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/*!
JSON Schema generator and settings.
This module is useful if you want more control over how the schema generated than the [`schema_for!`] macro gives you.
There are two main types in this module:
* [`SchemaSettings`], which defines what JSON Schema features should be used when generating schemas (for example, how `Option`s should be represented).
* [`SchemaGenerator`], which manages the generation of a schema document.
*/
use crate::schema::*;
use crate::{visit::*, JsonSchema, Map};
use dyn_clone::DynClone;
use serde::Serialize;
use std::{any::Any, collections::HashSet, fmt::Debug};
/// Settings to customize how Schemas are generated.
///
/// The default settings currently conform to [JSON Schema Draft 7](https://json-schema.org/specification-links.html#draft-7), but this is liable to change in a future version of Schemars if support for other JSON Schema versions is added.
/// If you require your generated schemas to conform to draft 7, consider using the [`draft07`](#method.draft07) method.
#[derive(Debug, Clone)]
pub struct SchemaSettings {
/// If `true`, schemas for [`Option<T>`](Option) will include a `nullable` property.
///
/// This is not part of the JSON Schema spec, but is used in Swagger/OpenAPI schemas.
///
/// Defaults to `false`.
pub option_nullable: bool,
/// If `true`, schemas for [`Option<T>`](Option) will have `null` added to their [`type`](../schema/struct.SchemaObject.html#structfield.instance_type).
///
/// Defaults to `true`.
pub option_add_null_type: bool,
/// A JSON pointer to the expected location of referenceable subschemas within the resulting root schema.
///
/// Defaults to `"#/definitions/"`.
pub definitions_path: String,
/// The URI of the meta-schema describing the structure of the generated schemas.
///
/// Defaults to `"http://json-schema.org/draft-07/schema#"`.
pub meta_schema: Option<String>,
/// A list of visitors that get applied to all generated root schemas.
pub visitors: Vec<Box<dyn GenVisitor>>,
/// Inline all subschemas instead of using references.
///
/// Some references may still be generated in schemas for recursive types.
///
/// Defaults to `false`.
pub inline_subschemas: bool,
_hidden: (),
}
impl Default for SchemaSettings {
fn default() -> SchemaSettings {
SchemaSettings::draft07()
}
}
impl SchemaSettings {
/// Creates `SchemaSettings` that conform to [JSON Schema Draft 7](https://json-schema.org/specification-links.html#draft-7).
pub fn draft07() -> SchemaSettings {
SchemaSettings {
option_nullable: false,
option_add_null_type: true,
definitions_path: "#/definitions/".to_owned(),
meta_schema: Some("http://json-schema.org/draft-07/schema#".to_owned()),
visitors: vec![Box::new(RemoveRefSiblings)],
inline_subschemas: false,
_hidden: (),
}
}
/// Creates `SchemaSettings` that conform to [JSON Schema 2019-09](https://json-schema.org/specification-links.html#2019-09-formerly-known-as-draft-8).
pub fn draft2019_09() -> SchemaSettings {
SchemaSettings {
option_nullable: false,
option_add_null_type: true,
definitions_path: "#/definitions/".to_owned(),
meta_schema: Some("https://json-schema.org/draft/2019-09/schema".to_owned()),
visitors: Vec::default(),
inline_subschemas: false,
_hidden: (),
}
}
/// Creates `SchemaSettings` that conform to [OpenAPI 3.0](https://github.com/OAI/OpenAPI-Specification/blob/master/versions/3.0.0.md#schemaObject).
pub fn openapi3() -> SchemaSettings {
SchemaSettings {
option_nullable: true,
option_add_null_type: false,
definitions_path: "#/components/schemas/".to_owned(),
meta_schema: Some(
"https://spec.openapis.org/oas/3.0/schema/2019-04-02#/definitions/Schema"
.to_owned(),
),
visitors: vec![
Box::new(RemoveRefSiblings),
Box::new(ReplaceBoolSchemas {
skip_additional_properties: true,
}),
Box::new(SetSingleExample {
retain_examples: false,
}),
],
inline_subschemas: false,
_hidden: (),
}
}
/// Modifies the `SchemaSettings` by calling the given function.
