# R - How to find points within specific Contour

I am creating density plots with kde2d (MASS) on lat and lon data. I would like to know which points from the original data are within a specific contour.

I create 90% and 50% contours using two approaches. I want to know which points are within the 90% contour and which points are within the 50% contour. The points in the 90% contour will contain all of those within the 50% contour. The final step is to find the points within the 90% contour that are not within the 50% contour (I do not necessarily need help with this step).

# bw = data of 2 cols (lat and lon) and 363 rows
# two versions to do this:
# would ideally like to use the second version (with ggplot2)

# version 1 (without ggplot2)
library(MASS)
x <- bw$lon y <- bw$lat
dens <- kde2d(x, y, n=200)

# the contours to plot
prob <- c(0.9, 0.5)
dx <- diff(dens$x[1:2]) dy <- diff(dens$y[1:2])
sz <- sort(dens$z) c1 <- cumsum(sz) * dx * dy levels <- sapply(prob, function(x) { approx(c1, sz, xout = 1 - x)$y
})
plot(x,y)


And here is version 2 - using ggplot2. I would ideally like to use this version to find the points within the 90% and 50% contours.

# version 2 (with ggplot2)
getLevel <- function(x,y,prob) {
kk <- MASS::kde2d(x,y)
dx <- diff(kk$x[1:2]) dy <- diff(kk$y[1:2])
sz <- sort(kk$z) c1 <- cumsum(sz) * dx * dy approx(c1, sz, xout = 1 - prob)$y
}

# 90 and 50% contours
L90 <- getLevel(bw$lon, bw$lat, 0.9)
L50 <- getLevel(bw$lon, bw$lat, 0.5)

kk <- MASS::kde2d(bw$lon, bw$lat)
dimnames(kk$z) <- list(kk$x, kk$y) dc <- melt(kk$z)

p <- ggplot(dc, aes(x=Var1, y=Var2)) + geom_tile(aes(fill=value))
+ geom_contour(aes(z=value), breaks=L90, colour="red")
+ geom_contour(aes(z=value), breaks=L50, color="yellow")
+ ggtitle("90 (red) and 50 (yellow) contours of BW")


I create the plots with all of the lat and lon points plotted and 90% and 50% contours. I simply want to know how to extract the exact points that are within the 90% and 50% contours.

I have tried to find the z values (the elevation of the density plots from kde2d) that are associated with each row of lat and lon values but had no luck. I was also thinking I could add an ID column to the data to label each row and then somehow transfer that over after using melt(). Then I could simply subset the data that has values of z that match each contour I want and see which lat and lon they are compared to the original BW data based on the ID column.

Here is a picture of what I am talking about: I want to know which red points are within the 50% contour (blue) and which are within the 90% contour (red).

Note: much of this code is from other questions. Big shout-out to all those who contributed!

Thank you!

• When you say "within the 90% and 50% contours" do you mean you want to know the lat/lon of all points for which the z-value is greater than 90% or 50% of all of the z values? – eipi10 May 28 '15 at 21:23
• Edited in question - I want to find the red points that are within the 2 contour 'circles'. – squishy May 28 '15 at 21:26

You can use point.in.polygon from sp

## Interactively check points
plot(bw)
identify(bw$lon, bw$lat, labels=paste("(", round(bw$lon,2), ",", round(bw$lat,2), ")"))

## Points within polygons
library(sp)
dens <- kde2d(x, y, n=200, lims=c(c(-73, -70), c(-13, -12)))  # don't clip the contour
ls <- contourLines(dens, level=levels)
inner <- point.in.polygon(bw$lon, bw$lat, ls[]$x, ls[]$y)
out <- point.in.polygon(bw$lon, bw$lat, ls[]$x, ls[]$y)

## Plot
bw$region <- factor(inner + out) plot(lat ~ lon, col=region, data=bw, pch=15) contour(dens, levels=levels, labels=prob, add=T) • Awesome! Simple and to the point. The answer is so obvious now with point.in.polygon. Super informative. – squishy May 29 '15 at 1:17 • @jenesaisquoi,if I want to use the code to find whether a new pair of points falls within a 95% contour, what would I need to do? – user1560215 Mar 10 '17 at 14:10 I think this is the best way I can think of. This uses a trick to convert the contour lines to SpatialLinesDataFrame objects using the ContourLines2SLDF() function from the maptools package. Then I use a trick outlined in Bivand, et al.'s Applied Spatial Data Analysis with R for converting the SpatialLinesDataFrame object to SpatialPolygons. These can then be used with the over() function to extract points within each contour polygon: ## Simulate some lat/lon data: x <- rnorm(363, 45, 10) y <- rnorm(363, 45, 10) ## Version 1 (without ggplot2): library(MASS) dens <- kde2d(x, y, n=200) ## The contours to plot: prob <- c(0.9, 0.5) dx <- diff(dens$x[1:2])
dy <- diff(dens$y[1:2]) sz <- sort(dens$z)
c1 <- cumsum(sz) * dx * dy
levels <- sapply(prob, function(x) {
approx(c1, sz, xout = 1 - x)$y }) plot(x,y) contour(dens, levels=levels, labels=prob, add=T) ## Create spatial objects: library(sp) library(maptools) pts <- SpatialPoints(cbind(x,y)) lines <- ContourLines2SLDF(contourLines(dens, levels=levels)) ## Convert SpatialLinesDataFrame to SpatialPolygons: lns <- slot(lines, "lines") polys <- SpatialPolygons( lapply(lns, function(x) { Polygons(list(Polygon(slot(slot(x, "Lines")[], "coords"))), ID=slot(x, "ID")) })) ## Construct plot from your points, plot(pts) ## Plot points within contours by using the over() function: points(pts[!is.na( over(pts, polys) )], col="red", pch=20) points(pts[!is.na( over(pts, polys) )], col="blue", pch=20) contour(dens, levels=levels, labels=prob, add=T) • Awesome! Thanks for all of the additional information. I am going to have to accept 6pool's answer because it was a bit more direct. However, your answer gave me a ton of insight into all sorts of new possibilities! :) – squishy May 29 '15 at 1:16 • Hi, I am trying to replicate the above code. Could someone explain what this is doing? dx <- diff(dens$x[1:2]) dy <- diff(dens$y[1:2]) sz <- sort(dens$z) c1 <- cumsum(sz) * dx * dy levels <- sapply(prob, function(x) { approx(c1, sz, xout = 1 - x)\$y }) – user1560215 Jul 6 '15 at 20:53
• The code is extracting out the points in the contour grid levels that correspond to the supplied values in the prob vector. Look at the documentation of the kde2d() function and the data structure of dens for a clue as to what's going on. Basically you're looking at the differenced vectors in the X/Y directions and the cumulative sum of Z values to find the grid values that correspond to the appropriate percentiles. – Forrest R. Stevens Jul 6 '15 at 21:05
• So if I wanted to get points which are in the 90% contour but not in 50% contour should out-inner give the results? – user1560215 Jul 8 '15 at 4:02
• I'm confused a bit... The over() function gives you everything you'd need? To calculate those points within a certain band (say between the 0.5 and 0.9 contours) then you could do something like the following: pts[!is.na( over(pts, polys) ) & is.na( over(pts, polys) )] Hopefully I'm understanding your question? – Forrest R. Stevens Jul 8 '15 at 5:58