329 lines
14 KiB
Python
329 lines
14 KiB
Python
# YOLOv5 🚀 by Ultralytics, GPL-3.0 license
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"""
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YOLO-specific modules
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Usage:
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$ python path/to/models/yolo.py --cfg yolov5s.yaml
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"""
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import argparse
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import sys
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from copy import deepcopy
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from pathlib import Path
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FILE = Path(__file__).resolve()
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ROOT = FILE.parents[1] # YOLOv5 root directory
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if str(ROOT) not in sys.path:
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sys.path.append(str(ROOT)) # add ROOT to PATH
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# ROOT = ROOT.relative_to(Path.cwd()) # relative
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from models.common import *
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from models.experimental import *
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from utils.autoanchor import check_anchor_order
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from utils.general import check_yaml, make_divisible, print_args, set_logging
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from utils.plots import feature_visualization
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from utils.torch_utils import copy_attr, fuse_conv_and_bn, initialize_weights, model_info, scale_img, \
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select_device, time_sync
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try:
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import thop # for FLOPs computation
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except ImportError:
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thop = None
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LOGGER = logging.getLogger(__name__)
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class Detect(nn.Module):
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stride = None # strides computed during build
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onnx_dynamic = False # ONNX export parameter
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def __init__(self, nc=80, anchors=(), ch=(), inplace=True): # detection layer
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super().__init__()
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self.nc = nc # number of classes
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self.no = nc + 5 # number of outputs per anchor
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self.nl = len(anchors) # number of detection layers
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self.na = len(anchors[0]) // 2 # number of anchors
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self.grid = [torch.zeros(1)] * self.nl # init grid
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self.anchor_grid = [torch.zeros(1)] * self.nl # init anchor grid
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self.register_buffer('anchors', torch.tensor(anchors).float().view(self.nl, -1, 2)) # shape(nl,na,2)
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self.m = nn.ModuleList(nn.Conv2d(x, self.no * self.na, 1) for x in ch) # output conv
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self.inplace = inplace # use in-place ops (e.g. slice assignment)
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def forward(self, x):
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z = [] # inference output
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for i in range(self.nl):
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x[i] = self.m[i](x[i]) # conv
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bs, _, ny, nx = x[i].shape # x(bs,255,20,20) to x(bs,3,20,20,85)
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x[i] = x[i].view(bs, self.na, self.no, ny, nx).permute(0, 1, 3, 4, 2).contiguous()
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if not self.training: # inference
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if self.grid[i].shape[2:4] != x[i].shape[2:4] or self.onnx_dynamic:
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self.grid[i], self.anchor_grid[i] = self._make_grid(nx, ny, i)
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y = x[i].sigmoid()
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if self.inplace:
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y[..., 0:2] = (y[..., 0:2] * 2. - 0.5 + self.grid[i]) * self.stride[i] # xy
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y[..., 2:4] = (y[..., 2:4] * 2) ** 2 * self.anchor_grid[i] # wh
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else: # for YOLOv5 on AWS Inferentia https://github.com/ultralytics/yolov5/pull/2953
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xy = (y[..., 0:2] * 2. - 0.5 + self.grid[i]) * self.stride[i] # xy
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wh = (y[..., 2:4] * 2) ** 2 * self.anchor_grid[i] # wh
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y = torch.cat((xy, wh, y[..., 4:]), -1)
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z.append(y.view(bs, -1, self.no))
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return x if self.training else (torch.cat(z, 1), x)
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def _make_grid(self, nx=20, ny=20, i=0):
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d = self.anchors[i].device
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yv, xv = torch.meshgrid([torch.arange(ny).to(d), torch.arange(nx).to(d)])
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grid = torch.stack((xv, yv), 2).expand((1, self.na, ny, nx, 2)).float()
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anchor_grid = (self.anchors[i].clone() * self.stride[i]) \
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.view((1, self.na, 1, 1, 2)).expand((1, self.na, ny, nx, 2)).float()
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return grid, anchor_grid
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class Model(nn.Module):
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def __init__(self, cfg='yolov5s.yaml', ch=3, nc=None, anchors=None): # model, input channels, number of classes
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super().__init__()
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if isinstance(cfg, dict):
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self.yaml = cfg # model dict
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else: # is *.yaml
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import yaml # for torch hub
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self.yaml_file = Path(cfg).name
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with open(cfg, errors='ignore') as f:
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self.yaml = yaml.safe_load(f) # model dict
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# Define model
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ch = self.yaml['ch'] = self.yaml.get('ch', ch) # input channels
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if nc and nc != self.yaml['nc']:
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LOGGER.info(f"Overriding model.yaml nc={self.yaml['nc']} with nc={nc}")
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self.yaml['nc'] = nc # override yaml value
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if anchors:
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LOGGER.info(f'Overriding model.yaml anchors with anchors={anchors}')
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self.yaml['anchors'] = round(anchors) # override yaml value
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self.model, self.save = parse_model(deepcopy(self.yaml), ch=[ch]) # model, savelist
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self.names = [str(i) for i in range(self.yaml['nc'])] # default names
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self.inplace = self.yaml.get('inplace', True)
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# Build strides, anchors
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m = self.model[-1] # Detect()
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if isinstance(m, Detect):
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s = 256 # 2x min stride
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m.inplace = self.inplace
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m.stride = torch.tensor([s / x.shape[-2] for x in self.forward(torch.zeros(1, ch, s, s))]) # forward
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m.anchors /= m.stride.view(-1, 1, 1)
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check_anchor_order(m)
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self.stride = m.stride
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self._initialize_biases() # only run once
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# Init weights, biases
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initialize_weights(self)
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self.info()
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LOGGER.info('')
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def forward(self, x, augment=False, profile=False, visualize=False):
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if augment:
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return self._forward_augment(x) # augmented inference, None
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return self._forward_once(x, profile, visualize) # single-scale inference, train
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def _forward_augment(self, x):
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img_size = x.shape[-2:] # height, width
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s = [1, 0.83, 0.67] # scales
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f = [None, 3, None] # flips (2-ud, 3-lr)
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y = [] # outputs
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for si, fi in zip(s, f):
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xi = scale_img(x.flip(fi) if fi else x, si, gs=int(self.stride.max()))
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yi = self._forward_once(xi)[0] # forward
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# cv2.imwrite(f'img_{si}.jpg', 255 * xi[0].cpu().numpy().transpose((1, 2, 0))[:, :, ::-1]) # save
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yi = self._descale_pred(yi, fi, si, img_size)
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y.append(yi)
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y = self._clip_augmented(y) # clip augmented tails
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return torch.cat(y, 1), None # augmented inference, train
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def _forward_once(self, x, profile=False, visualize=False):
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y, dt = [], [] # outputs
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for m in self.model:
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if m.f != -1: # if not from previous layer
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x = y[m.f] if isinstance(m.f, int) else [x if j == -1 else y[j] for j in m.f] # from earlier layers
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if profile:
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self._profile_one_layer(m, x, dt)
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x = m(x) # run
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y.append(x if m.i in self.save else None) # save output
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if visualize:
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feature_visualization(x, m.type, m.i, save_dir=visualize)
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return x
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def _descale_pred(self, p, flips, scale, img_size):
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# de-scale predictions following augmented inference (inverse operation)
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if self.inplace:
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p[..., :4] /= scale # de-scale
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if flips == 2:
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p[..., 1] = img_size[0] - p[..., 1] # de-flip ud
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elif flips == 3:
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p[..., 0] = img_size[1] - p[..., 0] # de-flip lr
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else:
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x, y, wh = p[..., 0:1] / scale, p[..., 1:2] / scale, p[..., 2:4] / scale # de-scale
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if flips == 2:
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y = img_size[0] - y # de-flip ud
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elif flips == 3:
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x = img_size[1] - x # de-flip lr
