JitArm64: Optimize GPR register push/pop.
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@ -2079,106 +2079,58 @@ bool ARM64XEmitter::MOVI2R2(ARM64Reg Rd, u64 imm1, u64 imm2)
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void ARM64XEmitter::ABI_PushRegisters(BitSet32 registers)
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void ARM64XEmitter::ABI_PushRegisters(BitSet32 registers)
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{
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{
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unsigned int num_regs = registers.Count();
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int num_regs = registers.Count();
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int stack_size = (num_regs + (num_regs & 1)) * 8;
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auto it = registers.begin();
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if (num_regs % 2)
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if (!num_regs)
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{
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return;
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bool first = true;
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// Stack is required to be quad-word aligned.
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// 8 byte per register, but 16 byte alignment, so we may have to padd one register.
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u32 stack_size = Common::AlignUp(num_regs * 8, 16);
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// Only update the SP on the last write to avoid the dependency between those stores.
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u32 current_offset = 0;
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std::vector<ARM64Reg> reg_pair;
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for (auto it : registers)
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// The first push must adjust the SP, else a context switch may invalidate everything below SP.
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{
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if (num_regs & 1)
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if (first)
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STR(INDEX_PRE, (ARM64Reg)(X0 + *it++), SP, -stack_size);
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{
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STR(INDEX_PRE, (ARM64Reg)(X0 + it), SP, -(s32)stack_size);
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first = false;
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current_offset += 16;
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}
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else
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else
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{
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STP(INDEX_PRE, (ARM64Reg)(X0 + *it++), (ARM64Reg)(X0 + *it++), SP, -stack_size);
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reg_pair.push_back((ARM64Reg)(X0 + it));
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if (reg_pair.size() == 2)
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{
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STP(INDEX_SIGNED, reg_pair[0], reg_pair[1], SP, current_offset);
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reg_pair.clear();
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current_offset += 16;
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}
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}
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}
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}
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else
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{
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std::vector<ARM64Reg> reg_pair;
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for (auto it : registers)
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// Fast store for all other registers, this is always an even number.
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{
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for (int i = 0; i < (num_regs - 1) / 2; i++)
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reg_pair.push_back((ARM64Reg)(X0 + it));
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STP(INDEX_SIGNED, (ARM64Reg)(X0 + *it++), (ARM64Reg)(X0 + *it++), SP, 16 * (i + 1));
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if (reg_pair.size() == 2)
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{
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_assert_msg_(DYNA_REC, it == registers.end(), "%s registers don't match.", __FUNCTION__);
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STP(INDEX_PRE, reg_pair[0], reg_pair[1], SP, -16);
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reg_pair.clear();
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}
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}
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}
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}
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}
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void ARM64XEmitter::ABI_PopRegisters(BitSet32 registers, BitSet32 ignore_mask)
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void ARM64XEmitter::ABI_PopRegisters(BitSet32 registers, BitSet32 ignore_mask)
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{
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{
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int num_regs = registers.Count();
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int num_regs = registers.Count();
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int stack_size = (num_regs + (num_regs & 1)) * 8;
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auto it = registers.begin();
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if (num_regs % 2)
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if (!num_regs)
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{
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return;
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bool first = true;
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std::vector<ARM64Reg> reg_pair;
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// We must adjust the SP in the end, so load the first (two) registers at least.
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ARM64Reg first = (ARM64Reg)(X0 + *it++);
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ARM64Reg second;
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if (!(num_regs & 1))
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second = (ARM64Reg)(X0 + *it++);
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for (auto it : registers)
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// 8 byte per register, but 16 byte alignment, so we may have to padd one register.
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{
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// Only update the SP on the last load to avoid the dependency between those loads.
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if (ignore_mask[it])
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it = WSP;
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if (first)
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// Fast load for all but the first (two) registers, this is always an even number.
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{
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for (int i = 0; i < (num_regs - 1) / 2; i++)
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LDR(INDEX_POST, (ARM64Reg)(X0 + it), SP, 16);
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LDP(INDEX_SIGNED, (ARM64Reg)(X0 + *it++), (ARM64Reg)(X0 + *it++), SP, 16 * (i + 1));
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first = false;
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}
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// Post loading the first (two) registers.
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if (num_regs & 1)
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LDR(INDEX_POST, first, SP, stack_size);
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else
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else
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{
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LDP(INDEX_POST, first, second, SP, stack_size);
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reg_pair.push_back((ARM64Reg)(X0 + it));
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if (reg_pair.size() == 2)
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{
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LDP(INDEX_POST, reg_pair[0], reg_pair[1], SP, 16);
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reg_pair.clear();
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}
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}
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}
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}
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else
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{
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std::vector<ARM64Reg> reg_pair;
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for (int i = 31; i >= 0; --i)
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_assert_msg_(DYNA_REC, it == registers.end(), "%s registers don't match.", __FUNCTION__);
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{
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if (!registers[i])
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continue;
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int reg = i;
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if (ignore_mask[reg])
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reg = WSP;
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reg_pair.push_back((ARM64Reg)(X0 + reg));
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if (reg_pair.size() == 2)
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{
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LDP(INDEX_POST, reg_pair[1], reg_pair[0], SP, 16);
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reg_pair.clear();
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}
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}
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}
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}
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}
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// Float Emitter
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// Float Emitter
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