pip install timm

pip install torchtoolbox

from torchtoolbox.transform import Cutout
# 數(shù)據(jù)預(yù)處理
transform = transforms.Compose([
    transforms.Resize((224, 224)),
    Cutout(),
    transforms.ToTensor(),
    transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5])
])

  mixup_fn = Mixup(
    mixup_alpha=0.8, cutmix_alpha=1.0, cutmix_minmax=None,
    prob=0.1, switch_prob=0.5, mode='batch',
    label_smoothing=0.1, num_classes=12)
 criterion_train = SoftTargetCrossEntropy()

class EMA():
    def __init__(self, model, decay):
        self.model = model
        self.decay = decay
        self.shadow = {}
        self.backup = {}
    def register(self):
        for name, param in self.model.named_parameters():
            if param.requires_grad:
                self.shadow[name] = param.data.clone()
    def update(self):
        for name, param in self.model.named_parameters():
            if param.requires_grad:
                assert name in self.shadow
                new_average = (1.0 - self.decay) * param.data + self.decay * self.shadow[name]
                self.shadow[name] = new_average.clone()
    def apply_shadow(self):
        for name, param in self.model.named_parameters():
            if param.requires_grad:
                assert name in self.shadow
                self.backup[name] = param.data
                param.data = self.shadow[name]
    def restore(self):
        for name, param in self.model.named_parameters():
            if param.requires_grad:
                assert name in self.backup
                param.data = self.backup[name]
        self.backup = {}

# 初始化
ema = EMA(model, 0.999)
ema.register()
# 訓(xùn)練過程中，更新完參數(shù)后，同步update shadow weights
def train():
    optimizer.step()
    ema.update()
# eval前，apply shadow weights；eval之后，恢復(fù)原來模型的參數(shù)
def evaluate():
    ema.apply_shadow()
    # evaluate
    ema.restore()

RepVgg_demo
├─data1
│  ├─Black-grass
│  ├─Charlock
│  ├─Cleavers
│  ├─Common Chickweed
│  ├─Common wheat
│  ├─Fat Hen
│  ├─Loose Silky-bent
│  ├─Maize
│  ├─Scentless Mayweed
│  ├─Shepherds Purse
│  ├─Small-flowered Cranesbill
│  └─Sugar beet
├─models
│  ├─__init__.py
│  ├─repvgg.py
│  └─se_block.py
├─mean_std.py
├─makedata.py
├─ema.py
├─train.py
└─test.py

from torchvision.datasets import ImageFolder
import torch
from torchvision import transforms
def get_mean_and_std(train_data):
    train_loader = torch.utils.data.DataLoader(
        train_data, batch_size=1, shuffle=False, num_workers=0,
        pin_memory=True)
    mean = torch.zeros(3)
    std = torch.zeros(3)
    for X, _ in train_loader:
        for d in range(3):
            mean[d] += X[:, d, :, :].mean()
            std[d] += X[:, d, :, :].std()
    mean.div_(len(train_data))
    std.div_(len(train_data))
    return list(mean.numpy()), list(std.numpy())
if __name__ == '__main__':
    train_dataset = ImageFolder(root=r'data1', transform=transforms.ToTensor())
    print(get_mean_and_std(train_dataset))

data
├─Black-grass
├─Charlock
├─Cleavers
├─Common Chickweed
├─Common wheat
├─Fat Hen
├─Loose Silky-bent
├─Maize
├─Scentless Mayweed
├─Shepherds Purse
├─Small-flowered Cranesbill
└─Sugar beet

├─data
│  ├─val
│  │   ├─Black-grass
│  │   ├─Charlock
│  │   ├─Cleavers
│  │   ├─Common Chickweed
│  │   ├─Common wheat
│  │   ├─Fat Hen
│  │   ├─Loose Silky-bent
│  │   ├─Maize
│  │   ├─Scentless Mayweed
│  │   ├─Shepherds Purse
│  │   ├─Small-flowered Cranesbill
│  │   └─Sugar beet
│  └─train
│      ├─Black-grass
│      ├─Charlock
│      ├─Cleavers
│      ├─Common Chickweed
│      ├─Common wheat
│      ├─Fat Hen
│      ├─Loose Silky-bent
│      ├─Maize
│      ├─Scentless Mayweed
│      ├─Shepherds Purse
│      ├─Small-flowered Cranesbill
│      └─Sugar beet

import glob
import os
import shutil
image_list=glob.glob('data1/*/*.png')
print(image_list)
file_dir='data'
if os.path.exists(file_dir):
    print('true')
    #os.rmdir(file_dir)
    shutil.rmtree(file_dir)#刪除再建立
    os.makedirs(file_dir)
else:
    os.makedirs(file_dir)
from sklearn.model_selection import train_test_split
trainval_files, val_files = train_test_split(image_list, test_size=0.3, random_state=42)
train_dir='train'
val_dir='val'
train_root=os.path.join(file_dir,train_dir)
val_root=os.path.join(file_dir,val_dir)
for file in trainval_files:
    file_class=file.replace("\\","/").split('/')[-2]
    file_name=file.replace("\\","/").split('/')[-1]
    file_class=os.path.join(train_root,file_class)
    if not os.path.isdir(file_class):
        os.makedirs(file_class)
    shutil.copy(file, file_class + '/' + file_name)
for file in val_files:
    file_class=file.replace("\\","/").split('/')[-2]
    file_name=file.replace("\\","/").split('/')[-1]
    file_class=os.path.join(val_root,file_class)
    if not os.path.isdir(file_class):
        os.makedirs(file_class)
    shutil.copy(file, file_class + '/' + file_name)