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SConstruct
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SConstruct
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import os
import platform
from SCons.Node.FS import Dir
from SCons.Errors import SConsEnvironmentError
from SCons.Defaults import DefaultEnvironment
def pathjoin(*args):
return os.path.join(*args)
# Load environment variables, including some that should be renamed.
# If we are compiling on Windows, then we need to change the toolset to MinGW.
is_windows_host = platform.system().startswith('Windows')
scons_toolset = ['mingw' if is_windows_host else 'default']
env = DefaultEnvironment(tools = scons_toolset, ENV = os.environ, COMPILATIONDB_USE_ABSPATH=True)
# If manually building within the Steam Runtime (scout), SCons will need to be invoked directly
# with `python3.5`. Most other runtimes / build hosts will default to a newer version of python.
env.EnsurePythonVersion(3, 5)
# Make sure the current SCons version is at least v3.1.0; newer versions are allowed.
env.EnsureSConsVersion(3, 1, 0)
try:
env.Tool('compilation_db')
env.Default(env.CompilationDatabase())
# scons before 4.0.0 is used. In that case, simply don't provide a compilation database.
except SConsEnvironmentError:
pass
if 'CXX' in os.environ:
env['CXX'] = os.environ['CXX']
if 'CXXFLAGS' in os.environ:
env.Append(CCFLAGS = os.environ['CXXFLAGS'])
if 'CPPFLAGS' in os.environ:
env.Append(CCFLAGS = os.environ['CPPFLAGS'])
if 'LDFLAGS' in os.environ:
env.Append(LINKFLAGS = os.environ['LDFLAGS'])
if 'AR' in os.environ:
env['AR'] = os.environ['AR']
if 'DIR_ESLIB' in os.environ:
path = os.environ['DIR_ESLIB']
env.Prepend(CPPPATH = [pathjoin(path, 'include')])
env.Append(LIBPATH = [pathjoin(path, 'lib')])
# Don't spawn a console window by default on Windows builds.
if is_windows_host:
env.Append(LINKFLAGS = ["-mwindows"])
opts = Variables()
opts.AddVariables(
EnumVariable("mode", "Compilation mode", "release", allowed_values=("release", "debug", "profile")),
EnumVariable("opengl", "Whether to use OpenGL or OpenGL ES", "desktop", allowed_values=("desktop", "gles")),
PathVariable("BUILDDIR", "Directory to store compiled object files in", "build", PathVariable.PathIsDirCreate),
PathVariable("BIN_DIR", "Directory to store binaries in", ".", PathVariable.PathIsDirCreate),
PathVariable("DESTDIR", "Destination root directory, e.g. if building a package", "", PathVariable.PathAccept),
PathVariable("PREFIX", "Directory to install under (will be prefixed by DESTDIR)", "/usr/local", PathVariable.PathIsDirCreate),
)
opts.Update(env)
Help(opts.GenerateHelpText(env))
# Required build flags. To enable SSE or other optimizations, pass CXXFLAGS via the environment
# $ CXXFLAGS=-msse3 scons
# $ CXXFLAGS=-march=native scons
# or modify the `flags` variable:
flags = ["-std=c++11", "-Wall", "-pedantic-errors", "-Wold-style-cast", "-fno-rtti"]
if env["mode"] != "debug":
flags += ["-Werror", "-O3", "-flto"]
env.Append(LINKFLAGS = ["-O3", "-flto"])
if env["mode"] == "debug":
flags += ["-g"]
elif env["mode"] == "profile":
flags += ["-pg"]
env.Append(LINKFLAGS = ["-pg"])
env.Append(CCFLAGS = flags)
# Always use `ar` to create the symbol table, and don't use ranlib at all, since it fails to preserve
# LTO information, even when passed the plugin path, when run in Steam's "Scout" runtime.
env['RANLIBCOM'] = ''
# TODO: can we derive thin archive support from the host system somehow? Or just always use it?
create_thin_archives = env.get('AR', '').startswith('gcc')
env.Replace(ARFLAGS = 'rcsT' if create_thin_archives else 'rcs')
# The Steam runtime fails to correctly invoke the LTO plugin for gcc-5, so pass it explicitly
chroot_name = os.environ.get('SCHROOT_CHROOT_NAME', '')
if 'steamrt_scout' in chroot_name:
# MAYBE: read g++ version to determine correct path to the LTO plugin
plugin_path = '--plugin={}'.format(os.environ.get('LTO_PLUGIN_PATH', '/usr/lib/gcc/x86_64-linux-gnu/5/liblto_plugin.so'))
env.Append(ARFLAGS = [plugin_path])
# Required system libraries, such as UUID generator runtimes.
sys_libs = [
"rpcrt4",
] if is_windows_host else [
"uuid"
]
env.Append(LIBS = sys_libs)
game_libs = [
"winmm",
"mingw32",
"sdl2main",
"sdl2.dll",
"png.dll",
"turbojpeg.dll",
"jpeg.dll",
"openal32.dll",
] if is_windows_host else [
"SDL2",
"png",
"jpeg",
"openal",
"pthread",
]
env.Append(LIBS = game_libs)
if env["opengl"] == "gles":
if is_windows_host:
print("OpenGL ES builds are not supported on Windows")
Exit(1)
env.Append(LIBS = [
"OpenGL",
])
env.Append(CCFLAGS = ["-DES_GLES"])
elif is_windows_host:
env.Append(LIBS = [
"glew32.dll",
"opengl32",
])
else:
env.Append(LIBS = [
"GL" if 'steamrt_scout' in chroot_name else "OpenGL",
"GLEW",
])
# libmad is not in the Steam runtime, so link it statically:
if 'steamrt_scout_i386' in chroot_name:
env.Append(LIBS = File("/usr/lib/i386-linux-gnu/libmad.a"))
elif 'steamrt_scout_amd64' in chroot_name:
env.Append(LIBS = File("/usr/lib/x86_64-linux-gnu/libmad.a"))
else:
env.Append(LIBS = "mad")
binDirectory = '' if env["BIN_DIR"] == '.' else pathjoin(env["BIN_DIR"], env["mode"])
buildDirectory = pathjoin(env["BUILDDIR"], env["mode"])
libDirectory = pathjoin("lib", env["mode"])
env.VariantDir(buildDirectory, "source", duplicate = 0)
