lib/AST/Interp/Context.cpp - clang - Git at Google

 //===--- Context.cpp - Context for the constexpr VM -------------*- 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
 //
 //===----------------------------------------------------------------------===//

 #include "Context.h"
 #include "ByteCodeEmitter.h"
 #include "ByteCodeExprGen.h"
 #include "ByteCodeStmtGen.h"
 #include "EvalEmitter.h"
 #include "Interp.h"
 #include "InterpFrame.h"
 #include "InterpStack.h"
 #include "PrimType.h"
 #include "Program.h"
 #include "clang/AST/Expr.h"

 using namespace clang;
 using namespace clang::interp;

 Context::Context(ASTContext &Ctx)
     : Ctx(Ctx), ForceInterp(getLangOpts().ForceNewConstInterp),
       P(new Program(*this)) {}

 Context::~Context() {}

 InterpResult Context::isPotentialConstantExpr(State &Parent,
                                               const FunctionDecl *FD) {
   Function *Func = P->getFunction(FD);
   if (!Func) {
     if (auto R = ByteCodeStmtGen<ByteCodeEmitter>(*this, *P).compileFunc(FD)) {
       Func = *R;
     } else if (ForceInterp) {
       handleAllErrors(R.takeError(), [&Parent](ByteCodeGenError &Err) {
         Parent.FFDiag(Err.getLoc(), diag::err_experimental_clang_interp_failed);
       });
       return InterpResult::Fail;
     } else {
       consumeError(R.takeError());
       return InterpResult::Bail;
     }
   }

   if (!Func->isConstexpr())
     return InterpResult::Fail;

   APValue Dummy;
   return Run(Parent, Func, Dummy);
 }

 InterpResult Context::evaluateAsRValue(State &Parent, const Expr *E,
                                        APValue &Result) {
   ByteCodeExprGen<EvalEmitter> C(*this, *P, Parent, Stk, Result);
   return Check(Parent, C.interpretExpr(E));
 }

 InterpResult Context::evaluateAsInitializer(State &Parent, const VarDecl *VD,
                                             APValue &Result) {
   ByteCodeExprGen<EvalEmitter> C(*this, *P, Parent, Stk, Result);
   return Check(Parent, C.interpretDecl(VD));
 }

 const LangOptions &Context::getLangOpts() const { return Ctx.getLangOpts(); }

 llvm::Optional<PrimType> Context::classify(QualType T) {
   if (T->isReferenceType() || T->isPointerType()) {
     return PT_Ptr;
   }

   if (T->isBooleanType())
     return PT_Bool;

   if (T->isSignedIntegerOrEnumerationType()) {
     switch (Ctx.getIntWidth(T)) {
     case 64:
       return PT_Sint64;
     case 32:
       return PT_Sint32;
     case 16:
       return PT_Sint16;
     case 8:
       return PT_Sint8;
     default:
       return {};
     }
   }

   if (T->isUnsignedIntegerOrEnumerationType()) {
     switch (Ctx.getIntWidth(T)) {
     case 64:
       return PT_Uint64;
     case 32:
       return PT_Uint32;
     case 16:
       return PT_Uint16;
     case 8:
       return PT_Uint8;
     default:
       return {};
     }
   }

   if (T->isNullPtrType())
     return PT_Ptr;

   if (auto *AT = dyn_cast<AtomicType>(T))
     return classify(AT->getValueType());

   return {};
 }

 unsigned Context::getCharBit() const {
   return Ctx.getTargetInfo().getCharWidth();
 }

 InterpResult Context::Run(State &Parent, Function *Func, APValue &Result) {
   InterpResult Flag;
   {
     InterpState State(Parent, *P, Stk, *this);
     State.Current = new InterpFrame(State, Func, nullptr, {}, {});
     if (Interpret(State, Result)) {
       Flag = InterpResult::Success;
     } else {
       Flag = InterpResult::Fail;
     }
   }

   if (Flag != InterpResult::Success)
     Stk.clear();
   return Flag;
 }

 InterpResult Context::Check(State &Parent, llvm::Expected<bool> &&R) {
   if (R) {
     return *R ? InterpResult::Success : InterpResult::Fail;
   } else if (ForceInterp) {
     handleAllErrors(R.takeError(), [&Parent](ByteCodeGenError &Err) {
       Parent.FFDiag(Err.getLoc(), diag::err_experimental_clang_interp_failed);
     });
     return InterpResult::Fail;
   } else {
     consumeError(R.takeError());
     return InterpResult::Bail;
   }
 }
	//===--- Context.cpp - Context for the constexpr VM -------------- 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
	//
	//===----------------------------------------------------------------------===//

