use rustc_serialize::leb128::*; macro_rules! impl_test_unsigned_leb128 { ($test_name:ident, $write_fn_name:ident, $read_fn_name:ident, $int_ty:ident) => { #[test] fn $test_name() { let mut stream = Vec::new(); for x in 0..62 { $write_fn_name(&mut stream, (3u64 << x) as $int_ty); } let mut position = 0; for x in 0..62 { let expected = (3u64 << x) as $int_ty; let (actual, bytes_read) = $read_fn_name(&stream[position..]); assert_eq!(expected, actual); position += bytes_read; } assert_eq!(stream.len(), position); } }; } impl_test_unsigned_leb128!(test_u16_leb128, write_u16_leb128, read_u16_leb128, u16); impl_test_unsigned_leb128!(test_u32_leb128, write_u32_leb128, read_u32_leb128, u32); impl_test_unsigned_leb128!(test_u64_leb128, write_u64_leb128, read_u64_leb128, u64); impl_test_unsigned_leb128!(test_u128_leb128, write_u128_leb128, read_u128_leb128, u128); impl_test_unsigned_leb128!(test_usize_leb128, write_usize_leb128, read_usize_leb128, usize); #[test] fn test_signed_leb128() { let values: Vec<_> = (-500..500).map(|i| i * 0x12345789ABCDEF).collect(); let mut stream = Vec::new(); for &x in &values { write_signed_leb128(&mut stream, x); } let mut pos = 0; for &x in &values { let (value, bytes_read) = read_signed_leb128(&mut stream, pos); pos += bytes_read; assert_eq!(x, value); } assert_eq!(pos, stream.len()); }