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modelsori.py
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modelsori.py
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import torch.nn.functional as F
from utils.google_utils import *
from utils.parse_config import *
from utils.utils import *
ONNX_EXPORT = False
def create_modules(module_defs, img_size, arc):
# Constructs module list of layer blocks from module configuration in module_defs
hyperparams = module_defs.pop(0)
output_filters = [int(hyperparams['channels'])]
module_list = nn.ModuleList()
routs = [] # list of layers which rout to deeper layes
yolo_index = -1
for i, mdef in enumerate(module_defs):
modules = nn.Sequential()
if mdef['type'] == 'convolutional':
bn = int(mdef['batch_normalize'])
filters = int(mdef['filters'])
kernel_size = int(mdef['size'])
pad = (kernel_size - 1) // 2 if int(mdef['pad']) else 0
modules.add_module('Conv2d', nn.Conv2d(in_channels=output_filters[-1],
out_channels=filters,
kernel_size=kernel_size,
stride=int(mdef['stride']),
padding=pad,
bias=not bn))
if bn:
modules.add_module('BatchNorm2d', nn.BatchNorm2d(filters, momentum=0.1))
if mdef['activation'] == 'leaky': # TODO: activation study https://github.com/ultralytics/yolov3/issues/441
modules.add_module('activation', nn.LeakyReLU(0.1, inplace=True))
# modules.add_module('activation', nn.PReLU(num_parameters=1, init=0.10))
# modules.add_module('activation', Swish())
elif mdef['activation'] == 'mish':
modules.add_module('activation', Mish())
elif mdef['activation'] == 'Hardswish':
modules.add_module('activation', nn.Hardswish())
elif mdef['activation']=='SiLU':
modules.add_module('activation', nn.SiLU())
elif mdef['type'] == 'convolutional_nobias':
filters = int(mdef['filters'])
kernel_size = int(mdef['size'])
modules.add_module('Conv2d', nn.Conv2d(in_channels=output_filters[-1],
out_channels=filters,
kernel_size=kernel_size,
stride=int(mdef['stride']),
bias=False))
elif mdef['type'] == 'convolutional_noconv':
filters = int(mdef['filters'])
modules.add_module('BatchNorm2d', nn.BatchNorm2d(filters, momentum=0.1))
modules.add_module('activation', nn.LeakyReLU(0.1, inplace=True))
elif mdef['type'] == 'maxpool':
kernel_size = int(mdef['size'])
stride = int(mdef['stride'])
maxpool = nn.MaxPool2d(kernel_size=kernel_size, stride=stride, padding=int((kernel_size - 1) // 2))
if kernel_size == 2 and stride == 1: # yolov3-tiny
modules.add_module('ZeroPad2d', nn.ZeroPad2d((0, 1, 0, 1)))
modules.add_module('MaxPool2d', maxpool)
else:
modules = maxpool
elif mdef['type'] == 'upsample':
modules = nn.Upsample(scale_factor=int(mdef['stride']), mode='nearest')
elif mdef['type'] == 'route': # nn.Sequential() placeholder for 'route' layer
layers = [int(x) for x in mdef['layers'].split(',')]
filters = sum([output_filters[i + 1 if i > 0 else i] for i in layers])
if 'groups' in mdef:
filters = filters // 2
routs.extend([l if l > 0 else l + i for l in layers])
# if mdef[i+1]['type'] == 'reorg3d':
# modules = nn.Upsample(scale_factor=1/float(mdef[i+1]['stride']), mode='nearest') # reorg3d
elif mdef['type'] == 'shortcut': # nn.Sequential() placeholder for 'shortcut' layer
filters = output_filters[int(mdef['from'])]
layer = int(mdef['from'])
routs.extend([i + layer if layer < 0 else layer])
elif mdef['type'] == 'reorg3d': # yolov3-spp-pan-scale
