finder.hasNonTrivialCall();
3859e5dd7070Spatrick }
3860e5dd7070Spatrick
3861e5dd7070Spatrick /// isNullPointerConstant - C99 6.3.2.3p3 - Return whether this is a null
3862e5dd7070Spatrick /// pointer constant or not, as well as the specific kind of constant detected.
3863e5dd7070Spatrick /// Null pointer constants can be integer constant expressions with the
3864e5dd7070Spatrick /// value zero, casts of zero to void*, nullptr (C++0X), or __null
3865e5dd7070Spatrick /// (a GNU extension).
3866e5dd7070Spatrick Expr::NullPointerConstantKind
isNullPointerConstant(ASTContext & Ctx,NullPointerConstantValueDependence NPC) const3867e5dd7070Spatrick Expr::isNullPointerConstant(ASTContext &Ctx,
3868e5dd7070Spatrick NullPointerConstantValueDependence NPC) const {
3869e5dd7070Spatrick if (isValueDependent() &&
3870e5dd7070Spatrick (!Ctx.getLangOpts().CPlusPlus11 || Ctx.getLangOpts().MSVCCompat)) {
3871a9ac8606Spatrick // Error-dependent expr should never be a null pointer.
3872a9ac8606Spatrick if (containsErrors())
3873a9ac8606Spatrick return NPCK_NotNull;
3874e5dd7070Spatrick switch (NPC) {
3875e5dd7070Spatrick case NPC_NeverValueDependent:
3876e5dd7070Spatrick llvm_unreachable("Unexpected value dependent expression!");
3877e5dd7070Spatrick case NPC_ValueDependentIsNull:
3878e5dd7070Spatrick if (isTypeDependent() || getType()->isIntegralType(Ctx))
3879e5dd7070Spatrick return NPCK_ZeroExpression;
3880e5dd7070Spatrick else
3881e5dd7070Spatrick return NPCK_NotNull;
3882e5dd7070Spatrick
3883e5dd7070Spatrick case NPC_ValueDependentIsNotNull:
3884e5dd7070Spatrick return NPCK_NotNull;
3885e5dd7070Spatrick }
3886e5dd7070Spatrick }
3887e5dd7070Spatrick
3888e5dd7070Spatrick // Strip off a cast to void*, if it exists. Except in C++.
3889e5dd7070Spatrick if (const ExplicitCastExpr *CE = dyn_cast<ExplicitCastExpr>(this)) {
3890e5dd7070Spatrick if (!Ctx.getLangOpts().CPlusPlus) {
3891e5dd7070Spatrick // Check that it is a cast to void*.
3892e5dd7070Spatrick if (const PointerType *PT = CE->getType()->getAs<PointerType>()) {
3893e5dd7070Spatrick QualType Pointee = PT->getPointeeType();
3894e5dd7070Spatrick Qualifiers Qs = Pointee.getQualifiers();
3895e5dd7070Spatrick // Only (void*)0 or equivalent are treated as nullptr. If pointee type
3896e5dd7070Spatrick // has non-default address space it is not treated as nullptr.
3897e5dd7070Spatrick // (__generic void*)0 in OpenCL 2.0 should not be treated as nullptr
3898e5dd7070Spatrick // since it cannot be assigned to a pointer to constant address space.
3899*12c85518Srobert if (Ctx.getLangOpts().OpenCL &&
3900*12c85518Srobert Pointee.getAddressSpace() == Ctx.getDefaultOpenCLPointeeAddrSpace())
3901e5dd7070Spatrick Qs.removeAddressSpace();
3902e5dd7070Spatrick
3903e5dd7070Spatrick if (Pointee->isVoidType() && Qs.empty() && // to void*
3904e5dd7070Spatrick CE->getSubExpr()->getType()->isIntegerType()) // from int
3905e5dd7070Spatrick return CE->getSubExpr()->isNullPointerConstant(Ctx, NPC);
3906e5dd7070Spatrick }
3907e5dd7070Spatrick }
3908e5dd7070Spatrick } else if (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(this)) {
3909e5dd7070Spatrick // Ignore the ImplicitCastExpr type entirely.
3910e5dd7070Spatrick return ICE->getSubExpr()->isNullPointerConstant(Ctx, NPC);
3911e5dd7070Spatrick } else if (const ParenExpr *PE = dyn_cast<ParenExpr>(this)) {
3912e5dd7070Spatrick // Accept ((void*)0) as a null pointer constant, as many other
3913e5dd7070Spatrick // implementations do.
3914e5dd7070Spatrick return PE->getSubExpr()->isNullPointerConstant(Ctx, NPC);
3915e5dd7070Spatrick } else if (const GenericSelectionExpr *GE =
3916e5dd7070Spatrick dyn_cast<GenericSelectionExpr>(this)) {
3917e5dd7070Spatrick if (GE->isResultDependent())
3918e5dd7070Spatrick return NPCK_NotNull;
3919e5dd7070Spatrick return GE->getResultExpr()->isNullPointerConstant(Ctx, NPC);
3920e5dd7070Spatrick } else if (const ChooseExpr *CE = dyn_cast<ChooseExpr>(this)) {
3921e5dd7070Spatrick if (CE->isConditionDependent())
3922e5dd7070Spatrick return NPCK_NotNull;
3923e5dd7070Spatrick return CE->getChosenSubExpr()->isNullPointerConstant(Ctx, NPC);
3924e5dd7070Spatrick } else if (const CXXDefaultArgExpr *DefaultArg
3925e5dd7070Spatrick = dyn_cast<CXXDefaultArgExpr>(this)) {
3926e5dd7070Spatrick // See through default argument expressions.
3927e5dd7070Spatrick return DefaultArg->getExpr()->isNullPointerConstant(Ctx, NPC);
3928e5dd7070Spatrick } else if (const CXXDefaultInitExpr *DefaultInit
3929e5dd7070Spatrick = dyn_cast<CXXDefaultInitExpr>(this)) {
3930e5dd7070Spatrick // See through default initializer expressions.
3931e5dd7070Spatrick return DefaultInit->getExpr()->isNullPointerConstant(Ctx, NPC);
3932e5dd7070Spatrick } else if (isa<GNUNullExpr>(this)) {
3933e5dd7070Spatrick // The GNU __null extension is always a null pointer constant.
3934e5dd7070Spatrick return NPCK_GNUNull;
3935e5dd7070Spatrick } else if (const MaterializeTemporaryExpr *M
3936e5dd7070Spatrick = dyn_cast<MaterializeTemporaryExpr>(this)) {
3937e5dd7070Spatrick return M->getSubExpr()->isNullPointerConstant(Ctx, NPC);
3938e5dd7070Spatrick } else if (const OpaqueValueExpr *OVE = dyn_cast<OpaqueValueExpr>(this)) {
3939e5dd7070Spatrick if (const Expr *Source = OVE->getSourceExpr())
3940e5dd7070Spatrick return Source->isNullPointerConstant(Ctx, NPC);
3941e5dd7070Spatrick }
3942e5dd7070Spatrick
3943ec727ea7Spatrick // If the expression has no type information, it cannot be a null pointer
3944ec727ea7Spatrick // constant.
3945ec727ea7Spatrick if (getType().isNull())
3946ec727ea7Spatrick return NPCK_NotNull;
3947ec727ea7Spatrick
3948*12c85518Srobert // C++11/C2x nullptr_t is always a null pointer constant.
3949e5dd7070Spatrick if (getType()->isNullPtrType())
3950e5dd7070Spatrick return NPCK_CXX11_nullptr;
3951e5dd7070Spatrick
3952e5dd7070Spatrick if (const RecordType *UT = getType()->getAsUnionType())
3953e5dd7070Spatrick if (!Ctx.getLangOpts().CPlusPlus11 &&
3954e5dd7070Spatrick UT && UT->getDecl()->hasAttr<TransparentUnionAttr>())
3955e5dd7070Spatrick if (const CompoundLiteralExpr *CLE = dyn_cast<CompoundLiteralExpr>(this)){
3956e5dd7070Spatrick const Expr *InitExpr = CLE->getInitializer();
3957e5dd7070Spatrick if (const InitListExpr *ILE = dyn_cast<InitListExpr>(InitExpr))
3958e5dd7070Spatrick return ILE->getInit(0)->isNullPointerConstant(Ctx, NPC);
3959e5dd7070Spatrick }
3960e5dd7070Spatrick // This expression must be an integer type.
3961e5dd7070Spatrick if (!getType()->isIntegerType() ||
3962e5dd7070Spatrick (Ctx.getLangOpts().CPlusPlus && getType()->isEnumeralType()))
3963e5dd7070Spatrick return NPCK_NotNull;
3964e5dd7070Spatrick
3965e5dd7070Spatrick if (Ctx.getLangOpts().CPlusPlus11) {
3966e5dd7070Spatrick // C++11 [conv.ptr]p1: A null pointer constant is an integer literal with
3967e5dd7070Spatrick // value zero or a prvalue of type std::nullptr_t.
3968e5dd7070Spatrick // Microsoft mode permits C++98 rules reflecting MSVC behavior.
3969e5dd7070Spatrick const IntegerLiteral *Lit = dyn_cast<IntegerLiteral>(this);
3970e5dd7070Spatrick if (Lit && !Lit->getValue())
3971e5dd7070Spatrick return NPCK_ZeroLiteral;
3972a9ac8606Spatrick if (!Ctx.getLangOpts().MSVCCompat || !isCXX98IntegralConstantExpr(Ctx))
3973e5dd7070Spatrick return NPCK_NotNull;
3974e5dd7070Spatrick } else {
3975e5dd7070Spatrick // If we have an integer constant expression, we need to *evaluate* it and
3976e5dd7070Spatrick // test for the value 0.
3977e5dd7070Spatrick if (!isIntegerConstantExpr(Ctx))
3978e5dd7070Spatrick return NPCK_NotNull;
3979e5dd7070Spatrick }
3980e5dd7070Spatrick
3981e5dd7070Spatrick if (EvaluateKnownConstInt(Ctx) != 0)
3982e5dd7070Spatrick return NPCK_NotNull;
3983e5dd7070Spatrick
3984e5dd7070Spatrick if (isa<IntegerLiteral>(this))
3985e5dd7070Spatrick return NPCK_ZeroLiteral;
3986e5dd7070Spatrick return NPCK_ZeroExpression;
3987e5dd7070Spatrick }
3988e5dd7070Spatrick
3989e5dd7070Spatrick /// If this expression is an l-value for an Objective C
3990e5dd7070Spatrick /// property, find the underlying property reference expression.
