compiler/optimizing/nodes_x86.h - platform/art - Git at Google

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ART_COMPILER_OPTIMIZING_NODES_X86_H_
 #define ART_COMPILER_OPTIMIZING_NODES_X86_H_

 namespace art {

 // Compute the address of the method for X86 Constant area support.
 class HX86ComputeBaseMethodAddress final : public HExpression<0> {
  public:
   // Treat the value as an int32_t, but it is really a 32 bit native pointer.
   HX86ComputeBaseMethodAddress()
       : HExpression(kX86ComputeBaseMethodAddress,
                     DataType::Type::kInt32,
                     SideEffects::None(),
                     kNoDexPc) {
   }

   bool CanBeMoved() const override { return true; }

   DECLARE_INSTRUCTION(X86ComputeBaseMethodAddress);

  protected:
   DEFAULT_COPY_CONSTRUCTOR(X86ComputeBaseMethodAddress);
 };

 // Load a constant value from the constant table.
 class HX86LoadFromConstantTable final : public HExpression<2> {
  public:
   HX86LoadFromConstantTable(HX86ComputeBaseMethodAddress* method_base,
                             HConstant* constant)
       : HExpression(kX86LoadFromConstantTable,
                     constant->GetType(),
                     SideEffects::None(),
                     kNoDexPc) {
     SetRawInputAt(0, method_base);
     SetRawInputAt(1, constant);
   }

   HX86ComputeBaseMethodAddress* GetBaseMethodAddress() const {
     return InputAt(0)->AsX86ComputeBaseMethodAddress();
   }

   HConstant* GetConstant() const {
     return InputAt(1)->AsConstant();
   }

   DECLARE_INSTRUCTION(X86LoadFromConstantTable);

  protected:
   DEFAULT_COPY_CONSTRUCTOR(X86LoadFromConstantTable);
 };

 // Version of HNeg with access to the constant table for FP types.
 class HX86FPNeg final : public HExpression<2> {
  public:
   HX86FPNeg(DataType::Type result_type,
             HInstruction* input,
             HX86ComputeBaseMethodAddress* method_base,
             uint32_t dex_pc)
       : HExpression(kX86FPNeg, result_type, SideEffects::None(), dex_pc) {
     DCHECK(DataType::IsFloatingPointType(result_type));
     SetRawInputAt(0, input);
     SetRawInputAt(1, method_base);
   }

   HX86ComputeBaseMethodAddress* GetBaseMethodAddress() const {
     return InputAt(1)->AsX86ComputeBaseMethodAddress();
   }

   DECLARE_INSTRUCTION(X86FPNeg);

  protected:
   DEFAULT_COPY_CONSTRUCTOR(X86FPNeg);
 };

 // X86 version of HPackedSwitch that holds a pointer to the base method address.
 class HX86PackedSwitch final : public HExpression<2> {
  public:
   HX86PackedSwitch(int32_t start_value,
                    int32_t num_entries,
                    HInstruction* input,
                    HX86ComputeBaseMethodAddress* method_base,
                    uint32_t dex_pc)
     : HExpression(kX86PackedSwitch, SideEffects::None(), dex_pc),
       start_value_(start_value),
       num_entries_(num_entries) {
     SetRawInputAt(0, input);
     SetRawInputAt(1, method_base);
   }

   bool IsControlFlow() const override { return true; }

   int32_t GetStartValue() const { return start_value_; }

   int32_t GetNumEntries() const { return num_entries_; }

   HX86ComputeBaseMethodAddress* GetBaseMethodAddress() const {
     return InputAt(1)->AsX86ComputeBaseMethodAddress();
   }

   HBasicBlock* GetDefaultBlock() const {
     // Last entry is the default block.
     return GetBlock()->GetSuccessors()[num_entries_];
   }

