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A Flutter package for Picovoice's end-to-end voice platform.

Picovoice SDK for Flutter #

Picovoice #

Made in Vancouver, Canada by Picovoice

Picovoice is an end-to-end platform for building voice products on your terms. It enables creating voice experiences similar to Alexa and Google. But it entirely runs 100% on-device.

Picovoice is:

  • Private: Everything is processed offline. Intrinsically HIPAA and GDPR-compliant.
  • Reliable: Runs without needing constant connectivity.
  • Zero Latency: Edge-first architecture eliminates unpredictable network delay.
  • Accurate: Resilient to noise and reverberation. It outperforms cloud-based alternatives by wide margins *.
  • Cross-Platform: Design once, deploy anywhere. Build using familiar languages and frameworks.

Compatibility #

This binding is for running Picovoice on Flutter 2.8.1+ on the following platforms:

  • Android 5.0+ (API 21+)
  • iOS 11.0+

Installation #

To start, you must have the Flutter SDK installed on your system. Once installed, you can run flutter doctor to determine any other missing requirements.

To add the Picovoice package to your app project, you can reference it in your pub.yaml:

dependencies:
  picovoice_flutter: ^<version>

If you prefer to clone the repo and use it locally, you can reference the local binding location:

dependencies:
  picovoice:
    path: /path/to/picovoice/flutter/binding

NOTE: When archiving for release on iOS, you may have to change the build settings of your project in order to prevent stripping of the Picovoice library. To do this open the Runner project in XCode and change build setting Deployment -> Strip Style to 'Non-Global Symbols'.

AccessKey #

Picovoice requires a valid Picovoice AccessKey at initialization. AccessKey acts as your credentials when using Picovoice SDKs. You can get your AccessKey for free. Make sure to keep your AccessKey secret. Signup or Login to Picovoice Console to get your AccessKey.

Permissions #

To enable recording with the hardware's microphone, you must first ensure that you have enabled the proper permission on both iOS and Android.

On iOS, open your Info.plist and add the following line:

<key>NSMicrophoneUsageDescription</key>
<string>[Permission explanation]</string>

On Android, open your AndroidManifest.xml and add the following line:

<uses-permission android:name="android.permission.RECORD_AUDIO" />
<uses-permission android:name="android.permission.INTERNET" />

Usage #

The module provides you with two levels of API to choose from depending on your needs.

High-Level API

PicovoiceManager provides a high-level API that takes care of audio recording. This class is the quickest way to get started.

The constructor PicovoiceManager.create will create an instance of the PicovoiceManager using the Porcupine keyword and Rhino context files that you pass to it.

import 'package:picovoice/picovoice_manager.dart';
import 'package:picovoice/picovoice_error.dart';

final String accessKey = "{ACCESS_KEY}"; // AccessKey obtained from Picovoice Console (https://console.picovoice.ai/)

_picovoiceManager = PicovoiceManager.create(
    accessKey,
    "/path/to/keyword/file.ppn",
    _wakeWordCallback,
    "/path/to/context/file.rhn",
    _inferenceCallback);

The wakeWordCallback and inferenceCallback parameters are functions that you want to execute when a wake word is detected and when an inference is made.

The inferenceCallback callback function takes a parameter of RhinoInference instance with the following variables:

  • isUnderstood - true if Rhino understood what it heard based on the context or false if Rhino did not understand context
  • intent - null if isUnderstood is not true, otherwise name of intent that were inferred
  • slots - null if isUnderstood is not true, otherwise the dictionary of slot keys and values that were inferred
void _wakeWordCallback(){
    // wake word detected
}

void _inferenceCallback(RhinoInference inference) {
    if(inference.isUnderstood!) {
        String intent = inference.intent!;
        Map<String, String> slots = inference.slots!;
        // add code to take action based on inferred intent and slot values
    }
    else {
        // add code to handle unsupported commands
    }
}

Picovoice accepts the following optional parameters:

  • porcupineSensitivity: overrides the default wake word sensitivity.
  • rhinoSensitivity: overrides the default inference sensitivity.
  • processErrorCallback: called if there is a problem encountered while processing audio.
  • endpointDurationSec: sets how much silence is required after a spoken command.
  • requireEndpoint: indicates whether Rhino should wait for silence before returning an inference.

