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#[macro_use]↩
extern crate serde_derive;↩
extern crate bincode;↩
#[macro_use]↩
extern crate serde;↩
extern crate serde_bytes;↩
use std::borrow::Cow;↩
use std::collections::HashMap;↩
use std::fmt::{self, Debug};↩
use std::result::Result as StdResult;↩
use bincode::{↩
deserialize, deserialize_from, deserialize_in_place, serialize, serialized_size,↩
DefaultOptions, ErrorKind, Options, Result,↩
};↩
use serde::de::{Deserialize, DeserializeSeed, Deserializer, SeqAccess, Visitor};↩
const LEN_SIZE: u64 = 8;↩
fn the_same_impl<V, O>(element: V, options: &mut O)↩
where
V: serde::Serialize + serde::de::DeserializeOwned + PartialEq + Debug + 'static,↩
O: Options,↩
{↩
let size = options.serialized_size(&element).unwrap();↩
{↩
let encoded = options.serialize(&element).unwrap();↩
let decoded: V = options.deserialize(&encoded[..]).unwrap();↩
let decoded_reader = options.deserialize_from(&mut &encoded[..]).unwrap();↩
assert_eq!(element, decoded);↩
assert_eq!(element, decoded_reader);↩
assert_eq!(size, encoded.len() as u64);↩
}↩
}↩
fn the_same<V>(element: V)↩
where
V: serde::Serialize + serde::de::DeserializeOwned + PartialEq + Debug + Clone + 'static,↩
{↩
// add a new macro which calls the previous when you add a new option set↩
macro_rules! all_endians {↩
($element:expr, $options:expr) => {↩
the_same_impl($element.clone(), &mut $options.with_native_endian());↩
the_same_impl($element.clone(), &mut $options.with_big_endian());↩
the_same_impl($element.clone(), &mut $options.with_little_endian());↩
};↩
}↩
macro_rules! all_integer_encodings {↩
($element:expr, $options:expr) => {↩
all_endians!($element, $options.with_fixint_encoding());↩
all_endians!($element, $options.with_varint_encoding());↩
};↩
}↩
all_integer_encodings!(element, DefaultOptions::new());↩
}↩
#[test]↩
fn test_numbers() {↩
// unsigned positive↩
the_same(5u8);↩
the_same(5u16);↩
the_same(5u32);↩
the_same(5u64);↩
the_same(5usize);↩
// signed positive↩
the_same(5i8);↩
the_same(5i16);↩
the_same(5i32);↩
the_same(5i64);↩
the_same(5isize);↩
// signed negative↩
the_same(-5i8);↩
the_same(-5i16);↩
the_same(-5i32);↩
the_same(-5i64);↩
the_same(-5isize);↩
// floating↩
the_same(-100f32);↩
the_same(0f32);↩
the_same(5f32);↩
the_same(-100f64);↩
the_same(5f64);↩
}↩
serde_if_integer128! {↩
#[test]↩
fn test_numbers_128bit() {↩
// unsigned positive↩
the_same(5u128);↩
the_same(u128::max_value());↩
// signed positive↩
the_same(5i128);↩
the_same(i128::max_value());↩
// signed negative↩
the_same(-5i128);↩
the_same(i128::min_value());↩
}↩
}↩
#[test]↩
fn test_string() {↩
the_same("".to_string());↩
the_same("a".to_string());↩
}↩
#[test]↩
fn test_tuple() {↩
the_same((1isize,));↩
the_same((1isize, 2isize, 3isize));↩
the_same((1isize, "foo".to_string(), ()));↩
}↩
#[test]↩
fn test_basic_struct() {↩
#[derive(Serialize, Deserialize, PartialEq, Debug, Clone)]↩
struct Easy {↩
x: isize,↩
s: String,↩
y: usize,↩
}↩
the_same(Easy {↩
x: -4,↩
s: "foo".to_string(),↩
y: 10,↩
});↩
}↩
#[test]↩
fn test_nested_struct() {↩
#[derive(Serialize, Deserialize, PartialEq, Debug, Clone)]↩
struct Easy {↩
x: isize,↩
s: String,↩
y: usize,↩
}↩
#[derive(Serialize, Deserialize, PartialEq, Debug, Clone)]↩
struct Nest {↩
