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Introduction to Vectors

In this module, we'll cover the foundational concepts for working with vectors in R. Understanding how R stores information in vectors, and the way in which operations are executed in vectorized form is key to understanding how to efficiently write the R programming language.

Helpful links:

What is a Vector?

Vectors are collections of elements, all of the same type (numeric, character, etc.), which you can store in a variable. For example, if you wanted to store the names "Sarah" and "Arup" both in the same variable, you could do so in a vector. The syntax for creating vectors is to use the built in c function, which stands for combine. The c function accepts comma separated arguments of the same type, and returns a single vector of those elements.

# Use the combine (`c`) function to create a vector.
people <- c('Sarah', 'Arup')
print(people)  # [1] "Sarah" "Arup"

Once created, you are unable to change the number of elements in a vector. However, you could create a new vector by combining a new element with an existing vector.

# Use the combine (`c`) function to create a vector.
people <- c('Sarah', 'Arup')

# Use the combine (`c`) function to combine the `people` vector and the name 'Josh'.
more.people <- c(people, 'Josh')
print(more.people)  # [1] "Sarah" "Arup" "Josh"

Indexing Vectors

Indexing is the processes of retrieving values from a vector. The term index refers to an element's position in a vector. Vector elements are indexed starting with 1, which is distinct from zero-indexed languages, whose first element in a vector is accessed with the number 0. If you want to retrieve a value from a vector, you'll do so by typing an index (or series of incices) after a vector inside of square-brackets ([]). The first element in a vector has position (index) 1.

Position Indexing

As stated above, you can retrieve a single value from a vector by placing an index inside of square-brackets after the vector:

# Use the combine (`c`) function to create a vector.
people <- c('Sarah', 'Arup')

# Store the second element in the `people` vector in a variable `person2`
person2 <- people[2]
print(person2)  #[1] "Arup"

This syntax should look familiar from other times that you've printed out a variable. As it turns out, in R, everything is a vector. Even when you create a variable storing the number 7 (x <- 7), R creates a vector of length 1, and puts the number 7 in the first position. This is why printing out a variable with a single element in it provides you with an index of that value:

# Create a vector of length 1 in a variable x
x <- 7
# Print out x: R states the vector index (1) in the console
print(x)  # [1] 7

If you pass a negative-index into the square-brackets, R will return all elements except the (negative) index specified.

# Create a `colors` vector
colors <- c('yellow', 'blue', 'orange')

# Return all elements except the second index
all.but.blue <- colors[-2]  # returns 'yellow', 'orange'

Passing a out-of-range value into the square brackets will return NA, which stands for Not Available:

# Create a vector x
x <- c(1,2,3)

# Attempt to access the 10th element
x[10]  # returns NA

Multiple Indicies

As you can imagine, you may want to access multiple elements inside of a vector. To do so, you can pass a vector of indices into your square brackets:

# Create a `colors` vector
colors <- c('yellow', 'blue', 'orange')

# Retrieve the second and third elements from the `colors` vector
colors[c(2, 3)]

If you find that a bit messy, you can store your indicies (c(1,2)) in a variable, and then pass that variable into the square-brackets:

# Create a `colors` vector
colors <- c('yellow', 'blue', 'orange')

# Store desired indices in a vector
indices <- c(2, 3)

# Retrieve the second and third elements from the `colors` vector
colors[indices]

Recall the seq function from module-6 which produced a sequence of numbers. A handy shorthand for the sequence function is the colon operator (a:b), which returns a vector from a to b (incrementing by 1). This allows you to write nicely readable code such as this:

# Create a `colors` vector
colors <- c('yellow', 'blue', 'orange', 'green', 'black')

# Retrieve values in positions 2 through 5
colors[2:5]

This easily reads as return vector elements in positions 2 through 5.

Logical Indices

In the section above, we used a vector of indices to retrieve values from a vector. An alternative is to use a vector of boolean values to indicate which values you want to return. For example:

# Create a vector of shoe sizes
shoe.sizes <- c(7, 6.5, 4, 11, 8)

# Use a vector of boolean values to retrieve the first, fourth, and fifth elements
shoe.sizes[c(TRUE, FALSE, FALSE, TRUE, TRUE)]  # returns 7, 11, 8

This may seem a bit strange, but consider the case in which you want to select elements from a vector that meet a certain criteria. You could first create a vector of boolean values that meet that criteria, then use that vector of boolean values to retrieve the elements of interest:

# Create a vector of shoe sizes
shoe.sizes <- c(7, 6.5, 4, 11, 8)

# Create a boolean vector that indicates if a shoe size is greater than 6.5
shoe.is.big <- shoe.sizes > 6.5  # returns T, F, F, T, T

# Use the `shoe.is.big` vector to select large shoes
big.shoes <- shoe.sizes[shoe.is.big]  # returns 7, 11, 8

We can even combine the second and third lines of code into a single statement. You can think of the following statement as saying shoe.sizes where shoe.sizes is greater than 6.5. This is a valid statement because the equality inside of the square-brackets ([shoe.sizes > 6.5]) returns a vector of boolean values, which is then used to select the elements out of the shoe.sizes vector:

# Create a vector of shoe sizes
shoe.sizes <- c(7, 6.5, 4, 11, 8)

# Select shoe sizes that are greater than 6.5
shoe.sizes[shoe.sizes > 6.5]  # returns 7, 11, 8

Understanding vector indexing is crucial for being able to ask real world questions of our datasets. To practice working with vectors, see exercise-1.

