mirror of
https://github.com/c64scene-ar/llvm-6502.git
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72847f3057
Original commit message: Defer some shl transforms to DAGCombine. The shl instruction is used to represent multiplication by a constant power of two as well as bitwise left shifts. Some InstCombine transformations would turn an shl instruction into a bit mask operation, making it difficult for later analysis passes to recognize the constsnt multiplication. Disable those shl transformations, deferring them to DAGCombine time. An 'shl X, C' instruction is now treated mostly the same was as 'mul X, C'. These transformations are deferred: (X >>? C) << C --> X & (-1 << C) (When X >> C has multiple uses) (X >>? C1) << C2 --> X << (C2-C1) & (-1 << C2) (When C2 > C1) (X >>? C1) << C2 --> X >>? (C1-C2) & (-1 << C2) (When C1 > C2) The corresponding exact transformations are preserved, just like div-exact + mul: (X >>?,exact C) << C --> X (X >>?,exact C1) << C2 --> X << (C2-C1) (X >>?,exact C1) << C2 --> X >>?,exact (C1-C2) The disabled transformations could also prevent the instruction selector from recognizing rotate patterns in hash functions and cryptographic primitives. I have a test case for that, but it is too fragile. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@155362 91177308-0d34-0410-b5e6-96231b3b80d8
662 lines
15 KiB
LLVM
662 lines
15 KiB
LLVM
; This test makes sure that these instructions are properly eliminated.
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;
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; RUN: opt < %s -instcombine -S | FileCheck %s
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define i32 @test1(i32 %A) {
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; CHECK: @test1
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; CHECK: ret i32 %A
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%B = shl i32 %A, 0 ; <i32> [#uses=1]
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ret i32 %B
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}
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define i32 @test2(i8 %A) {
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; CHECK: @test2
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; CHECK: ret i32 0
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%shift.upgrd.1 = zext i8 %A to i32 ; <i32> [#uses=1]
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%B = shl i32 0, %shift.upgrd.1 ; <i32> [#uses=1]
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ret i32 %B
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}
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define i32 @test3(i32 %A) {
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; CHECK: @test3
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; CHECK: ret i32 %A
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%B = ashr i32 %A, 0 ; <i32> [#uses=1]
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ret i32 %B
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}
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define i32 @test4(i8 %A) {
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; CHECK: @test4
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; CHECK: ret i32 0
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%shift.upgrd.2 = zext i8 %A to i32 ; <i32> [#uses=1]
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%B = ashr i32 0, %shift.upgrd.2 ; <i32> [#uses=1]
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ret i32 %B
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}
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define i32 @test5(i32 %A) {
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; CHECK: @test5
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; CHECK: ret i32 undef
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%B = lshr i32 %A, 32 ;; shift all bits out
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ret i32 %B
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}
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define i32 @test5a(i32 %A) {
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; CHECK: @test5a
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; CHECK: ret i32 undef
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%B = shl i32 %A, 32 ;; shift all bits out
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ret i32 %B
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}
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define i32 @test5b() {
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; CHECK: @test5b
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; CHECK: ret i32 -1
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%B = ashr i32 undef, 2 ;; top two bits must be equal, so not undef
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ret i32 %B
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}
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define i32 @test5b2(i32 %A) {
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; CHECK: @test5b2
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; CHECK: ret i32 -1
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%B = ashr i32 undef, %A ;; top %A bits must be equal, so not undef
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ret i32 %B
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}
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define i32 @test6(i32 %A) {
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; CHECK: @test6
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; CHECK-NEXT: mul i32 %A, 6
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; CHECK-NEXT: ret i32
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%B = shl i32 %A, 1 ;; convert to an mul instruction
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%C = mul i32 %B, 3
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ret i32 %C
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}
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define i32 @test6a(i32 %A) {
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; CHECK: @test6a
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; CHECK-NEXT: mul i32 %A, 6
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; CHECK-NEXT: ret i32
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%B = mul i32 %A, 3
