DSPJitRegCache: Fix function casing

This commit is contained in:
Lioncash 2015-09-18 11:42:13 -04:00
parent a23b20a3ae
commit c2cc8d7cd8
11 changed files with 383 additions and 382 deletions

View File

@ -89,12 +89,12 @@ void DSPEmitter::checkExceptions(u32 retval)
MOV(16, M(&(g_dsp.pc)), Imm16(compilePC));
DSPJitRegCache c(gpr);
gpr.saveRegs();
gpr.SaveRegs();
ABI_CallFunction((void *)&DSPCore_CheckExceptions);
MOV(32, R(EAX), Imm32(retval));
JMP(returnDispatcher, true);
gpr.loadRegs(false);
gpr.flushRegs(c,false);
gpr.LoadRegs(false);
gpr.FlushRegs(c,false);
SetJumpTarget(skipCheck);
}
@ -119,10 +119,10 @@ void DSPEmitter::Default(UDSPInstruction inst)
}
// Fall back to interpreter
gpr.pushRegs();
gpr.PushRegs();
_assert_msg_(DSPLLE, opTable[inst]->intFunc, "No function for %04x",inst);
ABI_CallFunctionC16((void*)opTable[inst]->intFunc, inst);
gpr.popRegs();
gpr.PopRegs();
}
void DSPEmitter::EmitInstruction(UDSPInstruction inst)
@ -138,9 +138,9 @@ void DSPEmitter::EmitInstruction(UDSPInstruction inst)
if (! extOpTable[inst & 0x7F]->jitFunc)
{
// Fall back to interpreter
gpr.pushRegs();
gpr.PushRegs();
ABI_CallFunctionC16((void*)extOpTable[inst & 0x7F]->intFunc, inst);
gpr.popRegs();
gpr.PopRegs();
INFO_LOG(DSPLLE, "Instruction not JITed(ext part): %04x\n", inst);
ext_is_jit = false;
}
@ -155,9 +155,9 @@ void DSPEmitter::EmitInstruction(UDSPInstruction inst)
if (!extOpTable[inst & 0xFF]->jitFunc)
{
// Fall back to interpreter
gpr.pushRegs();
gpr.PushRegs();
ABI_CallFunctionC16((void*)extOpTable[inst & 0xFF]->intFunc, inst);
gpr.popRegs();
gpr.PopRegs();
INFO_LOG(DSPLLE, "Instruction not JITed(ext part): %04x\n", inst);
ext_is_jit = false;
}
@ -187,9 +187,9 @@ void DSPEmitter::EmitInstruction(UDSPInstruction inst)
{
//need to call the online cleanup function because
//the writeBackLog gets populated at runtime
gpr.pushRegs();
gpr.PushRegs();
ABI_CallFunction((void*)::applyWriteBackLog);
gpr.popRegs();
gpr.PopRegs();
}
else
{
@ -215,7 +215,7 @@ void DSPEmitter::Compile(u16 start_addr)
return;
*/
gpr.loadRegs();
gpr.LoadRegs();
blockLinkEntry = GetCodePtr();
@ -263,7 +263,7 @@ void DSPEmitter::Compile(u16 start_addr)
// end of each block and in this order
DSPJitRegCache c(gpr);
HandleLoop();
gpr.saveRegs();
gpr.SaveRegs();
if (!DSPHost::OnThread() && DSPAnalyzer::code_flags[start_addr] & DSPAnalyzer::CODE_IDLE_SKIP)
{
MOV(16, R(EAX), Imm16(DSP_IDLE_SKIP_CYCLES));
@ -273,8 +273,8 @@ void DSPEmitter::Compile(u16 start_addr)
MOV(16, R(EAX), Imm16(blockSize[start_addr]));
}
JMP(returnDispatcher, true);
gpr.loadRegs(false);
gpr.flushRegs(c,false);
gpr.LoadRegs(false);
gpr.FlushRegs(c,false);
SetJumpTarget(rLoopAddressExit);
SetJumpTarget(rLoopCounterExit);
@ -297,7 +297,7 @@ void DSPEmitter::Compile(u16 start_addr)
DSPJitRegCache c(gpr);
//don't update g_dsp.pc -- the branch insn already did
gpr.saveRegs();
gpr.SaveRegs();
if (!DSPHost::OnThread() && DSPAnalyzer::code_flags[start_addr] & DSPAnalyzer::CODE_IDLE_SKIP)
{
MOV(16, R(EAX), Imm16(DSP_IDLE_SKIP_CYCLES));
@ -307,8 +307,8 @@ void DSPEmitter::Compile(u16 start_addr)
MOV(16, R(EAX), Imm16(blockSize[start_addr]));
}
JMP(returnDispatcher, true);
gpr.loadRegs(false);
gpr.flushRegs(c,false);
gpr.LoadRegs(false);
gpr.FlushRegs(c,false);
SetJumpTarget(rNoBranch);
}
@ -360,7 +360,7 @@ void DSPEmitter::Compile(u16 start_addr)
blockSize[start_addr] = 1;
}
gpr.saveRegs();
gpr.SaveRegs();
if (!DSPHost::OnThread() && DSPAnalyzer::code_flags[start_addr] & DSPAnalyzer::CODE_IDLE_SKIP)
{
MOV(16, R(EAX), Imm16(DSP_IDLE_SKIP_CYCLES));

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@ -74,7 +74,7 @@ void DSPEmitter::andcf(const UDSPInstruction opc)
// else
// g_dsp.r.sr &= ~SR_LOGIC_ZERO;
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
AND(16, R(RAX), Imm16(imm));
CMP(16, R(RAX), Imm16(imm));
FixupBranch notLogicZero = J_CC(CC_NE);
@ -83,7 +83,7 @@ void DSPEmitter::andcf(const UDSPInstruction opc)
SetJumpTarget(notLogicZero);
AND(16, sr_reg, Imm16(~SR_LOGIC_ZERO));
SetJumpTarget(exit);
gpr.putReg(DSP_REG_SR);
gpr.PutReg(DSP_REG_SR);
}
}
@ -110,7 +110,7 @@ void DSPEmitter::andf(const UDSPInstruction opc)
// else
// g_dsp.r.sr &= ~SR_LOGIC_ZERO;
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
TEST(16, R(RAX), Imm16(imm));
FixupBranch notLogicZero = J_CC(CC_NE);
OR(16, sr_reg, Imm16(SR_LOGIC_ZERO));
@ -118,7 +118,7 @@ void DSPEmitter::andf(const UDSPInstruction opc)
SetJumpTarget(notLogicZero);
AND(16, sr_reg, Imm16(~SR_LOGIC_ZERO));
SetJumpTarget(exit);
gpr.putReg(DSP_REG_SR);
gpr.PutReg(DSP_REG_SR);
}
}
@ -170,7 +170,7 @@ void DSPEmitter::cmp(const UDSPInstruction opc)
if (FlagsNeeded())
{
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc0 = dsp_get_long_acc(0);
get_long_acc(0, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -181,7 +181,7 @@ void DSPEmitter::cmp(const UDSPInstruction opc)
// Update_SR_Register64(res, isCarry2(acc0, res), isOverflow(acc0, -acc1, res)); // CF -> influence on ABS/0xa100
NEG(64, R(RDX));
Update_SR_Register64_Carry(EAX, tmp1, true);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
}
@ -199,7 +199,7 @@ void DSPEmitter::cmpar(const UDSPInstruction opc)
u8 sreg = (opc >> 11) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 sr = dsp_get_long_acc(sreg);
get_long_acc(sreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -212,7 +212,7 @@ void DSPEmitter::cmpar(const UDSPInstruction opc)
// Update_SR_Register64(res, isCarry2(sr, res), isOverflow(sr, -rr, res));
NEG(64, R(RDX));
Update_SR_Register64_Carry(EAX, tmp1, true);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
}
@ -229,7 +229,7 @@ void DSPEmitter::cmpi(const UDSPInstruction opc)
{
u8 reg = (opc >> 8) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 val = dsp_get_long_acc(reg);
get_long_acc(reg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -241,7 +241,7 @@ void DSPEmitter::cmpi(const UDSPInstruction opc)
// Update_SR_Register64(res, isCarry2(val, res), isOverflow(val, -imm, res));
NEG(64, R(RDX));
Update_SR_Register64_Carry(EAX, tmp1, true);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
}
@ -259,7 +259,7 @@ void DSPEmitter::cmpis(const UDSPInstruction opc)
u8 areg = (opc >> 8) & 0x1;
// s64 acc = dsp_get_long_acc(areg);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
get_long_acc(areg, tmp1);
MOV(64, R(RAX), R(tmp1));
// s64 val = (s8)opc;
@ -270,7 +270,7 @@ void DSPEmitter::cmpis(const UDSPInstruction opc)
// Update_SR_Register64(res, isCarry2(acc, res), isOverflow(acc, -val, res));
NEG(64, R(RDX));
Update_SR_Register64_Carry(EAX, tmp1, true);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
}
@ -528,7 +528,7 @@ void DSPEmitter::addr(const UDSPInstruction opc)
// s64 acc = dsp_get_long_acc(dreg);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
// s64 ax = (s16)g_dsp.r[sreg];
@ -549,7 +549,7 @@ void DSPEmitter::addr(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// ADDAX $acD, $axS
@ -563,7 +563,7 @@ void DSPEmitter::addax(const UDSPInstruction opc)
u8 sreg = (opc >> 9) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -584,7 +584,7 @@ void DSPEmitter::addax(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// ADD $acD, $ac(1-D)
@ -597,7 +597,7 @@ void DSPEmitter::add(const UDSPInstruction opc)
u8 dreg = (opc >> 8) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc0 = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -618,7 +618,7 @@ void DSPEmitter::add(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// ADDP $acD
@ -631,7 +631,7 @@ void DSPEmitter::addp(const UDSPInstruction opc)
u8 dreg = (opc >> 8) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -652,7 +652,7 @@ void DSPEmitter::addp(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// ADDAXL $acD, $axS.l
@ -667,7 +667,7 @@ void DSPEmitter::addaxl(const UDSPInstruction opc)
u8 dreg = (opc >> 8) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// u64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -689,7 +689,7 @@ void DSPEmitter::addaxl(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// ADDI $amR, #I
@ -702,7 +702,7 @@ void DSPEmitter::addi(const UDSPInstruction opc)
{
u8 areg = (opc >> 8) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(areg);
get_long_acc(areg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -727,7 +727,7 @@ void DSPEmitter::addi(const UDSPInstruction opc)
{
set_long_acc(areg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// ADDIS $acD, #I
@ -740,7 +740,7 @@ void DSPEmitter::addis(const UDSPInstruction opc)
u8 dreg = (opc >> 8) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -764,7 +764,7 @@ void DSPEmitter::addis(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// INCM $acsD
@ -777,7 +777,7 @@ void DSPEmitter::incm(const UDSPInstruction opc)
u8 dreg = (opc >> 8) & 0x1;
s64 subtract = 0x10000;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -797,7 +797,7 @@ void DSPEmitter::incm(const UDSPInstruction opc)
{
set_long_acc(dreg);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// INC $acD
@ -809,7 +809,7 @@ void DSPEmitter::inc(const UDSPInstruction opc)
{
u8 dreg = (opc >> 8) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -829,7 +829,7 @@ void DSPEmitter::inc(const UDSPInstruction opc)
{
set_long_acc(dreg);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
//----
@ -845,7 +845,7 @@ void DSPEmitter::subr(const UDSPInstruction opc)
u8 sreg = ((opc >> 9) & 0x3) + DSP_REG_AXL0;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -869,7 +869,7 @@ void DSPEmitter::subr(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// SUBAX $acD, $axS
@ -883,7 +883,7 @@ void DSPEmitter::subax(const UDSPInstruction opc)
u8 sreg = (opc >> 9) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -905,7 +905,7 @@ void DSPEmitter::subax(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// SUB $acD, $ac(1-D)
@ -917,7 +917,7 @@ void DSPEmitter::sub(const UDSPInstruction opc)
{
u8 dreg = (opc >> 8) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc1 = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -939,7 +939,7 @@ void DSPEmitter::sub(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// SUBP $acD
@ -951,7 +951,7 @@ void DSPEmitter::subp(const UDSPInstruction opc)
{
u8 dreg = (opc >> 8) & 0x1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -973,7 +973,7 @@ void DSPEmitter::subp(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// DECM $acsD
@ -986,7 +986,7 @@ void DSPEmitter::decm(const UDSPInstruction opc)
u8 dreg = (opc >> 8) & 0x01;
s64 subtract = 0x10000;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -1006,7 +1006,7 @@ void DSPEmitter::decm(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// DEC $acD
@ -1018,7 +1018,7 @@ void DSPEmitter::dec(const UDSPInstruction opc)
{
u8 dreg = (opc >> 8) & 0x01;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// s64 acc = dsp_get_long_acc(dreg);
get_long_acc(dreg, tmp1);
MOV(64, R(RAX), R(tmp1));
@ -1038,7 +1038,7 @@ void DSPEmitter::dec(const UDSPInstruction opc)
{
set_long_acc(dreg);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
//----

