Compiling xoreos: Difference between revisions
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cmake .. -G "Visual Studio 15 2017 Win64" | cmake .. -G "Visual Studio 15 2017 Win64" | ||
Open CMakeCache.txt in your favorite text editor and fill in missing information as needed. Then run cmake again. Project solution | Open CMakeCache.txt in your favorite text editor and fill in missing information as needed. Then run cmake again. Project's solution file should be created at this point. | ||
=== A note on OpenAL === | === A note on OpenAL === |
Revision as of 10:11, 19 June 2018
This page gives a few tips and pointers on how to compile xoreos on various platforms.
Compiler and build system
xoreos is written in C++, so a C++ compiler, like GCC or clang is required. It has two build systems: Autotools (Autoconf, Automake and Libtool) and CMake. Use whichever you feel more comfortable with.
GNU/Linux
On Debian-based distributions (including Ubuntu), you should be able to install the required compiler and build system packages with
sudo apt-get install libc6-dev g++ make autoconf automake libtool gettext cmake
On Arch Linux, you can install the necessary packages with
sudo pacman -S base-devel cmake
On other distributions, it should work similarily.
Mac OS X
Due to the dependency on SDL2 (see below), you need at least Mac OS X 10.5 if you use a precompiled SDL2 library, and at least Mac OS X 10.7 if you're compiling SDL2 yourself.
Windows
Since Visual Studio does not work with autotools, you have to use the CMake build system if you want to compile xoreos with Visual Studio. If you're using MinGW, however, you're free to choose either build system.
On Windows, it is recommended that instead of Visual Studio, you use MSYS2 together with Mingw-w64 (which can produce both 32-bit and 64-bit binaries). MSYS2 provides a package manager, with which you can install xoreos' library dependencies very easily.
You can install the 32-bit toolchain in MSYS2 with
pacman -S base-devel git mingw-w64-i686-toolchain mingw-w64-i686-cmake
You can install the 64-bit toolchain in MSYS2 with
pacman -S base-devel git mingw-w64-x86_64-toolchain mingw-w64-x86_64-cmake
Libraries
xoreos uses the following libraries to function:
- iconv
- zlib (>= 1.2.3.4)
- liblzma (>= 5.0.5)
- libxml2 (>= 2.8.0)
- Boost (>= 1.53.0)
- Boost.Utility
- Boost.StringAlgo
- Boost.System
- Boost.Filesystem
- Boost.Regex
- Boost.Unordered
- Boost.Hash
- Boost.Date_Time
- Boost.Function
- Boost.Bind
- Boost.Uuid
- Boost.Smart_Ptr
- Boost.ScopeExit
- Boost.Atomic
- Boost.Locale
- OpenGL (>= 2.1)
- SDL2 (>= 2.0.0)
- FreeType 2 (>= 2.4.0 (libtool number >= 11.0.5))
- OpenAL (>= 1.12) (See below)
- MAD (>= 0.15.1b)
- libogg (>= 1.2.0)
- libvorbis (>= 1.3.1)
- libfaad (>= 2.7)
- libxvidcore (>= 1.2.2)
On Debian-based GNU/Linux distribution (including Ubuntu), you should be able to install these libraries and their development packages with
sudo apt-get install zlib1g-dev liblzma-dev libxml2-dev libboost-all-dev libsdl2-dev \ libfreetype6-dev libopenal-dev libmad0-dev libogg-dev libvorbis-dev libfaad-dev \ libxvidcore-dev
On Arch Linux, you can install these dependencies with
sudo pacman -S zlib xz libxml2 boost boost-libs sdl2 freetype2 openal libmad libogg \ libvorbis faad2 xvidcore
Other GNU/Linux distributions should work similarily.
On Windows, if you're using MSYS2, you can install these dependencies for 32-bit with
pacman -S mingw-w64-i686-zlib mingw-w64-i686-xz mingw-w64-i686-libxml2 \ mingw-w64-i686-boost mingw-w64-i686-SDL2 mingw-w64-i686-freetype \ mingw-w64-i686-openal mingw-w64-i686-libmad mingw-w64-i686-libogg \ mingw-w64-i686-libvorbis mingw-w64-i686-faad2 mingw-w64-i686-xvidcore
On Windows, if you're using MSYS2, you can install these dependencies for 64-bit with
pacman -S mingw-w64-x86_64-zlib mingw-w64-x86_64-xz mingw-w64-x86_64-libxml2 \ mingw-w64-x86_64-boost mingw-w64-x86_64-SDL2 mingw-w64-x86_64-freetype \ mingw-w64-x86_64-openal mingw-w64-x86_64-libmad mingw-w64-x86_64-libogg \ mingw-w64-x86_64-libvorbis mingw-w64-x86_64-faad2 mingw-w64-x86_64-xvidcore
Windows users not using MSYS2 will have to visit each website manually and download a precompiled version, or, if not available, download the source and compile the library themselves.
