; RUN: opt < %s -S -place-safepoints -enable-new-pm=0 | FileCheck %s ; Do we insert a simple entry safepoint? define void @test_entry() gc "statepoint-example" { ; CHECK-LABEL: @test_entry entry: ; CHECK-LABEL: entry ; CHECK: call void @do_safepoint ret void } ; On a non-gc function, we should NOT get an entry safepoint define void @test_negative() { ; CHECK-LABEL: @test_negative entry: ; CHECK-NOT: do_safepoint ret void } ; Do we insert a backedge safepoint in a statically ; infinite loop? define void @test_backedge() gc "statepoint-example" { ; CHECK-LABEL: test_backedge entry: ; CHECK-LABEL: entry ; This statepoint is technically not required, but we don't exploit that yet. ; CHECK: call void @do_safepoint br label %other ; CHECK-LABEL: other ; CHECK: call void @do_safepoint other: br label %other } ; Check that we remove an unreachable block rather than trying ; to insert a backedge safepoint define void @test_unreachable() gc "statepoint-example" { ; CHECK-LABEL: test_unreachable entry: ; CHECK-LABEL: entry ; CHECK: call void @do_safepoint ret void ; CHECK-NOT: other ; CHECK-NOT: do_safepoint other: br label %other } declare void @foo() declare zeroext i1 @i1_return_i1(i1) define i1 @test_call_with_result() gc "statepoint-example" { ; CHECK-LABEL: test_call_with_result ; This is checking that a statepoint_poll is inserted for a function ; that takes 1 argument. ; CHECK: call void @do_safepoint entry: %call1 = tail call i1 (i1) @i1_return_i1(i1 false) ret i1 %call1 } ; This function is inlined when inserting a poll. To avoid recursive ; issues, make sure we don't place safepoints in it. declare void @do_safepoint() define void @gc.safepoint_poll() { ; CHECK-LABEL: gc.safepoint_poll ; CHECK-LABEL: entry ; CHECK-NEXT: do_safepoint ; CHECK-NEXT: ret void entry: call void @do_safepoint() ret void }