//@ run-pass #![allow(dead_code)] #![allow(unused_variables)] // This is an example where the older inference algorithm failed. The // specifics of why it failed are somewhat, but not entirely, tailed // to the algorithm. Ultimately the problem is that when computing the // mutual supertype of both sides of the `if` it would be faced with a // choice of tightening bounds or unifying variables and it took the // wrong path. The new algorithm avoids this problem and hence this // example typechecks correctly. //@ pretty-expanded FIXME #23616 enum ScopeChain<'a> { Link(Scope<'a>), End } type Scope<'a> = &'a ScopeChain<'a>; struct OuterContext; struct Context<'a> { foo: &'a OuterContext } impl<'a> Context<'a> { fn foo(&mut self, scope: Scope) { let link = if 1 < 2 { let l = ScopeChain::Link(scope); self.take_scope(&l); l } else { ScopeChain::Link(scope) }; self.take_scope(&link); } fn take_scope(&mut self, x: Scope) { } } fn main() { }