CRAN Package Check Results for Maintainer ‘Edzer Pebesma <edzer.pebesma at uni-muenster.de>’

Last updated on 2025-02-16 10:51:13 CET.

Package	ERROR	NOTE	OK
gstat	1		14
hexbin		2	13
intervals			15
lwgeom		6	9
s2		15
sf		12	3
sp		5	10
spacetime		1	14
stars		12	3
trajectories		10	5
units		4	11
vardiag			15

Package gstat

Current CRAN status: ERROR: 1, OK: 14

Version: 2.1-3
Check: tests
Result: ERROR Running ‘allier.R’ Comparing ‘allier.Rout’ to ‘allier.Rout.save’ ... OK Running ‘blockkr.R’ Comparing ‘blockkr.Rout’ to ‘blockkr.Rout.save’ ... OK Running ‘covtable.R’ Comparing ‘covtable.Rout’ to ‘covtable.Rout.save’ ... OK Running ‘cv.R’ Comparing ‘cv.Rout’ to ‘cv.Rout.save’ ... OK Running ‘cv3d.R’ Comparing ‘cv3d.Rout’ to ‘cv3d.Rout.save’ ... OK Running ‘fit.R’ Comparing ‘fit.Rout’ to ‘fit.Rout.save’ ... OK Running ‘krige0.R’ Comparing ‘krige0.Rout’ to ‘krige0.Rout.save’ ... OK Running ‘line.R’ Comparing ‘line.Rout’ to ‘line.Rout.save’ ... OK Running ‘merge.R’ Comparing ‘merge.Rout’ to ‘merge.Rout.save’ ... OK Running ‘na.action.R’ Comparing ‘na.action.Rout’ to ‘na.action.Rout.save’ ... OK Running ‘rings.R’ Comparing ‘rings.Rout’ to ‘rings.Rout.save’ ... OK Running ‘sim.R’ Comparing ‘sim.Rout’ to ‘sim.Rout.save’ ... OK Running ‘stars.R’ [32m/26m] Running ‘unproj.R’ Comparing ‘unproj.Rout’ to ‘unproj.Rout.save’ ... OK Running ‘variogram.R’ Comparing ‘variogram.Rout’ to ‘variogram.Rout.save’ ... OK Running ‘vdist.R’ Comparing ‘vdist.Rout’ to ‘vdist.Rout.save’ ... OK Running ‘windst.R’ [30m/17m] Running the tests in ‘tests/stars.R’ failed. Complete output: > Sys.setenv(TZ = "UTC") > > # 0. using sp: > > suppressPackageStartupMessages(library(sp)) > demo(meuse, ask = FALSE) demo(meuse) ---- ~~~~~ > require(sp) > crs = CRS("EPSG:28992") > data("meuse") > coordinates(meuse) <- ~x+y > proj4string(meuse) <- crs > data("meuse.grid") > coordinates(meuse.grid) <- ~x+y > gridded(meuse.grid) <- TRUE > proj4string(meuse.grid) <- crs > data("meuse.riv") > meuse.riv <- SpatialPolygons(list(Polygons(list(Polygon(meuse.riv)),"meuse.riv"))) > proj4string(meuse.riv) <- crs > data("meuse.area") > meuse.area = SpatialPolygons(list(Polygons(list(Polygon(meuse.area)), "area"))) > proj4string(meuse.area) <- crs > suppressPackageStartupMessages(library(gstat)) > v = variogram(log(zinc)~1, meuse) > (v.fit = fit.variogram(v, vgm(1, "Sph", 900, 1))) model psill range 1 Nug 0.05066243 0.0000 2 Sph 0.59060780 897.0209 > k_sp = krige(log(zinc)~1, meuse[-(1:5),], meuse[1:5,], v.fit) [using ordinary kriging] > k_sp_grd = krige(log(zinc)~1, meuse, meuse.grid, v.fit) [using ordinary kriging] > > # 1. using sf: > suppressPackageStartupMessages(library(sf)) > demo(meuse_sf, ask = FALSE, echo = FALSE) > # reloads meuse as data.frame, so > demo(meuse, ask = FALSE) demo(meuse) ---- ~~~~~ > require(sp) > crs = CRS("EPSG:28992") > data("meuse") > coordinates(meuse) <- ~x+y > proj4string(meuse) <- crs > data("meuse.grid") > coordinates(meuse.grid) <- ~x+y > gridded(meuse.grid) <- TRUE > proj4string(meuse.grid) <- crs > data("meuse.riv") > meuse.riv <- SpatialPolygons(list(Polygons(list(Polygon(meuse.riv)),"meuse.riv"))) > proj4string(meuse.riv) <- crs > data("meuse.area") > meuse.area = SpatialPolygons(list(Polygons(list(Polygon(meuse.area)), "area"))) > proj4string(meuse.area) <- crs > > v = variogram(log(zinc)~1, meuse_sf) > (v.fit = fit.variogram(v, vgm(1, "Sph", 900, 1))) model psill range 1 Nug 0.05066243 0.0000 2 Sph 0.59060780 897.0209 > k_sf = krige(log(zinc)~1, meuse_sf[-(1:5),], meuse_sf[1:5,], v.fit) [using ordinary kriging] > > all.equal(k_sp, as(k_sf, "Spatial"), check.attributes = FALSE) [1] TRUE > all.equal(k_sp, as(k_sf, "Spatial"), check.attributes = TRUE) [1] "Attributes: < Component \"bbox\": Attributes: < Component \"dimnames\": Component 1: 2 string mismatches > >" [2] "Attributes: < Component \"coords\": Attributes: < Component \"dimnames\": Component 2: 2 string mismatches > >" [3] "Attributes: < Component \"coords.nrs\": Numeric: lengths (2, 0) differ >" > > # 2. using stars for grid: > > suppressPackageStartupMessages(library(stars)) > st = st_as_stars(meuse.grid) > st_crs(st) Coordinate Reference System: User input: Amersfoort / RD New wkt: PROJCRS["Amersfoort / RD New", BASEGEOGCRS["Amersfoort", DATUM["Amersfoort", ELLIPSOID["Bessel 1841",6377397.155,299.1528128, LENGTHUNIT["metre",1]]], PRIMEM["Greenwich",0, ANGLEUNIT["degree",0.0174532925199433]], ID["EPSG",4289]], CONVERSION["RD New", METHOD["Oblique Stereographic", ID["EPSG",9809]], PARAMETER["Latitude of natural origin",52.1561605555556, ANGLEUNIT["degree",0.0174532925199433], ID["EPSG",8801]], PARAMETER["Longitude of natural origin",5.38763888888889, ANGLEUNIT["degree",0.0174532925199433], ID["EPSG",8802]], PARAMETER["Scale factor at natural origin",0.9999079, SCALEUNIT["unity",1], ID["EPSG",8805]], PARAMETER["False easting",155000, LENGTHUNIT["metre",1], ID["EPSG",8806]], PARAMETER["False northing",463000, LENGTHUNIT["metre",1], ID["EPSG",8807]]], CS[Cartesian,2], AXIS["easting (X)",east, ORDER[1], LENGTHUNIT["metre",1]], AXIS["northing (Y)",north, ORDER[2], LENGTHUNIT["metre",1]], USAGE[ SCOPE["Engineering survey, topographic mapping."], AREA["Netherlands - onshore, including Waddenzee, Dutch Wadden Islands and 12-mile offshore coastal zone."], BBOX[50.75,3.2,53.7,7.22]], ID["EPSG",28992]] > > # compare inputs: > sp = as(st, "Spatial") > fullgrid(meuse.grid) = TRUE > all.equal(sp, meuse.grid["dist"], check.attributes = FALSE) [1] "Names: Lengths (5, 1) differ (string compare on first 1)" [2] "Names: 1 string mismatch" > all.equal(sp, meuse.grid["dist"], check.attributes = TRUE, use.names = FALSE) [1] "Names: Lengths (5, 1) differ (string compare on first 1)" [2] "Names: 1 string mismatch" [3] "Attributes: < Component 3: Names: 1 string mismatch >" [4] "Attributes: < Component 3: Length mismatch: comparison on first 1 components >" [5] "Attributes: < Component 3: Component 1: Mean relative difference: 1.08298 >" [6] "Attributes: < Component 4: Attributes: < Component 2: names for current but not for target > >" [7] "Attributes: < Component 4: Attributes: < Component 3: names for current but not for target > >" > > # kriging: > st_crs(st) = st_crs(meuse_sf) = NA # GDAL roundtrip messes them up! > k_st = if (Sys.getenv("USER") == "travis") { + try(krige(log(zinc)~1, meuse_sf, st, v.fit)) + } else { + krige(log(zinc)~1, meuse_sf, st, v.fit) + } [using ordinary kriging] > k_st stars object with 2 dimensions and 2 attributes attribute(s): Min. 1st Qu. Median Mean 3rd Qu. Max. NA's var1.pred 4.7765547 5.2376293 5.5728839 5.7072287 6.1717619 7.4399911 5009 var1.var 0.0854949 0.1372864 0.1621838 0.1853319 0.2116152 0.5002756 5009 dimension(s): from to offset delta x/y x 1 78 178440 40 [x] y 1 104 333760 -40 [y] > > # handle factors, when going to stars? > k_sp_grd$cls = cut(k_sp_grd$var1.pred, c(0, 5, 6, 7, 8, 9)) > st_as_stars(k_sp_grd) stars object with 2 dimensions and 3 attributes attribute(s): var1.pred var1.var cls Min. :4.777 Min. :0.0855 (0,5]: 316 1st Qu.:5.238 1st Qu.:0.1373 (5,6]:1778 Median :5.573 Median :0.1622 (6,7]: 962 Mean :5.707 Mean :0.1853 (7,8]: 47 3rd Qu.:6.172 3rd Qu.:0.2116 (8,9]: 0 Max. :7.440 Max. :0.5003 NA's :5009 NA's :5009 NA's :5009 dimension(s): from to offset delta refsys x/y x 1 78 178440 40 Amersfoort / RD New [x] y 1 104 333760 -40 Amersfoort / RD New [y] > if (require(raster, quietly = TRUE)) { + print(st_as_stars(raster::stack(k_sp_grd))) # check + print(all.equal(st_redimension(st_as_stars(k_sp_grd)), st_as_stars(raster::stack(k_sp_grd)), check.attributes=FALSE)) + } stars object with 3 dimensions and 1 attribute attribute(s): Min. 1st Qu. Median Mean 3rd Qu. Max. NA's var1.pred 0.0854949 0.2116778 2 2.710347 5.237542 7.439991 15027 dimension(s): from to offset delta refsys values x 1 78 178440 40 Amersfoort / RD New NULL y 1 104 333760 -40 Amersfoort / RD New NULL band 1 3 NA NA NA var1.pred, var1.var , cls x/y x [x] y [y] band [1] TRUE > > suppressPackageStartupMessages(library(spacetime)) > > tm = as.POSIXct("2019-02-25 15:37:24 CET") > n = 4 > s = stars:::st_stars(list(foo = array(1:(n^3), rep(n,3))), + stars:::create_dimensions(list( + x = stars:::create_dimension(from = 1, to = n, offset = 10, delta = 0.5), + y = stars:::create_dimension(from = 1, to = n, offset = 0, delta = -0.7), + time = stars:::create_dimension(values = tm + 1:n)), + raster = stars:::get_raster(dimensions = c("x", "y"))) + ) > s stars object with 3 dimensions and 1 attribute attribute(s): Min. 1st Qu. Median Mean 3rd Qu. Max. foo 1 16.75 32.5 32.5 48.25 64 dimension(s): from to offset delta refsys x/y x 1 4 10 0.5 NA [x] y 1 4 0 -0.7 NA [y] time 1 4 2019-02-25 15:37:25 UTC 1 secs POSIXct > > as.data.frame(s) x y time foo 1 10.25 -0.35 2019-02-25 15:37:25 1 2 10.75 -0.35 2019-02-25 15:37:25 2 3 11.25 -0.35 2019-02-25 15:37:25 3 4 11.75 -0.35 2019-02-25 15:37:25 4 5 10.25 -1.05 2019-02-25 15:37:25 5 6 10.75 -1.05 2019-02-25 15:37:25 6 7 11.25 -1.05 2019-02-25 15:37:25 7 8 11.75 -1.05 2019-02-25 15:37:25 8 9 10.25 -1.75 2019-02-25 15:37:25 9 10 10.75 -1.75 2019-02-25 15:37:25 10 11 11.25 -1.75 2019-02-25 15:37:25 11 12 11.75 -1.75 2019-02-25 15:37:25 12 13 10.25 -2.45 2019-02-25 15:37:25 13 14 10.75 -2.45 2019-02-25 15:37:25 14 15 11.25 -2.45 2019-02-25 15:37:25 15 16 11.75 -2.45 2019-02-25 15:37:25 16 17 10.25 -0.35 2019-02-25 15:37:26 17 18 10.75 -0.35 2019-02-25 15:37:26 18 19 11.25 -0.35 2019-02-25 15:37:26 19 20 11.75 -0.35 2019-02-25 15:37:26 20 21 10.25 -1.05 2019-02-25 15:37:26 21 22 10.75 -1.05 2019-02-25 15:37:26 22 23 11.25 -1.05 2019-02-25 15:37:26 23 24 11.75 -1.05 2019-02-25 15:37:26 24 25 10.25 -1.75 2019-02-25 15:37:26 25 26 10.75 -1.75 2019-02-25 15:37:26 26 27 11.25 -1.75 2019-02-25 15:37:26 27 28 11.75 -1.75 2019-02-25 15:37:26 28 29 10.25 -2.45 2019-02-25 15:37:26 29 30 10.75 -2.45 2019-02-25 15:37:26 30 31 11.25 -2.45 2019-02-25 15:37:26 31 32 11.75 -2.45 2019-02-25 15:37:26 32 33 10.25 -0.35 2019-02-25 15:37:27 33 34 10.75 -0.35 2019-02-25 15:37:27 34 35 11.25 -0.35 2019-02-25 15:37:27 35 36 11.75 -0.35 2019-02-25 15:37:27 36 37 10.25 -1.05 2019-02-25 15:37:27 37 38 10.75 -1.05 2019-02-25 15:37:27 38 39 11.25 -1.05 2019-02-25 15:37:27 39 40 11.75 -1.05 2019-02-25 15:37:27 40 41 10.25 -1.75 2019-02-25 15:37:27 41 42 10.75 -1.75 2019-02-25 15:37:27 42 43 11.25 -1.75 2019-02-25 15:37:27 43 44 11.75 -1.75 2019-02-25 15:37:27 44 45 10.25 -2.45 2019-02-25 15:37:27 45 46 10.75 -2.45 2019-02-25 15:37:27 46 47 11.25 -2.45 2019-02-25 15:37:27 47 48 11.75 -2.45 2019-02-25 15:37:27 48 49 10.25 -0.35 2019-02-25 15:37:28 49 50 10.75 -0.35 2019-02-25 15:37:28 50 51 11.25 -0.35 2019-02-25 15:37:28 51 52 11.75 -0.35 2019-02-25 15:37:28 52 53 10.25 -1.05 2019-02-25 15:37:28 53 54 10.75 -1.05 2019-02-25 15:37:28 54 55 11.25 -1.05 2019-02-25 15:37:28 55 56 11.75 -1.05 2019-02-25 15:37:28 56 57 10.25 -1.75 2019-02-25 15:37:28 57 58 10.75 -1.75 2019-02-25 15:37:28 58 59 11.25 -1.75 2019-02-25 15:37:28 59 60 11.75 -1.75 2019-02-25 15:37:28 60 61 10.25 -2.45 2019-02-25 15:37:28 61 62 10.75 -2.45 2019-02-25 15:37:28 62 63 11.25 -2.45 2019-02-25 15:37:28 63 64 11.75 -2.45 2019-02-25 15:37:28 64 > plot(s, col = sf.colors(), axes = TRUE) > (s.stfdf = as(s, "STFDF")) An object of class "STFDF" Slot "data": foo 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 51 51 52 52 53 53 54 54 55 55 56 56 57 57 58 58 59 59 60 60 61 61 62 62 63 63 64 64 Slot "sp": Object of class SpatialPixels Grid topology: cellcentre.offset cellsize cells.dim x 10.25 0.5 4 y -2.45 0.7 4 SpatialPoints: x y [1,] 10.25 -0.35 [2,] 10.75 -0.35 [3,] 11.25 -0.35 [4,] 11.75 -0.35 [5,] 10.25 -1.05 [6,] 10.75 -1.05 [7,] 11.25 -1.05 [8,] 11.75 -1.05 [9,] 10.25 -1.75 [10,] 10.75 -1.75 [11,] 11.25 -1.75 [12,] 11.75 -1.75 [13,] 10.25 -2.45 [14,] 10.75 -2.45 [15,] 11.25 -2.45 [16,] 11.75 -2.45 Coordinate Reference System (CRS) arguments: NA Slot "time": timeIndex 2019-02-25 15:37:25 1 2019-02-25 15:37:26 2 2019-02-25 15:37:27 3 2019-02-25 15:37:28 4 Slot "endTime": [1] "2019-02-25 15:37:26 UTC" "2019-02-25 15:37:27 UTC" [3] "2019-02-25 15:37:28 UTC" "2019-02-25 15:37:29 UTC" > stplot(s.stfdf, scales = list(draw = TRUE)) > > (s2 = st_as_stars(s.stfdf)) stars object with 3 dimensions and 1 attribute attribute(s): Min. 1st Qu. Median Mean 3rd Qu. Max. foo 1 16.75 32.5 32.5 48.25 64 dimension(s): from to offset delta refsys x/y x 1 4 10 0.5 NA [x] y 1 4 -1.11e-16 -0.7 NA [y] time 1 4 2019-02-25 15:37:25 UTC 1 secs POSIXct > plot(s2, col = sf.colors(), axes = TRUE) > all.equal(s, s2, check.attributes = FALSE) [1] TRUE > > # multiple simulations: > data(meuse, package = "sp") > data(meuse.grid, package = "sp") > coordinates(meuse.grid) <- ~x+y > gridded(meuse.grid) <- TRUE > meuse.grid = st_as_stars(meuse.grid) > meuse_sf = st_as_sf(meuse, coords = c("x", "y")) > g = gstat(NULL, "zinc", zinc~1, meuse_sf, model = vgm(1, "Exp", 300), nmax = 10) > g = gstat(g, "lead", lead~1, meuse_sf, model = vgm(1, "Exp", 300), nmax = 10, fill.cross = TRUE) > set.seed(123) > ## IGNORE_RDIFF_BEGIN > (p = predict(g, meuse.grid, nsim = 5)) drawing 5 multivariate GLS realisations of beta... Running the tests in ‘tests/windst.R’ failed. Complete output: > suppressPackageStartupMessages(library(sp)) > suppressPackageStartupMessages(library(spacetime)) > suppressPackageStartupMessages(library(gstat)) > suppressPackageStartupMessages(library(stars)) > > data(wind) > wind.loc$y = as.numeric(char2dms(as.character(wind.loc[["Latitude"]]))) > wind.loc$x = as.numeric(char2dms(as.character(wind.loc[["Longitude"]]))) > coordinates(wind.loc) = ~x+y > proj4string(wind.loc) = "+proj=longlat +datum=WGS84 +ellps=WGS84" > > wind$time = ISOdate(wind$year+1900, wind$month, wind$day) > wind$jday = as.numeric(format(wind$time, '%j')) > stations = 4:15 > windsqrt = sqrt(0.5148 * wind[stations]) # knots -> m/s > Jday = 1:366 > daymeans = colMeans( + sapply(split(windsqrt - colMeans(windsqrt), wind$jday), colMeans)) > meanwind = lowess(daymeans ~ Jday, f = 0.1)$y[wind$jday] > velocities = apply(windsqrt, 2, function(x) { x - meanwind }) > # match order of columns in wind to Code in wind.loc; > # convert to utm zone 29, to be able to do interpolation in > # proper Euclidian (projected) space: > pts = coordinates(wind.loc[match(names(wind[4:15]), wind.loc$Code),]) > pts = SpatialPoints(pts) > if (require(sp, quietly = TRUE) && require(maps, quietly = TRUE)) { + proj4string(pts) = "+proj=longlat +datum=WGS84 +ellps=WGS84" + utm29 = "+proj=utm +zone=29 +datum=WGS84 +ellps=WGS84" + pts = as(st_transform(st_as_sfc(pts), utm29), "Spatial") + # note the t() in: + w = STFDF(pts, wind$time, data.frame(values = as.vector(t(velocities)))) + + library(mapdata) + mp = map("worldHires", xlim = c(-11,-5.4), ylim = c(51,55.5), plot=FALSE) + sf = st_transform(st_as_sf(mp, fill = FALSE), utm29) + m = as(sf, "Spatial") + + # setup grid + grd = SpatialPixels(SpatialPoints(makegrid(m, n = 300)), + proj4string = m@proj4string) + # grd$t = rep(1, nrow(grd)) + #coordinates(grd) = ~x1+x2 + #gridded(grd)=TRUE + + # select april 1961: + w = w[, "1961-04"] + + covfn = function(x, y = x) { + du = spDists(coordinates(x), coordinates(y)) + t1 = as.numeric(index(x)) # time in seconds + t2 = as.numeric(index(y)) # time in seconds + dt = abs(outer(t1, t2, "-")) + # separable, product covariance model: + 0.6 * exp(-du/750000) * exp(-dt / (1.5 * 3600 * 24)) + } + + n = 10 + tgrd = seq(min(index(w)), max(index(w)), length=n) + pred = krige0(sqrt(values)~1, w, STF(grd, tgrd), covfn) + layout = list(list("sp.points", pts, first=F, cex=.5), + list("sp.lines", m, col='grey')) + wind.pr0 = STFDF(grd, tgrd, data.frame(var1.pred = pred)) + + v = vgmST("separable", + space = vgm(1, "Exp", 750000), + time = vgm(1, "Exp", 1.5 * 3600 * 24), + sill = 0.6) + wind.ST = krigeST(sqrt(values)~1, w, STF(grd, tgrd), v) + + all.equal(wind.pr0, wind.ST) + + # stars: + df = data.frame(a = rep(NA, 324*10)) + s = STF(grd, tgrd) + newd = addAttrToGeom(s, df) + wind.sta = krigeST(sqrt(values)~1, st_as_stars(w), st_as_stars(newd), v) + # 1 + plot(stars::st_as_stars(wind.ST), breaks = "equal", col = sf.colors()) + # 2 + stplot(wind.ST) + # 3 + plot(wind.sta, breaks = "equal", col = sf.colors()) + st_as_stars(wind.ST)[[1]][1:3,1:3,1] + (wind.sta)[[1]][1:3,1:3,1] + st_bbox(wind.sta) + bbox(wind.ST) + all.equal(wind.sta, stars::st_as_stars(wind.ST), check.attributes = FALSE) + + # 4: roundtrip wind.sta->STFDF->stars + rt = stars::st_as_stars(as(wind.sta, "STFDF")) + plot(rt, breaks = "equal", col = sf.colors()) + # 5: + stplot(as(wind.sta, "STFDF")) + st_bbox(rt) + + # 6: + stplot(as(st_as_stars(wind.ST), "STFDF")) + } Flavor: r-devel-linux-x86_64-fedora-gcc

