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Build an AI-powered Social Media Post Scheduler (Twitter API, Next.js & Copilotkit)

TL;DR

In this tutorial, you will learn how to build an AI-powered social media content generator and scheduler that allows you to schedule posts and generate content effectively.

We will cover how to:

  • add Twitter authentication to a Next.js application,
  • create a calendar-like interface from scratch,
  • integrate AI assistants into software applications with CopilotKit,
  • create action-specific AI copilots to handle various tasks within the application, and
  • build a post generator and scheduling application.

This project is a great way to learn how to build AI-powered apps, master social media APIs and to develop high IQ social media game.

Image description


CopilotKit: The framework for building in-app AI copilots

CopilotKit is an open-source AI copilot platform. We make it easy to integrate powerful AI into your React apps.

Build:

  • ChatBot: Context-aware in-app chatbots that can take actions in-app 💬
  • CopilotTextArea: AI-powered textFields with context-aware autocomplete & insertions 📝
  • Co-Agents: In-app AI agents that can interact with your app & users 🤖

Star CopilotKit

Star CopilotKit ⭐️


Prerequisites

To fully understand this tutorial, you need to have a basic understanding of React or Next.js.

We'll also make use of the following:

  • CopilotKit - an open-source copilot framework for building custom AI chatbots, in-app AI agents, and text areas.
  • Redis - an in-memory database for storing the post schedule.
  • BullMQ - a Node.js library that manages and processes jobs in a queue.
  • Node Cron - a Node.js library that schedule and runs tasks (jobs) at specific intervals.
  • Headless UI - for creating accessible UI components for the application.
  • X Client ID and Secret - for authenticating users and creating posts on their behalf.
  • OpenAI API Key - to enable us to perform various tasks using the GPT models.

Project Set up and Package Installation

First, create a Next.js application by running the code snippet below in your terminal:

npx create-next-app social-media-scheduler
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Select your preferred configuration settings. For this tutorial, we'll be using TypeScript and Next.js App Router.

Creating the Next.js application

Next, install the project dependencies:

npm install @headlessui/react lodash bullmq ioredis node-cron
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Finally, install the required CopilotKit packages. These packages enable us to use AI auto-completion within the application, allow the AI copilot to retrieve data from the React state, and make decisions within the application.

npm install @copilotkit/react-ui @copilotkit/react-textarea @copilotkit/react-core @copilotkit/backend
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Congratulations! You're now ready to build the application.


Building the Posts Scheduler App with Next.js

In this section, you'll learn how to create the user interface for the scheduling application. The application is divided into two pages: the Login page and the Dashboard page, where users can create and schedule posts.

The Login page authenticates users using their X (Twitter) profile, while the Dashboard page allows users to create, delete, and schedule posts.

The Login Page

The Login page represents the application's home page. Users need to sign in with their Twitter account to access the dashboard.

To implement this, update the page.tsx file to display a sign-in button as shown below:

import Link from "next/link";
import { getTwitterOauthUrl } from "@/app/util";

export default function Home() {
    return (
        <main className='w-full min-h-screen flex flex-col items-center justify-center p-8'>
            <h2 className='font-semibold text-2xl mb-4'>Your AI Post Scheduler</h2>
            <Link
                href={getTwitterOauthUrl()}
                className='bg-black py-3 px-6 hover:bg-gray-700 text-gray-50 rounded-lg'
            >
                Sign in with Twitter
            </Link>
        </main>
    );
}
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The code snippet above displays a Sign in with Twitter button that redirects users to Twitter Oauth2 page. You'll learn how to setup the Twitter authentication shortly.

Login Button

The Dashboard Page

Before we proceed, create a types.d.ts file at the root of the Next.js project. This file will contain the type declarations for the variables within the application.

interface DelSelectedCell {
    content?: string;
    day_id?: number;
    day?: string;
    time_id?: number;
    time?: string;
    published?: boolean;
    minutes?: number;
}
interface SelectedCell {
    day_id?: number;
    day?: string;
    time_id?: number;
    time?: string;
    minutes?: number;
}

interface Content {
    minutes?: number;
    content?: string;
    published?: boolean;
    day?: number;
}

interface AvailableScheduleItem {
    time: number;
    schedule: Content[][];
}
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Create a utils file within the Next.js app folder and copy this code snippet from the GitHub repository into it. It contains the necessary functions for performing various data manipulations within the application.

