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f6f0a5745d
We currently miss a number of opportunities to emit single-instruction VMRG[LH][BHW] instructions for shuffles on little endian subtargets. Although this in itself is not a huge performance opportunity since loading the permute vector for a VPERM can always be pulled out of loops, producing such merge instructions is useful to downstream optimizations. Since VPERM is essentially opaque to all subsequent optimizations, we want to avoid it as much as possible. Other permute instructions have semantics that can be reasoned about much more easily in later optimizations. This patch does the following: - Canonicalize shuffles so that the first element comes from the first vector (since that's what most of the mask matching functions want) - Switch the elements that come from splat vectors so that they match the corresponding elements from the other vector (to allow for merges) - Adds debugging messages for when a shuffle is matched to a VPERM so that anyone interested in improving this further can get the info for their code Differential revision: https://reviews.llvm.org/D77448
116 lines
3.5 KiB
LLVM
116 lines
3.5 KiB
LLVM
; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py
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; RUN: llc -verify-machineinstrs -mtriple=powerpc64le-- -mcpu=pwr8 < %s | FileCheck %s --check-prefix=LE
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; RUN: llc -verify-machineinstrs -mtriple=powerpc64-- -mcpu=pwr8 < %s | FileCheck %s --check-prefix=BE
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define <8 x i16> @pr25080(<8 x i32> %a) {
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; LE-LABEL: pr25080:
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; LE: # %bb.0: # %entry
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; LE-NEXT: addis 3, 2, .LCPI0_0@toc@ha
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; LE-NEXT: xxlxor 37, 37, 37
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; LE-NEXT: addi 3, 3, .LCPI0_0@toc@l
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; LE-NEXT: lvx 4, 0, 3
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; LE-NEXT: xxland 34, 34, 36
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; LE-NEXT: xxland 35, 35, 36
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; LE-NEXT: vcmpequw 2, 2, 5
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; LE-NEXT: vcmpequw 3, 3, 5
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; LE-NEXT: xxswapd 0, 34
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; LE-NEXT: mfvsrwz 3, 34
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; LE-NEXT: xxsldwi 1, 34, 34, 1
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; LE-NEXT: mfvsrwz 4, 35
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; LE-NEXT: xxsldwi 2, 34, 34, 3
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; LE-NEXT: mtvsrd 36, 3
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; LE-NEXT: mffprwz 3, 0
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; LE-NEXT: xxswapd 0, 35
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; LE-NEXT: mtvsrd 37, 4
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; LE-NEXT: mffprwz 4, 1
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; LE-NEXT: xxsldwi 1, 35, 35, 1
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; LE-NEXT: mtvsrd 34, 3
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; LE-NEXT: mffprwz 3, 2
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; LE-NEXT: mtvsrd 32, 4
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; LE-NEXT: mffprwz 4, 0
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; LE-NEXT: xxsldwi 0, 35, 35, 3
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; LE-NEXT: mtvsrd 33, 3
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; LE-NEXT: mffprwz 3, 1
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; LE-NEXT: mtvsrd 38, 4
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; LE-NEXT: mtvsrd 35, 3
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; LE-NEXT: mffprwz 3, 0
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; LE-NEXT: vmrghh 2, 0, 2
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; LE-NEXT: mtvsrd 32, 3
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; LE-NEXT: addis 3, 2, .LCPI0_1@toc@ha
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; LE-NEXT: vmrghh 4, 1, 4
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; LE-NEXT: addi 3, 3, .LCPI0_1@toc@l
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; LE-NEXT: vmrghh 3, 3, 6
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; LE-NEXT: vmrghh 5, 0, 5
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; LE-NEXT: vmrglw 2, 4, 2
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; LE-NEXT: vspltish 4, 15
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; LE-NEXT: vmrglw 3, 5, 3
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; LE-NEXT: xxmrgld 34, 35, 34
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; LE-NEXT: lvx 3, 0, 3
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; LE-NEXT: xxlor 34, 34, 35
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; LE-NEXT: vslh 2, 2, 4
