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Optimize right shift of byte values with variable shift distance

This commit is contained in:
drmortalwombat 2023-05-16 19:07:59 +02:00
parent 5b9f865a9d
commit d4caa6bb71
3 changed files with 364 additions and 244 deletions
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7
oscar64/InterCode.cpp
View File

@ -2804,6 +2804,13 @@ bool InterOperand::IsPositive(void) const
return mRange.mMinState == IntegerValueRange::S_BOUND && mRange.mMinValue >= 0;
}
bool InterOperand::IsInRange(int lower, int upper) const
{
return
mRange.mMinState == IntegerValueRange::S_BOUND && mRange.mMinValue >= lower &&
mRange.mMaxState == IntegerValueRange::S_BOUND && mRange.mMaxValue <= upper;
}
bool InterOperand::IsUnsigned(void) const
{
if (mRange.mMinState == IntegerValueRange::S_BOUND && mRange.mMinValue >= 0 && mRange.mMaxState == IntegerValueRange::S_BOUND)

1
oscar64/InterCode.h
View File

@ -277,6 +277,7 @@ public:
bool IsSByte(void) const;
bool IsUnsigned(void) const;
bool IsPositive(void) const;
bool IsInRange(int lower, int upper) const;
bool IsNotUByte(void) const;

600
oscar64/NativeCodeGenerator.cpp
View File

@ -9842,6 +9842,40 @@ NativeCodeBasicBlock* NativeCodeBasicBlock::BinaryOperator(InterCodeProcedure* p
mIns.Push(NativeCodeInstruction(ins, ASMIT_STA, ASMIM_ZERO_PAGE, treg + 1));
}
}
else if (ins->mSrc[1].IsUByte())
{
NativeCodeBasicBlock* lblock = nproc->AllocateBlock();
NativeCodeBasicBlock* eblock = nproc->AllocateBlock();
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_ZERO_PAGE, BC_REG_TMP + proc->mTempOffset[ins->mSrc[0].mTemp]));
if (!ins->mSrc[0].IsUByte() || ins->mSrc[0].mRange.mMaxValue > 15)
mIns.Push(NativeCodeInstruction(ins, ASMIT_AND, ASMIM_IMMEDIATE, 0x0f));
mIns.Push(NativeCodeInstruction(ins, ASMIT_TAX, ASMIM_IMPLIED));
if (ins->mSrc[1].mTemp < 0)
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_IMMEDIATE, ins->mSrc[1].mIntConst & 0xff));
else if (ins->mSrc[1].mTemp != ins->mDst.mTemp)
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_ZERO_PAGE, BC_REG_TMP + proc->mTempOffset[ins->mSrc[1].mTemp]));
else
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_ZERO_PAGE, treg));
if (ins->mSrc[0].IsInRange(1, 15))
this->Close(ins, lblock, nullptr, ASMIT_JMP);
else
{
mIns.Push(NativeCodeInstruction(ins, ASMIT_CPX, ASMIM_IMMEDIATE, 0x00));
this->Close(ins, lblock, eblock, ASMIT_BNE);
}
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_LSR, ASMIM_IMPLIED));
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_DEX, ASMIM_IMPLIED));
lblock->Close(ins, lblock, eblock, ASMIT_BNE);
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_STA, ASMIM_ZERO_PAGE, treg));
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_IMMEDIATE, 0));
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_STA, ASMIM_ZERO_PAGE, treg + 1));
return eblock;
}
else
{
NativeCodeBasicBlock* lblock = nproc->AllocateBlock();
@ -9869,8 +9903,13 @@ NativeCodeBasicBlock* NativeCodeBasicBlock::BinaryOperator(InterCodeProcedure* p
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_ZERO_PAGE, treg + 1));
}
mIns.Push(NativeCodeInstruction(ins, ASMIT_CPX, ASMIM_IMMEDIATE, 0x00));
this->Close(ins, lblock, eblock, ASMIT_BNE);
if (ins->mSrc[0].IsInRange(1, 15))
this->Close(ins, lblock, nullptr, ASMIT_JMP);
else
{
mIns.Push(NativeCodeInstruction(ins, ASMIT_CPX, ASMIM_IMMEDIATE, 0x00));
this->Close(ins, lblock, eblock, ASMIT_BNE);
}
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_LSR, ASMIM_IMPLIED));
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_ROR, ASMIM_ZERO_PAGE, treg + 0));
@ -10143,8 +10182,13 @@ NativeCodeBasicBlock* NativeCodeBasicBlock::BinaryOperator(InterCodeProcedure* p
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_ZERO_PAGE, treg));
}
mIns.Push(NativeCodeInstruction(ins, ASMIT_CPX, ASMIM_IMMEDIATE, 0x00));
this->Close(ins, lblock, eblock, ASMIT_BNE);
