clang/lib/Sema/Scope.cpp - llvm-project - Git at Google

 //===- 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<unsigned, const char *> 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";
 }
	//===- 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<unsigned, const char *> 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";
	}