getObjCProperty() const3991e5dd7070Spatrick const ObjCPropertyRefExpr *Expr::getObjCProperty() const {
3992e5dd7070Spatrick const Expr *E = this;
3993e5dd7070Spatrick while (true) {
3994a9ac8606Spatrick assert((E->isLValue() && E->getObjectKind() == OK_ObjCProperty) &&
3995e5dd7070Spatrick "expression is not a property reference");
3996e5dd7070Spatrick E = E->IgnoreParenCasts();
3997e5dd7070Spatrick if (const BinaryOperator *BO = dyn_cast<BinaryOperator>(E)) {
3998e5dd7070Spatrick if (BO->getOpcode() == BO_Comma) {
3999e5dd7070Spatrick E = BO->getRHS();
4000e5dd7070Spatrick continue;
4001e5dd7070Spatrick }
4002e5dd7070Spatrick }
4003e5dd7070Spatrick
4004e5dd7070Spatrick break;
4005e5dd7070Spatrick }
4006e5dd7070Spatrick
4007e5dd7070Spatrick return cast<ObjCPropertyRefExpr>(E);
4008e5dd7070Spatrick }
4009e5dd7070Spatrick
isObjCSelfExpr() const4010e5dd7070Spatrick bool Expr::isObjCSelfExpr() const {
4011e5dd7070Spatrick const Expr *E = IgnoreParenImpCasts();
4012e5dd7070Spatrick
4013e5dd7070Spatrick const DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(E);
4014e5dd7070Spatrick if (!DRE)
4015e5dd7070Spatrick return false;
4016e5dd7070Spatrick
4017e5dd7070Spatrick const ImplicitParamDecl *Param = dyn_cast<ImplicitParamDecl>(DRE->getDecl());
4018e5dd7070Spatrick if (!Param)
4019e5dd7070Spatrick return false;
4020e5dd7070Spatrick
4021e5dd7070Spatrick const ObjCMethodDecl *M = dyn_cast<ObjCMethodDecl>(Param->getDeclContext());
4022e5dd7070Spatrick if (!M)
4023e5dd7070Spatrick return false;
4024e5dd7070Spatrick
4025e5dd7070Spatrick return M->getSelfDecl() == Param;
4026e5dd7070Spatrick }
4027e5dd7070Spatrick
getSourceBitField()4028e5dd7070Spatrick FieldDecl *Expr::getSourceBitField() {
4029e5dd7070Spatrick Expr *E = this->IgnoreParens();
4030e5dd7070Spatrick
4031e5dd7070Spatrick while (ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(E)) {
4032e5dd7070Spatrick if (ICE->getCastKind() == CK_LValueToRValue ||
4033a9ac8606Spatrick (ICE->isGLValue() && ICE->getCastKind() == CK_NoOp))
4034e5dd7070Spatrick E = ICE->getSubExpr()->IgnoreParens();
4035e5dd7070Spatrick else
4036e5dd7070Spatrick break;
4037e5dd7070Spatrick }
4038e5dd7070Spatrick
4039e5dd7070Spatrick if (MemberExpr *MemRef = dyn_cast<MemberExpr>(E))
4040e5dd7070Spatrick if (FieldDecl *Field = dyn_cast<FieldDecl>(MemRef->getMemberDecl()))
4041e5dd7070Spatrick if (Field->isBitField())
4042e5dd7070Spatrick return Field;
4043e5dd7070Spatrick
4044e5dd7070Spatrick if (ObjCIvarRefExpr *IvarRef = dyn_cast<ObjCIvarRefExpr>(E)) {
4045e5dd7070Spatrick FieldDecl *Ivar = IvarRef->getDecl();
4046e5dd7070Spatrick if (Ivar->isBitField())
4047e5dd7070Spatrick return Ivar;
4048e5dd7070Spatrick }
4049e5dd7070Spatrick
4050e5dd7070Spatrick if (DeclRefExpr *DeclRef = dyn_cast<DeclRefExpr>(E)) {
4051e5dd7070Spatrick if (FieldDecl *Field = dyn_cast<FieldDecl>(DeclRef->getDecl()))
4052e5dd7070Spatrick if (Field->isBitField())
4053e5dd7070Spatrick return Field;
4054e5dd7070Spatrick
4055e5dd7070Spatrick if (BindingDecl *BD = dyn_cast<BindingDecl>(DeclRef->getDecl()))
4056e5dd7070Spatrick if (Expr *E = BD->getBinding())
4057e5dd7070Spatrick return E->getSourceBitField();
4058e5dd7070Spatrick }
4059e5dd7070Spatrick
4060e5dd7070Spatrick if (BinaryOperator *BinOp = dyn_cast<BinaryOperator>(E)) {
4061e5dd7070Spatrick if (BinOp->isAssignmentOp() && BinOp->getLHS())
4062e5dd7070Spatrick return BinOp->getLHS()->getSourceBitField();
4063e5dd7070Spatrick
4064e5dd7070Spatrick if (BinOp->getOpcode() == BO_Comma && BinOp->getRHS())
4065e5dd7070Spatrick return BinOp->getRHS()->getSourceBitField();
4066e5dd7070Spatrick }
4067e5dd7070Spatrick
4068e5dd7070Spatrick if (UnaryOperator *UnOp = dyn_cast<UnaryOperator>(E))
4069e5dd7070Spatrick if (UnOp->isPrefix() && UnOp->isIncrementDecrementOp())
4070e5dd7070Spatrick return UnOp->getSubExpr()->getSourceBitField();
4071e5dd7070Spatrick
4072e5dd7070Spatrick return nullptr;
4073e5dd7070Spatrick }
4074e5dd7070Spatrick
refersToVectorElement() const4075e5dd7070Spatrick bool Expr::refersToVectorElement() const {
4076e5dd7070Spatrick // FIXME: Why do we not just look at the ObjectKind here?
4077e5dd7070Spatrick const Expr *E = this->IgnoreParens();
4078e5dd7070Spatrick
4079e5dd7070Spatrick while (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(E)) {
4080a9ac8606Spatrick if (ICE->isGLValue() && ICE->getCastKind() == CK_NoOp)
4081e5dd7070Spatrick E = ICE->getSubExpr()->IgnoreParens();
4082e5dd7070Spatrick else
4083e5dd7070Spatrick break;
4084e5dd7070Spatrick }
4085e5dd7070Spatrick
4086e5dd7070Spatrick if (const ArraySubscriptExpr *ASE = dyn_cast<ArraySubscriptExpr>(E))
4087e5dd7070Spatrick return ASE->getBase()->getType()->isVectorType();
4088e5dd7070Spatrick
4089e5dd7070Spatrick if (isa<ExtVectorElementExpr>(E))
4090e5dd7070Spatrick return true;
4091e5dd7070Spatrick
4092e5dd7070Spatrick if (auto *DRE = dyn_cast<DeclRefExpr>(E))
4093e5dd7070Spatrick if (auto *BD = dyn_cast<BindingDecl>(DRE->getDecl()))
4094e5dd7070Spatrick if (auto *E = BD->getBinding())
4095e5dd7070Spatrick return E->refersToVectorElement();
4096e5dd7070Spatrick
4097e5dd7070Spatrick return false;
4098e5dd7070Spatrick }
4099e5dd7070Spatrick
refersToGlobalRegisterVar() const4100e5dd7070Spatrick bool Expr::refersToGlobalRegisterVar() const {
4101e5dd7070Spatrick const Expr *E = this->IgnoreParenImpCasts();
4102e5dd7070Spatrick
4103e5dd7070Spatrick if (const DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(E))
4104e5dd7070Spatrick if (const auto *VD = dyn_cast<VarDecl>(DRE->getDecl()))
4105e5dd7070Spatrick if (VD->getStorageClass() == SC_Register &&
4106e5dd7070Spatrick VD->hasAttr<AsmLabelAttr>() && !VD->isLocalVarDecl())
4107e5dd7070Spatrick return true;
4108e5dd7070Spatrick
4109e5dd7070Spatrick return false;
4110e5dd7070Spatrick }
4111e5dd7070Spatrick
isSameComparisonOperand(const Expr * E1,const Expr * E2)4112e5dd7070Spatrick bool Expr::isSameComparisonOperand(const Expr* E1, const Expr* E2) {
4113e5dd7070Spatrick E1 = E1->IgnoreParens();
4114e5dd7070Spatrick E2 = E2->IgnoreParens();
4115e5dd7070Spatrick
4116e5dd7070Spatrick if (E1->getStmtClass() != E2->getStmtClass())
4117e5dd7070Spatrick return false;
4118e5dd7070Spatrick
4119e5dd7070Spatrick switch (E1->getStmtClass()) {
4120e5dd7070Spatrick default:
4121e5dd7070Spatrick return false;
4122e5dd7070Spatrick case CXXThisExprClass:
4123e5dd7070Spatrick return true;
4124e5dd7070Spatrick case DeclRefExprClass: {
4125e5dd7070Spatrick // DeclRefExpr without an ImplicitCastExpr can happen for integral
4126e5dd7070Spatrick // template parameters.
4127e5dd7070Spatrick const auto *DRE1 = cast<DeclRefExpr>(E1);
4128e5dd7070Spatrick const auto *DRE2 = cast<DeclRefExpr>(E2);
4129a9ac8606Spatrick return DRE1->isPRValue() && DRE2->isPRValue() &&
4130e5dd7070Spatrick DRE1->getDecl() == DRE2->getDecl();
4131e5dd7070Spatrick }
4132e5dd7070Spatrick case ImplicitCastExprClass: {
4133e5dd7070Spatrick // Peel off implicit casts.
4134e5dd7070Spatrick while (true) {
4135e5dd7070Spatrick const auto *ICE1 = dyn_cast<ImplicitCastExpr>(E1);
4136e5dd7070Spatrick const auto *ICE2 = dyn_cast<ImplicitCastExpr>(E2);
4137e5dd7070Spatrick if (!ICE1 || !ICE2)
4138e5dd7070Spatrick return false;
4139e5dd7070Spatrick if (ICE1->getCastKind() != ICE2->getCastKind())
4140e5dd7070Spatrick return false;
4141e5dd7070Spatrick E1 = ICE1->getSubExpr()->IgnoreParens();
4142e5dd7070Spatrick E2 = ICE2->getSubExpr()->IgnoreParens();
4143e5dd7070Spatrick // The final cast must be one of these types.
4144e5dd7070Spatrick if (ICE1->getCastKind() == CK_LValueToRValue ||
4145e5dd7070Spatrick ICE1->getCastKind() == CK_ArrayToPointerDecay ||
4146e5dd7070Spatrick ICE1->getCastKind() == CK_FunctionToPointerDecay) {
4147e5dd7070Spatrick break;
4148e5dd7070Spatrick }
4149e5dd7070Spatrick }
4150e5dd7070Spatrick
4151e5dd7070Spatrick const auto *DRE1 = dyn_cast<DeclRefExpr>(E1);
4152e5dd7070Spatrick const auto *DRE2 = dyn_cast<DeclRefExpr>(E2);
4153e5dd7070Spatrick if (DRE1 && DRE2)
4154e5dd7070Spatrick return declaresSameEntity(DRE1->getDecl(), DRE2->getDecl());
4155e5dd7070Spatrick
4156e5dd7070Spatrick const auto *Ivar1 = dyn_cast<ObjCIvarRefExpr>(E1);
4157e5dd7070Spatrick const auto *Ivar2 = dyn_cast<ObjCIvarRefExpr>(E2);
4158e5dd7070Spatrick if (Ivar1 && Ivar2) {
4159e5dd7070Spatrick return Ivar1->isFreeIvar() && Ivar2->isFreeIvar() &&
4160e5dd7070Spatrick declaresSameEntity(Ivar1->getDecl(), Ivar2->getDecl());
4161e5dd7070Spatrick }
4162e5dd7070Spatrick
4163e5dd7070Spatrick const auto *Array1 = dyn_cast<ArraySubscriptExpr>(E1);
4164e5dd7070Spatrick const auto *Array2 = dyn_cast<ArraySubscriptExpr>(E2);
4165e5dd7070Spatrick if (Array1 && Array2) {
4166e5dd7070Spatrick if (!isSameComparisonOperand(Array1->getBase(), Array2->getBase()))
4167e5dd7070Spatrick return false;
4168e5dd7070Spatrick
4169e5dd7070Spatrick auto Idx1 = Array1->getIdx();
4170e5dd7070Spatrick auto Idx2 = Array2->getIdx();
4171e5dd7070Spatrick const auto Integer1 = dyn_cast<IntegerLiteral>(Idx1);
4172e5dd7070Spatrick const auto Integer2 = dyn_cast<IntegerLiteral>(Idx2);
4173e5dd7070Spatrick if (Integer1 && Integer2) {
4174e5dd7070Spatrick if (!llvm::APInt::isSameValue(Integer1->getValue(),
4175e5dd7070Spatrick Integer2->getValue()))
4176e5dd7070Spatrick return false;
4177e5dd7070Spatrick } else {
4178e5dd7070Spatrick if (!isSameComparisonOperand(Idx1, Idx2))
4179e5dd7070Spatrick return false;
4180e5dd7070Spatrick }
4181e5dd7070Spatrick
4182e5dd7070Spatrick return true;
4183e5dd7070Spatrick }
4184e5dd7070Spatrick
4185e5dd7070Spatrick // Walk the MemberExpr chain.
4186e5dd7070Spatrick while (isa<MemberExpr>(E1) && isa<MemberExpr>(E2)) {
4187e5dd7070Spatrick const auto *ME1 = cast<MemberExpr>(E1);
4188e5dd7070Spatrick const auto *ME2 = cast<MemberExpr>(E2);
4189e5dd7070Spatrick if (!declaresSameEntity(ME1->getMemberDecl(), ME2->getMemberDecl()))
4190e5dd7070Spatrick return false;
4191e5dd7070Spatrick if (const auto *D = dyn_cast<VarDecl>(ME1->getMemberDecl()))
4192e5dd7070Spatrick if (D->isStaticDataMember())
4193e5dd7070Spatrick return true;
4194e5dd7070Spatrick E1 = ME1->getBase()->IgnoreParenImpCasts();
4195e5dd7070Spatrick E2 = ME2->getBase()->IgnoreParenImpCasts();
4196e5dd7070Spatrick }
4197e5dd7070Spatrick
4198e5dd7070Spatrick if (isa<CXXThisExpr>(E1) && isa<CXXThisExpr>(E2))
4199e5dd7070Spatrick return true;
4200e5dd7070Spatrick
4201e5dd7070Spatrick // A static member variable can end the MemberExpr chain with either
4202e5dd7070Spatrick // a MemberExpr or a DeclRefExpr.