   DECLARE_INSTRUCTION(X86PackedSwitch);

  protected:
   DEFAULT_COPY_CONSTRUCTOR(X86PackedSwitch);

  private:
   const int32_t start_value_;
   const int32_t num_entries_;
 };

 class HX86AndNot final : public HBinaryOperation {
  public:
   HX86AndNot(DataType::Type result_type,
        HInstruction* left,
        HInstruction* right,
        uint32_t dex_pc = kNoDexPc)
       : HBinaryOperation(kX86AndNot, result_type, left, right, SideEffects::None(), dex_pc) {
   }

   bool IsCommutative() const override { return false; }

   template <typename T> static T Compute(T x, T y) { return ~x & y; }

   HConstant* Evaluate(HIntConstant* x, HIntConstant* y) const override {
     return GetBlock()->GetGraph()->GetIntConstant(
         Compute(x->GetValue(), y->GetValue()), GetDexPc());
   }
   HConstant* Evaluate(HLongConstant* x, HLongConstant* y) const override {
     return GetBlock()->GetGraph()->GetLongConstant(
         Compute(x->GetValue(), y->GetValue()), GetDexPc());
   }
   HConstant* Evaluate(HFloatConstant* x ATTRIBUTE_UNUSED,
                       HFloatConstant* y ATTRIBUTE_UNUSED) const override {
     LOG(FATAL) << DebugName() << " is not defined for float values";
     UNREACHABLE();
   }
   HConstant* Evaluate(HDoubleConstant* x ATTRIBUTE_UNUSED,
                       HDoubleConstant* y ATTRIBUTE_UNUSED) const override {
     LOG(FATAL) << DebugName() << " is not defined for double values";
     UNREACHABLE();
   }

   DECLARE_INSTRUCTION(X86AndNot);

  protected:
   DEFAULT_COPY_CONSTRUCTOR(X86AndNot);
 };

 class HX86MaskOrResetLeastSetBit final : public HUnaryOperation {
  public:
   HX86MaskOrResetLeastSetBit(DataType::Type result_type, InstructionKind op,
                              HInstruction* input, uint32_t dex_pc = kNoDexPc)
       : HUnaryOperation(kX86MaskOrResetLeastSetBit, result_type, input, dex_pc),
         op_kind_(op) {
     DCHECK_EQ(result_type, DataType::Kind(input->GetType()));
     DCHECK(op == HInstruction::kAnd || op == HInstruction::kXor) << op;
   }
   template <typename T>
   auto Compute(T x) const -> decltype(x & (x-1)) {
     static_assert(std::is_same<decltype(x & (x-1)), decltype(x ^(x-1))>::value,
                   "Inconsistent  bitwise types");
     switch (op_kind_) {
       case HInstruction::kAnd:
         return x & (x-1);
       case HInstruction::kXor:
         return x ^ (x-1);
       default:
         LOG(FATAL) << "Unreachable";
         UNREACHABLE();
     }
   }

   HConstant* Evaluate(HIntConstant* x) const override {
     return GetBlock()->GetGraph()->GetIntConstant(Compute(x->GetValue()), GetDexPc());
   }
   HConstant* Evaluate(HLongConstant* x) const override {
     return GetBlock()->GetGraph()->GetLongConstant(Compute(x->GetValue()), GetDexPc());
   }
   HConstant* Evaluate(HFloatConstant* x ATTRIBUTE_UNUSED) const override {
     LOG(FATAL) << DebugName() << "is not defined for float values";
     UNREACHABLE();
   }
   HConstant* Evaluate(HDoubleConstant* x ATTRIBUTE_UNUSED) const override {
     LOG(FATAL) << DebugName() << "is not defined for double values";
     UNREACHABLE();
   }
   InstructionKind GetOpKind() const { return op_kind_; }

   DECLARE_INSTRUCTION(X86MaskOrResetLeastSetBit);

  protected:
   const InstructionKind op_kind_;

   DEFAULT_COPY_CONSTRUCTOR(X86MaskOrResetLeastSetBit);
 };

