serde

Module de

source
Expand description

Generic data structure deserialization framework.

The two most important traits in this module are Deserialize and Deserializer.

  • A type that implements Deserialize is a data structure that can be deserialized from any data format supported by Serde, and conversely
  • A type that implements Deserializer is a data format that can deserialize any data structure supported by Serde.

§The Deserialize trait

Serde provides Deserialize implementations for many Rust primitive and standard library types. The complete list is below. All of these can be deserialized using Serde out of the box.

Additionally, Serde provides a procedural macro called serde_derive to automatically generate Deserialize implementations for structs and enums in your program. See the derive section of the manual for how to use this.

In rare cases it may be necessary to implement Deserialize manually for some type in your program. See the Implementing Deserialize section of the manual for more about this.

Third-party crates may provide Deserialize implementations for types that they expose. For example the linked-hash-map crate provides a LinkedHashMap<K, V> type that is deserializable by Serde because the crate provides an implementation of Deserialize for it.

§The Deserializer trait

Deserializer implementations are provided by third-party crates, for example serde_json, serde_yaml and postcard.

A partial list of well-maintained formats is given on the Serde website.

§Implementations of Deserialize provided by Serde

This is a slightly different set of types than what is supported for serialization. Some types can be serialized by Serde but not deserialized. One example is OsStr.

  • Primitive types:
    • bool
    • i8, i16, i32, i64, i128, isize
    • u8, u16, u32, u64, u128, usize
    • f32, f64
    • char
  • Compound types:
    • [T; 0] through [T; 32]
    • tuples up to size 16
  • Common standard library types:
    • String
    • Option<T>
    • Result<T, E>
    • PhantomData<T>
  • Wrapper types:
    • Box<T>
    • Box<[T]>
    • Box<str>
    • Cow<’a, T>
    • Cell<T>
    • RefCell<T>
    • Mutex<T>
    • RwLock<T>
    • Rc<T> (if features = [“rc”] is enabled)
    • Arc<T> (if features = [“rc”] is enabled)
  • Collection types:
    • BTreeMap<K, V>
    • BTreeSet<T>
    • BinaryHeap<T>
    • HashMap<K, V, H>
    • HashSet<T, H>
    • LinkedList<T>
    • VecDeque<T>
    • Vec<T>
  • Zero-copy types:
    • &str
    • &[u8]
  • FFI types:
    • CString
    • Box<CStr>
    • OsString
  • Miscellaneous standard library types:
    • Duration
    • SystemTime
    • Path
    • PathBuf
    • Range<T>
    • RangeInclusive<T>
    • Bound<T>
    • num::NonZero*
    • ! (unstable)
  • Net types:
    • IpAddr
    • Ipv4Addr
    • Ipv6Addr
    • SocketAddr
    • SocketAddrV4
    • SocketAddrV6

Re-exports§

  • pub use core::error::Error as StdError;

Modules§

  • Building blocks for deserializing basic values using the IntoDeserializer trait.

Structs§

  • An efficient way of discarding data from a deserializer.

Enums§

  • Unexpected represents an unexpected invocation of any one of the Visitor trait methods.

Traits§

  • A data structure that can be deserialized from any data format supported by Serde.
  • A data structure that can be deserialized without borrowing any data from the deserializer.
  • DeserializeSeed is the stateful form of the Deserialize trait. If you ever find yourself looking for a way to pass data into a Deserialize impl, this trait is the way to do it.
  • A data format that can deserialize any data structure supported by Serde.
  • Provides a Visitor access to the data of an enum in the input.
  • The Error trait allows Deserialize implementations to create descriptive error messages belonging to the Deserializer against which they are currently running.
  • Expected represents an explanation of what data a Visitor was expecting to receive.
  • Converts an existing value into a Deserializer from which other values can be deserialized.
  • Provides a Visitor access to each entry of a map in the input.
  • Provides a Visitor access to each element of a sequence in the input.
  • VariantAccess is a visitor that is created by the Deserializer and passed to the Deserialize to deserialize the content of a particular enum variant.
  • This trait represents a visitor that walks through a deserializer.