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import logging |
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import warnings |
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from copy import copy |
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from pathlib import Path |
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import math |
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import numpy as np |
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import pandas as pd |
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import requests |
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import torch |
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import torch.nn as nn |
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from PIL import Image |
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from torch.cuda import amp |
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from utils.datasets import exif_transpose, letterbox |
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from utils.general import non_max_suppression, make_divisible, scale_coords, increment_path, xyxy2xywh, save_one_box |
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from utils.plots import colors, plot_one_box |
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from utils.torch_utils import time_sync |
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LOGGER = logging.getLogger(__name__) |
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def autopad(k, p=None): |
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if p is None: |
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p = k // 2 if isinstance(k, int) else [x // 2 for x in k] |
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return p |
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def DWConv(c1, c2, k=1, s=1, act=True): |
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return Conv(c1, c2, k, s, g=math.gcd(c1, c2), act=act) |
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class Conv(nn.Module): |
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def __init__(self, c1, c2, k=1, s=1, p=None, g=1, act=True): |
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super().__init__() |
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self.conv = nn.Conv2d(c1, c2, k, s, autopad(k, p), groups=g, bias=False) |
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self.bn = nn.BatchNorm2d(c2) |
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self.act = nn.SiLU() if act is True else (act if isinstance(act, nn.Module) else nn.Identity()) |
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def forward(self, x): |
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return self.act(self.bn(self.conv(x))) |
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def forward_fuse(self, x): |
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return self.act(self.conv(x)) |
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class DWConvClass(Conv): |
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def __init__(self, c1, c2, k=1, s=1, act=True): |
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super().__init__(c1, c2, k, s, act) |
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self.conv = nn.Conv2d(c1, c2, k, s, autopad(k), groups=math.gcd(c1, c2), bias=False) |
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class TransformerLayer(nn.Module): |
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def __init__(self, c, num_heads): |
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super().__init__() |
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self.q = nn.Linear(c, c, bias=False) |
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self.k = nn.Linear(c, c, bias=False) |
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self.v = nn.Linear(c, c, bias=False) |
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self.ma = nn.MultiheadAttention(embed_dim=c, num_heads=num_heads) |
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self.fc1 = nn.Linear(c, c, bias=False) |
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self.fc2 = nn.Linear(c, c, bias=False) |
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def forward(self, x): |
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x = self.ma(self.q(x), self.k(x), self.v(x))[0] + x |
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x = self.fc2(self.fc1(x)) + x |
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return x |
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class TransformerBlock(nn.Module): |
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def __init__(self, c1, c2, num_heads, num_layers): |
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super().__init__() |
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self.conv = None |
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if c1 != c2: |
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self.conv = Conv(c1, c2) |
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self.linear = nn.Linear(c2, c2) |
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self.tr = nn.Sequential(*[TransformerLayer(c2, num_heads) for _ in range(num_layers)]) |
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self.c2 = c2 |
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def forward(self, x): |
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if self.conv is not None: |
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x = self.conv(x) |
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b, _, w, h = x.shape |
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p = x.flatten(2).unsqueeze(0).transpose(0, 3).squeeze(3) |
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return self.tr(p + self.linear(p)).unsqueeze(3).transpose(0, 3).reshape(b, self.c2, w, h) |
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class Bottleneck(nn.Module): |
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def __init__(self, c1, c2, shortcut=True, g=1, e=0.5): |
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super().__init__() |
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c_ = int(c2 * e) |
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self.cv1 = Conv(c1, c_, 1, 1) |
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self.cv2 = Conv(c_, c2, 3, 1, g=g) |
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self.add = shortcut and c1 == c2 |
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def forward(self, x): |