Guide for Visual Studio 2017 users
- Download source from https://github.com/win-iconv/win-iconv and build the library using CMake
- Download https://zlib.net/zlib1211.zip, extract and build the library using CMake
- Download https://tukaani.org/xz/xz-5.2.4.tar.gz, extract and build the library using the solution file in windows/vs2017
- Download ftp://xmlsoft.org/libxml2/libxml2-2.9.8.tar.gz, extract and build the library by following instructions in win32/Readme.txt
- Download and install precompiled Boost libraries from https://sourceforge.net/projects/boost/files/boost-binaries/1.67.0/
- Download and extract https://www.libsdl.org/release/SDL2-devel-2.0.8-VC.zip
- Download https://download.savannah.gnu.org/releases/freetype/ft291.zip and build the library using CMake
- Download and extract http://kcat.strangesoft.net/openal-binaries/openal-soft-1.18.2-bin.zip
- Download ftp://ftp.mars.org/pub/mpeg/libmad-0.15.1b.tar.gz and build the library using the project file in msvc++. To build a 64-bit library, create a new configuration and replace preprocessor definition FPM_INTEL with FPM_64BIT
- Download http://downloads.xiph.org/releases/ogg/libogg-1.3.3.zip, extract and build both dynamic and static libraries using solution files in win32/VS2015
- Download http://downloads.xiph.org/releases/vorbis/libvorbis-1.3.6.zip, extract and build both dynamic and static libraries using solution files in win32/VS2010
- Download https://vorboss.dl.sourceforge.net/project/faac/faad2-src/faad2-2.8.0/faad2-2.8.8.tar.gz, extract and build projects libfaad and libfaad2_dll using the solution file in project/msvc. To build 64-bit libraries, create a new configuration
- Download https://downloads.xvid.com/downloads/xvidcore-1.3.5.zip, extract and build the library using the solution file in build/win32 (requires NASM to be installed and present in PATH)
- Build xoreos using CMake
To build a project using CMake, create a folder named build in a root directory of a project and from there invoke
cmake .. -G "Visual Studio 15 2017"
or, for 64-bit
cmake .. -G "Visual Studio 15 2017 Win64"
Open CMakeCache.txt in your favorite text editor and fill in missing information as needed. Then run cmake again. Project's solution file should be created at this point.
A note on OpenAL
On Mac OS X, we're using Apple's OpenAL implementation, so OpenAL does not need to be installed separately there.
On both GNU/Linux and Microsoft Windows, we require OpenAL Soft. There is a propriety OpenAL implementation by Creative Labs, Inc. for Microsoft Windows, which can be found at http://openal.org/, but it's unfortunately old, outdated and abandoned. We do not recommend its use.
Likewise, on NetBSD and other systems using pkgsrc, you should use openal-soft instead of openal.
Compiling xoreos
Make sure you have your compiler, build system and libraries installed correctly. Then open a terminal and change into the directory of your sources.
autotools
Type
./autogen.sh && ./configure && make
The binary can be found in the src subdirectory, called "xoreos" or, on Windows, "xoreos.exe".
Optional, non-conventional ./configure flags:
|
Compile with -Werror |
|
Compile without the extra warnings enabled |
|
Compile with link-time optimization |
|
Always compile against the internal GLEW libraries |
CMake
Type
cmake . && make
The binary can be found in the bin subdirectory, called "xoreos" or, on Windows, "xoreos.exe".
Please read Running CMake on the CMake website for in-depth information on invoking CMake.
Optional, non-conventional cmake flags:
|
Link Boost statically instead of dynamically |
|
Always use internal GLEW library |
Note: The CMake's stock FindBoost.cmake doesn't correctly detect dependencies when linking statically. In this case, xoreos might fail to link, missing symbols for ICU, when linking Boost statically.
Moreover, if you're running GNU/Linux and have wrapper scripts installed that force the building of "hardened" binaries (often called "hardening-wrapper", but differs between Linux distributions), compiling xoreos might fail during the linking stage, when using statically linking Boost libraries. This is due to those static Boost libraries being incompatible with the compiler option "-fPIE", which is often added by hardening wrapper scripts. A workaround is to disable -fPIE for this compilation (which is distribution-specific).
Unit tests
On both build systems,
make check
compiles and runs our unit tests.
Running xoreos
Please have a look at the Running xoreos page.