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https://github.com/RPCS3/llvm-mirror.git
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de8fa43417
(See https://reviews.llvm.org/D60358 for the transform that breaks this case.)
594 lines
18 KiB
LLVM
594 lines
18 KiB
LLVM
; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py
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; RUN: llc -mtriple=aarch64-none-linux-gnu < %s | FileCheck %s
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; First, a simple example from Clang. The registers could plausibly be
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; different, but probably won't be.
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%struct.foo = type { i8, [2 x i8], i8 }
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define [1 x i64] @from_clang([1 x i64] %f.coerce, i32 %n) nounwind readnone {
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; CHECK-LABEL: from_clang:
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; CHECK: // %bb.0: // %entry
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; CHECK-NEXT: mov w8, #135
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; CHECK-NEXT: and w8, w0, w8
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; CHECK-NEXT: bfi w8, w1, #3, #4
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; CHECK-NEXT: and x9, x0, #0xffffff00
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; CHECK-NEXT: orr x0, x8, x9
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; CHECK-NEXT: ret
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entry:
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%f.coerce.fca.0.extract = extractvalue [1 x i64] %f.coerce, 0
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%tmp.sroa.0.0.extract.trunc = trunc i64 %f.coerce.fca.0.extract to i32
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%bf.value = shl i32 %n, 3
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%0 = and i32 %bf.value, 120
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%f.sroa.0.0.insert.ext.masked = and i32 %tmp.sroa.0.0.extract.trunc, 135
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%1 = or i32 %f.sroa.0.0.insert.ext.masked, %0
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%f.sroa.0.0.extract.trunc = zext i32 %1 to i64
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%tmp1.sroa.1.1.insert.insert = and i64 %f.coerce.fca.0.extract, 4294967040
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%tmp1.sroa.0.0.insert.insert = or i64 %f.sroa.0.0.extract.trunc, %tmp1.sroa.1.1.insert.insert
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%.fca.0.insert = insertvalue [1 x i64] undef, i64 %tmp1.sroa.0.0.insert.insert, 0
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ret [1 x i64] %.fca.0.insert
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}
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define void @test_whole32(i32* %existing, i32* %new) {
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; CHECK-LABEL: test_whole32:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: ldr w9, [x1]
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; CHECK-NEXT: bfi w8, w9, #26, #5
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; CHECK-NEXT: str w8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i32, i32* %existing
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%oldval_keep = and i32 %oldval, 2214592511 ; =0x83ffffff
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%newval = load volatile i32, i32* %new
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%newval_shifted = shl i32 %newval, 26
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%newval_masked = and i32 %newval_shifted, 2080374784 ; = 0x7c000000
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%combined = or i32 %oldval_keep, %newval_masked
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store volatile i32 %combined, i32* %existing
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ret void
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}
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define void @test_whole64(i64* %existing, i64* %new) {
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; CHECK-LABEL: test_whole64:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr x8, [x0]
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; CHECK-NEXT: ldr x9, [x1]
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; CHECK-NEXT: bfi x8, x9, #26, #14
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; CHECK-NEXT: str x8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i64, i64* %existing
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%oldval_keep = and i64 %oldval, 18446742974265032703 ; = 0xffffff0003ffffffL
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%newval = load volatile i64, i64* %new
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%newval_shifted = shl i64 %newval, 26
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%newval_masked = and i64 %newval_shifted, 1099444518912 ; = 0xfffc000000
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%combined = or i64 %oldval_keep, %newval_masked
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store volatile i64 %combined, i64* %existing
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ret void
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}
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define void @test_whole32_from64(i64* %existing, i64* %new) {
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; CHECK-LABEL: test_whole32_from64:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr x8, [x0]
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; CHECK-NEXT: ldr x9, [x1]
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; CHECK-NEXT: and x8, x8, #0xffff0000
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; CHECK-NEXT: bfxil x8, x9, #0, #16
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; CHECK-NEXT: str x8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i64, i64* %existing
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%oldval_keep = and i64 %oldval, 4294901760 ; = 0xffff0000
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%newval = load volatile i64, i64* %new
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%newval_masked = and i64 %newval, 65535 ; = 0xffff
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%combined = or i64 %oldval_keep, %newval_masked
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store volatile i64 %combined, i64* %existing
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ret void
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}
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define void @test_32bit_masked(i32 *%existing, i32 *%new) {
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; CHECK-LABEL: test_32bit_masked:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: ldr w9, [x1]
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; CHECK-NEXT: mov w10, #135
