mirror of
https://github.com/RPCS3/llvm.git
synced 2024-12-28 23:43:50 +00:00
ae43cab6ba
Sweep the codebase for common typos. Includes some changes to visible function names that were misspelt. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@200018 91177308-0d34-0410-b5e6-96231b3b80d8
1124 lines
30 KiB
LLVM
1124 lines
30 KiB
LLVM
; RUN: llc -mtriple=i686-linux -pre-RA-sched=source < %s | FileCheck %s
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declare void @error(i32 %i, i32 %a, i32 %b)
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define i32 @test_ifchains(i32 %i, i32* %a, i32 %b) {
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; Test a chain of ifs, where the block guarded by the if is error handling code
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; that is not expected to run.
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; CHECK-LABEL: test_ifchains:
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; CHECK: %entry
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; CHECK-NOT: .align
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; CHECK: %else1
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; CHECK-NOT: .align
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; CHECK: %else2
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; CHECK-NOT: .align
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; CHECK: %else3
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; CHECK-NOT: .align
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; CHECK: %else4
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; CHECK-NOT: .align
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; CHECK: %exit
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; CHECK: %then1
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; CHECK: %then2
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; CHECK: %then3
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; CHECK: %then4
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; CHECK: %then5
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entry:
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%gep1 = getelementptr i32* %a, i32 1
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%val1 = load i32* %gep1
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%cond1 = icmp ugt i32 %val1, 1
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br i1 %cond1, label %then1, label %else1, !prof !0
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then1:
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call void @error(i32 %i, i32 1, i32 %b)
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br label %else1
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else1:
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%gep2 = getelementptr i32* %a, i32 2
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%val2 = load i32* %gep2
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%cond2 = icmp ugt i32 %val2, 2
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br i1 %cond2, label %then2, label %else2, !prof !0
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then2:
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call void @error(i32 %i, i32 1, i32 %b)
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br label %else2
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else2:
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%gep3 = getelementptr i32* %a, i32 3
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%val3 = load i32* %gep3
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%cond3 = icmp ugt i32 %val3, 3
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br i1 %cond3, label %then3, label %else3, !prof !0
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then3:
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call void @error(i32 %i, i32 1, i32 %b)
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br label %else3
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else3:
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%gep4 = getelementptr i32* %a, i32 4
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%val4 = load i32* %gep4
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%cond4 = icmp ugt i32 %val4, 4
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br i1 %cond4, label %then4, label %else4, !prof !0
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then4:
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call void @error(i32 %i, i32 1, i32 %b)
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br label %else4
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else4:
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%gep5 = getelementptr i32* %a, i32 3
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%val5 = load i32* %gep5
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%cond5 = icmp ugt i32 %val5, 3
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br i1 %cond5, label %then5, label %exit, !prof !0
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then5:
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call void @error(i32 %i, i32 1, i32 %b)
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br label %exit
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exit:
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ret i32 %b
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}
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define i32 @test_loop_cold_blocks(i32 %i, i32* %a) {
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; Check that we sink cold loop blocks after the hot loop body.
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; CHECK-LABEL: test_loop_cold_blocks:
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; CHECK: %entry
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; CHECK-NOT: .align
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; CHECK: %unlikely1
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; CHECK-NOT: .align
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; CHECK: %unlikely2
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; CHECK: .align
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; CHECK: %body1
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; CHECK: %body2
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; CHECK: %body3
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; CHECK: %exit
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entry:
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br label %body1
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body1:
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%iv = phi i32 [ 0, %entry ], [ %next, %body3 ]
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%base = phi i32 [ 0, %entry ], [ %sum, %body3 ]
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%unlikelycond1 = icmp slt i32 %base, 42
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br i1 %unlikelycond1, label %unlikely1, label %body2, !prof !0
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unlikely1:
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call void @error(i32 %i, i32 1, i32 %base)
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br label %body2
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body2:
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%unlikelycond2 = icmp sgt i32 %base, 21
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br i1 %unlikelycond2, label %unlikely2, label %body3, !prof !0
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unlikely2:
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call void @error(i32 %i, i32 2, i32 %base)
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br label %body3
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body3:
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%arrayidx = getelementptr inbounds i32* %a, i32 %iv
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%0 = load i32* %arrayidx
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%sum = add nsw i32 %0, %base
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%next = add i32 %iv, 1
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%exitcond = icmp eq i32 %next, %i
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br i1 %exitcond, label %exit, label %body1
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exit:
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ret i32 %sum
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}
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!0 = metadata !{metadata !"branch_weights", i32 4, i32 64}
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define i32 @test_loop_early_exits(i32 %i, i32* %a) {
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; Check that we sink early exit blocks out of loop bodies.
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; CHECK-LABEL: test_loop_early_exits:
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; CHECK: %entry
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; CHECK: %body1
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; CHECK: %body2
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; CHECK: %body3
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; CHECK: %body4
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; CHECK: %exit
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; CHECK: %bail1
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; CHECK: %bail2
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; CHECK: %bail3
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entry:
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br label %body1
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body1:
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%iv = phi i32 [ 0, %entry ], [ %next, %body4 ]
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%base = phi i32 [ 0, %entry ], [ %sum, %body4 ]
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%bailcond1 = icmp eq i32 %base, 42
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br i1 %bailcond1, label %bail1, label %body2
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bail1:
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ret i32 -1
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body2:
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%bailcond2 = icmp eq i32 %base, 43
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br i1 %bailcond2, label %bail2, label %body3
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bail2:
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ret i32 -2
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body3:
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%bailcond3 = icmp eq i32 %base, 44
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br i1 %bailcond3, label %bail3, label %body4
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bail3:
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ret i32 -3
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body4:
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%arrayidx = getelementptr inbounds i32* %a, i32 %iv
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%0 = load i32* %arrayidx
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%sum = add nsw i32 %0, %base
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%next = add i32 %iv, 1
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%exitcond = icmp eq i32 %next, %i
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br i1 %exitcond, label %exit, label %body1
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exit:
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ret i32 %sum
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}
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define i32 @test_loop_rotate(i32 %i, i32* %a) {
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; Check that we rotate conditional exits from the loop to the bottom of the
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; loop, eliminating unconditional branches to the top.
