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The function FUN is applied to f in bins specified by
xbreaks and ybreaks. (If FUN is mean(),
consider using binMean2D() instead, since it should be faster.)
binApply2D(x, y, f, xbreaks, ybreaks, FUN, ...)a vector of numerical values.
a vector of numerical values.
a vector of data to which the elements of FUN may be
supplied
values of x at the boundaries between the
bins; calculated using pretty() if not supplied.
as xbreaks, but for y.
univariate function that is applied to the f data within
any given bin
arguments to pass to the function FUN
A list with the following elements: the breaks in x and
y (i.e. xbreaks and ybreaks), the break mid-points
(i.e. xmids and ymids), and a matrix containing the
result of applying FUN() to the f values, as
subsetted by these breaks.
Other bin-related functions:
binApply1D(),
binAverage(),
binCount1D(),
binCount2D(),
binMean1D(),
binMean2D()
# NOT RUN {
library(oce)
# }
# NOT RUN {
## secchi depths in lat and lon bins
if (requireNamespace("ocedata", quietly=TRUE)) {
data(secchi, package="ocedata")
## Note that zlim is provided to the colormap(), to prevent a few
## points from setting a very wide scale.
cm <- colormap(z=secchi$depth, col=oceColorsViridis, zlim=c(0, 15))
par(mar=c(2, 2, 2, 2))
drawPalette(colormap=cm, zlab="Secchi Depth")
data(coastlineWorld)
mapPlot(coastlineWorld, longitudelim=c(-5, 20), latitudelim=c(50, 66),
grid=5, col='gray', projection="+proj=lcc +lat_1=50 +lat_2=65")
bc <- binApply2D(secchi$longitude, secchi$latitude,
pretty(secchi$longitude, 80),
pretty(secchi$latitude, 40),
f=secchi$depth, FUN=mean)
mapImage(bc$xmids, bc$ymids, bc$result, zlim=cm$zlim, col=cm$zcol)
mapPolygon(coastlineWorld, col="gray")
}
# }
# NOT RUN {
# }
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