55355b6680
This reverts commit 9c0140968d
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737 lines
22 KiB
Markdown
737 lines
22 KiB
Markdown
Serde Rust Serialization Framework
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==================================
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[![Build Status](https://api.travis-ci.org/serde-rs/serde.svg?branch=master)](https://travis-ci.org/serde-rs/serde)
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[![Coverage Status](https://coveralls.io/repos/serde-rs/serde/badge.svg?branch=master&service=github)](https://coveralls.io/github/serde-rs/serde?branch=master)
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[![Latest Version](https://img.shields.io/crates/v/serde.svg)](https://crates.io/crates/serde)
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[![Clippy Linting Result](http://clippy.bashy.io/github/serde-rs/serde/master/badge.svg)](http://clippy.bashy.io/github/serde-rs/serde/master/log)
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Serde is a powerful framework that enables serialization libraries to
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generically serialize Rust data structures without the overhead of runtime type
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information. In many situations, the handshake protocol between serializers and
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serializees can be completely optimized away, leaving Serde to perform roughly
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the same speed as a hand written serializer for a specific type.
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Documentation is available at:
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* [serde](https://serde-rs.github.io/serde/serde/index.html)
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Using Serde with Nightly Rust and serde\_macros
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===============================================
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Here is a simple example that demonstrates how to use Serde by serializing and
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deserializing to JSON. Serde comes with some powerful code generation libraries
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that work with Stable and Nightly Rust that eliminate much of the complexity of
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hand rolling serialization and deserialization for a given type. First lets see
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how we would use Nightly Rust, which is currently a bit simpler than Stable
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Rust:
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`Cargo.toml`:
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```toml
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[package]
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name = "serde_example_nightly"
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version = "0.1.0"
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authors = ["Erick Tryzelaar <erick.tryzelaar@gmail.com>"]
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[dependencies]
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serde = "*"
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serde_json = "*"
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serde_macros = "*"
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```
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`src/main.rs`
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```rust
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#![feature(custom_derive, plugin)]
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#![plugin(serde_macros)]
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extern crate serde_json;
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#[derive(Serialize, Deserialize, Debug)]
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struct Point {
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x: i32,
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y: i32,
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}
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fn main() {
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let point = Point { x: 1, y: 2 };
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let serialized = serde_json::to_string(&point).unwrap();
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println!("{}", serialized);
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let deserialized: Point = serde_json::from_str(&serialized).unwrap();
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println!("{:?}", deserialized);
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}
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```
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When run, it produces:
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```
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% cargo run
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{"x":1,"y":2}
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Point { x: 1, y: 2 }
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```
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Using Serde with Stable Rust, syntex, and serde\_codegen
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========================================================
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Stable Rust is a little more complicated because it does not yet support
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compiler plugins. Instead we need to use the code generation library
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[syntex](https://github.com/serde-rs/syntex) for this:
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```toml
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[package]
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name = "serde_example"
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version = "0.1.0"
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authors = ["Erick Tryzelaar <erick.tryzelaar@gmail.com>"]
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build = "build.rs"
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[build-dependencies]
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serde_codegen = "*"
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syntex = "*"
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[dependencies]
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serde = "*"
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serde_json = "*"
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```
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`src/main.rs`:
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```rust,ignore
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extern crate serde;
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extern crate serde_json;
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include!(concat!(env!("OUT_DIR"), "/main.rs"));
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```
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`src/main.rs.in`:
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```rust,ignore
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#[derive(Serialize, Deserialize, Debug)]
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struct Point {
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x: i32,
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y: i32,
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}
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fn main() {
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let point = Point { x: 1, y: 2 };
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let serialized = serde_json::to_string(&point).unwrap();
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println!("{}", serialized);
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let deserialized: Point = serde_json::from_str(&serialized).unwrap();
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println!("{:?}", deserialized);
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}
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```
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`build.rs`