4203e5dd7070Spatrick auto getAnyDecl = [](const Expr *E) -> const ValueDecl * {
4204e5dd7070Spatrick if (const auto *DRE = dyn_cast<DeclRefExpr>(E))
4205e5dd7070Spatrick return DRE->getDecl();
4206e5dd7070Spatrick if (const auto *ME = dyn_cast<MemberExpr>(E))
4207e5dd7070Spatrick return ME->getMemberDecl();
4208e5dd7070Spatrick return nullptr;
4209e5dd7070Spatrick };
4210e5dd7070Spatrick
4211e5dd7070Spatrick const ValueDecl *VD1 = getAnyDecl(E1);
4212e5dd7070Spatrick const ValueDecl *VD2 = getAnyDecl(E2);
4213e5dd7070Spatrick return declaresSameEntity(VD1, VD2);
4214e5dd7070Spatrick }
4215e5dd7070Spatrick }
4216e5dd7070Spatrick }
4217e5dd7070Spatrick
4218e5dd7070Spatrick /// isArrow - Return true if the base expression is a pointer to vector,
4219e5dd7070Spatrick /// return false if the base expression is a vector.
isArrow() const4220e5dd7070Spatrick bool ExtVectorElementExpr::isArrow() const {
4221e5dd7070Spatrick return getBase()->getType()->isPointerType();
4222e5dd7070Spatrick }
4223e5dd7070Spatrick
getNumElements() const4224e5dd7070Spatrick unsigned ExtVectorElementExpr::getNumElements() const {
4225e5dd7070Spatrick if (const VectorType *VT = getType()->getAs<VectorType>())
4226e5dd7070Spatrick return VT->getNumElements();
4227e5dd7070Spatrick return 1;
4228e5dd7070Spatrick }
4229e5dd7070Spatrick
4230e5dd7070Spatrick /// containsDuplicateElements - Return true if any element access is repeated.
containsDuplicateElements() const4231e5dd7070Spatrick bool ExtVectorElementExpr::containsDuplicateElements() const {
4232e5dd7070Spatrick // FIXME: Refactor this code to an accessor on the AST node which returns the
4233e5dd7070Spatrick // "type" of component access, and share with code below and in Sema.
4234e5dd7070Spatrick StringRef Comp = Accessor->getName();
4235e5dd7070Spatrick
4236e5dd7070Spatrick // Halving swizzles do not contain duplicate elements.
4237e5dd7070Spatrick if (Comp == "hi" || Comp == "lo" || Comp == "even" || Comp == "odd")
4238e5dd7070Spatrick return false;
4239e5dd7070Spatrick
4240e5dd7070Spatrick // Advance past s-char prefix on hex swizzles.
4241e5dd7070Spatrick if (Comp[0] == 's' || Comp[0] == 'S')
4242e5dd7070Spatrick Comp = Comp.substr(1);
4243e5dd7070Spatrick
4244e5dd7070Spatrick for (unsigned i = 0, e = Comp.size(); i != e; ++i)
4245*12c85518Srobert if (Comp.substr(i + 1).contains(Comp[i]))
4246e5dd7070Spatrick return true;
4247e5dd7070Spatrick
4248e5dd7070Spatrick return false;
4249e5dd7070Spatrick }
4250e5dd7070Spatrick
4251e5dd7070Spatrick /// getEncodedElementAccess - We encode the fields as a llvm ConstantArray.
getEncodedElementAccess(SmallVectorImpl<uint32_t> & Elts) const4252e5dd7070Spatrick void ExtVectorElementExpr::getEncodedElementAccess(
4253e5dd7070Spatrick SmallVectorImpl<uint32_t> &Elts) const {
4254e5dd7070Spatrick StringRef Comp = Accessor->getName();
4255e5dd7070Spatrick bool isNumericAccessor = false;
4256e5dd7070Spatrick if (Comp[0] == 's' || Comp[0] == 'S') {
4257e5dd7070Spatrick Comp = Comp.substr(1);
4258e5dd7070Spatrick isNumericAccessor = true;
4259e5dd7070Spatrick }
4260e5dd7070Spatrick
4261e5dd7070Spatrick bool isHi = Comp == "hi";
4262e5dd7070Spatrick bool isLo = Comp == "lo";
4263e5dd7070Spatrick bool isEven = Comp == "even";
4264e5dd7070Spatrick bool isOdd = Comp == "odd";
4265e5dd7070Spatrick
4266e5dd7070Spatrick for (unsigned i = 0, e = getNumElements(); i != e; ++i) {
4267e5dd7070Spatrick uint64_t Index;
4268e5dd7070Spatrick
4269e5dd7070Spatrick if (isHi)
4270e5dd7070Spatrick Index = e + i;
4271e5dd7070Spatrick else if (isLo)
4272e5dd7070Spatrick Index = i;
4273e5dd7070Spatrick else if (isEven)
4274e5dd7070Spatrick Index = 2 * i;
4275e5dd7070Spatrick else if (isOdd)
4276e5dd7070Spatrick Index = 2 * i + 1;
4277e5dd7070Spatrick else
4278e5dd7070Spatrick Index = ExtVectorType::getAccessorIdx(Comp[i], isNumericAccessor);
4279e5dd7070Spatrick
4280e5dd7070Spatrick Elts.push_back(Index);
4281e5dd7070Spatrick }
4282e5dd7070Spatrick }
4283e5dd7070Spatrick
ShuffleVectorExpr(const ASTContext & C,ArrayRef<Expr * > args,QualType Type,SourceLocation BLoc,SourceLocation RP)4284e5dd7070Spatrick ShuffleVectorExpr::ShuffleVectorExpr(const ASTContext &C, ArrayRef<Expr *> args,
4285e5dd7070Spatrick QualType Type, SourceLocation BLoc,
4286e5dd7070Spatrick SourceLocation RP)
4287a9ac8606Spatrick : Expr(ShuffleVectorExprClass, Type, VK_PRValue, OK_Ordinary),
4288ec727ea7Spatrick BuiltinLoc(BLoc), RParenLoc(RP), NumExprs(args.size()) {
4289e5dd7070Spatrick SubExprs = new (C) Stmt*[args.size()];
4290ec727ea7Spatrick for (unsigned i = 0; i != args.size(); i++)
4291e5dd7070Spatrick SubExprs[i] = args[i];
4292ec727ea7Spatrick
4293ec727ea7Spatrick setDependence(computeDependence(this));
4294e5dd7070Spatrick }
4295e5dd7070Spatrick
setExprs(const ASTContext & C,ArrayRef<Expr * > Exprs)4296e5dd7070Spatrick void ShuffleVectorExpr::setExprs(const ASTContext &C, ArrayRef<Expr *> Exprs) {
4297e5dd7070Spatrick if (SubExprs) C.Deallocate(SubExprs);
4298e5dd7070Spatrick
4299e5dd7070Spatrick this->NumExprs = Exprs.size();
4300e5dd7070Spatrick SubExprs = new (C) Stmt*[NumExprs];
4301e5dd7070Spatrick memcpy(SubExprs, Exprs.data(), sizeof(Expr *) * Exprs.size());
4302e5dd7070Spatrick }
4303e5dd7070Spatrick
GenericSelectionExpr(const ASTContext &,SourceLocation GenericLoc,Expr * ControllingExpr,ArrayRef<TypeSourceInfo * > AssocTypes,ArrayRef<Expr * > AssocExprs,SourceLocation DefaultLoc,SourceLocation RParenLoc,bool ContainsUnexpandedParameterPack,unsigned ResultIndex)4304e5dd7070Spatrick GenericSelectionExpr::GenericSelectionExpr(
4305e5dd7070Spatrick const ASTContext &, SourceLocation GenericLoc, Expr *ControllingExpr,
4306e5dd7070Spatrick ArrayRef<TypeSourceInfo *> AssocTypes, ArrayRef<Expr *> AssocExprs,
4307e5dd7070Spatrick SourceLocation DefaultLoc, SourceLocation RParenLoc,
4308e5dd7070Spatrick bool ContainsUnexpandedParameterPack, unsigned ResultIndex)
4309e5dd7070Spatrick : Expr(GenericSelectionExprClass, AssocExprs[ResultIndex]->getType(),
4310e5dd7070Spatrick AssocExprs[ResultIndex]->getValueKind(),
4311ec727ea7Spatrick AssocExprs[ResultIndex]->getObjectKind()),
4312e5dd7070Spatrick NumAssocs(AssocExprs.size()), ResultIndex(ResultIndex),
4313e5dd7070Spatrick DefaultLoc(DefaultLoc), RParenLoc(RParenLoc) {
4314e5dd7070Spatrick assert(AssocTypes.size() == AssocExprs.size() &&
4315e5dd7070Spatrick "Must have the same number of association expressions"
4316e5dd7070Spatrick " and TypeSourceInfo!");
4317e5dd7070Spatrick assert(ResultIndex < NumAssocs && "ResultIndex is out-of-bounds!");
4318e5dd7070Spatrick
4319e5dd7070Spatrick GenericSelectionExprBits.GenericLoc = GenericLoc;
4320e5dd7070Spatrick getTrailingObjects<Stmt *>()[ControllingIndex] = ControllingExpr;
4321e5dd7070Spatrick std::copy(AssocExprs.begin(), AssocExprs.end(),
4322e5dd7070Spatrick getTrailingObjects<Stmt *>() + AssocExprStartIndex);
4323e5dd7070Spatrick std::copy(AssocTypes.begin(), AssocTypes.end(),
4324e5dd7070Spatrick getTrailingObjects<TypeSourceInfo *>());
4325ec727ea7Spatrick
4326ec727ea7Spatrick setDependence(computeDependence(this, ContainsUnexpandedParameterPack));
4327e5dd7070Spatrick }
4328e5dd7070Spatrick
GenericSelectionExpr(const ASTContext & Context,SourceLocation GenericLoc,Expr * ControllingExpr,ArrayRef<TypeSourceInfo * > AssocTypes,ArrayRef<Expr * > AssocExprs,SourceLocation DefaultLoc,SourceLocation RParenLoc,bool ContainsUnexpandedParameterPack)4329e5dd7070Spatrick GenericSelectionExpr::GenericSelectionExpr(
4330e5dd7070Spatrick const ASTContext &Context, SourceLocation GenericLoc, Expr *ControllingExpr,
4331e5dd7070Spatrick ArrayRef<TypeSourceInfo *> AssocTypes, ArrayRef<Expr *> AssocExprs,
4332e5dd7070Spatrick SourceLocation DefaultLoc, SourceLocation RParenLoc,
4333e5dd7070Spatrick bool ContainsUnexpandedParameterPack)
4334a9ac8606Spatrick : Expr(GenericSelectionExprClass, Context.DependentTy, VK_PRValue,
4335ec727ea7Spatrick OK_Ordinary),
4336e5dd7070Spatrick NumAssocs(AssocExprs.size()), ResultIndex(ResultDependentIndex),
4337e5dd7070Spatrick DefaultLoc(DefaultLoc), RParenLoc(RParenLoc) {
4338e5dd7070Spatrick assert(AssocTypes.size() == AssocExprs.size() &&
4339e5dd7070Spatrick "Must have the same number of association expressions"
4340e5dd7070Spatrick " and TypeSourceInfo!");
4341e5dd7070Spatrick
4342e5dd7070Spatrick GenericSelectionExprBits.GenericLoc = GenericLoc;
4343e5dd7070Spatrick getTrailingObjects<Stmt *>()[ControllingIndex] = ControllingExpr;
4344e5dd7070Spatrick std::copy(AssocExprs.begin(), AssocExprs.end(),
4345e5dd7070Spatrick getTrailingObjects<Stmt *>() + AssocExprStartIndex);
4346e5dd7070Spatrick std::copy(AssocTypes.begin(), AssocTypes.end(),
4347e5dd7070Spatrick getTrailingObjects<TypeSourceInfo *>());
4348ec727ea7Spatrick
4349ec727ea7Spatrick setDependence(computeDependence(this, ContainsUnexpandedParameterPack));
4350e5dd7070Spatrick }
4351e5dd7070Spatrick
GenericSelectionExpr(EmptyShell Empty,unsigned NumAssocs)4352e5dd7070Spatrick GenericSelectionExpr::GenericSelectionExpr(EmptyShell Empty, unsigned NumAssocs)
4353e5dd7070Spatrick : Expr(GenericSelectionExprClass, Empty), NumAssocs(NumAssocs) {}
4354e5dd7070Spatrick
Create(const ASTContext & Context,SourceLocation GenericLoc,Expr * ControllingExpr,ArrayRef<TypeSourceInfo * > AssocTypes,ArrayRef<Expr * > AssocExprs,SourceLocation DefaultLoc,SourceLocation RParenLoc,bool ContainsUnexpandedParameterPack,unsigned ResultIndex)4355e5dd7070Spatrick GenericSelectionExpr *GenericSelectionExpr::Create(
4356e5dd7070Spatrick const ASTContext &Context, SourceLocation GenericLoc, Expr *ControllingExpr,
4357e5dd7070Spatrick ArrayRef<TypeSourceInfo *> AssocTypes, ArrayRef<Expr *> AssocExprs,