View File

@ -69,14 +69,14 @@ static void ReJitConditional(const UDSPInstruction opc, DSPEmitter& emitter)
DSPJitRegCache c1(emitter.gpr);
FixupBranch skipCode = cond == 0xe ? emitter.J_CC(CC_E,true) : emitter.J_CC((CCFlags)(CC_NE - (cond & 1)),true);
jitCode(opc,emitter);
emitter.gpr.flushRegs(c1);
emitter.gpr.FlushRegs(c1);
emitter.SetJumpTarget(skipCode);
}
static void WriteBranchExit(DSPEmitter& emitter)
{
DSPJitRegCache c(emitter.gpr);
emitter.gpr.saveRegs();
emitter.gpr.SaveRegs();
if (DSPAnalyzer::code_flags[emitter.startAddr] & DSPAnalyzer::CODE_IDLE_SKIP)
{
emitter.MOV(16, R(EAX), Imm16(0x1000));
@ -86,8 +86,8 @@ static void WriteBranchExit(DSPEmitter& emitter)
emitter.MOV(16, R(EAX), Imm16(emitter.blockSize[emitter.startAddr]));
}
emitter.JMP(emitter.returnDispatcher, true);
emitter.gpr.loadRegs(false);
emitter.gpr.flushRegs(c,false);
emitter.gpr.LoadRegs(false);
emitter.gpr.FlushRegs(c,false);
}
static void WriteBlockLink(DSPEmitter& emitter, u16 dest)
@ -97,7 +97,7 @@ static void WriteBlockLink(DSPEmitter& emitter, u16 dest)
{
if (emitter.blockLinks[dest] != nullptr )
{
emitter.gpr.flushRegs();
emitter.gpr.FlushRegs();
// Check if we have enough cycles to execute the next block
emitter.MOV(16, R(ECX), M(&cyclesLeft));
emitter.CMP(16, R(ECX), Imm16(emitter.blockSize[emitter.startAddr] + emitter.blockSize[dest]));
@ -300,7 +300,7 @@ void DSPEmitter::HandleLoop()
dsp_reg_load_stack(0);
dsp_reg_load_stack(2);
dsp_reg_load_stack(3);
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(loopUpdated);
SetJumpTarget(rLoopAddrG);
@ -331,7 +331,7 @@ void DSPEmitter::loop(const UDSPInstruction opc)
dsp_reg_store_stack(0);
MOV(16, R(RDX), Imm16(loop_pc));
dsp_reg_store_stack(2);
gpr.flushRegs(c);
gpr.FlushRegs(c);
MOV(16, M(&(g_dsp.pc)), Imm16(compilePC + 1));
FixupBranch exit = J(true);
@ -339,7 +339,7 @@ void DSPEmitter::loop(const UDSPInstruction opc)
// dsp_skip_inst();
MOV(16, M(&g_dsp.pc), Imm16(loop_pc + opTable[dsp_imem_read(loop_pc)]->size));
WriteBranchExit(*this);
gpr.flushRegs(c,false);
gpr.FlushRegs(c,false);
SetJumpTarget(exit);
}
@ -402,7 +402,7 @@ void DSPEmitter::bloop(const UDSPInstruction opc)
MOV(16, R(RDX), Imm16(loop_pc));
dsp_reg_store_stack(2);
MOV(16, M(&(g_dsp.pc)), Imm16(compilePC + 2));
gpr.flushRegs(c,true);
gpr.FlushRegs(c,true);
FixupBranch exit = J(true);
SetJumpTarget(cnt);
@ -410,7 +410,7 @@ void DSPEmitter::bloop(const UDSPInstruction opc)
// dsp_skip_inst();
MOV(16, M(&g_dsp.pc), Imm16(loop_pc + opTable[dsp_imem_read(loop_pc)]->size));
WriteBranchExit(*this);
gpr.flushRegs(c,false);
gpr.FlushRegs(c,false);
SetJumpTarget(exit);
}

View File

@ -14,7 +14,7 @@ using namespace Gen;
void DSPEmitter::Update_SR_Register(Gen::X64Reg val)
{
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
// // 0x04
// if (_Value == 0) g_dsp.r[DSP_REG_SR] |= SR_ARITH_ZERO;
TEST(64, R(val), R(val));
@ -49,7 +49,7 @@ void DSPEmitter::Update_SR_Register(Gen::X64Reg val)
OR(16, sr_reg, Imm16(SR_TOP2BITS));
SetJumpTarget(cC);
SetJumpTarget(end);
gpr.putReg(DSP_REG_SR);
gpr.PutReg(DSP_REG_SR);
}
// In: RAX: s64 _Value
@ -58,9 +58,9 @@ void DSPEmitter::Update_SR_Register64(Gen::X64Reg val)
{
// g_dsp.r[DSP_REG_SR] &= ~SR_CMP_MASK;
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
AND(16, sr_reg, Imm16(~SR_CMP_MASK));
gpr.putReg(DSP_REG_SR);
gpr.PutReg(DSP_REG_SR);
Update_SR_Register(val);
}
@ -70,7 +70,7 @@ void DSPEmitter::Update_SR_Register64(Gen::X64Reg val)
void DSPEmitter::Update_SR_Register64_Carry(X64Reg val, X64Reg carry_ovfl, bool carry_eq)
{
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
// g_dsp.r[DSP_REG_SR] &= ~SR_CMP_MASK;
AND(16, sr_reg, Imm16(~SR_CMP_MASK));
@ -95,7 +95,7 @@ void DSPEmitter::Update_SR_Register64_Carry(X64Reg val, X64Reg carry_ovfl, bool
OR(16, sr_reg, Imm16(SR_OVERFLOW | SR_OVERFLOW_STICKY));
SetJumpTarget(noOverflow);
gpr.putReg(DSP_REG_SR);
gpr.PutReg(DSP_REG_SR);
if (carry_eq)
{
Update_SR_Register();
@ -110,7 +110,7 @@ void DSPEmitter::Update_SR_Register64_Carry(X64Reg val, X64Reg carry_ovfl, bool
void DSPEmitter::Update_SR_Register16(X64Reg val)
{
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
AND(16, sr_reg, Imm16(~SR_CMP_MASK));
// // 0x04
@ -139,7 +139,7 @@ void DSPEmitter::Update_SR_Register16(X64Reg val)
OR(16, sr_reg, Imm16(SR_TOP2BITS));
SetJumpTarget(notThree);
SetJumpTarget(end);
gpr.putReg(DSP_REG_SR);
gpr.PutReg(DSP_REG_SR);
}
// In: RAX: s64 _Value
@ -147,7 +147,7 @@ void DSPEmitter::Update_SR_Register16(X64Reg val)
void DSPEmitter::Update_SR_Register16_OverS32(Gen::X64Reg val)
{
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
AND(16, sr_reg, Imm16(~SR_CMP_MASK));
// // 0x10
@ -158,7 +158,7 @@ void DSPEmitter::Update_SR_Register16_OverS32(Gen::X64Reg val)
OR(16, sr_reg, Imm16(SR_OVER_S32));
SetJumpTarget(noOverS32);
gpr.putReg(DSP_REG_SR);
gpr.PutReg(DSP_REG_SR);
// // 0x20 - Checks if top bits of m are equal
// if ((((u16)_Value >> 14) == 0) || (((u16)_Value >> 14) == 3))
//AND(32, R(val), Imm32(0xc0000000));

