e6fa70a0a1
clearer separation between variables and buffers clearer buffers category kept static buffers at the beginning, favoring cache locality (it will be easier to add FSE tables there later) This break a few assumptions that hashTable was always at the beginning. This is fixed. And remaining assumptions (namely that tables stand next to each other in memory) are now tested with assert. |
||
---|---|---|
.. | ||
common | ||
compress | ||
decompress | ||
deprecated | ||
dictBuilder | ||
dll | ||
legacy | ||
.gitignore | ||
BUCK | ||
libzstd.pc.in | ||
Makefile | ||
README.md | ||
zstd.h |
Zstandard library files
The lib directory contains several directories. Depending on target use case, it's enough to include only files from relevant directories.
API
Zstandard's stable API is exposed within zstd.h,
at the root of lib
directory.
Advanced API
Some additional API may be useful if you're looking into advanced features :
- common/error_public.h : transforms
size_t
function results into anenum
, for precise error handling. - ZSTD_STATIC_LINKING_ONLY : if you define this macro before including
zstd.h
, it will give access to advanced and experimental API. These APIs shall never be used with dynamic library ! They are not "stable", their definition may change in the future. Only static linking is allowed.
ZSTDMT API
To enable multithreaded compression within the library, invoke make lib-mt
target.
Prototypes are defined in header file compress/zstdmt_compress.h
.
When linking a program that uses ZSTDMT API against libzstd.a on a POSIX system,
-pthread
flag must be provided to the compiler and linker.
Note : ZSTDMT prototypes can still be used with a library built without multithread support,
but in this case, they will be single threaded only.
Modular build
Directory common/
is required in all circumstances.
You can select to support compression only, by just adding files from the compress/
directory,
In a similar way, you can build a decompressor-only library with the decompress/
directory.
Other optional functionalities provided are :
-
dictBuilder/
: source files to create dictionaries. The API can be consulted indictBuilder/zdict.h
. This module also depends oncommon/
andcompress/
. -
legacy/
: source code to decompress previous versions of zstd, starting fromv0.1
. This module also depends oncommon/
anddecompress/
. Library compilation must include directiveZSTD_LEGACY_SUPPORT = 1
. The main API can be consulted inlegacy/zstd_legacy.h
. Advanced API from each version can be found in their relevant header file. For example, advanced API for versionv0.4
is inlegacy/zstd_v04.h
.
Using MinGW+MSYS to create DLL
DLL can be created using MinGW+MSYS with the make libzstd
command.
This command creates dll\libzstd.dll
and the import library dll\libzstd.lib
.
The import library is only required with Visual C++.
The header file zstd.h
and the dynamic library dll\libzstd.dll
are required to
compile a project using gcc/MinGW.
The dynamic library has to be added to linking options.
It means that if a project that uses ZSTD consists of a single test-dll.c
file it should be linked with dll\libzstd.dll
. For example:
gcc $(CFLAGS) -Iinclude/ test-dll.c -o test-dll dll\libzstd.dll
The compiled executable will require ZSTD DLL which is available at dll\libzstd.dll
.
Obsolete streaming API
Streaming is now provided within zstd.h
.
Older streaming API is still available within deprecated/zbuff.h
.
It will be removed in a future version.
Consider migrating code towards newer streaming API in zstd.h
.
Miscellaneous
The other files are not source code. There are :
- LICENSE : contains the BSD license text
- Makefile : script to compile or install zstd library (static and dynamic)
- libzstd.pc.in : for pkg-config (
make install
) - README.md : this file