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

 //===--- ByteCodeEmitter.cpp - Instruction emitter for the 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 "ByteCodeEmitter.h"
 #include "Context.h"
 #include "Opcode.h"
 #include "Program.h"
 #include "clang/AST/DeclCXX.h"

 using namespace clang;
 using namespace clang::interp;

 using APSInt = llvm::APSInt;
 using Error = llvm::Error;

 Expected<Function *> ByteCodeEmitter::compileFunc(const FunctionDecl *F) {
   // Do not try to compile undefined functions.
   if (!F->isDefined(F) || (!F->hasBody() && F->willHaveBody()))
     return nullptr;

   // Set up argument indices.
   unsigned ParamOffset = 0;
   SmallVector<PrimType, 8> ParamTypes;
   llvm::DenseMap<unsigned, Function::ParamDescriptor> ParamDescriptors;

   // If the return is not a primitive, a pointer to the storage where the value
   // is initialized in is passed as the first argument.
   QualType Ty = F->getReturnType();
   if (!Ty->isVoidType() && !Ctx.classify(Ty)) {
     ParamTypes.push_back(PT_Ptr);
     ParamOffset += align(primSize(PT_Ptr));
   }

   // Assign descriptors to all parameters.
   // Composite objects are lowered to pointers.
   for (const ParmVarDecl *PD : F->parameters()) {
     PrimType Ty;
     if (llvm::Optional<PrimType> T = Ctx.classify(PD->getType())) {
       Ty = *T;
     } else {
       Ty = PT_Ptr;
     }

     Descriptor *Desc = P.createDescriptor(PD, Ty);
     ParamDescriptors.insert({ParamOffset, {Ty, Desc}});
     Params.insert({PD, ParamOffset});
     ParamOffset += align(primSize(Ty));
     ParamTypes.push_back(Ty);
   }

   // Create a handle over the emitted code.
   Function *Func = P.createFunction(F, ParamOffset, std::move(ParamTypes),
                                     std::move(ParamDescriptors));
   // Compile the function body.
   if (!F->isConstexpr() || !visitFunc(F)) {
     // Return a dummy function if compilation failed.
     if (BailLocation)
       return llvm::make_error<ByteCodeGenError>(*BailLocation);
     else
       return Func;
   } else {
     // Create scopes from descriptors.
     llvm::SmallVector<Scope, 2> Scopes;
     for (auto &DS : Descriptors) {
       Scopes.emplace_back(std::move(DS));
     }

     // Set the function's code.
     Func->setCode(NextLocalOffset, std::move(Code), std::move(SrcMap),
                   std::move(Scopes));
     return Func;
   }
 }

 Scope::Local ByteCodeEmitter::createLocal(Descriptor *D) {
   NextLocalOffset += sizeof(Block);
   unsigned Location = NextLocalOffset;
   NextLocalOffset += align(D->getAllocSize());
   return {Location, D};
 }

 void ByteCodeEmitter::emitLabel(LabelTy Label) {
   const size_t Target = Code.size();
   LabelOffsets.insert({Label, Target});
   auto It = LabelRelocs.find(Label);
   if (It != LabelRelocs.end()) {
     for (unsigned Reloc : It->second) {
       using namespace llvm::support;

       /// Rewrite the operand of all jumps to this label.
       void *Location = Code.data() + Reloc - sizeof(int32_t);
       const int32_t Offset = Target - static_cast<int64_t>(Reloc);
       endian::write<int32_t, endianness::native, 1>(Location, Offset);
     }
     LabelRelocs.erase(It);
   }
 }

 int32_t ByteCodeEmitter::getOffset(LabelTy Label) {
   // Compute the PC offset which the jump is relative to.
   const int64_t Position = Code.size() + sizeof(Opcode) + sizeof(int32_t);

   // If target is known, compute jump offset.
   auto It = LabelOffsets.find(Label);
   if (It != LabelOffsets.end()) {
     return It->second - Position;
   }

