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bel_canto / model.py

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fix trust_remote_code=True,

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	import torch
	import torch.nn as nn
	import torchvision.models as models
	from modelscope.msdatasets import MsDataset
	from utils import MODEL_DIR


	class EvalNet:
	model: nn.Module = None
	m_type = "squeezenet"
	input_size = 224
	output_size = 512

	def __init__(self, log_name: str, cls_num: int):
	saved_model_path = f"{MODEL_DIR}/{log_name}/save.pt"
	m_ver = "_".join(log_name.split("_")[:-3])
	self.m_type, self.input_size = self._model_info(m_ver)

	if not hasattr(models, m_ver):
	raise Exception("Unsupported model.")

	self.model = eval("models.%s()" % m_ver)
	linear_output = self._set_outsize()
	self._set_classifier(cls_num, linear_output)
	checkpoint = torch.load(saved_model_path, map_location="cpu")
	if torch.cuda.is_available():
	checkpoint = torch.load(saved_model_path)

	self.model.load_state_dict(checkpoint, False)
	self.model.eval()

	def _get_backbone(self, ver: str, backbone_list: list):
	for bb in backbone_list:
	if ver == bb["ver"]:
	return bb

	print("Backbone name not found, using default option - alexnet.")
	return backbone_list[0]

	def _model_info(self, m_ver: str):
	backbone_list = MsDataset.load(
	"monetjoe/cv_backbones",
	split="v1",
	trust_remote_code=True,
	)
	backbone = self._get_backbone(m_ver, backbone_list)
	m_type = str(backbone["type"])
	input_size = int(backbone["input_size"])
	return m_type, input_size

	def _classifier(self, cls_num: int, output_size: int, linear_output: bool):
	q = (1.0 * output_size / cls_num) ** 0.25
	l1 = int(q * cls_num)
	l2 = int(q * l1)
	l3 = int(q * l2)
	if linear_output:
	return torch.nn.Sequential(
	nn.Dropout(),
	nn.Linear(output_size, l3),
	nn.ReLU(inplace=True),
	nn.Dropout(),
	nn.Linear(l3, l2),
	nn.ReLU(inplace=True),
	nn.Dropout(),
	nn.Linear(l2, l1),
	nn.ReLU(inplace=True),
	nn.Linear(l1, cls_num),
	)

	else:
	return torch.nn.Sequential(
	nn.Dropout(),
	nn.Conv2d(output_size, l3, kernel_size=(1, 1), stride=(1, 1)),
	nn.ReLU(inplace=True),
	nn.AdaptiveAvgPool2d(output_size=(1, 1)),
	nn.Flatten(),
	nn.Linear(l3, l2),
	nn.ReLU(inplace=True),
	nn.Dropout(),
	nn.Linear(l2, l1),
	nn.ReLU(inplace=True),
	nn.Linear(l1, cls_num),
	)

	def _set_outsize(self):
	for name, module in self.model.named_modules():
	if (
	str(name).__contains__("classifier")
	or str(name).__eq__("fc")
	or str(name).__contains__("head")
	or hasattr(module, "classifier")
	):
	if isinstance(module, torch.nn.Linear):
	self.output_size = module.in_features
	return True

	if isinstance(module, torch.nn.Conv2d):
	self.output_size = module.in_channels
	return False

	return False

	def _set_classifier(self, cls_num: int, linear_output: bool):
	if self.m_type == "convnext":
	del self.model.classifier[2]
	self.model.classifier = nn.Sequential(
	*list(self.model.classifier)
	+ list(self._classifier(cls_num, self.output_size, linear_output))
	)
	return

	elif self.m_type == "maxvit":
	del self.model.classifier[5]
	self.model.classifier = nn.Sequential(
	*list(self.model.classifier)
	+ list(self._classifier(cls_num, self.output_size, linear_output))
	)
	return

	if hasattr(self.model, "classifier"):
	self.model.classifier = self._classifier(
	cls_num, self.output_size, linear_output
	)
	return

	elif hasattr(self.model, "fc"):
	self.model.fc = self._classifier(cls_num, self.output_size, linear_output)
	return

	elif hasattr(self.model, "head"):
	self.model.head = self._classifier(cls_num, self.output_size, linear_output)
	return

	self.model.heads.head = self._classifier(
	cls_num, self.output_size, linear_output
	)

	def forward(self, x: torch.Tensor):
	if torch.cuda.is_available():
	x = x.cuda()
	self.model = self.model.cuda()

	if self.m_type == "googlenet":
	return self.model(x)[0]
	else:
	return self.model(x)