# torch.Size([16, 128, 104, 104])
# torch.Size([16, 64, 208, 208]) <-- # stride 2 interpolate dimensions 2 and 3 to cat with prior layer
pass
elif mdef['type'] == 'yolo':
yolo_index += 1
mask = [int(x) for x in mdef['mask'].split(',')] # anchor mask
modules = YOLOLayer(anchors=mdef['anchors'][mask], # anchor list
nc=int(mdef['classes']), # number of classes
img_size=img_size, # (416, 416)
yolo_index=yolo_index, # 0, 1 or 2
arc=arc) # yolo architecture
# Initialize preceding Conv2d() bias (https://arxiv.org/pdf/1708.02002.pdf section 3.3)
try:
if arc == 'defaultpw' or arc == 'Fdefaultpw': # default with positive weights
b = [-4, -3.6] # obj, cls
elif arc == 'default': # default no pw (40 cls, 80 obj)
b = [-5.5, -4.0]
elif arc == 'uBCE': # unified BCE (80 classes)
b = [0, -8.5]
elif arc == 'uCE': # unified CE (1 background + 80 classes)
b = [10, -0.1]
elif arc == 'Fdefault': # Focal default no pw (28 cls, 21 obj, no pw)
b = [-2.1, -1.8]
elif arc == 'uFBCE' or arc == 'uFBCEpw': # unified FocalBCE (5120 obj, 80 classes)
b = [0, -6.5]
elif arc == 'uFCE': # unified FocalCE (64 cls, 1 background + 80 classes)
b = [7.7, -1.1]
bias = module_list[-1][0].bias.view(len(mask), -1) # 255 to 3x85
bias[:, 4] += b[0] - bias[:, 4].mean() # obj
bias[:, 5:] += b[1] - bias[:, 5:].mean() # cls
# bias = torch.load('weights/yolov3-spp.bias.pt')[yolo_index] # list of tensors [3x85, 3x85, 3x85]
module_list[-1][0].bias = torch.nn.Parameter(bias.view(-1))
# utils.print_model_biases(model)
except:
print('WARNING: smart bias initialization failure.')
elif mdef['type'] == 'focus':
filters = int(mdef['filters'])
else:
print('Warning: Unrecognized Layer Type: ' + mdef['type'])
# Register module list and number of output filters
module_list.append(modules)
output_filters.append(filters)
return module_list, routs, hyperparams
class Swish(nn.Module):
def __init__(self):
super(Swish, self).__init__()
def forward(self, x):
return x * torch.sigmoid(x)
class Mish(nn.Module): # https://github.com/digantamisra98/Mish
def forward(self, x):
return x.mul(torch.tanh(F.softplus(x)))
class YOLOLayer(nn.Module):
def __init__(self, anchors, nc, img_size, yolo_index, arc):
super(YOLOLayer, self).__init__()
self.anchors = torch.Tensor(anchors)
self.na = len(anchors) # number of anchors (3)
self.nc = nc # number of classes (80)
self.nx = 0 # initialize number of x gridpoints
self.ny = 0 # initialize number of y gridpoints
self.arc = arc
# a = torch.tensor(anchors).float().view( -1, 2)
# self.register_buffer('anchor_grid', a.clone().view( 1, -1, 1, 1, 2)) # shape(nl,1,na,1,1,2)
if ONNX_EXPORT: # grids must be computed in __init__
stride = [32, 16, 8][yolo_index] # stride of this layer
nx = int(img_size[1] / stride) # number x grid points
ny = int(img_size[0] / stride) # number y grid points
create_grids(self, img_size, (nx, ny))
def forward(self, p, img_size, var=None):
if ONNX_EXPORT:
bs = 1 # batch size
else:
bs, ny, nx = p.shape[0], p.shape[-2], p.shape[-1]
if (self.nx, self.ny) != (nx, ny):
create_grids(self, img_size, (nx, ny), p.device, p.dtype)
# p.view(bs, 255, 13, 13) -- > (bs, 3, 13, 13, 85) # (bs, anchors, grid, grid, classes + xywh)
p = p.view(bs, self.na, self.nc + 5, self.ny, self.nx).permute(0, 1, 3, 4, 2).contiguous() # prediction
if self.training:
return p
elif ONNX_EXPORT:
