eval.fasp | R Documentation |
Evaluates any expression involving one or more function arrays
(fasp
objects) and returns another function array.
eval.fasp(expr, envir, dotonly=TRUE)
expr |
An expression involving the names of objects of class |
envir |
Optional. The environment in which to evaluate the expression,
or a named list containing |
dotonly |
Logical. Passed to |
This is a wrapper to make it easier to perform pointwise calculations with the arrays of summary functions used in spatial statistics.
A function array (object of class "fasp"
) can be regarded as a matrix
whose entries are functions. Objects of this kind
are returned by the command alltypes
.
Suppose X
is an object of class "fasp"
.
Then eval.fasp(X+3)
effectively adds 3 to the value of
every function in the array X
, and returns
the resulting object.
Suppose X
and Y
are two objects of class "fasp"
which are compatible (for example the arrays
must have the same dimensions). Then
eval.fasp(X + Y)
will add the corresponding functions in
each cell of the arrays X
and Y
,
and return the resulting array of functions.
Suppose X
is an object of class "fasp"
and f
is an object of class "fv"
.
Then eval.fasp(X + f)
will add the function f
to the functions in each cell of the array X
,
and return the resulting array of functions.
In general, expr
can be any expression involving
(a) the names of objects of class "fasp"
or "fv"
,
(b) scalar constants, and (c) functions which are vectorised.
See the Examples.
First eval.fasp
determines which of the variable names
in the expression expr
refer to objects of class "fasp"
.
The expression is then evaluated for each cell of the array
using eval.fv
.
The expression expr
must be vectorised.
There must be at least one object of class "fasp"
in the expression.
All such objects must be compatible.
Another object of class "fasp"
.
and \rolf
fasp.object
,
Kest
K <- alltypes(amacrine, "K")
# expressions involving a fasp object
eval.fasp(K + 3)
L <- eval.fasp(sqrt(K/pi))
# expression involving two fasp objects
D <- eval.fasp(K - L)
# subtracting the unmarked K function from the cross-type K functions
K0 <- Kest(unmark(amacrine))
DK <- eval.fasp(K - K0)
## Use of 'envir'
S <- eval.fasp(1-G, list(G=alltypes(amacrine, 'G')))
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