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# YOLOv5 🚀 by Ultralytics, GPL-3.0 license | |
""" | |
Experimental modules | |
""" | |
import math | |
import numpy as np | |
import torch | |
import torch.nn as nn | |
from utils.downloads import attempt_download | |
class Sum(nn.Module): | |
# Weighted sum of 2 or more layers https://arxiv.org/abs/1911.09070 | |
def __init__(self, n, weight=False): # n: number of inputs | |
super().__init__() | |
self.weight = weight # apply weights boolean | |
self.iter = range(n - 1) # iter object | |
if weight: | |
self.w = nn.Parameter(-torch.arange(1.0, n) / 2, requires_grad=True) # layer weights | |
def forward(self, x): | |
y = x[0] # no weight | |
if self.weight: | |
w = torch.sigmoid(self.w) * 2 | |
for i in self.iter: | |
y = y + x[i + 1] * w[i] | |
else: | |
for i in self.iter: | |
y = y + x[i + 1] | |
return y | |
class MixConv2d(nn.Module): | |
# Mixed Depth-wise Conv https://arxiv.org/abs/1907.09595 | |
def __init__(self, c1, c2, k=(1, 3), s=1, equal_ch=True): # ch_in, ch_out, kernel, stride, ch_strategy | |
super().__init__() | |
n = len(k) # number of convolutions | |
if equal_ch: # equal c_ per group | |
i = torch.linspace(0, n - 1E-6, c2).floor() # c2 indices | |
c_ = [(i == g).sum() for g in range(n)] # intermediate channels | |
else: # equal weight.numel() per group | |
b = [c2] + [0] * n | |
a = np.eye(n + 1, n, k=-1) | |
a -= np.roll(a, 1, axis=1) | |
a *= np.array(k) ** 2 | |
a[0] = 1 | |
c_ = np.linalg.lstsq(a, b, rcond=None)[0].round() # solve for equal weight indices, ax = b | |
self.m = nn.ModuleList([ | |
nn.Conv2d(c1, int(c_), k, s, k // 2, groups=math.gcd(c1, int(c_)), bias=False) for k, c_ in zip(k, c_)]) | |
self.bn = nn.BatchNorm2d(c2) | |
self.act = nn.SiLU() | |
def forward(self, x): | |
return self.act(self.bn(torch.cat([m(x) for m in self.m], 1))) | |
class Ensemble(nn.ModuleList): | |
# Ensemble of models | |
def __init__(self): | |
super().__init__() | |
def forward(self, x, augment=False, profile=False, visualize=False): | |
y = [module(x, augment, profile, visualize)[0] for module in self] | |
# y = torch.stack(y).max(0)[0] # max ensemble | |
# y = torch.stack(y).mean(0) # mean ensemble | |
y = torch.cat(y, 1) # nms ensemble | |
return y, None # inference, train output | |
def attempt_load(weights, device=None, inplace=True, fuse=True): | |
# Loads an ensemble of models weights=[a,b,c] or a single model weights=[a] or weights=a | |
from models.yolo import Detect, Model | |
model = Ensemble() | |
for w in weights if isinstance(weights, list) else [weights]: | |
ckpt = torch.load(attempt_download(w), map_location='cpu') # load | |
ckpt = (ckpt.get('ema') or ckpt['model']).to(device).float() # FP32 model | |
# Model compatibility updates | |
if not hasattr(ckpt, 'stride'): | |
ckpt.stride = torch.tensor([32.]) | |
if hasattr(ckpt, 'names') and isinstance(ckpt.names, (list, tuple)): | |
ckpt.names = dict(enumerate(ckpt.names)) # convert to dict | |
model.append(ckpt.fuse().eval() if fuse and hasattr(ckpt, 'fuse') else ckpt.eval()) # model in eval mode | |
# Module compatibility updates | |
for m in model.modules(): | |
t = type(m) | |
if t in (nn.Hardswish, nn.LeakyReLU, nn.ReLU, nn.ReLU6, nn.SiLU, Detect, Model): | |
m.inplace = inplace # torch 1.7.0 compatibility | |
if t is Detect and not isinstance(m.anchor_grid, list): | |
delattr(m, 'anchor_grid') | |
setattr(m, 'anchor_grid', [torch.zeros(1)] * m.nl) | |
elif t is nn.Upsample and not hasattr(m, 'recompute_scale_factor'): | |
m.recompute_scale_factor = None # torch 1.11.0 compatibility | |
# Return model | |
if len(model) == 1: | |
return model[-1] | |
# Return detection ensemble | |
print(f'Ensemble created with {weights}\n') | |
for k in 'names', 'nc', 'yaml': | |
setattr(model, k, getattr(model[0], k)) | |
model.stride = model[torch.argmax(torch.tensor([m.stride.max() for m in model])).int()].stride # max stride | |
assert all(model[0].nc == m.nc for m in model), f'Models have different class counts: {[m.nc for m in model]}' | |
return model | |