Skip to content

Data sources¤

Rasters.jl uses a number of backends to load raster data. Raster, RasterStack and RasterSeries will detect which backend to use for you, automatically.

GRD¤

R GRD files can be loaded natively, using Julias MMap - which means they are very fast, but are not compressed. They are always 3 dimensional, and have Y, X and Band dimensions.

NetCDF¤

NetCDF .nc files are loaded using NCDatasets.jl. Layers from files can be loaded as Raster("filename.nc"; key=:layername). Without key the first layer is used. RasterStack("filename.nc") will use all netcdf variables in the file that are not dimensions as layers.

NetCDF layers can have arbitrary dimensions. Known, common dimension names are converted to X, Y Z, and Ti, otherwise Dim{:layername} is used. Layers in the same file may also have different dimensions.

NetCDF files still have issues loading directly from disk for some operations. Using read(ncstack) may help.

GDAL¤

All files GDAL can access, such as .tiff and .asc files, can be loaded, using ArchGDAL.jl. These are generally best loaded as Raster("filename.tif"), but can be loaded as RasterStack("filename.tif"; layersfrom=Band), taking layers from the Band dimension, which is also the default.

SMAP¤

The Soil Moisture Active-Passive dataset provides global layers of soil moisture, temperature and other related data, in a custom HDF5 format. Layers are always 2 dimensional, with Y and X dimensions.

These can be loaded as multi-layered RasterStack("filename.h5"). Individual layers can be loaded as Raster("filename.h5"; key=:layerkey), without key the first layer is used.

Missing docstring.

Missing docstring for smapseries. Check Documenter's build log for details.

Writing file formats to disk¤

Files can be written to disk in all formats other than SMAP HDF5 using write("filename.ext", A). See the docs for write. They can (with some caveats) be written to different formats than they were loaded in as, providing file-type conversion for spatial data.

Some metadata may be lost in formats that store little metadata, or where metadata conversion has not been completely implemented.

RasterDataSources.jl integration¤

RasterDataSources.jl standardises the download of common raster data sources, with a focus on datasets used in ecology and the environmental sciences. RasterDataSources.jl is tightly integrated into Rasters.jl, so that datsets and keywords can be used directly to download and load data as a Raster, RasterStack, or RasterSeries.

using Rasters, CairoMakie, Dates
using RasterDataSources
A = Raster(WorldClim{Climate}, :tavg; month=June)
Makie.plot(A)

See the docs for Raster, RasterStack and RasterSeries, and the docs for RasterDataSources.getraster for syntax to specify various data sources.

This page was generated using Literate.jl.