///
/// # Example
/// ```
/// use schemars::gen::{SchemaGenerator, SchemaSettings};
///
/// let settings = SchemaSettings::default().with(|s| {
/// s.option_nullable = true;
/// s.option_add_null_type = false;
/// });
/// let gen = settings.into_generator();
/// ```
pub fn with(mut self, configure_fn: impl FnOnce(&mut Self)) -> Self {
configure_fn(&mut self);
self
}
/// Appends the given visitor to the list of [visitors](SchemaSettings::visitors) for these `SchemaSettings`.
pub fn with_visitor(mut self, visitor: impl Visitor + Debug + Clone + 'static) -> Self {
self.visitors.push(Box::new(visitor));
self
}
/// Creates a new [`SchemaGenerator`] using these settings.
pub fn into_generator(self) -> SchemaGenerator {
SchemaGenerator::new(self)
}
}
/// The main type used to generate JSON Schemas.
///
/// # Example
/// ```
/// use schemars::{JsonSchema, gen::SchemaGenerator};
///
/// #[derive(JsonSchema)]
/// struct MyStruct {
/// foo: i32,
/// }
///
/// let gen = SchemaGenerator::default();
/// let schema = gen.into_root_schema_for::<MyStruct>();
/// ```
#[derive(Debug, Default)]
pub struct SchemaGenerator {
settings: SchemaSettings,
definitions: Map<String, Schema>,
pending_schema_names: HashSet<String>,
}
impl Clone for SchemaGenerator {
fn clone(&self) -> Self {
Self {
settings: self.settings.clone(),
definitions: self.definitions.clone(),
pending_schema_names: HashSet::new(),
}
}
}
impl From<SchemaSettings> for SchemaGenerator {
fn from(settings: SchemaSettings) -> Self {
settings.into_generator()
}
}
impl SchemaGenerator {
/// Creates a new `SchemaGenerator` using the given settings.
pub fn new(settings: SchemaSettings) -> SchemaGenerator {
SchemaGenerator {
settings,
..Default::default()
}
}
/// Borrows the [`SchemaSettings`] being used by this `SchemaGenerator`.
///
/// # Example
/// ```
/// use schemars::gen::SchemaGenerator;
///
/// let gen = SchemaGenerator::default();
/// let settings = gen.settings();
///
/// assert_eq!(settings.option_add_null_type, true);
/// ```
pub fn settings(&self) -> &SchemaSettings {
&self.settings
}
#[deprecated = "This method no longer has any effect."]
pub fn make_extensible(&self, _schema: &mut SchemaObject) {}
#[deprecated = "Use `Schema::Bool(true)` instead"]
pub fn schema_for_any(&self) -> Schema {
Schema::Bool(true)
}
#[deprecated = "Use `Schema::Bool(false)` instead"]
pub fn schema_for_none(&self) -> Schema {
Schema::Bool(false)
}
/// Generates a JSON Schema for the type `T`, and returns either the schema itself or a `$ref` schema referencing `T`'s schema.
///
/// If `T` is [referenceable](JsonSchema::is_referenceable), this will add `T`'s schema to this generator's definitions, and
/// return a `$ref` schema referencing that schema. Otherwise, this method behaves identically to [`JsonSchema::json_schema`].
///
/// If `T`'s schema depends on any [referenceable](JsonSchema::is_referenceable) schemas, then this method will
/// add them to the `SchemaGenerator`'s schema definitions.
pub fn subschema_for<T: ?Sized + JsonSchema>(&mut self) -> Schema {
let name = T::schema_name();
let return_ref = T::is_referenceable()
&& (!self.settings.inline_subschemas || self.pending_schema_names.contains(&name));
if return_ref {
let reference = format!("{}{}", self.settings().definitions_path, name);
if !self.definitions.contains_key(&name) {
self.insert_new_subschema_for::<T>(name);
}
Schema::new_ref(reference)
} else {
self.json_schema_internal::<T>(&name)
}
}
fn insert_new_subschema_for<T: ?Sized + JsonSchema>(&mut self, name: String) {
let dummy = Schema::Bool(false);
// insert into definitions BEFORE calling json_schema to avoid infinite recursion
self.definitions.insert(name.clone(), dummy);
let schema = self.json_schema_internal::<T>(&name);
self.definitions.insert(name, schema);
}
/// Borrows the collection of all [referenceable](JsonSchema::is_referenceable) schemas that have been generated.
