| ; FIXME: convert CHECK-INDIRECT into CHECK (and remove -check-prefixes) as soon |
| ; FIXME: as new-pass-manager's handling of indirect_non_convergent_call is fixed |
| ; |
| ; RUN: opt -functionattrs -S < %s | FileCheck %s --check-prefixes=CHECK,CHECK-INDIRECT |
| ; RUN: opt -passes=function-attrs -S < %s | FileCheck %s |
| |
| ; CHECK: Function Attrs |
| ; CHECK-NOT: convergent |
| ; CHECK-NEXT: define i32 @nonleaf() |
| define i32 @nonleaf() convergent { |
| %a = call i32 @leaf() |
| ret i32 %a |
| } |
| |
| ; CHECK: Function Attrs |
| ; CHECK-NOT: convergent |
| ; CHECK-NEXT: define i32 @leaf() |
| define i32 @leaf() convergent { |
| ret i32 0 |
| } |
| |
| ; CHECK: Function Attrs |
| ; CHECK-SAME: convergent |
| ; CHECK-NEXT: declare i32 @k() |
| declare i32 @k() convergent |
| |
| ; CHECK: Function Attrs |
| ; CHECK-SAME: convergent |
| ; CHECK-NEXT: define i32 @extern() |
| define i32 @extern() convergent { |
| %a = call i32 @k() convergent |
| ret i32 %a |
| } |
| |
| ; Convergent should not be removed on the function here. Although the call is |
| ; not explicitly convergent, it picks up the convergent attr from the callee. |
| ; |
| ; CHECK: Function Attrs |
| ; CHECK-SAME: convergent |
| ; CHECK-NEXT: define i32 @extern_non_convergent_call() |
| define i32 @extern_non_convergent_call() convergent { |
| %a = call i32 @k() |
| ret i32 %a |
| } |
| |
| ; CHECK: Function Attrs |
| ; CHECK-SAME: convergent |
| ; CHECK-NEXT: define i32 @indirect_convergent_call( |
| define i32 @indirect_convergent_call(i32 ()* %f) convergent { |
| %a = call i32 %f() convergent |
| ret i32 %a |
| } |
| ; Give indirect_non_convergent_call the norecurse attribute so we get a |
| ; "Function Attrs" comment in the output. |
| ; |
| ; CHECK: Function Attrs |
| ; CHECK-INDIRECT-NOT: convergent |
| ; CHECK-INDIRECT-NEXT: define i32 @indirect_non_convergent_call( |
| define i32 @indirect_non_convergent_call(i32 ()* %f) convergent norecurse { |
| %a = call i32 %f() |
| ret i32 %a |
| } |
| |
| ; CHECK: Function Attrs |
| ; CHECK-SAME: convergent |
| ; CHECK-NEXT: declare void @llvm.nvvm.barrier0() |
| declare void @llvm.nvvm.barrier0() convergent |
| |
| ; CHECK: Function Attrs |
| ; CHECK-SAME: convergent |
| ; CHECK-NEXT: define i32 @intrinsic() |
| define i32 @intrinsic() convergent { |
| ; Implicitly convergent, because the intrinsic is convergent. |
| call void @llvm.nvvm.barrier0() |
| ret i32 0 |
| } |
| |
| ; CHECK: Function Attrs |
| ; CHECK-NOT: convergent |
| ; CHECK-NEXT: define i32 @recursive1() |
| define i32 @recursive1() convergent { |
| %a = call i32 @recursive2() convergent |
| ret i32 %a |
| } |
| |
| ; CHECK: Function Attrs |
| ; CHECK-NOT: convergent |
| ; CHECK-NEXT: define i32 @recursive2() |
| define i32 @recursive2() convergent { |
| %a = call i32 @recursive1() convergent |
| ret i32 %a |
| } |
| |
| ; CHECK: Function Attrs |
| ; CHECK-SAME: convergent |
| ; CHECK-NEXT: define i32 @noopt() |
| define i32 @noopt() convergent optnone noinline { |
| %a = call i32 @noopt_friend() convergent |
| ret i32 0 |
| } |
| |
| ; A function which is mutually-recursive with a convergent, optnone function |
| ; shouldn't have its convergent attribute stripped. |
| ; CHECK: Function Attrs |
| ; CHECK-SAME: convergent |
| ; CHECK-NEXT: define i32 @noopt_friend() |
| define i32 @noopt_friend() convergent { |
| %a = call i32 @noopt() |
| ret i32 0 |
| } |