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Merge pull request #549 from Gutawer/asmjit

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Added remaining int arithmetic opcodes
This commit is contained in:
Magnus Norddahl 2018-08-18 00:57:53 +02:00 committed by GitHub
commit 1757acacff
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GPG key ID: 4AEE18F83AFDEB23
1 changed files with 167 additions and 22 deletions
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189
src/scripting/vm/jit.cpp
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@ -327,7 +327,7 @@ JitFuncPtr JitCompile(VMScriptFunction *sfunc)
for (int i = 0; i < sfunc->NumRegF; i++)
{
regF[i] = cc.newXmmSd ();
cc.movsd(regF[i], x86::qword_ptr(initreg, i * 4));
cc.movsd(regF[i], x86::qword_ptr(initreg, i * 8));
}
}
/*if (sfunc->NumRegS > 0)
@ -871,36 +871,133 @@ JitFuncPtr JitCompile(VMScriptFunction *sfunc)
BINARY_OP_INT(mul, regD[a], regD[B], konstd[C]);
break;
case OP_DIV_RR: // dA = dkB / dkC (signed)
// To do: ThrowAbortException(X_DIVISION_BY_ZERO, nullptr);
BINARY_OP_INT(idiv, regD[a], regD[B], regD[C]);
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
cc.mov(tmp0, regD[B]);
cc.cdq(tmp1, tmp0);
cc.idiv(tmp1, tmp0, regD[C]);
cc.mov(regD[A], tmp0);
break;
}
case OP_DIV_RK:
// To do: ThrowAbortException(X_DIVISION_BY_ZERO, nullptr);
BINARY_OP_INT(idiv, regD[a], regD[B], konstd[C]);
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
auto konstTmp = cc.newIntPtr();
cc.mov(tmp0, regD[B]);
cc.cdq(tmp1, tmp0);
cc.mov(konstTmp, reinterpret_cast<ptrdiff_t>(&konstd[C]));
cc.idiv(tmp1, tmp0, x86::ptr(konstTmp));
cc.mov(regD[A], tmp0);
break;
}
case OP_DIV_KR:
// To do: ThrowAbortException(X_DIVISION_BY_ZERO, nullptr);
BINARY_OP_INT(idiv, regD[a], konstd[B], regD[C]);
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
cc.mov(tmp0, konstd[B]);
cc.cdq(tmp1, tmp0);
cc.idiv(tmp1, tmp0, regD[C]);
cc.mov(regD[A], tmp0);
break;
}
case OP_DIVU_RR: // dA = dkB / dkC (unsigned)
// To do: ThrowAbortException(X_DIVISION_BY_ZERO, nullptr);
BINARY_OP_INT(div, regD[a], regD[B], regD[C]);
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
cc.mov(tmp0, regD[B]);
cc.mov(tmp1, 0);
cc.div(tmp1, tmp0, regD[C]);
cc.mov(regD[A], tmp0);
break;
}
case OP_DIVU_RK:
// To do: ThrowAbortException(X_DIVISION_BY_ZERO, nullptr);
BINARY_OP_INT(div, regD[a], regD[B], konstd[C]);
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
auto konstTmp = cc.newIntPtr();
cc.mov(tmp0, regD[B]);
cc.mov(tmp1, 0);
cc.mov(konstTmp, reinterpret_cast<ptrdiff_t>(&konstd[C]));
cc.div(tmp1, tmp0, x86::ptr(konstTmp));
cc.mov(regD[A], tmp0);
break;
}
case OP_DIVU_KR:
// To do: ThrowAbortException(X_DIVISION_BY_ZERO, nullptr);
BINARY_OP_INT(div, regD[a], konstd[B], regD[C]);
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
cc.mov(tmp0, konstd[B]);
cc.mov(tmp1, 0);
cc.div(tmp1, tmp0, regD[C]);
cc.mov(regD[A], tmp0);
break;
}