if (ins->mSrc[0].IsInRange(1, 15))
this->Close(ins, lblock, nullptr, ASMIT_JMP);
else
{
mIns.Push(NativeCodeInstruction(ins, ASMIT_CPX, ASMIM_IMMEDIATE, 0x00));
this->Close(ins, lblock, eblock, ASMIT_BNE);
}
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_LSR, ASMIM_IMPLIED));
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_DEX, ASMIM_IMPLIED));
@ -10154,6 +10198,46 @@ NativeCodeBasicBlock* NativeCodeBasicBlock::BinaryOperator(InterCodeProcedure* p
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_IMMEDIATE, 0x00));
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_STA, ASMIM_ZERO_PAGE, treg + 1));
}
else if (ins->mSrc[1].IsSByte())
{
if (ins->mSrc[1].mTemp < 0)
{
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_IMMEDIATE, ins->mSrc[1].mIntConst & 0xff));
}
else if (ins->mSrc[1].mTemp != ins->mDst.mTemp)
{
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_ZERO_PAGE, BC_REG_TMP + proc->mTempOffset[ins->mSrc[1].mTemp]));
}
else
{
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_ZERO_PAGE, treg));
}
if (ins->mSrc[0].IsInRange(1, 15))
this->Close(ins, lblock, nullptr, ASMIT_JMP);
else
{
mIns.Push(NativeCodeInstruction(ins, ASMIT_CPX, ASMIM_IMMEDIATE, 0x00));
this->Close(ins, lblock, eblock, ASMIT_BNE);
}
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_CMP, ASMIM_IMMEDIATE, 0x80));
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_ROR, ASMIM_IMPLIED));
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_DEX, ASMIM_IMPLIED));
lblock->Close(ins, lblock, eblock, ASMIT_BNE);
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_STA, ASMIM_ZERO_PAGE, treg));
if (ins->mSrc[1].mTemp < 0)
{
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_IMMEDIATE, (ins->mSrc[1].mIntConst >> 8) & 0xff));
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_STA, ASMIM_ZERO_PAGE, treg + 1));
}
else if (ins->mSrc[1].mTemp != ins->mDst.mTemp)
{
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_ZERO_PAGE, BC_REG_TMP + proc->mTempOffset[ins->mSrc[1].mTemp] + 1));
eblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_STA, ASMIM_ZERO_PAGE, treg + 1));
}
}
else
{
if (ins->mSrc[1].mTemp < 0)
@ -10173,8 +10257,13 @@ NativeCodeBasicBlock* NativeCodeBasicBlock::BinaryOperator(InterCodeProcedure* p
mIns.Push(NativeCodeInstruction(ins, ASMIT_LDA, ASMIM_ZERO_PAGE, treg + 1));
}
mIns.Push(NativeCodeInstruction(ins, ASMIT_CPX, ASMIM_IMMEDIATE, 0x00));
this->Close(ins, lblock, eblock, ASMIT_BNE);
if (ins->mSrc[0].IsInRange(1, 15))
this->Close(ins, lblock, nullptr, ASMIT_JMP);
else
{
mIns.Push(NativeCodeInstruction(ins, ASMIT_CPX, ASMIM_IMMEDIATE, 0x00));
this->Close(ins, lblock, eblock, ASMIT_BNE);
}
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_CMP, ASMIM_IMMEDIATE, 0x80));
lblock->mIns.Push(NativeCodeInstruction(ins, ASMIT_ROR, ASMIM_IMPLIED));
@ -19204,7 +19293,7 @@ bool NativeCodeBasicBlock::JoinTailCodeSequences(NativeCodeProcedure* proc, bool
if (mTrueJump->mEntryRequiredRegs[ins.mAddress] && !mFalseJump->mEntryRequiredRegs[ins.mAddress] && mTrueJump->mEntryBlocks.Size() == 1)
{
mTrueJump->mIns.Insert(0, ins);
mTrueJump->mIns[0].mLive |= LIVE_CPU_REG_C;
mTrueJump->mIns[0].mLive |= LIVE_CPU_REG_C | mIns[ns - 1].mLive;
mIns.Remove(ns - 2);
mTrueJump->mEntryRequiredRegs += CPU_REG_A;
mTrueJump->CheckLive();
@ -19213,7 +19302,7 @@ bool NativeCodeBasicBlock::JoinTailCodeSequences(NativeCodeProcedure* proc, bool
else if (mFalseJump->mEntryRequiredRegs[ins.mAddress] && !mTrueJump->mEntryRequiredRegs[ins.mAddress] && mFalseJump->mEntryBlocks.Size() == 1)
{
mFalseJump->mIns.Insert(0, ins);
mFalseJump->mIns[0].mLive |= LIVE_CPU_REG_C;
mFalseJump->mIns[0].mLive |= LIVE_CPU_REG_C | mIns[ns - 1].mLive;
mIns.Remove(ns - 2);
mFalseJump->mEntryRequiredRegs += CPU_REG_A;
mFalseJump->CheckLive();
@ -26894,277 +26983,280 @@ bool NativeCodeBasicBlock::ValueForwarding(NativeCodeProcedure* proc, const Nati
}
#if 1