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%C = shl i32 %B, 1 ;; convert to an mul instruction
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ret i32 %C
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}
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define i32 @test7(i8 %A) {
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; CHECK: @test7
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; CHECK-NEXT: ret i32 -1
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%shift.upgrd.3 = zext i8 %A to i32
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%B = ashr i32 -1, %shift.upgrd.3 ;; Always equal to -1
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ret i32 %B
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}
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;; (A << 5) << 3 === A << 8 == 0
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define i8 @test8(i8 %A) {
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; CHECK: @test8
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; CHECK: ret i8 0
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%B = shl i8 %A, 5 ; <i8> [#uses=1]
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%C = shl i8 %B, 3 ; <i8> [#uses=1]
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ret i8 %C
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}
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;; (A << 7) >> 7 === A & 1
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define i8 @test9(i8 %A) {
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; CHECK: @test9
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; CHECK-NEXT: and i8 %A, 1
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; CHECK-NEXT: ret i8
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%B = shl i8 %A, 7 ; <i8> [#uses=1]
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%C = lshr i8 %B, 7 ; <i8> [#uses=1]
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ret i8 %C
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}
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;; This transformation is deferred to DAGCombine:
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;; (A >> 7) << 7 === A & 128
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;; The shl may be valuable to scalar evolution.
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define i8 @test10(i8 %A) {
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; CHECK: @test10
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; CHECK-NEXT: and i8 %A, -128
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; CHECK-NEXT: ret i8
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%B = lshr i8 %A, 7 ; <i8> [#uses=1]
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%C = shl i8 %B, 7 ; <i8> [#uses=1]
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ret i8 %C
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}
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;; Allow the simplification when the lshr shift is exact.
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define i8 @test10a(i8 %A) {
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; CHECK: @test10a
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; CHECK-NEXT: ret i8 %A
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%B = lshr exact i8 %A, 7
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%C = shl i8 %B, 7
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ret i8 %C
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}
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;; This transformation is deferred to DAGCombine:
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;; (A >> 3) << 4 === (A & 0x1F) << 1
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;; The shl may be valuable to scalar evolution.
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define i8 @test11(i8 %A) {
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; CHECK: @test11
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; CHECK: shl i8
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; CHECK-NEXT: ret i8
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%a = mul i8 %A, 3 ; <i8> [#uses=1]
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%B = lshr i8 %a, 3 ; <i8> [#uses=1]
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%C = shl i8 %B, 4 ; <i8> [#uses=1]
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ret i8 %C
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}
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;; Allow the simplification in InstCombine when the lshr shift is exact.
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define i8 @test11a(i8 %A) {
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; CHECK: @test11a
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; CHECK-NEXT: mul i8 %A, 6
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; CHECK-NEXT: ret i8
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%a = mul i8 %A, 3
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%B = lshr exact i8 %a, 3
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%C = shl i8 %B, 4
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ret i8 %C
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}
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;; This is deferred to DAGCombine unless %B is single-use.
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;; (A >> 8) << 8 === A & -256
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define i32 @test12(i32 %A) {
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; CHECK: @test12
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; CHECK-NEXT: and i32 %A, -256
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; CHECK-NEXT: ret i32
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%B = ashr i32 %A, 8 ; <i32> [#uses=1]
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%C = shl i32 %B, 8 ; <i32> [#uses=1]
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ret i32 %C
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}
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;; This transformation is deferred to DAGCombine:
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;; (A >> 3) << 4 === (A & -8) * 2
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;; The shl may be valuable to scalar evolution.
