compiler/utils/mips/managed_register_mips.h - platform/art - Git at Google

 /*
  * Copyright (C) 2011 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_UTILS_MIPS_MANAGED_REGISTER_MIPS_H_
 #define ART_COMPILER_UTILS_MIPS_MANAGED_REGISTER_MIPS_H_

 #include "constants_mips.h"
 #include "dwarf/register.h"
 #include "utils/managed_register.h"

 namespace art {
 namespace mips {

 // Values for register pairs.
 enum RegisterPair {
   V0_V1 = 0,
   A0_A1 = 1,
   A2_A3 = 2,
   T0_T1 = 3,
   T2_T3 = 4,
   T4_T5 = 5,
   T6_T7 = 6,
   S0_S1 = 7,
   S2_S3 = 8,
   S4_S5 = 9,
   S6_S7 = 10,
   A1_A2 = 11,  // Dalvik style passing
   kNumberOfRegisterPairs = 12,
   kNoRegisterPair = -1,
 };

 std::ostream& operator<<(std::ostream& os, const RegisterPair& reg);

 const int kNumberOfCoreRegIds = kNumberOfCoreRegisters;
 const int kNumberOfCoreAllocIds = kNumberOfCoreRegisters;

 const int kNumberOfFRegIds = kNumberOfFRegisters;
 const int kNumberOfFAllocIds = kNumberOfFRegisters;

 const int kNumberOfDRegIds = kNumberOfDRegisters;
 const int kNumberOfOverlappingDRegIds = kNumberOfOverlappingDRegisters;
 const int kNumberOfDAllocIds = kNumberOfDRegisters;

 const int kNumberOfPairRegIds = kNumberOfRegisterPairs;

 const int kNumberOfRegIds = kNumberOfCoreRegIds + kNumberOfFRegIds +
     kNumberOfDRegIds + kNumberOfPairRegIds;
 const int kNumberOfAllocIds =
     kNumberOfCoreAllocIds + kNumberOfFAllocIds + kNumberOfDAllocIds;

 // Register ids map:
 //   [0..R[  core registers (enum Register)
 //   [R..F[  single precision FP registers (enum FRegister)
 //   [F..D[  double precision FP registers (enum DRegister)
 //   [D..P[  core register pairs (enum RegisterPair)
 // where
 //   R = kNumberOfCoreRegIds
 //   F = R + kNumberOfFRegIds
 //   D = F + kNumberOfDRegIds
 //   P = D + kNumberOfRegisterPairs

 // Allocation ids map:
 //   [0..R[  core registers (enum Register)
 //   [R..F[  single precision FP registers (enum FRegister)
 // where
 //   R = kNumberOfCoreRegIds
 //   F = R + kNumberOfFRegIds


 // An instance of class 'ManagedRegister' represents a single core register (enum
 // Register), a single precision FP register (enum FRegister), a double precision
 // FP register (enum DRegister), or a pair of core registers (enum RegisterPair).
 // 'ManagedRegister::NoRegister()' provides an invalid register.
 // There is a one-to-one mapping between ManagedRegister and register id.
 class MipsManagedRegister : public ManagedRegister {
  public:
   Register AsCoreRegister() const {
     CHECK(IsCoreRegister());
     return static_cast<Register>(id_);
   }

   FRegister AsFRegister() const {
     CHECK(IsFRegister());
     return static_cast<FRegister>(id_ - kNumberOfCoreRegIds);
   }

   DRegister AsDRegister() const {
     CHECK(IsDRegister());
     return static_cast<DRegister>(id_ - kNumberOfCoreRegIds - kNumberOfFRegIds);
   }

   FRegister AsOverlappingDRegisterLow() const {
     CHECK(IsOverlappingDRegister());
     DRegister d_reg = AsDRegister();
     return static_cast<FRegister>(d_reg * 2);
   }

   FRegister AsOverlappingDRegisterHigh() const {
     CHECK(IsOverlappingDRegister());
     DRegister d_reg = AsDRegister();
     return static_cast<FRegister>(d_reg * 2 + 1);
   }