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; CHECK-NEXT: and w8, w8, w10
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; CHECK-NEXT: bfi w8, w9, #3, #4
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; CHECK-NEXT: str w8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i32, i32* %existing
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%oldval_keep = and i32 %oldval, 135 ; = 0x87
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%newval = load volatile i32, i32* %new
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%newval_shifted = shl i32 %newval, 3
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%newval_masked = and i32 %newval_shifted, 120 ; = 0x78
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%combined = or i32 %oldval_keep, %newval_masked
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store volatile i32 %combined, i32* %existing
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ret void
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}
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define void @test_64bit_masked(i64 *%existing, i64 *%new) {
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; CHECK-LABEL: test_64bit_masked:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr x8, [x0]
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; CHECK-NEXT: ldr x9, [x1]
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; CHECK-NEXT: and x8, x8, #0xff00000000
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; CHECK-NEXT: bfi x8, x9, #40, #8
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; CHECK-NEXT: str x8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i64, i64* %existing
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%oldval_keep = and i64 %oldval, 1095216660480 ; = 0xff_0000_0000
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%newval = load volatile i64, i64* %new
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%newval_shifted = shl i64 %newval, 40
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%newval_masked = and i64 %newval_shifted, 280375465082880 ; = 0xff00_0000_0000
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%combined = or i64 %newval_masked, %oldval_keep
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store volatile i64 %combined, i64* %existing
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ret void
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}
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; Mask is too complicated for literal ANDwwi, make sure other avenues are tried.
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define void @test_32bit_complexmask(i32 *%existing, i32 *%new) {
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; CHECK-LABEL: test_32bit_complexmask:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: ldr w9, [x1]
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; CHECK-NEXT: mov w10, #647
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; CHECK-NEXT: and w8, w8, w10
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; CHECK-NEXT: bfi w8, w9, #3, #4
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; CHECK-NEXT: str w8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i32, i32* %existing
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%oldval_keep = and i32 %oldval, 647 ; = 0x287
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%newval = load volatile i32, i32* %new
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%newval_shifted = shl i32 %newval, 3
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%newval_masked = and i32 %newval_shifted, 120 ; = 0x278
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%combined = or i32 %oldval_keep, %newval_masked
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store volatile i32 %combined, i32* %existing
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ret void
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}
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; Neither mask is a contiguous set of 1s. BFI can't be used
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define void @test_32bit_badmask(i32 *%existing, i32 *%new) {
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; CHECK-LABEL: test_32bit_badmask:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: ldr w9, [x1]
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; CHECK-NEXT: mov w10, #135
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; CHECK-NEXT: mov w11, #632
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; CHECK-NEXT: and w8, w8, w10
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; CHECK-NEXT: and w9, w11, w9, lsl #3
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; CHECK-NEXT: orr w8, w8, w9
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; CHECK-NEXT: str w8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i32, i32* %existing
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%oldval_keep = and i32 %oldval, 135 ; = 0x87
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%newval = load volatile i32, i32* %new
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%newval_shifted = shl i32 %newval, 3
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%newval_masked = and i32 %newval_shifted, 632 ; = 0x278
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%combined = or i32 %oldval_keep, %newval_masked
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store volatile i32 %combined, i32* %existing
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ret void
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}
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; Ditto
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define void @test_64bit_badmask(i64 *%existing, i64 *%new) {
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; CHECK-LABEL: test_64bit_badmask:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr x8, [x0]
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; CHECK-NEXT: ldr x9, [x1]
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; CHECK-NEXT: mov w10, #135
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; CHECK-NEXT: and x8, x8, x10
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; CHECK-NEXT: lsl w9, w9, #3
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; CHECK-NEXT: mov w10, #664
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; CHECK-NEXT: and x9, x9, x10
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; CHECK-NEXT: orr x8, x8, x9
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; CHECK-NEXT: str x8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i64, i64* %existing
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%oldval_keep = and i64 %oldval, 135 ; = 0x87
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%newval = load volatile i64, i64* %new
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%newval_shifted = shl i64 %newval, 3
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%newval_masked = and i64 %newval_shifted, 664 ; = 0x278
