kaizen/src/backend/core/registers/Registers.cpp

#include <jit/helpers.hpp>
#include <core/registers/Registers.hpp>
#include <core/JIT.hpp>

namespace n64 {
#ifdef KAIZEN_JIT_ENABLED
Registers::Registers(JIT &jit) : jit(jit) { Reset(); }
#else
Registers::Registers() {
    stack_trace.resize(0x10000000);
    Reset();
}
#endif

void Registers::Reset() {
    hi = 0;
    lo = 0;
    delaySlot = false;
    prevDelaySlot = false;
    std::fill(stack_trace.begin(), stack_trace.end(), 0);
    gpr.fill(0);
    regIsConstant = 1; // first bit is true indicating $zero is constant which yes it is always

    cop0.Reset();
    cop1.Reset();

    steps = 0;
    extraCycles = 0;
}

void Registers::SetPC64(s64 val) {
    oldPC = pc;
    pc = val;
    nextPC = pc + 4;
}

void Registers::SetPC32(s32 val) {
    oldPC = pc;
    pc = s64(val);
    nextPC = pc + 4;
}

template <>
u64 Registers::Read<u64>(size_t idx) {
    return gpr[idx];
}

template <>
s64 Registers::Read<s64>(const size_t idx) {
    return static_cast<s64>(Read<u64>(idx));
}

template <>
u32 Registers::Read<u32>(size_t idx) {
    return gpr[idx];
}

template <>
s32 Registers::Read<s32>(size_t idx) {
    return static_cast<s32>(Read<u32>(idx));
}

template <>
u16 Registers::Read<u16>(size_t idx) {
    return gpr[idx];
}

template <>
s16 Registers::Read<s16>(size_t idx) {
    return static_cast<s16>(Read<u16>(idx));
}

template <>
u8 Registers::Read<u8>(size_t idx) {
    return gpr[idx];
}

template <>
s8 Registers::Read<s8>(size_t idx) {
    return static_cast<s8>(Read<u8>(idx));
}

#ifdef KAIZEN_JIT_ENABLED
template <>
void Registers::Read<u64>(size_t idx, Xbyak::Reg reg) {
    if (IsRegConstant(idx)) {
        jit.code.mov(reg.cvt64(), Read<u64>(idx));
        return;
    }

    jit.code.mov(reg.cvt64(), jit.GPR<u64>(idx));
}

template <>
void Registers::Read<s64>(size_t idx, Xbyak::Reg reg) {
    if (IsRegConstant(idx)) {
        jit.code.mov(reg.cvt64(), Read<s64>(idx));
        return;
    }

    jit.code.mov(reg.cvt64(), jit.GPR<u64>(idx));
}

template <>
void Registers::Read<u32>(size_t idx, Xbyak::Reg reg) {
    if (IsRegConstant(idx)) {
        jit.code.mov(reg.cvt32(), Read<u32>(idx));
        return;
    }

    jit.code.mov(reg.cvt32(), jit.GPR<u32>(idx));
}

template <>
void Registers::Read<s32>(size_t idx, Xbyak::Reg reg) {
    if (IsRegConstant(idx)) {
        jit.code.mov(reg.cvt32(), Read<s32>(idx));
        return;
    }

    jit.code.mov(reg.cvt32(), jit.GPR<s32>(idx));
}

template <>
void Registers::Read<u16>(size_t idx, Xbyak::Reg reg) {
    if (IsRegConstant(idx)) {
        jit.code.mov(reg.cvt16(), Read<u16>(idx));
        return;
    }

    jit.code.mov(reg.cvt16(), jit.GPR<u16>(idx));
}

template <>
void Registers::Read<s16>(size_t idx, Xbyak::Reg reg) {
    if (IsRegConstant(idx)) {
        jit.code.mov(reg.cvt16(), Read<s16>(idx));
        return;
    }

    jit.code.mov(reg.cvt16(), jit.GPR<u16>(idx));
}

template <>
void Registers::Read<u8>(size_t idx, Xbyak::Reg reg) {
    if (IsRegConstant(idx)) {
        jit.code.mov(reg.cvt8(), Read<u8>(idx));
        return;
    }

    jit.code.mov(reg.cvt8(), jit.GPR<u8>(idx));
}

template <>
void Registers::Read<s8>(size_t idx, Xbyak::Reg reg) {
    if (IsRegConstant(idx)) {
        jit.code.mov(reg.cvt8(), Read<s8>(idx));
        return;
    }

    jit.code.mov(reg.cvt8(), jit.GPR<s8>(idx));
}
#endif

template <>
void Registers::Write<bool>(size_t idx, bool v) {
    if (idx == 0)
        return;

