There are a number of tools that you use to compress files on Linux systems, but they don't all behave the same way or yield the same level of compression. In this post, we compare five of them. Credit: Getty Images There are quite a few commands on Linux for compressing files. One of the newest and most effective is xz, but they all have advantages for both saving disk space and preserving files for later use. In this post, we compare the compression commands and point out the significant differences. tar The tar command is not specifically a compression command. It’s generally used to pull a number of files into a single file for easy transport to another system or to back the files up as a related group. It also provides compression as a feature, which makes a lot of sense, and the addition of the z compression option is available to make this happen. When compression is added to a tar command with the z option, tar uses gzip to do the compressing. You can use tar to compress a single file as easily as a group though this offers no particular advantage over using gzip directly. To use tar for this, just identify the file as you would a group of files with a “tar cfz newtarfile filename” command like this: $ tar cfz bigfile.tgz bigfile ^ ^ | | +- new file +- file to be compressed $ ls -l bigfile* -rw-rw-r-- 1 shs shs 103270400 Apr 16 16:09 bigfile -rw-rw-r-- 1 shs shs 21608325 Apr 16 16:08 bigfile.tgz Note the significant reduction in the file size. If you prefer, you can use the tar.gz extension which might make the character of the file a bit more obvious, but most Linux users will probably recognize tgz as meaning the same thing – the combination of tar and gz to indicate that the file is a compressed tar file. You will be left with both the original file and the compressed file once the compression is complete. To collect a number of files together and compress the resultant “tar ball” in one command, use the same basic syntax, but specify the files to be included as a group in place of the single file. Here’s an example: $ tar cfz bin.tgz bin/* ^ ^ | +-- files to include + new file zip The zip command creates a compressed file while leaving the original file intact. The syntax is straightforward except that, as with tar, you have to remember that your original file should be the last argument on the command line. $ zip ./bigfile.zip bigfile updating: bigfile (deflated 79%) $ ls -l bigfile bigfile.zip -rw-rw-r-- 1 shs shs 103270400 Apr 16 11:18 bigfile -rw-rw-r-- 1 shs shs 21606889 Apr 16 11:19 bigfile.zip gzip The gzip command is very simple to use. You just type “gzip” followed by the name of the file you want to compress. Unlike the commands described above, gzip will encrypt the files “in place”. In other words, the original file will be replaced by the encrypted file. $ gzip bigfile $ ls -l bigfile* -rw-rw-r-- 1 shs shs 21606751 Apr 15 17:57 bigfile.gz bzip2 As with the gzip command, bzip2 will compress the file that you select “in place”, leaving only the original file. $ bzip bigfile $ ls -l bigfile* -rw-rw-r-- 1 shs shs 18115234 Apr 15 17:57 bigfile.bz2 xz A relative newcomer to the compression command team, xz is a front runner in terms of how well it compresses files. Like the two previous commands, you only need to supply the file name to the command. Again, the original file is compressed in place. $ xz bigfile $ ls -l bigfile* -rw-rw-r-- 1 shs shs 13427236 Apr 15 17:30 bigfile.xz For large files, you are likely to notice that xz takes longer to run than other compression commands, but the compression results are very impressive. Comparisons to consider Most people have heard it said that “size isn’t everything”. So, let’s compare file size as well as some other issues to be considered when you make plans for how you want to compress your files. The stats shown below all relate to compressing the single file – bigfile – used in the example commands shown above. This file is a large and fairly random text file. Compression rates will depend to some extent on the content of the files. Size reduction When compared, the various compression commands shown above yielded the following results. The percentages represent how the compressed files compare with the original file. -rw-rw-r-- 1 shs shs 103270400 Apr 16 14:01 bigfile ------------------------------------------------------ -rw-rw-r-- 1 shs shs 18115234 Apr 16 13:59 bigfile.bz2 ~17% -rw-rw-r-- 1 shs shs 21606751 Apr 16 14:00 bigfile.gz ~21% -rw-rw-r-- 1 shs shs 21608322 Apr 16 13:59 bigfile.tgz ~21% -rw-rw-r-- 1 shs shs 13427236 Apr 16 14:00 bigfile.xz ~13% -rw-rw-r-- 1 shs shs 21606889 Apr 16 13:59 bigfile.zip ~21% The xz commands wins, ending up at only 13% the size of the original file, but all of these compression commands reduced the original file size quite significantly. Whether the original files are replaced The bzip2, gzip and xz commands all replace the original files with compressed versions. The tar and zip commands to not. Run time The xz command seems to take more time than the other commands to encrypt the files. For bigfile, the approximate times were: command run-time tar 4.9 seconds zip 5.2 seconds bzip2 22.8 seconds gzip 4.8 seconds xz 50.4 seconds Decompression times are likely to be considerably smaller than compression times. File permissions Regardless of what permissions you have set on your original file, permissions for the compressed file will be based on your umask setting, except for bzip2 which retains the original file’s permissions. Compatibility with Windows The zip command creates a file which can be used (i.e., decompressed) on Windows systems as well as Linux and other Unix systems without having to install other tools which may or may not be available. Decompressing files The commands for decompressing files are similar to those used to compress the files. These commands would work for decompressing bigfile after the compression commands shown above were run. tar: tar xf bigfile.tgz zip: unzip bigfile.zip gzip: gunzip bigfile.gz bzip2: bunzip2 bigfile.gz2 xz: xz -d bigfile.xz or unxz bigfile.xz Running your own compression comparisons If you’d like to run some tests on your own, grab a large but replaceable file and compress it using each of the commands shown above – preferably using a new subdirectory. You might have to first install xz if you want to include it in the tests.This script can make the comparison easier, but will likely take a few minutes to complete. #!/bin/bash # ask user for filename echo -n "filename> " read filename # you need this because some commands will replace the original file cp $filename $filename-2 # clean up first (in case previous results are still available) rm $filename.* tar cvfz ./$filename.tgz $filename > /dev/null zip $filename.zip $filename > /dev/null bzip2 $filename # recover original file cp $filename-2 $filename gzip $filename # recover original file cp $filename-2 $filename xz $filename # show results ls -l $filename.* # replace the original file mv $filename-2 $filename Related content how-to How to find files on Linux There are many options you can use to find files on Linux, including searching by file name (or partial name), age, owner, group, size, type and inode number. 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