//! This library contains a procedural macro that reads a GraphQL schema file, and generates the
//! corresponding [Juniper](https://crates.io/crates/juniper) [macro calls]. This means you can
//! have a real schema file and be guaranteed that it matches your Rust implementation. It also
//! removes most of the boilerplate involved in using Juniper.
//!
//! [macro calls]: https://graphql-rust.github.io/types/objects/complex_fields.html
//!
//! # Table of contents
//!
//! - [Example](#example)
//! - [Example web app](#example-web-app)
//! - [Customizing ownership](#customizing-ownership)
//! - [GraphQL features](#graphql-features)
//!     - [The `ID` type](#the-id-type)
//!     - [Custom scalar types](#custom-scalar-types)
//!     - [Interfaces](#interfaces)
//!     - [Union types](#union-types)
//!     - [Input objects](#input-objects)
//!     - [Enumeration types](#enumeration-types)
//!     - [Default argument values](#default-argument-values)
//! - [GraphQL to Rust types](#graphql-to-rust-types)
//! - [Query trails](#query-trails)
//! - [Customizing the error type](#customizing-the-error-type)
//! - [Inspecting the generated code](#inspecting-the-generated-code)
//!
//! # Example
//!
//! Schema:
//!
//! ```graphql
//! schema {
//!   query: Query
//!   mutation: Mutation
//! }
//!
//! type Query {
//!   // The directive makes the return value `FieldResult<String>`
//!   // rather than the default `FieldResult<&String>`
//!   helloWorld(name: String!): String! @juniper(ownership: "owned")
//! }
//!
//! type Mutation {
//!   noop: Boolean!
//! }
//! ```
//!
//! How you could implement that schema:
//!
//! ```
//! #[macro_use]
//! extern crate juniper;
//!
//! use juniper_from_schema::graphql_schema_from_file;
//!
//! // This is the important line
//! graphql_schema_from_file!("tests/schemas/doc_schema.graphql");
//!
//! pub struct Context;
//! impl juniper::Context for Context {}
//!
//! pub struct Query;
//!
//! impl QueryFields for Query {
//!     fn field_hello_world(
//!         &self,
//!         executor: &juniper::Executor<'_, Context>,
//!         name: String,
//!     ) -> juniper::FieldResult<String> {
//!         Ok(format!("Hello, {}!", name))
//!     }
//! }
//!
//! pub struct Mutation;
//!
//! impl MutationFields for Mutation {
//!     fn field_noop(&self, executor: &juniper::Executor<'_, Context>) -> juniper::FieldResult<&bool> {
//!         Ok(&true)
//!     }
//! }
//!
//! fn main() {
//!     let ctx = Context;
//!
//!     let query = "query { helloWorld(name: \"Ferris\") }";
//!
//!     let (result, errors) = juniper::execute(
//!         query,
//!         None,
//!         &Schema::new(Query, Mutation),
//!         &juniper::Variables::new(),
//!         &ctx,
//!     )
//!     .unwrap();
//!
//!     assert_eq!(errors.len(), 0);
//!     assert_eq!(
//!         result
//!             .as_object_value()
//!             .unwrap()
//!             .get_field_value("helloWorld")
//!             .unwrap()
//!             .as_scalar_value::<String>()
//!             .unwrap(),
//!         "Hello, Ferris!",
//!     );
//! }
//! ```
//!
//! And with `graphql_schema_from_file!` expanded your code would look something like this:
//!
//! ```
//! #[macro_use]
//! extern crate juniper;
//!
//! pub struct Context;
//! impl juniper::Context for Context {}
//!
//! pub struct Query;
//!
//! juniper::graphql_object!(Query: Context |&self| {
//!     field hello_world(&executor, name: String) -> juniper::FieldResult<String> {
//!         <Self as QueryFields>::field_hello_world(&self, &executor, name)
//!     }
//! });
//!
//! trait QueryFields {
//!     fn field_hello_world(
//!         &self,
//!         executor: &juniper::Executor<'_, Context>,
//!         name: String,
//!     ) -> juniper::FieldResult<String>;
//! }
//!
//! impl QueryFields for Query {
//!     fn field_hello_world(
//!         &self,
//!         executor: &juniper::Executor<'_, Context>,
//!         name: String,
//!     ) -> juniper::FieldResult<String> {
//!         Ok(format!("Hello, {}!", name))
//!     }
//! }
//!
