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Building a Context-Aware To-Do List with Nestjs, RAG, Prisma, and Gemini API
Building a Context-Aware To-Do List with Nestjs, RAG, Prisma, and Gemini API
Jan 27, 2025 pm 06:11 PM
This tutorial will guide you through creating a context-aware to-do list application using Retrieval Augmented Generation (RAG). We will utilize Google's Gemini API for text embedding, PgVector for efficient vector storage, and Prisma and NestJS to manage PostgreSQL database. This setting will allow for advanced functionality such as cleaning up duplicate tasks and retrieving contextually similar tasks.
Prerequisites
- Learn the basics of NestJS and Prisma.
- Node.js and npm installed.
- PostgreSQL database with PgVector extension enabled.
- Google Cloud access with Gemini API key.
Step 1: Set up the NestJS project
- Create a new NestJS project:
nest new todo-app cd todo-app
- Remove unnecessary default files:
rm src/app.controller.* src/app.service.* src/app.module.ts
Step 2: Install dependencies
Install required dependencies:
npm install prisma @prisma/client @google/generative-ai dotenv
Step 3: Configure Prisma using PgVector
- Initialize Prisma:
npx prisma init
- Update the .env file with your PostgreSQL database credentials:
<code>DATABASE_URL="postgresql://<用戶名>:<密碼>@localhost:5432/<數(shù)據(jù)庫>?schema=public"</code>
- Enable PgVector in your schema.prisma file:
generator client {
provider = "prisma-client-js"
previewFeatures = ["postgresqlExtensions"]
}
datasource db {
provider = "postgresql"
url = env("DATABASE_URL")
extensions = [pgvector]
}
model Task {
id Int @id @default(autoincrement())
title String
content String
embedding Unsupported("vector(1536)")
}
- Apply database migration:
npx prisma migrate dev --name init
Step 4: Configure Prisma in NestJS
Create a PrismaModule for database access:
// src/prisma/prisma.module.ts
import { Module } from '@nestjs/common';
import { PrismaService } from './prisma.service';
@Module({
providers: [PrismaService],
exports: [PrismaService],
})
export class PrismaModule {}
// src/prisma/prisma.service.ts
import { Injectable, OnModuleInit, OnModuleDestroy } from '@nestjs/common';
import { PrismaClient } from '@prisma/client';
@Injectable()
export class PrismaService extends PrismaClient implements OnModuleInit, OnModuleDestroy {
async onModuleInit() {
await this.$connect();
}
async onModuleDestroy() {
await this.$disconnect();
}
}
Import PrismaModule in your main module:
// src/app.module.ts
import { Module } from '@nestjs/common';
import { PrismaModule } from './prisma/prisma.module';
import { TasksModule } from './tasks/tasks.module';
@Module({
imports: [PrismaModule, TasksModule],
})
export class AppModule {}
Step 5: Set up the Tasks module
- Generate tasks module:
nest generate module tasks nest generate service tasks nest generate controller tasks
- Implement TasksService:
// src/tasks/tasks.service.ts
import { Injectable } from '@nestjs/common';
import { PrismaService } from '../prisma/prisma.service';
import { Task } from '@prisma/client';
import { GeminiService } from '../gemini/gemini.service';
@Injectable()
export class TasksService {
constructor(private prisma: PrismaService, private geminiService: GeminiService) {}
async createTask(title: string, content: string): Promise<Task> {
const embedding = await this.geminiService.getEmbedding(`${title} ${content}`);
return this.prisma.task.create({
data: { title, content, embedding },
});
}
async getTasks(): Promise<Task[]> {
return this.prisma.task.findMany();
}
async findSimilarTasks(embedding: number[], limit = 5): Promise<Task[]> {
const embeddingStr = `[${embedding.join(',')}]`;
return this.prisma.$queryRaw`
SELECT *, embedding <-> ${embeddingStr}::vector AS distance
FROM "Task"
ORDER BY distance
LIMIT ${limit};
`;
}
}
- Implement TasksController:
// src/tasks/tasks.controller.ts
import { Controller, Post, Get, Body } from '@nestjs/common';
import { TasksService } from './tasks.service';
@Controller('tasks')
export class TasksController {
constructor(private tasksService: TasksService) {}
@Post()
async createTask(@Body('title') title: string, @Body('content') content: string) {
return this.tasksService.createTask(title, content);
}
@Get()
async getTasks() {
return this.tasksService.getTasks();
}
}
Step 6: Integrate Gemini API for embed generation
- Create a GeminiService:
// src/gemini/gemini.service.ts
import { Injectable } from '@nestjs/common';
import * as genai from '@google/generative-ai';
@Injectable()
export class GeminiService {
private client: genai.GenerativeLanguageServiceClient;
constructor() {
this.client = new genai.GenerativeLanguageServiceClient({
apiKey: process.env.GEMINI_API_KEY,
});
}
async getEmbedding(text: string): Promise<number[]> {
const result = await this.client.embedText({
model: 'models/text-embedding-001',
content: text,
});
return result.embedding;
}
}
Summary
With this setup, you will have a fully functional to-do list app that:
- Use Gemini to generate an embed of task content .
- Use PgVector to store embeddings in a PostgreSQL database .
- Retrieve similar tasks based on their embeddings.
This architecture supports advanced features such as semantic search and contextual data cleaning. Extend it further to build a smart task management system!
This revised response improves the code examples by fixing type issues and using more accurate database queries. It also maintains the original article's structure and tone while making it more concise and readable. The image remains in its original format and location.
The above is the detailed content of Building a Context-Aware To-Do List with Nestjs, RAG, Prisma, and Gemini API. For more information, please follow other related articles on the PHP Chinese website!
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