f: Easy,↩
b: usize,↩
s: Easy,↩
}↩
the_same(Nest {↩
f: Easy {↩
x: -1,↩
s: "foo".to_string(),↩
y: 20,↩
},↩
b: 100,↩
s: Easy {↩
x: -100,↩
s: "bar".to_string(),↩
y: 20,↩
},↩
});↩
}↩
#[test]↩
fn test_struct_newtype() {↩
#[derive(Serialize, Deserialize, PartialEq, Debug, Clone)]↩
struct NewtypeStr(usize);↩
the_same(NewtypeStr(5));↩
}↩
#[test]↩
fn test_struct_tuple() {↩
#[derive(Serialize, Deserialize, PartialEq, Debug, Clone)]↩
struct TubStr(usize, String, f32);↩
the_same(TubStr(5, "hello".to_string(), 3.2));↩
}↩
#[test]↩
fn test_option() {↩
the_same(Some(5usize));↩
the_same(Some("foo bar".to_string()));↩
the_same(None::<usize>);↩
}↩
#[test]↩
fn test_enum() {↩
#[derive(Serialize, Deserialize, PartialEq, Debug, Clone)]↩
enum TestEnum {↩
NoArg,↩
OneArg(usize),↩
Args(usize, usize),↩
AnotherNoArg,↩
StructLike { x: usize, y: f32 },↩
}↩
the_same(TestEnum::NoArg);↩
the_same(TestEnum::OneArg(4));↩
//the_same(TestEnum::Args(4, 5));↩
the_same(TestEnum::AnotherNoArg);↩
the_same(TestEnum::StructLike { x: 4, y: 3.14159 });↩
the_same(vec![↩
TestEnum::NoArg,↩
TestEnum::OneArg(5),↩
TestEnum::AnotherNoArg,↩
TestEnum::StructLike { x: 4, y: 1.4 },↩
]);↩
}↩
#[test]↩
fn test_vec() {↩
let v: Vec<u8> = vec![];↩
the_same(v);↩
the_same(vec![1u64]);↩
the_same(vec![1u64, 2, 3, 4, 5, 6]);↩
}↩
#[test]↩
fn test_map() {↩
let mut m = HashMap::new();↩
m.insert(4u64, "foo".to_string());↩
m.insert(0u64, "bar".to_string());↩
the_same(m);↩
}↩
#[test]↩
fn test_bool() {↩
the_same(true);↩
the_same(false);↩
}↩
#[test]↩
fn test_unicode() {↩
the_same("å".to_string());↩
the_same("aåååååååa".to_string());↩
}↩
#[test]↩
fn test_fixed_size_array() {↩
the_same([24u32; 32]);↩
the_same([1u64, 2, 3, 4, 5, 6, 7, 8]);↩
the_same([0u8; 19]);↩
}↩
#[test]↩
fn deserializing_errors() {↩
match *deserialize::<bool>(&vec![0xA][..]).unwrap_err() {↩
ErrorKind::InvalidBoolEncoding(0xA) => {}↩
_ => panic!(),↩
}↩
let invalid_str = vec![1, 0, 0, 0, 0, 0, 0, 0, 0xFF];↩
match *deserialize::<String>(&invalid_str[..]).unwrap_err() {↩
ErrorKind::InvalidUtf8Encoding(_) => {}↩
_ => panic!(),↩
}↩
// Out-of-bounds variant↩
#[derive(Serialize, Deserialize, Debug)]↩
enum Test {↩
One,↩
Two,↩
};↩
let invalid_enum = vec![0, 0, 0, 5];↩
match *deserialize::<Test>(&invalid_enum[..]).unwrap_err() {↩
// Error message comes from serde↩
ErrorKind::Custom(_) => {}↩
_ => panic!(),↩
}↩
match *deserialize::<Option<u8>>(&vec![5, 0][..]).unwrap_err() {↩
ErrorKind::InvalidTagEncoding(_) => {}↩
_ => panic!(),↩
}↩
}↩
#[test]↩
fn trailing_bytes() {↩
match DefaultOptions::new()↩
.deserialize::<char>(b"1x")↩
.map_err(|e| *e)↩
{↩
Err(ErrorKind::Custom(_)) => {}↩
other => panic!("Expecting TrailingBytes, got {:?}", other),↩
}↩
}↩
#[test]↩
fn too_big_deserialize() {↩
let serialized = vec![0, 0, 0, 3];↩
let deserialized: Result<u32> = DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(3)↩
.deserialize_from(&mut &serialized[..]);↩
assert!(deserialized.is_err());↩
let serialized = vec![0, 0, 0, 3];↩
let deserialized: Result<u32> = DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(4)↩
.deserialize_from(&mut &serialized[..]);↩
assert!(deserialized.is_ok());↩
}↩
#[test]↩
fn char_serialization() {↩
let chars = "Aa\0☺♪";↩
for c in chars.chars() {↩