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; CHECK-LABEL: test_loop_rotate:
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; CHECK: %entry
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; CHECK: %body1
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; CHECK: %body0
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; CHECK: %exit
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entry:
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br label %body0
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body0:
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%iv = phi i32 [ 0, %entry ], [ %next, %body1 ]
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%base = phi i32 [ 0, %entry ], [ %sum, %body1 ]
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%next = add i32 %iv, 1
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%exitcond = icmp eq i32 %next, %i
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br i1 %exitcond, label %exit, label %body1
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body1:
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%arrayidx = getelementptr inbounds i32* %a, i32 %iv
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%0 = load i32* %arrayidx
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%sum = add nsw i32 %0, %base
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%bailcond1 = icmp eq i32 %sum, 42
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br label %body0
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exit:
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ret i32 %base
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}
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define i32 @test_no_loop_rotate(i32 %i, i32* %a) {
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; Check that we don't try to rotate a loop which is already laid out with
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; fallthrough opportunities into the top and out of the bottom.
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; CHECK-LABEL: test_no_loop_rotate:
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; CHECK: %entry
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; CHECK: %body0
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; CHECK: %body1
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; CHECK: %exit
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entry:
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br label %body0
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body0:
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%iv = phi i32 [ 0, %entry ], [ %next, %body1 ]
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%base = phi i32 [ 0, %entry ], [ %sum, %body1 ]
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%arrayidx = getelementptr inbounds i32* %a, i32 %iv
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%0 = load i32* %arrayidx
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%sum = add nsw i32 %0, %base
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%bailcond1 = icmp eq i32 %sum, 42
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br i1 %bailcond1, label %exit, label %body1
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body1:
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%next = add i32 %iv, 1
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%exitcond = icmp eq i32 %next, %i
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br i1 %exitcond, label %exit, label %body0
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exit:
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ret i32 %base
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}
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define void @test_loop_rotate_reversed_blocks() {
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; This test case (greatly reduced from an Olden bencmark) ensures that the loop
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; rotate implementation doesn't assume that loops are laid out in a particular
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; order. The first loop will get split into two basic blocks, with the loop
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; header coming after the loop latch.
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;
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; CHECK: test_loop_rotate_reversed_blocks
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; CHECK: %entry
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; Look for a jump into the middle of the loop, and no branches mid-way.
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; CHECK: jmp
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; CHECK: %loop1
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; CHECK-NOT: j{{\w*}} .LBB{{.*}}
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; CHECK: %loop1
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; CHECK: je
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entry:
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%cond1 = load volatile i1* undef
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br i1 %cond1, label %loop2.preheader, label %loop1
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loop1:
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call i32 @f()
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%cond2 = load volatile i1* undef
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br i1 %cond2, label %loop2.preheader, label %loop1
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loop2.preheader:
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call i32 @f()
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%cond3 = load volatile i1* undef
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br i1 %cond3, label %exit, label %loop2
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loop2:
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call i32 @f()
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%cond4 = load volatile i1* undef
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br i1 %cond4, label %exit, label %loop2
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exit:
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ret void
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}
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define i32 @test_loop_align(i32 %i, i32* %a) {
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; Check that we provide basic loop body alignment with the block placement
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; pass.
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; CHECK-LABEL: test_loop_align:
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; CHECK: %entry
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; CHECK: .align [[ALIGN:[0-9]+]],
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; CHECK-NEXT: %body
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; CHECK: %exit
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entry:
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br label %body
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body:
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%iv = phi i32 [ 0, %entry ], [ %next, %body ]
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%base = phi i32 [ 0, %entry ], [ %sum, %body ]
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%arrayidx = getelementptr inbounds i32* %a, i32 %iv
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%0 = load i32* %arrayidx
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%sum = add nsw i32 %0, %base
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%next = add i32 %iv, 1
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%exitcond = icmp eq i32 %next, %i
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br i1 %exitcond, label %exit, label %body
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exit:
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ret i32 %sum
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}
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define i32 @test_nested_loop_align(i32 %i, i32* %a, i32* %b) {
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; Check that we provide nested loop body alignment.
