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[PowerPC] Expand constrained ppc_fp128 to i32 conversion

Libcall __gcc_qtou is not available, which breaks some tests needing
it. On PowerPC, we have code to manually expand the operation, this
patch applies it to constrained conversion. To keep it strict-safe,
it's using the algorithm similar to expandFP_TO_UINT.

For constrained operations marking FP exception behavior as 'ignore',
we should set the NoFPExcept flag. However, in some custom lowering
the flag is missed. This should be fixed by future patches.

Reviewed By: uweigand

Differential Revision: https://reviews.llvm.org/D86605
This commit is contained in:
Qiu Chaofan 2020-09-05 13:16:20 +08:00
parent af4c0a6b56
commit 6da3508c40
5 changed files with 336 additions and 99 deletions

View File

@ -262,6 +262,8 @@ PPCTargetLowering::PPCTargetLowering(const PPCTargetMachine &TM,
// PPC (the libcall is not available).
setOperationAction(ISD::FP_TO_SINT, MVT::ppcf128, Custom);
setOperationAction(ISD::FP_TO_UINT, MVT::ppcf128, Custom);
setOperationAction(ISD::STRICT_FP_TO_SINT, MVT::ppcf128, Custom);
setOperationAction(ISD::STRICT_FP_TO_UINT, MVT::ppcf128, Custom);
// We do not currently implement these libm ops for PowerPC.
setOperationAction(ISD::FFLOOR, MVT::ppcf128, Expand);
@ -1505,6 +1507,8 @@ const char *PPCTargetLowering::getTargetNodeName(unsigned Opcode) const {
return "PPCISD::TLS_DYNAMIC_MAT_PCREL_ADDR";
case PPCISD::LD_SPLAT: return "PPCISD::LD_SPLAT";
case PPCISD::FNMSUB: return "PPCISD::FNMSUB";
case PPCISD::STRICT_FADDRTZ:
return "PPCISD::STRICT_FADDRTZ";
case PPCISD::STRICT_FCTIDZ:
return "PPCISD::STRICT_FCTIDZ";
case PPCISD::STRICT_FCTIWZ:
@ -8164,38 +8168,86 @@ SDValue PPCTargetLowering::LowerFP_TO_INT(SDValue Op, SelectionDAG &DAG,
bool IsSigned = Op.getOpcode() == ISD::FP_TO_SINT ||
Op.getOpcode() == ISD::STRICT_FP_TO_SINT;
SDValue Src = Op.getOperand(IsStrict ? 1 : 0);
EVT SrcVT = Src.getValueType();
EVT DstVT = Op.getValueType();
// FP to INT conversions are legal for f128.
if (Src.getValueType() == MVT::f128)
if (SrcVT == MVT::f128)
return Op;
// Expand ppcf128 to i32 by hand for the benefit of llvm-gcc bootstrap on
// PPC (the libcall is not available).
if (Src.getValueType() == MVT::ppcf128 && !IsStrict) {
if (Op.getValueType() == MVT::i32) {
if (SrcVT == MVT::ppcf128) {
if (DstVT == MVT::i32) {
// TODO: Conservatively pass only nofpexcept flag here. Need to check and
// set other fast-math flags to FP operations in both strict and
// non-strict cases. (FP_TO_SINT, FSUB)
SDNodeFlags Flags;
Flags.setNoFPExcept(Op->getFlags().hasNoFPExcept());
if (IsSigned) {
SDValue Lo = DAG.getNode(ISD::EXTRACT_ELEMENT, dl, MVT::f64, Src,
DAG.getIntPtrConstant(0, dl));
SDValue Hi = DAG.getNode(ISD::EXTRACT_ELEMENT, dl, MVT::f64, Src,
DAG.getIntPtrConstant(1, dl));
// Add the two halves of the long double in round-to-zero mode.
// Add the two halves of the long double in round-to-zero mode, and use
// a smaller FP_TO_SINT.
if (IsStrict) {
SDValue Res = DAG.getNode(PPCISD::STRICT_FADDRTZ, dl,
DAG.getVTList(MVT::f64, MVT::Other),
{Op.getOperand(0), Lo, Hi}, Flags);
return DAG.getNode(ISD::STRICT_FP_TO_SINT, dl,
DAG.getVTList(MVT::i32, MVT::Other),
{Res.getValue(1), Res}, Flags);
} else {
SDValue Res = DAG.getNode(PPCISD::FADDRTZ, dl, MVT::f64, Lo, Hi);
// Now use a smaller FP_TO_SINT.