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```rust,ignore
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extern crate syntex;
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extern crate serde_codegen;
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use std::env;
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use std::path::Path;
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pub fn main() {
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let out_dir = env::var_os("OUT_DIR").unwrap();
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let src = Path::new("src/main.rs.in");
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let dst = Path::new(&out_dir).join("main.rs");
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let mut registry = syntex::Registry::new();
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serde_codegen::register(&mut registry);
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registry.expand("", &src, &dst).unwrap();
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}
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```
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This also produces:
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```
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% cargo run
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{"x":1,"y":2}
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Point { x: 1, y: 2 }
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```
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While this works well with Stable Rust, be aware that the error locations
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currently are reported in the generated file instead of in the source file. You
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may find it easier to develop with Nightly Rust and `serde\_macros`, then
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deploy with Stable Rust and `serde_codegen`. It's possible to combine both
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approaches in one setup:
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`Cargo.toml`:
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```toml
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[package]
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name = "serde_example"
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version = "0.1.0"
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authors = ["Erick Tryzelaar <erick.tryzelaar@gmail.com>"]
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build = "build.rs"
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[features]
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default = ["serde_codegen"]
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nightly = ["serde_macros"]
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[build-dependencies]
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serde_codegen = { version = "*", optional = true }
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syntex = "*"
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[dependencies]
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serde = "*"
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serde_json = "*"
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serde_macros = { version = "*", optional = true }
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```
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`build.rs`:
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```rust,ignore
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#[cfg(not(feature = "serde_macros"))]
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mod inner {
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extern crate syntex;
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extern crate serde_codegen;
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use std::env;
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use std::path::Path;
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pub fn main() {
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let out_dir = env::var_os("OUT_DIR").unwrap();
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let src = Path::new("src/main.rs.in");
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let dst = Path::new(&out_dir).join("main.rs");
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let mut registry = syntex::Registry::new();
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serde_codegen::register(&mut registry);
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registry.expand("", &src, &dst).unwrap();
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}
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}
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#[cfg(feature = "serde_macros")]
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mod inner {
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pub fn main() {}
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}
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fn main() {
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inner::main();
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}
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```
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`src/main.rs`:
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```rust,ignore
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#![cfg_attr(feature = "serde_macros", feature(custom_derive, plugin))]
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#![cfg_attr(feature = "serde_macros", plugin(serde_macros))]
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extern crate serde;
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extern crate serde_json;
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#[cfg(feature = "serde_macros")]
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include!("main.rs.in");
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#[cfg(not(feature = "serde_macros"))]
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include!(concat!(env!("OUT_DIR"), "/main.rs"));
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```
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The `src/main.rs.in` is the same as before.
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Then to run with stable:
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```
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% cargo build
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...
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```
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Or with nightly:
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```
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% cargo build --features nightly --no-default-features
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...
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```
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Serialization without Macros
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============================
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Under the covers, Serde extensively uses the Visitor pattern to thread state
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between the
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[Serializer](http://serde-rs.github.io/serde/serde/serde/ser/trait.Serializer.html)
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and
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[Serialize](http://serde-rs.github.io/serde/serde/serde/ser/trait.Serialize.html)
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without the two having specific information about each other's concrete type.
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This has many of the same benefits as frameworks that use runtime type
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information without the overhead. In fact, when compiling with optimizations,
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Rust is able to remove most or all the visitor state, and generate code that's
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nearly as fast as a hand written serializer format for a specific type.
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To see it in action, lets look at how a simple type like `i32` is serialized.
