set -eu 
VAR=$(zcat file.gz  |  head -n 12)

works fine

set -eu   -o pipefail
VAR=$(zcat file.gz  |  head -n 12)

causes bash to exit with failure. How is this causing a pipefail?

Note that file.gz contains millions of lines (~ 750 MB, compressed).

  • 3
    As an aside, set -e and set -u are both... to put it kindly... controversial, with a multitude of subtle corner cases (and per-version behavior inconsistencies where attempts were made to modify non-POSIX-specified details in their behavior between releases). Unless you understand all the scenarios described in BashFAQ #105 and BashFAQ #112, and don't need compatibility with bash releases you can't test against, you might reconsider their use. Static checking with shellcheck.net has fewer caveats. Jan 6 '17 at 23:55
  • 3
    (By contrast, pipefail is generally a Good Idea; when you have a specific case where you want to allow a pipeline component to fail, you can allow that explicitly; for this case, var=$( { zcat file.gz ||:; } | head -n 12) will do). Jan 7 '17 at 0:03
  • 3
    ...aside: lower-case var is correct; see the POSIX environment variable spec's naming convention: All-caps names are used by variables with meaning to the shell or system; lowercase names are reserved for application use. That applies to non-exported shell variables as well since setting a shell variable will overwrite any like-named environment variable. Jan 7 '17 at 0:05

Think about it, for a moment.

  1. You're telling the shell that your entire pipeline should be considered to have failed if any component failed.
  2. You're telling zcat to write its output to head.
  3. Then you're telling head to exit after reading 12 lines, out of a much-longer-than-12-line input stream.

Of course you have an error: zcat has its destination pipeline closed early, and wasn't able to successfully write a decompressed version of your input file! It doesn't have any way of knowing that this was due to user intent, via something erroneous happening.

If you were using zcat to write to a disk and it ran out of space, or to a network stream and there was a connection loss, it would be entirely correct and appropriate for it to exit with a status indicating a failure. This is simply another case of that rule.

The specific error which zcat is being given by the operating system is EPIPE, returned by the write syscall under the following condition: An attempt is made to write to a pipe that is not open for reading by any process.

After head (the only reader of this FIFO) has exited, for any write to the input side of pipeline not to return EPIPE would be a bug. For zcat to silently ignore an error writing its output, and thus be able to generate an inaccurate output stream without an exit status reflecting this event, would likewise be a bug.

If you don't want to change any of your shell options, by the way, one workaround you might consider is using process substitution:

var=$(head -n 12 < <(zcat file.gz))

In this case, zcat is not a pipeline component, and its exit status is not considered for purposes of determining success. (You might test whether $var is 12 lines long, if you want to come up with an independent success/fail determination).

A more comprehensive solution could be implemented by pulling in a Python interpreter, with its native gzip support. A native Python implementation (compatible with both Python 2 and 3.x), embedded in a shell script, might look something like:

zhead_py=$(cat <<'EOF'
import sys, gzip
gzf = gzip.GzipFile(sys.argv[1], 'rb')
outFile = sys.stdout.buffer if hasattr(sys.stdout, 'buffer') else sys.stdout
numLines = 0
maxLines = int(sys.argv[2])
for line in gzf:
    if numLines >= maxLines:
    numLines += 1
zhead() { python -c "$zhead_py" "$@"; }

...which gets you a zhead that doesn't fail if it runs out of input data, but does pass through a failed exit status for genuine I/O failures or other unexpected events. (Usage is of the form zhead in.gz 5, to read 5 lines from in.gz).

  • 3
    Outstanding answer! Thank you for the details. While these things may be obvious to a trained computer programmer or very experienced coder, there are many, many people who write scripts & code that are not computer scientists-by-training, and many of us are self-taught. The reality is that many of us amateurs don't have time or even the knowledge of how to dig into the inner workings of bash, pipes, streams, syscalls, etc. When you don't understand the fine details of streams, write, etc., it is conceivable by pure imagination) that head properly terminates a filestream.
    – cmo
    Jan 8 '17 at 15:37
  • 1
    Nice explanation and understandable... now are there any programs that can head from a gzip file without error? Something perhals called zhead?
    – Freek
    May 30 '18 at 11:59
  • @Freek, ...you could write something easily enough in any language (like Python) with a native gzip library; that way it's all in one process, so you don't have the problem with gzip not having any way of knowing that the inability to write to head is intentional. May 30 '18 at 13:46
  • @Freek, ...of course, I could also just see a zhead script using the gunzip > >(head "$@") workaround given here and ignoring head's exit status, on the theory that head is unlikely to fail if gzip does the right thing. Not entirely solid -- doesn't account for command-line usage failures -- but it handles most of the case. May 30 '18 at 13:50
  • This explanation is very helpful! It seems though, there could be a different type of error inside of <(zcat file.gz) (i.e. anything other than the pipe terminating because head exits) that would not be caught if head can succeed without failing.
    – steveb
    May 3 '19 at 18:02

Alternatively, you can use

zcat file.gz  | awk '(NR<=12)'

The price is that you need to go through all the zcat, no early stop based on the lines you specified.

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