return DAG.getNode(ISD::FP_TO_SINT, dl, MVT::i32, Res);
}
} else {
const uint64_t TwoE31[] = {0x41e0000000000000LL, 0};
APFloat APF = APFloat(APFloat::PPCDoubleDouble(), APInt(128, TwoE31));
SDValue Tmp = DAG.getConstantFP(APF, dl, MVT::ppcf128);
SDValue Cst = DAG.getConstantFP(APF, dl, SrcVT);
SDValue SignMask = DAG.getConstant(0x80000000, dl, DstVT);
if (IsStrict) {
// Sel = Src < 0x80000000
// FltOfs = select Sel, 0.0, 0x80000000
// IntOfs = select Sel, 0, 0x80000000
// Result = fp_to_sint(Src - FltOfs) ^ IntOfs
SDValue Chain = Op.getOperand(0);
EVT SetCCVT =
getSetCCResultType(DAG.getDataLayout(), *DAG.getContext(), SrcVT);
EVT DstSetCCVT =
getSetCCResultType(DAG.getDataLayout(), *DAG.getContext(), DstVT);
SDValue Sel =
DAG.getSetCC(dl, SetCCVT, Src, Cst, ISD::SETLT, Chain, true);
Chain = Sel.getValue(1);
SDValue FltOfs = DAG.getSelect(
dl, SrcVT, Sel, DAG.getConstantFP(0.0, dl, SrcVT), Cst);
Sel = DAG.getBoolExtOrTrunc(Sel, dl, DstSetCCVT, DstVT);
SDValue Val = DAG.getNode(ISD::STRICT_FSUB, dl,
DAG.getVTList(SrcVT, MVT::Other),
{Chain, Src, FltOfs}, Flags);
Chain = Val.getValue(1);
SDValue SInt = DAG.getNode(ISD::STRICT_FP_TO_SINT, dl,
DAG.getVTList(DstVT, MVT::Other),
{Chain, Val}, Flags);
Chain = SInt.getValue(1);
SDValue IntOfs = DAG.getSelect(
dl, DstVT, Sel, DAG.getConstant(0, dl, DstVT), SignMask);
SDValue Result = DAG.getNode(ISD::XOR, dl, DstVT, SInt, IntOfs);
return DAG.getMergeValues({Result, Chain}, dl);
} else {
// X>=2^31 ? (int)(X-2^31)+0x80000000 : (int)X
// FIXME: generated code sucks.
// TODO: Are there fast-math-flags to propagate to this FSUB?
SDValue True = DAG.getNode(ISD::FSUB, dl, MVT::ppcf128, Src, Tmp);
SDValue True = DAG.getNode(ISD::FSUB, dl, MVT::ppcf128, Src, Cst);
True = DAG.getNode(ISD::FP_TO_SINT, dl, MVT::i32, True);
True = DAG.getNode(ISD::ADD, dl, MVT::i32, True,
DAG.getConstant(0x80000000, dl, MVT::i32));
True = DAG.getNode(ISD::ADD, dl, MVT::i32, True, SignMask);
SDValue False = DAG.getNode(ISD::FP_TO_SINT, dl, MVT::i32, Src);
return DAG.getSelectCC(dl, Src, Tmp, True, False, ISD::SETGE);
return DAG.getSelectCC(dl, Src, Cst, True, False, ISD::SETGE);
}
}
}
@ -12170,7 +12222,11 @@ PPCTargetLowering::EmitInstrWithCustomInserter(MachineInstr &MI,
.addReg(PPC::RM, RegState::ImplicitDefine);
// Perform addition.
BuildMI(*BB, MI, dl, TII->get(PPC::FADD), Dest).addReg(Src1).addReg(Src2);
auto MIB = BuildMI(*BB, MI, dl, TII->get(PPC::FADD), Dest)
.addReg(Src1)
.addReg(Src2);
if (MI.getFlag(MachineInstr::NoFPExcept))
MIB.setMIFlag(MachineInstr::NoFPExcept);
// Restore FPSCR value.
BuildMI(*BB, MI, dl, TII->get(PPC::MTFSFb)).addImm(1).addReg(MFFSReg);

View File

@ -453,6 +453,9 @@ namespace llvm {
STRICT_FCFIDS,
STRICT_FCFIDUS,
/// Constrained floating point add in round-to-zero mode.