    regIsConstant |= (1 << idx);

    gpr[idx] = v;
}

template <>
void Registers::Write<u64>(size_t idx, u64 v) {
    if (idx == 0)
        return;

    regIsConstant |= (1 << idx);

    gpr[idx] = v;
}

template <>
void Registers::Write<s64>(size_t idx, s64 v) {
    Write<u64>(idx, v);
}

template <>
void Registers::Write<u32>(size_t idx, u32 v) {
    if (idx == 0)
        return;

    regIsConstant |= (1 << idx);

    gpr[idx] = v;
}


template <>
void Registers::Write<s32>(size_t idx, s32 v) {
    if (idx == 0)
        return;

    regIsConstant |= (1 << idx);

    gpr[idx] = v;
}

template <>
void Registers::Write<u16>(size_t idx, u16 v) {
    if (idx == 0)
        return;

    regIsConstant |= (1 << idx);

    gpr[idx] = v;
}


template <>
void Registers::Write<s16>(size_t idx, s16 v) {
    if (idx == 0)
        return;

    regIsConstant |= (1 << idx);

    gpr[idx] = v;
}

template <>
void Registers::Write<u8>(size_t idx, u8 v) {
    if (idx == 0)
        return;

    regIsConstant |= (1 << idx);

    gpr[idx] = v;
}


template <>
void Registers::Write<s8>(size_t idx, s8 v) {
    if (idx == 0)
        return;

    regIsConstant |= (1 << idx);

    gpr[idx] = v;
}

#ifdef KAIZEN_JIT_ENABLED
template <>
void Registers::Write<bool>(size_t idx, Xbyak::Reg v) {
    if (idx == 0)
        return;

    regIsConstant &= ~(1 << idx);

    jit.code.movsx(v.cvt64(), v.cvt8());
    jit.code.mov(jit.GPR<u64>(idx), v);
}

template <>
void Registers::Write<s8>(size_t idx, Xbyak::Reg v) {
    if (idx == 0)
        return;

    regIsConstant &= ~(1 << idx);

    jit.code.movsx(v.cvt64(), v.cvt8());
    jit.code.mov(jit.GPR<u64>(idx), v);
}

template <>
void Registers::Write<u8>(size_t idx, Xbyak::Reg v) {
    if (idx == 0)
        return;

    regIsConstant &= ~(1 << idx);

    jit.code.movzx(v.cvt64(), v.cvt8());
    jit.code.mov(jit.GPR<u64>(idx), v.cvt64());
}

template <>
void Registers::Write<s16>(size_t idx, Xbyak::Reg v) {
    if (idx == 0)
        return;

    regIsConstant &= ~(1 << idx);

    jit.code.movsx(v.cvt64(), v.cvt16());
    jit.code.mov(jit.GPR<u64>(idx), v.cvt64());
}

template <>
void Registers::Write<u16>(size_t idx, Xbyak::Reg v) {
    if (idx == 0)
        return;

    if (!jit)
        panic("Did you try to call Registers::Write(size_t, *Xbyak::Reg*) from the interpreter?");

    regIsConstant &= ~(1 << idx);

    jit.code.movzx(v.cvt64(), v.cvt16());
    jit.code.mov(jit.GPR<u64>(idx), v.cvt64());
}

template <>
void Registers::Write<s32>(size_t idx, Xbyak::Reg v) {
    if (idx == 0)
        return;

    if (!jit)
        panic("Did you try to call Registers::Write(size_t, *Xbyak::Reg*) from the interpreter?");

    regIsConstant &= ~(1 << idx);

    jit.code.movsxd(v.cvt64(), v.cvt32());
    jit.code.mov(jit.GPR<u64>(idx), v.cvt64());
}

template <>
void Registers::Write<u32>(size_t idx, Xbyak::Reg v) {
    if (idx == 0)
        return;

    if (!jit)
        panic("Did you try to call Registers::Write(size_t, *Xbyak::Reg*) from the interpreter?");

    regIsConstant &= ~(1 << idx);

    jit.code.movzx(v.cvt64(), v.cvt32());
    jit.code.mov(jit.GPR<u64>(idx), v.cvt64());
}

template <>
void Registers::Write<u64>(size_t idx, Xbyak::Reg v) {
    if (idx == 0)
        return;

    if (!jit)
        panic("Did you try to call Registers::Write(size_t, *Xbyak::Reg*) from the interpreter?");

    regIsConstant &= ~(1 << idx);

    jit.code.mov(jit.GPR<u64>(idx), v.cvt64());
}

template <>
void Registers::Write<s64>(size_t idx, Xbyak::Reg v) {
    Write<u64>(idx, v);
}
#endif
} // namespace n64