These optional parameters can be passed in like so:

final String accessKey = "{ACCESS_KEY}"; // AccessKey obtained from Picovoice Console (https://console.picovoice.ai/)

void createPicovoiceManager() {
    double porcupineSensitivity = 0.7;
    double rhinoSensitivity = 0.6;
    _picovoiceManager = PicovoiceManager.create(
        accessKey,
        "/path/to/keyword/file.ppn",
        wakeWordCallback,
        "/path/to/context/file.rhn",
        inferenceCallback,
        porcupineSensitivity: porcupineSensitivity,
        rhinoSensitivity: rhinoSensitivity,
        porcupineModelPath: "/path/to/porcupine/model.pv",
        rhinoModelPath: "/path/to/rhino/model.pv",
        endpointDurationSec: 1.5,
        requireEndpoint: false,
        errorCallback: _errorCallback);
}

void _errorCallback(PicovoiceException error) {
    // handle error
}

Once you have instantiated a PicovoiceManager, you can start audio capture and processing by calling:

try {
    await _picovoiceManager.start();
} on PicovoiceException catch(ex) {
    // deal with Picovoice init error
}

And then stop it by calling:

await _picovoiceManager.stop();

PicovoiceManager uses our flutter_voice_processor Flutter plugin to capture frames of audio and automatically pass it to the Picovoice platform.

Low-Level API

Picovoice provides low-level access to the Picovoice platform for those who want to incorporate it into an already existing audio processing pipeline.

Picovoice is created by passing a Porcupine keyword file and Rhino context file to the create static constructor. Sensitivity, model files, endpointDurationSec, and requireEndpoint are optional.

import 'package:picovoice/picovoice_manager.dart';
import 'package:picovoice/picovoice_error.dart';

final String accessKey = "{ACCESS_KEY}"; // AccessKey obtained from Picovoice Console (https://console.picovoice.ai/)

void createPicovoice() async {
    double porcupineSensitivity = 0.7;
    double rhinoSensitivity = 0.6;
    double endpointDurationSec = 1.5;
    bool requireEndpoint = false;

    try{
        _picovoice = await Picovoice.create(
            accessKey,
            "/path/to/keyword/file.ppn",
            wakeWordCallback,
            "/path/to/context/file.rhn",
            inferenceCallback,
            porcupineSensitivity,
            rhinoSensitivity,
            "/path/to/porcupine/model.pv",
            "/path/to/rhino/model.pv",
            endpointDurationSec
            requireEndpoint);
    } on PicovoiceException catch (err) {
        // handle picovoice init error
    }
}

void wakeWordCallback() {
    // wake word detected
}

void inferenceCallback(RhinoInference inference) {
    if(inference.isUnderstood!) {
        String intent = inference.intent!;
        Map<String, String> slots = inference.slots!;
        // add code to take action based on inferred intent and slot values
    }
    else {
        // add code to handle unsupported commands
    }
}

To use Picovoice, you must pass frames of audio to the process function. The callbacks will automatically trigger when the wake word is detected and then when the follow-on command is detected.

List<int> buffer = getAudioFrame();

try {
    _picovoice.process(buffer);
} on PicovoiceException catch (error) {
    // handle error
}

For process to work correctly, the audio data must be in the audio format required by Picovoice. The required audio format is found by calling .sampleRate to get the required sample rate and .frameLength to get the required frame size. Audio must be single-channel and 16-bit linearly-encoded.

Finally, once you no longer need the Picovoice, be sure to explicitly release the resources allocated to it:

_picovoice.delete();

Custom Model Integration #

To add custom models to your Flutter application, first add them to an assets folder in your project directory. Then add them to you your pubspec.yaml:

flutter:
  assets:
    - assets/keyword.ppn
    - assets/context.rhn

In your Flutter app code, you can then pass the assets directly to Picovoice's create constructor:

String keywordAsset = "assets/keyword.ppn";
String contextAsset = "assets/context.rhn";

final String accessKey = "{ACCESS_KEY}"; // AccessKey obtained from Picovoice Console (https://console.picovoice.ai/)

try {
    _picovoice = await Picovoice.create(
        accessKey,
        keywordAsset,
        wakeWordCallback,
        contextAsset,
        inferenceCallback);
} on PicovoiceException catch (err) {
    // handle picovoice init error
}

Alternatively, if the custom models are deployed to the device with a different method, the absolute paths to the files on device can be used.

Non-English Models #

In order to detect wake words and run inference in other languages you need to use the corresponding model file. The model files for all supported languages are available here and here.

Demo App #

Check out the Picovoice Flutter demo to see what it looks like to use Picovoice in a cross-platform app!