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llvm-6502/test/CodeGen/PowerPC/vsx-fma-m.ll
Hal Finkel 3bafb64914 [PowerPC] VSX stores don't also read 
The VSX store instructions were also picking up an implicit "may read" from the
default pattern, which was an intrinsic (and we don't currently have a way of
specifying write-only intrinsics).

This was causing MI verification to fail for VSX spill restores.

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@227759 91177308-0d34-0410-b5e6-96231b3b80d8
2015-02-01 19:07:41 +00:00

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LLVM
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; RUN: llc < %s -mcpu=pwr7 -mattr=+vsx | FileCheck %s
; RUN: llc < %s -mcpu=pwr7 -mattr=+vsx -fast-isel -O0 | FileCheck -check-prefix=CHECK-FISL %s
; Also run with -schedule-ppc-vsx-fma-mutation-early as a stress test for the
; live-interval-updating logic.
; RUN: llc < %s -mcpu=pwr7 -mattr=+vsx -schedule-ppc-vsx-fma-mutation-early
target datalayout = "E-m:e-i64:64-n32:64"
target triple = "powerpc64-unknown-linux-gnu"
define void @test1(double %a, double %b, double %c, double %e, double* nocapture %d) #0 {
entry:
%0 = tail call double @llvm.fma.f64(double %b, double %c, double %a)
store double %0, double* %d, align 8
%1 = tail call double @llvm.fma.f64(double %b, double %e, double %a)
%arrayidx1 = getelementptr inbounds double* %d, i64 1
store double %1, double* %arrayidx1, align 8
ret void
; CHECK-LABEL: @test1
; CHECK-DAG: li [[C1:[0-9]+]], 8
; CHECK-DAG: xsmaddmdp 3, 2, 1
; CHECK-DAG: xsmaddadp 1, 2, 4
; CHECK-DAG: stxsdx 3, 0, 7
; CHECK-DAG: stxsdx 1, 7, [[C1]]
; CHECK: blr
; CHECK-FISL-LABEL: @test1
; CHECK-FISL-DAG: fmr 0, 1
; CHECK-FISL-DAG: xsmaddadp 0, 2, 3
; CHECK-FISL-DAG: stxsdx 0, 0, 7
; CHECK-FISL-DAG: xsmaddadp 1, 2, 4
; CHECK-FISL-DAG: li [[C1:[0-9]+]], 8
; CHECK-FISL-DAG: stxsdx 1, 7, [[C1]]
; CHECK-FISL: blr
}
define void @test2(double %a, double %b, double %c, double %e, double %f, double* nocapture %d) #0 {
entry:
%0 = tail call double @llvm.fma.f64(double %b, double %c, double %a)
store double %0, double* %d, align 8
%1 = tail call double @llvm.fma.f64(double %b, double %e, double %a)
%arrayidx1 = getelementptr inbounds double* %d, i64 1
store double %1, double* %arrayidx1, align 8
%2 = tail call double @llvm.fma.f64(double %b, double %f, double %a)
%arrayidx2 = getelementptr inbounds double* %d, i64 2
store double %2, double* %arrayidx2, align 8
ret void
; CHECK-LABEL: @test2
; CHECK-DAG: li [[C1:[0-9]+]], 8
; CHECK-DAG: li [[C2:[0-9]+]], 16
; CHECK-DAG: xsmaddmdp 3, 2, 1
; CHECK-DAG: xsmaddmdp 4, 2, 1
; CHECK-DAG: xsmaddadp 1, 2, 5
; CHECK-DAG: stxsdx 3, 0, 8
; CHECK-DAG: stxsdx 4, 8, [[C1]]
; CHECK-DAG: stxsdx 1, 8, [[C2]]
; CHECK: blr
; CHECK-FISL-LABEL: @test2
; CHECK-FISL-DAG: fmr 0, 1
; CHECK-FISL-DAG: xsmaddadp 0, 2, 3
; CHECK-FISL-DAG: stxsdx 0, 0, 8
; CHECK-FISL-DAG: fmr 0, 1
; CHECK-FISL-DAG: xsmaddadp 0, 2, 4