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; CHECK-LABEL: test_nested_loop_align:
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; CHECK: %entry
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; CHECK: .align [[ALIGN]],
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; CHECK-NEXT: %loop.body.1
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; CHECK: .align [[ALIGN]],
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; CHECK-NEXT: %inner.loop.body
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; CHECK-NOT: .align
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; CHECK: %exit
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entry:
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br label %loop.body.1
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loop.body.1:
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%iv = phi i32 [ 0, %entry ], [ %next, %loop.body.2 ]
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%arrayidx = getelementptr inbounds i32* %a, i32 %iv
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%bidx = load i32* %arrayidx
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br label %inner.loop.body
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inner.loop.body:
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%inner.iv = phi i32 [ 0, %loop.body.1 ], [ %inner.next, %inner.loop.body ]
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%base = phi i32 [ 0, %loop.body.1 ], [ %sum, %inner.loop.body ]
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%scaled_idx = mul i32 %bidx, %iv
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%inner.arrayidx = getelementptr inbounds i32* %b, i32 %scaled_idx
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%0 = load i32* %inner.arrayidx
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%sum = add nsw i32 %0, %base
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%inner.next = add i32 %iv, 1
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%inner.exitcond = icmp eq i32 %inner.next, %i
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br i1 %inner.exitcond, label %loop.body.2, label %inner.loop.body
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loop.body.2:
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%next = add i32 %iv, 1
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%exitcond = icmp eq i32 %next, %i
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br i1 %exitcond, label %exit, label %loop.body.1
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exit:
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ret i32 %sum
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}
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define void @unnatural_cfg1() {
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; Test that we can handle a loop with an inner unnatural loop at the end of
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; a function. This is a gross CFG reduced out of the single source GCC.
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; CHECK: unnatural_cfg1
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; CHECK: %entry
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; CHECK: %loop.body1
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; CHECK: %loop.body2
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; CHECK: %loop.body3
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entry:
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br label %loop.header
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loop.header:
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br label %loop.body1
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loop.body1:
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br i1 undef, label %loop.body3, label %loop.body2
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loop.body2:
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%ptr = load i32** undef, align 4
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br label %loop.body3
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loop.body3:
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%myptr = phi i32* [ %ptr2, %loop.body5 ], [ %ptr, %loop.body2 ], [ undef, %loop.body1 ]
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%bcmyptr = bitcast i32* %myptr to i32*
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%val = load i32* %bcmyptr, align 4
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%comp = icmp eq i32 %val, 48
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br i1 %comp, label %loop.body4, label %loop.body5
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loop.body4:
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br i1 undef, label %loop.header, label %loop.body5
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loop.body5:
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%ptr2 = load i32** undef, align 4
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br label %loop.body3
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}
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define void @unnatural_cfg2() {
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; Test that we can handle a loop with a nested natural loop *and* an unnatural
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; loop. This was reduced from a crash on block placement when run over
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; single-source GCC.
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; CHECK: unnatural_cfg2
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; CHECK: %entry
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; CHECK: %loop.body1
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; CHECK: %loop.body2
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; CHECK: %loop.body3
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; CHECK: %loop.inner1.begin
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; The end block is folded with %loop.body3...
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; CHECK-NOT: %loop.inner1.end
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; CHECK: %loop.body4
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; CHECK: %loop.inner2.begin
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; The loop.inner2.end block is folded
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; CHECK: %loop.header
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; CHECK: %bail
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entry:
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br label %loop.header
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loop.header:
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%comp0 = icmp eq i32* undef, null
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br i1 %comp0, label %bail, label %loop.body1
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loop.body1:
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%val0 = load i32** undef, align 4
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br i1 undef, label %loop.body2, label %loop.inner1.begin
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loop.body2:
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br i1 undef, label %loop.body4, label %loop.body3
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loop.body3:
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%ptr1 = getelementptr inbounds i32* %val0, i32 0
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%castptr1 = bitcast i32* %ptr1 to i32**
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%val1 = load i32** %castptr1, align 4
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br label %loop.inner1.begin
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loop.inner1.begin:
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%valphi = phi i32* [ %val2, %loop.inner1.end ], [ %val1, %loop.body3 ], [ %val0, %loop.body1 ]
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%castval = bitcast i32* %valphi to i32*
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%comp1 = icmp eq i32 undef, 48
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br i1 %comp1, label %loop.inner1.end, label %loop.body4
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loop.inner1.end:
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%ptr2 = getelementptr inbounds i32* %valphi, i32 0
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%castptr2 = bitcast i32* %ptr2 to i32**
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%val2 = load i32** %castptr2, align 4
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br label %loop.inner1.begin
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loop.body4.dead:
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br label %loop.body4
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loop.body4:
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%comp2 = icmp ult i32 undef, 3
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br i1 %comp2, label %loop.inner2.begin, label %loop.end
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loop.inner2.begin:
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br i1 false, label %loop.end, label %loop.inner2.end
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loop.inner2.end:
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%comp3 = icmp eq i32 undef, 1769472
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br i1 %comp3, label %loop.end, label %loop.inner2.begin
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loop.end:
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br label %loop.header
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bail:
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unreachable
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}
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define i32 @problematic_switch() {
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; This function's CFG caused overlow in the machine branch probability
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; calculation, triggering asserts. Make sure we don't crash on it.
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; CHECK: problematic_switch
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entry:
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switch i32 undef, label %exit [
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i32 879, label %bogus
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i32 877, label %step
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i32 876, label %step
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i32 875, label %step
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i32 874, label %step
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i32 873, label %step
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i32 872, label %step
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i32 868, label %step
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i32 867, label %step
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i32 866, label %step
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i32 861, label %step
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i32 860, label %step
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i32 856, label %step
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i32 855, label %step
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i32 854, label %step
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i32 831, label %step
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i32 830, label %step
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i32 829, label %step
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i32 828, label %step
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i32 815, label %step
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i32 814, label %step
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i32 811, label %step
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i32 806, label %step
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i32 805, label %step
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i32 804, label %step
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i32 803, label %step
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i32 802, label %step
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i32 801, label %step
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i32 800, label %step
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i32 799, label %step
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i32 798, label %step
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i32 797, label %step
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i32 796, label %step
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i32 795, label %step
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]
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bogus:
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unreachable
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step:
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br label %exit
|
|
exit:
|
|
%merge = phi i32 [ 3, %step ], [ 6, %entry ]
|
|
ret i32 %merge
|
|
}
|
|
|
|
define void @fpcmp_unanalyzable_branch(i1 %cond) {
|
|
; This function's CFG contains an unanalyzable branch that is likely to be
|
|
; split due to having a different high-probability predecessor.