Next, create a dashboard folder containing a page.tsx file within the Next.js app directory.

cd app
mkdir dashboard && cd dashboard
touch page.tsx
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Copy the code snippet below into the dashboard/page.tsx file. It renders an App component that accepts the application's schedule as props and displays them in a table:

"use client";
import _ from "lodash";
import { useState } from "react";
import App from "@/app/components/App";
import { availableSchedule } from "../util";

export default function Dashboard() {
    //👇🏻 saves a deep copy of the availableSchedule array into the React state
    const [yourSchedule, updateYourSchedule] = useState<AvailableScheduleItem[]>(
        _.cloneDeep(availableSchedule)
    );

    return (
        <App yourSchedule={yourSchedule} updateYourSchedule={updateYourSchedule} />
    );
}
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Post Schedule

Here is the data structure for the table above:

export const tableHeadings: string[] = [
    "Time",
    "Sunday",
    "Monday",
    "Tuesday",
    "Wednesday",
    "Thursday",
    "Friday",
    "Saturday",
];

export const availableSchedule: AvailableScheduleItem[] = [
    {
        time: 0,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 1,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 2,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 3,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 4,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 5,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 6,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 7,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 8,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 9,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 10,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 11,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 12,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 13,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 14,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 15,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 16,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 17,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 18,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 19,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 20,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 21,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 22,
        schedule: [[], [], [], [], [], [], []],
    },
    {
        time: 23,
        schedule: [[], [], [], [], [], [], []],
    },
];
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The tableHeadings array contains the headings for the table columns, while the availableSchedule array holds a group of objects. Each object has a time property representing each hour of the day and a schedule property containing a nested array, with each element representing a day of the week.

For example, when a user sets a schedule for Wednesday at 8 AM, the application searches for the object with a time property of 8 and updates its schedule property by inserting the schedule into the nested array at the fourth index.

You can copy the remaining UI elements for the Dashboard page from its GitHub repository.

In the upcoming sections, you'll learn how to add Twitter OAuth and CopilotKit to the application.


How to add X Authentication to your Next.js application

In this section, you’ll learn how to create a X Developer project and add X authentication your Next.js applications.

Ensure you have an X account and visit the X Developers' Portal to create a new project.

Create X Developer Project

Enter the project name and provide answers to the required questions to create a new project and an app.

X Developer Project

Set up the user authentication settings to allow you read and write posts on behalf of the users.

X Authentication Settings

Finally, fill the App info section accordingly.

X App Info section

After setting up the authentication process, save the OAuth 2.0 Client ID and secret into a .env.local file.

TWITTER_CLIENT_ID=<your_client_ID>
NEXT_PUBLIC_TWITTER_CLIENT_ID=<your_client_ID>
TWITTER_CLIENT_SECRET=<your_client_Secret>
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Authenticating users via X

Create an api folder within the Next.js app folder. Inside the api folder, create a twitter directory containing a route.ts file. This will create an API endpoint (/api/twitter) that enables us to authenticate users.

cd app
mkdir api && cd api
mkdir twitter && cd twitter
touch route.ts
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Copy the code snippet below into the route.ts file:

import { NextRequest, NextResponse } from "next/server";

const BasicAuthToken = Buffer.from(
    `${process.env.TWITTER_CLIENT_ID!}:${process.env.TWITTER_CLIENT_SECRET!}`,
    "utf8"
).toString("base64");

const twitterOauthTokenParams = {
    client_id: process.env.TWITTER_CLIENT_ID!,
    code_verifier: "8KxxO-RPl0bLSxX5AWwgdiFbMnry_VOKzFeIlVA7NoA",
    redirect_uri: `http://www.localhost:3000/dashboard`,
    grant_type: "authorization_code",
};

//👇🏻 gets user access token
export const fetchUserToken = async (code: string) => {
    try {
        const formatData = new URLSearchParams({
            ...twitterOauthTokenParams,
            code,
        });
        const getTokenRequest = await fetch(
            "https://api.twitter.com/2/oauth2/token",
            {
                method: "POST",
                body: formatData.toString(),
                headers: {
                    "Content-Type": "application/x-www-form-urlencoded",
                    Authorization: `Basic ${BasicAuthToken}`,
                },
            }
        );
        const getTokenResponse = await getTokenRequest.json();
        return getTokenResponse;
    } catch (err) {
        return null;
    }
};

//👇🏻gets user's data from the access token
export const fetchUserData = async (accessToken: string) => {
    try {
        const getUserRequest = await fetch("https://api.twitter.com/2/users/me", {
            headers: {
                "Content-type": "application/json",
                Authorization: `Bearer ${accessToken}`,
            },
        });
        const getUserProfile = await getUserRequest.json();
        return getUserProfile;
    } catch (err) {
        return null;
    }
};

//👉🏻 API endpoint utilizing the functions above
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  • From the code snippet above,
    • The BasicAuthToken variable contains the encoded version of your tokens.
    • The twitterOauthTokenParams contains the parameters required for getting the users' access token.
    • The fetchUserToken function sends a request containing a code to Twitter's endpoint and returns the user's access token.
    • The fetchUserData function uses the token to retrieve the user's X profile.

