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wbt()
method: call ‘Whitebox’
tools by namewbt()
The wbt()
method is a high-level wrapper function to
manage flow of information between R and WhiteboxTools. With
wbt()
one can run sequential analyses in Whitebox while
having R prepare inputs, generate commands, and visualize results.
Know what tool you want to run but can’t remember the required
parameters? Just type wbt("toolname")
wbt("slope")
#> Required arguments:
#> - [ ] dem -- Input raster DEM file.
#> - [ ] output -- Output raster file.
#>
#> Optional arguments:
#> - [ ] zfactor -- Optional multiplier for when the vertical and horizontal units are not the same.
#> - [ ] units -- Units of output raster; options include 'degrees', 'radians', 'percent'
#> <wbt_result>
#> No parameters (Slope)
#>
#> Slope ERROR: 'dem', 'output' required
Output produced on error and with invalid arguments helps guide use interactively by prompting with required and optional arguments as a checklist.
All calls to wbt()
return an S3 object with class
wbt_result
.
# get file path of sample DEM
dem <- sample_dem_data()
wbt("slope", dem = dem, output = file.path(tempdir(), "slope.tif"))
#> Slope - Elapsed Time (excluding I/O): 0.13s
#> <wbt_result>
#> --- PARAMETERS (Slope) ---
#> dem : '/tmp/Rtmp5srhl0/Rinst1cbca81a9b21/whitebox/extdata/DEM.tif'
#> output : '/tmp/RtmpsDUR6u/slope.tif'
#> --- RESULT ---
#> $output
#> File result: //tmp/RtmpsDUR6u/slope.tif exists (Last modified: 2024-05-26 17:10:48.209155)
Whether a system call succeeds or fails the parameters that were passed to the WhiteboxTools executable and references to any output file paths that were specified are returned. If output files reference spatial data (e.g. a GeoTIFF file) they may be converted to a file-based R object providing information about the result.
wbt("slope", goof = dem, output = file.path(tempdir(), "slope.tif"))
#> Error: invalid parameter 'goof'
#> Required arguments:
#> - [ ] dem -- Input raster DEM file.
#> - [*] output -- Output raster file.
#>
#> Optional arguments:
#> - [ ] zfactor -- Optional multiplier for when the vertical and horizontal units are not the same.
#> - [ ] units -- Units of output raster; options include 'degrees', 'radians', 'percent'
#> <wbt_result>
#> --- PARAMETERS (Slope) ---
#> goof : '/tmp/Rtmp5srhl0/Rinst1cbca81a9b21/whitebox/extdata/DEM.tif'
#> output : '/tmp/RtmpsDUR6u/slope.tif'
#>
#> Slope ERROR: 'goof' invalid; 'dem' required
When a call fails an informative error message issued, and the error will be cached inside the result. Prior runs references are stored as well for sequential tool runs; more on that below.
wbt_result
classA wbt_result
class object is a base R
list()
with standard element names ("tool"
,
"args"
, "stdout"
, "crs"
,
"result"
, "history"
) and the
"class"
attribute "wbt_result"
.
str(wbt("slope", dem = dem, output = file.path(tempdir(), "slope.tif")), max.level = 1)
#> Slope - Elapsed Time (excluding I/O): 0.12s
#> List of 6
#> $ tool : chr "Slope"
#> $ args : chr "--dem=/tmp/Rtmp5srhl0/Rinst1cbca81a9b21/whitebox/extdata/DEM.tif --output=/tmp/RtmpsDUR6u/slope.tif"
#> $ stdout : chr "Slope - Elapsed Time (excluding I/O): 0.12s"
#> $ crs : chr ""
#> ..- attr(*, "package")= Named chr ""
#> .. ..- attr(*, "names")= chr "dem"
#> $ result :List of 1
#> $ history:List of 1
#> - attr(*, "class")= chr "wbt_result"
Any output
produced by the tool (usually file paths set
by the user) will be included in the wbt_result$result
list.
wbt_result
on errorIf there is an error a try-error
class object with an
error message is returned in lieu of a list in $result
# on error there is a try-error object in $result
x <- wbt("slope")
#> Required arguments:
#> - [ ] dem -- Input raster DEM file.