NativeCodeBasicBlock* fork = this;
if (!mFalseJump && mTrueJump && mTrueJump->mIns.Size() == 0)
fork = mTrueJump;
if (fork->mFalseJump)
if (global)
{
mFDataSet = mNDataSet;
NativeCodeBasicBlock* fork = this;
if (!mFalseJump && mTrueJump && mTrueJump->mIns.Size() == 0)
fork = mTrueJump;
switch (fork->mBranch)
if (fork->mFalseJump)
{
case ASMIT_BCS:
if (mNDataSet.mRegs[CPU_REG_C].mMode == NRDM_IMMEDIATE)
{
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if (!mNDataSet.mRegs[CPU_REG_C].mValue)
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
break;
case ASMIT_BCC:
if (mNDataSet.mRegs[CPU_REG_C].mMode == NRDM_IMMEDIATE)
{
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if (mNDataSet.mRegs[CPU_REG_C].mValue)
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
break;
case ASMIT_BNE:
if (mNDataSet.mRegs[CPU_REG_Z].mMode == NRDM_IMMEDIATE)
{
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if (!mNDataSet.mRegs[CPU_REG_Z].mValue)
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
else if (global && mIns.Size() > 0 && fork == this)
{
NativeCodeInstruction& lins(mIns[mIns.Size() - 1]);
mFDataSet = mNDataSet;
if (lins.mType == ASMIT_LDY)
switch (fork->mBranch)
{
case ASMIT_BCS:
if (mNDataSet.mRegs[CPU_REG_C].mMode == NRDM_IMMEDIATE)
{
mFDataSet.mRegs[CPU_REG_Y].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_Y].mValue = 0;
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if (!mNDataSet.mRegs[CPU_REG_C].mValue)
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
break;
case ASMIT_BCC:
if (mNDataSet.mRegs[CPU_REG_C].mMode == NRDM_IMMEDIATE)
{
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if (mNDataSet.mRegs[CPU_REG_C].mValue)
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
break;
case ASMIT_BNE:
if (mNDataSet.mRegs[CPU_REG_Z].mMode == NRDM_IMMEDIATE)
{
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if (!mNDataSet.mRegs[CPU_REG_Z].mValue)
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
else if (global && mIns.Size() > 0 && fork == this)
{
NativeCodeInstruction& lins(mIns[mIns.Size() - 1]);
if (lins.mMode == ASMIM_ZERO_PAGE)
if (lins.mType == ASMIT_LDY)
{
mFDataSet.mRegs[CPU_REG_Y].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_Y].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
{
mFDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[lins.mAddress].mValue = 0;
}
}
else if (lins.mType == ASMIT_LDX)
{
mFDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_X].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
{
mFDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[lins.mAddress].mValue = 0;
}
}
else if (lins.mType == ASMIT_LDA)
{
mFDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_A].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
{
mFDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[lins.mAddress].mValue = 0;
}
}
else if (lins.mType == ASMIT_CPY && lins.mMode == ASMIM_IMMEDIATE)
{
mFDataSet.mRegs[CPU_REG_Y].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_Y].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_CPX && lins.mMode == ASMIM_IMMEDIATE)
{
mFDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_X].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_CMP && lins.mMode == ASMIM_IMMEDIATE)
{
mFDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_A].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_TXA || lins.mType == ASMIT_TAX)
{
mFDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_A].mValue = 0;
mFDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_X].mValue = 0;
}
else if ((lins.mType == ASMIT_INC || lins.mType == ASMIT_DEC) && lins.mMode == ASMIM_ZERO_PAGE)
{
mFDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[lins.mAddress].mValue = 0;
}
}
else if (lins.mType == ASMIT_LDX)
break;
case ASMIT_BEQ:
if (mNDataSet.mRegs[CPU_REG_Z].mMode == NRDM_IMMEDIATE)
{
mFDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_X].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if (mNDataSet.mRegs[CPU_REG_Z].mValue)
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[lins.mAddress].mValue = 0;
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
else if (lins.mType == ASMIT_LDA)
else if (global && mIns.Size() > 0 && fork == this)
{
mFDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_A].mValue = 0;
NativeCodeInstruction& lins(mIns[mIns.Size() - 1]);
if (lins.mMode == ASMIM_ZERO_PAGE)
if (lins.mType == ASMIT_LDY)
{
mFDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[lins.mAddress].mValue = 0;
mNDataSet.mRegs[CPU_REG_Y].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_Y].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
{
mNDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[lins.mAddress].mValue = 0;
}
}
}
else if (lins.mType == ASMIT_CPY && lins.mMode == ASMIM_IMMEDIATE)
{
mFDataSet.mRegs[CPU_REG_Y].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_Y].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_CPX && lins.mMode == ASMIM_IMMEDIATE)
{
mFDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_X].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_CMP && lins.mMode == ASMIM_IMMEDIATE)
{
mFDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_A].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_TXA || lins.mType == ASMIT_TAX)
{
mFDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_A].mValue = 0;
mFDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[CPU_REG_X].mValue = 0;
}
else if ((lins.mType == ASMIT_INC || lins.mType == ASMIT_DEC) && lins.mMode == ASMIM_ZERO_PAGE)
{
mFDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mFDataSet.mRegs[lins.mAddress].mValue = 0;
}
}
break;
case ASMIT_BEQ:
if (mNDataSet.mRegs[CPU_REG_Z].mMode == NRDM_IMMEDIATE)
{
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if (mNDataSet.mRegs[CPU_REG_Z].mValue)
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
else if (global && mIns.Size() > 0 && fork == this)
{
NativeCodeInstruction& lins(mIns[mIns.Size() - 1]);
if (lins.mType == ASMIT_LDY)
{
mNDataSet.mRegs[CPU_REG_Y].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_Y].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
else if (lins.mType == ASMIT_LDX)
{
mNDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[lins.mAddress].mValue = 0;
mNDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_X].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
{
mNDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[lins.mAddress].mValue = 0;
}
}
}
else if (lins.mType == ASMIT_LDX)
{
mNDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_X].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
else if (lins.mType == ASMIT_LDA)
{
mNDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[lins.mAddress].mValue = 0;
mNDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_A].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
{
mNDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[lins.mAddress].mValue = 0;
}
}
}
else if (lins.mType == ASMIT_LDA)
{
mNDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_A].mValue = 0;
if (lins.mMode == ASMIM_ZERO_PAGE)
else if (lins.mType == ASMIT_CPY && lins.mMode == ASMIM_IMMEDIATE)
{
mNDataSet.mRegs[CPU_REG_Y].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_Y].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_CPX && lins.mMode == ASMIM_IMMEDIATE)
{
mNDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_X].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_CMP && lins.mMode == ASMIM_IMMEDIATE)
{
mNDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_A].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_TXA || lins.mType == ASMIT_TAX)
{
mNDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_A].mValue = 0;
mNDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_X].mValue = 0;
}
else if ((lins.mType == ASMIT_INC || lins.mType == ASMIT_DEC) && lins.mMode == ASMIM_ZERO_PAGE)
