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llvm / llvm / 2a9e5ad32e9df64f89df4f58f5b49c74ee3e07f4 / . / test / Transforms / JumpThreading / assume.ll
blob: f58ee299cba0759ba39e4d4ccb2d4002768970b6 [file] [log] [blame]
; RUN: opt -S -jump-threading -dce < %s | FileCheck %s
target datalayout = "e-m:e-i64:64-f80:128-n8:16:32:64-S128"
target triple = "x86_64-unknown-linux-gnu"
; Function Attrs: nounwind uwtable
define i32 @test1(i32 %a, i32 %b) #0 {
entry:
%cmp = icmp sgt i32 %a, 5
tail call void @llvm.assume(i1 %cmp)
%cmp1 = icmp sgt i32 %b, 1234
br i1 %cmp1, label %if.then, label %if.else
; CHECK-LABEL: @test1
; CHECK: icmp sgt i32 %a, 5
; CHECK: call void @llvm.assume
; CHECK-NOT: icmp sgt i32 %a, 3
; CHECK: ret i32
if.then: ; preds = %entry
%cmp2 = icmp sgt i32 %a, 3
br i1 %cmp2, label %if.then3, label %return
if.then3: ; preds = %if.then
tail call void (...) @bar() #1
br label %return
if.else: ; preds = %entry
tail call void (...) @car() #1
br label %return
return: ; preds = %if.else, %if.then, %if.then3
%retval.0 = phi i32 [ 1, %if.then3 ], [ 0, %if.then ], [ 0, %if.else ]
ret i32 %retval.0
}
define i32 @test2(i32 %a) #0 {
entry:
%cmp = icmp sgt i32 %a, 5
tail call void @llvm.assume(i1 %cmp)
%cmp1 = icmp sgt i32 %a, 3
br i1 %cmp1, label %if.then, label %return
; CHECK-LABEL: @test2
; CHECK: icmp sgt i32 %a, 5
; CHECK: tail call void @llvm.assume
; CHECK: tail call void (...) @bar()
; CHECK: ret i32 1
if.then: ; preds = %entry
tail call void (...) @bar() #1
br label %return
return: ; preds = %entry, %if.then
%retval.0 = phi i32 [ 1, %if.then ], [ 0, %entry ]
ret i32 %retval.0
}
@g = external global i32
; Check that we do prove a fact using an assume within the block.
; We can fold the assume based on the semantics of assume.
define void @can_fold_assume(i32* %array) {
; CHECK-LABEL: @can_fold_assume
; CHECK-NOT: call void @llvm.assume
; CHECK-NOT: br
; CHECK: ret void
%notnull = icmp ne i32* %array, null
call void @llvm.assume(i1 %notnull)
br i1 %notnull, label %normal, label %error
normal:
ret void
error:
store atomic i32 0, i32* @g unordered, align 4
ret void
}
declare void @f(i1)
declare void @exit()
; We can fold the assume but not the uses before the assume.
define void @cannot_fold_use_before_assume(i32* %array) {
; CHECK-LABEL:@cannot_fold_use_before_assume
; CHECK: @f(i1 %notnull)
; CHECK-NEXT: exit()
; CHECK-NOT: assume
; CHECK-NEXT: ret void
%notnull = icmp ne i32* %array, null
call void @f(i1 %notnull)
call void @exit()
call void @llvm.assume(i1 %notnull)
br i1 %notnull, label %normal, label %error
normal:
ret void
error:
store atomic i32 0, i32* @g unordered, align 4
ret void
}
declare void @dummy(i1) nounwind argmemonly
define void @can_fold_some_use_before_assume(i32* %array) {
; CHECK-LABEL:@can_fold_some_use_before_assume
; CHECK: @f(i1 %notnull)
; CHECK-NEXT: @dummy(i1 true)
; CHECK-NOT: assume
; CHECK-NEXT: ret void
%notnull = icmp ne i32* %array, null
call void @f(i1 %notnull)
call void @dummy(i1 %notnull)
call void @llvm.assume(i1 %notnull)
br i1 %notnull, label %normal, label %error
normal:
ret void
error:
store atomic i32 0, i32* @g unordered, align 4
ret void
}
; FIXME: can fold assume and all uses before/after assume.