STRICT_FADDRTZ,
/// CHAIN = STBRX CHAIN, GPRC, Ptr, Type - This is a
/// byte-swapping store instruction. It byte-swaps the low "Type" bits of
/// the GPRC input, then stores it through Ptr. Type can be either i16 or

View File

@ -182,7 +182,12 @@ def PPCmffs : SDNode<"PPCISD::MFFS",
// Perform FADD in round-to-zero mode.
def PPCfaddrtz: SDNode<"PPCISD::FADDRTZ", SDTFPBinOp, []>;
def PPCstrict_faddrtz: SDNode<"PPCISD::STRICT_FADDRTZ", SDTFPBinOp,
[SDNPHasChain]>;
def PPCany_faddrtz: PatFrags<(ops node:$lhs, node:$rhs),
[(PPCfaddrtz node:$lhs, node:$rhs),
(PPCstrict_faddrtz node:$lhs, node:$rhs)]>;
def PPCfsel : SDNode<"PPCISD::FSEL",
// Type constraint for fsel.
@ -2960,9 +2965,9 @@ def : InstAlias<"mtcr $rA", (MTCRF 255, gprc:$rA)>;
let Predicates = [HasFPU] in {
// Custom inserter instruction to perform FADD in round-to-zero mode.
let Uses = [RM] in {
let Uses = [RM], mayRaiseFPException = 1 in {
def FADDrtz: PPCCustomInserterPseudo<(outs f8rc:$FRT), (ins f8rc:$FRA, f8rc:$FRB), "",
[(set f64:$FRT, (PPCfaddrtz f64:$FRA, f64:$FRB))]>;
[(set f64:$FRT, (PPCany_faddrtz f64:$FRA, f64:$FRB))]>;
}
// The above pseudo gets expanded to make use of the following instructions

View File

@ -403,47 +403,39 @@ entry:
define signext i32 @ppcq_to_i32(ppc_fp128 %m) #0 {
; P8-LABEL: ppcq_to_i32:
; P8: # %bb.0: # %entry
; P8-NEXT: mflr r0
; P8-NEXT: std r0, 16(r1)
; P8-NEXT: stdu r1, -112(r1)
; P8-NEXT: .cfi_def_cfa_offset 112
; P8-NEXT: .cfi_offset lr, 16
; P8-NEXT: bl __gcc_qtou
; P8-NEXT: nop
; P8-NEXT: mffs f0
; P8-NEXT: mtfsb1 31
; P8-NEXT: mtfsb0 30
; P8-NEXT: fadd f1, f2, f1
; P8-NEXT: mtfsf 1, f0
; P8-NEXT: xscvdpsxws f0, f1
; P8-NEXT: mffprwz r3, f0
; P8-NEXT: extsw r3, r3
; P8-NEXT: addi r1, r1, 112
; P8-NEXT: ld r0, 16(r1)
; P8-NEXT: mtlr r0
; P8-NEXT: blr
;
; P9-LABEL: ppcq_to_i32:
; P9: # %bb.0: # %entry
; P9-NEXT: mflr r0
; P9-NEXT: std r0, 16(r1)
; P9-NEXT: stdu r1, -32(r1)
; P9-NEXT: .cfi_def_cfa_offset 32
; P9-NEXT: .cfi_offset lr, 16
; P9-NEXT: bl __gcc_qtou
; P9-NEXT: nop
; P9-NEXT: mffs f0
; P9-NEXT: mtfsb1 31
; P9-NEXT: mtfsb0 30
; P9-NEXT: fadd f1, f2, f1
; P9-NEXT: mtfsf 1, f0
; P9-NEXT: xscvdpsxws f0, f1
; P9-NEXT: mffprwz r3, f0
; P9-NEXT: extsw r3, r3
; P9-NEXT: addi r1, r1, 32
; P9-NEXT: ld r0, 16(r1)
; P9-NEXT: mtlr r0
; P9-NEXT: blr
;
; NOVSX-LABEL: ppcq_to_i32:
; NOVSX: # %bb.0: # %entry
; NOVSX-NEXT: mflr r0
; NOVSX-NEXT: std r0, 16(r1)