   // Otherwise, record relocation and return dummy offset.
   LabelRelocs[Label].push_back(Position);
   return 0ull;
 }

 bool ByteCodeEmitter::bail(const SourceLocation &Loc) {
   if (!BailLocation)
     BailLocation = Loc;
   return false;
 }

 template <typename... Tys>
 bool ByteCodeEmitter::emitOp(Opcode Op, const Tys &... Args, const SourceInfo &SI) {
   bool Success = true;

   /// Helper to write bytecode and bail out if 32-bit offsets become invalid.
   auto emit = [this, &Success](const char *Data, size_t Size) {
     if (Code.size() + Size > std::numeric_limits<unsigned>::max()) {
       Success = false;
       return;
     }
     Code.insert(Code.end(), Data, Data + Size);
   };

   /// The opcode is followed by arguments. The source info is
   /// attached to the address after the opcode.
   emit(reinterpret_cast<const char *>(&Op), sizeof(Opcode));
   if (SI)
     SrcMap.emplace_back(Code.size(), SI);

   /// The initializer list forces the expression to be evaluated
   /// for each argument in the variadic template, in order.
   (void)std::initializer_list<int>{
       (emit(reinterpret_cast<const char *>(&Args), sizeof(Args)), 0)...};

   return Success;
 }

 bool ByteCodeEmitter::jumpTrue(const LabelTy &Label) {
   return emitJt(getOffset(Label), SourceInfo{});
 }

 bool ByteCodeEmitter::jumpFalse(const LabelTy &Label) {
   return emitJf(getOffset(Label), SourceInfo{});
 }

 bool ByteCodeEmitter::jump(const LabelTy &Label) {
   return emitJmp(getOffset(Label), SourceInfo{});
 }

 bool ByteCodeEmitter::fallthrough(const LabelTy &Label) {
   emitLabel(Label);
   return true;
 }

 //===----------------------------------------------------------------------===//
 // Opcode emitters
 //===----------------------------------------------------------------------===//

 #define GET_LINK_IMPL
 #include "Opcodes.inc"
 #undef GET_LINK_IMPL
	//===--- ByteCodeEmitter.cpp - Instruction emitter for the 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 "ByteCodeEmitter.h"
	#include "Context.h"
	#include "Opcode.h"
	#include "Program.h"
	#include "clang/AST/DeclCXX.h"

	using namespace clang;
	using namespace clang::interp;

	using APSInt = llvm::APSInt;
	using Error = llvm::Error;

	Expected<Function > ByteCodeEmitter::compileFunc(const FunctionDecl F) {
	// Do not try to compile undefined functions.
	if (!F->isDefined(F) \|\| (!F->hasBody() && F->willHaveBody()))
	return nullptr;

	// Set up argument indices.
	unsigned ParamOffset = 0;
	SmallVector<PrimType, 8> ParamTypes;
	llvm::DenseMap<unsigned, Function::ParamDescriptor> ParamDescriptors;

	// If the return is not a primitive, a pointer to the storage where the value
	// is initialized in is passed as the first argument.
	QualType Ty = F->getReturnType();
	if (!Ty->isVoidType() && !Ctx.classify(Ty)) {
	ParamTypes.push_back(PT_Ptr);
	ParamOffset += align(primSize(PT_Ptr));
	}

	// Assign descriptors to all parameters.
	// Composite objects are lowered to pointers.
	for (const ParmVarDecl *PD : F->parameters()) {
	PrimType Ty;
	if (llvm::Optional<PrimType> T = Ctx.classify(PD->getType())) {
	Ty = *T;
	} else {
	Ty = PT_Ptr;
	}

	Descriptor *Desc = P.createDescriptor(PD, Ty);
	ParamDescriptors.insert({ParamOffset, {Ty, Desc}});
	Params.insert({PD, ParamOffset});
	ParamOffset += align(primSize(Ty));
	ParamTypes.push_back(Ty);
	}