Modifying Vectors

While we are unable to change the number of elements within a vector, we are able to change the values within a vector. To achieve this, we isolate the element of interest on the left-hand side of our assignment, and then assign the element a new value:

# Create a vector of school supplies
school.supplies <- c('Backpack', 'Laptop', 'Pen')

# Replace 'Pen' with 'Pencil'
school.supplies[3] <- 'Pencil'

And of course, there's no reason that you can't select multiple elements on the left-hand side, and assign them multiple values:

# Create a vector of school supplies
school.supplies <- c('Backpack', 'Laptop', 'Pen')

# Replace  'Laptop' with 'Tablet', and 'Pen' with 'Pencil'
school.supplies[c(2,3)] <- c('Tablet', 'Pencil')

We can do even more advanced element replacement by understanding the idea of recycling (see below).

Vectorized Operations

When performing mathematical transformations on vectors, it's important to understand how R computes the combination of two vectors. When performing vector arithmetic, elements are combined member-wise. In other words, each element from one vector is modified by the element in the same corresponding position in a modifying vector. For example:

# Create two vectors to combine
v1 <- c(1, 1, 1, 1, 1)
v2 <- c(1, 2, 3, 4, 5)

# Create arithmetic combinations of the vectors
v1 + v2  # returns 2, 3, 4, 5, 6
v1 - v2  # returns 0, -1, -2, -3, -4
v1 * v2  # returns 1, 2, 3, 4, 5
v1 / v2  # returns 1, .5, .33, .25, .2

# Add a vector to itself
v3 <- v1 + v1  # returns 2, 2, 2, 2, 2

# Perform more advanced arithmetic
v4 <- (v1 + v2) / v3  # returns 1, 1.5, 2, 2.5, 3

While you're unable to use mathematical operators (namely, +) to combine character vectors, you can use the paste function to concatenate the character elements from two vectors.

colors <- c('Green', 'Blue')
spaces <- c('sky', 'grass')
bands <- paste0(colors, spaces)  # returns "Greensky", "Bluegrass"
# http://greenskybluegrass.com/

R will also apply a function to each element within a vector by default. For example, consider the substr function that takes a sub-string of a set of characters from a starting position to a final position:

# Take a substring of the characters "hello"
substr("hello", 2, 4)  # returns "ell"

If we pass a vector of character values to the substr function, it will perform the same task on each element in the vector.

# Create a vector of people
people <- c('Adam', 'Rashmi', 'Ying', 'Sarah')

# Perform the vectorized operation
first.initial <- substr(people, 1, 1)

# Print the results
print(first.initial)  # returns "A", "R", "Y", "S"

This is extremely powerful, because many other programming languages require the explicit iteration through elements in a collection.

In the next section, we'll discuss the concept of recycling to explain how R treats vector arithmetic for vectors of different length.

Recycling

Recycling refers to what R does in cases when there are an unequal number of elements in two vectors that are being combined. If R is tasked with performing a vectorized operation with two vectors of unequal length, it will reuse (recycle) elements from the shorter vector. For example:

# Create vectors to combine
v1 <- c(1, 2, 3)
v2 <- c(1, 2)

# Add vectors
v3 <- v1 + v2  # returns (2, 4, 4)

In the example above, R first combined the elements in the first position of each vector (1 + 1). Then, it combined elements from the second position (2 + 2). When it got to the third element (which only was present in v1), it went back to the beginning of v1 to select a value, yielding 3 + 1.

Note, R may provide a warning message, notifying you that the vectors are of different length. This is important, because this may be indicative of an error (i.e., you thought the vectors were of the same length, but overlooked it).

Let's move towards a more useful example. Imagine you had a vector of values in which you wanted to replace all numbers greater that 10 with the number 10. You can leverage recycling to repeat an element of length 1 for each element you wish to replace:

# Element of values
v1 <- c(1, 5, 55, 1, 3, 11, 4, 27)

# Replace all values greater than 10 with 10
v1[v1>10] <- 10  # returns 1, 5, 10, 1, 3, 10, 4, 10

In this example, the number 10 get recycled for each element in which v1 is greater than 10 (v1[v1>10]).

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