Most of the following examples analyze data in the Employee
data set, included with lessR. To read an internal
lessR data set, just pass the name of the data set to
the lessR function Read()
. Read the
Employee data into the data frame d. See the
Read and Write
vignette for more details.
<- Read("Employee") d
##
## >>> Suggestions
## Details about your data, Enter: details() for d, or details(name)
##
## Data Types
## ------------------------------------------------------------
## character: Non-numeric data values
## integer: Numeric data values, integers only
## double: Numeric data values with decimal digits
## ------------------------------------------------------------
##
## Variable Missing Unique
## Name Type Values Values Values First and last values
## ------------------------------------------------------------------------------------------
## 1 Years integer 36 1 16 7 NA 7 ... 1 2 10
## 2 Gender character 37 0 2 M M W ... W W M
## 3 Dept character 36 1 5 ADMN SALE FINC ... MKTG SALE FINC
## 4 Salary double 37 0 37 53788.26 94494.58 ... 56508.32 57562.36
## 5 JobSat character 35 2 3 med low high ... high low high
## 6 Plan integer 37 0 3 1 1 2 ... 2 2 1
## 7 Pre integer 37 0 27 82 62 90 ... 83 59 80
## 8 Post integer 37 0 22 92 74 86 ... 90 71 87
## ------------------------------------------------------------------------------------------
As an option, also read the table of variable labels. Create the
table formatted as two columns. The first column is the variable name
and the second column is the corresponding variable label. Not all
variables need be entered into the table. The table can be a
csv
file or an Excel file.
Read the label file into the l data frame, currently the only permitted name.Currently, necessarily read the label file into the l data frame. The labels will be displayed on both the text and visualization output. Each displayed label is the variable name juxtaposed with the corresponding label, as shown in the following output.
<- rd("Employee_lbl") l
##
## >>> Suggestions
## Details about your data, Enter: details() for d, or details(name)
##
## Data Types
## ------------------------------------------------------------
## character: Non-numeric data values
## ------------------------------------------------------------
##
## Variable Missing Unique
## Name Type Values Values Values First and last values
## ------------------------------------------------------------------------------------------
## 1 label character 8 0 8 Time of Company Employment ... Test score on legal issues after instruction
## ------------------------------------------------------------------------------------------
l
## label
## Years Time of Company Employment
## Gender Man or Woman
## Dept Department Employed
## Salary Annual Salary (USD)
## JobSat Satisfaction with Work Environment
## Plan 1=GoodHealth, 2=GetWell, 3=BestCare
## Pre Test score on legal issues before instruction
## Post Test score on legal issues after instruction
One of the most frequently encountered visualizations is the bar chart, created for the values of a categorical variable that are each associated with a corresponding value of a numerical variable.
Bar chart: Plot a bar for each level of a categorical variable with its height scaled according to the value of an associated numerical variable.
A call to a bar chart function contains, at a minimum, the name of
the categorical variable with the categories to be plotted. With the
BarChart()
function, that variable name is the first
argument passed to the function. In this example, the only
argument passed to the function is the variable name as the data frame
is named d, the lessR default value. Or,
specify the data frame that contains the variable(s) of interest with
the data
parameter.
The following illustrates the call to BarChart()
with a
categorical variable named \(x\).
If only a single categorical variable is passed to
BarChart()
, the numerical value associated with each bar is
the corresponding count of the number of occurrences, automatically
computed.
Consider the categorical variable Dept in the Employee data table.
Use BarChart()
to tabulate and display the visualization of
the number of employees in each department, here relying upon the
default data frame (table) named d. Otherwise add the
data=
option for a data frame with another name.
BarChart(Dept)
## >>> Suggestions
## BarChart(Dept, horiz=TRUE) # horizontal bar chart
## BarChart(Dept, fill="reds") # red bars of varying lightness
## PieChart(Dept) # doughnut (ring) chart
## Plot(Dept) # bubble plot
## Plot(Dept, stat="count") # lollipop plot
##
## --- Dept: Department Employed ---
##
## Missing Values of Dept: 1
##
## ACCT ADMN FINC MKTG SALE Total
## Frequencies: 5 6 4 6 15 36
## Proportions: 0.139 0.167 0.111 0.167 0.417 1.000
##
## Chi-squared test of null hypothesis of equal probabilities
## Chisq = 10.944, df = 4, p-value = 0.027
The default color theme, "colors"
, fills the bars in the
bar chart with with different hues (according to the default qualitative
palette). See more explanation of this and related color palettes in the
vignette Customize.
