use std::collections::HashMap;
use std::num::NonZeroU16;
use maplit::hashmap;
use bitstream_reader::{BigEndian, BitBuffer, BitRead, BitStream, LittleEndian};
const BYTES: &'static [u8] = &[
0b1011_0101,
0b0110_1010,
0b1010_1100,
0b1001_1001,
0b1001_1001,
0b1001_1001,
0b1001_1001,
0b1110_0111,
0b1001_1001,
0b1001_1001,
0b1001_1001,
0b1110_0111,
];
#[test]
fn read_u8_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(buffer.read_int::<u8>(0, 1).unwrap(), 0b1);
assert_eq!(buffer.read_int::<u8>(1, 1).unwrap(), 0b0);
assert_eq!(buffer.read_int::<u8>(2, 2).unwrap(), 0b01);
assert_eq!(buffer.read_int::<u8>(0, 3).unwrap(), 0b101);
assert_eq!(buffer.read_int::<u8>(7, 5).unwrap(), 0b1010_1);
assert_eq!(buffer.read_int::<u8>(6, 5).unwrap(), 0b010_10);
assert_eq!(buffer.read_int::<u8>(12, 5).unwrap(), 0b0_0110);
}
#[test]
fn read_u8_be() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
assert_eq!(buffer.read_int::<u8>(0, 1).unwrap(), 0b1);
assert_eq!(buffer.read_int::<u8>(1, 1).unwrap(), 0b0);
assert_eq!(buffer.read_int::<u8>(2, 2).unwrap(), 0b11);
assert_eq!(buffer.read_int::<u8>(0, 3).unwrap(), 0b101);
assert_eq!(buffer.read_int::<u8>(7, 5).unwrap(), 0b1011_0);
assert_eq!(buffer.read_int::<u8>(6, 5).unwrap(), 0b01_011);
}
#[test]
fn read_u16_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(buffer.read_int::<u16>(6, 12).unwrap(), 0b00_0110_1010_10);
}
#[test]
fn read_u16_be() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
assert_eq!(buffer.read_int::<u16>(6, 12).unwrap(), 0b01_0110_1010_10);
}
#[test]
fn read_u32_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(
buffer.read_int::<u32>(6, 24).unwrap(),
0b01_1001_1010_1100_0110_1010_10
);
}
#[test]
fn read_u32_be() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
assert_eq!(
buffer.read_int::<u32>(6, 24).unwrap(),
0b01_0110_1010_1010_1100_1001_10
);
}
#[test]
fn read_u64_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(
buffer.read_int::<u64>(6, 34).unwrap(),
0b1001_1001_1001_1001_1010_1100_0110_1010_10
);
assert_eq!(
buffer.read_int::<u64>(6, 60).unwrap(),
0b01_1110_0111_1001_1001_1001_1001_1001_1001_1001_1001_1010_1100_0110_1010_10
);
assert_eq!(
buffer.read_int::<u64>(6, 64).unwrap(),
0b01_1001_1110_0111_1001_1001_1001_1001_1001_1001_1001_1001_1010_1100_0110_1010_10
);
assert_eq!(
buffer.read_int::<u64>(8, 62).unwrap(),
0b01_1001_1110_0111_1001_1001_1001_1001_1001_1001_1001_1001_1010_1100_0110_1010
);
}
#[test]
fn read_u64_be() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
assert_eq!(
buffer.read_int::<u64>(6, 34).unwrap(),
0b01_0110_1010_1010_1100_1001_1001_1001_1001
);
assert_eq!(
buffer.read_int::<u64>(6, 60).unwrap(),
0b01_0110_1010_1010_1100_1001_1001_1001_1001_1001_1001_1001_1001_1110_0111_10
);
assert_eq!(
buffer.read_int::<u64>(6, 64).unwrap(),
0b01_0110_1010_1010_1100_1001_1001_1001_1001_1001_1001_1001_1001_1110_0111_1001_10
);
}
#[test]
fn read_i8_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(buffer.read_int::<i8>(0, 3).unwrap(), -0b11);
assert_eq!(buffer.read_int::<i8>(0, 8).unwrap(), -0b100_1011);
}
#[test]
fn read_i8_be() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
assert_eq!(buffer.read_int::<i8>(1, 2).unwrap(), 0b1);
assert_eq!(buffer.read_int::<i8>(0, 3).unwrap(), -0b11);
assert_eq!(buffer.read_int::<i8>(0, 8).unwrap(), -0b100_1011);
}
#[test]
fn read_i16_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(buffer.read_int::<i16>(6, 12).unwrap(), 0b0_0110_1010_10);
assert_eq!(buffer.read_int::<i16>(6, 13).unwrap(), -0b11_1001_0101_10);
}
#[test]
fn read_i16_be() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
assert_eq!(buffer.read_int::<i16>(6, 12).unwrap(), 0b1_0110_1010_10);
assert_eq!(buffer.read_int::<i16>(7, 12).unwrap(), -0b1001_0101_011);