//! pub struct Mutation;
//!
//! juniper::graphql_object!(Mutation: Context |&self| {
//!     field noop(&executor) -> juniper::FieldResult<&bool> {
//!         <Self as MutationFields>::field_noop(&self, &executor)
//!     }
//! });
//!
//! trait MutationFields {
//!     fn field_noop(&self, executor: &juniper::Executor<'_, Context>) -> juniper::FieldResult<&bool>;
//! }
//!
//! impl MutationFields for Mutation {
//!     fn field_noop(&self, executor: &juniper::Executor<'_, Context>) -> juniper::FieldResult<&bool> {
//!         Ok(&true)
//!     }
//! }
//!
//! type Schema = juniper::RootNode<'static, Query, Mutation>;
//!
//! fn main() {
//!     let ctx = Context;
//!
//!     let query = "query { helloWorld(name: \"Ferris\") }";
//!
//!     let (result, errors) = juniper::execute(
//!         query,
//!         None,
//!         &Schema::new(Query, Mutation),
//!         &juniper::Variables::new(),
//!         &ctx,
//!     )
//!     .unwrap();
//!
//!     assert_eq!(errors.len(), 0);
//!     assert_eq!(
//!         result
//!             .as_object_value()
//!             .unwrap()
//!             .get_field_value("helloWorld")
//!             .unwrap()
//!             .as_scalar_value::<String>()
//!             .unwrap(),
//!         "Hello, Ferris!",
//!     );
//! }
//! ```
//!
//! # Example web app
//!
//! You can find an example of how to use this library together with [Rocket] and [Diesel] to make a
//! GraphQL web app at <https://github.com/davidpdrsn/graphql-app-example>
//!
//! [Rocket]: https://rocket.rs
//! [Diesel]: http://diesel.rs
//!
//! # Customizing ownership
//!
//! By default all fields return borrowed values. Specifically the type is
//! `juniper::FieldResult<&'a T>` where `'a` is the lifetime of `self`. This works well for
//! returning data owned by `self` and avoids needless `.clone()` calls you would need if fields
//! returned owned values.
//!
//! However if you need to change the ownership you have to add the directive
//! `@juniper(ownership:)` to the field in the schema.
//!
//! It takes the following arguments:
//!
//! - `@juniper(ownership: "borrowed")`: The return type will be borrowed from `self`
//! (`FieldResult<&T>`).
//! - `@juniper(ownership: "owned")`: The return type will be owned (`FieldResult<T>`).
//! - `@juniper(ownership: "as_ref")`: Only applicable for `Option` and `Vec` return types. Changes
//! the inner type to be borrowed (`FieldResult<Option<&T>>` or `FieldResult<Vec<&T>>`).
//!
//! All field arguments will be owned.
//!
//! # GraphQL features
//!
//! The goal of this library is to support as much of GraphQL as Juniper does.
//!
//! Here is the complete list of features:
//!
//! Supported:
//! - Object types including converting lists and non-nulls to Rust types
//! - Custom scalar types including the `ID` type
//! - Interfaces
//! - Unions
//! - Input objects
//! - Enumeration types
//!
//! Not supported yet:
//! - Subscriptions (currently not supported by Juniper so we're unsure when or if this will happen)
//! - Schema directives (`@deprecated` is supported)
//! - Type extensions
//!
//! ## The `ID` type
//!
//! The `ID` GraphQL type will be generated into [`juniper::ID`].
//!
//! [`juniper::ID`]: https://docs.rs/juniper/latest/juniper/struct.ID.html
//!
//! ## Custom scalar types
//!
//! Custom scalar types will be generated into a newtype wrapper around a `String`. For example:
//!
//! ```graphql
//! scalar Cursor
//! ```
//!
//! Would result in
//!
//! ```
//! pub struct Cursor(pub String);
//! ```
//!
//! `Date` and `DateTime` are the two exceptions to this. `Date` gets converted into
//! [`chrono::naive::NaiveDate`](https://docs.rs/chrono/0.4.6/chrono/naive/struct.NaiveDate.html)
//! and `DateTime` into
//! [`chrono::DateTime<chrono::offset::Utc>`](https://docs.rs/chrono/0.4.6/chrono/struct.DateTime.html).
