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I have a very large file compressed with gzip sitting on disk. The production environment is "Cloud"-based, so the storage performance is terrible, but CPU is fine. Previously our data processing pipeline began with gzip -dc streaming the data off the disk.

Now, in order to parallelise the work, I want to run multiple pipelines that each take a pair of byte offsets - start and end - and take that chunk of the file. With a plain file this could be achieved with head and tail, but I'm not sure how to do it efficiently with a compressed file; if I gzip -dc and pipe into head, the offset pairs that are toward the end of the file will involve wastefully seeking through whole file as it's slowly decompressed.

So my question is really about the gzip algorithm - is it theoretically possible to seek to a byte offset in the underlying file or get an arbitrary chunk of it, without the full implications of decompressing the entire file up to that point? If not, how else might I efficiently partition a file for 'random' access by multiple processes while minimising the I/O throughput overhead?

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You can't do that with gzip, but you can do it with bzip2, which is block instead of stream-based - this is how the Hadoop DFS splits and parallelizes the reading of huge files with different mappers in its MapReduce algorithm. Perhaps it would make sense to re-compress your files as bz2 so you can take advantage of this; it would be easier than some ad-hoc way to chunk up the files.

I found the patches that are implementing this in Hadoop, here: https://issues.apache.org/jira/browse/HADOOP-4012

Here's another post on the topic: BZip2 file read in Hadoop

Perhaps browsing the Hadoop source code would give you an idea of how to read bzip2 files by blocks.

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You first need to read the bzip2 file sequentially to find the blocks. Then you can access them individually. The same can be done with the gzip format. –  Mark Adler Jan 9 '13 at 19:30
    
I don't think what you mentioned is the best way to random access a compressed file, see this article: blastedbio.blogspot.com/2011/11/… and also this issue tracker in Hadoop: issues.apache.org/jira/browse/HADOOP-4012 –  Andrew Mao Jan 9 '13 at 19:54
    
As I say in my answer, you can prepare a gzip file for optimized random access. Some applications for random access are in control of the creation of the gzip file, in which case you would prepare the gzip file for that purpose and build an index at the same time. Some applications are not in control of the creation of the gzip file, in which case you need to decompress the thing once to build an index. –  Mark Adler Jan 9 '13 at 20:43
    
The same is true of bzip2. pbzip2, which provides parallel compression and decompression of bzip2 files can only provide parallel decompression if pbzip2 itself has made the bzip2 file. In that case, the bzip2 file consists of individual bzip2 streams concatenated together. That can be done with gzip as well, as suggested by @Celada in the answers here. –  Mark Adler Jan 9 '13 at 20:46

Yes, you can access a gzip file randomly by reading the entire thing sequentially once and building an index. See examples/zran.c in the zlib distribution.

If you are in control of creating the gzip file, then you can optimize the file for this purpose by building in random access entry points and construct the index while compressing.

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Is there a tutorial on the use of zran; i.e. how do I use it to index a gzipped file and subsequently access a line number (or character number?) of my choice? I think this is the silver bullet I've been looking for. –  tommy.carstensen Apr 8 at 22:19
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No, there is nothing beyond the comments in the source file. You need to read the comments for build_index() and extract(), and you can see an example of their use in main(). –  Mark Adler Apr 8 at 22:38
    
Also the following blog post may be of interest here: lh3.github.io/2014/07/05/random-access-to-zlib-compressed-files –  PhiS Dec 13 at 18:34

gzip does in fact expect to be able to stream the file from the beginning. You cannot start in the middle.

What you can do is break up the file into blocks that are piecewise compressed with gzip and then concatenated together. You can choose any size you like for each piece, for example 10MB or 100MB. You then decompress starting at the beginning of the piece that contains the byte offset you require. Due to a little-known feature of gzip (which is that decompressing a file that is the concatenation of several smaller gzipped files produces the same output as decompressing each of the smaller files and concatenating the result together) the piecewise compressed large file will also work with standard gzip -d/gunzip if you download the whole thing.

The tricky part: you have to maintain an index containing the byte offset of the start of each compressed piece in the large file.

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You can start in the middle of a gzip stream, so long as you have decompressed it once from the beginning and constructed entry points. Or if you have made the entry points when you compressed it. –  Mark Adler Jan 9 '13 at 19:23
    
That's really interesting, @MarkAdler, thanks for the tip. You do have to store 32KiB worth of data together with each access point in your index, but I guess that's probably OK if the distance between access points is huge. –  Celada Jan 9 '13 at 19:34
    
Correct. Though if you are in control of creating the gzip file, then you can put in historyless entry points that don't require the 32K. pigz (a parallel gzip compressor) does this with the -i option. –  Mark Adler Jan 9 '13 at 22:15

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