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I have three or more independent variables represented as R vectors, like so:

A <- c(1,2,3)
B <- factor(c('x','y'))
C <- c(0.1,0.5)

and I want to take the Cartesian product of all of them and put the result into a data frame, like this:

A B C
1 x 0.1
1 x 0.5
1 y 0.1
1 y 0.5
2 x 0.1
2 x 0.5
2 y 0.1
2 y 0.5
3 x 0.1
3 x 0.5
3 y 0.1
3 y 0.5

I can do this by manually writing out calls to rep:

d <- data.frame(A = rep(A, times=length(B)*length(C)),
                B = rep(B, times=length(A), each=length(C)),
                C = rep(C, each=length(A)*length(B))

but there must be a more elegant way to do it, yes? product in itertools does part of the job, but I can't find any way to absorb the output of an iterator and put it into a data frame. Any suggestions?

p.s. The next step in this calculation looks like

d$D <- f(d$A, d$B, d$C)

so if you know a way to do both steps at once, that would also be helpful.

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it would be useful if you specify what the function f does. –  Ramnath Nov 30 '10 at 0:07
    
f is a placeholder for one of several different hairy mathematical calculations, but for purposes of this question, I think the thing you need to know is that they all take N vectors of appropriate type and produce one vector; all inputs must be the same length, and the output is also that length. –  zwol Nov 30 '10 at 0:10

5 Answers 5

up vote 25 down vote accepted

you can use expand.grid(A, B, C)

EDIT: an alternative to using do.call to achieve the second part, is the function mdply. here is the code

d = expand.grid(x = A, y = B, z = C)
d = mdply(d, f)

to illustrate its usage using a trivial function 'paste', you can try

d = mdply(d, 'paste', sep = '+');
share|improve this answer
    
Aha! I knew there had to be a standard library routine that did this, but could not find what it was called. I am going to leave the question open in case someone has an answer to part two, though. –  zwol Nov 30 '10 at 0:11
    
if f is a custom function, then you could modify it to accept a data frame as an argument and let the function handle the splitting into component vectors –  Ramnath Nov 30 '10 at 0:29
    
Was staring at the plyr documentation, but didn't catch that this was what mdply was for. Thanks. –  zwol Dec 1 '10 at 18:13

There's a function manipulating dataframe, which is helpful in this case.

It can produce various join(in SQL terminology), while Cartesian product is a special case.

You have to convert the varibles to data frames first, because it take data frame as parameters.

so something like this will do:

A.B=merge(data.frame(A=A), data.frame(B=B),by=NULL);
A.B.C=merge(A.B, data.frame(C=C),by=NULL);

The only thing to care about is that rows are not sorted as you depicted. You may sort them manually as you wish.

merge(x, y, by = intersect(names(x), names(y)), by.x = by, by.y = by, all = FALSE, all.x = all, all.y = all, sort = TRUE, suffixes = c(".x",".y"), incomparables = NULL, ...)

"If by or both by.x and by.y are of length 0 (a length zero vector or NULL), the result, r, is the Cartesian product of x and y"

see this url for detail: http://stat.ethz.ch/R-manual/R-patched/library/base/html/merge.html

share|improve this answer

Here's a way to do both, using Ramnath's suggestion of expand.grid:

f <- function(x,y,z) paste(x,y,z,sep="+")
d <- expand.grid(x=A, y=B, z=C)
d$D <- do.call(f, d)

Note that do.call works on d "as-is" because a data.frame is a list. But do.call expects the column names of d to match the argument names of f.

share|improve this answer
    
d is only defined by the expand.grid call... –  zwol Nov 30 '10 at 1:29
    
@Zack: Thanks; I've updated my response. It's not a one-liner, but evaluating f is still easier with do.call than typing in each argument. –  Joshua Ulrich Nov 30 '10 at 2:00
    
the good old do.call trick. nice one! –  Ramnath Nov 30 '10 at 3:05

Consider using the wonderful data.table library for expressiveness and speed. It handles many plyr use-cases (relational group by), along with transform, subset and relational join using a fairly simple uniform syntax.

library(data.table)
d <- CJ(x=A, y=B, z=C)  # Cross join
d[, w:=f(x,y,z)]  # Mutates the data.table

or in one line

d <- CJ(x=A, y=B, z=C)[, w:=f(x,y,z)]
share|improve this answer

I can never remember that standard function expand.grid. So here's another version.

crossproduct <- function(...,FUN='data.frame') {
  args <- list(...)
  n1 <- names(args)
  n2 <- sapply(match.call()[1+1:length(args)], as.character)
  nn <- if (is.null(n1)) n2 else ifelse(n1!='',n1,n2)
  dims <- sapply(args,length)
  dimtot <- prod(dims)
  reps <- rev(cumprod(c(1,rev(dims))))[-1]
  cols <- lapply(1:length(dims), function(j)
                 args[[j]][1+((1:dimtot-1) %/% reps[j]) %% dims[j]])
  names(cols) <- nn
  do.call(match.fun(FUN),cols)
}

A <- c(1,2,3)
B <- factor(c('x','y'))
C <- c(.1,.5)

crossproduct(A,B,C)

crossproduct(A,B,C, FUN=function(...) paste(...,sep='_'))
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