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[X86][GlobalISel] Add limited argument lowering support to the IRTranslator.

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Summary:
Add limited (i8/i16/i32/i64)  argument lowering support to the IRTranslator.
Inspired by commit 289940.

Reviewers: t.p.northover, qcolombet, ab, zvi, rovka

Reviewed By: rovka

Subscribers: dberris, rovka, kristof.beyls, llvm-commits

Differential Revision: https://reviews.llvm.org/D28987

llvm-svn: 293427
This commit is contained in:
Igor Breger 2017-01-29 08:35:42 +00:00
parent 71f68d4a4e
commit 704eff8858
3 changed files with 234 additions and 2 deletions
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73
lib/Target/X86/X86CallLowering.cpp
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@ -16,10 +16,18 @@
#include "X86CallLowering.h"
#include "X86ISelLowering.h"
#include "X86InstrInfo.h"
#include "X86TargetMachine.h"
#include "X86CallingConv.h"
#include "llvm/CodeGen/GlobalISel/MachineIRBuilder.h"
#include "llvm/CodeGen/MachineValueType.h"
#include "llvm/CodeGen/MachineRegisterInfo.h"
#include "llvm/Target/TargetSubtargetInfo.h"
using namespace llvm;
#include "X86GenCallingConv.inc"
#ifndef LLVM_BUILD_GLOBAL_ISEL
#error "This shouldn't be built without GISel"
#endif
@ -33,14 +41,75 @@ bool X86CallLowering::lowerReturn(MachineIRBuilder &MIRBuilder,
if (Val)
return false;
// silence unused-function warning, remove after the function implementation.
(void)RetCC_X86;
MIRBuilder.buildInstr(X86::RET).addImm(0);
return true;
}
namespace {
struct FormalArgHandler : public CallLowering::ValueHandler {
FormalArgHandler(MachineIRBuilder &MIRBuilder, MachineRegisterInfo &MRI,
CCAssignFn *AssignFn, const DataLayout &DL)
: ValueHandler(MIRBuilder, MRI, AssignFn), DL(DL) {}
unsigned getStackAddress(uint64_t Size, int64_t Offset,
MachinePointerInfo &MPO) override {
auto &MFI = MIRBuilder.getMF().getFrameInfo();
int FI = MFI.CreateFixedObject(Size, Offset, true);
MPO = MachinePointerInfo::getFixedStack(MIRBuilder.getMF(), FI);
unsigned AddrReg =
MRI.createGenericVirtualRegister(LLT::pointer(0,
DL.getPointerSizeInBits(0)));
MIRBuilder.buildFrameIndex(AddrReg, FI);
return AddrReg;
}
void assignValueToAddress(unsigned ValVReg, unsigned Addr, uint64_t Size,
MachinePointerInfo &MPO, CCValAssign &VA) override {
auto MMO = MIRBuilder.getMF().getMachineMemOperand(
MPO, MachineMemOperand::MOLoad | MachineMemOperand::MOInvariant, Size,
0);
MIRBuilder.buildLoad(ValVReg, Addr, *MMO);
}
void assignValueToReg(unsigned ValVReg, unsigned PhysReg,
CCValAssign &VA) override {
MIRBuilder.getMBB().addLiveIn(PhysReg);
MIRBuilder.buildCopy(ValVReg, PhysReg);
}
const DataLayout &DL;
};
}
bool X86CallLowering::lowerFormalArguments(MachineIRBuilder &MIRBuilder,
const Function &F,
ArrayRef<unsigned> VRegs) const {
// TODO: handle functions with one or more arguments.
return F.arg_empty();
if (F.arg_empty())
return true;
//TODO: handle variadic function
if (F.isVarArg())
return false;
auto DL = MIRBuilder.getMF().getDataLayout();
SmallVector<ArgInfo, 8> ArgInfos;
unsigned Idx = 0;
for (auto &Arg : F.getArgumentList()) {
ArgInfo AInfo(VRegs[Idx], Arg.getType());
setArgFlags(AInfo, Idx + 1, DL, F);
ArgInfos.push_back(AInfo);
Idx++;
}
FormalArgHandler ArgHandler(MIRBuilder, MIRBuilder.getMF().getRegInfo(),
CC_X86, DL);
return handleAssignments(MIRBuilder, ArgInfos, ArgHandler);
}

