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which have successfully round-tripped through the combine phase, and use this to ensure all operands to DAG nodes are visited by the combiner, even if they are only added during the combine phase. This is critical to have the combiner reach nodes that are *introduced* during combining. Previously these would sometimes be visited and sometimes not be visited based on whether they happened to end up on the worklist or not. Now we always run them through the combiner. This fixes quite a few bad codegen test cases lurking in the suite while also being more principled. Among these, the TLS codegeneration is particularly exciting for programs that have this in the critical path like TSan-instrumented binaries (although I think they engineer to use a different TLS that is faster anyways). I've tried to check for compile-time regressions here by running llc over a merged (but not LTO-ed) clang bitcode file and observed at most a 3% slowdown in llc. Given that this is essentially a worst case (none of opt or clang are running at this phase) I think this is tolerable. The actual LTO case should be even less costly, and the cost in normal compilation should be negligible. With this combining logic, it is possible to re-legalize as we combine which is necessary to implement PSHUFB formation on x86 as a post-legalize DAG combine (my ultimate goal). Differential Revision: http://reviews.llvm.org/D4638 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@213898 91177308-0d34-0410-b5e6-96231b3b80d8
169 lines
4.0 KiB
LLVM
169 lines
4.0 KiB
LLVM
; rdar://7860110
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; RUN: llc -asm-verbose=false < %s | FileCheck %s -check-prefix=X64
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; RUN: llc -march=x86 -asm-verbose=false < %s | FileCheck %s -check-prefix=X32
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target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64"
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target triple = "x86_64-apple-darwin10.2"
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define void @test1(i32* nocapture %a0, i8 zeroext %a1) nounwind ssp {
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entry:
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%A = load i32* %a0, align 4
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%B = and i32 %A, -256 ; 0xFFFFFF00
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%C = zext i8 %a1 to i32
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%D = or i32 %C, %B
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store i32 %D, i32* %a0, align 4
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ret void
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; X64-LABEL: test1:
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; X64: movb %sil, (%rdi)
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; X32-LABEL: test1:
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; X32: movb 8(%esp), %al
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; X32: movb %al, (%{{.*}})
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}
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define void @test2(i32* nocapture %a0, i8 zeroext %a1) nounwind ssp {
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entry:
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%A = load i32* %a0, align 4
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%B = and i32 %A, -65281 ; 0xFFFF00FF
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%C = zext i8 %a1 to i32
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%CS = shl i32 %C, 8
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%D = or i32 %B, %CS
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store i32 %D, i32* %a0, align 4
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ret void
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; X64-LABEL: test2:
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; X64: movb %sil, 1(%rdi)
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; X32-LABEL: test2:
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; X32: movb 8(%esp), %[[REG:[abcd]]]l
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; X32: movb %[[REG]]l, 1(%{{.*}})
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}
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define void @test3(i32* nocapture %a0, i16 zeroext %a1) nounwind ssp {
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entry:
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%A = load i32* %a0, align 4
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%B = and i32 %A, -65536 ; 0xFFFF0000
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%C = zext i16 %a1 to i32
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%D = or i32 %B, %C
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store i32 %D, i32* %a0, align 4
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ret void
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; X64-LABEL: test3:
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; X64: movw %si, (%rdi)
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; X32-LABEL: test3:
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; X32: movw 8(%esp), %ax
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; X32: movw %ax, (%{{.*}})
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}
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define void @test4(i32* nocapture %a0, i16 zeroext %a1) nounwind ssp {
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entry:
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%A = load i32* %a0, align 4
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%B = and i32 %A, 65535 ; 0x0000FFFF
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%C = zext i16 %a1 to i32
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%CS = shl i32 %C, 16
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%D = or i32 %B, %CS
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store i32 %D, i32* %a0, align 4
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ret void
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; X64-LABEL: test4:
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; X64: movw %si, 2(%rdi)
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; X32-LABEL: test4:
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; X32: movw 8(%esp), %[[REG:[abcd]]]x
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; X32: movw %[[REG]]x, 2(%{{.*}})
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}
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define void @test5(i64* nocapture %a0, i16 zeroext %a1) nounwind ssp {
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entry:
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%A = load i64* %a0, align 4
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%B = and i64 %A, -4294901761 ; 0xFFFFFFFF0000FFFF
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%C = zext i16 %a1 to i64
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%CS = shl i64 %C, 16
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%D = or i64 %B, %CS
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store i64 %D, i64* %a0, align 4
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ret void
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; X64-LABEL: test5:
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; X64: movw %si, 2(%rdi)
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; X32-LABEL: test5:
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; X32: movw 8(%esp), %[[REG:[abcd]]]x
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; X32: movw %[[REG]]x, 2(%{{.*}})
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}
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define void @test6(i64* nocapture %a0, i8 zeroext %a1) nounwind ssp {
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entry:
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%A = load i64* %a0, align 4
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%B = and i64 %A, -280375465082881 ; 0xFFFF00FFFFFFFFFF
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%C = zext i8 %a1 to i64
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%CS = shl i64 %C, 40
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%D = or i64 %B, %CS
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store i64 %D, i64* %a0, align 4
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ret void
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; X64-LABEL: test6:
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; X64: movb %sil, 5(%rdi)
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; X32-LABEL: test6:
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; X32: movb 8(%esp), %[[REG:[abcd]l]]
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; X32: movb %[[REG]], 5(%{{.*}})
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}
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define i32 @test7(i64* nocapture %a0, i8 zeroext %a1, i32* %P2) nounwind {
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entry:
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%OtherLoad = load i32 *%P2
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%A = load i64* %a0, align 4
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%B = and i64 %A, -280375465082881 ; 0xFFFF00FFFFFFFFFF
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%C = zext i8 %a1 to i64
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%CS = shl i64 %C, 40
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%D = or i64 %B, %CS
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store i64 %D, i64* %a0, align 4
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ret i32 %OtherLoad
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; X64-LABEL: test7:
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; X64: movb %sil, 5(%rdi)
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; X32-LABEL: test7:
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; X32: movb 8(%esp), %[[REG:[abcd]l]]
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; X32: movb %[[REG]], 5(%{{.*}})
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}
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; PR7833
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@g_16 = internal global i32 -1
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; X64-LABEL: test8:
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; X64-NEXT: movl _g_16(%rip), %eax
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; X64-NEXT: movl $0, _g_16(%rip)
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; X64-NEXT: orl $1, %eax
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; X64-NEXT: movl %eax, _g_16(%rip)
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; X64-NEXT: ret
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define void @test8() nounwind {
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%tmp = load i32* @g_16
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store i32 0, i32* @g_16
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%or = or i32 %tmp, 1
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store i32 %or, i32* @g_16
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ret void
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}
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; X64-LABEL: test9:
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; X64-NEXT: orb $1, _g_16(%rip)
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; X64-NEXT: ret
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define void @test9() nounwind {
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%tmp = load i32* @g_16
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%or = or i32 %tmp, 1
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store i32 %or, i32* @g_16
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ret void
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}
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; rdar://8494845 + PR8244
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; X64-LABEL: test10:
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; X64-NEXT: movsbl (%rdi), %eax
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; X64-NEXT: shrl $8, %eax
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; X64-NEXT: ret
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define i8 @test10(i8* %P) nounwind ssp {
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entry:
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%tmp = load i8* %P, align 1
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%conv = sext i8 %tmp to i32
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%shr3 = lshr i32 %conv, 8
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%conv2 = trunc i32 %shr3 to i8
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ret i8 %conv2
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}
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