View File

@ -72,13 +72,13 @@ void DSPEmitter::s(const UDSPInstruction opc)
dsp_op_read_reg(dreg, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1, ZERO);
// u16 val = g_dsp.r[src];
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
increment_addr_reg(dreg);
}
@ -94,12 +94,12 @@ void DSPEmitter::sn(const UDSPInstruction opc)
dsp_op_read_reg(dreg, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
increase_addr_reg(dreg, dreg);
}
@ -166,12 +166,12 @@ void DSPEmitter::ls(const UDSPInstruction opc)
dsp_op_read_reg(DSP_REG_AR3, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg + DSP_REG_ACM0, tmp1, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
pushExtValueFromMem(dreg, DSP_REG_AR0);
@ -193,12 +193,12 @@ void DSPEmitter::lsn(const UDSPInstruction opc)
dsp_op_read_reg(DSP_REG_AR3, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg + DSP_REG_ACM0, tmp1, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
pushExtValueFromMem(dreg, DSP_REG_AR0);
@ -219,12 +219,12 @@ void DSPEmitter::lsm(const UDSPInstruction opc)
dsp_op_read_reg(DSP_REG_AR3, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg + DSP_REG_ACM0, tmp1, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
pushExtValueFromMem(dreg, DSP_REG_AR0);
@ -246,12 +246,12 @@ void DSPEmitter::lsnm(const UDSPInstruction opc)
dsp_op_read_reg(DSP_REG_AR3, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg + DSP_REG_ACM0, tmp1, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
pushExtValueFromMem(dreg, DSP_REG_AR0);
@ -271,12 +271,12 @@ void DSPEmitter::sl(const UDSPInstruction opc)
dsp_op_read_reg(DSP_REG_AR0, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg + DSP_REG_ACM0, tmp1, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
pushExtValueFromMem(dreg, DSP_REG_AR3);
@ -297,12 +297,12 @@ void DSPEmitter::sln(const UDSPInstruction opc)
dsp_op_read_reg(DSP_REG_AR0, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg + DSP_REG_ACM0, tmp1, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
pushExtValueFromMem(dreg, DSP_REG_AR3);
@ -323,12 +323,12 @@ void DSPEmitter::slm(const UDSPInstruction opc)
dsp_op_read_reg(DSP_REG_AR0, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg + DSP_REG_ACM0, tmp1, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
pushExtValueFromMem(dreg, DSP_REG_AR3);
@ -349,12 +349,12 @@ void DSPEmitter::slnm(const UDSPInstruction opc)
dsp_op_read_reg(DSP_REG_AR0, RAX, ZERO);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg + DSP_REG_ACM0, tmp1, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
pushExtValueFromMem(dreg, DSP_REG_AR3);
@ -382,20 +382,20 @@ void DSPEmitter::ld(const UDSPInstruction opc)
// if (IsSameMemArea(g_dsp.r[sreg], g_dsp.r[DSP_REG_AR3])) {
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
dsp_op_read_reg(sreg, RCX, NONE);
dsp_op_read_reg(DSP_REG_AR3, tmp, NONE);
XOR(16, R(ECX), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
DSPJitRegCache c(gpr);
TEST(16, R(ECX), Imm16(0xfc00));
FixupBranch not_equal = J_CC(CC_NE,true);
pushExtValueFromMem2((rreg << 1) + DSP_REG_AXL1, sreg);
gpr.flushRegs(c);
gpr.FlushRegs(c);
FixupBranch after = J(true);
SetJumpTarget(not_equal); // else
pushExtValueFromMem2((rreg << 1) + DSP_REG_AXL1, DSP_REG_AR3);
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(after);
increment_addr_reg(sreg);
@ -413,21 +413,21 @@ void DSPEmitter::ldax(const UDSPInstruction opc)
pushExtValueFromMem(rreg + DSP_REG_AXH0, sreg);
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
//if (IsSameMemArea(g_dsp.r[sreg], g_dsp.r[DSP_REG_AR3])) {
dsp_op_read_reg(sreg, RCX, NONE);
dsp_op_read_reg(DSP_REG_AR3, tmp, NONE);
XOR(16, R(ECX), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
DSPJitRegCache c(gpr);
TEST(16, R(ECX), Imm16(0xfc00));
FixupBranch not_equal = J_CC(CC_NE, true);
pushExtValueFromMem2(rreg + DSP_REG_AXL0, sreg);
gpr.flushRegs(c);
gpr.FlushRegs(c);
FixupBranch after = J(true); // else
SetJumpTarget(not_equal);
pushExtValueFromMem2(rreg + DSP_REG_AXL0, DSP_REG_AR3);
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(after);
increment_addr_reg(sreg);
@ -446,21 +446,21 @@ void DSPEmitter::ldn(const UDSPInstruction opc)
pushExtValueFromMem((dreg << 1) + DSP_REG_AXL0, sreg);
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
//if (IsSameMemArea(g_dsp.r[sreg], g_dsp.r[DSP_REG_AR3])) {
dsp_op_read_reg(sreg, RCX, NONE);
dsp_op_read_reg(DSP_REG_AR3, tmp, NONE);
XOR(16, R(ECX), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
DSPJitRegCache c(gpr);
TEST(16, R(ECX), Imm16(0xfc00));
FixupBranch not_equal = J_CC(CC_NE,true);
pushExtValueFromMem2((rreg << 1) + DSP_REG_AXL1, sreg);
gpr.flushRegs(c);
gpr.FlushRegs(c);
FixupBranch after = J(true);
SetJumpTarget(not_equal); // else
pushExtValueFromMem2((rreg << 1) + DSP_REG_AXL1, DSP_REG_AR3);
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(after);
increase_addr_reg(sreg, sreg);
@ -478,21 +478,21 @@ void DSPEmitter::ldaxn(const UDSPInstruction opc)
pushExtValueFromMem(rreg + DSP_REG_AXH0, sreg);
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
//if (IsSameMemArea(g_dsp.r[sreg], g_dsp.r[DSP_REG_AR3])) {
dsp_op_read_reg(sreg, RCX, NONE);
dsp_op_read_reg(DSP_REG_AR3, tmp, NONE);
XOR(16, R(ECX), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
DSPJitRegCache c(gpr);
TEST(16, R(ECX), Imm16(0xfc00));
FixupBranch not_equal = J_CC(CC_NE,true);
pushExtValueFromMem2(rreg + DSP_REG_AXL0, sreg);
gpr.flushRegs(c);
gpr.FlushRegs(c);
FixupBranch after = J(true); // else
SetJumpTarget(not_equal);
pushExtValueFromMem2(rreg + DSP_REG_AXL0, DSP_REG_AR3);
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(after);
increase_addr_reg(sreg, sreg);
@ -511,21 +511,21 @@ void DSPEmitter::ldm(const UDSPInstruction opc)
pushExtValueFromMem((dreg << 1) + DSP_REG_AXL0, sreg);
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
//if (IsSameMemArea(g_dsp.r[sreg], g_dsp.r[DSP_REG_AR3])) {
dsp_op_read_reg(sreg, RCX, NONE);
dsp_op_read_reg(DSP_REG_AR3, tmp, NONE);
XOR(16, R(ECX), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
DSPJitRegCache c(gpr);
TEST(16, R(ECX), Imm16(0xfc00));
FixupBranch not_equal = J_CC(CC_NE,true);
pushExtValueFromMem2((rreg << 1) + DSP_REG_AXL1, sreg);
gpr.flushRegs(c);
gpr.FlushRegs(c);
FixupBranch after = J(true);
SetJumpTarget(not_equal); // else
pushExtValueFromMem2((rreg << 1) + DSP_REG_AXL1, DSP_REG_AR3);
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(after);
increment_addr_reg(sreg);
@ -543,21 +543,21 @@ void DSPEmitter::ldaxm(const UDSPInstruction opc)
pushExtValueFromMem(rreg + DSP_REG_AXH0, sreg);
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
//if (IsSameMemArea(g_dsp.r[sreg], g_dsp.r[DSP_REG_AR3])) {
dsp_op_read_reg(sreg, RCX, NONE);
dsp_op_read_reg(DSP_REG_AR3, tmp, NONE);
XOR(16, R(ECX), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
DSPJitRegCache c(gpr);
TEST(16, R(ECX), Imm16(0xfc00));
FixupBranch not_equal = J_CC(CC_NE,true);
pushExtValueFromMem2(rreg + DSP_REG_AXL0, sreg);
gpr.flushRegs(c);
gpr.FlushRegs(c);
FixupBranch after = J(true); // else
SetJumpTarget(not_equal);
pushExtValueFromMem2(rreg + DSP_REG_AXL0, DSP_REG_AR3);
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(after);
increment_addr_reg(sreg);
@ -576,21 +576,21 @@ void DSPEmitter::ldnm(const UDSPInstruction opc)
pushExtValueFromMem((dreg << 1) + DSP_REG_AXL0, sreg);
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
//if (IsSameMemArea(g_dsp.r[sreg], g_dsp.r[DSP_REG_AR3])) {
dsp_op_read_reg(sreg, RCX, NONE);
dsp_op_read_reg(DSP_REG_AR3, tmp, NONE);
XOR(16, R(ECX), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
DSPJitRegCache c(gpr);
TEST(16, R(ECX), Imm16(0xfc00));
FixupBranch not_equal = J_CC(CC_NE,true);
pushExtValueFromMem2((rreg << 1) + DSP_REG_AXL1, sreg);
gpr.flushRegs(c);
gpr.FlushRegs(c);
FixupBranch after = J(true);
SetJumpTarget(not_equal); // else
pushExtValueFromMem2((rreg << 1) + DSP_REG_AXL1, DSP_REG_AR3);
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(after);
increase_addr_reg(sreg, sreg);
@ -608,21 +608,21 @@ void DSPEmitter::ldaxnm(const UDSPInstruction opc)
pushExtValueFromMem(rreg + DSP_REG_AXH0, sreg);
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
//if (IsSameMemArea(g_dsp.r[sreg], g_dsp.r[DSP_REG_AR3])) {
dsp_op_read_reg(sreg, RCX, NONE);
dsp_op_read_reg(DSP_REG_AR3, tmp, NONE);
XOR(16, R(ECX), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
DSPJitRegCache c(gpr);
TEST(16, R(ECX), Imm16(0xfc00));
FixupBranch not_equal = J_CC(CC_NE,true);
pushExtValueFromMem2(rreg + DSP_REG_AXL0, sreg);
gpr.flushRegs(c);
gpr.FlushRegs(c);
FixupBranch after = J(true); // else
SetJumpTarget(not_equal);
pushExtValueFromMem2(rreg + DSP_REG_AXL0, DSP_REG_AR3);
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(after);
increase_addr_reg(sreg, sreg);
@ -637,12 +637,12 @@ void DSPEmitter::pushExtValueFromMem(u16 dreg, u16 sreg)
// u16 addr = g_dsp.r[addr];
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1, ZERO);
dmem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
MOVZX(32, 16, EBX, R(EAX));
@ -654,12 +654,12 @@ void DSPEmitter::pushExtValueFromMem2(u16 dreg, u16 sreg)
// u16 addr = g_dsp.r[addr];
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1, ZERO);
dmem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
SHL(32, R(EAX), Imm8(16));
OR(32, R(EBX), R(EAX));
@ -695,7 +695,7 @@ void DSPEmitter::popExtValueToReg()
set_acc_h(storeIndex - DSP_REG_ACM0, R(RAX));
set_acc_l(storeIndex - DSP_REG_ACM0, Imm16(0));
//}
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(not_40bit);
}
}

