// run-pass #![allow(dead_code)] use std::vec; enum Simple { A, B, C } enum Valued { H8=163, Z=0, X=256, H7=67, } enum ValuedSigned { M1=-1, P1=1 } fn main() { // coercion-cast let mut it = vec![137].into_iter(); let itr: &mut vec::IntoIter = &mut it; assert_eq!((itr as &mut dyn Iterator).next(), Some(137)); assert_eq!((itr as &mut dyn Iterator).next(), None); assert_eq!(Some(4u32) as Option, Some(4u32)); assert_eq!((1u32,2u32) as (u32,u32), (1,2)); // this isn't prim-int-cast. Check that it works. assert_eq!(false as bool, false); assert_eq!(true as bool, true); // numeric-cast let l: u64 = 0x8090a0b0c0d0e0f0; let lsz: usize = l as usize; assert_eq!(l as u32, 0xc0d0e0f0); // numeric-cast assert_eq!(l as u8, 0xf0); assert_eq!(l as i8,-0x10); assert_eq!(l as u32, 0xc0d0e0f0); assert_eq!(l as u32 as usize as u32, l as u32); assert_eq!(l as i32,-0x3f2f1f10); assert_eq!(l as i32 as isize as i32, l as i32); assert_eq!(l as i64,-0x7f6f5f4f3f2f1f10); assert_eq!(0 as f64, 0f64); assert_eq!(1 as f64, 1f64); assert_eq!(l as f64, 9264081114510712022f64); assert_eq!(l as i64 as f64, -9182662959198838444f64); // float overflow : needs fixing // assert_eq!(l as f32 as i64 as u64, 9264082620822882088u64); // assert_eq!(l as i64 as f32 as i64, 9182664080220408446i64); assert_eq!(4294967040f32 as u32, 0xffffff00u32); assert_eq!(1.844674407370955e19f64 as u64, 0xfffffffffffff800u64); assert_eq!(9.223372036854775e18f64 as i64, 0x7ffffffffffffc00i64); assert_eq!(-9.223372036854776e18f64 as i64, 0x8000000000000000u64 as i64); // addr-ptr-cast/ptr-addr-cast (thin ptr) let p: *const [u8; 1] = lsz as *const [u8; 1]; assert_eq!(p as usize, lsz); // ptr-ptr-cast (thin ptr) let w: *const () = p as *const (); assert_eq!(w as usize, lsz); // ptr-ptr-cast (fat->thin) let u: *const [u8] = unsafe{&*p}; assert_eq!(u as *const u8, p as *const u8); assert_eq!(u as *const u16, p as *const u16); // ptr-ptr-cast (Length vtables) let mut l : [u8; 2] = [0,1]; let w: *mut [u16; 2] = &mut l as *mut [u8; 2] as *mut _; let w: *mut [u16] = unsafe {&mut *w}; let w_u8 : *const [u8] = w as *const [u8]; assert_eq!(unsafe{&*w_u8}, &l); let s: *mut str = w as *mut str; let l_via_str = unsafe{&*(s as *const [u8])}; assert_eq!(&l, l_via_str); // ptr-ptr-cast (Length vtables, check length is preserved) let l: [[u8; 3]; 2] = [[3, 2, 6], [4, 5, 1]]; let p: *const [[u8; 3]] = &l; let p: &[[u8; 2]] = unsafe {&*(p as *const [[u8; 2]])}; assert_eq!(p, [[3, 2], [6, 4]]); // enum-cast assert_eq!(Simple::A as u8, 0); assert_eq!(Simple::B as u8, 1); assert_eq!(Valued::H8 as i8, -93); assert_eq!(Valued::H7 as i8, 67); assert_eq!(Valued::Z as i8, 0); assert_eq!(Valued::H8 as u8, 163); assert_eq!(Valued::H7 as u8, 67); assert_eq!(Valued::Z as u8, 0); assert_eq!(Valued::H8 as u16, 163); assert_eq!(Valued::Z as u16, 0); assert_eq!(Valued::H8 as u16, 163); assert_eq!(Valued::Z as u16, 0); assert_eq!(ValuedSigned::M1 as u16, 65535); assert_eq!(ValuedSigned::M1 as i16, -1); assert_eq!(ValuedSigned::P1 as u16, 1); assert_eq!(ValuedSigned::P1 as i16, 1); // prim-int-cast assert_eq!(false as u16, 0); assert_eq!(true as u16, 1); assert_eq!(false as i64, 0); assert_eq!(true as i64, 1); assert_eq!('a' as u32, 0x61); assert_eq!('a' as u16, 0x61); assert_eq!('a' as u8, 0x61); assert_eq!('א' as u8, 0xd0); assert_eq!('א' as u16, 0x5d0); assert_eq!('א' as u32, 0x5d0); assert_eq!('🐵' as u8, 0x35); assert_eq!('🐵' as u16, 0xf435); assert_eq!('🐵' as u32, 0x1f435); assert_eq!('英' as i16, -0x7d0f); assert_eq!('英' as u16, 0x82f1); // u8-char-cast assert_eq!(0x61 as char, 'a'); assert_eq!(0u8 as char, '\0'); assert_eq!(0xd7 as char, '×'); // array-ptr-cast let x = [1,2,3]; let first : *const u32 = &x[0]; assert_eq!(first, &x as *const _); assert_eq!(first, &x as *const u32); // fptr-addr-cast fn foo() { println!("foo!"); } fn bar() { println!("bar!"); } assert!(foo as usize != bar as usize); // Taking a few bits of a function's address is totally pointless and we detect that assert_eq!(foo as i16, foo as usize as i16); // fptr-ptr-cast assert_eq!(foo as *const u8 as usize, foo as usize); assert!(foo as *const u32 != first); } fn foo() { }