; NOVSX-NEXT: stdu r1, -32(r1)
; NOVSX-NEXT: .cfi_def_cfa_offset 32
; NOVSX-NEXT: .cfi_offset lr, 16
; NOVSX-NEXT: bl __gcc_qtou
; NOVSX-NEXT: nop
; NOVSX-NEXT: extsw r3, r3
; NOVSX-NEXT: addi r1, r1, 32
; NOVSX-NEXT: ld r0, 16(r1)
; NOVSX-NEXT: mtlr r0
; NOVSX-NEXT: mffs f0
; NOVSX-NEXT: mtfsb1 31
; NOVSX-NEXT: addi r3, r1, -4
; NOVSX-NEXT: mtfsb0 30
; NOVSX-NEXT: fadd f1, f2, f1
; NOVSX-NEXT: mtfsf 1, f0
; NOVSX-NEXT: fctiwz f0, f1
; NOVSX-NEXT: stfiwx f0, 0, r3
; NOVSX-NEXT: lwa r3, -4(r1)
; NOVSX-NEXT: blr
entry:
%conv = tail call i32 @llvm.experimental.constrained.fptosi.i32.ppcf128(ppc_fp128 %m, metadata !"fpexcept.strict") #0
@ -549,12 +541,40 @@ define zeroext i32 @ppcq_to_u32(ppc_fp128 %m) #0 {
; P8: # %bb.0: # %entry
; P8-NEXT: mflr r0
; P8-NEXT: std r0, 16(r1)
; P8-NEXT: stdu r1, -112(r1)
; P8-NEXT: .cfi_def_cfa_offset 112
; P8-NEXT: stdu r1, -128(r1)
; P8-NEXT: .cfi_def_cfa_offset 128
; P8-NEXT: .cfi_offset lr, 16
; P8-NEXT: bl __fixunstfsi
; P8-NEXT: .cfi_offset r30, -16
; P8-NEXT: addis r3, r2, .LCPI11_0@toc@ha
; P8-NEXT: xxlxor f3, f3, f3
; P8-NEXT: std r30, 112(r1) # 8-byte Folded Spill
; P8-NEXT: lfs f0, .LCPI11_0@toc@l(r3)
; P8-NEXT: fcmpo cr0, f2, f3
; P8-NEXT: lis r3, -32768
; P8-NEXT: xxlxor f3, f3, f3
; P8-NEXT: fcmpo cr1, f1, f0
; P8-NEXT: crand 4*cr5+lt, 4*cr1+eq, lt
; P8-NEXT: crandc 4*cr5+gt, 4*cr1+lt, 4*cr1+eq
; P8-NEXT: cror 4*cr5+lt, 4*cr5+gt, 4*cr5+lt
; P8-NEXT: isel r30, 0, r3, 4*cr5+lt
; P8-NEXT: bc 12, 4*cr5+lt, .LBB11_2
; P8-NEXT: # %bb.1: # %entry
; P8-NEXT: fmr f3, f0
; P8-NEXT: .LBB11_2: # %entry
; P8-NEXT: xxlxor f4, f4, f4
; P8-NEXT: bl __gcc_qsub
; P8-NEXT: nop
; P8-NEXT: addi r1, r1, 112
; P8-NEXT: mffs f0
; P8-NEXT: mtfsb1 31
; P8-NEXT: mtfsb0 30
; P8-NEXT: fadd f1, f2, f1
; P8-NEXT: mtfsf 1, f0
; P8-NEXT: xscvdpsxws f0, f1
; P8-NEXT: mffprwz r3, f0
; P8-NEXT: xor r3, r3, r30
; P8-NEXT: ld r30, 112(r1) # 8-byte Folded Reload
; P8-NEXT: clrldi r3, r3, 32
; P8-NEXT: addi r1, r1, 128
; P8-NEXT: ld r0, 16(r1)
; P8-NEXT: mtlr r0
; P8-NEXT: blr
@ -562,28 +582,88 @@ define zeroext i32 @ppcq_to_u32(ppc_fp128 %m) #0 {
; P9-LABEL: ppcq_to_u32:
; P9: # %bb.0: # %entry
; P9-NEXT: mflr r0
; P9-NEXT: std r0, 16(r1)
; P9-NEXT: stdu r1, -32(r1)
; P9-NEXT: .cfi_def_cfa_offset 32
; P9-NEXT: .cfi_def_cfa_offset 48
; P9-NEXT: .cfi_offset lr, 16
; P9-NEXT: bl __fixunstfsi
; P9-NEXT: .cfi_offset r30, -16
; P9-NEXT: std r30, -16(r1) # 8-byte Folded Spill
