linux-packaging-mono/external/llvm/test/Transforms/FunctionAttrs/convergent.ll

; RUN: opt -functionattrs -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-NOT: convergent
; CHECK-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
}
Imported Upstream version 6.0.0.172 Former-commit-id: f3cc9b82f3e5bd8f0fd3ebc098f789556b44e9cd 2019-04-12 14:10:50 +00:00			`; RUN: opt -functionattrs -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-NOT: convergent`
			`; CHECK-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`
			`}`