# Plot a geographical map with symbols according to frequencies

I would like to plot a geographical map with n numbers of squares according to the frequency of a disease within a county. Like this one here:

But I couldn't figure out how to do this with R or qGIS. Thanks for y'all help.

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That's kind of a weird one, are you sure the cells aren't just a very sparse grid where the colour is blue since the value is present versus absent? It's not really that you want to draw n cells at a given point, is it? Sample data and more details about your data would help, but if you just want a plot "like this" then a really basic starting point is m <- matrix(sample(c(0, 1), 50 * 30, replace = TRUE, prob = c(0.95, 0.05)), 50, 30); image(m, col = c("white", "blue")) –  mdsumner Dec 1 '11 at 12:07
Each block represents a reported number of incidents, the location shows where that amount took place. –  Paul Hiemstra Dec 1 '11 at 12:21
The problem with either blocks or bubbles is one of the viewer's qualitative reaction. That is: does the area or the diameter scale linearly with the underlying values? A number of people (including Tufte of course) have written about this. –  Carl Witthoft Dec 1 '11 at 12:53
Also, these blocks are going to overlap if you're not lucky. If Hamburg had as many cases as Berlin it would smush its neighbours. –  Spacedman Dec 1 '11 at 12:57
I think the area should scale with the values. The comparative size of the bubbles is governed by the area. I think that was the critique on charts where for example only the height of a block was linked to the value. –  Paul Hiemstra Dec 1 '11 at 12:59

First write a little function called 'stackbox' that plots (using "rect") the squares for the stack in the right place.

Here's the first line of that function:

``````stackbox <- function(x,y,n,size,maxheight=5){
``````
• where 'size' is the height and width of the boxes, and 'maxheight' lets you have a stack that is 5 high or 10 high or whatever.

Then call that function for every county that has cases.

Where exactly were you stuck in the process?

Here's the function in full:

``````stackbox <- function(x,y,n,size,maxheight=5,...){
stackheight = seq(0,n,by=maxheight)
stackheight=diff(unique(c(stackheight,n)))

for(col in 1:length(stackheight)){
xl=rep(x+(col-1)*size,stackheight[col]) - (length(stackheight)/2)*size
yb=y+size*((1:stackheight[col])-1) - (max(stackheight)/2)*size
xr=xl+size
yt=yb+size
rect(xl,yb,xr,yt,...)
}
}
``````

Example:

``````plot(1:10)
for(i in 1:10){
stackbox(i,i,i,3,size=.1,col="red",border="white")
}
``````

To do this on a map, you need the sp and maptools packages, and a shapefile or other geospatial data source that has your data in it:

``````africa=readShapeSpatial(file.path(mapLib,"africa.shp"))
plot(africa,border="gray")
coords=coordinates(africa)
for(i in 1:nrow(africa)){
if(cases[i]>0){
stackbox(coords[i,1],coords[i,2],africa\$cases[i],1,border="#606060",col="#0083FE")
}
}
``````

I've picked colours that look a bit like your original. Note that the boxes are in plot coordinates, so I had to make them 0.1 of a degree. You may wish to transform your map to a euclidean projection (using spTransform from package:gdal) and then they'll be in those units and properly square.

Doing nice text labels like in your original would be tricky though...

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Thank you for your answer. This is quite awesome. I have all data as a shp file, so I can do that. In qGIS it is not so difficult to plot the names, and I think it should be doable with R as well. The requiered information is in the shp file... –  Dominik Dec 2 '11 at 11:10
what is the mabLib entry in your readShapeSpatial command?!? –  Dominik Dec 2 '11 at 11:12
Thats just the folder where I keep my map files. mapLib="/data/maps" for me, maybe mapLib="C:\\maps\\" for you? The file.path function joins the path to the shapefile name. –  Spacedman Dec 2 '11 at 11:53
Oh, right. The solution is often so close... ;-) –  Dominik Dec 2 '11 at 13:09

As an alternative I would suggest a bubble plot, which is quite easy to make using ggplot2 using the point geometry. An example form the help pages (http://had.co.nz/ggplot2/geom_point.html):

``````p <- ggplot(mtcars, aes(wt, mpg))
p + geom_point(aes(size = qsec))
``````