; P9-NEXT: std r0, 16(r1)
; P9-NEXT: stdu r1, -48(r1)
; P9-NEXT: addis r3, r2, .LCPI11_0@toc@ha
; P9-NEXT: xxlxor f3, f3, f3
; P9-NEXT: lfs f0, .LCPI11_0@toc@l(r3)
; P9-NEXT: fcmpo cr1, f2, f3
; P9-NEXT: lis r3, -32768
; P9-NEXT: fcmpo cr0, f1, f0
; P9-NEXT: xxlxor f3, f3, f3
; P9-NEXT: crand 4*cr5+lt, eq, 4*cr1+lt
; P9-NEXT: crandc 4*cr5+gt, lt, eq
; P9-NEXT: cror 4*cr5+lt, 4*cr5+gt, 4*cr5+lt
; P9-NEXT: isel r30, 0, r3, 4*cr5+lt
; P9-NEXT: bc 12, 4*cr5+lt, .LBB11_2
; P9-NEXT: # %bb.1: # %entry
; P9-NEXT: fmr f3, f0
; P9-NEXT: .LBB11_2: # %entry
; P9-NEXT: xxlxor f4, f4, f4
; P9-NEXT: bl __gcc_qsub
; P9-NEXT: nop
; P9-NEXT: addi r1, r1, 32
; P9-NEXT: mffs f0
; P9-NEXT: mtfsb1 31
; P9-NEXT: mtfsb0 30
; P9-NEXT: fadd f1, f2, f1
; P9-NEXT: mtfsf 1, f0
; P9-NEXT: xscvdpsxws f0, f1
; P9-NEXT: mffprwz r3, f0
; P9-NEXT: xor r3, r3, r30
; P9-NEXT: clrldi r3, r3, 32
; P9-NEXT: addi r1, r1, 48
; P9-NEXT: ld r0, 16(r1)
; P9-NEXT: ld r30, -16(r1) # 8-byte Folded Reload
; P9-NEXT: mtlr r0
; P9-NEXT: blr
;
; NOVSX-LABEL: ppcq_to_u32:
; NOVSX: # %bb.0: # %entry
; NOVSX-NEXT: mfocrf r12, 32
; NOVSX-NEXT: mflr r0
; NOVSX-NEXT: std r0, 16(r1)
; NOVSX-NEXT: stdu r1, -32(r1)
; NOVSX-NEXT: .cfi_def_cfa_offset 32
; NOVSX-NEXT: stw r12, 8(r1)
; NOVSX-NEXT: stdu r1, -48(r1)
; NOVSX-NEXT: .cfi_def_cfa_offset 48
; NOVSX-NEXT: .cfi_offset lr, 16
; NOVSX-NEXT: bl __fixunstfsi
; NOVSX-NEXT: .cfi_offset cr2, 8
; NOVSX-NEXT: addis r3, r2, .LCPI11_0@toc@ha
; NOVSX-NEXT: addis r4, r2, .LCPI11_1@toc@ha
; NOVSX-NEXT: lfs f0, .LCPI11_0@toc@l(r3)
; NOVSX-NEXT: lfs f4, .LCPI11_1@toc@l(r4)
; NOVSX-NEXT: fcmpo cr0, f1, f0
; NOVSX-NEXT: fcmpo cr1, f2, f4
; NOVSX-NEXT: fmr f3, f4
; NOVSX-NEXT: crand 4*cr5+lt, eq, 4*cr1+lt
; NOVSX-NEXT: crandc 4*cr5+gt, lt, eq
; NOVSX-NEXT: cror 4*cr2+lt, 4*cr5+gt, 4*cr5+lt
; NOVSX-NEXT: bc 12, 4*cr2+lt, .LBB11_2
; NOVSX-NEXT: # %bb.1: # %entry
; NOVSX-NEXT: fmr f3, f0
; NOVSX-NEXT: .LBB11_2: # %entry
; NOVSX-NEXT: bl __gcc_qsub
; NOVSX-NEXT: nop
; NOVSX-NEXT: addi r1, r1, 32
; NOVSX-NEXT: mffs f0
; NOVSX-NEXT: mtfsb1 31
; NOVSX-NEXT: addi r3, r1, 44
; NOVSX-NEXT: mtfsb0 30
; NOVSX-NEXT: fadd f1, f2, f1
; NOVSX-NEXT: mtfsf 1, f0
; NOVSX-NEXT: fctiwz f0, f1
; NOVSX-NEXT: stfiwx f0, 0, r3
; NOVSX-NEXT: lis r3, -32768
; NOVSX-NEXT: lwz r4, 44(r1)
; NOVSX-NEXT: isel r3, 0, r3, 4*cr2+lt
; NOVSX-NEXT: xor r3, r4, r3
; NOVSX-NEXT: clrldi r3, r3, 32
