#[derive(Union)]
{
// Attributes available to this derive:
#[graphql]
}
Expand description
Define a GraphQL union
§Macro attributes
Attribute | description | Type | Optional |
---|---|---|---|
name | Object name | string | Y |
name_type | If true , the object name will be specified from async_graphql::TypeName trait | bool | Y |
visible | If false , it will not be displayed in introspection. See also the Book. | bool | Y |
visible | Call the specified function. If the return value is false , it will not be displayed in introspection. | string | Y |
inaccessible | Indicate that an union is not accessible from a supergraph when using Apollo Federation | bool | Y |
tag | Arbitrary string metadata that will be propagated to the supergraph when using Apollo Federation. This attribute is repeatable | string | Y |
§Item attributes
Attribute | description | Type | Optional |
---|---|---|---|
flatten | Similar to serde (flatten) | boolean | Y |
§Define a union
Define TypeA, TypeB, … as MyUnion
use async_graphql::*;
#[derive(SimpleObject)]
struct TypeA {
value_a: i32,
}
#[derive(SimpleObject)]
struct TypeB {
value_b: i32
}
#[derive(Union)]
enum MyUnion {
TypeA(TypeA),
TypeB(TypeB),
}
struct Query;
#[Object]
impl Query {
async fn all_data(&self) -> Vec<MyUnion> {
vec![TypeA { value_a: 10 }.into(), TypeB { value_b: 20 }.into()]
}
}
let schema = Schema::build(Query, EmptyMutation, EmptySubscription).data("hello".to_string()).finish();
let res = schema.execute(r#"
{
allData {
... on TypeA {
valueA
}
... on TypeB {
valueB
}
}
}"#).await.into_result().unwrap().data;
assert_eq!(res, value!({
"allData": [
{ "valueA": 10 },
{ "valueB": 20 },
]
}));