View source: R/distances.psp.R
crossdist.psp | R Documentation |
Computes the distances between all pairs of line segments taken from two different line segment patterns.
## S3 method for class 'psp'
crossdist(X, Y, ..., method="C", type="Hausdorff")
X , Y |
Line segment patterns (objects of class |
... |
Ignored. |
method |
String specifying which method of calculation to use.
Values are |
type |
Type of distance to be computed. Options are
|
This is a method for the generic function crossdist
.
Given two line segment patterns, this function computes the distance from each line segment in the first pattern to each line segment in the second pattern, and returns a matrix containing these distances.
The distances between line segments are measured in one of two ways:
if type="Hausdorff"
, distances are computed
in the Hausdorff metric. The Hausdorff
distance between two line segments is the maximum distance
from any point on one of the segments to the nearest point on
the other segment.
if type="separation"
, distances are computed
as the minimum distance from a point on one line segment to
a point on the other line segment. For example, line segments which
cross over each other have separation zero.
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 compiled C
code is used.
The C
code is several times faster.
A matrix whose [i,j]
entry is the distance
from the i
-th line segment in X
to the j
-th line segment in Y
.
and \rolf
pairdist
,
nndist
,
Gest
L1 <- psp(runif(5), runif(5), runif(5), runif(5), owin())
L2 <- psp(runif(10), runif(10), runif(10), runif(10), owin())
D <- crossdist(L1, L2)
#result is a 5 x 10 matrix
S <- crossdist(L1, L2, type="sep")
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