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android / platform / art / e3acd07f28d5625062b599c2817cb5f7a53f54a9 / . / src / compiler / codegen / mips / MipsRallocUtil.cc
blob: a243415ed1c493bbb25aecbebb5d03678243903a [file] [log] [blame]
/*
* 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 {
/*
* 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).
*/
STATIC void markPreservedSingle(CompilationUnit* cUnit, int sReg, int reg)
{
UNIMPLEMENTED(FATAL) << "No support yet for promoted FP regs";
#if 0
DCHECK_GE(reg, FP_REG_MASK + FP_CALLEE_SAVE_BASE);
reg = (reg & FP_REG_MASK) - FP_CALLEE_SAVE_BASE;
// Ensure fpVmapTable is large enough
int tableSize = cUnit->fpVmapTable.size();
for (int i = tableSize; i < (reg + 1); i++) {
cUnit->fpVmapTable.push_back(INVALID_VREG);
}
// Add the current mapping
cUnit->fpVmapTable[reg] = sReg;
// Size of fpVmapTable is high-water mark, use to set mask
cUnit->numFPSpills = cUnit->fpVmapTable.size();
cUnit->fpSpillMask = ((1 << cUnit->numFPSpills) - 1) << FP_CALLEE_SAVE_BASE;
#endif
}
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 (oatS2VReg(cUnit, info2->sReg) <
oatS2VReg(cUnit, info1->sReg))
info1 = info2;
int vReg = oatS2VReg(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 = oatS2VReg(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_HI);
oatClobber(cUnit, r_LO);
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 oatGetReturnWide(CompilationUnit* cUnit)
{
RegLocation res = LOC_C_RETURN_WIDE;
oatClobber(cUnit, r_V0);
oatClobber(cUnit, r_V1);
oatMarkInUse(cUnit, r_V0);
oatMarkInUse(cUnit, r_V1);
oatMarkPair(cUnit, res.lowReg, res.highReg);
return res;
}
extern RegLocation oatGetReturnWideAlt(CompilationUnit* cUnit)
{
RegLocation res = LOC_C_RETURN_WIDE_ALT;
oatClobber(cUnit, r_F0);
oatClobber(cUnit, r_F1);
oatMarkInUse(cUnit, r_F0);
oatMarkInUse(cUnit, r_F1);
oatMarkPair(cUnit, res.lowReg, res.highReg);
return res;
}
extern RegLocation oatGetReturn(CompilationUnit* cUnit)
{
RegLocation res = LOC_C_RETURN;
oatClobber(cUnit, r_V0);
oatMarkInUse(cUnit, r_V0);
return res;
}
extern RegLocation oatGetReturnAlt(CompilationUnit* cUnit)
{
RegLocation res = LOC_C_RETURN_ALT;
oatClobber(cUnit, r_F0);
oatMarkInUse(cUnit, r_F0);
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, r_A0);
oatLockTemp(cUnit, r_A1);
oatLockTemp(cUnit, r_A2);
oatLockTemp(cUnit, r_A3);
}
/* To be used when explicitly managing register use */
extern void oatFreeCallTemps(CompilationUnit* cUnit)
{
oatFreeTemp(cUnit, r_A0);
oatFreeTemp(cUnit, r_A1);
oatFreeTemp(cUnit, r_A2);
oatFreeTemp(cUnit, r_A3);
}
} // namespace art