//!
//! ## Interfaces
//!
//! Juniper has several ways of representing GraphQL interfaces in Rust. They are listed
//! [here](https://graphql-rust.github.io/types/interfaces.html#enums) along with their advantages
//! and disadvantages.
//!
//! For the generated code we use the `enum` pattern because we found it to be the most flexible.
//!
//! Abbreviated example (find [complete example here](https://github.com/davidpdrsn/juniper-from-schema/blob/master/examples/interface.rs)):
//!
//! ```
//! # #[macro_use]
//! # extern crate juniper;
//! # use juniper::*;
//! # use juniper_from_schema::graphql_schema;
//! # fn main() {}
//! # pub struct Context;
//! # impl juniper::Context for Context {}
//! # pub struct Article { id: ID, text: String }
//! # impl ArticleFields for Article {
//! #     fn field_id(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&ID> { unimplemented!() }
//! #     fn field_text(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&String> { unimplemented!() }
//! # }
//! # pub struct Tweet { id: ID, text: String }
//! # impl TweetFields for Tweet {
//! #     fn field_id(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&ID> { unimplemented!() }
//! #     fn field_text(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&String> { unimplemented!() }
//! # }
//! #
//! graphql_schema! {
//!     schema {
//!         query: Query
//!     }
//!
//!     type Query {
//!         search(query: String!): [SearchResult!]! @juniper(ownership: "owned")
//!     }
//!
//!     interface SearchResult {
//!         id: ID!
//!         text: String!
//!     }
//!
//!     type Article implements SearchResult {
//!         id: ID!
//!         text: String!
//!     }
//!
//!     type Tweet implements SearchResult {
//!         id: ID!
//!         text: String!
//!     }
//! }
//!
//! pub struct Query;
//!
//! impl QueryFields for Query {
//!     fn field_search(
//!         &self,
//!         executor: &Executor<'_, Context>,
//!         trail: &QueryTrail<'_, SearchResult, juniper_from_schema::Walked>,
//!         query: String,
//!     ) -> FieldResult<Vec<SearchResult>> {
//!         let article: Article = Article { id: ID::new("1"), text: "Business".to_string() };
//!         let tweet: Tweet = Tweet { id: ID::new("2"), text: "1 weird tip".to_string() };
//!
//!         let posts = vec![
//!             SearchResult::from(article),
//!             SearchResult::from(tweet),
//!         ];
//!
//!         Ok(posts)
//!     }
//! }
//! ```
//!
//! The enum that gets generated has variants for each type that implements the interface and also
//! implements `From<T>` for each type.
//!
//! ## Union types
//!
//! Union types are basically just interfaces so they work in very much the same way.
//!
//! Abbreviated example (find [complete example here](https://github.com/davidpdrsn/juniper-from-schema/blob/master/examples/union_types.rs)):
//!
//! ```
//! # #[macro_use]
//! # extern crate juniper;
//! # use juniper::*;
//! # use juniper_from_schema::graphql_schema;
//! # fn main() {}
//! # pub struct Context;
//! # impl juniper::Context for Context {}
//! # pub struct Article { id: ID, text: String }
//! # impl ArticleFields for Article {
//! #     fn field_id(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&ID> { unimplemented!() }
//! #     fn field_text(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&String> { unimplemented!() }
//! # }
//! # pub struct Tweet { id: ID, text: String }
//! # impl TweetFields for Tweet {
//! #     fn field_id(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&ID> { unimplemented!() }
//! #     fn field_text(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&String> { unimplemented!() }
//! # }
//! #
//! graphql_schema! {
//!     schema {
//!         query: Query
//!     }
//!
//!     type Query {
//!         search(query: String!): [SearchResult!]! @juniper(ownership: "owned")
//!     }
//!
//!     union SearchResult = Article | Tweet
//!
//!     type Article {
//!         id: ID!
//!         text: String!
//!     }
//!
//!     type Tweet {
//!         id: ID!
//!         text: String!
//!     }
//! }
//!
//! pub struct Query;
//!
//! impl QueryFields for Query {
//!     fn field_search(
//!         &self,
//!         executor: &Executor<'_, Context>,
//!         trail: &QueryTrail<'_, SearchResult, juniper_from_schema::Walked>,
//!         query: String,
//!     ) -> FieldResult<Vec<SearchResult>> {
//!         let article: Article = Article { id: ID::new("1"), text: "Business".to_string() };
//!         let tweet: Tweet = Tweet { id: ID::new("2"), text: "1 weird tip".to_string() };
//!