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The
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[Serializer](http://serde-rs.github.io/serde/serde/serde/ser/trait.Serializer.html)
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is threaded through the type:
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```rust,ignore
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impl serde::Serialize for i32 {
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fn serialize<S>(&self, serializer: &mut S) -> Result<(), S::Error>
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where S: serde::Serializer,
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{
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serializer.serialize_i32(*self)
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}
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}
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```
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As you can see it's pretty simple. More complex types like `BTreeMap` need to
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pass a
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[MapVisitor](http://serde-rs.github.io/serde/serde/serde/ser/trait.MapVisitor.html)
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to the
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[Serializer](http://serde-rs.github.io/serde/serde/serde/ser/trait.Serializer.html)
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in order to walk through the type:
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```rust,ignore
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impl<K, V> Serialize for BTreeMap<K, V>
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where K: Serialize + Ord,
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V: Serialize,
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{
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#[inline]
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fn serialize<S>(&self, serializer: &mut S) -> Result<(), S::Error>
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where S: Serializer,
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{
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serializer.serialize_map(MapIteratorVisitor::new(self.iter(), Some(self.len())))
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}
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}
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pub struct MapIteratorVisitor<Iter> {
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iter: Iter,
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len: Option<usize>,
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}
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impl<K, V, Iter> MapIteratorVisitor<Iter>
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where Iter: Iterator<Item=(K, V)>
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{
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#[inline]
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pub fn new(iter: Iter, len: Option<usize>) -> MapIteratorVisitor<Iter> {
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MapIteratorVisitor {
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iter: iter,
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len: len,
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}
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}
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}
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impl<K, V, I> MapVisitor for MapIteratorVisitor<I>
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where K: Serialize,
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V: Serialize,
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I: Iterator<Item=(K, V)>,
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{
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#[inline]
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fn visit<S>(&mut self, serializer: &mut S) -> Result<Option<()>, S::Error>
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where S: Serializer,
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{
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match self.iter.next() {
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Some((key, value)) => {
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let value = try!(serializer.serialize_map_elt(key, value));
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Ok(Some(value))
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}
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None => Ok(None)
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}
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}
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#[inline]
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fn len(&self) -> Option<usize> {
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self.len
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}
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}
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```
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Serializing structs follow this same pattern. In fact, structs are represented
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as a named map. Its visitor uses a simple state machine to iterate through all
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the fields:
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```rust
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extern crate serde;
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extern crate serde_json;
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struct Point {
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x: i32,
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y: i32,
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}
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impl serde::Serialize for Point {
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fn serialize<S>(&self, serializer: &mut S) -> Result<(), S::Error>
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where S: serde::Serializer
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{
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serializer.serialize_struct("Point", PointMapVisitor {
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value: self,
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state: 0,
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})
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}
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}
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struct PointMapVisitor<'a> {
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value: &'a Point,
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state: u8,
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}
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impl<'a> serde::ser::MapVisitor for PointMapVisitor<'a> {
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fn visit<S>(&mut self, serializer: &mut S) -> Result<Option<()>, S::Error>
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where S: serde::Serializer
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{
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match self.state {
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0 => {
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self.state += 1;
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Ok(Some(try!(serializer.serialize_struct_elt("x", &self.value.x))))
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}
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1 => {
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self.state += 1;
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Ok(Some(try!(serializer.serialize_struct_elt("y", &self.value.y))))
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}
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_ => {
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Ok(None)
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}
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}
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}
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}
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fn main() {
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let point = Point { x: 1, y: 2 };
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let serialized = serde_json::to_string(&point).unwrap();
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println!("{}", serialized);
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}
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```
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Deserialization without Macros
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==============================
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Deserialization is a little more complicated since there's a bit more error
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handling that needs to occur. Let's start with the simple `i32`
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[Deserialize](http://serde-rs.github.io/serde/serde/serde/de/trait.Deserialize.html)
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implementation. It passes a
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[Visitor](http://serde-rs.github.io/serde/serde/serde/de/trait.Visitor.html) to the
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[Deserializer](http://serde-rs.github.io/serde/serde/serde/de/trait.Deserializer.html).
