I am currently doing a UNIX sort (via GitBash on a Windows machine) of a 500GB text file. Due to running out of space on the main disk, I have used the -T option to direct the temp files to a disk where I have enough space to accommodate the entire file. The thing is, I've been watching the disk space and apparently the temp files are already in excess of what the original file was. I don't know how much further this is going to go, but I'm wondering if there is a rule by which I can predict how much space I will need for temp files.
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3If the Unix sort works similar to the GNU sort, then the initial pass creates temp files based on ram size. Assuming there's 1GB of ram that can be used for sorting in memory, then it would create 500 1gb files, then do repeated 16 way merges on those files. Also assuming that it deletes files after each merge, then it would need 516 gb of space, with each file rounded up to a cluster (file allocation) size boundary. On the last merge, the required disk space will be double the file size (rounded up to cluster bondary), so a bit over 1,000 GB.– rcgldrAug 10, 2016 at 19:22
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Rats! It looks like I'm going to have to invest in some more storage.– StonecraftAug 10, 2016 at 19:50
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Is that last merge also in the temp folder? I directed the output to a different location than the temp in hopes of avoiding having two complete copies of the file on one disk.– StonecraftAug 10, 2016 at 20:34
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2I underestimated the temp file space. Assume the first merge pass creates 500 1gb files. The next phase merges 16 1gb files into 16gb files, taking 516 gb of space. The next phase merges 16 16gb files into 256gb files, taking 756gb of space. The last phase merges one 256 gb and one 244 gb file to create the 500 gb output file. If the output file is on another disk, then the space required on the temp disk is about 756 gb.– rcgldrAug 11, 2016 at 0:28
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2Try --batch-size=2. That will take longer, but reduce disk space.– rcgldrAug 11, 2016 at 7:46
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1 Answer
I'd batch it manually as described in this unix.SE answer.
Find some very basic queries that will divide your content into chunks that are small enough to be sorted. For example, if it's a file of words, you could create queries like grep ^a …, grep ^b …, and so on. Some items may need more granularity than others.
You can script that like:
#!/bin/bash
for char1 in other {0..9} {a..z}; do
out="/tmp/sort.$char1.xz"
echo "Extracting lines starting with '$char1'"
if [ "$char1" = "other" ]; then char1='[^a-z0-9]'; fi
grep -i "^$char1" *.txt |xz -c0 > "$out"
unxz -c "$out" |sort -u >> output.txt || exit 1
rm "$out"
done
echo "It worked"
I'm using xz -0 because it's almost as fast as gzip's default gzip -6 yet it's vastly better at conserving space. I omitted it from the final output in order to preserve the exit value of sort -u, but you could instead use a size check (iirc, sort fails with zero output) and then use sort -u |xz -c0 >> output.txt.xz since the xz (and gzip) container lets you concatenate archives (I've written about that before too).
This works because the output of each grep run is already sorted (0 is before 1, which is before a, etc.), so the final assembly doesn't need to run through sort (note, the "other" section will be slightly different since some non-alphanumeric characters are before the numbers, others are between numbers and letters, and others still are after the letters. You can also remove grep's -i flag and additionally iterate through {A..Z} to be case sensitive). Each individual iteration obviously still needs to be sorted, but hopefully they're manageable.
If the program exits before completing all iterations and saying "It worked" then you can edit the script with a more discrete batch for the last iteration it tried. Remove all prior iterations since they're successfully saved in output.txt.
