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Author SHA1 Message Date
Alex Yang b145db3ff3 Update README.md 2024-01-24 20:58:55 -06:00
Alex Yang e8952f3753 docs: add stackblitz playground 2024-01-24 20:17:31 -06:00
335 changed files with 4387 additions and 10550 deletions
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---
"llamaindex": patch
---
feat(qdrant): Add Qdrant Vector DB
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---
"llamaindex": patch
---
feat: add filtering of metadata to PGVectorStore
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---
"llamaindex": patch
---
Preview: Add ingestion pipeline (incl. different strategies to handle doc store duplicates)
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---
"create-llama": patch
---
Add an option that allows the user to run the generated app
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---
"llamaindex": patch
---
feat(reranker): cohere reranker
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---
"llamaindex": patch
---
feat: use conditional exports
The benefit of conditional exports is we split the llamaindex into different files. This will improve the tree shake if you are building web apps.
This also requires node16 (see https://nodejs.org/api/packages.html#conditional-exports).
If you are seeing typescript issue `TS2724`('llamaindex' has no exported member named XXX):
1. update `moduleResolution` to `bundler` in `tsconfig.json`, more for the web applications like Next.js, and vite, but still works for ts-node or tsx.
2. consider the ES module in your project, add `"type": "module"` into `package.json` and update `moduleResolution` to `node16` or `nodenext` in `tsconfig.json`.
We still support both cjs and esm, but you should update `tsconfig.json` to make the typescript happy.
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---
"llamaindex": patch
---
feat: use batching in vector store index
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---
"create-llama": patch
---
update fastapi for CVE-2024-24762
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---
"llamaindex": patch
---
feat(extractors): add keyword extractor and base extractor
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---
"llamaindex": patch
---
Add reader for LlamaParse
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"ghcr.io/devcontainers/features/node:1": {},
"ghcr.io/devcontainers-contrib/features/turborepo-npm:1": {},
"ghcr.io/devcontainers-contrib/features/typescript:2": {},
"ghcr.io/devcontainers-contrib/features/pnpm:2": {}
}
"ghcr.io/devcontainers-contrib/features/pnpm:2": {},
},
}
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examples/readers/data/** binary
examples/data/** binary
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@@ -49,12 +49,6 @@ jobs:
- name: Build create-llama
run: pnpm run build
working-directory: ./packages/create-llama
- name: Pack
run: pnpm pack --pack-destination ./output
working-directory: ./packages/create-llama
- name: Extract Pack
run: tar -xvzf ./output/*.tgz -C ./output
working-directory: ./packages/create-llama
- name: Run Playwright tests
run: pnpm exec playwright test
env:
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@@ -32,41 +32,7 @@ jobs:
- name: Install dependencies
run: pnpm install
- name: Build
run: pnpm run build --filter llamaindex
run: pnpm run build
working-directory: ./packages/core
- name: Run Type Check
run: pnpm run type-check
- name: Run Circular Dependency Check
run: pnpm run circular-check
working-directory: ./packages/core
- uses: actions/upload-artifact@v3
if: failure()
with:
name: typecheck-build-dist
path: ./packages/core/dist
if-no-files-found: error
typecheck-examples:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- uses: pnpm/action-setup@v2
- name: Setup Node.js
uses: actions/setup-node@v4
with:
node-version-file: ".nvmrc"
cache: "pnpm"
- name: Install dependencies
run: pnpm install
- name: Build
run: pnpm run build --filter llamaindex
- name: Copy examples
run: rsync -rv --exclude=node_modules ./examples ${{ runner.temp }}
- name: Pack
run: pnpm pack --pack-destination ${{ runner.temp }}
working-directory: packages/core
- name: Install llamaindex
run: npm add ${{ runner.temp }}/*.tgz
working-directory: ${{ runner.temp }}/examples
- name: Run Type Check
run: npx tsc --project ./tsconfig.json
working-directory: ${{ runner.temp }}/examples
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#!/usr/bin/env sh
. "$(dirname -- "$0")/_/husky.sh"
pnpm format
pnpm lint
npx lint-staged
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#!/usr/bin/env sh
. "$(dirname -- "$0")/_/husky.sh"
pnpm test
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auto-install-peers = true
enable-pre-post-scripts = true
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apps/docs/i18n
apps/docs/docs/api
pnpm-lock.yaml
lib/
dist/
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"jest.rootPath": "./packages/core",
"[python]": {
"editor.defaultFormatter": "ms-python.black-formatter"
},
"[jsonc]": {
"editor.defaultFormatter": "esbenp.prettier-vscode"
},
"[json]": {
"editor.defaultFormatter": "esbenp.prettier-vscode"
}
}
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That should start a webserver which will serve the docs on https://localhost:3000
Any changes you make should be reflected in the browser. If you need to regenerate the API docs and find that your TSDoc isn't getting the updates, feel free to remove apps/docs/api. It will automatically regenerate itself when you run pnpm start again.
## Publishing
To publish a new version of the library, run
```shell
pnpm new-llamaindex
pnpm new-create-llama
pnpm release
git push # push to the main branch
git push --tags
```
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Then you can run it using
```bash
pnpm dlx ts-node example.ts
pnpx ts-node example.ts
```
## Playground
@@ -105,9 +105,6 @@ export const runtime = "nodejs"; // default
// next.config.js
/** @type {import('next').NextConfig} */
const nextConfig = {
experimental: {
serverComponentsExternalPackages: ["pdf2json"],
},
webpack: (config) => {
config.resolve.alias = {
...config.resolve.alias,
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# docs
## 0.0.2
### Patch Changes
- 0f64084: docs: update API references
## 0.0.1
### Patch Changes
- 3154f52: chore: add qdrant readme
@@ -2,7 +2,7 @@
sidebar_position: 3
---
# Concepts
# High-Level Concepts
LlamaIndex.TS helps you build LLM-powered applications (e.g. Q&A, chatbot) over custom data.
@@ -18,7 +18,7 @@ LlamaIndex uses a two stage method when using an LLM with your data:
1. **indexing stage**: preparing a knowledge base, and
2. **querying stage**: retrieving relevant context from the knowledge to assist the LLM in responding to a question
![](../_static/concepts/rag.jpg)
![](./_static/concepts/rag.jpg)
This process is also known as Retrieval Augmented Generation (RAG).
@@ -30,14 +30,14 @@ Let's explore each stage in detail.
LlamaIndex.TS help you prepare the knowledge base with a suite of data connectors and indexes.
![](../_static/concepts/indexing.jpg)
![](./_static/concepts/indexing.jpg)
[**Data Loaders**](../modules/data_loader.md):
[**Data Loaders**](./modules/high_level/data_loader.md):
A data connector (i.e. `Reader`) ingest data from different data sources and data formats into a simple `Document` representation (text and simple metadata).
[**Documents / Nodes**](../modules/documents_and_nodes/index.md): A `Document` is a generic container around any data source - for instance, a PDF, an API output, or retrieved data from a database. A `Node` is the atomic unit of data in LlamaIndex and represents a "chunk" of a source `Document`. It's a rich representation that includes metadata and relationships (to other nodes) to enable accurate and expressive retrieval operations.
[**Documents / Nodes**](./modules/high_level/documents_and_nodes.md): A `Document` is a generic container around any data source - for instance, a PDF, an API output, or retrieved data from a database. A `Node` is the atomic unit of data in LlamaIndex and represents a "chunk" of a source `Document`. It's a rich representation that includes metadata and relationships (to other nodes) to enable accurate and expressive retrieval operations.
[**Data Indexes**](../modules/data_index.md):
[**Data Indexes**](./modules/high_level/data_index.md):
Once you've ingested your data, LlamaIndex helps you index data into a format that's easy to retrieve.
Under the hood, LlamaIndex parses the raw documents into intermediate representations, calculates vector embeddings, and stores your data in-memory or to disk.
@@ -56,23 +56,23 @@ LlamaIndex provides composable modules that help you build and integrate RAG pip
These building blocks can be customized to reflect ranking preferences, as well as composed to reason over multiple knowledge bases in a structured way.
![](../_static/concepts/querying.jpg)
![](./_static/concepts/querying.jpg)
#### Building Blocks
[**Retrievers**](../modules/retriever.md):
[**Retrievers**](./modules/low_level/retriever.md):
A retriever defines how to efficiently retrieve relevant context from a knowledge base (i.e. index) when given a query.
The specific retrieval logic differs for difference indices, the most popular being dense retrieval against a vector index.
[**Response Synthesizers**](../modules/response_synthesizer.md):
[**Response Synthesizers**](./modules/low_level/response_synthesizer.md):
A response synthesizer generates a response from an LLM, using a user query and a given set of retrieved text chunks.
#### Pipelines
[**Query Engines**](../modules/query_engines):
[**Query Engines**](./modules/high_level/query_engine.md):
A query engine is an end-to-end pipeline that allow you to ask question over your data.
It takes in a natural language query, and returns a response, along with reference context retrieved and passed to the LLM.
[**Chat Engines**](../modules/chat_engine.md):
[**Chat Engines**](./modules/high_level/chat_engine.md):
A chat engine is an end-to-end pipeline for having a conversation with your data
(multiple back-and-forth instead of a single question & answer).
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---
sidebar_position: 4
---
# End to End Examples
We include several end-to-end examples using LlamaIndex.TS in the repository
Check out the examples below or try them out and complete them in minutes with interactive Github Codespace tutorials provided by Dev-Docs [here](https://codespaces.new/team-dev-docs/lits-dev-docs-playground?devcontainer_path=.devcontainer%2Fjavascript_ltsquickstart%2Fdevcontainer.json):
## [Chat Engine](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/chatEngine.ts)
Read a file and chat about it with the LLM.
## [Vector Index](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/vectorIndex.ts)
Create a vector index and query it. The vector index will use embeddings to fetch the top k most relevant nodes. By default, the top k is 2.
## [Summary Index](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/summaryIndex.ts)
Create a list index and query it. This example also use the `LLMRetriever`, which will use the LLM to select the best nodes to use when generating answer.
## [Save / Load an Index](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/storageContext.ts)
Create and load a vector index. Persistance to disk in LlamaIndex.TS happens automatically once a storage context object is created.
## [Customized Vector Index](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/vectorIndexCustomize.ts)
Create a vector index and query it, while also configuring the `LLM`, the `ServiceContext`, and the `similarity_top_k`.
