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In patternplot: Versatile Pie Charts, Ring Charts, Bar Charts and Box Plots using Patterns, Colors and Images
An Introduction to patternplot Package
library(knitr)
library(Cairo)
opts_chunk$set(out.extra='style="display:block; margin: auto"', fig.align="center", dev='CairoPNG')
options(warn=-1)
Introduction
The patternplot package is a tool for creating aesthetically pleasing and informative pie charts, ring charts,
bar charts and box plots in R. It can fill pie charts, ring charts, bar charts and box plots with colors or textures
or any external images in png or jpeg formats.
Versatile Pie charts
Pie charts produced by patternpie().
library(patternplot)
library(png)
library(ggplot2)
data <- read.csv(system.file("extdata", "vegetables.csv", package="patternplot"))
#Example 1
pattern.type<-c('hdashes', 'vdashes', 'bricks')
pie1<-patternpie(group=data$group,pct=data$pct,label=data$label,
label.size=4, label.color='black',label.distance=1.3,pattern.type=pattern.type,
pattern.line.size=c(10, 10, 2), frame.color='black',frame.size=1.5, pixel=12, density=c(8, 8, 10))
pie1<-pie1+ggtitle('(A) Black and White with Patterns')
#Example 2
pattern.color<-c('red3','green3', 'white' )
background.color<-c('dodgerblue', 'lightpink', 'orange')
pie2<-patternpie(group=data$group,pct=data$pct,label=data$label, label.distance=1.3, pattern.type=pattern.type,
pattern.color=pattern.color,background.color=background.color,
pattern.line.size=c(10, 10, 2), frame.color='grey40',frame.size=1.5, pixel=12, density=c(8, 8, 10))
pie2<-pie2+ggtitle('(B) Colors with Patterns')
library(gridExtra)
grid.arrange(pie1,pie2, nrow = 1)
Pie chart produced by imagepie().
library(patternplot)
library(ggplot2)
library(jpeg)
Tomatoes <- readJPEG(system.file("img", "tomatoes.jpg", package="patternplot"))
Peas <- readJPEG(system.file("img", "peas.jpg", package="patternplot"))
Potatoes <- readJPEG(system.file("img", "potatoes.jpg", package="patternplot"))
#Example 1
data <- read.csv(system.file("extdata", "vegetables.csv", package="patternplot"))
pattern.type<-list(Tomatoes,Peas,Potatoes)
imagepie(group=data$group,pct=data$pct,label=data$label,pattern.type=pattern.type,
label.distance=1.3,frame.color='burlywood4', frame.size=0.8, label.size=6,
label.color='forestgreen')+ggtitle('Pie Chart with Images')
Versatile Ring charts
Ring chart produced by patternring1().
library(patternplot)
library(png)
library(ggplot2)
group1<-c('New_England', 'Great_Lakes','Plains', 'Rocky_Mountain', 'Far_West','Southwest', 'Southeast', 'Mideast')
pct1<-c( 12, 11, 17, 15, 8, 11, 16, 10)
label1<-paste(group1, " \n ", pct1, "%", sep="")
pattern.type1<-c("hdashes", "blank", "grid", "blank", "hlines", "blank", "waves", "blank")
pattern.type.inner<-"blank"
pattern.color1<-rep("white", 8)
background.color1<-c("darkgreen", "darkcyan", "chocolate", "cadetblue1", "darkorchid", "yellowgreen", "hotpink", "lightslateblue")
density1<-rep(11.5, length(group1))
pattern.line.size1=c(10, 1, 6, 1, 10, 1, 6, 1)
g<-patternring1(group1, pct1, label1, label.size1=4,label.color1='black', label.distance1=1.36, pattern.type1, pattern.color1, pattern.line.size1,background.color1, frame.color='black',frame.size=1.2, density1, pixel=13,
pattern.type.inner="blank",pattern.color.inner="white", pattern.line.size.inner=1, background.color.inner="white", pixel.inner=10, density.inner=1, r1=2.7, r2=4)
g<-g+annotate(geom="text", x=0, y=0, label="2019 Number of Cases \n N=1000",color="black", size=4)+scale_x_continuous(limits=c(-7, 7))+scale_y_continuous(limits=c(-7, 7))
g
Ring chart produced by imagering1().
#Example 1
library(patternplot)
library(png)
library(ggplot2)
location<-gsub('\\','/',tempdir(), fixed=T)
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="darkgreen", pixel=8, res=8)
FarWest<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="darkcyan", pixel=8, res=8)
GreatLakes<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="chocolate", pixel=8, res=8)
Mideast<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="cadetblue1", pixel=8, res=8)
NewEngland<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="darkorchid", pixel=8, res=8)
Plains<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="yellowgreen", pixel=8, res=8)
RockyMountain<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="hotpink", pixel=8, res=8)
Southeast<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="lightslateblue", pixel=8, res=8)
Southwest <-readPNG(paste(location,'/',"blank",".png", sep=''))
group1<-c('New_England', 'Great_Lakes','Plains', 'Rocky_Mountain', 'Far_West','Southwest', 'Southeast', 'Mideast')
pct1<-c( 12, 11, 17, 15, 8, 11, 16, 10)
label1<-paste(group1, " \n ", pct1, "%", sep="")
pattern.type1<-list(NewEngland, GreatLakes,Plains, RockyMountain, FarWest,Southwest, Southeast, Mideast)
pattern.type.inner<-readPNG(system.file("img", "USmap.png", package="patternplot"))
g<-imagering1(group1, pct1, pattern.type1, pattern.type.inner, frame.color='black',frame.size=1.5, r1=3, r2=4,label1, label.size1=4,label.color1='black', label.distance1=1.3)
g<-g+annotate(geom="text", x=0, y=-2, label="2019 Number of Cases \n N=1000",color="black", size=4)+scale_x_continuous(limits=c(-6, 6))+scale_y_continuous(limits=c(-6, 6))
g
Ring charts produced by patternring2().
