Define the coordinates of one or more straight lines in the plane
infline(a = NULL, b = NULL, h = NULL, v = NULL, p = NULL, theta = NULL)# S3 method for infline
print(x, ...)
# S3 method for infline
plot(x, ...)
The value of infline
is an object of class "infline"
which is basically a data frame with columns a,b,h,v,p,theta
.
Each row of the data frame represents one line.
Entries may be NA
if a coordinate is not applicable to
a particular line.
Numeric vectors of equal length giving the
intercepts \(a\) and slopes \(b\) of the lines.
Incompatible with h,v,p,theta
Numeric vector giving the positions of horizontal lines when
they cross the \(y\) axis.
Incompatible with a,b,v,p,theta
Numeric vector giving the positions of vertical lines when
they cross the \(x\) axis.
Incompatible with a,b,h,p,theta
Numeric vectors of equal length
giving the polar coordinates of the line.
Incompatible with a,b,h,v
An object of class "infline"
Extra arguments passed to print
for printing or abline
for plotting
Adrian Baddeley Adrian.Baddeley@curtin.edu.au and Rolf Turner r.turner@auckland.ac.nz.
The class infline
is a convenient way to handle
infinite straight lines in the plane.
The position of a line can be specified in several ways:
its intercept \(a\) and slope \(b\) in the equation \(y = a + b x\) can be used unless the line is vertical.
for vertical lines we can use the position \(v\) where the line crosses the \(y\) axis
for horizontal lines we can use the position \(h\) where the line crosses the \(x\) axis
the polar coordinates \(p\) and \(\theta\) can be used for any line. The line equation is $$ x \cos\theta + y \sin\theta = p $$
The command infline
will accept line coordinates in any
of these formats. The arguments a,b,h,v
have the same interpretation
as they do in the line-plotting function
abline
.
The command infline
converts between different coordinate
systems (e.g. from a,b
to p,theta
) and returns an
object of class "infline"
that contains a representation of the lines in
each appropriate coordinate system. This object can be printed
and plotted.
rotate.infline
,
clip.infline
,
chop.tess
,
whichhalfplane
infline(a=10:13,b=1)
infline(p=1:3, theta=pi/4)
plot(c(-1,1),c(-1,1),type="n",xlab="",ylab="", asp=1)
plot(infline(p=0.4, theta=seq(0,pi,length=20)))
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