128
test/CodeGen/X86/GlobalISel/irtranslator-callingconv.ll Normal file
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@ -0,0 +1,128 @@
; RUN: llc -mtriple=i386-linux-gnu -global-isel -stop-after=irtranslator < %s -o - | FileCheck %s --check-prefix=ALL --check-prefix=X32
; RUN: llc -mtriple=x86_64-linux-gnu -global-isel -stop-after=irtranslator < %s -o - | FileCheck %s --check-prefix=ALL --check-prefix=X64
@a1_8bit = external global i8
@a7_8bit = external global i8
@a8_8bit = external global i8
define void @test_i8_args_8(i8 %arg1, i8 %arg2, i8 %arg3, i8 %arg4,
i8 %arg5, i8 %arg6, i8 %arg7, i8 %arg8) {
; ALL-LABEL: name: test_i8_args_8
; X64: fixedStack:
; X64: id: [[STACK8:[0-9]+]], offset: 8, size: 1, alignment: 8, isImmutable: true, isAliased: false
; X64: id: [[STACK0:[0-9]+]], offset: 0, size: 1, alignment: 16, isImmutable: true, isAliased: false
; X64: liveins: %ecx, %edi, %edx, %esi, %r8d, %r9d
; X64: [[ARG1:%[0-9]+]](s8) = COPY %edi
; X64-NEXT: %{{[0-9]+}}(s8) = COPY %esi
; X64-NEXT: %{{[0-9]+}}(s8) = COPY %edx
; X64-NEXT: %{{[0-9]+}}(s8) = COPY %ecx
; X64-NEXT: %{{[0-9]+}}(s8) = COPY %r8d
; X64-NEXT: %{{[0-9]+}}(s8) = COPY %r9d
; X64-NEXT: [[ARG7_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK0]]
; X64-NEXT: [[ARG7:%[0-9]+]](s8) = G_LOAD [[ARG7_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK0]], align 0)
; X64-NEXT: [[ARG8_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK8]]
; X64-NEXT: [[ARG8:%[0-9]+]](s8) = G_LOAD [[ARG8_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK8]], align 0)
; X32: fixedStack:
; X32: id: [[STACK28:[0-9]+]], offset: 28, size: 1, alignment: 4, isImmutable: true, isAliased: false }
; X32: id: [[STACK24:[0-9]+]], offset: 24, size: 1, alignment: 8, isImmutable: true, isAliased: false }
; X32: id: [[STACK20:[0-9]+]], offset: 20, size: 1, alignment: 4, isImmutable: true, isAliased: false }
; X32: id: [[STACK16:[0-9]+]], offset: 16, size: 1, alignment: 16, isImmutable: true, isAliased: false }
; X32: id: [[STACK12:[0-9]+]], offset: 12, size: 1, alignment: 4, isImmutable: true, isAliased: false }
; X32: id: [[STACK8:[0-9]+]], offset: 8, size: 1, alignment: 8, isImmutable: true, isAliased: false }
; X32: id: [[STACK4:[0-9]+]], offset: 4, size: 1, alignment: 4, isImmutable: true, isAliased: false }
; X32: id: [[STACK0:[0-9]+]], offset: 0, size: 1, alignment: 16, isImmutable: true, isAliased: false }
; X32: [[ARG1_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK0]]
; X32-NEXT: [[ARG1:%[0-9]+]](s8) = G_LOAD [[ARG1_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK0]], align 0)
; X32-NEXT: [[ARG2_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK4]]
; X32-NEXT: [[ARG2:%[0-9]+]](s8) = G_LOAD [[ARG2_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK4]], align 0)
; X32-NEXT: [[ARG3_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK8]]
; X32-NEXT: [[ARG3:%[0-9]+]](s8) = G_LOAD [[ARG3_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK8]], align 0)
; X32-NEXT: [[ARG4_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK12]]
; X32-NEXT: [[ARG4:%[0-9]+]](s8) = G_LOAD [[ARG4_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK12]], align 0)
; X32-NEXT: [[ARG5_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK16]]
; X32-NEXT: [[ARG5:%[0-9]+]](s8) = G_LOAD [[ARG5_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK16]], align 0)
; X32-NEXT: [[ARG6_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK20]]
; X32-NEXT: [[ARG6:%[0-9]+]](s8) = G_LOAD [[ARG6_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK20]], align 0)
; X32-NEXT: [[ARG7_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK24]]
; X32-NEXT: [[ARG7:%[0-9]+]](s8) = G_LOAD [[ARG7_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK24]], align 0)
; X32-NEXT: [[ARG8_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK28]]
; X32-NEXT: [[ARG8:%[0-9]+]](s8) = G_LOAD [[ARG8_ADDR]](p0) :: (invariant load 1 from %fixed-stack.[[STACK28]], align 0)
; ALL-NEXT: [[GADDR_A1:%[0-9]+]](p0) = G_GLOBAL_VALUE @a1_8bit
; ALL-NEXT: [[GADDR_A7:%[0-9]+]](p0) = G_GLOBAL_VALUE @a7_8bit
; ALL-NEXT: [[GADDR_A8:%[0-9]+]](p0) = G_GLOBAL_VALUE @a8_8bit
; ALL-NEXT: G_STORE [[ARG1]](s8), [[GADDR_A1]](p0) :: (store 1 into @a1_8bit)
; ALL-NEXT: G_STORE [[ARG7]](s8), [[GADDR_A7]](p0) :: (store 1 into @a7_8bit)