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p = torch.cat((x, y, wh, p[..., 4:]), -1)
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return p
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def _clip_augmented(self, y):
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# Clip YOLOv5 augmented inference tails
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nl = self.model[-1].nl # number of detection layers (P3-P5)
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g = sum(4 ** x for x in range(nl)) # grid points
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e = 1 # exclude layer count
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i = (y[0].shape[1] // g) * sum(4 ** x for x in range(e)) # indices
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y[0] = y[0][:, :-i] # large
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i = (y[-1].shape[1] // g) * sum(4 ** (nl - 1 - x) for x in range(e)) # indices
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y[-1] = y[-1][:, i:] # small
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return y
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def _profile_one_layer(self, m, x, dt):
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c = isinstance(m, Detect) # is final layer, copy input as inplace fix
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o = thop.profile(m, inputs=(x.copy() if c else x,), verbose=False)[0] / 1E9 * 2 if thop else 0 # FLOPs
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t = time_sync()
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for _ in range(10):
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m(x.copy() if c else x)
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dt.append((time_sync() - t) * 100)
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if m == self.model[0]:
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LOGGER.info(f"{'time (ms)':>10s} {'GFLOPs':>10s} {'params':>10s} {'module'}")
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LOGGER.info(f'{dt[-1]:10.2f} {o:10.2f} {m.np:10.0f} {m.type}')
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if c:
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LOGGER.info(f"{sum(dt):10.2f} {'-':>10s} {'-':>10s} Total")
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def _initialize_biases(self, cf=None): # initialize biases into Detect(), cf is class frequency
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# https://arxiv.org/abs/1708.02002 section 3.3
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# cf = torch.bincount(torch.tensor(np.concatenate(dataset.labels, 0)[:, 0]).long(), minlength=nc) + 1.
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m = self.model[-1] # Detect() module
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for mi, s in zip(m.m, m.stride): # from
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b = mi.bias.view(m.na, -1) # conv.bias(255) to (3,85)
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b.data[:, 4] += math.log(8 / (640 / s) ** 2) # obj (8 objects per 640 image)
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b.data[:, 5:] += math.log(0.6 / (m.nc - 0.99)) if cf is None else torch.log(cf / cf.sum()) # cls
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mi.bias = torch.nn.Parameter(b.view(-1), requires_grad=True)
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def _print_biases(self):
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m = self.model[-1] # Detect() module
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for mi in m.m: # from
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b = mi.bias.detach().view(m.na, -1).T # conv.bias(255) to (3,85)
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LOGGER.info(
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('%6g Conv2d.bias:' + '%10.3g' * 6) % (mi.weight.shape[1], *b[:5].mean(1).tolist(), b[5:].mean()))
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# def _print_weights(self):
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# for m in self.model.modules():
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# if type(m) is Bottleneck:
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# LOGGER.info('%10.3g' % (m.w.detach().sigmoid() * 2)) # shortcut weights
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def fuse(self): # fuse model Conv2d() + BatchNorm2d() layers
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LOGGER.info('Fusing layers... ')
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for m in self.model.modules():
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if isinstance(m, (Conv, DWConv)) and hasattr(m, 'bn'):
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m.conv = fuse_conv_and_bn(m.conv, m.bn) # update conv
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delattr(m, 'bn') # remove batchnorm
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m.forward = m.forward_fuse # update forward
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self.info()
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return self
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def autoshape(self): # add AutoShape module
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LOGGER.info('Adding AutoShape... ')
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m = AutoShape(self) # wrap model
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copy_attr(m, self, include=('yaml', 'nc', 'hyp', 'names', 'stride'), exclude=()) # copy attributes
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return m
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def info(self, verbose=False, img_size=640): # print model information
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model_info(self, verbose, img_size)
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def _apply(self, fn):
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# Apply to(), cpu(), cuda(), half() to model tensors that are not parameters or registered buffers
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self = super()._apply(fn)
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m = self.model[-1] # Detect()
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if isinstance(m, Detect):
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m.stride = fn(m.stride)
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m.grid = list(map(fn, m.grid))
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if isinstance(m.anchor_grid, list):
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m.anchor_grid = list(map(fn, m.anchor_grid))
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return self
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def parse_model(d, ch): # model_dict, input_channels(3)