; NOVSX-NEXT: addi r1, r1, 48
; NOVSX-NEXT: ld r0, 16(r1)
; NOVSX-NEXT: lwz r12, 8(r1)
; NOVSX-NEXT: mtocrf 32, r12
; NOVSX-NEXT: mtlr r0
; NOVSX-NEXT: blr
entry:
@ -747,12 +827,17 @@ entry:
ret fp128 %conv
}
define void @fptoint_nofpexcept(fp128 %m, i32* %addr1, i64* %addr2) {
define void @fptoint_nofpexcept(ppc_fp128 %p, fp128 %m, i32* %addr1, i64* %addr2) {
; MIR-LABEL: name: fptoint_nofpexcept
; MIR: renamable $v{{[0-9]+}} = nofpexcept XSCVQPSWZ
; MIR: renamable $v{{[0-9]+}} = nofpexcept XSCVQPUWZ
; MIR: renamable $v{{[0-9]+}} = nofpexcept XSCVQPSDZ
; MIR: renamable $v{{[0-9]+}} = nofpexcept XSCVQPUDZ
;
; MIR: renamable $f{{[0-9]+}} = nofpexcept FADD
; MIR: renamable $f{{[0-9]+}} = XSCVDPSXWS
; MIR: renamable $f{{[0-9]+}} = nofpexcept FADD
; MIR: renamable $f{{[0-9]+}} = XSCVDPSXWS
entry:
%conv1 = tail call i32 @llvm.experimental.constrained.fptosi.i32.f128(fp128 %m, metadata !"fpexcept.ignore") #0
store volatile i32 %conv1, i32* %addr1, align 4
@ -762,6 +847,11 @@ entry:
store volatile i64 %conv3, i64* %addr2, align 8
%conv4 = tail call i64 @llvm.experimental.constrained.fptoui.i64.f128(fp128 %m, metadata !"fpexcept.ignore") #0
store volatile i64 %conv4, i64* %addr2, align 8
%conv5 = tail call i32 @llvm.experimental.constrained.fptosi.i32.ppcf128(ppc_fp128 %p, metadata !"fpexcept.ignore") #0
store volatile i32 %conv5, i32* %addr1, align 4
%conv6 = tail call i32 @llvm.experimental.constrained.fptoui.i32.ppcf128(ppc_fp128 %p, metadata !"fpexcept.ignore") #0
store volatile i32 %conv6, i32* %addr1, align 4
ret void
}

View File

@ -1202,38 +1202,36 @@ entry:
define i32 @test_fptosi_ppc_i32_ppc_fp128(ppc_fp128 %first) #0 {
; PC64LE-LABEL: test_fptosi_ppc_i32_ppc_fp128:
; PC64LE: # %bb.0: # %entry
; PC64LE-NEXT: mflr 0
; PC64LE-NEXT: std 0, 16(1)
; PC64LE-NEXT: stdu 1, -32(1)
; PC64LE-NEXT: bl __gcc_qtou
; PC64LE-NEXT: nop
; PC64LE-NEXT: addi 1, 1, 32
; PC64LE-NEXT: ld 0, 16(1)
; PC64LE-NEXT: mtlr 0
; PC64LE-NEXT: mffs 0
; PC64LE-NEXT: mtfsb1 31
; PC64LE-NEXT: mtfsb0 30
; PC64LE-NEXT: fadd 1, 2, 1
; PC64LE-NEXT: mtfsf 1, 0
; PC64LE-NEXT: xscvdpsxws 0, 1
; PC64LE-NEXT: mffprwz 3, 0
; PC64LE-NEXT: blr
;
; PC64LE9-LABEL: test_fptosi_ppc_i32_ppc_fp128:
; PC64LE9: # %bb.0: # %entry
; PC64LE9-NEXT: mflr 0
; PC64LE9-NEXT: std 0, 16(1)
; PC64LE9-NEXT: stdu 1, -32(1)
; PC64LE9-NEXT: bl __gcc_qtou
; PC64LE9-NEXT: nop
; PC64LE9-NEXT: addi 1, 1, 32
; PC64LE9-NEXT: ld 0, 16(1)