	#include "Context.h"
	#include "ByteCodeEmitter.h"
	#include "ByteCodeExprGen.h"
	#include "ByteCodeStmtGen.h"
	#include "EvalEmitter.h"
	#include "Interp.h"
	#include "InterpFrame.h"
	#include "InterpStack.h"
	#include "PrimType.h"
	#include "Program.h"
	#include "clang/AST/Expr.h"

	using namespace clang;
	using namespace clang::interp;

	Context::Context(ASTContext &Ctx)
	: Ctx(Ctx), ForceInterp(getLangOpts().ForceNewConstInterp),
	P(new Program(*this)) {}

	Context::~Context() {}

	InterpResult Context::isPotentialConstantExpr(State &Parent,
	const FunctionDecl *FD) {
	Function *Func = P->getFunction(FD);
	if (!Func) {
	if (auto R = ByteCodeStmtGen<ByteCodeEmitter>(this, P).compileFunc(FD)) {
	Func = *R;
	} else if (ForceInterp) {
	handleAllErrors(R.takeError(), [&Parent](ByteCodeGenError &Err) {
	Parent.FFDiag(Err.getLoc(), diag::err_experimental_clang_interp_failed);
	});
	return InterpResult::Fail;
	} else {
	consumeError(R.takeError());
	return InterpResult::Bail;
	}
	}

	if (!Func->isConstexpr())
	return InterpResult::Fail;

	APValue Dummy;
	return Run(Parent, Func, Dummy);
	}

	InterpResult Context::evaluateAsRValue(State &Parent, const Expr *E,
	APValue &Result) {
	ByteCodeExprGen<EvalEmitter> C(this, P, Parent, Stk, Result);
	return Check(Parent, C.interpretExpr(E));
	}

	InterpResult Context::evaluateAsInitializer(State &Parent, const VarDecl *VD,
	APValue &Result) {
	ByteCodeExprGen<EvalEmitter> C(this, P, Parent, Stk, Result);
	return Check(Parent, C.interpretDecl(VD));
	}

	const LangOptions &Context::getLangOpts() const { return Ctx.getLangOpts(); }

	llvm::Optional<PrimType> Context::classify(QualType T) {
	if (T->isReferenceType() \|\| T->isPointerType()) {
	return PT_Ptr;
	}

	if (T->isBooleanType())
	return PT_Bool;

	if (T->isSignedIntegerOrEnumerationType()) {
	switch (Ctx.getIntWidth(T)) {
	case 64:
	return PT_Sint64;
	case 32:
	return PT_Sint32;
	case 16:
	return PT_Sint16;
	case 8:
	return PT_Sint8;
	default:
	return {};
	}
	}

	if (T->isUnsignedIntegerOrEnumerationType()) {
	switch (Ctx.getIntWidth(T)) {
	case 64:
	return PT_Uint64;
	case 32:
	return PT_Uint32;
	case 16:
	return PT_Uint16;
	case 8:
	return PT_Uint8;
	default:
	return {};
	}
	}

	if (T->isNullPtrType())
	return PT_Ptr;

	if (auto *AT = dyn_cast<AtomicType>(T))
	return classify(AT->getValueType());

	return {};
	}

	unsigned Context::getCharBit() const {
	return Ctx.getTargetInfo().getCharWidth();
	}

	InterpResult Context::Run(State &Parent, Function *Func, APValue &Result) {
	InterpResult Flag;
	{
	InterpState State(Parent, P, Stk, this);
	State.Current = new InterpFrame(State, Func, nullptr, {}, {});
	if (Interpret(State, Result)) {
	Flag = InterpResult::Success;
	} else {
	Flag = InterpResult::Fail;
	}
	}

	if (Flag != InterpResult::Success)
	Stk.clear();
	return Flag;
	}

	InterpResult Context::Check(State &Parent, llvm::Expected<bool> &&R) {
	if (R) {
	return *R ? InterpResult::Success : InterpResult::Fail;
	} else if (ForceInterp) {
	handleAllErrors(R.takeError(), [&Parent](ByteCodeGenError &Err) {
	Parent.FFDiag(Err.getLoc(), diag::err_experimental_clang_interp_failed);
	});
	return InterpResult::Fail;
	} else {
	consumeError(R.takeError());
	return InterpResult::Bail;
	}
	}