//! [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 for now. //! //! # Examples //! //! ### Custom datatype //! //! If you have a custom datatype for which you derived [serde::Deserialize], chances are //! you will be able to derive [StaticType] for it as well. //! This allows easy type-safe deserializing. //! //! ```edition2018 //! use serde::Deserialize; //! use serde_dhall::{de::Error, StaticType}; //! //! #[derive(Debug, Deserialize, StaticType)] //! struct Point { //! x: u64, //! y: u64, //! } //! //! fn main() -> Result<(), Error> { //! // Some Dhall data //! let data = "{ x = 1, y = 1 + 1 }"; //! //! // Convert the Dhall string to a Point. //! let point: Point = serde_dhall::from_str_auto_type(data)?; //! 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_auto_type::(invalid_data).is_err()); //! //! Ok(()) //! } //! ``` //! //! ### Loosely typed //! //! If you used to consume JSON or YAML in a loosely typed way, you can continue to do so //! with Dhall. You only need to replace [serde_json::from_str] or [serde_yaml::from_str] //! with [serde_dhall::from_str][from_str]. //! More generally, if the [StaticType] derive doesn't suit your //! needs, you can still deserialize any valid Dhall file that serde can handle. //! //! [serde_json::from_str]: https://docs.serde.rs/serde_json/de/fn.from_str.html //! [serde_yaml::from_str]: https://docs.serde.rs/serde_yaml/fn.from_str.html //! //! ```edition2018 //! # fn main() -> serde_dhall::de::Result<()> { //! use std::collections::BTreeMap; //! //! // Some Dhall data //! let data = "{ x = 1, y = 1 + 1 } : { x: Natural, y: Natural }"; //! //! // Deserialize it to a Rust type. //! let deserialized_map: BTreeMap = serde_dhall::from_str(data)?; //! //! let mut expected_map = BTreeMap::new(); //! expected_map.insert("x".to_string(), 1); //! expected_map.insert("y".to_string(), 2); //! //! assert_eq!(deserialized_map, expected_map); //! # Ok(()) //! # } //! ``` //! //! You can alternatively specify a Dhall type that the input should match. //! //! ```edition2018 //! # fn main() -> serde_dhall::de::Result<()> { //! use std::collections::BTreeMap; //! //! // Parse a Dhall type //! let point_type_str = "{ x: Natural, y: Natural }"; //! let point_type = serde_dhall::from_str(point_type_str)?; //! //! // Some Dhall data //! let point_data = "{ x = 1, y = 1 + 1 }"; //! //! // Deserialize the data to a Rust type. This ensures that //! // the data matches the point type. //! let deserialized_map: BTreeMap = //! serde_dhall::from_str_check_type(point_data, &point_type)?; //! //! let mut expected_map = BTreeMap::new(); //! expected_map.insert("x".to_string(), 1); //! expected_map.insert("y".to_string(), 2); //! //! assert_eq!(deserialized_map, expected_map); //! # Ok(()) //! # } //! ``` //! //! [dhall]: https://dhall-lang.org/ //! [serde]: https://docs.serde.rs/serde/ //! [serde::Deserialize]: https://docs.serde.rs/serde/trait.Deserialize.html mod serde; mod static_type; #[doc(inline)] pub use de::{from_str, from_str_auto_type, from_str_check_type}; #[doc(hidden)] pub use dhall_proc_macros::StaticType; pub use static_type::StaticType; #[doc(inline)] pub use value::Value; // A Dhall value. pub mod value { use dhall::semantics::phase::{NormalizedExpr, Parsed, Typed}; use dhall::syntax::Builtin; use super::de::{Error, Result}; /// A Dhall value #[derive(Debug, Clone, PartialEq, Eq)] pub struct Value(Typed); impl Value { pub fn from_str(s: &str, ty: Option<&Value>) -> Result { Value::from_str_using_dhall_error_type(s, ty).map_err(Error::Dhall) } fn from_str_using_dhall_error_type( s: &str, ty: Option<&Value>, ) -> dhall::error::Result { let resolved = Parsed::parse_str(s)?.resolve()?; let typed = match ty { None => resolved.typecheck()?, Some(t) => resolved.typecheck_with(t.as_typed())?, }; Ok(Value(typed)) } pub(crate) fn to_expr(&self) -> NormalizedExpr { self.0.normalize_to_expr() } pub(crate) fn as_typed(&self) -> &Typed { &self.0 } pub(crate) fn make_builtin_type(b: Builtin) -> Self { Value(Typed::make_builtin_type(b)) } pub(crate) fn make_optional_type(t: Value) -> Self { Value(Typed::make_optional_type(t.0)) } pub(crate) fn make_list_type(t: Value) -> Self { Value(Typed::make_list_type(t.0)) } // Made public for the StaticType derive macro #[doc(hidden)] pub fn make_record_type( kts: impl Iterator, ) -> Self { Value(Typed::make_record_type(kts.map(|(k, t)| (k, t.0)))) } #[doc(hidden)] pub fn make_union_type( kts: impl Iterator)>, ) -> Self { Value(Typed::make_union_type( kts.map(|(k, t)| (k, t.map(|t| t.0))), )) } } impl super::de::Deserialize for Value { fn from_dhall(v: &Value) -> Result { Ok(v.clone()) } } } /// Deserialize Dhall data to a Rust data structure. pub mod de { use super::StaticType; use super::Value; pub use error::{Error, Result}; mod error { use dhall::error::Error as DhallError; pub type Result = std::result::Result; #[derive(Debug)] #[non_exhaustive] pub enum Error { Dhall(DhallError), Deserialize(String), } impl std::fmt::Display for Error { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { match self { Error::Dhall(err) => write!(f, "{}", err), Error::Deserialize(err) => write!(f, "{}", err), } } } impl std::error::Error for Error {} impl serde::de::Error for Error { fn custom(msg: T) -> Self where T: std::fmt::Display, { Error::Deserialize(msg.to_string()) } } } /// A data structure that can be deserialized from a Dhall expression /// /// This is automatically implemented for any type that [serde][serde] /// can deserialize. /// /// This trait cannot be implemented manually. // TODO: seal trait pub trait Deserialize: Sized { /// See [serde_dhall::from_str][crate::from_str] fn from_dhall(v: &Value) -> Result; } /// Deserialize an instance of type `T` from a string of Dhall text. /// /// This will recursively resolve all imports in the expression, and /// typecheck it before deserialization. Relative imports will be resolved relative to the /// provided file. More control over this process is not yet available /// but will be in a coming version of this crate. pub fn from_str(s: &str) -> Result where T: Deserialize, { T::from_dhall(&Value::from_str(s, None)?) } /// Deserialize an instance of type `T` from a string of Dhall text, /// additionally checking that it matches the supplied type. /// /// Like [from_str], but this additionally checks that /// the type of the provided expression matches the supplied type. pub fn from_str_check_type(s: &str, ty: &Value) -> Result where T: Deserialize, { T::from_dhall(&Value::from_str(s, Some(ty))?) } /// Deserialize an instance of type `T` from a string of Dhall text, /// additionally checking that it matches the type of `T`. /// /// Like [from_str], but this additionally checks that /// the type of the provided expression matches the output type `T`. The [StaticType] trait /// captures Rust types that are valid Dhall types. pub fn from_str_auto_type(s: &str) -> Result where T: Deserialize + StaticType, { from_str_check_type(s, &::static_type()) } }