// Strip out raw byte dumps to make comparison platform-independent: //@ normalize-stderr-test "(the raw bytes of the constant) \(size: [0-9]*, align: [0-9]*\)" -> "$1 (size: $$SIZE, align: $$ALIGN)" //@ normalize-stderr-test "([0-9a-f][0-9a-f] |╾─*ALLOC[0-9]+(\+[a-z0-9]+)?()?─*╼ )+ *│.*" -> "HEX_DUMP" //@ normalize-stderr-test "0x0+" -> "0x0" #![feature(never_type)] #![allow(invalid_value)] use std::mem; #[repr(transparent)] #[derive(Copy, Clone)] struct Wrap(T); #[derive(Copy, Clone)] enum Never {} // # simple enum with discriminant 0 #[repr(usize)] #[derive(Copy, Clone)] enum Enum { A = 0, } const GOOD_ENUM: Enum = unsafe { mem::transmute(0usize) }; const BAD_ENUM: Enum = unsafe { mem::transmute(1usize) }; //~^ ERROR is undefined behavior const BAD_ENUM_PTR: Enum = unsafe { mem::transmute(&1) }; //~^ ERROR evaluation of constant value failed const BAD_ENUM_WRAPPED: Wrap = unsafe { mem::transmute(&1) }; //~^ ERROR evaluation of constant value failed // # simple enum with discriminant 2 // (Potentially) invalid enum discriminant #[repr(usize)] #[derive(Copy, Clone)] enum Enum2 { A = 2, } const BAD_ENUM2: Enum2 = unsafe { mem::transmute(0usize) }; //~^ ERROR is undefined behavior const BAD_ENUM2_PTR: Enum2 = unsafe { mem::transmute(&0) }; //~^ ERROR evaluation of constant value failed // something wrapping the enum so that we test layout first, not enum const BAD_ENUM2_WRAPPED: Wrap = unsafe { mem::transmute(&0) }; //~^ ERROR evaluation of constant value failed // Undef enum discriminant. #[repr(C)] union MaybeUninit { uninit: (), init: T, } const BAD_ENUM2_UNDEF : Enum2 = unsafe { MaybeUninit { uninit: () }.init }; //~^ ERROR evaluation of constant value failed //~| uninitialized // Pointer value in an enum with a niche that is not just 0. const BAD_ENUM2_OPTION_PTR: Option = unsafe { mem::transmute(&0) }; //~^ ERROR evaluation of constant value failed // # valid discriminant for uninhabited variant // An enum with uninhabited variants but also at least 2 inhabited variants -- so the uninhabited // variants *do* have a discriminant. enum UninhDiscriminant { A, B(!), C, D(Never), } const GOOD_INHABITED_VARIANT1: UninhDiscriminant = unsafe { mem::transmute(0u8) }; // variant A const GOOD_INHABITED_VARIANT2: UninhDiscriminant = unsafe { mem::transmute(2u8) }; // variant C const BAD_UNINHABITED_VARIANT1: UninhDiscriminant = unsafe { mem::transmute(1u8) }; //~^ ERROR is undefined behavior const BAD_UNINHABITED_VARIANT2: UninhDiscriminant = unsafe { mem::transmute(3u8) }; //~^ ERROR is undefined behavior // # other // Invalid enum field content (mostly to test printing of paths for enum tuple // variants and tuples). // Need to create something which does not clash with enum layout optimizations. const BAD_OPTION_CHAR: Option<(char, char)> = Some(('x', unsafe { mem::transmute(!0u32) })); //~^ ERROR is undefined behavior // All variants are uninhabited but also have data. // Use `0` as constant to make behavior endianness-independent. const BAD_UNINHABITED_WITH_DATA1: Result<(i32, Never), (i32, !)> = unsafe { mem::transmute(0u64) }; //~^ ERROR evaluation of constant value failed const BAD_UNINHABITED_WITH_DATA2: Result<(i32, !), (i32, Never)> = unsafe { mem::transmute(0u64) }; //~^ ERROR evaluation of constant value failed const TEST_ICE_89765: () = { // This is a regression test for https://github.com/rust-lang/rust/issues/89765. unsafe { std::mem::discriminant(&*(&() as *const () as *const Never)); }; //~^ inside `TEST_ICE_89765` }; fn main() { }