|
|
; CHECK: fpcmp_unanalyzable_branch
|
|
; CHECK: %entry
|
|
; CHECK: %exit
|
|
; CHECK-NOT: %if.then
|
|
; CHECK-NOT: %if.end
|
|
; CHECK-NOT: jne
|
|
; CHECK-NOT: jnp
|
|
; CHECK: jne
|
|
; CHECK-NEXT: jnp
|
|
; CHECK-NEXT: %if.then
|
|
|
|
entry:
|
|
; Note that this branch must be strongly biased toward
|
|
; 'entry.if.then_crit_edge' to ensure that we would try to form a chain for
|
|
; 'entry' -> 'entry.if.then_crit_edge' -> 'if.then'. It is the last edge in that
|
|
; chain which would violate the unanalyzable branch in 'exit', but we won't even
|
|
; try this trick unless 'if.then' is believed to almost always be reached from
|
|
; 'entry.if.then_crit_edge'.
|
|
br i1 %cond, label %entry.if.then_crit_edge, label %lor.lhs.false, !prof !1
|
|
|
|
entry.if.then_crit_edge:
|
|
%.pre14 = load i8* undef, align 1
|
|
br label %if.then
|
|
|
|
lor.lhs.false:
|
|
br i1 undef, label %if.end, label %exit
|
|
|
|
exit:
|
|
%cmp.i = fcmp une double 0.000000e+00, undef
|
|
br i1 %cmp.i, label %if.then, label %if.end
|
|
|
|
if.then:
|
|
%0 = phi i8 [ %.pre14, %entry.if.then_crit_edge ], [ undef, %exit ]
|
|
%1 = and i8 %0, 1
|
|
store i8 %1, i8* undef, align 4
|
|
br label %if.end
|
|
|
|
if.end:
|
|
ret void
|
|
}
|
|
|
|
!1 = metadata !{metadata !"branch_weights", i32 1000, i32 1}
|
|
|
|
declare i32 @f()
|
|
declare i32 @g()
|
|
declare i32 @h(i32 %x)
|
|
|
|
define i32 @test_global_cfg_break_profitability() {
|
|
; Check that our metrics for the profitability of a CFG break are global rather
|
|
; than local. A successor may be very hot, but if the current block isn't, it
|
|
; doesn't matter. Within this test the 'then' block is slightly warmer than the
|
|
; 'else' block, but not nearly enough to merit merging it with the exit block
|
|
; even though the probability of 'then' branching to the 'exit' block is very
|
|
; high.
|
|
; CHECK: test_global_cfg_break_profitability
|
|
; CHECK: calll {{_?}}f
|
|
; CHECK: calll {{_?}}g
|
|
; CHECK: calll {{_?}}h
|
|
; CHECK: ret
|
|
|
|
entry:
|
|
br i1 undef, label %then, label %else, !prof !2
|
|
|
|
then:
|
|
%then.result = call i32 @f()
|
|
br label %exit
|
|
|
|
else:
|
|
%else.result = call i32 @g()
|
|
br label %exit
|
|
|
|
exit:
|
|
%result = phi i32 [ %then.result, %then ], [ %else.result, %else ]
|
|
%result2 = call i32 @h(i32 %result)
|
|
ret i32 %result
|
|
}
|
|
|
|
!2 = metadata !{metadata !"branch_weights", i32 3, i32 1}
|
|
|
|
declare i32 @__gxx_personality_v0(...)
|
|
|
|
define void @test_eh_lpad_successor() {
|
|
; Some times the landing pad ends up as the first successor of an invoke block.
|
|
; When this happens, a strange result used to fall out of updateTerminators: we
|
|
; didn't correctly locate the fallthrough successor, assuming blindly that the
|
|
; first one was the fallthrough successor. As a result, we would add an
|
|
; erroneous jump to the landing pad thinking *that* was the default successor.
|
|
; CHECK: test_eh_lpad_successor
|
|
; CHECK: %entry
|
|
; CHECK-NOT: jmp
|
|
; CHECK: %loop
|
|
|
|
entry:
|
|
invoke i32 @f() to label %preheader unwind label %lpad
|
|
|
|
preheader:
|
|
br label %loop
|
|
|
|
lpad:
|
|
%lpad.val = landingpad { i8*, i32 } personality i8* bitcast (i32 (...)* @__gxx_personality_v0 to i8*)
|
|
cleanup
|
|
resume { i8*, i32 } %lpad.val
|
|
|
|
loop:
|
|
br label %loop
|
|
}
|
|
|
|
declare void @fake_throw() noreturn
|
|
|
|
define void @test_eh_throw() {
|
|
; For blocks containing a 'throw' (or similar functionality), we have
|
|
; a no-return invoke. In this case, only EH successors will exist, and
|
|
; fallthrough simply won't occur. Make sure we don't crash trying to update
|
|
; terminators for such constructs.
