90

I'm currently using scale_brewer() for fill and these look beautiful in color (on screen and via color printer) but print relatively uniformly as greys when using a black and white printer. I searched the online ggplot2 documentation but didn't see anything about adding textures to fill colors. Is there an official ggplot2 way to do this or does anyone have a hack that they use? By textures I mean things like diagonal bars, reverse diagonal bars, dot patterns, etc that would differentiate fill colors when printed in black and white.

35

ggplot can use colorbrewer palettes. Some of these are "photocopy" friendly. So mabe something like this will work for you?

ggplot(diamonds, aes(x=cut, y=price, group=cut))+
geom_boxplot(aes(fill=cut))+scale_fill_brewer(palette="OrRd")

in this case OrRd is a palette found on the colorbrewer webpage: http://colorbrewer2.org/

Photocopy Friendly: This indicates that a given color scheme will withstand black and white photocopying. Diverging schemes can not be photocopied successfully. Differences in lightness should be preserved with sequential schemes.

  • 11
    Does not answer the question of the OP. I came here because I am stuck to certain colours. This accepted 'answer' does not suggest how to apply textures. – MS Berends Jan 25 at 8:36
  • 2
    @MSBerends it doesn't answer your question. Pretty sure that the green check mark is a sign that it has answered the question! – Yan Foto May 6 at 15:16
  • 4
    Don’t get fooled by a check mark. The question was how to apply textures - and that’s not answered. An outside the box idea was provided, yes, but not an answer to the question. – MS Berends May 7 at 22:04
81

Hey folks here's a wee hack that addresses the texture issue in a very basic fashion:

ggplot2: make the border on one bar darker than the others using R

EDIT: I've finally found time to give a brief example of this hack that allows at least 3 types of basic pattern in ggplot2. The code:

Example.Data<- data.frame(matrix(vector(), 0, 3, dimnames=list(c(), c("Value", "Variable", "Fill"))), stringsAsFactors=F)

Example.Data[1, ] <- c(45, 'Horizontal Pattern','Horizontal Pattern' )
Example.Data[2, ] <- c(65, 'Vertical Pattern','Vertical Pattern' )
Example.Data[3, ] <- c(89, 'Mesh Pattern','Mesh Pattern' )


HighlightDataVert<-Example.Data[2, ]
HighlightHorizontal<-Example.Data[1, ]
HighlightMesh<-Example.Data[3, ]
HighlightHorizontal$Value<-as.numeric(HighlightHorizontal$Value)
Example.Data$Value<-as.numeric(Example.Data$Value)

HighlightDataVert$Value<-as.numeric(HighlightDataVert$Value)
HighlightMesh$Value<-as.numeric(HighlightMesh$Value)
HighlightHorizontal$Value<-HighlightHorizontal$Value-5
HighlightHorizontal2<-HighlightHorizontal
HighlightHorizontal2$Value<-HighlightHorizontal$Value-5
HighlightHorizontal3<-HighlightHorizontal2
HighlightHorizontal3$Value<-HighlightHorizontal2$Value-5
HighlightHorizontal4<-HighlightHorizontal3
HighlightHorizontal4$Value<-HighlightHorizontal3$Value-5
HighlightHorizontal5<-HighlightHorizontal4
HighlightHorizontal5$Value<-HighlightHorizontal4$Value-5
HighlightHorizontal6<-HighlightHorizontal5
HighlightHorizontal6$Value<-HighlightHorizontal5$Value-5
HighlightHorizontal7<-HighlightHorizontal6
HighlightHorizontal7$Value<-HighlightHorizontal6$Value-5
HighlightHorizontal8<-HighlightHorizontal7
HighlightHorizontal8$Value<-HighlightHorizontal7$Value-5

