src/compiler/codegen/mips/MipsRallocUtil.cc - platform/art - Git at Google

 /*
  * Copyright (C) 2012 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.
  */

 /*
  * This file contains Mips-specific register allocation support.
  */

 #include "../../CompilerUtility.h"
 #include "../../CompilerIR.h"
 #include "../..//Dataflow.h"
 #include "MipsLIR.h"
 #include "Codegen.h"
 #include "../Ralloc.h"

 namespace art {

 /*
  * TUNING: is leaf?  Can't just use "hasInvoke" to determine as some
  * instructions might call out to C/assembly helper functions.  Until
  * machinery is in place, always spill lr.
  */

 void oatAdjustSpillMask(CompilationUnit* cUnit)
 {
   cUnit->coreSpillMask |= (1 << r_RA);
   cUnit->numCoreSpills++;
 }

 /*
  * Mark a callee-save fp register as promoted.  Note that
  * vpush/vpop uses contiguous register lists so we must
  * include any holes in the mask.  Associate holes with
  * Dalvik register INVALID_VREG (0xFFFFU).
  */
 void oatMarkPreservedSingle(CompilationUnit* cUnit, int sReg, int reg)
 {
   LOG(FATAL) << "No support yet for promoted FP regs";
 }

 void oatFlushRegWide(CompilationUnit* cUnit, int reg1, int reg2)
 {
   RegisterInfo* info1 = oatGetRegInfo(cUnit, reg1);
   RegisterInfo* info2 = oatGetRegInfo(cUnit, reg2);
   DCHECK(info1 && info2 && info1->pair && info2->pair &&
          (info1->partner == info2->reg) &&
          (info2->partner == info1->reg));
   if ((info1->live && info1->dirty) || (info2->live && info2->dirty)) {
     if (!(info1->isTemp && info2->isTemp)) {
       /* Should not happen.  If it does, there's a problem in evalLoc */
       LOG(FATAL) << "Long half-temp, half-promoted";
     }

     info1->dirty = false;
     info2->dirty = false;
     if (SRegToVReg(cUnit, info2->sReg) < SRegToVReg(cUnit, info1->sReg))
       info1 = info2;
     int vReg = SRegToVReg(cUnit, info1->sReg);
     oatFlushRegWideImpl(cUnit, rSP, oatVRegOffset(cUnit, vReg), info1->reg,
                         info1->partner);
   }
 }

 void oatFlushReg(CompilationUnit* cUnit, int reg)
 {
   RegisterInfo* info = oatGetRegInfo(cUnit, reg);
   if (info->live && info->dirty) {
     info->dirty = false;
     int vReg = SRegToVReg(cUnit, info->sReg);
     oatFlushRegImpl(cUnit, rSP, oatVRegOffset(cUnit, vReg), reg, kWord);
   }
 }

 /* Give access to the target-dependent FP register encoding to common code */
 bool oatIsFpReg(int reg) {
   return FPREG(reg);
 }

 uint32_t oatFpRegMask() {
   return FP_REG_MASK;
 }

 /* Clobber all regs that might be used by an external C call */
 extern void oatClobberCalleeSave(CompilationUnit *cUnit)
 {
   oatClobber(cUnit, r_ZERO);
   oatClobber(cUnit, r_AT);
   oatClobber(cUnit, r_V0);
   oatClobber(cUnit, r_V1);
   oatClobber(cUnit, r_A0);
   oatClobber(cUnit, r_A1);
   oatClobber(cUnit, r_A2);
   oatClobber(cUnit, r_A3);
   oatClobber(cUnit, r_T0);
   oatClobber(cUnit, r_T1);
   oatClobber(cUnit, r_T2);
   oatClobber(cUnit, r_T3);
   oatClobber(cUnit, r_T4);
   oatClobber(cUnit, r_T5);
   oatClobber(cUnit, r_T6);
   oatClobber(cUnit, r_T7);
   oatClobber(cUnit, r_T8);
   oatClobber(cUnit, r_T9);
   oatClobber(cUnit, r_K0);
   oatClobber(cUnit, r_K1);
   oatClobber(cUnit, r_GP);
   oatClobber(cUnit, r_FP);
   oatClobber(cUnit, r_RA);
   oatClobber(cUnit, r_F0);
   oatClobber(cUnit, r_F1);
   oatClobber(cUnit, r_F2);
   oatClobber(cUnit, r_F3);
   oatClobber(cUnit, r_F4);
   oatClobber(cUnit, r_F5);
   oatClobber(cUnit, r_F6);
   oatClobber(cUnit, r_F7);
   oatClobber(cUnit, r_F8);
   oatClobber(cUnit, r_F9);
   oatClobber(cUnit, r_F10);
   oatClobber(cUnit, r_F11);
   oatClobber(cUnit, r_F12);
   oatClobber(cUnit, r_F13);
   oatClobber(cUnit, r_F14);
   oatClobber(cUnit, r_F15);
 }

