Intro to GraphQL with Node.js & TypeScript
Dhruva Srinivas
Posted on January 28, 2022
Sup nerds, long time no see!
In this post, I’ll help you get a solid understanding of working with GraphQL in Node.js and TypeScript using a library called TypeGraphQL. TypeGraphQL is an awesome way to create your GraphQL resolvers and it has seamless integration capabilities with ORMs like TypeORM
(we’ll be using it in this post!) and mikro-orm. It uses classes and decorators to beautifully generate our schemas using very less code.
Also stick around till the end to find some challenges to reinforce your skills!
What we’re gonna do
- First, we’ll setup a basic TypeScript project
- Then, we’ll configure TypeORM, to interact with our database
- We’ll create a
Task
database entity and hook it up with TypeORM
- We’ll create a
- After that, we’ll set up a basic Apollo/Express web server
- And finally, we’ll create our own GraphQL resolver using TypeGraphQL with CRUD (create, read, update, delete) functionality
Alright, let’s get started!
Setting up a TypeScript project
First let’s create an empty directory called graphql-crud
.
$ mkdir graphql-crud
And you can open this directory with the editor of your choice (I’ll be using Visual Studio Code).
Now let’s initialize this as an NPM project using
npm init -y
This creates a basic package.json
.
{
"name": "graphql-crud",
"version": "1.0.0",
"description": "",
"main": "index.js",
"scripts": {
"test": "echo \"Error: no test specified\" && exit 1"
},
"keywords": [],
"author": "",
"license": "ISC"
}
Alright cool!
So now since we have an NPM project set up, we can install TypeScript and the type definitions for Node:
yarn add typescript
and
yarn add -D @types/node
Note: I’ll be using Yarn throughout this post, feel free to use NPM.
Also we need to make a tsconfig.json
file to configure the TypeScript compiler, so to do that we’ll use a library called tsconfig.json
$ npx tsconfig.json
Select node
from the options
And now, it will create a TSConfig in your root directory.
{
"compilerOptions": {
"target": "es2017",
"module": "commonjs",
"lib": ["dom", "es6", "es2017", "esnext.asynciterable"],
"skipLibCheck": true,
"sourceMap": true,
"outDir": "./dist",
"moduleResolution": "node",
"removeComments": true,
"noImplicitAny": true,
"strictNullChecks": true,
"strictFunctionTypes": true,
"noImplicitThis": true,
"noUnusedLocals": true,
"noUnusedParameters": true,
"noImplicitReturns": true,
"noFallthroughCasesInSwitch": true,
"allowSyntheticDefaultImports": true,
"esModuleInterop": true,
"emitDecoratorMetadata": true,
"experimentalDecorators": true,
"resolveJsonModule": true,
"baseUrl": "."
},
"exclude": ["node_modules"],
"include": ["./src/**/*.ts"]
}
Now, let’s create a simple TypeScript file.
src/index.ts
console.log("hellooooo");
We cannot run this file directly using Node, so we need to compile this into JavaScript. To do this, let’s create a watch
script in our package.json
to watch our TypeScript files for changes and compile them to JavaScript in the dist/
directory.
{
"name": "graphql-crud",
"version": "1.0.0",
"description": "",
"main": "index.js",
"scripts": {
"watch": "tsc -w"
},
"keywords": [],
"author": "",
"license": "ISC"
}
Now if we run npm watch
in our terminal, it will create a dist
folder with our compiled JavaScript code. We’ll create a dev
command to run this compiled code with the following script:
"scripts": {
"watch": "tsc -w",
"dev": "nodemon dist/index.js"
},
By the way, make sure you install nodemon
either globally or in this project for this command to work.
Now to run this code you will run both yarn watch
and yarn dev
together, to compile our TypeScript and run the compiled code automatically.
Alright, now our TypeScript project is ready to go! 🔥🔥
Setting up TypeORM
TypeORM is an amazing ORM, which we can use to interact with various databases. It also has really good TypeScript support and the way we define database entities in TypeORM will be very useful when we setup TypeGraphQL later in this post.
In this tutorial, I will be using PostgreSQL as my database and really you can follow along with any relational database which you have set up.
Let’s install TypeORM and the native Postgres driver for Node:
yarn add typeorm pg
Now we can replace the code in src/index.ts
to this:
import { Connection, createConnection } from "typeorm";
const main = async () => {
const conn: Connection = await createConnection({
type: "postgres", // replace with the DB of your choice
database: "graphql-crud", // replace with the name of your DB
username: "username", // replace with your database user's username
password: "pass", // replace with your database user's password
logging: true, // this shows the SQL that's being run
synchronize: true, // this automatically runs all the database migrations, so you don't have to :)
entities: [], // we'll add our database entities here later.