///
/// The keys of the returned `Map` are the [schema names](JsonSchema::schema_name), and the values are the schemas
/// themselves.
pub fn definitions(&self) -> &Map<String, Schema> {
&self.definitions
}
/// Mutably borrows the collection of all [referenceable](JsonSchema::is_referenceable) schemas that have been generated.
///
/// The keys of the returned `Map` are the [schema names](JsonSchema::schema_name), and the values are the schemas
/// themselves.
pub fn definitions_mut(&mut self) -> &mut Map<String, Schema> {
&mut self.definitions
}
/// Returns the collection of all [referenceable](JsonSchema::is_referenceable) schemas that have been generated,
/// leaving an empty map in its place.
///
/// The keys of the returned `Map` are the [schema names](JsonSchema::schema_name), and the values are the schemas
/// themselves.
pub fn take_definitions(&mut self) -> Map<String, Schema> {
std::mem::replace(&mut self.definitions, Map::default())
}
/// Returns an iterator over the [visitors](SchemaSettings::visitors) being used by this `SchemaGenerator`.
pub fn visitors_mut(&mut self) -> impl Iterator<Item = &mut dyn GenVisitor> {
self.settings.visitors.iter_mut().map(|v| v.as_mut())
}
/// Generates a root JSON Schema for the type `T`.
///
/// If `T`'s schema depends on any [referenceable](JsonSchema::is_referenceable) schemas, then this method will
/// add them to the `SchemaGenerator`'s schema definitions and include them in the returned `SchemaObject`'s
/// [`definitions`](../schema/struct.Metadata.html#structfield.definitions)
pub fn root_schema_for<T: ?Sized + JsonSchema>(&mut self) -> RootSchema {
let name = T::schema_name();
let mut schema = self.json_schema_internal::<T>(&name).into_object();
schema.metadata().title.get_or_insert(name);
let mut root = RootSchema {
meta_schema: self.settings.meta_schema.clone(),
definitions: self.definitions.clone(),
schema,
};
for visitor in &mut self.settings.visitors {
visitor.visit_root_schema(&mut root)
}
root
}
/// Consumes `self` and generates a root JSON Schema for the type `T`.
///
/// If `T`'s schema depends on any [referenceable](JsonSchema::is_referenceable) schemas, then this method will
/// include them in the returned `SchemaObject`'s [`definitions`](../schema/struct.Metadata.html#structfield.definitions)
pub fn into_root_schema_for<T: ?Sized + JsonSchema>(mut self) -> RootSchema {
let name = T::schema_name();
let mut schema = self.json_schema_internal::<T>(&name).into_object();
schema.metadata().title.get_or_insert(name);
let mut root = RootSchema {
meta_schema: self.settings.meta_schema,
definitions: self.definitions,
schema,
};
for visitor in &mut self.settings.visitors {
visitor.visit_root_schema(&mut root)
}
root
}
/// Generates a root JSON Schema for the given example value.
///
/// If the value implements [`JsonSchema`](crate::JsonSchema), then prefer using the [`root_schema_for()`](Self::root_schema_for())
/// function which will generally produce a more precise schema, particularly when the value contains any enums.
pub fn root_schema_for_value<T: ?Sized + Serialize>(
&mut self,
value: &T,
) -> Result<RootSchema, serde_json::Error> {
let mut schema = value
.serialize(crate::ser::Serializer {
gen: self,
include_title: true,
})?
.into_object();
if let Ok(example) = serde_json::to_value(value) {
schema.metadata().examples.push(example);
}
let mut root = RootSchema {
meta_schema: self.settings.meta_schema.clone(),
definitions: self.definitions.clone(),
schema,
};
for visitor in &mut self.settings.visitors {
visitor.visit_root_schema(&mut root)
}
Ok(root)
}
/// Consumes `self` and generates a root JSON Schema for the given example value.
