gridlines: Create N-S and E-W grid lines over a geographic region

Description

Create N-S and E-W grid lines over a geographic region; create and plot corresponding labels

Usage

gridlines(x, easts = pretty(bbox(x)[1,]), norths = pretty(bbox(x)[2,]), ndiscr = 100) 
gridat(x, easts = pretty(bbox(x)[1,]), norths = pretty(bbox(x)[2,]), offset = 0.5, side = "WS")
"labels"(object, labelCRS, side = 1:2, ...)
"text"(x, ...)

Arguments

object deriving from class Spatial-class

easts

numeric; east-west values for vertical lines

norths

numeric; north-south values for horizontal lines

ndiscr

integer; number of points used to discretize the line, could be set to 2, unless the grid is (re)projected

offset

offset value to be returned, see text

object

SpatialLines-class object, as returned by gridlines

labelCRS

the CRS in which the grid lines were drawn and labels should be printed; if missing, the CRS from object is taken

side

for labels: integer, indicating side(s) at which gridlines labels will be drawn: 1=below (S), 2=left (W), 3=above (N), and 4=right (E); for gridat: default “WS”, if “EN” labels placed on the top and right borders

...

for labels: ignored; for text: arguments passed on to text, see below for example use of adj

Value

gridlines returns an object of class SpatialLines-class, with lines as specified; the return object inherits the projection information of x; gridat returns a SpatialPointsDataFrame with points at the west and south ends of the grid lines created by gridlines, with degree labels.The labels method for SpatialLines objects returns a SpatialPointsDataFrame-class object with the parameters needed to print labels below and left of the gridlines. The locations for the labels are those of proj4string(object) the labels also unless labelCRS is given, in which case they are in that CRS. This object is prepared to be plotted with text:The text method for SpatialPointsDataFrame puts text labels on its coordinates, and takes care of attributes pos, labels, srt and offset; see text.

Examples

Run this code

data(meuse)
coordinates(meuse) = ~x+y
plot(meuse)
plot(gridlines(meuse), add = TRUE)
text(labels(gridlines(meuse)))
title("default gridlines within Meuse bounding box")

proj4string(meuse) <- CRS("+init=epsg:28992")
crs.longlat <- CRS("+init=epsg:4326")
meuse_ll <- spTransform(meuse, crs.longlat)
grd <- gridlines(meuse_ll)
grd_x <- spTransform(grd, CRS("+init=epsg:28992"))

# labels South and West:
plot(meuse)
plot(grd_x, add=TRUE, lty=2)
grdat_ll <- gridat(meuse_ll)
grdat_x <- spTransform(grdat_ll, CRS("+init=epsg:28992"))
text(grdat_x)

# labels North and East:
plot(meuse)
plot(grd_x, add=TRUE, lty=2)
grdat_ll <- gridat(meuse_ll, side="EN")
grdat_x <- spTransform(grdat_ll, CRS("+init=epsg:28992"))
text(grdat_x)

# now using labels:
plot(meuse)
plot(grd_x, add=TRUE, lty=2)
text(labels(grd_x, crs.longlat))

# demonstrate axis labels with angle, both sides:
sp = SpatialPoints(rbind(c(-101,9), c(-101,55), c(-19,9), c(-19,55)), crs.longlat)
laea = CRS("+proj=laea +lat_0=30 +lon_0=-40")
sp.l = spTransform(sp, laea)
plot(sp.l, expandBB = c(0, 0.05, 0, .05))
gl = spTransform(gridlines(sp), laea)
plot(gl, add = TRUE)
text(labels(gl, crs.longlat))
text(labels(gl, crs.longlat, side = 3:4), col = 'red')
title("curved text label demo")

# polar:
pts=SpatialPoints(rbind(c(-180,-70),c(0,-70),c(180,-89),c(180,-70)), crs.longlat)
polar = CRS("+init=epsg:3031")
gl = spTransform(gridlines(pts, easts = seq(-180,180,20), ndiscr = 100), polar)
plot(spTransform(pts, polar), expandBB = c(.05,0,.05,0))
lines(gl)
l = labels(gl, crs.longlat, side = 3)
l$pos = NULL # pos is too simple, use adj:
text(l, adj = c(0.5, -0.5)) 
l = labels(gl, crs.longlat, side = 4)
l$srt = 0 # otherwise they end up upside-down
text(l)
title("grid line labels on polar projection, epsg 3031")
## Not run: 
# demo(polar) # adds the map of the antarctic
# ## End(Not run)

Run the code above in your browser using DataLab

Description

Usage

Arguments

Value

See Also

Examples