The distanceto
package is designed to quickly sample distances from points features to other vector layers. Normally the approach for calculating distance to (something) involves generating distance surfaces using raster based approaches eg. raster::distance
or gdal_proximity
and subsequently point sampling these surfaces. Since raster based approaches are a costly method that frequently leads to memory issues or long and slow run times with high resolution data or large study sites, we have opted to compute these distances using vector based approaches. As a helper, there’s a decidedly low-res raster based approach for visually inspecting your region’s distance surface. But the workhorse is distance_to
. See the Example.
install.packages('distanceto', repos = 'https://robitalec.r-universe.dev')
## Linking to GEOS 3.9.1, GDAL 3.2.3, PROJ 8.0.1
# Load nc data
nc <- st_read(system.file("shapes/sids.shp", package="spData"))
## Reading layer `sids' from data source
## `/home/alecr/R/x86_64-pc-linux-gnu-library/4.1/spData/shapes/sids.shp'
## using driver `ESRI Shapefile'
## Simple feature collection with 100 features and 22 fields
## Geometry type: MULTIPOLYGON
## Dimension: XY
## Bounding box: xmin: -84.32385 ymin: 33.88199 xmax: -75.45698 ymax: 36.58965
## CRS: NA
st_crs(nc) <- "+proj=longlat +datum=NAD27"
# Set number of sampling points
npts <- 1e3
# Sample points in nc
ncpts <- st_sample(nc, npts)
# Select first 5 of nc
ncsub <- nc[1:5,]
# Measure distance from ncpts to first 5 of nc, printing result
dists <- distance_to(ncpts, ncsub, measure = 'geodesic')
head(dists, 30)
## [1] 79851.44 87188.74 192377.82 171686.56 33223.37 153264.43 84889.23
## [8] 164695.39 216864.40 18577.61 80896.37 128905.58 143141.38 22487.21
## [15] 0.00 214936.25 187577.76 58380.75 70774.74 225874.91 102702.77
## [22] 10444.36 111423.41 0.00 16081.69 39784.13 231695.98 140684.71
## [29] 93868.72 17832.23
# Add to ncpts
ncpts$dist <- dists
nngeo::st_nn
gdal_proximity
raster::distance