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The script below illustrate my question:

library(reshape2)

set.seed(1)
dummy.df <- data.frame(var_a=sample(letters[1:5],200,replace=TRUE),
                       var_b=sample(1:5,200,replace=TRUE),
                       stringsAsFactors=FALSE)

temp1 <- addmargins(table(dummy.df[,c("var_a","var_b")]),1)
temp2 <- formatC(addmargins(prop.table(table(dummy.df[,c("var_a","var_b")]),2),1)*100,digits=2,format="f")

temp1.melt <- melt(temp1,id.vars="var_a")
temp2.melt <- melt(temp2,id.vars="var_a")

temp.output <- merge(temp1.melt,temp2.melt,by=c("var_a","var_b"))
temp.output[,"value"] <- paste(temp.output[,"value.x"]," (",temp.output[,"value.y"],"%)",sep="")
temp.output[,"var_a"] <- factor(temp.output[,"var_a"],levels=c("a","b","c","d","e","Sum"))
temp.output <- dcast(temp.output,formula=var_a~var_b,value.var="value")

One of my usual work in office is to create tables listing the frequency between different variables, usually I will include the percentage (row/column percentage) in the table also.

Before I know the function addmargins, prop.table and as.data.frame.matrix, I use lots of melt and dcast from reshape2 package to do the trick (i.e. convert the table to dataframe, melt it, do the appropriate division to give the percentage, then dcast it). Now I know using the three new learnt function can save me lots of codes.

Now I wonder if this can be moving one step ahead, without using the script I provided above, and to create a table with row/column percentage present next to the actual count?

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1 Answer 1

up vote 3 down vote accepted

If the number of columns is N then this takes the two table and rearranges. Since you have figured out the renaming of columns I will not bore you with that:

 temp12 <- cbind(temp1, temp2)
stopifnot( ncol(temp1) == ncol(temp2))
data.frame( var_a=rownames(temp1), temp12[ ,c(t(matrix(1:10, 5,2))) ] )
#----- 
    var_a X1   X1.1 X2   X2.1 X3   X3.1 X4   X4.1 X5   X5.1
a       a  7  15.22  9  18.75  7  17.07  4  14.29  2   5.41
b       b 13  28.26 12  25.00  6  14.63  5  17.86  9  24.32
c       c  9  19.57  9  18.75  9  21.95  3  10.71 13  35.14
d       d  9  19.57  9  18.75  8  19.51 12  42.86 10  27.03
e       e  8  17.39  9  18.75 11  26.83  4  14.29  3   8.11
Sum   Sum 46 100.00 48 100.00 41 100.00 28 100.00 37 100.00

(You could use the same matrix transpose trick to choose from two appended vectors of constructed column names.)

share|improve this answer
    
yea, it is close, but you doubled the number of columns minus one in the tables –  lokheart Jan 25 '13 at 2:34
    
Not sure what you mean. Are you referring to the fact that the first column is not the group labels? If so, it's dealt with. –  BondedDust Jan 25 '13 at 2:36
    
@DWin might I suggest to replace matrix(1:10, 5,2) by matrix(seq(1,ncol(temp1)*2), ncol(temp1),2) ... –  agstudy Jan 25 '13 at 2:42
    
@DWin, what I mean is that my table was originally consist of 6 columns, but now your output gives 11 columns, if I export it to excel and give borders, it will look different from my original output –  lokheart Jan 25 '13 at 2:47
    
I was trying to mimic the output you offered with temp.output ... which had 11 columns. Feel free to edit your question to define explicitly what you want. My mind-reader is not working at the moment. –  BondedDust Jan 25 '13 at 3:07

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