NestJS Graphql automation library for building performant API
The library allows to build efficient graphql API helping overcome n+1 problem and building hasura-like search interface with the minimum dependencies.
With the library you will be able to build queries like that easily, using decorators and having full controll over everything.
{
users(
where: {
id: { in: [1,2,3,4] }
task_title: { like: "%Task%" }
}
order_by: {email: ASC, created_at: DESC}
paginate: {page: 1, per_page: 10}
) {
id
fname
lname
email
tasks(order_by: {id: ASC_NULLS_LAST}) {
id
title
}
}
}
- Description
- Introduction
- Overview
- Installation
- Data Loader n+1 problem solver
- Polymorphic relations
- Filters
- Sorting
- Exclusions
- Pagination
- Field extraction
- Base models and inheritance
- Federation
- Additional options
- More examples
- FAQ
- Contribution
- License
npm i nestjs-graphql-tools
or
yarn add nestjs-graphql-tools
- Decorate your resolver with
@GraphqlLoader()
- Add
@Loader()
parameter as a first parameter - @Loader will return you LoaderData interface which includes ids of entities and helpers for constructing sutable object for graphql
@Resolver(() => UserObjectType)
export class UserResolver {
@ResolveField(() => TaskObjectType)
@GraphqlLoader()
async tasks(
@Loader() loader: LoaderData<TaskObjectType, number>,
@Args('story_points') story_points: number, // custom search arg
) {
const tasks = await getRepository(Task).find({
where: {
assignee_id: In<number>(loader.ids) // assignee_id is foreign key from Task to User table
story_points
}
});
return loader.helpers.mapOneToManyRelation(tasks, loader.ids, 'assignee_id'); // this helper will construct an object like { <assignee_id>: Task }. Graphql expects this shape.
}
}
@Resolver(() => TaskObjectType)
export class TaskResolver {
constructor(
@InjectRepository(User) public readonly userRepository: Repository<User>
) {}
@ResolveField(() => UserObjectType)
@GraphqlLoader({
foreignKey: 'assignee_id' // Here we're providing foreigh key. Decorator gather all the keys from parent and provide it in loader.ids
})
async assignee(
@Loader() loader: LoaderData<TaskObjectType, number>,
@Filter(() => UserObjectType) filter: Brackets,
) {
const qb = this.userRepository.createQueryBuilder('u')
.where(filter)
.andWhere({
id: In(loader.ids) // Here will be assigne_ids
})
const users = await qb.getMany();
return loader.helpers.mapManyToOneRelation(users, loader.ids); // This helper provide the shape {assignee_id: User}
}
}
@GraphqlLoader
decorator provides ability to preload polymorphic relations
To be able to use it you need to decorate your resolver with @GraphqlLoader
decorator. Decorator has parameter which allows to specify fields which needs to be gathered for polymorphic relation.
@GraphqlLoader({
polymorphic: {
idField: 'description_id', // Name of polymorphic id attribute of the parent model
typeField: 'description_type' // Name of polymorphic type attribute of the parent model
}
})
This decorator will aggregate all types and provide ids for each type. All aggregated types will be aveilable in @Loader
decorator. It has attribute which called `polymorphicTypes.
