I've got a data-import script that reads lines and adds them to a database, so far so good. Unfortunately something in the script (or its runtime or database library or whatever) is memory leaky, so large imports use monotonically increasing main memory, leading to slow swap and then memory-exhausted process death. Breaking the import up into multiple runs is a workaround; I've been doing that with split then doing a looped execution of the import script on each piece.

But I'd rather skip making the split files and this feels like it should be a 1-liner. In fact, it seems there should be an equivalent to xargs that passes the lines through to the specified command on stdin, instead of as arguments. If this hypothetical command were xlines, then I'd expect the following to run the myimport script for each batch of up-to 50,000 lines in giantfile.txt:

cat giantfile.txt | xlines -L 50000 myimport

Am I missing an xlines-like capability under some other name, or hidden in some other command's options? Or can xlines be done in a few lines of BASH script?


Use GNU Parallel - available here.

You will need the --pipe option and also the --block option (which takes a byte size, rather than a line count).

Something along the lines of:

cat giantfile.txt | parallel -j 8 --pipe --block 4000000 myimport

(That's choosing a blocksize of 50,000 lines * 80 bytes = 4000000, which could also be abbreviated 4m here.)

If you don't want the jobs to actually run in parallel, change the 8 to 1. Or, you can leave it out altogether and it will run one job per CPU core.

You can also avoid the cat, by running

parallel ... < giantfile.txt
  • That's the answer! – Juan Diego Godoy Sep 10 '14 at 9:07
  • Aha! I suspected a form of parallel might be involved but missed that -pipe was just the right thing. Thanks! – gojomo Sep 10 '14 at 9:10
  • In my tests (including with most recent gnu parallel source), the -L option doesn't work with --pipe (which does require double-dashes). You have to use --block instead, which specifies the batch size in raw bytes. (parallel automatically pushes fragmented records into the next block). Answer updated. – gojomo Sep 11 '14 at 0:22
  • Ok, my apologies for the inaccuracies. Thank you for correcting the answer for the rest of the community. Maybe @OleTange (author of GNU Parallel) will take a look to ensure we are all correct now. – Mark Setchell Sep 11 '14 at 8:22
  • 1
    --pipe -L gives the record size in lines. What you want is --pipe -N (number of records - a record defaults to 1 line). But --block is more efficient (around 100 MB/s). And --pipepart (from version 20140622) more efficient still (around 3 GB/s). – Ole Tange Sep 24 '14 at 19:20

Save following code as a test.sh script.

rm -f tempFile > /dev/null 2>&1
declare -i cnt=0
while read line
    if [[ $cnt < $1 || $cnt == $1 ]]; then
            echo $line >> tempFile
        echo $line >> tempFile
        cat tempFile | myimport
        rm -f tempFile > /dev/null 2>&1
done < $2

exit 0

Then run ./test.sh 500000 giantfile.txt. I use a tempFile to save specified number of lines, then use your import script dealing with it. I hope it helps.

  • Thanks! But I still need to use large batches of many thousands of lines per run – each run involves enough overhead (in particular a database-connection and transaction) that a run-per-line is very slow. – gojomo Sep 10 '14 at 8:41
  • Thanks for the update; this use of a single tempfile at a time would be an improvement over the preemptive split, if the parallel-based approach wasn't usable. I suppose that if the chunk sizes are guaranteed to fit in memory, the temp file could be skipped and an in-memory array, for example as from the bash builtin mapfile, could be used. And probably there's a way to skip the explicit temp file by using named pipes, too... – gojomo Sep 11 '14 at 21:03

My approach, without installing parallel, and without writing temporary files:


[ ! -f "$1" ] && echo "missing file." && exit 1

command="$(which cat)" # just as example, insert your command here
totalSize="$(wc -l $1 | cut -f 1 -d ' ')"
chunkSize=3 # just for the demo, set to 50000 in your version

while [ $[ $totalSize + 1 ] -gt $offset ]; do

        tail -n +$offset $1 | head -n $chunkSize | $command
        let "offset = $offset + $chunkSize"
        echo "----"


seq 1000 1010 > testfile.txt
./splitter.sh testfile.txt



This way, the solution remains portable, and the performance is better than with temporary files.

  • 1
    For curiousity's sake, I am interested in learning the optimal/idiomatic bash-script-based way to do this... your approach seems a step in that direction, but the repeated scanning of the file (for initial wc and each head/tail slice) involves a lot of redundant IO in the mega-sized-file case. (As I mention in another comment on another answer, I think bash built-in mapfile or named-pipes might be part of the ideal bash-based answer.) – gojomo Sep 11 '14 at 21:07

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