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Input file:

df1 <- data.frame(row.names=c("w","x","y","z"), A=c(0,0,0,0), B=c(0,1,0,0), C=c(1,0,1,0), D=c(1,1,1,1))

  A B C D
w 0 0 1 1
x 0 1 0 1
y 0 0 1 1
z 0 0 0 1

I want to apply an equation i.e. multiply row w to row x to get the pairwise value for w-x pair, as follows:

      A B C D
    w 0 0 1 1
X   x 0 1 0 1
--------------
   wx 0 0 0 1

to get row-wise analysis for w-x, w-y, w-y, w-z, x-y, x-z, y-z. and generate a new dataframe with 6 columns (two row names followed by the multiplied values).

That's

w x 0 0 0 1
w y 0 0 1 1
w z 0 0 0 1
x y 0 0 0 1
x z 0 0 0 1
y z 0 0 0 1

Thanksssssss.

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3 Answers 3

up vote 3 down vote accepted

If you don't want the combo names in the resulting object, then we can combine elements of @DWin's and @Owen's Answers to provide a truly vectorised approach to the problem. (You can add the combination names as row names with one extra step at the end.)

First, the data:

dat <- read.table(con <- textConnection("  A B C D
w 0 0 1 1
x 0 1 0 1
y 0 0 1 1
z 0 0 0 1
"), header=TRUE)
close(con)

Take the combn() idea from @DWin's Answer but use it on the row indices of dat:

combs <- combn(seq_len(nrow(dat)), 2)

The rows of combs now index the rows of dat that we want to multiply together:

> combs
     [,1] [,2] [,3] [,4] [,5] [,6]
[1,]    1    1    1    2    2    3
[2,]    2    3    4    3    4    4

Now we take the idea @Owen showed, namely dat[i, ] * dat[j, ] with i and j being the first and second rows of combs respectively. We convert to a matrix with data.matrix() as this will be more efficient for large objects, but the code will work with dat as a data frame too.

mat <- data.matrix(dat)
mat[combs[1,], ] * mat[combs[2,], ]

which produces:

> mat[combs[1,], ] * mat[combs[2,], ]
  A B C D
w 0 0 0 1
w 0 0 1 1
w 0 0 0 1
x 0 0 0 1
x 0 0 0 1
y 0 0 0 1

To see how this works, note that mat[combs[k,], ] produces a matrix with various rows repeated in the order specified by the combinations:

> mat[combs[1,], ]
  A B C D
w 0 0 1 1
w 0 0 1 1
w 0 0 1 1
x 0 1 0 1
x 0 1 0 1
y 0 0 1 1
> mat[combs[2,], ]
  A B C D
x 0 1 0 1
y 0 0 1 1
z 0 0 0 1
y 0 0 1 1
z 0 0 0 1
z 0 0 0 1

To get exactly what the OP posted, we can modify the rownames using a second combn() call:

> out <- mat[combs[1,], ] * mat[combs[2,], ]
> rownames(out) <- apply(combn(rownames(dat), 2), 2, paste, collapse = "")
> out
   A B C D
wx 0 0 0 1
wy 0 0 1 1
wz 0 0 0 1
xy 0 0 0 1
xz 0 0 0 1
yz 0 0 0 1
share|improve this answer
    
thanks your version run very fast. –  psiu Sep 8 '11 at 17:57
dat <- read.table(textConnection("  A B C D
+ w 0 0 1 1
+ x 0 1 0 1
+ y 0 0 1 1
+ z 0 0 0 1
+ "), header=TRUE)
> combos <- combn(rn,2)
> combos
     [,1] [,2] [,3] [,4] [,5] [,6]
[1,] "w"  "w"  "w"  "x"  "x"  "y" 
[2,] "x"  "y"  "z"  "y"  "z"  "z" 

apply(combos,2, function(x) c(x[1], x[2], unlist(dat[x[1],]*dat[x[2],])))
  [,1] [,2] [,3] [,4] [,5] [,6]
  "w"  "w"  "w"  "x"  "x"  "y" 
  "x"  "y"  "z"  "y"  "z"  "z" 
A "0"  "0"  "0"  "0"  "0"  "0" 
B "0"  "0"  "0"  "0"  "0"  "0" 
C "0"  "1"  "0"  "0"  "0"  "0" 
D "1"  "1"  "1"  "1"  "1"  "1" 

So the final solution:

t( apply(combos,2, function(x) c(x[1], x[2], unlist(dat[x[1],]*dat[x[2],]))) )

If you convert the combos to a dataframe you would also be able to cbindmatrix as type "numeric":

 cbind( as.data.frame(t(combos)), 
        t( apply(combos,2, function(x)  
                    unlist(dat[x[1],]*dat[x[2],]))) )

  V1 V2 A B C D
1  w  x 0 0 0 1
2  w  y 0 0 1 1
3  w  z 0 0 0 1
4  x  y 0 0 0 1
5  x  z 0 0 0 1
6  y  z 0 0 0 1
share|improve this answer
    
Oh wow, that is quite succinct. –  Owen Sep 4 '11 at 5:31
    
+1 for combn() –  Gavin Simpson Sep 4 '11 at 9:25

If you want to multiply rows, I recommend converting to a matrix:

> m = as.matrix(df1)

> m["x", ] * m["y", ]
A B C D 
0 0 0 1 

The specific result you want you could get with plyr,

library(plyr)

ldply(1:(nrow(m)-1), function(i)
    ldply((i+1):nrow(m), function(j) {
        a = row.names(m)[[i]]
        b = row.names(m)[[j]]

        do.call(data.frame,
            c(list(a=a, b=b), m[i,] * m[j,])
        )
    })
)

Sorry part of that looks a little magical -- data.frames aren't really meant to be "row like". The lines

do.call(data.frame,
    c(list(a=a, b=b), m[i,] * m[j,])
)

pass in the 6 columns: a and b for the names, concatenated (with c) to the multiplied row.

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