4358e5dd7070Spatrick SourceLocation DefaultLoc, SourceLocation RParenLoc,
4359e5dd7070Spatrick bool ContainsUnexpandedParameterPack, unsigned ResultIndex) {
4360e5dd7070Spatrick unsigned NumAssocs = AssocExprs.size();
4361e5dd7070Spatrick void *Mem = Context.Allocate(
4362e5dd7070Spatrick totalSizeToAlloc<Stmt *, TypeSourceInfo *>(1 + NumAssocs, NumAssocs),
4363e5dd7070Spatrick alignof(GenericSelectionExpr));
4364e5dd7070Spatrick return new (Mem) GenericSelectionExpr(
4365e5dd7070Spatrick Context, GenericLoc, ControllingExpr, AssocTypes, AssocExprs, DefaultLoc,
4366e5dd7070Spatrick RParenLoc, ContainsUnexpandedParameterPack, ResultIndex);
4367e5dd7070Spatrick }
4368e5dd7070Spatrick
Create(const ASTContext & Context,SourceLocation GenericLoc,Expr * ControllingExpr,ArrayRef<TypeSourceInfo * > AssocTypes,ArrayRef<Expr * > AssocExprs,SourceLocation DefaultLoc,SourceLocation RParenLoc,bool ContainsUnexpandedParameterPack)4369e5dd7070Spatrick GenericSelectionExpr *GenericSelectionExpr::Create(
4370e5dd7070Spatrick const ASTContext &Context, SourceLocation GenericLoc, Expr *ControllingExpr,
4371e5dd7070Spatrick ArrayRef<TypeSourceInfo *> AssocTypes, ArrayRef<Expr *> AssocExprs,
4372e5dd7070Spatrick SourceLocation DefaultLoc, SourceLocation RParenLoc,
4373e5dd7070Spatrick bool ContainsUnexpandedParameterPack) {
4374e5dd7070Spatrick unsigned NumAssocs = AssocExprs.size();
4375e5dd7070Spatrick void *Mem = Context.Allocate(
4376e5dd7070Spatrick totalSizeToAlloc<Stmt *, TypeSourceInfo *>(1 + NumAssocs, NumAssocs),
4377e5dd7070Spatrick alignof(GenericSelectionExpr));
4378e5dd7070Spatrick return new (Mem) GenericSelectionExpr(
4379e5dd7070Spatrick Context, GenericLoc, ControllingExpr, AssocTypes, AssocExprs, DefaultLoc,
4380e5dd7070Spatrick RParenLoc, ContainsUnexpandedParameterPack);
4381e5dd7070Spatrick }
4382e5dd7070Spatrick
4383e5dd7070Spatrick GenericSelectionExpr *
CreateEmpty(const ASTContext & Context,unsigned NumAssocs)4384e5dd7070Spatrick GenericSelectionExpr::CreateEmpty(const ASTContext &Context,
4385e5dd7070Spatrick unsigned NumAssocs) {
4386e5dd7070Spatrick void *Mem = Context.Allocate(
4387e5dd7070Spatrick totalSizeToAlloc<Stmt *, TypeSourceInfo *>(1 + NumAssocs, NumAssocs),
4388e5dd7070Spatrick alignof(GenericSelectionExpr));
4389e5dd7070Spatrick return new (Mem) GenericSelectionExpr(EmptyShell(), NumAssocs);
4390e5dd7070Spatrick }
4391e5dd7070Spatrick
4392e5dd7070Spatrick //===----------------------------------------------------------------------===//
4393e5dd7070Spatrick // DesignatedInitExpr
4394e5dd7070Spatrick //===----------------------------------------------------------------------===//
4395e5dd7070Spatrick
getFieldName() const4396e5dd7070Spatrick IdentifierInfo *DesignatedInitExpr::Designator::getFieldName() const {
4397e5dd7070Spatrick assert(Kind == FieldDesignator && "Only valid on a field designator");
4398e5dd7070Spatrick if (Field.NameOrField & 0x01)
4399e5dd7070Spatrick return reinterpret_cast<IdentifierInfo *>(Field.NameOrField & ~0x01);
4400e5dd7070Spatrick return getField()->getIdentifier();
4401e5dd7070Spatrick }
4402e5dd7070Spatrick
DesignatedInitExpr(const ASTContext & C,QualType Ty,llvm::ArrayRef<Designator> Designators,SourceLocation EqualOrColonLoc,bool GNUSyntax,ArrayRef<Expr * > IndexExprs,Expr * Init)4403e5dd7070Spatrick DesignatedInitExpr::DesignatedInitExpr(const ASTContext &C, QualType Ty,
4404e5dd7070Spatrick llvm::ArrayRef<Designator> Designators,
4405e5dd7070Spatrick SourceLocation EqualOrColonLoc,
4406e5dd7070Spatrick bool GNUSyntax,
4407ec727ea7Spatrick ArrayRef<Expr *> IndexExprs, Expr *Init)
4408ec727ea7Spatrick : Expr(DesignatedInitExprClass, Ty, Init->getValueKind(),
4409ec727ea7Spatrick Init->getObjectKind()),
4410e5dd7070Spatrick EqualOrColonLoc(EqualOrColonLoc), GNUSyntax(GNUSyntax),
4411e5dd7070Spatrick NumDesignators(Designators.size()), NumSubExprs(IndexExprs.size() + 1) {
4412e5dd7070Spatrick this->Designators = new (C) Designator[NumDesignators];
4413e5dd7070Spatrick
4414e5dd7070Spatrick // Record the initializer itself.
4415e5dd7070Spatrick child_iterator Child = child_begin();
4416e5dd7070Spatrick *Child++ = Init;
4417e5dd7070Spatrick
4418e5dd7070Spatrick // Copy the designators and their subexpressions, computing
4419e5dd7070Spatrick // value-dependence along the way.
4420e5dd7070Spatrick unsigned IndexIdx = 0;
4421e5dd7070Spatrick for (unsigned I = 0; I != NumDesignators; ++I) {
4422e5dd7070Spatrick this->Designators[I] = Designators[I];
4423e5dd7070Spatrick if (this->Designators[I].isArrayDesignator()) {
4424e5dd7070Spatrick // Copy the index expressions into permanent storage.
4425e5dd7070Spatrick *Child++ = IndexExprs[IndexIdx++];
4426e5dd7070Spatrick } else if (this->Designators[I].isArrayRangeDesignator()) {
4427e5dd7070Spatrick // Copy the start/end expressions into permanent storage.
4428e5dd7070Spatrick *Child++ = IndexExprs[IndexIdx++];
4429e5dd7070Spatrick *Child++ = IndexExprs[IndexIdx++];
4430e5dd7070Spatrick }
4431e5dd7070Spatrick }
4432e5dd7070Spatrick
4433e5dd7070Spatrick assert(IndexIdx == IndexExprs.size() && "Wrong number of index expressions");
4434ec727ea7Spatrick setDependence(computeDependence(this));
4435e5dd7070Spatrick }
4436e5dd7070Spatrick
4437e5dd7070Spatrick DesignatedInitExpr *
Create(const ASTContext & C,llvm::ArrayRef<Designator> Designators,ArrayRef<Expr * > IndexExprs,SourceLocation ColonOrEqualLoc,bool UsesColonSyntax,Expr * Init)4438e5dd7070Spatrick DesignatedInitExpr::Create(const ASTContext &C,
4439e5dd7070Spatrick llvm::ArrayRef<Designator> Designators,
4440e5dd7070Spatrick ArrayRef<Expr*> IndexExprs,
4441e5dd7070Spatrick SourceLocation ColonOrEqualLoc,
4442e5dd7070Spatrick bool UsesColonSyntax, Expr *Init) {
4443e5dd7070Spatrick void *Mem = C.Allocate(totalSizeToAlloc<Stmt *>(IndexExprs.size() + 1),
4444e5dd7070Spatrick alignof(DesignatedInitExpr));
4445e5dd7070Spatrick return new (Mem) DesignatedInitExpr(C, C.VoidTy, Designators,
4446e5dd7070Spatrick ColonOrEqualLoc, UsesColonSyntax,
4447e5dd7070Spatrick IndexExprs, Init);
4448e5dd7070Spatrick }
4449e5dd7070Spatrick
CreateEmpty(const ASTContext & C,unsigned NumIndexExprs)4450e5dd7070Spatrick DesignatedInitExpr *DesignatedInitExpr::CreateEmpty(const ASTContext &C,
4451e5dd7070Spatrick unsigned NumIndexExprs) {
4452e5dd7070Spatrick void *Mem = C.Allocate(totalSizeToAlloc<Stmt *>(NumIndexExprs + 1),
4453e5dd7070Spatrick alignof(DesignatedInitExpr));
4454e5dd7070Spatrick return new (Mem) DesignatedInitExpr(NumIndexExprs + 1);
4455e5dd7070Spatrick }
4456e5dd7070Spatrick
setDesignators(const ASTContext & C,const Designator * Desigs,unsigned NumDesigs)4457e5dd7070Spatrick void DesignatedInitExpr::setDesignators(const ASTContext &C,
4458e5dd7070Spatrick const Designator *Desigs,
4459e5dd7070Spatrick unsigned NumDesigs) {
4460e5dd7070Spatrick Designators = new (C) Designator[NumDesigs];
4461e5dd7070Spatrick NumDesignators = NumDesigs;
4462e5dd7070Spatrick for (unsigned I = 0; I != NumDesigs; ++I)
4463e5dd7070Spatrick Designators[I] = Desigs[I];
4464e5dd7070Spatrick }
4465e5dd7070Spatrick
getDesignatorsSourceRange() const4466e5dd7070Spatrick SourceRange DesignatedInitExpr::getDesignatorsSourceRange() const {
4467e5dd7070Spatrick DesignatedInitExpr *DIE = const_cast<DesignatedInitExpr*>(this);
4468e5dd7070Spatrick if (size() == 1)
4469e5dd7070Spatrick return DIE->getDesignator(0)->getSourceRange();
4470e5dd7070Spatrick return SourceRange(DIE->getDesignator(0)->getBeginLoc(),
4471e5dd7070Spatrick DIE->getDesignator(size() - 1)->getEndLoc());
4472e5dd7070Spatrick }
4473e5dd7070Spatrick
getBeginLoc() const4474e5dd7070Spatrick SourceLocation DesignatedInitExpr::getBeginLoc() const {
4475e5dd7070Spatrick SourceLocation StartLoc;
4476e5dd7070Spatrick auto *DIE = const_cast<DesignatedInitExpr *>(this);
4477e5dd7070Spatrick Designator &First = *DIE->getDesignator(0);
4478a9ac8606Spatrick if (First.isFieldDesignator())
4479a9ac8606Spatrick StartLoc = GNUSyntax ? First.Field.FieldLoc : First.Field.DotLoc;
4480e5dd7070Spatrick else
4481a9ac8606Spatrick StartLoc = First.ArrayOrRange.LBracketLoc;
4482e5dd7070Spatrick return StartLoc;
4483e5dd7070Spatrick }
4484e5dd7070Spatrick
getEndLoc() const4485e5dd7070Spatrick SourceLocation DesignatedInitExpr::getEndLoc() const {
4486e5dd7070Spatrick return getInit()->getEndLoc();
4487e5dd7070Spatrick }
4488e5dd7070Spatrick
getArrayIndex(const Designator & D) const4489e5dd7070Spatrick Expr *DesignatedInitExpr::getArrayIndex(const Designator& D) const {
4490e5dd7070Spatrick assert(D.Kind == Designator::ArrayDesignator && "Requires array designator");
4491e5dd7070Spatrick return getSubExpr(D.ArrayOrRange.Index + 1);
4492e5dd7070Spatrick }
4493e5dd7070Spatrick
getArrayRangeStart(const Designator & D) const4494e5dd7070Spatrick Expr *DesignatedInitExpr::getArrayRangeStart(const Designator &D) const {
4495e5dd7070Spatrick assert(D.Kind == Designator::ArrayRangeDesignator &&
4496e5dd7070Spatrick "Requires array range designator");
4497e5dd7070Spatrick return getSubExpr(D.ArrayOrRange.Index + 1);
4498e5dd7070Spatrick }
4499e5dd7070Spatrick
getArrayRangeEnd(const Designator & D) const4500e5dd7070Spatrick Expr *DesignatedInitExpr::getArrayRangeEnd(const Designator &D) const {
4501e5dd7070Spatrick assert(D.Kind == Designator::ArrayRangeDesignator &&
4502e5dd7070Spatrick "Requires array range designator");
4503e5dd7070Spatrick return getSubExpr(D.ArrayOrRange.Index + 2);
4504e5dd7070Spatrick }
4505e5dd7070Spatrick
4506e5dd7070Spatrick /// Replaces the designator at index @p Idx with the series
4507e5dd7070Spatrick /// of designators in [First, Last).
