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// value to the correct fpstack register class.
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if (VT == MVT::f32 && !isScalarFPTypeInSSEReg(VT))
return std::make_pair(0U, X86::RFP32RegisterClass);
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if (VT == MVT::f64 && !isScalarFPTypeInSSEReg(VT))
return std::make_pair(0U, X86::RFP64RegisterClass);
return std::make_pair(0U, X86::RFP80RegisterClass);
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case 'y': // MMX_REGS if MMX allowed.
if (!Subtarget->hasMMX()) break;
return std::make_pair(0U, X86::VR64RegisterClass);
case 'Y': // SSE_REGS if SSE2 allowed
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if (!Subtarget->hasXMMInt()) break;
// FALL THROUGH.
case 'x': // SSE_REGS if SSE1 allowed
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if (!Subtarget->hasXMM()) break;
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switch (VT.getSimpleVT().SimpleTy) {
default: break;
// Scalar SSE types.
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case MVT::f32:
case MVT::i32:
return std::make_pair(0U, X86::FR32RegisterClass);
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case MVT::f64:
case MVT::i64:
return std::make_pair(0U, X86::FR64RegisterClass);
// Vector types.
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case MVT::v16i8:
case MVT::v8i16:
case MVT::v4i32:
case MVT::v2i64:
case MVT::v4f32:
case MVT::v2f64:
return std::make_pair(0U, X86::VR128RegisterClass);
}
// Use the default implementation in TargetLowering to convert the register
// constraint into a member of a register class.
std::pair<unsigned, const TargetRegisterClass*> Res;
Res = TargetLowering::getRegForInlineAsmConstraint(Constraint, VT);
// Not found as a standard register?
if (Res.second == 0) {
// Map st(0) -> st(7) -> ST0
if (Constraint.size() == 7 && Constraint[0] == '{' &&
tolower(Constraint[1]) == 's' &&
tolower(Constraint[2]) == 't' &&
Constraint[3] == '(' &&
(Constraint[4] >= '0' && Constraint[4] <= '7') &&
Constraint[5] == ')' &&
Constraint[6] == '}') {
Res.first = X86::ST0+Constraint[4]-'0';
Res.second = X86::RFP80RegisterClass;
return Res;
}
// GCC allows "st(0)" to be called just plain "st".
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if (StringRef("{st}").equals_lower(Constraint)) {
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Res.second = X86::RFP80RegisterClass;
return Res;
// flags -> EFLAGS
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if (StringRef("{flags}").equals_lower(Constraint)) {
Res.first = X86::EFLAGS;
Res.second = X86::CCRRegisterClass;
return Res;
}
// 'A' means EAX + EDX.
if (Constraint == "A") {
Res.first = X86::EAX;
Res.second = X86::GR32_ADRegisterClass;
return Res;
// Otherwise, check to see if this is a register class of the wrong value
// type. For example, we want to map "{ax},i32" -> {eax}, we don't want it to
// turn into {ax},{dx}.
if (Res.second->hasType(VT))
return Res; // Correct type already, nothing to do.
// All of the single-register GCC register classes map their values onto
// 16-bit register pieces "ax","dx","cx","bx","si","di","bp","sp". If we
// really want an 8-bit or 32-bit register, map to the appropriate register
// class and return the appropriate register.
if (Res.second == X86::GR16RegisterClass) {
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if (VT == MVT::i8) {
unsigned DestReg = 0;
switch (Res.first) {
default: break;
case X86::AX: DestReg = X86::AL; break;
case X86::DX: DestReg = X86::DL; break;
case X86::CX: DestReg = X86::CL; break;
case X86::BX: DestReg = X86::BL; break;
}
if (DestReg) {
Res.first = DestReg;
Res.second = X86::GR8RegisterClass;
}
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} else if (VT == MVT::i32) {
unsigned DestReg = 0;
switch (Res.first) {
default: break;
case X86::AX: DestReg = X86::EAX; break;
case X86::DX: DestReg = X86::EDX; break;
case X86::CX: DestReg = X86::ECX; break;
case X86::BX: DestReg = X86::EBX; break;
case X86::SI: DestReg = X86::ESI; break;
case X86::DI: DestReg = X86::EDI; break;
case X86::BP: DestReg = X86::EBP; break;
case X86::SP: DestReg = X86::ESP; break;
}
if (DestReg) {
Res.first = DestReg;
Res.second = X86::GR32RegisterClass;
}
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} else if (VT == MVT::i64) {
unsigned DestReg = 0;
switch (Res.first) {
default: break;
case X86::AX: DestReg = X86::RAX; break;
case X86::DX: DestReg = X86::RDX; break;
case X86::CX: DestReg = X86::RCX; break;
case X86::BX: DestReg = X86::RBX; break;
case X86::SI: DestReg = X86::RSI; break;
case X86::DI: DestReg = X86::RDI; break;
case X86::BP: DestReg = X86::RBP; break;
case X86::SP: DestReg = X86::RSP; break;
}
if (DestReg) {
Res.first = DestReg;
Res.second = X86::GR64RegisterClass;
}
} else if (Res.second == X86::FR32RegisterClass ||
Res.second == X86::FR64RegisterClass ||
Res.second == X86::VR128RegisterClass) {
// Handle references to XMM physical registers that got mapped into the
// wrong class. This can happen with constraints like {xmm0} where the
// target independent register mapper will just pick the first match it can
// find, ignoring the required type.
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if (VT == MVT::f32)
Res.second = X86::FR32RegisterClass;
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else if (VT == MVT::f64)
Res.second = X86::FR64RegisterClass;
else if (X86::VR128RegisterClass->hasType(VT))
Res.second = X86::VR128RegisterClass;
return Res;
}