let encoded = DefaultOptions::new()↩
.with_limit(4)↩
.serialize(&c)↩
.expect("serializing char failed");↩
let decoded: char = deserialize(&encoded).expect("deserializing failed");↩
assert_eq!(decoded, c);↩
}↩
}↩
#[test]↩
fn too_big_char_deserialize() {↩
let serialized = vec![0x41];↩
let deserialized: Result<char> = DefaultOptions::new()↩
.with_limit(1)↩
.deserialize_from(&mut &serialized[..]);↩
assert!(deserialized.is_ok());↩
assert_eq!(deserialized.unwrap(), 'A');↩
}↩
#[test]↩
fn too_big_serialize() {↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(3)↩
.serialize(&0u32)↩
.is_err());↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(4)↩
.serialize(&0u32)↩
.is_ok());↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(LEN_SIZE + 4)↩
.serialize(&"abcde")↩
.is_err());↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(LEN_SIZE + 5)↩
.serialize(&"abcde")↩
.is_ok());↩
}↩
#[test]↩
fn test_serialized_size() {↩
assert!(serialized_size(&0u8).unwrap() == 1);↩
assert!(serialized_size(&0u16).unwrap() == 2);↩
assert!(serialized_size(&0u32).unwrap() == 4);↩
assert!(serialized_size(&0u64).unwrap() == 8);↩
// length isize stored as u64↩
assert!(serialized_size(&"").unwrap() == LEN_SIZE);↩
assert!(serialized_size(&"a").unwrap() == LEN_SIZE + 1);↩
assert!(serialized_size(&vec![0u32, 1u32, 2u32]).unwrap() == LEN_SIZE + 3 * (4));↩
}↩
#[test]↩
fn test_serialized_size_bounded() {↩
// JUST RIGHT↩
assert!(↩
DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(1)↩
.serialized_size(&0u8)↩
.unwrap()↩
== 1↩
);↩
assert!(↩
DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(2)↩
.serialized_size(&0u16)↩
.unwrap()↩
== 2↩
);↩
assert!(↩
DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(4)↩
.serialized_size(&0u32)↩
.unwrap()↩
== 4↩
);↩
assert!(↩
DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(8)↩
.serialized_size(&0u64)↩
.unwrap()↩
== 8↩
);↩
assert!(↩
DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(8)↩
.serialized_size(&"")↩
.unwrap()↩
== LEN_SIZE↩
);↩
assert!(↩
DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(8 + 1)↩
.serialized_size(&"a")↩
.unwrap()↩
== LEN_SIZE + 1↩
);↩
assert!(↩
DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(LEN_SIZE + 3 * 4)↩
.serialized_size(&vec![0u32, 1u32, 2u32])↩
.unwrap()↩
== LEN_SIZE + 3 * 4↩
);↩
// Below↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(0)↩
.serialized_size(&0u8)↩
.is_err());↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(1)↩
.serialized_size(&0u16)↩
.is_err());↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(3)↩
.serialized_size(&0u32)↩
.is_err());↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(7)↩
.serialized_size(&0u64)↩
.is_err());↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(7)↩
.serialized_size(&"")↩
.is_err());↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(8 + 0)↩
.serialized_size(&"a")↩
.is_err());↩
assert!(DefaultOptions::new()↩
.with_fixint_encoding()↩
.with_limit(8 + 3 * 4 - 1)↩
.serialized_size(&vec![0u32, 1u32, 2u32])↩
.is_err());↩
}↩
#[test]↩
fn encode_box() {↩
the_same(Box::new(5));↩
}↩
#[test]↩
fn test_cow_serialize() {↩
let large_object = vec![1u32, 2, 3, 4, 5, 6];↩
let mut large_map = HashMap::new();↩
large_map.insert(1, 2);↩