Package hexbin

Current CRAN status: NOTE: 2, OK: 13

Version: 1.28.5
Check: re-building of vignette outputs
Result: NOTE Note: skipping ‘hexagon_binning.Rnw’ due to unavailable dependencies: 'marray' Flavors: r-devel-macos-arm64, r-devel-macos-x86_64

Package intervals

Current CRAN status: OK: 15

Package lwgeom

Current CRAN status: NOTE: 6, OK: 9

Version: 0.2-14
Check: installed package size
Result: NOTE installed size is 24.4Mb sub-directories of 1Mb or more: libs 24.2Mb Flavors: r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-arm64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Package s2

Current CRAN status: NOTE: 15

Version: 1.1.7
Check: C++ specification
Result: NOTE Specified C++14: please drop specification unless essential Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc, r-devel-linux-x86_64-fedora-clang, r-devel-linux-x86_64-fedora-gcc, r-devel-macos-arm64, r-devel-macos-x86_64, r-devel-windows-x86_64, r-patched-linux-x86_64, r-release-linux-x86_64, r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-arm64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Version: 1.1.7
Check: installed package size
Result: NOTE installed size is 36.5Mb sub-directories of 1Mb or more: libs 35.4Mb Flavors: r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-arm64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Package sf

Current CRAN status: NOTE: 12, OK: 3

Version: 1.0-19
Check: top-level files
Result: NOTE possible bashism in configure.ac line 25 (test -a/-o): if test [$RVER_MAJOR -lt 3] -o [$RVER_MAJOR -eq 3 -a $RVER_MINOR -lt 3]; then possible bashism in configure.ac line 120 (test -a/-o): if test [${GDAL_MAJ_VER} -eq 3] -a [${GDAL_MIN_VER} -eq 6] -a [${GDAL_PATCH_VER} -eq 0] ; then Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc, r-devel-linux-x86_64-fedora-clang, r-devel-linux-x86_64-fedora-gcc

Version: 1.0-19
Check: for unstated dependencies in ‘demo’
Result: NOTE '::' or ':::' import not declared from: ‘wkb’ 'library' or 'require' calls not declared from: ‘RgoogleMaps’ ‘animation’ ‘cshapes’ ‘ggmap’ Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc

Version: 1.0-19
Check: tests
Result: NOTE Running ‘aggregate.R’ Comparing ‘aggregate.Rout’ to ‘aggregate.Rout.save’ ... OK Running ‘cast.R’ [4s/12s] Comparing ‘cast.Rout’ to ‘cast.Rout.save’ ... OK Running ‘crs.R’ Comparing ‘crs.Rout’ to ‘crs.Rout.save’ ... OK Running ‘dist.R’ Comparing ‘dist.Rout’ to ‘dist.Rout.save’ ... OK Running ‘dplyr.R’ [7s/18s] Comparing ‘dplyr.Rout’ to ‘dplyr.Rout.save’ ... OK Running ‘empty.R’ Comparing ‘empty.Rout’ to ‘empty.Rout.save’ ... OK Running ‘full.R’ Comparing ‘full.Rout’ to ‘full.Rout.save’ ...47c47 < IllegalArgumentException: Invalid number of points in LinearRing found 2 - must be 0 or >= 4 --- > IllegalArgumentException: Invalid number of points in LinearRing found 2 - must be 0 or >= 3 54c54 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 63c63 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 80c80 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 89c89 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 102c102 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) Running ‘gdal_geom.R’ Comparing ‘gdal_geom.Rout’ to ‘gdal_geom.Rout.save’ ... OK Running ‘geos.R’ [55s/112s] Comparing ‘geos.Rout’ to ‘geos.Rout.save’ ... OK Running ‘graticule.R’ [6s/14s] Comparing ‘graticule.Rout’ to ‘graticule.Rout.save’ ... OK Running ‘grid.R’ Comparing ‘grid.Rout’ to ‘grid.Rout.save’ ... OK Running ‘maps.R’ Comparing ‘maps.Rout’ to ‘maps.Rout.save’ ... OK Running ‘plot.R’ [15s/35s] Comparing ‘plot.Rout’ to ‘plot.Rout.save’ ... OK Running ‘read.R’ [5s/11s] Comparing ‘read.Rout’ to ‘read.Rout.save’ ...274a275,279 > Warning messages: > 1: In CPL_read_ogr(dsn, layer, query, as.character(options), quiet, : > GDAL Message 1: Field with same name (identifier) already exists in (PointTimeSeriesObservation). Skipping newer ones > 2: In CPL_read_ogr(dsn, layer, query, as.character(options), quiet, : > GDAL Message 1: Field with same name (name) already exists in (PointTimeSeriesObservation). Skipping newer ones Running ‘roundtrip.R’ Comparing ‘roundtrip.Rout’ to ‘roundtrip.Rout.save’ ... OK Running ‘s2.R’ Comparing ‘s2.Rout’ to ‘s2.Rout.save’ ... OK Running ‘sample.R’ Comparing ‘sample.Rout’ to ‘sample.Rout.save’ ... OK Running ‘sfc.R’ [28s/60s] Comparing ‘sfc.Rout’ to ‘sfc.Rout.save’ ... OK Running ‘sfg.R’ Comparing ‘sfg.Rout’ to ‘sfg.Rout.save’ ... OK Running ‘spatstat.R’ [8s/16s] Comparing ‘spatstat.Rout’ to ‘spatstat.Rout.save’ ... OK Running ‘stars.R’ [9s/17s] Comparing ‘stars.Rout’ to ‘stars.Rout.save’ ...107c107 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 118c118 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) Running ‘testthat.R’ [38s/49s] Running ‘units.R’ Comparing ‘units.Rout’ to ‘units.Rout.save’ ... OK Running ‘wkb.R’ Comparing ‘wkb.Rout’ to ‘wkb.Rout.save’ ... OK Flavor: r-devel-linux-x86_64-fedora-clang

Version: 1.0-19
Check: tests
Result: NOTE Running ‘aggregate.R’ Comparing ‘aggregate.Rout’ to ‘aggregate.Rout.save’ ... OK Running ‘cast.R’ Comparing ‘cast.Rout’ to ‘cast.Rout.save’ ... OK Running ‘crs.R’ Comparing ‘crs.Rout’ to ‘crs.Rout.save’ ... OK Running ‘dist.R’ Comparing ‘dist.Rout’ to ‘dist.Rout.save’ ... OK Running ‘dplyr.R’ Comparing ‘dplyr.Rout’ to ‘dplyr.Rout.save’ ... OK Running ‘empty.R’ Comparing ‘empty.Rout’ to ‘empty.Rout.save’ ... OK Running ‘full.R’ Comparing ‘full.Rout’ to ‘full.Rout.save’ ...47c47 < IllegalArgumentException: Invalid number of points in LinearRing found 2 - must be 0 or >= 4 --- > IllegalArgumentException: Invalid number of points in LinearRing found 2 - must be 0 or >= 3 54c54 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 63c63 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 80c80 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 89c89 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 102c102 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) Running ‘gdal_geom.R’ Comparing ‘gdal_geom.Rout’ to ‘gdal_geom.Rout.save’ ... OK Running ‘geos.R’ [48s/56s] Comparing ‘geos.Rout’ to ‘geos.Rout.save’ ... OK Running ‘graticule.R’ Comparing ‘graticule.Rout’ to ‘graticule.Rout.save’ ... OK Running ‘grid.R’ Comparing ‘grid.Rout’ to ‘grid.Rout.save’ ... OK Running ‘maps.R’ Comparing ‘maps.Rout’ to ‘maps.Rout.save’ ... OK Running ‘plot.R’ [14s/17s] Comparing ‘plot.Rout’ to ‘plot.Rout.save’ ... OK Running ‘read.R’ Comparing ‘read.Rout’ to ‘read.Rout.save’ ...274a275,279 > Warning messages: > 1: In CPL_read_ogr(dsn, layer, query, as.character(options), quiet, : > GDAL Message 1: Field with same name (identifier) already exists in (PointTimeSeriesObservation). Skipping newer ones > 2: In CPL_read_ogr(dsn, layer, query, as.character(options), quiet, : > GDAL Message 1: Field with same name (name) already exists in (PointTimeSeriesObservation). Skipping newer ones Running ‘roundtrip.R’ Comparing ‘roundtrip.Rout’ to ‘roundtrip.Rout.save’ ... OK Running ‘s2.R’ Comparing ‘s2.Rout’ to ‘s2.Rout.save’ ... OK Running ‘sample.R’ Comparing ‘sample.Rout’ to ‘sample.Rout.save’ ... OK Running ‘sfc.R’ [24s/30s] Comparing ‘sfc.Rout’ to ‘sfc.Rout.save’ ... OK Running ‘sfg.R’ Comparing ‘sfg.Rout’ to ‘sfg.Rout.save’ ... OK Running ‘spatstat.R’ Comparing ‘spatstat.Rout’ to ‘spatstat.Rout.save’ ... OK Running ‘stars.R’ Comparing ‘stars.Rout’ to ‘stars.Rout.save’ ...107c107 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 118c118 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) Running ‘testthat.R’ [33s/40s] Running ‘units.R’ Comparing ‘units.Rout’ to ‘units.Rout.save’ ... OK Running ‘wkb.R’ Comparing ‘wkb.Rout’ to ‘wkb.Rout.save’ ... OK Flavor: r-devel-linux-x86_64-fedora-gcc