; CHECK-FISL-DAG: li [[C1:[0-9]+]], 8
; CHECK-FISL-DAG: stxsdx 0, 8, [[C1]]
; CHECK-FISL-DAG: xsmaddadp 1, 2, 5
; CHECK-FISL-DAG: li [[C2:[0-9]+]], 16
; CHECK-FISL-DAG: stxsdx 1, 8, [[C2]]
; CHECK-FISL: blr
}
define void @test3(double %a, double %b, double %c, double %e, double %f, double* nocapture %d) #0 {
entry:
%0 = tail call double @llvm.fma.f64(double %b, double %c, double %a)
store double %0, double* %d, align 8
%1 = tail call double @llvm.fma.f64(double %b, double %e, double %a)
%2 = tail call double @llvm.fma.f64(double %b, double %c, double %1)
%arrayidx1 = getelementptr inbounds double* %d, i64 3
store double %2, double* %arrayidx1, align 8
%3 = tail call double @llvm.fma.f64(double %b, double %f, double %a)
%arrayidx2 = getelementptr inbounds double* %d, i64 2
store double %3, double* %arrayidx2, align 8
%arrayidx3 = getelementptr inbounds double* %d, i64 1
store double %1, double* %arrayidx3, align 8
ret void
; CHECK-LABEL: @test3
; CHECK-DAG: fmr [[F1:[0-9]+]], 1
; CHECK-DAG: li [[C1:[0-9]+]], 24
; CHECK-DAG: li [[C2:[0-9]+]], 16
; CHECK-DAG: li [[C3:[0-9]+]], 8
; CHECK-DAG: xsmaddmdp 4, 2, 1
; CHECK-DAG: xsmaddadp 1, 2, 5
; Note: We could convert this next FMA to M-type as well, but it would require
; re-ordering the instructions.
; CHECK-DAG: xsmaddadp [[F1]], 2, 3
; CHECK-DAG: xsmaddmdp 2, 3, 4
; CHECK-DAG: stxsdx [[F1]], 0, 8
; CHECK-DAG: stxsdx 2, 8, [[C1]]
; CHECK-DAG: stxsdx 1, 8, [[C2]]
; CHECK-DAG: stxsdx 4, 8, [[C3]]
; CHECK: blr
; CHECK-FISL-LABEL: @test3
; CHECK-FISL-DAG: fmr [[F1:[0-9]+]], 1
; CHECK-FISL-DAG: xsmaddadp [[F1]], 2, 4
; CHECK-FISL-DAG: fmr 4, [[F1]]
; CHECK-FISL-DAG: xsmaddadp 4, 2, 3
; CHECK-FISL-DAG: li [[C1:[0-9]+]], 24
; CHECK-FISL-DAG: stxsdx 4, 8, [[C1]]
; CHECK-FISL-DAG: xsmaddadp 1, 2, 5
; CHECK-FISL-DAG: li [[C2:[0-9]+]], 16
; CHECK-FISL-DAG: stxsdx 1, 8, [[C2]]
; CHECK-FISL-DAG: li [[C3:[0-9]+]], 8
; CHECK-FISL-DAG: stxsdx 0, 8, [[C3]]
; CHECK-FISL: blr
}
define void @test4(double %a, double %b, double %c, double %e, double %f, double* nocapture %d) #0 {
entry:
%0 = tail call double @llvm.fma.f64(double %b, double %c, double %a)
store double %0, double* %d, align 8
%1 = tail call double @llvm.fma.f64(double %b, double %e, double %a)
%arrayidx1 = getelementptr inbounds double* %d, i64 1
store double %1, double* %arrayidx1, align 8
%2 = tail call double @llvm.fma.f64(double %b, double %c, double %1)
%arrayidx3 = getelementptr inbounds double* %d, i64 3
store double %2, double* %arrayidx3, align 8
%3 = tail call double @llvm.fma.f64(double %b, double %f, double %a)
%arrayidx4 = getelementptr inbounds double* %d, i64 2
store double %3, double* %arrayidx4, align 8
ret void
; CHECK-LABEL: @test4
; CHECK-DAG: fmr [[F1:[0-9]+]], 1
; CHECK-DAG: li [[C1:[0-9]+]], 8
; CHECK-DAG: li [[C2:[0-9]+]], 16
; CHECK-DAG: xsmaddmdp 4, 2, 1
; Note: We could convert this next FMA to M-type as well, but it would require
; re-ordering the instructions.