HighlightMeshHoriz<-HighlightMesh
HighlightMeshHoriz$Value<-HighlightMeshHoriz$Value-5
HighlightMeshHoriz2<-HighlightMeshHoriz
HighlightMeshHoriz2$Value<-HighlightMeshHoriz2$Value-5
HighlightMeshHoriz3<-HighlightMeshHoriz2
HighlightMeshHoriz3$Value<-HighlightMeshHoriz3$Value-5
HighlightMeshHoriz4<-HighlightMeshHoriz3
HighlightMeshHoriz4$Value<-HighlightMeshHoriz4$Value-5
HighlightMeshHoriz5<-HighlightMeshHoriz4
HighlightMeshHoriz5$Value<-HighlightMeshHoriz5$Value-5
HighlightMeshHoriz6<-HighlightMeshHoriz5
HighlightMeshHoriz6$Value<-HighlightMeshHoriz6$Value-5
HighlightMeshHoriz7<-HighlightMeshHoriz6
HighlightMeshHoriz7$Value<-HighlightMeshHoriz7$Value-5
HighlightMeshHoriz8<-HighlightMeshHoriz7
HighlightMeshHoriz8$Value<-HighlightMeshHoriz8$Value-5
HighlightMeshHoriz9<-HighlightMeshHoriz8
HighlightMeshHoriz9$Value<-HighlightMeshHoriz9$Value-5
HighlightMeshHoriz10<-HighlightMeshHoriz9
HighlightMeshHoriz10$Value<-HighlightMeshHoriz10$Value-5
HighlightMeshHoriz11<-HighlightMeshHoriz10
HighlightMeshHoriz11$Value<-HighlightMeshHoriz11$Value-5
HighlightMeshHoriz12<-HighlightMeshHoriz11
HighlightMeshHoriz12$Value<-HighlightMeshHoriz12$Value-5
HighlightMeshHoriz13<-HighlightMeshHoriz12
HighlightMeshHoriz13$Value<-HighlightMeshHoriz13$Value-5
HighlightMeshHoriz14<-HighlightMeshHoriz13
HighlightMeshHoriz14$Value<-HighlightMeshHoriz14$Value-5
HighlightMeshHoriz15<-HighlightMeshHoriz14
HighlightMeshHoriz15$Value<-HighlightMeshHoriz15$Value-5
HighlightMeshHoriz16<-HighlightMeshHoriz15
HighlightMeshHoriz16$Value<-HighlightMeshHoriz16$Value-5
HighlightMeshHoriz17<-HighlightMeshHoriz16
HighlightMeshHoriz17$Value<-HighlightMeshHoriz17$Value-5

ggplot(Example.Data, aes(x=Variable, y=Value, fill=Fill)) + theme_bw() + #facet_wrap(~Product, nrow=1)+ #Ensure theme_bw are there to create borders
  theme(legend.position = "none")+
  scale_fill_grey(start=.4)+
  #scale_y_continuous(limits = c(0, 100), breaks = (seq(0,100,by = 10)))+
  geom_bar(position=position_dodge(.9), stat="identity", colour="black", legend = FALSE)+
  geom_bar(data=HighlightDataVert, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.80)+
geom_bar(data=HighlightDataVert, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.60)+  
  geom_bar(data=HighlightDataVert, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.40)+
  geom_bar(data=HighlightDataVert, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.20)+
  geom_bar(data=HighlightDataVert, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.0) +
  geom_bar(data=HighlightHorizontal, position=position_dodge(.9), stat="identity", colour="black", size=.5)+
  geom_bar(data=HighlightHorizontal2, position=position_dodge(.9), stat="identity", colour="black", size=.5)+
  geom_bar(data=HighlightHorizontal3, position=position_dodge(.9), stat="identity", colour="black", size=.5)+
  geom_bar(data=HighlightHorizontal4, position=position_dodge(.9), stat="identity", colour="black", size=.5)+
  geom_bar(data=HighlightHorizontal5, position=position_dodge(.9), stat="identity", colour="black", size=.5)+
  geom_bar(data=HighlightHorizontal6, position=position_dodge(.9), stat="identity", colour="black", size=.5)+
  geom_bar(data=HighlightHorizontal7, position=position_dodge(.9), stat="identity", colour="black", size=.5)+
  geom_bar(data=HighlightHorizontal8, position=position_dodge(.9), stat="identity", colour="black", size=.5)+
  geom_bar(data=HighlightMesh, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.80)+
 geom_bar(data=HighlightMesh, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.60)+
  geom_bar(data=HighlightMesh, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.40)+
  geom_bar(data=HighlightMesh, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.20)+
  geom_bar(data=HighlightMesh, position=position_dodge(.9), stat="identity", colour="black", size=.5, width=0.0)+
  geom_bar(data=HighlightMeshHoriz, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
geom_bar(data=HighlightMeshHoriz2, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz3, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz4, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz5, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz6, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz7, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz8, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz9, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz10, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz11, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz12, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz13, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz14, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz15, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz16, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")+
  geom_bar(data=HighlightMeshHoriz17, position=position_dodge(.9), stat="identity", colour="black", size=.5, fill = "transparent")

