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I have a list of data frames with different set of columns, I would like combine them into one data frame. I use rbind.fill to do that. I am looking something that would do it more efficiently. Similar to the answer given here

require(plyr)

set.seed(45)
sample.fun <- function() {
   nam <- sample(LETTERS, sample(5:15))
   val <- data.frame(matrix(sample(letters, length(nam)*10,replace=TRUE),nrow=10))
   setNames(val, nam)  
}
ll <- replicate(1e4, sample.fun())
rbind.fill(ll)
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2 Answers

up vote 14 down vote accepted

UPDATE (eddi): This has now been implemented in version 1.8.11 as a fill argument to rbind. For example:

DT1 = data.table(a = 1:2, b = 1:2)
DT2 = data.table(a = 3:4, c = 1:2)

rbind(DT1, DT2, fill = TRUE)
#   a  b  c
#1: 1  1 NA
#2: 2  2 NA
#3: 3 NA  1
#4: 4 NA  2

FR #4790 added now - rbind.fill (from plyr) like functionality to merge list of data.frames/data.tables

Note 1:

This solution uses data.table's rbindlist function to "rbind" list of data.tables and for this, be sure to use version 1.8.9 because of this bug in versions < 1.8.9.

Note 2:

rbindlist when binding lists of data.frames/data.tables, as of now, will retain the data type of the first column. That is, if a column in first data.frame is character and the same column in the 2nd data.frame is "factor", then, rbindlist will result in this column being a character. So, if your data.frame consisted of all character columns, then, your solution with this method will be identical to the plyr method. If not, the values will still be the same, but some columns will be character instead of factor. You'll have to convert to "factor" yourself after. Hopefully this behaviour will change in the future.

And now here's using data.table (and benchmarking comparison with rbind.fill from plyr):

require(data.table)
rbind.fill.DT <- function(ll) {
    # changed sapply to lapply to return a list always
    all.names <- lapply(ll, names)
    unq.names <- unique(unlist(all.names))
    ll.m <- rbindlist(lapply(seq_along(ll), function(x) {
        tt <- ll[[x]]
        setattr(tt, 'class', c('data.table', 'data.frame'))
        data.table:::settruelength(tt, 0L)
        invisible(alloc.col(tt))
        tt[, c(unq.names[!unq.names %chin% all.names[[x]]]) := NA_character_]
        setcolorder(tt, unq.names)
    }))
}

rbind.fill.PLYR <- function(ll) {
    rbind.fill(ll)
}

require(microbenchmark)
microbenchmark(t1 <- rbind.fill.DT(ll), t2 <- rbind.fill.PLYR(ll), times=10)
# Unit: seconds
#                      expr      min        lq    median        uq       max neval
#   t1 <- rbind.fill.DT(ll)  10.8943  11.02312  11.26374  11.34757  11.51488    10
# t2 <- rbind.fill.PLYR(ll) 121.9868 134.52107 136.41375 184.18071 347.74724    10


# for comparison change t2 to data.table
setattr(t2, 'class', c('data.table', 'data.frame'))
data.table:::settruelength(t2, 0L)
invisible(alloc.col(t2))
setcolorder(t2, unique(unlist(sapply(ll, names))))

identical(t1, t2) # [1] TRUE

It should be noted that plyr's rbind.fill edges past this particular data.table solution until list size of about 500.

Benchmarking plot:

Here's the plot on runs with list length of data.frames with seq(1000, 10000, by=1000). I've used microbenchmark with 10 reps on each of these different list lengths.

enter image description here

Benchmarking gist:

Here's the gist for benchmarking, in case anyone wants to replicate the results.

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+1 but rbind.fill.DT returns invisibly. Was that intentional? –  GSee Aug 1 '13 at 21:18
3  
very nice - this really should go into data.table - maybe you could add a FR –  eddi Aug 1 '13 at 21:20
    
@GSee, no, not intentional. I just noticed that. You could add a ll.m before the last line. –  Arun Aug 1 '13 at 21:21
    
@eddi, thank you. good idea. will do. –  Arun Aug 1 '13 at 21:21
    
Any theories as to why plyr would be faster at 6000 than 5000? The difference from 7000 to 8000 I'm willing to write off as an insignificant difference, but ~35 seconds...? –  joran Aug 2 '13 at 0:16
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There is still something to be gained if you parallelize both rbind.fill and rbindlist. The results are done with data.table version 1.8.8 as version 1.8.9 got bricked when I tried it with the parallelized function. So the results aren't identical between data.table and plyr, but they are identical within data.table or plyr solution. Meaning parallel plyr matches to unparallel plyr, and vice versa.