PolmorphicTypes attribute shape
[
{
type: string | number
ids: string[] | number[]
}
]
// Parent class
// task.resolver.ts
@Resolver(() => TaskObjectType)
export class TaskResolver {
constructor(
@InjectRepository(Task) public readonly taskRepository: Repository<Task>,
@InjectRepository(Description) public readonly descriptionRepository: Repository<Description>
) {}
@ResolveField(() => [DescriptionObjectType])
@GraphqlLoader()
async descriptions(
@Loader() loader: LoaderData<TaskObjectType, number>,
@SelectedUnionTypes({
nestedPolymorphicResolverName: 'descriptionable',
}) selectedUnions: SelectedUnionTypesResult // <-- This decorator will gather and provide selected union types. NestedPolymorphicResolverName argument allows to specify where specifically it should gather the fields
) {
// Mapping graphql types to the database types
const selectedTypes = Array.from(selectedUnions.types.keys()).map(type => {
switch (type) {
case DescriptionTextObjectType.name:
return DescriptionType.Text;
case DescriptionChecklistObjectType.name:
return DescriptionType.Checklist;
}
});
const qb = this.descriptionRepository.createQueryBuilder('d')
.andWhere({
task_id: In(loader.ids),
description_type: In(selectedTypes) // finding only selected types
})
const descriptions = await qb.getMany();
return loader.helpers.mapOneToManyRelation(descriptions, loader.ids, 'task_id');
}
}
// Polymorphic resolver
// description.resolver.ts
@Resolver(() => DescriptionObjectType)
export class DescriptionResolver {
constructor(
@InjectRepository(DescriptionText) public readonly descriptionTextRepository: Repository<DescriptionText>,
@InjectRepository(DescriptionChecklist) public readonly descriptionChecklistRepository: Repository<DescriptionChecklist>,
) {}
@ResolveField(() => [DescriptionableUnion], { nullable: true })
@GraphqlLoader({ // <-- We will load description_id field of parent model to the ids and description_type field to the type
polymorphic: {
idField: 'description_id',
typeField: 'description_type'
}
})
async descriptionable(
@Loader() loader: PolymorphicLoaderData<[DescriptionText | DescriptionChecklist], number, DescriptionType>, // <-- It will return aggregated polymorphicTypes
@SelectedUnionTypes() types: SelectedUnionTypesResult // <-- It will extract from the query and return selected union types
) {
const results = []; // <-- We need to gather all entities to the single array
for (const item of loader.polimorphicTypes) {
switch(item.descriminator) {
case DescriptionType.Text:
const textDescriptions = await this.descriptionTextRepository.createQueryBuilder()
.select(types.getFields(DescriptionTextObjectType))
.where({
id: In(item.ids)
})
.getRawMany();
results.push({ descriminator: DescriptionType.Text, entities: textDescriptions })
break;
case DescriptionType.Checklist:
const checklistDescriptions = await this.descriptionChecklistRepository.createQueryBuilder()
.select(types.getFields(DescriptionChecklistObjectType))
.where({
id: In(item.ids)
})
.getRawMany();
results.push({ descriminator: DescriptionType.Checklist, entities: checklistDescriptions })
break;
default: break;
}
}
return loader.helpers.mapOneToManyPolymorphicRelation(results, loader.ids); // <-- This helper will change shape of responce to the shape which is sutable for graphql
}
}
You can find complete example in src/descriptions folder
Filter is giving ability to filter out entities by the condition. Condition looks similar to hasura interface using operators eq, neq, gt, gte, lt, lte, in, like, notlike, between, notbetween, null
.
By default it generates filter based on provided model. It supports only first level of the tables hierachy. If you need to search in depth you can declare custom filters (example 3).
{
users(where: {id: {eq: 1}}) {
id
}
}
{
users(
where: {
and: [
{
email: {like: "yahoo.com"}
}
{
email: {like: "google.com"}
}
],
or: {
id: {
between: [1,2,3]
}
}
}
) {
id
}
}
- Add
@Filter()
parameter with type ofFilterArgs
-
@Filter()
will return typeorm compatible condition which you can use in your query builder.