|
|
;
|
|
; CHECK: test_eh_throw
|
|
; CHECK: %entry
|
|
; CHECK: %cleanup
|
|
|
|
entry:
|
|
invoke void @fake_throw() to label %continue unwind label %cleanup
|
|
|
|
continue:
|
|
unreachable
|
|
|
|
cleanup:
|
|
%0 = landingpad { i8*, i32 } personality i8* bitcast (i32 (...)* @__gxx_personality_v0 to i8*)
|
|
cleanup
|
|
unreachable
|
|
}
|
|
|
|
define void @test_unnatural_cfg_backwards_inner_loop() {
|
|
; Test that when we encounter an unnatural CFG structure after having formed
|
|
; a chain for an inner loop which happened to be laid out backwards we don't
|
|
; attempt to merge onto the wrong end of the inner loop just because we find it
|
|
; first. This was reduced from a crasher in GCC's single source.
|
|
;
|
|
; CHECK: test_unnatural_cfg_backwards_inner_loop
|
|
; CHECK: %entry
|
|
; CHECK: [[BODY:# BB#[0-9]+]]:
|
|
; CHECK: %loop2b
|
|
; CHECK: %loop1
|
|
; CHECK: %loop2a
|
|
|
|
entry:
|
|
br i1 undef, label %loop2a, label %body
|
|
|
|
body:
|
|
br label %loop2a
|
|
|
|
loop1:
|
|
%next.load = load i32** undef
|
|
br i1 %comp.a, label %loop2a, label %loop2b
|
|
|
|
loop2a:
|
|
%var = phi i32* [ null, %entry ], [ null, %body ], [ %next.phi, %loop1 ]
|
|
%next.var = phi i32* [ null, %entry ], [ undef, %body ], [ %next.load, %loop1 ]
|
|
%comp.a = icmp eq i32* %var, null
|
|
br label %loop3
|
|
|
|
loop2b:
|
|
%gep = getelementptr inbounds i32* %var.phi, i32 0
|
|
%next.ptr = bitcast i32* %gep to i32**
|
|
store i32* %next.phi, i32** %next.ptr
|
|
br label %loop3
|
|
|
|
loop3:
|
|
%var.phi = phi i32* [ %next.phi, %loop2b ], [ %var, %loop2a ]
|
|
%next.phi = phi i32* [ %next.load, %loop2b ], [ %next.var, %loop2a ]
|
|
br label %loop1
|
|
}
|
|
|
|
define void @unanalyzable_branch_to_loop_header() {
|
|
; Ensure that we can handle unanalyzable branches into loop headers. We
|
|
; pre-form chains for unanalyzable branches, and will find the tail end of that
|
|
; at the start of the loop. This function uses floating point comparison
|
|
; fallthrough because that happens to always produce unanalyzable branches on
|
|
; x86.
|
|
;
|
|
; CHECK: unanalyzable_branch_to_loop_header
|
|
; CHECK: %entry
|
|
; CHECK: %loop
|
|
; CHECK: %exit
|
|
|
|
entry:
|
|
%cmp = fcmp une double 0.000000e+00, undef
|
|
br i1 %cmp, label %loop, label %exit
|
|
|
|
loop:
|
|
%cond = icmp eq i8 undef, 42
|
|
br i1 %cond, label %exit, label %loop
|
|
|
|
exit:
|
|
ret void
|
|
}
|
|
|
|
define void @unanalyzable_branch_to_best_succ(i1 %cond) {
|
|
; Ensure that we can handle unanalyzable branches where the destination block
|
|
; gets selected as the optimal successor to merge.
|
|
;
|
|
; CHECK: unanalyzable_branch_to_best_succ
|
|
; CHECK: %entry
|
|
; CHECK: %foo
|
|
; CHECK: %bar
|
|
; CHECK: %exit
|
|
|
|
entry:
|
|
; Bias this branch toward bar to ensure we form that chain.
|
|
br i1 %cond, label %bar, label %foo, !prof !1
|
|
|
|
foo:
|
|
%cmp = fcmp une double 0.000000e+00, undef
|
|
br i1 %cmp, label %bar, label %exit
|
|
|
|
bar:
|
|
call i32 @f()
|
|
br label %exit
|
|
|
|
exit:
|
|
ret void
|
|
}
|
|
|
|
define void @unanalyzable_branch_to_free_block(float %x) {
|
|
; Ensure that we can handle unanalyzable branches where the destination block
|
|
; gets selected as the best free block in the CFG.
|
|
;
|
|
; CHECK: unanalyzable_branch_to_free_block
|
|
; CHECK: %entry
|
|
; CHECK: %a
|
|
; CHECK: %b
|
|
; CHECK: %c
|
|
; CHECK: %exit
|
|
|
|
entry:
|
|
br i1 undef, label %a, label %b
|
|
|
|
a:
|
|
call i32 @f()
|
|
br label %c
|
|
|
|
b:
|
|
%cmp = fcmp une float %x, undef
|
|
br i1 %cmp, label %c, label %exit
|
|
|
|
c:
|
|
call i32 @g()
|
|
br label %exit
|
|
|
|
exit:
|
|
ret void
|
|
}
|
|
|
|
define void @many_unanalyzable_branches() {
|
|
; Ensure that we don't crash as we're building up many unanalyzable branches,
|
|
; blocks, and loops.