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define i8 @test13(i8 %A) {
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; CHECK: @test13
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; CHECK: shl i8
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; CHECK-NEXT: ret i8
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%a = mul i8 %A, 3 ; <i8> [#uses=1]
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%B = ashr i8 %a, 3 ; <i8> [#uses=1]
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%C = shl i8 %B, 4 ; <i8> [#uses=1]
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ret i8 %C
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}
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define i8 @test13a(i8 %A) {
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; CHECK: @test13a
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; CHECK-NEXT: mul i8 %A, 6
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; CHECK-NEXT: ret i8
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%a = mul i8 %A, 3
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%B = ashr exact i8 %a, 3
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%C = shl i8 %B, 4
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ret i8 %C
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}
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;; D = ((B | 1234) << 4) === ((B << 4)|(1234 << 4)
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define i32 @test14(i32 %A) {
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; CHECK: @test14
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; CHECK-NEXT: %B = and i32 %A, -19760
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; CHECK-NEXT: or i32 %B, 19744
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; CHECK-NEXT: ret i32
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%B = lshr i32 %A, 4 ; <i32> [#uses=1]
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%C = or i32 %B, 1234 ; <i32> [#uses=1]
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%D = shl i32 %C, 4 ; <i32> [#uses=1]
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ret i32 %D
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}
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;; D = ((B | 1234) << 4) === ((B << 4)|(1234 << 4)
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define i32 @test14a(i32 %A) {
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; CHECK: @test14a
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; CHECK-NEXT: and i32 %A, 77
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; CHECK-NEXT: ret i32
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%B = shl i32 %A, 4 ; <i32> [#uses=1]
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%C = and i32 %B, 1234 ; <i32> [#uses=1]
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%D = lshr i32 %C, 4 ; <i32> [#uses=1]
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ret i32 %D
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}
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define i32 @test15(i1 %C) {
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; CHECK: @test15
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; CHECK-NEXT: select i1 %C, i32 12, i32 4
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; CHECK-NEXT: ret i32
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%A = select i1 %C, i32 3, i32 1 ; <i32> [#uses=1]
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%V = shl i32 %A, 2 ; <i32> [#uses=1]
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ret i32 %V
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}
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define i32 @test15a(i1 %C) {
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; CHECK: @test15a
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; CHECK-NEXT: select i1 %C, i32 512, i32 128
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; CHECK-NEXT: ret i32
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%A = select i1 %C, i8 3, i8 1 ; <i8> [#uses=1]
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%shift.upgrd.4 = zext i8 %A to i32 ; <i32> [#uses=1]
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%V = shl i32 64, %shift.upgrd.4 ; <i32> [#uses=1]
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ret i32 %V
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}
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define i1 @test16(i32 %X) {
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; CHECK: @test16
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; CHECK-NEXT: and i32 %X, 16
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; CHECK-NEXT: icmp ne i32
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; CHECK-NEXT: ret i1
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%tmp.3 = ashr i32 %X, 4
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%tmp.6 = and i32 %tmp.3, 1
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%tmp.7 = icmp ne i32 %tmp.6, 0
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ret i1 %tmp.7
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}
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define i1 @test17(i32 %A) {
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; CHECK: @test17
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; CHECK-NEXT: and i32 %A, -8
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; CHECK-NEXT: icmp eq i32
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; CHECK-NEXT: ret i1
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%B = lshr i32 %A, 3 ; <i32> [#uses=1]
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%C = icmp eq i32 %B, 1234 ; <i1> [#uses=1]
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ret i1 %C
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}
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define i1 @test18(i8 %A) {
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; CHECK: @test18
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; CHECK: ret i1 false
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%B = lshr i8 %A, 7 ; <i8> [#uses=1]
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;; false
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%C = icmp eq i8 %B, 123 ; <i1> [#uses=1]
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ret i1 %C
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}
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define i1 @test19(i32 %A) {
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; CHECK: @test19
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; CHECK-NEXT: icmp ult i32 %A, 4
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; CHECK-NEXT: ret i1
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%B = ashr i32 %A, 2 ; <i32> [#uses=1]
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;; (X & -4) == 0
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%C = icmp eq i32 %B, 0 ; <i1> [#uses=1]
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ret i1 %C
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}
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define i1 @test19a(i32 %A) {
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; CHECK: @test19a
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; CHECK-NEXT: and i32 %A, -4
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; CHECK-NEXT: icmp eq i32