BarChart()
also labels each bar with the associated
numerical value. The function provides the corresponding frequency
distribution, the table that lists the count of each category, from
which the bar chart is constructed.
We do not need to see this output to the R console repeated again for
different bar charts of the same data, so turn off for now with the
parameter quiet
set to TRUE
. Can set this
option for each call to BarChart()
, or can set as the
default for subsequent analyses with the style()
function.
style(quiet=TRUE)
Specify a single fill color with the fill
parameter, the
edge color of the bars with color
. Set the transparency
level with trans
. Against a lighter background, display the
value for each bar with a darker color using the
values_color
parameter. To specify a color, use color
names, specify a color with either its rgb()
or
hcl()
color space coordinates, or use the
lessR custom color palette function
getColors()
.
BarChart(Dept, fill="darkred", color="black", trans=.8, values_color="black")
Use the theme
parameter to change the entire color
theme: “colors”, “lightbronze”, “dodgerblue”, “slatered”, “darkred”,
“gray”, “gold”, “darkgreen”, “blue”, “red”, “rose”, “green”, “purple”,
“sienna”, “brown”, “orange”, “white”, and “light”. In this example,
changing the full theme accomplishes the same as changing the fill
color. Turn off the displayed value on each bar with the parameter
values
set to off
. Specify a horizontal bar
chart with base R parameter horiz
.
BarChart(Dept, theme="gray", values="off", horiz=TRUE)
Or, can use style()
to change the theme for subsequent
visualizations as well. See the Customize
vignette.
Dept is not an ordinal variable (i.e., with ordered values set by the
base R factor()
function). Ordinal variables plot by
default with a range of the same hue from light to dark. To illustrate,
can choose many different sequential palettes from
getColors()
: “reds”, “rusts”, “browns”, “olives”, “greens”,
“emeralds”, “turquoises”, “aquas”, “blues”, “purples”, “violets”,
“magentas”, and “grays”.
BarChart(Dept, fill="reds")
The color-blind family of viridis palettes are also available: “viridis”, “cividis”, “magma”, “inferno”, “plasma”. The bar graph below indicates the primary viridis palette.
BarChart(Dept, fill="viridis")
For something different, many Wes Anderson movie themes are available: “BottleRocket1”, “BottleRocket2”, “Rushmore1”, “Rushmore”, “Royal1”, “Royal2”, “Zissou1”, “Darjeeling1”, “Darjeeling2”, “Chevalier1”, “FantasticFox1”, “Moonrise1”, “Moonrise2”, “Moonrise3”, “Cavalcanti1”, “GrandBudapest1”, “GrandBudapest2”, “IsleofDogs1”, “IsleofDogs2”.
BarChart(Dept, fill="GrandBudapest1")
Rotate and offset the axis labels with rotate_x
and
offset
parameters. Do a descending sort of the categories
by frequencies with the sort
parameter.
BarChart(Dept, rotate_x=45, offset=1, sort="-")
Instead of arbitrarily setting the value of the interior color of the
bars with the fill
parameter, map the value of the
tabulated count to the bar fill
. With mapping, the color of
the bars depends upon the bar height. The higher the bar, the darker the
color. Specify (count)
as the fill color to map the values
of the numerical variable to the fill color.
BarChart(Dept, fill=(count))
One possibility begins with the values of the \(x\) and \(y\) variables, such as in a table, and then
create the bar chart directly from this summary table. To do so, enter
the paired data values into a data file such as with Excel, and then
read into R with Read()
. When calling
BarChart()
, specify the categorical \(x\) variable and then the numerical \(y\) variable.