{
mNDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[lins.mAddress].mValue = 0;
}
}
else if (lins.mType == ASMIT_CPY && lins.mMode == ASMIM_IMMEDIATE)
break;
case ASMIT_BPL:
if (mNDataSet.mRegs[CPU_REG_Z].mMode == NRDM_IMMEDIATE)
{
mNDataSet.mRegs[CPU_REG_Y].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_Y].mValue = lins.mAddress;
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if ((mNDataSet.mRegs[CPU_REG_Z].mValue & 0x80))
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
else if (lins.mType == ASMIT_CPX && lins.mMode == ASMIM_IMMEDIATE)
break;
case ASMIT_BMI:
if (mNDataSet.mRegs[CPU_REG_Z].mMode == NRDM_IMMEDIATE)
{
mNDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_X].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_CMP && lins.mMode == ASMIM_IMMEDIATE)
{
mNDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_A].mValue = lins.mAddress;
}
else if (lins.mType == ASMIT_TXA || lins.mType == ASMIT_TAX)
{
mNDataSet.mRegs[CPU_REG_A].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_A].mValue = 0;
mNDataSet.mRegs[CPU_REG_X].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[CPU_REG_X].mValue = 0;
}
else if ((lins.mType == ASMIT_INC || lins.mType == ASMIT_DEC) && lins.mMode == ASMIM_ZERO_PAGE)
{
mNDataSet.mRegs[lins.mAddress].mMode = NRDM_IMMEDIATE;
mNDataSet.mRegs[lins.mAddress].mValue = 0;
mBranch = ASMIT_JMP;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
mTrueJump->mNumEntries--;
if (!(mNDataSet.mRegs[CPU_REG_Z].mValue & 0x80))
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
break;
}
break;
case ASMIT_BPL:
if (mNDataSet.mRegs[CPU_REG_Z].mMode == NRDM_IMMEDIATE)
{
mBranch = ASMIT_JMP;
mTrueJump->mNumEntries--;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
if ((mNDataSet.mRegs[CPU_REG_Z].mValue & 0x80))
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
break;
case ASMIT_BMI:
if (mNDataSet.mRegs[CPU_REG_Z].mMode == NRDM_IMMEDIATE)
{
mBranch = ASMIT_JMP;
mTrueJump->mEntryBlocks.Remove(mTrueJump->mEntryBlocks.IndexOf(this));
mTrueJump->mNumEntries--;
if (!(mNDataSet.mRegs[CPU_REG_Z].mValue & 0x80))
mTrueJump = fork->mFalseJump;
else
mTrueJump = fork->mTrueJump;
mTrueJump->mNumEntries++;
mTrueJump->mEntryBlocks.Push(this);
if (mFalseJump)
{
mFalseJump->mNumEntries--;
mFalseJump->mEntryBlocks.Remove(mFalseJump->mEntryBlocks.IndexOf(this));
}
mFalseJump = nullptr;
changed = true;
}
break;
}
}
#endif
@ -37595,6 +37687,26 @@ bool NativeCodeBasicBlock::PeepHoleOptimizer(NativeCodeProcedure* proc, int pass
changed = true;
}
}
else if (sz >= 2 &&
mIns[sz - 2].mType == ASMIT_LDA && mIns[sz - 2].mMode == ASMIM_IMMEDIATE && mIns[sz - 2].mAddress == 0 &&
mIns[sz - 1].mType == ASMIT_ROL && mIns[sz - 1].mMode == ASMIM_IMPLIED && !(mIns[sz - 1].mLive & LIVE_CPU_REG_C) && !mExitRequiredRegs[CPU_REG_Z] &&
mBranch == ASMIT_BNE && !mTrueJump->mEntryRequiredRegs[CPU_REG_A])
{
mBranch = ASMIT_BCS;
mIns.SetSize(sz - 1);
sz -= 1;
changed = true;
}
else if (sz >= 2 &&
mIns[sz - 2].mType == ASMIT_LDA && mIns[sz - 2].mMode == ASMIM_IMMEDIATE && mIns[sz - 2].mAddress == 0 &&
mIns[sz - 1].mType == ASMIT_ROL && mIns[sz - 1].mMode == ASMIM_IMPLIED && !(mIns[sz - 1].mLive & LIVE_CPU_REG_C) && !mExitRequiredRegs[CPU_REG_Z] &&
mBranch == ASMIT_BEQ && !mFalseJump->mEntryRequiredRegs[CPU_REG_A])
{
mBranch = ASMIT_BCC;
mIns.SetSize(sz - 1);
sz -= 1;
changed = true;
}
else if (sz >= 3 &&
mIns[sz - 3].mType == ASMIT_LDA && mIns[sz - 3].mMode == ASMIM_IMMEDIATE && mIns[sz - 3].mAddress == 0 &&
mIns[sz - 2].mType == ASMIT_ROL && mIns[sz - 2].mMode == ASMIM_IMPLIED &&
@ -38588,7 +38700,7 @@ void NativeCodeProcedure::Compile(InterCodeProcedure* proc)
{
mInterProc = proc;
CheckFunc = !strcmp(mInterProc->mIdent->mString, "move");
CheckFunc = !strcmp(mInterProc->mIdent->mString, "bmul");
int nblocks = proc->mBlocks.Size();
tblocks = new NativeCodeBasicBlock * [nblocks];