Nowadays, there are many text editors that can be integrated into React applications. We can easily get lost in them, the selection is so wide.
If we are looking for inspiration in web products, we can still browse through many options. Many of you here are probably familiar with Notion and its associated document editor, which is very easy and user-friendly to use. I think this is one of the best. It's not just me, many people see it this way, which is why there are quite a few downloadable and/or open source solutions available as npm packages, with which we can integrate a good text editor experience into our web application.
I could go out with two projects that I have already worked with. One is Novel and the other is Blocknote. Both are based on already existing open-source projects, none other than Tip-Tap and Prosemirror. However, they are much easier to use. How easily these can be used is also evident from the fact that, in the case of Blocknote, we can already snap them into our React application with these lines of code:
import { BlockNoteEditor } from "@blocknote/core";
import { BlockNoteView, useCreateBlockNote } from "@blocknote/react";
import "@blocknote/core/style.css";
export default function App() {
// Creates a new editor instance.
const editor = useCreateBlockNote();
// Renders the editor instance using a React component.
return <BlockNoteView editor={editor} theme={"light"} />;
}
What are we going to build?
Well, let's not run so far ahead. Let's see what we will create together in this article and what we will get to know along the way:
We are making an application where you can take notes and view them in a list and in details in read-only mode as you can see in the picture above. The editing interface is supplemented with a small AI autocomplete, which is integrated into Blocknote based on the open source Novel editor. Let's see which main technologies we will use for this:
Among other things, we will learn how to stream responses in the form of an edge function, which is available through the AI package provided by Vercel. We will also look at how and in what form we save a formatted document to a Postgres database (Neon), so it will be worth staying with me until the end of the article.
Implementation
Creating the project
Let's start the project and get to know the tools used in detail along the way.
We can create the project called 'note-blocks' by issuing the following command:
npx create-next-app@latest
We will work with the following configuration (everything remains at default):
Then, let's quickly "clean up" the lines of code left behind after creating the Next.js project. Let's start with globals.css
. It's enough if we just leave this:
@tailwind base;
@tailwind components;
@tailwind utilities;
Creating pages
Then go to page.tsx
inside the app directory. And there we can convert the entire file to this:
import Link from "next/link";
export default function Home() {
return (
<main className="flex min-h-screen flex-col items-center justify-between p-24">
<div className="z-10 max-w-5xl w-full items-center justify-between font-mono text-sm lg:flex">
<Link href="/new">
New Note
</Link>
</div>
</main>
)
}
Don't apply any design yet, that moment will come later. First, let's create a Next page, where we will arrive when we click on the “New Note” link. We create a folder called "new" in the "app" directory, then inside it a page.tsx
file with this content:
export default function Page() {
return (
<div>
Editor
</div>
)
}
It's not too much, and it's not pretty, but we'll talk about it later. For the time being, the placeholder page will open if you click on the "New Note" link.
Adding and using the Blocknote editor
It follows that, similar to the method described at the beginning of the article, we drag the Blocknote editor onto this page. To do this, we need to install it in our application with npm install:
npm install @blocknote/core @blocknote/react
If this has run, then create a component called Editor.tsx
in the "new" folder, which by definition will be a client-side component, since our editor interface cannot be operated on the server side, in this regard you can read the relevant part of Blocknote's documentation here.
We can also insert the following lines into the Editor component:
"use client";
import { BlockNoteEditor } from "@blocknote/core";
import { BlockNoteView, useCreateBlockNote } from "@blocknote/react";
import "@blocknote/core/style.css";
export default function Editor() {
const editor = useCreateBlockNote();
return <BlockNoteView editor={editor} />;
}
Make sure that there is "use client"
at the top of the file, which indicates to Next.js that this is a client component.
And page.tsx is transformed as follows:
import dynamic from "next/dynamic";
const Editor = dynamic(() => import("./Editor"), { ssr: false });
export default function Page() {
return (
<div>
<Editor />
</div>
)
}
Here we import our client-side Editor component in such a way that it is represented on the client side ('ssr: false'
). So when we're done with that, we can already see our editor on the page. Let's play with it a bit, let's see what it can do.
