# inside.owin

##### Test Whether Points Are Inside A Window

Test whether points lie inside or outside a given window.

##### Usage

`inside.owin(x, y, w)`

##### Arguments

##### Details

This function tests whether each of the points
`(x[i],y[i])`

lies inside or outside
the window `w`

and returns `TRUE`

if it is inside.

The boundary of the window is treated as being inside.

If `w`

is of type `"rectangle"`

or
`"polygonal"`

, the algorithm uses analytic geometry
(the discrete Stokes theorem).
Computation time is linear in the number of points
and (for polygonal windows) in the number of vertices of the
boundary polygon. Boundary cases are correct to single
precision accuracy.

If `w`

is of type `"mask"`

then the
pixel closest to `(x[i],y[i])`

is tested. The
results may be incorrect for points lying within
one pixel diameter of the window boundary.

Normally `x`

and `y`

must be numeric vectors of
equal length (length zero is allowed) containing the coordinates
of points. Alternatively `x`

can be a point pattern (object of class `"ppp"`

) while `y`

is missing; then the coordinates of the point pattern are extracted.

##### Value

Logical vector whose `i`

th entry is
`TRUE`

if the corresponding point `(x[i],y[i])`

is inside `w`

.

##### See Also

##### Examples

```
# NOT RUN {
# hexagonal window
k <- 6
theta <- 2 * pi * (0:(k-1))/k
co <- cos(theta)
si <- sin(theta)
mas <- owin(c(-1,1), c(-1,1), poly=list(x=co, y=si))
# }
# NOT RUN {
plot(mas)
# }
# NOT RUN {
# random points in rectangle
x <- runif(30,min=-1, max=1)
y <- runif(30,min=-1, max=1)
ok <- inside.owin(x, y, mas)
# }
# NOT RUN {
points(x[ok], y[ok])
points(x[!ok], y[!ok], pch="x")
# }
```

*Documentation reproduced from package spatstat, version 1.56-1, License: GPL (>= 2)*