});
};
main().catch((err) => console.error(err));
This basically just specifies all the options for your database connection. We are using a main
function because top-level awaits are not a thing unless you’re using ES7 or something like that.
Creating our Entity
First things first, I think some people don’t exactly know what an Entity is, so I’ll just explain that part a bit now.
As you should already know, SQL databases (like Postgres, MySQL etc.) are made up of Tables and Columns. Like an Excel spreadsheet. Each table will contain fields related to it. For example:
- A table of Cars, may have columns like Manufacturer, Engine Type, Color etc.
An Entity
basically defines the structure of a database table and its corresponding columns. In this post, we’ll perform our CRUD operations with Tasks or Todos. So lets create an entity for a Task.
First off, create a new file in the src/entities
directory.
To keep it simple, we’re going to have 2 columns for our Task
table:
- The title of the task
- The description of the task
We’ll also have an id
, a created
, and an updated
column.
We won’t really use the created and updated column, but its kind of a best practice 😉
src/entities/Task.ts
import {
BaseEntity,
Column,
CreateDateColumn,
Entity,
PrimaryGeneratedColumn,
UpdateDateColumn,
} from "typeorm";
@Entity()
export class Task extends BaseEntity {
@PrimaryGeneratedColumn()
id!: number;
@CreateDateColumn()
created: Date;
@UpdateDateColumn()
updated: Date;
@Column()
title: string;
@Column()
description: string;
}
Woah, woah, what is that?!
This my friend, is the ✨ magic of decorators ✨
This code is extremely clean and self-documenting:
- We are creating a class called
Task
with theEntity
decorating specifying that this class is an Entity.- We are extending this class from
BaseEntity
so that some useful methods likecreate
,delete
etc. will be exposed to us with this class. You’ll see what I mean later on.
- We are extending this class from
- Then we’re creating a primary column, for our ID. This is ID field is an integer and its automatically generated by TypeORM!
- Next is the created and updated column and this too is automatically generated by TypeORM.
- The
title
anddescription
is a normal column, containing the title and the description of our task.
And don’t forget to add the Task
entity to your entities
array in your TypeORM config:
src/index.ts
import { Connection, createConnection } from "typeorm";
import { Task } from "./entities/Task";
const main = async () => {
const conn: Connection = await createConnection({
type: "postgres", // replace with the DB of your choice
database: "graphql-crud", // replace with the name of your DB
username: "postgres", // replace with your database user's username
password: "postgres", // replace with your database user's password
logging: true, // this shows the SQL that's being run
synchronize: true, // this automatically runs all the database migrations, so you don't have to :)
entities: [Task], // we'll add our database entities here later.
});
};
main().catch((err) => console.error(err));
Phew! Finally, let’s get started with the GraphQL part!
Setting up Express with Apollo Server
We’ll be using Express as our server and we’ll tell Express to use Apollo Server as middleware.
But, what is Apollo Server??
To understand what Apollo Server does, you’ll need to know how GraphQL works at its core. Basically, in an API there will be a REST endpoint for the GraphQL stuff (kinda ironic but yeah) from where you can run Queries and Mutations from your Resolvers. What Apollo Server does, is just create an endpoint for your GraphQL to be served with some extra dev tools, like GraphQL Playground which helps you test your GraphQL queries in a cool environment.
So let’s start!
We’ll install these libraries:
express
-
apollo-server-express
: Express middleware for Apollo Server -
graphql
: The JavaScript implementation of GraphQL -
type-graphql
$ yarn add express apollo-server-express graphql type-graphql
Let’s also install the type definitions for express:
$ yarn add -D @types/express
Cool!
Let’s now create our Express app:
src/index.ts
import { Connection, createConnection } from "typeorm";
import express, { Express } from "express";
import { Task } from "./entities/Task";
const main = async () => {
const conn: Connection = await createConnection({
type: "postgres", // replace with the DB of your choice
database: "graphql-crud", // replace with the name of your DB
username: "postgres", // replace with your database user's username
password: "postgres", // replace with your database user's password
logging: true, // this shows the SQL that's being run
synchronize: true, // this automatically runs all the database migrations, so you don't have to :)
entities: [], // we'll add our database entities here later.