; ALL-NEXT: G_STORE [[ARG8]](s8), [[GADDR_A8]](p0) :: (store 1 into @a8_8bit)
entry:
store i8 %arg1, i8* @a1_8bit
store i8 %arg7, i8* @a7_8bit
store i8 %arg8, i8* @a8_8bit
ret void
}
@a1_32bit = external global i32
@a7_32bit = external global i32
@a8_32bit = external global i32
define void @test_i32_args_8(i32 %arg1, i32 %arg2, i32 %arg3, i32 %arg4,
i32 %arg5, i32 %arg6, i32 %arg7, i32 %arg8) {
; ALL-LABEL: name: test_i32_args_8
; X64: fixedStack:
; X64: id: [[STACK8:[0-9]+]], offset: 8, size: 4, alignment: 8, isImmutable: true, isAliased: false
; X64: id: [[STACK0:[0-9]+]], offset: 0, size: 4, alignment: 16, isImmutable: true, isAliased: false
; X64: liveins: %ecx, %edi, %edx, %esi, %r8d, %r9d
; X64: [[ARG1:%[0-9]+]](s32) = COPY %edi
; X64-NEXT: %{{[0-9]+}}(s32) = COPY %esi
; X64-NEXT: %{{[0-9]+}}(s32) = COPY %edx
; X64-NEXT: %{{[0-9]+}}(s32) = COPY %ecx
; X64-NEXT: %{{[0-9]+}}(s32) = COPY %r8d
; X64-NEXT: %{{[0-9]+}}(s32) = COPY %r9d
; X64-NEXT: [[ARG7_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK0]]
; X64-NEXT: [[ARG7:%[0-9]+]](s32) = G_LOAD [[ARG7_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK0]], align 0)
; X64-NEXT: [[ARG8_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK8]]
; X64-NEXT: [[ARG8:%[0-9]+]](s32) = G_LOAD [[ARG8_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK8]], align 0)
; X32: fixedStack:
; X32: id: [[STACK28:[0-9]+]], offset: 28, size: 4, alignment: 4, isImmutable: true, isAliased: false }
; X32: id: [[STACK24:[0-9]+]], offset: 24, size: 4, alignment: 8, isImmutable: true, isAliased: false }
; X32: id: [[STACK20:[0-9]+]], offset: 20, size: 4, alignment: 4, isImmutable: true, isAliased: false }
; X32: id: [[STACK16:[0-9]+]], offset: 16, size: 4, alignment: 16, isImmutable: true, isAliased: false }
; X32: id: [[STACK12:[0-9]+]], offset: 12, size: 4, alignment: 4, isImmutable: true, isAliased: false }
; X32: id: [[STACK8:[0-9]+]], offset: 8, size: 4, alignment: 8, isImmutable: true, isAliased: false }
; X32: id: [[STACK4:[0-9]+]], offset: 4, size: 4, alignment: 4, isImmutable: true, isAliased: false }
; X32: id: [[STACK0:[0-9]+]], offset: 0, size: 4, alignment: 16, isImmutable: true, isAliased: false }
; X32: [[ARG1_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK0]]
; X32-NEXT: [[ARG1:%[0-9]+]](s32) = G_LOAD [[ARG1_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK0]], align 0)
; X32-NEXT: [[ARG2_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK4]]
; X32-NEXT: [[ARG2:%[0-9]+]](s32) = G_LOAD [[ARG2_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK4]], align 0)
; X32-NEXT: [[ARG3_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK8]]
; X32-NEXT: [[ARG3:%[0-9]+]](s32) = G_LOAD [[ARG3_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK8]], align 0)
; X32-NEXT: [[ARG4_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK12]]
; X32-NEXT: [[ARG4:%[0-9]+]](s32) = G_LOAD [[ARG4_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK12]], align 0)
; X32-NEXT: [[ARG5_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK16]]
; X32-NEXT: [[ARG5:%[0-9]+]](s32) = G_LOAD [[ARG5_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK16]], align 0)
; X32-NEXT: [[ARG6_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK20]]
; X32-NEXT: [[ARG6:%[0-9]+]](s32) = G_LOAD [[ARG6_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK20]], align 0)
; X32-NEXT: [[ARG7_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK24]]
; X32-NEXT: [[ARG7:%[0-9]+]](s32) = G_LOAD [[ARG7_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK24]], align 0)
; X32-NEXT: [[ARG8_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK28]]
; X32-NEXT: [[ARG8:%[0-9]+]](s32) = G_LOAD [[ARG8_ADDR]](p0) :: (invariant load 4 from %fixed-stack.[[STACK28]], align 0)
; ALL-NEXT: [[GADDR_A1:%[0-9]+]](p0) = G_GLOBAL_VALUE @a1_32bit
; ALL-NEXT: [[GADDR_A7:%[0-9]+]](p0) = G_GLOBAL_VALUE @a7_32bit
; ALL-NEXT: [[GADDR_A8:%[0-9]+]](p0) = G_GLOBAL_VALUE @a8_32bit
; ALL-NEXT: G_STORE [[ARG1]](s32), [[GADDR_A1]](p0) :: (store 4 into @a1_32bit)
; ALL-NEXT: G_STORE [[ARG7]](s32), [[GADDR_A7]](p0) :: (store 4 into @a7_32bit)
; ALL-NEXT: G_STORE [[ARG8]](s32), [[GADDR_A8]](p0) :: (store 4 into @a8_32bit)
entry:
store i32 %arg1, i32* @a1_32bit
store i32 %arg7, i32* @a7_32bit
store i32 %arg8, i32* @a8_32bit
ret void
}

