Ejemplo n.º 1
0
IRType GlobOpt::GetIRTypeFromValueType(const ValueType &valueType)
{
    if (valueType.IsFloat())
    {
        return TyFloat64;
    }
    else if (valueType.IsInt())
    {
        return TyInt32;
    }
    else if (valueType.IsSimd128Float32x4())
    {
        return TySimd128F4;
    }
    else
    {
        Assert(valueType.IsSimd128Int32x4());
        return TySimd128I4;
    }
}
Ejemplo n.º 2
0
IR::BailOutKind GlobOpt::GetBailOutKindFromValueType(const ValueType &valueType)
{
    if (valueType.IsFloat())
    {
        // if required valueType is Float, then allow coercion from any primitive except String.
        return IR::BailOutPrimitiveButString;
    }
    else if (valueType.IsInt())
    {
        return IR::BailOutIntOnly;
    }
    else if (valueType.IsSimd128Float32x4())
    {
        return IR::BailOutSimd128F4Only;
    }
    else
    {
        Assert(valueType.IsSimd128Int32x4());
        return IR::BailOutSimd128I4Only;
    }
}
Ejemplo n.º 3
0
bool
GlobOpt::Simd128DoTypeSpec(IR::Instr *instr, const Value *src1Val, const Value *src2Val, const Value *dstVal)
{
    bool doTypeSpec = true;

    // TODO: Some operations require additional opnd constraints (e.g. shuffle/swizzle).
    if (Js::IsSimd128Opcode(instr->m_opcode))
    {
        ThreadContext::SimdFuncSignature simdFuncSignature;
        instr->m_func->GetScriptContext()->GetThreadContext()->GetSimdFuncSignatureFromOpcode(instr->m_opcode, simdFuncSignature);
        if (!simdFuncSignature.valid)
        {
            // not implemented yet.
            return false;
        }
        // special handling for Load/Store
        if (Js::IsSimd128Load(instr->m_opcode) || Js::IsSimd128Store(instr->m_opcode))
        {
            return Simd128DoTypeSpecLoadStore(instr, src1Val, src2Val, dstVal, &simdFuncSignature);
        }

        const uint argCount = simdFuncSignature.argCount;
        switch (argCount)
        {
        case 2:
            Assert(src2Val);
            doTypeSpec = doTypeSpec && Simd128CanTypeSpecOpnd(src2Val->GetValueInfo()->Type(), simdFuncSignature.args[1]) && Simd128ValidateIfLaneIndex(instr, instr->GetSrc2(), 1);
            // fall-through
        case 1:
            Assert(src1Val);
            doTypeSpec = doTypeSpec && Simd128CanTypeSpecOpnd(src1Val->GetValueInfo()->Type(), simdFuncSignature.args[0]) && Simd128ValidateIfLaneIndex(instr, instr->GetSrc1(), 0);
            break;
        default:
        {
            // extended args
            Assert(argCount > 2);
            // Check if all args have been type specialized.

            int arg = argCount - 1;
            IR::Instr * eaInstr = GetExtendedArg(instr);

            while (arg>=0)
            {
                Assert(eaInstr);
                Assert(eaInstr->m_opcode == Js::OpCode::ExtendArg_A);

                ValueType expectedType = simdFuncSignature.args[arg];
                IR::Opnd * opnd = eaInstr->GetSrc1();
                StackSym * sym = opnd->GetStackSym();

                // In Forward Prepass: Check liveness through liveness bits, not IR type, since in prepass no actual type-spec happens.
                // In the Forward Pass: Check IRType since Sym can be null, because of const prop.
                if (expectedType.IsSimd128Float32x4())
                {
                    if (sym && !IsSimd128F4TypeSpecialized(sym, &currentBlock->globOptData) ||
                        !sym && opnd->GetType() != TySimd128F4)
                    {
                        return false;
                    }
                }
                else if (expectedType.IsSimd128Int32x4())
                {
                    if (sym && !IsSimd128I4TypeSpecialized(sym, &currentBlock->globOptData) ||
                        !sym && opnd->GetType() != TySimd128I4)
                    {
                        return false;
                    }
                }
                else if (expectedType.IsFloat())
                {
                    if (sym && !IsFloat64TypeSpecialized(sym, &currentBlock->globOptData) ||
                        !sym&& opnd->GetType() != TyFloat64)
                    {
                        return false;
                    }

                }
                else if (expectedType.IsInt())
                {
                    if ((sym && !IsInt32TypeSpecialized(sym, &currentBlock->globOptData) && !currentBlock->globOptData.liveLossyInt32Syms->Test(sym->m_id)) ||
                        !sym && opnd->GetType() != TyInt32)
                    {
                        return false;
                    }
                    // Extra check if arg is a lane index
                    if (!Simd128ValidateIfLaneIndex(instr, opnd, arg))
                    {
                        return false;
                    }
                }
                else
                {
                    Assert(UNREACHED);
                }

                eaInstr = GetExtendedArg(eaInstr);
                arg--;
            }
            // all args are type-spec'd
            doTypeSpec = true;
        }
        }
    }
    else
    {
        Assert(instr->m_opcode == Js::OpCode::ExtendArg_A);
        // For ExtendArg, the expected type is encoded in the dst(link) operand.
        doTypeSpec = doTypeSpec && Simd128CanTypeSpecOpnd(src1Val->GetValueInfo()->Type(), instr->GetDst()->GetValueType());
    }

    return doTypeSpec;
}