After looking at it and testing it, we quickly realized that this editor is very good, but how are we going to do the rest of the application?
Let's move nicely in line. First, let's see how we can add AI autocomplete to our little editor, first of all, let's see how we can add a menu item to our text editor. This menu item appears when we press a "/" in our editor or click on the "+" sign at the beginning of the line. So we want our Toolbar to look like this:
Implementing the magic AI function
We need to modify the code in the Editor.tsx
file for the desired behaviour:
"use client";
import { BlockNoteEditor } from "@blocknote/core";
import { BlockNoteView, getDefaultReactSlashMenuItems, ReactSlashMenuItem, useCreateBlockNote } from "@blocknote/react";
import "@blocknote/core/style.css";
import { ImMagicWand } from "react-icons/im";
const insertMagicAi = (editor: BlockNoteEditor) => {
console.log('Magic AI insertion incoming!')
};
const insertMagicItem = (editor: BlockNoteEditor) => ({
title: 'Insert Magic Text',
onItemClick: async () => {
const prevText = editor._tiptapEditor.state.doc.textBetween(
Math.max(0, editor._tiptapEditor.state.selection.from - 5000),
editor._tiptapEditor.state.selection.from - 1,
'\n'
);
insertMagicAi(editor);
},
aliases: ['autocomplete', 'ai'],
group: 'AI',
icon: <ImMagicWand size={18} />,
subtext: 'Continue your note with AI-generated text',
});
const getCustomSlashMenuItems = (
editor: BlockNoteEditor
): DefaultReactSuggestionItem[] => [
...getDefaultReactSlashMenuItems(editor),
insertMagicItem(editor),
];
export default function Editor() {
const editor: BlockNoteEditor | null = useCreateBlockNote();
return <BlockNoteView editor={editor} theme={"light"} />;
}
What this code addition currently does is to add a new item to the "slashMenuItems"
list, which will be responsible for the AI autocomplete operation. But how are we going to do this function? Of course, we call the OpenAI API. If you haven't registered here yet (which is quite unlikely in 2024), you can get your API key HERE, which will be necessary for us to further develop the function.
Let's get into it. First, we need an endpoint that can stream the response, which OpenAI gives us. Here, the part of the code that can be found in the Novel open source project will be perfect for us. Let's create an "api" folder inside the "app" directory and a "generate" folder inside that "api" folder, and then a route.ts
file in it. This folder structure tells Next.js that this will be an api endpoint at this URI: /api/generate
. The following content will be added to the "route.ts" file, don't be alarmed if the packages that we will use in it are not installed at first, we will explain them and install everything:
import OpenAI from 'openai';
import { OpenAIStream, StreamingTextResponse } from 'ai';
import { kv } from '@vercel/kv';
import { Ratelimit } from '@upstash/ratelimit';
const openai = new OpenAI({
apiKey: process.env.OPENAI_API_KEY || '',
});
export const runtime = 'edge';
export async function POST(req: Request): Promise<Response> {
if (!process.env.OPENAI_API_KEY || process.env.OPENAI_API_KEY === '') {
return new Response(
'Missing OPENAI_API_KEY – make sure to add it to your .env file.',
{
status: 400,
}
);
}
if (
process.env.NODE_ENV != 'development' &&
process.env.KV_REST_API_URL &&
process.env.KV_REST_API_TOKEN
) {
const ip = req.headers.get('x-forwarded-for');
const ratelimit = new Ratelimit({
redis: kv,
limiter: Ratelimit.slidingWindow(50, '1 d'),
});
const { success, limit, reset, remaining } = await ratelimit.limit(
`noteblock_ratelimit_${ip}`
);
if (!success) {
return new Response('You have reached your request limit for the day.', {
status: 429,
headers: {
'X-RateLimit-Limit': limit.toString(),
'X-RateLimit-Remaining': remaining.toString(),
'X-RateLimit-Reset': reset.toString(),
},
});
}
}
let { prompt } = await req.json();
const response = await openai.chat.completions.create({
model: 'gpt-3.5-turbo',
messages: [
{
role: 'system',
content:
'You are an AI writing assistant that continues existing text based on context from prior text. ' +
'Give more weight/priority to the later characters than the beginning ones. ' +
'Limit your response to no more than 200 characters, but make sure to construct complete sentences.',
},
{
role: 'user',
content: prompt,
},
],
temperature: 0.7,
top_p: 1,
frequency_penalty: 0,
presence_penalty: 0,
stream: true,
n: 1,
});
const stream = OpenAIStream(response);
return new StreamingTextResponse(stream);
}
It is not as hard as it seems at first. First, let's look at the package imports one by one at the top. First, we import the OpenAi package, which we can load into our program like this:
npm install openai
This provides us with an API client interface.
