src/compiler/dex/quick/ralloc_util.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_SRC_COMPILER_DEX_QUICK_RALLOCUTIL_H_
 #define ART_SRC_COMPILER_DEX_QUICK_RALLOCUTIL_H_

 /*
  * This file contains target independent register alloction support.
  */

 #include "compiler/dex/compiler_ir.h"
 #include "compiler/dex/compiler_utility.h"
 #include "compiler/dex/dataflow.h"

 namespace art {

 /* Static register use counts */
 struct RefCounts {
   int count;
   int s_reg;
   bool double_start;   // Starting v_reg for a double
 };

 /*
  * Get the "real" sreg number associated with an s_reg slot.  In general,
  * s_reg values passed through codegen are the SSA names created by
  * dataflow analysis and refer to slot numbers in the cu->reg_location
  * array.  However, renaming is accomplished by simply replacing RegLocation
  * entries in the cu->reglocation[] array.  Therefore, when location
  * records for operands are first created, we need to ask the locRecord
  * identified by the dataflow pass what it's new name is.
  */
 inline int GetSRegHi(int lowSreg) {
   return (lowSreg == INVALID_SREG) ? INVALID_SREG : lowSreg + 1;
 }

 inline bool oat_live_out(CompilationUnit* cu, int s_reg) {
   //For now.
   return true;
 }

 inline int oatSSASrc(MIR* mir, int num) {
   DCHECK_GT(mir->ssa_rep->num_uses, num);
   return mir->ssa_rep->uses[num];
 }

 void ClobberSReg(CompilationUnit* cu, int s_reg);
 RegLocation EvalLoc(CompilationUnit* cu, RegLocation loc,
                               int reg_class, bool update);
 // Mark a temp register as dead.  Does not affect allocation state.
 void Clobber(CompilationUnit* cu, int reg);

 RegLocation UpdateLoc(CompilationUnit* cu, RegLocation loc);
 RegLocation UpdateLocWide(CompilationUnit* cu, RegLocation loc);
 RegLocation UpdateRawLoc(CompilationUnit* cu, RegLocation loc);

 void MarkLive(CompilationUnit* cu, int reg, int s_reg);
 void MarkTemp(CompilationUnit* cu, int reg);
 void UnmarkTemp(CompilationUnit* cu, int reg);
 void MarkDirty(CompilationUnit* cu, RegLocation loc);
 void MarkPair(CompilationUnit* cu, int low_reg, int high_reg);
 void MarkClean(CompilationUnit* cu, RegLocation loc);
 void ResetDef(CompilationUnit* cu, int reg);
 void ResetDefLoc(CompilationUnit* cu, RegLocation rl);

 // Set up temp & preserved register pools specialized by target.
 void CompilerInitPool(RegisterInfo* regs, int* reg_nums, int num);

 /*
  * Mark the beginning and end LIR of a def sequence.  Note that
  * on entry start points to the LIR prior to the beginning of the
  * sequence.
  */
 void MarkDef(CompilationUnit* cu, RegLocation rl, LIR* start, LIR* finish);
 void MarkDefWide(CompilationUnit* cu, RegLocation rl, LIR* start, LIR* finish);
 void ResetDefLocWide(CompilationUnit* cu, RegLocation rl);
 void ResetDefTracking(CompilationUnit* cu);


 // Get the LocRecord associated with an SSA name use.
 RegLocation GetSrc(CompilationUnit* cu, MIR* mir, int num);
 RegLocation GetSrcWide(CompilationUnit* cu, MIR* mir, int low);
 // Non-width checking version.
 RegLocation GetRawSrc(CompilationUnit* cu, MIR* mir, int num);

 // Get the LocRecord associated with an SSA name def.
 RegLocation GetDest(CompilationUnit* cu, MIR* mir);
 RegLocation GetDestWide(CompilationUnit* cu, MIR* mir);
 // Non-width checking version.
 RegLocation GetRawDest(CompilationUnit* cu, MIR* mir);

 // Clobber all regs that might be used by an external C call.
 void ClobberCalleeSave(CompilationUnit* cu);