#[derive(Serialize, Deserialize, Debug)]↩
enum Message<'a> {↩
M1(Cow<'a, Vec<u32>>),↩
M2(Cow<'a, HashMap<u32, u32>>),↩
}↩
// Test 1↩
{↩
let serialized = serialize(&Message::M1(Cow::Borrowed(&large_object))).unwrap();↩
let deserialized: Message<'static> = deserialize_from(&mut &serialized[..]).unwrap();↩
match deserialized {↩
Message::M1(b) => assert!(&b.into_owned() == &large_object),↩
_ => assert!(false),↩
}↩
}↩
// Test 2↩
{↩
let serialized = serialize(&Message::M2(Cow::Borrowed(&large_map))).unwrap();↩
let deserialized: Message<'static> = deserialize_from(&mut &serialized[..]).unwrap();↩
match deserialized {↩
Message::M2(b) => assert!(&b.into_owned() == &large_map),↩
_ => assert!(false),↩
}↩
}↩
}↩
#[test]↩
fn test_strbox_serialize() {↩
let strx: &'static str = "hello world";↩
let serialized = serialize(&Cow::Borrowed(strx)).unwrap();↩
let deserialized: Cow<'static, String> = deserialize_from(&mut &serialized[..]).unwrap();↩
let stringx: String = deserialized.into_owned();↩
assert!(strx == &stringx[..]);↩
}↩
#[test]↩
fn test_slicebox_serialize() {↩
let slice = [1u32, 2, 3, 4, 5];↩
let serialized = serialize(&Cow::Borrowed(&slice[..])).unwrap();↩
println!("{:?}", serialized);↩
let deserialized: Cow<'static, Vec<u32>> = deserialize_from(&mut &serialized[..]).unwrap();↩
{↩
let sb: &[u32] = &deserialized;↩
assert!(slice == sb);↩
}↩
let vecx: Vec<u32> = deserialized.into_owned();↩
assert!(slice == &vecx[..]);↩
}↩
#[test]↩
fn test_multi_strings_serialize() {↩
assert!(serialize(&("foo", "bar", "baz")).is_ok());↩
}↩
#[test]↩
fn test_oom_protection() {↩
use std::io::Cursor;↩
#[derive(Serialize, Deserialize, PartialEq, Debug)]↩
struct FakeVec {↩
len: u64,↩
byte: u8,↩
}↩
let x = DefaultOptions::new()↩
.with_limit(10)↩
.serialize(&FakeVec {↩
len: 0xffffffffffffffffu64,↩
byte: 1,↩
})↩
.unwrap();↩
let y: Result<Vec<u8>> = DefaultOptions::new()↩
.with_limit(10)↩
.deserialize_from(&mut Cursor::new(&x[..]));↩
assert!(y.is_err());↩
}↩
#[test]↩
fn path_buf() {↩
use std::path::{Path, PathBuf};↩
let path = Path::new("foo").to_path_buf();↩
let serde_encoded = serialize(&path).unwrap();↩
let decoded: PathBuf = deserialize(&serde_encoded).unwrap();↩
assert!(path.to_str() == decoded.to_str());↩
}↩
#[test]↩
fn bytes() {↩
use serde_bytes::Bytes;↩
let data = b"abc\0123";↩
let s = serialize(&data[..]).unwrap();↩
let s2 = serialize(&Bytes::new(data)).unwrap();↩
assert_eq!(s[..], s2[..]);↩
}↩
#[test]↩
fn serde_bytes() {↩
use serde_bytes::ByteBuf;↩
the_same(ByteBuf::from(vec![1, 2, 3, 4, 5]));↩
}↩
#[test]↩
fn endian_difference() {↩
let x = 10u64;↩
let little = serialize(&x).unwrap();↩
let big = DefaultOptions::new()↩
.with_big_endian()↩
.serialize(&x)↩
.unwrap();↩
assert_ne!(little, big);↩
}↩
#[test]↩
fn test_zero_copy_parse() {↩
#[derive(Serialize, Deserialize, Eq, PartialEq, Debug)]↩
struct Foo<'a> {↩
borrowed_str: &'a str,↩
borrowed_bytes: &'a [u8],↩
}↩
let f = Foo {↩
borrowed_str: "hi",↩
borrowed_bytes: &[0, 1, 2, 3],↩
};↩
{↩
let encoded = serialize(&f).unwrap();↩
let out: Foo = deserialize(&encoded[..]).unwrap();↩
assert_eq!(out, f);↩
}↩
}↩
#[test]↩
fn test_zero_copy_parse_deserialize_into() {↩
use bincode::BincodeRead;↩
use std::io;↩
/// A BincodeRead implementation for byte slices↩