View File

@ -24,7 +24,7 @@ void DSPEmitter::srs(const UDSPInstruction opc)
//u16 addr = (g_dsp.r.cr << 8) | (opc & 0xFF);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(reg, tmp1, ZERO);
dsp_op_read_reg(DSP_REG_CR, RAX, ZERO);
@ -32,7 +32,7 @@ void DSPEmitter::srs(const UDSPInstruction opc)
OR(16, R(EAX), Imm16(opc & 0xFF));
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// LRS $(0x18+D), @M
@ -45,7 +45,7 @@ void DSPEmitter::lrs(const UDSPInstruction opc)
u8 reg = ((opc >> 8) & 0x7) + 0x18;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
//u16 addr = (g_dsp.r[DSP_REG_CR] << 8) | (opc & 0xFF);
dsp_op_read_reg(DSP_REG_CR, tmp1, ZERO);
@ -53,7 +53,7 @@ void DSPEmitter::lrs(const UDSPInstruction opc)
OR(16, R(tmp1), Imm16(opc & 0xFF));
dmem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
dsp_op_write_reg(reg, RAX);
dsp_conditional_extend_accum(reg);
@ -82,12 +82,12 @@ void DSPEmitter::sr(const UDSPInstruction opc)
u16 address = dsp_imem_read(compilePC + 1);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(reg, tmp1);
dmem_write_imm(address, tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// SI @M, #I
@ -101,12 +101,12 @@ void DSPEmitter::si(const UDSPInstruction opc)
u16 imm = dsp_imem_read(compilePC + 1);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
MOV(32, R(tmp1), Imm32((u32)imm));
dmem_write_imm(address, tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// LRR $D, @$S
@ -118,12 +118,12 @@ void DSPEmitter::lrr(const UDSPInstruction opc)
u8 dreg = opc & 0x1f;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1);
dmem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
dsp_op_write_reg(dreg, EAX);
dsp_conditional_extend_accum(dreg);
@ -139,12 +139,12 @@ void DSPEmitter::lrrd(const UDSPInstruction opc)
u8 dreg = opc & 0x1f;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1);
dmem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
dsp_op_write_reg(dreg, EAX);
dsp_conditional_extend_accum(dreg);
@ -161,12 +161,12 @@ void DSPEmitter::lrri(const UDSPInstruction opc)
u8 dreg = opc & 0x1f;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1);
dmem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
dsp_op_write_reg(dreg, EAX);
dsp_conditional_extend_accum(dreg);
@ -183,12 +183,12 @@ void DSPEmitter::lrrn(const UDSPInstruction opc)
u8 dreg = opc & 0x1f;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1);
dmem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
dsp_op_write_reg(dreg, EAX);
dsp_conditional_extend_accum(dreg);
@ -205,13 +205,13 @@ void DSPEmitter::srr(const UDSPInstruction opc)
u8 sreg = opc & 0x1f;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1);
dsp_op_read_reg(dreg, RAX, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// SRRD @$D, $S
@ -224,13 +224,13 @@ void DSPEmitter::srrd(const UDSPInstruction opc)
u8 sreg = opc & 0x1f;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1);
dsp_op_read_reg(dreg, RAX, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
decrement_addr_reg(dreg);
}
@ -245,13 +245,13 @@ void DSPEmitter::srri(const UDSPInstruction opc)
u8 sreg = opc & 0x1f;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1);
dsp_op_read_reg(dreg, RAX, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
increment_addr_reg(dreg);
}
@ -266,13 +266,13 @@ void DSPEmitter::srrn(const UDSPInstruction opc)
u8 sreg = opc & 0x1f;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(sreg, tmp1);
dsp_op_read_reg(dreg, RAX, ZERO);
dmem_write(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
increase_addr_reg(dreg, dreg);
}
@ -287,12 +287,12 @@ void DSPEmitter::ilrr(const UDSPInstruction opc)
u16 dreg = (opc >> 8) & 1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(reg, tmp1, ZERO);
imem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
set_acc_m(dreg, R(RAX));
dsp_conditional_extend_accum(dreg + DSP_REG_ACM0);
@ -308,12 +308,12 @@ void DSPEmitter::ilrrd(const UDSPInstruction opc)
u16 dreg = (opc >> 8) & 1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(reg, tmp1, ZERO);
imem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
set_acc_m(dreg, R(RAX));
dsp_conditional_extend_accum(dreg + DSP_REG_ACM0);
@ -330,12 +330,12 @@ void DSPEmitter::ilrri(const UDSPInstruction opc)
u16 dreg = (opc >> 8) & 1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(reg, tmp1, ZERO);
imem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
set_acc_m(dreg, R(RAX));
dsp_conditional_extend_accum(dreg + DSP_REG_ACM0);
@ -353,12 +353,12 @@ void DSPEmitter::ilrrn(const UDSPInstruction opc)
u16 dreg = (opc >> 8) & 1;
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
dsp_op_read_reg(reg, tmp1, ZERO);
imem_read(tmp1);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
set_acc_m(dreg, R(RAX));
dsp_conditional_extend_accum(dreg + DSP_REG_ACM0);

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@ -115,9 +115,9 @@ void DSPEmitter::setCompileSR(u16 bit)
// g_dsp.r[DSP_REG_SR] |= bit
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
OR(16, sr_reg, Imm16(bit));
gpr.putReg(DSP_REG_SR);
gpr.PutReg(DSP_REG_SR);
compileSR |= bit;
}
@ -127,9 +127,9 @@ void DSPEmitter::clrCompileSR(u16 bit)
// g_dsp.r[DSP_REG_SR] &= bit
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
AND(16, sr_reg, Imm16(~bit));
gpr.putReg(DSP_REG_SR);
gpr.PutReg(DSP_REG_SR);
compileSR &= ~bit;
}

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@ -23,13 +23,13 @@ void DSPEmitter::multiply()
// Conditionally multiply by 2.
// if ((g_dsp.r.sr & SR_MUL_MODIFY) == 0)
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
TEST(16, sr_reg, Imm16(SR_MUL_MODIFY));
FixupBranch noMult2 = J_CC(CC_NZ);
// prod <<= 1;
LEA(64, RAX, MRegSum(RAX,RAX));
SetJumpTarget(noMult2);
gpr.putReg(DSP_REG_SR, false);
gpr.PutReg(DSP_REG_SR, false);
// return prod;
}
@ -77,7 +77,7 @@ void DSPEmitter::multiply_mulx(u8 axh0, u8 axh1)
// if ((sign == 1) && (g_dsp.r.sr & SR_MUL_UNSIGNED)) //unsigned
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
TEST(16, sr_reg, Imm16(SR_MUL_UNSIGNED));
FixupBranch unsignedMul = J_CC(CC_NZ);
// prod = (s16)a * (s16)b; //signed
@ -87,7 +87,7 @@ void DSPEmitter::multiply_mulx(u8 axh0, u8 axh1)
SetJumpTarget(unsignedMul);
DSPJitRegCache c(gpr);
gpr.putReg(DSP_REG_SR, false);
gpr.PutReg(DSP_REG_SR, false);
if ((axh0==0) && (axh1==0))
{
// unsigned support ON if both ax?.l regs are used
@ -101,11 +101,11 @@ void DSPEmitter::multiply_mulx(u8 axh0, u8 axh1)
// mixed support ON (u16)axl.0 * (s16)axh.1
// prod = a * (s16)b;
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
MOV(64, R(tmp), R(RAX));
MOVZX(64, 16, RAX, R(RCX));
IMUL(64, R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
}
else if ((axh0==1) && (axh1==0))
{
@ -122,7 +122,7 @@ void DSPEmitter::multiply_mulx(u8 axh0, u8 axh1)
IMUL(64, R(RCX));
}
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(signedMul);
// Conditionally multiply by 2.
@ -132,7 +132,7 @@ void DSPEmitter::multiply_mulx(u8 axh0, u8 axh1)
// prod <<= 1;
LEA(64, RAX, MRegSum(RAX,RAX));
SetJumpTarget(noMult2);
gpr.putReg(DSP_REG_SR, false);
gpr.PutReg(DSP_REG_SR, false);
// return prod;
}
@ -248,7 +248,7 @@ void DSPEmitter::addpaxz(const UDSPInstruction opc)
// s64 ax = dsp_get_long_acx(sreg);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
get_long_acx(sreg, tmp1);
MOV(64, R(RDX), R(tmp1));
// s64 res = prod + (ax & ~0xffff);
@ -273,7 +273,7 @@ void DSPEmitter::addpaxz(const UDSPInstruction opc)
{
set_long_acc(dreg, RAX);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
//----
@ -432,7 +432,7 @@ void DSPEmitter::mulxac(const UDSPInstruction opc)
// s64 acc = dsp_get_long_acc(rreg) + dsp_get_long_prod();
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
get_long_acc(rreg, tmp1);
get_long_prod();
ADD(64, R(tmp1), R(RAX));
@ -452,7 +452,7 @@ void DSPEmitter::mulxac(const UDSPInstruction opc)
{
Update_SR_Register64(tmp1);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// MULXMV $ax0.S, $ax1.T, $acR
@ -470,7 +470,7 @@ void DSPEmitter::mulxmv(const UDSPInstruction opc)
// s64 acc = dsp_get_long_prod();
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
get_long_prod(tmp1);
// u16 val1 = (sreg == 0) ? dsp_get_ax_l(0) : dsp_get_ax_h(0);
dsp_op_read_reg(DSP_REG_AXL0 + sreg*2, RCX, SIGN);
@ -488,7 +488,7 @@ void DSPEmitter::mulxmv(const UDSPInstruction opc)
{
Update_SR_Register64(tmp1);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
// MULXMV $ax0.S, $ax1.T, $acR
@ -507,7 +507,7 @@ void DSPEmitter::mulxmvz(const UDSPInstruction opc)
// s64 acc = dsp_get_long_prod_round_prodl();
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
get_long_prod_round_prodl(tmp1);
// u16 val1 = (sreg == 0) ? dsp_get_ax_l(0) : dsp_get_ax_h(0);
dsp_op_read_reg(DSP_REG_AXL0 + sreg*2, RCX, SIGN);
@ -525,7 +525,7 @@ void DSPEmitter::mulxmvz(const UDSPInstruction opc)
{
Update_SR_Register64(tmp1);
}
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
//----