});
const app: Express = express();
const PORT = process.env.PORT || 8000;
app.listen(PORT, () => console.log(`server started on port ${PORT}`));
};
main().catch((err) => console.error(err));
Let’s also create a test route to see that everything’s working properly:
import { Connection, createConnection } from "typeorm";
import express, { Express } from "express";
import { Task } from "./entities/Task";
const main = async () => {
const conn: Connection = await createConnection({
type: "postgres", // replace with the DB of your choice
database: "graphql-crud", // replace with the name of your DB
username: "postgres", // replace with your database user's username
password: "postgres", // replace with your database user's password
logging: true, // this shows the SQL that's being run
synchronize: true, // this automatically runs all the database migrations, so you don't have to :)
entities: [Task], // we'll add our database entities here later.
});
const app: Express = express();
app.get("/", (_req, res) => res.send("you have not screwed up!"));
const PORT = process.env.PORT || 8000;
app.listen(PORT, () => console.log(`server started on port ${PORT}`));
};
main().catch((err) => console.error(err));
Note: I am using an _
in front of req
because I won’t be using that variable and if you don’t use a variable you can prefix it with an underscore.
Now let’s open up our browser and go to [localhost:8000/](http://localhost:8000/)
and you should see something like this:
To add Apollo Server as a middleware for Express, we can add the following code:
import { Connection, createConnection } from "typeorm";
import express, { Express } from "express";
import { ApolloServer } from "apollo-server-express";
import { buildSchema } from "type-graphql";
const main = async () => {
const conn: Connection = await createConnection({
type: "postgres", // replace with the DB of your choice
database: "graphql-crud", // replace with the name of your DB
username: "postgres", // replace with your database user's username
password: "postgres", // replace with your database user's password
logging: true, // this shows the SQL that's being run
synchronize: true, // this automatically runs all the database migrations, so you don't have to :)
entities: [], // we'll add our database entities here later.
});
const apolloServer = new ApolloServer({
schema: await buildSchema({
resolvers: [],
validate: false,
}),
});
await apolloServer.start();
const app: Express = express();
apolloServer.applyMiddleware({ app });
app.get("/", (_req, res) => res.send("you have not screwed up!"));
const PORT = process.env.PORT || 8000;
app.listen(PORT, () => console.log(`server started on port ${PORT}`));
};
main().catch((err) => console.error(err));
Now you’ll get TypeScript yelling at you because the resolvers
array is empty but bear with me for a sec.
Here what we’re basically doing is, creating an instance of ApolloServer
and passing our GraphQL schema as the buildSchema
function from type-graphql
. So what TypeGraphQL does is it converts our GraphQL resolvers (TypeScript classes) which are present in the resolvers
arrays into SDL or GraphQL Schema Definition Language, and passes this SDL as our final GraphQL schema to Apollo Server.
Lets also quickly create a simple GraphQL Resolver:
For those of you who don’t know what a Resolver is:
Resolver is a collection of functions that generate response for a GraphQL query. In simple terms, a resolver acts as a GraphQL query handler.
tutorialspoint.com
src/resolvers/task.ts
import { Query, Resolver } from "type-graphql";
@Resolver()
export class TaskResolver {
@Query()
hello(): string {
return "hello";
}
}
That’s all there is to it!
Of course, now we should add this resolver in our resolvers
array:
src/index.ts
import { Connection, createConnection } from "typeorm";
import express, { Express } from "express";
import { ApolloServer } from "apollo-server-express";
import { buildSchema } from "type-graphql";
import { Task } from "./entities/Task";
import { TaskResolver } from "./resolvers/task";
const main = async () => {
const conn: Connection = await createConnection({
type: "postgres", // replace with the DB of your choice
database: "graphql-crud", // replace with the name of your DB
username: "postgres", // replace with your database user's username
password: "postgres", // replace with your database user's password
logging: true, // this shows the SQL that's being run
synchronize: true, // this automatically runs all the database migrations, so you don't have to :)
entities: [Task], // we'll add our database entities here later.
});
const apolloServer = new ApolloServer({
schema: await buildSchema({
resolvers: [TaskResolver],
validate: false,
}),
});
await apolloServer.start();
const app: Express = express();
apolloServer.applyMiddleware({ app });
app.get("/", (_req, res) => res.send("you have not screwed up!"));
const PORT = process.env.PORT || 8000;
app.listen(PORT, () => console.log(`server started on port ${PORT}`));
};
main().catch((err) => console.error(err));
Cool! Now let’s look at our output in the terminal aaaandd...