When the numeric variable is specified, the data are a summary
(pivot) table, with one row for each level of the categorical variable
plotted. For example, suppose a summary table contains the departments
and the mean salary for each department. Obtain the summary table with
the lessR pivot()
function (which has its
own vignette). For the data frame d, calculate the mean of
numerical variable Salary across levels of the categorical
variable Dept.
<- pivot(d, mean, Salary, Dept)
a a
## Dept Salary_n Salary_na Salary_mean
## 1 ACCT 5 0 61792.78
## 2 ADMN 6 0 81277.12
## 3 FINC 4 0 69010.68
## 4 MKTG 6 0 70257.13
## 5 SALE 15 0 78830.07
## 6 <NA> 1 0 53772.58
The general syntax follows for processing this form of the data follows.
The bar chart follows, with the aggregated data stored in the data
frame named a, so explicitly identify with the
data
parameter. The computed mean of Salary
variable in the a data frame from the previous call to
pivot()
is named Salary_mean by default. The
output data frame, a, contains a row of missing data for the
grouping variable, which needs to first be removed before reading the
table of means into BarChart()
, here with the
na.omit()
function.
<- na.omit(a)
a BarChart(Dept, Salary_mean, data=a)
As seen, by default in the absence of other information,
BarChart()
defines the numerical variable plotted as the
count the occurrence of each level. Can define other statistical
transformations of the numerical value of \(y\) with the stat
parameter.
Possible values of stat
: "sum"
,
"mean"
, "sd"
, "dev"
,
"min"
, "median"
, and "max"
. The
"dev"
value displays the mean deviations to further
facilitate a comparison among levels.
Here the \(x\)-variable is Dept, and
\(y\)-variable is Salary.
Display bars for values of dev
<= 0 in a different color
than values above with the fill_split
parameter set at
0
. Do an ascending sort with the sort
parameter set at "+"
.
BarChart(Dept, Salary, stat="dev", sort="+", fill_split=0)
Compare this visualization of the mean deviations with the previous visualization of the means for each Dept.
Annotate a plot with the add
parameter. To add a
rectangle use the "rect"
value of add
. Here
set the rectangle around the message centered at <3,10>. To
specify a rectangle requires two corners of the rectangle,
<x1,y1>
and <x2,y2>
. To specify
text requires just a single coordinate, <x1,y1>
. With
the add
parameter, the message follows the specification of
"rect"
, so the coordinates of the text message follow the
coordinates for the rectangle.
First lighten the fill color of the annotation with the
add_fill
parameter for the style()
function.
style(add_fill="aliceblue")
BarChart(Dept, add=c("rect", "Employees by\nDepartment"),
x1=c(1.75,3), y1=c(11, 10), x2=4.25, y2=9)
An alternative to the bar chart for a single categorical variable is the pie chart.
Pie Chart: Relate each level of a categorical variable to the area of a circle (pie) scaled according to the value of an associated numerical variable.
The lessR default version of a pie chart is the doughnut or ring chart.
PieChart(Dept)
The doughnut or ring chart appears easier to read than a standard pie
chart. But the lessR function PieChart()
also can create the “old-fashioned” pie chart by setting the value of
parameter hole
to 0
. We have seen the summary
statistics several times now, so turn off the output to the R console
here with the quiet
parameter.
PieChart(Dept, hole=0, quiet=TRUE)
Set the size of the hole in the doughnut or ring chart with the
parameter hole
, which specifies the proportion of the pie
occupied by the hole. The default hole size is 0.65. Set that value to 0
to close the hole.
Specify the second categorical variable with the by
parameter. Specify the by
parameter by name. The general
syntax follows.
The example plots Dept with the percentage of Gender divided in each bar.
BarChart(Dept, by=Gender)
Specify two custom fill colors for Gender.
BarChart(Dept, by=Gender, fill=c("deepskyblue", "black"))
The stacked version is default, but the values of the second
categorical variable can also be represented with bars, more helpful to
compare the values with each other. Here, put the legend on the top with
the values_position
parameter set to
"out"
.
BarChart(Dept, by=Gender, beside=TRUE, values_position="out")
Or, display the bars horizontally with the horiz
parameter set to TRUE
.