; CHECK-DAG: xsmaddadp 1, 2, 5
; CHECK-DAG: xsmaddadp [[F1]], 2, 3
; CHECK-DAG: stxsdx [[F1]], 0, 8
; CHECK-DAG: stxsdx 4, 8, [[C1]]
; CHECK-DAG: li [[C3:[0-9]+]], 24
; CHECK-DAG: xsmaddadp 4, 2, 3
; CHECK-DAG: stxsdx 4, 8, [[C3]]
; CHECK-DAG: stxsdx 1, 8, [[C2]]
; CHECK: blr
; CHECK-FISL-LABEL: @test4
; CHECK-FISL-DAG: fmr [[F1:[0-9]+]], 1
; CHECK-FISL-DAG: xsmaddadp [[F1]], 2, 3
; CHECK-FISL-DAG: stxsdx 0, 0, 8
; CHECK-FISL-DAG: fmr [[F1]], 1
; CHECK-FISL-DAG: xsmaddadp [[F1]], 2, 4
; CHECK-FISL-DAG: li [[C3:[0-9]+]], 8
; CHECK-FISL-DAG: stxsdx 0, 8, [[C3]]
; CHECK-FISL-DAG: xsmaddadp 0, 2, 3
; CHECK-FISL-DAG: li [[C1:[0-9]+]], 24
; CHECK-FISL-DAG: stxsdx 0, 8, [[C1]]
; CHECK-FISL-DAG: xsmaddadp 1, 2, 5
; CHECK-FISL-DAG: li [[C2:[0-9]+]], 16
; CHECK-FISL-DAG: stxsdx 1, 8, [[C2]]
; CHECK-FISL: blr
}
declare double @llvm.fma.f64(double, double, double) #0
define void @testv1(<2 x double> %a, <2 x double> %b, <2 x double> %c, <2 x double> %e, <2 x double>* nocapture %d) #0 {
entry:
%0 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %c, <2 x double> %a)
store <2 x double> %0, <2 x double>* %d, align 8
%1 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %e, <2 x double> %a)
%arrayidx1 = getelementptr inbounds <2 x double>* %d, i64 1
store <2 x double> %1, <2 x double>* %arrayidx1, align 8
ret void
; CHECK-LABEL: @testv1
; CHECK-DAG: xvmaddmdp 36, 35, 34
; CHECK-DAG: xvmaddadp 34, 35, 37
; CHECK-DAG: li [[C1:[0-9]+]], 16
; CHECK-DAG: stxvd2x 36, 0, 3
; CHECK-DAG: stxvd2x 34, 3, [[C1:[0-9]+]]
; CHECK: blr
; CHECK-FISL-LABEL: @testv1
; CHECK-FISL-DAG: xxlor 0, 34, 34
; CHECK-FISL-DAG: xvmaddadp 0, 35, 36
; CHECK-FISL-DAG: stxvd2x 0, 0, 3
; CHECK-FISL-DAG: xvmaddadp 34, 35, 37
; CHECK-FISL-DAG: li [[C1:[0-9]+]], 16
; CHECK-FISL-DAG: stxvd2x 34, 3, [[C1:[0-9]+]]
; CHECK-FISL: blr
}
define void @testv2(<2 x double> %a, <2 x double> %b, <2 x double> %c, <2 x double> %e, <2 x double> %f, <2 x double>* nocapture %d) #0 {
entry:
%0 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %c, <2 x double> %a)
store <2 x double> %0, <2 x double>* %d, align 8
%1 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %e, <2 x double> %a)
%arrayidx1 = getelementptr inbounds <2 x double>* %d, i64 1
store <2 x double> %1, <2 x double>* %arrayidx1, align 8
%2 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %f, <2 x double> %a)