|
|
;
|
|
; CHECK: many_unanalyzable_branches
|
|
; CHECK: %entry
|
|
; CHECK: %exit
|
|
|
|
entry:
|
|
br label %0
|
|
|
|
%val0 = load volatile float* undef
|
|
%cmp0 = fcmp une float %val0, undef
|
|
br i1 %cmp0, label %1, label %0
|
|
%val1 = load volatile float* undef
|
|
%cmp1 = fcmp une float %val1, undef
|
|
br i1 %cmp1, label %2, label %1
|
|
%val2 = load volatile float* undef
|
|
%cmp2 = fcmp une float %val2, undef
|
|
br i1 %cmp2, label %3, label %2
|
|
%val3 = load volatile float* undef
|
|
%cmp3 = fcmp une float %val3, undef
|
|
br i1 %cmp3, label %4, label %3
|
|
%val4 = load volatile float* undef
|
|
%cmp4 = fcmp une float %val4, undef
|
|
br i1 %cmp4, label %5, label %4
|
|
%val5 = load volatile float* undef
|
|
%cmp5 = fcmp une float %val5, undef
|
|
br i1 %cmp5, label %6, label %5
|
|
%val6 = load volatile float* undef
|
|
%cmp6 = fcmp une float %val6, undef
|
|
br i1 %cmp6, label %7, label %6
|
|
%val7 = load volatile float* undef
|
|
%cmp7 = fcmp une float %val7, undef
|
|
br i1 %cmp7, label %8, label %7
|
|
%val8 = load volatile float* undef
|
|
%cmp8 = fcmp une float %val8, undef
|
|
br i1 %cmp8, label %9, label %8
|
|
%val9 = load volatile float* undef
|
|
%cmp9 = fcmp une float %val9, undef
|
|
br i1 %cmp9, label %10, label %9
|
|
%val10 = load volatile float* undef
|
|
%cmp10 = fcmp une float %val10, undef
|
|
br i1 %cmp10, label %11, label %10
|
|
%val11 = load volatile float* undef
|
|
%cmp11 = fcmp une float %val11, undef
|
|
br i1 %cmp11, label %12, label %11
|
|
%val12 = load volatile float* undef
|
|
%cmp12 = fcmp une float %val12, undef
|
|
br i1 %cmp12, label %13, label %12
|
|
%val13 = load volatile float* undef
|
|
%cmp13 = fcmp une float %val13, undef
|
|
br i1 %cmp13, label %14, label %13
|
|
%val14 = load volatile float* undef
|
|
%cmp14 = fcmp une float %val14, undef
|
|
br i1 %cmp14, label %15, label %14
|
|
%val15 = load volatile float* undef
|
|
%cmp15 = fcmp une float %val15, undef
|
|
br i1 %cmp15, label %16, label %15
|
|
%val16 = load volatile float* undef
|
|
%cmp16 = fcmp une float %val16, undef
|
|
br i1 %cmp16, label %17, label %16
|
|
%val17 = load volatile float* undef
|
|
%cmp17 = fcmp une float %val17, undef
|
|
br i1 %cmp17, label %18, label %17
|
|
%val18 = load volatile float* undef
|
|
%cmp18 = fcmp une float %val18, undef
|
|
br i1 %cmp18, label %19, label %18
|
|
%val19 = load volatile float* undef
|
|
%cmp19 = fcmp une float %val19, undef
|
|
br i1 %cmp19, label %20, label %19
|
|
%val20 = load volatile float* undef
|
|
%cmp20 = fcmp une float %val20, undef
|
|
br i1 %cmp20, label %21, label %20
|
|
%val21 = load volatile float* undef
|
|
%cmp21 = fcmp une float %val21, undef
|
|
br i1 %cmp21, label %22, label %21
|
|
%val22 = load volatile float* undef
|
|
%cmp22 = fcmp une float %val22, undef
|
|
br i1 %cmp22, label %23, label %22
|
|
%val23 = load volatile float* undef
|
|
%cmp23 = fcmp une float %val23, undef
|
|
br i1 %cmp23, label %24, label %23
|
|
%val24 = load volatile float* undef
|
|
%cmp24 = fcmp une float %val24, undef
|
|
br i1 %cmp24, label %25, label %24
|
|
%val25 = load volatile float* undef
|
|
%cmp25 = fcmp une float %val25, undef
|
|
br i1 %cmp25, label %26, label %25
|
|
%val26 = load volatile float* undef
|
|
%cmp26 = fcmp une float %val26, undef
|
|
br i1 %cmp26, label %27, label %26
|
|
%val27 = load volatile float* undef
|
|
%cmp27 = fcmp une float %val27, undef
|
|
br i1 %cmp27, label %28, label %27
|
|
%val28 = load volatile float* undef
|
|
%cmp28 = fcmp une float %val28, undef
|
|
br i1 %cmp28, label %29, label %28
|
|
%val29 = load volatile float* undef
|
|
%cmp29 = fcmp une float %val29, undef
|
|
br i1 %cmp29, label %30, label %29
|
|
%val30 = load volatile float* undef
|
|
%cmp30 = fcmp une float %val30, undef
|
|
br i1 %cmp30, label %31, label %30
|
|
%val31 = load volatile float* undef
|
|
%cmp31 = fcmp une float %val31, undef
|
|
br i1 %cmp31, label %32, label %31
|
|
%val32 = load volatile float* undef
|
|
%cmp32 = fcmp une float %val32, undef
|
|
br i1 %cmp32, label %33, label %32
|
|
%val33 = load volatile float* undef
|
|
%cmp33 = fcmp une float %val33, undef
|
|
br i1 %cmp33, label %34, label %33
|
|
%val34 = load volatile float* undef
|
|
%cmp34 = fcmp une float %val34, undef
|
|
br i1 %cmp34, label %35, label %34
|
|
%val35 = load volatile float* undef
|
|
%cmp35 = fcmp une float %val35, undef
|
|
br i1 %cmp35, label %36, label %35
|
|
%val36 = load volatile float* undef
|
|
%cmp36 = fcmp une float %val36, undef
|
|
br i1 %cmp36, label %37, label %36
|
|
%val37 = load volatile float* undef
|
|
%cmp37 = fcmp une float %val37, undef
|
|
br i1 %cmp37, label %38, label %37
|
|
%val38 = load volatile float* undef
