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https://github.com/robertknight/tesseract-wasm

JS/WebAssembly build of the Tesseract OCR engine for use in browsers and Node
https://github.com/robertknight/tesseract-wasm

js ocr webassembly

Last synced: 28 days ago
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JS/WebAssembly build of the Tesseract OCR engine for use in browsers and Node

Host: GitHub
URL: https://github.com/robertknight/tesseract-wasm
Owner: robertknight
License: bsd-2-clause
Created: 2022-05-16T11:29:01.000Z (about 2 years ago)
Default Branch: main
Last Pushed: 2024-03-25T07:00:30.000Z (3 months ago)
Last Synced: 2024-04-14T13:53:06.749Z (2 months ago)
Topics: js, ocr, webassembly
Language: TypeScript
Homepage: https://robertknight.github.io/tesseract-wasm/
Size: 1.89 MB
Stars: 202
Watchers: 5
Forks: 23
Open Issues: 17
Metadata Files:
- Readme: README.md
- License: LICENSE.md

Lists

awesome-stars - robertknight/tesseract-wasm - JS/WebAssembly build of the Tesseract OCR engine for use in browsers and Node (TypeScript)

README

        # tesseract-wasm

![npm package](https://img.shields.io/npm/v/tesseract-wasm)

A WebAssembly build of the [Tesseract](https://github.com/tesseract-ocr/tesseract)

OCR engine for use in the browser and Node.

tesseract-wasm can detect and recognize text in document images. It supports multiple languages via different [trained models](https://tesseract-ocr.github.io/tessdoc/Data-Files).

👉 [**Try the demo**](https://robertknight.github.io/tesseract-wasm/) (Currently supports English)

## Features

This Tesseract build has been optimized for use in the browser by:

- Stripping functionality which is not needed in a browser environment (eg.

  code to parse various image formats) to reduce download size and improve

  startup performance. The library and English training data require a ~2.1MB

  download (with Brotli compression).

- Using [WebAssembly SIMD](https://v8.dev/features/simd) when available

  (Chrome >= 91, Firefox >= 90, Safari >= 16.4) to improve text

  recognition performance.

- Providing a high-level API that can be used to run web pages without blocking

  interaction and a low-level API that provides more control over execution.

## Setup

1. Add the tesseract-wasm library to your project:

   ```sh

   npm install tesseract-wasm

   ```

2. Serve the `tesseract-core.wasm`, `tesseract-core-fallback.wasm` and

   `tesseract-worker.js` files from `node_modules/tesseract-wasm/dist` alongside

   your JavaScript bundle.

3. Get the training data file(s) for the languages you want to support from the

   [tessdata_fast](https://github.com/tesseract-ocr/tessdata_fast) repo and

   serve it from a URL that your JavaScript can load. The `eng.traineddata`

   file supports English for example, and also works with many documents in

   other languages that use the same script.

## Usage

tesseract-wasm provides two APIs: a high-level asynchronous API (`OCRClient`)

and a lower-level synchronous API (`OCREngine`). The high-level API is the most

convenient way to run OCR on an image in a web page. It handles running the OCR

engine inside a Web Worker to avoid blocking page interaction. The low-level API

is useful if more control is needed over where/how the code runs and has lower

latency per API call.

### Using OCRClient in a web page

```js

import { OCRClient } from 'tesseract-wasm';

async function runOCR() {

  // Fetch document image and decode it into an ImageBitmap.

  const imageResponse = await fetch('./test-image.jpg');

  const imageBlob = await imageResponse.blob();

  const image = await createImageBitmap(imageBlob);

  // Initialize the OCR engine. This will start a Web Worker to do the

  // work in the background.

  const ocr = new OCRClient();

  try {

    // Load the appropriate OCR training data for the image(s) we want to

    // process.

    await ocr.loadModel('eng.traineddata');

    await ocr.loadImage(image);

    // Perform text recognition and return text in reading order.

    const text = await ocr.getText();

    console.log('OCR text: ', text);

  } finally {

    // Once all OCR-ing has been done, shut down the Web Worker and free up

    // resources.

    ocr.destroy();

  }

}

runOCR();

```

## Examples and documentation

See the `examples/` directory for projects that show usage of the library in

the browser and Node.

See the [API documentation](https://robertknight.github.io/tesseract-wasm/api/)

for detailed usage information.

See the Tesseract [User Manual](https://tesseract-ocr.github.io/tessdoc/) for

information on how Tesseract works, as well as advice on [improving

recognition](https://tesseract-ocr.github.io/tessdoc/ImproveQuality.html).

## Development

### Prerequisites

To build this library locally, you will need:

 - A C++ build toolchain (eg. via the `build-essential` package on Ubuntu or Xcode on macOS)

 - [CMake](https://cmake.org)

 - [Ninja](https://ninja-build.org)

The [Emscripten](https://emscripten.org) toolchain used to compile C++ to

WebAssembly is downloaded as part of the build process.

To install CMake and Ninja:

#### On macOS:

```

brew install cmake ninja

```

#### On Ubuntu

```

sudo apt-get install cmake ninja-build

```

### Building the library

```sh

git clone https://github.com/robertknight/tesseract-wasm

cd tesseract-wasm

# Build WebAssembly binaries and JS library in dist/ folder

make lib

# Run tests

make test

```

To test your local build of the library with the example projects, or your own

projects, you can use [yalc](https://www.npmjs.com/package/yalc).

```sh

# In this project

yalc publish

# In the project where you want to use your local build of tesseract-wasm

yalc link tesseract-wasm

```