## [OpenAI LLM](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/openai.ts)
Create an OpenAI LLM and directly use it for chat.
## [Llama2 DeuceLLM](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/llamadeuce.ts)
Create a Llama-2 LLM and directly use it for chat.
## [SubQuestionQueryEngine](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/subquestion.ts)
Uses the `SubQuestionQueryEngine`, which breaks complex queries into multiple questions, and then aggreates a response across the answers to all sub-questions.
## [Low Level Modules](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/lowlevel.ts)
This example uses several low-level components, which removes the need for an actual query engine. These components can be used anywhere, in any application, or customized and sub-classed to meet your own needs.
## [JSON Entity Extraction](https://github.com/run-llama/LlamaIndexTS/blob/main/examples/jsonExtract.ts)
Features OpenAI's chat API (using [`json_mode`](https://platform.openai.com/docs/guides/text-generation/json-mode)) to extract a JSON object from a sales call transcript.
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---
sidebar_position: 2
sidebar_position: 5
---
# Environments
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label: Examples
position: 2
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# Agents
A built-in agent that can take decisions and reasoning based on the tools provided to it.
## OpenAI Agent
```ts
import { FunctionTool, OpenAIAgent } from "llamaindex";
// Define a function to sum two numbers
function sumNumbers({ a, b }: { a: number; b: number }): number {
return a + b;
}
// Define a function to divide two numbers
function divideNumbers({ a, b }: { a: number; b: number }): number {
return a / b;
}
// Define the parameters of the sum function as a JSON schema
const sumJSON = {
type: "object",
properties: {
a: {
type: "number",
description: "The first number",
},
b: {
type: "number",
description: "The second number",
},
},
required: ["a", "b"],
};
// Define the parameters of the divide function as a JSON schema
const divideJSON = {
type: "object",
properties: {
a: {
type: "number",
description: "The dividend to divide",
},
b: {
type: "number",
description: "The divisor to divide by",
},
},
required: ["a", "b"],
};
async function main() {
// Create a function tool from the sum function
const sumFunctionTool = new FunctionTool(sumNumbers, {
name: "sumNumbers",
description: "Use this function to sum two numbers",
parameters: sumJSON,
});
// Create a function tool from the divide function
const divideFunctionTool = new FunctionTool(divideNumbers, {
name: "divideNumbers",
description: "Use this function to divide two numbers"
parameters: divideJSON,
});
// Create an OpenAIAgent with the function tools
const agent = new OpenAIAgent({
tools: [sumFunctionTool, divideFunctionTool],
verbose: true,
});
// Chat with the agent
const response = await agent.chat({
message: "How much is 5 + 5? then divide by 2",
});
// Print the response
console.log(String(response));
}
main().then(() => {
console.log("Done");
});
```
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---
sidebar_position: 1
---
import CodeBlock from "@theme/CodeBlock";
import CodeSource from "!raw-loader!../../../../examples/chatEngine";
# Chat Engine
Chat Engine is a class that allows you to create a chatbot from a retriever. It is a wrapper around a retriever that allows you to chat with it in a conversational manner.
<CodeBlock language="ts">{CodeSource}</CodeBlock>
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---
sidebar_position: 5
---
# More examples
You can check out more examples in the [examples](https://github.com/run-llama/LlamaIndexTS/tree/main/examples) folder of the repository.
@@ -1,10 +0,0 @@
---
sidebar_position: 4
---
import CodeBlock from "@theme/CodeBlock";
import CodeSource from "!raw-loader!../../../../examples/storageContext";
# Save/Load an Index
<CodeBlock language="ts">{CodeSource}</CodeBlock>
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---
sidebar_position: 3
---
import CodeBlock from "@theme/CodeBlock";
import CodeSource from "!raw-loader!../../../../examples/summaryIndex";
# Summary Index
<CodeBlock language="ts">{CodeSource}</CodeBlock>
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---
sidebar_position: 2
---
import CodeBlock from "@theme/CodeBlock";
import CodeSource from "!raw-loader!../../../../examples/vectorIndex";
# Vector Index
<CodeBlock language="ts">{CodeSource}</CodeBlock>
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label: Getting Started
position: 1
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---
sidebar_position: 0
sidebar_position: 1
---
# Installation and Setup
@@ -58,6 +58,6 @@ Our examples use OpenAI by default. You'll need to set up your Open AI key like
export OPENAI_API_KEY="sk-......" # Replace with your key from https://platform.openai.com/account/api-keys
```
If you want to have it automatically loaded every time, add it to your `.zshrc/.bashrc`.
If you want to have it automatically loaded every time, add it to your .zshrc/.bashrc.
WARNING: do not check in your OpenAI key into version control.
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`npm install llamaindex`
Our documentation includes [Installation Instructions](./getting_started/installation.mdx) and a [Starter Tutorial](./getting_started/starter.md) to build your first application.
Our documentation includes [Installation Instructions](./installation.mdx) and a [Starter Tutorial](./starter.md) to build your first application.
Once you're up and running, [High-Level Concepts](./getting_started/concepts.md) has an overview of LlamaIndex's modular architecture. For more hands-on practical examples, look through our Examples section on the sidebar.
Once you're up and running, [High-Level Concepts](./concepts.md) has an overview of LlamaIndex's modular architecture. For more hands-on practical examples, look through our [End-to-End Tutorials](./end_to_end.md).
## 🗺️ Ecosystem
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label: "Agents"
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# Agents
An “agent” is an automated reasoning and decision engine. It takes in a user input/query and can make internal decisions for executing that query in order to return the correct result. The key agent components can include, but are not limited to:
- Breaking down a complex question into smaller ones
- Choosing an external Tool to use + coming up with parameters for calling the Tool
- Planning out a set of tasks
- Storing previously completed tasks in a memory module
## Getting Started
LlamaIndex.TS comes with a few built-in agents, but you can also create your own. The built-in agents include:
- [OpenAI Agent](./openai.mdx)
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# OpenAI Agent
OpenAI API that supports function calling, its never been easier to build your own agent!
In this notebook tutorial, we showcase how to write your own OpenAI agent
## Setup
First, you need to install the `llamaindex` package. You can do this by running the following command in your terminal:
```bash
pnpm i llamaindex
```
Then we can define a function to sum two numbers and another function to divide two numbers.
```ts
function sumNumbers({ a, b }: { a: number; b: number }): number {
return a + b;
}
// Define a function to divide two numbers
function divideNumbers({ a, b }: { a: number; b: number }): number {
return a / b;
}
```
## Create a function tool
Now we can create a function tool from the sum function and another function tool from the divide function.
For the parameters of the sum function, we can define a JSON schema.
### JSON Schema
```ts
const sumJSON = {
type: "object",
properties: {
a: {
type: "number",
description: "The first number",
},
b: {
type: "number",
description: "The second number",
},
},
required: ["a", "b"],
};
const divideJSON = {
type: "object",
properties: {
a: {
type: "number",
description: "The dividend a to divide",
},
b: {
type: "number",
description: "The divisor b to divide by",
},
},
required: ["a", "b"],
};
const sumFunctionTool = new FunctionTool(sumNumbers, {
name: "sumNumbers",
description: "Use this function to sum two numbers",
parameters: sumJSON,
});
const divideFunctionTool = new FunctionTool(divideNumbers, {
name: "divideNumbers",
description: "Use this function to divide two numbers",
parameters: divideJSON,
});
```
## Create an OpenAIAgent
Now we can create an OpenAIAgent with the function tools.
```ts
const worker = new OpenAIAgent({
tools: [sumFunctionTool, divideFunctionTool],
verbose: true,
});
```
## Chat with the agent
Now we can chat with the agent.
```ts
const response = await worker.chat({
message: "How much is 5 + 5? then divide by 2",
});
console.log(String(response));
```
## Full code
```ts
import { FunctionTool, OpenAIAgent } from "llamaindex";
// Define a function to sum two numbers
function sumNumbers({ a, b }: { a: number; b: number }): number {
return a + b;
}
// Define a function to divide two numbers
function divideNumbers({ a, b }: { a: number; b: number }): number {
return a / b;
}
// Define the parameters of the sum function as a JSON schema
const sumJSON = {
type: "object",
properties: {
a: {
type: "number",
description: "The first number",
},
b: {
type: "number",
description: "The second number",
},
},
required: ["a", "b"],
};
// Define the parameters of the divide function as a JSON schema
const divideJSON = {
type: "object",
properties: {
a: {
type: "number",
description: "The argument a to divide",
},
b: {
type: "number",
description: "The argument b to divide",
},
},
required: ["a", "b"],
};
async function main() {
// Create a function tool from the sum function
const sumFunctionTool = new FunctionTool(sumNumbers, {
name: "sumNumbers",
description: "Use this function to sum two numbers",
parameters: sumJSON,
});
// Create a function tool from the divide function
const divideFunctionTool = new FunctionTool(divideNumbers, {
name: "divideNumbers",
description: "Use this function to divide two numbers",
parameters: divideJSON,
});
// Create an OpenAIAgent with the function tools
const agent = new OpenAIAgent({
tools: [sumFunctionTool, divideFunctionTool],
verbose: true,
});
// Chat with the agent
const response = await agent.chat({
message: "How much is 5 + 5? then divide by 2",
});
// Print the response
console.log(String(response));
}
main().then(() => {
console.log("Done");
});
```
@@ -1,128 +0,0 @@
# OpenAI Agent + QueryEngineTool
QueryEngineTool is a tool that allows you to query a vector index. In this example, we will create a vector index from a set of documents and then create a QueryEngineTool from the vector index. We will then create an OpenAIAgent with the QueryEngineTool and chat with the agent.
## Setup
First, you need to install the `llamaindex` package. You can do this by running the following command in your terminal:
```bash
pnpm i llamaindex
```
Then you can import the necessary classes and functions.
```ts
import {
OpenAIAgent,
SimpleDirectoryReader,
VectorStoreIndex,
QueryEngineTool,
} from "llamaindex";
```
## Create a vector index
Now we can create a vector index from a set of documents.
```ts
// Load the documents
const documents = await new SimpleDirectoryReader().loadData({
directoryPath: "node_modules/llamaindex/examples/",
});
// Create a vector index from the documents
const vectorIndex = await VectorStoreIndex.fromDocuments(documents);
```
## Create a QueryEngineTool
Now we can create a QueryEngineTool from the vector index.