Version: 1.0-19
Check: tests
Result: NOTE Running ‘aggregate.R’ [1s/1s] Comparing ‘aggregate.Rout’ to ‘aggregate.Rout.save’ ... OK Running ‘cast.R’ [1s/1s] Comparing ‘cast.Rout’ to ‘cast.Rout.save’ ... OK Running ‘crs.R’ [1s/1s] Comparing ‘crs.Rout’ to ‘crs.Rout.save’ ... OK Running ‘dist.R’ [1s/1s] Comparing ‘dist.Rout’ to ‘dist.Rout.save’ ... OK Running ‘dplyr.R’ [2s/2s] Comparing ‘dplyr.Rout’ to ‘dplyr.Rout.save’ ... OK Running ‘empty.R’ [0s/1s] Comparing ‘empty.Rout’ to ‘empty.Rout.save’ ... OK Running ‘full.R’ [1s/1s] Comparing ‘full.Rout’ to ‘full.Rout.save’ ...47c47 < IllegalArgumentException: Invalid number of points in LinearRing found 2 - must be 0 or >= 4 --- > IllegalArgumentException: Invalid number of points in LinearRing found 2 - must be 0 or >= 3 54c54 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 63c63 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 80c80 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 89c89 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 102c102 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) Running ‘gdal_geom.R’ [1s/1s] Comparing ‘gdal_geom.Rout’ to ‘gdal_geom.Rout.save’ ... OK Running ‘geos.R’ [10s/11s] Comparing ‘geos.Rout’ to ‘geos.Rout.save’ ... OK Running ‘graticule.R’ [1s/2s] Comparing ‘graticule.Rout’ to ‘graticule.Rout.save’ ... OK Running ‘grid.R’ [1s/1s] Comparing ‘grid.Rout’ to ‘grid.Rout.save’ ... OK Running ‘maps.R’ [1s/1s] Comparing ‘maps.Rout’ to ‘maps.Rout.save’ ... OK Running ‘plot.R’ [4s/5s] Comparing ‘plot.Rout’ to ‘plot.Rout.save’ ... OK Running ‘read.R’ [1s/1s] Comparing ‘read.Rout’ to ‘read.Rout.save’ ...187,189c187,254 < Warning message: < In library(package, lib.loc = lib.loc, character.only = TRUE, logical.return = TRUE, : < there is no package called 'RSQLite' --- > Simple feature collection with 155 features and 13 fields > Geometry type: POINT > Dimension: XY > Bounding box: xmin: 178605 ymin: 329714 xmax: 181390 ymax: 333611 > CRS: NA > First 3 features: > ogc_fid cadmium copper lead zinc elev dist om ffreq soil lime > 1 1 11.7 85 299 1022 7.909 0.00135803 13.6 1 1 1 > 2 2 8.6 81 277 1141 6.983 0.01222430 14.0 1 1 1 > 3 3 6.5 68 199 640 7.800 0.10302900 13.0 1 1 1 > landuse dist.m GEOMETRY > 1 Ah 50 POINT (181072 333611) > 2 Ah 30 POINT (181025 333558) > 3 Ah 150 POINT (181165 333537) > Simple feature collection with 100 features and 15 fields > Geometry type: MULTIPOLYGON > Dimension: XY > Bounding box: xmin: -84.32385 ymin: 33.88199 xmax: -75.45698 ymax: 36.58965 > CRS: NA > First 3 features: > ogc_fid area perimeter cnty_ cnty_id name fips fipsno cress_id bir74 > 1 1 0.114 1.442 1825 1825 Ashe 37009 37009 5 1091 > 2 2 0.061 1.231 1827 1827 Alleghany 37005 37005 3 487 > 3 3 0.143 1.630 1828 1828 Surry 37171 37171 86 3188 > sid74 nwbir74 bir79 sid79 nwbir79 GEOMETRY > 1 1 10 1364 0 19 MULTIPOLYGON (((-81.47276 3... > 2 0 10 542 3 12 MULTIPOLYGON (((-81.23989 3... > 3 5 208 3616 6 260 MULTIPOLYGON (((-80.45634 3... > Integer64 values larger than 9.0072e+15 lost significance after conversion to double; > use argument int64_as_string = TRUE to import them lossless, as character > Simple feature collection with 1 feature and 2 fields > Geometry type: POINT > Dimension: XY > Bounding box: xmin: 0 ymin: 1 xmax: 0 ymax: 1 > CRS: NA > a bigint GEOMETRY > 1 1 4.611686e+18 POINT (0 1) > Simple feature collection with 1 feature and 2 fields > Geometry type: POINT > Dimension: XY > Bounding box: xmin: 0 ymin: 1 xmax: 0 ymax: 1 > CRS: NA > a bigint GEOMETRY > 1 1 4611686018427387904 POINT (0 1) > Simple feature collection with 10 features and 2 fields > Geometry type: LINESTRING > Dimension: XY > Bounding box: xmin: 645003 ymin: 4822568 xmax: 748805.6 ymax: 4992001 > Projected CRS: WGS 84 / UTM zone 32N > First 1 features: > PK_UID Name Geometry > 1 1 Unknown LINESTRING (668540.7 485826... > Simple feature collection with 8101 features and 6 fields > Geometry type: POINT > Dimension: XY > Bounding box: xmin: 319224 ymin: 3934674 xmax: 1308585 ymax: 5214373 > Projected CRS: WGS 84 / UTM zone 32N > First 1 features: > PK_UID Name Peoples LocalCounc County Region Geometry > 1 1 Brozolo 435 1 0 0 POINT (427002.8 4996361) > Simple feature collection with 10 features and 2 fields > Geometry type: MULTIPOLYGON > Dimension: XY > Bounding box: xmin: 378359.8 ymin: 4198234 xmax: 1211486 ymax: 5036803 > Projected CRS: WGS 84 / UTM zone 32N > First 1 features: > PK_UID Name Geometry > 1 1 VENETO MULTIPOLYGON (((752912.3 50... 209a275,279 > Warning messages: > 1: In CPL_read_ogr(dsn, layer, query, as.character(options), quiet, : > GDAL Message 1: Field with same name (identifier) already exists in (PointTimeSeriesObservation). Skipping newer ones > 2: In CPL_read_ogr(dsn, layer, query, as.character(options), quiet, : > GDAL Message 1: Field with same name (name) already exists in (PointTimeSeriesObservation). Skipping newer ones Running ‘roundtrip.R’ [1s/1s] Comparing ‘roundtrip.Rout’ to ‘roundtrip.Rout.save’ ... OK Running ‘s2.R’ [1s/1s] Comparing ‘s2.Rout’ to ‘s2.Rout.save’ ... OK Running ‘sample.R’ [1s/1s] Comparing ‘sample.Rout’ to ‘sample.Rout.save’ ... OK Running ‘sfc.R’ [5s/6s] Comparing ‘sfc.Rout’ to ‘sfc.Rout.save’ ... OK Running ‘sfg.R’ [0s/0s] Comparing ‘sfg.Rout’ to ‘sfg.Rout.save’ ... OK Running ‘spatstat.R’ [1s/1s] Comparing ‘spatstat.Rout’ to ‘spatstat.Rout.save’ ... OK Running ‘stars.R’ [2s/2s] Comparing ‘stars.Rout’ to ‘stars.Rout.save’ ...107c107 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 118c118 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) Running ‘testthat.R’ [7s/8s] Running ‘units.R’ [0s/1s] Comparing ‘units.Rout’ to ‘units.Rout.save’ ... OK Running ‘wkb.R’ [0s/0s] Comparing ‘wkb.Rout’ to ‘wkb.Rout.save’ ... OK Flavor: r-devel-macos-arm64

