forked from OSchip/llvm-project
232 lines
7.5 KiB
LLVM
232 lines
7.5 KiB
LLVM
; REQUIRES: asserts
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; RUN: opt < %s -force-vector-width=2 -loop-vectorize -debug-only=loop-vectorize -disable-output 2>&1 | FileCheck %s
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target datalayout = "e-m:e-i64:64-i128:128-n32:64-S128"
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target triple = "aarch64--linux-gnu"
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; Check predication-related cost calculations, including scalarization overhead
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; and block probability scaling. Note that the functionality being tested is
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; not specific to AArch64. We specify a target to get actual values for the
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; instruction costs.
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; CHECK-LABEL: predicated_udiv
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;
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; This test checks that we correctly compute the cost of the predicated udiv
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; instruction. If we assume the block probability is 50%, we compute the cost
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; as:
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;
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; Cost of udiv:
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; (udiv(2) + extractelement(6) + insertelement(3)) / 2 = 5
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;
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; CHECK: Scalarizing and predicating: %tmp4 = udiv i32 %tmp2, %tmp3
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; CHECK: Found an estimated cost of 5 for VF 2 For instruction: %tmp4 = udiv i32 %tmp2, %tmp3
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;
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define i32 @predicated_udiv(i32* %a, i32* %b, i1 %c, i64 %n) {
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entry:
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br label %for.body
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for.body:
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%i = phi i64 [ 0, %entry ], [ %i.next, %for.inc ]
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%r = phi i32 [ 0, %entry ], [ %tmp6, %for.inc ]
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%tmp0 = getelementptr inbounds i32, i32* %a, i64 %i
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%tmp1 = getelementptr inbounds i32, i32* %b, i64 %i
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%tmp2 = load i32, i32* %tmp0, align 4
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%tmp3 = load i32, i32* %tmp1, align 4
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br i1 %c, label %if.then, label %for.inc
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if.then:
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%tmp4 = udiv i32 %tmp2, %tmp3
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br label %for.inc
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for.inc:
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%tmp5 = phi i32 [ %tmp3, %for.body ], [ %tmp4, %if.then]
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%tmp6 = add i32 %r, %tmp5
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%i.next = add nuw nsw i64 %i, 1
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%cond = icmp slt i64 %i.next, %n
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br i1 %cond, label %for.body, label %for.end
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for.end:
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%tmp7 = phi i32 [ %tmp6, %for.inc ]
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ret i32 %tmp7
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}
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; CHECK-LABEL: predicated_store
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;
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; This test checks that we correctly compute the cost of the predicated store
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; instruction. If we assume the block probability is 50%, we compute the cost
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; as:
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;
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; Cost of store:
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; (store(4) + extractelement(3)) / 2 = 3
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;
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; CHECK: Scalarizing and predicating: store i32 %tmp2, i32* %tmp0, align 4
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; CHECK: Found an estimated cost of 3 for VF 2 For instruction: store i32 %tmp2, i32* %tmp0, align 4
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;
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define void @predicated_store(i32* %a, i1 %c, i32 %x, i64 %n) {
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entry:
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br label %for.body
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for.body:
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%i = phi i64 [ 0, %entry ], [ %i.next, %for.inc ]
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%tmp0 = getelementptr inbounds i32, i32* %a, i64 %i
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%tmp1 = load i32, i32* %tmp0, align 4
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%tmp2 = add nsw i32 %tmp1, %x
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br i1 %c, label %if.then, label %for.inc
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if.then:
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store i32 %tmp2, i32* %tmp0, align 4
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br label %for.inc
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for.inc:
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%i.next = add nuw nsw i64 %i, 1
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%cond = icmp slt i64 %i.next, %n
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br i1 %cond, label %for.body, label %for.end
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for.end:
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ret void
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}
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; CHECK-LABEL: predicated_udiv_scalarized_operand
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;
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; This test checks that we correctly compute the cost of the predicated udiv
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; instruction and the add instruction it uses. The add is scalarized and sunk
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; inside the predicated block. If we assume the block probability is 50%, we
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; compute the cost as:
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;
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; Cost of add:
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; (add(2) + extractelement(3)) / 2 = 2
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; Cost of udiv:
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; (udiv(2) + extractelement(3) + insertelement(3)) / 2 = 4
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;
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; CHECK: Scalarizing: %tmp3 = add nsw i32 %tmp2, %x
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; CHECK: Scalarizing and predicating: %tmp4 = udiv i32 %tmp2, %tmp3
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; CHECK: Found an estimated cost of 2 for VF 2 For instruction: %tmp3 = add nsw i32 %tmp2, %x
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; CHECK: Found an estimated cost of 4 for VF 2 For instruction: %tmp4 = udiv i32 %tmp2, %tmp3
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;
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define i32 @predicated_udiv_scalarized_operand(i32* %a, i1 %c, i32 %x, i64 %n) {
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entry:
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br label %for.body
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for.body:
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%i = phi i64 [ 0, %entry ], [ %i.next, %for.inc ]
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%r = phi i32 [ 0, %entry ], [ %tmp6, %for.inc ]
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%tmp0 = getelementptr inbounds i32, i32* %a, i64 %i
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%tmp2 = load i32, i32* %tmp0, align 4
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br i1 %c, label %if.then, label %for.inc
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if.then:
