# Check if sf geometry is contiguous in R

Is there any way to check if a simple features geometry is contiguous in R? I'm creating some maps with ggplot2, which works fine with single-polygon contiguous units, in other words, countries with no islands or far-off territories. For example, Latvia works fine:

But Portugal gets messy:

And countries with far-off territories are a disaster (this is the Netherlands):

I'm guessing this is a problem with filtering the geometries for non-contiguous parts and then filling them separately. Is there a function somewhere that does this?

## Edit with example of Portugal

``````library(rnaturalearth)
library(rnaturalearthhires)
library(dplyr)
library(purrr)
library(tidyr)
library(scales)
library(magrittr)
library(png)
# > packageVersion("ggplot2")
# [1] ‘2.2.1.9000’
#devtools::install_github("tidyverse/ggplot2")
library(ggplot2)
library(sf)
library(sp)

############ flag_fill function #############
flag_fill <- function(df){
# establish boundaries; rescale to boundaries; filter into polygon
# df must have columns 'geometry' and 'flag_image'
df <- as_data_frame(df) %>% st_as_sf()

# establish bounding boxes
xmin <- map(df\$geometry, st_bbox) %>% map_dbl("xmin")
xmax <- map(df\$geometry, st_bbox) %>% map_dbl("xmax")
ymin <- map(df\$geometry, st_bbox) %>% map_dbl("ymin")
ymax <- map(df\$geometry, st_bbox) %>% map_dbl("ymax")

# check for alpha value
alpha_check <- function(flag_image){
if(dim(flag_image)[3] > 3) hasalpha <- TRUE else hasalpha <- FALSE
}
alph <- map_lgl(df\$flag_image, alpha_check)

# matrix of colours
NumRow <- map_dbl(df\$flag_image, function(x) dim(x)[1])
NumCol <- map_dbl(df\$flag_image, function(x) dim(x)[2])
matrixList <- vector("list", nrow(df))
matrixList <- mapply(matrix, matrixList, data = "#00000000",
nrow = NumRow, ncol = NumCol, byrow = FALSE)

matrixList <- map2(df\$flag_image, alph, function(x, y) {
rgb(x[,,1], x[,,2], x[,,3],
ifelse(y, x[,,4], 1)
) %>%
matrix(ncol = dim(x)[2], nrow = dim(x)[1])
})

df_func <- function(DF){
suppressWarnings(
DF <- DF %>%
set_colnames(value = 1:ncol(.)) %>%
mutate(Y = nrow(.):1) %>%
gather(X, color, -Y) %>%
select(X, Y, color) %>%
mutate(X = as.integer(X))
)
return(DF)
}

matrixList <- map(matrixList, as.data.frame)
matrixList <- map(matrixList, df_func)
# resize
for(m in 1:length(matrixList)){
matrixList[[m]]\$X <- rescale(matrixList[[m]]\$X,
to = c(xmin[[m]], xmax[[m]]))
matrixList[[m]]\$Y <- rescale(matrixList[[m]]\$Y,
to = c(ymin[[m]], ymax[[m]]))
}

# filter into polygon
latlonList <- map(df\$geometry, st_coordinates)
for(ll in 1:length(latlonList)){
latlonList[[ll]] <- latlonList[[ll]][, 1:2]
}
poly_check <- function(x, y){
x <- x[point.in.polygon(x\$X, x\$Y,
y[, 1],
y[, 2]
) %>%
as.logical, ]
return(x)
}
matrixList <- Map(poly_check, matrixList, latlonList)

# put back in dataframe:
df <- df %>%
mutate(latlon = latlonList, plot_image = matrixList)

return(df)
}

######## flag_plot function #############
flag_plot <- function(df){
# takes a dataframe with column 'state' for country or state,
# and plot_image, the result of flag_fill(), as well as 'color',
# also the result of flag_fill()
p <- ggplot()
df_list <- unique(df\$state)
for (i in seq_along(df_list)){
DF <- df\$plot_image[[i]]
p <- p + geom_tile(data = DF,
aes(x = X, y = Y),
fill = DF\$color)
}
p + xlab(NULL) + ylab(NULL) +
geom_sf(data = df, size = .2, alpha = 0.01) +
theme(panel.background = element_blank(),
panel.border = element_blank(),
axis.text = element_blank(),
panel.grid.major = element_line(colour = "white"), # hack from
#https://github.com/tidyverse/ggplot2/issues/2071
axis.ticks = element_blank(),
axis.line = element_blank())
}

######## data #########
globe <- countries10 %>% st_as_sf() %>%
filter(!is.na(ISO_A2)) %>%
select(state = SUBUNIT, iso = ISO_A2, continent = CONTINENT,
region = SUBREGION, geometry) %>%
mutate(iso = tolower(iso))

####### images #########
# using png image 250px as working directory
country_list <- dir() %>% gsub("\\.png", '', .) %>%
.[which(!. %in% globe\$iso)] %>% as_data_frame() %>% rename(iso = value)
globe <- left_join(globe, country_list) %>%
mutate(flag_image = list(array(NA, c(1, 1, 3))))
flags <- paste0(globe\$iso, ".png")
for(i in 1:nrow(globe)){
}

######## plot:
globe %>% filter(state %in% c("Portugal")) %>%
flag_fill() %>%
flag_plot()
``````

The problem is not in `sf`, but in `geom_tile()`. When we have islands, we have many polygons, but this code is treating them as one single polygon.

