213 lines
5.1 KiB
Rust
213 lines
5.1 KiB
Rust
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extern crate lebe;
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use lebe::prelude::*;
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use std::mem;
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use byteorder::{WriteBytesExt, LittleEndian, BigEndian, ReadBytesExt};
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#[test]
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fn make_le_u32_slice() {
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// as seen on https://doc.rust-lang.org/std/primitive.u32.html#method.to_le
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let n = 0x1Au32;
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let mut n_le = [n];
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n_le.convert_current_to_little_endian();
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if cfg!(target_endian = "little") {
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assert_eq!(n_le, [n])
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}
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else {
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assert_eq!(n_le, [u32::swap_bytes(n)])
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}
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// assert_eq!(n_le, byteorder::LittleEndian::from_)
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}
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#[test]
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fn make_be_u32_slice() {
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// as seen on https://doc.rust-lang.org/std/primitive.u32.html#method.to_be
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let n = 0x1Au32;
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let mut n_be = [n];
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n_be.convert_current_to_big_endian();
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if cfg!(target_endian = "big") {
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assert_eq!(n_be, [n])
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}
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else {
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assert_eq!(n_be, [n.swap_bytes()])
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}
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}
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#[test]
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fn make_le_u16_slice() {
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// as seen on https://doc.rust-lang.org/std/primitive.u16.html#method.to_le
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let n = 0x1Au16;
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let mut n_le = [n];
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n_le.convert_current_to_little_endian();
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if cfg!(target_endian = "little") {
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assert_eq!(n_le, [n])
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}
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else {
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assert_eq!(n_le, [n.swap_bytes()])
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}
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}
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#[test]
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fn make_le_i64_slice() {
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// as seen on https://doc.rust-lang.org/std/primitive.u64.html#method.to_be
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let n1 = 0x14F3EEBCCD93895A_i64;
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let n2 = 0x114F3EF99B81CC5A_i64;
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let mut n_be = [n1, n2];
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n_be.convert_current_to_big_endian();
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if cfg!(target_endian = "big") {
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assert_eq!(n_be, [n1, n2])
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}
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else {
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assert_eq!(n_be, [n1.swap_bytes(), n2.swap_bytes()])
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}
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}
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#[test]
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fn make_be_f64() {
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let i = 0x14F3EEBCCD93895A_u64;
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let mut f: f64 = unsafe { mem::transmute(i) };
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f.convert_current_to_big_endian();
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assert_eq!(f, unsafe { mem::transmute(i.to_be()) })
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}
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#[test]
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fn into_be_f64() {
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let i = 0x14F3EEBCCD93895A_u64;
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let f: f64 = unsafe { mem::transmute(i) };
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let f = f.from_current_into_big_endian();
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assert_eq!(f, unsafe { mem::transmute(i.to_be()) })
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}
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#[test]
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fn into_be_i16() {
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let i = 0x195A_i16;
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let be = i.from_current_into_big_endian();
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if cfg!(target_endian = "big") {
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assert_eq!(be, i)
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}
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else {
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assert_eq!(be, i.swap_bytes())
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}
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}
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#[test]
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fn into_be_u32() {
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let i = 0x1220943_u32;
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let be = i.from_current_into_big_endian();
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if cfg!(target_endian = "big") {
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assert_eq!(be, i)
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}
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else {
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assert_eq!(be, i.swap_bytes())
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}
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}
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#[test]
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fn cmp_read_be_u16() {
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let read: &[u8] = &[0x33, 0xbb];
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let a = u16::read_from_big_endian(&mut read.clone()).unwrap();
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let b: u16 = read.clone().read_from_big_endian().unwrap();
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let c = read.clone().read_u16::<BigEndian>().unwrap();
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assert_eq!(a, b);
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assert_eq!(a, c);
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}
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#[test]
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fn cmp_read_le_u16() {
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let read: &[u8] = &[0x33, 0xbb];
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let a = u16::read_from_little_endian(&mut read.clone()).unwrap();
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let b: u16 = read.clone().read_from_little_endian().unwrap();
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let c = read.clone().read_u16::<LittleEndian>().unwrap();
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assert_eq!(a, b);
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assert_eq!(a, c);
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}
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#[test]
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fn cmp_read_le_f32() {
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let read: &[u8] = &[0x33, 0xBB, 0x44, 0xCC];
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let a = f32::read_from_little_endian(&mut read.clone()).unwrap();
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let b: f32 = read.clone().read_from_little_endian().unwrap();
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let c = read.clone().read_f32::<LittleEndian>().unwrap();
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assert_eq!(a, b);
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assert_eq!(a, c);
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}
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#[test]
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fn cmp_read_be_slice() {
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let mut write_expected = Vec::new();
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let mut write_actual = Vec::new();
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let data: Vec<f32> = (0..31*31).map(|i| i as f32).collect();
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for number in &data {
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write_expected.write_f32::<BigEndian>(*number).unwrap();
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}
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write_actual.write_as_big_endian(data.as_slice()).unwrap();
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assert_eq!(write_actual, write_expected);
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}
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#[test]
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fn cmp_write_le_slice() {
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let mut write_expected = Vec::new();
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let mut write_actual = Vec::new();
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let data: Vec<f32> = (0..31*31).map(|i| i as f32).collect();
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for number in &data {
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write_expected.write_f32::<LittleEndian>(*number).unwrap();
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}
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write_actual.write_as_little_endian(data.as_slice()).unwrap();
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assert_eq!(write_actual, write_expected);
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}
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#[test]
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fn cmp_write_le_u32() {
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let mut write_expected = Vec::new();
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let mut write_actual = Vec::new();
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let data = 0x23573688_u32;
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write_expected.write_u32::<LittleEndian>(data).unwrap();
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write_actual.write_as_little_endian(&data).unwrap();
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assert_eq!(write_actual, write_expected);
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}
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#[test]
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fn cmp_write_le_slice_u64() {
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let mut write_expected = Vec::new();
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let mut write_actual = Vec::new();
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let data: Vec<u64> = (1000..1000+310*31).map(|i| i as u64).collect();
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for number in &data {
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write_expected.write_u64::<LittleEndian>(*number).unwrap();
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}
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write_actual.write_as_little_endian(data.as_slice()).unwrap();
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assert_eq!(write_actual, write_expected);
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}
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