}
#[test]
fn read_i32_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(
buffer.read_int::<i32>(6, 24).unwrap(),
0b1_1001_1010_1100_0110_1010_10
);
assert_eq!(buffer.read_int::<i32>(6, 26).unwrap(), -26824278);
}
#[test]
fn read_i32_be() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
assert_eq!(buffer.read_int::<i32>(7, 24).unwrap(), -4893108);
}
#[test]
fn read_i64_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(buffer.read_int::<i64>(6, 34).unwrap(), -6871928406);
assert_eq!(buffer.read_int::<i64>(6, 59).unwrap(), -27471957726940758);
assert_eq!(buffer.read_int::<i64>(1, 64).unwrap(), -879102647262104230);
}
#[test]
fn read_i64_be() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
assert_eq!(buffer.read_int::<i64>(7, 34).unwrap(), -5010541773);
assert_eq!(buffer.read_int::<i64>(7, 60).unwrap(), -336251766397153476);
assert_eq!(buffer.read_int::<i64>(7, 64).unwrap(), -5380028262354455604);
}
#[test]
fn read_f32_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(buffer.read_float::<f64>(6).unwrap(), 135447455835963910000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000.0);
}
#[test]
fn read_f64_le() {
let buffer = BitBuffer::new(BYTES.to_vec(), LittleEndian);
assert_eq!(buffer.read_float::<f64>(6).unwrap(), 135447455835963910000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000.0);
}
#[test]
fn test_from() {
let buffer: BitBuffer<LittleEndian> = BitBuffer::from(BYTES.to_vec());
let _: BitStream<LittleEndian> = BitStream::from(buffer);
let _: BitStream<LittleEndian> = BitStream::from(BYTES.to_vec());
}
#[test]
fn test_read_str_be() {
let bytes = vec![
0x48, 0x65, 0x6c, 0x6c, 0x6f, 0x20, 0x77, 0x6f, 0x72, 0x6c, 0x64, 0, 0, 0, 0, 0,
];
let buffer = BitBuffer::new(bytes, BigEndian);
assert_eq!(
buffer.read_string(0, Some(13)).unwrap(),
"Hello world".to_owned()
);
assert_eq!(
buffer.read_string(0, Some(16)).unwrap(),
"Hello world".to_owned()
);
assert_eq!(
buffer.read_string(0, None).unwrap(),
"Hello world".to_owned()
);
}
#[test]
fn test_read_str_no_null_termination_le() {
let bytes = vec![
0x48, 0x65, 0x6c, 0x6c, 0x6f, 0x20, 0x77, 0x6f, 0x72, 0x6c, 0x64,
];
let buffer = BitBuffer::new(bytes, LittleEndian);
assert_eq!(
buffer.read_string(0, None).unwrap(),
"Hello world".to_owned()
);
}
#[test]
fn test_read_str_no_null_termination_be() {
let bytes = vec![
0x48, 0x65, 0x6c, 0x6c, 0x6f, 0x20, 0x77, 0x6f, 0x72, 0x6c, 0x64,
];
let buffer = BitBuffer::new(bytes, BigEndian);
assert_eq!(
buffer.read_string(0, None).unwrap(),
"Hello world".to_owned()
);
}
#[test]
fn test_read_str_le() {
let bytes = vec![
'h' as u8, 'e' as u8, 'l' as u8, 'l' as u8, 'o' as u8, ' ' as u8, 'w' as u8, 'o' as u8,
'r' as u8, 'l' as u8, 'd' as u8, 0, 'f' as u8, 'o' as u8, 'o' as u8, 0, 0, 0, 0, 0,
];
let buffer = BitBuffer::new(bytes, LittleEndian);
assert_eq!(buffer.read_string(0, Some(3)).unwrap(), "hel".to_owned());
assert_eq!(
buffer.read_string(0, Some(11)).unwrap(),
"hello world".to_owned()
);
assert_eq!(
buffer.read_string(0, None).unwrap(),
"hello world".to_owned()
);
}
#[test]
fn read_trait() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
let mut stream = BitStream::new(buffer);
let a: u8 = stream.read().unwrap();
assert_eq!(0b1011_0101, a);
let b: i8 = stream.read().unwrap();
assert_eq!(0b110_1010, b);
let c: i16 = stream.read().unwrap();
assert_eq!(-0b101_0011_0110_0111, c);
let d: bool = stream.read().unwrap();
assert_eq!(true, d);
let e: Option<u8> = stream.read().unwrap();
assert_eq!(None, e);
stream.set_pos(0).unwrap();
let f: Option<u8> = stream.read().unwrap();
assert_eq!(Some(0b011_0101_0), f);
}
#[test]
fn read_trait_unchecked() {
unsafe {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
let mut stream = BitStream::new(buffer);