UnmetGraphQLPeerDependencyError: Looks like you use an incorrect version of the 'graphql' package: "16.2.0". Please ensure that you have installed a version that meets TypeGraphQL's requirement: "^15.3.0".
at Object.ensureInstalledCorrectGraphQLPackage (/Users/dhruvasrinivas/Documents/graphql-crud/node_modules/type-graphql/dist/utils/graphql-version.js:20:15)
at Function.checkForErrors (/Users/dhruvasrinivas/Documents/graphql-crud/node_modules/type-graphql/dist/schema/schema-generator.js:47:27)
at Function.generateFromMetadataSync (/Users/dhruvasrinivas/Documents/graphql-crud/node_modules/type-graphql/dist/schema/schema-generator.js:26:14)
at Function.generateFromMetadata (/Users/dhruvasrinivas/Documents/graphql-crud/node_modules/type-graphql/dist/schema/schema-generator.js:16:29)
at buildSchema (/Users/dhruvasrinivas/Documents/graphql-crud/node_modules/type-graphql/dist/utils/buildSchema.js:10:61)
at main (/Users/dhruvasrinivas/Documents/graphql-crud/dist/index.js:23:54)
at processTicksAndRejections (node:internal/process/task_queues:96:5)
UH OH! We have an error! But it’s pretty obvious what we have to do to fix it. We just have to use the specified version of the graphql package in our package.json
{
"name": "graphql-crud",
"version": "1.0.0",
"description": "",
"main": "index.js",
"scripts": {
"watch": "tsc -w",
"dev": "nodemon dist/index.js"
},
"keywords": [],
"author": "",
"license": "ISC",
"dependencies": {
"@types/node": "^17.0.10",
"apollo-server-express": "^3.6.2",
"express": "^4.17.2",
"graphql": "^15.3.0",
"pg": "^8.7.1",
"type-graphql": "^1.1.1",
"typeorm": "^0.2.41",
"typescript": "^4.5.5"
},
"devDependencies": {
"@types/express": "^4.17.13"
}
}
Now let’s reinstall all of our dependencies:
$ yarn
Now if we run our code, we shouldn’t get any errors!
Apollo Server serves our GraphQL at the /graphql
endpoint.
So let’s open it up in our browser.
And oof we’re greeted by Apollo Server’s propaganda page 💀
Fun fact: This is actually a new Apollo Server update, earlier it used to directly open up GraphQL Playground, an interactive environment to test our GraphQL queries.
No worries though, we can spin up GraphQL playground using this Apollo Server Plugin:
src/index.ts
import { Connection, createConnection } from "typeorm";
import express, { Express } from "express";
import { ApolloServer } from "apollo-server-express";
import { buildSchema } from "type-graphql";
import { Task } from "./entities/Task";
import { TaskResolver } from "./resolvers/task";
import { ApolloServerPluginLandingPageGraphQLPlayground } from "apollo-server-core";
const main = async () => {
const conn: Connection = await createConnection({
type: "postgres", // replace with the DB of your choice
database: "graphql-crud", // replace with the name of your DB
username: "postgres", // replace with your database user's username
password: "postgres", // replace with your database user's password
logging: true, // this shows the SQL that's being run
synchronize: true, // this automatically runs all the database migrations, so you don't have to :)
entities: [Task], // we'll add our database entities here later.
});
const apolloServer = new ApolloServer({
schema: await buildSchema({
resolvers: [TaskResolver],
validate: false,
}),
plugins: [ApolloServerPluginLandingPageGraphQLPlayground()],
});
await apolloServer.start();
const app: Express = express();
apolloServer.applyMiddleware({ app });
app.get("/", (_req, res) => res.send("you have not screwed up!"));
const PORT = process.env.PORT || 8000;
app.listen(PORT, () => console.log(`server started on port ${PORT}`));
};
main().catch((err) => console.error(err));
Another fun fact: THAT IS THE LONGEST FUNCTION NAME I’VE EVER SEEN WHAT THE-
Oh my god. After you’ve recovered from that atomic blow, if you refresh you can find something like this:
Now let’s run our hello
query:
{
hello
}
And you’ll see our output:
Awesome!!
Building CRUD functionality
Now, let’s get to the main part, which is building out our CRUD functionality. Let’s start with the easiest, which is to fetch all the tasks:
BUT WAIT A MINUTE!
Remember that Task
entity we made? Like a hundred years back? Yep, that one.