@Resolver(() => UserObjectType)
export class UserResolver {
constructor(
@InjectRepository(Task) public readonly taskRepository: Repository<Task>,
@InjectRepository(User) public readonly userRepository: Repository<User>
) {}
@Query(() => [UserObjectType])
users(
@Filter(() => UserObjectType) filter: FilterArgs, // It will return typeorm condition
@Args('task_title', {nullable: true}) taskTitle: string, // You can add custom additional filter if needed
) {
const qb = this.userRepository.createQueryBuilder('u')
.leftJoin('task', 't', 't.assignee_id = u.id')
.where(filter)
.distinct();
if (taskTitle) { // mixed filters
qb.andWhere(`t.title ilike :title`, { title: `%${taskTitle}%` })
}
return qb.getMany()
}
}
@Resolver(() => UserObjectType)
export class UserResolver {
constructor(@InjectRepository(Task) public readonly taskRepository: Repository<Task>) {}
@ResolveField(() => TaskObjectType)
@GraphqlLoader()
async tasks(
@Loader() loader: LoaderData<TaskObjectType, number>,
@Filter(() => TaskObjectType) filter: FilterArgs,
) {
const qb = this.taskRepository.createQueryBuilder()
.where(filter)
.andWhere({
assignee_id: In<number>(loader.ids)
});
const tasks = await qb.getMany();
return loader.helpers.mapOneToManyRelation(tasks, loader.ids, 'assignee_id');
}
}
@InputType()
export class UserFilterInputType {
@FilterField(() => String, { sqlExp: 't.title'})
task_title: string;
@FilterField(() => String, { sqlExp: 't.story_points'})
task_story_points: number;
@FilterField(() => String, { sqlExp: 'concat(u.fname, \' \', u.lname)'})
full_name: string;
}
// Resolver
@Resolver(() => UserObjectType)
export class UserResolver {
constructor(
@InjectRepository(Task) public readonly taskRepository: Repository<Task>,
@InjectRepository(StoryModel) public readonly storyRepository: Repository<StoryModel>,
@InjectRepository(User) public readonly userRepository: Repository<User>
) {}
@Query(() => [UserObjectType])
users(
@Filter(() => [UserObjectType, UserFilterInputType]) filter: FilterArgs, // <-- Object model and Filter model. It is possible to provide only one model or more that 2.
@Sorting(() => UserObjectType, { sqlAlias: 'u' }) sorting: SortArgs<UserObjectType>
) {
const qb = this.userRepository.createQueryBuilder('u')
.leftJoin('task', 't', 't.assignee_id = u.id')
.where(filter)
.orderBy(sorting);
return qb.getMany()
}
}
You can also exclude some fields from the DTO filter. Read Exclusions.
Raw filters allow to get access to the user provided raw value right from the code. This feature allows to build your own filters interpreters.
How to use raw filters:
- Add
@Filter({ raw: true })
parameter with type ofRawFilterArgs<T>
whereT
is your filter type -
@Filter()
will return raw filter data.
export class UserResolver {
@Query(() => [UserObjectType])
async usersRaw(
@Filter(() => [UserObjectType, UserFilterInputType], {sqlAlias: 'u', raw: true}) filter: RawFilterArgs<UserObjectType & UserFilterInputType>,
@Paginator() paginator: PaginatorArgs
) {
// Your customer filter logic..
return [];
}
}
The library provides ability to make sorting. It supports all types of sorting.
[ASC/DESC] [NULLS FIRST/LAST]
{
users(
order_by: {
id: ASC_NULLS_LAST
}
) {
id
}
}
@Resolver(() => TaskObjectType)
export class TaskResolver {
constructor(@InjectRepository(Task) public readonly taskRepository: Repository<Task>) {}
@Query(() => [TaskObjectType])
async tasks(
/* SqlAlias is an ptional argument. Allows to provide alias in case if you have many tables joined. In current case it doesn't required */
@Sorting(() => TaskObjectType, { sqlAlias: 't' }) sorting: SortArgs<TaskObjectType>
) {
const qb = this.taskRepository.createQueryBuilder('t')
.orderBy(sorting);
return qb.getMany();
}
}
// sorting.dto.ts
@InputType()
export class UserSortingInputType {
@SortingField({sqlExp: 't.story_points'})
task_story_points: number;
}
// user.resolver.ts
@Resolver(() => UserObjectType)
export class UserResolver {
constructor(
@InjectRepository(Task) public readonly taskRepository: Repository<Task>,
@InjectRepository(StoryModel) public readonly storyRepository: Repository<StoryModel>,
@InjectRepository(User) public readonly userRepository: Repository<User>
) {}
@Query(() => [UserObjectType])
users(
/* SqlAlias is an optional argument. You can provide alias in case if you have many tables joined.