library(patternplot)
library(png)
library(ggplot2)
group1<-c("Wind", "Hydro", "Solar", "Coal", "Natural Gas", "Oil")
pct1<-c(12, 15, 8, 22, 18, 25)
label1<-paste(group1, " \n ", pct1 , "%", sep="")
group2<-c("Renewable", "Non-Renewable")
pct2<-c(35, 65)
label2<-paste(group2, " \n ", pct2 , "%", sep="")
pattern.type1<-rep(c( "blank"), times=6)
pattern.type2<-c('grid', 'blank')
pattern.type.inner<-"blank"
pattern.color1<-rep('white', length(group1))
pattern.color2<-rep('white', length(group2))
background.color1<-c("darkolivegreen1", "white", "indianred", "gray81", "white", "sandybrown" )
background.color2<-c("seagreen", "deepskyblue")
density1<-rep(10, length(group1))
density2<-rep(10, length(group2))
pattern.line.size1=rep(5, length(group1))
pattern.line.size2=rep(2, length(group2))
pattern.line.size.inner=1
#Example 1: Two rings
g<-patternrings2(group1, group2, pct1,pct2, label1, label2, label.size1=3, label.size2=3.5, label.color1='black', label.color2='black', label.distance1=0.75, label.distance2=1.4, pattern.type1, pattern.type2, pattern.color1,pattern.color2,
pattern.line.size1, pattern.line.size2, background.color1, background.color2,density1=rep(10, length(group1)), density2=rep(15, length(group2)),pixel=10, pattern.type.inner, pattern.color.inner="black",pattern.line.size.inner, background.color.inner="white", pixel.inner=6, density.inner=5, frame.color='black',frame.size=1.5,r1=2.45, r2=4.25, r3=5)
g1<-g+annotate(geom="text", x=0, y=0, label="Earth's Energy",color="black", size=5)+scale_x_continuous(limits=c(-6, 6))+scale_y_continuous(limits=c(-6, 6))+ggtitle("(A) Two Rings")
#Example 2: Pie in a ring
g<-patternrings2(group1, group2, pct1,pct2, label1, label2, label.size1=3, label.size2=3.5, label.color1='black', label.color2='black', label.distance1=0.7, label.distance2=1.4, pattern.type1, pattern.type2, pattern.color1,pattern.color2,
pattern.line.size1, pattern.line.size2, background.color1, background.color2,density1=rep(10, length(group1)), density2=rep(15, length(group2)),pixel=10, pattern.type.inner, pattern.color.inner="black",pattern.line.size.inner, background.color.inner="white", pixel.inner=2, density.inner=5, frame.color='black',frame.size=1.5, r1=0.005, r2=4, r3=4.75)
g2<-g+scale_x_continuous(limits=c(-6, 6))+scale_y_continuous(limits=c(-6, 6))+ggtitle("(B) Pie in a Ring")
library(gridExtra)
grid.arrange(g1,g2, nrow = 1)
Ring chart produced by imagering2().
#Example 1
library(patternplot)
library(png)
library(ggplot2)
group1<-c("Wind", "Hydro", "Solar", "Coal", "Natural Gas", "Oil")
pct1<-c(12, 15, 8, 22, 18, 25)
label1<-paste(group1, " \n ", pct1 , "%", sep="")
location<-gsub('\\','/',tempdir(), fixed=T)
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="darkolivegreen1", pixel=20, res=15)
Wind<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="white", pixel=20, res=15)
Hydro<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="indianred", pixel=20, res=15)
Solar<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="gray81", pixel=20, res=15)
Coal<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="white", pixel=20, res=15)
NaturalGas<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="sandybrown", pixel=20, res=15)
Oil<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern.type1<-list(Wind, Hydro, Solar, Coal, NaturalGas, Oil)
group2<-c("Renewable", "Non-Renewable")
pct2<-c(35, 65)
label2<-paste(group2, " \n ", pct2 , "%", sep="")
pattern(type="grid", density=12, color='white', pattern.line.size=5, background.color="seagreen", pixel=20, res=15)
Renewable<-readPNG(paste(location,'/',"grid",".png", sep=''))
pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="deepskyblue", pixel=20, res=15)
NonRenewable<-readPNG(paste(location,'/',"blank",".png", sep=''))
pattern.type2<-list(Renewable, NonRenewable)
pattern.type.inner<-readPNG(system.file("img", "earth.png", package="patternplot"))
g<-imagerings2(group1, group2,pct1,pct2, label1, label2, label.size1=3, label.size2=3.5, label.color1='black', label.color2='black', label.distance1=0.7, label.distance2=1.3, pattern.type1, pattern.type2, pattern.type.inner, frame.color='skyblue',frame.size=1.5, r1=2.2, r2=4.2, r3=5)
g<-g+scale_x_continuous(limits=c(-7, 7))+scale_y_continuous(limits=c(-7, 7))
g
Versatile Bar charts
Bar charts produced by patternbar().
