# move and rescale alaska and hawaii

I'm following this tutorial to move and rescale alaska and hawaii. This is the code that I'm running:

``````x = c("ggplot2", "rgdal", "maptools", "mapproj", "rgeos")
lapply(x, library, character.only = TRUE)

remove.territories = function(.df) {
subset(.df,
.df\$id != "AS" &
.df\$id != "MP" &
.df\$id != "GU" &
.df\$id != "PR" &
.df\$id != "VI"
)
}

plain_theme = theme(axis.text=element_blank()) +
theme(panel.background = element_blank(),
panel.grid = element_blank(),
axis.ticks = element_blank())

no_ylab = ylab("")
no_xlab = xlab("")

# From https://www.census.gov/geo/maps-data/data/cbf/cbf_state.html
layer = "cb_2014_us_state_5m", verbose = FALSE)

# Transform geographical coordinates to Lambert Azimuth Equal Area projection
us_aea = spTransform(us, CRS("+proj=laea +lat_0=45 +lon_0=-100 +x_0=0 +y_0=0 +a=6370997 +b=6370997 +units=m +no_defs"))
us_aea@data\$id = rownames(us_aea@data)

#Move Alaska (scaled down) and Hawaii

hawaii = us_aea[us_aea\$STATEFP=="15",]
hawaii = elide(hawaii, rotate=-35)
hawaii = elide(hawaii, shift=c(5400000, -1400000))
proj4string(hawaii) = proj4string(us_aea)

#Remove Alaska and Hawaii from base map and substitute transformed versions

us50 <- fortify(us_aea, region="STUSPS")
us50 = remove.territories(us50)

#plot

p = ggplot(data=us50) +
geom_map(map=us50, aes(x=long, y=lat, map_id=id, group=group), ,fill="white", color="dark grey", size=0.15) +
no_ylab +
no_xlab +
plain_theme
p
``````

I'm not sure what I'm missing my map does not look like the one in the tutorial:

• I wonder if you have checked this useful link. – jazzurro Sep 1 '15 at 23:12
• #ty @jazzurro :-) – hrbrmstr Sep 2 '15 at 1:27
• Nathan Yau has a nice base plot example in his (\$) subscription visualization series, too. – hrbrmstr Sep 2 '15 at 1:28
• thanks @jazzurro! – Ignacio Sep 2 '15 at 1:29
• @hrbrmstr I'm trying to make this work with `leaflet`. Do you know if there is an example somewhere? – Ignacio Sep 2 '15 at 1:32

This works:

``````remove.territories = function(.df) {
subset(.df,
.df\$id != "AS" &
.df\$id != "MP" &
.df\$id != "GU" &
.df\$id != "PR" &
.df\$id != "VI"
)
}

x = c("ggplot2", "rgdal", "maptools", "mapproj", "rgeos")
lapply(x, library, character.only = TRUE)
plain_theme = theme(axis.text=element_blank()) +
theme(panel.background = element_blank(),
panel.grid = element_blank(),
axis.ticks = element_blank())

no_ylab = ylab("")
no_xlab = xlab("")

layer = "cb_2014_us_state_5m", verbose = FALSE)

# convert it to Albers equal area
us_aea <- spTransform(us, CRS("+proj=laea +lat_0=45 +lon_0=-100 +x_0=0 +y_0=0 +a=6370997 +b=6370997 +units=m +no_defs"))
us_aea@data\$id <- rownames(us_aea@data)

# extract, then rotate, shrink & move alaska (and reset projection)
# need to use state IDs via # https://www.census.gov/geo/reference/ansi_statetables.html

# extract, then rotate & shift hawaii
hawaii <- us_aea[us_aea\$STATEFP=="15",]
hawaii <- elide(hawaii, rotate=-35)
hawaii <- elide(hawaii, shift=c(5400000, -1400000))
proj4string(hawaii) <- proj4string(us_aea)

# remove old states and put new ones back in; note the different order
# we're also removing puerto rico in this example but you can move it
# between texas and florida via similar methods to the ones we just used
us_aea <- us_aea[!us_aea\$STATEFP %in% c("02", "15", "72"),]
us50 <- fortify(us_aea, region="STUSPS")
us50 = remove.territories(us50)

#plot
p = ggplot(data=us50) +
geom_map(map=us50, aes(x=long, y=lat, map_id=id, group=group), ,fill="white", color="dark grey", size=0.15) +
no_ylab +
no_xlab +
plain_theme
p
``````

sources:

• interesting variable name choices @ignacio – hrbrmstr Sep 2 '15 at 1:27
• @hrbrmstr copy and paste from a couple of different tutorials – Ignacio Sep 2 '15 at 1:28

This codes generates the map with `leaflet`:

``````remove.territories = function(.df) {
subset(.df,
.df\$id != "AS" &
.df\$id != "MP" &
.df\$id != "GU" &
.df\$id != "PR" &
.df\$id != "VI"
)
}

x = c("leaflet", "rgdal", "maptools", "mapproj", "rgeos")
lapply(x, library, character.only = TRUE)

# From https://www.census.gov/geo/maps-data/data/cbf/cbf_state.html
layer = "cb_2014_us_state_5m", verbose = FALSE)

# convert it to Albers equal area
us_aea <- spTransform(us, CRS("+proj=laea +lat_0=45 +lon_0=-100 +x_0=0 +y_0=0 +a=6370997 +b=6370997 +units=m +no_defs"))
us_aea@data\$id <- rownames(us_aea@data)

# extract, then rotate, shrink & move alaska (and reset projection)
# need to use state IDs via # https://www.census.gov/geo/reference/ansi_statetables.html

# extract, then rotate & shift hawaii
hawaii <- us_aea[us_aea\$STATEFP=="15",]
hawaii <- elide(hawaii, rotate=-35)
hawaii <- elide(hawaii, shift=c(5400000, -1400000))
proj4string(hawaii) <- proj4string(us_aea)

# remove old states and put new ones back in; note the different order
# we're also removing puerto rico in this example but you can move it
# between texas and florida via similar methods to the ones we just used
us_aea <- us_aea[!us_aea\$STATEFP %in% c("02", "15", "72"),]
# transform data again
us_aea2 <- spTransform(us_aea, proj4string(us))
#Leaflet
map <- leaflet(us_aea2)
pal <- colorNumeric(
palette = "YlGnBu",
domain = us_aea2\$ALAND)
map %>%
stroke = FALSE, smoothFactor = 0.2, fillOpacity = 1,
color = ~ pal(ALAND)
) %>%
setView(lng = -98.579394, lat = 37, zoom = 4)
``````

My guess is that there is a more efficient way of doing this.

Update: you can now use the `fiftystater`package (available via both CRAN and GitHub) to do this.

Here's a quick tutorial from the package's author:

``````library(ggplot2)
library(fiftystater)

crimes <- data.frame(state = tolower(rownames(USArrests)), USArrests)

# map_id creates the aesthetic mapping to the state name column in your data
p <- ggplot(crimes, aes(map_id = state)) +
# map points to the fifty_states shape data
geom_map(aes(fill = Assault), map = fifty_states) +
expand_limits(x = fifty_states\$long, y = fifty_states\$lat) +
coord_map() +
scale_x_continuous(breaks = NULL) +
scale_y_continuous(breaks = NULL) +
labs(x = "", y = "") +
theme(legend.position = "bottom",
panel.background = element_blank())

p
``````

That code will produce this choropleth: