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Forgive me for such basic Q.

I commonly work with text files of ~ 20 Gb size and I find myself counting the number of lines in a given file very often.

The way I do it now it's just cat fname | wc -l, and it takes very long. Is there any solution that'd be much faster.

I work in a high performance cluster with Hadoop installed, i was wondering if maybe a mapreduce approach could help.

Any ideas?

I'd like the solution to be as simple as one line run, like the cat solution, but not sure how feasible it is...


share|improve this question
Do each of the nodes already have a copy of the file? – Ignacio Vazquez-Abrams Oct 3 '12 at 20:45
Thanks. yes. but to access many nodes I use an LSF system which sometimes exhibits quite an annoying waiting time, that's why the ideal solution would be to use hadoop/mapreduce in one node but it'd be possible to use other nodes (then adding the waiting time may make it slower than just the cat wc approach) – Dnaiel Oct 3 '12 at 20:47
wc -l fname may be faster. You can also try vim -R fname if that is faster (it should tell you the number of lines after startup). – ott-- Oct 3 '12 at 20:50
you can do it with a pig script see my reply here:… – Arnon Rotem-Gal-Oz Oct 4 '12 at 4:35
Somewhat faster is to remember the useless use of cat rule. – arielf Oct 16 '15 at 22:44
up vote 45 down vote accepted

Try: sed -n '$=' filename

Also cat is unnecessary: wc -l filename is enough in your present way.

share|improve this answer
mmm interesting. would a map/reduce approach help? I assume if I save all the files in a HDFS format, and then try to count the lines using map/reduce would be much faster, no? – Dnaiel Oct 3 '12 at 20:50
@lvella. It depends how they are implemented. In my experience I have seen sed is faster. Perhaps, a little benchmarking can help understand it better. – P.P. Oct 3 '12 at 20:52
@KingsIndian. Indeeed, just tried sed and it was 3 fold faster than wc in a 3Gb file. Thanks KingsIndian. – Dnaiel Oct 3 '12 at 21:06
@Dnaiel If I would guess I'd say you ran wc -l filename first, then you ran sed -n '$=' filename, so that in the first run wc had to read all the file from the disk, so it could be cached entirely on your probably bigger than 3Gb memory, so sed could run much more quickly right next. I did the tests myself with a 4Gb file on a machine with 6Gb RAM, but I made sure the file was already on the cache; the score: sed - 0m12.539s, wc -l - 0m1.911s. So wc was 6.56 times faster. Redoing the experiment but clearing the cache before each run, they both took about 58 seconds to complete. – lvella Oct 3 '12 at 21:50
I second the observations of @Ivella – Ioannis Filippidis Feb 1 '15 at 19:17

Your limiting speed factor is the I/O speed of your storage device, so changing between simple newlines/pattern counting programs won't help, because the execution speed difference between those programs are likely to be suppressed by the way slower disk/storage/whatever you have.

But if you have the same file copied across disks/devices, or the file is distributed among those disks, you can certainly perform the operation in parallel. I don't know specifically about this Hadoop, but assuming you can read a 10gb the file from 4 different locations, you can run 4 different line counting processes, each one in one part of the file, and sum their results up:

$ dd bs=4k count=655360 if=/path/to/copy/on/disk/1/file | wc -l &
$ dd bs=4k skip=655360 count=655360 if=/path/to/copy/on/disk/2/file | wc -l &
$ dd bs=4k skip=1310720 count=655360 if=/path/to/copy/on/disk/3/file | wc -l &
$ dd bs=4k skip=1966080 if=/path/to/copy/on/disk/4/file | wc -l &

Notice the & at each command line, so all will run in parallel; dd works like cat here, but allow us to specify how many bytes to read (count * bs bytes) and how many to skip at the beginning of the input (skip * bs bytes). It works in blocks, hence, the need to specify bs as the block size. In this example, I've partitioned the 10Gb file in 4 equal chunks of 4Kb * 655360 = 2684354560 bytes = 2.5GB, one given to each job, you may want to setup a script to do it for you based on the size of the file and the number of parallel jobs you will run. You need also to sum the result of the executions, what I haven't done for my lack of shell script ability.

