def create_network(self, blocks):
models = nn.ModuleList()
prev_filters = 3
out_filters = []
prev_stride = 1
out_strides = []
conv_id = 0
for block in blocks:
if block['type'] == 'net':
prev_filters = int(block['channels'])
continue
elif block['type'] == 'convolutional':
conv_id = conv_id + 1
batch_normalize = int(block['batch_normalize'])
filters = int(block['filters'])
kernel_size = int(block['size'])
stride = int(block['stride'])
is_pad = int(block['pad'])
pad = (kernel_size - 1) // 2 if is_pad else 0
activation = block['activation']
model = nn.Sequential()
if batch_normalize:
model.add_module('conv{0}'.format(conv_id),
nn.Conv2d(prev_filters, filters, kernel_size, stride, pad, bias=False))
model.add_module('bn{0}'.format(conv_id), nn.BatchNorm2d(filters))
# model.add_module('bn{0}'.format(conv_id), BN2d(filters))
else:
model.add_module('conv{0}'.format(conv_id),
nn.Conv2d(prev_filters, filters, kernel_size, stride, pad))
if activation == 'leaky':
model.add_module('leaky{0}'.format(conv_id), nn.LeakyReLU(0.1, inplace=True))
elif activation == 'relu':
model.add_module('relu{0}'.format(conv_id), nn.ReLU(inplace=True))
elif activation == 'mish':
model.add_module('mish{0}'.format(conv_id), Mish())
else:
print("convalution havn't activate {}".format(activation))
prev_filters = filters
out_filters.append(prev_filters)
prev_stride = stride * prev_stride
out_strides.append(prev_stride)
models.append(model)
elif block['type'] == 'maxpool':
pool_size = int(block['size'])
stride = int(block['stride'])
if stride > 1:
model = nn.MaxPool2d(pool_size, stride)
else:
model = MaxPoolStride1(pool_size)
out_filters.append(prev_filters)
prev_stride = stride * prev_stride
out_strides.append(prev_stride)
models.append(model)
elif block['type'] == 'avgpool':
model = GlobalAvgPool2d()
out_filters.append(prev_filters)
models.append(model)
elif block['type'] == 'softmax':
model = nn.Softmax()
out_strides.append(prev_stride)
out_filters.append(prev_filters)
models.append(model)
elif block['type'] == 'cost':
if block['_type'] == 'sse':
model = nn.MSELoss(size_average=True)
elif block['_type'] == 'L1':
model = nn.L1Loss(size_average=True)
elif block['_type'] == 'smooth':
model = nn.SmoothL1Loss(size_average=True)
out_filters.append(1)
out_strides.append(prev_stride)
models.append(model)
elif block['type'] == 'reorg':
stride = int(block['stride'])
prev_filters = stride * stride * prev_filters
out_filters.append(prev_filters)
prev_stride = prev_stride * stride
out_strides.append(prev_stride)
models.append(Reorg(stride))
elif block['type'] == 'upsample':
stride = int(block['stride'])
out_filters.append(prev_filters)
prev_stride = prev_stride // stride
out_strides.append(prev_stride)
# models.append(nn.Upsample(scale_factor=stride, mode='nearest'))
models.append(Upsample(stride))
elif block['type'] == 'route':
layers = block['layers'].split(',')
ind = len(models)
layers = [int(i) if int(i) > 0 else int(i) + ind for i in layers]
if len(layers) == 1:
prev_filters = out_filters[layers[0]]
prev_stride = out_strides[layers[0]]
elif len(layers) == 2:
assert (layers[0] == ind - 1)
prev_filters = out_filters[layers[0]] + out_filters[layers[1]]
prev_stride = out_strides[layers[0]]
elif len(layers) == 4:
assert (layers[0] == ind - 1)
prev_filters = out_filters[layers[0]] + out_filters[layers[1]] + out_filters[layers[2]] + \
out_filters[layers[3]]
prev_stride = out_strides[layers[0]]
else:
print("route error!!!")
