203

I've just started using R and I'm not sure how to incorporate my dataset with the following sample code:

sample(x, size, replace = FALSE, prob = NULL)

I have a dataset that I need to put into a training (75%) and testing (25%) set. I'm not sure what information I'm supposed to put into the x and size? Is x the dataset file, and size how many samples I have?

1
  • 1
    x can be the index (row/col nos. say) of your data. size can be 0.75*nrow(data). Try sample(1:10, 4, replace = FALSE, prob = NULL) to see what it does.
    – harkmug
    Jun 19, 2013 at 20:09

28 Answers 28

315

There are numerous approaches to achieve data partitioning. For a more complete approach take a look at the createDataPartition function in the caret package.

Here is a simple example:

data(mtcars)

## 75% of the sample size
smp_size <- floor(0.75 * nrow(mtcars))

## set the seed to make your partition reproducible
set.seed(123)
train_ind <- sample(seq_len(nrow(mtcars)), size = smp_size)

train <- mtcars[train_ind, ]
test <- mtcars[-train_ind, ]
15
  • 2
    I'm a little confused what guarantees this code returns a unique test and train df? It seems to work, don't get me wrong. Just having trouble understanding how subtracting the indices leads to unique observations. For instance, if you had a df with 10 rows and one column, and the one column contained 1,2,3,4,5,6,7,8,9,10 and you followed this code, what prevents a train having index 4 and test having -6 -> 10 - 6 = 4 as well?
    – goldisfine
    May 5, 2014 at 13:09
  • 2
    thank. I tried mtcars[!train_ind] and while it didn't fail, it did't work as expected. How could I subset using the !?
    – user989762
    Apr 23, 2015 at 7:22
  • 1
    @user989762 ! are used for logical (TRUE/FALSE) and not indices. If you want to subset using !, try something like mtcars[!seq_len(nrow(mtcars)) %in% train_ind, ] (not tested).
    – dickoa
    Apr 23, 2015 at 16:09
  • 2
    @VedaadShakib when you use "-" it omit all the index in train_ind from your data. Take a look at adv-r.had.co.nz/Subsetting.html . Hope it helps
    – dickoa
    Aug 1, 2016 at 22:05
  • 5
    Isn't createDataPartition in caret and not caTools?
    – J. Mini
    Apr 30, 2020 at 20:12
119

It can be easily done by:

set.seed(101) # Set Seed so that same sample can be reproduced in future also
# Now Selecting 75% of data as sample from total 'n' rows of the data  
sample <- sample.int(n = nrow(data), size = floor(.75*nrow(data)), replace = F)
train <- data[sample, ]
test  <- data[-sample, ]

By using caTools package:

require(caTools)
set.seed(101) 
sample = sample.split(data$anycolumn, SplitRatio = .75)
train = subset(data, sample == TRUE)
test  = subset(data, sample == FALSE)
3
  • 6
    I recently did a course with MIT and they used the approach using caTools throughout. Thanks Oct 26, 2017 at 8:42
  • 2
    sample = sample.split(data[,1], SplitRatio = .75) Should remove the need to name a column. Jun 4, 2020 at 20:26
  • github.com/cran/caTools/blob/master/R/sample.split.R "Split data from vector Y into 2 bins in predefined ratio while preserving relative [ratios] of different labels in Y." So if this is for a classification problem, the first parameter should the column with the classes to be predicted. If it's a regression problem, might as well use the built-in sample function as in the former solution. Oct 21, 2020 at 7:58
42

I would use dplyr for this, makes it super simple. It does require an id variable in your data set, which is a good idea anyway, not only for creating sets but also for traceability during your project. Add it if doesn't contain already.

mtcars$id <- 1:nrow(mtcars)
train <- mtcars %>% dplyr::sample_frac(.75)
test  <- dplyr::anti_join(mtcars, train, by = 'id')
0
31

This is almost the same code, but in more nice look

bound <- floor((nrow(df)/4)*3)         #define % of training and test set

df <- df[sample(nrow(df)), ]           #sample rows 
df.train <- df[1:bound, ]              #get training set
df.test <- df[(bound+1):nrow(df), ]    #get test set
3
24
library(caret)
intrain<-createDataPartition(y=sub_train$classe,p=0.7,list=FALSE)
training<-m_train[intrain,]
testing<-m_train[-intrain,]
3
  • 6
    While a code-only answer is an answer, it is better to provide some explanation.
    – C8H10N4O2
    Feb 12, 2016 at 1:39
  • 1
    what is m_train? I think you meant, sub_train the original data.frame. Therefore, the revised code should be training<-sub_train[intrain,] and testing<-sub_train[-intrain,]. I wonder why nobody was able to spot this major problem with you answer in the past five years!
    – mnm
    Jul 27, 2016 at 1:30
  • OP didn't explicitly asked for stratification... Dec 1, 2021 at 10:52
22