|
|
%cmp38 = fcmp une float %val38, undef
|
|
br i1 %cmp38, label %39, label %38
|
|
%val39 = load volatile float* undef
|
|
%cmp39 = fcmp une float %val39, undef
|
|
br i1 %cmp39, label %40, label %39
|
|
%val40 = load volatile float* undef
|
|
%cmp40 = fcmp une float %val40, undef
|
|
br i1 %cmp40, label %41, label %40
|
|
%val41 = load volatile float* undef
|
|
%cmp41 = fcmp une float %val41, undef
|
|
br i1 %cmp41, label %42, label %41
|
|
%val42 = load volatile float* undef
|
|
%cmp42 = fcmp une float %val42, undef
|
|
br i1 %cmp42, label %43, label %42
|
|
%val43 = load volatile float* undef
|
|
%cmp43 = fcmp une float %val43, undef
|
|
br i1 %cmp43, label %44, label %43
|
|
%val44 = load volatile float* undef
|
|
%cmp44 = fcmp une float %val44, undef
|
|
br i1 %cmp44, label %45, label %44
|
|
%val45 = load volatile float* undef
|
|
%cmp45 = fcmp une float %val45, undef
|
|
br i1 %cmp45, label %46, label %45
|
|
%val46 = load volatile float* undef
|
|
%cmp46 = fcmp une float %val46, undef
|
|
br i1 %cmp46, label %47, label %46
|
|
%val47 = load volatile float* undef
|
|
%cmp47 = fcmp une float %val47, undef
|
|
br i1 %cmp47, label %48, label %47
|
|
%val48 = load volatile float* undef
|
|
%cmp48 = fcmp une float %val48, undef
|
|
br i1 %cmp48, label %49, label %48
|
|
%val49 = load volatile float* undef
|
|
%cmp49 = fcmp une float %val49, undef
|
|
br i1 %cmp49, label %50, label %49
|
|
%val50 = load volatile float* undef
|
|
%cmp50 = fcmp une float %val50, undef
|
|
br i1 %cmp50, label %51, label %50
|
|
%val51 = load volatile float* undef
|
|
%cmp51 = fcmp une float %val51, undef
|
|
br i1 %cmp51, label %52, label %51
|
|
%val52 = load volatile float* undef
|
|
%cmp52 = fcmp une float %val52, undef
|
|
br i1 %cmp52, label %53, label %52
|
|
%val53 = load volatile float* undef
|
|
%cmp53 = fcmp une float %val53, undef
|
|
br i1 %cmp53, label %54, label %53
|
|
%val54 = load volatile float* undef
|
|
%cmp54 = fcmp une float %val54, undef
|
|
br i1 %cmp54, label %55, label %54
|
|
%val55 = load volatile float* undef
|
|
%cmp55 = fcmp une float %val55, undef
|
|
br i1 %cmp55, label %56, label %55
|
|
%val56 = load volatile float* undef
|
|
%cmp56 = fcmp une float %val56, undef
|
|
br i1 %cmp56, label %57, label %56
|
|
%val57 = load volatile float* undef
|
|
%cmp57 = fcmp une float %val57, undef
|
|
br i1 %cmp57, label %58, label %57
|
|
%val58 = load volatile float* undef
|
|
%cmp58 = fcmp une float %val58, undef
|
|
br i1 %cmp58, label %59, label %58
|
|
%val59 = load volatile float* undef
|
|
%cmp59 = fcmp une float %val59, undef
|
|
br i1 %cmp59, label %60, label %59
|
|
%val60 = load volatile float* undef
|
|
%cmp60 = fcmp une float %val60, undef
|
|
br i1 %cmp60, label %61, label %60
|
|
%val61 = load volatile float* undef
|
|
%cmp61 = fcmp une float %val61, undef
|
|
br i1 %cmp61, label %62, label %61
|
|
%val62 = load volatile float* undef
|
|
%cmp62 = fcmp une float %val62, undef
|
|
br i1 %cmp62, label %63, label %62
|
|
%val63 = load volatile float* undef
|
|
%cmp63 = fcmp une float %val63, undef
|
|
br i1 %cmp63, label %64, label %63
|
|
%val64 = load volatile float* undef
|
|
%cmp64 = fcmp une float %val64, undef
|
|
br i1 %cmp64, label %65, label %64
|
|
|
|
br label %exit
|
|
exit:
|
|
ret void
|
|
}
|
|
|
|
define void @benchmark_heapsort(i32 %n, double* nocapture %ra) {
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; This test case comes from the heapsort benchmark, and exemplifies several
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; important aspects to block placement in the presence of loops:
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; 1) Loop rotation needs to *ensure* that the desired exiting edge can be
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; a fallthrough.
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; 2) The exiting edge from the loop which is rotated to be laid out at the
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; bottom of the loop needs to be exiting into the nearest enclosing loop (to
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; which there is an exit). Otherwise, we force that enclosing loop into
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; strange layouts that are siginificantly less efficient, often times maing
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; it discontiguous.
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;
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; CHECK: @benchmark_heapsort
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; CHECK: %entry
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; First rotated loop top.
