Change the coordinate reference system ("project") of a SpatVector, SpatRaster or a matrix with coordinates.
# S4 method for SpatVector
project(x, y, partial = FALSE)# S4 method for SpatRaster
project(x, y, method, mask=FALSE, align=FALSE, res=NULL,
origin=NULL, threads=FALSE, filename="", ..., use_gdal=TRUE, by_util = FALSE)
# S4 method for SpatExtent
project(x, from, to)
# S4 method for matrix
project(x, from, to)
SpatVector or SpatRaster
SpatRaster, SpatVector, SpatExtent or matrix (with x and y columns) whose coordinates to project
if (x is a SpatRaster, the preferred approach is for y to be a SpatRaster as well, serving as a template for the geometry (extent and resolution) of the output SpatRaster. Alternatively, you can provide a coordinate reference system (CRS) description.
You can use the following formats to define coordinate reference systems: WKT, PROJ.4 (e.g., +proj=longlat +datum=WGS84), or an EPSG code (e.g., "epsg:4326"). But note that the PROJ.4 notation has been deprecated, and you can only use it with the WGS84/NAD83 and NAD27 datums. Other datums are silently ignored.
If x is a SpatVector, you can provide a crs definition as discussed above, or any other object from which such a crs can be extracted with crs
logical. If TRUE, geometries that can only partially be represented in the output crs are included in the output
character. Method used for estimating the new cell values of a SpatRaster. One of:
near: nearest neighbor. This method is fast, and it can be the preferred method if the cell values represent classes. It is not a good choice for continuous values. This is used by default if the first layer of x is categorical.
bilinear: bilinear interpolation. This is the default if the first layer of x is numeric (not categorical).
cubic: cubic interpolation.
cubicspline: cubic spline interpolation.
lanczos: Lanczos windowed sinc resampling.
sum: the weighted sum of all non-NA contributing grid cells.
min, q1, med, q3, max, average, mode, rms: the minimum, first quartile, median, third quartile, maximum, mean, mode, or root-mean-square value of all non-NA contributing grid cells.
logical. If TRUE, mask out areas outside the input extent. For example to avoid data wrapping around the date-line (see example with Robinson projection). To remove cells that are NA in y (if y is a SpatRaster) you can use the mask method after calling project (this function)
logical. If TRUE, and y is a SpatRaster, the template is used for the spatial resolution and origin, but the extent is set such that all of the extent of x is included
numeric. Can be used to set the resolution of the output raster if y is a CRS
numeric. Can be used to set the origin of the output raster if y is a CRS
logical. If TRUE multiple threads are used (faster for large files)
character. Output filename
additional arguments for writing files as in writeRaster
logical. If TRUE the GDAL-warp algorithm is used. Otherwise a slower internal algorithm is used that may be more accurate if there is much variation in the cell sizes of the output raster. Only the near and bilinear algorithms are available for the internal algorithm
logical. If TRUE and gdal=TRUE, the GDAL warp utility is used
character. Coordinate reference system of x
character. Output coordinate reference system
crs, resample
## SpatRaster
a <- rast(ncols=40, nrows=40, xmin=-110, xmax=-90, ymin=40, ymax=60,
crs="+proj=longlat +datum=WGS84")
values(a) <- 1:ncell(a)
newcrs="+proj=lcc +lat_1=48 +lat_2=33 +lon_0=-100 +datum=WGS84"
b <- rast(ncols=94, nrows=124, xmin=-944881, xmax=935118, ymin=4664377, ymax=7144377, crs=newcrs)
w <- project(a, b)
## SpatVector
f <- system.file("ex/lux.shp", package="terra")
v <- vect(f)
crs(v, proj=TRUE)
cat(crs(v), "\n")
project(v, "+proj=moll")
project(v, "EPSG:2169")
Run the code above in your browser using DataLab