physfs/docs/INSTALL.txt

The latest PhysicsFS information and releases can be found at:
  https://icculus.org/physfs/

Building is (ahem) very easy.


ALL PLATFORMS:

Please read the text file LICENSE.txt in the root of the source tree.
 The license is extremely liberal, even to closed-source, commercial
 applications.

If you've got Doxygen (http://www.doxygen.org/) installed, you can run it
 without any command line arguments in the root of the source tree to generate
 the API reference (or build the "docs" target from your build system). This
 is optional. You can browse the API docs online here:

    https://icculus.org/physfs/docs/



BUILD IT WITH YOUR OWN PROGRAM:

If you don't care about formal packaging: just add everything in the "src"
directory to whatever you use to build your program and compile it along with
everything else, and you're done. It should compile with any reasonable
ANSI C compiler, should build cleanly even with excessive compiler warnings
enabled, needs no extra configuration, and allows static linking. If this
works for your specific project, you can stop reading now.



UNIX:

You will need CMake (https://www.cmake.org/) 2.4 or later installed.

Make a directory, wherever you like. This will be your build directory.

Chdir to your build directory. Run "cmake /where/i/unpacked/physfs" to
 generate Makefiles. You can then run "ccmake ." and customize the build,
 but the defaults are probably okay. You can have CMake generate KDevelop
 or Ninja project files or whatever, if you prefer these.

Run "make". PhysicsFS will now build.

As root, run "make install".
 If you get sick of the library, run "make uninstall" as root
 and it will remove all traces of the library from the system paths.

Once you are satisfied, you can delete the build directory.

Primary Unix development is done with GNU/Linux, but PhysicsFS is known to
 work out of the box with several flavors of Unix. It it doesn't work, patches
 to get it running can be sent to icculus@icculus.org.


Windows:

If building with Cygwin, mingw32, MSYS, or something else that uses the GNU
 toolchain, follow the Unix instructions, above.

If you want to use Visual Studio, nmake, or the Platform SDK, you will need
 CMake (https://www.cmake.org/) 2.4 or later installed. Point CMake at the
 CMakeLists.txt file in the root of the source directory and hit the
 "Configure" button. After telling it what type of compiler you are targeting
 (Borland, Visual Studio, etc), CMake will process for while and then give you
 a list of options you can change (what archivers you want to support, etc).
 If you aren't sure, the defaults are probably fine. Hit the "Configure"
 button again, then "OK" once configuration has completed with options that
 match your liking. Now project files for your favorite programming
 environment will be generated for you in the directory you specified.
 Go there and use them to build PhysicsFS.

PhysicsFS will only link directly against system libraries that have existed
 since Windows NT 3.51. If there's a newer API we want to use, we try to
 dynamically load it at runtime and fallback to a reasonable behaviour when
 we can't find it. Note that OSes based on Windows 95 _should_
 work if you use the Microsoft Layer for Unicode (UNICOWS.DLL) to provide
 some missing system APIs, but this is no longer tested as of PhysicsFS 2.1.0.
 PhysicsFS 2.0.x is known to work with Windows 95 without UNICOWS.DLL.

PhysicsFS works on 32-bit and 64-bit Windows. There is no 16-bit Windows
 support at all. Windows RT (Windows Phone, UWP) is covered below.


Windows RT:

This supposedly works, but isn't tested recently.


PocketPC/WindowsCE:

Support for PocketPC was removed in PhysicsFS 2.1.0. This was known to work
 in the 1.0 releases, but wasn't tested in 2.0 and later. PhysicsFS should
 work on modern Windows Phones (see "Windows RT" section).


macOS:

You will need CMake (https://www.cmake.org/) 2.4 or later installed.

You can either generate a Unix makefile with CMake, or generate an Xcode
 project, whichever makes you more comfortable.

PowerPC and Intel Macs should both be supported.


MAC OS 8/9 ("Mac OS Classic"):

Classic Mac OS support has been dropped in PhysicsFS 2.0. Apple hasn't updated
 pre-OSX versions in more than a decade at this point, none of the hardware
 they've shipped will boot it for almost as many years, and finding
 developer tools for it is becoming almost impossible. As the switch to Intel
 hardware has removed the "Classic" emulation environment, it was time to
 remove support from PhysicsFS. That being said, the PhysicsFS 1.0 branch can
 still target back to Mac OS 8.5, so you can use that if you need support for
 this legacy OS. We still very much support modern macOS, though: see above.


Emscripten:

Use the "Unix" instructions, above. You can install the Emscripten SDK and use
 the extras/buildbot-emscripten.sh script to automate this for you.


BeOS, Zeta, YellowTab:

BeOS support was dropped in PhysicsFS 2.1.0. Consider installing Haiku, which
we still support.


Haiku:

Use the "Unix" instructions, above.


OS/2:

OS/2 is known to work with OpenWatcom and GCC-based compilers. I couldn't get
an OS/2 port of CMake to generate OpenWatcom project files (although it should
be able to do that in theory), it should be able to do Unix Makefiles with
GCC. It might be easier to just compile PhysicsFS along with the rest of
your project on this platform.



OTHER PLATFORMS:

Many Unix-like platforms might "just work" with CMake. Some of these platforms
 are known to have worked at one time, but have not been heavily tested, if
 tested at all. PhysicsFS is, as far as we know, 64-bit and byteorder clean,
 and is known to compile on several compilers across many platforms. To
 implement a new platform or archiver, please read the heavily-commented
 physfs_internal.h and look at the physfs_platform_* and physfs_archiver_*
 source files for examples.

--ryan. (icculus@icculus.org)