   Register AsRegisterPairLow() const {
     CHECK(IsRegisterPair());
     // Appropriate mapping of register ids allows to use AllocIdLow().
     return FromRegId(AllocIdLow()).AsCoreRegister();
   }

   Register AsRegisterPairHigh() const {
     CHECK(IsRegisterPair());
     // Appropriate mapping of register ids allows to use AllocIdHigh().
     return FromRegId(AllocIdHigh()).AsCoreRegister();
   }

   bool IsCoreRegister() const {
     CHECK(IsValidManagedRegister());
     return (0 <= id_) && (id_ < kNumberOfCoreRegIds);
   }

   bool IsFRegister() const {
     CHECK(IsValidManagedRegister());
     const int test = id_ - kNumberOfCoreRegIds;
     return (0 <= test) && (test < kNumberOfFRegIds);
   }

   bool IsDRegister() const {
     CHECK(IsValidManagedRegister());
     const int test = id_ - (kNumberOfCoreRegIds + kNumberOfFRegIds);
     return (0 <= test) && (test < kNumberOfDRegIds);
   }

   // Returns true if this DRegister overlaps FRegisters.
   bool IsOverlappingDRegister() const {
     CHECK(IsValidManagedRegister());
     const int test = id_ - (kNumberOfCoreRegIds + kNumberOfFRegIds);
     return (0 <= test) && (test < kNumberOfOverlappingDRegIds);
   }

   bool IsRegisterPair() const {
     CHECK(IsValidManagedRegister());
     const int test =
         id_ - (kNumberOfCoreRegIds + kNumberOfFRegIds + kNumberOfDRegIds);
     return (0 <= test) && (test < kNumberOfPairRegIds);
   }

   void Print(std::ostream& os) const;

   // Returns true if the two managed-registers ('this' and 'other') overlap.
   // Either managed-register may be the NoRegister. If both are the NoRegister
   // then false is returned.
   bool Overlaps(const MipsManagedRegister& other) const;

   static MipsManagedRegister FromCoreRegister(Register r) {
     CHECK_NE(r, kNoRegister);
     return FromRegId(r);
   }

   static MipsManagedRegister FromFRegister(FRegister r) {
     CHECK_NE(r, kNoFRegister);
     return FromRegId(r + kNumberOfCoreRegIds);
   }

   static MipsManagedRegister FromDRegister(DRegister r) {
     CHECK_NE(r, kNoDRegister);
     return FromRegId(r + kNumberOfCoreRegIds + kNumberOfFRegIds);
   }

   static MipsManagedRegister FromRegisterPair(RegisterPair r) {
     CHECK_NE(r, kNoRegisterPair);
     return FromRegId(r + (kNumberOfCoreRegIds + kNumberOfFRegIds + kNumberOfDRegIds));
   }

  private:
   bool IsValidManagedRegister() const {
     return (0 <= id_) && (id_ < kNumberOfRegIds);
   }

   int RegId() const {
     CHECK(!IsNoRegister());
     return id_;
   }

   int AllocId() const {
     CHECK(IsValidManagedRegister() && !IsOverlappingDRegister() && !IsRegisterPair());
     CHECK_LT(id_, kNumberOfAllocIds);
     return id_;
   }

   int AllocIdLow() const;
   int AllocIdHigh() const;

   friend class ManagedRegister;

   explicit MipsManagedRegister(int reg_id) : ManagedRegister(reg_id) {}

   static MipsManagedRegister FromRegId(int reg_id) {
     MipsManagedRegister reg(reg_id);
     CHECK(reg.IsValidManagedRegister());
     return reg;
   }
 };

 std::ostream& operator<<(std::ostream& os, const MipsManagedRegister& reg);

 }  // namespace mips

 inline mips::MipsManagedRegister ManagedRegister::AsMips() const {
   mips::MipsManagedRegister reg(id_);
   CHECK(reg.IsNoRegister() || reg.IsValidManagedRegister());
   return reg;
 }