Produces this:

enter image description here

It isn't super pretty but it is the only solution I can think on.

As can be seen I produce some very basic data. To get the vertical lines I simply create a data frame to contain the variable I wanted to add vertical lines to and redrew the graph borders multiple times reducing the width each time.

A similar thing is done for the horizontal lines but a new data frame is needed for each redraw where I have subtracted a value (in my example '5') from the value associated with the variable of interest. Effectively lowering the height of the bar. This is clunky to achieve and there may be more streamlined approaches but this illustrates how it can be achieved.

The mesh pattern is a combination of both. Firstly draw the vertical lines and then add the horizontal lines setting fill as fill='transparent' to ensure the vertical lines are not drawn over.

Until there is a pattern update I hope some of you find this useful.

EDIT 2:

Additionally diagonal patterns may also be added. I added an extra variable to the data frame:

Example.Data[4,] <- c(20, 'Diagonal Pattern','Diagonal Pattern' )

Then I created a new data frame to hold coordinates for the diagonal lines:

Diag <- data.frame(
  x = c(1,1,1.45,1.45), # 1st 2 values dictate starting point of line. 2nd 2 dictate width. Each whole = one background grid
  y = c(0,0,20,20),
  x2 = c(1.2,1.2,1.45,1.45), # 1st 2 values dictate starting point of line. 2nd 2 dictate width. Each whole = one background grid
  y2 = c(0,0,11.5,11.5),# inner 2 values dictate height of horizontal line. Outer: vertical edge lines.
  x3 = c(1.38,1.38,1.45,1.45), # 1st 2 values dictate starting point of line. 2nd 2 dictate width. Each whole = one background grid
  y3 = c(0,0,3.5,3.5),# inner 2 values dictate height of horizontal line. Outer: vertical edge lines.
  x4 = c(.8,.8,1.26,1.26), # 1st 2 values dictate starting point of line. 2nd 2 dictate width. Each whole = one background grid
  y4 = c(0,0,20,20),# inner 2 values dictate height of horizontal line. Outer: vertical edge lines.
  x5 = c(.6,.6,1.07,1.07), # 1st 2 values dictate starting point of line. 2nd 2 dictate width. Each whole = one background grid
  y5 = c(0,0,20,20),# inner 2 values dictate height of horizontal line. Outer: vertical edge lines.
  x6 = c(.555,.555,.88,.88), # 1st 2 values dictate starting point of line. 2nd 2 dictate width. Each whole = one background grid
  y6 = c(6,6,20,20),# inner 2 values dictate height of horizontal line. Outer: vertical edge lines.
  x7 = c(.555,.555,.72,.72), # 1st 2 values dictate starting point of line. 2nd 2 dictate width. Each whole = one background grid
  y7 = c(13,13,20,20),# inner 2 values dictate height of horizontal line. Outer: vertical edge lines.
  x8 = c(.8,.8,1.26,1.26), # 1st 2 values dictate starting point of line. 2nd 2 dictate width. Each whole = one background grid
  y8 = c(0,0,20,20),# inner 2 values dictate height of horizontal line. Outer: vertical edge lines.
  #Variable = "Diagonal Pattern",
  Fill = "Diagonal Pattern"
  )