 RegisterInfo *IsTemp(CompilationUnit* cu, int reg);
 RegisterInfo *IsPromoted(CompilationUnit* cu, int reg);
 RegisterInfo *IsLive(CompilationUnit* cu, int reg);
 bool IsDirty(CompilationUnit* cu, int reg);

 void MarkInUse(CompilationUnit* cu, int reg);

 int AllocTemp(CompilationUnit* cu);
 int AllocTempFloat(CompilationUnit* cu);
 int AllocTempDouble(CompilationUnit* cu);
 void FreeTemp(CompilationUnit* cu, int reg);
 // Return a temp if one is available, -1 otherwise.
 int AllocFreeTemp(CompilationUnit* cu);
 /*
  * Attempt to allocate a callee-save register.
  * Similar to AllocTemp(), but forces the allocation of a specific
  * register.  No check is made to see if the register was previously
  * allocated.  Use with caution.
  */
 void LockTemp(CompilationUnit* cu, int reg);

 /* To be used when explicitly managing register use */
 void LockCallTemps(CompilationUnit* cu);
 void FreeCallTemps(CompilationUnit* cu);

 void FlushAllRegs(CompilationUnit* cu);

 RegLocation GetReturn(CompilationUnit* cu, bool is_float);
 RegLocation GetReturnWide(CompilationUnit* cu, bool is_double);
 RegLocation GetBadLoc();
 RegLocation WideToNarrow(CompilationUnit* cu, RegLocation rl);

 /*
  * Free all allocated temps in the temp pools.  Note that this does
  * not affect the "liveness" of a temp register, which will stay
  * live until it is either explicitly killed or reallocated.
  */
 void ResetRegPool(CompilationUnit* cu);

 void ClobberAllRegs(CompilationUnit* cu);

 void FlushRegWide(CompilationUnit* cu, int reg1, int reg2);

 void FlushReg(CompilationUnit* cu, int reg);

 void DoPromotion(CompilationUnit* cu);
 int VRegOffset(CompilationUnit* cu, int reg);
 int SRegOffset(CompilationUnit* cu, int reg);
 void RecordCorePromotion(CompilationUnit* cu, int reg, int s_reg);
 void RecordFpPromotion(CompilationUnit* cu, int reg, int s_reg);
 int ComputeFrameSize(CompilationUnit* cu);
 int SRegToPMap(CompilationUnit* cu, int s_reg);
 void DumpRegPool(RegisterInfo* p, int num_regs);

 }  // namespace art

 #endif // ART_SRC_COMPILER_DEX_QUICK_RALLOCUTIL_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_SRC_COMPILER_DEX_QUICK_RALLOCUTIL_H_
	#define ART_SRC_COMPILER_DEX_QUICK_RALLOCUTIL_H_

	/*
	* This file contains target independent register alloction support.
	*/

	#include "compiler/dex/compiler_ir.h"
	#include "compiler/dex/compiler_utility.h"
	#include "compiler/dex/dataflow.h"

	namespace art {

	/* Static register use counts */
	struct RefCounts {
	int count;
	int s_reg;
	bool double_start; // Starting v_reg for a double
	};

	/*
	* Get the "real" sreg number associated with an s_reg slot. In general,
	* s_reg values passed through codegen are the SSA names created by
	* dataflow analysis and refer to slot numbers in the cu->reg_location
	* array. However, renaming is accomplished by simply replacing RegLocation
	* entries in the cu->reglocation[] array. Therefore, when location
	* records for operands are first created, we need to ask the locRecord
	* identified by the dataflow pass what it's new name is.
	*/
	inline int GetSRegHi(int lowSreg) {
	return (lowSreg == INVALID_SREG) ? INVALID_SREG : lowSreg + 1;
	}

	inline bool oat_live_out(CompilationUnit* cu, int s_reg) {
	//For now.
	return true;
	}

	inline int oatSSASrc(MIR* mir, int num) {
	DCHECK_GT(mir->ssa_rep->num_uses, num);
	return mir->ssa_rep->uses[num];
	}

	void ClobberSReg(CompilationUnit* cu, int s_reg);
	RegLocation EvalLoc(CompilationUnit* cu, RegLocation loc,
	int reg_class, bool update);
	// Mark a temp register as dead. Does not affect allocation state.
	void Clobber(CompilationUnit* cu, int reg);