35
test/CodeGen/X86/GlobalISel/irtranslator-callingconv_64bit.ll Normal file
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@ -0,0 +1,35 @@
; RUN: llc -mtriple=x86_64-linux-gnu -global-isel -stop-after=irtranslator < %s -o - | FileCheck %s --check-prefix=X64
@a1_64bit = external global i64
@a7_64bit = external global i64
@a8_64bit = external global i64
define void @test_i64_args_8(i64 %arg1, i64 %arg2, i64 %arg3, i64 %arg4,
i64 %arg5, i64 %arg6, i64 %arg7, i64 %arg8) {
; X64-LABEL: name: test_i64_args_8
; X64: fixedStack:
; X64: id: [[STACK8:[0-9]+]], offset: 8, size: 8, alignment: 8, isImmutable: true, isAliased: false
; X64: id: [[STACK0:[0-9]+]], offset: 0, size: 8, alignment: 16, isImmutable: true, isAliased: false
; X64: liveins: %rcx, %rdi, %rdx, %rsi, %r8, %r9
; X64: [[ARG1:%[0-9]+]](s64) = COPY %rdi
; X64-NEXT: %{{[0-9]+}}(s64) = COPY %rsi
; X64-NEXT: %{{[0-9]+}}(s64) = COPY %rdx
; X64-NEXT: %{{[0-9]+}}(s64) = COPY %rcx
; X64-NEXT: %{{[0-9]+}}(s64) = COPY %r8
; X64-NEXT: %{{[0-9]+}}(s64) = COPY %r9
; X64-NEXT: [[ARG7_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK0]]
; X64-NEXT: [[ARG7:%[0-9]+]](s64) = G_LOAD [[ARG7_ADDR]](p0) :: (invariant load 8 from %fixed-stack.[[STACK0]], align 0)
; X64-NEXT: [[ARG8_ADDR:%[0-9]+]](p0) = G_FRAME_INDEX %fixed-stack.[[STACK8]]
; X64-NEXT: [[ARG8:%[0-9]+]](s64) = G_LOAD [[ARG8_ADDR]](p0) :: (invariant load 8 from %fixed-stack.[[STACK8]], align 0)
; X64-NEXT: [[GADDR_A1:%[0-9]+]](p0) = G_GLOBAL_VALUE @a1_64bit
; X64-NEXT: [[GADDR_A7:%[0-9]+]](p0) = G_GLOBAL_VALUE @a7_64bit
; X64-NEXT: [[GADDR_A8:%[0-9]+]](p0) = G_GLOBAL_VALUE @a8_64bit
; X64-NEXT: G_STORE [[ARG1]](s64), [[GADDR_A1]](p0) :: (store 8 into @a1_64bit)
; X64-NEXT: G_STORE [[ARG7]](s64), [[GADDR_A7]](p0) :: (store 8 into @a7_64bit)
; X64-NEXT: G_STORE [[ARG8]](s64), [[GADDR_A8]](p0) :: (store 8 into @a8_64bit)
entry:
store i64 %arg1, i64* @a1_64bit
store i64 %arg7, i64* @a7_64bit
store i64 %arg8, i64* @a8_64bit
ret void
}