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; CHECK: .align
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; CHECK: %while.end
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; CHECK: %for.cond
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; CHECK: %if.then
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; CHECK: %if.else
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; CHECK: %if.end10
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; Second rotated loop top
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; CHECK: .align
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; CHECK: %if.then24
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; CHECK: %while.cond.outer
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; Third rotated loop top
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; CHECK: .align
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; CHECK: %while.cond
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; CHECK: %while.body
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; CHECK: %land.lhs.true
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; CHECK: %if.then19
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; CHECK: %if.end20
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; CHECK: %if.then8
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; CHECK: ret
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entry:
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%shr = ashr i32 %n, 1
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%add = add nsw i32 %shr, 1
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%arrayidx3 = getelementptr inbounds double* %ra, i64 1
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br label %for.cond
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for.cond:
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%ir.0 = phi i32 [ %n, %entry ], [ %ir.1, %while.end ]
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%l.0 = phi i32 [ %add, %entry ], [ %l.1, %while.end ]
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%cmp = icmp sgt i32 %l.0, 1
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br i1 %cmp, label %if.then, label %if.else
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if.then:
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%dec = add nsw i32 %l.0, -1
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%idxprom = sext i32 %dec to i64
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%arrayidx = getelementptr inbounds double* %ra, i64 %idxprom
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%0 = load double* %arrayidx, align 8
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br label %if.end10
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if.else:
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%idxprom1 = sext i32 %ir.0 to i64
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%arrayidx2 = getelementptr inbounds double* %ra, i64 %idxprom1
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%1 = load double* %arrayidx2, align 8
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%2 = load double* %arrayidx3, align 8
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store double %2, double* %arrayidx2, align 8
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%dec6 = add nsw i32 %ir.0, -1
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%cmp7 = icmp eq i32 %dec6, 1
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br i1 %cmp7, label %if.then8, label %if.end10
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if.then8:
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store double %1, double* %arrayidx3, align 8
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ret void
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if.end10:
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%ir.1 = phi i32 [ %ir.0, %if.then ], [ %dec6, %if.else ]
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%l.1 = phi i32 [ %dec, %if.then ], [ %l.0, %if.else ]
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%rra.0 = phi double [ %0, %if.then ], [ %1, %if.else ]
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%add31 = add nsw i32 %ir.1, 1
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br label %while.cond.outer
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while.cond.outer:
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%j.0.ph.in = phi i32 [ %l.1, %if.end10 ], [ %j.1, %if.then24 ]
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%j.0.ph = shl i32 %j.0.ph.in, 1
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br label %while.cond
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while.cond:
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%j.0 = phi i32 [ %add31, %if.end20 ], [ %j.0.ph, %while.cond.outer ]
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%cmp11 = icmp sgt i32 %j.0, %ir.1
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br i1 %cmp11, label %while.end, label %while.body
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while.body:
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%cmp12 = icmp slt i32 %j.0, %ir.1
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br i1 %cmp12, label %land.lhs.true, label %if.end20
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land.lhs.true:
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%idxprom13 = sext i32 %j.0 to i64
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%arrayidx14 = getelementptr inbounds double* %ra, i64 %idxprom13
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%3 = load double* %arrayidx14, align 8
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%add15 = add nsw i32 %j.0, 1
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%idxprom16 = sext i32 %add15 to i64
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%arrayidx17 = getelementptr inbounds double* %ra, i64 %idxprom16
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%4 = load double* %arrayidx17, align 8
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%cmp18 = fcmp olt double %3, %4
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br i1 %cmp18, label %if.then19, label %if.end20
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if.then19:
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br label %if.end20
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if.end20:
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%j.1 = phi i32 [ %add15, %if.then19 ], [ %j.0, %land.lhs.true ], [ %j.0, %while.body ]
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%idxprom21 = sext i32 %j.1 to i64
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%arrayidx22 = getelementptr inbounds double* %ra, i64 %idxprom21
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%5 = load double* %arrayidx22, align 8
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%cmp23 = fcmp olt double %rra.0, %5
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br i1 %cmp23, label %if.then24, label %while.cond
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if.then24:
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%idxprom27 = sext i32 %j.0.ph.in to i64
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%arrayidx28 = getelementptr inbounds double* %ra, i64 %idxprom27
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store double %5, double* %arrayidx28, align 8
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br label %while.cond.outer
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while.end:
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%idxprom33 = sext i32 %j.0.ph.in to i64
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%arrayidx34 = getelementptr inbounds double* %ra, i64 %idxprom33
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store double %rra.0, double* %arrayidx34, align 8
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br label %for.cond
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}
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declare void @cold_function() cold
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define i32 @test_cold_calls(i32* %a) {
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; Test that edges to blocks post-dominated by cold calls are
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; marked as not expected to be taken. They should be laid out
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; at the bottom.
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; CHECK-LABEL: test_cold_calls:
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; CHECK: %entry
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; CHECK: %else
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; CHECK: %exit
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; CHECK: %then
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entry:
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%gep1 = getelementptr i32* %a, i32 1
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%val1 = load i32* %gep1
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%cond1 = icmp ugt i32 %val1, 1
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br i1 %cond1, label %then, label %else
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then:
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call void @cold_function()
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br label %exit
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else:
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%gep2 = getelementptr i32* %a, i32 2
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%val2 = load i32* %gep2
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br label %exit
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exit:
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%ret = phi i32 [ %val1, %then ], [ %val2, %else ]
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ret i32 %ret
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}
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