- flutter package to help run pytorch lite models classification and YoloV5 and YoloV8.
- classification
import torch
from torch.utils.mobile_optimizer import optimize_for_mobile
model = torch.load('model_scripted.pt',map_location="cpu")
model.eval()
example = torch.rand(1, 3, 224, 224)
traced_script_module = torch.jit.trace(model, example)
optimized_traced_model = optimize_for_mobile(traced_script_module)
optimized_traced_model._save_for_lite_interpreter("model.pt")
- object detection (yolov5)
!python export.py --weights "the weights of your model" --include torchscript --img 640 --optimize
example
!python export.py --weights yolov5s.pt --include torchscript --img 640 --optimize
- object detection (yolov8)
!yolo mode=export model="your model" format=torchscript optimize
example
!yolo mode=export model=yolov8s.pt format=torchscript optimize
To use this plugin, add pytorch_lite
as a dependency in your pubspec.yaml file.
Create a assets
folder with your pytorch model and labels if needed. Modify pubspec.yaml
accordingly.
assets:
- assets/models/model_classification.pt
- assets/labels_classification.txt
- assets/models/model_objectDetection.torchscript
- assets/labels_objectDetection.txt
Run flutter pub get
- Go to android/app/build.gradle
- Add those next lines in the release config
shrinkResources false
minifyEnabled false
example
buildTypes {
release {
shrinkResources false
minifyEnabled false
// TODO: Add your own signing config for the release build.
// Signing with the debug keys for now, so `flutter run --release` works.
signingConfig signingConfigs.debug
}
}
import 'package:pytorch_lite/pytorch_lite.dart';
Either classification model:
ClassificationModel classificationModel= await PytorchLite.loadClassificationModel(
"assets/models/model_classification.pt", 224, 224,
labelPath: "assets/labels/label_classification_imageNet.txt");
Or objectDetection model:
ModelObjectDetection objectModel = await PytorchLite.loadObjectDetectionModel(
"assets/models/yolov5s.torchscript", 80, 640, 640,
labelPath: "assets/labels/labels_objectDetection_Coco.txt",
objectDetectionModelType: ObjectDetectionModelType.yolov5);
String imagePrediction = await classificationModel.getImagePrediction(await File(image.path).readAsBytes());
String imagePrediction = await _objectModel.getCameraImagePrediction(
cameraImage,
rotation, // check example for rotation values
);
List<double>? predictionList = await _imageModel!.getImagePredictionList(
await File(image.path).readAsBytes(),
);
List<double>? predictionList = await _imageModel!.getCameraImagePredictionList(
cameraImage,
rotation, // check example for rotation values
);
List<double>? predictionListProbabilities = await _imageModel!.getImagePredictionListProbabilities(
await File(image.path).readAsBytes(),
);
List<double>? predictionListProbabilities = await _imageModel!.getCameraPredictionListProbabilities(
cameraImage,
rotation, // check example for rotation values
);
List<ResultObjectDetection> objDetect = await _objectModel.getImagePrediction(await File(image.path).readAsBytes(),
minimumScore: 0.1, IOUThershold: 0.3);
List<ResultObjectDetection> objDetect = await _objectModel.getCameraImagePrediction(
cameraImage,
rotation, // check example for rotation values
minimumScore: 0.1, IOUThershold: 0.3);
objectModel.renderBoxesOnImage(_image!, objDetect)
final mean = [0.5, 0.5, 0.5];
final std = [0.5, 0.5, 0.5];
String prediction = await classificationModel
.getImagePrediction(image, mean: mean, std: std);