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(edit note: I changed the Title to "R: enumerate column combinations of a matrix", from "R grep: matching a matrix of strings to a list" to better reflect the solution)

I am trying to match a matrix of strings to a list: so that i can ultimately use the matrix as a map in later operations on a data.frame.

This first part works as intended, returning a list of all the possible pairs, triples and quad combinations (though perhaps this approach has created my bind?):

priceList <- data.frame(aaa = rnorm(100, 100, 10), bbb = rnorm(100, 100, 10), 
            ccc = rnorm(100, 100, 10), ddd = rnorm(100, 100, 10), 
            eee = rnorm(100, 100, 10), fff = rnorm(100, 100, 10), 
            ggg = rnorm(100, 100, 10))

getTrades <- function(dd, Maxleg=3)
{
    nodes <- colnames(dd)
    tradeList <- list()
    for (i in 2:Maxleg){
        tradeLeg <- paste0('legs',i)
        tradeList[[tradeLeg]] <- combn(nodes, i)
    }
    return(tradeList)
}

tradeCombos <- getTrades(priceList, 4)

I'd now like to turn this list of possible combinations into trades. For example:

> tradeCombos[[1]][,1]
[1] "aaa" "bbb"

Needs to eventually become priceList[,2] - priceList[,1], and so forth.

I have tried a few approaches with grep and similar commands, and feel that i've come close with the following:

LocList <- sapply(tradeCombos[[1]], regexpr, colnames(priceList))

However the format is not quite suitable for the next step.

Ideally, LocList[1] would return something like: 1 2

Assuming that the tradeCombos[[1]][,1] == "aaa" "bbb".

Can someone please help?

__

With help from all of the answers below, i've now got:

colDiff <- function(x) 
{
    Reduce('-', rev(x))
}

getTrades <- function(dd, Maxleg=3)
{
    tradeList <- list()
    for (i in 2:Maxleg){
        tradeLeg <- paste0('legs',i)
        tradeLegsList <- combn(names(dd), i, 
            function(x) dd[x], simplify = FALSE)
        nameMtx <- combn(names(dd), i)
        names(tradeLegsList) <- apply(nameMtx, MARGIN=2, 
            FUN=function(x) paste(rev(x), collapse='*'))
        tradeList[[tradeLeg]] <- lapply(tradeLegsList, colDiff) 
    }
    return(tradeList)
}

tradeCombos <- getTrades(priceList, 4)

This retains the names of the constitutent parts, and is everything I was trying to achieve.

Many thanks to all for the help.

share|improve this question
3  
By the way, get familiar with combn! Try combn(names(priceList, 2)), or combn(names(priceList, 3)) and see what you come up with. – A Handcart And Mohair Sep 11 '12 at 11:44
    
@mrdwab, i am basically using combn(names(priceList), 3) in the getTrades function, with tradeList[[tradeLeg]] <- combn(nodes, i). Looking below, however, it's clear that i have a LOT to learn about combn. thanks very much for all the help. – ricardo Sep 11 '12 at 21:33
up vote 2 down vote accepted

This gets your eventual aim using lapply, apply, and Reduce.

lapply(tradeCombos, 
 function(combos) 
 apply(combos, MARGIN=2, FUN=function(combo) Reduce('-', priceList[rev(combo)])))

combo is a column from one of the combo matrices in tradeCombos. rev(combo) reverses the column so the last value is first. The R syntax for selecting a subset of columns from a data.frame is DF[col.names], so priceList[rev(combo)] is a subset of priceList with just the columns in combo, in reverse order. data.frames are actually just lists of columns, so any function that's designed to iterate over lists can be used to iterate over the columns in a data.frame. Reduce is one such function. Reduce takes a function (in this case the subtract function -) and a list of arguments and then successively calls the function on the arguments in the list with the results of the previous call, e.g., (((arg1 - arg2) - arg3) - arg4).