BarChart(Gender, by=Dept, horiz=TRUE)
Can also do a Trellis chart with the by1
parameter.
BarChart(Dept, by1=Gender)
Or, stack the charts vertically by specifying one column with the
n_col
parameter.
BarChart(Dept, by1=Gender, n_col=1)
Obtain the 100% stacked version with the stack100
parameter. This visualization is most useful for comparing levels of the
by
variable across levels of the x
variable,
here Dept, when the frequencies in each level of the
x
variable differ. The percentages across categories are
compared instead of the counts. The percentage for each column, then,
sums to 100%.
BarChart(Dept, by=Gender, stack100=TRUE)
Long value labels on the horizontal axis are also addressed by moving to a new line whenever a space is encountered in the label. Here read responses to the Mach IV Machiavellianism scale where each item is scored from 0 to 5.
<- rd("Mach4", quiet=TRUE) d
Also, read variable labels into the l data frame, which are then used to automatically label the output, both the visualization and text output to the console.
<- rd("Mach4_lbl", quiet=TRUE) l
Convert the specified four Mach items to ordered factors with the
lessR function factors()
. This function
implements the base R function factor()
across a range of
variables instead of a single variable (without needing other function
calls). A response of 0 is a Strongly Disagree, etc.
<- c("Strongly Disagree", "Disagree", "Slightly Disagree",
LikertCats "Slightly Agree", "Agree", "Strongly Agree")
<- factors(c(m06,m07,m09,m10), levels=0:5, labels=LikertCats, ordered=TRUE) d
Because the factors are defined as ordered with the
factors()
function, the colors are plotted in a sequential
scale, from light to dark. Because output to the console has been turned
off in general, turn back on just for this analysis because of new
data.
BarChart(m06, by=m07, quiet=FALSE)
## >>> Suggestions
## Plot(m06, m07) # bubble plot
## BarChart(m06, by=m07, horiz=TRUE) # horizontal bar chart
## BarChart(m06, fill="steelblue") # steelblue bars
##
## m06: Honesty is the best policy in all cases
## - by levels of -
## m07: There is no excuse for lying to someone else
##
## Joint and Marginal Frequencies
## ------------------------------
##
## m06
## m07 Strongly Disagree Disagree Slightly Disagree Slightly Agree Agree Strongly Agree Sum
## Strongly Disagree 4 3 2 3 3 2 17
## Disagree 7 24 7 6 18 2 64
## Slightly Disagree 4 14 30 13 24 2 87
## Slightly Agree 2 1 10 16 12 2 43
## Agree 0 3 13 5 56 16 93
## Strongly Agree 1 2 1 1 8 34 47
## Sum 18 47 63 44 121 58 351
##
## Cramer's V: 0.380
##
## Chi-square Test: Chisq = 253.103, df = 25, p-value = 0.000
## >>> Low cell expected frequencies, chi-squared approximation may not be accurate
If the categorical variable is not a factor, use a parameter
fill
plural color such as "blues"
,
"reds"
, or "emaralds"
to assign a gradient.
See the Customize vignette for more details on color palettes.
A single bar chart can be constructed for multiple variables. This visualization is particularly useful when all the variables are measured on the same scale, such as self-report responses to 6-pt Likert items as shown in the previous example of the 20-item Mach 4 scale. By default the individual variables are sorted by their respective means.
<- rd("Mach4", quiet=TRUE) d
BarChart(m01:m20)
An interactive visualization lets the user in real time change
parameter values to change characteristics of the visualization. To
create an interactive bar chart that displays the corresponding
parameters, run the function interact()
with the value
"BarChart"
specified.
interact("BarChart")
The function is not run here because interactivity requires to run directly from the R console.
Use the base R help()
function to view the full manual
for BarChart()
. Simply enter a question mark followed by
the name of the function.
?BarChart
More on Bar Charts and other visualizations from lessR and other packages such as ggplot2 at:
Gerbing, D., R Visualizations: Derive Meaning from Data, CRC Press, May, 2020, ISBN 978-1138599635.