%arrayidx2 = getelementptr inbounds <2 x double>* %d, i64 2
store <2 x double> %2, <2 x double>* %arrayidx2, align 8
ret void
; CHECK-LABEL: @testv2
; CHECK-DAG: xvmaddmdp 36, 35, 34
; CHECK-DAG: xvmaddmdp 37, 35, 34
; CHECK-DAG: li [[C1:[0-9]+]], 16
; CHECK-DAG: li [[C2:[0-9]+]], 32
; CHECK-DAG: xvmaddadp 34, 35, 38
; CHECK-DAG: stxvd2x 36, 0, 3
; CHECK-DAG: stxvd2x 37, 3, [[C1:[0-9]+]]
; CHECK-DAG: stxvd2x 34, 3, [[C2:[0-9]+]]
; CHECK: blr
; CHECK-FISL-LABEL: @testv2
; CHECK-FISL-DAG: xxlor 0, 34, 34
; CHECK-FISL-DAG: xvmaddadp 0, 35, 36
; CHECK-FISL-DAG: stxvd2x 0, 0, 3
; CHECK-FISL-DAG: xxlor 0, 34, 34
; CHECK-FISL-DAG: xvmaddadp 0, 35, 37
; CHECK-FISL-DAG: li [[C1:[0-9]+]], 16
; CHECK-FISL-DAG: stxvd2x 0, 3, [[C1:[0-9]+]]
; CHECK-FISL-DAG: xvmaddadp 34, 35, 38
; CHECK-FISL-DAG: li [[C2:[0-9]+]], 32
; CHECK-FISL-DAG: stxvd2x 34, 3, [[C2:[0-9]+]]
; CHECK-FISL: blr
}
define void @testv3(<2 x double> %a, <2 x double> %b, <2 x double> %c, <2 x double> %e, <2 x double> %f, <2 x double>* nocapture %d) #0 {
entry:
%0 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %c, <2 x double> %a)
store <2 x double> %0, <2 x double>* %d, align 8
%1 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %e, <2 x double> %a)
%2 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %c, <2 x double> %1)
%arrayidx1 = getelementptr inbounds <2 x double>* %d, i64 3
store <2 x double> %2, <2 x double>* %arrayidx1, align 8
%3 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %f, <2 x double> %a)
%arrayidx2 = getelementptr inbounds <2 x double>* %d, i64 2
store <2 x double> %3, <2 x double>* %arrayidx2, align 8
%arrayidx3 = getelementptr inbounds <2 x double>* %d, i64 1
store <2 x double> %1, <2 x double>* %arrayidx3, align 8
ret void
; Note: There is some unavoidable changeability in this variant. If the
; FMAs are reordered differently, the algorithm can pick a different
; multiplicand to destroy, changing the register assignment. There isn't
; a good way to express this possibility, so hopefully this doesn't change
; too often.
; CHECK-LABEL: @testv3
; CHECK-DAG: xxlor [[V1:[0-9]+]], 34, 34
; CHECK-DAG: li [[C1:[0-9]+]], 48
; CHECK-DAG: li [[C2:[0-9]+]], 32
; CHECK-DAG: xvmaddmdp 37, 35, 34
; CHECK-DAG: li [[C3:[0-9]+]], 16
; Note: We could convert this next FMA to M-type as well, but it would require
; re-ordering the instructions.
