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Update the FAQ.
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104
doc/faq.txt
104
doc/faq.txt
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@ -6,7 +6,7 @@ Q: What do the letters XZ mean?
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A: Nothing. They are just two letters, which come from the file format
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suffix .xz. The .xz suffix was selected, because it seemed to be
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pretty much unused. It is no deeper meaning.
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pretty much unused. It has no deeper meaning.
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Q: What are LZMA and LZMA2?
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@ -33,7 +33,18 @@ A: 7-Zip and LZMA SDK are the original projects. LZMA SDK is roughly
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LZMA Utils.
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There are several other projects using LZMA. Most are more or less
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based on LZMA SDK.
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based on LZMA SDK. See <http://7-zip.org/links.html>.
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Q: Why is liblzma named liblzma if its primary file format is .xz?
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Shouldn't it be e.g. libxz?
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A: When the designing of the .xz format began, the idea was to replace
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the .lzma format and use the same .lzma suffix. It would have been
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quite OK to reuse the suffix when there were very few .lzma files
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around. However, the old .lzma format become popular before the
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new format was finished. The new format was renamed to .xz but the
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name of liblzma wasn't changed.
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Q: Do XZ Utils support the .7z format?
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@ -96,7 +107,7 @@ A: The .xz format is documented in xz-file-format.txt. It is a container
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Documenting LZMA and LZMA2 is planned, but for now, there is no other
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documentation that the source code. Before you begin, you should know
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the basics of LZ77 and range coding algorithms. LZMA is based on LZ77,
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but LZMA is *a lot* more complex. Range coding is used to compress
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but LZMA is a lot more complex. Range coding is used to compress
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the final bitstream like Huffman coding is used in Deflate.
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@ -104,6 +115,90 @@ Q: I cannot find BCJ and BCJ2 filters. Don't they exist in liblzma?
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A: BCJ filter is called "x86" in liblzma. BCJ2 is not included,
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because it requires using more than one encoded output stream.
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A streamable version of BCJ2-style filtering is planned.
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Q: I need to use a script that runs "xz -9". On a system with 256 MiB
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of RAM, xz says that it cannot allocate memory. Can I make the
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script work without modifying it?
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A: Set a default memory usage limit for compression. You can do it e.g.
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in a shell initialization script such as ~/.bashrc or /etc/profile:
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XZ_DEFAULTS=--memlimit-compress=150MiB
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export XZ_DEFAULTS
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xz will then scale the compression settings down so that the given
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memory usage limit is not reached. This way xz shouldn't run out
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of memory.
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Check also that memory-related resource limits are high enough.
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On most systems, "ulimit -a" will show the current resource limits.
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Q: How do I create files that can be decompressed with XZ Embedded?
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A: See the documentation in XZ Embedded. In short, something like
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this is a good start:
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xz --check=crc32 --lzma2=preset=6e,dict=64KiB
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Or if a BCJ filter is needed too, e.g. if compressing
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a kernel image for PowerPC:
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xz --check=crc32 --powerpc --lzma2=preset=6e,dict=64KiB
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Adjust dictionary size to get a good compromise between
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compression ratio and decompressor memory usage. Note that
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in single-call decompression mode of XZ Embedded, a big
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dictionary doesn't increase memory usage.
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Q: Will xz support threaded compression?
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A: It is planned and has been taken into account when designing
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the .xz file format. Eventually there will probably be three types
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of threading, each method having its own advantages and disadvantages.
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The simplest method is splitting the uncompressed data into blocks
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and compressing them in parallel independent from each other.
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Since the blocks are compressed independently, they can also be
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decompressed independently. Together with the index feature in .xz,
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this allows using threads to create .xz files for random-access
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reading. This also makes threaded decompression possible, although
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it is not clear if threaded decompression will ever be implemented.
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The independent blocks method has a couple of disadvantages too. It
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will compress worse than a single-block method. Often the difference
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is not too big (maybe 1-2 %) but sometimes it can be too big. Also,
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the memory usage of the compressor increases linearly when adding
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threads.
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Match finder parallelization is another threading method. It has
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been in 7-Zip for ages. It doesn't affect compression ratio or
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memory usage significantly. Among the three threading methods, only
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this is useful when compressing small files (files that are not
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significantly bigger than the dictionary). Unfortunately this method
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scales only to about two CPU cores.
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The third method is pigz-style threading (I use that name, because
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pigz <http://www.zlib.net/pigz/> uses that method). It doesn't
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affect compression ratio significantly and scales to many cores.
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The memory usage scales linearly when threads are added. It isn't
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significant with pigz, because Deflate uses only 32 KiB dictionary,
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but with LZMA2 the memory usage will increase dramatically just like
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with the independent blocks method. There is also a constant
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computational overhead, which may make pigz-method a bit dull on
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dual-core compared to the parallel match finder method, but with more
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cores the overhead is not a big deal anymore.
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Combining the threading methods will be possible and also useful.
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E.g. combining match finder parallelization with pigz-style threading
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can cut the memory usage by 50 %.
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It is possible that the single-threaded method will be modified to
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create files indentical to the pigz-style method. We'll see once
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pigz-style threading has been implemented in liblzma.
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Q: How do I build a program that needs liblzmadec (lzmadec.h)?
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@ -124,5 +219,6 @@ A: Give --enable-small to the configure script. Use also appropriate
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If the result is still too big, take a look at XZ Embedded. It is
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a separate project, which provides a limited but significantly
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smaller XZ decoder implementation than XZ Utils.
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smaller XZ decoder implementation than XZ Utils. You can find it
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at <http://tukaani.org/xz/embedded.html>.
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