Add this endpoint below the functions. It accepts a code from the frontend when a user signs in and stores the user ID, username, and access token in a file that can be accessed when executing jobs on the server.

import { writeFile } from "fs";

export async function POST(req: NextRequest) {
    const { code } = await req.json();
    try {
        //👇🏻 get access token and the entire response
        const tokenResponse = await fetchUserToken(code);
        const accessToken = await tokenResponse.access_token;
        //👇🏻 get user data
        const userDataResponse = await fetchUserData(accessToken);
        const userCredentials = { ...tokenResponse, ...userDataResponse };

        //👇🏻  merge the user's access token, id, and username into an object
        const userData = {
            accessToken: userCredentials.access_token,
            _id: userCredentials.data.id,
            username: userCredentials.data.username,
        };
        //👇🏻 store them in a JSON file (for server-use)
        writeFile("./src/user.json", JSON.stringify(userData, null, 2), (error) => {
            if (error) {
                console.log("An error has occurred ", error);
                throw error;
            }
            console.log("Data written successfully to disk");
        });
        //👇🏻 returns a successful response
        return NextResponse.json(
            {
                data: "User data stored successfully",
            },
            { status: 200 }
        );
    } catch (err) {
        return NextResponse.json({ error: err }, { status: 500 });
    }
}
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Update the dashboard/page.tsx to send the code to the API endpoint after authenticating a user.

import { useSearchParams } from 'next/navigation'
const searchParams = useSearchParams()
    const code = searchParams.get('code')

    const fetchToken = useCallback(async () => { 
            const res = await fetch("/api/twitter", {
                method: "POST",
                body: JSON.stringify({ code }),
                headers: {
                    "Content-Type": "application/json",
                },
            });
            if (res.ok) {
                const data = await res.json();
                console.log(data);
            }
    }, [code]);

    useEffect(() => {
        fetchToken();
    }, [fetchToken]);
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Congratulations! When users click the Sign in with Twitter button, it redirects them to the Twitter authorisation page to enable them access the application.

X Authentication Preview


How to add CopilotKit to a Next.js application

In this section, you'll learn how to add CopilotKit to the application to enable users to schedule posts automatically using AI copilots and also add auto-completion when creating post contents.

Before we proceed, visit the OpenAI Developers' Platform and create a new secret key.

OpenAI API

Create a .env.local file and copy the your newly created secret key into the file.

OPENAI_API_KEY=<YOUR_OPENAI_SECRET_KEY>
OPENAI_MODEL=gpt-4-1106-preview
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Next, you need to create an API endpoint for CopilotKit. Within the Next.js app folder, create an api/copilotkit folder containing a route.ts file.

cd app
mkdir api && cd api
mkdir copilotkit && cd copilotkit
touch route.ts
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Copy the code snippet below into the route.ts file. The CopilotKit backend accept users’ requests and make decisions using the OpenAI model.

import { CopilotRuntime, OpenAIAdapter } from "@copilotkit/backend";

export const runtime = "edge";

export async function POST(req: Request): Promise<Response> {
    const copilotKit = new CopilotRuntime({});
    const openaiModel = process.env["OPENAI_MODEL"];

    return copilotKit.response(req, new OpenAIAdapter({model: openaiModel}));
}
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To connect the application to the backend API route, copy the code snippet below into the dashboard/page.tsx file.