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%tmp3 = add nsw i32 %tmp2, %x
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%tmp4 = udiv i32 %tmp2, %tmp3
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br label %for.inc
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for.inc:
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%tmp5 = phi i32 [ %tmp2, %for.body ], [ %tmp4, %if.then]
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%tmp6 = add i32 %r, %tmp5
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%i.next = add nuw nsw i64 %i, 1
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%cond = icmp slt i64 %i.next, %n
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br i1 %cond, label %for.body, label %for.end
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for.end:
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%tmp7 = phi i32 [ %tmp6, %for.inc ]
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ret i32 %tmp7
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}
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; CHECK-LABEL: predicated_store_scalarized_operand
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;
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; This test checks that we correctly compute the cost of the predicated store
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; instruction and the add instruction it uses. The add is scalarized and sunk
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; inside the predicated block. If we assume the block probability is 50%, we
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; compute the cost as:
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;
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; Cost of add:
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; (add(2) + extractelement(3)) / 2 = 2
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; Cost of store:
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; store(4) / 2 = 2
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;
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; CHECK: Scalarizing: %tmp2 = add nsw i32 %tmp1, %x
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; CHECK: Scalarizing and predicating: store i32 %tmp2, i32* %tmp0, align 4
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; CHECK: Found an estimated cost of 2 for VF 2 For instruction: %tmp2 = add nsw i32 %tmp1, %x
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; CHECK: Found an estimated cost of 2 for VF 2 For instruction: store i32 %tmp2, i32* %tmp0, align 4
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;
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define void @predicated_store_scalarized_operand(i32* %a, i1 %c, i32 %x, i64 %n) {
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entry:
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br label %for.body
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for.body:
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%i = phi i64 [ 0, %entry ], [ %i.next, %for.inc ]
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%tmp0 = getelementptr inbounds i32, i32* %a, i64 %i
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%tmp1 = load i32, i32* %tmp0, align 4
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br i1 %c, label %if.then, label %for.inc
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if.then:
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%tmp2 = add nsw i32 %tmp1, %x
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store i32 %tmp2, i32* %tmp0, align 4
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br label %for.inc
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for.inc:
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%i.next = add nuw nsw i64 %i, 1
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%cond = icmp slt i64 %i.next, %n
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br i1 %cond, label %for.body, label %for.end
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for.end:
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ret void
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}
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; CHECK-LABEL: predication_multi_context
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;
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; This test checks that we correctly compute the cost of multiple predicated
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; instructions in the same block. The sdiv, udiv, and store must be scalarized
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; and predicated. The sub feeding the store is scalarized and sunk inside the
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; store's predicated block. However, the add feeding the sdiv and udiv cannot
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; be sunk and is not scalarized. If we assume the block probability is 50%, we
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; compute the cost as:
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;
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; Cost of add:
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; add(1) = 1
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; Cost of sdiv:
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; (sdiv(2) + extractelement(6) + insertelement(3)) / 2 = 5
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; Cost of udiv:
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; (udiv(2) + extractelement(6) + insertelement(3)) / 2 = 5
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; Cost of sub:
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; (sub(2) + extractelement(3)) / 2 = 2
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; Cost of store:
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; store(4) / 2 = 2
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;
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; CHECK-NOT: Scalarizing: %tmp2 = add i32 %tmp1, %x
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; CHECK: Scalarizing and predicating: %tmp3 = sdiv i32 %tmp1, %tmp2
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; CHECK: Scalarizing and predicating: %tmp4 = udiv i32 %tmp3, %tmp2
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; CHECK: Scalarizing: %tmp5 = sub i32 %tmp4, %x
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; CHECK: Scalarizing and predicating: store i32 %tmp5, i32* %tmp0, align 4
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; CHECK: Found an estimated cost of 1 for VF 2 For instruction: %tmp2 = add i32 %tmp1, %x
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; CHECK: Found an estimated cost of 5 for VF 2 For instruction: %tmp3 = sdiv i32 %tmp1, %tmp2
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; CHECK: Found an estimated cost of 5 for VF 2 For instruction: %tmp4 = udiv i32 %tmp3, %tmp2
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; CHECK: Found an estimated cost of 2 for VF 2 For instruction: %tmp5 = sub i32 %tmp4, %x
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; CHECK: Found an estimated cost of 2 for VF 2 For instruction: store i32 %tmp5, i32* %tmp0, align 4
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;
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define void @predication_multi_context(i32* %a, i1 %c, i32 %x, i64 %n) {
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entry:
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br label %for.body
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for.body:
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%i = phi i64 [ 0, %entry ], [ %i.next, %for.inc ]
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%tmp0 = getelementptr inbounds i32, i32* %a, i64 %i
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%tmp1 = load i32, i32* %tmp0, align 4
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br i1 %c, label %if.then, label %for.inc
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if.then:
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%tmp2 = add i32 %tmp1, %x
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%tmp3 = sdiv i32 %tmp1, %tmp2
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%tmp4 = udiv i32 %tmp3, %tmp2
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%tmp5 = sub i32 %tmp4, %x
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store i32 %tmp5, i32* %tmp0, align 4
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br label %for.inc
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for.inc:
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%i.next = add nuw nsw i64 %i, 1
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%cond = icmp slt i64 %i.next, %n
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br i1 %cond, label %for.body, label %for.end
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for.end:
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ret void
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}
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