#Example 1
library(patternplot)
library(png)
library(ggplot2)
data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot"))
data<-data[which(data$Location=='City 1'),]
x<-factor(data$Type, c('Housing', 'Food', 'Childcare'))
y<-data$Amount
pattern.type<-c('hdashes', 'blank', 'crosshatch')
pattern.color=c('black','black', 'black')
background.color=c('white','white', 'white')
density<-c(20, 20, 10)
barp1<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type, hjust=0.5,
pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),
frame.color=c('black', 'black', 'black'), density=density)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(A) Black and White with Patterns')
#Example 2
pattern.color=c('black','white', 'grey20')
background.color=c('lightgreen','lightgreen', 'lightgreen')
barp2<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,hjust=0.5,
pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),
frame.color=c('black', 'black', 'black'), density=density)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(B) Colors with Patterns')
library(gridExtra)
grid.arrange(barp1,barp2, nrow = 1)
#Example 3
data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot"))
group<-factor(data$Type, c('Housing', 'Food', 'Childcare'))
y<-data$Amount
x<-factor(data$Location, c('City 1', ' City 1'))
pattern.type<-c( 'Rsymbol_16', 'blank','hdashes')
pattern.color=c('yellow', 'chartreuse4', 'pink')
background.color=c('grey', 'chartreuse3', 'bisque')
barp3<-patternbar(data,x, y,group,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,
pattern.color=pattern.color,background.color=background.color, pattern.line.size=c(6, 10,6),
frame.size=1,frame.color='black',pixel=16, density=c(18, 10, 14), legend.type='h',
legend.h=12, legend.y.pos=0.49, vjust=-1, hjust=0.5,legend.pixel=6, legend.w=0.275,legend.x.pos=1.1) +scale_y_continuous(limits = c(0, 3100))+ggtitle('(C) Bar Chart with Two Grouping Variables')
barp3
Stacked Bar chart produced by patternbar_s().
#Example 1
library(patternplot)
library(png)
library(ggplot2)
data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot"))
x<-data$Location
y<-data$Amount
group<-data$Type
patternbar_s(data,x, y, group,xlab='', ylab='Monthly Expenses, Dollar', label.size=3,pattern.type=c( 'Rsymbol_16', 'blank','hdashes'), pattern.line.size=c(5, 10, 10),frame.size=1,pattern.color=c('yellow', 'chartreuse4', 'pink'),background.color=c('grey', 'chartreuse3', 'bisque'), pixel=16, density=c(18, 10, 10),frame.color='black', legend.type='h', legend.h=12, legend.y.pos=0.49, legend.pixel=6, legend.w=0.275, legend.x.pos=1.05,legend.label=c("Childcare", "Food", "Housing" ), bar.width=0.8)+scale_y_continuous(limits = c(0, 6800))+ggtitle('Stacked Bar Chart')
Bar charts produced by imagebar().
library(patternplot)
library(jpeg)
library(ggplot2)
childcare<-readJPEG(system.file("img", "childcare.jpg", package="patternplot"))
food<-readJPEG(system.file("img", "food.jpg", package="patternplot"))
housing <-readJPEG(system.file("img", "housing.jpg", package="patternplot"))
#Example 1
data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot"))
data<-data[which(data$Location=='City 1'),]
x<-factor(data$Type, c('Housing', 'Food', 'Childcare'))
y<-data$Amount
pattern.type<-list(housing, food, childcare)
imagebar(data,x, y,group=NULL,pattern.type=pattern.type,vjust=-1, hjust=0.5,
frame.color='black',
ylab='Monthly Expenses, Dollars')+ggtitle('(A) Bar Chart with Images')
#Example 2
data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot"))
group<-factor(data$Type, c('Housing', 'Food', 'Childcare'))
y<-data$Amount
x<-factor(data$Location, c('City 1', ' City 1'))
pattern.type<-list(housing, food, childcare)
imagebar(data,x, y,group,pattern.type=pattern.type,vjust=-1, hjust=0.5,
frame.color='black',
ylab='Monthly Expenses, Dollars')+ggtitle('(B) Image Bar Chart with Two Grouping Variables')
Stacked Bar chart produced by imagebar_s().
library(patternplot)
library(jpeg)
library(ggplot2)
childcare<-readJPEG(system.file("img", "childcare.jpg", package="patternplot"))
food<-readJPEG(system.file("img", "food.jpg", package="patternplot"))
housing <-readJPEG(system.file("img", "housing.jpg", package="patternplot"))
data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot"))
x<-data$Location
y<-data$Amount
group<-data$Type
pattern.type<-list(childcare, food, housing)
imagebar_s(data,x, y, group, xlab='', ylab='Monthly Expenses, Dollar', pattern.type=pattern.type, label.size=3.5, frame.size=1.25, frame.color='black',legend.type='h', legend.h=6, legend.y.pos=0.49, legend.pixel=20, legend.w=0.2,legend.x.pos=1.1, legend.label=c("Childcare", "Food", "Housing" ))+ scale_y_continuous(limits = c(0, 6800))+ggtitle('Stacked Bar Chart with Images')
Versatile Box plots
Box plots produced by patternboxplot().
#Example 1
data <- read.csv(system.file("extdata", "fruits.csv", package="patternplot"))
group<-data$Fruit
y<-data$Weight
x<-data$Store
pattern.type<-c('nwlines', 'blank', 'waves')
pattern.color=c('black','black', 'black')
background.color=c('white','gray80', 'white')
frame.color=c('black', 'black', 'black')
pattern.line.size<-c(6, 1,6)
density<-c(6, 1, 8)
box1<-patternboxplot(data,x, y,group,pattern.type=pattern.type,pattern.line.size=pattern.line.size, label.size=3, pattern.color=pattern.color, background.color=background.color,frame.color=frame.color,
density=density, legend.h=2, legend.x.pos=1.075, legend.y.pos=0.499, legend.pixel=10,legend.w=0.18, legend.label=c("Orange","Strawberry","Watermelon"))+ggtitle('(A) Boxplot with Black and White Patterns')
#Example 2
pattern.color=c('black','white', 'grey20')
background.color=c('gold','lightpink', 'lightgreen')
box2<-patternboxplot(data,x, y,group=group,pattern.type=pattern.type,pattern.line.size=pattern.line.size, label.size=3,pattern.color=pattern.color, background.color=background.color,frame.color=frame.color, density=density,legend.h=2, legend.x.pos=1.075, legend.y.pos=0.499, legend.pixel=10,legend.w=0.18, legend.label=c("Orange","Strawberry","Watermelon"))+ggtitle('(B) Boxplot with Colors and Patterns')
library(gridExtra)
grid.arrange(box1,box2, nrow = 1)
Box plots produced by imageboxplot().
