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llvm / llvm / 07f211e13f8ff5916c7e4e3dafd758d0be38fc14 / . / test / CodeGen / AArch64 / urem-seteq-vec-splat.ll
blob: 2a34d085fc1e66b5042398156c03a48229401a28 [file] [log] [blame]
; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py
; RUN: llc -mtriple=aarch64-unknown-linux-gnu < %s | FileCheck %s
; Tests BuildUREMEqFold for 4 x i32 splat vectors with odd divisor.
; See urem-seteq.ll for justification behind constants emitted.
define <4 x i32> @test_urem_odd_vec_i32(<4 x i32> %X) nounwind readnone {
; CHECK-LABEL: test_urem_odd_vec_i32:
; CHECK: // %bb.0:
; CHECK-NEXT: mov w8, #52429
; CHECK-NEXT: movk w8, #52428, lsl #16
; CHECK-NEXT: dup v2.4s, w8
; CHECK-NEXT: umull2 v3.2d, v0.4s, v2.4s
; CHECK-NEXT: umull v2.2d, v0.2s, v2.2s
; CHECK-NEXT: uzp2 v2.4s, v2.4s, v3.4s
; CHECK-NEXT: movi v1.4s, #5
; CHECK-NEXT: ushr v2.4s, v2.4s, #2
; CHECK-NEXT: mls v0.4s, v2.4s, v1.4s
; CHECK-NEXT: cmeq v0.4s, v0.4s, #0
; CHECK-NEXT: movi v1.4s, #1
; CHECK-NEXT: and v0.16b, v0.16b, v1.16b
; CHECK-NEXT: ret
%urem = urem <4 x i32> %X, <i32 5, i32 5, i32 5, i32 5>
%cmp = icmp eq <4 x i32> %urem, <i32 0, i32 0, i32 0, i32 0>
%ret = zext <4 x i1> %cmp to <4 x i32>
ret <4 x i32> %ret
}
; Like test_urem_odd_vec_i32, but with 4 x i16 vectors.
define <4 x i16> @test_urem_odd_vec_i16(<4 x i16> %X) nounwind readnone {
; CHECK-LABEL: test_urem_odd_vec_i16:
; CHECK: // %bb.0:
; CHECK-NEXT: mov w9, #52429
; CHECK-NEXT: // kill: def $d0 killed $d0 def $q0
; CHECK-NEXT: umov w8, v0.h[1]
; CHECK-NEXT: movk w9, #52428, lsl #16
; CHECK-NEXT: umull x12, w8, w9
; CHECK-NEXT: lsr x12, x12, #34
; CHECK-NEXT: umov w10, v0.h[0]
; CHECK-NEXT: add w12, w12, w12, lsl #2
; CHECK-NEXT: sub w8, w8, w12
; CHECK-NEXT: umull x12, w10, w9
; CHECK-NEXT: lsr x12, x12, #34
; CHECK-NEXT: umov w11, v0.h[2]
; CHECK-NEXT: add w12, w12, w12, lsl #2
; CHECK-NEXT: sub w10, w10, w12
; CHECK-NEXT: umull x12, w11, w9
; CHECK-NEXT: lsr x12, x12, #34
; CHECK-NEXT: add w12, w12, w12, lsl #2
; CHECK-NEXT: sub w11, w11, w12
; CHECK-NEXT: umov w12, v0.h[3]
; CHECK-NEXT: umull x9, w12, w9
; CHECK-NEXT: lsr x9, x9, #34
; CHECK-NEXT: fmov s0, w10
; CHECK-NEXT: add w9, w9, w9, lsl #2
; CHECK-NEXT: mov v0.h[1], w8
; CHECK-NEXT: sub w9, w12, w9
; CHECK-NEXT: mov v0.h[2], w11
; CHECK-NEXT: mov v0.h[3], w9
; CHECK-NEXT: cmeq v0.4h, v0.4h, #0
; CHECK-NEXT: movi v1.4h, #1
; CHECK-NEXT: and v0.8b, v0.8b, v1.8b
; CHECK-NEXT: ret
%urem = urem <4 x i16> %X, <i16 5, i16 5, i16 5, i16 5>
%cmp = icmp eq <4 x i16> %urem, <i16 0, i16 0, i16 0, i16 0>
%ret = zext <4 x i1> %cmp to <4 x i16>
ret <4 x i16> %ret
}
; Tests BuildUREMEqFold for 4 x i32 splat vectors with even divisor.
