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e00c0df2c4
This patch extends EarlyCSE to take advantage of the information that a controlling branch gives us about the value of a Value within this and dominated basic blocks. If the current block has a single predecessor with a controlling branch, we can infer what the branch condition must have been to execute this block. The actual change to support this is downright simple because EarlyCSE's existing scoped hash table logic deals with most of the complexity around merging. The patch actually implements two optimizations. 1) The first is analogous to JumpThreading in that it enables EarlyCSE's CSE handling to fold branches which are exactly redundant due to a previous branch to branches on constants. (It doesn't actually replace the branch or change the CFG.) This is pretty clearly a win since it enables substantial CFG simplification before we start trying to inline. 2) The second is analogous to CVP in that it exploits the knowledge gained to replace dominated *uses* of the original value. EarlyCSE does not otherwise reason about specific uses, so this is the more arguable one. It does enable further simplication and constant folding within the rest of the visit by EarlyCSE. In both cases, the added code only handles the easy dominance based case of each optimization. The general case is deferred to the existing passes. Differential Revision: http://reviews.llvm.org/D9763 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@238071 91177308-0d34-0410-b5e6-96231b3b80d8
108 lines
2.1 KiB
LLVM
108 lines
2.1 KiB
LLVM
; RUN: opt -early-cse -S < %s | FileCheck %s
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; Can we CSE a known condition to a constant?
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define i1 @test(i8* %p) {
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; CHECK-LABEL: @test
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entry:
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%cnd1 = icmp eq i8* %p, null
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br i1 %cnd1, label %taken, label %untaken
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taken:
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; CHECK-LABEL: taken:
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; CHECK-NEXT: ret i1 true
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%cnd2 = icmp eq i8* %p, null
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ret i1 %cnd2
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untaken:
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; CHECK-LABEL: untaken:
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; CHECK-NEXT: ret i1 false
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%cnd3 = icmp eq i8* %p, null
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ret i1 %cnd3
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}
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; We can CSE the condition, but we *don't* know it's value after the merge
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define i1 @test_neg1(i8* %p) {
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; CHECK-LABEL: @test_neg1
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entry:
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%cnd1 = icmp eq i8* %p, null
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br i1 %cnd1, label %taken, label %untaken
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taken:
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br label %merge
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untaken:
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br label %merge
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merge:
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; CHECK-LABEL: merge:
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; CHECK-NEXT: ret i1 %cnd1
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%cnd3 = icmp eq i8* %p, null
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ret i1 %cnd3
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}
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; Check specifically for a case where we have a unique predecessor, but
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; not a single predecessor. We can not know the value of the condition here.
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define i1 @test_neg2(i8* %p) {
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; CHECK-LABEL: @test_neg2
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entry:
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%cnd1 = icmp eq i8* %p, null
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br i1 %cnd1, label %merge, label %merge
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merge:
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; CHECK-LABEL: merge:
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; CHECK-NEXT: ret i1 %cnd1
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%cnd3 = icmp eq i8* %p, null
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ret i1 %cnd3
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}
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; Replace a use rather than CSE
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define i1 @test2(i8* %p) {
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; CHECK-LABEL: @test2
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entry:
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%cnd = icmp eq i8* %p, null
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br i1 %cnd, label %taken, label %untaken
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taken:
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; CHECK-LABEL: taken:
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; CHECK-NEXT: ret i1 true
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ret i1 %cnd
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untaken:
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; CHECK-LABEL: untaken:
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; CHECK-NEXT: ret i1 false
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ret i1 %cnd
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}
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; Not legal to replace use given it's not dominated by edge
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define i1 @test2_neg1(i8* %p) {
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; CHECK-LABEL: @test2_neg1
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entry:
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%cnd1 = icmp eq i8* %p, null
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br i1 %cnd1, label %taken, label %untaken
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taken:
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br label %merge
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untaken:
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br label %merge
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merge:
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; CHECK-LABEL: merge:
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; CHECK-NEXT: ret i1 %cnd1
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ret i1 %cnd1
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}
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; Another single predecessor test, but for dominated use
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define i1 @test2_neg2(i8* %p) {
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; CHECK-LABEL: @test2_neg2
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entry:
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%cnd1 = icmp eq i8* %p, null
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br i1 %cnd1, label %merge, label %merge
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merge:
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; CHECK-LABEL: merge:
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; CHECK-NEXT: ret i1 %cnd1
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ret i1 %cnd1
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}
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