; PC64LE9-NEXT: mtlr 0
; PC64LE9-NEXT: mffs 0
; PC64LE9-NEXT: mtfsb1 31
; PC64LE9-NEXT: mtfsb0 30
; PC64LE9-NEXT: fadd 1, 2, 1
; PC64LE9-NEXT: mtfsf 1, 0
; PC64LE9-NEXT: xscvdpsxws 0, 1
; PC64LE9-NEXT: mffprwz 3, 0
; PC64LE9-NEXT: blr
;
; PC64-LABEL: test_fptosi_ppc_i32_ppc_fp128:
; PC64: # %bb.0: # %entry
; PC64-NEXT: mflr 0
; PC64-NEXT: std 0, 16(1)
; PC64-NEXT: stdu 1, -112(1)
; PC64-NEXT: bl __gcc_qtou
; PC64-NEXT: nop
; PC64-NEXT: addi 1, 1, 112
; PC64-NEXT: ld 0, 16(1)
; PC64-NEXT: mtlr 0
; PC64-NEXT: mffs 0
; PC64-NEXT: mtfsb1 31
; PC64-NEXT: mtfsb0 30
; PC64-NEXT: fadd 1, 2, 1
; PC64-NEXT: mtfsf 1, 0
; PC64-NEXT: fctiwz 0, 1
; PC64-NEXT: stfd 0, -8(1)
; PC64-NEXT: lwz 3, -4(1)
; PC64-NEXT: blr
entry:
%fpext = call i32 @llvm.experimental.constrained.fptosi.i32.ppcf128(
@ -1289,24 +1287,76 @@ define i32 @test_fptoui_ppc_i32_ppc_fp128(ppc_fp128 %first) #0 {
; PC64LE-LABEL: test_fptoui_ppc_i32_ppc_fp128:
; PC64LE: # %bb.0: # %entry
; PC64LE-NEXT: mflr 0
; PC64LE-NEXT: std 30, -16(1) # 8-byte Folded Spill
; PC64LE-NEXT: std 0, 16(1)
; PC64LE-NEXT: stdu 1, -32(1)
; PC64LE-NEXT: bl __fixunstfsi
; PC64LE-NEXT: stdu 1, -48(1)
; PC64LE-NEXT: addis 3, 2, .LCPI31_0@toc@ha
; PC64LE-NEXT: xxlxor 3, 3, 3
; PC64LE-NEXT: lfs 0, .LCPI31_0@toc@l(3)
; PC64LE-NEXT: fcmpo 0, 2, 3
; PC64LE-NEXT: lis 3, -32768
; PC64LE-NEXT: xxlxor 3, 3, 3
; PC64LE-NEXT: fcmpo 1, 1, 0
; PC64LE-NEXT: crand 20, 6, 0
; PC64LE-NEXT: crandc 21, 4, 6
; PC64LE-NEXT: cror 20, 21, 20
; PC64LE-NEXT: isel 30, 0, 3, 20
; PC64LE-NEXT: bc 12, 20, .LBB31_2
; PC64LE-NEXT: # %bb.1: # %entry
; PC64LE-NEXT: fmr 3, 0
; PC64LE-NEXT: .LBB31_2: # %entry
; PC64LE-NEXT: xxlxor 4, 4, 4
; PC64LE-NEXT: bl __gcc_qsub
; PC64LE-NEXT: nop
; PC64LE-NEXT: addi 1, 1, 32
; PC64LE-NEXT: mffs 0
; PC64LE-NEXT: mtfsb1 31
; PC64LE-NEXT: mtfsb0 30
; PC64LE-NEXT: fadd 1, 2, 1
; PC64LE-NEXT: mtfsf 1, 0
; PC64LE-NEXT: xscvdpsxws 0, 1
; PC64LE-NEXT: mffprwz 3, 0
; PC64LE-NEXT: xor 3, 3, 30
; PC64LE-NEXT: addi 1, 1, 48
; PC64LE-NEXT: ld 0, 16(1)
; PC64LE-NEXT: ld 30, -16(1) # 8-byte Folded Reload
; PC64LE-NEXT: mtlr 0
; PC64LE-NEXT: blr
;
; PC64LE9-LABEL: test_fptoui_ppc_i32_ppc_fp128:
; PC64LE9: # %bb.0: # %entry
; PC64LE9-NEXT: mflr 0
; PC64LE9-NEXT: std 30, -16(1) # 8-byte Folded Spill
; PC64LE9-NEXT: std 0, 16(1)
; PC64LE9-NEXT: stdu 1, -32(1)
; PC64LE9-NEXT: bl __fixunstfsi
; PC64LE9-NEXT: stdu 1, -48(1)
