runtime/vm/instructions_dbc.cc - sdk.git - Git at Google

 // Copyright (c) 2016, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/globals.h"  // Needed here to get TARGET_ARCH_DBC.
 #if defined(TARGET_ARCH_DBC)

 #include "vm/instructions.h"
 #include "vm/instructions_dbc.h"

 #include "vm/compiler/assembler/assembler.h"
 #include "vm/constants_dbc.h"
 #include "vm/cpu.h"
 #include "vm/object.h"

 namespace dart {

 static bool HasLoadFromPool(Instr instr) {
   switch (Bytecode::DecodeOpcode(instr)) {
     case Bytecode::kLoadConstant:
     case Bytecode::kPushConstant:
     case Bytecode::kStaticCall:
     case Bytecode::kIndirectStaticCall:
     case Bytecode::kInstanceCall1:
     case Bytecode::kInstanceCall2:
     case Bytecode::kInstanceCall1Opt:
     case Bytecode::kInstanceCall2Opt:
     case Bytecode::kStoreStaticTOS:
     case Bytecode::kPushStatic:
     case Bytecode::kAllocate:
     case Bytecode::kInstantiateType:
     case Bytecode::kInstantiateTypeArgumentsTOS:
     case Bytecode::kAssertAssignable:
       return true;
     default:
       return false;
   }
 }

 static bool GetLoadedObjectAt(uword pc,
                               const ObjectPool& object_pool,
                               Object* obj) {
   Instr instr = Bytecode::At(pc);
   if (HasLoadFromPool(instr)) {
     uint16_t index = Bytecode::DecodeD(instr);
     if (object_pool.InfoAt(index) == ObjectPool::kTaggedObject) {
       *obj = object_pool.ObjectAt(index);
       return true;
     }
   }
   return false;
 }

 CallPattern::CallPattern(uword pc, const Code& code)
     : object_pool_(ObjectPool::Handle(code.GetObjectPool())),
       end_(pc),
       ic_data_load_end_(0),
       target_code_pool_index_(-1),
       ic_data_(ICData::Handle()) {
   ASSERT(code.ContainsInstructionAt(end_));
   const uword call_pc = end_ - sizeof(Instr);
   Instr call_instr = Bytecode::At(call_pc);
   ASSERT(Bytecode::IsCallOpcode(call_instr));
   ic_data_load_end_ = call_pc;
   target_code_pool_index_ = Bytecode::DecodeD(call_instr);
 }

 NativeCallPattern::NativeCallPattern(uword pc, const Code& code)
     : object_pool_(ObjectPool::Handle(code.GetObjectPool())),
       end_(pc),
       native_function_pool_index_(-1),
       target_code_pool_index_(-1) {
   UNIMPLEMENTED();
 }

 RawCode* NativeCallPattern::target() const {
   return reinterpret_cast<RawCode*>(
       object_pool_.ObjectAt(target_code_pool_index_));
 }

 void NativeCallPattern::set_target(const Code& new_target) const {
   object_pool_.SetObjectAt(target_code_pool_index_, new_target);
   // No need to flush the instruction cache, since the code is not modified.
 }

 NativeFunction NativeCallPattern::native_function() const {
   return reinterpret_cast<NativeFunction>(
       object_pool_.RawValueAt(native_function_pool_index_));
 }

 void NativeCallPattern::set_native_function(NativeFunction func) const {
   object_pool_.SetRawValueAt(native_function_pool_index_,
                              reinterpret_cast<uword>(func));
 }

 // Decodes a load sequence ending at 'end' (the last instruction of the load
 // sequence is the instruction before the one at end).  Returns a pointer to
 // the first instruction in the sequence.  Returns the register being loaded
 // and the loaded object in the output parameters 'reg' and 'obj'
 // respectively.
 uword InstructionPattern::DecodeLoadObject(uword end,
                                            const ObjectPool& object_pool,
                                            Register* reg,
                                            Object* obj) {
   UNIMPLEMENTED();
   return 0;
 }

 // Decodes a load sequence ending at 'end' (the last instruction of the load
 // sequence is the instruction before the one at end).  Returns a pointer to
 // the first instruction in the sequence.  Returns the register being loaded
 // and the loaded immediate value in the output parameters 'reg' and 'value'
 // respectively.
 uword InstructionPattern::DecodeLoadWordImmediate(uword end,
                                                   Register* reg,
                                                   intptr_t* value) {
   UNIMPLEMENTED();
   return 0;
 }

 // Decodes a load sequence ending at 'end' (the last instruction of the load
 // sequence is the instruction before the one at end).  Returns a pointer to
 // the first instruction in the sequence.  Returns the register being loaded
 // and the index in the pool being read from in the output parameters 'reg'
 // and 'index' respectively.
 uword InstructionPattern::DecodeLoadWordFromPool(uword end,
                                                  Register* reg,
                                                  intptr_t* index) {
   UNIMPLEMENTED();
   return 0;
 }

 bool DecodeLoadObjectFromPoolOrThread(uword pc, const Code& code, Object* obj) {
   ASSERT(code.ContainsInstructionAt(pc));
   const ObjectPool& pool = ObjectPool::Handle(code.object_pool());
   return GetLoadedObjectAt(pc, pool, obj);
 }

