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import numpy as np |
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import torch |
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import torch.nn as nn |
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from .common import Conv, DWConv |
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class CrossConv(nn.Module): |
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def __init__(self, c1, c2, k=3, s=1, g=1, e=1.0, shortcut=False): |
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super(CrossConv, self).__init__() |
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c_ = int(c2 * e) |
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self.cv1 = Conv(c1, c_, (1, k), (1, s)) |
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self.cv2 = Conv(c_, c2, (k, 1), (s, 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 Sum(nn.Module): |
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def __init__(self, n, weight=False): |
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super(Sum, self).__init__() |
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self.weight = weight |
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self.iter = range(n - 1) |
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if weight: |
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self.w = nn.Parameter(-torch.arange(1.0, n) / 2, requires_grad=True) |
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def forward(self, x): |
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y = x[0] |
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if self.weight: |
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w = torch.sigmoid(self.w) * 2 |
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for i in self.iter: |
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y = y + x[i + 1] * w[i] |
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else: |
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for i in self.iter: |
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y = y + x[i + 1] |
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return y |
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class GhostConv(nn.Module): |
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def __init__(self, c1, c2, k=1, s=1, g=1, act=True): |
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super(GhostConv, self).__init__() |
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c_ = c2 // 2 |
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self.cv1 = Conv(c1, c_, k, s, None, g, act) |
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self.cv2 = Conv(c_, c_, 5, 1, None, c_, act) |
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def forward(self, x): |
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y = self.cv1(x) |
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return torch.cat([y, self.cv2(y)], 1) |
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class GhostBottleneck(nn.Module): |
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def __init__(self, c1, c2, k=3, s=1): |
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super(GhostBottleneck, self).__init__() |
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c_ = c2 // 2 |
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self.conv = nn.Sequential( |
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GhostConv(c1, c_, 1, 1), |
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DWConv(c_, c_, k, s, act=False) if s == 2 else nn.Identity(), |
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GhostConv(c_, c2, 1, 1, act=False), |
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) |
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self.shortcut = ( |
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nn.Sequential(DWConv(c1, c1, k, s, act=False), Conv(c1, c2, 1, 1, act=False)) if s == 2 else nn.Identity() |
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) |
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def forward(self, x): |
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return self.conv(x) + self.shortcut(x) |
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class MixConv2d(nn.Module): |
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def __init__(self, c1, c2, k=(1, 3), s=1, equal_ch=True): |
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super(MixConv2d, self).__init__() |
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groups = len(k) |
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if equal_ch: |
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i = torch.linspace(0, groups - 1e-6, c2).floor() |
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c_ = [(i == g).sum() for g in range(groups)] |
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else: |
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b = [c2] + [0] * groups |
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a = np.eye(groups + 1, groups, k=-1) |
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a -= np.roll(a, 1, axis=1) |
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a *= np.array(k) ** 2 |
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a[0] = 1 |
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c_ = np.linalg.lstsq(a, b, rcond=None)[0].round() |
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self.m = nn.ModuleList([nn.Conv2d(c1, int(c_[g]), k[g], s, k[g] // 2, bias=False) for g in range(groups)]) |
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self.bn = nn.BatchNorm2d(c2) |
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self.act = nn.LeakyReLU(0.1, inplace=True) |
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def forward(self, x): |
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return x + self.act(self.bn(torch.cat([m(x) for m in self.m], 1))) |
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class Ensemble(nn.ModuleList): |
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def __init__(self): |
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super(Ensemble, self).__init__() |
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def forward(self, x, augment=False): |
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y = [] |
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for module in self: |
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y.append(module(x, augment)[0]) |
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y = torch.cat(y, 1) |
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return y, None |
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def attempt_load(weights, map_location=None): |
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model = Ensemble() |
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for w in weights if isinstance(weights, list) else [weights]: |
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ckpt = torch.load(w, map_location=map_location) |
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model.append(ckpt["ema" if ckpt.get("ema") else "model"].float().fuse().eval()) |
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for m in model.modules(): |
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if type(m) in [nn.Hardswish, nn.LeakyReLU, nn.ReLU, nn.ReLU6, nn.SiLU]: |
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m.inplace = True |
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elif type(m) is Conv: |
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m._non_persistent_buffers_set = set() |
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if len(model) == 1: |
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return model[-1] |
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else: |
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print("Ensemble created with %s\n" % weights) |
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for k in ["names", "stride"]: |
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setattr(model, k, getattr(model[-1], k)) |
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return model |
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