9

It is a follow-up question to this one. What is the fastest way to read .xlsx files into R ?

I use library(xlsx) to read in data from 36 .xlsx files. It works. However, the problem is that this is very time consuming (well over 30 minutes), especially when considering the data in each file is not that large (matrix of size 3*3652 in each file). To this end, is there a better to deal with such problem, please? Is there another quick way to read .xlsx into R? Or can I put the 36 files into a single csv file quickly and then read into R?

Moreover, I just realised that readxl cannot write xlsx. Is there a counterpart of it to deal with writing instead of reading?

"Response to those voted this question down":

This question is about fact instead of the so-called "opinionated answers and spam" because speed is time and time is fact but NOT opinion.

Further update:

Perhaps one can explain to us in plain language why some method works much faster than others. I am certainly confused about this.

  • 6
    use readxl::read_excel(), it is usually faster – scoa Jun 14 '17 at 7:31
  • 4
    Either try the openxlsx or the readxlpackage. – Jaap Jun 14 '17 at 7:31
  • 4
    This is a perfectly reasonable question just as we've seen other questions in SO about what is the fastest way to read or write .csv files in R. The answer to the questions would require a benchmark and it could be of interest to a large audience – rafa.pereira Jun 14 '17 at 7:59
11

Here is a small benchmark test. Results: readxl::read_xlsx on average about twice as fast as openxlsx::read.xlsx across different number of rows (n) and columns (p) using standard settings.

enter image description here

options(scipen=999)  # no scientific number format

nn <- c(1, 10, 100, 1000, 5000, 10000, 20000, 30000)
pp <- c(1, 5, 10, 20, 30, 40, 50)

# create some excel files
l <- list()  # save results
tmp_dir <- tempdir()

for (n in nn) {
  for (p in pp) {
    name <-  
    cat("\n\tn:", n, "p:", p)
    flush.console()
    m <- matrix(rnorm(n*p), n, p)
    file <- paste0(tmp_dir, "/n", n, "_p", p, ".xlsx")

    # write
    write.xlsx(m, file)

    # read
    elapsed <- system.time( x <- openxlsx::read.xlsx(file) )["elapsed"]
    df <- data.frame(fun = "openxlsx::read.xlsx", n = n, p = p, 
                     elapsed = elapsed, stringsAsFactors = F, row.names = NULL)
    l <- append(l, list(df))

    elapsed <- system.time( x <- readxl::read_xlsx(file) )["elapsed"]
    df <- data.frame(fun = "readxl::read_xlsx", n = n, p = p, 
                     elapsed = elapsed, stringsAsFactors = F, row.names = NULL)
    l <- append(l, list(df))

  }
}

# results 
d <- do.call(rbind, l)

library(ggplot2)

ggplot(d, aes(n, elapsed, color= fun)) + 
  geom_line() + geom_point() +  
  facet_wrap( ~ paste("columns:", p)) +
  xlab("Number of rows") +
  ylab("Seconds")
  • 1
    Beautiful charts. Great answer! For my part, using xlsx::write.xlsx() on a 49MB dataframe crashed out-of-memory after 10 minutes, and this was with options(java.parameters = "- Xmx1024m"). The same dataframe saves in under 30 seconds using openxlsx::saveWorkbook() – pbnelson May 17 '18 at 21:06

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