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[PowerPC][AIX] ByVal formal arguments in a single register.

Adds support for passing ByVal formal arguments as long as they fit in a
single register.

Differential Revision: https://reviews.llvm.org/D76401
This commit is contained in:
Sean Fertile 2020-03-25 10:17:49 -04:00
parent 127c0e46d6
commit f0b5c97abf
3 changed files with 374 additions and 29 deletions

View File

@ -6861,9 +6861,14 @@ static bool CC_AIX(unsigned ValNo, MVT ValVT, MVT LocVT,
const unsigned ByValSize = ArgFlags.getByValSize();
// An empty aggregate parameter takes up no storage and no registers.
if (ByValSize == 0)
// An empty aggregate parameter takes up no storage and no registers,
// but needs a MemLoc for a stack slot for the formal arguments side.
if (ByValSize == 0) {
State.addLoc(CCValAssign::getMem(ValNo, MVT::INVALID_SIMPLE_VALUE_TYPE,
State.getNextStackOffset(), RegVT,
LocInfo));
return false;
}
if (ByValSize <= PtrByteSize) {
State.AllocateStack(PtrByteSize, PtrByteSize);
@ -6978,6 +6983,24 @@ static SDValue truncateScalarIntegerArg(ISD::ArgFlagsTy Flags, EVT ValVT,
return DAG.getNode(ISD::TRUNCATE, dl, ValVT, ArgValue);
}
static unsigned mapArgRegToOffsetAIX(unsigned Reg, const PPCFrameLowering *FL) {
const unsigned LASize = FL->getLinkageSize();
if (PPC::GPRCRegClass.contains(Reg)) {
assert(Reg >= PPC::R3 && Reg <= PPC::R10 &&
"Reg must be a valid argument register!");
return LASize + 4 * (Reg - PPC::R3);
}
if (PPC::G8RCRegClass.contains(Reg)) {
assert(Reg >= PPC::X3 && Reg <= PPC::X10 &&
"Reg must be a valid argument register!");
return LASize + 8 * (Reg - PPC::X3);
}
llvm_unreachable("Only general purpose registers expected.");
}
SDValue PPCTargetLowering::LowerFormalArguments_AIX(
SDValue Chain, CallingConv::ID CallConv, bool isVarArg,
const SmallVectorImpl<ISD::InputArg> &Ins, const SDLoc &dl,
@ -7015,12 +7038,12 @@ SDValue PPCTargetLowering::LowerFormalArguments_AIX(
CCInfo.AllocateStack(LinkageSize, PtrByteSize);
CCInfo.AnalyzeFormalArguments(Ins, CC_AIX);
SmallVector<SDValue, 8> MemOps;
for (CCValAssign &VA : ArgLocs) {
EVT ValVT = VA.getValVT();
MVT LocVT = VA.getLocVT();
ISD::ArgFlagsTy Flags = Ins[VA.getValNo()].Flags;
assert(!Flags.isByVal() &&
"Passing structure by value is unimplemented for formal arguments.");
assert((VA.isRegLoc() || VA.isMemLoc()) &&
"Unexpected location for function call argument.");
@ -7033,6 +7056,59 @@ SDValue PPCTargetLowering::LowerFormalArguments_AIX(
if (VA.isMemLoc() && VA.needsCustom())
continue;
if (Flags.isByVal() && VA.isMemLoc()) {
if (Flags.getByValSize() != 0)
report_fatal_error(
"ByVal arguments passed on stack not implemented yet");
const int FI = MF.getFrameInfo().CreateFixedObject(
PtrByteSize, VA.getLocMemOffset(), /* IsImmutable */ false,
/* IsAliased */ true);
SDValue FIN = DAG.getFrameIndex(FI, PtrVT);
InVals.push_back(FIN);
continue;
}
if (Flags.isByVal()) {
assert(VA.isRegLoc() && "MemLocs should already be handled.");
const unsigned ByValSize = Flags.getByValSize();
if (ByValSize > PtrByteSize)
report_fatal_error("Formal arguments greater then register size not "
"implemented yet.");
const MCPhysReg ArgReg = VA.getLocReg();
const PPCFrameLowering *FL = Subtarget.getFrameLowering();
const unsigned Offset = mapArgRegToOffsetAIX(ArgReg, FL);
const unsigned StackSize = alignTo(ByValSize, PtrByteSize);
const int FI = MF.getFrameInfo().CreateFixedObject(
StackSize, Offset, /* IsImmutable */ false, /* IsAliased */ true);
SDValue FIN = DAG.getFrameIndex(FI, PtrVT);
InVals.push_back(FIN);
const unsigned VReg = MF.addLiveIn(ArgReg, IsPPC64 ? &PPC::G8RCRegClass
: &PPC::GPRCRegClass);
// Since the callers side has left justified the aggregate in the
// register, we can simply store the entire register into the stack
// slot.