	RegLocation UpdateLoc(CompilationUnit* cu, RegLocation loc);
	RegLocation UpdateLocWide(CompilationUnit* cu, RegLocation loc);
	RegLocation UpdateRawLoc(CompilationUnit* cu, RegLocation loc);

	void MarkLive(CompilationUnit* cu, int reg, int s_reg);
	void MarkTemp(CompilationUnit* cu, int reg);
	void UnmarkTemp(CompilationUnit* cu, int reg);
	void MarkDirty(CompilationUnit* cu, RegLocation loc);
	void MarkPair(CompilationUnit* cu, int low_reg, int high_reg);
	void MarkClean(CompilationUnit* cu, RegLocation loc);
	void ResetDef(CompilationUnit* cu, int reg);
	void ResetDefLoc(CompilationUnit* cu, RegLocation rl);

	// Set up temp & preserved register pools specialized by target.
	void CompilerInitPool(RegisterInfo* regs, int* reg_nums, int num);

	/*
	* Mark the beginning and end LIR of a def sequence. Note that
	* on entry start points to the LIR prior to the beginning of the
	* sequence.
	*/
	void MarkDef(CompilationUnit* cu, RegLocation rl, LIR* start, LIR* finish);
	void MarkDefWide(CompilationUnit* cu, RegLocation rl, LIR* start, LIR* finish);
	void ResetDefLocWide(CompilationUnit* cu, RegLocation rl);
	void ResetDefTracking(CompilationUnit* cu);


	// Get the LocRecord associated with an SSA name use.
	RegLocation GetSrc(CompilationUnit* cu, MIR* mir, int num);
	RegLocation GetSrcWide(CompilationUnit* cu, MIR* mir, int low);
	// Non-width checking version.
	RegLocation GetRawSrc(CompilationUnit* cu, MIR* mir, int num);

	// Get the LocRecord associated with an SSA name def.
	RegLocation GetDest(CompilationUnit* cu, MIR* mir);
	RegLocation GetDestWide(CompilationUnit* cu, MIR* mir);
	// Non-width checking version.
	RegLocation GetRawDest(CompilationUnit* cu, MIR* mir);

	// Clobber all regs that might be used by an external C call.
	void ClobberCalleeSave(CompilationUnit* cu);

	RegisterInfo IsTemp(CompilationUnit cu, int reg);
	RegisterInfo IsPromoted(CompilationUnit cu, int reg);
	RegisterInfo IsLive(CompilationUnit cu, int reg);
	bool IsDirty(CompilationUnit* cu, int reg);

	void MarkInUse(CompilationUnit* cu, int reg);

	int AllocTemp(CompilationUnit* cu);
	int AllocTempFloat(CompilationUnit* cu);
	int AllocTempDouble(CompilationUnit* cu);
	void FreeTemp(CompilationUnit* cu, int reg);
	// Return a temp if one is available, -1 otherwise.
	int AllocFreeTemp(CompilationUnit* cu);
	/*
	* Attempt to allocate a callee-save register.
	* Similar to AllocTemp(), but forces the allocation of a specific
	* register. No check is made to see if the register was previously
	* allocated. Use with caution.
	*/
	void LockTemp(CompilationUnit* cu, int reg);

	/* To be used when explicitly managing register use */
	void LockCallTemps(CompilationUnit* cu);
	void FreeCallTemps(CompilationUnit* cu);

	void FlushAllRegs(CompilationUnit* cu);

	RegLocation GetReturn(CompilationUnit* cu, bool is_float);
	RegLocation GetReturnWide(CompilationUnit* cu, bool is_double);
	RegLocation GetBadLoc();
	RegLocation WideToNarrow(CompilationUnit* cu, RegLocation rl);

	/*
	* Free all allocated temps in the temp pools. Note that this does
	* not affect the "liveness" of a temp register, which will stay
	* live until it is either explicitly killed or reallocated.
	*/
	void ResetRegPool(CompilationUnit* cu);

	void ClobberAllRegs(CompilationUnit* cu);

	void FlushRegWide(CompilationUnit* cu, int reg1, int reg2);

	void FlushReg(CompilationUnit* cu, int reg);

	void DoPromotion(CompilationUnit* cu);
	int VRegOffset(CompilationUnit* cu, int reg);
	int SRegOffset(CompilationUnit* cu, int reg);
	void RecordCorePromotion(CompilationUnit* cu, int reg, int s_reg);
	void RecordFpPromotion(CompilationUnit* cu, int reg, int s_reg);
	int ComputeFrameSize(CompilationUnit* cu);
	int SRegToPMap(CompilationUnit* cu, int s_reg);
	void DumpRegPool(RegisterInfo* p, int num_regs);

	} // namespace art

	#endif // ART_SRC_COMPILER_DEX_QUICK_RALLOCUTIL_H_