@glcap-forks/typegraphql-nestjs
v0.5.0
Published
Basic integration of TypeGraphQL in NestJS. Allows to use TypeGraphQL features while integrating with NestJS modules system and dependency injector.
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#FORK OF TypeGraphQL NestJS
TypeGraphQL NestJS Module
Basic integration of TypeGraphQL in NestJS.
Allows to use TypeGraphQL features while integrating with NestJS modules system and dependency injector.
Installation
First, you need to instal the typegraphql-nestjs
module along with @nestjs/graphql
:
npm i typegraphql-nestjs @nestjs/graphql
If you haven't installed it yet, it's time to add type-graphql
into the project:
npm i type-graphql
How to use?
The typegraphql-nestjs
package exports TypeGraphQLModule
dynamic module, which is based on the official NestJS GraphQLModule
. It exposes three static methods:
.forRoot()
The first one is TypeGraphQLModule.forRoot()
which you should call on your root module, just like with the official GraphQLModule
.
The only difference is that as its argument you can provide typical TypeGraphQL buildSchema
options like emitSchemaFile
or authChecker
apart from the standard GqlModuleOptions
from @nestjs/graphql
like installSubscriptionHandlers
or context
:
import { ApolloDriver, ApolloDriverConfig } from "@nestjs/apollo";
import { Module } from "@nestjs/common";
import { TypeGraphQLModule } from "typegraphql-nestjs";
import RecipeModule from "./recipe/module";
import { authChecker } from "./auth";
@Module({
imports: [
TypeGraphQLModule.forRoot({
driver: ApolloDriver,
emitSchemaFile: true,
validate: false,
authChecker,
dateScalarMode: "timestamp",
context: ({ req }) => ({ currentUser: req.user }),
}),
RecipeModule,
],
})
export default class AppModule {}
Then, inside the imported modules (like RecipeModule
) you just need to register the resolvers classes in the module providers
array:
import { Module } from "@nestjs/common";
import RecipeResolver from "./resolver";
import RecipeService from "./service";
@Module({
providers: [RecipeResolver, RecipeService],
})
export default class RecipeModule {}
And that's it! 😁
Notice that the resolvers classes are automatically inferred from your submodules providers
array, so you don't need to specify resolvers
property from TypeGraphQL buildSchema
options inside TypeGraphQLModule.forRoot()
.
.forFeature()
In case of need to provide orphanedTypes
setting, you should use TypeGraphQLModule.forFeature()
. The recommended place for that is in the module where the orphaned type (like SuperRecipe
) belongs:
import { Module } from "@nestjs/common";
import { TypeGraphQLModule } from "typegraphql-nestjs";
import RecipeResolver from "./resolver";
import RecipeService from "./service";
import { SuperRecipe } from "./types";
@Module({
imports: [
TypeGraphQLModule.forFeature({
orphanedTypes: [SuperRecipe],
}),
],
providers: [RecipeResolver, RecipeService],
})
export default class RecipeModule {}
Using .forFeature()
ensures proper schemas isolation and automatically supply orphanedTypes
option for underlying buildSchema
from TypeGraphQL - again, there's no need to provide it manually in .forRoot()
options.
.forRootAsync()
If you need to access some services to construct the TypeGraphQLModule
options, you might be interested in the TypeGraphQLModule.forRootAsync()
method. It allows you to define your own useFactory
implementation where you have injected services from imports
option.
Example of using the config service to generate TypeGraphQLModule
options:
@Module({
imports: [
ConfigModule,
RecipeModule,
TypeGraphQLModule.forRootAsync({
inject: [ConfigService],
useFactory: async (config: ConfigService) => ({
cors: true,
debug: config.isDevelopmentMode,
playground: !config.isDevelopmentMode,
validate: false,
dateScalarMode: "timestamp",
emitSchemaFile:
config.isDevelopmentMode && path.resolve(__dirname, "schema.gql"),
}),
}),
],
})
export default class AppModule {}
Caveats
Graphql Federation not supported. This for is being made for use in my current projects, which don't use schema federation, since I have no idea nor the need to use schema federation it is not being worked on.
While this integration provides a way to use TypeGraphQL with NestJS modules and dependency injector, for now it doesn't support other NestJS features like guards, interceptors, filters and pipes.
To achieve the same goals, you can use standard TypeGraphQL equivalents - middlewares, custom decorators, built-in authorization and validation.
Moreover, with typegraphql-nestjs
you can also take advantage of additional features (comparing to @nestjs/graphql
) like inline field resolvers, Prisma 2 integration or up-to-date capabilities like deprecating input fields and args (thanks to always synced with latests graphql-js
).
Examples
You can see some examples of the integration in this repo:
Basics of the integration, like
TypeGraphQLModule.forRoot
usageAdvanced usage of multiple schemas inside single NestJS app - demonstration of schema isolation in modules and
TypeGraphQLModule.forFeature
usageUsage of request scoped dependencies - retrieving fresh instances of resolver and service classes on every request (query/mutation)
Showcase of Apollo Federation approach, using the
TypeGraphQLFederationModule
andGraphQLGatewayModule
.Usage of class-based middlewares - modules, providers and schema options
You can run them by using ts-node
, like npx ts-node ./examples/1-basics/index.ts
.
All examples folders contain a query.gql
file with some examples operations you can perform on the GraphQL servers.