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I'm trying to speed up code that takes time series data and limits it to a maximum value and then stretches it forward until sum of original data and the "stretched" data are the same.

I have a more complicated version of this that is taking 6 hours to run on 100k rows. I don't think this is vectorizable because it uses values calculated on prior rows - is that correct?

x <- c(0,2101,3389,3200,1640,0,0,0,0,0,0,0)
dat <- data.frame(x=x,y=rep(0,length(x)))
remainder <- 0
upperlimit <- 2000
for(i in 1:length(dat$x)){
  if(dat$x[i] >= upperlimit){
    dat$y[i]  <- upperlimit
  } else {
    dat$y[i] <- min(remainder,upperlimit)
  remainder  <-  remainder + dat$x[i] - dat$y[i]

I understand you can use ifelse but I don't think cumsum can be used to carry forward the remainder - apply doesn't help either as far as I know. Do I need to resort to Rcpp? Thank you greatly.

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upperlimit never changes, so you should get a big performance boost if you calculate dat$x >= upperlimit first. –  Señor O Sep 16 '13 at 18:49
General advice: data.frame subsettting is slow. Work with vectors in your loop and combine the results into a data.frame in the end. –  Roland Sep 16 '13 at 19:10

1 Answer 1

I went ahead and implemented this in Rcpp and made some adjustments to the R function:


limitstretchR <- function(upperlimit,original) {
  remainder  <- 0
  out <- vector(length=length(original))
  for(i in 1:length(original)){
    if(original[i] >= upperlimit){
      out[i]  <- upperlimit
    } else {
      out[i] <- min(remainder,upperlimit)
    remainder  <-  remainder + original[i] - out[i]

The Rcpp function:

  NumericVector limitstretchC(double upperlimit, NumericVector original) {
    int n = original.size();
    double remainder = 0.0;
    NumericVector out(n);
    for(int i = 0; i < n; ++i) {
        if (original[i] >= upperlimit) {
          out[i] = upperlimit;
        } else {
          out[i] = std::min<double>(remainder,upperlimit);
      remainder = remainder + original[i] - out[i];
    return out;

Testing them:

x <- c(0,2101,3389,3200,1640,0,0,0,0,0,0,0)
original <- rep(x,20000)
upperlimit <- 2000

That yielded 80.655 and 0.001 seconds respectively. Native R is quite bad for this. However, I ran a microbenchmark (using a smaller vector) and got some confusing results.

res <- microbenchmark(list=
print(qplot(y=time, data=res, colour=expr) + scale_y_log10())

If you were to run that you would see nearly identical results for both functions. This is my first time using microbenchmark, any tips?

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For those following along, the original version using a data.frame finally finished. It took 1317.996 seconds. –  ideamotor Sep 18 '13 at 19:44

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