# Constants CAN NOT BE BROADCAST, ensure correct shape!
ngu = self.ng.repeat((1, self.na * self.nx * self.ny, 1))
grid_xy = self.grid_xy.repeat((1, self.na, 1, 1, 1)).view((1, -1, 2))
anchor_wh = self.anchor_wh.repeat((1, 1, self.nx, self.ny, 1)).view((1, -1, 2)) / ngu
p = p.view(-1, 5 + self.nc)
xy = torch.sigmoid(p[..., 0:2]) + grid_xy[0] # x, y
wh = torch.exp(p[..., 2:4]) * anchor_wh[0] # width, height
p_conf = torch.sigmoid(p[:, 4:5]) # Conf
p_cls = F.softmax(p[:, 5:85], 1) * p_conf # SSD-like conf
return torch.cat((xy / ngu[0], wh, p_conf, p_cls), 1).t()
# p = p.view(1, -1, 5 + self.nc)
# xy = torch.sigmoid(p[..., 0:2]) + grid_xy # x, y
# wh = torch.exp(p[..., 2:4]) * anchor_wh # width, height
# p_conf = torch.sigmoid(p[..., 4:5]) # Conf
# p_cls = p[..., 5:5 + self.nc]
# # Broadcasting only supported on first dimension in CoreML. See onnx-coreml/_operators.py
# # p_cls = F.softmax(p_cls, 2) * p_conf # SSD-like conf
# p_cls = torch.exp(p_cls).permute((2, 1, 0))
# p_cls = p_cls / p_cls.sum(0).unsqueeze(0) * p_conf.permute((2, 1, 0)) # F.softmax() equivalent
# p_cls = p_cls.permute(2, 1, 0)
# return torch.cat((xy / ngu, wh, p_conf, p_cls), 2).squeeze().t()
else: # inference
# s = 1.5 # scale_xy (pxy = pxy * s - (s - 1) / 2)
io = p.clone() # inference output
grid = self._make_grid(nx, ny).to(io.device)
anchor_grid=self.anchors.clone().view( 1, -1, 1, 1, 2)
y = io.sigmoid()
y[..., 0:2] = (y[..., 0:2] * 2. - 0.5 + grid.to(io.device)) * self.stride # xy
y[..., 2:4] = (y[..., 2:4] * 2) ** 2 * anchor_grid.to(io.device) # wh
z=y.view(bs, -1, 5 + self.nc)
return z, p
io[..., 0:2] = torch.sigmoid(io[..., 0:2]) + self.grid_xy # xy
io[..., 2:4] = torch.exp(io[..., 2:4]) * self.anchor_wh # wh yolo method
# io[..., 2:4] = ((torch.sigmoid(io[..., 2:4]) * 2) ** 3) * self.anchor_wh # wh power method
io[..., :4] *= self.stride
if 'default' in self.arc: # seperate obj and cls
torch.sigmoid_(io[..., 4:])
elif 'BCE' in self.arc: # unified BCE (80 classes)
torch.sigmoid_(io[..., 5:])
io[..., 4] = 1
elif 'CE' in self.arc: # unified CE (1 background + 80 classes)
io[..., 4:] = F.softmax(io[..., 4:], dim=4)
io[..., 4] = 1
if self.nc == 1:
io[..., 5] = 1 # single-class model https://github.com/ultralytics/yolov3/issues/235
# reshape from [1, 3, 13, 13, 85] to [1, 507, 85]
return io.view(bs, -1, 5 + self.nc), p
@staticmethod
def _make_grid(nx=20, ny=20):
yv, xv = torch.meshgrid([torch.arange(ny), torch.arange(nx)])
return torch.stack((xv, yv), 2).view((1, 1, ny, nx, 2)).float()
class Darknet(nn.Module):
# YOLOv3 object detection model
def __init__(self, cfg, img_size=(416, 416), arc='default'):
super(Darknet, self).__init__()
if isinstance(cfg, str):
self.module_defs = parse_model_cfg(cfg)
elif isinstance(cfg, list):
self.module_defs = cfg
self.module_list, self.routs, self.hyperparams = create_modules(self.module_defs, img_size, arc)
self.yolo_layers = get_yolo_layers(self)