let a: u8 = stream.read_unchecked().unwrap();
assert_eq!(0b1011_0101, a);
let b: i8 = stream.read_unchecked().unwrap();
assert_eq!(0b110_1010, b);
let c: i16 = stream.read_unchecked().unwrap();
assert_eq!(-0b101_0011_0110_0111, c);
let d: bool = stream.read_unchecked().unwrap();
assert_eq!(true, d);
let e: Option<u8> = stream.read_unchecked().unwrap();
assert_eq!(None, e);
stream.set_pos(0).unwrap();
let f: Option<u8> = stream.read_unchecked().unwrap();
assert_eq!(Some(0b011_0101_0), f);
}
}
#[test]
fn read_sized_trait() {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
let mut stream = BitStream::new(buffer);
let a: u8 = stream.read_sized(4).unwrap();
assert_eq!(0b1011, a);
stream.set_pos(0).unwrap();
let vec: Vec<u16> = stream.read_sized(3).unwrap();
assert_eq!(
vec![
0b1011_0101_0110_1010,
0b1010_1100_1001_1001,
0b1001_1001_1001_1001
],
vec
);
stream.set_pos(0).unwrap();
let vec: Vec<u8> = stream.read_sized(3).unwrap();
assert_eq!(vec![0b1011_0101, 0b0110_1010, 0b1010_1100], vec);
stream.set_pos(0).unwrap();
let result: HashMap<u8, u8> = stream.read_sized(2).unwrap();
assert_eq!(
hashmap!(0b1011_0101 => 0b0110_1010, 0b1010_1100 => 0b1001_1001),
result
);
stream.set_pos(0).unwrap();
let mut result: BitStream<BigEndian> = stream.read_sized(4).unwrap();
assert_eq!(0b10u8, result.read_int(2).unwrap());
}
#[test]
fn read_sized_trait_unchecked() {
unsafe {
let buffer = BitBuffer::new(BYTES.to_vec(), BigEndian);
let mut stream = BitStream::new(buffer);
let a: u8 = stream.read_sized_unchecked(4).unwrap();
assert_eq!(0b1011, a);
stream.set_pos(0).unwrap();
let vec: Vec<u16> = stream.read_sized_unchecked(3).unwrap();
assert_eq!(
vec![
0b1011_0101_0110_1010,
0b1010_1100_1001_1001,
0b1001_1001_1001_1001
],
vec
);
stream.set_pos(0).unwrap();
let vec: Vec<u8> = stream.read_sized_unchecked(3).unwrap();
assert_eq!(vec![0b1011_0101, 0b0110_1010, 0b1010_1100], vec);
stream.set_pos(0).unwrap();
let result: HashMap<u8, u8> = stream.read_sized_unchecked(2).unwrap();
assert_eq!(
hashmap!(0b1011_0101 => 0b0110_1010, 0b1010_1100 => 0b1001_1001),
result
);
stream.set_pos(0).unwrap();
let mut result: BitStream<BigEndian> = stream.read_sized_unchecked(4).unwrap();
assert_eq!(0b10u8, result.read_int(2).unwrap());
}
}
#[derive(BitRead, PartialEq, Debug)]
struct TestStruct {
foo: u8,
str: String,
#[size = 2]
truncated: String,
bar: u16,
float: f32,
#[size = 3]
asd: u8,
#[size_bits = 2]
dynamic: u8,
#[size = "asd"]
previous_field: u8,
}
#[test]
fn test_read_struct() {
let float: [u8; 4] = 12.5f32.to_bits().to_le_bytes();
let bytes = vec![
12,
'h' as u8,
'e' as u8,
'l' as u8,
'l' as u8,
'o' as u8,
0,
'f' as u8,
'o' as u8,
'o' as u8,
0,
float[0],
float[1],
float[2],
float[3],
0b0101_0101,
0b1010_1010,
];
let buffer = BitBuffer::new(bytes, LittleEndian);
let mut stream = BitStream::from(buffer);
assert_eq!(
TestStruct {
foo: 12,
str: "hello".to_owned(),
truncated: "fo".to_owned(),
bar: 'o' as u16,
float: 12.5,
asd: 0b101,
dynamic: 0b10,
previous_field: 0b1010_0,
},
stream.read().unwrap()
);
}
#[test]
fn test_read_nonzero() {
let bytes = vec![12, 0, 0, 0];
let buffer = BitBuffer::new(bytes, LittleEndian);
let mut stream = BitStream::from(buffer);
assert_eq!(NonZeroU16::new(12), stream.read().unwrap());
assert_eq!(None, stream.read::<Option<NonZeroU16>>().unwrap());
}
#[test]
fn read_read_signed() {
let buffer = BitBuffer::new(vec![255, 255, 255, 255, 255, 255, 255, 255], LittleEndian);
assert_eq!(buffer.read_int::<i32>(0, 32).unwrap(), -1);
let bytes = (-10i32).to_le_bytes();
let mut byte_vec = Vec::with_capacity(4);
byte_vec.extend_from_slice(&bytes);
let buffer = BitBuffer::new(byte_vec, LittleEndian);
assert_eq!(buffer.read_int::<i32>(0, 32).unwrap(), -10);
}