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@ -10,7 +10,7 @@
using namespace Gen;
static void* reg_ptr(size_t reg)
static void* GetRegisterPointer(size_t reg)
{
switch (reg)
{
@ -117,7 +117,7 @@ DSPJitRegCache::DSPJitRegCache(DSPEmitter &_emitter)
for (size_t i = 0; i < regs.size(); i++)
{
regs[i].mem = reg_ptr(i);
regs[i].mem = GetRegisterPointer(i);
regs[i].size = 0;
regs[i].dirty = false;
regs[i].used = false;
@ -192,12 +192,12 @@ DSPJitRegCache::~DSPJitRegCache()
_assert_msg_(DSPLLE, !temporary || merged, "temporary cache not merged");
}
void DSPJitRegCache::drop()
void DSPJitRegCache::Drop()
{
merged = true;
}
void DSPJitRegCache::flushRegs(DSPJitRegCache &cache, bool emit)
void DSPJitRegCache::FlushRegs(DSPJitRegCache &cache, bool emit)
{
cache.merged = true;
@ -208,7 +208,7 @@ void DSPJitRegCache::flushRegs(DSPJitRegCache &cache, bool emit)
if (regs[i].loc.IsSimpleReg() &&
!cache.regs[i].loc.IsSimpleReg())
{
movToMemory(i);
MovToMemory(i);
}
}
@ -224,7 +224,7 @@ void DSPJitRegCache::flushRegs(DSPJitRegCache &cache, bool emit)
if (simple_cache != simple && xregs[simple_cache].guest_reg == DSP_REG_NONE)
{
movToHostReg(i, simple_cache, true);
MovToHostReg(i, simple_cache, true);
movcnt++;
}
}
@ -237,7 +237,7 @@ void DSPJitRegCache::flushRegs(DSPJitRegCache &cache, bool emit)
regs[i].loc.GetSimpleReg() &&
regs[i].loc.IsSimpleReg())
{
movToMemory(i);
MovToMemory(i);
}
}
@ -246,8 +246,8 @@ void DSPJitRegCache::flushRegs(DSPJitRegCache &cache, bool emit)
{
if (cache.regs[i].loc.IsSimpleReg())
{
movToHostReg(i, cache.regs[i].loc.GetSimpleReg(), true);
rotateHostReg(i, cache.regs[i].shift, true);
MovToHostReg(i, cache.regs[i].loc.GetSimpleReg(), true);
RotateHostReg(i, cache.regs[i].shift, true);
}
else if (cache.regs[i].loc.IsImm())
{
@ -307,7 +307,7 @@ void DSPJitRegCache::flushRegs(DSPJitRegCache &cache, bool emit)
use_ctr = cache.use_ctr;
}
void DSPJitRegCache::flushMemBackedRegs()
void DSPJitRegCache::FlushMemBackedRegs()
{
// also needs to undo any dynamic changes to static allocated regs
// this should have the same effect as
@ -325,25 +325,25 @@ void DSPJitRegCache::flushMemBackedRegs()
if (regs[i].host_reg != INVALID_REG)
{
movToHostReg(i, regs[i].host_reg, true);
rotateHostReg(i, 0, true);
MovToHostReg(i, regs[i].host_reg, true);
RotateHostReg(i, 0, true);
}
else if (regs[i].parentReg == DSP_REG_NONE)
{
movToMemory(i);
MovToMemory(i);
}
}
}
void DSPJitRegCache::flushRegs()
void DSPJitRegCache::FlushRegs()
{
flushMemBackedRegs();
FlushMemBackedRegs();
for (size_t i = 0; i < regs.size(); i++)
{
if (regs[i].host_reg != INVALID_REG)
{
movToMemory(i);
MovToMemory(i);
}
_assert_msg_(DSPLLE,
@ -405,13 +405,13 @@ void DSPJitRegCache::flushRegs()
static u64 ebp_store;
void DSPJitRegCache::loadRegs(bool emit)
void DSPJitRegCache::LoadRegs(bool emit)
{
for (size_t i = 0; i < regs.size(); i++)
{
if (regs[i].host_reg != INVALID_REG)
{
movToHostReg(i, regs[i].host_reg, emit);
MovToHostReg(i, regs[i].host_reg, emit);
}
}
@ -421,15 +421,15 @@ void DSPJitRegCache::loadRegs(bool emit)
}
}
void DSPJitRegCache::saveRegs()
void DSPJitRegCache::SaveRegs()
{
flushRegs();
FlushRegs();
for (size_t i = 0; i < regs.size(); i++)
{
if (regs[i].host_reg != INVALID_REG)
{
movToMemory(i);
MovToMemory(i);
}
_assert_msg_(DSPLLE,
@ -440,15 +440,15 @@ void DSPJitRegCache::saveRegs()
emitter.MOV(64, R(RBP), M(&ebp_store));
}
void DSPJitRegCache::pushRegs()
void DSPJitRegCache::PushRegs()
{
flushMemBackedRegs();
FlushMemBackedRegs();
for (size_t i = 0; i < regs.size(); i++)
{
if (regs[i].host_reg != INVALID_REG)
{
movToMemory(i);
MovToMemory(i);
}
_assert_msg_(DSPLLE,
@ -487,7 +487,7 @@ void DSPJitRegCache::pushRegs()
emitter.MOV(64, R(RBP), M(&ebp_store));
}
void DSPJitRegCache::popRegs()
void DSPJitRegCache::PopRegs()
{
emitter.MOV(64, M(&ebp_store), R(RBP));
@ -514,12 +514,12 @@ void DSPJitRegCache::popRegs()
{
if (regs[i].host_reg != INVALID_REG)
{
movToHostReg(i, regs[i].host_reg, true);
MovToHostReg(i, regs[i].host_reg, true);
}
}
}
X64Reg DSPJitRegCache::makeABICallSafe(X64Reg reg)
X64Reg DSPJitRegCache::MakeABICallSafe(X64Reg reg)
{
if (reg != RBP)
{
@ -528,7 +528,7 @@ X64Reg DSPJitRegCache::makeABICallSafe(X64Reg reg)
size_t rbp_guest = xregs[RBP].guest_reg;
xregs[RBP].guest_reg = DSP_REG_USED;
X64Reg safe = findSpillFreeXReg();
X64Reg safe = FindSpillFreeXReg();
_assert_msg_(DSPLLE, safe != INVALID_REG, "could not find register");
if (safe == INVALID_REG)
{
@ -539,7 +539,7 @@ X64Reg DSPJitRegCache::makeABICallSafe(X64Reg reg)
return safe;
}
void DSPJitRegCache::movToHostReg(size_t reg, X64Reg host_reg, bool load)
void DSPJitRegCache::MovToHostReg(size_t reg, X64Reg host_reg, bool load)
{
_assert_msg_(DSPLLE, reg < regs.size(),
"bad register name %u", static_cast<u32>(reg));
@ -585,7 +585,7 @@ void DSPJitRegCache::movToHostReg(size_t reg, X64Reg host_reg, bool load)
}
}
void DSPJitRegCache::movToHostReg(size_t reg, bool load)
void DSPJitRegCache::MovToHostReg(size_t reg, bool load)
{
_assert_msg_(DSPLLE, reg < regs.size(),
"bad register name %u", static_cast<u32>(reg));
@ -606,7 +606,7 @@ void DSPJitRegCache::movToHostReg(size_t reg, bool load)
}
else
{
tmp = findSpillFreeXReg();
tmp = FindSpillFreeXReg();
}
if (tmp == INVALID_REG)
@ -614,10 +614,10 @@ void DSPJitRegCache::movToHostReg(size_t reg, bool load)
return;
}
movToHostReg(reg, tmp, load);
MovToHostReg(reg, tmp, load);
}
void DSPJitRegCache::rotateHostReg(size_t reg, int shift, bool emit)
void DSPJitRegCache::RotateHostReg(size_t reg, int shift, bool emit)
{
_assert_msg_(DSPLLE, reg < regs.size(),
"bad register name %u", static_cast<u32>(reg));
@ -661,7 +661,7 @@ void DSPJitRegCache::rotateHostReg(size_t reg, int shift, bool emit)
regs[reg].shift = shift;
}
void DSPJitRegCache::movToMemory(size_t reg)
void DSPJitRegCache::MovToMemory(size_t reg)
{
_assert_msg_(DSPLLE, reg < regs.size(),
"bad register name %u", static_cast<u32>(reg));
@ -684,7 +684,7 @@ void DSPJitRegCache::movToMemory(size_t reg)
//but first, check for any needed rotations
if (regs[reg].loc.IsSimpleReg())
{
rotateHostReg(reg, 0, true);
RotateHostReg(reg, 0, true);
}
else
{
@ -729,7 +729,7 @@ void DSPJitRegCache::movToMemory(size_t reg)
regs[reg].loc = tmp;
}
void DSPJitRegCache::getReg(int reg, OpArg &oparg, bool load)
void DSPJitRegCache::GetReg(int reg, OpArg &oparg, bool load)
{
int real_reg;
int shift;
@ -758,13 +758,13 @@ void DSPJitRegCache::getReg(int reg, OpArg &oparg, bool load)
}
// no need to actually emit code for load or rotate if caller doesn't
// use the contents, but see above for a reason to force the load
movToHostReg(real_reg, load);
MovToHostReg(real_reg, load);
// TODO: actually handle INVALID_REG
_assert_msg_(DSPLLE, regs[real_reg].loc.IsSimpleReg(),
"did not get host reg for %d", reg);
rotateHostReg(real_reg, shift, load);
RotateHostReg(real_reg, shift, load);
oparg = regs[real_reg].loc;
regs[real_reg].used = true;
@ -776,7 +776,7 @@ void DSPJitRegCache::getReg(int reg, OpArg &oparg, bool load)
if (load)
{
// need to do this because interpreter only does 48 bits
// (and putReg does the same)
// (and PutReg does the same)
emitter.SHL(64, oparg, Imm8(64-40)); // sign extend
emitter.SAR(64, oparg, Imm8(64-40));
}
@ -786,7 +786,7 @@ void DSPJitRegCache::getReg(int reg, OpArg &oparg, bool load)
}
}
void DSPJitRegCache::putReg(int reg, bool dirty)
void DSPJitRegCache::PutReg(int reg, bool dirty)
{
int real_reg = reg;
if (regs[reg].parentReg != DSP_REG_NONE)
@ -819,11 +819,11 @@ void DSPJitRegCache::putReg(int reg, bool dirty)
// this works on the memory, so use reg instead
// of real_reg, since it has the right loc
X64Reg tmp;
getFreeXReg(tmp);
GetFreeXReg(tmp);
// sign extend from the bottom 8 bits.
emitter.MOVSX(16, 8, tmp, regs[reg].loc);
emitter.MOV(16, regs[reg].loc, R(tmp));
putXReg(tmp);
PutXReg(tmp);
}
}
break;
@ -849,10 +849,10 @@ void DSPJitRegCache::putReg(int reg, bool dirty)
}
}
void DSPJitRegCache::readReg(int sreg, X64Reg host_dreg, DSPJitSignExtend extend)
void DSPJitRegCache::ReadReg(int sreg, X64Reg host_dreg, DSPJitSignExtend extend)
{
OpArg reg;
getReg(sreg, reg);
GetReg(sreg, reg);
switch (regs[sreg].size)
{
@ -891,13 +891,13 @@ void DSPJitRegCache::readReg(int sreg, X64Reg host_dreg, DSPJitSignExtend extend
_assert_msg_(DSPLLE, 0, "unsupported memory size");
break;
}
putReg(sreg, false);
PutReg(sreg, false);
}
void DSPJitRegCache::writeReg(int dreg, OpArg arg)
void DSPJitRegCache::WriteReg(int dreg, OpArg arg)
{
OpArg reg;
getReg(dreg, reg, false);
GetReg(dreg, reg, false);
if (arg.IsImm())
{
switch (regs[dreg].size)
@ -941,7 +941,7 @@ void DSPJitRegCache::writeReg(int dreg, OpArg arg)
break;
}
}
putReg(dreg, true);
PutReg(dreg, true);
}
//ordered in order of prefered use
@ -950,7 +950,7 @@ static X64Reg alloc_order[] = {
R8,R9,R10,R11,R12,R13,R14,R15,RSI,RDI,RBX,RCX,RDX,RAX,RBP
};
X64Reg DSPJitRegCache::spillXReg()
X64Reg DSPJitRegCache::SpillXReg()
{
int max_use_ctr_diff = 0;
X64Reg least_recent_use_reg = INVALID_REG;
@ -970,7 +970,7 @@ X64Reg DSPJitRegCache::spillXReg()
if (least_recent_use_reg != INVALID_REG)
{
movToMemory(xregs[least_recent_use_reg].guest_reg);
MovToMemory(xregs[least_recent_use_reg].guest_reg);
return least_recent_use_reg;
}
@ -980,7 +980,7 @@ X64Reg DSPJitRegCache::spillXReg()
if (xregs[reg].guest_reg <= DSP_REG_MAX_MEM_BACKED &&
!regs[xregs[reg].guest_reg].used)
{
movToMemory(xregs[reg].guest_reg);
MovToMemory(xregs[reg].guest_reg);
return reg;
}
}
@ -988,7 +988,7 @@ X64Reg DSPJitRegCache::spillXReg()
return INVALID_REG;
}
void DSPJitRegCache::spillXReg(X64Reg reg)
void DSPJitRegCache::SpillXReg(X64Reg reg)
{
if (xregs[reg].guest_reg <= DSP_REG_MAX_MEM_BACKED)
{
@ -996,7 +996,7 @@ void DSPJitRegCache::spillXReg(X64Reg reg)
"to be spilled host reg %x(guest reg %zx) still in use!",
reg, xregs[reg].guest_reg);
movToMemory(xregs[reg].guest_reg);
MovToMemory(xregs[reg].guest_reg);
}
else
{
@ -1006,7 +1006,7 @@ void DSPJitRegCache::spillXReg(X64Reg reg)
}
}
X64Reg DSPJitRegCache::findFreeXReg()
X64Reg DSPJitRegCache::FindFreeXReg()
{
for (X64Reg x : alloc_order)
{
@ -1018,19 +1018,19 @@ X64Reg DSPJitRegCache::findFreeXReg()
return INVALID_REG;
}
X64Reg DSPJitRegCache::findSpillFreeXReg()
X64Reg DSPJitRegCache::FindSpillFreeXReg()
{
X64Reg reg = findFreeXReg();
X64Reg reg = FindFreeXReg();
if (reg == INVALID_REG)
{
reg = spillXReg();
reg = SpillXReg();
}
return reg;
}
void DSPJitRegCache::getFreeXReg(X64Reg &reg)
void DSPJitRegCache::GetFreeXReg(X64Reg &reg)
{
reg = findSpillFreeXReg();
reg = FindSpillFreeXReg();
_assert_msg_(DSPLLE, reg != INVALID_REG, "could not find register");
if (reg == INVALID_REG)
@ -1040,7 +1040,7 @@ void DSPJitRegCache::getFreeXReg(X64Reg &reg)
xregs[reg].guest_reg = DSP_REG_USED;
}
void DSPJitRegCache::getXReg(X64Reg reg)
void DSPJitRegCache::GetXReg(X64Reg reg)
{
if (xregs[reg].guest_reg == DSP_REG_STATIC)
{
@ -1050,13 +1050,13 @@ void DSPJitRegCache::getXReg(X64Reg reg)
if (xregs[reg].guest_reg != DSP_REG_NONE)
{
spillXReg(reg);
SpillXReg(reg);
}
_assert_msg_(DSPLLE, xregs[reg].guest_reg == DSP_REG_NONE, "register already in use");
xregs[reg].guest_reg = DSP_REG_USED;
}
void DSPJitRegCache::putXReg(X64Reg reg)
void DSPJitRegCache::PutXReg(X64Reg reg)
{
if (xregs[reg].guest_reg == DSP_REG_STATIC)
{
@ -1065,7 +1065,7 @@ void DSPJitRegCache::putXReg(X64Reg reg)
}
_assert_msg_(DSPLLE, xregs[reg].guest_reg == DSP_REG_USED,
"putXReg without get(Free)XReg");
"PutXReg without get(Free)XReg");
xregs[reg].guest_reg = DSP_REG_NONE;
}