; PC64LE9-NEXT: addis 3, 2, .LCPI31_0@toc@ha
; PC64LE9-NEXT: xxlxor 3, 3, 3
; PC64LE9-NEXT: lfs 0, .LCPI31_0@toc@l(3)
; PC64LE9-NEXT: fcmpo 1, 2, 3
; PC64LE9-NEXT: lis 3, -32768
; PC64LE9-NEXT: fcmpo 0, 1, 0
; PC64LE9-NEXT: xxlxor 3, 3, 3
; PC64LE9-NEXT: crand 20, 2, 4
; PC64LE9-NEXT: crandc 21, 0, 2
; PC64LE9-NEXT: cror 20, 21, 20
; PC64LE9-NEXT: isel 30, 0, 3, 20
; PC64LE9-NEXT: bc 12, 20, .LBB31_2
; PC64LE9-NEXT: # %bb.1: # %entry
; PC64LE9-NEXT: fmr 3, 0
; PC64LE9-NEXT: .LBB31_2: # %entry
; PC64LE9-NEXT: xxlxor 4, 4, 4
; PC64LE9-NEXT: bl __gcc_qsub
; PC64LE9-NEXT: nop
; PC64LE9-NEXT: addi 1, 1, 32
; PC64LE9-NEXT: mffs 0
; PC64LE9-NEXT: mtfsb1 31
; PC64LE9-NEXT: mtfsb0 30
; PC64LE9-NEXT: fadd 1, 2, 1
; PC64LE9-NEXT: mtfsf 1, 0
; PC64LE9-NEXT: xscvdpsxws 0, 1
; PC64LE9-NEXT: mffprwz 3, 0
; PC64LE9-NEXT: xor 3, 3, 30
; PC64LE9-NEXT: addi 1, 1, 48
; PC64LE9-NEXT: ld 0, 16(1)
; PC64LE9-NEXT: ld 30, -16(1) # 8-byte Folded Reload
; PC64LE9-NEXT: mtlr 0
; PC64LE9-NEXT: blr
;
@ -1314,12 +1364,45 @@ define i32 @test_fptoui_ppc_i32_ppc_fp128(ppc_fp128 %first) #0 {
; PC64: # %bb.0: # %entry
; PC64-NEXT: mflr 0
; PC64-NEXT: std 0, 16(1)
; PC64-NEXT: stdu 1, -112(1)
; PC64-NEXT: bl __fixunstfsi
; PC64-NEXT: mfcr 12
; PC64-NEXT: stw 12, 8(1)
; PC64-NEXT: stdu 1, -128(1)
; PC64-NEXT: addis 3, 2, .LCPI31_0@toc@ha
; PC64-NEXT: lfs 0, .LCPI31_0@toc@l(3)
; PC64-NEXT: addis 3, 2, .LCPI31_1@toc@ha
; PC64-NEXT: lfs 4, .LCPI31_1@toc@l(3)
; PC64-NEXT: fcmpo 0, 1, 0
; PC64-NEXT: crandc 21, 0, 2
; PC64-NEXT: fcmpo 1, 2, 4
; PC64-NEXT: crand 20, 2, 4
; PC64-NEXT: cror 8, 21, 20
; PC64-NEXT: fmr 3, 4
; PC64-NEXT: bc 12, 8, .LBB31_2
; PC64-NEXT: # %bb.1: # %entry
; PC64-NEXT: fmr 3, 0
; PC64-NEXT: .LBB31_2: # %entry
; PC64-NEXT: bl __gcc_qsub
; PC64-NEXT: nop
; PC64-NEXT: addi 1, 1, 112
; PC64-NEXT: mffs 0
; PC64-NEXT: mtfsb1 31
; PC64-NEXT: lis 4, -32768
; PC64-NEXT: bc 12, 8, .LBB31_3
; PC64-NEXT: b .LBB31_4
; PC64-NEXT: .LBB31_3: # %entry
; PC64-NEXT: li 4, 0
; PC64-NEXT: .LBB31_4: # %entry
; PC64-NEXT: mtfsb0 30
; PC64-NEXT: fadd 1, 2, 1
; PC64-NEXT: mtfsf 1, 0
; PC64-NEXT: fctiwz 0, 1
; PC64-NEXT: stfd 0, 120(1)
; PC64-NEXT: lwz 3, 124(1)
; PC64-NEXT: xor 3, 3, 4
; PC64-NEXT: addi 1, 1, 128
; PC64-NEXT: ld 0, 16(1)
; PC64-NEXT: lwz 12, 8(1)
; PC64-NEXT: mtlr 0
; PC64-NEXT: mtcrf 32, 12 # cr2
; PC64-NEXT: blr
entry:
%fpext = call i32 @llvm.experimental.constrained.fptoui.i32.ppcf128(