pub struct SliceReader<'storage> {↩
slice: &'storage [u8],↩
}↩
impl<'storage> SliceReader<'storage> {↩
#[inline(always)]↩
fn unexpected_eof() -> Box<::ErrorKind> {↩
return Box::new(::ErrorKind::Io(io::Error::new(↩
io::ErrorKind::UnexpectedEof,↩
"",↩
)));↩
}↩
}↩
impl<'storage> io::Read for SliceReader<'storage> {↩
#[inline(always)]↩
fn read(&mut self, out: &mut [u8]) -> io::Result<usize> {↩
(&mut self.slice).read(out)↩
}↩
#[inline(always)]↩
fn read_exact(&mut self, out: &mut [u8]) -> io::Result<()> {↩
(&mut self.slice).read_exact(out)↩
}↩
}↩
impl<'storage> BincodeRead<'storage> for SliceReader<'storage> {↩
#[inline(always)]↩
fn forward_read_str<V>(&mut self, length: usize, visitor: V) -> Result<V::Value>↩
where
V: serde::de::Visitor<'storage>,↩
{↩
use ErrorKind;↩
if length > self.slice.len() {↩
return Err(SliceReader::unexpected_eof());↩
}↩
let string = match ::std::str::from_utf8(&self.slice[..length]) {↩
Ok(s) => s,↩
Err(e) => return Err(ErrorKind::InvalidUtf8Encoding(e).into()),↩
};↩
let r = visitor.visit_borrowed_str(string);↩
self.slice = &self.slice[length..];↩
r↩
}↩
#[inline(always)]↩
fn get_byte_buffer(&mut self, length: usize) -> Result<Vec<u8>> {↩
if length > self.slice.len() {↩
return Err(SliceReader::unexpected_eof());↩
}↩
let r = &self.slice[..length];↩
self.slice = &self.slice[length..];↩
Ok(r.to_vec())↩
}↩
#[inline(always)]↩
fn forward_read_bytes<V>(&mut self, length: usize, visitor: V) -> Result<V::Value>↩
where
V: serde::de::Visitor<'storage>,↩
{↩
if length > self.slice.len() {↩
return Err(SliceReader::unexpected_eof());↩
}↩
let r = visitor.visit_borrowed_bytes(&self.slice[..length]);↩
self.slice = &self.slice[length..];↩
r↩
}↩
}↩
#[derive(Serialize, Deserialize, Eq, PartialEq, Debug)]↩
struct Foo<'a> {↩
borrowed_str: &'a str,↩
borrowed_bytes: &'a [u8],↩
}↩
let f = Foo {↩
borrowed_str: "hi",↩
borrowed_bytes: &[0, 1, 2, 3],↩
};↩
{↩
let encoded = serialize(&f).unwrap();↩
let mut target = Foo {↩
borrowed_str: "hello",↩
borrowed_bytes: &[10, 11, 12, 13],↩
};↩
deserialize_in_place(↩
SliceReader {↩
slice: &encoded[..],↩
},↩
&mut target,↩
)↩
.unwrap();↩
assert_eq!(target, f);↩
}↩
}↩
#[test]↩
fn not_human_readable() {↩
use std::net::Ipv4Addr;↩
let ip = Ipv4Addr::new(1, 2, 3, 4);↩
the_same(ip);↩
assert_eq!(&ip.octets()[..], &serialize(&ip).unwrap()[..]);↩
assert_eq!(↩
::std::mem::size_of::<Ipv4Addr>() as u64,↩
serialized_size(&ip).unwrap()↩
);↩
}↩
// The example is taken from serde::de::DeserializeSeed.↩
struct ExtendVec<'a, T: 'a>(&'a mut Vec<T>);↩
impl<'de, 'a, T> DeserializeSeed<'de> for ExtendVec<'a, T>↩
where
T: Deserialize<'de>,↩
{↩
// The return type of the `deserialize` method. This implementation↩
// appends onto an existing vector but does not create any new data↩
// structure, so the return type is ().↩
type Value = ();↩
fn deserialize<D>(self, deserializer: D) -> StdResult<Self::Value, D::Error>↩
where
D: Deserializer<'de>,↩
{↩
// Visitor implementation that will walk an inner array of the JSON↩
// input.↩
struct ExtendVecVisitor<'a, T: 'a>(&'a mut Vec<T>);↩
impl<'de, 'a, T> Visitor<'de> for ExtendVecVisitor<'a, T>↩
where
T: Deserialize<'de>,↩
{↩
type Value = ();↩
fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {↩
write!(formatter, "an array of integers")↩