#> - [ ] output -- Output raster file.
#>
#> Optional arguments:
#> - [ ] zfactor -- Optional multiplier for when the vertical and horizontal units are not the same.
#> - [ ] units -- Units of output raster; options include 'degrees', 'radians', 'percent'
We now will cover how the wbt()
method and
wbt_result
class can be used for the following:
Input and Output with R spatial objects
Running Sequences of Tools (optionally: with pipe
|>
or %>%
)
Handling Coordinate Reference Systems
A feature of wbt()
is that it handles input/output and
file name management if you are using R objects as input. It can be an
onerous task to manage files for workflows involving many tool runs.
If you use a terra
object as input, you will get a
SpatRaster
. If you use a raster
object as your
input object frontend, you will get a RasterLayer
object as
output for tools that produce a raster. There will be file paths
associated with that R object.
raster
and terra
as R raster
object frontendsif (requireNamespace("raster")) {
rdem <- raster::raster(dem)
# raster input; raster output
r1 <- wbt("slope", dem = rdem, output = file.path(tempdir(), "slope.tif"))
r1
class(r1$result$output)
}
#> Loading required namespace: raster
#> Slope - Elapsed Time (excluding I/O): 0.14s
#> [1] "RasterLayer"
#> attr(,"package")
#> [1] "raster"
tdem <- terra::rast(dem)
## terra input; terra output
t1 <- wbt("slope", dem = tdem, output = file.path(tempdir(), "slope.tif"))
#> Slope - Elapsed Time (excluding I/O): 0.12s
t1
#> <wbt_result>
#> --- PARAMETERS (Slope) ---
#> dem : '/tmp/Rtmp5srhl0/Rbuild1cbcad2c685a/whitebox/vignettes/file1cc0c3e5c9f9c.tif'
#> output : '/tmp/RtmpsDUR6u/slope.tif'
#> --- RESULT ---
#> $output
#> class : SpatRaster
#> dimensions : 188, 237, 1 (nrow, ncol, nlyr)
#> resolution : 90, 90 (x, y)
#> extent : 664692, 686022, 4878904, 4895824 (xmin, xmax, ymin, ymax)
#> coord. ref. : NAD83 / UTM zone 18N (EPSG:26918)
#> source : slope.tif
#> name : slope
The user still needs to specify paths but wbt()
eases
the process of converting input objects to paths and reading output
paths to R objects after the tool has run. In principle any R object
that references a file with type that Whitebox supports can be handled
under the current (simple; proof of concept) system. Using file-based
representations may not be the most efficient, but allows for a tangible
trail of the steps in a workflow to be followed that otherwise might be
hard to track.
wbt_source()
: rasters in memory, and vector dataThe terra and raster packages use pointers to a file/raster
connection except when a grid is entirely in memory. Processing these
types of rasters with whitebox requires writing out as a temporary
GeoTIFF file for tool input. In general wbt()
can handle
this for you.
Vector data (point, line and polygon geometries) are commonly stored stored in sf data.frames, sp objects, or terra SpatVector objects. These types are read into memory on creation.
Reading vector data into R memory is not needed to run Whitebox
tools, so wbt_source()
provides a means to annotate objects
with information about source file path (similar to how terra/raster
handle raster sources) such that they can be processed further by
wbt()
with minimal overhead. Objects like the terra
SpatVectorProxy use delayed read by default. Passing a file path to
wbt_source()
will create a SpatVectorProxy with necessary
information for use with wbt()
.