; CHECK-DAG: xvmaddadp [[V1]], 35, 36
; CHECK-DAG: xvmaddmdp 35, 36, 37
; CHECK-DAG: xvmaddadp 34, 35, 38
; CHECK-DAG: stxvd2x 32, 0, 3
; CHECK-DAG: stxvd2x 35, 3, [[C1]]
; CHECK-DAG: stxvd2x 34, 3, [[C2]]
; CHECK-DAG: stxvd2x 37, 3, [[C3]]
; CHECK: blr
; CHECK-FISL-LABEL: @testv3
; CHECK-FISL-DAG: xxlor [[V1:[0-9]+]], 34, 34
; CHECK-FISL-DAG: xvmaddadp [[V1]], 35, 36
; CHECK-FISL-DAG: stxvd2x [[V1]], 0, 3
; CHECK-FISL-DAG: xxlor [[V2:[0-9]+]], 34, 34
; CHECK-FISL-DAG: xvmaddadp [[V2]], 35, 37
; CHECK-FISL-DAG: xxlor [[V3:[0-9]+]], 0, 0
; CHECK-FISL-DAG: xvmaddadp [[V3]], 35, 36
; CHECK-FISL-DAG: li [[C1:[0-9]+]], 48
; CHECK-FISL-DAG: stxvd2x [[V3]], 3, [[C1]]
; CHECK-FISL-DAG: xvmaddadp 34, 35, 38
; CHECK-FISL-DAG: li [[C2:[0-9]+]], 32
; CHECK-FISL-DAG: stxvd2x 34, 3, [[C2]]
; CHECK-FISL-DAG: li [[C3:[0-9]+]], 16
; CHECK-FISL-DAG: stxvd2x 0, 3, [[C3]]
; CHECK-FISL: blr
}
define void @testv4(<2 x double> %a, <2 x double> %b, <2 x double> %c, <2 x double> %e, <2 x double> %f, <2 x double>* nocapture %d) #0 {
entry:
%0 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %c, <2 x double> %a)
store <2 x double> %0, <2 x double>* %d, align 8
%1 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %e, <2 x double> %a)
%arrayidx1 = getelementptr inbounds <2 x double>* %d, i64 1
store <2 x double> %1, <2 x double>* %arrayidx1, align 8
%2 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %c, <2 x double> %1)
%arrayidx3 = getelementptr inbounds <2 x double>* %d, i64 3
store <2 x double> %2, <2 x double>* %arrayidx3, align 8
%3 = tail call <2 x double> @llvm.fma.v2f64(<2 x double> %b, <2 x double> %f, <2 x double> %a)
%arrayidx4 = getelementptr inbounds <2 x double>* %d, i64 2
store <2 x double> %3, <2 x double>* %arrayidx4, align 8
ret void
; CHECK-LABEL: @testv4
; CHECK-DAG: xxlor [[V1:[0-9]+]], 34, 34
; CHECK-DAG: xvmaddmdp 37, 35, 34
; CHECK-DAG: li [[C1:[0-9]+]], 16
; CHECK-DAG: li [[C2:[0-9]+]], 32
; CHECK-DAG: xvmaddadp 34, 35, 38
; Note: We could convert this next FMA to M-type as well, but it would require
; re-ordering the instructions.
; CHECK-DAG: xvmaddadp [[V1]], 35, 36
; CHECK-DAG: stxvd2x 32, 0, 3
; CHECK-DAG: stxvd2x 37, 3, [[C1]]
; CHECK-DAG: li [[C3:[0-9]+]], 48
; CHECK-DAG: xvmaddadp 37, 35, 36
; CHECK-DAG: stxvd2x 37, 3, [[C3]]
; CHECK-DAG: stxvd2x 34, 3, [[C2]]
; CHECK: blr
; CHECK-FISL-LABEL: @testv4
; CHECK-FISL-DAG: xxlor [[V1:[0-9]+]], 34, 34
; CHECK-FISL-DAG: xvmaddadp [[V1]], 35, 36
; CHECK-FISL-DAG: stxvd2x 0, 0, 3
; CHECK-FISL-DAG: xxlor [[V2:[0-9]+]], 34, 34
; CHECK-FISL-DAG: xvmaddadp [[V2]], 35, 37
; CHECK-FISL-DAG: li [[C1:[0-9]+]], 16
; CHECK-FISL-DAG: stxvd2x 0, 3, [[C1]]
; CHECK-FISL-DAG: xvmaddadp 0, 35, 37
; CHECK-FISL-DAG: li [[C3:[0-9]+]], 48
; CHECK-FISL-DAG: stxvd2x 0, 3, [[C3]]
; CHECK-FISL-DAG: xvmaddadp 0, 35, 36
; CHECK-FISL-DAG: li [[C2:[0-9]+]], 32
; CHECK-FISL-DAG: stxvd2x 34, 3, [[C2]]
; CHECK-FISL: blr
}
declare <2 x double> @llvm.fma.v2f64(<2 x double>, <2 x double>, <2 x double>) #0
attributes #0 = { nounwind readnone }
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