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; CHECK-NEXT: ret i1
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%B = ashr i32 %A, 2 ; <i32> [#uses=1]
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;; (X & -4) == -4
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%C = icmp eq i32 %B, -1 ; <i1> [#uses=1]
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ret i1 %C
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}
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define i1 @test20(i8 %A) {
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; CHECK: @test20
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; CHECK: ret i1 false
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%B = ashr i8 %A, 7 ; <i8> [#uses=1]
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;; false
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%C = icmp eq i8 %B, 123 ; <i1> [#uses=1]
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ret i1 %C
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}
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define i1 @test21(i8 %A) {
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; CHECK: @test21
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; CHECK-NEXT: and i8 %A, 15
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; CHECK-NEXT: icmp eq i8
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; CHECK-NEXT: ret i1
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%B = shl i8 %A, 4 ; <i8> [#uses=1]
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%C = icmp eq i8 %B, -128 ; <i1> [#uses=1]
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ret i1 %C
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}
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define i1 @test22(i8 %A) {
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; CHECK: @test22
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; CHECK-NEXT: and i8 %A, 15
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; CHECK-NEXT: icmp eq i8
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; CHECK-NEXT: ret i1
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%B = shl i8 %A, 4 ; <i8> [#uses=1]
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%C = icmp eq i8 %B, 0 ; <i1> [#uses=1]
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ret i1 %C
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}
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define i8 @test23(i32 %A) {
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; CHECK: @test23
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; CHECK-NEXT: trunc i32 %A to i8
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; CHECK-NEXT: ret i8
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;; casts not needed
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%B = shl i32 %A, 24 ; <i32> [#uses=1]
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%C = ashr i32 %B, 24 ; <i32> [#uses=1]
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%D = trunc i32 %C to i8 ; <i8> [#uses=1]
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ret i8 %D
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}
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define i8 @test24(i8 %X) {
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; CHECK: @test24
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; CHECK-NEXT: and i8 %X, 3
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; CHECK-NEXT: ret i8
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%Y = and i8 %X, -5 ; <i8> [#uses=1]
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%Z = shl i8 %Y, 5 ; <i8> [#uses=1]
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%Q = ashr i8 %Z, 5 ; <i8> [#uses=1]
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ret i8 %Q
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}
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define i32 @test25(i32 %tmp.2, i32 %AA) {
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; CHECK: @test25
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; CHECK-NEXT: and i32 %tmp.2, -131072
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; CHECK-NEXT: add i32 %{{[^,]*}}, %AA
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; CHECK-NEXT: and i32 %{{[^,]*}}, -131072
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; CHECK-NEXT: ret i32
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%x = lshr i32 %AA, 17 ; <i32> [#uses=1]
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%tmp.3 = lshr i32 %tmp.2, 17 ; <i32> [#uses=1]
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%tmp.5 = add i32 %tmp.3, %x ; <i32> [#uses=1]
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%tmp.6 = shl i32 %tmp.5, 17 ; <i32> [#uses=1]
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ret i32 %tmp.6
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}
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;; handle casts between shifts.
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define i32 @test26(i32 %A) {
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; CHECK: @test26
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; CHECK-NEXT: and i32 %A, -2
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; CHECK-NEXT: ret i32
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%B = lshr i32 %A, 1 ; <i32> [#uses=1]
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%C = bitcast i32 %B to i32 ; <i32> [#uses=1]
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%D = shl i32 %C, 1 ; <i32> [#uses=1]
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ret i32 %D
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}
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define i1 @test27(i32 %x) nounwind {
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; CHECK: @test27
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; CHECK-NEXT: and i32 %x, 8
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; CHECK-NEXT: icmp ne i32
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; CHECK-NEXT: ret i1
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%y = lshr i32 %x, 3
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%z = trunc i32 %y to i1
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ret i1 %z
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}
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define i8 @test28(i8 %x) {
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entry:
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; CHECK: @test28
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; CHECK: icmp slt i8 %x, 0
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; CHECK-NEXT: br i1
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%tmp1 = lshr i8 %x, 7
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%cond1 = icmp ne i8 %tmp1, 0
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br i1 %cond1, label %bb1, label %bb2
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bb1:
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ret i8 0
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bb2:
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ret i8 1
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}
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define i8 @test28a(i8 %x, i8 %y) {
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entry:
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; This shouldn't be transformed.