Version: 1.0-19
Check: tests
Result: NOTE Running ‘aggregate.R’ [1s/1s] Comparing ‘aggregate.Rout’ to ‘aggregate.Rout.save’ ... OK Running ‘cast.R’ [1s/2s] Comparing ‘cast.Rout’ to ‘cast.Rout.save’ ... OK Running ‘crs.R’ [1s/1s] Comparing ‘crs.Rout’ to ‘crs.Rout.save’ ... OK Running ‘dist.R’ [1s/1s] Comparing ‘dist.Rout’ to ‘dist.Rout.save’ ... OK Running ‘dplyr.R’ [3s/4s] Comparing ‘dplyr.Rout’ to ‘dplyr.Rout.save’ ... OK Running ‘empty.R’ [1s/1s] Comparing ‘empty.Rout’ to ‘empty.Rout.save’ ... OK Running ‘full.R’ [1s/2s] Comparing ‘full.Rout’ to ‘full.Rout.save’ ...47c47 < IllegalArgumentException: Invalid number of points in LinearRing found 2 - must be 0 or >= 4 --- > IllegalArgumentException: Invalid number of points in LinearRing found 2 - must be 0 or >= 3 54c54 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 63c63 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 80c80 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 89c89 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 102c102 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) Running ‘gdal_geom.R’ [1s/3s] Comparing ‘gdal_geom.Rout’ to ‘gdal_geom.Rout.save’ ... OK Running ‘geos.R’ [17s/33s] Comparing ‘geos.Rout’ to ‘geos.Rout.save’ ... OK Running ‘graticule.R’ [2s/5s] Comparing ‘graticule.Rout’ to ‘graticule.Rout.save’ ... OK Running ‘grid.R’ [1s/2s] Comparing ‘grid.Rout’ to ‘grid.Rout.save’ ... OK Running ‘maps.R’ [2s/3s] Comparing ‘maps.Rout’ to ‘maps.Rout.save’ ... OK Running ‘plot.R’ [7s/11s] Comparing ‘plot.Rout’ to ‘plot.Rout.save’ ... OK Running ‘read.R’ [1s/2s] Comparing ‘read.Rout’ to ‘read.Rout.save’ ...187,189c187,254 < Warning message: < In library(package, lib.loc = lib.loc, character.only = TRUE, logical.return = TRUE, : < there is no package called 'RSQLite' --- > Simple feature collection with 155 features and 13 fields > Geometry type: POINT > Dimension: XY > Bounding box: xmin: 178605 ymin: 329714 xmax: 181390 ymax: 333611 > CRS: NA > First 3 features: > ogc_fid cadmium copper lead zinc elev dist om ffreq soil lime > 1 1 11.7 85 299 1022 7.909 0.00135803 13.6 1 1 1 > 2 2 8.6 81 277 1141 6.983 0.01222430 14.0 1 1 1 > 3 3 6.5 68 199 640 7.800 0.10302900 13.0 1 1 1 > landuse dist.m GEOMETRY > 1 Ah 50 POINT (181072 333611) > 2 Ah 30 POINT (181025 333558) > 3 Ah 150 POINT (181165 333537) > Simple feature collection with 100 features and 15 fields > Geometry type: MULTIPOLYGON > Dimension: XY > Bounding box: xmin: -84.32385 ymin: 33.88199 xmax: -75.45698 ymax: 36.58965 > CRS: NA > First 3 features: > ogc_fid area perimeter cnty_ cnty_id name fips fipsno cress_id bir74 > 1 1 0.114 1.442 1825 1825 Ashe 37009 37009 5 1091 > 2 2 0.061 1.231 1827 1827 Alleghany 37005 37005 3 487 > 3 3 0.143 1.630 1828 1828 Surry 37171 37171 86 3188 > sid74 nwbir74 bir79 sid79 nwbir79 GEOMETRY > 1 1 10 1364 0 19 MULTIPOLYGON (((-81.47276 3... > 2 0 10 542 3 12 MULTIPOLYGON (((-81.23989 3... > 3 5 208 3616 6 260 MULTIPOLYGON (((-80.45634 3... > Integer64 values larger than 9.0072e+15 lost significance after conversion to double; > use argument int64_as_string = TRUE to import them lossless, as character > Simple feature collection with 1 feature and 2 fields > Geometry type: POINT > Dimension: XY > Bounding box: xmin: 0 ymin: 1 xmax: 0 ymax: 1 > CRS: NA > a bigint GEOMETRY > 1 1 4.611686e+18 POINT (0 1) > Simple feature collection with 1 feature and 2 fields > Geometry type: POINT > Dimension: XY > Bounding box: xmin: 0 ymin: 1 xmax: 0 ymax: 1 > CRS: NA > a bigint GEOMETRY > 1 1 4611686018427387904 POINT (0 1) > Simple feature collection with 10 features and 2 fields > Geometry type: LINESTRING > Dimension: XY > Bounding box: xmin: 645003 ymin: 4822568 xmax: 748805.6 ymax: 4992001 > Projected CRS: WGS 84 / UTM zone 32N > First 1 features: > PK_UID Name Geometry > 1 1 Unknown LINESTRING (668540.7 485826... > Simple feature collection with 8101 features and 6 fields > Geometry type: POINT > Dimension: XY > Bounding box: xmin: 319224 ymin: 3934674 xmax: 1308585 ymax: 5214373 > Projected CRS: WGS 84 / UTM zone 32N > First 1 features: > PK_UID Name Peoples LocalCounc County Region Geometry > 1 1 Brozolo 435 1 0 0 POINT (427002.8 4996361) > Simple feature collection with 10 features and 2 fields > Geometry type: MULTIPOLYGON > Dimension: XY > Bounding box: xmin: 378359.8 ymin: 4198234 xmax: 1211486 ymax: 5036803 > Projected CRS: WGS 84 / UTM zone 32N > First 1 features: > PK_UID Name Geometry > 1 1 VENETO MULTIPOLYGON (((752912.3 50... 209a275,279 > Warning messages: > 1: In CPL_read_ogr(dsn, layer, query, as.character(options), quiet, : > GDAL Message 1: Field with same name (identifier) already exists in (PointTimeSeriesObservation). Skipping newer ones > 2: In CPL_read_ogr(dsn, layer, query, as.character(options), quiet, : > GDAL Message 1: Field with same name (name) already exists in (PointTimeSeriesObservation). Skipping newer ones Running ‘roundtrip.R’ [2s/2s] Comparing ‘roundtrip.Rout’ to ‘roundtrip.Rout.save’ ... OK Running ‘s2.R’ [2s/3s] Comparing ‘s2.Rout’ to ‘s2.Rout.save’ ... OK Running ‘sample.R’ [1s/1s] Comparing ‘sample.Rout’ to ‘sample.Rout.save’ ... OK Running ‘sfc.R’ [9s/14s] Comparing ‘sfc.Rout’ to ‘sfc.Rout.save’ ... OK Running ‘sfg.R’ [1s/1s] Comparing ‘sfg.Rout’ to ‘sfg.Rout.save’ ... OK Running ‘spatstat.R’ [3s/4s] Comparing ‘spatstat.Rout’ to ‘spatstat.Rout.save’ ... OK Running ‘stars.R’ [3s/5s] Comparing ‘stars.Rout’ to ‘stars.Rout.save’ ...107c107 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) 118c118 < Geodetic CRS: WGS 84 --- > Geodetic CRS: WGS 84 (CRS84) Running ‘testthat.R’ [13s/20s] Running ‘units.R’ [1s/1s] Comparing ‘units.Rout’ to ‘units.Rout.save’ ... OK Running ‘wkb.R’ [1s/1s] Comparing ‘wkb.Rout’ to ‘wkb.Rout.save’ ... OK Flavor: r-devel-macos-x86_64

Version: 1.0-19
Check: installed package size
Result: NOTE installed size is 265.4Mb sub-directories of 1Mb or more: doc 1.8Mb libs 258.9Mb sqlite 1.5Mb Flavors: r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-arm64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Package sp

Current CRAN status: NOTE: 5, OK: 10

Version: 2.2-0
Check: installed package size
Result: NOTE installed size is 9.2Mb sub-directories of 1Mb or more: doc 7.6Mb Flavors: r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Package spacetime

Current CRAN status: NOTE: 1, OK: 14

Version: 1.3-2
Check: for unstated dependencies in ‘demo’
Result: NOTE 'library' or 'require' calls not declared from: ‘googleVis’ ‘spdep’ Flavor: r-devel-linux-x86_64-debian-clang

Package stars

Current CRAN status: NOTE: 12, OK: 3

Version: 0.6-8
Check: tests
Result: NOTE Running ‘aggregate.R’ [23s/52s] Comparing ‘aggregate.Rout’ to ‘aggregate.Rout.save’ ... OK Running ‘align.R’ Comparing ‘align.Rout’ to ‘align.Rout.save’ ... OK Running ‘area.R’ Comparing ‘area.Rout’ to ‘area.Rout.save’ ... OK Running ‘crop.R’ [9s/21s] Comparing ‘crop.Rout’ to ‘crop.Rout.save’ ... OK Running ‘curvilinear.R’ Comparing ‘curvilinear.Rout’ to ‘curvilinear.Rout.save’ ... OK Running ‘datasets.R’ Comparing ‘datasets.Rout’ to ‘datasets.Rout.save’ ... OK Running ‘dimensions.R’ Comparing ‘dimensions.Rout’ to ‘dimensions.Rout.save’ ... OK Running ‘downsample.R’ Comparing ‘downsample.Rout’ to ‘downsample.Rout.save’ ... OK Running ‘ee.R’ Comparing ‘ee.Rout’ to ‘ee.Rout.save’ ... OK Running ‘extract.R’ Comparing ‘extract.Rout’ to ‘extract.Rout.save’ ... OK Running ‘gridtypes.R’ Comparing ‘gridtypes.Rout’ to ‘gridtypes.Rout.save’ ...246,247c246,247 < lon 1 3 WGS 84 FALSE [3x3] 0.03,...,0.89 [x] < lat 1 3 WGS 84 FALSE [3x3] 0.021,...,0.89 [y] --- > lon 1 3 WGS 84 (CRS84) FALSE [3x3] 0.03,...,0.89 [x] > lat 1 3 WGS 84 (CRS84) FALSE [3x3] 0.021,...,0.89 [y] Running ‘mdim.R’ Comparing ‘mdim.Rout’ to ‘mdim.Rout.save’ ... OK Running ‘nc.R’ [4s/10s] Comparing ‘nc.Rout’ to ‘nc.Rout.save’ ... OK Running ‘plot.R’ [6s/12s] Comparing ‘plot.Rout’ to ‘plot.Rout.save’ ... OK Running ‘predict.R’ [7s/17s] Comparing ‘predict.Rout’ to ‘predict.Rout.save’ ... OK Running ‘proxy.R’ [5s/11s] Comparing ‘proxy.Rout’ to ‘proxy.Rout.save’ ... OK Running ‘raster.R’ [21s/44s] Comparing ‘raster.Rout’ to ‘raster.Rout.save’ ...103,104c103,104 < x 1 10 -180 36 WGS 84 NULL [x] < y 1 10 90 -18 WGS 84 NULL [y] --- > x 1 10 -180 36 WGS 84 (CRS84) NULL [x] > y 1 10 90 -18 WGS 84 (CRS84) NULL [y] Running ‘rasterize.R’ [5s/12s] Comparing ‘rasterize.Rout’ to ‘rasterize.Rout.save’ ... OK Running ‘rectilinear.R’ Comparing ‘rectilinear.Rout’ to ‘rectilinear.Rout.save’ ... OK Running ‘redimension.R’ Comparing ‘redimension.Rout’ to ‘redimension.Rout.save’ ... OK Running ‘sf.R’ Comparing ‘sf.Rout’ to ‘sf.Rout.save’ ... OK Running ‘sp.R’ Comparing ‘sp.Rout’ to ‘sp.Rout.save’ ... OK Running ‘spacetime.R’ [5s/12s] Comparing ‘spacetime.Rout’ to ‘spacetime.Rout.save’ ... OK Running ‘spatstat.R’ [6s/13s] Comparing ‘spatstat.Rout’ to ‘spatstat.Rout.save’ ... OK Running ‘stars.R’ [14s/29s] Comparing ‘stars.Rout’ to ‘stars.Rout.save’ ...249,250c249,250 < x 1 360 -180 1 WGS 84 [x] < y 1 180 90 -1 WGS 84 [y] --- > x 1 360 -180 1 WGS 84 (CRS84) [x] > y 1 180 90 -1 WGS 84 (CRS84) [y] Running ‘subset.R’ Comparing ‘subset.Rout’ to ‘subset.Rout.save’ ... OK Running ‘testthat.R’ [30s/52s] Running ‘tidy.R’ Comparing ‘tidy.Rout’ to ‘tidy.Rout.save’ ... OK Running ‘transform.R’ Comparing ‘transform.Rout’ to ‘transform.Rout.save’ ... OK Running ‘warp.R’ Comparing ‘warp.Rout’ to ‘warp.Rout.save’ ... OK Running ‘write.R’ Comparing ‘write.Rout’ to ‘write.Rout.save’ ... OK Flavor: r-devel-linux-x86_64-fedora-clang

