use const_array_init::const_arr;
const ARR1: [i32; 3] = const_arr!([i32; 3], div_2);
const fn div_2(n: usize) -> i32 {
n as i32 / 2
}
#[test]
fn function_test() {
assert_eq!(ARR1, [0, 0, 1]);
}
const ARR2: [i32; 3] = const_arr!([i32; 3], |i| i as i32 / 2);
#[test]
fn closure_test() {
assert_eq!(ARR2, [0, 0, 1]);
}
const ARR3: [i32; 3] = const_arr!([i32; 3], |_| 4 / 2);
#[test]
fn easy_closure_test() {
assert_eq!(ARR3, [2, 2, 2]);
}
const ARR4: [i32; 3] = const_arr!([i32; 3], |i| {
let n = 2;
i as i32 / n
});
#[test]
fn advanced_closure_test() {
assert_eq!(ARR4, [0, 0, 1]);
}
#[derive(Debug, PartialEq, Eq)]
struct User {
id: u32,
}
const ARR5: [User; 3] = const_arr!([User; 3], |i| User { id: i as u32 });
#[test]
fn super_advanced_closure_test() {
assert_eq!(ARR5, [User { id: 0 }, User { id: 1 }, User { id: 2 },]);
}
const ARR6: [User; 3] = const_arr!([User; 3], |_| User { id: 1 as u32 });
#[test]
fn super_advanced_closure_test_empty_closure() {
assert_eq!(ARR6, [User { id: 1 }, User { id: 1 }, User { id: 1 },]);
}
const fn create_user(n: usize) -> User {
User { id: n as u32 }
}
const ARR7: [User; 3] = const_arr!([User; 3], create_user);
#[test]
fn super_advanced_func_test() {
assert_eq!(ARR7, [User { id: 0 }, User { id: 1 }, User { id: 2 },]);
}