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import torch | |
import torch.nn as nn | |
import torch.nn.functional as F | |
import torchvision.models as models | |
class DenseFeatureExtractionModule(nn.Module): | |
def __init__(self, finetune_feature_extraction=False, use_cuda=True): | |
super(DenseFeatureExtractionModule, self).__init__() | |
model = models.vgg16() | |
vgg16_layers = [ | |
'conv1_1', 'relu1_1', 'conv1_2', 'relu1_2', | |
'pool1', | |
'conv2_1', 'relu2_1', 'conv2_2', 'relu2_2', | |
'pool2', | |
'conv3_1', 'relu3_1', 'conv3_2', 'relu3_2', 'conv3_3', 'relu3_3', | |
'pool3', | |
'conv4_1', 'relu4_1', 'conv4_2', 'relu4_2', 'conv4_3', 'relu4_3', | |
'pool4', | |
'conv5_1', 'relu5_1', 'conv5_2', 'relu5_2', 'conv5_3', 'relu5_3', | |
'pool5' | |
] | |
conv4_3_idx = vgg16_layers.index('conv4_3') | |
self.model = nn.Sequential( | |
*list(model.features.children())[: conv4_3_idx + 1] | |
) | |
self.num_channels = 512 | |
# Fix forward parameters | |
for param in self.model.parameters(): | |
param.requires_grad = False | |
if finetune_feature_extraction: | |
# Unlock conv4_3 | |
for param in list(self.model.parameters())[-2 :]: | |
param.requires_grad = True | |
if use_cuda: | |
self.model = self.model.cuda() | |
def forward(self, batch): | |
output = self.model(batch) | |
return output | |
class SoftDetectionModule(nn.Module): | |
def __init__(self, soft_local_max_size=3): | |
super(SoftDetectionModule, self).__init__() | |
self.soft_local_max_size = soft_local_max_size | |
self.pad = self.soft_local_max_size // 2 | |
def forward(self, batch): | |
b = batch.size(0) | |
batch = F.relu(batch) | |
max_per_sample = torch.max(batch.view(b, -1), dim=1)[0] | |
exp = torch.exp(batch / max_per_sample.view(b, 1, 1, 1)) | |
sum_exp = ( | |
self.soft_local_max_size ** 2 * | |
F.avg_pool2d( | |
F.pad(exp, [self.pad] * 4, mode='constant', value=1.), | |
self.soft_local_max_size, stride=1 | |
) | |
) | |
local_max_score = exp / sum_exp | |
depth_wise_max = torch.max(batch, dim=1)[0] | |
depth_wise_max_score = batch / depth_wise_max.unsqueeze(1) | |
all_scores = local_max_score * depth_wise_max_score | |
score = torch.max(all_scores, dim=1)[0] | |
score = score / torch.sum(score.view(b, -1), dim=1).view(b, 1, 1) | |
return score | |
class D2Net(nn.Module): | |
def __init__(self, model_file=None, use_cuda=True): | |
super(D2Net, self).__init__() | |
self.dense_feature_extraction = DenseFeatureExtractionModule( | |
finetune_feature_extraction=True, | |
use_cuda=use_cuda | |
) | |
self.detection = SoftDetectionModule() | |
if model_file is not None: | |
if use_cuda: | |
self.load_state_dict(torch.load(model_file)['model']) | |
else: | |
self.load_state_dict(torch.load(model_file, map_location='cpu')['model']) | |
def forward(self, batch): | |
b = batch['image1'].size(0) | |
dense_features = self.dense_feature_extraction( | |
torch.cat([batch['image1'], batch['image2']], dim=0) | |
) | |
scores = self.detection(dense_features) | |
dense_features1 = dense_features[: b, :, :, :] | |
dense_features2 = dense_features[b :, :, :, :] | |
scores1 = scores[: b, :, :] | |
scores2 = scores[b :, :, :] | |
return { | |
'dense_features1': dense_features1, | |
'scores1': scores1, | |
'dense_features2': dense_features2, | |
'scores2': scores2 | |
} | |