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Building XZ Utils on Windows using MinGW-w64 and CMake
======================================================

    1. Introduction
       1.1. Licensing considerations
    2. MSVCRT or UCRT
    3. CMake
    4. MinGW-w64 toolchains
       4.1. MinGW-w64 with GCC
       4.2. MinGW-w64 with Clang/LLVM
    5. Building XZ Utils
       5.1. Advanced build options
    6. Creating an import library for MSVC / Visual Studio


1. Introduction
---------------

    This document explains how to build XZ Utils using MinGW-w64,
    GCC or Clang/LLVM, CMake, and GNU make (mingw32-make) natively
    on Windows. The resulting XZ Utils library and executable files
    will only depend on DLLs that are included in Windows.

    The build tools can be extracted into separate directories and used
    directly from there and deleted when no longer needed. There are no
    installers to run for these and no configuration needed.

    These instructions don't apply to Cygwin. XZ Utils can be built
    under Cygwin in the same way as many other packages.


1.1. Licensing considerations

    Parts of MinGW-w64 runtime are statically linked into the binaries
    being built. The file COPYING.MinGW-w64-runtime.txt in MinGW-w64
    contains the license notices that apply to some parts of the
    runtime. The notices must be distributed alongside the binaries
    that have been built with MinGW-w64.

    MinGW-w64 includes getopt_long(). The GNU getopt_long() (LGPLv2.1)
    included in XZ Utils isn't used when building with MinGW-w64.

    The code from XZ Utils that ends up liblzma.dll and the *.exe files
    is under the BSD Zero Clause License (0BSD) which doesn't require
    any copyright or license notices to be included when distributing
    the binaries. See the file COPYING in the parent directory.


2. MSVCRT or UCRT
-----------------

    Both GCC and Clang/LLVM based MinGW-w64 toolchains come in MSVCRT
    and Universal C runtime (UCRT) variants. MSVCRT is the old one.
    32-bit builds of XZ Utils with MSVCRT should run on Windows 2000
    and later (even Windows 95 should still be possible with trivial
    edits to the source code).

    UCRT is included in Windows 10, and it's possible to install UCRT
    on Windows XP and later. UCRT might be the preferred choice if
    out-of-the-box compatibility with Windows versions older than 10
    is not required. Visual Studio 2015 and later produce binaries
    that use UCRT.

    If you want to build liblzma.dll for use with your application,
    it's recommended to use the same CRT for all components. If this
    isn't possible, see the file liblzma-crt-mixing.txt.

    If you only need the command line tools, the choice of CRT isn't
    important, at least for now.


3. CMake
--------

    CMake is used for selecting build options and generating makefiles.
    It can also be used to extract archives, including .tar.xz and .7z.

    Download a CMake binary package (.zip) from its homepage:

        https://cmake.org/download/

    Extract it to, for example, C:\devel\cmake so that the executables
    end up in C:\devel\cmake\bin. Avoid spaces and other special
    characters in the path.


4. MinGW-w64 toolchains
-----------------------

    There are a few choices of prebuilt toolchains listed on
    the MinGW-w64 homepage:

        https://www.mingw-w64.org/downloads/

    These instructions list one GCC-based version and one
    Clang/LLVM-based version. Both include mingw32-make too.


4.1. MinGW-w64 with GCC

    For GCC, download appropriate packages from Mingw-builds depending
    on if you want to build 32-bit or 64-bit x86 version of XZ Utils
    and if the XZ Utils binaries should link against MSVCRT or UCRT:

        https://github.com/niXman/mingw-builds-binaries/releases

        i686-*-release-win32-*-msvcrt-*.7z    32-bit, uses MSVCRT (old)
        i686-*-release-win32-*-ucrt-*.7z      32-bit, uses UCRT (new)
        x86_64-*-release-win32-*-msvcrt-*.7z  64-bit, uses MSVCRT (old)
        x86_64-*-release-win32-*-ucrt-*.7z    64-bit, uses UCRT (new)

    Extract it, for example, to C:\devel so that the executables are
    in C:\devel\mingw32\bin or C:\devel\mingw64\bin. To extract,
    you can install 7-Zip from <https://7-zip.org/> or use CMake
    on the command line:

        set PATH=C:\devel\cmake\bin;%PATH%
        c:
        cd \devel
        cmake -E tar xf x86_64-13.1.0-release-win32-seh-ucrt-rt_v11-rev1.7z

    Then skip to the section "Building XZ Utils".


4.2. MinGW-w64 with Clang/LLVM

    For Clang/LLVM, download an appropriate package from LLVM-MinGW:

        https://github.com/mstorsjo/llvm-mingw/releases

        llvm-mingw-*-msvcrt-i686.zip          32-bit, uses MSVCRT (old)
        llvm-mingw-*-ucrt-i686.zip            32-bit, uses UCRT (new)
        llvm-mingw-*-msvcrt-x86_64.zip        64-bit, uses MSVCRT (old)
        llvm-mingw-*-ucrt-x86_64.zip          64-bit, uses UCRT (new)

    Extract it, for example, to C:\devel so that the executables end up
    in a directory like C:\devel\llvm-mingw-20230919-ucrt-x86_64\bin.


5. Building XZ Utils
--------------------

    For a simple builds, you can use the included build-with-cmake.bat
    which takes these arguments:

    %1 = Path to CMake's bin directory. Example:
         c:\devel\cmake\bin

    %2 = Path to MinGW-w64's bin directory. Example:
         c:\devel\mingw64\bin

    %3 = ON or OFF: Set to ON to build liblzma.dll or OFF for
         static liblzma.a. With OFF, the *.exe files won't
         depend on liblzma.dll.

    Example:

        build-with-cmake C:\devel\cmake\bin C:\devel\mingw64\bin ON

    If successful, the "build" directory should then contain:

        liblzma.dll     liblzma compression library
        liblzma.def     DEF file for creating an import library
        xz.exe          xz command line tool
        xzdec.exe       Decompression-only tool (smaller than xz.exe)
        lzmadec.exe     Decompression-only tool for legacy .lzma files
        lzmainfo.exe    Shows header info of legacy .lzma files

    Ignore the other files. :-)


5.1. Advanced build options

    For 32-bit x86 builds, adding -msse2 to CFLAGS improves
    compression speed a little (but not decompression speed).
    There is no runtime detection for SSE2 support. It is
    recommended to use 64-bit version when possible.

    It's possible to omit features from the build to reduce code size.
    There are several CMake configuration options available. One may
    change from CMAKE_BUILD_TYPE=Release to =MinSizeRel as well but
    it makes the code slower.

    If building for multiple targets, keep only one toolchain in PATH
    at a time.


6. Creating an import library for MSVC / Visual Studio
------------------------------------------------------

    To link against liblzma.dll, you need to create an import library
    first. You need the "lib" command from MSVC and liblzma.def. Here
    is the command that works on 32-bit x86:

        lib /def:liblzma.def /out:liblzma.lib /machine:ix86

    On x86-64, the /machine argument has to be changed:

        lib /def:liblzma.def /out:liblzma.lib /machine:x64

    IMPORTANT: See also the file liblzma-crt-mixing.txt.