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; CHECK: @test28a
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; CHECK: %tmp1 = lshr i8 %x, 7
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; CHECK: %cond1 = icmp eq i8 %tmp1, 0
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; CHECK: br i1 %cond1, label %bb2, label %bb1
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%tmp1 = lshr i8 %x, 7
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%cond1 = icmp ne i8 %tmp1, 0
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br i1 %cond1, label %bb1, label %bb2
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bb1:
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ret i8 %tmp1
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bb2:
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%tmp2 = add i8 %tmp1, %y
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ret i8 %tmp2
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}
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define i32 @test29(i64 %d18) {
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entry:
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%tmp916 = lshr i64 %d18, 32
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%tmp917 = trunc i64 %tmp916 to i32
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%tmp10 = lshr i32 %tmp917, 31
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ret i32 %tmp10
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; CHECK: @test29
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; CHECK: %tmp916 = lshr i64 %d18, 63
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; CHECK: %tmp10 = trunc i64 %tmp916 to i32
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}
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define i32 @test30(i32 %A, i32 %B, i32 %C) {
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%X = shl i32 %A, %C
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%Y = shl i32 %B, %C
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%Z = and i32 %X, %Y
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ret i32 %Z
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; CHECK: @test30
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; CHECK: %X1 = and i32 %A, %B
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; CHECK: %Z = shl i32 %X1, %C
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}
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define i32 @test31(i32 %A, i32 %B, i32 %C) {
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%X = lshr i32 %A, %C
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%Y = lshr i32 %B, %C
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%Z = or i32 %X, %Y
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ret i32 %Z
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; CHECK: @test31
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; CHECK: %X1 = or i32 %A, %B
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; CHECK: %Z = lshr i32 %X1, %C