library(patternplot)
library(jpeg)
library(ggplot2)
Orange<-readJPEG(system.file("img", "oranges.jpg", package="patternplot"))
Strawberry <-readJPEG(system.file("img", "strawberries.jpg", package="patternplot"))
Watermelon<-readJPEG(system.file("img", "watermelons.jpg", package="patternplot"))
#Example 1
data <- read.csv(system.file("extdata", "fruits.csv", package="patternplot"))
x<-data$Fruit
y<-data$Weight
group<-data$Store
pattern.type<-list(Orange, Strawberry, Watermelon)
box1<-imageboxplot(data,x, y,group=NULL,pattern.type=pattern.type,frame.color=c('orange','darkred',
'darkgreen'),legend.label="", ylab='Weight, Pounds')+ggtitle('(A) Image Boxplot with One Grouping Variable')
#Example 2
x<-data$Store
y<-data$Weight
group<-data$Fruit
pattern.type<-list(Orange, Strawberry, Watermelon)
box2<-imageboxplot(data,x, y,group=group, pattern.type=pattern.type, frame.color=c('orange', 'darkred', 'darkgreen'), linetype=c('solid', 'dashed', 'dotted'),frame.size=0.8, xlab='', ylab='Weights, pounds', legend.h=2, legend.x.pos=1.1, legend.y.pos=0.499, legend.w=0.2, legend.label=c("Orange", "Strawberry", "Watermelon"))+ggtitle('(B) Image Boxplot with Two Grouping Variables')
library(gridExtra)
grid.arrange(box1,box2, nrow = 1)
Integration of patternplot and ggplot2 and Other Features
Change the order of x and y axes.
library(patternplot)
library(png)
library(ggplot2)
data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot"))
data<-data[which(data$Location=='City 1'),]
x<-factor(data$Type, c('Housing', 'Food', 'Childcare'))
y<-data$Amount
pattern.type<-c('hdashes', 'blank', 'crosshatch')
pattern.color=c('black','black', 'black')
background.color=c('white','white', 'white')
density<-c(20, 20, 10)
g1<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=-1, hjust=0.5, bar.width=0.75)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(A) Vertical Bar Chart')
g2<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=0.5, hjust=-0.25, bar.width=0.5)+scale_y_continuous(limits = c(0,2800))+ggtitle('(B) Horizontal Bar Chart')+coord_flip()
g3<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=2, hjust=0.5, bar.width=0.75)+ggtitle('(C) Reverse Bar Chart')+ scale_y_reverse(limits = c(2800,0))
library(gridExtra)
grid.arrange(g1,g2,g3, nrow = 1)
Change themes.
library(patternplot)
library(png)
library(ggplot2)
data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot"))
data<-data[which(data$Location=='City 1'),]
x<-factor(data$Type, c('Housing', 'Food', 'Childcare'))
y<-data$Amount
pattern.type<-c('hdashes', 'blank', 'crosshatch')
pattern.color=c('black','black', 'black')
background.color=c('white','white', 'white')
density<-c(20, 20, 10)
g1<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=-1, hjust=0.5)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(A) Bar Chart with Default Theme')
g2<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=-1, hjust=0.5)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(B) Bar Chart with Classic Theme')+ theme_classic()
library(gridExtra)
grid.arrange(g1,g2, nrow = 1)
Unicode symbols as pattern.
library(patternplot)
library(png)
library(ggplot2)
#http://www.alanwood.net/demos/wgl4.html
data <- data.frame(Type=c('Sunny', 'Cloudy', 'Rainy', 'Snowy'), Amount=c(5, 2, 3, 4))
x<-factor(data$Type, c('Sunny', 'Cloudy', 'Rainy', 'Snowy'))
y<-data$Amount
pattern.type<-c('Unicode_\u2600', 'Unicode_\u2601', 'Unicode_\u2602', 'Unicode_\u2603')
pattern.color<-c('yellow','white','red', 'white')
background.color=c('deepskyblue','deepskyblue','deepskyblue', 'deepskyblue')
density<-c(16, 20, 16, 16)
g1<-patternbar(data,x, y,group=NULL,ylab='Number of Days', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(10, 7, 10, 10), density=density, vjust=-1, hjust=0.5, bar.width =0.5)+scale_y_continuous(limits = c(0, 6))+ggtitle('(A) Bar Chart with Weather Symbols')
data <- data.frame(Type=c('Female', 'Male'), Amount=c(50, 40))
x<-data$Type
y<-data$Amount
pattern.type<-c('Unicode_\u2640', 'Unicode_\u2642')
pattern.color<-c('violet','deepskyblue')
background.color=c('seashell','seashell')
density<-c(10, 10)
g2<-patternbar(data,x, y,group=NULL,ylab='Number of People', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(14, 14), density=density, pixel=18, vjust=-1, hjust=0.5, bar.width =0.5)+scale_y_continuous(limits = c(0, 60))+ggtitle('(B) Bar Chart with Gender Symbols')
library(gridExtra)
grid.arrange(g1,g2, nrow = 1)
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patternplot documentation built on April 21, 2020, 5:05 p.m.
