199

I have a fairly large dataset in the form of a dataframe and I was wondering how I would be able to split the dataframe into two random samples (80% and 20%) for training and testing.

Thanks!

17 Answers 17

227

I would just use numpy's randn:

In [11]: df = pd.DataFrame(np.random.randn(100, 2))

In [12]: msk = np.random.rand(len(df)) < 0.8

In [13]: train = df[msk]

In [14]: test = df[~msk]

And just to see this has worked:

In [15]: len(test)
Out[15]: 21

In [16]: len(train)
Out[16]: 79
  • 2
    Sorry, my mistake. As long as msk is of dtype bool, df[msk], df.iloc[msk] and df.loc[msk] always return the same result. – unutbu Jun 10 '14 at 18:32
  • 2
    I think you should use rand to < 0.8 make sense because it returns uniformly distributed random numbers between 0 and 1. – Rolando Max Jun 10 '14 at 18:43
  • 2
    Can someone explain purely in python terms what exactly happens in lines in[12], in[13], in[14]? I want to understand the python code itself here – kuatroka May 15 '17 at 17:04
  • 4
    The answer using sklearn from gobrewers14 is the better one. It's less complex and easier to debug. I recommend using the answer below. – So S Oct 2 '17 at 15:51
  • 2
    @kuatroka np.random.rand(len(df)) is an array of size len(df) with randomly and uniformly distributed float values in range [0, 1]. The < 0.8 applies the comparison element-wise and stores the result in place. Thus values < 0.8 become True and value >= 0.8 become False – Kentzo Dec 6 '18 at 0:40
405

scikit learn's train_test_split is a good one.

import pandas as pd
import numpy as np
from sklearn.model_selection import train_test_split

train, test = train_test_split(df, test_size=0.2)
  • 12
    This will return numpy arrays and not Pandas Dataframes however – Bar Oct 22 '14 at 15:10
  • 73
    Btw, it does return a Pandas Dataframe now (just tested on Sklearn 0.16.1) – Julien Marrec Jul 8 '15 at 10:30
  • 4
    If you're looking for KFold, its a bit more complex sadly. kf = KFold(n, n_folds=folds) for train_index, test_index in kf: X_train, X_test = X.ix[train_index], X.ix[test_index] see full example here: quantstart.com/articles/… – ihadanny Feb 23 '16 at 13:13
  • 12
    In new versions (0.18, maybe earlier), import as from sklearn.model_selection import train_test_split instead. – Mark Oct 19 '16 at 17:24
  • 7
    In the newest SciKit version you need to call it now as: from sklearn.cross_validation import train_test_split – horseshoe Mar 22 '17 at 9:32
185

Pandas random sample will also work

train=df.sample(frac=0.8,random_state=200)
test=df.drop(train.index)
  • 10
    This seems to me as even more cleaner way how to do that than current top answer. It's shorter and clearer. – kotrfa Apr 21 '16 at 12:27
  • What does .index mean / where is the documentation for .index on a DataFrame? I can't find it. – dmonopoly Feb 13 '17 at 16:47
  • @dmonopoly, it is exactly what it looks like. df.index retruns index object of that dataframe. pandas.pydata.org/pandas-docs/stable/generated/… also some discussion at stackoverflow.com/questions/17241004/… – PagMax Feb 14 '17 at 3:28
  • what is random_state arg doing? – Rishabh Agrahari Nov 1 '17 at 12:42
  • 1
    @RishabhAgrahari randomly shuffles different data split every time according to the frac arg. If you want to control the randomness you can state your own seed, like in the example. – MikeL Nov 15 '17 at 9:32
24

I would use scikit-learn's own training_test_split, and generate it from the index

from sklearn.cross_validation import train_test_split


y = df.pop('output')
X = df

X_train,X_test,y_train,y_test = train_test_split(X.index,y,test_size=0.2)
X.iloc[X_train] # return dataframe train
  • 2
    The cross_validation module is now deprecated: DeprecationWarning: This module was deprecated in version 0.18 in favor of the model_selection module into which all the refactored classes and functions are moved. Also note that the interface of the new CV iterators are different from that of this module. This module will be removed in 0.20. – Harry Nov 5 '16 at 23:23
  • 2
    Use from sklearn.model_selection import train_test_split – spicyramen Jul 11 '17 at 5:33
11

You can use below code to create test and train samples :

from sklearn.model_selection import train_test_split
trainingSet, testSet = train_test_split(df, test_size=0.2)

Test size can vary depending on the percentage of data you want to put in your test and train dataset.

6

There are many valid answers. Adding one more to the bunch. from sklearn.cross_validation import train_test_split

#gets a random 80% of the entire set
X_train = X.sample(frac=0.8, random_state=1)
#gets the left out portion of the dataset
X_test = X.loc[~df_model.index.isin(X_train.index)]
5

You may also consider stratified division into training and testing set. Startified division also generates training and testing set randomly but in such a way that original class proportions are preserved. This makes training and testing sets better reflect the properties of the original dataset.

import numpy as np  

def get_train_test_inds(y,train_proportion=0.7):
    '''Generates indices, making random stratified split into training set and testing sets
    with proportions train_proportion and (1-train_proportion) of initial sample.
    y is any iterable indicating classes of each observation in the sample.
    Initial proportions of classes inside training and 
    testing sets are preserved (stratified sampling).
    '''

    y=np.array(y)
    train_inds = np.zeros(len(y),dtype=bool)
    test_inds = np.zeros(len(y),dtype=bool)
    values = np.unique(y)
    for value in values:
        value_inds = np.nonzero(y==value)[0]
        np.random.shuffle(value_inds)
        n = int(train_proportion*len(value_inds))

        train_inds[value_inds[:n]]=True
        test_inds[value_inds[n:]]=True

    return train_inds,test_inds

df[train_inds] and df[test_inds] give you the training and testing sets of your original DataFrame df.

