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from torchvision import models
import numpy as np
from torchvision.models import detection
import torch
import torchvision
import torchvision.models.segmentation as segmentation
from ultralytics import YOLO
from threading import Lock
# import tensorrt
# import tensorrt as trt
# import onnx
# import onnxruntime as ort
class TorchModelFactory:
_instance = None
_lock = Lock()
_feature_extract_models = {}
_detect_models = {}
_classification_models = {}
_instance_models = {}
_semantic_models = {}
device = torch.device("cuda:0" if torch.cuda.is_available() else "cpu")
MODELS_FEATURE_EXTRACT = {
'resnet': lambda: models.resnet101(weights=models.ResNet101_Weights.IMAGENET1K_V1),
'vgg16': lambda: models.vgg16(weights=models.VGG16_Weights.IMAGENET1K_V1),
'inception_v3': lambda: models.inception_v3(weights=models.Inception_V3_Weights.IMAGENET1K_V1),
'mobilenet_v2': lambda: models.mobilenet_v2(weights=models.MobileNet_V2_Weights.IMAGENET1K_V1),
'densenet121': lambda: models.densenet121(weights=models.DenseNet121_Weights.IMAGENET1K_V1)
}
MODELS_DETECT = {
'RetinaNet': lambda: detection.retinanet_resnet50_fpn(weights=detection.RetinaNet_ResNet50_FPN_Weights.COCO_V1,
weights_backbone=models.ResNet50_Weights.IMAGENET1K_V1),
'FasterRCNN': lambda: detection.fasterrcnn_resnet50_fpn(weights=detection.FasterRCNN_ResNet50_FPN_Weights.COCO_V1,
weights_backbone=models.ResNet50_Weights.IMAGENET1K_V1),
'SSDLite': lambda: detection.ssd300_vgg16(weights=detection.SSD300_VGG16_Weights.COCO_V1),
'Yolo': lambda: YOLO("yolov8n.pt")
}
MODELS_CLASSIFICATION = {
'resnet': lambda: models.resnet101(weights=models.ResNet101_Weights.IMAGENET1K_V1),
'mobilenetv2': lambda: models.mobilenet_v2(weights=models.MobileNet_V2_Weights.IMAGENET1K_V1),
'shufflenetv2': lambda: models.shufflenet_v2_x1_0(weights=models.ShuffleNet_V2_X1_0_Weights.IMAGENET1K_V1)
}
MODELS_INSTANCE = {
'maskrcnn': lambda: detection.maskrcnn_resnet50_fpn(weights=detection.MaskRCNN_ResNet50_FPN_Weights.COCO_V1),
'yolact': lambda: torch.hub.load('dbolya/yolact', 'yolact_resnet50', pretrained=True)
}
MODELS_SEMANTIC = {
'deeplabv3': lambda: segmentation.deeplabv3_resnet101(weights=segmentation.DeepLabV3_ResNet101_Weights.COCO_WITH_VOC_LABELS_V1),
'pspnet': lambda: segmentation.pspnet_resnet50(pretrained=True),
'bisenetv1': lambda: torch.hub.load('catalyst-team/deeplabv3', 'deeplabv3_resnet50', pretrained=True)
}
def __new__(cls, *args, **kwargs):
if not cls._instance:
with cls._lock:
if not cls._instance:
cls._instance = super(TorchModelFactory, cls).__new__(cls)
return cls._instance
@staticmethod
def create_feature_extract_model(model_name):
if model_name not in TorchModelFactory.MODELS_FEATURE_EXTRACT:
raise ValueError('Invalid model name')
if model_name not in TorchModelFactory._feature_extract_models:
with TorchModelFactory._lock:
if model_name not in TorchModelFactory._feature_extract_models:
model = TorchModelFactory.MODELS_FEATURE_EXTRACT[model_name]().to(TorchModelFactory.device)
model.eval()
TorchModelFactory._feature_extract_models[model_name] = model
return TorchModelFactory._feature_extract_models[model_name]
@staticmethod
def create_detect_model(model_name):
if model_name not in TorchModelFactory.MODELS_DETECT:
raise ValueError('Invalid model name')
if model_name not in TorchModelFactory._detect_models:
with TorchModelFactory._lock:
if model_name not in TorchModelFactory._detect_models:
model = TorchModelFactory.MODELS_DETECT[model_name]().to(TorchModelFactory.device)
model.eval()
TorchModelFactory._detect_models[model_name] = model
return TorchModelFactory._detect_models[model_name]
@staticmethod
def create_yolo_detect_model():
if "Yolo" not in TorchModelFactory._detect_models:
with TorchModelFactory._lock:
if "Yolo" not in TorchModelFactory._detect_models:
model = TorchModelFactory.MODELS_DETECT["Yolo"]()
TorchModelFactory._detect_models["Yolo"] = model
return TorchModelFactory._detect_models["Yolo"]
@staticmethod
def create_classication_model(model_name):
if model_name not in TorchModelFactory.MODELS_CLASSIFICATION:
raise ValueError('Invalid model name')
if model_name not in TorchModelFactory._classification_models:
with TorchModelFactory._lock:
if model_name not in TorchModelFactory._classification_models:
model = TorchModelFactory.MODELS_CLASSIFICATION[model_name]().to(TorchModelFactory.device)
model.eval()
TorchModelFactory._classification_models[model_name] = model
return TorchModelFactory._classification_models[model_name]
@staticmethod
def create_instance_model(model_name):
if model_name not in TorchModelFactory.MODELS_INSTANCE:
raise ValueError('Invalid model name')
if model_name not in TorchModelFactory._instance_models:
with TorchModelFactory._lock:
if model_name not in TorchModelFactory._instance_models:
model = TorchModelFactory.MODELS_INSTANCE[model_name]().to(TorchModelFactory.device)
model.eval()
TorchModelFactory._instance_models[model_name] = model
return TorchModelFactory._instance_models[model_name]
@staticmethod
def create_semantic_model(model_name):
if model_name not in TorchModelFactory.MODELS_SEMANTIC:
raise ValueError('Invalid model name')
if model_name not in TorchModelFactory._semantic_models:
with TorchModelFactory._lock:
if model_name not in TorchModelFactory._semantic_models:
model = TorchModelFactory.MODELS_SEMANTIC[model_name]().to(TorchModelFactory.device)
model.eval()
TorchModelFactory._semantic_models[model_name] = model
return TorchModelFactory._semantic_models[model_name]
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