cnq3/build.md

2.9 KiB

Toolchains

There are only 2 build toolchains supported:

  • Visual C++ on Windows
  • GCC on Linux

Directories

Directory Contains
makefiles premake script and pre-generated Visual C++ and GNU makefiles
.build intermediate build files
.bin final executables (and symbol database files on Windows)

Building on Windows with Visual C++ 2013 or later

Requirements:

  • The %QUAKE3DIR% environment variable must be defined to the absolute path to copy the .exe and .pdb files to
  • NASM.exe is in your path for building the client

Options:

  • The %CPMADIR% environment variable must be defined to the name of the mod directory for launching through the debugger

Build steps:

  • Open makefiles\vs2013\cnq3.sln
  • Build

Notes: You don't need to set environment variables globally.
Instead, we recomment you set them for the Visual Studio process only.
Here's an example batch script for opening the Visual Studio solution:

cd cnq3\makefiles\vs2013
set QUAKE3DIR=G:\CPMA_tests
set CPMADIR=cpma_dev
cnq3.sln

With this set-up, you can press F5 and run the engine on the right q3 install and right mod folder immediately.

Building on Linux with GCC

Requirements:

Name Server Client Package name (apt-get)
NASM X X nasm
SDL 2 X libsdl2-dev

Options:

  • The $(QUAKE3DIR) environment variable can define the absolute path to copy the executables to

Build steps:

  • Navigate to the root of the repository
  • Run make all|client|server to build

Notes: To create the QUAKE3DIR variable in the build shell, you can use export QUAKE3DIR=~/games/q3.
To delete the variable from the build shell, you can use unset QUAKE3DIR.

Environment variables

There are 2 environment variables used for compiling and debugging:

Env. Var. Meaning Example
QUAKE3DIR absolute directory path C:\Games\Q3
CPMADIR mod folder name cpma
Windows Linux
QUAKE3DIR required for building optional
CPMADIR required for debugging unused

Building with other compilers

While it's not officially supported, you can modify the premake Lua script and run premake on it to generate new makefiles for your own needs.

Bonus: Building SDL 2 from source on Linux

  • Download the sources of the latest stable release
  • Extract to sdl-src
  • Create sdl-build next to sdl-src (it has to be out-of-tree)
  • Navigate to the sdl-build directory with cd
  • Run ../sdl-src/configure
  • Run make
  • As superuser, run make install (or sudo make install)
  • Run ldconfig to update the library paths