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An Introduction to patternplot Package
library(knitr) library(Cairo) opts_chunk$set(out.extra='style="display:block; margin: auto"', fig.align="center", dev='CairoPNG') options(warn=-1)
Introduction
The patternplot package is a tool for creating aesthetically pleasing and informative pie charts, ring charts, bar charts and box plots in R. It can fill pie charts, ring charts, bar charts and box plots with colors or textures or any external images in png or jpeg formats.
Versatile Pie charts
Pie charts produced by patternpie().
library(patternplot) library(png) library(ggplot2) data <- read.csv(system.file("extdata", "vegetables.csv", package="patternplot")) #Example 1 pattern.type<-c('hdashes', 'vdashes', 'bricks') pie1<-patternpie(group=data$group,pct=data$pct,label=data$label, label.size=4, label.color='black',label.distance=1.3,pattern.type=pattern.type, pattern.line.size=c(10, 10, 2), frame.color='black',frame.size=1.5, pixel=12, density=c(8, 8, 10)) pie1<-pie1+ggtitle('(A) Black and White with Patterns') #Example 2 pattern.color<-c('red3','green3', 'white' ) background.color<-c('dodgerblue', 'lightpink', 'orange') pie2<-patternpie(group=data$group,pct=data$pct,label=data$label, label.distance=1.3, pattern.type=pattern.type, pattern.color=pattern.color,background.color=background.color, pattern.line.size=c(10, 10, 2), frame.color='grey40',frame.size=1.5, pixel=12, density=c(8, 8, 10)) pie2<-pie2+ggtitle('(B) Colors with Patterns') library(gridExtra) grid.arrange(pie1,pie2, nrow = 1)
Pie chart produced by imagepie().
library(patternplot) library(ggplot2) library(jpeg) Tomatoes <- readJPEG(system.file("img", "tomatoes.jpg", package="patternplot")) Peas <- readJPEG(system.file("img", "peas.jpg", package="patternplot")) Potatoes <- readJPEG(system.file("img", "potatoes.jpg", package="patternplot")) #Example 1 data <- read.csv(system.file("extdata", "vegetables.csv", package="patternplot")) pattern.type<-list(Tomatoes,Peas,Potatoes) imagepie(group=data$group,pct=data$pct,label=data$label,pattern.type=pattern.type, label.distance=1.3,frame.color='burlywood4', frame.size=0.8, label.size=6, label.color='forestgreen')+ggtitle('Pie Chart with Images')
Versatile Ring charts
Ring chart produced by patternring1().
library(patternplot) library(png) library(ggplot2) group1<-c('New_England', 'Great_Lakes','Plains', 'Rocky_Mountain', 'Far_West','Southwest', 'Southeast', 'Mideast') pct1<-c( 12, 11, 17, 15, 8, 11, 16, 10) label1<-paste(group1, " \n ", pct1, "%", sep="") pattern.type1<-c("hdashes", "blank", "grid", "blank", "hlines", "blank", "waves", "blank") pattern.type.inner<-"blank" pattern.color1<-rep("white", 8) background.color1<-c("darkgreen", "darkcyan", "chocolate", "cadetblue1", "darkorchid", "yellowgreen", "hotpink", "lightslateblue") density1<-rep(11.5, length(group1)) pattern.line.size1=c(10, 1, 6, 1, 10, 1, 6, 1) g<-patternring1(group1, pct1, label1, label.size1=4,label.color1='black', label.distance1=1.36, pattern.type1, pattern.color1, pattern.line.size1,background.color1, frame.color='black',frame.size=1.2, density1, pixel=13, pattern.type.inner="blank",pattern.color.inner="white", pattern.line.size.inner=1, background.color.inner="white", pixel.inner=10, density.inner=1, r1=2.7, r2=4) g<-g+annotate(geom="text", x=0, y=0, label="2019 Number of Cases \n N=1000",color="black", size=4)+scale_x_continuous(limits=c(-7, 7))+scale_y_continuous(limits=c(-7, 7)) g
Ring chart produced by imagering1().
#Example 1 library(patternplot) library(png) library(ggplot2) location<-gsub('\\','/',tempdir(), fixed=T) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="darkgreen", pixel=8, res=8) FarWest<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="darkcyan", pixel=8, res=8) GreatLakes<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="chocolate", pixel=8, res=8) Mideast<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="cadetblue1", pixel=8, res=8) NewEngland<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="darkorchid", pixel=8, res=8) Plains<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="yellowgreen", pixel=8, res=8) RockyMountain<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="hotpink", pixel=8, res=8) Southeast<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="lightslateblue", pixel=8, res=8) Southwest <-readPNG(paste(location,'/',"blank",".png", sep='')) group1<-c('New_England', 'Great_Lakes','Plains', 'Rocky_Mountain', 'Far_West','Southwest', 'Southeast', 'Mideast') pct1<-c( 12, 11, 17, 15, 8, 11, 16, 10) label1<-paste(group1, " \n ", pct1, "%", sep="") pattern.type1<-list(NewEngland, GreatLakes,Plains, RockyMountain, FarWest,Southwest, Southeast, Mideast) pattern.type.inner<-readPNG(system.file("img", "USmap.png", package="patternplot")) g<-imagering1(group1, pct1, pattern.type1, pattern.type.inner, frame.color='black',frame.size=1.5, r1=3, r2=4,label1, label.size1=4,label.color1='black', label.distance1=1.3) g<-g+annotate(geom="text", x=0, y=-2, label="2019 Number of Cases \n N=1000",color="black", size=4)+scale_x_continuous(limits=c(-6, 6))+scale_y_continuous(limits=c(-6, 6)) g
Ring charts produced by patternring2().