out_filters.append(prev_filters)
out_strides.append(prev_stride)
models.append(EmptyModule())
elif block['type'] == 'shortcut':
ind = len(models)
prev_filters = out_filters[ind - 1]
out_filters.append(prev_filters)
prev_stride = out_strides[ind - 1]
out_strides.append(prev_stride)
models.append(EmptyModule())
elif block['type'] == 'connected':
filters = int(block['output'])
if block['activation'] == 'linear':
model = nn.Linear(prev_filters, filters)
elif block['activation'] == 'leaky':
model = nn.Sequential(
nn.Linear(prev_filters, filters),
nn.LeakyReLU(0.1, inplace=True))
elif block['activation'] == 'relu':
model = nn.Sequential(
nn.Linear(prev_filters, filters),
nn.ReLU(inplace=True))
prev_filters = filters
out_filters.append(prev_filters)
out_strides.append(prev_stride)
models.append(model)
elif block['type'] == 'region':
loss = RegionLoss()
anchors = block['anchors'].split(',')
loss.anchors = [float(i) for i in anchors]
loss.num_classes = int(block['classes'])
loss.num_anchors = int(block['num'])
loss.anchor_step = len(loss.anchors) // loss.num_anchors
loss.object_scale = float(block['object_scale'])
loss.noobject_scale = float(block['noobject_scale'])
loss.class_scale = float(block['class_scale'])
loss.coord_scale = float(block['coord_scale'])
out_filters.append(prev_filters)
out_strides.append(prev_stride)
models.append(loss)
elif block['type'] == 'yolo':
yolo_layer = YoloLayer()
anchors = block['anchors'].split(',')
anchor_mask = block['mask'].split(',')
yolo_layer.anchor_mask = [int(i) for i in anchor_mask]
yolo_layer.anchors = [float(i) for i in anchors]
yolo_layer.num_classes = int(block['classes'])
yolo_layer.num_anchors = int(block['num'])
yolo_layer.anchor_step = len(yolo_layer.anchors) // yolo_layer.num_anchors
yolo_layer.stride = prev_stride
# yolo_layer.object_scale = float(block['object_scale'])
# yolo_layer.noobject_scale = float(block['noobject_scale'])
# yolo_layer.class_scale = float(block['class_scale'])
# yolo_layer.coord_scale = float(block['coord_scale'])
out_filters.append(prev_filters)
out_strides.append(prev_stride)
models.append(yolo_layer)
else:
print('unknown type %s' % (block['type']))
return models
def create_network(self, blocks):
'''
根据解析结果List 构建pytorch模型
'''
# 新建个 模型List
models = nn.ModuleList()
prev_filters = 3
out_filters = [] # 某模块的输出通道数
prev_stride = 1
out_strides = []
conv_id = 0
for block in blocks:
#
if block['type'] == 'net':
prev_filters = int(block['channels']) # 输入图像的通道数
continue
elif block['type'] == 'convolutional':
'''
每个卷积层后都会跟一个BN层和一个 激活函数,算作list中的一行
'''
conv_id = conv_id + 1
batch_normalize = int(block['batch_normalize'])
filters = int(block['filters'])
kernel_size = int(block['size'])
stride = int(block['stride'])
# pad = 1 表示 使用pad,但是具体pad值时按照kernel_size计算的
is_pad = int(block['pad'])
pad = (kernel_size - 1) // 2 if is_pad else 0
activation = block['activation']
model = nn.Sequential()
# bn=1 表示 使用bn,具体值为 输出通道数
if batch_normalize:
model.add_module(
'conv{0}'.format(conv_id),
nn.Conv2d(prev_filters,
filters,
kernel_size,
stride,
pad,
bias=False))
model.add_module('bn{0}'.format(conv_id),
nn.BatchNorm2d(filters))
# model.add_module('bn{0}'.format(conv_id), BN2d(filters))
else:
model.add_module(
'conv{0}'.format(conv_id),
nn.Conv2d(prev_filters, filters, kernel_size, stride,
pad))
# activation是 具体激活函数
if activation == 'leaky':
model.add_module('leaky{0}'.format(conv_id),
nn.LeakyReLU(0.1, inplace=True))
elif activation == 'relu':
model.add_module('relu{0}'.format(conv_id),
nn.ReLU(inplace=True))
elif activation == 'mish':
model.add_module('mish{0}'.format(conv_id), Mish())
else:
print("convalution havn't activate {}".format(activation))
prev_filters = filters
out_filters.append(prev_filters)
prev_stride = stride * prev_stride
out_strides.append(prev_stride)
models.append(model)
elif block['type'] == 'maxpool':
pool_size = int(block['size'])
stride = int(block['stride'])
model = nn.MaxPool2d(kernel_size=pool_size,
stride=stride,
padding=pool_size // 2)
out_filters.append(prev_filters)
prev_stride = stride * prev_stride
out_strides.append(prev_stride)
models.append(model)
elif block['type'] == 'avgpool':
model = GlobalAvgPool2d()
out_filters.append(prev_filters)
models.append(model)
elif block['type'] == 'softmax':
model = nn.Softmax()
out_strides.append(prev_stride)
out_filters.append(prev_filters)
models.append(model)
elif block['type'] == 'cost':
'''
构建 损失函数
'''
if block['_type'] == 'sse':
model = nn.MSELoss(size_average=True)
elif block['_type'] == 'L1':
model = nn.L1Loss(size_average=True)
elif block['_type'] == 'smooth':
model = nn.SmoothL1Loss(size_average=True)
out_filters.append(1)
out_strides.append(prev_stride)
models.append(model)
elif block['type'] == 'reorg':
'''
???
