| use rustc_serialize::Decoder; |
| use rustc_serialize::leb128::*; |
| use rustc_serialize::opaque::{MAGIC_END_BYTES, MemDecoder}; |
| |
| macro_rules! impl_test_unsigned_leb128 { |
| ($test_name:ident, $write_fn_name:ident, $read_fn_name:ident, $int_ty:ident) => { |
| #[test] |
| fn $test_name() { |
| // Test 256 evenly spaced values of integer range, |
| // integer max value, and some "random" numbers. |
| let mut values = Vec::new(); |
| |
| let increment = (1 as $int_ty) << ($int_ty::BITS - 8); |
| values.extend((0..256).map(|i| $int_ty::MIN + i * increment)); |
| |
| values.push($int_ty::MAX); |
| |
| values.extend( |
| (-500..500).map(|i| (i as $int_ty).wrapping_mul(0x12345789ABCDEFu64 as $int_ty)), |
| ); |
| |
| let mut stream = Vec::new(); |
| |
| let mut buf = Default::default(); |
| for &x in &values { |
| let n = $write_fn_name(&mut buf, x); |
| stream.extend(&buf[..n]); |
| } |
| let stream_end = stream.len(); |
| stream.extend(MAGIC_END_BYTES); |
| |
| let mut decoder = MemDecoder::new(&stream, 0).unwrap(); |
| for &expected in &values { |
| let actual = $read_fn_name(&mut decoder); |
| assert_eq!(expected, actual); |
| } |
| assert_eq!(stream_end, decoder.position()); |
| } |
| }; |
| } |
| |
| impl_test_unsigned_leb128!(test_u16_leb128, write_u16_leb128, read_u16_leb128, u16); |
| impl_test_unsigned_leb128!(test_u32_leb128, write_u32_leb128, read_u32_leb128, u32); |
| impl_test_unsigned_leb128!(test_u64_leb128, write_u64_leb128, read_u64_leb128, u64); |
| impl_test_unsigned_leb128!(test_u128_leb128, write_u128_leb128, read_u128_leb128, u128); |
| impl_test_unsigned_leb128!(test_usize_leb128, write_usize_leb128, read_usize_leb128, usize); |
| |
| macro_rules! impl_test_signed_leb128 { |
| ($test_name:ident, $write_fn_name:ident, $read_fn_name:ident, $int_ty:ident) => { |
| #[test] |
| fn $test_name() { |
| // Test 256 evenly spaced values of integer range, |
| // integer max value, and some "random" numbers. |
| let mut values = Vec::new(); |
| |
| let mut value = $int_ty::MIN; |
| let increment = (1 as $int_ty) << ($int_ty::BITS - 8); |
| |
| for _ in 0..256 { |
| values.push(value); |
| // The addition in the last loop iteration overflows. |
| value = value.wrapping_add(increment); |
| } |
| |
| values.push($int_ty::MAX); |
| |
| values.extend( |
| (-500..500).map(|i| (i as $int_ty).wrapping_mul(0x12345789ABCDEFi64 as $int_ty)), |
| ); |
| |
| let mut stream = Vec::new(); |
| |
| let mut buf = Default::default(); |
| for &x in &values { |
| let n = $write_fn_name(&mut buf, x); |
| stream.extend(&buf[..n]); |
| } |
| let stream_end = stream.len(); |
| stream.extend(MAGIC_END_BYTES); |
| |
| let mut decoder = MemDecoder::new(&stream, 0).unwrap(); |
| for &expected in &values { |
| let actual = $read_fn_name(&mut decoder); |
| assert_eq!(expected, actual); |
| } |
| assert_eq!(stream_end, decoder.position()); |
| } |
| }; |
| } |
| |
| impl_test_signed_leb128!(test_i16_leb128, write_i16_leb128, read_i16_leb128, i16); |
| impl_test_signed_leb128!(test_i32_leb128, write_i32_leb128, read_i32_leb128, i32); |
| impl_test_signed_leb128!(test_i64_leb128, write_i64_leb128, read_i64_leb128, i64); |
| impl_test_signed_leb128!(test_i128_leb128, write_i128_leb128, read_i128_leb128, i128); |
| impl_test_signed_leb128!(test_isize_leb128, write_isize_leb128, read_isize_leb128, isize); |