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The [Visitor](http://serde-rs.github.io/serde/serde/serde/de/trait.Visitor.html)
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can create the `i32` from a variety of different types:
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```rust,ignore
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impl Deserialize for i32 {
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fn deserialize<D>(deserializer: &mut D) -> Result<i32, D::Error>
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where D: serde::Deserializer,
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{
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deserializer.deserialize(I32Visitor)
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}
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}
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struct I32Visitor;
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impl serde::de::Visitor for I32Visitor {
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type Value = i32;
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fn visit_i16<E>(&mut self, value: i16) -> Result<i32, E>
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where E: Error,
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{
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self.visit_i32(value as i32)
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}
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fn visit_i32<E>(&mut self, value: i32) -> Result<i32, E>
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where E: Error,
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{
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Ok(value)
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}
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...
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```
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Since it's possible for this type to get passed an unexpected type, we need a
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way to error out. This is done by way of the
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[Error](http://serde-rs.github.io/serde/serde/serde/de/trait.Error.html) trait,
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which allows a
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[Deserialize](http://serde-rs.github.io/serde/serde/serde/de/trait.Deserialize.html)
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to generate an error for a few common error conditions. Here's how it could be used:
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```rust,ignore
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...
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fn visit_string<E>(&mut self, _: String) -> Result<i32, E>
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where E: Error,
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{
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Err(serde::de::Error::custom("expect a string"))
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}
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...
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```
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Maps follow a similar pattern as before, and use a
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[MapVisitor](http://serde-rs.github.io/serde/serde/serde/de/trait.MapVisitor.html)
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to walk through the values generated by the
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[Deserializer](http://serde-rs.github.io/serde/serde/serde/de/trait.Deserializer.html).
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```rust,ignore
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impl<K, V> serde::Deserialize for BTreeMap<K, V>
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where K: serde::Deserialize + Eq + Ord,
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V: serde::Deserialize,
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{
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fn deserialize<D>(deserializer: &mut D) -> Result<BTreeMap<K, V>, D::Error>
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where D: serde::Deserializer,
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{
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deserializer.deserialize(BTreeMapVisitor::new())
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}
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}
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pub struct BTreeMapVisitor<K, V> {
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marker: PhantomData<BTreeMap<K, V>>,
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}
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impl<K, V> BTreeMapVisitor<K, V> {
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pub fn new() -> Self {
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BTreeMapVisitor {
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marker: PhantomData,
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}
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}
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}
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impl<K, V> serde::de::Visitor for BTreeMapVisitor<K, V>
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where K: serde::de::Deserialize + Ord,
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V: serde::de::Deserialize
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{
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type Value = BTreeMap<K, V>;
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fn visit_unit<E>(&mut self) -> Result<BTreeMap<K, V>, E>
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where E: Error,
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{
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Ok(BTreeMap::new())
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}
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fn visit_map<V_>(&mut self, mut visitor: V_) -> Result<BTreeMap<K, V>, V_::Error>