ExpandDesignator(const ASTContext & C,unsigned Idx,const Designator * First,const Designator * Last)4508e5dd7070Spatrick void DesignatedInitExpr::ExpandDesignator(const ASTContext &C, unsigned Idx,
4509e5dd7070Spatrick const Designator *First,
4510e5dd7070Spatrick const Designator *Last) {
4511e5dd7070Spatrick unsigned NumNewDesignators = Last - First;
4512e5dd7070Spatrick if (NumNewDesignators == 0) {
4513e5dd7070Spatrick std::copy_backward(Designators + Idx + 1,
4514e5dd7070Spatrick Designators + NumDesignators,
4515e5dd7070Spatrick Designators + Idx);
4516e5dd7070Spatrick --NumNewDesignators;
4517e5dd7070Spatrick return;
4518a9ac8606Spatrick }
4519a9ac8606Spatrick if (NumNewDesignators == 1) {
4520e5dd7070Spatrick Designators[Idx] = *First;
4521e5dd7070Spatrick return;
4522e5dd7070Spatrick }
4523e5dd7070Spatrick
4524e5dd7070Spatrick Designator *NewDesignators
4525e5dd7070Spatrick = new (C) Designator[NumDesignators - 1 + NumNewDesignators];
4526e5dd7070Spatrick std::copy(Designators, Designators + Idx, NewDesignators);
4527e5dd7070Spatrick std::copy(First, Last, NewDesignators + Idx);
4528e5dd7070Spatrick std::copy(Designators + Idx + 1, Designators + NumDesignators,
4529e5dd7070Spatrick NewDesignators + Idx + NumNewDesignators);
4530e5dd7070Spatrick Designators = NewDesignators;
4531e5dd7070Spatrick NumDesignators = NumDesignators - 1 + NumNewDesignators;
4532e5dd7070Spatrick }
4533e5dd7070Spatrick
DesignatedInitUpdateExpr(const ASTContext & C,SourceLocation lBraceLoc,Expr * baseExpr,SourceLocation rBraceLoc)4534e5dd7070Spatrick DesignatedInitUpdateExpr::DesignatedInitUpdateExpr(const ASTContext &C,
4535ec727ea7Spatrick SourceLocation lBraceLoc,
4536ec727ea7Spatrick Expr *baseExpr,
4537ec727ea7Spatrick SourceLocation rBraceLoc)
4538a9ac8606Spatrick : Expr(DesignatedInitUpdateExprClass, baseExpr->getType(), VK_PRValue,
4539ec727ea7Spatrick OK_Ordinary) {
4540e5dd7070Spatrick BaseAndUpdaterExprs[0] = baseExpr;
4541e5dd7070Spatrick
4542*12c85518Srobert InitListExpr *ILE =
4543*12c85518Srobert new (C) InitListExpr(C, lBraceLoc, std::nullopt, rBraceLoc);
4544e5dd7070Spatrick ILE->setType(baseExpr->getType());
4545e5dd7070Spatrick BaseAndUpdaterExprs[1] = ILE;
4546ec727ea7Spatrick
4547ec727ea7Spatrick // FIXME: this is wrong, set it correctly.
4548ec727ea7Spatrick setDependence(ExprDependence::None);
4549e5dd7070Spatrick }
4550e5dd7070Spatrick
getBeginLoc() const4551e5dd7070Spatrick SourceLocation DesignatedInitUpdateExpr::getBeginLoc() const {
4552e5dd7070Spatrick return getBase()->getBeginLoc();
4553e5dd7070Spatrick }
4554e5dd7070Spatrick
getEndLoc() const4555e5dd7070Spatrick SourceLocation DesignatedInitUpdateExpr::getEndLoc() const {
4556e5dd7070Spatrick return getBase()->getEndLoc();
4557e5dd7070Spatrick }
4558e5dd7070Spatrick
ParenListExpr(SourceLocation LParenLoc,ArrayRef<Expr * > Exprs,SourceLocation RParenLoc)4559e5dd7070Spatrick ParenListExpr::ParenListExpr(SourceLocation LParenLoc, ArrayRef<Expr *> Exprs,
4560e5dd7070Spatrick SourceLocation RParenLoc)
4561a9ac8606Spatrick : Expr(ParenListExprClass, QualType(), VK_PRValue, OK_Ordinary),
4562e5dd7070Spatrick LParenLoc(LParenLoc), RParenLoc(RParenLoc) {
4563e5dd7070Spatrick ParenListExprBits.NumExprs = Exprs.size();
4564e5dd7070Spatrick
4565ec727ea7Spatrick for (unsigned I = 0, N = Exprs.size(); I != N; ++I)
4566e5dd7070Spatrick getTrailingObjects<Stmt *>()[I] = Exprs[I];
4567ec727ea7Spatrick setDependence(computeDependence(this));
4568e5dd7070Spatrick }
4569e5dd7070Spatrick
ParenListExpr(EmptyShell Empty,unsigned NumExprs)4570e5dd7070Spatrick ParenListExpr::ParenListExpr(EmptyShell Empty, unsigned NumExprs)
4571e5dd7070Spatrick : Expr(ParenListExprClass, Empty) {
4572e5dd7070Spatrick ParenListExprBits.NumExprs = NumExprs;
4573e5dd7070Spatrick }
4574e5dd7070Spatrick
Create(const ASTContext & Ctx,SourceLocation LParenLoc,ArrayRef<Expr * > Exprs,SourceLocation RParenLoc)4575e5dd7070Spatrick ParenListExpr *ParenListExpr::Create(const ASTContext &Ctx,
4576e5dd7070Spatrick SourceLocation LParenLoc,
4577e5dd7070Spatrick ArrayRef<Expr *> Exprs,
4578e5dd7070Spatrick SourceLocation RParenLoc) {
4579e5dd7070Spatrick void *Mem = Ctx.Allocate(totalSizeToAlloc<Stmt *>(Exprs.size()),
4580e5dd7070Spatrick alignof(ParenListExpr));
4581e5dd7070Spatrick return new (Mem) ParenListExpr(LParenLoc, Exprs, RParenLoc);
4582e5dd7070Spatrick }
4583e5dd7070Spatrick
CreateEmpty(const ASTContext & Ctx,unsigned NumExprs)4584e5dd7070Spatrick ParenListExpr *ParenListExpr::CreateEmpty(const ASTContext &Ctx,
4585e5dd7070Spatrick unsigned NumExprs) {
4586e5dd7070Spatrick void *Mem =
4587e5dd7070Spatrick Ctx.Allocate(totalSizeToAlloc<Stmt *>(NumExprs), alignof(ParenListExpr));
4588e5dd7070Spatrick return new (Mem) ParenListExpr(EmptyShell(), NumExprs);
4589e5dd7070Spatrick }
4590e5dd7070Spatrick
BinaryOperator(const ASTContext & Ctx,Expr * lhs,Expr * rhs,Opcode opc,QualType ResTy,ExprValueKind VK,ExprObjectKind OK,SourceLocation opLoc,FPOptionsOverride FPFeatures)4591ec727ea7Spatrick BinaryOperator::BinaryOperator(const ASTContext &Ctx, Expr *lhs, Expr *rhs,
4592ec727ea7Spatrick Opcode opc, QualType ResTy, ExprValueKind VK,
4593ec727ea7Spatrick ExprObjectKind OK, SourceLocation opLoc,
4594ec727ea7Spatrick FPOptionsOverride FPFeatures)
4595ec727ea7Spatrick : Expr(BinaryOperatorClass, ResTy, VK, OK) {
4596ec727ea7Spatrick BinaryOperatorBits.Opc = opc;
4597ec727ea7Spatrick assert(!isCompoundAssignmentOp() &&
4598ec727ea7Spatrick "Use CompoundAssignOperator for compound assignments");
4599ec727ea7Spatrick BinaryOperatorBits.OpLoc = opLoc;
4600ec727ea7Spatrick SubExprs[LHS] = lhs;
4601ec727ea7Spatrick SubExprs[RHS] = rhs;
4602ec727ea7Spatrick BinaryOperatorBits.HasFPFeatures = FPFeatures.requiresTrailingStorage();
4603a9ac8606Spatrick if (hasStoredFPFeatures())
4604a9ac8606Spatrick setStoredFPFeatures(FPFeatures);
4605ec727ea7Spatrick setDependence(computeDependence(this));
4606ec727ea7Spatrick }
4607ec727ea7Spatrick
BinaryOperator(const ASTContext & Ctx,Expr * lhs,Expr * rhs,Opcode opc,QualType ResTy,ExprValueKind VK,ExprObjectKind OK,SourceLocation opLoc,FPOptionsOverride FPFeatures,bool dead2)4608ec727ea7Spatrick BinaryOperator::BinaryOperator(const ASTContext &Ctx, Expr *lhs, Expr *rhs,
4609ec727ea7Spatrick Opcode opc, QualType ResTy, ExprValueKind VK,
4610ec727ea7Spatrick ExprObjectKind OK, SourceLocation opLoc,
4611ec727ea7Spatrick FPOptionsOverride FPFeatures, bool dead2)
4612ec727ea7Spatrick : Expr(CompoundAssignOperatorClass, ResTy, VK, OK) {
4613ec727ea7Spatrick BinaryOperatorBits.Opc = opc;
4614ec727ea7Spatrick assert(isCompoundAssignmentOp() &&
4615ec727ea7Spatrick "Use CompoundAssignOperator for compound assignments");
4616ec727ea7Spatrick BinaryOperatorBits.OpLoc = opLoc;
4617ec727ea7Spatrick SubExprs[LHS] = lhs;
4618ec727ea7Spatrick SubExprs[RHS] = rhs;
4619ec727ea7Spatrick BinaryOperatorBits.HasFPFeatures = FPFeatures.requiresTrailingStorage();
4620a9ac8606Spatrick if (hasStoredFPFeatures())
4621a9ac8606Spatrick setStoredFPFeatures(FPFeatures);
4622ec727ea7Spatrick setDependence(computeDependence(this));
4623ec727ea7Spatrick }
4624ec727ea7Spatrick
CreateEmpty(const ASTContext & C,bool HasFPFeatures)4625ec727ea7Spatrick BinaryOperator *BinaryOperator::CreateEmpty(const ASTContext &C,
4626ec727ea7Spatrick bool HasFPFeatures) {
4627ec727ea7Spatrick unsigned Extra = sizeOfTrailingObjects(HasFPFeatures);
4628ec727ea7Spatrick void *Mem =
4629ec727ea7Spatrick C.Allocate(sizeof(BinaryOperator) + Extra, alignof(BinaryOperator));
4630ec727ea7Spatrick return new (Mem) BinaryOperator(EmptyShell());
4631ec727ea7Spatrick }
4632ec727ea7Spatrick
Create(const ASTContext & C,Expr * lhs,Expr * rhs,Opcode opc,QualType ResTy,ExprValueKind VK,ExprObjectKind OK,SourceLocation opLoc,FPOptionsOverride FPFeatures)4633ec727ea7Spatrick BinaryOperator *BinaryOperator::Create(const ASTContext &C, Expr *lhs,
4634ec727ea7Spatrick Expr *rhs, Opcode opc, QualType ResTy,
4635ec727ea7Spatrick ExprValueKind VK, ExprObjectKind OK,
4636ec727ea7Spatrick SourceLocation opLoc,
4637ec727ea7Spatrick FPOptionsOverride FPFeatures) {
4638ec727ea7Spatrick bool HasFPFeatures = FPFeatures.requiresTrailingStorage();
4639ec727ea7Spatrick unsigned Extra = sizeOfTrailingObjects(HasFPFeatures);
4640ec727ea7Spatrick void *Mem =
4641ec727ea7Spatrick C.Allocate(sizeof(BinaryOperator) + Extra, alignof(BinaryOperator));
4642ec727ea7Spatrick return new (Mem)
4643ec727ea7Spatrick BinaryOperator(C, lhs, rhs, opc, ResTy, VK, OK, opLoc, FPFeatures);
4644ec727ea7Spatrick }
4645ec727ea7Spatrick
4646ec727ea7Spatrick CompoundAssignOperator *
CreateEmpty(const ASTContext & C,bool HasFPFeatures)4647ec727ea7Spatrick CompoundAssignOperator::CreateEmpty(const ASTContext &C, bool HasFPFeatures) {
4648ec727ea7Spatrick unsigned Extra = sizeOfTrailingObjects(HasFPFeatures);
4649ec727ea7Spatrick void *Mem = C.Allocate(sizeof(CompoundAssignOperator) + Extra,