// The store to the fixedstack object is needed becuase accessing a
// field of the ByVal will use a gep and load. Ideally we will optimize
// to extracting the value from the register directly, and elide the
// stores when the arguments address is not taken, but that will need to
// be future work.
SDValue CopyFrom = DAG.getCopyFromReg(Chain, dl, VReg, LocVT);
SDValue Store =
DAG.getStore(CopyFrom.getValue(1), dl, CopyFrom, FIN,
MachinePointerInfo::getFixedStack(MF, FI, 0));
MemOps.push_back(Store);
continue;
}
if (VA.isRegLoc()) {
MVT::SimpleValueType SVT = ValVT.getSimpleVT().SimpleTy;
unsigned VReg =
@ -7080,6 +7156,9 @@ SDValue PPCTargetLowering::LowerFormalArguments_AIX(
PPCFunctionInfo *FuncInfo = MF.getInfo<PPCFunctionInfo>();
FuncInfo->setMinReservedArea(CallerReservedArea);
if (!MemOps.empty())
Chain = DAG.getNode(ISD::TokenFactor, dl, MVT::Other, MemOps);
return Chain;
}
@ -7156,8 +7235,13 @@ SDValue PPCTargetLowering::LowerCall_AIX(
if (Flags.isByVal()) {
const unsigned ByValSize = Flags.getByValSize();
// Nothing to do for zero-sized ByVals on the caller side.
if (!ByValSize)
continue;
assert(
VA.isRegLoc() && ByValSize > 0 && ByValSize <= PtrByteSize &&
VA.isRegLoc() && ByValSize <= PtrByteSize &&
"Pass-by-value arguments are only supported in a single register.");
// Loads must be a power-of-2 size and cannot be larger than the

View File

@ -22,11 +22,10 @@
define void @call_test_byval_1Byte() {
entry:
%s0 = alloca %struct.S0, align 8
call void @test_byval_1Byte(%struct.S0* byval(%struct.S0) align 1 %s0, %struct.S1* byval(%struct.S1) align 1 @gS1)
%call = call zeroext i8 @test_byval_1Byte(%struct.S0* byval(%struct.S0) align 1 %s0, %struct.S1* byval(%struct.S1) align 1 @gS1)
ret void
}
declare void @test_byval_1Byte(%struct.S0* byval(%struct.S0) align 1, %struct.S1* byval(%struct.S1) align 1)
; CHECK-LABEL: name: call_test_byval_1Byte{{.*}}
@ -63,18 +62,59 @@ declare void @test_byval_1Byte(%struct.S0* byval(%struct.S0) align 1, %struct.S1
; ASM64-NEXT: nop
; ASM64-NEXT: addi 1, 1, 128
define zeroext i8 @test_byval_1Byte(%struct.S0* byval(%struct.S0) align 1 %s0, %struct.S1* byval(%struct.S1) align 1 %s) {
entry:
%arrayidx = getelementptr inbounds %struct.S1, %struct.S1* %s, i32 0, i32 0, i32 0
%0 = load i8, i8* %arrayidx, align 1
ret i8 %0
}
; CHECK-LABEL: name: test_byval_1Byte
; 32BIT: fixedStack:
; 32BIT-NEXT: - { id: 0, type: default, offset: 24, size: 4, alignment: 8, stack-id: default,
; 32BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 32BIT: - { id: 1, type: default, offset: 24, size: 4, alignment: 8, stack-id: default,
; 32BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 32BIT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3
; 32BIT: STW killed renamable $r3, 0, %fixed-stack.0 :: (store 4 into %fixed-stack.0, align 8)
; 32BIT-NEXT: renamable $r3 = LBZ 0, %fixed-stack.0 :: (dereferenceable load 1
; 32BIT-NEXT: BLR
; 64BIT: fixedStack:
; 64BIT-NEXT: - { id: 0, type: default, offset: 48, size: 8, alignment: 16, stack-id: default,
; 64BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 64BIT: - { id: 1, type: default, offset: 48, size: 8, alignment: 16, stack-id: default,
; 64BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 64BIT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3
; 64BIT: STD killed renamable $x3, 0, %fixed-stack.0 :: (store 8 into %fixed-stack.0, align 16)
; 64BIT-NEXT: renamable $x3 = LBZ8 0, %fixed-stack.0 :: (dereferenceable load 1
; CHECKASM-LABEL: .test_byval_1Byte:
; ASM32: stw 3, 24(1)
; ASM32-NEXT: lbz 3, 24(1)
; ASM32-NEXT: blr
; ASM64: std 3, 48(1)
; ASM64-NEXT: lbz 3, 48(1)
; ASM64-NEXT: blr
%struct.S2 = type { [2 x i8] }
@gS2 = external global %struct.S2, align 1
define void @call_test_byval_2Byte() {
entry:
call void @test_byval_2Byte(%struct.S2* byval(%struct.S2) align 1 @gS2)
%call = call zeroext i8 @test_byval_2Byte(%struct.S2* byval(%struct.S2) align 1 @gS2)
ret void
}
declare void @test_byval_2Byte(%struct.S2* byval(%struct.S2) align 1)
; CHECK-LABEL: name: call_test_byval_2Byte{{.*}}
; 32BIT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
@ -110,18 +150,51 @@ declare void @test_byval_2Byte(%struct.S2* byval(%struct.S2) align 1)
; ASM64-NEXT: nop
; ASM64-NEXT: addi 1, 1, 112
%struct.S3 = type <{ i8, i16 }>
define zeroext i8 @test_byval_2Byte(%struct.S2* byval(%struct.S2) align 1 %s) {
entry:
%arrayidx = getelementptr inbounds %struct.S2, %struct.S2* %s, i32 0, i32 0, i32 1
%0 = load i8, i8* %arrayidx, align 1
ret i8 %0
}
; CHECK-LABEL: name: test_byval_2Byte
; 32BIT: fixedStack:
; 32BIT-NEXT: - { id: 0, type: default, offset: 24, size: 4, alignment: 8, stack-id: default,
; 32BIT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3
; 32BIT: STW killed renamable $r3, 0, %fixed-stack.0 :: (store 4 into %fixed-stack.0, align 8)
; 32BIT-NEXT: renamable $r3 = LBZ 1, %fixed-stack.0 :: (dereferenceable load 1
; 64BIT: fixedStack:
; 64BIT-NEXT: - { id: 0, type: default, offset: 48, size: 8, alignment: 16, stack-id: default,
; 64BIT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3
; 64BIT: STD killed renamable $x3, 0, %fixed-stack.0 :: (store 8 into %fixed-stack.0, align 16)
; 64BIT-NEXT: renamable $x3 = LBZ8 1, %fixed-stack.0 :: (dereferenceable load 1
; CHECKASM-LABEL: .test_byval_2Byte:
; ASM32: stw 3, 24(1)
; ASM32-NEXT: lbz 3, 25(1)
; ASM32-NEXT: blr
; ASM64: std 3, 48(1)
; ASM64-NEXT: lbz 3, 49(1)
; ASM64-NEXT: blr
%struct.S3 = type <{ i8, i16 }>
@gS3 = external global %struct.S3, align 1
define void @call_test_byval_3Byte() {
entry:
call void @test_byval_3Byte(%struct.S3* byval(%struct.S3) align 1 @gS3)
%call = call zeroext i16 @test_byval_3Byte(%struct.S3* byval(%struct.S3) align 1 @gS3)
ret void
}
declare void @test_byval_3Byte(%struct.S3* byval(%struct.S3) align 1)
; CHECK-LABEL: name: call_test_byval_3Byte{{.*}}
; The DAG block permits some invalid inputs for the benefit of allowing more valid orderings.