case OP_MOD_RR: // dA = dkB % dkC (signed)
case OP_MOD_RK:
case OP_MOD_KR:
case OP_MODU_RR: // dA = dkB % dkC (unsigned)
case OP_MODU_RK:
case OP_MODU_KR:
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
cc.mov(tmp0, regD[B]);
cc.cdq(tmp1, tmp0);
cc.idiv(tmp1, tmp0, regD[C]);
cc.mov(regD[A], tmp1);
break;
}
case OP_MOD_RK:
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
auto konstTmp = cc.newIntPtr();
cc.mov(tmp0, regD[B]);
cc.cdq(tmp1, tmp0);
cc.mov(konstTmp, reinterpret_cast<ptrdiff_t>(&konstd[C]));
cc.idiv(tmp1, tmp0, x86::ptr(konstTmp));
cc.mov(regD[A], tmp1);
break;
}
case OP_MOD_KR:
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
cc.mov(tmp0, konstd[B]);
cc.cdq(tmp1, tmp0);
cc.idiv(tmp1, tmp0, regD[C]);
cc.mov(regD[A], tmp1);
break;
}
case OP_MODU_RR: // dA = dkB % dkC (unsigned)
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
cc.mov(tmp0, regD[B]);
cc.mov(tmp1, 0);
cc.div(tmp1, tmp0, regD[C]);
cc.mov(regD[A], tmp1);
break;
}
case OP_MODU_RK:
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
auto konstTmp = cc.newIntPtr();
cc.mov(tmp0, regD[B]);
cc.mov(tmp1, 0);
cc.mov(konstTmp, reinterpret_cast<ptrdiff_t>(&konstd[C]));
cc.div(tmp1, tmp0, x86::ptr(konstTmp));
cc.mov(regD[A], tmp1);
break;
}
case OP_MODU_KR:
{
auto tmp0 = cc.newInt32();
auto tmp1 = cc.newInt32();
cc.mov(tmp0, konstd[B]);
cc.mov(tmp1, 0);
cc.div(tmp1, tmp0, regD[C]);
cc.mov(regD[A], tmp1);
break;
}
case OP_AND_RR: // dA = dB & dkC
BINARY_OP_INT(and_, regD[a], regD[B], regD[C]);
break;
@ -920,11 +1017,59 @@ JitFuncPtr JitCompile(VMScriptFunction *sfunc)
BINARY_OP_INT(xor_, regD[a], regD[B], konstd[C]);
break;
case OP_MIN_RR: // dA = min(dB,dkC)
case OP_MIN_RK:
case OP_MAX_RR: // dA = max(dB,dkC)
case OP_MAX_RK:
case OP_ABS: // dA = abs(dB)
{
auto tmp0 = cc.newXmmSs();
auto tmp1 = cc.newXmmSs();
cc.movd(tmp0, regD[B]);
cc.movd(tmp1, regD[C]);
cc.pminsd(tmp0, tmp1);
cc.movd(regD[a], tmp0);
break;
}
case OP_MIN_RK:
{
auto tmp0 = cc.newXmmSs();
auto tmp1 = cc.newXmmSs();
auto konstTmp = cc.newIntPtr();
cc.mov(konstTmp, reinterpret_cast<ptrdiff_t>(&konstd[C]));
cc.movd(tmp0, regD[B]);
cc.movss(tmp1, x86::dword_ptr(konstTmp));
cc.pminsd(tmp0, tmp1);
cc.movd(regD[a], tmp0);
break;
}
case OP_MAX_RR: // dA = max(dB,dkC)
{
auto tmp0 = cc.newXmmSs();
auto tmp1 = cc.newXmmSs();
cc.movd(tmp0, regD[B]);
cc.movd(tmp1, regD[C]);
cc.pmaxsd(tmp0, tmp1);
cc.movd(regD[a], tmp0);
break;
}
case OP_MAX_RK:
{
auto tmp0 = cc.newXmmSs();
auto tmp1 = cc.newXmmSs();
auto konstTmp = cc.newIntPtr();
cc.mov(konstTmp, reinterpret_cast<ptrdiff_t>(&konstd[C]));
cc.movd(tmp0, regD[B]);
cc.movss(tmp1, x86::dword_ptr(konstTmp));
cc.pmaxsd(tmp0, tmp1);
cc.movd(regD[a], tmp0);
break;
}
case OP_ABS: // dA = abs(dB)
{
auto tmp = cc.newInt32();
cc.mov(tmp, regD[B]);
cc.sar(tmp, 31);
cc.mov(regD[A], tmp);
cc.xor_(regD[A], regD[B]);
cc.sub(regD[A], tmp);
break;
}
case OP_NEG: // dA = -dB
{
auto tmp = cc.newInt32 ();