# Darknet Header https://github.com/AlexeyAB/darknet/issues/2914#issuecomment-496675346
self.version = np.array([0, 2, 5], dtype=np.int32) # (int32) version info: major, minor, revision
self.seen = np.array([0], dtype=np.int64) # (int64) number of images seen during training
def forward(self, x, var=None):
img_size = x.shape[-2:]
layer_outputs = []
output = []
for i, (mdef, module) in enumerate(zip(self.module_defs, self.module_list)):
mtype = mdef['type']
# print("i=",i)
if mtype in ['convolutional', 'upsample', 'maxpool','convolutional_nobias','convolutional_noconv']:
x = module(x)
elif mtype == 'focus':
x = torch.cat([x[..., ::2, ::2], x[..., 1::2, ::2], x[..., ::2, 1::2], x[..., 1::2, 1::2]], 1)
elif mtype == 'route':
layers = [int(x) for x in mdef['layers'].split(',')]
if len(layers) == 1:
x = layer_outputs[layers[0]]
if 'groups' in mdef:
x = x[:, (x.shape[1]//2):]
else:
try:
x = torch.cat([layer_outputs[i] for i in layers], 1)
except: # apply stride 2 for darknet reorg layer
layer_outputs[layers[1]] = F.interpolate(layer_outputs[layers[1]], scale_factor=[0.5, 0.5])
x = torch.cat([layer_outputs[i] for i in layers], 1)
# print(''), [print(layer_outputs[i].shape) for i in layers], print(x.shape)
elif mtype == 'shortcut':
x = x + layer_outputs[int(mdef['from'])]
elif mtype == 'yolo':
x = module(x, img_size)
output.append(x)
layer_outputs.append(x if i in self.routs else [])
if self.training:
return output
elif ONNX_EXPORT:
output = torch.cat(output, 1) # cat 3 layers 85 x (507, 2028, 8112) to 85 x 10647
nc = self.module_list[self.yolo_layers[0]].nc # number of classes
return output[5:5 + nc].t(), output[:4].t() # ONNX scores, boxes
else:
io, p = list(zip(*output)) # inference output, training output
return torch.cat(io, 1), p
def fuse(self):
# Fuse Conv2d + BatchNorm2d layers throughout model
fused_list = nn.ModuleList()
for a in list(self.children())[0]:
if isinstance(a, nn.Sequential):
for i, b in enumerate(a):
if isinstance(b, nn.modules.batchnorm.BatchNorm2d):
# fuse this bn layer with the previous conv2d layer
conv = a[i - 1]
if isinstance(conv, nn.modules.conv.Conv2d):
fused = torch_utils.fuse_conv_and_bn(conv, b)
a = nn.Sequential(fused, *list(a.children())[i + 1:])
break
fused_list.append(a)
self.module_list = fused_list
# model_info(self) # yolov3-spp reduced from 225 to 152 layers
def get_yolo_layers(model):
return [i for i, x in enumerate(model.module_defs) if x['type'] == 'yolo'] # [82, 94, 106] for yolov3
def create_grids(self, img_size=416, ng=(13, 13), device='cpu', type=torch.float32):
nx, ny = ng # x and y grid size
self.img_size = max(img_size)
self.stride = self.img_size / max(ng)
# build xy offsets
yv, xv = torch.meshgrid([torch.arange(ny), torch.arange(nx)])
self.grid_xy = torch.stack((xv, yv), 2).to(device).type(type).view((1, 1, ny, nx, 2))
# build wh gains
self.anchor_vec = self.anchors.to(device) / self.stride
