//===- Scope.cpp - Lexical scope information --------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file implements the Scope class, which is used for recording // information about a lexical scope. // //===----------------------------------------------------------------------===// #include "clang/Sema/Scope.h" #include "clang/AST/Decl.h" #include "llvm/Support/raw_ostream.h" using namespace clang; void Scope::setFlags(Scope *parent, unsigned flags) { AnyParent = parent; Flags = flags; if (parent && !(flags & FnScope)) { BreakParent = parent->BreakParent; ContinueParent = parent->ContinueParent; } else { // Control scopes do not contain the contents of nested function scopes for // control flow purposes. BreakParent = ContinueParent = nullptr; } if (parent) { Depth = parent->Depth + 1; PrototypeDepth = parent->PrototypeDepth; PrototypeIndex = 0; FnParent = parent->FnParent; BlockParent = parent->BlockParent; TemplateParamParent = parent->TemplateParamParent; DeclParent = parent->DeclParent; MSLastManglingParent = parent->MSLastManglingParent; MSCurManglingNumber = getMSLastManglingNumber(); if ((Flags & (FnScope | ClassScope | BlockScope | TemplateParamScope | FunctionPrototypeScope | AtCatchScope | ObjCMethodScope)) == 0) Flags |= parent->getFlags() & OpenMPSimdDirectiveScope; // transmit the parent's 'order' flag, if exists if (parent->getFlags() & OpenMPOrderClauseScope) Flags |= OpenMPOrderClauseScope; } else { Depth = 0; PrototypeDepth = 0; PrototypeIndex = 0; MSLastManglingParent = FnParent = BlockParent = nullptr; TemplateParamParent = nullptr; DeclParent = nullptr; MSLastManglingNumber = 1; MSCurManglingNumber = 1; } // If this scope is a function or contains breaks/continues, remember it. if (flags & FnScope) FnParent = this; // The MS mangler uses the number of scopes that can hold declarations as // part of an external name. if (Flags & (ClassScope | FnScope)) { MSLastManglingNumber = getMSLastManglingNumber(); MSLastManglingParent = this; MSCurManglingNumber = 1; } if (flags & BreakScope) BreakParent = this; if (flags & ContinueScope) ContinueParent = this; if (flags & BlockScope) BlockParent = this; if (flags & TemplateParamScope) TemplateParamParent = this; // If this is a prototype scope, record that. Lambdas have an extra prototype // scope that doesn't add any depth. if (flags & FunctionPrototypeScope && !(flags & LambdaScope)) PrototypeDepth++; if (flags & DeclScope) { DeclParent = this; if (flags & FunctionPrototypeScope) ; // Prototype scopes are uninteresting. else if ((flags & ClassScope) && getParent()->isClassScope()) ; // Nested class scopes aren't ambiguous. else if ((flags & ClassScope) && getParent()->getFlags() == DeclScope) ; // Classes inside of namespaces aren't ambiguous. else if ((flags & EnumScope)) ; // Don't increment for enum scopes. else incrementMSManglingNumber(); } } void Scope::Init(Scope *parent, unsigned flags) { setFlags(parent, flags); DeclsInScope.clear(); UsingDirectives.clear(); Entity = nullptr; ErrorTrap.reset(); NRVO = std::nullopt; } bool Scope::containedInPrototypeScope() const { const Scope *S = this; while (S) { if (S->isFunctionPrototypeScope()) return true; S = S->getParent(); } return false; } void Scope::AddFlags(unsigned FlagsToSet) { assert((FlagsToSet & ~(BreakScope | ContinueScope)) == 0 && "Unsupported scope flags"); if (FlagsToSet & BreakScope) { assert((Flags & BreakScope) == 0 && "Already set"); BreakParent = this; } if (FlagsToSet & ContinueScope) { assert((Flags & ContinueScope) == 0 && "Already set"); ContinueParent = this; } Flags |= FlagsToSet; } // The algorithm for updating NRVO candidate is as follows: // 1. All previous candidates become invalid because a new NRVO candidate is // obtained. Therefore, we need to clear return slots