Source code for torcheeg.model_selection.split_groupby_trial
import os
from copy import copy
from typing import Union
import numpy as np
import pandas as pd
from sklearn import model_selection
from torcheeg.datasets.module.base_dataset import BaseDataset
[docs]def train_test_split_groupby_trial(
dataset: BaseDataset,
test_size: float = 0.2,
shuffle: bool = False,
random_state: Union[float, None] = None,
split_path='./dataset/train_test_split_groupby_trial'):
r'''
A tool function for cross-validations, to divide the training set and the test set. It is suitable for experiments with large dataset volume and no need to use k-fold cross-validations. The test samples are sampled according to a certain proportion, and other samples are used as training samples. In most literatures, 20% of the data are sampled for testing.
:obj:`train_test_split_groupby_trial` devides training set and the test set at the dimension of each trial. For example, when :obj:`test_size=0.2`, the first 80% of samples of each trial are used for training, and the last 20% of samples are used for testing. It is more consistent with real applications and can test the generalization of the model to a certain extent.
.. image:: _static/train_test_split_groupby_trial.png
:alt: The schematic diagram of train_test_split_groupby_trial
:align: center
|
.. code-block:: python
dataset = DEAPDataset(io_path=f'./deap',
root_path='./data_preprocessed_python',
online_transform=transforms.Compose([
transforms.To2d(),
transforms.ToTensor()
]),
label_transform=transforms.Compose([
transforms.Select(['valence', 'arousal']),
transforms.Binary(5.0),
transforms.BinariesToCategory()
]))
train_dataset, test_dataset = train_test_split_groupby_trial(dataset=dataset, split_path='./split')
train_loader = DataLoader(train_dataset)
test_loader = DataLoader(test_dataset)
...
Args:
dataset (BaseDataset): Dataset to be divided.
test_size (int): If float, should be between 0.0 and 1.0 and represent the proportion of the dataset to include in the test split. If int, represents the absolute number of test samples. (default: :obj:`0.2`)
shuffle (bool): Whether to shuffle the data before splitting into batches. Note that the samples within each split will not be shuffled. (default: :obj:`False`)
random_state (int, optional): When shuffle is :obj:`True`, :obj:`random_state` affects the ordering of the indices, which controls the randomness of each fold. Otherwise, this parameter has no effect. (default: :obj:`None`)
split_path (str): The path to data partition information. If the path exists, read the existing partition from the path. If the path does not exist, the current division method will be saved for next use. (default: :obj:`./split/k_fold_dataset`)
'''
if not os.path.exists(split_path):
os.makedirs(split_path)
info = dataset.info
subjects = list(set(info['subject_id']))
trial_ids = list(set(info['trial_id']))
train_info = None
test_info = None
for subject in subjects:
for trial_id in trial_ids:
cur_info = info[(info['subject_id'] == subject)
& (info['trial_id'] == trial_id)].reset_index()
n_samples = len(cur_info)
indices = np.arange(n_samples)
train_index, test_index = model_selection.train_test_split(
indices,
test_size=test_size,
random_state=random_state,
shuffle=shuffle)
if train_info is None and test_info is None:
train_info = cur_info.iloc[train_index]
test_info = cur_info.iloc[test_index]
else:
train_info = train_info.append(cur_info.iloc[train_index])
test_info = test_info.append(cur_info.iloc[test_index])
train_info.to_csv(os.path.join(split_path, 'train.csv'), index=False)
test_info.to_csv(os.path.join(split_path, 'test.csv'), index=False)
train_info = pd.read_csv(os.path.join(split_path, 'train.csv'))
test_info = pd.read_csv(os.path.join(split_path, 'test.csv'))
train_dataset = copy(dataset)
train_dataset.info = train_info
test_dataset = copy(dataset)
test_dataset.info = test_info
return train_dataset, test_dataset
