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I am having a challenge with a piece of code that takes very long to execute and I am wondering what are the key tricks to optimize the execution time of this code. I have to admit that the input data.frame is significant (140,000 rows) and that the output data.frame is approximately 220,000 rows.

A sample of the input data.frame:

head(extremes)
X_BusinessIDDescription     min         max         month
ID105                       2007-12-01  2008-06-01  2007-12-01
ID206                       2007-12-01  2009-07-01  2007-12-01
ID204                       2007-12-01  2008-02-01  2007-12-01
ID785                       2008-07-01  2010-08-01  2008-07-01
ID125                       2007-11-01  2008-07-01  2007-11-01
ID107                       2007-11-01  2011-06-01  2007-11-01

The data.frame that will be extended with the loop. The data.frame is initiated to get the structure in place.

output <- extremes[1,]
output
X_BusinessIDDescription     min         max         month
ID105                       2007-12-01  2008-06-01  2007-12-01

Other values

IDcounter <- 1
IDmax <- nrow(extremes)
linecounter <- 1

The while-loop I would like to optimize:

while (IDcounter <= IDmax){
    start <- extremes$min[IDcounter]
    end <- extremes$max[IDcounter] # add three months
    while(start <= end){
        output[linecounter,] <- extremes[IDcounter,]
        output$month[linecounter] <- start
        linecounter <- linecounter+1
        start <- seq(start, by ="month", length=2)[2]
    }
    IDcounter <- IDcounter + 1
}

For a small number of rows this code executes pretty quickly, but it seems like it is slowing down as the output extends.

The output looks something like this:

head(output)
X_BusinessIDDescription     min         max         month
ID105                       2007-12-01  2008-06-01  2007-12-01
ID105                       2007-12-01  2008-06-01  2008-01-01
ID105                       2007-12-01  2008-06-01  2008-02-01
ID105                       2007-12-01  2008-06-01  2008-03-01
ID105                       2007-12-01  2008-06-01  2008-04-01
ID105                       2007-12-01  2008-06-01  2008-05-01

For every month in the interval between min and max in the extreme file is an row created.

I also would be interested to learn how I can can that this code can take ready of the multiple cores of computing resources available. OK, I admit this is not really an optimization but it will reduce the execution time, which is important as well.

Jochem

share|improve this question
    
Is there a speed difference between for and while? – Jochem Nov 20 '12 at 14:32
1  
No there's no (significant) speed difference between for and while. – Shahbaz Nov 20 '12 at 14:46
2  
You're committing the cardinal sin of growing an object inside a loop. Initialize the entire 220k row data.frame first and insert the results in the relevant rows via subsetting. – Joshua Ulrich Nov 20 '12 at 15:10
1  
What is the problem you are trying to solve? I see a rather gigantic matrix as your output, with hugely redundant entries! If you can tell us what you plan to do with the basic combinations of "IDxxx" and every month that ID value is valid, we can suggest a much simpler structure. E.g. output <- list({name all the unique IDxxx values}) , then each output$IDxxx <-{function which lists all the valid months} . – Carl Witthoft Nov 20 '12 at 15:13
1  
The plyr package and most importantly the data.table package will probably solve your problem. – Paul Hiemstra Nov 20 '12 at 15:15
up vote 2 down vote accepted

As @CarlWitthoft already mentioned you have to rethink your data structure because of many duplicated data.

Here you find a simple vectorized approach:

  ## create all possible ranges of months
  ranges <- mapply(function(mi, ma) {seq(from=mi, to=ma, by="month")}, mi=extremes$min, ma=extremes$max)

  ## how many months per ID?
  n <- unlist(lapply(ranges, length))

  ## create new data.frame
  output <- data.frame(X_BusinessIDDescription=rep(extremes$X_BusinessIDDescription, n),
                      min=rep(extremes$min, n),
                      max=rep(extremes$max, n),
                      month=as.Date(unlist(ranges), origin="1970-01-01"), stringsAsFactors=FALSE)

Comparison to your approach:

extremes <- data.frame(X_BusinessIDDescription=c("ID105", "ID206", "ID204", "ID785", "ID125", "ID107"),
                      min=as.Date(c("2007-12-01", "2007-12-01", "2007-12-01", "2008-07-01", "2007-11-01", "2007-11-01")),
                      max=as.Date(c("2008-06-01", "2009-07-01", "2008-02-01", "2010-08-01", "2008-07-01", "2011-06-01")),
                      month=as.Date(c("2007-12-01", "2007-12-01", "2007-12-01", "2008-07-01", "2007-11-01", "2007-11-01")),
                      stringsAsFactors=FALSE)

approachWhile <- function(extremes) {
  output <- data.frame(X_BusinessIDDescription=NA, min=as.Date("1970-01-01"), max=as.Date("1970-01-01"), month=as.Date("1970-01-01"), stringsAsFactors=FALSE)
  IDcounter <- 1
  IDmax <- nrow(extremes)
  linecounter <- 1
  while (IDcounter <= IDmax){
    start <- extremes$min[IDcounter]
    end <- extremes$max[IDcounter] # add three months
    while(start <= end){
        output[linecounter,] <- extremes[IDcounter,]
        output$month[linecounter] <- start
        linecounter <- linecounter+1
        start <- seq(start, by ="month", length=2)[2]
    }
    IDcounter <- IDcounter + 1
  }
  return(output)
}

approachMapply <- function(extremes) {                       
  ranges <- mapply(function(mi, ma) {seq(from=mi, to=ma, by="month")}, mi=extremes$min, ma=extremes$max)

  n <- unlist(lapply(ranges, length))

  output <- data.frame(X_BusinessIDDescription=rep(extremes$X_BusinessIDDescription, n),
                      min=rep(extremes$min, n),
                      max=rep(extremes$max, n),
                      month=as.Date(unlist(ranges), origin="1970-01-01"), stringsAsFactors=FALSE)
  return(output)
}

identical(approachWhile(extremes), approachMapply(extremes)) ## TRUE

library("rbenchmark")

benchmark(approachWhile(extremes), approachMapply(extremes), order="relative")
#                      test replications elapsed relative user.self sys.self
#2 approachMapply(extremes)          100   0.176     1.00     0.172    0.000
#1  approachWhile(extremes)          100   6.102    34.67     6.077    0.008
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