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return x + self.cv2(self.cv1(x)) if self.add else self.cv2(self.cv1(x)) |
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class BottleneckCSP(nn.Module): |
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def __init__(self, c1, c2, n=1, shortcut=True, g=1, e=0.5): |
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super().__init__() |
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c_ = int(c2 * e) |
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self.cv1 = Conv(c1, c_, 1, 1) |
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self.cv2 = nn.Conv2d(c1, c_, 1, 1, bias=False) |
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self.cv3 = nn.Conv2d(c_, c_, 1, 1, bias=False) |
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self.cv4 = Conv(2 * c_, c2, 1, 1) |
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self.bn = nn.BatchNorm2d(2 * c_) |
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self.act = nn.LeakyReLU(0.1, inplace=True) |
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self.m = nn.Sequential(*[Bottleneck(c_, c_, shortcut, g, e=1.0) for _ in range(n)]) |
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def forward(self, x): |
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y1 = self.cv3(self.m(self.cv1(x))) |
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y2 = self.cv2(x) |
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return self.cv4(self.act(self.bn(torch.cat((y1, y2), dim=1)))) |
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class C3(nn.Module): |
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def __init__(self, c1, c2, n=1, shortcut=True, g=1, e=0.5): |
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super().__init__() |
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c_ = int(c2 * e) |
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self.cv1 = Conv(c1, c_, 1, 1) |
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self.cv2 = Conv(c1, c_, 1, 1) |
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self.cv3 = Conv(2 * c_, c2, 1) |
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self.m = nn.Sequential(*[Bottleneck(c_, c_, shortcut, g, e=1.0) for _ in range(n)]) |
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def forward(self, x): |
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return self.cv3(torch.cat((self.m(self.cv1(x)), self.cv2(x)), dim=1)) |
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class C3TR(C3): |
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def __init__(self, c1, c2, n=1, shortcut=True, g=1, e=0.5): |
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super().__init__(c1, c2, n, shortcut, g, e) |
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c_ = int(c2 * e) |
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self.m = TransformerBlock(c_, c_, 4, n) |
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class C3SPP(C3): |
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def __init__(self, c1, c2, k=(5, 9, 13), n=1, shortcut=True, g=1, e=0.5): |
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super().__init__(c1, c2, n, shortcut, g, e) |
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c_ = int(c2 * e) |
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self.m = SPP(c_, c_, k) |
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class SPP(nn.Module): |
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def __init__(self, c1, c2, k=(5, 9, 13)): |
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super().__init__() |
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c_ = c1 // 2 |
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self.cv1 = Conv(c1, c_, 1, 1) |
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self.cv2 = Conv(c_ * (len(k) + 1), c2, 1, 1) |
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self.m = nn.ModuleList([nn.MaxPool2d(kernel_size=x, stride=1, padding=x // 2) for x in k]) |
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def forward(self, x): |
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x = self.cv1(x) |
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with warnings.catch_warnings(): |
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warnings.simplefilter('ignore') |
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return self.cv2(torch.cat([x] + [m(x) for m in self.m], 1)) |
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class Focus(nn.Module): |
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def __init__(self, c1, c2, k=1, s=1, p=None, g=1, act=True): |
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super().__init__() |
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self.conv = Conv(c1 * 4, c2, k, s, p, g, act) |
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def forward(self, x): |
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return self.conv(torch.cat([x[..., ::2, ::2], x[..., 1::2, ::2], x[..., ::2, 1::2], x[..., 1::2, 1::2]], 1)) |
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class Contract(nn.Module): |
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def __init__(self, gain=2): |
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super().__init__() |
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self.gain = gain |
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def forward(self, x): |
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b, c, h, w = x.size() |
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s = self.gain |
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x = x.view(b, c, h // s, s, w // s, s) |
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x = x.permute(0, 3, 5, 1, 2, 4).contiguous() |
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return x.view(b, c * s * s, h // s, w // s) |
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class Expand(nn.Module): |
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def __init__(self, gain=2): |
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super().__init__() |
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self.gain = gain |
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def forward(self, x): |
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b, c, h, w = x.size() |
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s = self.gain |
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x = x.view(b, s, s, c // s ** 2, h, w) |
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x = x.permute(0, 3, 4, 1, 5, 2).contiguous() |
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return x.view(b, c // s ** 2, h * s, w * s) |
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class Concat(nn.Module): |
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def __init__(self, dimension=1): |
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super().__init__() |
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self.d = dimension |
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def forward(self, x): |
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return torch.cat(x, self.d) |
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class AutoShape(nn.Module): |
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conf = 0.25 |
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iou = 0.45 |
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classes = None |
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max_det = 1000 |
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def __init__(self, model): |
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super().__init__() |
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self.model = model.eval() |
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def autoshape(self): |
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LOGGER.info('AutoShape already enabled, skipping... ') |
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return self |
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@torch.no_grad() |
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def forward(self, imgs, size=640, augment=False, profile=False): |
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t = [time_sync()] |
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p = next(self.model.parameters()) |
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if isinstance(imgs, torch.Tensor): |
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with amp.autocast(enabled=p.device.type != 'cpu'): |
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return self.model(imgs.to(p.device).type_as(p), augment, profile) |
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n, imgs = (len(imgs), imgs) if isinstance(imgs, list) else (1, [imgs]) |
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shape0, shape1, files = [], [], [] |
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for i, im in enumerate(imgs): |
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f = f'image{i}' |
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if isinstance(im, (str, Path)): |
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im, f = Image.open(requests.get(im, stream=True).raw if str(im).startswith('http') else im), im |
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im = np.asarray(exif_transpose(im)) |
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elif isinstance(im, Image.Image): |
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im, f = np.asarray(exif_transpose(im)), getattr(im, 'filename', f) or f |
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files.append(Path(f).with_suffix('.jpg').name) |
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if im.shape[0] < 5: |
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im = im.transpose((1, 2, 0)) |
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im = im[..., :3] if im.ndim == 3 else np.tile(im[..., None], 3) |
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s = im.shape[:2] |
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shape0.append(s) |
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g = (size / max(s)) |
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shape1.append([y * g for y in s]) |
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imgs[i] = im if im.data.contiguous else np.ascontiguousarray(im) |
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shape1 = [make_divisible(x, int(self.stride.max())) for x in np.stack(shape1, 0).max(0)] |
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x = [letterbox(im, new_shape=shape1, auto=False)[0] for im in imgs] |
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x = np.stack(x, 0) if n > 1 else x[0][None] |
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x = np.ascontiguousarray(x.transpose((0, 3, 1, 2))) |
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x = torch.from_numpy(x).to(p.device).type_as(p) / 255. |
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t.append(time_sync()) |
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with amp.autocast(enabled=p.device.type != 'cpu'): |
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y = self.model(x, augment, profile)[0] |
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t.append(time_sync()) |
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y = non_max_suppression(y, self.conf, iou_thres=self.iou, classes=self.classes, max_det=self.max_det) |
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for i in range(n): |
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scale_coords(shape1, y[i][:, :4], shape0[i]) |
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t.append(time_sync()) |
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return Detections(imgs, y, files, t, self.names, x.shape) |
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class Detections: |
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def __init__(self, imgs, pred, files, times=None, names=None, shape=None): |
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super().__init__() |
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d = pred[0].device |
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gn = [torch.tensor([*[im.shape[i] for i in [1, 0, 1, 0]], 1., 1.], device=d) for im in imgs] |
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self.imgs = imgs |
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self.pred = pred |
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self.names = names |
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self.files = files |
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self.xyxy = pred |
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self.xywh = [xyxy2xywh(x) for x in pred] |
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self.xyxyn = [x / g for x, g in zip(self.xyxy, gn)] |
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self.xywhn = [x / g for x, g in zip(self.xywh, gn)] |
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self.n = len(self.pred) |
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self.t = tuple((times[i + 1] - times[i]) * 1000 / self.n for i in range(3)) |
