10 examples of 'train_test_split' in Python

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9def train_test_split(X, y, train_percentage=0.8):
10 '''
11 Very simple splitting into train and test data. Works for
12 any input shape without dependencies, but is a bit restricted.
13 '''
14 cut_idx = int(floor(X.shape[0] * 0.80))
15 X_train, X_test = X[:cut_idx], X[cut_idx:]
16 y_train, y_test = y[:cut_idx], y[cut_idx:]
17 print("Number of train samples", X_train.shape[0])
18 print("Number of test samples", X_test.shape[0])
19
20 return (X_train, y_train), (X_test, y_test)
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9def train_test_split(fileName,type=1):
10 header = ['user_id', 'item_id', 'rating', 'timestamp']
11 if(type==1):
12 df = pd.read_csv(fileName, sep='\t', names=header)
13 else:
14 df = pd.read_csv(fileName, sep='::', names=header,engine = 'python')
15 n_users = df.user_id.unique().shape[0]
16 users = df.user_id.max()
17 n_items = df.item_id.unique().shape[0]
18 items = df.item_id.max()
19
20 print 'Number of users = ' + str(n_users) + ' | Number of movies = ' + str(n_items)
21 print 'The biggest ID of users = ' + str(users) + ' | The biggest ID of movies = ' + str(items)
22 #
23 train_data, test_data = cv.train_test_split(df, test_size=0.1)
24 train_data = pd.DataFrame(train_data)
25 test_data = pd.DataFrame(test_data)
26 #Create two user-item matrices, one for training and another for testing
27 train_data_matrix = np.zeros((users, items))
28 for line in train_data.itertuples():
29 train_data_matrix[line[1]-1, line[2]-1] = line[3]
30
31 test_data_matrix = np.zeros((users, items))
32 for line in test_data.itertuples():
33 test_data_matrix[line[1]-1, line[2]-1] = line[3]
34 return train_data_matrix,test_data_matrix
23def train_valid_test_split(SOURCE_DATA_DIR, TARGET_DATA_DIR, train_size=0.8, valid_size=0.1,
24 COMBINE_FOLDERS=None, SELECT_FOLDERS=None):
25 """
26 Usage:
27 SOURCE_DATA_DIR = "data/ClothingAttributeDataset/images/"
28 TARGET_DATA_DIR = "data/"
29
30 train_valid_test_split(SOURCE_DATA_DIR, TARGET_DATA_DIR)
31 """
32 if COMBINE_FOLDERS is None:
33 COMBINE_FOLDERS = dict()
34 for folder_name in ["train", "test", "valid"]:
35 rmtree(os.path.join(TARGET_DATA_DIR, folder_name), ignore_errors=True)
36 os.makedirs(os.path.join(TARGET_DATA_DIR, folder_name))
37
38 # Split records by 80-20 between Train and Validation Set
39 filenames = np.random.permutation(glob(os.path.join(SOURCE_DATA_DIR, "*.jpg")))
40
41 train_idx = int(len(filenames) * train_size)
42 test_idx = int(len(filenames) * (train_size+valid_size))
43 for idx, filename in enumerate(filenames):
44 target_name = filename.split("/")[-1]
45 if idx < train_idx:
46 target_filepath = os.path.join(TARGET_DATA_DIR, "train", target_name)
47 elif idx < test_idx:
48 target_filepath = os.path.join(TARGET_DATA_DIR, "valid", target_name)
49 else:
50 target_filepath = os.path.join(TARGET_DATA_DIR, "test", target_name)
51 copyfile(filenames[idx], target_filepath)
134def test_split(self):
135 """
136 Apply split to the sample described in the docstring of prepare_time_inhomogeneous_cv_object, with n_splits = 4
137 and n_test_splits = 2. The folds are [0 : 6], [6 : 11], [11 : 16], [16 : 21]. We use an embargo of zero.
138 Inspection shows that the pairs test-train sets should respectively be
139 [...]