@ -166,6 +239,44 @@ declare void @test_byval_3Byte(%struct.S3* byval(%struct.S3) align 1)
; ASM64-NEXT: bl .test_byval_3Byte
; ASM64-NEXT: nop
define zeroext i16 @test_byval_3Byte(%struct.S3* byval(%struct.S3) align 1 %s) {
entry:
%gep = getelementptr inbounds %struct.S3, %struct.S3* %s, i32 0, i32 1
%0 = load i16, i16* %gep, align 1
ret i16 %0
}
; CHECK-LABEL: name: test_byval_3Byte
; 32BIT: fixedStack:
; 32BIT-NEXT: - { id: 0, type: default, offset: 24, size: 4, alignment: 8, stack-id: default,
; 32BIT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3
; 32BIT: STW killed renamable $r3, 0, %fixed-stack.0 :: (store 4 into %fixed-stack.0, align 8)
; 32BIT-NEXT: renamable $r3 = LHZ 1, %fixed-stack.0 :: (dereferenceable load 2
; 64BIT: fixedStack:
; 64BIT-NEXT: - { id: 0, type: default, offset: 48, size: 8, alignment: 16, stack-id: default,
; 64BIT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3
; 64BIT: STD killed renamable $x3, 0, %fixed-stack.0 :: (store 8 into %fixed-stack.0, align 16)
; 64BIT-NEXT: renamable $x3 = LHZ8 1, %fixed-stack.0 :: (dereferenceable load 2
; CHECKASM-LABEL: .test_byval_3Byte:
; ASM32: stw 3, 24(1)
; ASM32-NEXT: lhz 3, 25(1)
; ASM32-NEXT: blr
; ASM64: std 3, 48(1)
; ASM64-NEXT: lhz 3, 49(1)
; ASM64-NEXT: blr
%struct.S4 = type { [4 x i8] }
%struct.S4A = type { i32 }
@ -175,12 +286,10 @@ define void @call_test_byval_4Byte() {
entry:
%s0 = alloca %struct.S0, align 8
%s4a = alloca %struct.S4A, align 4
call void @test_byval_4Byte(%struct.S4* byval(%struct.S4) align 1 @gS4, %struct.S0* byval(%struct.S0) align 1 %s0, %struct.S4A* byval(%struct.S4A) align 4 %s4a)
%call = call signext i32 @test_byval_4Byte(%struct.S4* byval(%struct.S4) align 1 @gS4, %struct.S0* byval(%struct.S0) align 1 %s0, %struct.S4A* byval(%struct.S4A) align 4 %s4a)
ret void
}
declare void @test_byval_4Byte(%struct.S4* byval(%struct.S4) align 1, %struct.S0* byval(%struct.S0) align 1, %struct.S4A* byval(%struct.S4A) align 4)
; CHECK-LABEL: name: call_test_byval_4Byte{{.*}}
; 32BIT: ADJCALLSTACKDOWN 56, 0, implicit-def dead $r1, implicit $r1
@ -219,3 +328,66 @@ declare void @test_byval_4Byte(%struct.S4* byval(%struct.S4) align 1, %struct.S0
; ASM64-NEXT: nop
; ASM64-NEXT: addi 1, 1, 128
define signext i32 @test_byval_4Byte(%struct.S4* byval(%struct.S4) align 1 %s, %struct.S0* byval(%struct.S0) align 1, %struct.S4A* byval(%struct.S4A) align 4 %s4a) {
entry:
%arrayidx = getelementptr inbounds %struct.S4, %struct.S4* %s, i32 0, i32 0, i32 3
%gep = getelementptr inbounds %struct.S4A, %struct.S4A* %s4a, i32 0, i32 0
%1 = load i8, i8* %arrayidx, align 1