Here's the benchmark/scripts. The parallel.rbind.fill.DT looks horrible, but that's the fastest one I could pull.

require(plyr)
require(data.table)
require(ggplot2)
require(rbenchmark)
require(parallel) 

# data.table::rbindlist solutions
rbind.fill.DT <- function(ll) {
  all.names <- lapply(ll, names)
  unq.names <- unique(unlist(all.names))
  rbindlist(lapply(seq_along(ll), function(x) {
    tt <- ll[[x]]
    setattr(tt, 'class', c('data.table', 'data.frame'))
    data.table:::settruelength(tt, 0L)
    invisible(alloc.col(tt))
    tt[, c(unq.names[!unq.names %chin% all.names[[x]]]) := NA_character_]
    setcolorder(tt, unq.names)
  }))
}

 parallel.rbind.fill.DT <- function(ll, cluster=NULL){
   all.names <- lapply(ll, names)
   unq.names <- unique(unlist(all.names)) 
   if(is.null(cluster)){
     ll.m <- rbindlist(lapply(seq_along(ll), function(x) {
       tt <- ll[[x]]
       setattr(tt, 'class', c('data.table', 'data.frame'))
       data.table:::settruelength(tt, 0L)
       invisible(alloc.col(tt))
       tt[, c(unq.names[!unq.names %chin% all.names[[x]]]) := NA_character_]
       setcolorder(tt, unq.names)
     }))
   }else{
     cores <- length(cluster)
     sequ <- as.integer(seq(1, length(ll), length.out = cores+1))
     Call <- paste(paste("list", seq(cores), sep=""), " = ll[", c(1, sequ[2:cores]+1), ":", sequ[2:(cores+1)], "]", sep="", collapse=", ") 
     ll <- eval(parse(text=paste("list(", Call, ")")))
     rbindlist(clusterApply(cluster, ll, function(ll, unq.names){
        rbindlist(lapply(seq_along(ll), function(x, ll, unq.names) {
          tt <- ll[[x]]
          setattr(tt, 'class', c('data.table', 'data.frame'))
          data.table:::settruelength(tt, 0L)
          invisible(alloc.col(tt))
          tt[, c(unq.names[!unq.names %chin% colnames(tt)]) := NA_character_]
          setcolorder(tt, unq.names)
        }, ll=ll, unq.names=unq.names))
      }, unq.names=unq.names))
    }
  }           


# plyr::rbind.fill solutions
rbind.fill.PLYR <- function(ll) {
  rbind.fill(ll)
}

parallel.rbind.fill.PLYR <- function(ll, cluster=NULL, magicConst=400){
  if(is.null(cluster) | ceiling(length(ll)/magicConst) < length(cluster)){
    rbind.fill(ll)
  }else{
    cores <- length(cluster)
    sequ <- as.integer(seq(1, length(ll), length.out = ceiling(length(ll)/magicConst)))
    Call <- paste(paste("list", seq(cores), sep=""), " = ll[", c(1, sequ[2:(length(sequ)-1)]+1), ":", sequ[2:length(sequ)], "]", sep="", collapse=", ") 
    ll <- eval(parse(text=paste("list(", Call, ")")))
    rbind.fill(parLapply(cluster, ll, rbind.fill))
  }
} 

# Function to generate sample data of varying list length
set.seed(45)
sample.fun <- function() {
  nam <- sample(LETTERS, sample(5:15))
  val <- data.frame(matrix(sample(letters, length(nam)*10,replace=TRUE),nrow=10))
  setNames(val, nam)
}

ll <- replicate(10000, sample.fun())
cl <- makeCluster(4, type="SOCK")
clusterEvalQ(cl, library(data.table))
clusterEvalQ(cl, library(plyr))
benchmark(t1 <- rbind.fill.PLYR(ll),
  t2 <- rbind.fill.DT(ll),
  t3 <- parallel.rbind.fill.PLYR(ll, cluster=cl, 400),
  t4 <- parallel.rbind.fill.DT(ll, cluster=cl),
  replications=5)
stopCluster(cl)

# Results for rbinding 10000 dataframes
# done with 4 cores, i5 3570k and 16gb memory
# test                          reps elapsed relative 
# rbind.fill.PLYR                 5  321.80    16.682   
# rbind.fill.DT                   5   26.10    1.353    
# parallel.rbind.fill.PLYR        5   28.00    1.452     
# parallel.rbind.fill.DT          5   19.29    1.000    

# checking are results equal
t1 <- as.matrix(t1)
t2 <- as.matrix(t2)
t3 <- as.matrix(t3)
t4 <- as.matrix(t4)

t1 <- t1[order(t1[, 1], t1[, 2]), ]
t2 <- t2[order(t2[, 1], t2[, 2]), ]
t3 <- t3[order(t3[, 1], t3[, 2]), ]
t4 <- t4[order(t4[, 1], t4[, 2]), ]

identical(t2, t4) # TRUE
identical(t1, t3) # TRUE
identical(t1, t2) # FALSE, mismatch between plyr and data.table

As you can see parallesizing rbind.fill made it comparable to data.table, and you could get marginal increase of speed by parallesizing data.table even with this low of a dataframe count.

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