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Summary:
This is the fourth report on the R-spatial evolution project and is addressed to maintainers of packages and workflows using sp
classes, methods and functions. The project involves the retirement (archiving) of rgdal
, rgeos
and maptools
during 2023. The first report set out the main goals of the project. The second report covered progress so far, steps already taken, and those remaining to be accomplished. The third gave detailed guidance for maintainers of packages using the retiring packages.
From June 2023 (sp
version 2.0-0), the internal evolution status setting of sp
will be changed from “business as usual” to “use sf
instead of rgdal
and rgeos
”. Packages depending on sp
may need to add sf
to their weak dependencies, and to monitor any changes in output. From this version 2.1-0, use of rgdal
has been dropped, so setting the internal evolution status has been removed.
The final step occurred during October 2023, rgdal
, rgeos
and maptools
were archived on CRAN, and packages with strong dependencies on the retiring packages must be either upgraded to use sf
, terra
or other alternatives or work-arounds by or before that time.
This spreadsheet lists methods and functions in retiring packages and sp
found by pkgapi
. They are listed by function name as used by packages, and the analogous list by package may be found of functions is here.
sp
evolution statusRepeating from the second and third blogs:
As mentioned in our first report, sp
on CRAN has been provided with conditional code that prevents sp
calling most code in rgdal
or rgeos
. This can be enabled before loading sp
by setting e.g.:
options("sp_evolution_status"=2)
library(sp)
for checking packages under status
0
: business as usual,1
: stop if rgdal
or rgeos
are absent, or2
: use sf
instead of rgdal
(currently no use of rgeos
is considered)or alternatively can be set as an environment variable read when sp
is loaded, e.g. when running checks from the command line by
_SP_EVOLUTION_STATUS_=2 R CMD check
This construction should permit maintainers to detect potential problems in code. devtools::check()
provides the env_vars=
argument, which may be used for the same purpose.
From sp 1.6.0
published on CRAN 2023-01-19, these status settings may also be changed when sp
is loaded, using sp::get_evolution_status()
returning the current value, and sp::set_evolution_status(value)
, where value can take the integer values 0L
, 1L
and 2L
.
sp
affected functions and methodsUnder evolution status 2
, which will become the default in June 2023, no use is made of rgdal
in sp::CRS
, sp::is.projected
, and sp::spTransform
, rather using sf
to access PROJ
through GDAL
. A warning is given if sf
is not available. This is similar to behaviour under legacy sp
and evolution status 0
with regard to the use of rgdal
to access PROJ
.
sp::CRS
is used by the following packages (pkgapi
May 2, 2023):
adehabitatHR adehabitatHS adehabitatLT adehabitatMA AFM AGPRIS angstroms
animaltracker anipaths antaresViz aqp AquaBEHER atakrig ausplotsR
bamlss bfsMaps biogeo bioRad biosurvey birdring birdscanR bivariatemaps
bRacatus briskaR
canadianmaps changeRangeR chronosphere cleangeo cmsafops cmsafvis
ConR CoordinateCleaner cruts ctmm
dartR DEPONS2R dggridR dismo dispeRse DRHotNet dtwSat dynamAedes dynamicSDM
ecospat elevatr EMbC epitweetr
fasterize FIESTAutils FLightR FRK
GapAnalysis gDefrag gdistance GeNetIt GeoAdjust GeodesiCL geodiv geofacet
geogrid geojsonio geomerge geoviz gfcanalysis ggOceanMaps gmGeostats
googletraffic GPSeqClus grainscape graticule gwer gwfa
hero Hmsc hydroTSM
iccTraj inlabru INLAspacetime intamap intSDM IsoriX itcSegment
kehra
lakemorpho leaflet letsR lgcp loa
macroBiome mapedit MapGAM mapmisc mapview MEDITS meteo meteoForecast
meteoland micromapST MinBAR momentuHMM morphomap move
nodiv
oceanic OpenStreetMap OSMscale
phyloregion places plotKML prevR PWFSLSmoke
QRAGadget quadmesh quickmapr quickPlot
RAC raster rasterVis rbgm rcanvec rCAT RCGLS RchivalTag rcrimeanalysis
ReadDIM red RgoogleMaps riverdist rleafmap rosm rpostgis RSIP rtop RWmisc
sdm sdStaf SeerMapper seg shadow SimSurvey soilassessment SongEvo spacetime
SpaDES.tools SpatialEpi spatialfusion SpatialGraph spatsoc spatsurv spbabel
spdep sperich spex spgwr stppSim stxplore SUNGEO SurfaceTortoise SWTools
tiler track2KBA TrajDataMining trajectories trip
uavRmp
vec2dtransf
waver WEGE wildlifeDI wkb wux
zoon
sp::is.projected
is used by:
GapAnalysis GeNetIt intkrige ptools riverdist surveillance track2KBA trip
and sp::spTransform
by:
AGPRIS antaresViz
biosurvey bivariatemaps
canadianmaps chronosphere CoordinateCleaner ctmm
elevatr epitweetr
fastmaRching FLightR
GeoAdjust GeodesiCL geoviz ggOceanMaps
icosa inlabru INLAspacetime
loa
macroBiome mapedit mapview micromapST MinBAR momentuHMM mregions
quickmapr
raster rcanvec rcrimeanalysis reproducible RgoogleMaps riverdist rosm rpostgis
SeerMapper shadow SUNGEO
track2KBA
uavRmp
Reverse dependency checks of May 4, 2023 showed only 2 packages failing CMD check
under _SP_EVOLUTION_STATUS_=2
, and their difficulties are mentioned below (github issues have been raised offering maintainers mitigations). The salient reasons are given below so that others facing similar apparent intractible problems in workflows can perhaps benefit. Since other packages passed CMD check
, there are no strong reasons not to flip sp
’s evolution status in June 2023 from rgdal
to sf
.