%2 = load i32, i32* %gep, align 4
%conv = zext i8 %1 to i32
%add = add nsw i32 %2, %conv
ret i32 %add
}
; CHECK-LABEL: name: test_byval_4Byte
; 32BIT: fixedStack:
; 32BIT-NEXT: - { id: 0, type: default, offset: 28, size: 4, alignment: 4, stack-id: default,
; 32BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 32BIT: - { id: 1, type: default, offset: 28, size: 4, alignment: 4, stack-id: default,
; 32BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 32BIT: - { id: 2, type: default, offset: 24, size: 4, alignment: 8, stack-id: default,
; 32BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 32BIT: bb.0.entry:
; 32BIT-NEXT: liveins: $r3
; 32BIT: STW renamable $r3, 0, %fixed-stack.2 :: (store 4 into %fixed-stack.2, align 8)
; 32BIT-DAG: STW killed renamable $r4, 0, %fixed-stack.0 :: (store 4 into %fixed-stack.0)
; 32BIT-DAG: renamable $r[[SCRATCH:[0-9]+]] = RLWINM killed renamable $r3, 0, 24, 31
; 32BIT-DAG: renamable $r3 = nsw ADD4 renamable $r4, killed renamable $r[[SCRATCH]]
; 32BIT: BLR
; 64BIT: fixedStack:
; 64BIT-NEXT: - { id: 0, type: default, offset: 56, size: 8, alignment: 8, stack-id: default,
; 64BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 64BIT: - { id: 1, type: default, offset: 56, size: 8, alignment: 8, stack-id: default,
; 64BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 64BIT: - { id: 2, type: default, offset: 48, size: 8, alignment: 16, stack-id: default,
; 64BIT-NEXT: isImmutable: false, isAliased: true, callee-saved-register: '', callee-saved-restored: true,
; 64BIT: bb.0.entry:
; 64BIT-NEXT: liveins: $x3
; 64BIT: STD killed renamable $x3, 0, %fixed-stack.2 :: (store 8 into %fixed-stack.2, align 16)
; 64BIT-NEXT: STD killed renamable $x4, 0, %fixed-stack.0 :: (store 8 into %fixed-stack.0)
; 64BIT-DAG: renamable $r[[SCRATCH1:[0-9]+]] = LBZ 3, %fixed-stack.2 :: (dereferenceable load 1
; 64BIT-DAG: renamable $r[[SCRATCH2:[0-9]+]] = LWZ 0, %fixed-stack.0 :: (dereferenceable load 4
; 64BIT-NEXT: renamable $r[[SCRATCH3:[0-9]+]] = nsw ADD4 killed renamable $r[[SCRATCH2]], killed renamable $r[[SCRATCH1]]
; 64BIT-NEXT: renamable $x3 = EXTSW_32_64 killed renamable $r[[SCRATCH3]]
; 64BIT-NEXT: BLR8
; CHECKASM-LABEL: .test_byval_4Byte:
; ASM32: stw 3, 24(1)
; ASM32-DAG: stw 4, 28(1)
; ASM32-DAG: clrlwi [[SCRATCH:[0-9]+]], 3, 24
; ASM32-DAG: add 3, 4, [[SCRATCH]]
; ASM32-NEXT: blr
; ASM64: std 3, 48(1)
; ASM64-NEXT: std 4, 56(1)
; ASM64-DAG: lbz [[SCRATCH1:[0-9]+]], 51(1)
; ASM64-DAG: lwz [[SCRATCH2:[0-9]+]], 56(1)
; ASM64-NEXT: add [[SCRATCH3:[0-9]+]], [[SCRATCH2]], [[SCRATCH1]]
; ASM64-NEXT: extsw 3, [[SCRATCH3]]