 }  // namespace art

 #endif  // ART_COMPILER_OPTIMIZING_NODES_X86_H_
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ART_COMPILER_OPTIMIZING_NODES_X86_H_
	#define ART_COMPILER_OPTIMIZING_NODES_X86_H_

	namespace art {

	// Compute the address of the method for X86 Constant area support.
	class HX86ComputeBaseMethodAddress final : public HExpression<0> {
	public:
	// Treat the value as an int32_t, but it is really a 32 bit native pointer.
	HX86ComputeBaseMethodAddress()
	: HExpression(kX86ComputeBaseMethodAddress,
	DataType::Type::kInt32,
	SideEffects::None(),
	kNoDexPc) {
	}

	bool CanBeMoved() const override { return true; }

	DECLARE_INSTRUCTION(X86ComputeBaseMethodAddress);

	protected:
	DEFAULT_COPY_CONSTRUCTOR(X86ComputeBaseMethodAddress);
	};

	// Load a constant value from the constant table.
	class HX86LoadFromConstantTable final : public HExpression<2> {
	public:
	HX86LoadFromConstantTable(HX86ComputeBaseMethodAddress* method_base,
	HConstant* constant)
	: HExpression(kX86LoadFromConstantTable,
	constant->GetType(),
	SideEffects::None(),
	kNoDexPc) {
	SetRawInputAt(0, method_base);
	SetRawInputAt(1, constant);
	}

	HX86ComputeBaseMethodAddress* GetBaseMethodAddress() const {
	return InputAt(0)->AsX86ComputeBaseMethodAddress();
	}

	HConstant* GetConstant() const {
	return InputAt(1)->AsConstant();
	}

	DECLARE_INSTRUCTION(X86LoadFromConstantTable);

	protected:
	DEFAULT_COPY_CONSTRUCTOR(X86LoadFromConstantTable);
	};

	// Version of HNeg with access to the constant table for FP types.
	class HX86FPNeg final : public HExpression<2> {
	public:
	HX86FPNeg(DataType::Type result_type,
	HInstruction* input,
	HX86ComputeBaseMethodAddress* method_base,
	uint32_t dex_pc)
	: HExpression(kX86FPNeg, result_type, SideEffects::None(), dex_pc) {
	DCHECK(DataType::IsFloatingPointType(result_type));
	SetRawInputAt(0, input);
	SetRawInputAt(1, method_base);
	}

	HX86ComputeBaseMethodAddress* GetBaseMethodAddress() const {
	return InputAt(1)->AsX86ComputeBaseMethodAddress();
	}

	DECLARE_INSTRUCTION(X86FPNeg);

	protected:
	DEFAULT_COPY_CONSTRUCTOR(X86FPNeg);
	};

	// X86 version of HPackedSwitch that holds a pointer to the base method address.
	class HX86PackedSwitch final : public HExpression<2> {
	public:
	HX86PackedSwitch(int32_t start_value,
	int32_t num_entries,
	HInstruction* input,
	HX86ComputeBaseMethodAddress* method_base,
	uint32_t dex_pc)
	: HExpression(kX86PackedSwitch, SideEffects::None(), dex_pc),
	start_value_(start_value),
	num_entries_(num_entries) {
	SetRawInputAt(0, input);
	SetRawInputAt(1, method_base);
	}

	bool IsControlFlow() const override { return true; }

	int32_t GetStartValue() const { return start_value_; }

	int32_t GetNumEntries() const { return num_entries_; }

	HX86ComputeBaseMethodAddress* GetBaseMethodAddress() const {
	return InputAt(1)->AsX86ComputeBaseMethodAddress();
	}

	HBasicBlock* GetDefaultBlock() const {
	// Last entry is the default block.
	return GetBlock()->GetSuccessors()[num_entries_];
	}