; because the trapping exit call is after the assume.
define void @can_fold_assume_and_all_uses(i32* %array) {
; CHECK-LABEL:@can_fold_assume_and_all_uses
; CHECK: @dummy(i1 %notnull)
; CHECK-NEXT: assume(i1 %notnull)
; CHECK-NEXT: exit()
; CHECK-NEXT: %notnull2 = or i1 true, false
; CHECK-NEXT: @f(i1 %notnull2)
; CHECK-NEXT: ret void
%notnull = icmp ne i32* %array, null
call void @dummy(i1 %notnull)
call void @llvm.assume(i1 %notnull)
call void @exit()
br i1 %notnull, label %normal, label %error
normal:
%notnull2 = or i1 %notnull, false
call void @f(i1 %notnull2)
ret void
error:
store atomic i32 0, i32* @g unordered, align 4
ret void
}
declare void @fz(i8)
; FIXME: We can fold assume to true, and the use after assume, but we do not do so
; currently, because of the function call after the assume.
define void @can_fold_assume2(i32* %array) {
; CHECK-LABEL:@can_fold_assume2
; CHECK: @f(i1 %notnull)
; CHECK-NEXT: assume(i1 %notnull)
; CHECK-NEXT: znotnull = zext i1 %notnull to i8
; CHECK-NEXT: @f(i1 %notnull)
; CHECK-NEXT: @f(i1 true)
; CHECK-NEXT: @fz(i8 %znotnull)
; CHECK-NEXT: ret void
%notnull = icmp ne i32* %array, null
call void @f(i1 %notnull)
call void @llvm.assume(i1 %notnull)
%znotnull = zext i1 %notnull to i8
call void @f(i1 %notnull)
br i1 %notnull, label %normal, label %error
normal:
call void @f(i1 %notnull)
call void @fz(i8 %znotnull)
ret void
error:
store atomic i32 0, i32* @g unordered, align 4
ret void
}
declare void @llvm.experimental.guard(i1, ...)
; FIXME: We can fold assume to true, but we do not do so
; because of the guard following the assume.
define void @can_fold_assume3(i32* %array){
; CHECK-LABEL:@can_fold_assume3
; CHECK: @f(i1 %notnull)
; CHECK-NEXT: assume(i1 %notnull)
; CHECK-NEXT: guard(i1 %notnull)
; CHECK-NEXT: znotnull = zext i1 true to i8
; CHECK-NEXT: @f(i1 true)
; CHECK-NEXT: @fz(i8 %znotnull)
; CHECK-NEXT: ret void
%notnull = icmp ne i32* %array, null
call void @f(i1 %notnull)
call void @llvm.assume(i1 %notnull)
call void(i1, ...) @llvm.experimental.guard(i1 %notnull) [ "deopt"() ]
%znotnull = zext i1 %notnull to i8
br i1 %notnull, label %normal, label %error
normal:
call void @f(i1 %notnull)
call void @fz(i8 %znotnull)
ret void
error:
store atomic i32 0, i32* @g unordered, align 4
ret void
}
; can fold all uses and remove the cond
define void @can_fold_assume4(i32* %array) {
; CHECK-LABEL: can_fold_assume4
; CHECK-NOT: notnull
; CHECK: dummy(i1 true)
; CHECK-NEXT: ret void
%notnull = icmp ne i32* %array, null
call void @exit()
call void @dummy(i1 %notnull)
call void @llvm.assume(i1 %notnull)
br i1 %notnull, label %normal, label %error
normal:
ret void
error:
store atomic i32 0, i32* @g unordered, align 4
ret void
}
; Function Attrs: nounwind
declare void @llvm.assume(i1) #1
declare void @bar(...)
declare void @car(...)
attributes #0 = { nounwind uwtable }
attributes #1 = { nounwind }