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%combined = or i64 %oldval_keep, %newval_masked
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store volatile i64 %combined, i64* %existing
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ret void
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}
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; Bitfield insert where there's a left-over shr needed at the beginning
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; (e.g. result of str.bf1 = str.bf2)
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define void @test_32bit_with_shr(i32* %existing, i32* %new) {
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; CHECK-LABEL: test_32bit_with_shr:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: ldr w9, [x1]
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; CHECK-NEXT: lsr w9, w9, #14
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; CHECK-NEXT: bfi w8, w9, #26, #5
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; CHECK-NEXT: str w8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i32, i32* %existing
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%oldval_keep = and i32 %oldval, 2214592511 ; =0x83ffffff
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%newval = load i32, i32* %new
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%newval_shifted = shl i32 %newval, 12
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%newval_masked = and i32 %newval_shifted, 2080374784 ; = 0x7c000000
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%combined = or i32 %oldval_keep, %newval_masked
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store volatile i32 %combined, i32* %existing
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ret void
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}
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; Bitfield insert where the second or operand is a better match to be folded into the BFM
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define void @test_32bit_opnd1_better(i32* %existing, i32* %new) {
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; CHECK-LABEL: test_32bit_opnd1_better:
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; CHECK: // %bb.0:
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: ldr w9, [x1]
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; CHECK-NEXT: and w8, w8, #0xffff
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; CHECK-NEXT: bfi w8, w9, #16, #8
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; CHECK-NEXT: str w8, [x0]
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; CHECK-NEXT: ret
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%oldval = load volatile i32, i32* %existing
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%oldval_keep = and i32 %oldval, 65535 ; 0x0000ffff
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%newval = load i32, i32* %new
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%newval_shifted = shl i32 %newval, 16
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%newval_masked = and i32 %newval_shifted, 16711680 ; 0x00ff0000
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%combined = or i32 %oldval_keep, %newval_masked
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store volatile i32 %combined, i32* %existing
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ret void
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}
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; Tests when all the bits from one operand are not useful
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define i32 @test_nouseful_bits(i8 %a, i32 %b) {
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; CHECK-LABEL: test_nouseful_bits:
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; CHECK: // %bb.0:
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; CHECK-NEXT: and w8, w0, #0xff
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; CHECK-NEXT: lsl w8, w8, #8
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; CHECK-NEXT: mov w9, w8
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; CHECK-NEXT: bfxil w9, w0, #0, #8
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; CHECK-NEXT: bfi w8, w9, #16, #16
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; CHECK-NEXT: mov w0, w8
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; CHECK-NEXT: ret
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%conv = zext i8 %a to i32 ; 0 0 0 A
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%shl = shl i32 %b, 8 ; B2 B1 B0 0
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%or = or i32 %conv, %shl ; B2 B1 B0 A
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%shl.1 = shl i32 %or, 8 ; B1 B0 A 0
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%or.1 = or i32 %conv, %shl.1 ; B1 B0 A A
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%shl.2 = shl i32 %or.1, 8 ; B0 A A 0
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%or.2 = or i32 %conv, %shl.2 ; B0 A A A
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%shl.3 = shl i32 %or.2, 8 ; A A A 0
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%or.3 = or i32 %conv, %shl.3 ; A A A A
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%shl.4 = shl i32 %or.3, 8 ; A A A 0
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ret i32 %shl.4
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}
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define void @test_nouseful_strb(i32* %ptr32, i8* %ptr8, i32 %x) {
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; CHECK-LABEL: test_nouseful_strb:
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; CHECK: // %bb.0: // %entry
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: bfxil w8, w2, #16, #3
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; CHECK-NEXT: strb w8, [x1]
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; CHECK-NEXT: ret
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entry:
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%0 = load i32, i32* %ptr32, align 8
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%and = and i32 %0, -8
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%shr = lshr i32 %x, 16
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%and1 = and i32 %shr, 7
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%or = or i32 %and, %and1
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%trunc = trunc i32 %or to i8
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store i8 %trunc, i8* %ptr8
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ret void
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}
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define void @test_nouseful_strh(i32* %ptr32, i16* %ptr16, i32 %x) {
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; CHECK-LABEL: test_nouseful_strh:
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; CHECK: // %bb.0: // %entry
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: bfxil w8, w2, #16, #4