"use client";
import App from "@/app/components/App";
import _ from "lodash";
import {  useState } from "react";
import { availableSchedule } from "../util";

//👇🏻 CopilotKit components
import { CopilotKit } from "@copilotkit/react-core";
import { CopilotPopup } from "@copilotkit/react-ui";

//👇🏻 CSS styles for CopilotKit components
import "@copilotkit/react-ui/styles.css";
import "@copilotkit/react-textarea/styles.css";

export default function Dashboard() {
    const [yourSchedule, updateYourSchedule] = useState<AvailableScheduleItem[]>(
        _.cloneDeep(availableSchedule)
    );

    //👉🏻 other UI states and functions

    return (
        <CopilotKit runtimeUrl='/api/copilotkit/'>
            <App
                yourSchedule={yourSchedule}
                updateYourSchedule={updateYourSchedule}
            />
            <CopilotPopup
                instructions='Help the user create and manage ad campaigns.'
                defaultOpen={true}
                labels={{
                    title: "Posts Scheduler Copilot",
                    initial:
                        "Hello there! I can help you manage your schedule. What do you want to do? You can generate posts, add, and delete scheduled posts.",
                }}
                clickOutsideToClose={false}
            ></CopilotPopup>
         </CopilotKit>
    );
}
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The CopilotKit component wraps the entire application and accepts a runtimeUrl prop that contains a link to the API endpoint. The CopilotKitPopup component adds a chatbot sidebar panel to the application, enabling us to provide various instructions to CopilotKit.

App Overview


How to schedule posts with CopilotKit

CopilotKit provides two hooks that enable us to handle user's request and plug into the application state: useCopilotAction and useCopilotReadable.

The useCopilotAction hook allows you to define actions to be carried out by CopilotKit. It accepts an object containing the following parameters:

  • name - the action's name.
  • description - the action's description.
  • parameters - an array containing the list of the required parameters.
  • render - the default custom function or string.
  • handler - the executable function that is triggered by the action.
useCopilotAction({
    name: "sayHello",
    description: "Say hello to someone.",
    parameters: [
        {
            name: "name",
            type: "string",
            description: "name of the person to say greet",
        },
    ],
    render: "Process greeting message...",
    handler: async ({ name }) => {
        alert(`Hello, ${name}!`);
    },
});
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The useCopilotReadable hook provides the application state to CopilotKit.

import { useCopilotReadable } from "@copilotkit/react-core";

const myAppState = "...";
useCopilotReadable({
  description: "The current state of the app",
  value: myAppState
});
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Now, let’s plug the application state into CopilotKit and create an action that helps us to schedule posts.

Within the App component, pass the schedule state into CopilotKit. You can also provide additional information (context) to enable CopilotKit make adequate and precise decisions.

//👇🏻 Application state
useCopilotReadable({
    description: "The user's Twitter post schedule",
    value: yourSchedule,
});

//👇🏻 Application context
useCopilotReadable({
    description: "Guidelines for the user's Twitter post schedule",
    value:
            "Your schedule is displayed in a table format. Each row represents an hour of the day, and each column represents a day of the week. You can add a post by clicking on an empty cell, and delete a post by clicking on a filled cell. Sunday is the first day of the week and has a day_id of 0.",
    });
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Create a CopilotKit action that schedule posts based on the user’s prompts:

    useCopilotAction({
        name: "updatePostSchedule",
        description: "Update the user's Twitter post schedule",
        parameters: [
            {
                name: "update_schedule",
                type: "object",
                description: "The user's updated post schedule",
                attributes: [
                    {
                        name: "time",
                        type: "number",
                        description: "The time of the post",
                    },
                    {
                        name: "schedule",
                        type: "object[]",
                        description: "The schedule for the time",
                        attributes: [
                            {
                                name: "content",
                                type: "string",
                                description: "The content of the post",
                            },
                            {
                                name: "minutes",
                                type: "number",
                                description: "The minutes past the hour",
                            },
                            {
                                name: "published",
                                type: "boolean",
                                description: "Whether the post is published",
                            },
                            {
                                name: "day",
                                type: "number",
                                description: "The day of the week",
                            },
                        ],
                    },
                ],
            },
        ],
        handler: ({ update_schedule }) => {
            setAddEventModal(true);
            setSelectedCell({
                day_id: update_schedule.schedule[0].day + 1,
                day: tableHeadings[update_schedule.schedule[0].day + 1],
                time_id: update_schedule.time,
                time: formatTime(update_schedule.time),
            });
            setContent(update_schedule.schedule[0].content);
            setMinute(update_schedule.schedule[0].minutes);
        },
        render: "Updating schedule...",
    });
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The code snippet above shows the useCopilotAction hook in action. It accepts an object containing name, description, parameters, handler, and render properties.

  • The name property represents the name of the action.
  • The description property provides a brief overview of what the function does.
  • The parameters array contains an update_schedule object with a time and schedule property. The schedule object includes content, minutes, published, and day attributes.
  • The handler function describes the action to be carried out when triggered. In the example above, the handler function opens the AddPost modal, updates its value with AI-generated inputs, and allows the user adjust the schedule accordingly.