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where V_: MapVisitor,
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{
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let mut values = BTreeMap::new();
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while let Some((key, value)) = try!(visitor.visit()) {
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values.insert(key, value);
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}
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try!(visitor.end());
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Ok(values)
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}
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}
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```
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Deserializing structs goes a step further in order to support not allocating a
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`String` to hold the field names. This is done by custom field enum that
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deserializes an enum variant from a string. So for our `Point` example from
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before, we need to generate:
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```rust
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extern crate serde;
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extern crate serde_json;
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|
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#[derive(Debug)]
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struct Point {
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x: i32,
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y: i32,
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}
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enum PointField {
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X,
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Y,
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}
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impl serde::Deserialize for PointField {
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fn deserialize<D>(deserializer: &mut D) -> Result<PointField, D::Error>
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where D: serde::de::Deserializer
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{
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struct PointFieldVisitor;
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impl serde::de::Visitor for PointFieldVisitor {
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type Value = PointField;
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fn visit_str<E>(&mut self, value: &str) -> Result<PointField, E>
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where E: serde::de::Error
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{
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match value {
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"x" => Ok(PointField::X),
|
|
"y" => Ok(PointField::Y),
|
|
_ => Err(serde::de::Error::custom("expected x or y")),
|
|
}
|
|
}
|
|
}
|
|
|
|
deserializer.deserialize(PointFieldVisitor)
|
|
}
|
|
}
|
|
|
|
impl serde::Deserialize for Point {
|
|
fn deserialize<D>(deserializer: &mut D) -> Result<Point, D::Error>
|
|
where D: serde::de::Deserializer
|
|
{
|
|
static FIELDS: &'static [&'static str] = &["x", "y"];
|
|
deserializer.deserialize_struct("Point", FIELDS, PointVisitor)
|
|
}
|
|
}
|
|
|
|
struct PointVisitor;
|
|
|
|
impl serde::de::Visitor for PointVisitor {
|
|
type Value = Point;
|
|
|
|
fn visit_map<V>(&mut self, mut visitor: V) -> Result<Point, V::Error>
|
|
where V: serde::de::MapVisitor
|
|
{
|
|
let mut x = None;
|
|
let mut y = None;
|
|
|
|
loop {
|
|
match try!(visitor.visit_key()) {
|
|
Some(PointField::X) => { x = Some(try!(visitor.visit_value())); }
|
|
Some(PointField::Y) => { y = Some(try!(visitor.visit_value())); }
|
|
None => { break; }
|
|
}
|
|
}
|
|
|
|
let x = match x {
|
|
Some(x) => x,
|
|
None => try!(visitor.missing_field("x")),
|
|
};
|
|
|
|
let y = match y {
|
|
Some(y) => y,
|
|
None => try!(visitor.missing_field("y")),
|
|
};
|
|
|
|
try!(visitor.end());
|
|
|
|
Ok(Point{ x: x, y: y })
|
|
}
|
|
}
|
|
|
|
|
|
fn main() {
|
|
let serialized = "{\"x\":1,\"y\":2}";
|
|
|
|
let deserialized: Point = serde_json::from_str(&serialized).unwrap();
|
|
|
|
println!("{:?}", deserialized);
|
|
}
|
|
```
|
|
|
|
Design Considerations and tradeoffs for Serializers and Deserializers
|
|
=====================================================================
|
|
|
|
Serde serialization and deserialization implementations are written in such a
|
|
way that they err on being able to represent more values, and also provide
|
|
better error messages when they are passed an incorrect type to deserialize
|
|
from. For example, by default, it is a syntax error to deserialize a `String`
|
|
into an `Option<String>`. This is implemented such that it is possible to
|
|
distinguish between the values `None` and `Some(())`, if the serialization
|
|
format supports option types.
|
|
|
|
However, many formats do not have option types, and represents optional values
|
|
as either a `null`, or some other value. Serde `Serializer`s and
|
|
`Deserializer`s can opt-in support for this. For serialization, this is pretty
|
|
easy. Simply implement these methods:
|
|
|
|
```rust,ignore
|
|
...
|
|
|
|
fn visit_none(&mut self) -> Result<(), Self::Error> {
|
|
self.visit_unit()
|
|
}
|
|
|
|
fn visit_some<T>(&mut self, value: T) -> Result<(), Self::Error> {
|
|
value.serialize(self)
|
|
}
|
|
...
|
|
```
|
|
|
|
For deserialization, this can be implemented by way of the
|
|
`Deserializer::visit_option` hook, which presumes that there is some ability to peek at what is the
|
|
next value in the serialized token stream. This following example is from
|
|
[serde_tests::TokenDeserializer](https://github.com/serde-rs/serde/blob/master/serde_tests/tests/token.rs#L435-L454),
|
|
where it checks to see if the next value is an `Option`, a `()`, or some other
|
|
value:
|
|
|
|
```rust,ignore
|
|
...