library(patternplot) library(png) library(ggplot2) group1<-c("Wind", "Hydro", "Solar", "Coal", "Natural Gas", "Oil") pct1<-c(12, 15, 8, 22, 18, 25) label1<-paste(group1, " \n ", pct1 , "%", sep="") group2<-c("Renewable", "Non-Renewable") pct2<-c(35, 65) label2<-paste(group2, " \n ", pct2 , "%", sep="") pattern.type1<-rep(c( "blank"), times=6) pattern.type2<-c('grid', 'blank') pattern.type.inner<-"blank" pattern.color1<-rep('white', length(group1)) pattern.color2<-rep('white', length(group2)) background.color1<-c("darkolivegreen1", "white", "indianred", "gray81", "white", "sandybrown" ) background.color2<-c("seagreen", "deepskyblue") density1<-rep(10, length(group1)) density2<-rep(10, length(group2)) pattern.line.size1=rep(5, length(group1)) pattern.line.size2=rep(2, length(group2)) pattern.line.size.inner=1 #Example 1: Two rings g<-patternrings2(group1, group2, pct1,pct2, label1, label2, label.size1=3, label.size2=3.5, label.color1='black', label.color2='black', label.distance1=0.75, label.distance2=1.4, pattern.type1, pattern.type2, pattern.color1,pattern.color2, pattern.line.size1, pattern.line.size2, background.color1, background.color2,density1=rep(10, length(group1)), density2=rep(15, length(group2)),pixel=10, pattern.type.inner, pattern.color.inner="black",pattern.line.size.inner, background.color.inner="white", pixel.inner=6, density.inner=5, frame.color='black',frame.size=1.5,r1=2.45, r2=4.25, r3=5) g1<-g+annotate(geom="text", x=0, y=0, label="Earth's Energy",color="black", size=5)+scale_x_continuous(limits=c(-6, 6))+scale_y_continuous(limits=c(-6, 6))+ggtitle("(A) Two Rings") #Example 2: Pie in a ring g<-patternrings2(group1, group2, pct1,pct2, label1, label2, label.size1=3, label.size2=3.5, label.color1='black', label.color2='black', label.distance1=0.7, label.distance2=1.4, pattern.type1, pattern.type2, pattern.color1,pattern.color2, pattern.line.size1, pattern.line.size2, background.color1, background.color2,density1=rep(10, length(group1)), density2=rep(15, length(group2)),pixel=10, pattern.type.inner, pattern.color.inner="black",pattern.line.size.inner, background.color.inner="white", pixel.inner=2, density.inner=5, frame.color='black',frame.size=1.5, r1=0.005, r2=4, r3=4.75) g2<-g+scale_x_continuous(limits=c(-6, 6))+scale_y_continuous(limits=c(-6, 6))+ggtitle("(B) Pie in a Ring") library(gridExtra) grid.arrange(g1,g2, nrow = 1)
Ring chart produced by imagering2().
#Example 1 library(patternplot) library(png) library(ggplot2) group1<-c("Wind", "Hydro", "Solar", "Coal", "Natural Gas", "Oil") pct1<-c(12, 15, 8, 22, 18, 25) label1<-paste(group1, " \n ", pct1 , "%", sep="") location<-gsub('\\','/',tempdir(), fixed=T) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="darkolivegreen1", pixel=20, res=15) Wind<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="white", pixel=20, res=15) Hydro<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="indianred", pixel=20, res=15) Solar<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="gray81", pixel=20, res=15) Coal<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="white", pixel=20, res=15) NaturalGas<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="sandybrown", pixel=20, res=15) Oil<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern.type1<-list(Wind, Hydro, Solar, Coal, NaturalGas, Oil) group2<-c("Renewable", "Non-Renewable") pct2<-c(35, 65) label2<-paste(group2, " \n ", pct2 , "%", sep="") pattern(type="grid", density=12, color='white', pattern.line.size=5, background.color="seagreen", pixel=20, res=15) Renewable<-readPNG(paste(location,'/',"grid",".png", sep='')) pattern(type="blank", density=1, color='white', pattern.line.size=1, background.color="deepskyblue", pixel=20, res=15) NonRenewable<-readPNG(paste(location,'/',"blank",".png", sep='')) pattern.type2<-list(Renewable, NonRenewable) pattern.type.inner<-readPNG(system.file("img", "earth.png", package="patternplot")) g<-imagerings2(group1, group2,pct1,pct2, label1, label2, label.size1=3, label.size2=3.5, label.color1='black', label.color2='black', label.distance1=0.7, label.distance2=1.3, pattern.type1, pattern.type2, pattern.type.inner, frame.color='skyblue',frame.size=1.5, r1=2.2, r2=4.2, r3=5) g<-g+scale_x_continuous(limits=c(-7, 7))+scale_y_continuous(limits=c(-7, 7)) g
Versatile Bar charts
Bar charts produced by patternbar().