Managing and Scheduling Posts using Redis and BullMQ

In this section, you’ll learn how to store the post schedule in a Redis database, and create a job that checks the schedule at intervals to post the content on X (Twitter).

First, you need to install Redis on your computer. If you are using MacOS and have Homebrew installed, run the code snippet in your terminal to install Redis:

brew --version
brew install redis
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Once the installation process is complete, you can test your Redis server by running the following code snippet in your terminal:

redis-server
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Redis Server

Now, you can use the Node.js Redis client within the application.

Create an /api/schedule API route on the server that accepts the entire schedule table when a user adds or deletes a scheduled post.

import { NextRequest, NextResponse } from "next/server";

export async function POST(req: NextRequest) { 
    const { schedule } = await req.json();
    try {
         console.log({schedule})

        return NextResponse.json(
            { message: "Schedule updated!", schedule },
            { status: 200 }
        );

    } catch (error) { 
        return NextResponse.json(
            { message: "Error updating schedule", error },
            { status: 500 }
        );

    }   
}
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Update the API endpoint to store the entire schedule in the Redis database. Redis stores data in key/value pairs, making it super-fast for storing and retrieving data.

import { NextRequest, NextResponse } from "next/server";
import Redis from "ioredis";
const redis = new Redis();

export async function POST(req: NextRequest) { 
    const { schedule } = await req.json();
    try {
        //👇🏻 saves the schedule
        await redis.set("schedule", JSON.stringify(schedule));

        return NextResponse.json(
            { message: "Schedule updated!", schedule },
            { status: 200 }
        );
    } catch (error) { 
        return NextResponse.json(
            { message: "Error updating schedule", error },
            { status: 500 }
        );
    }
}

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You can also add a GET request handler within the api/schedule/route.ts file to fetch existing scheduled posts from the Redis database and display them when a user logs into the application.

export async function GET() {
    try {
        const schedule = await redis.get("schedule");
        if (schedule) {
            return NextResponse.json(
                { message: "Schedule found", schedule: JSON.parse(schedule) },
                { status: 200 }
            );
        }
    } catch (error) {
        return NextResponse.json(
        { message: "Schedule not found" },
        { status: 500 }
    );
}
}
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Finally, you need to set up a job queue that runs every minute to check for posts scheduled for the current day and post them at the appropriate time.

Create a worker.ts file within the Next.js src folder and copy the following code into the file:

import data from "./user.json";
import { Worker, Queue } from 'bullmq';
import Redis from "ioredis";

//👇🏻 initializes a job queue connected to the Redis database
const redis = new Redis({maxRetriesPerRequest: null});
const scheduleQueue = new Queue('schedule-queue', { connection: redis });
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The code snippet above creates a job queue that is connected to the Redis database.

Implement a scheduleJobs function within the worker.ts file that gets the posts scheduled for the current time and adds them to the job queue.

//👇🏻 add jobs to the queue
export const scheduleJobs = async (schedule: AvailableScheduleItem[]) => {
    //👇🏻 gets current time and day
    const now = new Date();
    const currentHour = now.getHours();
    const currentMinute = now.getMinutes();
    const currentDay = now.getDay();

    //👇🏻 gets posts for the current hour
    const currentSchedule = schedule.find((item) => item.time === currentHour);
    const schedulesForTheHour = currentSchedule?.schedule[currentDay];

    //👇🏻 gets scheduled posts for the current time
    if (schedulesForTheHour && schedulesForTheHour?.length > 0) {
        const awaitingJobs = schedulesForTheHour.filter(
            (scheduleItem) =>
                scheduleItem.minutes && scheduleItem.minutes <= currentMinute
        );

        //👇🏻 add jobs to queue
        return awaitingJobs.map(async (scheduleItem) => {
            const job = await scheduleQueue.add("jobs", {
                message: scheduleItem.content
            }, {
                removeOnComplete: true,
            });
            console.log(`Job ${job.id} added to queue`);
        });
    }
};
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Import the scheduleJobs function into the api/schedule endpoint and trigger the function every minute using Node Cron.