For instance, we can create a reference for a sample ESRI Shapefile
via wbt_source()
. The result is a SpatVectorProxy.
library(terra)
shp <- system.file("ex/lux.shp", package = "terra")
x <- wbt_source(shp)
x
#> class : SpatVectorProxy
#> geometry : polygons
#> dimensions : 12, 6 (geometries, attributes)
#> extent : 5.74414, 6.528252, 49.44781, 50.18162 (xmin, xmax, ymin, ymax)
#> source : lux.shp
#> coord. ref. : lon/lat WGS 84 (EPSG:4326)
#> names : ID_1 NAME_1 ID_2 NAME_2 AREA POP
#> type : <num> <chr> <num> <chr> <num> <int>
The SpatVectorProxy provides a light-weight means to create an R object reference to a large file; allowing the “heavy” lifting for that file to be done primarily by WhiteboxTools (or GDAL via {terra}).
At time of writing this document, WhiteboxTools does not support
vector data inputs other than Shapefile. If we have, for example, a
GeoPackage, wbt_source()
will convert the input to a
temporary shapefile and return a SpatVectorProxy that references that
file. This object can then be used as input to wbt()
.
# load the data
x2 <- query(x)
# remove area column
x2$AREA <- NULL
# create a GeoPackage
terra::writeVector(x2, filename = file.path(tempdir(), "lux.gpkg"), overwrite = TRUE)
#> Warning in x@ptr$write(filename, layer, filetype, insert[1], overwrite[1], :
#> GDAL Message 6: dataset /tmp/RtmpsDUR6u/lux.gpkg does not support layer
#> creation option ENCODING
# now the source is a temporary .shp
x3 <- wbt_source(file.path(tempdir(), "lux.gpkg"))
wbt("polygon_area", input = x3)
#> PolygonArea - Elapsed Time: 0.0s
#> <wbt_result>
#> --- PARAMETERS (PolygonArea) ---
#> input : '/tmp/RtmpsDUR6u/lux.gpkg_file1cc0c690afdce.shp'
#> --- RESULT ---
#> $output
#> class : SpatVectorProxy
#> geometry : polygons
#> dimensions : 12, 6 (geometries, attributes)
#> extent : 5.74414, 6.528252, 49.44781, 50.18162 (xmin, xmax, ymin, ymax)
#> source : lux.gpkg_file1cc0c690afdce.shp
#> coord. ref. : lon/lat WGS 84 (EPSG:4326)
#> names : ID_1 NAME_1 ID_2 NAME_2 POP AREA
#> type : <num> <chr> <num> <chr> <int> <num>
When you call wbt()
and the first argument is a
wbt_result
the output
from the input
wbt_result
is passed as the first input
to the
new tool run.
This general “pass the output as the first input” works even if the
first input
parameter ("-i"
flag) is something
different such as dem
or input1
.
This makes it possible to chain different operations together in a sequence.
If all of the required parameters are specified the tool will be run.
Here we run “Slope” on a DEM, then run “Slope” on it again to get a second derivative “curvature”.
x <- wbt("slope", dem = dem, output = file.path(tempdir(), "slope.tif"))
#> Slope - Elapsed Time (excluding I/O): 0.13s
x2 <- wbt(x, tool_name = "slope", output = file.path(tempdir(), "curvature.tif"))
#> Slope - Elapsed Time (excluding I/O): 0.5s
Nested chained operation syntax can be transformed to use pipe
operators ({base} R 4.1+ |>
or {magrittr}
%>%
). This can improve the readability of the code
(fewer nested parentheses) and the first argument transfer behavior
allows results from each step to be transferred to the input of the
next.
wbt("slope", dem = dem, output = file.path(tempdir(), "slope.tif")) |>
wbt("slope", output = file.path(tempdir(), "curvature.tif"))
The wbt_result
output that prints to the console will
reflect the input/output parameters of the most recent tool run in a
tool chain.
x2
#> <wbt_result>
#> --- PARAMETERS (Slope) ---
#> dem : '//tmp/RtmpsDUR6u/slope.tif'
#> output : '/tmp/RtmpsDUR6u/curvature.tif'
#> --- RESULT ---
#> $output
#> File result: //tmp/RtmpsDUR6u/curvature.tif exists (Last modified: 2024-05-26 17:10:50.929171)
#> --- HISTORY ---
#> Prior results (n=1) for: Slope
#> - Slope (output<character>)
wbt_result()
is the method to get $result
for single runs or all $result
in $history
for
chained runs from a wbt_result
object.
