Assigning Vectors in R Programming
Vectors are one of the most basic data structure in R. They contain data of same type. Vectors in R is equivalent to arrays in other programming languages. In R, array is a vector of one or more dimensions and every single object created is stored in the form of a vector. The members of a vector are termed as components .
Assigning of Vectors
There are different ways of assigning vectors. In R, this task can be performed using c()
or using “:” or using seq()
function.
-
Assigning vector using
c()
Generally, vectors in R are assigned usingc()
function.
Example 1:# R program to illustrate
# Assigning vectors
# Using c()
V =
c
(1, 2, 4, 6, 7)
# Printing the Vector
print
(V)
# Printing the data type of the vector
print
(
typeof
(V))
Output:
[1] 1 2 4 6 7 [1] "double"
Example 2:
# R program to illustrate
# Assigning vectors
# by default numeric values,
# double values and logical values
# are converted into characters
V2 =
c
(1.5,
TRUE
, 4,
"Beginner"
)
# Printing the Vector
print
(V2)
# Printing the data type of the vector
print
(
typeof
(V2))
Output:
[1] "1.5" "TRUE" "4" "Beginner" [1] "character"
-
Assigning a vector using “:”
In R, to create a vector of consecutive values “:” operator is used.
Example 1:# R program to illustrate
# Assigning vectors
# use':' to assign a vector
# of continuous values
V = 1:10
# Printing the vector
print
(V)
Output :
[1] 1 2 3 4 5 6 7 8 9 10
Example 2:
# R program to illustrate
# Assigning vectors
# use':' to assign a vector
# of continuous values
V = 1.5 : 9.5
# Printing the vector
print
(V)
Output:
[1] 1.5 2.5 3.5 4.5 5.5 6.5 7.5 8.5 9.5
Example 3:
If there is a mismatch of intervals, it skips the last value.
# R program to illustrate
# Assigning vectors
# use':' to assign a vector
# of continuous values
# instead of 9.5
# here we take 9.4
V = 1.5 : 9.4
# Printing the vector
print
(V)
Output:
[1] 1.5 2.5 3.5 4.5 5.5 6.5 7.5 8.5
-
Assigning Vectors with
seq()
In order to create vectors having step size, R providesseq()
function.
Example 1:# R program to illustrate
# Assigning vectors
# Assigning a vector using
# seq() function
V =
seq
(1, 3, by=0.2)
# Printing the vector
print
(V)
Output:
[1] 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0
Example 2:
It’s possible to specify the required length of the vector and step size is computed automatically.
# R program to illustrate
# Assigning vectors
# Creating a vector using seq()
# specifying the length of the vector
V =
seq
(1, 10, length.out=5)
# Printing the vector
print
(V)
Output :
[1] 1.00 3.25 5.50 7.75 10.00
Assigning Named Vectors in R
It’s also possible to create named vectors in R such that every value has a name assigned with it. R provides the names()
function in order to create named vectors.
Example:
Suppose one wants to create a named vector with the number of players in each sport. To do so, first, he will create a numeric vector containing the number of players. Now, he can use the names()
function to assign the name of the sports to the number of players.
# R program to illustrate # Assigning named vectors # Creating a numeric vector # with the number of players sports.players = c (2, 4, 5, 6, 7, 9, 11) # Assigning sports name to the numeric vector names (sports.players) = c ( "Bridge" , "Polo" , "Basketball" , "Volleyball" , "kabaddi" , "Baseball" , "Cricket" ) # Displaying the named vector print (sports.players) |
Output:
Bridge Polo Basketball Volleyball kabaddi Baseball Cricket 2 4 5 6 7 9 11
In order to get a sport with a particular number of players:
# Displaying the sports with 9 players print ( names (sports.players[sports.players==9])) # Displaying the sports with 1 player print ( names (sports.players[sports.players==1])) |
Output:
"Baseball" character(0)
Explanation:
Baseball has nine players so it displays Baseball as output. Since here there is no sport with one player in this named vector, no output is generated and it displays the output as the character(0).
Access elements of a vector
In R in order to access the elements of a vector, vector indexing could be performed.
Note: Please note that indexing in R begins from 1 and not 0.
Example 1:
# R program # To access elements # Creating a vector by seq() function V = seq( 1 , 40 , by = 4 ) # Printing the vector print (V) # Printing the fifth element of the vector print (V[ 5 ]) |
Output:
[1] 1 5 9 13 17 21 25 29 33 37 [1] 17
Example 2:
# R program # To access multiple elements # Creating a vector by seq() function V = seq( 1 , 40 , by = 4 ) # Printing the vector print (V) # Printing the fifth and seventh element of the vector print (V[c( 5 , 7 )]) |
Output:
[1] 1 5 9 13 17 21 25 29 33 37 [1] 17 25
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