#![recursion_limit="128"] #![no_std] #[macro_use] extern crate generic_array; use core::cell::Cell; use core::ops::Drop; use generic_array::GenericArray; use generic_array::typenum::{U1, U3, U4, U97}; #[test] fn test() { let mut list97 = [0; 97]; for i in 0..97 { list97[i] = i as i32; } let l: GenericArray = GenericArray::clone_from_slice(&list97); assert_eq!(l[0], 0); assert_eq!(l[1], 1); assert_eq!(l[32], 32); assert_eq!(l[56], 56); } #[test] fn test_drop() { #[derive(Clone)] struct TestDrop<'a>(&'a Cell); impl<'a> Drop for TestDrop<'a> { fn drop(&mut self) { self.0.set(self.0.get() + 1); } } let drop_counter = Cell::new(0); { let _: GenericArray = arr![TestDrop; TestDrop(&drop_counter), TestDrop(&drop_counter), TestDrop(&drop_counter)]; } assert_eq!(drop_counter.get(), 3); } #[test] fn test_arr() { let test: GenericArray = arr![u32; 1, 2, 3]; assert_eq!(test[1], 2); } #[test] fn test_copy() { let test = arr![u32; 1, 2, 3]; let test2 = test; // if GenericArray is not copy, this should fail as a use of a moved value assert_eq!(test[1], 2); assert_eq!(test2[0], 1); } #[test] fn test_iter_flat_map() { assert!((0..5).flat_map(|i| arr![i32; 2 * i, 2 * i + 1]).eq(0..10)); } #[derive(Debug, PartialEq, Eq)] struct NoClone(T); #[test] fn test_from_slice() { let arr = [1, 2, 3, 4]; let gen_arr = GenericArray::<_, U3>::from_slice(&arr[..3]); assert_eq!(&arr[..3], gen_arr.as_slice()); let arr = [NoClone(1u32), NoClone(2), NoClone(3), NoClone(4)]; let gen_arr = GenericArray::<_, U3>::from_slice(&arr[..3]); assert_eq!(&arr[..3], gen_arr.as_slice()); } #[test] fn test_from_mut_slice() { let mut arr = [1, 2, 3, 4]; { let gen_arr = GenericArray::<_, U3>::from_mut_slice(&mut arr[..3]); gen_arr[2] = 10; } assert_eq!(arr, [1, 2, 10, 4]); let mut arr = [NoClone(1u32), NoClone(2), NoClone(3), NoClone(4)]; { let gen_arr = GenericArray::<_, U3>::from_mut_slice(&mut arr[..3]); gen_arr[2] = NoClone(10); } assert_eq!(arr, [NoClone(1), NoClone(2), NoClone(10), NoClone(4)]); } #[test] fn test_default() { let arr = GenericArray::::default(); assert_eq!(arr[0], 0); } #[test] fn test_from() { let data = [(1, 2, 3), (4, 5, 6), (7, 8, 9)]; let garray: GenericArray<(usize, usize, usize), U3> = data.into(); assert_eq!(&data, garray.as_slice()); } #[test] fn test_unit_macro() { let arr = arr![f32; 3.14]; assert_eq!(arr[0], 3.14); } #[test] fn test_empty_macro() { let _arr = arr![f32;]; } #[test] fn test_cmp() { arr![u8; 0x00].cmp(&arr![u8; 0x00]); } /// This test should cause a helpful compile error if uncommented. // #[test] // fn test_empty_macro2(){ // let arr = arr![]; // } #[cfg(feature = "serde")] mod impl_serde { extern crate serde_json; use generic_array::GenericArray; use generic_array::typenum::U6; #[test] fn test_serde_implementation() { let array: GenericArray = arr![f64; 0.0, 5.0, 3.0, 7.07192, 76.0, -9.0]; let string = serde_json::to_string(&array).unwrap(); assert_eq!(string, "[0.0,5.0,3.0,7.07192,76.0,-9.0]"); let test_array: GenericArray = serde_json::from_str(&string).unwrap(); assert_eq!(test_array, array); } } #[test] fn test_map() { let b: GenericArray = GenericArray::generate(|i| i as i32 * 4).map(|x| x - 3); assert_eq!(b, arr![i32; -3, 1, 5, 9]); } #[test] fn test_zip() { let a: GenericArray<_, U4> = GenericArray::generate(|i| i + 1); let b: GenericArray<_, U4> = GenericArray::generate(|i| i as i32 * 4); let c = a.zip(b, |r, l| r as i32 + l); assert_eq!(c, arr![i32; 1, 6, 11, 16]); } #[test] fn test_from_iter() { use core::iter::repeat; let a: GenericArray<_, U4> = repeat(11).take(3).collect(); assert_eq!(a, arr![i32; 11, 11, 11, 0]); }