The next line shows a mysterious package called "ai". Vercel provides this for us. It will help us properly stream our response from OpenAI to the endpoint caller. Let's install this:
npm install ai
Then, in the next two import lines, we will also import the serverless Redis component called KV from Vercel, and then also a rate limiter, which will be responsible for ensuring that endless requests do not arrive here. We also install these:
npm install @vercel/kv
npm install @upstash/ratelimit
Once we have this, we can see that we don't encounter any more errors in the code lines (hopefully) and we can see exactly what the "soul" of our application is doing:
const openai = new OpenAI({
apiKey: process.env.OPENAI_API_KEY || '',
});
This section initializes the OpenAI object with the API key obtained from the environment variables process.env.OPENAI_API_KEY
. You can also copy your own key from the OpenAI developer interface and insert it into the .env
file created in the root directory of the application in the following format:
OPENAI_API_KEY=my_secret_key
Just in case this was missed, in the next line of code we check whether we have defined this key:
if (!process.env.OPENAI_API_KEY || process.env.OPENAI_API_KEY === '') {
return new Response(...);
}
And the next part uses the users IP address to control the requests to prevent overuse if you have the right .env variables for the requests. We will create these .env variables later, don't worry about it for now.
if (
process.env.NODE_ENV != 'development' &&
process.env.KV_REST_API_URL &&
process.env.KV_REST_API_TOKEN
) {
const ip = req.headers.get('x-forwarded-for');
const { success, limit, reset, remaining } = await ratelimit.limit(
`noteblock_ratelimit_${ip}`
);
}
This line reads the user-supplied prompt (initial text) from the request:
let { prompt } = await req.json();
We use the GPT-3.5-turbo model to generate the answers:
const response = await openai.chat.completions.create({...});
The response is sent back to the user as a stream (a continuous stream of data), which enables more efficient data transmission, especially for larger responses:
const stream = OpenAIStream(response);
return new StreamingTextResponse(stream);
Now that we have an overview of exactly what this API endpoint does, we can move on to the next part, which is actually putting this endpoint to use. We go back to our previously edited TextEditor.tsx
file and insert this function above the insertMagic()
function:
const { complete } = useCompletion({
id: 'hackathon_starter',
api: '/api/generate',
onResponse: (response) => {
if (response.status === 429) {
return;
}
if (response.body) {
const reader = response.body.getReader();
let decoder = new TextDecoder();
reader.read().then(function processText({ done, value }) {
if (done) {
return;
}
let chunk = decoder.decode(value, { stream: true });
editor?._tiptapEditor.commands.insertContent(chunk);
reader.read().then(processText);
});
} else {
console.error('Response body is null');
}
},
onError: (e) => {
console.error(e.message);
},
});
useCompletion()
must be imported from the AI module provided by Vercel:
import { useCompletion } from "ai/react";
This utilizes a custom React hook, useCompletion, to handle API responses and errors. It makes an API call, handles rate-limiting responses (status 429), and processes the response stream. If the response contains data, it decodes and inserts this content into our text editor.