From there I added geom_paths to the ggplot above with each one calling different coordinates and drawing the lines over the desired bar:

+geom_path(data=Diag, aes(x=x, y=y),colour = "black")+  # calls co-or for sig. line & draws
  geom_path(data=Diag, aes(x=x2, y=y2),colour = "black")+  # calls co-or for sig. line & draws
  geom_path(data=Diag, aes(x=x3, y=y3),colour = "black")+
  geom_path(data=Diag, aes(x=x4, y=y4),colour = "black")+
  geom_path(data=Diag, aes(x=x5, y=y5),colour = "black")+
  geom_path(data=Diag, aes(x=x6, y=y6),colour = "black")+
  geom_path(data=Diag, aes(x=x7, y=y7),colour = "black")

This results in the following:

enter image description here

It is a bit sloppy as I didn't invest too much time in getting the lines perfectly angled and spaced apart but this should serve as a proof of concept.

Obviously the lines can lean the opposite direction and there is also room for diagonal meshing much like the horizontal and vertical meshing.

I think that's about all I can offer on the pattern front. Hope someone can find a use for it.

EDIT 3: Famous last words. I have come up with another pattern option. This time using geom_jitter.

Again I added another Variable to the data frame:

Example.Data[5,] <- c(100, 'Bubble Pattern','Bubble Pattern' )

And I ordered how I wanted each pattern presented:

Example.Data$Variable = Relevel(Example.Data$Variable, ref = c("Diagonal Pattern", "Bubble Pattern","Horizontal Pattern","Mesh Pattern","Vertical Pattern"))

Next I created a column to contain the number associated with the intended target bar on the x-axis:

Example.Data$Bubbles <- 2

Followed by columns to contain the positions on the y-axis of the 'bubbles':

Example.Data$Points <- c(5, 10, 15, 20, 25)
Example.Data$Points2 <- c(30, 35, 40, 45, 50)
Example.Data$Points3 <- c(55, 60, 65, 70, 75)
Example.Data$Points4 <- c(80, 85, 90, 95, 7)
Example.Data$Points5 <- c(14, 21, 28, 35, 42)
Example.Data$Points6 <- c(49, 56, 63, 71, 78)
Example.Data$Points7 <- c(84, 91, 98, 6, 12)

Finally I added geom_jitters to the ggplot above using the new columns for positioning and re-using 'Points' to vary the size of the 'bubbles':

+geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points3, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points4, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points3, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points4, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points5, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points5, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points6, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points6, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points7, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points7, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points3, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points4, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points3, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points4, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points2, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points5, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points5, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points6, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points6, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points7, size=Points), alpha=.5)+
  geom_jitter(data=Example.Data,aes(x=Bubbles, y=Points7, size=Points), alpha=.5)

Each time the plot is run the jitter positions the 'bubbles' differently but here is one of the nicer outputs I had:

enter image description here

Sometimes the 'bubbles' will jitter outside borders. If this happens rerun or simply export in larger dimensions. More bubbles can be plotted on each increment on the y-axis which will fill more of the blank space if you so desire.

That makes up to 7 patterns (if you include opposite leaning diagonal lines and diagonal mesh of both) that can be hacked in ggplot.

Please feel free to suggest more if anyone can think on some.

EDIT 4: I've been working on a wrapper function to automate hatching/patterns in ggplot2. I'll post a link once I've expanded the function to allow patterns in facet_grid plots etc. Here's an output with the function input for a simple plot of bars as an example:

enter image description here

I'll add one last edit once I have the function ready to share.

EDIT 5: Here's a link to the function EggHatch that I wrote to make the process of adding patterns to geom_bar plots a little easier.

