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Reproducible and simplified example to explain my core question:

I start with a function having a vector as argument, say: fVec <- function(v) v[1]*v[2].

For comparison purposes, a direct way with explicit parameters to express the same function is: fDirect <- function(a, b) a*b.

In my use case, I want to build a function with explicit parameters like fDirect above but implement it by calling the initial function fVec. So for this purpose, I defined: fIndirect <- function(a, b) fVec(c(a, b)). (I explain below why I want to do something like that apparently not making any sense!)

As expected, fVec(c(2, 3)), fDirect(2, 3), and fIndirect(2, 3) return 6, so far so good.

Now for plotting purposes, I build a data frame with the data I want to plot as follows:

  1. Create the function parameter values: mydf <- data.frame(a=1:3, b=2:4).
  2. Add the function value in a new column using transform.

Using fDirect, transform(mydf, v=fDirect(a, b)) does work as expected, it returns:

> transform(mydf, v=fDirect(a, b))
  a b  v
1 1 2  2
2 2 3  6
3 3 4 12

However, using fIndirect, it does not return the desired function values:

> transform(mydf, v=fIndirect(a, b))
  a b v
1 1 2 2
2 2 3 2
3 3 4 2

In debugging, I realized using fIndirect, transform passed to fVec a vector argument being the union of columns a and b of the data frame, that is: c(mydf[["a"]], mydf[["b"]]). As a result, fVec did what it was programmed to do, that is evaluate the product of the first two elements, hence returning 1*2=2 for all rows.

So far, the best solution I could come up with to work around this transform challenge was using apply as follows:

cbind(mydf, v=apply(mydf, 1, function(row) fIndirect(row["a"], row["b"])))

Question: Why does transform passes both data frame columns to fVec through fIndirect instead of behaving the same way as when calling it with fDirect where there it evaluates the function one row at a time? Is it an R bug or do I misunderstand something fundamental in the way R works like perhaps something about scoping and/or argument casting?

Context:

This section explains why I follow such a process, perhaps someone can point out a better way to architect it.

I have a fairly complex objective function I try to optimize (i.e., fVec role). This function has a variable number of parameters passed in as a named vector argument for convenience in the various ways I use this function, in particular the use of BBoptim optimizer that expects a vector as argument of the objective function.

In some cases where the number of variable parameters is 1 or 2, I want to plot my objective function (I use plot in 1-dim case; I use levelplot and wireframe from the lattice package in the 2-dim case).

So then, I build a temporary function with explicit parameters (i.e., fIndirect role) for convenience of building the data I want to plot into a data frame (i.e., mydf role). Since my objective function is relatively complex and I need a version with a vector argument, I would like my temporary function fIndirect to be implemented by calling my original objective function fVec.

Can anyone propose a better way to accomplish the same goal than the process I showed in my simplified example above?

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2  
transform is behaving in exactly the same way (as documented, no bug) in both cases. You are overlooking vectorized operations. Run fDirect(1:3,2:4). –  joran Apr 12 '13 at 17:11
    
@joran Thanks much Joran, you made it clear how I misinterpreted the way R went about executing transform. So then to use transform, the key is to implement fIndirect in such a way as to support vector arguments, for instance like: fIndirect <- function(a, b) vapply(1:length(a), function(row) fVec(c(a[row], b[row])), FUN.VALUE=1). –  Patrick Apr 12 '13 at 17:38

1 Answer 1

up vote 0 down vote accepted

So I can mark this question as answered, credits to Joran, the key issue was not in transform; the problem was fIndirect did not support vectorized operations.

fDirect with vector arguments supporting vectorized operations:

fDirect(1:3,2:4)
[1]  2  6 12

fIndirect with the same vector arguments NOT supporting vectorized operations:

fIndirect(1:3,2:4)
[1]  2 

It makes sense as fIndirect(1:3,2:4) = fVec(c(1:3,2:4)), that is the product of the first two elements.

My misconception was to believe that transform(mydf, v=fct(a, b)) would call the function fct on every row of the data frame mydf, that is fct(mydf[i, "a"], mydf[i, "b"]) for every row index i where each call would be with a pair of scalars. I learned instead the new column v in the data frame was generated by calling the vectorized form of the function as fct(mydf[["a"]], mydf[["b"]]). I missed this basic mode of operation in my self learning of R!

So a proper implementation of fIndirect to support vectorized operations could be something like:

fIndirect <- function(a, b)
  vapply(1:length(a), function(row) fVec(c(a[row], b[row])), FUN.VALUE=1)

Bottom line, when implementing a function, make sure to support vector arguments by looping through vector elements as need be within the function implementation!

Regarding the overall process in my context, I suppose it is fine. As an alternative to code the process in R if there is no need to automate the process, I suppose one could perhaps explore and plot the data using some UI interactive packages like Rcmdr.

I hope the details of what I learned may be useful to someone.

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