; The expected behavior is that the fold is _not_ applied
; because it requires a ROTR in the even case, which has to be expanded.
define <4 x i32> @test_urem_even_vec_i32(<4 x i32> %X) nounwind readnone {
; CHECK-LABEL: test_urem_even_vec_i32:
; CHECK: // %bb.0:
; CHECK-NEXT: mov w8, #9363
; CHECK-NEXT: movk w8, #37449, lsl #16
; CHECK-NEXT: ushr v1.4s, v0.4s, #1
; CHECK-NEXT: dup v3.4s, w8
; CHECK-NEXT: umull2 v4.2d, v1.4s, v3.4s
; CHECK-NEXT: umull v1.2d, v1.2s, v3.2s
; CHECK-NEXT: uzp2 v1.4s, v1.4s, v4.4s
; CHECK-NEXT: movi v2.4s, #14
; CHECK-NEXT: ushr v1.4s, v1.4s, #2
; CHECK-NEXT: mls v0.4s, v1.4s, v2.4s
; CHECK-NEXT: cmeq v0.4s, v0.4s, #0
; CHECK-NEXT: movi v1.4s, #1
; CHECK-NEXT: and v0.16b, v0.16b, v1.16b
; CHECK-NEXT: ret
%urem = urem <4 x i32> %X, <i32 14, i32 14, i32 14, i32 14>
%cmp = icmp eq <4 x i32> %urem, <i32 0, i32 0, i32 0, i32 0>
%ret = zext <4 x i1> %cmp to <4 x i32>
ret <4 x i32> %ret
}
; Like test_urem_even_vec_i32, but with 4 x i16 vectors.
; i16 is not legal for ROTR on AArch64, but ROTR also cannot be promoted to i32,
; so this would crash if BuildUREMEqFold was applied.
define <4 x i16> @test_urem_even_vec_i16(<4 x i16> %X) nounwind readnone {
; CHECK-LABEL: test_urem_even_vec_i16:
; CHECK: // %bb.0:
; CHECK-NEXT: // kill: def $d0 killed $d0 def $q0
; CHECK-NEXT: umov w8, v0.h[1]
; CHECK-NEXT: mov w9, #9363
; CHECK-NEXT: movk w9, #37449, lsl #16
; CHECK-NEXT: umov w10, v0.h[0]
; CHECK-NEXT: umov w11, v0.h[2]
; CHECK-NEXT: umov w12, v0.h[3]
; CHECK-NEXT: ubfx w13, w8, #1, #15
; CHECK-NEXT: ubfx w14, w10, #1, #15
; CHECK-NEXT: ubfx w15, w11, #1, #15
; CHECK-NEXT: ubfx w16, w12, #1, #15
; CHECK-NEXT: umull x13, w13, w9
; CHECK-NEXT: umull x14, w14, w9
; CHECK-NEXT: umull x15, w15, w9
; CHECK-NEXT: umull x9, w16, w9
; CHECK-NEXT: orr w16, wzr, #0xe
; CHECK-NEXT: lsr x13, x13, #34
; CHECK-NEXT: msub w8, w13, w16, w8
; CHECK-NEXT: lsr x13, x14, #34
; CHECK-NEXT: msub w10, w13, w16, w10
; CHECK-NEXT: lsr x13, x15, #34
; CHECK-NEXT: fmov s0, w10
; CHECK-NEXT: msub w11, w13, w16, w11
; CHECK-NEXT: lsr x9, x9, #34
; CHECK-NEXT: mov v0.h[1], w8
; CHECK-NEXT: msub w9, w9, w16, w12
; CHECK-NEXT: mov v0.h[2], w11
; CHECK-NEXT: mov v0.h[3], w9
; CHECK-NEXT: cmeq v0.4h, v0.4h, #0
; CHECK-NEXT: movi v1.4h, #1
; CHECK-NEXT: and v0.8b, v0.8b, v1.8b
; CHECK-NEXT: ret
%urem = urem <4 x i16> %X, <i16 14, i16 14, i16 14, i16 14>
%cmp = icmp eq <4 x i16> %urem, <i16 0, i16 0, i16 0, i16 0>
%ret = zext <4 x i1> %cmp to <4 x i16>
ret <4 x i16> %ret
}
; We should not proceed with this fold if the divisor is 1 or -1
define <4 x i32> @test_urem_one_vec(<4 x i32> %X) nounwind readnone {
; CHECK-LABEL: test_urem_one_vec:
; CHECK: // %bb.0:
; CHECK-NEXT: movi v0.4s, #1
; CHECK-NEXT: ret
%urem = urem <4 x i32> %X, <i32 1, i32 1, i32 1, i32 1>
%cmp = icmp eq <4 x i32> %urem, <i32 0, i32 0, i32 0, i32 0>
%ret = zext <4 x i1> %cmp to <4 x i32>
ret <4 x i32> %ret
}
; BuildUREMEqFold does not work when the only odd factor of the divisor is 1.
; This ensures we don't touch powers of two.
define <4 x i32> @test_urem_pow2_vec(<4 x i32> %X) nounwind readnone {
; CHECK-LABEL: test_urem_pow2_vec:
; CHECK: // %bb.0:
; CHECK-NEXT: movi v1.4s, #15
; CHECK-NEXT: and v0.16b, v0.16b, v1.16b
; CHECK-NEXT: cmeq v0.4s, v0.4s, #0
; CHECK-NEXT: movi v1.4s, #1
; CHECK-NEXT: and v0.16b, v0.16b, v1.16b
; CHECK-NEXT: ret
%urem = urem <4 x i32> %X, <i32 16, i32 16, i32 16, i32 16>
%cmp = icmp eq <4 x i32> %urem, <i32 0, i32 0, i32 0, i32 0>
%ret = zext <4 x i1> %cmp to <4 x i32>
ret <4 x i32> %ret
}