self.anchor_wh = self.anchor_vec.view(1, self.na, 1, 1, 2).to(device).type(type)
self.ng = torch.Tensor(ng).to(device)
self.nx = nx
self.ny = ny
def load_darknet_weights(self, weights, cutoff=-1):
# Parses and loads the weights stored in 'weights'
# Establish cutoffs (load layers between 0 and cutoff. if cutoff = -1 all are loaded)
file = Path(weights).name
if file == 'darknet53.conv.74':
cutoff = 75
elif file == 'yolov3-tiny.conv.15':
cutoff = 15
elif file == 'yolov4-tiny.conv.29':
cutoff = 29
# Read weights file
with open(weights, 'rb') as f:
# Read Header https://github.com/AlexeyAB/darknet/issues/2914#issuecomment-496675346
self.version = np.fromfile(f, dtype=np.int32, count=3) # (int32) version info: major, minor, revision
self.seen = np.fromfile(f, dtype=np.int64, count=1) # (int64) number of images seen during training
weights = np.fromfile(f, dtype=np.float32) # The rest are weights
ptr = 0
for i, (mdef, module) in enumerate(zip(self.module_defs[:cutoff], self.module_list[:cutoff])):
if mdef['type'] == 'convolutional':
conv_layer = module[0]
if mdef['batch_normalize']:
# Load BN bias, weights, running mean and running variance
bn_layer = module[1]
num_b = bn_layer.bias.numel() # Number of biases
# Bias
bn_b = torch.from_numpy(weights[ptr:ptr + num_b]).view_as(bn_layer.bias)
bn_layer.bias.data.copy_(bn_b)
ptr += num_b
# Weight
bn_w = torch.from_numpy(weights[ptr:ptr + num_b]).view_as(bn_layer.weight)
bn_layer.weight.data.copy_(bn_w)
ptr += num_b
# Running Mean
bn_rm = torch.from_numpy(weights[ptr:ptr + num_b]).view_as(bn_layer.running_mean)
bn_layer.running_mean.data.copy_(bn_rm)
ptr += num_b
# Running Var
bn_rv = torch.from_numpy(weights[ptr:ptr + num_b]).view_as(bn_layer.running_var)
bn_layer.running_var.data.copy_(bn_rv)
ptr += num_b
# Load conv. weights
num_w = conv_layer.weight.numel()
conv_w = torch.from_numpy(weights[ptr:ptr + num_w]).view_as(conv_layer.weight)
conv_layer.weight.data.copy_(conv_w)
ptr += num_w
else:
if os.path.basename(file) == 'yolov3.weights' or os.path.basename(file) == 'yolov3-tiny.weights' or os.path.basename(file) == 'yolov3-spp.weights' or os.path.basename(file) == 'yolov4.weights':
#加载权重'yolov3.weights' 或者 'yolov3-tiny-weights.' 是为了更好初始化自己模型权重,要避免同名
num_b = 255
ptr += num_b
num_w = int(self.module_defs[i-1]["filters"]) * 255
ptr += num_w
else:
# Load conv. bias
num_b = conv_layer.bias.numel()
conv_b = torch.from_numpy(weights[ptr:ptr + num_b]).view_as(conv_layer.bias)
conv_layer.bias.data.copy_(conv_b)
ptr += num_b
# Load conv. weights
num_w = conv_layer.weight.numel()
conv_w = torch.from_numpy(weights[ptr:ptr + num_w]).view_as(conv_layer.weight)
conv_layer.weight.data.copy_(conv_w)
ptr += num_w
assert ptr == len(weights)
return cutoff
def save_weights(self, path='model.weights', cutoff=-1):
# Converts a PyTorch model to Darket format (*.pt to *.weights)
# Note: Does not work if model.fuse() is applied
with open(path, 'wb') as f:
# Write Header https://github.com/AlexeyAB/darknet/issues/2914#issuecomment-496675346
self.version.tofile(f) # (int32) version info: major, minor, revision
self.seen.tofile(f) # (int64) number of images seen during training
# Iterate through layers
for i, (mdef, module) in enumerate(zip(self.module_defs[:cutoff], self.module_list[:cutoff])):
if mdef['type'] == 'convolutional':
conv_layer = module[0]
# If batch norm, load bn first
if mdef['batch_normalize']:
bn_layer = module[1]
bn_layer.bias.data.cpu().numpy().tofile(f)
bn_layer.weight.data.cpu().numpy().tofile(f)
bn_layer.running_mean.data.cpu().numpy().tofile(f)
bn_layer.running_var.data.cpu().numpy().tofile(f)
# Load conv bias
else:
conv_layer.bias.data.cpu().numpy().tofile(f)
# Load conv weights
conv_layer.weight.data.cpu().numpy().tofile(f)
def convert(cfg='cfg/yolov3-spp.cfg', weights='weights/yolov3-spp.weights'):
# Converts between PyTorch and Darknet format per extension (i.e. *.weights convert to *.pt and vice versa)
# from models import *; convert('cfg/yolov3-spp.cfg', 'weights/yolov3-spp.weights')
# Initialize model
model = Darknet(cfg)
# Load weights and save
if weights.endswith('.pt'): # if PyTorch format
model.load_state_dict(torch.load(weights, map_location='cpu')['model'])
save_weights(model, path='converted.weights', cutoff=-1)
print("Success: converted '%s' to 'converted.weights'" % weights)
elif weights.endswith('.weights'): # darknet format
_ = load_darknet_weights(model, weights)
chkpt = {'epoch': -1,
'best_fitness': None,
'training_results': None,
'model': model.state_dict(),
'optimizer': None}
torch.save(chkpt, 'converted.pt')
print("Success: converted '%s' to 'converted.pt'" % weights)
else:
print('Error: extension not supported.')
def attempt_download(weights):
# Attempt to download pretrained weights if not found locally
msg = weights + ' missing, download from https://drive.google.com/drive/folders/1uxgUBemJVw9wZsdpboYbzUN4bcRhsuAI'
if weights and not os.path.isfile(weights):
file = Path(weights).name
if file == 'yolov3-spp.weights':
gdrive_download(id='1oPCHKsM2JpM-zgyepQciGli9X0MTsJCO', name=weights)
elif file == 'yolov3-spp.pt':
gdrive_download(id='1vFlbJ_dXPvtwaLLOu-twnjK4exdFiQ73', name=weights)
elif file == 'yolov3.pt':
gdrive_download(id='11uy0ybbOXA2hc-NJkJbbbkDwNX1QZDlz', name=weights)
elif file == 'yolov3-tiny.pt':
gdrive_download(id='1qKSgejNeNczgNNiCn9ZF_o55GFk1DjY_', name=weights)
elif file == 'darknet53.conv.74':
gdrive_download(id='18xqvs_uwAqfTXp-LJCYLYNHBOcrwbrp0', name=weights)
elif file == 'yolov3-tiny.conv.15':
gdrive_download(id='140PnSedCsGGgu3rOD6Ez4oI6cdDzerLC', name=weights)
else:
try: # download from pjreddie.com
url = 'https://pjreddie.com/media/files/' + file
print('Downloading ' + url)
os.system('curl -f ' + url + ' -o ' + weights)
except IOError:
print(msg)
os.system('rm ' + weights) # remove partial downloads
assert os.path.exists(weights), msg # download missing weights from Google Drive