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}
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define i32 @test32(i32 %A, i32 %B, i32 %C) {
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%X = ashr i32 %A, %C
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%Y = ashr i32 %B, %C
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%Z = xor i32 %X, %Y
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ret i32 %Z
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; CHECK: @test32
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; CHECK: %X1 = xor i32 %A, %B
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; CHECK: %Z = ashr i32 %X1, %C
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; CHECK: ret i32 %Z
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}
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define i1 @test33(i32 %X) {
|
|
%tmp1 = shl i32 %X, 7
|
|
%tmp2 = icmp slt i32 %tmp1, 0
|
|
ret i1 %tmp2
|
|
; CHECK: @test33
|
|
; CHECK: %tmp1.mask = and i32 %X, 16777216
|
|
; CHECK: %tmp2 = icmp ne i32 %tmp1.mask, 0
|
|
}
|
|
|
|
define i1 @test34(i32 %X) {
|
|
%tmp1 = lshr i32 %X, 7
|
|
%tmp2 = icmp slt i32 %tmp1, 0
|
|
ret i1 %tmp2
|
|
; CHECK: @test34
|
|
; CHECK: ret i1 false
|
|
}
|
|
|
|
define i1 @test35(i32 %X) {
|
|
%tmp1 = ashr i32 %X, 7
|
|
%tmp2 = icmp slt i32 %tmp1, 0
|
|
ret i1 %tmp2
|
|
; CHECK: @test35
|
|
; CHECK: %tmp2 = icmp slt i32 %X, 0
|
|
; CHECK: ret i1 %tmp2
|
|
}
|
|
|
|
define i128 @test36(i128 %A, i128 %B) {
|
|
entry:
|
|
%tmp27 = shl i128 %A, 64
|
|
%tmp23 = shl i128 %B, 64
|
|
%ins = or i128 %tmp23, %tmp27
|
|
%tmp45 = lshr i128 %ins, 64
|
|
ret i128 %tmp45
|
|
|
|
; CHECK: @test36
|
|
; CHECK: %tmp231 = or i128 %B, %A
|
|
; CHECK: %ins = and i128 %tmp231, 18446744073709551615
|
|
; CHECK: ret i128 %ins
|
|
}
|
|
|
|
define i64 @test37(i128 %A, i32 %B) {
|
|
entry:
|
|
%tmp27 = shl i128 %A, 64
|
|
%tmp22 = zext i32 %B to i128
|
|
%tmp23 = shl i128 %tmp22, 96
|
|
%ins = or i128 %tmp23, %tmp27
|
|
%tmp45 = lshr i128 %ins, 64
|
|
%tmp46 = trunc i128 %tmp45 to i64
|
|
ret i64 %tmp46
|
|
|
|
; CHECK: @test37
|
|
; CHECK: %tmp23 = shl nuw nsw i128 %tmp22, 32
|
|
; CHECK: %ins = or i128 %tmp23, %A
|
|
; CHECK: %tmp46 = trunc i128 %ins to i64
|
|
}
|
|
|
|
define i32 @test38(i32 %x) nounwind readnone {
|
|
%rem = srem i32 %x, 32
|
|
%shl = shl i32 1, %rem
|
|
ret i32 %shl
|
|
; CHECK: @test38
|
|
; CHECK-NEXT: and i32 %x, 31
|
|
; CHECK-NEXT: shl i32 1
|
|
; CHECK-NEXT: ret i32
|
|
}
|
|
|
|
; <rdar://problem/8756731>
|
|
; CHECK: @test39
|
|
define i8 @test39(i32 %a0) {
|
|
entry:
|
|
%tmp4 = trunc i32 %a0 to i8
|
|
; CHECK: and i8 %tmp49, 64
|
|
%tmp5 = shl i8 %tmp4, 5
|
|
%tmp48 = and i8 %tmp5, 32
|
|
%tmp49 = lshr i8 %tmp48, 5
|
|
%tmp50 = mul i8 %tmp49, 64
|
|
%tmp51 = xor i8 %tmp50, %tmp5
|
|
%tmp52 = and i8 %tmp51, -128
|
|
%tmp53 = lshr i8 %tmp52, 7
|
|
; CHECK: lshr i8 %tmp51, 7
|
|
%tmp54 = mul i8 %tmp53, 16
|
|
; CHECK: shl nuw nsw i8 %tmp53, 4
|
|
%tmp55 = xor i8 %tmp54, %tmp51
|
|
; CHECK: ret i8 %tmp551
|
|