Once we have this, add the insertMagicAi()
function as follows:
const insertMagicAi = (editor: BlockNoteEditor) => {
const prevText = editor._tiptapEditor.state.doc.textBetween(
Math.max(0, editor._tiptapEditor.state.selection.from - 5000),
editor._tiptapEditor.state.selection.from - 1,
'\n'
);
complete(prevText);
};
Here you can see that we call our previously written complete()
and getting the previous text. We extract the last text context from our editor (5000 characters to be exact) and continue the AI-supported generation of the text based on that.
If we test the functionality on the interface now, we can already see (if we did everything right) that AI autocomplete works.
Using a database to store the notes
What if we could save this note in a database? Let's do it! We will use Neon and Prisma.
After registration at Neon, we can very easily create a free database for our application.
Once we have that, we can look at our database url, which we can copy one by one into our .env file.
However, Prisma itself is not installed yet. We can install it by issuing the following command standing on the root directory:
npm install prisma --save-dev
Then start the Prisma CLI:
npx prisma
After that, we initialize the files necessary for Prisma to work:
npx prisma init
We can see that a Prisma folder has been created in the root directory, which contains a schema.prisma
file, the content of which can be replaced with this:
datasource db {
provider = "postgresql"
url = env("DATABASE_URL")
relationMode = "prisma"
}
generator client {
provider = "prisma-client-js"
}
In this file, we specify that we will use postgres and what our database access path will be. Our next task will be to create the schema, which describes how our database will look like. We stay in the same schema.prisma
file and insert this model:
model Note {
id String @id @default(cuid())
createdAt DateTime @default(now())
updatedAt DateTime @updatedAt
document Json? @db.Json
}
This defines a schema, which is a note object. In our Notion-like editor, we will store the text in the document field, in Json form. Fortunately, Postgres already supports this.
To implement the changes, run this command, which will "push" our schema model into the Neon database:
npx prisma db push
We'd be fine with that. We've come a long way, let's see what's left to build the app:
- We need to save the note to the database using a Save button, Server Action will come in handy here
- We need to list our notes on the main page
- In terms of appearance, we need to get our site in order - TailwindCSS and the Schadcn UI library will help us here
Let's create the save function first. For this, we need to be able to access the Prisma client from anywhere in the application. In the prisma folder where we also have the prisma.schema
ts file, create a client.tsx
file that will look like this:
import { PrismaClient } from '@prisma/client';
declare global {
namespace NodeJS {
interface Global {}
}
}
interface CustomNodeJsGlobal extends NodeJS.Global {
prisma: PrismaClient;
}
declare const global: CustomNodeJsGlobal;
const prisma = global.prisma || new PrismaClient();
if (process.env.NODE_ENV !== 'production') global.prisma = prisma;
export default prisma;
Adding the saving action
Next, create a file in the root folder called actions.ts
. Our server action, which is responsible for saving the note, will be placed here.
'use server'
import prisma from "@/prisma/client";
type Note = {
document: object
}
export async function createNote(note: Note) {
return prisma.note.create({
data: note,
});
}
Let's integrate this aciton next to our Editor by connecting a Save button. This requires a button. How surprising, right? First, let's put a very simple, design-free, smooth, natural HTML button on the interface. We will do this in TextEditor.tsx
. First, import our server action at the top of the file:
import { createNote } from "@/app/actions";
At the bottom of the code line, add the following:
const handleSubmitNote = async () => {
const note = {
document: editor.document
}
await createNote(note)
}
return (
<div>
<BlockNoteView editor={editor} theme={"light"}/>
<button onClick={() => handleSubmitNote()}>Submit</button>
</div>
);
In the handleSubmitNote()
function, we call our server action, which allows us to save our given note. Let's test the function. After we hit "Submit" we don't see anything, since we haven't developed what happens after the Save. For now, to check our work, let's look into the database. We can do that by starting Prisma Studio, enter in the terminal that:
prisma studio
A database viewing system is already opened on a port, in which the content of the table is entered when clicking on the appropriate model, and thus we can see (if we have done it well) that there will be a line containing our note.