You can fix that storing the group column in the `latlonList`

``````for(ll in 1:length(latlonList)){
latlonList[[ll]] <- latlonList[[ll]][, c(1, 2, 4)]
}
``````

and the `poly_check()` function to calculate the point in polygon inside the groups

``````  poly_check <- function(x, y) {

island_list <- y %>%
as_tibble() %>%
group_by(L2) %>%
nest() %>%
pull(data)

lists <- map(island_list, ~{
y <- as.matrix(.x)
x[point.in.polygon(x\$X, x\$Y, y[, 1], y[, 2]) %>% as.logical, ]
})
bind_rows(lists, .id = ".id")
}
``````

(I think this function can be simplified using `do()`.

Finally, we need do add `group = .id` inside the `geom_tile()` function.

``````  for (i in seq_along(df_list)){
DF <- df\$plot_image[[i]]
p <- p + geom_tile(data = DF, aes(x = X, y = Y, group = .id),
fill = DF\$color)
}
``````

The complete code is here

``````library(rnaturalearth)
library(rnaturalearthhires)
library(dplyr)
library(purrr)
library(tidyr)
library(scales)
library(magrittr)
library(png)
# > packageVersion("ggplot2")
# [1] ‘2.2.1.9000’
#devtools::install_github("tidyverse/ggplot2")
library(ggplot2)
library(sf)
library(sp)

############ flag_fill function #############
flag_fill <- function(df){

# establish boundaries; rescale to boundaries; filter into polygon
# df must have columns 'geometry' and 'flag_image'
df <- as_data_frame(df) %>% st_as_sf()

# establish bounding boxes
xmin <- map(df\$geometry, st_bbox) %>% map_dbl("xmin")
xmax <- map(df\$geometry, st_bbox) %>% map_dbl("xmax")
ymin <- map(df\$geometry, st_bbox) %>% map_dbl("ymin")
ymax <- map(df\$geometry, st_bbox) %>% map_dbl("ymax")

# check for alpha value
alpha_check <- function(flag_image){
if(dim(flag_image)[3] > 3) hasalpha <- TRUE else hasalpha <- FALSE
}
alph <- map_lgl(df\$flag_image, alpha_check)

# matrix of colours
NumRow <- map_dbl(df\$flag_image, function(x) dim(x)[1])
NumCol <- map_dbl(df\$flag_image, function(x) dim(x)[2])
matrixList <- vector("list", nrow(df))
matrixList <- mapply(matrix, matrixList, data = "#00000000",
nrow = NumRow, ncol = NumCol, byrow = FALSE)

matrixList <- map2(df\$flag_image, alph, function(x, y) {
rgb(x[,,1], x[,,2], x[,,3], ifelse(y, x[,,4], 1)) %>%
matrix(ncol = dim(x)[2], nrow = dim(x)[1])
})

df_func <- function(DF){
suppressWarnings(
DF <- DF %>%
set_colnames(value = 1:ncol(.)) %>%
mutate(Y = nrow(.):1) %>%
gather(X, color, -Y) %>%
select(X, Y, color) %>%
mutate(X = as.integer(X))
)
return(DF)
}

matrixList <- map(matrixList, as.data.frame)
matrixList <- map(matrixList, df_func)
# resize
for(m in 1:length(matrixList)){
matrixList[[m]]\$X <- rescale(matrixList[[m]]\$X, to = c(xmin[[m]], xmax[[m]]))
matrixList[[m]]\$Y <- rescale(matrixList[[m]]\$Y, to = c(ymin[[m]], ymax[[m]]))
}

# filter into polygon
latlonList <- map(df\$geometry, st_coordinates)

for(ll in 1:length(latlonList)){
latlonList[[ll]] <- latlonList[[ll]][, c(1, 2, 4)]
}
poly_check <- function(x, y) {

island_list <- y %>%
as_tibble() %>%
group_by(L2) %>%
nest() %>%
pull(data)

lists <- map(island_list, ~{
y <- as.matrix(.x)
x[point.in.polygon(x\$X, x\$Y, y[, 1], y[, 2]) %>% as.logical, ]
})
bind_rows(lists, .id = ".id")
}
matrixList <- Map(poly_check, matrixList, latlonList)

# put back in dataframe:
df <- df %>%
mutate(latlon = latlonList, plot_image = matrixList)

return(df)
}

######## flag_plot function #############
flag_plot <- function(df){
# takes a dataframe with column 'state' for country or state,
# and plot_image, the result of flag_fill(), as well as 'color',
# also the result of flag_fill()

p <- ggplot()
df_list <- unique(df\$state)

for (i in seq_along(df_list)){
DF <- df\$plot_image[[i]]
p <- p + geom_tile(data = DF, aes(x = X, y = Y, group = .id),
fill = DF\$color)
}

p + xlab(NULL) + ylab(NULL) +
geom_sf(data = df, size = .2, alpha = 0.01) +
theme(panel.background = element_blank(),
panel.border = element_blank(),
axis.text = element_blank(),
panel.grid.major = element_line(colour = "white"), # hack from
#https://github.com/tidyverse/ggplot2/issues/2071
axis.ticks = element_blank(),
axis.line = element_blank())
}

######## data #########
globe <- countries10 %>%
st_as_sf() %>%
filter(!is.na(ISO_A2)) %>%
select(state = SUBUNIT, iso = ISO_A2, continent = CONTINENT,
region = SUBREGION, geometry) %>%
mutate(iso = tolower(iso))

####### images #########
# using png image 250px as working directory
country_list <- dir() %>%
gsub("\\.png", '', .) %>%
.[which(!. %in% globe\$iso)] %>%
as_data_frame() %>%
rename(iso = value)
globe <- left_join(globe, country_list) %>%
mutate(flag_image = list(array(NA, c(1, 1, 3))))
flags <- paste0(globe\$iso, ".png")
for(i in 1:nrow(globe)) {