Object model and Sorting model. Ability to provide 1+ model. It accepts both Object and Sorting models. Next model in array extends previous model overriding fields with the same names.
*/
@Sorting(() => [UserObjectType, UserSortingInputType], { sqlAlias: 'u' }) sorting: SortArgs<UserObjectType>
) {
const qb = this.userRepository.createQueryBuilder('u')
.leftJoin('task', 't', 't.assignee_id = u.id')
.orderBy(sorting)
.distinct();
return qb.getMany()
}
}
You can also exclude some fields from the sorting DTO. Read Exclusions.
Raw sorting allows to get access to the user provided raw value right from the code. This feature allows to build your own sorting interpreters.
How to use raw sorting:
- Add
@Sorting({ raw: true })
parameter with type ofRawSortingArgs<T>
whereT
is your sorting type -
@Sorting()
will return raw sorting data.
export class UserResolver {
@Query(() => [UserObjectType])
async usersRaw(
@Sorting(() => [UserObjectType], { sqlAlias: 'u', raw: true}) sorting: RawSortingArgs<UserObjectType>,
@Paginator() paginator: PaginatorArgs
) {
// Your customer filter logic..
return [];
}
}
Sometimes you don't want to provide filters/sorting by all the fields in the dto. There's a couple decorators that can help with it @FilterField({exclude: true})
and @SortingField({exclude: true})
@ObjectType()
export class User {
@Field(() => String)
fname: string;
@Field(() => String)
@FilterField({exclude: true})
@SortingField({exclude: true})
mname: string;
@Field(() => String)
lname: string;
}
export class UserResolver {
@Query(() => [UserObjectType])
users(
@Filter(() => [UserObjectType], {sqlAlias: 'u'}) filter: FilterArgs,
@Sorting(() => [UserObjectType], { sqlAlias: 'u' }) sorting: SortArgs<UserObjectType>
) {
const qb = this.userRepository.createQueryBuilder('u')
.where(filter)
.orderBy(sorting);
return qb.getMany()
}
}
Now, if you try to build a query with the sorting an filtering by mname you'll get an error, because there's not such field in the graphql schema definition for sorting and filtering.
The library provides parameter decorator @Paginator()
for the pagination. This decorator returns object like that
{
page: number,
per_page: number
}
@Resolver(() => TaskObjectType)
export class TaskResolver {
constructor(@InjectRepository(Task) public readonly taskRepository: Repository<Task>) {}
@Query(() => [TaskObjectType])
async tasks(
@Paginator() paginator: PaginatorArgs,
) {
const qb = this.taskRepository.createQueryBuilder('t');
if (paginator) {
qb.offset(paginator.page * paginator.per_page).limit(paginator.per_page)
}
return qb.getMany();
}
}
The library allows to gather only requested field from the query and provides it as an array to the parameter variable.
Simple graphql query
{
tasks {
id
title
}
}
Resolver
@Resolver(() => TaskObjectType)
export class TaskResolver {
constructor(@InjectRepository(Task) public readonly taskRepository: Repository<Task>) {}
@Query(() => [TaskObjectType])
async tasks(
@Filter(() => TaskObjectType) filter: FilterArgs,
@SelectedFields({sqlAlias: 't'}) selectedFields: SelectedFieldsResult // Requested fields will be here. sqlAlias is optional thing. It useful in case if you're using alias in query builder
) {
const res = await this.taskRepository.createQueryBuilder('t')
.select(selectedFields.fieldsData.fieldsString) // fieldsString return array of strings
.where(filter)
.getMany();
return res;
}
}
The query will generate typeorm request with only requested fields
SELECT "t"."id" AS "t_id", "t"."title" AS "t_title" FROM "task" "t"
In order to make base model with common attributes it is required to decorate base model with the @InheritedModel()
decorator. You can find usage of it in base.dto.ts file inside src folder.
