// Copyright 2014 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. // Test that this fairly specialized, but also reasonable, pattern // typechecks. The pattern involves regions bound in closures that // wind up related to inference variables. // // NB. Changes to the region implementatiosn have broken this pattern // a few times, but it happens to be used in the compiler so those // changes were caught. However, those uses in the compiler could // easily get changed or refactored away in the future. struct Ctxt<'tcx> { x: &'tcx Vec } struct Foo<'a,'tcx:'a> { cx: &'a Ctxt<'tcx>, } impl<'a,'tcx> Foo<'a,'tcx> { fn bother(&mut self) -> int { self.elaborate_bounds(box |this| { // (*) Here: type of `this` is `&'f0 Foo<&'f1, '_2>`, // where `'f0` and `'f1` are fresh, free regions that // result from the bound regions on the closure, and `'2` // is a region inference variable created by the call. Due // to the constraints on the type, we find that `'_2 : 'f1 // + 'f2` must hold (and can be assumed by the callee). // Region inference has to do some clever stuff to avoid // inferring `'_2` to be `'static` in this case, because // it is created outside the closure but then related to // regions bound by the closure itself. See the // `region_inference.rs` file (and the `givens` field, in // particular) for more details. this.foo() }) } fn foo(&mut self) -> int { 22 } fn elaborate_bounds( &mut self, mut mk_cand: Box FnMut(&mut Foo<'b, 'tcx>) -> int>) -> int { mk_cand(self) } } fn main() { let v = vec!(); let cx = Ctxt { x: &v }; let mut foo = Foo { cx: &cx }; assert_eq!(foo.bother(), 22); // just so the code is not dead, basically }