I have a constructor function that creates a function. There is a variable named 'features' that is local to the constructor, and another variable named 'features' that is local to the function that is created by the constructor. These are distinguished in the code below as:
1) ## --> 'features' assignment 1 (see question)
features <- paramIN
2) ## --> 'features' assignment 2 (see question)
features[!paramIN] <- p
Three observations;
1) if I move features <- paramIN
inside the returned function but ahead of features[!paramIN] <- p
, the program also works. This makes sense because paramIN
is a free variable inside the returned function, features
is local to the returned function, and features <- paramIN
declares and initializes features
before it is subset and assigned.
2) if I use features[!paramIN] <<- p
and keep the first declaration of features
outside of the returned function, the program also works, and further, the first instance of features
is updated when the returned function is used. In this case both features
and paramIN
are free variables as far as the returned function is concerned. It appears that features
inside the returned function refers to features
declared outside the returned function. All is good.
HERE IS MY SPECIFIC QUESTION:
3) But If I use features[!paramIN] <- p
as given, but delete features <- paramIN
altogether, the program fails because it cannot find features
. It appears that the first declaration (outside the returned function) is necessary to establish features
as a two element vector. But the 'inner' features
is a different variable than the 'outer' features
; it is local to the returned function, so how can its existence and structure be determined by the declaration of features
outside the returned function?
## make.Function
## ============
## Constructor to make a function that accepts a vector of one or two elements
## Input argument:
##
## paramIN: 2-element vector to initialize and subset'features'
## There are two instances of 'features':
## One is local to make.Function(), and the second is local to the function defined inside make.Function()
##
## Acceptable values for paramIN:
## paramIn=c(<double>,FALSE): The constructed function accepts
## a scalar double and assigns it to 'features[1]'
## paramIn=c(FALSE,<double>): The constructed function accepts
## a scalar double and assigns it to 'features[2]'
## paramIn=c(FALSE,FALSE): The constructed function accepts
## a 2-element vector of doubles and assigns it to 'features' -OR -
## The constructed function accepts
## a scalar double and assigns it to both elements of 'features'
make.Function <- function(paramIN=c(FALSE,FALSE)) {
## 'paramIN', and 'features' are local variables in make.Function
## --> 'features' assignment 1 (see question)
features <- paramIN
## This function is returned by make.Function
function(p) {
## --> 'features' assignment 2 (see question)
features[!paramIN] <- p
x <- features[1]
y <- features[2]
## This is a simple function
x+2*y
}
}
features <- paramIN
then the very first appearance offeatures
would be infeatures[!paramIN] <- p
and since the vectorfeatures
doesn't exist anywhere, you'll get an error. This is true anywhere. If you don't havea
defined,a[c(T,F)]<-1
will throw an error buta<-c(1,1)
won't.return
rather than<<-
) is gone, because the function's temporary environment is gone.a[c(T,F)]<-1
assignment, the defined function (returned by the constructor) looks at the environment in which it was defined to figure out whata
is. Thea[c(T,F)]<-1
assignment creates thea
variable local to the defined function. Am I getting close?