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self.s = shape |
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def display(self, pprint=False, show=False, save=False, crop=False, render=False, save_dir=Path('')): |
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for i, (im, pred) in enumerate(zip(self.imgs, self.pred)): |
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str = f'image {i + 1}/{len(self.pred)}: {im.shape[0]}x{im.shape[1]} ' |
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if pred.shape[0]: |
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for c in pred[:, -1].unique(): |
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n = (pred[:, -1] == c).sum() |
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str += f"{n} {self.names[int(c)]}{'s' * (n > 1)}, " |
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if show or save or render or crop: |
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for *box, conf, cls in reversed(pred): |
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label = f'{self.names[int(cls)]} {conf:.2f}' |
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if crop: |
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save_one_box(box, im, file=save_dir / 'crops' / self.names[int(cls)] / self.files[i]) |
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else: |
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plot_one_box(box, im, label=label, color=colors(cls)) |
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else: |
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str += '(no detections)' |
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im = Image.fromarray(im.astype(np.uint8)) if isinstance(im, np.ndarray) else im |
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if pprint: |
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LOGGER.info(str.rstrip(', ')) |
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if show: |
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im.show(self.files[i]) |
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if save: |
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f = self.files[i] |
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im.save(save_dir / f) |
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if i == self.n - 1: |
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LOGGER.info(f"Saved {self.n} image{'s' * (self.n > 1)} to '{save_dir}'") |
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if render: |
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self.imgs[i] = np.asarray(im) |
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def print(self): |
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self.display(pprint=True) |
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LOGGER.info(f'Speed: %.1fms pre-process, %.1fms inference, %.1fms NMS per image at shape {tuple(self.s)}' % |
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self.t) |
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def show(self): |
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self.display(show=True) |
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def save(self, save_dir='runs/detect/exp'): |
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save_dir = increment_path(save_dir, exist_ok=save_dir != 'runs/detect/exp', mkdir=True) |
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self.display(save=True, save_dir=save_dir) |
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def crop(self, save_dir='runs/detect/exp'): |
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save_dir = increment_path(save_dir, exist_ok=save_dir != 'runs/detect/exp', mkdir=True) |
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self.display(crop=True, save_dir=save_dir) |
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LOGGER.info(f'Saved results to {save_dir}\n') |
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def render(self): |
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self.display(render=True) |
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return self.imgs |
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def pandas(self): |
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new = copy(self) |
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ca = 'xmin', 'ymin', 'xmax', 'ymax', 'confidence', 'class', 'name' |
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cb = 'xcenter', 'ycenter', 'width', 'height', 'confidence', 'class', 'name' |
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for k, c in zip(['xyxy', 'xyxyn', 'xywh', 'xywhn'], [ca, ca, cb, cb]): |
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a = [[x[:5] + [int(x[5]), self.names[int(x[5])]] for x in x.tolist()] for x in getattr(self, k)] |
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setattr(new, k, [pd.DataFrame(x, columns=c) for x in a]) |
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return new |
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def tolist(self): |
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x = [Detections([self.imgs[i]], [self.pred[i]], self.names, self.s) for i in range(self.n)] |
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for d in x: |
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for k in ['imgs', 'pred', 'xyxy', 'xyxyn', 'xywh', 'xywhn']: |
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setattr(d, k, getattr(d, k)[0]) |
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return x |
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def __len__(self): |
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return self.n |
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class Classify(nn.Module): |
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def __init__(self, c1, c2, k=1, s=1, p=None, g=1): |
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super().__init__() |
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self.aap = nn.AdaptiveAvgPool2d(1) |
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self.conv = nn.Conv2d(c1, c2, k, s, autopad(k, p), groups=g) |
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self.flat = nn.Flatten() |
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def forward(self, x): |
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z = torch.cat([self.aap(y) for y in (x if isinstance(x, list) else [x])], 1) |
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return self.flat(self.conv(z)) |
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