## S3 method for class 'ppp':
pairdist(X, \dots, periodic=FALSE, method="C", squared=FALSE)"ppp")."C" and "interpreted".
Usually not specified.squared=TRUE, the squared distances are
returned instead (this computation is faster).[i,j] entry is the distance
between the points numbered i and j.pairdist. Given a point pattern X (an object of class "ppp"),
this function computes the Euclidean distances between all pairs of
points in X, and returns the matrix of distances.
Alternatively if periodic=TRUE and the window containing X is a
rectangle, then the distances will be computed in the `periodic'
sense (also known as `torus' distance): opposite edges of the
rectangle are regarded as equivalent.
This is meaningless if the window is not a rectangle.
If squared=TRUE then the squared Euclidean distances
$d^2$ are returned, instead of the Euclidean distances $d$.
The squared distances are faster to calculate, and are sufficient for
many purposes (such as finding the nearest neighbour of a point).
The argument method is not normally used. It is
retained only for checking the validity of the software.
If method = "interpreted" then the distances are
computed using interpreted R code only. If method="C"
(the default) then C code is used. The C code is somewhat faster.
pairdist,
pairdist.default,
pairdist.psp,
crossdist,
nndist,
Kestdata(cells)
d <- pairdist(cells)
d <- pairdist(cells, periodic=TRUE)
d <- pairdist(cells, squared=TRUE)Run the code above in your browser using DataLab