```ts
// Create a query engine from the vector index
const abramovQueryEngine = vectorIndex.asQueryEngine();
// Create a QueryEngineTool with the query engine
const queryEngineTool = new QueryEngineTool({
queryEngine: abramovQueryEngine,
metadata: {
name: "abramov_query_engine",
description: "A query engine for the Abramov documents",
},
});
```
## Create an OpenAIAgent
```ts
// Create an OpenAIAgent with the query engine tool tools
const agent = new OpenAIAgent({
tools: [queryEngineTool],
verbose: true,
});
```
## Chat with the agent
Now we can chat with the agent.
```ts
const response = await agent.chat({
message: "What was his salary?",
});
console.log(String(response));
```
## Full code
```ts
import {
OpenAIAgent,
SimpleDirectoryReader,
VectorStoreIndex,
QueryEngineTool,
} from "llamaindex";
async function main() {
// Load the documents
const documents = await new SimpleDirectoryReader().loadData({
directoryPath: "node_modules/llamaindex/examples/",
});
// Create a vector index from the documents
const vectorIndex = await VectorStoreIndex.fromDocuments(documents);
// Create a query engine from the vector index
const abramovQueryEngine = vectorIndex.asQueryEngine();
// Create a QueryEngineTool with the query engine
const queryEngineTool = new QueryEngineTool({
queryEngine: abramovQueryEngine,
metadata: {
name: "abramov_query_engine",
description: "A query engine for the Abramov documents",
},
});
// Create an OpenAIAgent with the function tools
const agent = new OpenAIAgent({
tools: [queryEngineTool],
verbose: true,
});
// Chat with the agent
const response = await agent.chat({
message: "What was his salary?",
});
// Print the response
console.log(String(response));
}
main().then(() => {
console.log("Done");
});
```
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---
sidebar_position: 4
---
import CodeBlock from "@theme/CodeBlock";
import CodeSource from "!raw-loader!../../../../examples/readers/src/simple-directory-reader";
import CodeSource2 from "!raw-loader!../../../../examples/readers/src/custom-simple-directory-reader";
# Loader
Before you can start indexing your documents, you need to load them into memory.
### SimpleDirectoryReader
[![Open in StackBlitz](https://developer.stackblitz.com/img/open_in_stackblitz.svg)](https://stackblitz.com/github/run-llama/LlamaIndexTS/tree/main/examples/readers?file=src/simple-directory-reader.ts&title=Simple%20Directory%20Reader)
LlamaIndex.TS supports easy loading of files from folders using the `SimpleDirectoryReader` class.
It is a simple reader that reads all files from a directory and its subdirectories.
<CodeBlock language="ts">{CodeSource}</CodeBlock>
Currently, it supports reading `.csv`, `.docx`, `.html`, `.md` and `.pdf` files,
but support for other file types is planned.
Also, you can provide a `defaultReader` as a fallback for files with unsupported extensions.
Or pass new readers for `fileExtToReader` to support more file types.
<CodeBlock language="ts" showLineNumbers metastring="{8-12,17-21}">
{CodeSource2}
</CodeBlock>
## API Reference
- [SimpleDirectoryReader](../api/classes/SimpleDirectoryReader.md)
@@ -1,2 +0,0 @@
label: "Document / Nodes"
position: 0
@@ -1,45 +0,0 @@
# Metadata Extraction Usage Pattern
You can use LLMs to automate metadata extraction with our `Metadata Extractor` modules.
Our metadata extractor modules include the following "feature extractors":
- `SummaryExtractor` - automatically extracts a summary over a set of Nodes
- `QuestionsAnsweredExtractor` - extracts a set of questions that each Node can answer
- `TitleExtractor` - extracts a title over the context of each Node by document and combine them
- `KeywordExtractor` - extracts keywords over the context of each Node
Then you can chain the `Metadata Extractors` with the `IngestionPipeline` to extract metadata from a set of documents.
```ts
import {
IngestionPipeline,
TitleExtractor,
QuestionsAnsweredExtractor,
Document,
OpenAI,
} from "llamaindex";
async function main() {
const pipeline = new IngestionPipeline({
transformations: [
new TitleExtractor(),
new QuestionsAnsweredExtractor({
questions: 5,
}),
],
});
const nodes = await pipeline.run({
documents: [
new Document({ text: "I am 10 years old. John is 20 years old." }),
],
});
for (const node of nodes) {
console.log(node.metadata);
}
}
main().then(() => console.log("done"));
```
@@ -0,0 +1 @@
label: High-Level Modules
@@ -25,5 +25,5 @@ for await (const chunk of stream) {
## Api References
- [ContextChatEngine](../api/classes/ContextChatEngine.md)
- [CondenseQuestionChatEngine](../api/classes/ContextChatEngine.md)
- [ContextChatEngine](../../api/classes/ContextChatEngine.md)
- [CondenseQuestionChatEngine](../../api/classes/ContextChatEngine.md)
@@ -1,5 +1,5 @@
---
sidebar_position: 4
sidebar_position: 2
---
# Index
@@ -19,5 +19,5 @@ const index = await VectorStoreIndex.fromDocuments([document]);
## API Reference
- [SummaryIndex](../api/classes/SummaryIndex.md)
- [VectorStoreIndex](../api/classes/VectorStoreIndex.md)
- [SummaryIndex](../../api/classes/SummaryIndex.md)
- [VectorStoreIndex](../../api/classes/VectorStoreIndex.md)
@@ -0,0 +1,17 @@
---
sidebar_position: 1
---
# Reader / Loader
LlamaIndex.TS supports easy loading of files from folders using the `SimpleDirectoryReader` class. Currently, `.txt`, `.pdf`, `.csv`, `.md` and `.docx` files are supported, with more planned in the future!
```typescript
import { SimpleDirectoryReader } from "llamaindex";
documents = new SimpleDirectoryReader().loadData("./data");
```
## API Reference
- [SimpleDirectoryReader](../../api/classes/SimpleDirectoryReader.md)
@@ -1,5 +1,5 @@
---
sidebar_position: 1
sidebar_position: 0
---
# Documents and Nodes
@@ -14,5 +14,5 @@ document = new Document({ text: "text", metadata: { key: "val" } });
## API Reference
- [Document](../api/classes/Document.md)
- [TextNode](../api/classes/TextNode.md)
- [Document](../../api/classes/Document.md)
- [TextNode](../../api/classes/TextNode.md)
@@ -1,3 +1,7 @@
---
sidebar_position: 3
---
# QueryEngine
A query engine wraps a `Retriever` and a `ResponseSynthesizer` into a pipeline, that will use the query string to fetech nodes and then send them to the LLM to generate a response.
+31
View File
@@ -0,0 +1,31 @@
# Core Modules
LlamaIndex.TS offers several core modules, seperated into high-level modules for quickly getting started, and low-level modules for customizing key components as you need.
## High-Level Modules
- [**Document**](./high_level/documents_and_nodes.md): A document represents a text file, PDF file or other contiguous piece of data.
- [**Node**](./high_level/documents_and_nodes.md): The basic data building block. Most commonly, these are parts of the document split into manageable pieces that are small enough to be fed into an embedding model and LLM.
- [**Reader/Loader**](./high_level/data_loader.md): A reader or loader is something that takes in a document in the real world and transforms into a Document class that can then be used in your Index and queries. We currently support plain text files and PDFs with many many more to come.
- [**Indexes**](./high_level/data_index.md): indexes store the Nodes and the embeddings of those nodes.
- [**QueryEngine**](./high_level/query_engine.md): Query engines are what generate the query you put in and give you back the result. Query engines generally combine a pre-built prompt with selected nodes from your Index to give the LLM the context it needs to answer your query.
- [**ChatEngine**](./high_level/chat_engine.md): A ChatEngine helps you build a chatbot that will interact with your Indexes.
## Low Level Module
- [**LLM**](./low_level/llm.md): The LLM class is a unified interface over a large language model provider such as OpenAI GPT-4, Anthropic Claude, or Meta LLaMA. You can subclass it to write a connector to your own large language model.
- [**Embedding**](./low_level/embedding.md): An embedding is represented as a vector of floating point numbers. OpenAI's text-embedding-ada-002 is our default embedding model and each embedding it generates consists of 1,536 floating point numbers. Another popular embedding model is BERT which uses 768 floating point numbers to represent each Node. We provide a number of utilities to work with embeddings including 3 similarity calculation options and Maximum Marginal Relevance
- [**TextSplitter/NodeParser**](./low_level/node_parser.md): Text splitting strategies are incredibly important to the overall efficacy of the embedding search. Currently, while we do have a default, there's no one size fits all solution. Depending on the source documents, you may want to use different splitting sizes and strategies. Currently we support spliltting by fixed size, splitting by fixed size with overlapping sections, splitting by sentence, and splitting by paragraph. The text splitter is used by the NodeParser when splitting `Document`s into `Node`s.
- [**Retriever**](./low_level/retriever.md): The Retriever is what actually chooses the Nodes to retrieve from the index. Here, you may wish to try retrieving more or fewer Nodes per query, changing your similarity function, or creating your own retriever for each individual use case in your application. For example, you may wish to have a separate retriever for code content vs. text content.
- [**ResponseSynthesizer**](./low_level/response_synthesizer.md): The ResponseSynthesizer is responsible for taking a query string, and using a list of `Node`s to generate a response. This can take many forms, like iterating over all the context and refining an answer, or building a tree of summaries and returning the root summary.
- [**Storage**](./low_level/storage.md): At some point you're going to want to store your indexes, data and vectors instead of re-running the embedding models every time. IndexStore, DocStore, VectorStore, and KVStore are abstractions that let you do that. Combined, they form the StorageContext. Currently, we allow you to persist your embeddings in files on the filesystem (or a virtual in memory file system), but we are also actively adding integrations to Vector Databases.
@@ -1,2 +0,0 @@
label: "Ingestion Pipeline"
position: 2
@@ -1,99 +0,0 @@
# Ingestion Pipeline
An `IngestionPipeline` uses a concept of `Transformations` that are applied to input data.
These `Transformations` are applied to your input data, and the resulting nodes are either returned or inserted into a vector database (if given).
