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I am trying to find the orthogonal distance between a set of location coordinates and a set of lines (roads or rivers). The set of points are in the form of latitude/longitude pairs, and the lines are in a shapefile (.shp). Plotting them on a map is not a problem, using either maptools or PBSmapping. But my basic problem is to find the minimum distance one has to travel from a location to reach a road or a river. Is there any way to do this in R?

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up vote 18 down vote accepted

If I understand correctly, you can do this simply enough with gDistance in the rgeos package.

Read in the lines as SpatialLines/DataFrame and points as SpatialPoints/DataFrame and then loop over each point calculating the distance each time:

## untested code
shortest.dists <- numeric(nrow(sp.pts))
for (i in seq_len(nrow(sp.pts)) {
    shortest.dists[i] <- gDistance(sp.pts[i,], sp.lns)

Here sp.pts is the Spatial points object, and sp.lns is the Spatial lines object.

You must loop so that you only compare a single coordinate in sp.pts with the entirety of all lines geometries in sp.lns, otherwise you get the distance from an aggregate value across all points.

Since your data are in latitude/longitude you should transform both the lines and points to a suitable projection since the gDistance function assumes Cartesian distance.


It would be neat to get the nearest point on the line/s rather than just the distance, but this opens another option which is whether you need the nearest coordinate along a line, or an actual intersection with a line segment that is closer than any existing vertex. If your vertices are dense enough that the difference doesn't matter, then use spDistsN1 in the sp package. You'd have to extract all the coordinates from every line in the set (not hard, but a bit ugly) and then loop over each point of interest calculating the distance to the line vertices - then you can find which is the shortest and select that coordinate from the set of vertices, so you can have the distance and the coordinate easily. There's no need to project either since the function can use ellipsoidal distances with longlat = TRUE argument.


## simple global data set, which we coerce to Lines

wrld_lines <- as(wrld_simpl, "SpatialLinesDataFrame")

## get every coordinate as a simple matrix (scary but quick)
wrld_coords <-"rbind", lapply(wrld_lines@lines, function(x1)"rbind", lapply(x1@Lines, function(x2) x2@coords[-nrow(x2@coords), ]))))

Check it out interactively, you'll have to modify this to save the coords or minimum distances. This will plot up the lines and wait for you to click anywhere in the plot, then it will draw a line from your click to the nearest vertex on a line.

## no out of bounds clicking . . .
par(mar = c(0, 0, 0, 0), xaxs = "i", yaxs = "i") 

plot(wrld_lines, asp = "")

n <- 5

for (i in seq_len(n)) {
xy <- matrix(unlist(locator(1)), ncol = 2)
    all.dists <- spDistsN1(wrld_coords, xy, longlat = TRUE)
    min.index <- which.min(all.dists)
    points(xy, pch = "X")
lines(rbind(xy, wrld_coords[min.index, , drop = FALSE]), col = "green", lwd = 2)
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Nice and informative answer. Thanks for that. It looks like rgeos doesn't have any function that returns the (or a) closest location. Do you happen to have a suggestion for a function that does? It looks like project2segment() in spatstat does this, but it unfortunately doesn't use sp class objects, which would be handier... – Josh O'Brien Mar 20 '12 at 6:57
I'll update, I was thinking about this more and there are a few subtleties. – mdsumner Mar 20 '12 at 7:08
converting between spatstat and sp is not hard, there are coercion tools in maptools, such as spst <- as.psp(wrld_lines) – mdsumner Mar 20 '12 at 12:02
Awesome demo in your "MORE DISCUSSION" section. I hope everyone with any interest in this takes a minute to run that code. Also, thanks for the pointer to the full suite of sp -> spatstat -> sp conversion tools in the maptools package. – Josh O'Brien Mar 20 '12 at 13:00
mdsumner... truly, TRULY ingenious. Many thanks. This has to be one of the most original ideas ever on stackoverflow. – user702432 Mar 21 '12 at 6:55

The geosphere package has the dist2line function that does this for lon/lat data. It can use Spatial* objects or matrices.

line <- rbind(c(-180,-20), c(-150,-10), c(-140,55), c(10, 0), c(-140,-60))
pnts <- rbind(c(-170,0), c(-75,0), c(-70,-10), c(-80,20), c(-100,-50), 
         c(-100,-60), c(-100,-40), c(-100,-20), c(-100,-10), c(-100,0))
d <- dist2Line(pnts, line)

Illustration of the results

plot( makeLine(line), type='l')
points(pnts, col='blue', pch=20)
points(d[,2], d[,3], col='red', pch='x')
for (i in 1:nrow(d)) lines(gcIntermediate(pnts[i,], d[i,2:3], 10), lwd=2)
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