If your filesystem is smart enough to split big file among many devices, like a RAID or a distributed filesystem or something, and automatically parallelize I/O requests that can be paralellized, you can do such a split, running many parallel jobs, but using the same file path, and you still may have some speed gain.

EDIT: Another idea that occurred to me is, if the lines inside the file have the same size, you can get the exact number of lines by dividing the size of the file by the size of the line, both in bytes. You can do it almost instantaneously in a single job. If you have the mean size and don't care exactly for the the line count, but want an estimation, you can do this same operation and get a satisfactory result much faster than the exact operation.

share|improve this answer

Hadoop is essentially providing a mechanism to perform something similar to what @Ivella is suggesting.

Hadoop's HDFS (Distributed file system) is going to take your 20GB file and save it across the cluster in blocks of a fixed size. Lets say you configure the block size to be 128MB, the file would be split into 20x8x128MB blocks.

You would then run a map reduce program over this data, essentially counting the lines for each block (in the map stage) and then reducing these block line counts into a final line count for the entire file.

As for performance, in general the bigger your cluster, the better the performance (more wc's running in parallel, over more independent disks), but there is some overhead in job orchestration that means that running the job on smaller files will not actually yield quicker throughput than running a local wc

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If your data resides on HDFS, perhaps the fastest approach is to use hadoop streaming. Apache Pig's COUNT UDF, operates on a bag, and therefore uses a single reducer to compute the number of rows. Instead you can manually set the number of reducers in a simple hadoop streaming script as follows:

$HADOOP_HOME/bin/hadoop jar $HADOOP_HOME/hadoop-streaming.jar -Dmapred.reduce.tasks=100 -input <input_path> -output <output_path> -mapper /bin/cat -reducer "wc -l"

Note that I manually set the number of reducers to 100, but you can tune this parameter. Once the map-reduce job is done, the result from each reducer is stored in a separate file. The final count of rows is the sum of numbers returned by all reducers. you can get the final count of rows as follows:

$HADOOP_HOME/bin/hadoop fs -cat <output_path>/* | paste -sd+ | bc
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I'm not sure that python is quicker:

[root@myserver scripts]# time python -c "print len(open('mybigfile.txt').read().split('\n'))"


real    0m0.310s
user    0m0.176s
sys     0m0.132s

[root@myserver scripts]# time  cat mybigfile.txt  | wc -l


real    0m0.048s
user    0m0.017s
sys     0m0.074s
share|improve this answer
you are actually showing that python is slower here. – Arnaud Potier May 5 '15 at 8:26
Python could do the job, but certainly not with"\n") . change that for sum(1 for line in open("mybigfile.txt")) and you have a better naive approach (i..e not taking any advantage from the HDFS setup) – jsbueno May 6 '15 at 21:28

If your computer has python, you can try this from the shell:

python -c "print len(open('test.txt').read().split('\n'))"

This uses python -c to pass in a command, which is basically reading the file, and splitting by the "newline", to get the count of newlines, or the overall length of the file.


bash-3.2$ sed -n '$=' test.txt

Using the above:

bash-3.2$ python -c "print len(open('test.txt').read().split('\n'))"
share|improve this answer
Having python parse for every \n in a 20GB file seems like a pretty terribly slow way to try to do this. – mikeschuld Dec 17 '14 at 22:14
Terrible solution compared to using sed. – PureW Apr 14 '15 at 7:57
The problem is not python parsing the "\n" - both sed and wc will have to do that as well. What is terrible about this is _reading everything into memory, and them asking Python to split the block of data at each "\n" (not only duplicating all data in memory, but also performing a relatively expensive object creation for each line) – jsbueno May 6 '15 at 21:30

find -type f -name "filepattern_2015_07_*.txt" -exec ls -1 {} \; | cat | awk '//{ print $0 , system("cat " $0 "|" "wc -l")}'


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On a multi-core server, use GNU parallel to count file lines in parallel. After each files line count is printed, bc sums all line counts.

find . -name '*.txt' | parallel 'wc -l {}' 2>/dev/null | paste -sd+ - | bc

To save space, you can even keep all files compressed. The following line uncompresses each file and counts its lines in parallel, then sums all counts.

find . -name '*.xz' | parallel 'xzcat {} | wc -l' 2>/dev/null | paste -sd+ - | bc
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