#![doc(html_root_url = "https://docs.rs/serde_dhall/0.5.1")]
#![warn(missing_docs, missing_doc_code_examples)]
//! [Dhall][dhall] is a programmable configuration language that provides a non-repetitive
//! alternative to JSON and YAML.
//!
//! You can think of Dhall as: JSON + types + imports + functions
//!
//! For a description of the Dhall language, examples, tutorials, and more, see the [language
//! website][dhall].
//!
//! This crate provides support for consuming Dhall files the same way you would consume JSON or
//! YAML. It uses the [Serde][serde] serialization library to provide drop-in support for Dhall
//! for any datatype that supports serde (and that's a lot of them !).
//!
//! This library is limited to deserializing (reading) Dhall values; serializing (writing)
//! values to Dhall is not supported.
//!
//! # Basic usage
//!
//! The main entrypoint of this library is the [`from_str`](fn.from_str.html) function. It reads a string
//! containing a Dhall expression and deserializes it into any serde-compatible type.
//!
//! This could mean a common Rust type like `HashMap`:
//!
//! ```rust
//! # fn main() -> serde_dhall::Result<()> {
//! use std::collections::HashMap;
//!
//! // Some Dhall data
//! let data = "{ x = 1, y = 1 + 1 } : { x: Natural, y: Natural }";
//!
//! // Deserialize it to a Rust type.
//! let deserialized_map: HashMap = serde_dhall::from_str(data).parse()?;
//!
//! let mut expected_map = HashMap::new();
//! expected_map.insert("x".to_string(), 1);
//! expected_map.insert("y".to_string(), 2);
//!
//! assert_eq!(deserialized_map, expected_map);
//! # Ok(())
//! # }
//! ```
//!
//! or a custom datatype, using serde's `derive` mechanism:
//!
//! ```rust
//! # fn main() -> serde_dhall::Result<()> {
//! use serde::Deserialize;
//!
//! #[derive(Deserialize)]
//! struct Point {
//! x: u64,
//! y: u64,
//! }
//!
//! // Some Dhall data
//! let data = "{ x = 1, y = 1 + 1 } : { x: Natural, y: Natural }";
//!
//! // Convert the Dhall string to a Point.
//! let point: Point = serde_dhall::from_str(data).parse()?;
//! assert_eq!(point.x, 1);
//! assert_eq!(point.y, 2);
//!
//! # Ok(())
//! # }
//! ```
//!
//! # Replacing `serde_json` or `serde_yaml`
//!
//! If you used to consume JSON or YAML, you only need to replace [`serde_json::from_str`] or
//! [`serde_yaml::from_str`] with [`serde_dhall::from_str(…).parse()`](fn.from_str.html).
//!
//! [`serde_json::from_str`]: https://docs.serde.rs/serde_json/fn.from_str.html
//! [`serde_yaml::from_str`]: https://docs.serde.rs/serde_yaml/fn.from_str.html
//!
//!
//! # Additional Dhall typechecking
//!
//! When deserializing, normal type checking is done to ensure that the returned value is a valid
//! Dhall value. However types are
//! first-class in Dhall, and this library allows you to additionally check that the input data
//! matches a given Dhall type. That way, a type error will be caught on the Dhall side, and have
//! pretty and explicit errors that point to the source file.
//!
//! There are two ways to typecheck a Dhall value in this way: you can provide the type manually or
//! you can let Rust infer it for you.
//!
//! To let Rust infer the appropriate Dhall type, use the [StaticType](trait.StaticType.html)
//! trait.
//!
//! ```rust
//! # fn main() -> serde_dhall::Result<()> {
//! use serde::Deserialize;
//! use serde_dhall::StaticType;
//!
//! #[derive(Deserialize, StaticType)]
//! struct Point {
//! x: u64,
//! y: u64,
//! }
//!
//! // Some Dhall data
//! let data = "{ x = 1, y = 1 + 1 }";
//!
//! // Convert the Dhall string to a Point.
//! let point = serde_dhall::from_str(data)
//! .static_type_annotation()
//! .parse::()?;
//! assert_eq!(point.x, 1);
//! assert_eq!(point.y, 2);
//!
//! // Invalid data fails the type validation
//! let invalid_data = "{ x = 1, z = 0.3 }";
//! assert!(
//! serde_dhall::from_str(invalid_data)
//! .static_type_annotation()
//! .parse::()
//! .is_err()
//! );
//! # Ok(())
//! # }
//! ```
//!
//! To provide a type manually, you need a [`SimpleType`](enum.SimpleType.html) value. You
//! can parse it from some Dhall text like you would parse any other value.
//!
//! ```rust
//! # fn main() -> serde_dhall::Result<()> {
//! use serde_dhall::SimpleType;
//! use std::collections::HashMap;
//!
//! // Parse a Dhall type
//! let point_type_str = "{ x: Natural, y: Natural }";
//! let point_type = serde_dhall::from_str(point_type_str).parse::()?;
//!
//! // Some Dhall data
//! let point_data = "{ x = 1, y = 1 + 1 }";
//!
//! // Deserialize the data to a Rust type. This checks that
//! // the data matches the provided type.
//! let deserialized_map = serde_dhall::from_str(point_data)
//! .type_annotation(&point_type)
//! .parse::>()?;
//!
//! let mut expected_map = HashMap::new();
//! expected_map.insert("x".to_string(), 1);
//! expected_map.insert("y".to_string(), 2);
//!
//! assert_eq!(deserialized_map, expected_map);
//! # Ok(())
//! # }
//! ```
//!
//! # Controlling deserialization
//!
//! If you need more control over the process of reading Dhall values, e.g. disabling
//! imports, see the [`Deserializer`] methods.
//!
//! [`Deserializer`]: struct.Deserializer.html
//! [dhall]: https://dhall-lang.org/
//! [serde]: https://docs.serde.rs/serde/
//! [serde::Deserialize]: https://docs.serde.rs/serde/trait.Deserialize.html
#[cfg(doctest)]
mod test_readme {
doc_comment::doctest!("../../README.md");
}
mod deserialize;
mod error;
mod options;
mod static_type;
/// Dhall values
mod value;
#[doc(hidden)]
pub use dhall_proc_macros::StaticType;
pub use deserialize::FromDhall;
pub(crate) use deserialize::Sealed;
pub(crate) use error::ErrorKind;
pub use error::{Error, Result};
pub use options::{from_file, from_str, Deserializer};
pub use static_type::StaticType;
pub use value::{SimpleType, Value};