|
|
|
|
fn visit_option<V>(&mut self, mut visitor: V) -> Result<V::Value, Error>
|
|
where V: de::Visitor,
|
|
{
|
|
match self.tokens.peek() {
|
|
Some(&Token::Option(false)) => {
|
|
self.tokens.next();
|
|
visitor.visit_none()
|
|
}
|
|
Some(&Token::Option(true)) => {
|
|
self.tokens.next();
|
|
visitor.visit_some(self)
|
|
}
|
|
Some(&Token::Unit) => {
|
|
self.tokens.next();
|
|
visitor.visit_none()
|
|
}
|
|
Some(_) => visitor.visit_some(self),
|
|
None => Err(Error::EndOfStreamError),
|
|
}
|
|
}
|
|
|
|
...
|
|
```
|
|
|
|
Annotations
|
|
===========
|
|
|
|
`serde_codegen` and `serde_macros` support annotations that help to customize
|
|
how types are serialized. Here are the supported annotations:
|
|
|
|
Container Annotations:
|
|
|
|
| Annotation | Function |
|
|
| ---------- | -------- |
|
|
| `#[serde(rename="name")]` | Serialize and deserialize this container with the given name |
|
|
| `#[serde(rename(serialize="name1"))]` | Serialize this container with the given name |
|
|
| `#[serde(rename(deserialize="name1"))]` | Deserialize this container with the given name |
|
|
| `#[serde(deny_unknown_fields)]` | Always error during serialization when encountering unknown fields. When absent, unknown fields are ignored for self-describing formats like JSON. |
|
|
|
|
Variant Annotations:
|
|
|
|
| Annotation | Function |
|
|
| ---------- | -------- |
|
|
| `#[serde(rename="name")]` | Serialize and deserialize this variant with the given name |
|
|
| `#[serde(rename(serialize="name1"))]` | Serialize this variant with the given name |
|
|
| `#[serde(rename(deserialize="name1"))]` | Deserialize this variant with the given name |
|
|
|
|
Field Annotations:
|
|
|
|
| Annotation | Function |
|
|
| ---------- | -------- |
|
|
| `#[serde(rename="name")]` | Serialize and deserialize this field with the given name |
|
|
| `#[serde(rename(serialize="name1"))]` | Serialize this field with the given name |
|
|
| `#[serde(rename(deserialize="name1"))]` | Deserialize this field with the given name |
|
|
| `#[serde(default)]` | If the value is not specified, use the `Default::default()` |
|
|
| `#[serde(default="$path")]` | Call the path to a function `fn() -> T` to build the value |
|
|
| `#[serde(skip_serializing)]` | Do not serialize this value |
|
|
| `#[serde(skip_deserializing)]` | Always use `Default::default()` or `#[serde(default="$path")]` instead of deserializing this value |
|
|
| `#[serde(skip_serializing_if="$path")]` | Do not serialize this value if this function `fn(&T) -> bool` returns `true` |
|
|
| `#[serde(serialize_with="$path")]` | Call a function `fn<S>(&T, &mut S) -> Result<(), S::Error> where S: Serializer` to serialize this value of type `T` |
|
|
| `#[serde(deserialize_with="$path")]` | Call a function `fn<D>(&mut D) -> Result<T, D::Error> where D: Deserializer` to deserialize this value of type `T` |
|
|
|
|
Upgrading from Serde 0.6
|
|
========================
|
|
|
|
* `#[serde(skip_serializing_if_none)]` was replaced with `#[serde(skip_serializing_if="Option::is_none")]`.
|
|
* `#[serde(skip_serializing_if_empty)]` was replaced with `#[serde(skip_serializing_if="Vec::is_empty")]`.
|
|
|
|
Serialization Formats Using Serde
|
|
=================================
|
|
|
|
| Format | Name |
|
|
| ------ | ---- |
|
|
| Bincode | [bincode](https://crates.io/crates/bincode) |
|
|
| JSON | [serde\_json](https://crates.io/crates/serde_json) |
|
|
| MessagePack | [rmp](https://crates.io/crates/rmp) |
|
|
| XML | [serde\_xml](https://github.com/serde-rs/xml) |
|
|
| YAML | [serde\_yaml](https://github.com/dtolnay/serde-yaml) |
|