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@ -70,30 +70,30 @@ private:
int use_ctr;
private:
//find a free host reg
Gen::X64Reg findFreeXReg();
Gen::X64Reg spillXReg();
Gen::X64Reg findSpillFreeXReg();
void spillXReg(Gen::X64Reg reg);
// Find a free host reg
Gen::X64Reg FindFreeXReg();
Gen::X64Reg SpillXReg();
Gen::X64Reg FindSpillFreeXReg();
void SpillXReg(Gen::X64Reg reg);
void movToHostReg(size_t reg, Gen::X64Reg host_reg, bool load);
void movToHostReg(size_t reg, bool load);
void rotateHostReg(size_t reg, int shift, bool emit);
void movToMemory(size_t reg);
void flushMemBackedRegs();
void MovToHostReg(size_t reg, Gen::X64Reg host_reg, bool load);
void MovToHostReg(size_t reg, bool load);
void RotateHostReg(size_t reg, int shift, bool emit);
void MovToMemory(size_t reg);
void FlushMemBackedRegs();
public:
DSPJitRegCache(DSPEmitter &_emitter);
//for branching into multiple control flows
// For branching into multiple control flows
DSPJitRegCache(const DSPJitRegCache &cache);
DSPJitRegCache& operator=(const DSPJitRegCache &cache);
~DSPJitRegCache();
//merge must be done _before_ leaving the code branch, so we can fix
// Merge must be done _before_ leaving the code branch, so we can fix
// up any differences in state
void flushRegs(DSPJitRegCache &cache, bool emit = true);
void FlushRegs(DSPJitRegCache &cache, bool emit = true);
/* since some use cases are non-trivial, some examples:
//this does not modify the final state of gpr
@ -101,7 +101,7 @@ public:
FixupBranch b = JCC();
DSPJitRegCache c = gpr;
<code using c>
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetBranchTarget(b);
<code using gpr>
@ -110,11 +110,11 @@ public:
DSPJitRegCache c = gpr;
FixupBranch b1 = JCC();
<code using gpr>
gpr.flushRegs(c);
gpr.FlushRegs(c);
FixupBranch b2 = JMP();
SetBranchTarget(b1);
<code using gpr>
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetBranchTarget(b2);
<code using gpr>
@ -127,7 +127,7 @@ public:
FixupBranch b2 = JMP();
SetBranchTarget(b1);
<code using gpr>
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetBranchTarget(b2);
<code using gpr>
@ -136,43 +136,44 @@ public:
u8* b = GetCodePtr();
DSPJitRegCache c = gpr;
<code using gpr>
gpr.flushRegs(c);
gpr.FlushRegs(c);
JCC(b);
<code using gpr>
this all is not needed when gpr would not be used at all in the
conditional branch
*/
//drop this copy without warning
void drop();
//prepare state so that another flushed DSPJitRegCache can take over
void flushRegs();
// Drop this copy without warning
void Drop();
void loadRegs(bool emit=true);//load statically allocated regs from memory
void saveRegs();//save statically allocated regs to memory
// Prepare state so that another flushed DSPJitRegCache can take over
void FlushRegs();
void pushRegs();//save registers before abi call
void popRegs();//restore registers after abi call
void LoadRegs(bool emit = true);// Load statically allocated regs from memory
void SaveRegs(); // Save statically allocated regs to memory
//returns a register with the same contents as reg that is safe
void PushRegs();// Save registers before ABI call
void PopRegs(); // Restore registers after ABI call
// Returns a register with the same contents as reg that is safe
// to use through saveStaticRegs and for ABI-calls
Gen::X64Reg makeABICallSafe(Gen::X64Reg reg);
Gen::X64Reg MakeABICallSafe(Gen::X64Reg reg);
//gives no SCALE_RIP with abs(offset) >= 0x80000000
// Gives no SCALE_RIP with abs(offset) >= 0x80000000
// 32/64 bit writes allowed when the register has a _64 or _32 suffix
// only 16 bit writes allowed without any suffix.
void getReg(int reg, Gen::OpArg &oparg, bool load = true);
//done with all usages of OpArg above
void putReg(int reg, bool dirty = true);
void GetReg(int reg, Gen::OpArg &oparg, bool load = true);
// Done with all usages of OpArg above
void PutReg(int reg, bool dirty = true);
void readReg(int sreg, Gen::X64Reg host_dreg, DSPJitSignExtend extend);
void writeReg(int dreg, Gen::OpArg arg);
void ReadReg(int sreg, Gen::X64Reg host_dreg, DSPJitSignExtend extend);
void WriteReg(int dreg, Gen::OpArg arg);
//find a free host reg, spill if used, reserve
void getFreeXReg(Gen::X64Reg &reg);
//spill a specific host reg if used, reserve
void getXReg(Gen::X64Reg reg);
//unreserve the given host reg
void putXReg(Gen::X64Reg reg);
// Find a free host reg, spill if used, reserve
void GetFreeXReg(Gen::X64Reg &reg);
// Spill a specific host reg if used, reserve
void GetXReg(Gen::X64Reg reg);
// Unreserve the given host reg
void PutXReg(Gen::X64Reg reg);
};

