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test.py 6.93 KB
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肆十二 提交于 2022-12-05 11:52 . cls
#!/usr/bin/env python
# -*- coding: UTF-8 -*-
'''
@Project :cls_torch_tem
@File :val.py
@Author :ChenmingSong
@Date :2022/3/29 10:07
@Description:验证模型的准确率
'''
# 最好是把配置文件写在一起,如果写在一起的话,方便进行查看
from torchutils import *
from torchvision import datasets, models, transforms
import os.path as osp
import os
from train import SELFMODEL
if torch.cuda.is_available():
device = torch.device('cuda:0')
else:
device = torch.device('cpu')
print(f'Using device: {device}')
# 固定随机种子,保证实验结果是可以复现的
seed = 42
os.environ['PYTHONHASHSEED'] = str(seed)
np.random.seed(seed)
torch.manual_seed(seed)
torch.cuda.manual_seed(seed)
torch.backends.cudnn.deterministic = True
torch.backends.cudnn.benchmark = True
data_path = "../flowers_data_split" # todo 修改为数据集根目录
model_path = "../checkpoints/resnet50d_pretrained_224/resnet50d_10epochs_accuracy0.99501_weights.pth" # todo 模型地址
model_name = 'resnet50d' # todo 模型名称
img_size = 224 # todo 数据集训练时输入模型的大小
# 注: 执行之前请先划分数据集
# 超参数设置
params = {
# 'model': 'vit_tiny_patch16_224', # 选择预训练模型
# 'model': 'efficientnet_b3a', # 选择预训练模型
'model': model_name, # 选择预训练模型
"img_size": img_size, # 图片输入大小
"test_dir": osp.join(data_path, "test"), # todo 测试集子目录
'device': device, # 设备
'batch_size': 4, # 批次大小
'num_workers': 0, # 进程
"num_classes": len(os.listdir(osp.join(data_path, "train"))), # 类别数目, 自适应获取类别数目
}
def test(val_loader, model, params, class_names):
metric_monitor = MetricMonitor() # 验证流程
model.eval() # 模型设置为验证格式
stream = tqdm(val_loader) # 设置进度条
# 对模型分开进行推理
test_real_labels = []
test_pre_labels = []
with torch.no_grad(): # 开始推理
for i, (images, target) in enumerate(stream, start=1):
images = images.to(params['device'], non_blocking=True) # 读取图片
target = target.to(params['device'], non_blocking=True) # 读取标签
output = model(images) # 前向传播
# loss = criterion(output, target.long()) # 计算损失
# print(output)
target_numpy = target.cpu().numpy()
y_pred = torch.softmax(output, dim=1)
y_pred = torch.argmax(y_pred, dim=1).cpu().numpy()
test_real_labels.extend(target_numpy)
test_pre_labels.extend(y_pred)
# print(target_numpy)
# print(y_pred)
f1_macro = calculate_f1_macro(output, target) # 计算f1分数
recall_macro = calculate_recall_macro(output, target) # 计算recall分数
acc = accuracy(output, target) # 计算acc
# metric_monitor.update('Loss', loss.item()) # 后面基本都是更新进度条的操作
metric_monitor.update('F1', f1_macro)
metric_monitor.update("Recall", recall_macro)
metric_monitor.update('Accuracy', acc)
stream.set_description(
"mode: {epoch}. {metric_monitor}".format(
epoch="test",
metric_monitor=metric_monitor)
)
class_names_length = len(class_names)
heat_maps = np.zeros((class_names_length, class_names_length))
for test_real_label, test_pre_label in zip(test_real_labels, test_pre_labels):
heat_maps[test_real_label][test_pre_label] = heat_maps[test_real_label][test_pre_label] + 1
# print(heat_maps)
heat_maps_sum = np.sum(heat_maps, axis=1).reshape(-1, 1)
# print(heat_maps_sum)
# print()
heat_maps_float = heat_maps / heat_maps_sum
# print(heat_maps_float)
# title, x_labels, y_labels, harvest
show_heatmaps(title="heatmap", x_labels=class_names, y_labels=class_names, harvest=heat_maps_float,
save_name="record/heatmap_{}.png".format(model_name))
# 加上模型名称
return metric_monitor.metrics['Accuracy']["avg"], metric_monitor.metrics['F1']["avg"], \
metric_monitor.metrics['Recall']["avg"]
def show_heatmaps(title, x_labels, y_labels, harvest, save_name):
# 这里是创建一个画布
fig, ax = plt.subplots()
# cmap https://blog.csdn.net/ztf312/article/details/102474190
im = ax.imshow(harvest, cmap="OrRd")
# 这里是修改标签
# We want to show all ticks...
ax.set_xticks(np.arange(len(y_labels)))
ax.set_yticks(np.arange(len(x_labels)))
# ... and label them with the respective list entries
ax.set_xticklabels(y_labels)
ax.set_yticklabels(x_labels)
# 因为x轴的标签太长了,需要旋转一下,更加好看
# Rotate the tick labels and set their alignment.
plt.setp(ax.get_xticklabels(), rotation=45, ha="right",
rotation_mode="anchor")
# 添加每个热力块的具体数值
# Loop over data dimensions and create text annotations.
for i in range(len(x_labels)):
for j in range(len(y_labels)):
text = ax.text(j, i, round(harvest[i, j], 2),
ha="center", va="center", color="black")
ax.set_xlabel("Predict label")
ax.set_ylabel("Actual label")
ax.set_title(title)
fig.tight_layout()
plt.colorbar(im)
plt.savefig(save_name, dpi=100)
# plt.show()
if __name__ == '__main__':
data_transforms = get_torch_transforms(img_size=params["img_size"]) # 获取图像预处理方式
# train_transforms = data_transforms['train'] # 训练集数据处理方式
valid_transforms = data_transforms['val'] # 验证集数据集处理方式
# valid_dataset = datasets.ImageFolder(params["val_dir"], valid_transforms) # 加载验证集
# print(valid_dataset)
test_dataset = datasets.ImageFolder(params["test_dir"], valid_transforms)
class_names = test_dataset.classes
print(class_names)
# valid_dataset = datasets.ImageFolder(params["val_dir"], valid_transforms) # 加载验证集
test_loader = DataLoader( # 按照批次加载训练集
test_dataset, batch_size=params['batch_size'], shuffle=True,
num_workers=params['num_workers'], pin_memory=True,
)
# 加载模型
model = SELFMODEL(model_name=params['model'], out_features=params['num_classes'],
pretrained=False) # 加载模型结构,加载模型结构过程中pretrained设置为False即可。
weights = torch.load(model_path)
model.load_state_dict(weights)
model.eval()
model.to(device)
# 指标上的测试结果包含三个方面,分别是acc f1 和 recall, 除此之外,应该还有相应的热力图输出,整体会比较好看一些。
acc, f1, recall = test(test_loader, model, params, class_names)
print("测试结果:")
print(f"acc: {acc}, F1: {f1}, recall: {recall}")
print("测试完成,heatmap保存在{}下".format("record"))
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