; RUN: llvm-as < %s -disable-output 2>&1 | FileCheck %s -allow-empty ; RUN: llvm-as < %s | llvm-dis > %t1.ll ; RUN: llvm-as %t1.ll -o - | llvm-dis > %t2.ll ; RUN: diff %t1.ll %t2.ll ; RUN: llvm-as < %t1.ll -disable-output 2>&1 | FileCheck %s -allow-empty ; CHECK-NOT: error ; CHECK-NOT: warning define void @mixed1() { call void @g() ; not convergent call void @f() ; uncontrolled convergent call void @g() ; not convergent ret void } define void @mixed2() { call void @g() ; not convergent %t1_tok1 = call token @llvm.experimental.convergence.anchor() call void @f() [ "convergencectrl"(token %t1_tok1) ] call void @g() ; not convergent ret void } define void @region_nesting1() convergent { A: %tok1 = call token @llvm.experimental.convergence.entry() %tok2 = call token @llvm.experimental.convergence.anchor() br label %B B: br i1 undef, label %C, label %D C: call void @f() [ "convergencectrl"(token %tok1) ] ret void D: call void @f() [ "convergencectrl"(token %tok2) ] ret void } ; Mirror image of @region_nesting1 define void @region_nesting2() { A: %tok1 = call token @llvm.experimental.convergence.anchor() %tok2 = call token @llvm.experimental.convergence.anchor() br label %B B: br i1 undef, label %C, label %D C: call void @f() [ "convergencectrl"(token %tok2) ] ret void D: call void @f() [ "convergencectrl"(token %tok1) ] ret void } define void @loop_nesting() convergent { A: %a = call token @llvm.experimental.convergence.entry() br label %B B: %b = call token @llvm.experimental.convergence.anchor() br i1 undef, label %C, label %D C: %c = call token @llvm.experimental.convergence.loop() [ "convergencectrl"(token %b) ] call void @f() [ "convergencectrl"(token %c) ] br label %B D: call void @f() [ "convergencectrl"(token %b) ] br i1 undef, label %B, label %E E: ret void } declare void @f() convergent declare void @g() declare token @llvm.experimental.convergence.entry() declare token @llvm.experimental.convergence.anchor() declare token @llvm.experimental.convergence.loop()