## Usage Pattern
The simplest usage is to instantiate an IngestionPipeline like so:
```ts
import fs from "node:fs/promises";
import {
Document,
IngestionPipeline,
MetadataMode,
OpenAIEmbedding,
TitleExtractor,
SimpleNodeParser,
} from "llamaindex";
async function main() {
// Load essay from abramov.txt in Node
const path = "node_modules/llamaindex/examples/abramov.txt";
const essay = await fs.readFile(path, "utf-8");
// Create Document object with essay
const document = new Document({ text: essay, id_: path });
const pipeline = new IngestionPipeline({
transformations: [
new SimpleNodeParser({ chunkSize: 1024, chunkOverlap: 20 }),
new TitleExtractor(),
new OpenAIEmbedding(),
],
});
// run the pipeline
const nodes = await pipeline.run({ documents: [document] });
// print out the result of the pipeline run
for (const node of nodes) {
console.log(node.getContent(MetadataMode.NONE));
}
}
main().catch(console.error);
```
## Connecting to Vector Databases
When running an ingestion pipeline, you can also chose to automatically insert the resulting nodes into a remote vector store.
Then, you can construct an index from that vector store later on.
```ts
import fs from "node:fs/promises";
import {
Document,
IngestionPipeline,
MetadataMode,
OpenAIEmbedding,
TitleExtractor,
SimpleNodeParser,
QdrantVectorStore,
VectorStoreIndex,
} from "llamaindex";
async function main() {
// Load essay from abramov.txt in Node
const path = "node_modules/llamaindex/examples/abramov.txt";
const essay = await fs.readFile(path, "utf-8");
const vectorStore = new QdrantVectorStore({
host: "http://localhost:6333",
});
// Create Document object with essay
const document = new Document({ text: essay, id_: path });
const pipeline = new IngestionPipeline({
transformations: [
new SimpleNodeParser({ chunkSize: 1024, chunkOverlap: 20 }),
new TitleExtractor(),
new OpenAIEmbedding(),
],
vectorStore,
});
// run the pipeline
const nodes = await pipeline.run({ documents: [document] });
// create an index
const index = VectorStoreIndex.fromVectorStore(vectorStore);
}
main().catch(console.error);
```
@@ -1,77 +0,0 @@
# Transformations
A transformation is something that takes a list of nodes as an input, and returns a list of nodes. Each component that implements the Transformatio class has both a `transform` definition responsible for transforming the nodes
Currently, the following components are Transformation objects:
- [SimpleNodeParser](../api/classes/SimpleNodeParser.md)
- [MetadataExtractor](../documents_and_nodes/metadata_extraction.md)
- Embeddings
## Usage Pattern
While transformations are best used with with an IngestionPipeline, they can also be used directly.
```ts
import { SimpleNodeParser, TitleExtractor, Document } from "llamaindex";
async function main() {
let nodes = new SimpleNodeParser().getNodesFromDocuments([
new Document({ text: "I am 10 years old. John is 20 years old." }),
]);
const titleExtractor = new TitleExtractor();
nodes = await titleExtractor.transform(nodes);
for (const node of nodes) {
console.log(node.getContent(MetadataMode.NONE));
}
}
main().catch(console.error);
```
## Custom Transformations
You can implement any transformation yourself by implementing the `TransformerComponent`.
The following custom transformation will remove any special characters or punctutaion in text.
```ts
import { TransformerComponent, Node } from "llamaindex";
class RemoveSpecialCharacters extends TransformerComponent {
async transform(nodes: Node[]): Promise<Node[]> {
for (const node of nodes) {
node.text = node.text.replace(/[^\w\s]/gi, "");
}
return nodes;
}
}
```
These can then be used directly or in any IngestionPipeline.
```ts
import { IngestionPipeline, Document } from "llamaindex";
async function main() {
const pipeline = new IngestionPipeline({
transformations: [new RemoveSpecialCharacters()],
});
const nodes = await pipeline.run({
documents: [
new Document({ text: "I am 10 years old. John is 20 years old." }),
],
});
for (const node of nodes) {
console.log(node.getContent(MetadataMode.NONE));
}
}
main().catch(console.error);
```
@@ -1,2 +0,0 @@
label: "LLMs"
position: 3
@@ -1 +0,0 @@
label: "Available LLMs"
@@ -1,80 +0,0 @@
# Anthropic
## Usage
```ts
import { Anthropic, serviceContextFromDefaults } from "llamaindex";
const anthropicLLM = new Anthropic({
apiKey: "<YOUR_API_KEY>",
});
const serviceContext = serviceContextFromDefaults({ llm: anthropicLLM });
```
## Load and index documents
For this example, we will use a single document. In a real-world scenario, you would have multiple documents to index.
```ts
const document = new Document({ text: essay, id_: "essay" });
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
```
## Query
```ts
const queryEngine = index.asQueryEngine();
const query = "What is the meaning of life?";
const results = await queryEngine.query({
query,
});
```
## Full Example
```ts
import {
Anthropic,
Document,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
async function main() {
// Create an instance of the Anthropic LLM
const anthropicLLM = new Anthropic({
apiKey: "<YOUR_API_KEY>",
});
// Create a service context
const serviceContext = serviceContextFromDefaults({ llm: anthropicLLM });
const document = new Document({ text: essay, id_: "essay" });
// Load and index documents
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
// Create a query engine
const queryEngine = index.asQueryEngine({
retriever,
});
const query = "What is the meaning of life?";
// Query
const response = await queryEngine.query({
query,
});
// Log the response
console.log(response.response);
}
```
@@ -1,88 +0,0 @@
# Azure OpenAI
To use Azure OpenAI, you only need to set a few environment variables together with the `OpenAI` class.
For example:
## Environment Variables
```
export AZURE_OPENAI_KEY="<YOUR KEY HERE>"
export AZURE_OPENAI_ENDPOINT="<YOUR ENDPOINT, see https://learn.microsoft.com/en-us/azure/ai-services/openai/quickstart?tabs=command-line%2Cpython&pivots=rest-api>"
export AZURE_OPENAI_DEPLOYMENT="gpt-4" # or some other deployment name
```
## Usage
```ts
import { OpenAI, serviceContextFromDefaults } from "llamaindex";
const azureOpenaiLLM = new OpenAI({ model: "gpt-4", temperature: 0 });
const serviceContext = serviceContextFromDefaults({ llm: azureOpenaiLLM });
```
## Load and index documents
For this example, we will use a single document. In a real-world scenario, you would have multiple documents to index.
```ts
const document = new Document({ text: essay, id_: "essay" });
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
```
## Query
```ts
const queryEngine = index.asQueryEngine();
const query = "What is the meaning of life?";
const results = await queryEngine.query({
query,
});
```
## Full Example
```ts
import {
Anthropic,
Document,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
async function main() {
// Create an instance of the LLM
const azureOpenaiLLM = new OpenAI({ model: "gpt-4", temperature: 0 });
// Create a service context
const serviceContext = serviceContextFromDefaults({ llm: azureOpenaiLLM });
const document = new Document({ text: essay, id_: "essay" });
// Load and index documents
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
// Create a query engine
const queryEngine = index.asQueryEngine({
retriever,
});
const query = "What is the meaning of life?";
// Query
const response = await queryEngine.query({
query,
});
// Log the response
console.log(response.response);
}
```
@@ -1,97 +0,0 @@
# LLama2
## Usage
```ts
import { Ollama, serviceContextFromDefaults } from "llamaindex";
const llama2LLM = new LlamaDeuce({ chatStrategy: DeuceChatStrategy.META });
const serviceContext = serviceContextFromDefaults({ llm: llama2LLM });
```
## Usage with Replication
```ts
import {
Ollama,
ReplicateSession,
serviceContextFromDefaults,
} from "llamaindex";
const replicateSession = new ReplicateSession({
replicateKey,
});
const llama2LLM = new LlamaDeuce({
chatStrategy: DeuceChatStrategy.META,
replicateSession,
});
const serviceContext = serviceContextFromDefaults({ llm: llama2LLM });
```
## Load and index documents
For this example, we will use a single document. In a real-world scenario, you would have multiple documents to index.
```ts
const document = new Document({ text: essay, id_: "essay" });
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
```
## Query
```ts
const queryEngine = index.asQueryEngine();
const query = "What is the meaning of life?";
const results = await queryEngine.query({
query,
});
```
## Full Example
```ts
import {
Anthropic,
Document,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
async function main() {
// Create an instance of the LLM
const llama2LLM = new LlamaDeuce({ chatStrategy: DeuceChatStrategy.META });
// Create a service context
const serviceContext = serviceContextFromDefaults({ llm: mistralLLM });
const document = new Document({ text: essay, id_: "essay" });
// Load and index documents
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
// Create a query engine
const queryEngine = index.asQueryEngine({
retriever,
});
const query = "What is the meaning of life?";
// Query
const response = await queryEngine.query({
query,
});
// Log the response
console.log(response.response);
}
```
@@ -1,79 +0,0 @@
# Mistral
## Usage
```ts
import { Ollama, serviceContextFromDefaults } from "llamaindex";
const mistralLLM = new MistralAI({
model: "mistral-tiny",
apiKey: "<YOUR_API_KEY>",
});
const serviceContext = serviceContextFromDefaults({ llm: mistralLLM });
```
## Load and index documents
For this example, we will use a single document. In a real-world scenario, you would have multiple documents to index.
```ts
const document = new Document({ text: essay, id_: "essay" });
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
```
## Query
```ts
const queryEngine = index.asQueryEngine();
const query = "What is the meaning of life?";
const results = await queryEngine.query({
query,
});
```
## Full Example
```ts
import {
Anthropic,
Document,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
async function main() {
// Create an instance of the LLM
const mistralLLM = new MistralAI({ model: "mistral-tiny" });
// Create a service context
const serviceContext = serviceContextFromDefaults({ llm: mistralLLM });
const document = new Document({ text: essay, id_: "essay" });
// Load and index documents
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
// Create a query engine
const queryEngine = index.asQueryEngine({
retriever,
});
const query = "What is the meaning of life?";
// Query
const response = await queryEngine.query({
query,
});
// Log the response
console.log(response.response);
}
```
@@ -1,76 +0,0 @@
# Ollama
## Usage
```ts
import { Ollama, serviceContextFromDefaults } from "llamaindex";
const ollamaLLM = new Ollama({ model: "llama2", temperature: 0.75 });
const serviceContext = serviceContextFromDefaults({ llm: ollamaLLM });
```
## Load and index documents
For this example, we will use a single document. In a real-world scenario, you would have multiple documents to index.