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; LE-NEXT: vsrah 2, 2, 4
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; LE-NEXT: blr
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;
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; BE-LABEL: pr25080:
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; BE: # %bb.0: # %entry
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; BE-NEXT: addis 3, 2, .LCPI0_0@toc@ha
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; BE-NEXT: xxlxor 36, 36, 36
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; BE-NEXT: addi 3, 3, .LCPI0_0@toc@l
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; BE-NEXT: lxvw4x 0, 0, 3
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; BE-NEXT: xxland 35, 35, 0
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; BE-NEXT: xxland 34, 34, 0
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; BE-NEXT: vcmpequw 3, 3, 4
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; BE-NEXT: vcmpequw 2, 2, 4
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; BE-NEXT: xxswapd 0, 35
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; BE-NEXT: mfvsrwz 3, 35
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; BE-NEXT: xxsldwi 1, 35, 35, 1
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; BE-NEXT: sldi 3, 3, 48
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; BE-NEXT: mffprwz 4, 0
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; BE-NEXT: xxsldwi 0, 35, 35, 3
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; BE-NEXT: mtvsrd 36, 3
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; BE-NEXT: mffprwz 3, 1
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; BE-NEXT: sldi 4, 4, 48
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; BE-NEXT: xxswapd 1, 34
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; BE-NEXT: mtvsrd 35, 4
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; BE-NEXT: mfvsrwz 4, 34
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; BE-NEXT: sldi 3, 3, 48
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; BE-NEXT: mtvsrd 37, 3
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; BE-NEXT: mffprwz 3, 0
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; BE-NEXT: sldi 4, 4, 48
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; BE-NEXT: xxsldwi 0, 34, 34, 1
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; BE-NEXT: vmrghh 3, 5, 3
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; BE-NEXT: mtvsrd 37, 4
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; BE-NEXT: sldi 3, 3, 48
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; BE-NEXT: mffprwz 4, 1
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; BE-NEXT: xxsldwi 1, 34, 34, 3
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; BE-NEXT: mtvsrd 34, 3
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; BE-NEXT: mffprwz 3, 0
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; BE-NEXT: sldi 4, 4, 48
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; BE-NEXT: mtvsrd 32, 4
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; BE-NEXT: mffprwz 4, 1
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; BE-NEXT: sldi 3, 3, 48
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; BE-NEXT: mtvsrd 33, 3
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; BE-NEXT: sldi 3, 4, 48
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; BE-NEXT: vmrghh 2, 2, 4
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; BE-NEXT: mtvsrd 36, 3
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; BE-NEXT: addis 3, 2, .LCPI0_1@toc@ha
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; BE-NEXT: vmrghh 0, 1, 0
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; BE-NEXT: addi 3, 3, .LCPI0_1@toc@l
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; BE-NEXT: vmrghh 4, 4, 5
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; BE-NEXT: lxvw4x 0, 0, 3
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; BE-NEXT: vmrghw 2, 2, 3
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; BE-NEXT: vmrghw 3, 4, 0
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; BE-NEXT: xxmrghd 34, 35, 34
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; BE-NEXT: vspltish 3, 15
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; BE-NEXT: xxlor 34, 34, 0
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; BE-NEXT: vslh 2, 2, 3
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; BE-NEXT: vsrah 2, 2, 3
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; BE-NEXT: blr
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entry:
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%0 = trunc <8 x i32> %a to <8 x i23>
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%1 = icmp eq <8 x i23> %0, zeroinitializer
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%2 = or <8 x i1> %1, <i1 true, i1 true, i1 true, i1 true, i1 false, i1 false, i1 false, i1 false>
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%3 = sext <8 x i1> %2 to <8 x i16>
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ret <8 x i16> %3
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}
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