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Yesterday I posted a question asking how to obtain averages of observations in neighboring columns of a data set:

average pairs of columns in R

Today I realized I actually need weighted averages. I tried modifying the answer above to the revised situation, but still do not understand the family of apply functions well enough to do so easily.

I have written code to obtain weighted averages for an example data set below and can probably use that code with my real data. Nevertheless, if someone is able to illustrate how to use the apply family of functions here for weighted averages, that will go a long way, I think, toward improving my understanding and coding proficiency. Regardless, thank you for all past and future help and ideas.

x = read.table(text = "
  site     yr1  yr2  yr3  yr4
    1      10   15    6    8
    2      10   20   30   40
    3       5   NA    2    3
    4     100  100   NA   NA", 
sep = "", header = TRUE)

x

weights = read.table(text = "
  site    yr1  yr2  yr3  yr4
    1       2    4    1    3
    2       2    2    4    2
    3       3    2    2    3
    4       4    2    2    4", 
sep = "", header = TRUE)

weights

x.weights = x * weights

numerator <- matrix(NA, ncol=((ncol(x.weights)/2)+1), nrow=nrow(x.weights))

for(i in 1: ((ncol(weights)-1)/2)) {
  for(j in 1:   nrow(weights)      ) {

    numerator[j,   1 ] <- x[j,1]
    numerator[j,(i+1)] <- sum(c(x.weights[j,(1 + ((i-1)*2 + 1))], x.weights[j,(1 + ((i-1)*2 + 2))]), na.rm = TRUE) 

  }
}

numerator

denominator <- matrix(NA, ncol=((ncol(weights)/2)+1), nrow=nrow(weights))

for(i in 1: ((ncol(weights)-1)/2)) {
  for(j in 1:   nrow(weights)      ) {

    denominator[j,   1 ] <- x[j,1]
    denominator[j,(i+1)] <- sum(c(weights[j,(1 + ((i-1)*2 + 1))], weights[j,(1 + ((i-1)*2 + 2))]), na.rm = TRUE) 

  }
}

denominator

weighted.ave <- numerator[,2:ncol(numerator)] / denominator[,2:ncol(denominator)]
weighted.ave

# insert value from x if one of a pair is missing
# insert NA if both in a pair are missing

adj.weighted.ave <- weighted.ave

for(i in 1: ((ncol(x)-1)/2)) {
  for(j in 1:   nrow(x)      ) {

    if( is.na(x[j,(1 + (i-1)*2 + 1)]) & !is.na(x[j,(1 + (i-1)*2 + 2)])) adj.weighted.ave[j,i] =  sum(c(x[j,(1 + ((i-1)*2 + 1))], x[j,(1 + ((i-1)*2 + 2))]), na.rm = TRUE) 
    if(!is.na(x[j,(1 + (i-1)*2 + 1)]) &  is.na(x[j,(1 + (i-1)*2 + 2)])) adj.weighted.ave[j,i] =  sum(c(x[j,(1 + ((i-1)*2 + 1))], x[j,(1 + ((i-1)*2 + 2))]), na.rm = TRUE) 
    if( is.na(x[j,(1 + (i-1)*2 + 1)]) &  is.na(x[j,(1 + (i-1)*2 + 2)])) adj.weighted.ave[j,i] =  NA 

 }
}

adj.weighted.ave

#           [,1]     [,2]
# [1,]  13.33333  7.50000
# [2,]  15.00000 33.33333
# [3,]   5.00000  2.60000
# [4,] 100.00000       NA
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1  
The weighted.mean function computes weighted averages; you should be able to pass that into whichever apply function and then pass the w argument (the weights) as an additional argument (where the three dots are in *apply's argument list). –  Glen_b Dec 6 '12 at 22:16

2 Answers 2

up vote 1 down vote accepted

Using the elements from the answer to your previous question:

numerator <- sapply(seq(2,ncol(x.weights),2), function(i) {
  apply(x.weights[,c(i, i+1)], 1, sum, na.rm=T)
})

denominator <- sapply(seq(2,ncol(weights),2), function(i) {
  apply(weights[,c(i, i+1)], 1, sum, na.rm=T)
})

numerator/denominator
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 apply(x, 1, function(rw) weighted.mean( rw[2:5], 
                     weights=weights[rw["site"], 2:5 ] ,na.rm=TRUE) )
[1]   9.750000  25.000000   3.333333 100.000000

This does depend on the site numbers matching the row.names.

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