I will split 'a' into train(70%) and test(30%)

    a # original data frame
    library(dplyr)
    train<-sample_frac(a, 0.7)
    sid<-as.numeric(rownames(train)) # because rownames() returns character
    test<-a[-sid,]

done

4
  • 4
    you need to import dpyr package, require(dplyr)
    – TheMI
    Jan 28, 2016 at 6:20
  • This answer helped me but I did need to tweak it to get expected results. As is, the dataset 'train' has rownames = sid of sequential integers: 1,2,3,4,... whereas you want sid to be the rownumbers from the original dataset 'a,' which since they are randomly selected won't be the sequential integers. So, it's necessary to create the id variable on 'a' first. Oct 21, 2016 at 2:34
  • row.names(mtcars) <- NULL; train<-dplyr::sample_frac(mtcars, 0.5); test<-mtcars[-as.numeric(row.names(train)),] # I did this to my data, the original code doesn't work if your row names are set to numbers already Aug 4, 2017 at 7:56
  • it looks ok for me, but do not seems to be random selection
    – B_slash_
    Oct 19, 2022 at 15:35
17

My solution is basically the same as dickoa's but a little easier to interpret:

data(mtcars)
n = nrow(mtcars)
trainIndex = sample(1:n, size = round(0.7*n), replace=FALSE)
train = mtcars[trainIndex ,]
test = mtcars[-trainIndex ,]
1
  • What is the variable swiss?
    – billmccord
    Oct 26, 2016 at 15:57
16

I can suggest using the rsample package:

# choosing 75% of the data to be the training data
data_split <- initial_split(data, prop = .75)
# extracting training data and test data as two seperate dataframes
data_train <- training(data_split)
data_test  <- testing(data_split)
1
  • It is worth highlighting that rsample is part of the tidymodels framework for those using tidymodels. In addition to initial_split there is also group_initial_split and initial_time_split.
    – LMc
    Nov 30, 2023 at 21:43
10

After looking through all the different methods posted here, I didn't see anyone utilize TRUE/FALSE to select and unselect data. So I thought I would share a method utilizing that technique.

n = nrow(dataset)
split = sample(c(TRUE, FALSE), n, replace=TRUE, prob=c(0.75, 0.25))

training = dataset[split, ]
testing = dataset[!split, ]

Explanation

There are multiple ways of selecting data from R, most commonly people use positive/negative indices to select/unselect respectively. However, the same functionalities can be achieved by using TRUE/FALSE to select/unselect.

Consider the following example.

# let's explore ways to select every other element
data = c(1, 2, 3, 4, 5)


# using positive indices to select wanted elements
data[c(1, 3, 5)]
[1] 1 3 5

# using negative indices to remove unwanted elements
data[c(-2, -4)]
[1] 1 3 5

# using booleans to select wanted elements
data[c(TRUE, FALSE, TRUE, FALSE, TRUE)]
[1] 1 3 5

# R recycles the TRUE/FALSE vector if it is not the correct dimension
data[c(TRUE, FALSE)]
[1] 1 3 5
1
  • 1
    I find this to be the most elegant native R solution with no external packages.
    – Tripartio
    Nov 28, 2022 at 15:03
7

Just a more brief and simple way using awesome dplyr library:

library(dplyr)
set.seed(275) #to get repeatable data

data.train <- sample_frac(Default, 0.7)

train_index <- as.numeric(rownames(data.train))
data.test <- Default[-train_index, ]
1
  • 1
    Did you mean to use Default[-train_index,] for the last line.
    – Matt L.
    Mar 5, 2018 at 15:09
6

scorecard package has a useful function for that, where you can specify the ratio and seed

library(scorecard)

dt_list <- split_df(mtcars, ratio = 0.75, seed = 66)

The test and train data are stored in a list and can be accessed by calling dt_list$train and dt_list$test

5

If you type:

?sample

If will launch a help menu to explain what the parameters of the sample function mean.

I am not an expert, but here is some code I have:

data <- data.frame(matrix(rnorm(400), nrow=100))
splitdata <- split(data[1:nrow(data),],sample(rep(1:4,as.integer(nrow(data)/4))))
test <- splitdata[[1]]
train <- rbind(splitdata[[1]],splitdata[[2]],splitdata[[3]])

This will give you 75% train and 25% test.