  • Good job! However, it seems that this solution only works for bar plots or? – SkyWalker Apr 8 '18 at 7:15
  • @Giovanni Azua I've only tried it for bar-plots yes. When I find time I'll try and adapt the linked function for stacked plots etc. – Docconcoct Apr 9 '18 at 12:54
67

It's not currently possible because grid (the graphics system that ggplot2 uses to do the actual drawing) doesn't support textures. Sorry!

  • 65
    Any plans to add gridextra as a dependency in order to get this functionality? – russellpierce Feb 3 '13 at 2:44
14

You can use ggtextures package by @claus wilke to draw textured rectangles and bars with ggplot2.

# Image/pattern randomly selected from README
path_image <- "http://www.hypergridbusiness.com/wp-content/uploads/2012/12/rocks2-256.jpg"

library(ggplot2)
# devtools::install_github("clauswilke/ggtextures")
ggplot(mtcars, aes(cyl, mpg)) + 
  ggtextures::geom_textured_bar(stat = "identity", image = path_image)

enter image description here

You can also combine it with other geoms:

data_raw <- data.frame(x = round(rbinom(1000, 50, 0.1)))
ggplot(data_raw, aes(x)) +
  geom_textured_bar(
    aes(y = ..prop..), image = path_image
  ) +
  geom_density()

enter image description here

  • 2
    Thanks for moving your answer @PoGibas. I bet it will get far more (well-deserved) attention here! Cheers – Henrik Jun 11 at 14:05
  • Very nice solution. – Docconcoct Jun 11 at 16:03
  • 4
    Check out the downloadable patterns here: heropatterns.com – Nova Jul 11 at 16:05
  • @Nova thank you this is very useful resource – PoGibas Jul 11 at 18:04
  • Now I just need to find out how to alter their transparency in R.. haha – Nova Jul 11 at 18:07
2

I think Docconcoct work is great but now I've suddenly googled a special package --- Patternplot. Didn't see internal code but vignette seems useful.

1

It might be useful to create a dummy data frame whose contours correspond to "textures" and then use geom_contour. Here is my example:

library(ggplot2)

eg = expand.grid(R1 = seq(0,1,by=0.01), R2 = seq(0,1,by=0.01))
     eg$importance = (eg$R1+eg$R2)/2

  ggplot(eg , aes(x = R1, y = R2)) +
  geom_raster(aes(fill = importance), interpolate=TRUE) +
  scale_fill_gradient2(low="white", high="gray20", limits=c(0,1)) +
  theme_classic()+
  geom_contour(bins=5,aes(z=importance), color="black", size=0.6)+
  coord_fixed(ratio = 1, xlim=c(0,1),ylim=c(0,1))

And here is the result: shaded plot with lines

(the lines should be smoothed)

0

ggrough might be of interest: https://xvrdm.github.io/ggrough/

0

This a follow-up question to the post left by @Docconcoct (the one with 5 edits).

The relatively small reproducible example below shows two approaches to a plot we'd like to make. The first uses ggplot, but is incomplete. The 2nd plot generated below uses base R graphics and is complete. Is there a way to accomplish what is shown in the 2nd plot using ggplot? I was utterly lost trying to follow along with Docconcoct approach.

library(ggplot2)