Version: 0.6-8
Check: tests
Result: NOTE Running ‘aggregate.R’ [19s/25s] Comparing ‘aggregate.Rout’ to ‘aggregate.Rout.save’ ... OK Running ‘align.R’ Comparing ‘align.Rout’ to ‘align.Rout.save’ ... OK Running ‘area.R’ Comparing ‘area.Rout’ to ‘area.Rout.save’ ... OK Running ‘crop.R’ [9s/12s] Comparing ‘crop.Rout’ to ‘crop.Rout.save’ ... OK Running ‘curvilinear.R’ Comparing ‘curvilinear.Rout’ to ‘curvilinear.Rout.save’ ... OK Running ‘datasets.R’ Comparing ‘datasets.Rout’ to ‘datasets.Rout.save’ ... OK Running ‘dimensions.R’ Comparing ‘dimensions.Rout’ to ‘dimensions.Rout.save’ ... OK Running ‘downsample.R’ Comparing ‘downsample.Rout’ to ‘downsample.Rout.save’ ... OK Running ‘ee.R’ Comparing ‘ee.Rout’ to ‘ee.Rout.save’ ... OK Running ‘extract.R’ Comparing ‘extract.Rout’ to ‘extract.Rout.save’ ... OK Running ‘gridtypes.R’ Comparing ‘gridtypes.Rout’ to ‘gridtypes.Rout.save’ ...246,247c246,247 < lon 1 3 WGS 84 FALSE [3x3] 0.03,...,0.89 [x] < lat 1 3 WGS 84 FALSE [3x3] 0.021,...,0.89 [y] --- > lon 1 3 WGS 84 (CRS84) FALSE [3x3] 0.03,...,0.89 [x] > lat 1 3 WGS 84 (CRS84) FALSE [3x3] 0.021,...,0.89 [y] Running ‘mdim.R’ Comparing ‘mdim.Rout’ to ‘mdim.Rout.save’ ... OK Running ‘nc.R’ Comparing ‘nc.Rout’ to ‘nc.Rout.save’ ... OK Running ‘plot.R’ Comparing ‘plot.Rout’ to ‘plot.Rout.save’ ... OK Running ‘predict.R’ Comparing ‘predict.Rout’ to ‘predict.Rout.save’ ... OK Running ‘proxy.R’ Comparing ‘proxy.Rout’ to ‘proxy.Rout.save’ ... OK Running ‘raster.R’ [18s/20s] Comparing ‘raster.Rout’ to ‘raster.Rout.save’ ...103,104c103,104 < x 1 10 -180 36 WGS 84 NULL [x] < y 1 10 90 -18 WGS 84 NULL [y] --- > x 1 10 -180 36 WGS 84 (CRS84) NULL [x] > y 1 10 90 -18 WGS 84 (CRS84) NULL [y] Running ‘rasterize.R’ Comparing ‘rasterize.Rout’ to ‘rasterize.Rout.save’ ... OK Running ‘rectilinear.R’ Comparing ‘rectilinear.Rout’ to ‘rectilinear.Rout.save’ ... OK Running ‘redimension.R’ Comparing ‘redimension.Rout’ to ‘redimension.Rout.save’ ... OK Running ‘sf.R’ Comparing ‘sf.Rout’ to ‘sf.Rout.save’ ... OK Running ‘sp.R’ Comparing ‘sp.Rout’ to ‘sp.Rout.save’ ... OK Running ‘spacetime.R’ Comparing ‘spacetime.Rout’ to ‘spacetime.Rout.save’ ... OK Running ‘spatstat.R’ Comparing ‘spatstat.Rout’ to ‘spatstat.Rout.save’ ... OK Running ‘stars.R’ [15s/20s] Comparing ‘stars.Rout’ to ‘stars.Rout.save’ ...249,250c249,250 < x 1 360 -180 1 WGS 84 [x] < y 1 180 90 -1 WGS 84 [y] --- > x 1 360 -180 1 WGS 84 (CRS84) [x] > y 1 180 90 -1 WGS 84 (CRS84) [y] Running ‘subset.R’ Comparing ‘subset.Rout’ to ‘subset.Rout.save’ ... OK Running ‘testthat.R’ [26s/30s] Running ‘tidy.R’ Comparing ‘tidy.Rout’ to ‘tidy.Rout.save’ ... OK Running ‘transform.R’ Comparing ‘transform.Rout’ to ‘transform.Rout.save’ ... OK Running ‘warp.R’ Comparing ‘warp.Rout’ to ‘warp.Rout.save’ ... OK Running ‘write.R’ Comparing ‘write.Rout’ to ‘write.Rout.save’ ... OK Flavor: r-devel-linux-x86_64-fedora-gcc

Version: 0.6-8
Check: tests
Result: NOTE Running ‘aggregate.R’ [3s/3s] Comparing ‘aggregate.Rout’ to ‘aggregate.Rout.save’ ... OK Running ‘align.R’ [1s/1s] Comparing ‘align.Rout’ to ‘align.Rout.save’ ... OK Running ‘area.R’ [0s/0s] Comparing ‘area.Rout’ to ‘area.Rout.save’ ... OK Running ‘crop.R’ [2s/2s] Comparing ‘crop.Rout’ to ‘crop.Rout.save’ ... OK Running ‘curvilinear.R’ [0s/0s] Comparing ‘curvilinear.Rout’ to ‘curvilinear.Rout.save’ ... OK Running ‘datasets.R’ [0s/0s] Comparing ‘datasets.Rout’ to ‘datasets.Rout.save’ ... OK Running ‘dimensions.R’ [1s/1s] Comparing ‘dimensions.Rout’ to ‘dimensions.Rout.save’ ... OK Running ‘downsample.R’ [0s/1s] Comparing ‘downsample.Rout’ to ‘downsample.Rout.save’ ... OK Running ‘ee.R’ [1s/1s] Comparing ‘ee.Rout’ to ‘ee.Rout.save’ ... OK Running ‘extract.R’ [0s/0s] Comparing ‘extract.Rout’ to ‘extract.Rout.save’ ... OK Running ‘gridtypes.R’ [0s/0s] Comparing ‘gridtypes.Rout’ to ‘gridtypes.Rout.save’ ...246,247c246,247 < lon 1 3 WGS 84 FALSE [3x3] 0.03,...,0.89 [x] < lat 1 3 WGS 84 FALSE [3x3] 0.021,...,0.89 [y] --- > lon 1 3 WGS 84 (CRS84) FALSE [3x3] 0.03,...,0.89 [x] > lat 1 3 WGS 84 (CRS84) FALSE [3x3] 0.021,...,0.89 [y] Running ‘mdim.R’ [0s/0s] Comparing ‘mdim.Rout’ to ‘mdim.Rout.save’ ... OK Running ‘nc.R’ [1s/1s] Comparing ‘nc.Rout’ to ‘nc.Rout.save’ ... OK Running ‘plot.R’ [1s/1s] Comparing ‘plot.Rout’ to ‘plot.Rout.save’ ... OK Running ‘predict.R’ [1s/2s] Comparing ‘predict.Rout’ to ‘predict.Rout.save’ ... OK Running ‘proxy.R’ [1s/1s] Comparing ‘proxy.Rout’ to ‘proxy.Rout.save’ ... OK Running ‘raster.R’ [3s/3s] Comparing ‘raster.Rout’ to ‘raster.Rout.save’ ...103,104c103,104 < x 1 10 -180 36 WGS 84 NULL [x] < y 1 10 90 -18 WGS 84 NULL [y] --- > x 1 10 -180 36 WGS 84 (CRS84) NULL [x] > y 1 10 90 -18 WGS 84 (CRS84) NULL [y] Running ‘rasterize.R’ [1s/1s] Comparing ‘rasterize.Rout’ to ‘rasterize.Rout.save’ ... OK Running ‘rectilinear.R’ [1s/1s] Comparing ‘rectilinear.Rout’ to ‘rectilinear.Rout.save’ ... OK Running ‘redimension.R’ [1s/1s] Comparing ‘redimension.Rout’ to ‘redimension.Rout.save’ ... OK Running ‘sf.R’ [1s/1s] Comparing ‘sf.Rout’ to ‘sf.Rout.save’ ... OK Running ‘sp.R’ [1s/1s] Comparing ‘sp.Rout’ to ‘sp.Rout.save’ ... OK Running ‘spacetime.R’ [1s/1s] Comparing ‘spacetime.Rout’ to ‘spacetime.Rout.save’ ... OK Running ‘spatstat.R’ [1s/1s] Comparing ‘spatstat.Rout’ to ‘spatstat.Rout.save’ ... OK Running ‘stars.R’ [3s/3s] Comparing ‘stars.Rout’ to ‘stars.Rout.save’ ...249,250c249,250 < x 1 360 -180 1 WGS 84 [x] < y 1 180 90 -1 WGS 84 [y] --- > x 1 360 -180 1 WGS 84 (CRS84) [x] > y 1 180 90 -1 WGS 84 (CRS84) [y] Running ‘subset.R’ [1s/1s] Comparing ‘subset.Rout’ to ‘subset.Rout.save’ ... OK Running ‘testthat.R’ [5s/5s] Running ‘tidy.R’ [1s/1s] Comparing ‘tidy.Rout’ to ‘tidy.Rout.save’ ... OK Running ‘transform.R’ [1s/1s] Comparing ‘transform.Rout’ to ‘transform.Rout.save’ ... OK Running ‘warp.R’ [1s/1s] Comparing ‘warp.Rout’ to ‘warp.Rout.save’ ... OK Running ‘write.R’ [1s/1s] Comparing ‘write.Rout’ to ‘write.Rout.save’ ... OK Flavor: r-devel-macos-arm64