View File

@ -21,13 +21,13 @@ void DSPEmitter::dsp_reg_stack_push(int stack_reg)
MOV(8, M(&g_dsp.reg_stack_ptr[stack_reg]), R(AL));
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
//g_dsp.reg_stack[stack_reg][g_dsp.reg_stack_ptr[stack_reg]] = g_dsp.r[DSP_REG_ST0 + stack_reg];
MOV(16, R(tmp1), M(&g_dsp.r.st[stack_reg]));
MOVZX(64, 8, RAX, R(AL));
MOV(16, MComplex(EAX, EAX, 1,
PtrOffset(&g_dsp.reg_stack[stack_reg][0],nullptr)), R(tmp1));
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
}
//clobbers:
@ -38,12 +38,12 @@ void DSPEmitter::dsp_reg_stack_pop(int stack_reg)
//g_dsp.r[DSP_REG_ST0 + stack_reg] = g_dsp.reg_stack[stack_reg][g_dsp.reg_stack_ptr[stack_reg]];
MOV(8, R(AL), M(&g_dsp.reg_stack_ptr[stack_reg]));
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
MOVZX(64, 8, RAX, R(AL));
MOV(16, R(tmp1), MComplex(EAX, EAX, 1,
PtrOffset(&g_dsp.reg_stack[stack_reg][0],nullptr)));
MOV(16, M(&g_dsp.r.st[stack_reg]), R(tmp1));
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
//g_dsp.reg_stack_ptr[stack_reg]--;
//g_dsp.reg_stack_ptr[stack_reg] &= DSP_STACK_MASK;
@ -89,7 +89,7 @@ void DSPEmitter::dsp_op_write_reg(int reg, Gen::X64Reg host_sreg)
// 8-bit sign extended registers.
case DSP_REG_ACH0:
case DSP_REG_ACH1:
gpr.writeReg(reg, R(host_sreg));
gpr.WriteReg(reg, R(host_sreg));
break;
// Stack registers.
@ -101,7 +101,7 @@ void DSPEmitter::dsp_op_write_reg(int reg, Gen::X64Reg host_sreg)
break;
default:
gpr.writeReg(reg, R(host_sreg));
gpr.WriteReg(reg, R(host_sreg));
break;
}
}
@ -113,7 +113,7 @@ void DSPEmitter::dsp_op_write_reg_imm(int reg, u16 val)
// 8-bit sign extended registers. Should look at prod.h too...
case DSP_REG_ACH0:
case DSP_REG_ACH1:
gpr.writeReg(reg, Imm16((u16)(s16)(s8)(u8)val));
gpr.WriteReg(reg, Imm16((u16)(s16)(s8)(u8)val));
break;
// Stack registers.
case DSP_REG_ST0:
@ -124,7 +124,7 @@ void DSPEmitter::dsp_op_write_reg_imm(int reg, u16 val)
break;
default:
gpr.writeReg(reg, Imm16(val));
gpr.WriteReg(reg, Imm16(val));
break;
}
}
@ -137,7 +137,7 @@ void DSPEmitter::dsp_conditional_extend_accum(int reg)
case DSP_REG_ACM1:
{
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
DSPJitRegCache c(gpr);
TEST(16, sr_reg, Imm16(SR_40_MODE_BIT));
FixupBranch not_40bit = J_CC(CC_Z,true);
@ -152,9 +152,9 @@ void DSPEmitter::dsp_conditional_extend_accum(int reg)
set_acc_h(reg - DSP_REG_ACM0, R(RAX));
set_acc_l(reg - DSP_REG_ACM0, Imm16(0));
//}
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(not_40bit);
gpr.putReg(DSP_REG_SR, false);
gpr.PutReg(DSP_REG_SR, false);
}
}
}
@ -167,7 +167,7 @@ void DSPEmitter::dsp_conditional_extend_accum_imm(int reg, u16 val)
case DSP_REG_ACM1:
{
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
DSPJitRegCache c(gpr);
TEST(16, sr_reg, Imm16(SR_40_MODE_BIT));
FixupBranch not_40bit = J_CC(CC_Z, true);
@ -179,9 +179,9 @@ void DSPEmitter::dsp_conditional_extend_accum_imm(int reg, u16 val)
set_acc_h(reg - DSP_REG_ACM0, Imm16((val & 0x8000)?0xffff:0x0000));
set_acc_l(reg - DSP_REG_ACM0, Imm16(0));
//}
gpr.flushRegs(c);
gpr.FlushRegs(c);
SetJumpTarget(not_40bit);
gpr.putReg(DSP_REG_SR, false);
gpr.PutReg(DSP_REG_SR, false);
}
}
}
@ -209,7 +209,7 @@ void DSPEmitter::dsp_op_read_reg_dont_saturate(int reg, Gen::X64Reg host_dreg, D
}
return;
default:
gpr.readReg(reg, host_dreg, extend);
gpr.ReadReg(reg, host_dreg, extend);
return;
}
}
@ -241,9 +241,9 @@ void DSPEmitter::dsp_op_read_reg(int reg, Gen::X64Reg host_dreg, DSPJitSignExten
{
//we already know this is ACCM0 or ACCM1
OpArg acc_reg;
gpr.getReg(reg-DSP_REG_ACM0+DSP_REG_ACC0_64, acc_reg);
gpr.GetReg(reg-DSP_REG_ACM0+DSP_REG_ACC0_64, acc_reg);
OpArg sr_reg;
gpr.getReg(DSP_REG_SR,sr_reg);
gpr.GetReg(DSP_REG_SR,sr_reg);
DSPJitRegCache c(gpr);
TEST(16, sr_reg, Imm16(SR_40_MODE_BIT));
@ -276,14 +276,14 @@ void DSPEmitter::dsp_op_read_reg(int reg, Gen::X64Reg host_dreg, DSPJitSignExten
SAR(64, R(host_dreg), Imm8(16));
SetJumpTarget(done_positive);
SetJumpTarget(done_negative);
gpr.flushRegs(c);
gpr.putReg(reg-DSP_REG_ACM0+DSP_REG_ACC0_64, false);
gpr.FlushRegs(c);
gpr.PutReg(reg-DSP_REG_ACM0+DSP_REG_ACC0_64, false);
gpr.putReg(DSP_REG_SR, false);
gpr.PutReg(DSP_REG_SR, false);
}
return;
default:
gpr.readReg(reg, host_dreg, extend);
gpr.ReadReg(reg, host_dreg, extend);
return;
}
}
@ -304,13 +304,13 @@ void DSPEmitter::increment_addr_reg(int reg)
{
OpArg ar_reg;
OpArg wr_reg;
gpr.getReg(DSP_REG_WR0+reg,wr_reg);
gpr.GetReg(DSP_REG_WR0+reg,wr_reg);
MOVZX(32, 16, EDX, wr_reg);
gpr.putReg(DSP_REG_WR0+reg, false);
gpr.getReg(DSP_REG_AR0+reg,ar_reg);
gpr.PutReg(DSP_REG_WR0+reg, false);
gpr.GetReg(DSP_REG_AR0+reg,ar_reg);
MOVZX(32, 16, EAX, ar_reg);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
//u32 nar = ar + 1;
MOV(32, R(tmp1), R(EAX));
ADD(32, R(EAX), Imm8(1));
@ -325,11 +325,11 @@ void DSPEmitter::increment_addr_reg(int reg)
SUB(16, R(AX), R(DX));
SUB(16, R(AX), Imm8(1));
SetJumpTarget(nowrap);
gpr.putXReg(tmp1);
gpr.PutXReg(tmp1);
// g_dsp.r.ar[reg] = nar;
MOV(16, ar_reg, R(AX));
gpr.putReg(DSP_REG_AR0+reg);
gpr.PutReg(DSP_REG_AR0+reg);
}
// EAX = g_dsp.r.ar[reg]
@ -338,14 +338,14 @@ void DSPEmitter::decrement_addr_reg(int reg)
{
OpArg ar_reg;
OpArg wr_reg;
gpr.getReg(DSP_REG_WR0+reg,wr_reg);
gpr.GetReg(DSP_REG_WR0+reg,wr_reg);
MOVZX(32, 16, EDX, wr_reg);
gpr.putReg(DSP_REG_WR0+reg, false);
gpr.getReg(DSP_REG_AR0+reg,ar_reg);
gpr.PutReg(DSP_REG_WR0+reg, false);
gpr.GetReg(DSP_REG_AR0+reg,ar_reg);
MOVZX(32, 16, EAX, ar_reg);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
// u32 nar = ar + wr;
// edi = nar
LEA(32, tmp1, MRegSum(EAX, EDX));
@ -364,8 +364,8 @@ void DSPEmitter::decrement_addr_reg(int reg)
// g_dsp.r.ar[reg] = nar;
MOV(16, ar_reg, R(tmp1));
gpr.putReg(DSP_REG_AR0+reg);
gpr.putXReg(tmp1);
gpr.PutReg(DSP_REG_AR0+reg);
gpr.PutXReg(tmp1);
}
// Increase addr register according to the correspond ix register
@ -377,17 +377,17 @@ void DSPEmitter::increase_addr_reg(int reg, int _ix_reg)
OpArg ar_reg;
OpArg wr_reg;
OpArg ix_reg;
gpr.getReg(DSP_REG_WR0+reg,wr_reg);
gpr.GetReg(DSP_REG_WR0+reg,wr_reg);
MOVZX(32, 16, EDX, wr_reg);
gpr.putReg(DSP_REG_WR0+reg, false);
gpr.getReg(DSP_REG_IX0+_ix_reg,ix_reg);
gpr.PutReg(DSP_REG_WR0+reg, false);
gpr.GetReg(DSP_REG_IX0+_ix_reg,ix_reg);
MOVSX(32, 16, ECX, ix_reg);
gpr.putReg(DSP_REG_IX0+_ix_reg, false);
gpr.getReg(DSP_REG_AR0+reg,ar_reg);
gpr.PutReg(DSP_REG_IX0+_ix_reg, false);
gpr.GetReg(DSP_REG_AR0+reg,ar_reg);
MOVZX(32, 16, EAX, ar_reg);
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
//u32 nar = ar + ix;
//edi = nar
LEA(32, tmp1, MRegSum(EAX, ECX));
@ -433,8 +433,8 @@ void DSPEmitter::increase_addr_reg(int reg, int _ix_reg)
// g_dsp.r.ar[reg] = nar;
MOV(16, ar_reg, R(tmp1));
gpr.putReg(DSP_REG_AR0+reg);
gpr.putXReg(tmp1);
gpr.PutReg(DSP_REG_AR0+reg);
gpr.PutXReg(tmp1);
}