}↩
fn visit_seq<A>(self, mut seq: A) -> StdResult<(), A::Error>↩
where
A: SeqAccess<'de>,↩
{↩
// Visit each element in the inner array and push it onto↩
// the existing vector.↩
while let Some(elem) = seq.next_element()? {↩
self.0.push(elem);↩
}↩
Ok(())↩
}↩
}↩
deserializer.deserialize_seq(ExtendVecVisitor(self.0))↩
}↩
}↩
#[test]↩
fn test_default_deserialize_seed() {↩
let config = DefaultOptions::new();↩
let data: Vec<_> = (10..100).collect();↩
let bytes = config.serialize(&data).expect("Config::serialize failed");↩
let mut seed_data: Vec<_> = (0..10).collect();↩
{↩
let seed = ExtendVec(&mut seed_data);↩
config↩
.deserialize_seed(seed, &bytes)↩
.expect("Config::deserialize_seed failed");↩
}↩
assert_eq!(seed_data, (0..100).collect::<Vec<_>>());↩
}↩
#[test]↩
fn test_big_endian_deserialize_seed() {↩
let config = DefaultOptions::new().with_big_endian();↩
let data: Vec<_> = (10..100).collect();↩
let bytes = config.serialize(&data).expect("Config::serialize failed");↩
let mut seed_data: Vec<_> = (0..10).collect();↩
{↩
let seed = ExtendVec(&mut seed_data);↩
config↩
.deserialize_seed(seed, &bytes)↩
.expect("Config::deserialize_seed failed");↩
}↩
assert_eq!(seed_data, (0..100).collect::<Vec<_>>());↩
}↩
#[test]↩
fn test_default_deserialize_from_seed() {↩
let config = DefaultOptions::new();↩
let data: Vec<_> = (10..100).collect();↩
let bytes = config.serialize(&data).expect("Config::serialize failed");↩
let mut seed_data: Vec<_> = (0..10).collect();↩
{↩
let seed = ExtendVec(&mut seed_data);↩
config↩
.deserialize_from_seed(seed, &mut &*bytes)↩
.expect("Config::deserialize_from_seed failed");↩
}↩
assert_eq!(seed_data, (0..100).collect::<Vec<_>>());↩
}↩
#[test]↩
fn test_big_endian_deserialize_from_seed() {↩
let config = DefaultOptions::new().with_big_endian();↩
let data: Vec<_> = (10..100).collect();↩
let bytes = config.serialize(&data).expect("Config::serialize failed");↩
let mut seed_data: Vec<_> = (0..10).collect();↩
{↩
let seed = ExtendVec(&mut seed_data);↩
config↩
.deserialize_from_seed(seed, &mut &*bytes)↩
.expect("Config::deserialize_from_seed failed");↩
}↩
assert_eq!(seed_data, (0..100).collect::<Vec<_>>());↩
}↩
#[test]↩
fn test_varint_length_prefixes() {↩
let a = vec![(); 127]; // should be a single byte↩
let b = vec![(); 250]; // also should be a single byte↩
let c = vec![(); 251];↩
let d = vec![(); u16::max_value() as usize + 1];↩
assert_eq!(↩
DefaultOptions::new()↩
.with_varint_encoding()↩
.serialized_size(&a[..])↩
.unwrap(),↩
1↩
); // 2 ** 7 - 1↩
assert_eq!(↩
DefaultOptions::new()↩
.with_varint_encoding()↩
.serialized_size(&b[..])↩
.unwrap(),↩
1↩
); // 250↩
assert_eq!(↩
DefaultOptions::new()↩
.with_varint_encoding()↩
.serialized_size(&c[..])↩
.unwrap(),↩
(1 + std::mem::size_of::<u16>()) as u64↩
); // 251↩
assert_eq!(↩
DefaultOptions::new()↩
.with_varint_encoding()↩
.serialized_size(&d[..])↩
.unwrap(),↩
(1 + std::mem::size_of::<u32>()) as u64↩
); // 2 ** 16 + 1↩
}↩
#[test]↩
fn test_byte_vec_struct() {↩
#[derive(PartialEq, Eq, Clone, Serialize, Deserialize, Debug)]↩
struct ByteVecs {↩
a: Vec<u8>,↩
b: Vec<u8>,↩
c: Vec<u8>,↩
};↩
let byte_struct = ByteVecs {↩
a: vec![2; 20],↩
b: vec![3; 30],↩
c: vec![1; 10],↩
};↩
the_same(byte_struct);↩
}↩