//@ revisions: base //@[g2p]compile-flags: -Z two-phase-beyond-autoref // the above revision is disabled until two-phase-beyond-autoref support is better // This is a test checking that when we limit two-phase borrows to // method receivers, we do not let other kinds of auto-ref to leak // through. // // The g2p revision illustrates the "undesirable" behavior you would // otherwise observe without limiting the phasing to autoref on method // receivers (namely, in many cases demonstrated below, the error // would not arise). use std::ops::{Index, IndexMut}; fn foo(x: &mut u32, y: u32) { *x += y; } fn deref_coercion(x: &mut u32) { foo(x, *x); // Above error is a known limitation of AST borrowck } // While adding a flag to adjustments (indicating whether they // should support two-phase borrows, here are the cases I // encountered: // // - [x] Resolving overloaded_call_traits (call, call_mut, call_once) // - [x] deref_coercion (shown above) // - [x] coerce_unsized e.g., `&[T; n]`, `&mut [T; n] -> &[T]`, // `&mut [T; n] -> &mut [T]`, `&Concrete -> &Trait` // - [x] Method Call Receivers (the case we want to support!) // - [x] ExprKind::Index and ExprKind::Unary Deref; only need to handle coerce_index_op // - [x] overloaded_binops fn overloaded_call_traits() { // Regarding overloaded call traits, note that there is no // scenario where adding two-phase borrows should "fix" these // cases, because either we will resolve both invocations to // `call_mut` (in which case the inner call requires a mutable // borrow which will conflict with the outer reservation), or we // will resolve both to `call` (which will just work, regardless // of two-phase borrow support), or we will resolve both to // `call_once` (in which case the inner call requires moving the // receiver, invalidating the outer call). fn twice_ten_sm i32>(f: &mut F) { f(f(10)); //~^ ERROR cannot borrow `*f` as mutable more than once at a time } fn twice_ten_si i32>(f: &mut F) { f(f(10)); } fn twice_ten_so i32>(f: Box) { f(f(10)); //~^ ERROR use of moved value: `f` } fn twice_ten_om(f: &mut dyn FnMut(i32) -> i32) { f(f(10)); //~^ ERROR cannot borrow `*f` as mutable more than once at a time } fn twice_ten_oi(f: &mut dyn Fn(i32) -> i32) { f(f(10)); } fn twice_ten_oo(f: Box i32>) { f(f(10)); //~^ ERROR use of moved value: `f` } twice_ten_sm(&mut |x| x + 1); twice_ten_si(&mut |x| x + 1); twice_ten_so(Box::new(|x| x + 1)); twice_ten_om(&mut |x| x + 1); twice_ten_oi(&mut |x| x + 1); twice_ten_oo(Box::new(|x| x + 1)); } trait TwoMethods { fn m(&mut self, x: i32) -> i32 { x + 1 } fn i(&self, x: i32) -> i32 { x + 1 } } struct T; impl TwoMethods for T { } struct S; impl S { fn m(&mut self, x: i32) -> i32 { x + 1 } fn i(&self, x: i32) -> i32 { x + 1 } } impl TwoMethods for [i32; 3] { } fn double_access(m: &mut [X], s: &[X]) { m[0] = s[1]; } fn coerce_unsized() { let mut a = [1, 2, 3]; // This is not okay. double_access(&mut a, &a); //~^ ERROR cannot borrow `a` as immutable because it is also borrowed as mutable [E0502] // But this is okay. a.m(a.i(10)); // Above error is an expected limitation of AST borrowck } struct I(i32); impl Index for I { type Output = i32; fn index(&self, _: i32) -> &i32 { &self.0 } } impl IndexMut for I { fn index_mut(&mut self, _: i32) -> &mut i32 { &mut self.0 } } fn coerce_index_op() { let mut i = I(10); i[i[3]] = 4; //~^ ERROR cannot borrow `i` as immutable because it is also borrowed as mutable [E0502] // Should be accepted with g2p i[3] = i[4]; i[i[3]] = i[4]; //~^ ERROR cannot borrow `i` as immutable because it is also borrowed as mutable [E0502] // Should be accepted with g2p } fn main() { // As a reminder, this is the basic case we want to ensure we handle. let mut v = vec![1, 2, 3]; v.push(v.len()); // Error above is an expected limitation of AST borrowck // (as a rule, pnkfelix does not like to write tests with dead code.) deref_coercion(&mut 5); overloaded_call_traits(); let mut s = S; s.m(s.i(10)); // Error above is an expected limitation of AST borrowck let mut t = T; t.m(t.i(10)); // Error above is an expected limitation of AST borrowck coerce_unsized(); coerce_index_op(); }