// Copyright 2015 Ilkka Rauta // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use super::*; #[test] fn read_buffer() { let bytes = &[ 0b1011_0101, 0b0110_1010, 0b1010_1100, 0b1001_1001, 0b1001_1001, 0b1001_1001, 0b1001_1001, 0b1110_0111, ]; let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u8(1).unwrap(), 0b1); assert_eq!(reader.read_u8(1).unwrap(), 0b0); assert_eq!(reader.read_u8(2).unwrap(), 0b11); assert_eq!(reader.position(), 4); assert_eq!(reader.remaining(), 60); assert_eq!(reader.read_u8(4).unwrap(), 0b0101); assert!(reader.is_aligned(1)); assert_eq!(reader.read_u8(3).unwrap(), 0b11); assert_eq!(reader.read_u16(10).unwrap(), 0b01_0101_0101); assert_eq!(reader.read_u8(3).unwrap(), 0b100); assert_eq!(reader.position(), 24); assert_eq!(reader.remaining(), 40); assert!(reader.is_aligned(1)); assert_eq!(reader.read_u32(32).unwrap(), 0b1001_1001_1001_1001_1001_1001_1001_1001); assert_eq!(reader.read_u8(4).unwrap(), 0b1110); assert_eq!(reader.read_u8(3).unwrap(), 0b011); assert_eq!(reader.read_bool().unwrap(), true); // Could also be 8 at this point! assert!(reader.is_aligned(4)); } #[test] fn try_all_sizes() { let bytes = &[ 0x4a, 0x1e, 0x39, 0xbb, 0xd0, 0x07, 0xca, 0x9a, 0xa6, 0xba, 0x25, 0x52, 0x6f, 0x0a, 0x6a, 0xba, ]; let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u64(64).unwrap(), 0x4a1e39bbd007ca9a); assert_eq!(reader.read_u64(64).unwrap(), 0xa6ba25526f0a6aba); let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u32(32).unwrap(), 0x4a1e39bb); assert_eq!(reader.read_u32(32).unwrap(), 0xd007ca9a); assert_eq!(reader.read_u32(32).unwrap(), 0xa6ba2552); assert_eq!(reader.read_u32(32).unwrap(), 0x6f0a6aba); let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u16(16).unwrap(), 0x4a1e); assert_eq!(reader.read_u16(16).unwrap(), 0x39bb); assert_eq!(reader.read_u16(16).unwrap(), 0xd007); assert_eq!(reader.read_u16(16).unwrap(), 0xca9a); assert_eq!(reader.read_u16(16).unwrap(), 0xa6ba); assert_eq!(reader.read_u16(16).unwrap(), 0x2552); assert_eq!(reader.read_u16(16).unwrap(), 0x6f0a); assert_eq!(reader.read_u16(16).unwrap(), 0x6aba); let mut reader = BitReader::new(&bytes[..]); for byte in bytes { assert_eq!(reader.read_u8(8).unwrap(), *byte); } } #[test] fn skipping_and_zero_reads() { let bytes = &[ 0b1011_0101, 0b1110_1010, 0b1010_1100, 0b0011_0101, ]; let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u8(4).unwrap(), 0b1011); // Reading zero bits should be a no-op assert_eq!(reader.read_u8(0).unwrap(), 0b0); assert_eq!(reader.read_u8(4).unwrap(), 0b0101); reader.skip(3).unwrap(); // 0b111 assert_eq!(reader.read_u16(10).unwrap(), 0b0101010101); assert_eq!(reader.read_u8(3).unwrap(), 0b100); reader.skip(4).unwrap(); // 0b0011 assert_eq!(reader.read_u32(2).unwrap(), 0b01); assert_eq!(reader.read_bool().unwrap(), false); assert_eq!(reader.read_bool().unwrap(), true); } #[test] fn errors() { let bytes = &[ 0b1011_0101, 0b1110_1010, 0b1010_1100, ]; let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u8(4).unwrap(), 0b1011); assert_eq!(reader.read_u8(9).unwrap_err(), BitReaderError::TooManyBitsForType { position: 4, requested: 9, allowed: 8 }); // If an error happens, it should be possible to resume as if nothing had happened assert_eq!(reader.read_u8(4).unwrap(), 0b0101); let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u8(4).unwrap(), 0b1011); // Same with this error assert_eq!(reader.read_u32(21).unwrap_err(), BitReaderError::NotEnoughData { position: 4, length: (bytes.len() * 8) as u64, requested: 21 }); assert_eq!(reader.read_u8(4).unwrap(), 0b0101); } #[test] fn signed_values() { let from = -2048; let to = 2048; for x in from..to { let bytes = &[ (x >> 8) as u8, x as u8, ]; let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u8(4).unwrap(), if x < 0 { 0b1111 } else { 0 }); assert_eq!(reader.read_i16(12).unwrap(), x); } } #[test] fn boolean_values() { let bytes: Vec = (0..16).collect(); let mut reader = BitReader::new(&bytes); for v in &bytes { assert_eq!(reader.read_bool().unwrap(), false); reader.skip(3).unwrap(); assert_eq!(reader.read_bool().unwrap(), v & 0x08 == 8); assert_eq!(reader.read_bool().unwrap(), v & 0x04 == 4); assert_eq!(reader.read_bool().unwrap(), v & 0x02 == 2); assert_eq!(reader.read_bool().unwrap(), v & 0x01 == 1); } } #[test] fn read_slice() { let bytes = &[ 0b1111_0000, 0b0000_1111, 0b1111_0000, 0b0000_1000, 0b0000_0100, 0b0000_0011, 0b1111_1100, 0b0000_0011, 0b1101_1000, ]; let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u8(4).unwrap(), 0b1111); // Just some pattern that's definitely not in the bytes array let mut output = [0b1010_1101; 3]; reader.read_u8_slice(&mut output).unwrap(); assert_eq!(&output, &[0u8, 255u8, 0u8]); assert_eq!(reader.read_u8(1).unwrap(), 1); reader.read_u8_slice(&mut output[1..2]).unwrap(); assert_eq!(&output, &[0u8, 0u8, 0u8]); assert_eq!(reader.read_u8(1).unwrap(), 1); output = [0b1010_1101; 3]; reader.read_u8_slice(&mut output).unwrap(); assert_eq!(&output, &[0u8, 255u8, 0u8]); reader.read_u8_slice(&mut output[0..1]).unwrap(); assert_eq!(output[0], 0b1111_0110); assert_eq!(reader.read_u8(2).unwrap(), 0); } #[test] fn read_slice_too_much() { let bytes = &[ 0b1111_1111, 0b1111_1111, 0b1111_1111, 0b1111_1111, ]; let mut reader = BitReader::new(bytes); assert_eq!(reader.read_u8(1).unwrap(), 1); let mut output = [0u8; 4]; let should_be_error = reader.read_u8_slice(&mut output); assert_eq!(should_be_error.unwrap_err(), BitReaderError::NotEnoughData { position: 1, length: (bytes.len() * 8) as u64, requested: (&output.len() * 8) as u64 }); assert_eq!(&output, &[0u8; 4]); }