	// Create a handle over the emitted code.
	Function *Func = P.createFunction(F, ParamOffset, std::move(ParamTypes),
	std::move(ParamDescriptors));
	// Compile the function body.
	if (!F->isConstexpr() \|\| !visitFunc(F)) {
	// Return a dummy function if compilation failed.
	if (BailLocation)
	return llvm::make_error<ByteCodeGenError>(*BailLocation);
	else
	return Func;
	} else {
	// Create scopes from descriptors.
	llvm::SmallVector<Scope, 2> Scopes;
	for (auto &DS : Descriptors) {
	Scopes.emplace_back(std::move(DS));
	}

	// Set the function's code.
	Func->setCode(NextLocalOffset, std::move(Code), std::move(SrcMap),
	std::move(Scopes));
	return Func;
	}
	}

	Scope::Local ByteCodeEmitter::createLocal(Descriptor *D) {
	NextLocalOffset += sizeof(Block);
	unsigned Location = NextLocalOffset;
	NextLocalOffset += align(D->getAllocSize());
	return {Location, D};
	}

	void ByteCodeEmitter::emitLabel(LabelTy Label) {
	const size_t Target = Code.size();
	LabelOffsets.insert({Label, Target});
	auto It = LabelRelocs.find(Label);
	if (It != LabelRelocs.end()) {
	for (unsigned Reloc : It->second) {
	using namespace llvm::support;

	/// Rewrite the operand of all jumps to this label.
	void *Location = Code.data() + Reloc - sizeof(int32_t);
	const int32_t Offset = Target - static_cast<int64_t>(Reloc);
	endian::write<int32_t, endianness::native, 1>(Location, Offset);
	}
	LabelRelocs.erase(It);
	}
	}

	int32_t ByteCodeEmitter::getOffset(LabelTy Label) {
	// Compute the PC offset which the jump is relative to.
	const int64_t Position = Code.size() + sizeof(Opcode) + sizeof(int32_t);

	// If target is known, compute jump offset.
	auto It = LabelOffsets.find(Label);
	if (It != LabelOffsets.end()) {
	return It->second - Position;
	}

	// Otherwise, record relocation and return dummy offset.
	LabelRelocs[Label].push_back(Position);
	return 0ull;
	}

	bool ByteCodeEmitter::bail(const SourceLocation &Loc) {
	if (!BailLocation)
	BailLocation = Loc;
	return false;
	}

	template <typename... Tys>
	bool ByteCodeEmitter::emitOp(Opcode Op, const Tys &... Args, const SourceInfo &SI) {
	bool Success = true;

	/// Helper to write bytecode and bail out if 32-bit offsets become invalid.
	auto emit = [this, &Success](const char *Data, size_t Size) {
	if (Code.size() + Size > std::numeric_limits<unsigned>::max()) {
	Success = false;
	return;
	}
	Code.insert(Code.end(), Data, Data + Size);
	};

	/// The opcode is followed by arguments. The source info is
	/// attached to the address after the opcode.
	emit(reinterpret_cast<const char *>(&Op), sizeof(Opcode));
	if (SI)
	SrcMap.emplace_back(Code.size(), SI);

	/// The initializer list forces the expression to be evaluated
	/// for each argument in the variadic template, in order.
	(void)std::initializer_list<int>{
	(emit(reinterpret_cast<const char *>(&Args), sizeof(Args)), 0)...};

	return Success;
	}

	bool ByteCodeEmitter::jumpTrue(const LabelTy &Label) {
	return emitJt(getOffset(Label), SourceInfo{});
	}

	bool ByteCodeEmitter::jumpFalse(const LabelTy &Label) {
	return emitJf(getOffset(Label), SourceInfo{});
	}

	bool ByteCodeEmitter::jump(const LabelTy &Label) {
	return emitJmp(getOffset(Label), SourceInfo{});
	}

	bool ByteCodeEmitter::fallthrough(const LabelTy &Label) {
	emitLabel(Label);
	return true;
	}

	//===----------------------------------------------------------------------===//
	// Opcode emitters
	//===----------------------------------------------------------------------===//

	#define GET_LINK_IMPL
	#include "Opcodes.inc"
	#undef GET_LINK_IMPL