//!         let posts = vec![
//!             SearchResult::from(article),
//!             SearchResult::from(tweet),
//!         ];
//!
//!         Ok(posts)
//!     }
//! }
//! ```
//!
//! ## Input objects
//!
//! Input objects will be converted into Rust structs with public fields.
//!
//! Abbreviated example (find [complete example here](https://github.com/davidpdrsn/juniper-from-schema/blob/master/examples/input_types.rs)):
//!
//! ```
//! # #[macro_use]
//! # extern crate juniper;
//! # use juniper::*;
//! # use juniper_from_schema::graphql_schema;
//! # fn main() {}
//! # pub struct Context;
//! # impl juniper::Context for Context {}
//! # pub struct Post { id: ID }
//! # impl PostFields for Post {
//! #     fn field_id(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&ID> {
//! #         unimplemented!()
//! #     }
//! #     fn field_title(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&String> {
//! #         unimplemented!()
//! #     }
//! # }
//! # pub struct Query;
//! # impl QueryFields for Query {
//! #     fn field_noop(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&bool> {
//! #         unimplemented!()
//! #     }
//! # }
//! graphql_schema! {
//!     schema {
//!         query: Query
//!         mutation: Mutation
//!     }
//!
//!     type Mutation {
//!         createPost(input: CreatePost!): Post @juniper(ownership: "owned")
//!     }
//!
//!     input CreatePost {
//!         title: String!
//!     }
//!
//!     type Post {
//!         id: ID!
//!         title: String!
//!     }
//!
//!     type Query { noop: Boolean! }
//! }
//!
//! pub struct Mutation;
//!
//! impl MutationFields for Mutation {
//!     fn field_create_post(
//!         &self,
//!         executor: &Executor<'_, Context>,
//!         trail: &QueryTrail<'_, Post, juniper_from_schema::Walked>,
//!         input: CreatePost,
//!     ) -> FieldResult<Option<Post>> {
//!         let title: String = input.title;
//!
//!         unimplemented!()
//!     }
//! }
//! ```
//!
//! From that example `CreatePost` will be defined as
//!
//! ```
//! pub struct CreatePost {
//!     pub title: String,
//! }
//! ```
//!
//! ## Enumeration types
//!
//! GraphQL enumeration types will be converted into normal Rust enums. The name of each variant
//! will be camel cased.
//!
//! Abbreviated example (find [complete example here](https://github.com/davidpdrsn/juniper-from-schema/blob/master/examples/enumeration_types.rs)):
//!
//! ```
//! # #[macro_use]
//! # extern crate juniper;
//! # use juniper::*;
//! # use juniper_from_schema::graphql_schema;
//! # fn main() {}
//! # pub struct Context;
//! # impl juniper::Context for Context {}
//! # pub struct Post { id: ID }
//! # impl PostFields for Post {
//! #     fn field_id(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&ID> {
//! #         Ok(&self.id)
//! #     }
//! # }
//! #
//! graphql_schema! {
//!     schema {
//!         query: Query
//!     }
//!
//!     enum Status {
//!         PUBLISHED
//!         UNPUBLISHED
//!     }
//!
//!     type Query {
//!         allPosts(status: Status!): [Post!]! @juniper(ownership: "owned")
//!     }
//!
//!     type Post {
//!         id: ID!
//!     }
//! }
//!
//! pub struct Query;
//!
//! impl QueryFields for Query {
//!     fn field_all_posts(
//!         &self,
//!         executor: &Executor<'_, Context>,
//!         trail: &QueryTrail<'_, Post, juniper_from_schema::Walked>,
//!         status: Status,
//!     ) -> FieldResult<Vec<Post>> {
//!         match status {
//!             Status::Published => unimplemented!("find published posts"),
//!             Status::Unpublished => unimplemented!("find unpublished posts"),
//!         }
//!     }
//! }
//! ```
//!
//! ## Default argument values
//!
//! In GraphQL you are able to provide default values for field arguments, provided the argument is
//! nullable.
//!