```ts
const document = new Document({ text: essay, id_: "essay" });
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
```
## Query
```ts
const queryEngine = index.asQueryEngine();
const query = "What is the meaning of life?";
const results = await queryEngine.query({
query,
});
```
## Full Example
```ts
import {
Anthropic,
Document,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
async function main() {
// Create an instance of the LLM
const ollamaLLM = new Ollama({ model: "llama2", temperature: 0.75 });
// Create a service context
const serviceContext = serviceContextFromDefaults({ llm: ollamaLLM });
const document = new Document({ text: essay, id_: "essay" });
// Load and index documents
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
// Create a query engine
const queryEngine = index.asQueryEngine({
retriever,
});
const query = "What is the meaning of life?";
// Query
const response = await queryEngine.query({
query,
});
// Log the response
console.log(response.response);
}
```
@@ -1,80 +0,0 @@
# OpenAI
```ts
import { OpenAI, serviceContextFromDefaults } from "llamaindex";
const openaiLLM = new OpenAI({ model: "gpt-3.5-turbo", temperature: 0, apiKey: <YOUR_API_KEY> });
const serviceContext = serviceContextFromDefaults({ llm: openaiLLM });
```
You can setup the apiKey on the environment variables, like:
```bash
export OPENAI_API_KEY="<YOUR_API_KEY>"
```
## Load and index documents
For this example, we will use a single document. In a real-world scenario, you would have multiple documents to index.
```ts
const document = new Document({ text: essay, id_: "essay" });
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
```
## Query
```ts
const queryEngine = index.asQueryEngine();
const query = "What is the meaning of life?";
const results = await queryEngine.query({
query,
});
```
## Full Example
```ts
import {
Anthropic,
Document,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
async function main() {
// Create an instance of the LLM
const openaiLLM = new OpenAI({ model: "gpt-3.5-turbo", temperature: 0 });
// Create a service context
const serviceContext = serviceContextFromDefaults({ llm: openaiLLM });
const document = new Document({ text: essay, id_: "essay" });
// Load and index documents
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
// Create a query engine
const queryEngine = index.asQueryEngine({
retriever,
});
const query = "What is the meaning of life?";
// Query
const response = await queryEngine.query({
query,
});
// Log the response
console.log(response.response);
}
```
@@ -1,80 +0,0 @@
# Portkey LLM
## Usage
```ts
import { Portkey, serviceContextFromDefaults } from "llamaindex";
const portkeyLLM = new Portkey({
apiKey: "<YOUR_API_KEY>",
});
const serviceContext = serviceContextFromDefaults({ llm: portkeyLLM });
```
## Load and index documents
For this example, we will use a single document. In a real-world scenario, you would have multiple documents to index.
```ts
const document = new Document({ text: essay, id_: "essay" });
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
```
## Query
```ts
const queryEngine = index.asQueryEngine();
const query = "What is the meaning of life?";
const results = await queryEngine.query({
query,
});
```
## Full Example
```ts
import {
Anthropic,
Document,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
async function main() {
// Create an instance of the LLM
const portkeyLLM = new Portkey({
apiKey: "<YOUR_API_KEY>",
});
// Create a service context
const serviceContext = serviceContextFromDefaults({ llm: portkeyLLM });
const document = new Document({ text: essay, id_: "essay" });
// Load and index documents
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
// Create a query engine
const queryEngine = index.asQueryEngine({
retriever,
});
const query = "What is the meaning of life?";
// Query
const response = await queryEngine.query({
query,
});
// Log the response
console.log(response.response);
}
```
@@ -1,80 +0,0 @@
# Together LLM
## Usage
```ts
import { TogetherLLM, serviceContextFromDefaults } from "llamaindex";
const togetherLLM = new TogetherLLM({
apiKey: "<YOUR_API_KEY>",
});
const serviceContext = serviceContextFromDefaults({ llm: togetherLLM });
```
## Load and index documents
For this example, we will use a single document. In a real-world scenario, you would have multiple documents to index.
```ts
const document = new Document({ text: essay, id_: "essay" });
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
```
## Query
```ts
const queryEngine = index.asQueryEngine();
const query = "What is the meaning of life?";
const results = await queryEngine.query({
query,
});
```
## Full Example
```ts
import {
Anthropic,
Document,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
async function main() {
// Create an instance of the LLM
const togetherLLM = new TogetherLLM({
apiKey: "<YOUR_API_KEY>",
});
// Create a service context
const serviceContext = serviceContextFromDefaults({ llm: togetherLLM });
const document = new Document({ text: essay, id_: "essay" });
// Load and index documents
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
// Create a query engine
const queryEngine = index.asQueryEngine({
retriever,
});
const query = "What is the meaning of life?";
// Query
const response = await queryEngine.query({
query,
});
// Log the response
console.log(response.response);
}
```
-34
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@@ -1,34 +0,0 @@
---
sidebar_position: 3
---
# Large Language Models (LLMs)
The LLM is responsible for reading text and generating natural language responses to queries. By default, LlamaIndex.TS uses `gpt-3.5-turbo`.
The LLM can be explicitly set in the `ServiceContext` object.
```typescript
import { OpenAI, serviceContextFromDefaults } from "llamaindex";
const openaiLLM = new OpenAI({ model: "gpt-3.5-turbo", temperature: 0 });
const serviceContext = serviceContextFromDefaults({ llm: openaiLLM });
```
## Azure OpenAI
To use Azure OpenAI, you only need to set a few environment variables.
For example:
```
export AZURE_OPENAI_KEY="<YOUR KEY HERE>"
export AZURE_OPENAI_ENDPOINT="<YOUR ENDPOINT, see https://learn.microsoft.com/en-us/azure/ai-services/openai/quickstart?tabs=command-line%2Cpython&pivots=rest-api>"
export AZURE_OPENAI_DEPLOYMENT="gpt-4" # or some other deployment name
```
## API Reference
- [OpenAI](../api/classes/OpenAI.md)
- [ServiceContext](../api/interfaces//ServiceContext.md)
@@ -0,0 +1 @@
label: Low-Level Modules
@@ -1,5 +1,5 @@
---
sidebar_position: 4
sidebar_position: 1
---
# Embedding
@@ -18,5 +18,5 @@ const serviceContext = serviceContextFromDefaults({ embedModel: openaiEmbeds });
## API Reference
- [OpenAIEmbedding](../api/classes/OpenAIEmbedding.md)
- [ServiceContext](../api/interfaces//ServiceContext.md)
- [OpenAIEmbedding](../../api/classes/OpenAIEmbedding.md)
- [ServiceContext](../../api/interfaces/ServiceContext.md)
+22
View File
@@ -0,0 +1,22 @@
---
sidebar_position: 0
---
# LLM
The LLM is responsible for reading text and generating natural language responses to queries. By default, LlamaIndex.TS uses `gpt-3.5-turbo`.
The LLM can be explicitly set in the `ServiceContext` object.
```typescript
import { OpenAI, serviceContextFromDefaults } from "llamaindex";
const openaiLLM = new OpenAI({ model: "gpt-3.5-turbo", temperature: 0 });
const serviceContext = serviceContextFromDefaults({ llm: openaiLLM });
```
## API Reference
- [OpenAI](../../api/classes/OpenAI.md)
- [ServiceContext](../../api/interfaces/ServiceContext.md)
@@ -1,10 +1,10 @@
---
sidebar_position: 4
sidebar_position: 3
---
# NodeParser
The `NodeParser` in LlamaIndex is responsible for splitting `Document` objects into more manageable `Node` objects. When you call `.fromDocuments()`, the `NodeParser` from the `ServiceContext` is used to do this automatically for you. Alternatively, you can use it to split documents ahead of time.
The `NodeParser` in LlamaIndex is responbile for splitting `Document` objects into more manageable `Node` objects. When you call `.fromDocuments()`, the `NodeParser` from the `ServiceContext` is used to do this automatically for you. Alternatively, you can use it to split documents ahead of time.
```typescript
import { Document, SimpleNodeParser } from "llamaindex";
@@ -29,5 +29,5 @@ const textSplits = splitter.splitText("Hello World");
## API Reference
- [SimpleNodeParser](../api/classes/SimpleNodeParser.md)
- [SentenceSplitter](../api/classes/SentenceSplitter.md)
- [SimpleNodeParser](../../api/classes/SimpleNodeParser.md)
- [SentenceSplitter](../../api/classes/SentenceSplitter.md)
@@ -57,8 +57,8 @@ for await (const chunk of stream) {
## API Reference
- [ResponseSynthesizer](../api/classes/ResponseSynthesizer.md)
- [Refine](../api/classes/Refine.md)
- [CompactAndRefine](../api/classes/CompactAndRefine.md)
- [TreeSummarize](../api/classes/TreeSummarize.md)
- [SimpleResponseBuilder](../api/classes/SimpleResponseBuilder.md)
- [ResponseSynthesizer](../../api/classes/ResponseSynthesizer.md)
- [Refine](../../api/classes/Refine.md)
- [CompactAndRefine](../../api/classes/CompactAndRefine.md)
- [TreeSummarize](../../api/classes/TreeSummarize.md)
- [SimpleResponseBuilder](../../api/classes/SimpleResponseBuilder.md)
@@ -16,6 +16,6 @@ const nodesWithScore = await retriever.retrieve("query string");
## API Reference
- [SummaryIndexRetriever](../api/classes/SummaryIndexRetriever.md)
- [SummaryIndexLLMRetriever](../api/classes/SummaryIndexLLMRetriever.md)
- [VectorIndexRetriever](../api/classes/VectorIndexRetriever.md)
- [SummaryIndexRetriever](../../api/classes/SummaryIndexRetriever.md)
- [SummaryIndexLLMRetriever](../../api/classes/SummaryIndexLLMRetriever.md)
- [VectorIndexRetriever](../../api/classes/VectorIndexRetriever.md)
@@ -23,4 +23,4 @@ const index = await VectorStoreIndex.fromDocuments([document], {
## API Reference
- [StorageContext](../api/interfaces//StorageContext.md)
- [StorageContext](../../api/interfaces/StorageContext.md)
@@ -1,2 +0,0 @@
label: "Node Postprocessors"
position: 3
@@ -1,71 +0,0 @@
# Cohere Reranker
The Cohere Reranker is a postprocessor that uses the Cohere API to rerank the results of a search query.
## Setup
Firstly, you will need to install the `llamaindex` package.