4

My solution shuffles the rows, then takes the first 75% of the rows as train and the last 25% as test. Super simples!

row_count <- nrow(orders_pivotted)
shuffled_rows <- sample(row_count)
train <- orders_pivotted[head(shuffled_rows,floor(row_count*0.75)),]
test <- orders_pivotted[tail(shuffled_rows,floor(row_count*0.25)),]
3

We can divide data into a particular ratio here it is 80% train and 20% in a test dataset.

ind <- sample(2, nrow(dataName), replace = T, prob = c(0.8,0.2))
train <- dataName[ind==1, ]
test <- dataName[ind==2, ]
1
  • 1
    Be careful as this is based on probability, so using this will not always create an exact 80-20% split. Easiest is just to use createDataPartition from the caret package as mentioned above. For instance, after just running it 3 times consecutively I got 45 train samples and just 5 test out of 50 (90-10).
    – user21398
    Jan 14, 2021 at 1:16
2

Below a function that create a list of sub-samples of the same size which is not exactly what you wanted but might prove usefull for others. In my case to create multiple classification trees on smaller samples to test overfitting :

df_split <- function (df, number){
  sizedf      <- length(df[,1])
  bound       <- sizedf/number
  list        <- list() 
  for (i in 1:number){
    list[i] <- list(df[((i*bound+1)-bound):(i*bound),])
  }
  return(list)
}

Example :

x <- matrix(c(1:10), ncol=1)
x
# [,1]
# [1,]    1
# [2,]    2
# [3,]    3
# [4,]    4
# [5,]    5
# [6,]    6
# [7,]    7
# [8,]    8
# [9,]    9
#[10,]   10

x.split <- df_split(x,5)
x.split
# [[1]]
# [1] 1 2

# [[2]]
# [1] 3 4

# [[3]]
# [1] 5 6

# [[4]]
# [1] 7 8

# [[5]]
# [1] 9 10
2

Use caTools package in R sample code will be as follows:-

data
split = sample.split(data$DependentcoloumnName, SplitRatio = 0.6)
training_set = subset(data, split == TRUE)
test_set = subset(data, split == FALSE)
2

Use base R. Function runif generates uniformly distributed values from 0 to 1.By varying cutoff value (train.size in example below), you will always have approximately the same percentage of random records below the cutoff value.

data(mtcars)
set.seed(123)

#desired proportion of records in training set
train.size<-.7
#true/false vector of values above/below the cutoff above
train.ind<-runif(nrow(mtcars))<train.size

#train
train.df<-mtcars[train.ind,]


#test
test.df<-mtcars[!train.ind,]
1
  • This would be a much better answer if it showed the extra couple lines to actually create the training and test sets (which newbies often struggle with). Jan 26, 2018 at 14:55
2

Assuming df is your data frame, and that you want to create 75% train and 25% test

all <- 1:nrow(df)
train_i <- sort(sample(all, round(nrow(df)*0.75,digits = 0),replace=FALSE))
test_i <- all[-train_i]

Then to create a train and test data frames

df_train <- df[train_i,]
df_test <- df[test_i,]
1
require(caTools)

set.seed(101)            #This is used to create same samples everytime

split1=sample.split(data$anycol,SplitRatio=2/3)

train=subset(data,split1==TRUE)

test=subset(data,split1==FALSE)

The sample.split() function will add one extra column 'split1' to dataframe and 2/3 of the rows will have this value as TRUE and others as FALSE.Now the rows where split1 is TRUE will be copied into train and other rows will be copied to test dataframe.

1

Beware of sample for splitting if you look for reproducible results. If your data changes even slightly, the split will vary even if you use set.seed. For example, imagine the sorted list of IDs in you data is all the numbers between 1 and 10. If you just dropped one observation, say 4, sampling by location would yield a different results because now 5 to 10 all moved places.

An alternative method is to use a hash function to map IDs into some pseudo random numbers and then sample on the mod of these numbers. This sample is more stable because assignment is now determined by the hash of each observation, and not by its relative position.

For example:

require(openssl)  # for md5
require(data.table)  # for the demo data

set.seed(1)  # this won't help `sample`

population <- as.character(1e5:(1e6-1))  # some made up ID names

N <- 1e4  # sample size

sample1 <- data.table(id = sort(sample(population, N)))  # randomly sample N ids
sample2 <- sample1[-sample(N, 1)]  # randomly drop one observation from sample1

# samples are all but identical
sample1
sample2
nrow(merge(sample1, sample2))

[1] 9999

# row splitting yields very different test sets, even though we've set the seed
test <- sample(N-1, N/2, replace = F)

test1 <- sample1[test, .(id)]
test2 <- sample2[test, .(id)]
nrow(test1)

[1] 5000

nrow(merge(test1, test2))