 extern RegLocation oatGetReturnWideAlt(CompilationUnit* cUnit)
 {
   RegLocation res = LOC_C_RETURN_WIDE_ALT;
   oatClobber(cUnit, res.lowReg);
   oatClobber(cUnit, res.highReg);
   oatMarkInUse(cUnit, res.lowReg);
   oatMarkInUse(cUnit, res.highReg);
   oatMarkPair(cUnit, res.lowReg, res.highReg);
   return res;
 }

 extern RegLocation oatGetReturnAlt(CompilationUnit* cUnit)
 {
   RegLocation res = LOC_C_RETURN_ALT;
   oatClobber(cUnit, res.lowReg);
   oatMarkInUse(cUnit, res.lowReg);
   return res;
 }

 extern RegisterInfo* oatGetRegInfo(CompilationUnit* cUnit, int reg)
 {
   return FPREG(reg) ? &cUnit->regPool->FPRegs[reg & FP_REG_MASK]
             : &cUnit->regPool->coreRegs[reg];
 }

 /* To be used when explicitly managing register use */
 extern void oatLockCallTemps(CompilationUnit* cUnit)
 {
   oatLockTemp(cUnit, rARG0);
   oatLockTemp(cUnit, rARG1);
   oatLockTemp(cUnit, rARG2);
   oatLockTemp(cUnit, rARG3);
 }

 /* To be used when explicitly managing register use */
 extern void oatFreeCallTemps(CompilationUnit* cUnit)
 {
   oatFreeTemp(cUnit, rARG0);
   oatFreeTemp(cUnit, rARG1);
   oatFreeTemp(cUnit, rARG2);
   oatFreeTemp(cUnit, rARG3);
 }

 /* Convert an instruction to a NOP */
 void oatNopLIR( LIR* lir)
 {
   ((LIR*)lir)->flags.isNop = true;
 }

 }  // namespace art
	/*
	* Copyright (C) 2012 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.
	*/

	/*
	* This file contains Mips-specific register allocation support.
	*/

	#include "../../CompilerUtility.h"
	#include "../../CompilerIR.h"
	#include "../..//Dataflow.h"
	#include "MipsLIR.h"
	#include "Codegen.h"
	#include "../Ralloc.h"

	namespace art {

	/*
	* TUNING: is leaf? Can't just use "hasInvoke" to determine as some
	* instructions might call out to C/assembly helper functions. Until
	* machinery is in place, always spill lr.
	*/

	void oatAdjustSpillMask(CompilationUnit* cUnit)
	{
	cUnit->coreSpillMask \|= (1 << r_RA);
	cUnit->numCoreSpills++;
	}

	/*
	* Mark a callee-save fp register as promoted. Note that
	* vpush/vpop uses contiguous register lists so we must
	* include any holes in the mask. Associate holes with
	* Dalvik register INVALID_VREG (0xFFFFU).
	*/
	void oatMarkPreservedSingle(CompilationUnit* cUnit, int sReg, int reg)
	{
	LOG(FATAL) << "No support yet for promoted FP regs";
	}

	void oatFlushRegWide(CompilationUnit* cUnit, int reg1, int reg2)
	{
	RegisterInfo* info1 = oatGetRegInfo(cUnit, reg1);
	RegisterInfo* info2 = oatGetRegInfo(cUnit, reg2);
	DCHECK(info1 && info2 && info1->pair && info2->pair &&
	(info1->partner == info2->reg) &&
	(info2->partner == info1->reg));
	if ((info1->live && info1->dirty) \|\| (info2->live && info2->dirty)) {
	if (!(info1->isTemp && info2->isTemp)) {
	/* Should not happen. If it does, there's a problem in evalLoc */
	LOG(FATAL) << "Long half-temp, half-promoted";
	}

	info1->dirty = false;
	info2->dirty = false;
	if (SRegToVReg(cUnit, info2->sReg) < SRegToVReg(cUnit, info1->sReg))
	info1 = info2;
	int vReg = SRegToVReg(cUnit, info1->sReg);
	oatFlushRegWideImpl(cUnit, rSP, oatVRegOffset(cUnit, vReg), info1->reg,
	info1->partner);
	}
	}

	void oatFlushReg(CompilationUnit* cUnit, int reg)
	{
	RegisterInfo* info = oatGetRegInfo(cUnit, reg);
	if (info->live && info->dirty) {
	info->dirty = false;
	int vReg = SRegToVReg(cUnit, info->sReg);
	oatFlushRegImpl(cUnit, rSP, oatVRegOffset(cUnit, vReg), reg, kWord);
	}
	}