4650ec727ea7Spatrick alignof(CompoundAssignOperator));
4651ec727ea7Spatrick return new (Mem) CompoundAssignOperator(C, EmptyShell(), HasFPFeatures);
4652ec727ea7Spatrick }
4653ec727ea7Spatrick
4654ec727ea7Spatrick CompoundAssignOperator *
Create(const ASTContext & C,Expr * lhs,Expr * rhs,Opcode opc,QualType ResTy,ExprValueKind VK,ExprObjectKind OK,SourceLocation opLoc,FPOptionsOverride FPFeatures,QualType CompLHSType,QualType CompResultType)4655ec727ea7Spatrick CompoundAssignOperator::Create(const ASTContext &C, Expr *lhs, Expr *rhs,
4656ec727ea7Spatrick Opcode opc, QualType ResTy, ExprValueKind VK,
4657ec727ea7Spatrick ExprObjectKind OK, SourceLocation opLoc,
4658ec727ea7Spatrick FPOptionsOverride FPFeatures,
4659ec727ea7Spatrick QualType CompLHSType, QualType CompResultType) {
4660ec727ea7Spatrick bool HasFPFeatures = FPFeatures.requiresTrailingStorage();
4661ec727ea7Spatrick unsigned Extra = sizeOfTrailingObjects(HasFPFeatures);
4662ec727ea7Spatrick void *Mem = C.Allocate(sizeof(CompoundAssignOperator) + Extra,
4663ec727ea7Spatrick alignof(CompoundAssignOperator));
4664ec727ea7Spatrick return new (Mem)
4665ec727ea7Spatrick CompoundAssignOperator(C, lhs, rhs, opc, ResTy, VK, OK, opLoc, FPFeatures,
4666ec727ea7Spatrick CompLHSType, CompResultType);
4667ec727ea7Spatrick }
4668ec727ea7Spatrick
CreateEmpty(const ASTContext & C,bool hasFPFeatures)4669ec727ea7Spatrick UnaryOperator *UnaryOperator::CreateEmpty(const ASTContext &C,
4670ec727ea7Spatrick bool hasFPFeatures) {
4671ec727ea7Spatrick void *Mem = C.Allocate(totalSizeToAlloc<FPOptionsOverride>(hasFPFeatures),
4672ec727ea7Spatrick alignof(UnaryOperator));
4673ec727ea7Spatrick return new (Mem) UnaryOperator(hasFPFeatures, EmptyShell());
4674ec727ea7Spatrick }
4675ec727ea7Spatrick
UnaryOperator(const ASTContext & Ctx,Expr * input,Opcode opc,QualType type,ExprValueKind VK,ExprObjectKind OK,SourceLocation l,bool CanOverflow,FPOptionsOverride FPFeatures)4676ec727ea7Spatrick UnaryOperator::UnaryOperator(const ASTContext &Ctx, Expr *input, Opcode opc,
4677ec727ea7Spatrick QualType type, ExprValueKind VK, ExprObjectKind OK,
4678ec727ea7Spatrick SourceLocation l, bool CanOverflow,
4679ec727ea7Spatrick FPOptionsOverride FPFeatures)
4680ec727ea7Spatrick : Expr(UnaryOperatorClass, type, VK, OK), Val(input) {
4681ec727ea7Spatrick UnaryOperatorBits.Opc = opc;
4682ec727ea7Spatrick UnaryOperatorBits.CanOverflow = CanOverflow;
4683ec727ea7Spatrick UnaryOperatorBits.Loc = l;
4684ec727ea7Spatrick UnaryOperatorBits.HasFPFeatures = FPFeatures.requiresTrailingStorage();
4685a9ac8606Spatrick if (hasStoredFPFeatures())
4686a9ac8606Spatrick setStoredFPFeatures(FPFeatures);
4687a9ac8606Spatrick setDependence(computeDependence(this, Ctx));
4688ec727ea7Spatrick }
4689ec727ea7Spatrick
Create(const ASTContext & C,Expr * input,Opcode opc,QualType type,ExprValueKind VK,ExprObjectKind OK,SourceLocation l,bool CanOverflow,FPOptionsOverride FPFeatures)4690ec727ea7Spatrick UnaryOperator *UnaryOperator::Create(const ASTContext &C, Expr *input,
4691ec727ea7Spatrick Opcode opc, QualType type,
4692ec727ea7Spatrick ExprValueKind VK, ExprObjectKind OK,
4693ec727ea7Spatrick SourceLocation l, bool CanOverflow,
4694ec727ea7Spatrick FPOptionsOverride FPFeatures) {
4695ec727ea7Spatrick bool HasFPFeatures = FPFeatures.requiresTrailingStorage();
4696ec727ea7Spatrick unsigned Size = totalSizeToAlloc<FPOptionsOverride>(HasFPFeatures);
4697ec727ea7Spatrick void *Mem = C.Allocate(Size, alignof(UnaryOperator));
4698ec727ea7Spatrick return new (Mem)
4699ec727ea7Spatrick UnaryOperator(C, input, opc, type, VK, OK, l, CanOverflow, FPFeatures);
4700ec727ea7Spatrick }
4701ec727ea7Spatrick
findInCopyConstruct(const Expr * e)4702e5dd7070Spatrick const OpaqueValueExpr *OpaqueValueExpr::findInCopyConstruct(const Expr *e) {
4703e5dd7070Spatrick if (const ExprWithCleanups *ewc = dyn_cast<ExprWithCleanups>(e))
4704e5dd7070Spatrick e = ewc->getSubExpr();
4705e5dd7070Spatrick if (const MaterializeTemporaryExpr *m = dyn_cast<MaterializeTemporaryExpr>(e))
4706e5dd7070Spatrick e = m->getSubExpr();
4707e5dd7070Spatrick e = cast<CXXConstructExpr>(e)->getArg(0);
4708e5dd7070Spatrick while (const ImplicitCastExpr *ice = dyn_cast<ImplicitCastExpr>(e))
4709e5dd7070Spatrick e = ice->getSubExpr();
4710e5dd7070Spatrick return cast<OpaqueValueExpr>(e);
4711e5dd7070Spatrick }
4712e5dd7070Spatrick
Create(const ASTContext & Context,EmptyShell sh,unsigned numSemanticExprs)4713e5dd7070Spatrick PseudoObjectExpr *PseudoObjectExpr::Create(const ASTContext &Context,
4714e5dd7070Spatrick EmptyShell sh,
4715e5dd7070Spatrick unsigned numSemanticExprs) {
4716e5dd7070Spatrick void *buffer =
4717e5dd7070Spatrick Context.Allocate(totalSizeToAlloc<Expr *>(1 + numSemanticExprs),
4718e5dd7070Spatrick alignof(PseudoObjectExpr));
4719e5dd7070Spatrick return new(buffer) PseudoObjectExpr(sh, numSemanticExprs);
4720e5dd7070Spatrick }
4721e5dd7070Spatrick
PseudoObjectExpr(EmptyShell shell,unsigned numSemanticExprs)4722e5dd7070Spatrick PseudoObjectExpr::PseudoObjectExpr(EmptyShell shell, unsigned numSemanticExprs)
4723e5dd7070Spatrick : Expr(PseudoObjectExprClass, shell) {
4724e5dd7070Spatrick PseudoObjectExprBits.NumSubExprs = numSemanticExprs + 1;
4725e5dd7070Spatrick }
4726e5dd7070Spatrick
Create(const ASTContext & C,Expr * syntax,ArrayRef<Expr * > semantics,unsigned resultIndex)4727e5dd7070Spatrick PseudoObjectExpr *PseudoObjectExpr::Create(const ASTContext &C, Expr *syntax,
4728e5dd7070Spatrick ArrayRef<Expr*> semantics,
4729e5dd7070Spatrick unsigned resultIndex) {
4730e5dd7070Spatrick assert(syntax && "no syntactic expression!");
4731e5dd7070Spatrick assert(semantics.size() && "no semantic expressions!");
4732e5dd7070Spatrick
4733e5dd7070Spatrick QualType type;
4734e5dd7070Spatrick ExprValueKind VK;
4735e5dd7070Spatrick if (resultIndex == NoResult) {
4736e5dd7070Spatrick type = C.VoidTy;
4737a9ac8606Spatrick VK = VK_PRValue;
4738e5dd7070Spatrick } else {
4739e5dd7070Spatrick assert(resultIndex < semantics.size());
4740e5dd7070Spatrick type = semantics[resultIndex]->getType();
4741e5dd7070Spatrick VK = semantics[resultIndex]->getValueKind();
4742e5dd7070Spatrick assert(semantics[resultIndex]->getObjectKind() == OK_Ordinary);
4743e5dd7070Spatrick }
4744e5dd7070Spatrick
4745e5dd7070Spatrick void *buffer = C.Allocate(totalSizeToAlloc<Expr *>(semantics.size() + 1),
4746e5dd7070Spatrick alignof(PseudoObjectExpr));
4747e5dd7070Spatrick return new(buffer) PseudoObjectExpr(type, VK, syntax, semantics,
4748e5dd7070Spatrick resultIndex);
4749e5dd7070Spatrick }
4750e5dd7070Spatrick
PseudoObjectExpr(QualType type,ExprValueKind VK,Expr * syntax,ArrayRef<Expr * > semantics,unsigned resultIndex)4751e5dd7070Spatrick PseudoObjectExpr::PseudoObjectExpr(QualType type, ExprValueKind VK,
4752e5dd7070Spatrick Expr *syntax, ArrayRef<Expr *> semantics,
4753e5dd7070Spatrick unsigned resultIndex)
4754ec727ea7Spatrick : Expr(PseudoObjectExprClass, type, VK, OK_Ordinary) {
4755e5dd7070Spatrick PseudoObjectExprBits.NumSubExprs = semantics.size() + 1;
4756e5dd7070Spatrick PseudoObjectExprBits.ResultIndex = resultIndex + 1;
4757e5dd7070Spatrick
4758e5dd7070Spatrick for (unsigned i = 0, e = semantics.size() + 1; i != e; ++i) {
4759e5dd7070Spatrick Expr *E = (i == 0 ? syntax : semantics[i-1]);
4760e5dd7070Spatrick getSubExprsBuffer()[i] = E;
4761e5dd7070Spatrick
4762e5dd7070Spatrick if (isa<OpaqueValueExpr>(E))
4763e5dd7070Spatrick assert(cast<OpaqueValueExpr>(E)->getSourceExpr() != nullptr &&
4764e5dd7070Spatrick "opaque-value semantic expressions for pseudo-object "
4765e5dd7070Spatrick "operations must have sources");
4766e5dd7070Spatrick }
4767ec727ea7Spatrick
4768ec727ea7Spatrick setDependence(computeDependence(this));
4769e5dd7070Spatrick }
4770e5dd7070Spatrick
4771e5dd7070Spatrick //===----------------------------------------------------------------------===//
4772e5dd7070Spatrick // Child Iterators for iterating over subexpressions/substatements
4773e5dd7070Spatrick //===----------------------------------------------------------------------===//
4774e5dd7070Spatrick
4775e5dd7070Spatrick // UnaryExprOrTypeTraitExpr
children()4776e5dd7070Spatrick Stmt::child_range UnaryExprOrTypeTraitExpr::children() {
4777e5dd7070Spatrick const_child_range CCR =
4778e5dd7070Spatrick const_cast<const UnaryExprOrTypeTraitExpr *>(this)->children();
4779e5dd7070Spatrick return child_range(cast_away_const(CCR.begin()), cast_away_const(CCR.end()));
4780e5dd7070Spatrick }
4781e5dd7070Spatrick
children() const4782e5dd7070Spatrick Stmt::const_child_range UnaryExprOrTypeTraitExpr::children() const {
4783e5dd7070Spatrick // If this is of a type and the type is a VLA type (and not a typedef), the
4784e5dd7070Spatrick // size expression of the VLA needs to be treated as an executable expression.
4785e5dd7070Spatrick // Why isn't this weirdness documented better in StmtIterator?