 }  // namespace art

 #endif  // ART_COMPILER_UTILS_MIPS_MANAGED_REGISTER_MIPS_H_
	/*
	* Copyright (C) 2011 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_UTILS_MIPS_MANAGED_REGISTER_MIPS_H_
	#define ART_COMPILER_UTILS_MIPS_MANAGED_REGISTER_MIPS_H_

	#include "constants_mips.h"
	#include "dwarf/register.h"
	#include "utils/managed_register.h"

	namespace art {
	namespace mips {

	// Values for register pairs.
	enum RegisterPair {
	V0_V1 = 0,
	A0_A1 = 1,
	A2_A3 = 2,
	T0_T1 = 3,
	T2_T3 = 4,
	T4_T5 = 5,
	T6_T7 = 6,
	S0_S1 = 7,
	S2_S3 = 8,
	S4_S5 = 9,
	S6_S7 = 10,
	A1_A2 = 11, // Dalvik style passing
	kNumberOfRegisterPairs = 12,
	kNoRegisterPair = -1,
	};

	std::ostream& operator<<(std::ostream& os, const RegisterPair& reg);

	const int kNumberOfCoreRegIds = kNumberOfCoreRegisters;
	const int kNumberOfCoreAllocIds = kNumberOfCoreRegisters;

	const int kNumberOfFRegIds = kNumberOfFRegisters;
	const int kNumberOfFAllocIds = kNumberOfFRegisters;

	const int kNumberOfDRegIds = kNumberOfDRegisters;
	const int kNumberOfOverlappingDRegIds = kNumberOfOverlappingDRegisters;
	const int kNumberOfDAllocIds = kNumberOfDRegisters;

	const int kNumberOfPairRegIds = kNumberOfRegisterPairs;

	const int kNumberOfRegIds = kNumberOfCoreRegIds + kNumberOfFRegIds +
	kNumberOfDRegIds + kNumberOfPairRegIds;
	const int kNumberOfAllocIds =
	kNumberOfCoreAllocIds + kNumberOfFAllocIds + kNumberOfDAllocIds;

	// Register ids map:
	// [0..R[ core registers (enum Register)
	// [R..F[ single precision FP registers (enum FRegister)
	// [F..D[ double precision FP registers (enum DRegister)
	// [D..P[ core register pairs (enum RegisterPair)
	// where
	// R = kNumberOfCoreRegIds
	// F = R + kNumberOfFRegIds
	// D = F + kNumberOfDRegIds
	// P = D + kNumberOfRegisterPairs

	// Allocation ids map:
	// [0..R[ core registers (enum Register)
	// [R..F[ single precision FP registers (enum FRegister)
	// where
	// R = kNumberOfCoreRegIds
	// F = R + kNumberOfFRegIds


	// An instance of class 'ManagedRegister' represents a single core register (enum
	// Register), a single precision FP register (enum FRegister), a double precision
	// FP register (enum DRegister), or a pair of core registers (enum RegisterPair).
	// 'ManagedRegister::NoRegister()' provides an invalid register.
	// There is a one-to-one mapping between ManagedRegister and register id.
	class MipsManagedRegister : public ManagedRegister {
	public:
	Register AsCoreRegister() const {
	CHECK(IsCoreRegister());
	return static_cast<Register>(id_);
	}

	FRegister AsFRegister() const {
	CHECK(IsFRegister());
	return static_cast<FRegister>(id_ - kNumberOfCoreRegIds);
	}

	DRegister AsDRegister() const {
	CHECK(IsDRegister());
	return static_cast<DRegister>(id_ - kNumberOfCoreRegIds - kNumberOfFRegIds);
	}

	FRegister AsOverlappingDRegisterLow() const {
	CHECK(IsOverlappingDRegister());
	DRegister d_reg = AsDRegister();
	return static_cast<FRegister>(d_reg * 2);
	}

	FRegister AsOverlappingDRegisterHigh() const {
	CHECK(IsOverlappingDRegister());
	DRegister d_reg = AsDRegister();
	return static_cast<FRegister>(d_reg * 2 + 1);
	}

