Names[RTLIB::FPROUND_F80_F64] = "__truncxfdf2";
Names[RTLIB::FPROUND_F128_F64] = "__trunctfdf2";
Names[RTLIB::FPROUND_PPCF128_F64] = "__trunctfdf2";
- Names[RTLIB::FPTOSINT_F32_I8] = "__fixsfqi";
- Names[RTLIB::FPTOSINT_F32_I16] = "__fixsfhi";
Names[RTLIB::FPTOSINT_F32_I32] = "__fixsfsi";
Names[RTLIB::FPTOSINT_F32_I64] = "__fixsfdi";
Names[RTLIB::FPTOSINT_F32_I128] = "__fixsfti";
- Names[RTLIB::FPTOSINT_F64_I8] = "__fixdfqi";
- Names[RTLIB::FPTOSINT_F64_I16] = "__fixdfhi";
Names[RTLIB::FPTOSINT_F64_I32] = "__fixdfsi";
Names[RTLIB::FPTOSINT_F64_I64] = "__fixdfdi";
Names[RTLIB::FPTOSINT_F64_I128] = "__fixdfti";
Names[RTLIB::FPTOSINT_PPCF128_I32] = "__fixtfsi";
Names[RTLIB::FPTOSINT_PPCF128_I64] = "__fixtfdi";
Names[RTLIB::FPTOSINT_PPCF128_I128] = "__fixtfti";
- Names[RTLIB::FPTOUINT_F32_I8] = "__fixunssfqi";
- Names[RTLIB::FPTOUINT_F32_I16] = "__fixunssfhi";
Names[RTLIB::FPTOUINT_F32_I32] = "__fixunssfsi";
Names[RTLIB::FPTOUINT_F32_I64] = "__fixunssfdi";
Names[RTLIB::FPTOUINT_F32_I128] = "__fixunssfti";
- Names[RTLIB::FPTOUINT_F64_I8] = "__fixunsdfqi";
- Names[RTLIB::FPTOUINT_F64_I16] = "__fixunsdfhi";
Names[RTLIB::FPTOUINT_F64_I32] = "__fixunsdfsi";
Names[RTLIB::FPTOUINT_F64_I64] = "__fixunsdfdi";
Names[RTLIB::FPTOUINT_F64_I128] = "__fixunsdfti";
/// UNKNOWN_LIBCALL if there is none.
RTLIB::Libcall RTLIB::getFPTOSINT(EVT OpVT, EVT RetVT) {
if (OpVT == MVT::f32) {
- if (RetVT == MVT::i8)
- return FPTOSINT_F32_I8;
- if (RetVT == MVT::i16)
- return FPTOSINT_F32_I16;
if (RetVT == MVT::i32)
return FPTOSINT_F32_I32;
if (RetVT == MVT::i64)
if (RetVT == MVT::i128)
return FPTOSINT_F32_I128;
} else if (OpVT == MVT::f64) {
- if (RetVT == MVT::i8)
- return FPTOSINT_F64_I8;
- if (RetVT == MVT::i16)
- return FPTOSINT_F64_I16;
if (RetVT == MVT::i32)
return FPTOSINT_F64_I32;
if (RetVT == MVT::i64)
/// UNKNOWN_LIBCALL if there is none.
RTLIB::Libcall RTLIB::getFPTOUINT(EVT OpVT, EVT RetVT) {
if (OpVT == MVT::f32) {
- if (RetVT == MVT::i8)
- return FPTOUINT_F32_I8;
- if (RetVT == MVT::i16)
- return FPTOUINT_F32_I16;
if (RetVT == MVT::i32)
return FPTOUINT_F32_I32;
if (RetVT == MVT::i64)
if (RetVT == MVT::i128)
return FPTOUINT_F32_I128;
} else if (OpVT == MVT::f64) {
- if (RetVT == MVT::i8)
- return FPTOUINT_F64_I8;
- if (RetVT == MVT::i16)
- return FPTOUINT_F64_I16;
if (RetVT == MVT::i32)
return FPTOUINT_F64_I32;
if (RetVT == MVT::i64)
TargetLoweringBase::emitPatchPoint(MachineInstr *MI,
MachineBasicBlock *MBB) const {
MachineFunction &MF = *MI->getParent()->getParent();
+ MachineFrameInfo &MFI = *MF.getFrameInfo();
+
+ // We're handling multiple types of operands here:
+ // PATCHPOINT MetaArgs - live-in, read only, direct
+ // STATEPOINT Deopt Spill - live-through, read only, indirect
+ // STATEPOINT Deopt Alloca - live-through, read only, direct
+ // (We're currently conservative and mark the deopt slots read/write in
+ // practice.)
+ // STATEPOINT GC Spill - live-through, read/write, indirect
+ // STATEPOINT GC Alloca - live-through, read/write, direct
+ // The live-in vs live-through is handled already (the live through ones are
+ // all stack slots), but we need to handle the different type of stackmap
+ // operands and memory effects here.
// MI changes inside this loop as we grow operands.
for(unsigned OperIdx = 0; OperIdx != MI->getNumOperands(); ++OperIdx) {
// Copy operands before the frame-index.
for (unsigned i = 0; i < OperIdx; ++i)
MIB.addOperand(MI->getOperand(i));
- // Add frame index operands: direct-mem-ref tag, #FI, offset.
- MIB.addImm(StackMaps::DirectMemRefOp);
- MIB.addOperand(MI->getOperand(OperIdx));
- MIB.addImm(0);
+ // Add frame index operands recognized by stackmaps.cpp
+ if (MFI.isStatepointSpillSlotObjectIndex(FI)) {
+ // indirect-mem-ref tag, size, #FI, offset.
+ // Used for spills inserted by StatepointLowering. This codepath is not
+ // used for patchpoints/stackmaps at all, for these spilling is done via
+ // foldMemoryOperand callback only.
+ assert(MI->getOpcode() == TargetOpcode::STATEPOINT && "sanity");
+ MIB.addImm(StackMaps::IndirectMemRefOp);
+ MIB.addImm(MFI.getObjectSize(FI));
+ MIB.addOperand(MI->getOperand(OperIdx));
+ MIB.addImm(0);
+ } else {
+ // direct-mem-ref tag, #FI, offset.
+ // Used by patchpoint, and direct alloca arguments to statepoints
+ MIB.addImm(StackMaps::DirectMemRefOp);
+ MIB.addOperand(MI->getOperand(OperIdx));
+ MIB.addImm(0);
+ }
// Copy the operands after the frame index.
for (unsigned i = OperIdx + 1; i != MI->getNumOperands(); ++i)
MIB.addOperand(MI->getOperand(i));
assert(MIB->mayLoad() && "Folded a stackmap use to a non-load!");
// Add a new memory operand for this FI.
- const MachineFrameInfo &MFI = *MF.getFrameInfo();
assert(MFI.getObjectOffset(FI) != -1);
unsigned Flags = MachineMemOperand::MOLoad;