; ASM64-NEXT: blr

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@ -12,12 +12,10 @@
define void @call_test_byval_5Byte() {
entry:
call void @test_byval_5Byte(%struct.S5* byval(%struct.S5) align 1 @gS5)
%call = call zeroext i8 @test_byval_5Byte(%struct.S5* byval(%struct.S5) align 1 @gS5)
ret void
}
declare void @test_byval_5Byte(%struct.S5* byval(%struct.S5) align 1)
; CHECK-LABEL: name: call_test_byval_5Byte{{.*}}
; ASM-LABEL: .call_test_byval_5Byte:
@ -42,18 +40,40 @@ declare void @test_byval_5Byte(%struct.S5* byval(%struct.S5) align 1)
; ASM-NEXT: bl .test_byval_5Byte
; ASM-NEXT: nop
define zeroext i8 @test_byval_5Byte(%struct.S5* byval(%struct.S5) align 1 %s) {
entry:
%arrayidx = getelementptr inbounds %struct.S5, %struct.S5* %s, i32 0, i32 0, i32 4
%0 = load i8, i8* %arrayidx, align 1
ret i8 %0
}
; CHECK-LABEL: name: test_byval_5Byte
; CHECK: fixedStack:
; CHECK-NEXT: - { id: 0, type: default, offset: 48, size: 8, alignment: 16,
; CHECK: bb.0.entry:
; CHECK-NEXT: liveins: $x3
; CHECK: STD killed renamable $x3, 0, %fixed-stack.0 :: (store 8 into %fixed-stack.0, align 16)
; CHECK-NEXT: renamable $x3 = LBZ8 4, %fixed-stack.0 :: (dereferenceable load 1
; CHECKASM-LABEL: .test_byval_5Byte:
; ASM: std 3, 48(1)
; ASM-NEXT: lbz 3, 52(1)
; ASM-NEXT: blr
%struct.S6 = type { [6 x i8] }
@gS6 = external global %struct.S6, align 1
define void @call_test_byval_6Byte() {
entry:
call void @test_byval_6Byte(%struct.S6* byval(%struct.S6) align 1 @gS6)
%call = call zeroext i8 @test_byval_6Byte(%struct.S6* byval(%struct.S6) align 1 @gS6)
ret void
}
declare void @test_byval_6Byte(%struct.S6* byval(%struct.S6) align 1)
; CHECK-LABEL: name: call_test_byval_6Byte{{.*}}
; ASM-LABEL: .call_test_byval_6Byte:
@ -78,18 +98,39 @@ declare void @test_byval_6Byte(%struct.S6* byval(%struct.S6) align 1)
; ASM-NEXT: bl .test_byval_6Byte
; ASM-NEXT: nop
define zeroext i8 @test_byval_6Byte(%struct.S6* byval(%struct.S6) align 1 %s) {
entry:
%arrayidx = getelementptr inbounds %struct.S6, %struct.S6* %s, i32 0, i32 0, i32 5
%0 = load i8, i8* %arrayidx, align 1
ret i8 %0
}
; CHECK-LABEL: name: test_byval_6Byte
; CHECK: fixedStack:
; CHECK-NEXT: - { id: 0, type: default, offset: 48, size: 8, alignment: 16,
; CHECK: bb.0.entry:
; CHECK-NEXT: liveins: $x3
; CHECK: STD killed renamable $x3, 0, %fixed-stack.0 :: (store 8 into %fixed-stack.0, align 16)
; CHECK-NEXT: renamable $x3 = LBZ8 5, %fixed-stack.0 :: (dereferenceable load 1
; CHECKASM-LABEL: .test_byval_6Byte:
; ASM: std 3, 48(1)
; ASM-NEXT: lbz 3, 53(1)
; ASM-NEXT: blr
%struct.S7 = type { [7 x i8] }