ret i8 %tmp55
|
|
}
|
|
|
|
; PR9809
|
|
define i32 @test40(i32 %a, i32 %b) nounwind {
|
|
%shl1 = shl i32 1, %b
|
|
%shl2 = shl i32 %shl1, 2
|
|
%div = udiv i32 %a, %shl2
|
|
ret i32 %div
|
|
; CHECK: @test40
|
|
; CHECK-NEXT: add i32 %b, 2
|
|
; CHECK-NEXT: lshr i32 %a
|
|
; CHECK-NEXT: ret i32
|
|
}
|
|
|
|
define i32 @test41(i32 %a, i32 %b) nounwind {
|
|
%1 = shl i32 1, %b
|
|
%2 = shl i32 %1, 3
|
|
ret i32 %2
|
|
; CHECK: @test41
|
|
; CHECK-NEXT: shl i32 8, %b
|
|
; CHECK-NEXT: ret i32
|
|
}
|
|
|
|
define i32 @test42(i32 %a, i32 %b) nounwind {
|
|
%div = lshr i32 4096, %b ; must be exact otherwise we'd divide by zero
|
|
%div2 = udiv i32 %a, %div
|
|
ret i32 %div2
|
|
; CHECK: @test42
|
|
; CHECK-NEXT: lshr exact i32 4096, %b
|
|
}
|
|
|
|
define i32 @test43(i32 %a, i32 %b) nounwind {
|
|
%div = shl i32 4096, %b ; must be exact otherwise we'd divide by zero
|
|
%div2 = udiv i32 %a, %div
|
|
ret i32 %div2
|
|
; CHECK: @test43
|
|
; CHECK-NEXT: add i32 %b, 12
|
|
; CHECK-NEXT: lshr
|
|
; CHECK-NEXT: ret
|
|
}
|
|
|
|
define i32 @test44(i32 %a) nounwind {
|
|
%y = shl nuw i32 %a, 1
|
|
%z = shl i32 %y, 4
|
|
ret i32 %z
|
|
; CHECK: @test44
|
|
; CHECK-NEXT: %y = shl i32 %a, 5
|
|
; CHECK-NEXT: ret i32 %y
|
|
}
|
|
|
|
define i32 @test45(i32 %a) nounwind {
|
|
%y = lshr exact i32 %a, 1
|
|
%z = lshr i32 %y, 4
|
|
ret i32 %z
|
|
; CHECK: @test45
|
|
; CHECK-NEXT: %y = lshr i32 %a, 5
|
|
; CHECK-NEXT: ret i32 %y
|
|
}
|
|
|
|
define i32 @test46(i32 %a) {
|
|
%y = ashr exact i32 %a, 3
|
|
%z = shl i32 %y, 1
|
|
ret i32 %z
|
|
; CHECK: @test46
|
|
; CHECK-NEXT: %z = ashr exact i32 %a, 2
|
|
; CHECK-NEXT: ret i32 %z
|
|
}
|
|
|
|
define i32 @test47(i32 %a) {
|
|
%y = lshr exact i32 %a, 3
|
|
%z = shl i32 %y, 1
|
|
ret i32 %z
|
|
; CHECK: @test47
|
|
; CHECK-NEXT: %z = lshr exact i32 %a, 2
|
|
; CHECK-NEXT: ret i32 %z
|
|
}
|
|
|
|
define i32 @test48(i32 %x) {
|
|
%A = lshr exact i32 %x, 1
|
|
%B = shl i32 %A, 3
|
|
ret i32 %B
|
|
; CHECK: @test48
|
|
; CHECK-NEXT: %B = shl i32 %x, 2
|
|
; CHECK-NEXT: ret i32 %B
|
|
}
|
|
|
|
define i32 @test49(i32 %x) {
|
|
%A = ashr exact i32 %x, 1
|
|
%B = shl i32 %A, 3
|
|
ret i32 %B
|
|
; CHECK: @test49
|
|
; CHECK-NEXT: %B = shl i32 %x, 2
|
|
; CHECK-NEXT: ret i32 %B
|
|
}
|
|
|
|
define i32 @test50(i32 %x) {
|
|
%A = shl nsw i32 %x, 1
|
|
%B = ashr i32 %A, 3
|
|
ret i32 %B
|
|
; CHECK: @test50
|
|
; CHECK-NEXT: %B = ashr i32 %x, 2
|
|
; CHECK-NEXT: ret i32 %B
|
|
}
|
|
|
|
define i32 @test51(i32 %x) {
|
|
%A = shl nuw i32 %x, 1
|
|
%B = lshr i32 %A, 3
|
|
ret i32 %B
|
|
; CHECK: @test51
|
|
; CHECK-NEXT: %B = lshr i32 %x, 2
|
|
; CHECK-NEXT: ret i32 %B
|
|
}
|
|
|
|
define i32 @test52(i32 %x) {
|
|
%A = shl nsw i32 %x, 3
|
|
%B = ashr i32 %A, 1
|
|
ret i32 %B
|
|
; CHECK: @test52
|
|
; CHECK-NEXT: %B = shl nsw i32 %x, 2
|
|
; CHECK-NEXT: ret i32 %B
|
|
}
|
|
|
|
define i32 @test53(i32 %x) {
|
|
%A = shl nuw i32 %x, 3
|
|
%B = lshr i32 %A, 1
|
|
ret i32 %B
|
|
; CHECK: @test53
|
|
; CHECK-NEXT: %B = shl nuw i32 %x, 2
|
|
; CHECK-NEXT: ret i32 %B
|
|
}
|