140 3. Train: folds 1 and 4, samples [0, 1, 2, 3, 4, 16, 17, 18, 19, 20]. Test: folds 2 and 3, samples [6, 7, 8, 9,
141 10, 11, 12, 13, 14, 15]. Sample 5 is purged from the train set.
142 4. Train: folds 2 and 3, samples [7, 8, 9, 10, 11, 12, 13, 14, 15]. Test: folds 1 and 4, samples [0, 1, 2, 3, 4,
143 5, 16, 17, 18, 19, 20]. Sample 6 is embargoed.
144 [...]
145 """
146 cv = CombPurgedKFoldCV(n_splits=4, n_test_splits=2)
147 prepare_time_inhomogeneous_cv_object(cv)
148 count = 0
149 for train_set, test_set in cv.split(cv.X, pred_times=cv.pred_times, eval_times=cv.eval_times):
150 count += 1
151 if count == 3:
152 result_train = np.array([0, 1, 2, 3, 4, 16, 17, 18, 19, 20])
153 result_test = np.array([6, 7, 8, 9, 10, 11, 12, 13, 14, 15])
154 self.assertTrue(np.array_equal(result_train, train_set))
155 self.assertTrue(np.array_equal(result_test, test_set))
156 if count == 4:
157 result_train = np.array([7, 8, 9, 10, 11, 12, 13, 14, 15])
158 result_test = np.array([0, 1, 2, 3, 4, 5, 16, 17, 18, 19, 20])
159 self.assertTrue(np.array_equal(result_train, train_set))
160 self.assertTrue(np.array_equal(result_test, test_set))
82def my_train_split(ds, y):
83 return ds, skorch.dataset.Dataset(corpus.valid[:200], y=None)
33def train_test_split_result(clf, X, y):
34 print("This is Random and Percentaged Spilt Result ... ")
35 X_train, X_test, y_train, y_test = cross_validation.train_test_split(X, y)
36 clf = clf.fit(X_train, y_train)
37 report_result(clf, X_test, y_test, y_train)
480def train_valid_split(dataset, validation_amount):
481 valid_length = int(validation_amount * len(dataset))
482 train_length = len(dataset) - valid_length
483
484 train_dataset, valid_dataset = random_split(dataset, [train_length, valid_length])
485 return train_dataset, valid_dataset
75def _get_adapted_dataset(split):
76 """ Gets the adapted dataset for the experiments
77
78 Args :
79 split (str): train or test
80 Returns :
81 (tuple): <training, testing> images and labels
82 """
83 dataset = _get_dataset()
84 key_img = 'x_' + split
85 key_lbl = 'y_' + split
86
87 if split != 'train':
88 dataset[key_img], dataset[key_lbl] = _adapt(dataset[key_img],
89 dataset[key_lbl])
90
91 return (dataset[key_img], dataset[key_lbl])
87def train_val_test_split(id_lists, train_fraction, val_fraction, test_fraction):
88 train_ids = []
89 val_ids = []
90 test_ids = []
91
92 for dataset_idx, id_list in enumerate(id_lists):
93 print('dataset', dataset_idx, 'contains', len(id_lists), 'items.')
94 train, val, test = make_splits(id_list, [train_fraction, val_fraction, test_fraction])
95 train_ids += train
96 val_ids += val
97 test_ids += test
98 print('train_ids', len(train_ids), 'val_ids', len(val_ids), 'test_ids', len(test_ids))
99
100 return {'train': train_ids, 'valid': val_ids, 'test': test_ids}
35def split_data(df):
36 X = df.drop('Y', axis=1).values
37 y = df['Y'].values
38
39 X_train, X_test, y_train, y_test = train_test_split(
40 X, y, test_size=0.2, random_state=0)
41 data = {"train": {"X": X_train, "y": y_train},
42 "test": {"X": X_test, "y": y_test}}
43 return data

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