dat <- read.table(textConnection("wrDec scen src       value
43  1850   1C  gw    39.34253
49  1850   2C  gw    87.24263
55  1850   3C  gw   133.36214
61  1850   4C  gw   189.87629
67  1850   5C  gw   234.49438
7   1850   1C  sw  -332.00033
13  1850   2C  sw  -705.26090
19  1850   3C  sw -1109.10350
25  1850   4C  sw -1538.89468
31  1850   5C  sw -1941.11464
44  1860   1C  gw   161.65695
50  1860   2C  gw   337.63655
56  1860   3C  gw   537.13948
62  1860   4C  gw   720.46927
68  1860   5C  gw   928.40398
8   1860   1C  sw  -483.56331
14  1860   2C  sw -1006.67141
20  1860   3C  sw -1584.47668
26  1860   4C  sw -2167.01980
32  1860   5C  sw -2775.84317
45  1870   1C  gw    93.09717
51  1870   2C  gw   190.74712
57  1870   3C  gw   295.68164
63  1870   4C  gw   391.21511
69  1870   5C  gw   495.22644
9   1870   1C  sw  -378.80846
15  1870   2C  sw  -785.45633
21  1870   3C  sw -1205.84678
27  1870   4C  sw -1644.12112
33  1870   5C  sw -2077.68337
46  1880   1C  gw    29.61092
52  1880   2C  gw    60.59267
58  1880   3C  gw    95.47988
64  1880   4C  gw   132.15479
70  1880   5C  gw   171.48976
10  1880   1C  sw  -210.97875
16  1880   2C  sw  -428.38672
22  1880   3C  sw  -682.01563
28  1880   4C  sw  -943.77363
34  1880   5C  sw -1213.56345
47  1890   1C  gw    12.29025
53  1890   2C  gw    24.11237
59  1890   3C  gw    36.90570
65  1890   4C  gw    50.74161
71  1890   5C  gw    66.29961
11  1890   1C  sw  -476.12546
17  1890   2C  sw  -885.65743
23  1890   3C  sw -1328.05086
29  1890   4C  sw -1782.29492
35  1890   5C  sw -2241.68459
48 1900+   1C  gw    19.06018
54 1900+   2C  gw    38.51153
60 1900+   3C  gw    60.85222
66 1900+   4C  gw    81.35425
72 1900+   5C  gw   105.22905
12 1900+   1C  sw  -264.40595
18 1900+   2C  sw  -504.66240
24 1900+   3C  sw  -808.04811
30 1900+   4C  sw -1136.96551
36 1900+   5C  sw -1539.09301"), header=TRUE)

ggplot(data=dat, aes(x=scen, y=value, fill=src)) + 
  geom_bar(stat="identity") + 
  facet_grid(~wrDec) + 
  ylab(expression(paste('Change in Average Annual Delivered Water,  ',ac%.%ft,sep='')))


# Base Graphics approach
# ----------------------
dev.new()
gwUse_chng <- matrix(subset(dat, dat$src=='gw')$value,
                       nrow = 5, ncol = 6, byrow = FALSE,
                       dimnames = list(c('1_deg', '2_deg', '3_deg', '4_deg', '5_deg'),
                                       c('1850','1860','1870','1880','1890','1900+')))

swUse_chng <- matrix(subset(dat, dat$src=='sw')$value,
                       nrow = 5, ncol = 6, byrow = FALSE,
                       dimnames = list(c('1_deg', '2_deg', '3_deg', '4_deg', '5_deg'),
                                       c('1850','1860','1870','1880','1890','1900+')))

net_chng <- swUse_chng + gwUse_chng


par(mar=c(3,6,1,0.5))
barplot(gwUse_chng, beside=TRUE, las=1, yaxt='n', yaxs='i', ylim=c(-3000, 1000), col='lightblue')
par(new=TRUE)
barplot(swUse_chng, beside=TRUE, las=1, yaxt='n', yaxs='i', ylim=c(-3000, 1000), col='mistyrose')
par(new=TRUE)
barplot(net_chng, beside=TRUE, las=1, yaxt='n', yaxs='i', ylim=c(-3000, 1000), col='black', ang=135, den=15)
legend("bottomleft", c('Groundwater','Surface-water','Net'), 
       fill=c('lightblue','mistyrose','black'), ang=c(NA,NA,135), den=c(NA,NA,25), bty='n', bg='white')
axis(side=2, at=seq(-3000,1000,by=500), labels=c('-3,000','-2,500','-2,000','-1,500','-1,000','-500','0','500','1,000'),las=1)
abline(h=0, lwd=1)
abline(v=seq(6.5, 30.5,by=6), col='grey90')
abline(h=-3000, col='black')

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.