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; CHECK-NEXT: strh w8, [x1]
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; CHECK-NEXT: ret
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entry:
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%0 = load i32, i32* %ptr32, align 8
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%and = and i32 %0, -16
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%shr = lshr i32 %x, 16
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%and1 = and i32 %shr, 15
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%or = or i32 %and, %and1
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%trunc = trunc i32 %or to i16
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store i16 %trunc, i16* %ptr16
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ret void
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}
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define void @test_nouseful_sturb(i32* %ptr32, i8* %ptr8, i32 %x) {
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; CHECK-LABEL: test_nouseful_sturb:
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; CHECK: // %bb.0: // %entry
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: bfxil w8, w2, #16, #3
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; CHECK-NEXT: sturb w8, [x1, #-1]
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; CHECK-NEXT: ret
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entry:
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%0 = load i32, i32* %ptr32, align 8
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%and = and i32 %0, -8
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%shr = lshr i32 %x, 16
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%and1 = and i32 %shr, 7
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%or = or i32 %and, %and1
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%trunc = trunc i32 %or to i8
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%gep = getelementptr i8, i8* %ptr8, i64 -1
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store i8 %trunc, i8* %gep
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ret void
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}
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define void @test_nouseful_sturh(i32* %ptr32, i16* %ptr16, i32 %x) {
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; CHECK-LABEL: test_nouseful_sturh:
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; CHECK: // %bb.0: // %entry
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; CHECK-NEXT: ldr w8, [x0]
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; CHECK-NEXT: bfxil w8, w2, #16, #4
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; CHECK-NEXT: sturh w8, [x1, #-2]
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; CHECK-NEXT: ret
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entry:
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%0 = load i32, i32* %ptr32, align 8
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%and = and i32 %0, -16
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%shr = lshr i32 %x, 16
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%and1 = and i32 %shr, 15
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%or = or i32 %and, %and1
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%trunc = trunc i32 %or to i16
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%gep = getelementptr i16, i16* %ptr16, i64 -1
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store i16 %trunc, i16* %gep
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ret void
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}
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; The next set of tests generate a BFXIL from 'or (and X, Mask0Imm),
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; (and Y, Mask1Imm)' iff Mask0Imm and ~Mask1Imm are equivalent and one of the
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; MaskImms is a shifted mask (e.g., 0x000ffff0).
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define i32 @test_or_and_and1(i32 %a, i32 %b) {
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; CHECK-LABEL: test_or_and_and1:
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; CHECK: // %bb.0: // %entry
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; CHECK-NEXT: lsr w8, w1, #4
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; CHECK-NEXT: bfi w0, w8, #4, #12
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; CHECK-NEXT: ret
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entry:
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%and = and i32 %a, -65521 ; 0xffff000f
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%and1 = and i32 %b, 65520 ; 0x0000fff0
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%or = or i32 %and1, %and
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ret i32 %or
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}
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define i32 @test_or_and_and2(i32 %a, i32 %b) {
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; CHECK-LABEL: test_or_and_and2:
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; CHECK: // %bb.0: // %entry
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; CHECK-NEXT: lsr w8, w0, #4
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; CHECK-NEXT: bfi w1, w8, #4, #12
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; CHECK-NEXT: mov w0, w1
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; CHECK-NEXT: ret
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entry:
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%and = and i32 %a, 65520 ; 0x0000fff0
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%and1 = and i32 %b, -65521 ; 0xffff000f
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%or = or i32 %and1, %and
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ret i32 %or
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}
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define i64 @test_or_and_and3(i64 %a, i64 %b) {
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; CHECK-LABEL: test_or_and_and3:
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; CHECK: // %bb.0: // %entry
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; CHECK-NEXT: lsr x8, x1, #16
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; CHECK-NEXT: bfi x0, x8, #16, #32
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; CHECK-NEXT: ret
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entry:
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%and = and i64 %a, -281474976645121 ; 0xffff00000000ffff
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%and1 = and i64 %b, 281474976645120 ; 0x0000ffffffff0000
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%or = or i64 %and1, %and
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ret i64 %or
|
|
}
|
|
|
|
; Don't convert 'and' with multiple uses.