 RawICData* CallPattern::IcData() {
   if (ic_data_.IsNull()) {
     bool found = GetLoadedObjectAt(ic_data_load_end_, object_pool_, &ic_data_);
     ASSERT(found);
   }
   return ic_data_.raw();
 }

 RawCode* CallPattern::TargetCode() const {
   return reinterpret_cast<RawCode*>(
       object_pool_.ObjectAt(target_code_pool_index_));
 }

 void CallPattern::SetTargetCode(const Code& target_code) const {
   object_pool_.SetObjectAt(target_code_pool_index_, target_code);
 }

 void CallPattern::InsertDeoptCallAt(uword pc) {
   const uint8_t argc = Bytecode::IsCallOpcode(Bytecode::At(pc))
                            ? Bytecode::DecodeArgc(Bytecode::At(pc))
                            : 0;
   *reinterpret_cast<Instr*>(pc) = Bytecode::Encode(Bytecode::kDeopt, argc, 0);
 }

 SwitchableCallPattern::SwitchableCallPattern(uword pc, const Code& code)
     : object_pool_(ObjectPool::Handle(code.GetObjectPool())),
       data_pool_index_(-1),
       target_pool_index_(-1) {
   UNIMPLEMENTED();
 }

 RawObject* SwitchableCallPattern::data() const {
   return object_pool_.ObjectAt(data_pool_index_);
 }

 RawCode* SwitchableCallPattern::target() const {
   return reinterpret_cast<RawCode*>(object_pool_.ObjectAt(target_pool_index_));
 }

 void SwitchableCallPattern::SetData(const Object& data) const {
   ASSERT(!Object::Handle(object_pool_.ObjectAt(data_pool_index_)).IsCode());
   object_pool_.SetObjectAt(data_pool_index_, data);
 }

 void SwitchableCallPattern::SetTarget(const Code& target) const {
   ASSERT(Object::Handle(object_pool_.ObjectAt(target_pool_index_)).IsCode());
   object_pool_.SetObjectAt(target_pool_index_, target);
 }

 ReturnPattern::ReturnPattern(uword pc) : pc_(pc) {
   USE(pc_);
 }

 bool ReturnPattern::IsValid() const {
   UNIMPLEMENTED();
   return false;
 }

 }  // namespace dart

 #endif  // defined TARGET_ARCH_DBC
	// Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/globals.h" // Needed here to get TARGET_ARCH_DBC.
	#if defined(TARGET_ARCH_DBC)

	#include "vm/instructions.h"
	#include "vm/instructions_dbc.h"

	#include "vm/compiler/assembler/assembler.h"
	#include "vm/constants_dbc.h"
	#include "vm/cpu.h"
	#include "vm/object.h"

	namespace dart {

	static bool HasLoadFromPool(Instr instr) {
	switch (Bytecode::DecodeOpcode(instr)) {
	case Bytecode::kLoadConstant:
	case Bytecode::kPushConstant:
	case Bytecode::kStaticCall:
	case Bytecode::kIndirectStaticCall:
	case Bytecode::kInstanceCall1:
	case Bytecode::kInstanceCall2:
	case Bytecode::kInstanceCall1Opt:
	case Bytecode::kInstanceCall2Opt:
	case Bytecode::kStoreStaticTOS:
	case Bytecode::kPushStatic:
	case Bytecode::kAllocate:
	case Bytecode::kInstantiateType:
	case Bytecode::kInstantiateTypeArgumentsTOS:
	case Bytecode::kAssertAssignable:
	return true;
	default:
	return false;
	}
	}

	static bool GetLoadedObjectAt(uword pc,
	const ObjectPool& object_pool,
	Object* obj) {
	Instr instr = Bytecode::At(pc);
	if (HasLoadFromPool(instr)) {
	uint16_t index = Bytecode::DecodeD(instr);
	if (object_pool.InfoAt(index) == ObjectPool::kTaggedObject) {
	*obj = object_pool.ObjectAt(index);
	return true;
	}
	}
	return false;
	}

	CallPattern::CallPattern(uword pc, const Code& code)
	: object_pool_(ObjectPool::Handle(code.GetObjectPool())),
	end_(pc),
	ic_data_load_end_(0),
	target_code_pool_index_(-1),
	ic_data_(ICData::Handle()) {
	ASSERT(code.ContainsInstructionAt(end_));
	const uword call_pc = end_ - sizeof(Instr);
	Instr call_instr = Bytecode::At(call_pc);
	ASSERT(Bytecode::IsCallOpcode(call_instr));
	ic_data_load_end_ = call_pc;
	target_code_pool_index_ = Bytecode::DecodeD(call_instr);
	}

