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Using Hadley's great ggplot2 and his book (pp. 78-79), I am able to produce single choropleth map plots with ease, using code like this:

states.df <- map_data("state")
states.df = subset(states.df,group!=8) # get rid of DC
states.df$st <- state.abb[match(states.df$region,tolower(state.name))] # attach state abbreviations

states.df$value = value[states.df$st]

p = qplot(long, lat, data = states.df, group = group, fill = value, geom = "polygon", xlab="", ylab="", main=main) + opts(axis.text.y=theme_blank(), axis.text.x=theme_blank(), axis.ticks = theme_blank()) + scale_fill_continuous (name)
p2 = p + geom_path(data=states.df, color = "white", alpha = 0.4, fill = NA) + coord_map(project="polyconic")

Where "value" is the vector of state-level data I am plotting. But what if I want to plot multiple maps, grouped by some variable (or two)?

Here's an example of a plot done by Andrew Gelman, later adapted in the New York Times, about health care opinion in the states:

enter image description here

I'd love to be able to emulate this example: show choropleth plots gridded according to two variables (or even one). So I pass not a vector of values, but rather a dataframe organized "long", with multiple entries for each state.

I know ggplot2 can do this, but I'm not sure how. Thanks!

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2 Answers 2

up vote 7 down vote accepted

You can add two columns for the desired groupings and use facets:

d1 <- map_data("state")
d2 <- unique(d1$group)
n <- length(d2)
d2 <- data.frame( 
d <- merge(d1, d2,  by="group")
  long, lat, data = d, group = group, 
  fill = value, geom = "polygon" 
) + 
  facet_wrap( ~ g1 + g2 )
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This works. The key was the merge command which expanded the data frame emerging from map_data, and then the facet_wrap option which works exactly in the way it would for ggplot2. Thanks! –  bshor Feb 9 '12 at 0:14

I'll just paste this script here wholesale. It's self-contained, and I just generate some arbitrary categorical variables and a random DV by which states are colored. There are some things in the code that aren't needed; my apologies for that.

rm(list = ls())

theme_set(theme_bw(base_size = 8))
options(scipen = 20)

MyPalette <- colorRampPalette(c(hsv(0, 1, 1), hsv(7/12, 1, 1)))

### Map ###
StateMapData <- map_data("state")

### Some Invented Data ###

IndependentVariable1 <- c("Low Income", "Mid Income", "High Income")
IndependentVariable2 <- c("18-29", "30-44", "45-64", "65+")

# Here is one way to "stack" lots of copies of the shapefile dataframe on top of each other:
# This needs to be done, because (as far as I know) ggplot2 needs to have the state names and polygon coordinates
# for each level of the faceting variables.

TallData <- expand.grid(1:nrow(StateMapData), IndependentVariable1, IndependentVariable2)
TallData <- data.frame(StateMapData[TallData[, 1], ], TallData)
colnames(TallData)[8:9] <- c("IndependentVariable1", "IndependentVariable2")

# Some random dependent variable we want to plot in color:
TallData$State_IV1_IV2 <- paste(TallData$region, TallData$IndependentVariable1, TallData$IndependentVariable2)
RandomVariable <- runif(length(unique(TallData$State_IV1_IV2)))
TallData$DependentVariable <- by(RandomVariable, unique(TallData$State_IV1_IV2), mean)[TallData$State_IV1_IV2]

### Plot ###

MapPlot <- ggplot(TallData,
 aes(x = long, y = lat, group = group, fill = DependentVariable))
MapPlot <- MapPlot + geom_polygon()
MapPlot <- MapPlot + coord_map(project="albers", at0 = 45.5, lat1 = 29.5)  # Changes the projection to something other than Mercator.
  MapPlot <- MapPlot + scale_x_continuous(breaks = NA, expand.grid = c(0, 0)) +
    scale_y_continuous(breaks = NA) +
      panel.grid.major = theme_blank(),
      panel.grid.minor = theme_blank(),
      panel.background = theme_blank(),
      panel.border = theme_blank(),
      expand.grid = c(0, 0),
      axis.ticks = theme_blank(),
      legend.position = "none",
      legend.box = "horizontal",
      title = "Here is my title",
  legend.key.size = unit(2/3, "lines"))
MapPlot <- MapPlot + xlab(NULL) + ylab(NULL)
MapPlot <- MapPlot + geom_path(fill = "transparent", colour = "BLACK", alpha = I(2/3), lwd = I(1/10))
MapPlot <- MapPlot + scale_fill_gradientn("Some/nRandom/nVariable", legend = FALSE,
 colours = MyPalette(100))

# This does the "faceting":
MapPlot <- MapPlot + facet_grid(IndependentVariable2 ~ IndependentVariable1)

# print(MapPlot)

ggsave(plot = MapPlot, "YOUR DIRECTORY HERE.png", h = 8.5, w = 11)
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This works, too - expand.grid is doing the same work of merge here. Plus this answer has lots of nice little touches and options that I'm going to appropriate! Thanks. –  bshor Feb 9 '12 at 0:14

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