This function generates a rectangular grid of locations in the plane,
tests whether each of these locations lies inside the
window w
, and stores the results as a binary pixel image
or `mask' (an object of class "owin"
, see owin.object
). The most common use of this function is to approximate the shape
of another window w
by a binary pixel image. In this case,
we will usually want to have a very fine grid of pixels.
This function can also be used to generate a coarsely-spaced grid of
locations inside a window, for purposes such as subsampling
and prediction.
The grid spacing and location are controlled by the
arguments eps
, dimyx
and xy
,
which are mutually incompatible.
If eps
is given, then the grid spacing will be
approximately eps
in both the $x$ and $y$ directions.
If dimyx
is given, then the pixel grid will be an
$m \times n$ rectangular grid
where $m, n$ are given by dimyx[2]
, dimyx[1]
respectively. Warning: dimyx[1]
is the number of
pixels in the $y$ direction, and dimyx[2]
is the number
in the $x$ direction.
If xy
is given, then this should be a structure
containing two elements x
and y
which are the
vectors of $x$ and y
coordinates of the margins
of the grid. The pixel coordinates will be generated
from these two vectors. In this case w
may be omitted.
If neither eps
nor dimyx
nor xy
is given,
the pixel raster dimensions are obtained from
spatstat.options("npixel")
.
There is no inverse of this function!