That is a database Entity, but when we get all tasks we have to return a Task
and we can’t return an Entity cause that’s dumb. So what we’re gonna have to do is, to make Task
a GraphQL type. Before you start complaining, remember that I told you that TypeGraphQL can integrate with TypeORM well? Let’s see that in action!
src/entities/Task.ts
import { Field, Int, ObjectType } from "type-graphql";
import {
BaseEntity,
Column,
CreateDateColumn,
Entity,
PrimaryGeneratedColumn,
UpdateDateColumn,
} from "typeorm";
@Entity()
@ObjectType()
export class Task extends BaseEntity {
@PrimaryGeneratedColumn()
@Field(() => Int)
id!: number;
@CreateDateColumn()
@Field(() => String)
created: Date;
@UpdateDateColumn()
@Field(() => String)
updated: Date;
@Column()
@Field(() => String, { nullable: false })
title: string;
@Column()
@Field(() => String, { nullable: false })
description: string;
}
Get a load of that ✨ decorator magic ✨
What we’re essentially doing here is:
- Specifying that this
Task
class is also a GraphQL type! - We are then decorating each column with the
Field
decorator, saying that each of these columns are also Fields of theTask
type. - We are also explicitly stating the GraphQL type of each
Field
, which are all coming fromtype-graphql
- We are also specifying that the title and description field has to have a value and can never be declared as null.
The cool thing about defining your entity and GraphQL type like this is that you may have a column in your database like a password which you don’t want to expose in a response and you can just not decorate it with a Field
to do this!
Getting all tasks
Now, let’s fetch all of our Tasks:
src/resolvers/task.ts
import { Query, Resolver } from "type-graphql";
import { Task } from "../entities/Task";
@Resolver()
export class TaskResolver {
@Query(() => [Task])
async tasks(): Promise<Task[]> {
return Task.find();
}
}
Here you can see that we’re specifying the GraphQL return type as an array of Task
s since we also made it a GraphQL type. One fault you may find with this approach is that we’re defining the return types twice: once for the GraphQL return type, and once for the function’s return type. But that’s just how we do things in the TypeGraphQL world 😅
Ok cool, let’s now run our query:
{
tasks {
id
created
updated
title
description
}
}
And we will get a response like this:
{
"data": {
"tasks": []
}
}
The array is empty because we haven’t created any tasks yet.
Creating a task
Now I’d like to ask you a question, if we use a Query
to fetch data, will we be able to use the same Query
to change (create, update, delete) data? No, we can’t. We will use something called a **Mutation
** to achieve our task.
One more thing you might be thinking is how exactly do we take inputs because when we create a task, we’ll need to provide the title and description of the task, right? Guess what, TypeGraphQL has a decorator for it!
Let’s see all of this in action. We’ll define a new function in our task resolver.
src/resolvers/task.ts
import { Arg, Mutation, Query, Resolver } from "type-graphql";
import { Task } from "../entities/Task";
@Resolver()
export class TaskResolver {
@Query(() => [Task])
async tasks(): Promise<Task[]> {
return Task.find();
}
@Mutation(() => Task)
createTask(
@Arg("title", () => String) title: string,
@Arg("description", () => String) description: string
): Promise<Task> {
return Task.create({ title, description }).save();
}
}
I’ll walk you through this new function line by line since it’s a bit confusing at first.
- We are first declaring this
createTask
as a GraphQL mutation, which returns the GraphQLTask
type which we created. We are returning aTask
because after the task is saved to the database we want to show that it has successfully added it. - Then we have 2 variables,
title
andstring
decorated withArg
. ThisArg
specifies that these two variables will be passed as arguments when we are running this mutation (which we will do in a sec). The GraphQL type is given asString
but this is optional because in most cases TypeGraphQL can infer the GraphQL type after looking at the variable’s TypeScript type. - Then we’re creating a Task using
Task.create
and passing the title and description variables to it and then we’re calling.save
.
But why are we doing both .create
and .save
?
What .create
essentially does is, that it creates an instance of the Task
class!
Something like this:
const task = new Task(....)
And .save
actually saves this new instance to our Postgres database.
You might also be wondering why we’re specifying the name of the variable both as an argument for @Arg
and for the TypeScript variable. What we’re specifying as the string is actually the name we’re going to use to provide GraphQL with the argument. For example:
@Arg("myrandomarg", () => String) arg: string
To run this mutation we would do it like this:
mutation {
myQuery(myrandomarg: "val") {
...