4786e5dd7070Spatrick if (isArgumentType()) {
4787e5dd7070Spatrick if (const VariableArrayType *T =
4788e5dd7070Spatrick dyn_cast<VariableArrayType>(getArgumentType().getTypePtr()))
4789e5dd7070Spatrick return const_child_range(const_child_iterator(T), const_child_iterator());
4790e5dd7070Spatrick return const_child_range(const_child_iterator(), const_child_iterator());
4791e5dd7070Spatrick }
4792e5dd7070Spatrick return const_child_range(&Argument.Ex, &Argument.Ex + 1);
4793e5dd7070Spatrick }
4794e5dd7070Spatrick
AtomicExpr(SourceLocation BLoc,ArrayRef<Expr * > args,QualType t,AtomicOp op,SourceLocation RP)4795ec727ea7Spatrick AtomicExpr::AtomicExpr(SourceLocation BLoc, ArrayRef<Expr *> args, QualType t,
4796ec727ea7Spatrick AtomicOp op, SourceLocation RP)
4797a9ac8606Spatrick : Expr(AtomicExprClass, t, VK_PRValue, OK_Ordinary),
4798ec727ea7Spatrick NumSubExprs(args.size()), BuiltinLoc(BLoc), RParenLoc(RP), Op(op) {
4799e5dd7070Spatrick assert(args.size() == getNumSubExprs(op) && "wrong number of subexpressions");
4800ec727ea7Spatrick for (unsigned i = 0; i != args.size(); i++)
4801e5dd7070Spatrick SubExprs[i] = args[i];
4802ec727ea7Spatrick setDependence(computeDependence(this));
4803e5dd7070Spatrick }
4804e5dd7070Spatrick
getNumSubExprs(AtomicOp Op)4805e5dd7070Spatrick unsigned AtomicExpr::getNumSubExprs(AtomicOp Op) {
4806e5dd7070Spatrick switch (Op) {
4807e5dd7070Spatrick case AO__c11_atomic_init:
4808e5dd7070Spatrick case AO__opencl_atomic_init:
4809e5dd7070Spatrick case AO__c11_atomic_load:
4810e5dd7070Spatrick case AO__atomic_load_n:
4811e5dd7070Spatrick return 2;
4812e5dd7070Spatrick
4813e5dd7070Spatrick case AO__opencl_atomic_load:
4814*12c85518Srobert case AO__hip_atomic_load:
4815e5dd7070Spatrick case AO__c11_atomic_store:
4816e5dd7070Spatrick case AO__c11_atomic_exchange:
4817e5dd7070Spatrick case AO__atomic_load:
4818e5dd7070Spatrick case AO__atomic_store:
4819e5dd7070Spatrick case AO__atomic_store_n:
4820e5dd7070Spatrick case AO__atomic_exchange_n:
4821e5dd7070Spatrick case AO__c11_atomic_fetch_add:
4822e5dd7070Spatrick case AO__c11_atomic_fetch_sub:
4823e5dd7070Spatrick case AO__c11_atomic_fetch_and:
4824e5dd7070Spatrick case AO__c11_atomic_fetch_or:
4825e5dd7070Spatrick case AO__c11_atomic_fetch_xor:
4826*12c85518Srobert case AO__c11_atomic_fetch_nand:
4827e5dd7070Spatrick case AO__c11_atomic_fetch_max:
4828e5dd7070Spatrick case AO__c11_atomic_fetch_min:
4829e5dd7070Spatrick case AO__atomic_fetch_add:
4830e5dd7070Spatrick case AO__atomic_fetch_sub:
4831e5dd7070Spatrick case AO__atomic_fetch_and:
4832e5dd7070Spatrick case AO__atomic_fetch_or:
4833e5dd7070Spatrick case AO__atomic_fetch_xor:
4834e5dd7070Spatrick case AO__atomic_fetch_nand:
4835e5dd7070Spatrick case AO__atomic_add_fetch:
4836e5dd7070Spatrick case AO__atomic_sub_fetch:
4837e5dd7070Spatrick case AO__atomic_and_fetch:
4838e5dd7070Spatrick case AO__atomic_or_fetch:
4839e5dd7070Spatrick case AO__atomic_xor_fetch:
4840e5dd7070Spatrick case AO__atomic_nand_fetch:
4841e5dd7070Spatrick case AO__atomic_min_fetch:
4842e5dd7070Spatrick case AO__atomic_max_fetch:
4843e5dd7070Spatrick case AO__atomic_fetch_min:
4844e5dd7070Spatrick case AO__atomic_fetch_max:
4845e5dd7070Spatrick return 3;
4846e5dd7070Spatrick
4847*12c85518Srobert case AO__hip_atomic_exchange:
4848*12c85518Srobert case AO__hip_atomic_fetch_add:
4849*12c85518Srobert case AO__hip_atomic_fetch_and:
4850*12c85518Srobert case AO__hip_atomic_fetch_or:
4851*12c85518Srobert case AO__hip_atomic_fetch_xor:
4852*12c85518Srobert case AO__hip_atomic_fetch_min:
4853*12c85518Srobert case AO__hip_atomic_fetch_max:
4854e5dd7070Spatrick case AO__opencl_atomic_store:
4855*12c85518Srobert case AO__hip_atomic_store:
4856e5dd7070Spatrick case AO__opencl_atomic_exchange:
4857e5dd7070Spatrick case AO__opencl_atomic_fetch_add:
4858e5dd7070Spatrick case AO__opencl_atomic_fetch_sub:
4859e5dd7070Spatrick case AO__opencl_atomic_fetch_and:
4860e5dd7070Spatrick case AO__opencl_atomic_fetch_or:
4861e5dd7070Spatrick case AO__opencl_atomic_fetch_xor:
4862e5dd7070Spatrick case AO__opencl_atomic_fetch_min:
4863e5dd7070Spatrick case AO__opencl_atomic_fetch_max:
4864e5dd7070Spatrick case AO__atomic_exchange:
4865e5dd7070Spatrick return 4;
4866e5dd7070Spatrick
4867e5dd7070Spatrick case AO__c11_atomic_compare_exchange_strong:
4868e5dd7070Spatrick case AO__c11_atomic_compare_exchange_weak:
4869e5dd7070Spatrick return 5;
4870*12c85518Srobert case AO__hip_atomic_compare_exchange_strong:
4871e5dd7070Spatrick case AO__opencl_atomic_compare_exchange_strong:
4872e5dd7070Spatrick case AO__opencl_atomic_compare_exchange_weak:
4873*12c85518Srobert case AO__hip_atomic_compare_exchange_weak:
4874e5dd7070Spatrick case AO__atomic_compare_exchange:
4875e5dd7070Spatrick case AO__atomic_compare_exchange_n:
4876e5dd7070Spatrick return 6;
4877e5dd7070Spatrick }
4878e5dd7070Spatrick llvm_unreachable("unknown atomic op");
4879e5dd7070Spatrick }
4880e5dd7070Spatrick
getValueType() const4881e5dd7070Spatrick QualType AtomicExpr::getValueType() const {
4882e5dd7070Spatrick auto T = getPtr()->getType()->castAs<PointerType>()->getPointeeType();
4883e5dd7070Spatrick if (auto AT = T->getAs<AtomicType>())
4884e5dd7070Spatrick return AT->getValueType();
4885e5dd7070Spatrick return T;
4886e5dd7070Spatrick }
4887e5dd7070Spatrick
getBaseOriginalType(const Expr * Base)4888e5dd7070Spatrick QualType OMPArraySectionExpr::getBaseOriginalType(const Expr *Base) {
4889e5dd7070Spatrick unsigned ArraySectionCount = 0;
4890e5dd7070Spatrick while (auto *OASE = dyn_cast<OMPArraySectionExpr>(Base->IgnoreParens())) {
4891e5dd7070Spatrick Base = OASE->getBase();
4892e5dd7070Spatrick ++ArraySectionCount;
4893e5dd7070Spatrick }
4894e5dd7070Spatrick while (auto *ASE =
4895e5dd7070Spatrick dyn_cast<ArraySubscriptExpr>(Base->IgnoreParenImpCasts())) {
4896e5dd7070Spatrick Base = ASE->getBase();
4897e5dd7070Spatrick ++ArraySectionCount;
4898e5dd7070Spatrick }
4899e5dd7070Spatrick Base = Base->IgnoreParenImpCasts();
4900e5dd7070Spatrick auto OriginalTy = Base->getType();
4901e5dd7070Spatrick if (auto *DRE = dyn_cast<DeclRefExpr>(Base))
4902e5dd7070Spatrick if (auto *PVD = dyn_cast<ParmVarDecl>(DRE->getDecl()))
4903e5dd7070Spatrick OriginalTy = PVD->getOriginalType().getNonReferenceType();
4904e5dd7070Spatrick
4905e5dd7070Spatrick for (unsigned Cnt = 0; Cnt < ArraySectionCount; ++Cnt) {
4906e5dd7070Spatrick if (OriginalTy->isAnyPointerType())
4907e5dd7070Spatrick OriginalTy = OriginalTy->getPointeeType();
4908e5dd7070Spatrick else {
4909e5dd7070Spatrick assert (OriginalTy->isArrayType());
4910e5dd7070Spatrick OriginalTy = OriginalTy->castAsArrayTypeUnsafe()->getElementType();
4911e5dd7070Spatrick }
4912e5dd7070Spatrick }
4913e5dd7070Spatrick return OriginalTy;
4914e5dd7070Spatrick }
4915ec727ea7Spatrick
RecoveryExpr(ASTContext & Ctx,QualType T,SourceLocation BeginLoc,SourceLocation EndLoc,ArrayRef<Expr * > SubExprs)4916ec727ea7Spatrick RecoveryExpr::RecoveryExpr(ASTContext &Ctx, QualType T, SourceLocation BeginLoc,
4917ec727ea7Spatrick SourceLocation EndLoc, ArrayRef<Expr *> SubExprs)
4918ec727ea7Spatrick : Expr(RecoveryExprClass, T.getNonReferenceType(),
4919ec727ea7Spatrick T->isDependentType() ? VK_LValue : getValueKindForType(T),
4920ec727ea7Spatrick OK_Ordinary),
4921ec727ea7Spatrick BeginLoc(BeginLoc), EndLoc(EndLoc), NumExprs(SubExprs.size()) {
4922ec727ea7Spatrick assert(!T.isNull());
4923*12c85518Srobert assert(!llvm::is_contained(SubExprs, nullptr));
4924ec727ea7Spatrick
4925ec727ea7Spatrick llvm::copy(SubExprs, getTrailingObjects<Expr *>());
4926ec727ea7Spatrick setDependence(computeDependence(this));
4927ec727ea7Spatrick }
4928ec727ea7Spatrick
Create(ASTContext & Ctx,QualType T,SourceLocation BeginLoc,SourceLocation EndLoc,ArrayRef<Expr * > SubExprs)4929ec727ea7Spatrick RecoveryExpr *RecoveryExpr::Create(ASTContext &Ctx, QualType T,
4930ec727ea7Spatrick SourceLocation BeginLoc,
4931ec727ea7Spatrick SourceLocation EndLoc,
4932ec727ea7Spatrick ArrayRef<Expr *> SubExprs) {
4933ec727ea7Spatrick void *Mem = Ctx.Allocate(totalSizeToAlloc<Expr *>(SubExprs.size()),
4934ec727ea7Spatrick alignof(RecoveryExpr));
4935ec727ea7Spatrick return new (Mem) RecoveryExpr(Ctx, T, BeginLoc, EndLoc, SubExprs);
4936ec727ea7Spatrick }
4937ec727ea7Spatrick
CreateEmpty(ASTContext & Ctx,unsigned NumSubExprs)4938ec727ea7Spatrick RecoveryExpr *RecoveryExpr::CreateEmpty(ASTContext &Ctx, unsigned NumSubExprs) {
4939ec727ea7Spatrick void *Mem = Ctx.Allocate(totalSizeToAlloc<Expr *>(NumSubExprs),
4940ec727ea7Spatrick alignof(RecoveryExpr));
4941ec727ea7Spatrick return new (Mem) RecoveryExpr(EmptyShell(), NumSubExprs);
4942ec727ea7Spatrick }
4943ec727ea7Spatrick
setDimensions(ArrayRef<Expr * > Dims)4944ec727ea7Spatrick void OMPArrayShapingExpr::setDimensions(ArrayRef<Expr *> Dims) {
4945ec727ea7Spatrick assert(
4946ec727ea7Spatrick NumDims == Dims.size() &&
4947ec727ea7Spatrick "Preallocated number of dimensions is different from the provided one.");
4948ec727ea7Spatrick llvm::copy(Dims, getTrailingObjects<Expr *>());
4949ec727ea7Spatrick }
4950ec727ea7Spatrick
setBracketsRanges(ArrayRef<SourceRange> BR)4951ec727ea7Spatrick void OMPArrayShapingExpr::setBracketsRanges(ArrayRef<SourceRange> BR) {
4952ec727ea7Spatrick assert(
4953ec727ea7Spatrick NumDims == BR.size() &&
4954ec727ea7Spatrick "Preallocated number of dimensions is different from the provided one.");
4955ec727ea7Spatrick llvm::copy(BR, getTrailingObjects<SourceRange>());
4956ec727ea7Spatrick }
4957ec727ea7Spatrick
OMPArrayShapingExpr(QualType ExprTy,Expr * Op,SourceLocation L,SourceLocation R,ArrayRef<Expr * > Dims)4958ec727ea7Spatrick OMPArrayShapingExpr::OMPArrayShapingExpr(QualType ExprTy, Expr *Op,
4959ec727ea7Spatrick SourceLocation L, SourceLocation R,
4960ec727ea7Spatrick ArrayRef<Expr *> Dims)
4961ec727ea7Spatrick : Expr(OMPArrayShapingExprClass, ExprTy, VK_LValue, OK_Ordinary), LPLoc(L),
4962ec727ea7Spatrick RPLoc(R), NumDims(Dims.size()) {
4963ec727ea7Spatrick setBase(Op);
4964ec727ea7Spatrick setDimensions(Dims);
4965ec727ea7Spatrick setDependence(computeDependence(this));
4966ec727ea7Spatrick }