//👉🏻 api/schedule/route.ts
import cron from "node-cron";

export async function POST(req: NextRequest) { 
    const { schedule } = await req.json();
    try {
        await redis.set("schedule", JSON.stringify(schedule));
        cron.schedule('* * * * *', async() => {
            console.log('Triggering jobs...');
            await scheduleJobs(schedule);
        });

        return NextResponse.json(
            { message: "Schedule updated!", schedule },
            { status: 200 }
        );
    } catch (error) { 
        return NextResponse.json(
            { message: "Error updating schedule", error },
            { status: 500 }
        );
    }
}
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Next, add a worker function within the workers.ts file that executes the jobs within the queue by sending the posts’ content to X (Twitter).

//👇🏻 processing jobs
const scheduleWorker = new Worker('schedule-queue', async (job) => {
  console.log(`Processing job ${job.id} of type ${job.name} with data: ${job.data.message}`)
    console.log("Posting content...")

    //👇🏻 post content to X
    const postTweet = await fetch("https://api.twitter.com/2/tweets", {
        method: "POST",
        headers: {
            "Content-type": "application/json",
            Authorization: `Bearer ${data.accessToken}`,
        },
        body: JSON.stringify({ text: job.data.message })
    });
    if (postTweet.ok) { 
          console.log("Content posted!")
    }
}, { connection: redis})

//👇🏻 listening for completed job
scheduleWorker.on('completed', job => {
    console.log(`${job.id} has completed!`);
});
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Finally, you can execute the worker by running npm run worker after updating the scripts within the package.json file.

{
 "scripts": {
    "worker": "npx tsx --watch src/worker.ts"
  }
}
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Congratulations! You’ve completed the project for this tutorial.


Conclusion

So far, you’ve learned how to authenticate users via X, store data in a Redis database, create and manage jobs with Redis and BullMQ, and integrate AI assistants into your Next.js applications using CopilotKit.

CopilotKit is an incredible tool that allows you to add AI Copilots to your products within minutes. Whether you're interested in AI chatbots and assistants or automating complex tasks, simplifies the process.

If you need to build an AI product or integrate an AI tool into your software applications, you should consider CopilotKit.

You can find the source code for this tutorial on GitHub:

https://github.com/dha-stix/ai-post-generator-and-scheduler-with-copilotkit

Thank you for reading!

Top comments (21)

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nevodavid profile image
Nevo David

Copilots are the key to everything!

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uliyahoo profile image
uliyahoo

🗝️🗝️🗝️

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sushantnair profile image
Sushant Nair

Hi. Thanks for the article. I just wanted to ask that is the code that is visible in the article complete, i.e., if I were to follow along in the exact sequence and write the exact code, would I have my own working application? Or is there something more as far as the code is concerned that is assumed but not covered?

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arshadayvid profile image
David Asaolu

You're welcome @sushantnair
Yes, you will replicate the application by following the tutorial and you can also check out the source code, if you encounter any issues.

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sushantnair profile image
Sushant Nair

Thanks a lot @arshadayvid. The article is amazing and will certainly help with my resume. I want to ask though (please don't mind me for asking this!) that if I were to implement this application and then write about it in my resume, can you tell what to write in the resume, what metrics to include? Your advice could help me set off on my Web Dev and AI career.

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envitab profile image
Ekemini Samuel

Copilokit to the moon! 🚀

Great work David!

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arshadayvid profile image
David Asaolu

Thank you @envitab 🚀🚀

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envitab profile image
Ekemini Samuel

You're welcome

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uliyahoo profile image
uliyahoo

Such a fun build. Thanks David🔥

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arshadayvid profile image
David Asaolu

Thanks! @uliyahoo 😍🔥💯

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the_greatbonnie profile image
Bonnie

Great article, David.

This will be a great weekend project.

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arshadayvid profile image
David Asaolu

Totally agree.
Thank you @the_greatbonnie ! 💪

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martinbaun profile image
Martin Baun

That is one of the best guides on this topic I've read. It's so clear and with simple examples, ideal even for beginners. Nice!

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arshadayvid profile image
David Asaolu

Thank you Martin!
That's the goal. 💪💯

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ayush2390 profile image
Ayush Thakur

This is so cool

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johncook1122 profile image
John Cook

Nice one David. I've never used Twitter's (X) API before, so this is a great one to go through.

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arshadayvid profile image
David Asaolu

You should now! 😁
Thank you!

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time121212 profile image
tim brandom

Looks great! Saved for later.

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arshadayvid profile image
David Asaolu

Thanks! @time121212 🔥

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neurabot profile image
Neurabot

May I implement that by using my own social media ? Or any other media apart Twitter ?

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arshadayvid profile image
David Asaolu

Sure, you can.
You just need to integrate the API for the social media platform to the app.

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