///
/// If the value implements [`JsonSchema`](crate::JsonSchema), then prefer using the [`into_root_schema_for()!`](Self::into_root_schema_for())
/// function which will generally produce a more precise schema, particularly when the value contains any enums.
pub fn into_root_schema_for_value<T: ?Sized + Serialize>(
mut self,
value: &T,
) -> Result<RootSchema, serde_json::Error> {
let mut schema = value
.serialize(crate::ser::Serializer {
gen: &mut self,
include_title: true,
})?
.into_object();
if let Ok(example) = serde_json::to_value(value) {
schema.metadata().examples.push(example);
}
let mut root = RootSchema {
meta_schema: self.settings.meta_schema,
definitions: self.definitions,
schema,
};
for visitor in &mut self.settings.visitors {
visitor.visit_root_schema(&mut root)
}
Ok(root)
}
/// Attemps to find the schema that the given `schema` is referencing.
///
/// If the given `schema` has a [`$ref`](../schema/struct.SchemaObject.html#structfield.reference) property which refers
/// to another schema in `self`'s schema definitions, the referenced schema will be returned. Otherwise, returns `None`.
///
/// # Example
/// ```
/// use schemars::{JsonSchema, gen::SchemaGenerator};
///
/// #[derive(JsonSchema)]
/// struct MyStruct {
/// foo: i32,
/// }
///
/// let mut gen = SchemaGenerator::default();
/// let ref_schema = gen.subschema_for::<MyStruct>();
///
/// assert!(ref_schema.is_ref());
///
/// let dereferenced = gen.dereference(&ref_schema);
///
/// assert!(dereferenced.is_some());
/// assert!(!dereferenced.unwrap().is_ref());
/// assert_eq!(dereferenced, gen.definitions().get("MyStruct"));
/// ```
pub fn dereference<'a>(&'a self, schema: &Schema) -> Option<&'a Schema> {
match schema {
Schema::Object(SchemaObject {
reference: Some(ref schema_ref),
..
}) => {
let definitions_path = &self.settings().definitions_path;
if schema_ref.starts_with(definitions_path) {
let name = &schema_ref[definitions_path.len()..];
self.definitions.get(name)
} else {
None
}
}
_ => None,
}
}
fn json_schema_internal<T: ?Sized + JsonSchema>(&mut self, name: &str) -> Schema {
struct PendingSchemaState<'a> {
gen: &'a mut SchemaGenerator,
name: &'a str,
did_add: bool,
}
impl<'a> PendingSchemaState<'a> {
fn new(gen: &'a mut SchemaGenerator, name: &'a str) -> Self {
let did_add = gen.pending_schema_names.insert(name.to_owned());
Self { gen, name, did_add }
}
}
impl Drop for PendingSchemaState<'_> {
fn drop(&mut self) {
if self.did_add {
self.gen.pending_schema_names.remove(self.name);
}
}
}
let pss = PendingSchemaState::new(self, name);
T::json_schema(pss.gen)
}
}
/// A [Visitor](Visitor) which implements additional traits required to be included in a [SchemaSettings].
///
/// You will rarely need to use this trait directly as it is automatically implemented for any type which implements all of:
/// - [`Visitor`]
/// - [`std::fmt::Debug`]
/// - [`std::any::Any`] (implemented for all `'static` types)
/// - [`std::clone::Clone`]
///
/// # Example
/// ```
/// use schemars::visit::Visitor;
/// use schemars::gen::GenVisitor;
///
/// #[derive(Debug, Clone)]
/// struct MyVisitor;
///
/// impl Visitor for MyVisitor { }
///
/// let v: &dyn GenVisitor = &MyVisitor;
/// assert!(v.as_any().is::<MyVisitor>());
/// ```
pub trait GenVisitor: Visitor + Debug + DynClone + Any {
/// Upcasts this visitor into an `Any`, which can be used to inspect and manipulate it as its concrete type.
fn as_any(&self) -> &dyn Any;
}
dyn_clone::clone_trait_object!(GenVisitor);
impl<T> GenVisitor for T
where
T: Visitor + Debug + Clone + Any,
{
fn as_any(&self) -> &dyn Any {
self
}
}