# Find all regular source files.
def RecursiveGlob(pattern, dir_name=buildDirectory):
# Start with source files in subdirectories.
matches = [RecursiveGlob(pattern, sub_dir) for sub_dir in env.Glob(pathjoin(str(dir_name), "*"))
if isinstance(sub_dir, Dir)]
# Add source files in this directory, except for main.cpp
matches += env.Glob(pathjoin(str(dir_name), pattern))
matches = [i for i in matches if not '{}main.cpp'.format(os.path.sep) in str(i)]
return matches
# By default, invoking scons will build the backing archive file and then the game binary.
sourceLib = env.StaticLibrary(pathjoin(libDirectory, "endless-sky"), RecursiveGlob("*.cpp", buildDirectory))
exeObjs = [env.Glob(pathjoin(buildDirectory, f)) for f in ("main.cpp",)]
if is_windows_host:
windows_icon = env.RES(pathjoin(buildDirectory, "WinApp.rc"))
exeObjs.append(windows_icon)
sky = env.Program(pathjoin(binDirectory, "endless-sky"), exeObjs + sourceLib)
env.Default(sky)
# The testing infrastructure ignores "mode" specification (i.e. we only test optimized output).
# (If we add support for code coverage output, this will likely need to change.)
testBuildDirectory = pathjoin("tests", "unit", env["BUILDDIR"])
env.VariantDir(testBuildDirectory, pathjoin("tests", "unit", "src"), duplicate = 0)
test = env.Program(
target=pathjoin("tests", "unit", "endless-sky-tests"),
source=RecursiveGlob("*.cpp", testBuildDirectory) + sourceLib,
# Add Catch header & additional test includes to the existing search paths.
CPPPATH=(env.get('CPPPATH', []) + [pathjoin('tests', 'unit', 'include')]),
# Do not link against the actual implementations of SDL, OpenGL, etc.
LIBS=sys_libs,
# Pass the necessary link flags for a console program.
LINKFLAGS=[x for x in env.get('LINKFLAGS', []) if x not in ('-mwindows',)]
)
# Invoking scons with the `build-tests` target will build the unit test framework
env.Alias("build-tests", test)
# Invoking scons with the `test` target will build (if necessary) and
# execute the unit test framework (always). All non-hidden tests are run.
catch2_args = " " + " ".join([
"-i",
"--warn NoAssertions",
"--order rand",
"--rng-seed 'time'",
])
test_runner = env.Action(test[0].abspath + catch2_args, 'Running tests...')
env.Alias("test", test, test_runner)
env.AlwaysBuild("test")
# Install the binary:
env.Install("$DESTDIR$PREFIX/games", sky)
# Install the desktop file:
env.Install("$DESTDIR$PREFIX/share/applications", "endless-sky.desktop")
# Install app center metadata:
env.Install("$DESTDIR$PREFIX/share/metainfo", "io.github.endless_sky.endless_sky.appdata.xml")
# Install icons, keeping track of all the paths.
# Most Ubuntu apps supply 16, 22, 24, 32, 48, and 256, and sometimes others.
sizes = ["16x16", "22x22", "24x24", "32x32", "48x48", "128x128", "256x256", "512x512"]
icons = []
for size in sizes:
destination = "$DESTDIR$PREFIX/share/icons/hicolor/" + size + "/apps/endless-sky.png"
icons.append(destination)
env.InstallAs(destination, "icons/icon_" + size + ".png")
# If any of those icons changed, also update the cache.
# Do not update the cache if we're not installing into "usr".
# (For example, this "install" may actually be creating a Debian package.)
if env.get("PREFIX").startswith("/usr/"):
env.Command(
[],
icons,
"gtk-update-icon-cache -t $DESTDIR$PREFIX/share/icons/hicolor/")
# Install the man page.
env.Command(
"$DESTDIR$PREFIX/share/man/man6/endless-sky.6.gz",
"endless-sky.6",
"gzip -c $SOURCE > $TARGET")
# Install the data files.
def RecursiveInstall(env, target, source):
rootIndex = len(env.Dir(source).abspath) + 1
for node in env.Glob(pathjoin(source, '*')):
if node.isdir():
name = node.abspath[rootIndex:]
RecursiveInstall(env, pathjoin(target, name), node.abspath)
else:
env.Install(target, node)
RecursiveInstall(env, "$DESTDIR$PREFIX/share/games/endless-sky/data", "data")
RecursiveInstall(env, "$DESTDIR$PREFIX/share/games/endless-sky/images", "images")
RecursiveInstall(env, "$DESTDIR$PREFIX/share/games/endless-sky/sounds", "sounds")
env.Install("$DESTDIR$PREFIX/share/games/endless-sky", "credits.txt")
env.Install("$DESTDIR$PREFIX/share/games/endless-sky", "keys.txt")
# Make the word "install" in the command line do an installation.
env.Alias("install", "$DESTDIR$PREFIX")