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+//! [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][de::StaticType] for it as well.
+//! This gives you access to a dhall representation of your datatype that can be outputted
+//! to users, and allows easy type-safe deserializing.
+//!
+//! ```edition2018
+//! use serde::Deserialize;
+//! use serde_dhall::de::StaticType;
+//!
+//! #[derive(Debug, Deserialize, StaticType)]
+//! struct Point {
+//!     x: u64,
+//!     y: u64,
+//! }
+//!
+//! fn main() {
+//!     // Some dhall data
+//!     let data = "{ x = 1, y = 1 + 1 }";
+//!
+//!     // Convert the dhall string to a Point.
+//!     let point: Point =
+//!             serde_dhall::de::from_str_auto_type(&data)
+//!                 .expect("An error ocurred !");
+//!
+//!     // Prints "point = Point { x: 1, y: 2 }"
+//!     println!("point = {:?}", point);
+//! }
+//! ```
+//!
+//! ### 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::de::from_str][de::from_str].
+//! More generally, if the [StaticType][de::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
+//! use std::collections::BTreeMap;
+//!
+//! let mut map = BTreeMap::new();
+//! map.insert("x".to_string(), 1);
+//! map.insert("y".to_string(), 2);
+//!
+//! // Some dhall data
+//! let data = "{ x = 1, y = 1 + 1 } : { x: Natural, y: Natural }";
+//!
+//! // Deserialize it to a Rust type.
+//! let deserialized_map: BTreeMap<String, usize> =
+//!         serde_dhall::de::from_str(&data, None)
+//!             .expect("Failed reading the data !");
+//! assert_eq!(map, deserialized_map);
+//! ```
+//!
+//! You can of course specify a dhall type that the input should match.
+//!
+//! ```edition2018
+//! use std::collections::BTreeMap;
+//!
+//! let mut map = BTreeMap::new();
+//! map.insert("x".to_string(), 1);
+//! map.insert("y".to_string(), 2);
+//!
+//! // Some dhall data
+//! let point_data = "{ x = 1, y = 1 + 1 }";
+//! let point_type_data = "{ x: Natural, y: Natural }";
+//!
+//! // Construct a type
+//! let point_type =
+//!         serde_dhall::de::from_str(point_type_data, None)
+//!             .expect("Could not parse the Point type");
+//!
+//! // Deserialize it to a Rust type.
+//! let deserialized_map: BTreeMap<String, usize> =
+//!         serde_dhall::de::from_str(&point_data, Some(&point_type))
+//!             .expect("Failed reading the data !");
+//! assert_eq!(map, deserialized_map);
+//! ```
+//!
+//! [dhall]: https://dhall-lang.org/
+//! [serde]: https://docs.serde.rs/serde/
+//! [serde::Deserialize]: https://docs.serde.rs/serde/trait.Deserialize.html
+
+mod serde;
+pub(crate) mod static_type;
+
+pub use value::Value;
+
+mod value {
+    use super::Type;
+    use dhall::error::Result;
+    use dhall::phase::{NormalizedSubExpr, Parsed, Typed};
+
+    // A Dhall value
+    pub struct Value(Typed);
+
+    impl Value {
+        pub fn from_str(s: &str, ty: Option<&Type>) -> Result<Self> {
+            let resolved = Parsed::parse_str(s)?.resolve()?;
+            let typed = match ty {
+                None => resolved.typecheck()?,
+                Some(t) => resolved.typecheck_with(&t.to_type())?,
+            };
+            Ok(Value(typed))
+        }
+        pub(crate) fn to_expr(&self) -> NormalizedSubExpr {
+            self.0.to_expr()
+        }
+        pub(crate) fn to_typed(&self) -> Typed {
+            self.0.clone()
+        }
+    }
+}
+
+pub use typ::Type;
+
+mod typ {
+    use dhall_syntax::Builtin;
+
+    use dhall::core::thunk::{Thunk, TypeThunk};
+    use dhall::core::value::Value;
+    use dhall::error::Result;
+    use dhall::phase::{NormalizedSubExpr, Typed};
+
+    /// A Dhall expression representing a type.
+    ///
+    /// This captures what is usually simply called a "type", like
+    /// `Bool`, `{ x: Integer }` or `Natural -> Text`.
+    #[derive(Debug, Clone, PartialEq, Eq)]
+    pub struct Type(Typed);
+
+    impl Type {
+        pub(crate) fn from_value(v: Value) -> Self {
+            Type(Typed::from_value_untyped(v))
+        }
+        pub(crate) fn make_builtin_type(b: Builtin) -> Self {
+            Self::from_value(Value::from_builtin(b))
+        }
+        pub(crate) fn make_optional_type(t: Type) -> Self {
+            Self::from_value(Value::AppliedBuiltin(
+                Builtin::Optional,
+                vec![t.to_thunk()],
+            ))
+        }
+        pub(crate) fn make_list_type(t: Type) -> Self {
+            Self::from_value(Value::AppliedBuiltin(
+                Builtin::List,
+                vec![t.to_thunk()],
+            ))
+        }
+        #[doc(hidden)]
+        pub fn make_record_type(
+            kts: impl Iterator<Item = (String, Type)>,
+        ) -> Self {
+            Self::from_value(Value::RecordType(
+                kts.map(|(k, t)| {
+                    (k.into(), TypeThunk::from_thunk(t.to_thunk()))
+                })
+                .collect(),
+            ))
+        }
+        #[doc(hidden)]
+        pub fn make_union_type(
+            kts: impl Iterator<Item = (String, Option<Type>)>,
+        ) -> Self {
+            Self::from_value(Value::UnionType(
+                kts.map(|(k, t)| {
+                    (k.into(), t.map(|t| TypeThunk::from_thunk(t.to_thunk())))
+                })
+                .collect(),
+            ))
+        }
+
+        pub(crate) fn to_thunk(&self) -> Thunk {
+            self.0.to_thunk()
+        }
+        #[allow(dead_code)]
+        pub(crate) fn to_expr(&self) -> NormalizedSubExpr {
+            self.0.to_expr()
+        }
+        pub(crate) fn to_type(&self) -> dhall::phase::Type {
+            self.0.to_type()
+        }
+    }
+
+    impl crate::de::Deserialize for Type {
+        fn from_dhall(v: &super::Value) -> Result<Self> {
+            Ok(Type(v.to_typed()))
+        }
+    }
+}
+
+/// Deserialization of Dhall expressions into Rust
+pub mod de {
+    pub use super::static_type::StaticType;
+    pub use super::{Type, Value};
+    use dhall::error::Result;
+    #[doc(hidden)]
+    pub use dhall_proc_macros::StaticType;
+
+    /// 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 [dhall::de::from_str][crate::de::from_str]
+        fn from_dhall(v: &Value) -> Result<Self>;
+    }
+
+    /// 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.
+    ///
+    /// If a type is provided, this additionally checks that the provided
+    /// expression has that type.
+    pub fn from_str<T>(s: &str, ty: Option<&Type>) -> Result<T>
+    where
+        T: Deserialize,
+    {
+        T::from_dhall(&Value::from_str(s, ty)?)
+    }
+
+    /// Deserialize an instance of type T from a string of Dhall text,
+    /// additionally checking that it matches the type of T.
+    ///
+    /// 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_auto_type<T>(s: &str) -> Result<T>
+    where
+        T: Deserialize + StaticType,
+    {
+        from_str(s, Some(&<T as StaticType>::static_type()))
+    }
+}