- A (comparatively) low-level AST for GraphQL grammar,
and high-level representation of
Schema
andExecutableDocument
. - All three can be parsed (using
apollo-parser
internally), created or modified programatically, and serialized. - Validation of schemas and executable documents, as defined in the GraphQL specification.
Add the dependency to start using apollo-compiler
:
cargo add apollo-compiler
Or add this to your Cargo.toml
for a manual installation:
# Just an example, change to the necessary package version.
# Using an exact dependency is recommended for beta versions
[dependencies]
apollo-compiler = "=1.0.0-beta.24"
apollo-compiler
is tested on the latest stable version of Rust.
Older version may or may not be compatible.
You can get started with apollo-compiler
:
use apollo_compiler::Schema;
let input = r#"
interface Pet {
name: String
}
type Dog implements Pet {
name: String
nickname: String
barkVolume: Int
}
type Cat implements Pet {
name: String
nickname: String
meowVolume: Int
}
union CatOrDog = Cat | Dog
type Human {
name: String
pets: [Pet]
}
type Query {
human: Human
}
"#;
/// In case of validation errors, the panic message will be nicely formatted
/// to point at relevant parts of the source file(s)
let schema = Schema::parse_and_validate(input, "document.graphql").unwrap();
use apollo_compiler::{Schema, ExecutableDocument, Node, executable};
let schema_input = r#"
type User {
id: ID
name: String
profilePic(size: Int): URL
}
schema { query: User }
scalar URL @specifiedBy(url: "https://tools.ietf.org/html/rfc3986")
"#;
let query_input = r#"
query getUser {
... vipCustomer
}
#fragment definition where we want to know the field types.
fragment vipCustomer on User {
id
name
profilePic(size: 50)
}
"#;
let schema = Schema::parse_and_validate(schema_input, "schema.graphql").unwrap();
let document = ExecutableDocument::parse_and_validate(&schema, query_input, "query.graphql")
.unwrap();
let op = document.operations.get(Some("getUser")).expect("getUser query does not exist");
let fragment_in_op = op.selection_set.selections.iter().filter_map(|sel| match sel {
executable::Selection::FragmentSpread(spread) => {
Some(document.fragments.get(&spread.fragment_name)?.as_ref())
}
_ => None
}).collect::<Vec<&executable::Fragment>>();
let fragment_fields = fragment_in_op.iter().flat_map(|frag| {
frag.selection_set.fields()
}).collect::<Vec<&Node<executable::Field>>>();
let field_ty = fragment_fields
.iter()
.map(|f| f.ty().inner_named_type().as_str())
.collect::<Vec<&str>>();
assert_eq!(field_ty, ["ID", "String", "URL"]);
use apollo_compiler::{Schema, ExecutableDocument, Node, executable};
let schema_input = r#"
type Query {
topProducts: Product
name: String
size: Int
}
type Product {
inStock: Boolean @join__field(graph: INVENTORY)
name: String @join__field(graph: PRODUCTS)
price: Int
shippingEstimate: Int
upc: String!
weight: Int
}
enum join__Graph {
INVENTORY,
PRODUCTS,
}
scalar join__FieldSet
directive @join__field(graph: join__Graph, requires: join__FieldSet, provides: join__FieldSet) on FIELD_DEFINITION
"#;
let query_input = r#"
query getProduct {
size
topProducts {
name
inStock
}
}
"#;
let schema = Schema::parse_and_validate(schema_input, "schema.graphql").unwrap();
let document = ExecutableDocument::parse_and_validate(&schema, query_input, "query.graphql")
.unwrap();
let get_product_op = document
.operations
.get(Some("getProduct"))
.expect("getProduct query does not exist");
let in_stock_field = &get_product_op
.selection_set
.fields()
.find(|f| f.name == "topProducts")
.expect("topProducts field does not exist")
.selection_set
.fields()
.find(|f| f.name == "inStock")
.expect("inStock field does not exist")
.definition;
let in_stock_directive: Vec<_> = in_stock_field
.directives
.iter()
.map(|dir| &dir.name)
.collect();
assert_eq!(in_stock_directive, ["join__field"]);
let input = r#"
query {
cat {
name
}
}
query getPet {
cat {
owner {
name
}
}
}
query getPet {
cat {
treat
}
}
subscription sub {
newMessage {
body
sender
}
disallowedSecondRootField
}
type Query {
cat: Pet
}
type Subscription {
newMessage: Result
}
interface Pet {
name: String
}
type Dog implements Pet {
name: String
nickname: String
barkVolume: Int
}
type Cat implements Pet {
name: String
nickname: String
meowVolume: Int
}
union CatOrDog = Cat | Dog
"#;
if let Err(diagnostics) = apollo_compiler::parse_mixed_validate(input, "document.graphql") {
println!("{diagnostics}")
}
Licensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or https://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or https://opensource.org/licenses/MIT)
at your option.