rel.edges.triCM: The indices of the CM-edge regions in a triangle that...
In elvanceyhan/pcds: Proximity Catch Digraphs and Their Applications
rel.edges.triCM R Documentation
The indices of the CM-edge regions in a triangle
that contains the points in a give data set
Description
Returns the indices of the edges
whose regions contain the points in data set Xp in
a triangle tri=(A,B,C)
and edge regions are based on the center of mass CM of tri.
(see the plots in the example for illustrations).
The vertices of the triangle tri are labeled as
1=A, 2=B, and 3=C also
according to the row number the vertex is recorded in tri
and the corresponding edges are 1=BC, 2=AC, and 3=AB.
If a point in Xp is not inside tri,
then the function yields NA as output for that entry.
The corresponding edge region is the polygon
with the vertex, CM,
and vertices other than the non-adjacent vertex,
i.e., edge region 1 is the triangle T(B,CM,C),
edge region 2 is T(A,CM,C) and edge region 3 is T(A,B,CM).
See also (\insertCiteceyhan:Phd-thesis,ceyhan:comp-geo-2010,ceyhan:mcap2012,ceyhan:arc-density-CS;textualpcds).
Usage
rel.edges.triCM(Xp, tri)
Arguments
Xp
A set of 2D points representing the set of data points
for which indices of the edge regions
containing them are to be determined.
tri
A 3 \times 2 matrix with each row
representing a vertex of the triangle.
Value
A list with the elements
re
Indices (i.e., a vector of indices) of the edges
whose region contains points in Xp
in the triangle tri
tri
The vertices of the triangle,
where row number corresponds to the vertex index in rv.
desc
Description of the edge labels as
"Edge labels are AB=3, BC=1, and AC=2".
Author(s)
Elvan Ceyhan
References
\insertAllCited
See Also
rel.edges.tri, rel.verts.tri,
and rel.verts.tri.nondegPE
Examples
## Not run:
A<-c(1,1); B<-c(2,0); C<-c(1.5,2);
Tr<-rbind(A,B,C);
P<-c(.4,.2)
rel.edges.triCM(P,Tr)
n<-20 #try also n<-40
set.seed(1)
Xp<-runif.tri(n,Tr)$g
re<-rel.edges.triCM(Xp,Tr)
re
CM<-(A+B+C)/3
D1<-(B+C)/2; D2<-(A+C)/2; D3<-(A+B)/2;
Ds<-rbind(D1,D2,D3)
Xlim<-range(Tr[,1],Xp[,1])
Ylim<-range(Tr[,2],Xp[,2])
xd<-Xlim[2]-Xlim[1]
yd<-Ylim[2]-Ylim[1]
plot(Tr,pch=".",xlab="",ylab="",axes=TRUE,xlim=Xlim+xd*c(-.05,.05),ylim=Ylim+yd*c(-.05,.05))
polygon(Tr)
points(Xp,pch=".",col=1)
L<-Tr; R<-matrix(rep(CM,3),ncol=2,byrow=TRUE)
segments(L[,1], L[,2], R[,1], R[,2], lty = 2)
xc<-Tr[,1]+c(-.02,.03,.02)
yc<-Tr[,2]+c(.02,.02,.04)
txt.str<-c("A","B","C")
text(xc,yc,txt.str)
txt<-rbind(CM,Ds)
xc<-txt[,1]+c(.05,.06,-.05,-.02)
yc<-txt[,2]+c(.03,.03,.05,-.08)
txt.str<-c("CM","re=2","re=3","re=1")
text(xc,yc,txt.str)
text(Xp,labels=factor(re$re))
## End(Not run)
elvanceyhan/pcds documentation built on June 29, 2023, 8:12 a.m.
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| rel.edges.triCM | R Documentation |
The indices of the CM-edge regions in a triangle
that contains the points in a give data set
Description
Returns the indices of the edges
whose regions contain the points in data set Xp in
a triangle tri=(A,B,C)
and edge regions are based on the center of mass CM of tri.
(see the plots in the example for illustrations).
The vertices of the triangle tri are labeled as
1=A, 2=B, and 3=C also
according to the row number the vertex is recorded in tri
and the corresponding edges are 1=BC, 2=AC, and 3=AB.
If a point in Xp is not inside tri,
then the function yields NA as output for that entry.
The corresponding edge region is the polygon
with the vertex, CM,
and vertices other than the non-adjacent vertex,
i.e., edge region 1 is the triangle T(B,CM,C),
edge region 2 is T(A,CM,C) and edge region 3 is T(A,B,CM).
See also (\insertCiteceyhan:Phd-thesis,ceyhan:comp-geo-2010,ceyhan:mcap2012,ceyhan:arc-density-CS;textualpcds).
Usage
rel.edges.triCM(Xp, tri)
Arguments
Xp |
A set of 2D points representing the set of data points for which indices of the edge regions containing them are to be determined. |
tri |
A |
Value
A list with the elements
re |
Indices (i.e., a |
tri |
The vertices of the triangle,
where row number corresponds to the vertex index in |
desc |
Description of the edge labels as
|
Author(s)
Elvan Ceyhan
References
\insertAllCitedSee Also
rel.edges.tri, rel.verts.tri,
and rel.verts.tri.nondegPE
Examples
## Not run:
A<-c(1,1); B<-c(2,0); C<-c(1.5,2);
Tr<-rbind(A,B,C);
P<-c(.4,.2)
rel.edges.triCM(P,Tr)
n<-20 #try also n<-40
set.seed(1)
Xp<-runif.tri(n,Tr)$g
re<-rel.edges.triCM(Xp,Tr)
re
CM<-(A+B+C)/3
D1<-(B+C)/2; D2<-(A+C)/2; D3<-(A+B)/2;
Ds<-rbind(D1,D2,D3)
Xlim<-range(Tr[,1],Xp[,1])
Ylim<-range(Tr[,2],Xp[,2])
xd<-Xlim[2]-Xlim[1]
yd<-Ylim[2]-Ylim[1]
plot(Tr,pch=".",xlab="",ylab="",axes=TRUE,xlim=Xlim+xd*c(-.05,.05),ylim=Ylim+yd*c(-.05,.05))
polygon(Tr)
points(Xp,pch=".",col=1)
L<-Tr; R<-matrix(rep(CM,3),ncol=2,byrow=TRUE)
segments(L[,1], L[,2], R[,1], R[,2], lty = 2)
xc<-Tr[,1]+c(-.02,.03,.02)
yc<-Tr[,2]+c(.02,.02,.04)
txt.str<-c("A","B","C")
text(xc,yc,txt.str)
txt<-rbind(CM,Ds)
xc<-txt[,1]+c(.05,.06,-.05,-.02)
yc<-txt[,2]+c(.03,.03,.05,-.08)
txt.str<-c("CM","re=2","re=3","re=1")
text(xc,yc,txt.str)
text(Xp,labels=factor(re$re))
## End(Not run)
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