|
|
define i32 @test_or_and_and4(i32 %a, i32 %b, i32* %ptr) {
|
|
; CHECK-LABEL: test_or_and_and4:
|
|
; CHECK: // %bb.0: // %entry
|
|
; CHECK-NEXT: and w8, w0, #0xffff000f
|
|
; CHECK-NEXT: and w9, w1, #0xfff0
|
|
; CHECK-NEXT: orr w0, w9, w8
|
|
; CHECK-NEXT: str w8, [x2]
|
|
; CHECK-NEXT: ret
|
|
entry:
|
|
%and = and i32 %a, -65521
|
|
store i32 %and, i32* %ptr, align 4
|
|
%and2 = and i32 %b, 65520
|
|
%or = or i32 %and2, %and
|
|
ret i32 %or
|
|
}
|
|
|
|
; Don't convert 'and' with multiple uses.
|
|
define i32 @test_or_and_and5(i32 %a, i32 %b, i32* %ptr) {
|
|
; CHECK-LABEL: test_or_and_and5:
|
|
; CHECK: // %bb.0: // %entry
|
|
; CHECK-NEXT: and w8, w1, #0xfff0
|
|
; CHECK-NEXT: and w9, w0, #0xffff000f
|
|
; CHECK-NEXT: orr w0, w8, w9
|
|
; CHECK-NEXT: str w8, [x2]
|
|
; CHECK-NEXT: ret
|
|
entry:
|
|
%and = and i32 %b, 65520
|
|
store i32 %and, i32* %ptr, align 4
|
|
%and1 = and i32 %a, -65521
|
|
%or = or i32 %and, %and1
|
|
ret i32 %or
|
|
}
|
|
|
|
define i32 @test1(i32 %a) {
|
|
; CHECK-LABEL: test1:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: mov w8, #5
|
|
; CHECK-NEXT: bfxil w0, w8, #0, #4
|
|
; CHECK-NEXT: ret
|
|
%1 = and i32 %a, -16 ; 0xfffffff0
|
|
%2 = or i32 %1, 5 ; 0x00000005
|
|
ret i32 %2
|
|
}
|
|
|
|
define i32 @test2(i32 %a) {
|
|
; CHECK-LABEL: test2:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: mov w8, #10
|
|
; CHECK-NEXT: bfi w0, w8, #22, #4
|
|
; CHECK-NEXT: ret
|
|
%1 = and i32 %a, -62914561 ; 0xfc3fffff
|
|
%2 = or i32 %1, 41943040 ; 0x06400000
|
|
ret i32 %2
|
|
}
|
|
|
|
define i64 @test3(i64 %a) {
|
|
; CHECK-LABEL: test3:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: mov x8, #5
|
|
; CHECK-NEXT: bfxil x0, x8, #0, #3
|
|
; CHECK-NEXT: ret
|
|
%1 = and i64 %a, -8 ; 0xfffffffffffffff8
|
|
%2 = or i64 %1, 5 ; 0x0000000000000005
|
|
ret i64 %2
|
|
}
|
|
|
|
define i64 @test4(i64 %a) {
|
|
; CHECK-LABEL: test4:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: mov x8, #9
|
|
; CHECK-NEXT: bfi x0, x8, #1, #7
|
|
; CHECK-NEXT: ret
|
|
%1 = and i64 %a, -255 ; 0xffffffffffffff01
|
|
%2 = or i64 %1, 18 ; 0x0000000000000012
|
|
ret i64 %2
|
|
}
|
|
|
|
; Don't generate BFI/BFXIL if the immediate can be encoded in the ORR.
|
|
define i32 @test5(i32 %a) {
|
|
; CHECK-LABEL: test5:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: and w8, w0, #0xfffffff0
|
|
; CHECK-NEXT: orr w0, w8, #0x6
|
|
; CHECK-NEXT: ret
|
|
%1 = and i32 %a, 4294967280 ; 0xfffffff0
|
|
%2 = or i32 %1, 6 ; 0x00000006
|
|
ret i32 %2
|
|
}
|
|
|
|
; BFXIL will use the same constant as the ORR, so we don't care how the constant
|
|
; is materialized (it's an equal cost either way).
|
|
define i32 @test6(i32 %a) {
|
|
; CHECK-LABEL: test6:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: mov w8, #23250
|
|
; CHECK-NEXT: movk w8, #11, lsl #16
|
|
; CHECK-NEXT: bfxil w0, w8, #0, #20
|
|
; CHECK-NEXT: ret
|
|
%1 = and i32 %a, 4293918720 ; 0xfff00000
|
|
%2 = or i32 %1, 744146 ; 0x000b5ad2
|
|
ret i32 %2
|
|
}
|
|
|
|
; BFIs that require the same number of instruction to materialize the constant
|
|
; as the original ORR are okay.