  • This is the preferable strategy for supervised learning tasks. – vincentmajor Mar 2 '17 at 19:16
  • When trying to use this I am getting an error. ValueError: assignment destination is read-only in the line "np.random.shuffle(value_inds)" – Markus W Mar 17 '17 at 18:25
2

This is what I wrote when I needed to split a DataFrame. I considered using Andy's approach above, but didn't like that I could not control the size of the data sets exactly (i.e., it would be sometimes 79, sometimes 81, etc.).

def make_sets(data_df, test_portion):
    import random as rnd

    tot_ix = range(len(data_df))
    test_ix = sort(rnd.sample(tot_ix, int(test_portion * len(data_df))))
    train_ix = list(set(tot_ix) ^ set(test_ix))

    test_df = data_df.ix[test_ix]
    train_df = data_df.ix[train_ix]

    return train_df, test_df


train_df, test_df = make_sets(data_df, 0.2)
test_df.head()
2
import pandas as pd

from sklearn.model_selection import train_test_split

datafile_name = 'path_to_data_file'

data = pd.read_csv(datafile_name)

target_attribute = data['column_name']

X_train, X_test, y_train, y_test = train_test_split(data, target_attribute, test_size=0.8)
  • 2
    You have a short mistake. You should drop target column before, you put it into train_test_split. data = data.drop(columns = ['column_name'], axis = 1) – Anton Erjomin Aug 6 '18 at 14:35
1

You can make use of df.as_matrix() function and create Numpy-array and pass it.

Y = df.pop()
X = df.as_matrix()
x_train, x_test, y_train, y_test = train_test_split(X, Y, test_size = 0.2)
model.fit(x_train, y_train)
model.test(x_test)
1

Just select range row from df like this

row_count = df.shape[0]
split_point = int(row_count*1/5)
test_data, train_data = df[:split_point], df[split_point:]
  • 2
    This would only work if the data in the dataframe is already randomly ordered. If the dataset is derived from ultiple sources and has been appended to the same dataframe then it's quite possible to get a very skewed dataset for training/testing using the above. – Emil H May 12 '17 at 8:17
  • You can shuffle dataframe before split it stackoverflow.com/questions/29576430/shuffle-dataframe-rows – Makio May 12 '17 at 8:59
  • Absolutelty! If you add that df in your code snippet is (or should be) shuffled it will improve the answer. – Emil H May 12 '17 at 13:55
1

If you need to split your data with respect to the lables column in your data set you can use this:

def split_to_train_test(df, label_column, train_frac=0.8):
    train_df, test_df = pd.DataFrame(), pd.DataFrame()
    labels = df[label_column].unique()
    for lbl in labels:
        lbl_df = df[df[label_column] == lbl]
        lbl_train_df = lbl_df.sample(frac=train_frac)
        lbl_test_df = lbl_df.drop(lbl_train_df.index)
        print '\n%s:\n---------\ntotal:%d\ntrain_df:%d\ntest_df:%d' % (lbl, len(lbl_df), len(lbl_train_df), len(lbl_test_df))
        train_df = train_df.append(lbl_train_df)
        test_df = test_df.append(lbl_test_df)

    return train_df, test_df

and use it:

train, test = split_to_train_test(data, 'class', 0.7)

you can also pass random_state if you want to control the split randomness or use some global random seed.

0

If your wish is to have one dataframe in and two dataframes out (not numpy arrays), this should do the trick:

def split_data(df, train_perc = 0.8):

   df['train'] = np.random.rand(len(df)) < train_perc

   train = df[df.train == 1]

   test = df[df.train == 0]

   split_data ={'train': train, 'test': test}

   return split_data
0

I think you also need to a get a copy not a slice of dataframe if you wanna add columns later.

msk = np.random.rand(len(df)) < 0.8
train, test = df[msk].copy(deep = True), df[~msk].copy(deep = True)
0

How about this? df is my dataframe

total_size=len(df)

train_size=math.floor(0.66*total_size) (2/3 part of my dataset)

#training dataset
train=df.head(train_size)
#test dataset
test=df.tail(len(df) -train_size)
0

To split into more than two classes such as train, test, and validation, one can do:

probs = np.random.rand(len(df))
training_mask = probs < 0.7
test_mask = (probs>=0.7) & (probs < 0.85)
validatoin_mask = probs >= 0.85


df_training = df[training_mask]
df_test = df[test_mask]
df_validation = df[validatoin_mask]

This will put 70% of data in training, 15% in test, and 15% in validation.

0

A bit more elegant to my taste is to create a random column and then split by it, this way we can get a split that will suit our needs and will be random.

def split_df(df, p=[0.8, 0.2]):
import numpy as np
df["rand"]=np.random.choice(len(p), len(df), p=p)
r = [df[df["rand"]==val] for val in df["rand"].unique()]
return r

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