	DECLARE_INSTRUCTION(X86PackedSwitch);

	protected:
	DEFAULT_COPY_CONSTRUCTOR(X86PackedSwitch);

	private:
	const int32_t start_value_;
	const int32_t num_entries_;
	};

	class HX86AndNot final : public HBinaryOperation {
	public:
	HX86AndNot(DataType::Type result_type,
	HInstruction* left,
	HInstruction* right,
	uint32_t dex_pc = kNoDexPc)
	: HBinaryOperation(kX86AndNot, result_type, left, right, SideEffects::None(), dex_pc) {
	}

	bool IsCommutative() const override { return false; }

	template <typename T> static T Compute(T x, T y) { return ~x & y; }

	HConstant* Evaluate(HIntConstant* x, HIntConstant* y) const override {
	return GetBlock()->GetGraph()->GetIntConstant(
	Compute(x->GetValue(), y->GetValue()), GetDexPc());
	}
	HConstant* Evaluate(HLongConstant* x, HLongConstant* y) const override {
	return GetBlock()->GetGraph()->GetLongConstant(
	Compute(x->GetValue(), y->GetValue()), GetDexPc());
	}
	HConstant* Evaluate(HFloatConstant* x ATTRIBUTE_UNUSED,
	HFloatConstant* y ATTRIBUTE_UNUSED) const override {
	LOG(FATAL) << DebugName() << " is not defined for float values";
	UNREACHABLE();
	}
	HConstant* Evaluate(HDoubleConstant* x ATTRIBUTE_UNUSED,
	HDoubleConstant* y ATTRIBUTE_UNUSED) const override {
	LOG(FATAL) << DebugName() << " is not defined for double values";
	UNREACHABLE();
	}

	DECLARE_INSTRUCTION(X86AndNot);

	protected:
	DEFAULT_COPY_CONSTRUCTOR(X86AndNot);
	};

	class HX86MaskOrResetLeastSetBit final : public HUnaryOperation {
	public:
	HX86MaskOrResetLeastSetBit(DataType::Type result_type, InstructionKind op,
	HInstruction* input, uint32_t dex_pc = kNoDexPc)
	: HUnaryOperation(kX86MaskOrResetLeastSetBit, result_type, input, dex_pc),
	op_kind_(op) {
	DCHECK_EQ(result_type, DataType::Kind(input->GetType()));
	DCHECK(op == HInstruction::kAnd \|\| op == HInstruction::kXor) << op;
	}
	template <typename T>
	auto Compute(T x) const -> decltype(x & (x-1)) {
	static_assert(std::is_same<decltype(x & (x-1)), decltype(x ^(x-1))>::value,
	"Inconsistent bitwise types");
	switch (op_kind_) {
	case HInstruction::kAnd:
	return x & (x-1);
	case HInstruction::kXor:
	return x ^ (x-1);
	default:
	LOG(FATAL) << "Unreachable";
	UNREACHABLE();
	}
	}

	HConstant* Evaluate(HIntConstant* x) const override {
	return GetBlock()->GetGraph()->GetIntConstant(Compute(x->GetValue()), GetDexPc());
	}
	HConstant* Evaluate(HLongConstant* x) const override {
	return GetBlock()->GetGraph()->GetLongConstant(Compute(x->GetValue()), GetDexPc());
	}
	HConstant* Evaluate(HFloatConstant* x ATTRIBUTE_UNUSED) const override {
	LOG(FATAL) << DebugName() << "is not defined for float values";
	UNREACHABLE();
	}
	HConstant* Evaluate(HDoubleConstant* x ATTRIBUTE_UNUSED) const override {
	LOG(FATAL) << DebugName() << "is not defined for double values";
	UNREACHABLE();
	}
	InstructionKind GetOpKind() const { return op_kind_; }

	DECLARE_INSTRUCTION(X86MaskOrResetLeastSetBit);

	protected:
	const InstructionKind op_kind_;

	DEFAULT_COPY_CONSTRUCTOR(X86MaskOrResetLeastSetBit);
	};

	} // namespace art

	#endif // ART_COMPILER_OPTIMIZING_NODES_X86_H_