'''
stride = int(block['stride'])
prev_filters = stride * stride * prev_filters
out_filters.append(prev_filters)
prev_stride = prev_stride * stride
out_strides.append(prev_stride)
models.append(Reorg(stride))
elif block['type'] == 'upsample':
'''
上采样与rount搭配使用
上采样将feature map变大,然后与 之前的较大feature map在深度上合并
'''
stride = int(block['stride'])
out_filters.append(prev_filters)
prev_stride = prev_stride // stride
out_strides.append(prev_stride)
# models.append(nn.Upsample(scale_factor=stride, mode='nearest'))
models.append(Upsample(stride))
elif block['type'] == 'route':
'''
route 指 按照列来合并tensor,即扩展深度
'''
layers = block['layers'].split(',')
ind = len(models)
layers = [
int(i) if int(i) > 0 else int(i) + ind for i in layers
]
if len(layers) == 1:
prev_filters = out_filters[layers[0]]
prev_stride = out_strides[layers[0]]
elif len(layers) == 2:
assert (layers[0] == ind - 1)
prev_filters = out_filters[layers[0]] + out_filters[
layers[1]]
prev_stride = out_strides[layers[0]]
elif len(layers) == 4:
assert (layers[0] == ind - 1)
prev_filters = out_filters[layers[0]] + out_filters[layers[1]] + out_filters[layers[2]] + \
out_filters[layers[3]]
prev_stride = out_strides[layers[0]]
else:
print("route error!!!")
out_filters.append(prev_filters)
out_strides.append(prev_stride)
models.append(EmptyModule())
elif block['type'] == 'shortcut':
'''
shortcut 指 残差结构,卷积的跨层连接,即 将不同两层输出(即输出+残差块)逐元素相加 为 最后结果
'''
ind = len(models)
prev_filters = out_filters[ind - 1]
out_filters.append(prev_filters)
prev_stride = out_strides[ind - 1]
out_strides.append(prev_stride)
models.append(EmptyModule())
elif block['type'] == 'connected':
filters = int(block['output'])
if block['activation'] == 'linear':
model = nn.Linear(prev_filters, filters)
elif block['activation'] == 'leaky':
model = nn.Sequential(nn.Linear(prev_filters, filters),
nn.LeakyReLU(0.1, inplace=True))
elif block['activation'] == 'relu':
model = nn.Sequential(nn.Linear(prev_filters, filters),
nn.ReLU(inplace=True))
prev_filters = filters
out_filters.append(prev_filters)
out_strides.append(prev_stride)
models.append(model)
elif block['type'] == 'region':
loss = RegionLoss()
anchors = block['anchors'].split(',')
loss.anchors = [float(i) for i in anchors]
loss.num_classes = int(block['classes'])
loss.num_anchors = int(block['num'])
loss.anchor_step = len(loss.anchors) // loss.num_anchors
loss.object_scale = float(block['object_scale'])
loss.noobject_scale = float(block['noobject_scale'])
loss.class_scale = float(block['class_scale'])
loss.coord_scale = float(block['coord_scale'])
out_filters.append(prev_filters)
out_strides.append(prev_stride)
models.append(loss)
elif block['type'] == 'yolo':
yolo_layer = YoloLayer()
anchors = block['anchors'].split(',')
anchor_mask = block['mask'].split(',')
yolo_layer.anchor_mask = [int(i) for i in anchor_mask]
yolo_layer.anchors = [float(i) for i in anchors]
yolo_layer.num_classes = int(block['classes'])
yolo_layer.num_anchors = int(block['num'])
yolo_layer.anchor_step = len(
yolo_layer.anchors) // yolo_layer.num_anchors
yolo_layer.stride = prev_stride
# yolo_layer.object_scale = float(block['object_scale'])
# yolo_layer.noobject_scale = float(block['noobject_scale'])
# yolo_layer.class_scale = float(block['class_scale'])
# yolo_layer.coord_scale = float(block['coord_scale'])
out_filters.append(prev_filters)
out_strides.append(prev_stride)
models.append(yolo_layer)
else:
print('unknown type %s' % (block['type']))
return models