	/* Give access to the target-dependent FP register encoding to common code */
	bool oatIsFpReg(int reg) {
	return FPREG(reg);
	}

	uint32_t oatFpRegMask() {
	return FP_REG_MASK;
	}

	/* Clobber all regs that might be used by an external C call */
	extern void oatClobberCalleeSave(CompilationUnit *cUnit)
	{
	oatClobber(cUnit, r_ZERO);
	oatClobber(cUnit, r_AT);
	oatClobber(cUnit, r_V0);
	oatClobber(cUnit, r_V1);
	oatClobber(cUnit, r_A0);
	oatClobber(cUnit, r_A1);
	oatClobber(cUnit, r_A2);
	oatClobber(cUnit, r_A3);
	oatClobber(cUnit, r_T0);
	oatClobber(cUnit, r_T1);
	oatClobber(cUnit, r_T2);
	oatClobber(cUnit, r_T3);
	oatClobber(cUnit, r_T4);
	oatClobber(cUnit, r_T5);
	oatClobber(cUnit, r_T6);
	oatClobber(cUnit, r_T7);
	oatClobber(cUnit, r_T8);
	oatClobber(cUnit, r_T9);
	oatClobber(cUnit, r_K0);
	oatClobber(cUnit, r_K1);
	oatClobber(cUnit, r_GP);
	oatClobber(cUnit, r_FP);
	oatClobber(cUnit, r_RA);
	oatClobber(cUnit, r_F0);
	oatClobber(cUnit, r_F1);
	oatClobber(cUnit, r_F2);
	oatClobber(cUnit, r_F3);
	oatClobber(cUnit, r_F4);
	oatClobber(cUnit, r_F5);
	oatClobber(cUnit, r_F6);
	oatClobber(cUnit, r_F7);
	oatClobber(cUnit, r_F8);
	oatClobber(cUnit, r_F9);
	oatClobber(cUnit, r_F10);
	oatClobber(cUnit, r_F11);
	oatClobber(cUnit, r_F12);
	oatClobber(cUnit, r_F13);
	oatClobber(cUnit, r_F14);
	oatClobber(cUnit, r_F15);
	}

	extern RegLocation oatGetReturnWideAlt(CompilationUnit* cUnit)
	{
	RegLocation res = LOC_C_RETURN_WIDE_ALT;
	oatClobber(cUnit, res.lowReg);
	oatClobber(cUnit, res.highReg);
	oatMarkInUse(cUnit, res.lowReg);
	oatMarkInUse(cUnit, res.highReg);
	oatMarkPair(cUnit, res.lowReg, res.highReg);
	return res;
	}

	extern RegLocation oatGetReturnAlt(CompilationUnit* cUnit)
	{
	RegLocation res = LOC_C_RETURN_ALT;
	oatClobber(cUnit, res.lowReg);
	oatMarkInUse(cUnit, res.lowReg);
	return res;
	}

	extern RegisterInfo* oatGetRegInfo(CompilationUnit* cUnit, int reg)
	{
	return FPREG(reg) ? &cUnit->regPool->FPRegs[reg & FP_REG_MASK]
	: &cUnit->regPool->coreRegs[reg];
	}

	/* To be used when explicitly managing register use */
	extern void oatLockCallTemps(CompilationUnit* cUnit)
	{
	oatLockTemp(cUnit, rARG0);
	oatLockTemp(cUnit, rARG1);
	oatLockTemp(cUnit, rARG2);
	oatLockTemp(cUnit, rARG3);
	}

	/* To be used when explicitly managing register use */
	extern void oatFreeCallTemps(CompilationUnit* cUnit)
	{
	oatFreeTemp(cUnit, rARG0);
	oatFreeTemp(cUnit, rARG1);
	oatFreeTemp(cUnit, rARG2);
	oatFreeTemp(cUnit, rARG3);
	}

	/* Convert an instruction to a NOP */
	void oatNopLIR( LIR* lir)
	{
	((LIR*)lir)->flags.isNop = true;
	}

	} // namespace art