// Decrease addr register according to the correspond ix register
@ -446,19 +446,19 @@ void DSPEmitter::decrease_addr_reg(int reg)
OpArg ar_reg;
OpArg wr_reg;
OpArg ix_reg;
gpr.getReg(DSP_REG_WR0+reg,wr_reg);
gpr.GetReg(DSP_REG_WR0+reg,wr_reg);
MOVZX(32, 16, EDX, wr_reg);
gpr.putReg(DSP_REG_WR0+reg, false);
gpr.getReg(DSP_REG_IX0+reg,ix_reg);
gpr.PutReg(DSP_REG_WR0+reg, false);
gpr.GetReg(DSP_REG_IX0+reg,ix_reg);
MOVSX(32, 16, ECX, ix_reg);
gpr.putReg(DSP_REG_IX0+reg, false);
gpr.getReg(DSP_REG_AR0+reg,ar_reg);
gpr.PutReg(DSP_REG_IX0+reg, false);
gpr.GetReg(DSP_REG_AR0+reg,ar_reg);
MOVZX(32, 16, EAX, ar_reg);
NOT(32, R(ECX)); //esi = ~ix
X64Reg tmp1;
gpr.getFreeXReg(tmp1);
gpr.GetFreeXReg(tmp1);
//u32 nar = ar - ix; (ar + ~ix + 1)
LEA(32, tmp1, MComplex(EAX, ECX, 1, 1));
@ -503,8 +503,8 @@ void DSPEmitter::decrease_addr_reg(int reg)
//return nar
MOV(16, ar_reg, R(tmp1));
gpr.putReg(DSP_REG_AR0+reg);
gpr.putXReg(tmp1);
gpr.PutReg(DSP_REG_AR0+reg);
gpr.PutXReg(tmp1);
}
@ -526,11 +526,11 @@ void DSPEmitter::dmem_write(X64Reg value)
SetJumpTarget(ifx);
// Does it mean gdsp_ifx_write needs u32 rather than u16?
DSPJitRegCache c(gpr);
X64Reg abisafereg = gpr.makeABICallSafe(value);
gpr.pushRegs();
X64Reg abisafereg = gpr.MakeABICallSafe(value);
gpr.PushRegs();
ABI_CallFunctionRR((void *)gdsp_ifx_write, EAX, abisafereg);
gpr.popRegs();
gpr.flushRegs(c);
gpr.PopRegs();
gpr.FlushRegs(c);
SetJumpTarget(end);
}
@ -546,10 +546,10 @@ void DSPEmitter::dmem_write_imm(u16 address, X64Reg value)
case 0xf: // Fxxx HW regs
{
MOV(16, R(EAX), Imm16(address));
X64Reg abisafereg = gpr.makeABICallSafe(value);
gpr.pushRegs();
X64Reg abisafereg = gpr.MakeABICallSafe(value);
gpr.PushRegs();
ABI_CallFunctionRR((void *)gdsp_ifx_write, EAX, abisafereg);
gpr.popRegs();
gpr.PopRegs();
break;
}
default: // Unmapped/non-existing memory
@ -613,11 +613,11 @@ void DSPEmitter::dmem_read(X64Reg address)
// else if (saddr == 0xf)
// return gdsp_ifx_read(addr);
DSPJitRegCache c(gpr);
X64Reg abisafereg = gpr.makeABICallSafe(address);
gpr.pushRegs();
X64Reg abisafereg = gpr.MakeABICallSafe(address);
gpr.PushRegs();
ABI_CallFunctionR((void *)gdsp_ifx_read, abisafereg);
gpr.popRegs();
gpr.flushRegs(c);
gpr.PopRegs();
gpr.FlushRegs(c);
SetJumpTarget(end);
SetJumpTarget(end2);
}
@ -638,9 +638,9 @@ void DSPEmitter::dmem_read_imm(u16 address)
case 0xf: // Fxxx HW regs
{
gpr.pushRegs();
gpr.PushRegs();
ABI_CallFunctionC16((void *)gdsp_ifx_read, address);
gpr.popRegs();
gpr.PopRegs();
break;
}
default: // Unmapped/non-existing memory
@ -654,19 +654,19 @@ void DSPEmitter::get_long_prod(X64Reg long_prod)
{
//s64 val = (s8)(u8)g_dsp.r[DSP_REG_PRODH];
OpArg prod_reg;
gpr.getReg(DSP_REG_PROD_64, prod_reg);
gpr.GetReg(DSP_REG_PROD_64, prod_reg);
MOV(64, R(long_prod), prod_reg);
gpr.putReg(DSP_REG_PROD_64, false);
gpr.PutReg(DSP_REG_PROD_64, false);
//no use in keeping prod_reg any longer.
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
MOV(64, R(tmp), R(long_prod));
SHL(64, R(long_prod), Imm8(64-40));//sign extend
SAR(64, R(long_prod), Imm8(64-40));
SHR(64, R(tmp), Imm8(48));
SHL(64, R(tmp), Imm8(16));
ADD(64, R(long_prod), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
}
// Returns s64 in RAX
@ -677,7 +677,7 @@ void DSPEmitter::get_long_prod_round_prodl(X64Reg long_prod)
get_long_prod(long_prod);
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
//if (prod & 0x10000) prod = (prod + 0x8000) & ~0xffff;
TEST(32, R(long_prod), Imm32(0x10000));
FixupBranch jump = J_CC(CC_Z);
@ -692,7 +692,7 @@ void DSPEmitter::get_long_prod_round_prodl(X64Reg long_prod)
AND(64, R(long_prod), R(tmp));
SetJumpTarget(_ret);
//return prod;
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
}
// For accurate emulation, this is wrong - but the real prod registers behave
@ -701,17 +701,17 @@ void DSPEmitter::get_long_prod_round_prodl(X64Reg long_prod)
void DSPEmitter::set_long_prod()
{
X64Reg tmp;
gpr.getFreeXReg(tmp);
gpr.GetFreeXReg(tmp);
MOV(64, R(tmp), Imm64(0x000000ffffffffffULL));
AND(64, R(RAX), R(tmp));
gpr.putXReg(tmp);
gpr.PutXReg(tmp);
OpArg prod_reg;
gpr.getReg(DSP_REG_PROD_64, prod_reg, false);
gpr.GetReg(DSP_REG_PROD_64, prod_reg, false);
// g_dsp.r[DSP_REG_PRODL] = (u16)val;
MOV(64, prod_reg, R(RAX));
gpr.putReg(DSP_REG_PROD_64, true);
gpr.PutReg(DSP_REG_PROD_64, true);
}
// Returns s64 in RAX
@ -738,80 +738,80 @@ void DSPEmitter::round_long_acc(X64Reg long_acc)
void DSPEmitter::get_long_acc(int _reg, X64Reg acc)
{
OpArg reg;
gpr.getReg(DSP_REG_ACC0_64+_reg, reg);
gpr.GetReg(DSP_REG_ACC0_64+_reg, reg);
MOV(64, R(acc), reg);
gpr.putReg(DSP_REG_ACC0_64+_reg, false);
gpr.PutReg(DSP_REG_ACC0_64+_reg, false);
}
// In: acc = s64 val
void DSPEmitter::set_long_acc(int _reg, X64Reg acc)
{
OpArg reg;
gpr.getReg(DSP_REG_ACC0_64+_reg, reg, false);
gpr.GetReg(DSP_REG_ACC0_64+_reg, reg, false);
MOV(64, reg, R(acc));
gpr.putReg(DSP_REG_ACC0_64+_reg);
gpr.PutReg(DSP_REG_ACC0_64+_reg);
}
// Returns s16 in AX
void DSPEmitter::get_acc_l(int _reg, X64Reg acl, bool sign)
{
// return g_dsp.r[DSP_REG_ACM0 + _reg];
gpr.readReg(_reg+DSP_REG_ACL0, acl, sign?SIGN:ZERO);
gpr.ReadReg(_reg+DSP_REG_ACL0, acl, sign?SIGN:ZERO);
}
void DSPEmitter::set_acc_l(int _reg, const OpArg& arg)
{
// return g_dsp.r[DSP_REG_ACM0 + _reg];
gpr.writeReg(_reg+DSP_REG_ACL0,arg);
gpr.WriteReg(_reg+DSP_REG_ACL0,arg);
}
// Returns s16 in AX
void DSPEmitter::get_acc_m(int _reg, X64Reg acm, bool sign)
{
// return g_dsp.r[DSP_REG_ACM0 + _reg];
gpr.readReg(_reg+DSP_REG_ACM0, acm, sign?SIGN:ZERO);
gpr.ReadReg(_reg+DSP_REG_ACM0, acm, sign?SIGN:ZERO);
}
// In: s16 in AX
void DSPEmitter::set_acc_m(int _reg, const OpArg& arg)
{
// return g_dsp.r.ac[_reg].m;
gpr.writeReg(_reg+DSP_REG_ACM0,arg);
gpr.WriteReg(_reg+DSP_REG_ACM0,arg);
}
// Returns s16 in AX
void DSPEmitter::get_acc_h(int _reg, X64Reg ach, bool sign)
{
// return g_dsp.r.ac[_reg].h;
gpr.readReg(_reg+DSP_REG_ACH0, ach, sign?SIGN:ZERO);
gpr.ReadReg(_reg+DSP_REG_ACH0, ach, sign?SIGN:ZERO);
}
// In: s16 in AX
void DSPEmitter::set_acc_h(int _reg, const OpArg& arg)
{
// return g_dsp.r[DSP_REG_ACM0 + _reg];
gpr.writeReg(_reg+DSP_REG_ACH0,arg);
gpr.WriteReg(_reg+DSP_REG_ACH0,arg);
}
// Returns u32 in EAX
void DSPEmitter::get_long_acx(int _reg, X64Reg acx)
{
// return ((u32)g_dsp.r[DSP_REG_AXH0 + _reg] << 16) | g_dsp.r[DSP_REG_AXL0 + _reg];
gpr.readReg(_reg+DSP_REG_AX0_32, acx, SIGN);
gpr.ReadReg(_reg+DSP_REG_AX0_32, acx, SIGN);
}
// Returns s16 in EAX
void DSPEmitter::get_ax_l(int _reg, X64Reg axl)
{
// return (s16)g_dsp.r[DSP_REG_AXL0 + _reg];
gpr.readReg(_reg+DSP_REG_AXL0, axl, SIGN);
gpr.ReadReg(_reg+DSP_REG_AXL0, axl, SIGN);
}
// Returns s16 in EAX
void DSPEmitter::get_ax_h(int _reg, X64Reg axh)
{
// return (s16)g_dsp.r[DSP_REG_AXH0 + _reg];
gpr.readReg(_reg+DSP_REG_AXH0, axh, SIGN);
gpr.ReadReg(_reg+DSP_REG_AXH0, axh, SIGN);
}