#Example 1 library(patternplot) library(png) library(ggplot2) data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot")) data<-data[which(data$Location=='City 1'),] x<-factor(data$Type, c('Housing', 'Food', 'Childcare')) y<-data$Amount pattern.type<-c('hdashes', 'blank', 'crosshatch') pattern.color=c('black','black', 'black') background.color=c('white','white', 'white') density<-c(20, 20, 10) barp1<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type, hjust=0.5, pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4), frame.color=c('black', 'black', 'black'), density=density)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(A) Black and White with Patterns') #Example 2 pattern.color=c('black','white', 'grey20') background.color=c('lightgreen','lightgreen', 'lightgreen') barp2<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,hjust=0.5, pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4), frame.color=c('black', 'black', 'black'), density=density)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(B) Colors with Patterns') library(gridExtra) grid.arrange(barp1,barp2, nrow = 1) #Example 3 data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot")) group<-factor(data$Type, c('Housing', 'Food', 'Childcare')) y<-data$Amount x<-factor(data$Location, c('City 1', ' City 1')) pattern.type<-c( 'Rsymbol_16', 'blank','hdashes') pattern.color=c('yellow', 'chartreuse4', 'pink') background.color=c('grey', 'chartreuse3', 'bisque') barp3<-patternbar(data,x, y,group,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type, pattern.color=pattern.color,background.color=background.color, pattern.line.size=c(6, 10,6), frame.size=1,frame.color='black',pixel=16, density=c(18, 10, 14), legend.type='h', legend.h=12, legend.y.pos=0.49, vjust=-1, hjust=0.5,legend.pixel=6, legend.w=0.275,legend.x.pos=1.1) +scale_y_continuous(limits = c(0, 3100))+ggtitle('(C) Bar Chart with Two Grouping Variables') barp3
Stacked Bar chart produced by patternbar_s().
#Example 1 library(patternplot) library(png) library(ggplot2) data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot")) x<-data$Location y<-data$Amount group<-data$Type patternbar_s(data,x, y, group,xlab='', ylab='Monthly Expenses, Dollar', label.size=3,pattern.type=c( 'Rsymbol_16', 'blank','hdashes'), pattern.line.size=c(5, 10, 10),frame.size=1,pattern.color=c('yellow', 'chartreuse4', 'pink'),background.color=c('grey', 'chartreuse3', 'bisque'), pixel=16, density=c(18, 10, 10),frame.color='black', legend.type='h', legend.h=12, legend.y.pos=0.49, legend.pixel=6, legend.w=0.275, legend.x.pos=1.05,legend.label=c("Childcare", "Food", "Housing" ), bar.width=0.8)+scale_y_continuous(limits = c(0, 6800))+ggtitle('Stacked Bar Chart')
Bar charts produced by imagebar().
library(patternplot) library(jpeg) library(ggplot2) childcare<-readJPEG(system.file("img", "childcare.jpg", package="patternplot")) food<-readJPEG(system.file("img", "food.jpg", package="patternplot")) housing <-readJPEG(system.file("img", "housing.jpg", package="patternplot")) #Example 1 data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot")) data<-data[which(data$Location=='City 1'),] x<-factor(data$Type, c('Housing', 'Food', 'Childcare')) y<-data$Amount pattern.type<-list(housing, food, childcare) imagebar(data,x, y,group=NULL,pattern.type=pattern.type,vjust=-1, hjust=0.5, frame.color='black', ylab='Monthly Expenses, Dollars')+ggtitle('(A) Bar Chart with Images') #Example 2 data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot")) group<-factor(data$Type, c('Housing', 'Food', 'Childcare')) y<-data$Amount x<-factor(data$Location, c('City 1', ' City 1')) pattern.type<-list(housing, food, childcare) imagebar(data,x, y,group,pattern.type=pattern.type,vjust=-1, hjust=0.5, frame.color='black', ylab='Monthly Expenses, Dollars')+ggtitle('(B) Image Bar Chart with Two Grouping Variables')
Stacked Bar chart produced by imagebar_s().
library(patternplot) library(jpeg) library(ggplot2) childcare<-readJPEG(system.file("img", "childcare.jpg", package="patternplot")) food<-readJPEG(system.file("img", "food.jpg", package="patternplot")) housing <-readJPEG(system.file("img", "housing.jpg", package="patternplot")) data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot")) x<-data$Location y<-data$Amount group<-data$Type pattern.type<-list(childcare, food, housing) imagebar_s(data,x, y, group, xlab='', ylab='Monthly Expenses, Dollar', pattern.type=pattern.type, label.size=3.5, frame.size=1.25, frame.color='black',legend.type='h', legend.h=6, legend.y.pos=0.49, legend.pixel=20, legend.w=0.2,legend.x.pos=1.1, legend.label=c("Childcare", "Food", "Housing" ))+ scale_y_continuous(limits = c(0, 6800))+ggtitle('Stacked Bar Chart with Images')
Versatile Box plots
Box plots produced by patternboxplot().
#Example 1 data <- read.csv(system.file("extdata", "fruits.csv", package="patternplot")) group<-data$Fruit y<-data$Weight x<-data$Store pattern.type<-c('nwlines', 'blank', 'waves') pattern.color=c('black','black', 'black') background.color=c('white','gray80', 'white') frame.color=c('black', 'black', 'black') pattern.line.size<-c(6, 1,6) density<-c(6, 1, 8) box1<-patternboxplot(data,x, y,group,pattern.type=pattern.type,pattern.line.size=pattern.line.size, label.size=3, pattern.color=pattern.color, background.color=background.color,frame.color=frame.color, density=density, legend.h=2, legend.x.pos=1.075, legend.y.pos=0.499, legend.pixel=10,legend.w=0.18, legend.label=c("Orange","Strawberry","Watermelon"))+ggtitle('(A) Boxplot with Black and White Patterns') #Example 2 pattern.color=c('black','white', 'grey20') background.color=c('gold','lightpink', 'lightgreen') box2<-patternboxplot(data,x, y,group=group,pattern.type=pattern.type,pattern.line.size=pattern.line.size, label.size=3,pattern.color=pattern.color, background.color=background.color,frame.color=frame.color, density=density,legend.h=2, legend.x.pos=1.075, legend.y.pos=0.499, legend.pixel=10,legend.w=0.18, legend.label=c("Orange","Strawberry","Watermelon"))+ggtitle('(B) Boxplot with Colors and Patterns') library(gridExtra) grid.arrange(box1,box2, nrow = 1)
Box plots produced by imageboxplot().