str(wbt_result(x2), max.level = 1)
#> chr [1:2] "//tmp/RtmpsDUR6u/slope.tif" "//tmp/RtmpsDUR6u/curvature.tif"
The $history
element is a list of the
wbt_result
from individual runs.
str(x2$history, max.level = 1)
#> List of 2
#> $ :List of 5
#> ..- attr(*, "class")= chr "wbt_result"
#> $ :List of 5
#> ..- attr(*, "class")= chr "wbt_result"
If you pass invalid results from one step to the next, you get an informative error message.
x <- wbt("slope")
#> Required arguments:
#> - [ ] dem -- Input raster DEM file.
#> - [ ] output -- Output raster file.
#>
#> Optional arguments:
#> - [ ] zfactor -- Optional multiplier for when the vertical and horizontal units are not the same.
#> - [ ] units -- Units of output raster; options include 'degrees', 'radians', 'percent'
wbt(x, "slope", output = file.path(tempdir(), "foo.tif"))
#> NOTE: try-error result cannot be used as `dem`
#> Required arguments:
#> - [ ] dem -- Input raster DEM file.
#> - [*] output -- Output raster file.
#>
#> Optional arguments:
#> - [ ] zfactor -- Optional multiplier for when the vertical and horizontal units are not the same.
#> - [ ] units -- Units of output raster; options include 'degrees', 'radians', 'percent'
#> <wbt_result>
#> --- PARAMETERS (Slope) ---
#> output : '/tmp/RtmpsDUR6u/foo.tif'
#>
#> Slope ERROR: 'dem' required
#> --- HISTORY ---
#> Prior results (n=1) for: Slope
#> - Slope (<character>)
On top of handling file paths it is necessary for Geographic Information Systems to handle Coordinate Reference System (CRS) information. Many R tools in the GDAL/PROJ sphere require valid CRS to operate.
WhiteboxTools will read the GeoKey information from your GeoTIFF files specified by path and propagate that to the output file result. When you read those files with R, you should find that the original file’s CRS has been transferred.
wbt()
and wbt_result
help ensure consistent
file and CRS information across sequences of operations and within
calls–especially those involving R spatial objects.
If you specified the CRS in R, or made the raster entirely in R, you
might need a hand setting up the file-based representation that
WhiteboxTools will use. This is easy enough to do with
crs()
, writeRaster()
and the equivalent but
often requires more boilerplate code than just specifying the argument,
or having CRS propagate from input.
For inputs that have a file-based representation
(e.g. RasterLayer
and SpatRaster
objects)
wbt()
provides an interface where R objects can be
substituted for file names and vice versa. User and workflow level
attributes like CRS and working directory be handled at the same
time.
dem <- sample_dem_data()
## equivalent to:
# dem <- system.file("extdata/DEM.tif", package = "whitebox")
In the process of reading/writing files that may contain CRS information, such as this sample DEM, the CRS can be inspected, modified and propagated to file or R objects.
If the CRS is specified in the input SpatRaster
object,
wbt()
makes sure it is propagated to the R object result.
wbt()
does not alter or copy the source or output files
which may or may not have CRS information.
araster <- terra::rast(dem)
wbt("slope", dem = araster, output = file.path(tempdir(), "foo.tif"))
#> Slope - Elapsed Time (excluding I/O): 0.15s
#> <wbt_result>
#> --- PARAMETERS (Slope) ---
#> dem : '/tmp/Rtmp5srhl0/Rbuild1cbcad2c685a/whitebox/vignettes/file1cc0cf4d812c.tif'
#> output : '/tmp/RtmpsDUR6u/foo.tif'
#> --- RESULT ---
#> $output
#> class : SpatRaster
#> dimensions : 188, 237, 1 (nrow, ncol, nlyr)
#> resolution : 90, 90 (x, y)
#> extent : 664692, 686022, 4878904, 4895824 (xmin, xmax, ymin, ymax)
#> coord. ref. : NAD83 / UTM zone 18N (EPSG:26918)
#> source : foo.tif
#> name : foo
Alternately you can specify the crs
argument to
wbt()
instead of rast()
. This will directly
set the crs
element of the wbt_result
of your
output.