for other // variables defined before the current return statement in the current // scope and in outer scopes. // 2. Store the new candidate if its return slot is available. Otherwise, // there is no NRVO candidate so far. void Scope::updateNRVOCandidate(VarDecl *VD) { auto UpdateReturnSlotsInScopeForVD = [VD](Scope *S) -> bool { bool IsReturnSlotFound = S->ReturnSlots.contains(VD); // We found a candidate variable that can be put into a return slot. // Clear the set, because other variables cannot occupy a return // slot in the same scope. S->ReturnSlots.clear(); if (IsReturnSlotFound) S->ReturnSlots.insert(VD); return IsReturnSlotFound; }; bool CanBePutInReturnSlot = false; for (auto *S = this; S; S = S->getParent()) { CanBePutInReturnSlot |= UpdateReturnSlotsInScopeForVD(S); if (S->getEntity()) break; } // Consider the variable as NRVO candidate if the return slot is available // for it in the current scope, or if it can be available in outer scopes. NRVO = CanBePutInReturnSlot ? VD : nullptr; } void Scope::applyNRVO() { // There is no NRVO candidate in the current scope. if (!NRVO.has_value()) return; if (*NRVO && isDeclScope(*NRVO)) (*NRVO)->setNRVOVariable(true); // It's necessary to propagate NRVO candidate to the parent scope for cases // when the parent scope doesn't contain a return statement. // For example: // X foo(bool b) { // X x; // if (b) // return x; // exit(0); // } // Also, we need to propagate nullptr value that means NRVO is not // allowed in this scope. // For example: // X foo(bool b) { // X x; // if (b) // return x; // else // return X(); // NRVO is not allowed // } if (!getEntity()) getParent()->NRVO = *NRVO; } LLVM_DUMP_METHOD void Scope::dump() const { dumpImpl(llvm::errs()); } void Scope::dumpImpl(raw_ostream &OS) const { unsigned Flags = getFlags(); bool HasFlags = Flags != 0; if (HasFlags) OS << "Flags: "; std::pair FlagInfo[] = { {FnScope, "FnScope"}, {BreakScope, "BreakScope"}, {ContinueScope, "ContinueScope"}, {DeclScope, "DeclScope"}, {ControlScope, "ControlScope"}, {ClassScope, "ClassScope"}, {BlockScope, "BlockScope"}, {TemplateParamScope, "TemplateParamScope"}, {FunctionPrototypeScope, "FunctionPrototypeScope"}, {FunctionDeclarationScope, "FunctionDeclarationScope"}, {AtCatchScope, "AtCatchScope"}, {ObjCMethodScope, "ObjCMethodScope"}, {SwitchScope, "SwitchScope"}, {TryScope, "TryScope"}, {FnTryCatchScope, "FnTryCatchScope"}, {OpenMPDirectiveScope, "OpenMPDirectiveScope"}, {OpenMPLoopDirectiveScope, "OpenMPLoopDirectiveScope"}, {OpenMPSimdDirectiveScope, "OpenMPSimdDirectiveScope"}, {EnumScope, "EnumScope"}, {SEHTryScope, "SEHTryScope"}, {SEHExceptScope, "SEHExceptScope"}, {SEHFilterScope, "SEHFilterScope"}, {CompoundStmtScope, "CompoundStmtScope"}, {ClassInheritanceScope, "ClassInheritanceScope"}, {CatchScope, "CatchScope"}, {ConditionVarScope, "ConditionVarScope"}, {OpenMPOrderClauseScope, "OpenMPOrderClauseScope"}, {LambdaScope, "LambdaScope"}, {OpenACCComputeConstructScope, "OpenACCComputeConstructScope"}, {TypeAliasScope, "TypeAliasScope"}, {FriendScope, "FriendScope"}, }; for (auto Info : FlagInfo) { if (Flags & Info.first) { OS << Info.second; Flags &= ~Info.first; if (Flags) OS << " | "; } } assert(Flags == 0 && "Unknown scope flags"); if (HasFlags) OS << '\n'; if (const Scope *Parent = getParent()) OS << "Parent: (clang::Scope*)" << Parent << '\n'; OS << "Depth: " << Depth << '\n'; OS << "MSLastManglingNumber: " << getMSLastManglingNumber() << '\n'; OS << "MSCurManglingNumber: " << getMSCurManglingNumber() << '\n'; if (const DeclContext *DC = getEntity()) OS << "Entity : (clang::DeclContext*)" << DC << '\n'; if (!NRVO) OS << "there is no NRVO candidate\n"; else if (*NRVO) OS << "NRVO candidate : (clang::VarDecl*)" << *NRVO << '\n'; else OS << "NRVO is not allowed\n"; }