	NativeCallPattern::NativeCallPattern(uword pc, const Code& code)
	: object_pool_(ObjectPool::Handle(code.GetObjectPool())),
	end_(pc),
	native_function_pool_index_(-1),
	target_code_pool_index_(-1) {
	UNIMPLEMENTED();
	}

	RawCode* NativeCallPattern::target() const {
	return reinterpret_cast<RawCode*>(
	object_pool_.ObjectAt(target_code_pool_index_));
	}

	void NativeCallPattern::set_target(const Code& new_target) const {
	object_pool_.SetObjectAt(target_code_pool_index_, new_target);
	// No need to flush the instruction cache, since the code is not modified.
	}

	NativeFunction NativeCallPattern::native_function() const {
	return reinterpret_cast<NativeFunction>(
	object_pool_.RawValueAt(native_function_pool_index_));
	}

	void NativeCallPattern::set_native_function(NativeFunction func) const {
	object_pool_.SetRawValueAt(native_function_pool_index_,
	reinterpret_cast<uword>(func));
	}

	// Decodes a load sequence ending at 'end' (the last instruction of the load
	// sequence is the instruction before the one at end). Returns a pointer to
	// the first instruction in the sequence. Returns the register being loaded
	// and the loaded object in the output parameters 'reg' and 'obj'
	// respectively.
	uword InstructionPattern::DecodeLoadObject(uword end,
	const ObjectPool& object_pool,
	Register* reg,
	Object* obj) {
	UNIMPLEMENTED();
	return 0;
	}

	// Decodes a load sequence ending at 'end' (the last instruction of the load
	// sequence is the instruction before the one at end). Returns a pointer to
	// the first instruction in the sequence. Returns the register being loaded
	// and the loaded immediate value in the output parameters 'reg' and 'value'
	// respectively.
	uword InstructionPattern::DecodeLoadWordImmediate(uword end,
	Register* reg,
	intptr_t* value) {
	UNIMPLEMENTED();
	return 0;
	}

	// Decodes a load sequence ending at 'end' (the last instruction of the load
	// sequence is the instruction before the one at end). Returns a pointer to
	// the first instruction in the sequence. Returns the register being loaded
	// and the index in the pool being read from in the output parameters 'reg'
	// and 'index' respectively.
	uword InstructionPattern::DecodeLoadWordFromPool(uword end,
	Register* reg,
	intptr_t* index) {
	UNIMPLEMENTED();
	return 0;
	}

	bool DecodeLoadObjectFromPoolOrThread(uword pc, const Code& code, Object* obj) {
	ASSERT(code.ContainsInstructionAt(pc));
	const ObjectPool& pool = ObjectPool::Handle(code.object_pool());
	return GetLoadedObjectAt(pc, pool, obj);
	}

	RawICData* CallPattern::IcData() {
	if (ic_data_.IsNull()) {
	bool found = GetLoadedObjectAt(ic_data_load_end_, object_pool_, &ic_data_);
	ASSERT(found);
	}
	return ic_data_.raw();
	}

	RawCode* CallPattern::TargetCode() const {
	return reinterpret_cast<RawCode*>(
	object_pool_.ObjectAt(target_code_pool_index_));
	}

	void CallPattern::SetTargetCode(const Code& target_code) const {
	object_pool_.SetObjectAt(target_code_pool_index_, target_code);
	}

	void CallPattern::InsertDeoptCallAt(uword pc) {
	const uint8_t argc = Bytecode::IsCallOpcode(Bytecode::At(pc))
	? Bytecode::DecodeArgc(Bytecode::At(pc))
	: 0;
	reinterpret_cast<Instr>(pc) = Bytecode::Encode(Bytecode::kDeopt, argc, 0);
	}

	SwitchableCallPattern::SwitchableCallPattern(uword pc, const Code& code)
	: object_pool_(ObjectPool::Handle(code.GetObjectPool())),
	data_pool_index_(-1),
	target_pool_index_(-1) {
	UNIMPLEMENTED();
	}

	RawObject* SwitchableCallPattern::data() const {
	return object_pool_.ObjectAt(data_pool_index_);
	}

	RawCode* SwitchableCallPattern::target() const {
	return reinterpret_cast<RawCode*>(object_pool_.ObjectAt(target_pool_index_));
	}

	void SwitchableCallPattern::SetData(const Object& data) const {
	ASSERT(!Object::Handle(object_pool_.ObjectAt(data_pool_index_)).IsCode());
	object_pool_.SetObjectAt(data_pool_index_, data);
	}

	void SwitchableCallPattern::SetTarget(const Code& target) const {
	ASSERT(Object::Handle(object_pool_.ObjectAt(target_pool_index_)).IsCode());
	object_pool_.SetObjectAt(target_pool_index_, target);
	}

	ReturnPattern::ReturnPattern(uword pc) : pc_(pc) {
	USE(pc_);
	}

	bool ReturnPattern::IsValid() const {
	UNIMPLEMENTED();
	return false;
	}

	} // namespace dart

	#endif // defined TARGET_ARCH_DBC