wbt("slope", dem = terra::rast(dem), crs = "EPSG:26918", output = file.path(tempdir(), "foo.tif"))
#> Slope - Elapsed Time (excluding I/O): 0.12s
#> <wbt_result>
#> --- PARAMETERS (Slope) ---
#> dem : '/tmp/Rtmp5srhl0/Rbuild1cbcad2c685a/whitebox/vignettes/file1cc0c552f49c7.tif'
#> output : '/tmp/RtmpsDUR6u/foo.tif'
#> --- RESULT ---
#> $output
#> class : SpatRaster
#> dimensions : 188, 237, 1 (nrow, ncol, nlyr)
#> resolution : 90, 90 (x, y)
#> extent : 664692, 686022, 4878904, 4895824 (xmin, xmax, ymin, ymax)
#> coord. ref. : NAD83 / UTM zone 18N (EPSG:26918)
#> source : foo.tif
#> name : foo
In either case wherever you specify the crs
argument the
crs
is stored in the wbt_result
and propagated
to the relevant output. Again, the source files are unchanged if they
had no CRS or invalid CRS (until you write that updated CRS to
file).
If two input R objects have different (or no) CRS then the
wbt()
method will provide a message to the user:
r1 <- terra::rast(dem) # default: EPSG:26918
r2 <- terra::deepcopy(r1)
crs(r2) <- "EPSG:26917" # something else/wrong
wbt("add",
input1 = r1,
input2 = r2,
output = file.path(tempdir(), "foo.tif")
)
#> NOTE: Input CRS do not match.
#> Add - Elapsed Time (excluding I/O): 0.1s
#> <wbt_result>
#> --- PARAMETERS (Add) ---
#> input1 : '/tmp/Rtmp5srhl0/Rbuild1cbcad2c685a/whitebox/vignettes/file1cc0c6543aade.tif'
#> input2 : '/tmp/Rtmp5srhl0/Rbuild1cbcad2c685a/whitebox/vignettes/file1cc0c1cb97649.tif'
#> output : '/tmp/RtmpsDUR6u/foo.tif'
#> --- RESULT ---
#> $output
#> class : SpatRaster
#> dimensions : 188, 237, 1 (nrow, ncol, nlyr)
#> resolution : 90, 90 (x, y)
#> extent : 664692, 686022, 4878904, 4895824 (xmin, xmax, ymin, ymax)
#> coord. ref. : NAD83 / UTM zone 18N (EPSG:26918)
#> source : foo.tif
#> name : foo
This message is suppressed and output CRS set accordingly if the
crs
argument is specified. This user set CRS is only in the
SpatRaster object, and does not necessarily match that of the file used
as input or returned as output.
wbt("add",
input1 = r1,
input2 = r2,
crs = "EPSG:26918",
output = file.path(tempdir(), "foo.tif")
)
#> Add - Elapsed Time (excluding I/O): 0.1s
#> <wbt_result>
#> --- PARAMETERS (Add) ---
#> input1 : '/tmp/Rtmp5srhl0/Rbuild1cbcad2c685a/whitebox/vignettes/file1cc0c72c5d7da.tif'
#> input2 : '/tmp/Rtmp5srhl0/Rbuild1cbcad2c685a/whitebox/vignettes/file1cc0cc90771a.tif'
#> output : '/tmp/RtmpsDUR6u/foo.tif'
#> --- RESULT ---
#> $output
#> class : SpatRaster
#> dimensions : 188, 237, 1 (nrow, ncol, nlyr)
#> resolution : 90, 90 (x, y)
#> extent : 664692, 686022, 4878904, 4895824 (xmin, xmax, ymin, ymax)
#> coord. ref. : NAD83 / UTM zone 18N (EPSG:26918)
#> source : foo.tif
#> name : foo
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.