acc = correct / data.val_mask.sum().item()中的acc是什么意思
时间: 2023-06-04 14:06:42 浏览: 57
这里的acc是accuracy的缩写,意思是准确率,表示正确预测的样本数占总样本数的比例。其中correct表示正确预测的数量,data.val_mask.sum().item()表示可用于验证的样本总数。
相关问题
设置训练和验证集路径 train_vol_path = "data/train/trainvol" train_seg_path = "data/train/trainseg" val_vol_path = "data/val/valvol" val_seg_path = "data/val/valseg" # 定义数据生成器 train_datagen = ImageDataGenerator(rescale=1./255) val_datagen = ImageDataGenerator(rescale=1./255) # 加载训练和验证数据 train_vol = train_datagen.flow_from_directory(train_vol_path, target_size=(256, 256), batch_size=32, class_mode=None) train_seg = train_datagen.flow_from_directory(train_seg_path, target_size=(256, 256), batch_size=32, class_mode=None) val_vol = val_datagen.flow_from_directory(val_vol_path, target_size=(256, 256), batch_size=32, class_mode=None) val_seg = val_datagen.flow_from_directory(val_seg_path, target_size=(256, 256), batch_size=32, class_mode=None) # 合并训练和验证数据 train_generator = zip(train_vol, train_seg) val_generator = zip(val_vol, val_seg) # 定义UNet模型 model = unet() # 编译模型 model.compile(optimizer=Adam(learning_rate=1e-4), loss='binary_crossentropy', metrics=['accuracy'])报错'NoneType' object has no attribute 'compile'怎么改代码
可以尝试将 `class_mode` 参数设置为 `'binary'` 或者其他适合数据集的值,来解决这个问题。修改后的代码如下所示:
```
# 设置训练和验证集路径
train_vol_path = "data/train/trainvol"
train_seg_path = "data/train/trainseg"
val_vol_path = "data/val/valvol"
val_seg_path = "data/val/valseg"
# 定义数据生成器
train_datagen = ImageDataGenerator(rescale=1./255)
val_datagen = ImageDataGenerator(rescale=1./255)
# 加载训练和验证数据
train_vol = train_datagen.flow_from_directory(train_vol_path, target_size=(256, 256), batch_size=32, class_mode='binary')
train_seg = train_datagen.flow_from_directory(train_seg_path, target_size=(256, 256), batch_size=32, class_mode='binary')
val_vol = val_datagen.flow_from_directory(val_vol_path, target_size=(256, 256), batch_size=32, class_mode='binary')
val_seg = val_datagen.flow_from_directory(val_seg_path, target_size=(256, 256), batch_size=32, class_mode='binary')
# 合并训练和验证数据
train_generator = zip(train_vol, train_seg)
val_generator = zip(val_vol, val_seg)
# 定义UNet模型
model = unet()
# 编译模型
model.compile(optimizer=Adam(learning_rate=1e-4), loss='binary_crossentropy', metrics=['accuracy'])
```
介绍一下以下代码的逻辑 # data file path train_raw_path='./data/tianchi_fresh_comp_train_user.csv' train_file_path = './data/preprocessed_train_user.csv' item_file_path='./data/tianchi_fresh_comp_train_item.csv' #offline_train_file_path = './data/ccf_data_revised/ccf_offline_stage1_train.csv' #offline_test_file_path = './data/ccf_data_revised/ccf_offline_stage1_test_revised.csv' # split data path #active_user_offline_data_path = './data/data_split/active_user_offline_record.csv' #active_user_online_data_path = './data/data_split/active_user_online_record.csv' #offline_user_data_path = './data/data_split/offline_user_record.csv' #online_user_data_path = './data/data_split/online_user_record.csv' train_path = './data/data_split/train_data/' train_feature_data_path = train_path + 'features/' train_raw_data_path = train_path + 'raw_data.csv' #train_cleanedraw_data_path=train_path+'cleanedraw_data.csv' train_subraw_data_path=train_path+'subraw_data.csv' train_dataset_path = train_path + 'dataset.csv' train_subdataset_path=train_path+'subdataset.csv' train_raw_online_data_path = train_path + 'raw_online_data.csv' validate_path = './data/data_split/validate_data/' validate_feature_data_path = validate_path + 'features/' validate_raw_data_path = validate_path + 'raw_data.csv' #validate_cleaneraw_data_path=validate_path+'cleanedraw_data.csv' validate_dataset_path = validate_path + 'dataset.csv' validate_raw_online_data_path = validate_path + 'raw_online_data.csv' predict_path = './data/data_split/predict_data/' predict_feature_data_path = predict_path + 'features/' predict_raw_data_path = predict_path + 'raw_data.csv' predict_dataset_path = predict_path + 'dataset.csv' predict_raw_online_data_path = predict_path + 'raw_online_data.csv' # model path model_path = './data/model/model' model_file = '/model' model_dump_file = '/model_dump.txt' model_fmap_file = '/model.fmap' model_feature_importance_file = '/feature_importance.png' model_feature_importance_csv = '/feature_importance.csv' model_train_log = '/train.log' model_params = '/param.json' val_diff_file = '/val_diff.csv' # submission path submission_path = './data/submission/submission' submission_hist_file = '/hist.png' submission_file = '/tianchi_mobile_recommendation_predict.csv' # raw field name user_label = 'user_id' item_label = 'item_id' action_label = 'behavior_type' user_geohash_label='user_geohash' category_label='item_category' action_time_label='time' probability_consumed_label = 'Probability' # global values consume_time_limit = 15 train_feature_start_time = '20141119' train_feature_end_time = '20141217' train_dataset_time = '20141218' #train_dataset_end_time = '20141218' validate_feature_start_time = '20141118' validate_feature_end_time = '20141216' validate_dataset_time = '20141217' #validate_dataset_end_time = '20160514' predict_feature_start_time = '20141120' predict_feature_end_time = '20141218' predict_dataset_time = '20141219' #predict_dataset_end_time = '20160731'
这段代码主要是定义了一些文件路径和全局变量,方便后续数据处理和模型训练使用。
首先,代码定义了一些数据文件的路径,包括训练数据文件、商品数据文件等。这些路径可以根据实际情况进行修改。
接下来,代码定义了一些数据划分的路径,包括训练集、验证集和预测集的文件夹路径。这些路径用于存放数据划分后的特征数据、原始数据和数据集文件。
然后,代码定义了一些模型相关的路径,包括模型文件夹路径、模型文件名、模型输出文件等。这些路径用于存放训练好的模型以及相关的输出文件。
接着,代码定义了一些字段的名称,包括用户ID、商品ID、行为类型、用户地理哈希、商品类别、行为时间等。这些名称用于在数据处理和模型训练中标识相应的字段。
最后,代码定义了一些全局变量,包括消费时间限制、特征提取的起止时间、数据集时间等。这些变量用于在数据处理和特征提取过程中进行控制。
总体来说,这段代码主要是为了方便管理文件路径和全局变量,并提供了一些标识字段和控制变量,使得后续的数据处理和模型训练更加方便和可控。