@gS7 = external global %struct.S7, align 1
define void @call_test_byval_7Byte() {
entry:
call void @test_byval_7Byte(%struct.S7* byval(%struct.S7) align 1 @gS7)
%call = call zeroext i8 @test_byval_7Byte(%struct.S7* byval(%struct.S7) align 1 @gS7)
ret void
}
declare void @test_byval_7Byte(%struct.S7* byval(%struct.S7) align 1)
; CHECK-LABEL: name: call_test_byval_7Byte{{.*}}
; ASM-LABEL: .call_test_byval_7Byte:
@ -118,18 +159,40 @@ declare void @test_byval_7Byte(%struct.S7* byval(%struct.S7) align 1)
; ASM-NEXT: bl .test_byval_7Byte
; ASM-NEXT: nop
define zeroext i8 @test_byval_7Byte(%struct.S7* byval(%struct.S7) align 1 %s) {
entry:
%arrayidx = getelementptr inbounds %struct.S7, %struct.S7* %s, i32 0, i32 0, i32 6
%0 = load i8, i8* %arrayidx, align 1
ret i8 %0
}
; CHECK-LABEL: name: test_byval_7Byte
; CHECK: fixedStack:
; CHECK-NEXT: - { id: 0, type: default, offset: 48, size: 8, alignment: 16,
; CHECK: bb.0.entry:
; CHECK-NEXT: liveins: $x3
; CHECK: STD killed renamable $x3, 0, %fixed-stack.0 :: (store 8 into %fixed-stack.0, align 16)
; CHECK-NEXT: renamable $x3 = LBZ8 6, %fixed-stack.0 :: (dereferenceable load 1
; CHECKASM-LABEL: .test_byval_7Byte:
; ASM: std 3, 48(1)
; ASM-NEXT: lbz 3, 54(1)
; ASM-NEXT: blr
%struct.S8 = type { [8 x i8] }
@gS8 = external global %struct.S8, align 1
define void @call_test_byval_8Byte() {
entry:
call void @test_byval_8Byte(%struct.S8* byval(%struct.S8) align 1 @gS8)
%call = call zeroext i8 @test_byval_8Byte(%struct.S8* byval(%struct.S8) align 1 @gS8)
ret void
}
declare void @test_byval_8Byte(%struct.S8* byval(%struct.S8) align 1)
; CHECK-LABEL: name: call_test_byval_8Byte{{.*}}
; ASM-LABEL: .call_test_byval_8Byte:
@ -145,3 +208,29 @@ declare void @test_byval_8Byte(%struct.S8* byval(%struct.S8) align 1)
; ASM-NEXT: ld 3, 0([[REGADDR]])
; ASM-NEXT: bl .test_byval_8Byte
; ASM-NEXT: nop
define zeroext i8 @test_byval_8Byte(%struct.S8* byval(%struct.S8) align 1 %s) {
entry:
%arrayidx = getelementptr inbounds %struct.S8, %struct.S8* %s, i32 0, i32 0, i32 7
%0 = load i8, i8* %arrayidx, align 1
ret i8 %0
}
; CHECK-LABEL: name: test_byval_8Byte
; CHECK: fixedStack:
; CHECK-NEXT: - { id: 0, type: default, offset: 48, size: 8, alignment: 16,
; CHECK: bb.0.entry:
; CHECK-NEXT: liveins: $x3
; CHECK: renamable $x[[SCRATCH:[0-9]+]] = COPY $x3
; CHECK-DAG: renamable $x3 = RLDICL $x3, 0, 56
; CHECK-DAG: STD killed renamable $x[[SCRATCH]], 0, %fixed-stack.0 :: (store 8 into %fixed-stack.0, align 16)
; CHECKASM-LABEL: .test_byval_8Byte:
; ASM: mr [[SCRATCH:[0-9]+]], 3
; ASM-DAG: clrldi 3, 3, 56
; ASM-DAG: std [[SCRATCH]], 48(1)
; ASM-NEXT: blr