One possible source of difference is that the strings (WKT2_2019, Proj4) returned from rgdal
came straight from PROJ
, but sf
accesses PROJ
through GDAL
.
Another source of difference is that rgdal
used sp
S4 classes with inheritance, but sf
uses S3 classes which do not (seem to) treat inheritance in the same way. So workflows using sp
and classes, so coercion to sp
classes before sp::spTransform
is required, and reconstruction of the classes extending sp
classes after return is probably required.
A further potential cause of confusion is that round-tripping by coercion to sf
perhaps applying an operation, and returning to sp
may break rarely used sp
methods, such as:
library(sp)
getMethod("$", "SpatialPoints")
Method Definition:
function (x, name)
{
if (name %in% coordnames(x))
return(x@coords[, name])
if (!("data" %in% slotNames(x)))
stop("no $ method for object without attributes")
x@data[[name]]
}
<bytecode: 0x62d88a21c4a0>
<environment: namespace:sp>
Signatures:
x
target "SpatialPoints"
defined "SpatialPoints"
which accesses columns by name no longer in the data.frame
in the data slot through the column names of the matrix of points:
data(meuse)
names(meuse)
[1] "x" "y" "cadmium" "copper" "lead" "zinc" "elev"
[8] "dist" "om" "ffreq" "soil" "lime" "landuse" "dist.m"
coordinates(meuse) <- ~ x + y
names(meuse)
[1] "cadmium" "copper" "lead" "zinc" "elev" "dist" "om"
[8] "ffreq" "soil" "lime" "landuse" "dist.m"
colnames(slot(meuse, "coords"))
[1] "x" "y"
str(meuse$x)
Named num [1:155] 181072 181025 181165 181298 181307 ...
- attr(*, "names")= chr [1:155] "1" "2" "3" "4" ...
So far so good, but round-tripping if sf
is available changes the column names of the matrix of points:
run <- requireNamespace("sf", quietly = TRUE)
meuse_rt <- as(sf::st_as_sf(meuse), "Spatial")
names(meuse_rt)
[1] "cadmium" "copper" "lead" "zinc" "elev" "dist" "om"
[8] "ffreq" "soil" "lime" "landuse" "dist.m"
colnames(slot(meuse_rt, "coords"))
[1] "coords.x1" "coords.x2"
Consequently, code using this legacy short cut may be a source of difficulty.
terra
?The reason for choosing to replace rgdal
by sf
for these three methods has been the absence of an independent object for coordinate reference systems matching "CRS"
in sp
and "crs"
in sf
.
It would be possible to create an empty "SpatVector"
object and assign a coordinate reference system, coerce to sp
, and extract the "CRS"
object:
v <- terra::vect(matrix(c(0, 0), nrow=1), crs="OGC:CRS84")
library(raster)
slot(as(v, "Spatial"), "proj4string")
Coordinate Reference System:
Deprecated Proj.4 representation: +proj=longlat +datum=WGS84 +no_defs
WKT2 2019 representation:
GEOGCRS["unknown",
DATUM["World Geodetic System 1984",
ELLIPSOID["WGS 84",6378137,298.257223563,
LENGTHUNIT["metre",1]],
ID["EPSG",6326]],
PRIMEM["Greenwich",0,
ANGLEUNIT["degree",0.0174532925199433],
ID["EPSG",8901]],
CS[ellipsoidal,2],
AXIS["longitude",east,
ORDER[1],
ANGLEUNIT["degree",0.0174532925199433,
ID["EPSG",9122]]],
AXIS["latitude",north,
ORDER[2],
ANGLEUNIT["degree",0.0174532925199433,
ID["EPSG",9122]]]]
but this seems somewhat forced. If there is substantial demand for an alternative mechanism using terra
and raster
in place of sf
, then a well-tested pull request would be considered. It is understandable that Windows or macOS users who otherwise would not need to install sf
, and who are already using terra
might prefer to stay with terra
inside sp
, but input to the evolution project would be needed to take any action. It may rather be simpler for users with such workflows to migrate to terra
instead of sustaining a mixed sp
, raster
vector combination when terra
can probably cover all needs.
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.