Version: 0.6-8
Check: tests
Result: NOTE Running ‘aggregate.R’ [7s/13s] Comparing ‘aggregate.Rout’ to ‘aggregate.Rout.save’ ... OK Running ‘align.R’ [1s/2s] Comparing ‘align.Rout’ to ‘align.Rout.save’ ... OK Running ‘area.R’ [1s/2s] Comparing ‘area.Rout’ to ‘area.Rout.save’ ... OK Running ‘crop.R’ [3s/4s] Comparing ‘crop.Rout’ to ‘crop.Rout.save’ ... OK Running ‘curvilinear.R’ [1s/1s] Comparing ‘curvilinear.Rout’ to ‘curvilinear.Rout.save’ ... OK Running ‘datasets.R’ [1s/1s] Comparing ‘datasets.Rout’ to ‘datasets.Rout.save’ ... OK Running ‘dimensions.R’ [2s/3s] Comparing ‘dimensions.Rout’ to ‘dimensions.Rout.save’ ... OK Running ‘downsample.R’ [1s/1s] Comparing ‘downsample.Rout’ to ‘downsample.Rout.save’ ... OK Running ‘ee.R’ [1s/1s] Comparing ‘ee.Rout’ to ‘ee.Rout.save’ ... OK Running ‘extract.R’ [1s/1s] Comparing ‘extract.Rout’ to ‘extract.Rout.save’ ... OK Running ‘gridtypes.R’ [1s/1s] Comparing ‘gridtypes.Rout’ to ‘gridtypes.Rout.save’ ...246,247c246,247 < lon 1 3 WGS 84 FALSE [3x3] 0.03,...,0.89 [x] < lat 1 3 WGS 84 FALSE [3x3] 0.021,...,0.89 [y] --- > lon 1 3 WGS 84 (CRS84) FALSE [3x3] 0.03,...,0.89 [x] > lat 1 3 WGS 84 (CRS84) FALSE [3x3] 0.021,...,0.89 [y] Running ‘mdim.R’ [1s/1s] Comparing ‘mdim.Rout’ to ‘mdim.Rout.save’ ... OK Running ‘nc.R’ [1s/2s] Comparing ‘nc.Rout’ to ‘nc.Rout.save’ ... OK Running ‘plot.R’ [2s/3s] Comparing ‘plot.Rout’ to ‘plot.Rout.save’ ... OK Running ‘predict.R’ [3s/4s] Comparing ‘predict.Rout’ to ‘predict.Rout.save’ ... OK Running ‘proxy.R’ [2s/3s] Comparing ‘proxy.Rout’ to ‘proxy.Rout.save’ ... OK Running ‘raster.R’ [7s/10s] Comparing ‘raster.Rout’ to ‘raster.Rout.save’ ...103,104c103,104 < x 1 10 -180 36 WGS 84 NULL [x] < y 1 10 90 -18 WGS 84 NULL [y] --- > x 1 10 -180 36 WGS 84 (CRS84) NULL [x] > y 1 10 90 -18 WGS 84 (CRS84) NULL [y] Running ‘rasterize.R’ [2s/3s] Comparing ‘rasterize.Rout’ to ‘rasterize.Rout.save’ ... OK Running ‘rectilinear.R’ [1s/2s] Comparing ‘rectilinear.Rout’ to ‘rectilinear.Rout.save’ ... OK Running ‘redimension.R’ [1s/1s] Comparing ‘redimension.Rout’ to ‘redimension.Rout.save’ ... OK Running ‘sf.R’ [1s/2s] Comparing ‘sf.Rout’ to ‘sf.Rout.save’ ... OK Running ‘sp.R’ [1s/1s] Comparing ‘sp.Rout’ to ‘sp.Rout.save’ ... OK Running ‘spacetime.R’ [2s/2s] Comparing ‘spacetime.Rout’ to ‘spacetime.Rout.save’ ... OK Running ‘spatstat.R’ [2s/3s] Comparing ‘spatstat.Rout’ to ‘spatstat.Rout.save’ ... OK Running ‘stars.R’ [6s/9s] Comparing ‘stars.Rout’ to ‘stars.Rout.save’ ...249,250c249,250 < x 1 360 -180 1 WGS 84 [x] < y 1 180 90 -1 WGS 84 [y] --- > x 1 360 -180 1 WGS 84 (CRS84) [x] > y 1 180 90 -1 WGS 84 (CRS84) [y] Running ‘subset.R’ [1s/1s] Comparing ‘subset.Rout’ to ‘subset.Rout.save’ ... OK Running ‘testthat.R’ [10s/20s] Running ‘tidy.R’ [2s/2s] Comparing ‘tidy.Rout’ to ‘tidy.Rout.save’ ... OK Running ‘transform.R’ [1s/1s] Comparing ‘transform.Rout’ to ‘transform.Rout.save’ ... OK Running ‘warp.R’ [2s/2s] Comparing ‘warp.Rout’ to ‘warp.Rout.save’ ... OK Running ‘write.R’ [1s/1s] Comparing ‘write.Rout’ to ‘write.Rout.save’ ... OK Flavor: r-devel-macos-x86_64

Version: 0.6-8
Check: package dependencies
Result: NOTE Package suggested but not available for checking: ‘starsdata’ Flavors: r-patched-linux-x86_64, r-release-linux-x86_64, r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Version: 0.6-8
Check: installed package size
Result: NOTE installed size is 6.9Mb sub-directories of 1Mb or more: doc 2.9Mb nc 1.7Mb Flavors: r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Version: 0.6-7
Check: package dependencies
Result: NOTE Package suggested but not available for checking: ‘starsdata’ Flavor: r-oldrel-macos-arm64

Version: 0.6-7
Check: installed package size
Result: NOTE installed size is 6.8Mb sub-directories of 1Mb or more: doc 2.9Mb nc 1.7Mb Flavor: r-oldrel-macos-arm64

Package trajectories

Current CRAN status: NOTE: 10, OK: 5

Version: 0.2-9
Check: for unstated dependencies in ‘demo’
Result: NOTE '::' or ':::' import not declared from: ‘devtools’ 'library' or 'require' calls not declared from: ‘XML’ ‘devtools’ ‘jsonlite’ ‘ks’ ‘maps’ Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc

Version: 0.2-9
Check: package dependencies
Result: NOTE Package suggested but not available for checking: ‘taxidata’ Flavors: r-patched-linux-x86_64, r-release-linux-x86_64, r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64, r-oldrel-macos-arm64, r-oldrel-macos-x86_64, r-oldrel-windows-x86_64

Package units

Current CRAN status: NOTE: 4, OK: 11

Version: 0.8-5
Check: top-level files
Result: NOTE possible bashism in configure.ac line 48 (should be 'b = a'): if test "${ac_cv_lib_expat_XML_ParserCreate}" == yes; then Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc, r-devel-linux-x86_64-fedora-clang, r-devel-linux-x86_64-fedora-gcc

Version: 0.8-5
Check: for unstated dependencies in ‘demo’
Result: NOTE 'library' or 'require' call not declared from: ‘rvest’ Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc

Package vardiag

Current CRAN status: OK: 15