I have a dataset with 4 classes A, B, C and D. I used alexnet based on shallow-tuning mode (i.e. only the last layer was trained). Now after the trained is finished, I want to extract the features from the last layer for each class individeually. in other words, I want a vector with (number of samples in class A, 4096) and the same for B,C and D.

 Alexnet_model = torchvision.models.alexnet(pretrained=True)
# this loop will freeze all layers
for param in Alexnet_model.parameters():
     param.requires_grad = False

# Parameters of newly constructed modules have requires_grad=True by default
Alexnet_model.classifier[6] = nn.Linear(Alexnet_model.classifier[6].in_features, 4)

#Compute SGD cross-entropy loss
device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
model_conv = Alexnet_model.to(device)

criterion = nn.CrossEntropyLoss()
optimizer_conv = optim.SGD(model_conv.classifier.parameters(), lr=0.0001, momentum=0.9, 
exp_lr_scheduler = lr_scheduler.StepLR(optimizer_conv, step_size=3, gamma=0.9)

model_conv = train_model(model_conv, criterion, optimizer_conv,
                     exp_lr_scheduler, num_epochs=100)

2- Now model_conv was trained via train_model function. The next step is changing the last layer into 1 output and extract features from the last layer

class FeatureExtractor(nn.Module):
  def __init__(self, model_conv):
        super(FeatureExtractor, self).__init__()
        self.features = list(model_conv.features)
        self.features = nn.Sequential(*self.features)
        self.pooling = model_conv.avgpool
        self.flatten = nn.Flatten()
     # Extract the last part of fully-connected layer from Alexnet
        self.classifier= list(model_conv.classifier[:-3])
        self.classifier = nn.Sequential(*self.classifier)
        self.fc1 = model_conv.classifier[4]

  def forward(self, x):
  # It will take the input 'x' until it returns the feature vector called 'out'
     out = self.features(x)
     out = self.pooling(out)
     out = self.flatten(out)
     out = self.classifier(out)
     out = self.fc1(out)
     return out 

 # Initialize the model for one  class
 model_conv.classifier[6] = nn.Linear(model_conv.classifier[6].in_features, 1)
 new_model = FeatureExtractor(model_conv)

 # Change the device to GPU
 device = torch.device('cuda:0' if torch.cuda.is_available() else "cpu")
 new_model = new_model.to(device)

3- calling one cleass

features = []
DATADIR = ('E:/..........')
path = os.path.join(DATADIR)  
# Iterate each image
for i in os.listdir(path):
    img = cv2.imread(os.path.join(path,i))
    img= cv2.resize(img,(224,224))
    # Transform the image
    img = transform(img)
    img = img.reshape(1, 3, 224, 224)
    img = img.to(device)
    # We only extract features, so we don't need gradient
    with torch.no_grad():
    # Extract the feature from the image
         feature = new_model(img)
   # Convert to NumPy Array, Reshape it, and save it to features variable

# Convert to NumPy Array
features = np.array(features)

I need your opinion about this code, is it correct or am I missing something. I got: features.shape = (500,4096) and all features are with a negative sign

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