5

I have 22 variables, and I'd like to get the correlation scores, not as a matrix of correlation, but in a data frame, by pairs...

I mean... Not like this

    v1  v2  v3  v4
v1  1   x   x   x
v2  x   1   x   x
v3  x   x   1   x
v4  x   x   x   1

but like this:

var1  var2 cor
v1    v2   x
v1    v3   x
v1    v4   x
v2    v3   x
v2    v4   x
v3    v4   x

I'm new to R and I have been researching a lot, and I end up with a code that, sincerely, Is not efficient at all... My code creates a huge data frame with all the possible combinations for 22 variables (which is 4194304 combinatios... a lot!!! ) ... And then the code assigns the correlations just for the first 211 rows, which are the combinations with only 2 variables... Then I exclude everything I'm not interested in. Well... I get what I need. But I'm sure this is a very dumb way to do this and I'd like to learn a better way... Any tips?

My code:

#Getting the variable names from the data frame
av_variables<-variable.names(data.1)

#Creating a huge data frame for all possible combinations
corr_combinations <- as.data.frame(matrix(1,0,length(av_variables)))
for (i in 1:length(av_variables)){
  corr_combinations.i <- t(combn(av_variables,i))
  corr_combinations.new <- as.data.frame(matrix(1,length(corr_combinations.i[,1]),length(av_variables)))
  corr_combinations.new[,1:i] <- corr_combinations.i
  corr_combinations <- rbind(corr_combinations,corr_combinations.new)

#How many combinations for 0:2 variables?
comb_par_var<-choose(20, k=0:2)
##211

#A new column to recieve the values
corr_combinations$cor <- 0


  #Getting the correlations and assigning to the empty column
 for (i in (length(av_variables)+1):(length(av_variables)+ sum(comb_par_var) +1)){
  print(i/length(corr_combinations[,1]))
  corr_combinations$cor[i] <- max(as.dist(abs(cor(data.1[,as.character(corr_combinations[i,which(corr_combinations[i,]!=0&corr_combinations[i,]!=1)])]))))
  # combinations$cor[i] <- max(as.dist(abs(cor(data.0[,as.character(combinations[i,combinations[i,]!=0&combinations[i,]!=1])]))))
  }

#Keeping only the rows with the combinations of 2 variables
corr_combinations[1:(length(av_variables)+ sum(comb_par_var) +2),21]
corr_combinations<-corr_combinations[1:212,]
corr_combinations<-corr_combinations[21:210,]

#Keeping only the columns var1, var2 and cor
corr_combinations<-corr_combinations[,c(1,2,21)]

#Ordering to keep only the pairs with correlation >0.95, 
#which was my purpose the whole time
corr_combinations <- corr_combinations[order(corr_combinations$cor),]
corr_combinations<-corr_combinations[corr_combinations$cor >0.95, ] 
}
2
  • 1
    you can use reshape2::melt on the correlation matrix (set the upper.tri to NA before melting if you only want the lower corr matrix) . stackoverflow.com/questions/41793219/… gives a rough idea – user20650 Aug 22 '17 at 19:39
  • 1
    Thank you so much! that's exactly what I was looking for! I did read a lot of questions about correlation and combinations here, but I didn't have found this specific one! – Thai Aug 22 '17 at 19:49
7

You can calculate the full correlation matrix in one go. Then you just need to reshape. An example,

cr <- cor(mtcars)
# This is to remove redundancy as upper correlation matrix == lower 
cr[upper.tri(cr, diag=TRUE)] <- NA
reshape2::melt(cr, na.rm=TRUE, value.name="cor")
4

One base R alternative is to use matrix subsetting on the row/column names that are pulled together with combn.

# get pairwise combination of variable names
vars <- t(combn(colnames(myMat), 2))

# build data.frame with matrix subsetting
data.frame(vars, myMat[vars])
  X1 X2 myMat.vars.
1 V1 V2   0.8500071
2 V1 V3  -0.2828288
3 V1 V4  -0.2867921
4 V2 V3  -0.2698210
5 V2 V4  -0.2273411
6 V3 V4   0.9962044

You can add column names in one line as well using setNames.

setNames(data.frame(vars, myMat[vars]), c("var1", "var2", "corr"))

data

set.seed(1234)
myMat <- cor(matrix(rnorm(16), 4, dimnames=list(paste0("V", 1:4), paste0("V", 1:4))))
myMat
           V1         V2         V3         V4
V1  1.0000000  0.8500071 -0.2828288 -0.2867921
V2  0.8500071  1.0000000 -0.2698210 -0.2273411
V3 -0.2828288 -0.2698210  1.0000000  0.9962044
V4 -0.2867921 -0.2273411  0.9962044  1.0000000
2
  • Ohhhh, I got it! I was using mycor<-as.data.frame(combn(colnames(myMat), 2)) , but that would give a df with 2 observations of 2 hundred variables, and I couldn't transpose! So, this is how you do! Thank you for your help, I learnt a lot! – Thai Aug 22 '17 at 20:14
  • 1
    Sure thing. Just note that combn(colnames(myMat), 2) creates a matrix here. Such an object is ideal for transposing with t. It is important to distinguish matrices from data.frames because they can have different behavior. However, matrices can be easily converted to data.frames with data.frame as above or using as.data.frame. However, since we are also adding the correlation values, we need to use data.frame to perform the coercion. – lmo Aug 22 '17 at 20:19
1

You can use tidyr to reshape the correlation matrix.

First, create a correlation matrix:

> d <- data.frame(x1=rnorm(10),
+                 x2=rnorm(10),
+                 x3=rnorm(10))
> x <- cor(d) # get correlations (returns matrix)
> x
           x1         x2         x3
x1  1.0000000  0.3096685 -0.5358578
x2  0.3096685  1.0000000 -0.7497212
x3 -0.5358578 -0.7497212  1.0000000

Then, use tidyr to reshape:

> y <- as.data.frame(x)
> y$var1 <- row.names(y)
> library(tidyr)
> gather(data = y, key = "var2", value = "correlation", -var1)
  var1 var2 correlation
1   x1   x1   1.0000000
2   x2   x1   0.3096685
3   x3   x1  -0.5358578
4   x1   x2   0.3096685
5   x2   x2   1.0000000
6   x3   x2  -0.7497212
7   x1   x3  -0.5358578
8   x2   x3  -0.7497212
9   x3   x3   1.0000000
0

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