|
|
define i32 @test7(i32 %a) {
|
|
; CHECK-LABEL: test7:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: mov w8, #44393
|
|
; CHECK-NEXT: movk w8, #5, lsl #16
|
|
; CHECK-NEXT: bfi w0, w8, #1, #19
|
|
; CHECK-NEXT: ret
|
|
%1 = and i32 %a, 4293918721 ; 0xfff00001
|
|
%2 = or i32 %1, 744146 ; 0x000b5ad2
|
|
ret i32 %2
|
|
}
|
|
|
|
; BFIs that require more instructions to materialize the constant as compared
|
|
; to the original ORR are not okay. In this case we would be replacing the
|
|
; 'and' with a 'movk', which would decrease ILP while using the same number of
|
|
; instructions.
|
|
define i64 @test8(i64 %a) {
|
|
; CHECK-LABEL: test8:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: mov x9, #2035482624
|
|
; CHECK-NEXT: and x8, x0, #0xff000000000000ff
|
|
; CHECK-NEXT: movk x9, #36694, lsl #32
|
|
; CHECK-NEXT: orr x0, x8, x9
|
|
; CHECK-NEXT: ret
|
|
%1 = and i64 %a, -72057594037927681 ; 0xff000000000000ff
|
|
%2 = or i64 %1, 157601565442048 ; 0x00008f5679530000
|
|
ret i64 %2
|
|
}
|
|
|
|
; This test exposed an issue with an overly aggressive assert. The bit of code
|
|
; that is expected to catch this case is unable to deal with the trunc, which
|
|
; results in a failing check due to a mismatch between the BFI opcode and
|
|
; the expected value type of the OR.
|
|
define i32 @test9(i64 %b, i32 %e) {
|
|
; CHECK-LABEL: test9:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: lsr x0, x0, #12
|
|
; CHECK-NEXT: lsr w8, w1, #23
|
|
; CHECK-NEXT: bfi w0, w8, #23, #9
|
|
; CHECK-NEXT: // kill: def $w0 killed $w0 killed $x0
|
|
; CHECK-NEXT: ret
|
|
%c = lshr i64 %b, 12
|
|
%d = trunc i64 %c to i32
|
|
%f = and i32 %d, 8388607
|
|
%g = and i32 %e, -8388608
|
|
%h = or i32 %g, %f
|
|
ret i32 %h
|
|
}
|
|
|
|
define <2 x i32> @test_complex_type(<2 x i32>* %addr, i64 %in, i64* %bf ) {
|
|
; CHECK-LABEL: test_complex_type:
|
|
; CHECK: // %bb.0:
|
|
; CHECK-NEXT: ldr d0, [x0], #8
|
|
; CHECK-NEXT: orr x8, x0, x1, lsl #32
|
|
; CHECK-NEXT: str x8, [x2]
|
|
; CHECK-NEXT: ret
|
|
%vec = load <2 x i32>, <2 x i32>* %addr
|
|
|
|
%vec.next = getelementptr <2 x i32>, <2 x i32>* %addr, i32 1
|
|
%lo = ptrtoint <2 x i32>* %vec.next to i64
|
|
|
|
%hi = shl i64 %in, 32
|
|
%both = or i64 %lo, %hi
|
|
store i64 %both, i64* %bf
|
|
|
|
ret <2 x i32> %vec
|
|
}
|
|
|
|
define i64 @test_truncated_shift(i64 %x, i64 %y) {
|
|
; CHECK-LABEL: test_truncated_shift:
|
|
; CHECK: // %bb.0: // %entry
|
|
; CHECK-NEXT: lsl w8, w1, #25
|
|
; CHECK-NEXT: lsr x8, x8, #25
|
|
; CHECK-NEXT: bfi x0, x8, #25, #5
|
|
; CHECK-NEXT: ret
|
|
entry:
|
|
%and = and i64 %x, -1040187393
|
|
%shl4 = shl i64 %y, 25
|
|
%and5 = and i64 %shl4, 1040187392
|
|
%or = or i64 %and5, %and
|
|
ret i64 %or
|
|
}
|