// ignore-tidy-linelength // Test various things that we do not want to promote. #![allow(unconditional_panic)] use std::cell::Cell; use std::mem::ManuallyDrop; // We do not promote mutable references. static mut TEST1: Option<&mut [i32]> = Some(&mut [1, 2, 3]); //~ ERROR temporary value dropped while borrowed static mut TEST2: &'static mut [i32] = { let x = &mut [1,2,3]; //~ ERROR temporary value dropped while borrowed x }; // We do not promote fn calls in `fn`, including `const fn`. pub const fn promote_cal(b: bool) -> i32 { const fn foo() { [()][42] } if b { let _x: &'static () = &foo(); //~ ERROR temporary value dropped while borrowed } 13 } // We do not promote union field accesses in `fn. union U { x: i32, y: i32 } pub const fn promote_union() { let _x: &'static i32 = &unsafe { U { x: 0 }.x }; //~ ERROR temporary value dropped while borrowed } // We do not promote union field accesses in `const`, either. const TEST_UNION: () = { let _x: &'static i32 = &unsafe { U { x: 0 }.x }; //~ ERROR temporary value dropped while borrowed }; // In a `const`, we do not promote things with interior mutability. Not even if we "project it away". const TEST_INTERIOR_MUT: () = { // The "0." case is already ruled out by not permitting any interior mutability in `const`. let _val: &'static _ = &(Cell::new(1), 2).1; //~ ERROR temporary value dropped while borrowed }; // This gets accepted by the "outer scope" rule, not promotion. const TEST_DROP_OUTER_SCOPE: &String = &String::new(); // To demonstrate that, we can rewrite it as follows. If this was promotion it would still work. const TEST_DROP_NOT_PROMOTE: &String = { let x = &String::new(); //~ ERROR destructor of `String` cannot be evaluated at compile-time // The "dropped while borrowed" error seems to be suppressed, but the key point is that this // fails to compile. x }; fn main() { // We must not promote things with interior mutability. Not even if we "project it away". let _val: &'static _ = &(Cell::new(1), 2).0; //~ ERROR temporary value dropped while borrowed let _val: &'static _ = &(Cell::new(1), 2).1; //~ ERROR temporary value dropped while borrowed // No promotion of fallible operations. let _val: &'static _ = &(1/0); //~ ERROR temporary value dropped while borrowed let _val: &'static _ = &(1/(1-1)); //~ ERROR temporary value dropped while borrowed let _val: &'static _ = &((1+1)/(1-1)); //~ ERROR temporary value dropped while borrowed let _val: &'static _ = &(i32::MIN/-1); //~ ERROR temporary value dropped while borrowed let _val: &'static _ = &(i32::MIN/(0-1)); //~ ERROR temporary value dropped while borrowed let _val: &'static _ = &(-128i8/-1); //~ ERROR temporary value dropped while borrowed let _val: &'static _ = &(1%0); //~ ERROR temporary value dropped while borrowed let _val: &'static _ = &(1%(1-1)); //~ ERROR temporary value dropped while borrowed let _val: &'static _ = &([1,2,3][4]+1); //~ ERROR temporary value dropped while borrowed // No promotion of temporaries that need to be dropped. const TEST_DROP: String = String::new(); let _val: &'static _ = &TEST_DROP; //~^ ERROR temporary value dropped while borrowed let _val: &'static _ = &&TEST_DROP; //~^ ERROR temporary value dropped while borrowed //~| ERROR temporary value dropped while borrowed let _val: &'static _ = &(&TEST_DROP,); //~^ ERROR temporary value dropped while borrowed //~| ERROR temporary value dropped while borrowed let _val: &'static _ = &[&TEST_DROP; 1]; //~^ ERROR temporary value dropped while borrowed //~| ERROR temporary value dropped while borrowed // Make sure there is no value-based reasoning for unions. union UnionWithCell { f1: i32, f2: ManuallyDrop>, } let x: &'static _ = &UnionWithCell { f1: 0 }; //~^ ERROR temporary value dropped while borrowed }