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LOGGER.info('\n%3s%18s%3s%10s %-40s%-30s' % ('', 'from', 'n', 'params', 'module', 'arguments'))
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anchors, nc, gd, gw = d['anchors'], d['nc'], d['depth_multiple'], d['width_multiple']
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na = (len(anchors[0]) // 2) if isinstance(anchors, list) else anchors # number of anchors
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no = na * (nc + 5) # number of outputs = anchors * (classes + 5)
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layers, save, c2 = [], [], ch[-1] # layers, savelist, ch out
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for i, (f, n, m, args) in enumerate(d['backbone'] + d['head']): # from, number, module, args
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m = eval(m) if isinstance(m, str) else m # eval strings
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for j, a in enumerate(args):
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try:
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args[j] = eval(a) if isinstance(a, str) else a # eval strings
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except NameError:
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pass
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n = n_ = max(round(n * gd), 1) if n > 1 else n # depth gain
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if m in [Conv, GhostConv, Bottleneck, GhostBottleneck, SPP, SPPF, DWConv, MixConv2d, Focus, CrossConv,
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BottleneckCSP, C3, C3TR, C3SPP, C3Ghost]:
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c1, c2 = ch[f], args[0]
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if c2 != no: # if not output
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c2 = make_divisible(c2 * gw, 8)
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args = [c1, c2, *args[1:]]
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if m in [BottleneckCSP, C3, C3TR, C3Ghost]:
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args.insert(2, n) # number of repeats
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n = 1
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elif m is nn.BatchNorm2d:
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args = [ch[f]]
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elif m is Concat:
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c2 = sum([ch[x] for x in f])
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elif m is Detect:
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args.append([ch[x] for x in f])
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if isinstance(args[1], int): # number of anchors
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args[1] = [list(range(args[1] * 2))] * len(f)
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elif m is Contract:
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c2 = ch[f] * args[0] ** 2
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elif m is Expand:
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c2 = ch[f] // args[0] ** 2
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else:
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c2 = ch[f]
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m_ = nn.Sequential(*[m(*args) for _ in range(n)]) if n > 1 else m(*args) # module
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t = str(m)[8:-2].replace('__main__.', '') # module type
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np = sum([x.numel() for x in m_.parameters()]) # number params
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m_.i, m_.f, m_.type, m_.np = i, f, t, np # attach index, 'from' index, type, number params
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LOGGER.info('%3s%18s%3s%10.0f %-40s%-30s' % (i, f, n_, np, t, args)) # print
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save.extend(x % i for x in ([f] if isinstance(f, int) else f) if x != -1) # append to savelist
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layers.append(m_)
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if i == 0:
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ch = []
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ch.append(c2)
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return nn.Sequential(*layers), sorted(save)
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if __name__ == '__main__':
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print("in yolo")
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# parser = argparse.ArgumentParser()
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# parser.add_argument('--cfg', type=str, default='yolov5s.yaml', help='model.yaml')
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# parser.add_argument('--device', default='', help='cuda device, i.e. 0 or 0,1,2,3 or cpu')
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# parser.add_argument('--profile', action='store_true', help='profile model speed')
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# opt = parser.parse_args()
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# opt.cfg = check_yaml(opt.cfg) # check YAML
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# print_args(FILE.stem, opt)
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# set_logging()
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# device = select_device(opt.device)
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#
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# # Create model
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# model = Model(opt.cfg).to(device)
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# model.train()
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#
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# # Profile
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# if opt.profile:
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# img = torch.rand(8 if torch.cuda.is_available() else 1, 3, 640, 640).to(device)
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# y = model(img, profile=True)
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# Tensorboard (not working https://github.com/ultralytics/yolov5/issues/2898)
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# from torch.utils.tensorboard import SummaryWriter
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# tb_writer = SummaryWriter('.')
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# LOGGER.info("Run 'tensorboard --logdir=models' to view tensorboard at http://localhost:6006/")
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# tb_writer.add_graph(torch.jit.trace(model, img, strict=False), []) # add model graph
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