You rename the columns in tradeCombos so that the final column names reflect their source with:

tradeCombos <- lapply(tradeCombos, 
    function(combos) {
        dimnames(combos)[[2]] <- apply(combos, 
            MARGIN=2, 
            FUN=function(combo) paste(rev(combo), collapse='-')
        )
        return(combos)
    }
)
share|improve this answer
    
+1, thanks - very useful. I was unaware of a number of these possibilities. Is it possible to make the column names of the matrices attached to each list location reflect the names of the columns used in their constuction? – ricardo Sep 12 '12 at 0:10
    
apply carries over the column names of its argument. see my edits for a way to rename the columns in tradeCombos – Matthew Plourde Sep 12 '12 at 1:07
    
drats! just missed it! – Matthew Plourde Sep 12 '12 at 1:20
    
no, you got it mate. you have solved all of my problems. Cannot ask for more than that - so i switched the accepted. Everyone that has answered has been wonderful. – ricardo Sep 12 '12 at 1:41

Whoa... ignore everything below and jump to the update

As mentioned in my comment, you can just use combn. This solution doesn't take you to your very last step, but instead, creates a list of data.frames. From there, it is easy to use lapply to get to whatever your final step would be.

Here's the simplified function:

TradeCombos <- function(dd, MaxLeg) {
  combos = combn(names(dd), MaxLeg)
  apply(combos, 2, function(x) dd[x])
}

To use it, just specify your dataset and the number of combinations you're looking for.

TradeCombos(priceList, 3)
TradeCombos(priceList, 4)

Moving on: @mplourde has shown you how to use Reduce to successively subtract. A similar approach would be taken here:

cumDiff <- function(x) Reduce("-", rev(x))
lapply(TradeCombos(priceList, 3), cumDiff)

By keeping the output of the TradeCombos function as a list of data.frames, you'll be leaving more room for flexibility. For instance, if you wanted row sums, you can simply use lapply(TradeCombos(priceList, 3), rowSums); similar approaches can be taken for whatever function you want to apply.

Update

I'm not sure why @GSee didn't add this as an answer, but I think it's pretty awesome:

Get your list of data.frames as follows:

combn(names(priceList), 3, function(x) priceList[x], simplify = FALSE)

Advance as needed. (For example, using the cumDiff function we created: combn(names(priceList), 2, function(x) cumDiff(priceList[x]), simplify = FALSE).)

share|improve this answer
2  
Did you know that combn accepts a FUN argument? i.e. you don't really need the apply – GSee Sep 11 '12 at 17:23
    
@GSee, I didn't, but that's awesome. Thanks for pointing it out! – A Handcart And Mohair Sep 11 '12 at 17:37
    
@GSee, can I transfer it to you somehow :-) – A Handcart And Mohair Sep 11 '12 at 17:39
    
Don't sell yourself short. combn is doing the work whether you feed it FUN or not. – GSee Sep 11 '12 at 17:41
    
+1 that's pretty nice – Matthew Plourde Sep 11 '12 at 17:42

tradeCombos is a list with matrix elements. Therefore, tradeCombos[[1]] is a matrix for which apply is more suitable.

apply(tradeCombos[[1]],1,function(x) match(x,names(priceList)))
      [,1] [,2]
 [1,]    1    2
 [2,]    1    3
 [3,]    1    4
 [4,]    1    5
 [5,]    1    6
 [6,]    1    7
 [7,]    2    3
 [8,]    2    4
 [9,]    2    5
[10,]    2    6
[11,]    2    7
[12,]    3    4
[13,]    3    5
[14,]    3    6
[15,]    3    7
[16,]    4    5
[17,]    4    6
[18,]    4    7
[19,]    5    6
[20,]    5    7
[21,]    6    7

Incidentally, you can subset using the string form anyway, eg priceList[,"aaa"]

share|improve this answer
    
+1, thanks. that's exactly the answer to the question i originally asked (and thought i needed to solve). Combining your answer with your incidental insight yielded apply(tradeCombos[[1]], 2, function(x) priceList[x]), which is extremely useful. – ricardo Sep 11 '12 at 22:58
    
atually, after a little playing i changed a line of the getTrades function to the following: tradeList[[tradeLeg]] <- apply(combn(colnames(dd), i), 2, function(x) dd[x]) – ricardo Sep 11 '12 at 23:46

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