//! Arguments of the following types support default values:
//! - `Float`
//! - `Int`
//! - `String`
//! - `Boolean`
//! - Enumerations
//! - Input objects (as field arguments, see below)
//! - Lists containing some other supported type
//!
//! Abbreviated example (find [complete example here](https://github.com/davidpdrsn/juniper-from-schema/blob/master/examples/default_argument_values.rs)):
//!
//! ```
//! # #[macro_use]
//! # extern crate juniper;
//! # use juniper::*;
//! # use juniper_from_schema::graphql_schema;
//! # fn main() {}
//! # pub struct Context;
//! # impl juniper::Context for Context {}
//! # pub struct Post { id: ID }
//! # impl PostFields for Post {
//! #     fn field_id(
//! #         &self,
//! #         executor: &Executor<'_, Context>,
//! #     ) -> FieldResult<&ID> {
//! #         Ok(&self.id)
//! #     }
//! # }
//! #
//! graphql_schema! {
//!     schema {
//!         query: Query
//!     }
//!
//!     enum Status {
//!         PUBLISHED
//!         UNPUBLISHED
//!     }
//!
//!     input Pagination {
//!         pageSize: Int!
//!         cursor: ID
//!     }
//!
//!     type Query {
//!         allPosts(
//!             status: Status = PUBLISHED,
//!             pagination: Pagination = { pageSize: 20 }
//!         ): [Post!]! @juniper(ownership: "owned")
//!     }
//!
//!     type Post {
//!         id: ID!
//!     }
//! }
//!
//! pub struct Query;
//!
//! impl QueryFields for Query {
//!     fn field_all_posts(
//!         &self,
//!         executor: &Executor<'_, Context>,
//!         trail: &QueryTrail<'_, Post, juniper_from_schema::Walked>,
//!         status: Status,
//!         pagination: Pagination,
//!     ) -> FieldResult<Vec<Post>> {
//!         // `status` will be `Status::Published` if not given in the query
//!
//!         match status {
//!             Status::Published => unimplemented!("find published posts"),
//!             Status::Unpublished => unimplemented!("find unpublished posts"),
//!         }
//!     }
//! }
//! ```
//!
//! ### Input object gotchas
//!
//! Defaults for input objects are only supported as field arguments. The following is not
//! supported
//!
//! ```graphql
//! input SomeType {
//!   field: Int = 1
//! }
//! ```
//!
//! This isn't supported because [the spec is unclear about how to handle multiple nested
//! defaults](https://github.com/webonyx/graphql-php/issues/350).
//!
//! Also, defaults are only used if no arguments are passed. So given the schema
//!
//! ```graphql
//! input Input {
//!   a: String
//!   b: String
//! }
//!
//! type Query {
//!   field(arg: Input = { a: "a" }): Int!
//! }
//! ```
//!
//! and the query
//!
//! ```graphql
//! query MyQuery {
//!   field(arg: { b: "my b" })
//! }
//! ```
//!
//! The value of `arg` inside the resolver would be `Input { a: None, b: Some("my b") }`. Note that
//! even though `a` has a default value in the field doesn't get used here because we set `arg` in
//! the query.
//!
//! # GraphQL to Rust types
//!
//! This is how the standard GraphQL types will be mapped to Rust:
//!
//! - `Int` -> `i32`
//! - `Float` -> `f64`
//! - `String` -> `String`
//! - `Boolean` -> `bool`
//! - `ID` -> [`juniper::ID`](https://docs.rs/juniper/latest/juniper/struct.ID.html)
//!
//! # Query trails
//!
//! If you're not careful about preloading associations for deeply nested queries you risk getting
//! lots of [N+1 query bugs][]. Juniper provides a [look ahead api][] which lets you inspect things
//! coming up further down a query. However the API is string based, so you risk making typos and
//! checking for fields that don't exist.
//!
//! `QueryTrail` is a thin wrapper around Juniper look aheads with generated methods for each field
//! on all your types. This means the compiler will reject your code if you're checking for invalid
//! fields.
//!
//! Fields that return objects types (non scalar values) will also get a `QueryTrail` argument
//! besides the executor.
//!
//! [N+1 query bugs]: https://secure.phabricator.com/book/phabcontrib/article/n_plus_one/
//! [look ahead api]: https://docs.rs/juniper/0.11.1/juniper/struct.LookAheadSelection.html
//!