```bash
pnpm install llamaindex
```
Now, you will need to sign up for an API key at [Cohere](https://cohere.ai/). Once you have your API key you can import the necessary modules and create a new instance of the `CohereRerank` class.
```ts
import {
CohereRerank,
Document,
OpenAI,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
```
## Load and index documents
For this example, we will use a single document. In a real-world scenario, you would have multiple documents to index.
```ts
const document = new Document({ text: essay, id_: "essay" });
const serviceContext = serviceContextFromDefaults({
llm: new OpenAI({ model: "gpt-3.5-turbo", temperature: 0.1 }),
});
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
```
## Increase similarity topK to retrieve more results
The default value for `similarityTopK` is 2. This means that only the most similar document will be returned. To retrieve more results, you can increase the value of `similarityTopK`.
```ts
const retriever = index.asRetriever();
retriever.similarityTopK = 5;
```
## Create a new instance of the CohereRerank class
Then you can create a new instance of the `CohereRerank` class and pass in your API key and the number of results you want to return.
```ts
const nodePostprocessor = new CohereRerank({
apiKey: "<COHERE_API_KEY>",
topN: 4,
});
```
## Create a query engine with the retriever and node postprocessor
```ts
const queryEngine = index.asQueryEngine({
retriever,
nodePostprocessors: [nodePostprocessor],
});
// log the response
const response = await queryEngine.query("Where did the author grown up?");
```
@@ -1,110 +0,0 @@
# Node Postprocessors
## Concept
Node postprocessors are a set of modules that take a set of nodes, and apply some kind of transformation or filtering before returning them.
In LlamaIndex, node postprocessors are most commonly applied within a query engine, after the node retrieval step and before the response synthesis step.
LlamaIndex offers several node postprocessors for immediate use, while also providing a simple API for adding your own custom postprocessors.
## Usage Pattern
An example of using a node postprocessors is below:
```ts
import {
Node,
NodeWithScore,
SimilarityPostprocessor,
CohereRerank,
} from "llamaindex";
const nodes: NodeWithScore[] = [
{
node: new TextNode({ text: "hello world" }),
score: 0.8,
},
{
node: new TextNode({ text: "LlamaIndex is the best" }),
score: 0.6,
},
];
// similarity postprocessor: filter nodes below 0.75 similarity score
const processor = new SimilarityPostprocessor({
similarityCutoff: 0.7,
});
const filteredNodes = processor.postprocessNodes(nodes);
// cohere rerank: rerank nodes given query using trained model
const reranker = new CohereRerank({
apiKey: "<COHERE_API_KEY>",
topN: 2,
});
const rerankedNodes = await reranker.postprocessNodes(nodes, "<user_query>");
console.log(filteredNodes, rerankedNodes);
```
Now you can use the `filteredNodes` and `rerankedNodes` in your application.
## Using Node Postprocessors in LlamaIndex
Most commonly, node-postprocessors will be used in a query engine, where they are applied to the nodes returned from a retriever, and before the response synthesis step.
### Using Node Postprocessors in a Query Engine
```ts
import { Node, NodeWithScore, SimilarityPostprocessor, CohereRerank } from "llamaindex";
const nodes: NodeWithScore[] = [
{
node: new TextNode({ text: "hello world" }),
score: 0.8,
},
{
node: new TextNode({ text: "LlamaIndex is the best" }),
score: 0.6,
}
];
// cohere rerank: rerank nodes given query using trained model
const reranker = new CohereRerank({
apiKey: "<COHERE_API_KEY>,
topN: 2,
})
const document = new Document({ text: "essay", id_: "essay" });
const serviceContext = serviceContextFromDefaults({
llm: new OpenAI({ model: "gpt-3.5-turbo", temperature: 0.1 }),
});
const index = await VectorStoreIndex.fromDocuments([document], {
serviceContext,
});
const queryEngine = index.asQueryEngine({
nodePostprocessors: [processor, reranker],
});
// all node post-processors will be applied during each query
const response = await queryEngine.query("<user_query>");
```
### Using with retrieved nodes
```ts
import { SimilarityPostprocessor } from "llamaindex";
nodes = await index.asRetriever().retrieve("test query str");
const processor = new SimilarityPostprocessor({
similarityCutoff: 0.7,
});
const filteredNodes = processor.postprocessNodes(nodes);
```
@@ -1,2 +1 @@
label: Observability
position: 5
@@ -1,2 +0,0 @@
label: "Query Engines"
position: 2
@@ -1,152 +0,0 @@
# Metadata Filtering
Metadata filtering is a way to filter the documents that are returned by a query based on the metadata associated with the documents. This is useful when you want to filter the documents based on some metadata that is not part of the document text.
You can also check our multi-tenancy blog post to see how metadata filtering can be used in a multi-tenant environment. [https://blog.llamaindex.ai/building-multi-tenancy-rag-system-with-llamaindex-0d6ab4e0c44b] (the article uses the Python version of LlamaIndex, but the concepts are the same).
## Setup
Firstly if you haven't already, you need to install the `llamaindex` package:
```bash
pnpm i llamaindex
```
Then you can import the necessary modules from `llamaindex`:
```ts
import {
ChromaVectorStore,
Document,
VectorStoreIndex,
storageContextFromDefaults,
} from "llamaindex";
const collectionName = "dog_colors";
```
## Creating documents with metadata
You can create documents with metadata using the `Document` class:
```ts
const docs = [
new Document({
text: "The dog is brown",
metadata: {
color: "brown",
dogId: "1",
},
}),
new Document({
text: "The dog is red",
metadata: {
color: "red",
dogId: "2",
},
}),
];
```
## Creating a ChromaDB vector store
You can create a `ChromaVectorStore` to store the documents:
```ts
const chromaVS = new ChromaVectorStore({ collectionName });
const serviceContext = await storageContextFromDefaults({
vectorStore: chromaVS,
});
const index = await VectorStoreIndex.fromDocuments(docs, {
storageContext: serviceContext,
});
```
## Querying the index with metadata filtering
Now you can query the index with metadata filtering using the `preFilters` option:
```ts
const queryEngine = index.asQueryEngine({
preFilters: {
filters: [
{
key: "dogId",
value: "2",
filterType: "ExactMatch",
},
],
},
});
const response = await queryEngine.query({
query: "What is the color of the dog?",
});
console.log(response.toString());
```
## Full Code
```ts
import {
ChromaVectorStore,
Document,
VectorStoreIndex,
storageContextFromDefaults,
} from "llamaindex";
const collectionName = "dog_colors";
async function main() {
try {
const docs = [
new Document({
text: "The dog is brown",
metadata: {
color: "brown",
dogId: "1",
},
}),
new Document({
text: "The dog is red",
metadata: {
color: "red",
dogId: "2",
},
}),
];
console.log("Creating ChromaDB vector store");
const chromaVS = new ChromaVectorStore({ collectionName });
const ctx = await storageContextFromDefaults({ vectorStore: chromaVS });
console.log("Embedding documents and adding to index");
const index = await VectorStoreIndex.fromDocuments(docs, {
storageContext: ctx,
});
console.log("Querying index");
const queryEngine = index.asQueryEngine({
preFilters: {
filters: [
{
key: "dogId",
value: "2",
filterType: "ExactMatch",
},
],
},
});
const response = await queryEngine.query({
query: "What is the color of the dog?",
});
console.log(response.toString());
} catch (e) {
console.error(e);
}
}
main();
```
@@ -1,189 +0,0 @@
# Router Query Engine
In this tutorial, we define a custom router query engine that selects one out of several candidate query engines to execute a query.
## Setup
First, we need to install import the necessary modules from `llamaindex`:
```bash
pnpm i lamaindex
```
```ts
import {
OpenAI,
RouterQueryEngine,
SimpleDirectoryReader,
SimpleNodeParser,
SummaryIndex,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
```
## Loading Data
Next, we need to load some data. We will use the `SimpleDirectoryReader` to load documents from a directory:
```ts
const documents = await new SimpleDirectoryReader().loadData({
directoryPath: "node_modules/llamaindex/examples",
});
```
## Service Context
Next, we need to define some basic rules and parse the documents into nodes. We will use the `SimpleNodeParser` to parse the documents into nodes and `ServiceContext` to define the rules (eg. LLM API key, chunk size, etc.):
```ts
const nodeParser = new SimpleNodeParser({
chunkSize: 1024,
});
const serviceContext = serviceContextFromDefaults({
nodeParser,
llm: new OpenAI(),
});
```
## Creating Indices
Next, we need to create some indices. We will create a `VectorStoreIndex` and a `SummaryIndex`:
```ts
const vectorIndex = await VectorStoreIndex.fromDocuments(documents, {
serviceContext,
});
const summaryIndex = await SummaryIndex.fromDocuments(documents, {
serviceContext,
});
```
## Creating Query Engines
Next, we need to create some query engines. We will create a `VectorStoreQueryEngine` and a `SummaryQueryEngine`:
```ts
const vectorQueryEngine = vectorIndex.asQueryEngine();
const summaryQueryEngine = summaryIndex.asQueryEngine();
```
## Creating a Router Query Engine
Next, we need to create a router query engine. We will use the `RouterQueryEngine` to create a router query engine:
We're defining two query engines, one for summarization and one for retrieving specific context. The router query engine will select the most appropriate query engine based on the query.