library(patternplot) library(jpeg) library(ggplot2) Orange<-readJPEG(system.file("img", "oranges.jpg", package="patternplot")) Strawberry <-readJPEG(system.file("img", "strawberries.jpg", package="patternplot")) Watermelon<-readJPEG(system.file("img", "watermelons.jpg", package="patternplot")) #Example 1 data <- read.csv(system.file("extdata", "fruits.csv", package="patternplot")) x<-data$Fruit y<-data$Weight group<-data$Store pattern.type<-list(Orange, Strawberry, Watermelon) box1<-imageboxplot(data,x, y,group=NULL,pattern.type=pattern.type,frame.color=c('orange','darkred', 'darkgreen'),legend.label="", ylab='Weight, Pounds')+ggtitle('(A) Image Boxplot with One Grouping Variable') #Example 2 x<-data$Store y<-data$Weight group<-data$Fruit pattern.type<-list(Orange, Strawberry, Watermelon) box2<-imageboxplot(data,x, y,group=group, pattern.type=pattern.type, frame.color=c('orange', 'darkred', 'darkgreen'), linetype=c('solid', 'dashed', 'dotted'),frame.size=0.8, xlab='', ylab='Weights, pounds', legend.h=2, legend.x.pos=1.1, legend.y.pos=0.499, legend.w=0.2, legend.label=c("Orange", "Strawberry", "Watermelon"))+ggtitle('(B) Image Boxplot with Two Grouping Variables') library(gridExtra) grid.arrange(box1,box2, nrow = 1)
Integration of patternplot and ggplot2 and Other Features
Change the order of x and y axes.
library(patternplot) library(png) library(ggplot2) data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot")) data<-data[which(data$Location=='City 1'),] x<-factor(data$Type, c('Housing', 'Food', 'Childcare')) y<-data$Amount pattern.type<-c('hdashes', 'blank', 'crosshatch') pattern.color=c('black','black', 'black') background.color=c('white','white', 'white') density<-c(20, 20, 10) g1<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=-1, hjust=0.5, bar.width=0.75)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(A) Vertical Bar Chart') g2<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=0.5, hjust=-0.25, bar.width=0.5)+scale_y_continuous(limits = c(0,2800))+ggtitle('(B) Horizontal Bar Chart')+coord_flip() g3<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=2, hjust=0.5, bar.width=0.75)+ggtitle('(C) Reverse Bar Chart')+ scale_y_reverse(limits = c(2800,0)) library(gridExtra) grid.arrange(g1,g2,g3, nrow = 1)
Change themes.
library(patternplot) library(png) library(ggplot2) data <- read.csv(system.file("extdata", "monthlyexp.csv", package="patternplot")) data<-data[which(data$Location=='City 1'),] x<-factor(data$Type, c('Housing', 'Food', 'Childcare')) y<-data$Amount pattern.type<-c('hdashes', 'blank', 'crosshatch') pattern.color=c('black','black', 'black') background.color=c('white','white', 'white') density<-c(20, 20, 10) g1<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=-1, hjust=0.5)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(A) Bar Chart with Default Theme') g2<-patternbar(data,x, y,group=NULL,ylab='Monthly Expenses, Dollars', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(5.5, 1, 4),frame.color=c('black', 'black', 'black'), density=density, vjust=-1, hjust=0.5)+scale_y_continuous(limits = c(0, 2800))+ggtitle('(B) Bar Chart with Classic Theme')+ theme_classic() library(gridExtra) grid.arrange(g1,g2, nrow = 1)
Unicode symbols as pattern.
library(patternplot) library(png) library(ggplot2) #http://www.alanwood.net/demos/wgl4.html data <- data.frame(Type=c('Sunny', 'Cloudy', 'Rainy', 'Snowy'), Amount=c(5, 2, 3, 4)) x<-factor(data$Type, c('Sunny', 'Cloudy', 'Rainy', 'Snowy')) y<-data$Amount pattern.type<-c('Unicode_\u2600', 'Unicode_\u2601', 'Unicode_\u2602', 'Unicode_\u2603') pattern.color<-c('yellow','white','red', 'white') background.color=c('deepskyblue','deepskyblue','deepskyblue', 'deepskyblue') density<-c(16, 20, 16, 16) g1<-patternbar(data,x, y,group=NULL,ylab='Number of Days', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(10, 7, 10, 10), density=density, vjust=-1, hjust=0.5, bar.width =0.5)+scale_y_continuous(limits = c(0, 6))+ggtitle('(A) Bar Chart with Weather Symbols') data <- data.frame(Type=c('Female', 'Male'), Amount=c(50, 40)) x<-data$Type y<-data$Amount pattern.type<-c('Unicode_\u2640', 'Unicode_\u2642') pattern.color<-c('violet','deepskyblue') background.color=c('seashell','seashell') density<-c(10, 10) g2<-patternbar(data,x, y,group=NULL,ylab='Number of People', pattern.type=pattern.type,pattern.color=pattern.color, background.color=background.color,pattern.line.size=c(14, 14), density=density, pixel=18, vjust=-1, hjust=0.5, bar.width =0.5)+scale_y_continuous(limits = c(0, 60))+ggtitle('(B) Bar Chart with Gender Symbols') library(gridExtra) grid.arrange(g1,g2, nrow = 1)
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