//! ## Abbreviated example
//!
//! Find [complete example here](https://github.com/davidpdrsn/juniper-from-schema/blob/master/examples/query_trails.rs)
//!
//! ```
//! # #[macro_use]
//! # extern crate juniper;
//! # use juniper::*;
//! # use juniper_from_schema::graphql_schema;
//! # fn main() {}
//! # pub struct Context;
//! # impl juniper::Context for Context {}
//! #
//! graphql_schema! {
//!     schema {
//!         query: Query
//!     }
//!
//!     type Query {
//!         allPosts: [Post!]! @juniper(ownership: "owned")
//!     }
//!
//!     type Post {
//!         id: Int!
//!         author: User!
//!     }
//!
//!     type User {
//!         id: Int!
//!     }
//! }
//!
//! pub struct Query;
//!
//! impl QueryFields for Query {
//!     fn field_all_posts(
//!         &self,
//!         executor: &Executor<'_, Context>,
//!         trail: &QueryTrail<'_, Post, juniper_from_schema::Walked>,
//!     ) -> FieldResult<Vec<Post>> {
//!         // Check if the query includes the author
//!         if let Some(_) = trail.author().walk() {
//!             // Somehow preload the users to avoid N+1 query bugs
//!             // Exactly how to do this depends on your setup
//!         }
//!
//!         // Normally this would come from the database
//!         let post = Post {
//!             id: 1,
//!             author: User { id: 1 },
//!         };
//!
//!         Ok(vec![post])
//!     }
//! }
//!
//! pub struct Post {
//!     id: i32,
//!     author: User,
//! }
//!
//! impl PostFields for Post {
//!     fn field_id(&self, executor: &Executor<'_, Context>) -> FieldResult<&i32> {
//!         Ok(&self.id)
//!     }
//!
//!     fn field_author(
//!         &self,
//!         executor: &Executor<'_, Context>,
//!         trail: &QueryTrail<'_, User, juniper_from_schema::Walked>,
//!     ) -> FieldResult<&User> {
//!         Ok(&self.author)
//!     }
//! }
//!
//! pub struct User {
//!     id: i32,
//! }
//!
//! impl UserFields for User {
//!     fn field_id(
//!         &self,
//!         executor: &Executor<'_, Context>,
//!     ) -> FieldResult<&i32> {
//!         Ok(&self.id)
//!     }
//! }
//! ```
//!
//! ## Types
//!
//! A query trial has two generic parameters: `QueryTrail<'a, T, K>`. `T` is the type the current
//! field returns and `K` is either `Walked` or `NotWalked`.
//!
//! The lifetime `'a` comes from Juniper and is the lifetime of the incoming query.
//!
//! ### `T`
//!
//! The `T` allows us to implement different methods for different types. For example in the
//! example above we implement `id` and `author` for `QueryTrail<'_, Post, K>` but only `id` for
//! `QueryTrail<'_, User, K>`.
//!
//! If your field returns a `Vec<T>` or `Option<T>` the given query trail will be `QueryTrail<'_,
//! T, _>`. So `Vec` or `Option` will be removed and you'll only be given the inner most type.
//! That is because in the GraphQL query syntax it doesn't matter if you're querying a `User`
//! or `[User]`. The fields you have access to are the same.
//!
//! ### `K`
//!
//! The `Walked` and `NotWalked` types are used to check if a given trail has been checked to
//! actually be part of a query. Calling any method on a `QueryTrail<'_, T, K>` will return
//! `QueryTrail<'_, T, NotWalked>`, and to check if the trail is actually part of the query you have
//! to call `.walk()` which returns `Option<QueryTrail<'_, T, Walked>>`. If that is a `Some(_)`
//! you'll know the trail is part of the query and you can do whatever preloading is necessary.
//!
//! Example:
//!
//! ```ignore
//! if let Some(walked_trail) = trail
//!     .some_field()
//!     .some_other_field()
//!     .third_field()
//!     .walk()
//! {
//!     // preload stuff
//! }
//! ```
//!
//! You can always run `cargo doc` and inspect all the methods on `QueryTrail` and in which
//! contexts you can call them.
//!
//! # Customizing the error type
//!
//! By default the return type of the generated field methods will be [`juniper::FieldResult<T>`].