```ts
const queryEngine = RouterQueryEngine.fromDefaults({
queryEngineTools: [
{
queryEngine: vectorQueryEngine,
description: "Useful for summarization questions related to Abramov",
},
{
queryEngine: summaryQueryEngine,
description: "Useful for retrieving specific context from Abramov",
},
],
serviceContext,
});
```
## Querying the Router Query Engine
Finally, we can query the router query engine:
```ts
const summaryResponse = await queryEngine.query({
query: "Give me a summary about his past experiences?",
});
console.log({
answer: summaryResponse.response,
metadata: summaryResponse?.metadata?.selectorResult,
});
```
## Full code
```ts
import {
OpenAI,
RouterQueryEngine,
SimpleDirectoryReader,
SimpleNodeParser,
SummaryIndex,
VectorStoreIndex,
serviceContextFromDefaults,
} from "llamaindex";
async function main() {
// Load documents from a directory
const documents = await new SimpleDirectoryReader().loadData({
directoryPath: "node_modules/llamaindex/examples",
});
// Parse the documents into nodes
const nodeParser = new SimpleNodeParser({
chunkSize: 1024,
});
// Create a service context
const serviceContext = serviceContextFromDefaults({
nodeParser,
llm: new OpenAI(),
});
// Create indices
const vectorIndex = await VectorStoreIndex.fromDocuments(documents, {
serviceContext,
});
const summaryIndex = await SummaryIndex.fromDocuments(documents, {
serviceContext,
});
// Create query engines
const vectorQueryEngine = vectorIndex.asQueryEngine();
const summaryQueryEngine = summaryIndex.asQueryEngine();
// Create a router query engine
const queryEngine = RouterQueryEngine.fromDefaults({
queryEngineTools: [
{
queryEngine: vectorQueryEngine,
description: "Useful for summarization questions related to Abramov",
},
{
queryEngine: summaryQueryEngine,
description: "Useful for retrieving specific context from Abramov",
},
],
serviceContext,
});
// Query the router query engine
const summaryResponse = await queryEngine.query({
query: "Give me a summary about his past experiences?",
});
console.log({
answer: summaryResponse.response,
metadata: summaryResponse?.metadata?.selectorResult,
});
const specificResponse = await queryEngine.query({
query: "Tell me about abramov first job?",
});
console.log({
answer: specificResponse.response,
metadata: specificResponse.metadata.selectorResult,
});
}
main().then(() => console.log("Done"));
```
@@ -1,2 +0,0 @@
label: "Vector Stores"
position: 1
@@ -1,86 +0,0 @@
# Qdrant Vector Store
To run this example, you need to have a Qdrant instance running. You can run it with Docker:
```bash
docker pull qdrant/qdrant
docker run -p 6333:6333 qdrant/qdrant
```
## Importing the modules
```ts
import fs from "node:fs/promises";
import { Document, VectorStoreIndex, QdrantVectorStore } from "llamaindex";
```
## Load the documents
```ts
const path = "node_modules/llamaindex/examples/abramov.txt";
const essay = await fs.readFile(path, "utf-8");
```
## Setup Qdrant
```ts
const vectorStore = new QdrantVectorStore({
url: "http://localhost:6333",
});
```
## Setup the index
```ts
const document = new Document({ text: essay, id_: path });
const index = await VectorStoreIndex.fromDocuments([document], {
vectorStore,
});
```
## Query the index
```ts
const queryEngine = index.asQueryEngine();
const response = await queryEngine.query({
query: "What did the author do in college?",
});
// Output response
console.log(response.toString());
```
## Full code
```ts
import fs from "node:fs/promises";
import { Document, VectorStoreIndex, QdrantVectorStore } from "llamaindex";
async function main() {
const path = "node_modules/llamaindex/examples/abramov.txt";
const essay = await fs.readFile(path, "utf-8");
const vectorStore = new QdrantVectorStore({
url: "http://localhost:6333",
});
const document = new Document({ text: essay, id_: path });
const index = await VectorStoreIndex.fromDocuments([document], {
vectorStore,
});
const queryEngine = index.asQueryEngine();
const response = await queryEngine.query({
query: "What did the author do in college?",
});
// Output response
console.log(response.toString());
}
main().catch(console.error);
```
@@ -1,5 +1,5 @@
---
sidebar_position: 1
sidebar_position: 2
---
# Starter Tutorial
@@ -36,9 +36,9 @@ async function main() {
// Query the index
const queryEngine = index.asQueryEngine();
const response = await queryEngine.query({
query: "What did the author do in college?",
});
const response = await queryEngine.query(
"What did the author do in college?",
);
// Output response
console.log(response.toString());
@@ -41,7 +41,7 @@ LlamaIndex.TS هو إطار بيانات لتطبيقات LLM لاستيعاب
تتضمن وثائقنا [تعليمات التثبيت](./installation.mdx) و[دليل البداية](./starter.md) لبناء تطبيقك الأول.
بمجرد أن تكون جاهزًا وتعمل ، يحتوي [مفاهيم عالية المستوى](./getting_started/concepts.md) على نظرة عامة على الهندسة المعمارية المتعددة المستويات لـ LlamaIndex. لمزيد من الأمثلة العملية التفصيلية ، يمكنك الاطلاع على [دروس النهاية إلى النهاية](./end_to_end.md).
بمجرد أن تكون جاهزًا وتعمل ، يحتوي [مفاهيم عالية المستوى](./concepts.md) على نظرة عامة على الهندسة المعمارية المتعددة المستويات لـ LlamaIndex. لمزيد من الأمثلة العملية التفصيلية ، يمكنك الاطلاع على [دروس النهاية إلى النهاية](./end_to_end.md).
## 🗺️ النظام البيئي
@@ -43,7 +43,7 @@ LlamaIndex.TS предоставя основен набор от инструм
Документацията ни включва [Инструкции за инсталиране](./installation.mdx) и [Урок за начинаещи](./starter.md), за да построите първото си приложение.
След като сте готови, [Високо ниво концепции](./getting_started/concepts.md) представя общ преглед на модулната архитектура на LlamaIndex. За повече практически примери, разгледайте нашите [Уроци от начало до край](./end_to_end.md).
След като сте готови, [Високо ниво концепции](./concepts.md) представя общ преглед на модулната архитектура на LlamaIndex. За повече практически примери, разгледайте нашите [Уроци от начало до край](./end_to_end.md).
## 🗺️ Екосистема
@@ -41,7 +41,7 @@ Per a aplicacions més complexes, les nostres API de nivell inferior permeten al
La nostra documentació inclou [Instruccions d'Instal·lació](./installation.mdx) i un [Tutorial d'Inici](./starter.md) per a construir la vostra primera aplicació.
Un cop tingueu tot a punt, [Conceptes de Nivell Alt](./getting_started/concepts.md) ofereix una visió general de l'arquitectura modular de LlamaIndex. Per a més exemples pràctics, consulteu els nostres [Tutorials de Principi a Fi](./end_to_end.md).
Un cop tingueu tot a punt, [Conceptes de Nivell Alt](./concepts.md) ofereix una visió general de l'arquitectura modular de LlamaIndex. Per a més exemples pràctics, consulteu els nostres [Tutorials de Principi a Fi](./end_to_end.md).
## 🗺️ Ecosistema
@@ -41,7 +41,7 @@ Pro složitější aplikace naše API na nižší úrovni umožňuje pokročilý
Naše dokumentace obsahuje [Návod k instalaci](./installation.mdx) a [Úvodní tutoriál](./starter.md) pro vytvoření vaší první aplikace.
Jakmile jste připraveni, [Vysokoúrovňové koncepty](./getting_started/concepts.md) poskytují přehled o modulární architektuře LlamaIndexu. Pro více praktických příkladů se podívejte na naše [Tutoriály od začátku do konce](./end_to_end.md).
Jakmile jste připraveni, [Vysokoúrovňové koncepty](./concepts.md) poskytují přehled o modulární architektuře LlamaIndexu. Pro více praktických příkladů se podívejte na naše [Tutoriály od začátku do konce](./end_to_end.md).
## 🗺️ Ekosystém
@@ -41,7 +41,7 @@ Til mere komplekse applikationer giver vores API'er på lavere niveau avancerede
Vores dokumentation inkluderer [Installationsinstruktioner](./installation.mdx) og en [Starter Tutorial](./starter.md) til at bygge din første applikation.
Når du er i gang, giver [Højniveaukoncepter](./getting_started/concepts.md) et overblik over LlamaIndex's modulære arkitektur. For flere praktiske eksempler, kan du kigge igennem vores [End-to-End Tutorials](./end_to_end.md).
Når du er i gang, giver [Højniveaukoncepter](./concepts.md) et overblik over LlamaIndex's modulære arkitektur. For flere praktiske eksempler, kan du kigge igennem vores [End-to-End Tutorials](./end_to_end.md).
## 🗺️ Økosystem
@@ -41,7 +41,7 @@ Für komplexere Anwendungen ermöglichen unsere APIs auf niedrigerer Ebene fortg
Unsere Dokumentation enthält [Installationsanweisungen](./installation.mdx) und ein [Einführungstutorial](./starter.md), um Ihre erste Anwendung zu erstellen.
Sobald Sie bereit sind, bietet [High-Level-Konzepte](./getting_started/concepts.md) einen Überblick über die modulare Architektur von LlamaIndex. Für praktische Beispiele schauen Sie sich unsere [End-to-End-Tutorials](./end_to_end.md) an.
Sobald Sie bereit sind, bietet [High-Level-Konzepte](./concepts.md) einen Überblick über die modulare Architektur von LlamaIndex. Für praktische Beispiele schauen Sie sich unsere [End-to-End-Tutorials](./end_to_end.md) an.
## 🗺️ Ökosystem
@@ -43,7 +43,7 @@ slug: /
Η τεκμηρίωσή μας περιλαμβάνει [Οδηγίες Εγκατάστασης](./installation.mdx) και ένα [Εισαγωγικό Εκπαιδευτικό Πρόγραμμα](./starter.md) για να δημιουργήσετε την πρώτη σας εφαρμογή.
Αφού ξεκινήσετε, οι [Υψηλού Επιπέδου Έννοιες](./getting_started/concepts.md) παρέχουν μια επισκόπηση της μοντουλαρισμένης αρχιτεκτονικής του LlamaIndex. Για περισσότερα πρακτικά παραδείγματα, ρίξτε μια ματιά στα [Ολοκληρωμένα Εκπαιδευτικά Προγράμματα](./end_to_end.md).
Αφού ξεκινήσετε, οι [Υψηλού Επιπέδου Έννοιες](./concepts.md) παρέχουν μια επισκόπηση της μοντουλαρισμένης αρχιτεκτονικής του LlamaIndex. Για περισσότερα πρακτικά παραδείγματα, ρίξτε μια ματιά στα [Ολοκληρωμένα Εκπαιδευτικά Προγράμματα](./end_to_end.md).
## 🗺️ Οικοσύστημα
@@ -41,7 +41,7 @@ Para aplicaciones más complejas, nuestras API de nivel inferior permiten a los
Nuestra documentación incluye [Instrucciones de instalación](./installation.mdx) y un [Tutorial de inicio](./starter.md) para construir tu primera aplicación.
Una vez que estés en funcionamiento, [Conceptos de alto nivel](./getting_started/concepts.md) ofrece una visión general de la arquitectura modular de LlamaIndex. Para obtener ejemplos prácticos más detallados, consulta nuestros [Tutoriales de extremo a extremo](./end_to_end.md).