4967ec727ea7Spatrick
4968ec727ea7Spatrick OMPArrayShapingExpr *
Create(const ASTContext & Context,QualType T,Expr * Op,SourceLocation L,SourceLocation R,ArrayRef<Expr * > Dims,ArrayRef<SourceRange> BracketRanges)4969ec727ea7Spatrick OMPArrayShapingExpr::Create(const ASTContext &Context, QualType T, Expr *Op,
4970ec727ea7Spatrick SourceLocation L, SourceLocation R,
4971ec727ea7Spatrick ArrayRef<Expr *> Dims,
4972ec727ea7Spatrick ArrayRef<SourceRange> BracketRanges) {
4973ec727ea7Spatrick assert(Dims.size() == BracketRanges.size() &&
4974ec727ea7Spatrick "Different number of dimensions and brackets ranges.");
4975ec727ea7Spatrick void *Mem = Context.Allocate(
4976ec727ea7Spatrick totalSizeToAlloc<Expr *, SourceRange>(Dims.size() + 1, Dims.size()),
4977ec727ea7Spatrick alignof(OMPArrayShapingExpr));
4978ec727ea7Spatrick auto *E = new (Mem) OMPArrayShapingExpr(T, Op, L, R, Dims);
4979ec727ea7Spatrick E->setBracketsRanges(BracketRanges);
4980ec727ea7Spatrick return E;
4981ec727ea7Spatrick }
4982ec727ea7Spatrick
CreateEmpty(const ASTContext & Context,unsigned NumDims)4983ec727ea7Spatrick OMPArrayShapingExpr *OMPArrayShapingExpr::CreateEmpty(const ASTContext &Context,
4984ec727ea7Spatrick unsigned NumDims) {
4985ec727ea7Spatrick void *Mem = Context.Allocate(
4986ec727ea7Spatrick totalSizeToAlloc<Expr *, SourceRange>(NumDims + 1, NumDims),
4987ec727ea7Spatrick alignof(OMPArrayShapingExpr));
4988ec727ea7Spatrick return new (Mem) OMPArrayShapingExpr(EmptyShell(), NumDims);
4989ec727ea7Spatrick }
4990ec727ea7Spatrick
setIteratorDeclaration(unsigned I,Decl * D)4991ec727ea7Spatrick void OMPIteratorExpr::setIteratorDeclaration(unsigned I, Decl *D) {
4992ec727ea7Spatrick assert(I < NumIterators &&
4993ec727ea7Spatrick "Idx is greater or equal the number of iterators definitions.");
4994ec727ea7Spatrick getTrailingObjects<Decl *>()[I] = D;
4995ec727ea7Spatrick }
4996ec727ea7Spatrick
setAssignmentLoc(unsigned I,SourceLocation Loc)4997ec727ea7Spatrick void OMPIteratorExpr::setAssignmentLoc(unsigned I, SourceLocation Loc) {
4998ec727ea7Spatrick assert(I < NumIterators &&
4999ec727ea7Spatrick "Idx is greater or equal the number of iterators definitions.");
5000ec727ea7Spatrick getTrailingObjects<
5001ec727ea7Spatrick SourceLocation>()[I * static_cast<int>(RangeLocOffset::Total) +
5002ec727ea7Spatrick static_cast<int>(RangeLocOffset::AssignLoc)] = Loc;
5003ec727ea7Spatrick }
5004ec727ea7Spatrick
setIteratorRange(unsigned I,Expr * Begin,SourceLocation ColonLoc,Expr * End,SourceLocation SecondColonLoc,Expr * Step)5005ec727ea7Spatrick void OMPIteratorExpr::setIteratorRange(unsigned I, Expr *Begin,
5006ec727ea7Spatrick SourceLocation ColonLoc, Expr *End,
5007ec727ea7Spatrick SourceLocation SecondColonLoc,
5008ec727ea7Spatrick Expr *Step) {
5009ec727ea7Spatrick assert(I < NumIterators &&
5010ec727ea7Spatrick "Idx is greater or equal the number of iterators definitions.");
5011ec727ea7Spatrick getTrailingObjects<Expr *>()[I * static_cast<int>(RangeExprOffset::Total) +
5012ec727ea7Spatrick static_cast<int>(RangeExprOffset::Begin)] =
5013ec727ea7Spatrick Begin;
5014ec727ea7Spatrick getTrailingObjects<Expr *>()[I * static_cast<int>(RangeExprOffset::Total) +
5015ec727ea7Spatrick static_cast<int>(RangeExprOffset::End)] = End;
5016ec727ea7Spatrick getTrailingObjects<Expr *>()[I * static_cast<int>(RangeExprOffset::Total) +
5017ec727ea7Spatrick static_cast<int>(RangeExprOffset::Step)] = Step;
5018ec727ea7Spatrick getTrailingObjects<
5019ec727ea7Spatrick SourceLocation>()[I * static_cast<int>(RangeLocOffset::Total) +
5020ec727ea7Spatrick static_cast<int>(RangeLocOffset::FirstColonLoc)] =
5021ec727ea7Spatrick ColonLoc;
5022ec727ea7Spatrick getTrailingObjects<
5023ec727ea7Spatrick SourceLocation>()[I * static_cast<int>(RangeLocOffset::Total) +
5024ec727ea7Spatrick static_cast<int>(RangeLocOffset::SecondColonLoc)] =
5025ec727ea7Spatrick SecondColonLoc;
5026ec727ea7Spatrick }
5027ec727ea7Spatrick
getIteratorDecl(unsigned I)5028ec727ea7Spatrick Decl *OMPIteratorExpr::getIteratorDecl(unsigned I) {
5029ec727ea7Spatrick return getTrailingObjects<Decl *>()[I];
5030ec727ea7Spatrick }
5031ec727ea7Spatrick
getIteratorRange(unsigned I)5032ec727ea7Spatrick OMPIteratorExpr::IteratorRange OMPIteratorExpr::getIteratorRange(unsigned I) {
5033ec727ea7Spatrick IteratorRange Res;
5034ec727ea7Spatrick Res.Begin =
5035ec727ea7Spatrick getTrailingObjects<Expr *>()[I * static_cast<int>(
5036ec727ea7Spatrick RangeExprOffset::Total) +
5037ec727ea7Spatrick static_cast<int>(RangeExprOffset::Begin)];
5038ec727ea7Spatrick Res.End =
5039ec727ea7Spatrick getTrailingObjects<Expr *>()[I * static_cast<int>(
5040ec727ea7Spatrick RangeExprOffset::Total) +
5041ec727ea7Spatrick static_cast<int>(RangeExprOffset::End)];
5042ec727ea7Spatrick Res.Step =
5043ec727ea7Spatrick getTrailingObjects<Expr *>()[I * static_cast<int>(
5044ec727ea7Spatrick RangeExprOffset::Total) +
5045ec727ea7Spatrick static_cast<int>(RangeExprOffset::Step)];
5046ec727ea7Spatrick return Res;
5047ec727ea7Spatrick }
5048ec727ea7Spatrick
getAssignLoc(unsigned I) const5049ec727ea7Spatrick SourceLocation OMPIteratorExpr::getAssignLoc(unsigned I) const {
5050ec727ea7Spatrick return getTrailingObjects<
5051ec727ea7Spatrick SourceLocation>()[I * static_cast<int>(RangeLocOffset::Total) +
5052ec727ea7Spatrick static_cast<int>(RangeLocOffset::AssignLoc)];
5053ec727ea7Spatrick }
5054ec727ea7Spatrick
getColonLoc(unsigned I) const5055ec727ea7Spatrick SourceLocation OMPIteratorExpr::getColonLoc(unsigned I) const {
5056ec727ea7Spatrick return getTrailingObjects<
5057ec727ea7Spatrick SourceLocation>()[I * static_cast<int>(RangeLocOffset::Total) +
5058ec727ea7Spatrick static_cast<int>(RangeLocOffset::FirstColonLoc)];
5059ec727ea7Spatrick }
5060ec727ea7Spatrick
getSecondColonLoc(unsigned I) const5061ec727ea7Spatrick SourceLocation OMPIteratorExpr::getSecondColonLoc(unsigned I) const {
5062ec727ea7Spatrick return getTrailingObjects<
5063ec727ea7Spatrick SourceLocation>()[I * static_cast<int>(RangeLocOffset::Total) +
5064ec727ea7Spatrick static_cast<int>(RangeLocOffset::SecondColonLoc)];
5065ec727ea7Spatrick }
5066ec727ea7Spatrick
setHelper(unsigned I,const OMPIteratorHelperData & D)5067ec727ea7Spatrick void OMPIteratorExpr::setHelper(unsigned I, const OMPIteratorHelperData &D) {
5068ec727ea7Spatrick getTrailingObjects<OMPIteratorHelperData>()[I] = D;
5069ec727ea7Spatrick }
5070ec727ea7Spatrick
getHelper(unsigned I)5071ec727ea7Spatrick OMPIteratorHelperData &OMPIteratorExpr::getHelper(unsigned I) {
5072ec727ea7Spatrick return getTrailingObjects<OMPIteratorHelperData>()[I];
5073ec727ea7Spatrick }
5074ec727ea7Spatrick
getHelper(unsigned I) const5075ec727ea7Spatrick const OMPIteratorHelperData &OMPIteratorExpr::getHelper(unsigned I) const {
5076ec727ea7Spatrick return getTrailingObjects<OMPIteratorHelperData>()[I];
5077ec727ea7Spatrick }
5078ec727ea7Spatrick
OMPIteratorExpr(QualType ExprTy,SourceLocation IteratorKwLoc,SourceLocation L,SourceLocation R,ArrayRef<OMPIteratorExpr::IteratorDefinition> Data,ArrayRef<OMPIteratorHelperData> Helpers)5079ec727ea7Spatrick OMPIteratorExpr::OMPIteratorExpr(
5080ec727ea7Spatrick QualType ExprTy, SourceLocation IteratorKwLoc, SourceLocation L,
5081ec727ea7Spatrick SourceLocation R, ArrayRef<OMPIteratorExpr::IteratorDefinition> Data,
5082ec727ea7Spatrick ArrayRef<OMPIteratorHelperData> Helpers)
5083ec727ea7Spatrick : Expr(OMPIteratorExprClass, ExprTy, VK_LValue, OK_Ordinary),
5084ec727ea7Spatrick IteratorKwLoc(IteratorKwLoc), LPLoc(L), RPLoc(R),
5085ec727ea7Spatrick NumIterators(Data.size()) {
5086ec727ea7Spatrick for (unsigned I = 0, E = Data.size(); I < E; ++I) {
5087ec727ea7Spatrick const IteratorDefinition &D = Data[I];
5088ec727ea7Spatrick setIteratorDeclaration(I, D.IteratorDecl);
5089ec727ea7Spatrick setAssignmentLoc(I, D.AssignmentLoc);
5090ec727ea7Spatrick setIteratorRange(I, D.Range.Begin, D.ColonLoc, D.Range.End,
5091ec727ea7Spatrick D.SecondColonLoc, D.Range.Step);
5092ec727ea7Spatrick setHelper(I, Helpers[I]);
5093ec727ea7Spatrick }
5094ec727ea7Spatrick setDependence(computeDependence(this));
5095ec727ea7Spatrick }
5096ec727ea7Spatrick
5097ec727ea7Spatrick OMPIteratorExpr *
Create(const ASTContext & Context,QualType T,SourceLocation IteratorKwLoc,SourceLocation L,SourceLocation R,ArrayRef<OMPIteratorExpr::IteratorDefinition> Data,ArrayRef<OMPIteratorHelperData> Helpers)5098ec727ea7Spatrick OMPIteratorExpr::Create(const ASTContext &Context, QualType T,
5099ec727ea7Spatrick SourceLocation IteratorKwLoc, SourceLocation L,
5100ec727ea7Spatrick SourceLocation R,
5101ec727ea7Spatrick ArrayRef<OMPIteratorExpr::IteratorDefinition> Data,
5102ec727ea7Spatrick ArrayRef<OMPIteratorHelperData> Helpers) {
5103ec727ea7Spatrick assert(Data.size() == Helpers.size() &&
5104ec727ea7Spatrick "Data and helpers must have the same size.");
5105ec727ea7Spatrick void *Mem = Context.Allocate(
5106ec727ea7Spatrick totalSizeToAlloc<Decl *, Expr *, SourceLocation, OMPIteratorHelperData>(
5107ec727ea7Spatrick Data.size(), Data.size() * static_cast<int>(RangeExprOffset::Total),
5108ec727ea7Spatrick Data.size() * static_cast<int>(RangeLocOffset::Total),
5109ec727ea7Spatrick Helpers.size()),
5110ec727ea7Spatrick alignof(OMPIteratorExpr));
5111ec727ea7Spatrick return new (Mem) OMPIteratorExpr(T, IteratorKwLoc, L, R, Data, Helpers);
5112ec727ea7Spatrick }
5113ec727ea7Spatrick
CreateEmpty(const ASTContext & Context,unsigned NumIterators)5114ec727ea7Spatrick OMPIteratorExpr *OMPIteratorExpr::CreateEmpty(const ASTContext &Context,
5115ec727ea7Spatrick unsigned NumIterators) {
5116ec727ea7Spatrick void *Mem = Context.Allocate(
5117ec727ea7Spatrick totalSizeToAlloc<Decl *, Expr *, SourceLocation, OMPIteratorHelperData>(
5118ec727ea7Spatrick NumIterators, NumIterators * static_cast<int>(RangeExprOffset::Total),
5119ec727ea7Spatrick NumIterators * static_cast<int>(RangeLocOffset::Total), NumIterators),
5120ec727ea7Spatrick alignof(OMPIteratorExpr));
5121ec727ea7Spatrick return new (Mem) OMPIteratorExpr(EmptyShell(), NumIterators);
5122ec727ea7Spatrick }
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