//! That is just a type alias for `std::result::Result<T, juniper::FieldError>`. Should you want to
//! use a different error type than [`juniper::FieldError`] that can be done by passing `,
//! error_type: YourType` to [`graphql_schema_from_file!`].
//!
//! Just keep in that your custom error type must implement [`juniper::IntoFieldError`] to
//! type check.
//!
//! Example:
//!
//! ```
//! # #[macro_use]
//! # extern crate juniper;
//! # use juniper::*;
//! # use juniper_from_schema::graphql_schema_from_file;
//! # fn main() {}
//! # pub struct Context;
//! # impl juniper::Context for Context {}
//! # pub struct Mutation;
//! # impl MutationFields for Mutation {
//! #     fn field_noop(&self, executor: &Executor<'_, Context>) -> Result<&bool, MyError> {
//! #         Ok(&true)
//! #     }
//! # }
//! graphql_schema_from_file!("tests/schemas/doc_schema.graphql", error_type: MyError);
//!
//! pub struct MyError(String);
//!
//! impl juniper::IntoFieldError for MyError {
//!     fn into_field_error(self) -> juniper::FieldError {
//!         // Perform custom error handling
//!         juniper::FieldError::from(self.0)
//!     }
//! }
//!
//! pub struct Query;
//!
//! impl QueryFields for Query {
//!     fn field_hello_world(
//!         &self,
//!         executor: &Executor<'_, Context>,
//!         name: String,
//!     ) -> Result<String, MyError> {
//!         Ok(format!("Hello, {}!", name))
//!     }
//! }
//! ```
//!
//! [`graphql_schema!`] does not support changing the error type.
//!
//! [`graphql_schema!`]: macro.graphql_schema.html
//! [`graphql_schema_from_file!`]: macro.graphql_schema_from_file.html
//! [`juniper::IntoFieldError`]: https://docs.rs/juniper/0.11.1/juniper/trait.IntoFieldError.html
//! [`juniper::FieldError`]: https://docs.rs/juniper/0.11.1/juniper/struct.FieldError.html
//! [`juniper::FieldResult<T>`]: https://docs.rs/juniper/0.11.1/juniper/type.FieldResult.html
//!
//! # Inspecting the generated code
//!
//! If you wish to see exactly what code gets generated you can set the env var
//! `JUNIPER_FROM_SCHEMA_DEBUG` to `1` when compiling. For example:
//!
//! ```bash
//! JUNIPER_FROM_SCHEMA_DEBUG=1 cargo build
//! ```
//!
//! The code will not be formatted so it might be tricky to read. The easiest way to fix this is to
//! copy the printed code to a file and run it through [rustfmt].
//!
//! Alternatively you can include the [feature] called `"format-debug-output"`. This will run the
//! output through [rustfmt] before printing it. That way you don't have to do that manually.
//! Example `Cargo.toml`:
//!
//! ```toml
//! [dependencies]
//! juniper-from-schema = { version = "x.y.z", features = ["format-debug-output"] }
//! ```
//!
//! Unfortunately this requires that you're using nightly, because [rustfmt requires
//! nightly](https://github.com/rust-lang/rustfmt#installing-from-source). It might also break your
//! build because [rustfmt] doesn't always compile for some reason ¯\\\_(ツ)\_/¯. If you experience
//! this just remove the `"format-debug-output"` feature and format the output manually.
//!
//! [feature]: https://doc.rust-lang.org/cargo/reference/specifying-dependencies.html#choosing-features
//! [rustfmt]: https://github.com/rust-lang/rustfmt

#![deny(unused_imports, dead_code, unused_variables, unused_must_use)]
#![doc(html_root_url = "https://docs.rs/juniper-from-schema/0.2.3")]

pub use juniper_from_schema_code_gen::{graphql_schema, graphql_schema_from_file};

/// A type used to parameterize `QueryTrail` to know that `walk` has been called.
pub struct Walked;

/// A type used to parameterize `QueryTrail` to know that `walk` has *not* been called.
pub struct NotWalked;

#[cfg(test)]
mod test {
    #[allow(unused_imports)]
    use super::*;

    #[test]
    fn test_compile_pass() {
        let t = trybuild::TestCases::new();
        t.pass("tests/compile_pass/*.rs");
        t.compile_fail("tests/compile_fail/*.rs");
    }
}