@ObjectType()
@InheritedModel() // <-- Make inheritance possible. If you not decorate object with this decorator, you will not see these properties in "where" and sorting statements
export class BaseDTO {
@Field(() => Int)
id: number;
// Timestamps
@Field(() => Date)
created_at: Date;
@Field(() => Date)
updated_at: Date;
}
Basic support of federation already in place. Just add to your method with @ResolveReference()
one more decorator @GraphqlLoader()
This examples is the reference to official example https://github.com/nestjs/nest/tree/master/sample/31-graphql-federation-code-first. Clone https://github.com/nestjs/nest/tree/master/sample/31-graphql-federation-code-first (download specific directory with https://download-directory.github.io/ or with chrome extention https://chrome.google.com/webstore/detail/gitzip-for-github/ffabmkklhbepgcgfonabamgnfafbdlkn)
- Annotate method resolveReference of
users-application/src/users/users.resolver.ts
// users-application/src/users/users.resolver.ts
@ResolveReference()
@GraphqlLoader()
async resolveReference(
@Loader() loader: LoaderData<User, number>,
) {
const ids = loader.ids;
const users = this.usersService.findByIds(ids);
return loader.helpers.mapManyToOneRelation(users, loader.ids, 'id')
}
- Add method findByIds to
users-application/src/users/users.service.ts
// users-application/src/users/users.service.ts
@Injectable()
export class UsersService {
private users: User[] = [
{ id: 1, name: 'John Doe' },
{ id: 2, name: 'Richard Roe' },
];
findByIds(idsList: number[]): User[] {
return this.users.filter((user) => idsList.some(id => Number(id) === user.id));
}
}
-
Install dependencies of 3 projects : npm ci in gateway, posts-application, users-application.
-
Run all projects in order :
cd users-application && npm run start
cd posts-application && npm run start
cd gateway && npm run start
-
Go to localhost:3001/graphql and send graphql request to gateway
{
posts {
id
title
authorId
user {
id
name
}
}
}
Options are ENV variables that you can provide to configurate the lib
-
FILTER_OPERATION_PREFIX
- Operation prefix. You can make hasura-like prefix for where operators like _eq, _neq, etc. ExampleFILTER_OPERATION_PREFIX=\_
You can find more examples in the src folder
- Q: Let's say you have many joins and some tables has duplicated fields like name or title. A: In order not to break filters you need to provide sqlAlias that matches alias of the main model of the query. There plenty examples in the code in in readme.
- Q:The same example where you have a model with many joins and you want to provide ability to sort or filter by joined field. A: you can create custom filter with ability to provide sql alias that they will use. Check out filtering section, there a couple examples with custom fields.
-
Q: The error:
QueryFailedError: for SELECT DISTINCT, ORDER BY expressions must appear in select list
. A To avoid this error add sorted field to selected fields. In most of the time it might happen in case you're using custom fields for sorting. - Q: How can I make resolver for Many to Many relation. A Many to Many relation is the same as One to Many. Basically, it requres one additional resolver that resolves the intermediary table between two main entitites. Let's say we have Roles and Users with M to M relation. The implementation from the database perspective would be Users <> UsersRoles <> Roles. UserRole is the intermediary table. You would need to implement a resolver for UsersRoles. In this resolver you need to resolve users and roles fields like it described here.
If you want to contribute please create new PR with good description.
How to run the project:
- Create a database
createdb -h localhost -U postgres nestjs_graphql_tools_development_public;
- Fill out database config in
config/default.json
- Run dev server
yarn install
yarn start:dev
On the first run, server will seed up the database with testing dataset.
- Reach out
http://localhost:3000/graphql
NestJS Graphql tools is GNU GPLv3 licensed.