Una vez que estés en funcionamiento, [Conceptos de alto nivel](./concepts.md) ofrece una visión general de la arquitectura modular de LlamaIndex. Para obtener ejemplos prácticos más detallados, consulta nuestros [Tutoriales de extremo a extremo](./end_to_end.md).
## 🗺️ Ecosistema
@@ -41,7 +41,7 @@ Täpsemate rakenduste jaoks võimaldavad meie madalama taseme API-d edasijõudnu
Meie dokumentatsioonis on [paigaldusjuhised](./installation.mdx) ja [algõpetus](./starter.md) oma esimese rakenduse loomiseks.
Kui olete valmis ja töötate, siis [kõrgtasemel kontseptsioonid](./getting_started/concepts.md) annavad ülevaate LlamaIndexi moodularhitektuurist. Praktiliste näidete jaoks vaadake läbi meie [otsast lõpuni õpetused](./end_to_end.md).
Kui olete valmis ja töötate, siis [kõrgtasemel kontseptsioonid](./concepts.md) annavad ülevaate LlamaIndexi moodularhitektuurist. Praktiliste näidete jaoks vaadake läbi meie [otsast lõpuni õpetused](./end_to_end.md).
## 🗺️ Ökosüsteem
@@ -43,7 +43,7 @@ API سطح بالای ما به کاربران مبتدی امکان استفا
مستندات ما شامل [دستورالعمل نصب](./installation.mdx) و [آموزش شروع کار](./starter.md) برای ساخت اولین برنامه شما است.
با راه اندازی و اجرا شدن، [مفاهیم سطح بالا](./getting_started/concepts.md) یک نمای کلی از معماری ماژولار لاماایندکس را ارائه می دهد. برای مثال های عملی بیشتر، به [آموزش های پایان به پایان](./end_to_end.md) مراجعه کنید.
با راه اندازی و اجرا شدن، [مفاهیم سطح بالا](./concepts.md) یک نمای کلی از معماری ماژولار لاماایندکس را ارائه می دهد. برای مثال های عملی بیشتر، به [آموزش های پایان به پایان](./end_to_end.md) مراجعه کنید.
"
@@ -43,7 +43,7 @@ Monimutkaisempiin sovelluksiin tarjoamme matalamman tason API:t, jotka mahdollis
Dokumentaatiostamme löydät [asennusohjeet](./installation.mdx) ja [aloitusopetusohjelman](./starter.md) ensimmäisen sovelluksesi rakentamiseen.
Kun olet päässyt vauhtiin, [Korkean tason käsitteet](./getting_started/concepts.md) antaa yleiskuvan LlamaIndexin modulaarisesta arkkitehtuurista. Lisää käytännön esimerkkejä löydät [Päästä päähän -opetusohjelmista](./end_to_end.md).
Kun olet päässyt vauhtiin, [Korkean tason käsitteet](./concepts.md) antaa yleiskuvan LlamaIndexin modulaarisesta arkkitehtuurista. Lisää käytännön esimerkkejä löydät [Päästä päähän -opetusohjelmista](./end_to_end.md).
## 🗺️ Ekosysteemi
@@ -43,7 +43,7 @@ API הרמה הגבוהה שלנו מאפשר למשתמשים מתחילים ל
התיעוד שלנו כולל [הוראות התקנה](./installation.mdx) ו[מדריך התחלה](./starter.md) לבניית היישום הראשון שלך.
כאשר אתה מוכן ורץ, [מושגים ברמה גבוהה](./getting_started/concepts.md) מציג סקירה על ארכיטקטורה מודולרית של LlamaIndex. לדוגמאות פרקטיות יותר, עיין ב[מדריכים מתקדמים מתחילה ועד סוף](./end_to_end.md).
כאשר אתה מוכן ורץ, [מושגים ברמה גבוהה](./concepts.md) מציג סקירה על ארכיטקטורה מודולרית של LlamaIndex. לדוגמאות פרקטיות יותר, עיין ב[מדריכים מתקדמים מתחילה ועד סוף](./end_to_end.md).
"
@@ -43,7 +43,7 @@ LlamaIndex.TS जावास्क्रिप्ट और TypeScript के
हमारी दस्तावेज़ी में [स्थापना निर्देश](./installation.mdx) और [स्टार्टर ट्यूटोरियल](./starter.md) शामिल हैं, जिनका उपयोग करके आप अपना पहला एप्लिकेशन बना सकते हैं।
एक बार जब आप शुरू हो जाएं, [उच्च स्तरीय अवधारणाएँ](./getting_started/concepts.md) में LlamaIndex की मॉड्यूलर आर्किटेक्चर का अवलोकन है। अधिक हैंड्स-ऑन प्रैक्टिकल उदाहरणों के लिए, हमारे [एंड-टू-एंड ट्यूटोरियल](./end_to_end.md) को देखें।
एक बार जब आप शुरू हो जाएं, [उच्च स्तरीय अवधारणाएँ](./concepts.md) में LlamaIndex की मॉड्यूलर आर्किटेक्चर का अवलोकन है। अधिक हैंड्स-ऑन प्रैक्टिकल उदाहरणों के लिए, हमारे [एंड-टू-एंड ट्यूटोरियल](./end_to_end.md) को देखें।
"
@@ -41,7 +41,7 @@ Za složenije aplikacije, naše API-je niže razine omogućuju naprednim korisni
Naša dokumentacija uključuje [Upute za instalaciju](./installation.mdx) i [Uvodni vodič](./starter.md) za izgradnju vaše prve aplikacije.
Kada ste spremni za rad, [Visokorazinski koncepti](./getting_started/concepts.md) pružaju pregled modularne arhitekture LlamaIndex-a. Za praktične primjere, pogledajte naše [Vodiče od početka do kraja](./end_to_end.md).
Kada ste spremni za rad, [Visokorazinski koncepti](./concepts.md) pružaju pregled modularne arhitekture LlamaIndex-a. Za praktične primjere, pogledajte naše [Vodiče od početka do kraja](./end_to_end.md).
## 🗺️ Ekosustav
@@ -41,7 +41,7 @@ A komplexebb alkalmazásokhoz a mélyebb szintű API-k lehetővé teszik a halad
A dokumentációnk tartalmazza a [Telepítési utasításokat](./installation.mdx) és egy [Kezdő útmutatót](./starter.md) az első alkalmazás létrehozásához.
Miután elindultál, a [Magas szintű fogalmak](./getting_started/concepts.md) áttekintést ad a LlamaIndex moduláris architektúrájáról. További gyakorlati példákért tekintsd meg az [End-to-End útmutatóinkat](./end_to_end.md).
Miután elindultál, a [Magas szintű fogalmak](./concepts.md) áttekintést ad a LlamaIndex moduláris architektúrájáról. További gyakorlati példákért tekintsd meg az [End-to-End útmutatóinkat](./end_to_end.md).
## 🗺️ Ökoszisztéma
@@ -41,7 +41,7 @@ Untuk aplikasi yang lebih kompleks, API tingkat lebih rendah kami memungkinkan p
Dokumentasi kami mencakup [Instruksi Instalasi](./installation.mdx) dan [Tutorial Awal](./starter.md) untuk membangun aplikasi pertama Anda.
Setelah Anda mulai, [Konsep Tingkat Tinggi](./getting_started/concepts.md) memberikan gambaran tentang arsitektur modular LlamaIndex. Untuk contoh praktis yang lebih mendalam, lihat [Tutorial End-to-End](./end_to_end.md).
Setelah Anda mulai, [Konsep Tingkat Tinggi](./concepts.md) memberikan gambaran tentang arsitektur modular LlamaIndex. Untuk contoh praktis yang lebih mendalam, lihat [Tutorial End-to-End](./end_to_end.md).
## 🗺️ Ekosistem
@@ -41,7 +41,7 @@ Per applicazioni più complesse, le nostre API di livello inferiore consentono a
La nostra documentazione include le [Istruzioni di installazione](./installation.mdx) e un [Tutorial introduttivo](./starter.md) per creare la tua prima applicazione.
Una volta che sei pronto, i [Concetti di alto livello](./getting_started/concepts.md) offrono una panoramica dell'architettura modulare di LlamaIndex. Per ulteriori esempi pratici, consulta i nostri [Tutorial end-to-end](./end_to_end.md).
Una volta che sei pronto, i [Concetti di alto livello](./concepts.md) offrono una panoramica dell'architettura modulare di LlamaIndex. Per ulteriori esempi pratici, consulta i nostri [Tutorial end-to-end](./end_to_end.md).
## 🗺️ Ecosistema
@@ -41,7 +41,7 @@ LlamaIndex.TSは、JavaScriptとTypeScriptを使用してLLMアプリを構築
私たちのドキュメントには、[インストール手順](./installation.mdx)と[スターターチュートリアル](./starter.md)が含まれており、最初のアプリケーションの構築をサポートします。
一度準備ができたら、[ハイレベルなコンセプト](./getting_started/concepts.md)では、LlamaIndexのモジュラーアーキテクチャの概要を説明しています。より実践的な例については、[エンドツーエンドのチュートリアル](./end_to_end.md)を参照してください。
一度準備ができたら、[ハイレベルなコンセプト](./concepts.md)では、LlamaIndexのモジュラーアーキテクチャの概要を説明しています。より実践的な例については、[エンドツーエンドのチュートリアル](./end_to_end.md)を参照してください。
## 🗺️ エコシステム
@@ -41,7 +41,7 @@ LlamaIndex.TS는 JavaScript와 TypeScript로 LLM 앱을 개발하는 모든 사
저희 문서에는 [설치 지침](./installation.mdx)과 [스타터 튜토리얼](./starter.md)이 포함되어 있어 첫 번째 애플리케이션을 빌드할 수 있습니다.
한 번 시작하면, [고수준 개념](./getting_started/concepts.md)에서 LlamaIndex의 모듈식 아키텍처에 대한 개요를 확인할 수 있습니다. 더 많은 실전 예제를 원하신다면, [End-to-End 튜토리얼](./end_to_end.md)을 참조해주세요.
한 번 시작하면, [고수준 개념](./concepts.md)에서 LlamaIndex의 모듈식 아키텍처에 대한 개요를 확인할 수 있습니다. 더 많은 실전 예제를 원하신다면, [End-to-End 튜토리얼](./end_to_end.md)을 참조해주세요.
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