[1] 2653

# to fix that, we can use some hash function to sample on the last digit

md5_bit_mod <- function(x, m = 2L) {
  # Inputs: 
  #  x: a character vector of ids
  #  m: the modulo divisor (modify for split proportions other than 50:50)
  # Output: remainders from dividing the first digit of the md5 hash of x by m
  as.integer(as.hexmode(substr(openssl::md5(x), 1, 1)) %% m)
}

# hash splitting preserves the similarity, because the assignment of test/train 
# is determined by the hash of each obs., and not by its relative location in the data
# which may change 
test1a <- sample1[md5_bit_mod(id) == 0L, .(id)]
test2a <- sample2[md5_bit_mod(id) == 0L, .(id)]
nrow(merge(test1a, test2a))

[1] 5057

nrow(test1a)

[1] 5057

sample size is not exactly 5000 because assignment is probabilistic, but it shouldn't be a problem in large samples thanks to the law of large numbers.

See also: http://blog.richardweiss.org/2016/12/25/hash-splits.html and https://crypto.stackexchange.com/questions/20742/statistical-properties-of-hash-functions-when-calculating-modulo

2
  • Added as a separate question: stackoverflow.com/questions/52769681/…
    – dzeltzer
    Oct 11, 2018 at 22:34
  • I want to develop auto.arima model from multiple time series data and I want to use 1 year of data, 3 year of data, 5, 7... in a two year interval from each series to build the model and testing it in the remaining testing set. How do I do the subsetting so that the fitted model will have what I want? I appreciate for your help
    – Stackuser
    Apr 9, 2020 at 4:35
1

I bumped into this one, it can help too.

set.seed(12)
data = Sonar[sample(nrow(Sonar)),]#reshufles the data
bound = floor(0.7 * nrow(data))
df_train = data[1:bound,]
df_test = data[(bound+1):nrow(data),]
1

Create an index row "rowid" and use anti join to filter out using by = "rowid". You can remove the rowid column by using %>% select(-rowid) after the split.

data <- tibble::rowid_to_column(data)

set.seed(11081995)

testdata <- data %>% slice_sample(prop = 0.2)

traindata <- anti_join(data, testdata, by = "rowid")

0
0
set.seed(123)
llwork<-sample(1:length(mydata),round(0.75*length(mydata),digits=0)) 
wmydata<-mydata[llwork, ]
tmydata<-mydata[-llwork, ]
0

I think this would solve the problem:

df = data.frame(read.csv("data.csv"))
# Split the dataset into 80-20
numberOfRows = nrow(df)
bound = as.integer(numberOfRows *0.8)
train=df[1:bound ,2]
test1= df[(bound+1):numberOfRows ,2]
0

I prefer using dplyr to mutate the values

set.seed(1)
mutate(x, train = runif(1) < 0.75)

I can keep using dplyr::filter with helper functions like

data.split <- function(is_train = TRUE) {
    set.seed(1)
    mutate(x, train = runif(1) < 0.75) %>%
    filter(train == is_train)
}
0

I wrote a function (my first one, so it might not work well) to make this go faster if I'm working with multiple data tables and don't want to repeat the code.

xtrain <- function(data, proportion, t1, t2){
  data <- data %>% rowid_to_column("rowid")
  train <- slice_sample(data, prop = proportion)
  assign(t1, train, envir = .GlobalEnv)
  test <- data %>% anti_join(as.data.frame(train), by = "rowid")
  assign(t2, test, envir = .GlobalEnv)
}

xtrain(iris, .80, 'train_set', 'test_set')

You'll need to have dplyr and tibble loaded. This takes a given dataset, the proportion you want use for sampling, and two object names. The function creates the table and then assigns them as an object in your global environment.

0

try using idx <- sample(2, nrow(data), replace = TRUE, prob = c(0.75, 0.25)) and the using the provided ids to access split data training <- data[idx == 1,] testing <- data[idx == 2,]

-2

There is a very simple way to select a number of rows using the R index for rows and columns. This lets you CLEANLY split the data set given a number of rows - say the 1st 80% of your data.

In R all rows and columns are indexed so DataSetName[1,1] is the value assigned to the first column and first row of "DataSetName". I can select rows using [x,] and columns using [,x]

For example: If I have a data set conveniently named "data" with 100 rows I can view the first 80 rows using

View(data[1:80,])

In the same way I can select these rows and subset them using:

train = data[1:80,]

test = data[81:100,]

Now I have my data split into two parts without the possibility of resampling. Quick and easy.

2
  • 1
    Althought it is true that data can be split that way, it is not advised. Some datasets are ordered by a variable that you are not aware of. So its best to sample which rows will be considered as training instead of taking the first n rows. Sep 6, 2018 at 20:11
  • 1
    If you shuffle the data before separating them to test and training set, your suggestion works.
    – Hadij
    Mar 14, 2019 at 16:51

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