	Register AsRegisterPairLow() const {
	CHECK(IsRegisterPair());
	// Appropriate mapping of register ids allows to use AllocIdLow().
	return FromRegId(AllocIdLow()).AsCoreRegister();
	}

	Register AsRegisterPairHigh() const {
	CHECK(IsRegisterPair());
	// Appropriate mapping of register ids allows to use AllocIdHigh().
	return FromRegId(AllocIdHigh()).AsCoreRegister();
	}

	bool IsCoreRegister() const {
	CHECK(IsValidManagedRegister());
	return (0 <= id_) && (id_ < kNumberOfCoreRegIds);
	}

	bool IsFRegister() const {
	CHECK(IsValidManagedRegister());
	const int test = id_ - kNumberOfCoreRegIds;
	return (0 <= test) && (test < kNumberOfFRegIds);
	}

	bool IsDRegister() const {
	CHECK(IsValidManagedRegister());
	const int test = id_ - (kNumberOfCoreRegIds + kNumberOfFRegIds);
	return (0 <= test) && (test < kNumberOfDRegIds);
	}

	// Returns true if this DRegister overlaps FRegisters.
	bool IsOverlappingDRegister() const {
	CHECK(IsValidManagedRegister());
	const int test = id_ - (kNumberOfCoreRegIds + kNumberOfFRegIds);
	return (0 <= test) && (test < kNumberOfOverlappingDRegIds);
	}

	bool IsRegisterPair() const {
	CHECK(IsValidManagedRegister());
	const int test =
	id_ - (kNumberOfCoreRegIds + kNumberOfFRegIds + kNumberOfDRegIds);
	return (0 <= test) && (test < kNumberOfPairRegIds);
	}

	void Print(std::ostream& os) const;

	// Returns true if the two managed-registers ('this' and 'other') overlap.
	// Either managed-register may be the NoRegister. If both are the NoRegister
	// then false is returned.
	bool Overlaps(const MipsManagedRegister& other) const;

	static MipsManagedRegister FromCoreRegister(Register r) {
	CHECK_NE(r, kNoRegister);
	return FromRegId(r);
	}

	static MipsManagedRegister FromFRegister(FRegister r) {
	CHECK_NE(r, kNoFRegister);
	return FromRegId(r + kNumberOfCoreRegIds);
	}

	static MipsManagedRegister FromDRegister(DRegister r) {
	CHECK_NE(r, kNoDRegister);
	return FromRegId(r + kNumberOfCoreRegIds + kNumberOfFRegIds);
	}

	static MipsManagedRegister FromRegisterPair(RegisterPair r) {
	CHECK_NE(r, kNoRegisterPair);
	return FromRegId(r + (kNumberOfCoreRegIds + kNumberOfFRegIds + kNumberOfDRegIds));
	}

	private:
	bool IsValidManagedRegister() const {
	return (0 <= id_) && (id_ < kNumberOfRegIds);
	}

	int RegId() const {
	CHECK(!IsNoRegister());
	return id_;
	}

	int AllocId() const {
	CHECK(IsValidManagedRegister() && !IsOverlappingDRegister() && !IsRegisterPair());
	CHECK_LT(id_, kNumberOfAllocIds);
	return id_;
	}

	int AllocIdLow() const;
	int AllocIdHigh() const;

	friend class ManagedRegister;

	explicit MipsManagedRegister(int reg_id) : ManagedRegister(reg_id) {}

	static MipsManagedRegister FromRegId(int reg_id) {
	MipsManagedRegister reg(reg_id);
	CHECK(reg.IsValidManagedRegister());
	return reg;
	}
	};

	std::ostream& operator<<(std::ostream& os, const MipsManagedRegister& reg);

	} // namespace mips

	inline mips::MipsManagedRegister ManagedRegister::AsMips() const {
	mips::MipsManagedRegister reg(id_);
	CHECK(reg.IsNoRegister() \|\| reg.IsValidManagedRegister());
	return reg;
	}

	} // namespace art

	#endif // ART_COMPILER_UTILS_MIPS_MANAGED_REGISTER_MIPS_H_