}
}
Since we got all of that cleared, let’s run our mutation!
mutation {
createTask(
title: "my first post!",
description: "this is my first post"
) {
id
created
updated
title
description
}
}
And we get our response back!
{
"data": {
"createTask": {
"id": 1,
"created": "1643090973749",
"updated": "1643090973749",
"title": "my first post!",
"description": "this is my first post"
}
}
}
Awesome!
Another thing we can do now is since we have created a task, we can try fetching all of our task again.
{
"data": {
"tasks": [
{
"id": 1,
"created": "1643090973749",
"updated": "1643090973749",
"title": "my first post!",
"description": "this is my first post"
}
]
}
}
And it’s all working yay 🎉
Getting a single post by ID
This should be pretty straight-forward since we already know how to include an argument.
src/resolvers/task.ts
@Query(() => Task, { nullable: true })
async task(@Arg("id", () => Int) id: number): Promise<Task | undefined> {
return Task.findOne({ id });
}
Here we’re saying that this Query
returns a single Task
and it can return a null
if a task with this ID is not found.
Note: Int
comes from type-graphql
Also the TypeScript return type is:
Promise<Task | undefined>
This basically says that this function can either return a Promise of a Task if a task with such and such ID is found, but otherwise it will return an undefined
.
And we’re using Task.findOne()
to get a single task and providing the ID as the search query.
So, if we run this query using:
{
task (id: 1) {
id
title
description
}
}
We’ll get this response:
{
"data": {
"task": {
"id": 1,
"title": "my first post!",
"description": "this is my first post"
}
}
}
And if we provide an ID that doesn’t exist, we’ll get a null as the response:
{
task (id: 1717) {
id
title
description
}
}
{
"data": {
"task": {
"id": 1,
"title": "my first post!",
"description": "this is my first post"
}
}
}
Deleting a task
Deleting a post is quite similar to the function we created for getting a single post.
src/resolvers/task.ts
@Mutation(() => Boolean)
async deleteTask(@Arg("id", () => Int) id: number): Promise<boolean> {
if (await Task.findOne({ id })) {
await Task.delete(id);
return true;
} else {
return false;
}
}
Here we are returning the Boolean
GraphQL type. We first check if a post with the ID provided exists, then we delete it and return true
, but if it doesn’t, we return false
.
Let’s run this mutation:
mutation {
deleteTask(id: 2)
}
Note: First, create another Task and then run this mutation.
And you will get this response!
{
"data": {
"deleteTask": true
}
}
Now, finally we’re gonna create one final function to update our Task.
Updating a Task
To update a task, we’ll need to get:
- the ID of the task
- the new title
- the new description
And then we’ll need to check if a post with the mentioned ID exists, if it doesn’t we will return null
Then we will check if a title or a description if provided and if it is, we will update the Task using Task.update
src/resolvers/task.ts
@Mutation(() => Task, { nullable: true })
async updateTask(
@Arg("title", () => String, { nullable: true }) title: string,
@Arg("description", () => String, { nullable: true }) description: string,
@Arg("id", () => Int) id: number
): Promise<Task | null> {
const task = await Task.findOne(id);
if (!task) {
return null;
}
if (typeof title !== "undefined") {
await Task.update({ id }, { title });
}
if (typeof description !== "undefined") {
await Task.update({ id }, { description });
}
return task;
}
All this is familiar code, it’s just that the complexity of our operation is a bit higher. Let’s now test this mutation:
mutation {
updateTask(id: 1, title: "first post by me!") {
id
title
description
}
}
And we’ll get our response:
{
"data": {
"updateTask": {
"id": 1,
"title": "my first post!",
"description": "this is my first post"
}
}
}
If we run the get task by ID query we can see our updated Task:
{
task (id: 1) {
id
title
description
}
}
Response:
{
"data": {
"task": {
"id": 1,
"title": "first post by me!",
"description": "this is my first post"
}
}
}
And that’s it!! We’re done with our CRUD!! 🚀🚀
Challenge
As promised, you can try implementing the features listed below to improve your understanding of the concept 💪
- Make an
isComplete
boolean field in theTask
entity - Make a
markComplete
mutation to change the value ofisComplete
of a Task - You can also make a simple
filter
query to search for tasks based on thetitle
arg given by the user.
If you need help implementing any of these, leave a comment and I’ll answer your query!
You can find the source code down below:
carrotfarmer / graphql-crud
Simple CRUD using TypeGraphQL and TypeORM
And that’s it for this post, see ya in the next one!
Posted on January 28, 2022
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