Designing our application
We would be ready with the main functions of our application. In the following, let's make it all a bit more fancy.
For this - as I have already described - we will use TailwindCSS with ShadCN. Tailwind was already installed when the project was initialized, now ShadCN is coming. In the root of the project, we must issue the following command:
shadcn-ui@latest init
We'll go through everything on the default, except for the theme, which can actually be anything you like.
We will definitely need a button from this component library. We can install it as follows:
shadcn-ui@latest add button
Then on the "main page" we will be able to use it in app/page.tsx
, which will look like this:
import Link from "next/link";
import { Button } from "@/components/ui/button"
export default function Home() {
return (
<main className="flex min-h-screen flex-col items-center justify-between p-24">
<div className="z-10 max-w-5xl w-full font-mono text-sm lg:flex items-center justify-center">
<Button>
<Link href="/new">
New Note
</Link>
</Button>
</div>
</main>
)
}
You can see that we have slightly modified the Tailwind layout and added our UI component. However, we have included the Link component from Next due to optimized routing.
Then go to our Note editor interface and make the design changes there as well. We will modify the Editor, so go into that component (TextEditor.tsx
) and modify the HTML part as follows:
<div className="flex flex-col items-center min-h-screen px-4 w-full">
<div className="w-full max-w-4xl mx-auto m-5">
<BlockNoteView
editor={editor}
slashMenu={false}
>
<SuggestionMenuController
triggerCharacter={'/'}
getItems={async (query) =>
filterSuggestionItems(getCustomSlashMenuItems(editor), query)
}
/>
</BlockNoteView>
<div className="flex justify-end">
<Button
className="mt-4 mr-4 px-4 py-2"
onClick={() => handleSubmitNote()}
>
Submit
</Button>
</div>
</div>
</div>
... we are done with the appearance of the application and we are ready with the core functions, which you can see in the title. You will find this project in this Github repository, whose code you can use and use as inspiration for your own projects!
Ship it!
Now let's deploy our system. For this, nothing else will be needed except to have our code on Github and to have a Vercel account. After we have uploaded our project to Github (or it is enough if we have a fork of the Github project I shared), we can now deploy the project. On the Vercel dashboard, go to the Add New...
button, select Project, then select note-blocks
from our Github repos. Then this configuration screen greets us:
Thank God we don't have to do anything because it recognizes everything automatically. We only need to set the Environment variables. We simply copy these from our .env file.
If we are satisfied with this, we also press the deploy button. After that, the application is activated and our app becomes publicly available.
Let's build in public
Well, I missed a few more things, didn't I? We also talked about how it would be nice to have a list section where I can see what notes I have so far. I leave this function open for those of you who want to fork my Github project and do a PR with this function. This way you can also practice Next.js Server Actions and the operation of Server components!
What is also missing and will be necessary (especially in production) is the proper configuration of the rate limiter. To do this, all we need is to connect the @vercel/kv package to our project within the Vercel interface, the description of which can be found HERE. This will also be very easy to solve.
Let's connect
If you have any questions about the article or noticed any problems with it feel free to write them down in the comment section or reach ot to me on my X account. Happy coding! :)
Top comments (5)
its not working
Can you please explain what is not working with your implementation? I will be happy to help.
import { BlockNoteEditor, PartialBlock } from "@blocknote/core";
import { useCreateBlockNote } from "@blocknote/react";
import { BlockNoteView } from "@blocknote/mantine"
import "@blocknote/mantine/style.css";
interface editorProps {
initialContent?: string;
editable?: boolean
}
const TextEditor: React.FC = ({ initialContent, editable }) => {
}
export default TextEditor;
how to get the value where i use this component
Probably you can check the source code which I provided in the article.
But generally speaking you can get the value from the editor like this, please examine the handleSubmitNote function!
Please let me know if this resolved your question.
@m5553 I updated the article for the latest version of Blocknote and Neon database.
There were some syntax changes.