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panda3d/makepanda/makepandacore.py

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########################################################################
##
## This file, makepandacore, contains all the global state and
## global functions for the makepanda system.
##
########################################################################
import sys,os,time,stat,string,re,getopt,fnmatch,threading,signal,shutil,platform,glob,getpass,signal
import subprocess
from distutils import sysconfig
if sys.version_info >= (3, 0):
import pickle
import _thread as thread
import configparser
else:
import cPickle as pickle
import thread
import ConfigParser as configparser
SUFFIX_INC = [".cxx",".cpp",".c",".h",".I",".yxx",".lxx",".mm",".rc",".r"]
SUFFIX_DLL = [".dll",".dlo",".dle",".dli",".dlm",".mll",".exe",".pyd",".ocx"]
SUFFIX_LIB = [".lib",".ilb"]
VCS_DIRS = set(["CVS", "CVSROOT", ".git", ".hg", "__pycache__"])
VCS_FILES = set([".cvsignore", ".gitignore", ".gitmodules", ".hgignore"])
STARTTIME = time.time()
MAINTHREAD = threading.current_thread()
OUTPUTDIR = "built"
CUSTOM_OUTPUTDIR = False
THIRDPARTYBASE = None
THIRDPARTYDIR = None
OPTIMIZE = "3"
VERBOSE = False
LINK_ALL_STATIC = False
TARGET = None
TARGET_ARCH = None
HAS_TARGET_ARCH = False
TOOLCHAIN_PREFIX = ""
ANDROID_ABI = None
ANDROID_TRIPLE = None
ANDROID_API = None
SYS_LIB_DIRS = []
SYS_INC_DIRS = []
DEBUG_DEPENDENCIES = False
# Is the current Python a 32-bit or 64-bit build? There doesn't
# appear to be a universal test for this.
if sys.platform == 'darwin':
# On macOS, platform.architecture reports '64bit' even if it is
# currently running in 32-bit mode. But sys.maxint is a reliable
# indicator.
if sys.version_info >= (3, 0):
host_64 = (sys.maxsize > 0x100000000)
else:
host_64 = (sys.maxint > 0x100000000)
else:
# On Windows (and Linux?) sys.maxint reports 0x7fffffff even on a
# 64-bit build. So we stick with platform.architecture in that
# case.
host_64 = (platform.architecture()[0] == '64bit')
# On Android, get a list of all the public system libraries.
ANDROID_SYS_LIBS = []
if os.path.exists("/etc/public.libraries.txt"):
for line in open("/etc/public.libraries.txt", "r"):
line = line.strip()
ANDROID_SYS_LIBS.append(line)
########################################################################
##
## Visual C++ Version (MSVC) and Visual Studio Information Map
##
########################################################################
MSVCVERSIONINFO = {
(10,0): {"vsversion":(10,0), "vsname":"Visual Studio 2010"},
(11,0): {"vsversion":(11,0), "vsname":"Visual Studio 2012"},
(12,0): {"vsversion":(12,0), "vsname":"Visual Studio 2013"},
(14,0): {"vsversion":(14,0), "vsname":"Visual Studio 2015"},
(14,1): {"vsversion":(15,0), "vsname":"Visual Studio 2017"},
(14,2): {"vsversion":(16,0), "vsname":"Visual Studio 2019"},
(14,3): {"vsversion":(17,0), "vsname":"Visual Studio 2022"},
}
########################################################################
##
## Maya and Max Version List (with registry keys)
##
########################################################################
MAYAVERSIONINFO = [("MAYA6", "6.0"),
("MAYA65", "6.5"),
("MAYA7", "7.0"),
("MAYA8", "8.0"),
("MAYA85", "8.5"),
("MAYA2008","2008"),
("MAYA2009","2009"),
("MAYA2010","2010"),
("MAYA2011","2011"),
("MAYA2012","2012"),
("MAYA2013","2013"),
("MAYA20135","2013.5"),
("MAYA2014","2014"),
("MAYA2015","2015"),
("MAYA2016","2016"),
("MAYA20165","2016.5"),
("MAYA2017","2017"),
("MAYA2018","2018"),
("MAYA2019","2019"),
("MAYA2020","2020"),
("MAYA2022","2022"),
]
MAXVERSIONINFO = [("MAX6", "SOFTWARE\\Autodesk\\3DSMAX\\6.0", "installdir", "maxsdk\\cssdk\\include"),
("MAX7", "SOFTWARE\\Autodesk\\3DSMAX\\7.0", "Installdir", "maxsdk\\include\\CS"),
("MAX8", "SOFTWARE\\Autodesk\\3DSMAX\\8.0", "Installdir", "maxsdk\\include\\CS"),
("MAX9", "SOFTWARE\\Autodesk\\3DSMAX\\9.0", "Installdir", "maxsdk\\include\\CS"),
("MAX2009", "SOFTWARE\\Autodesk\\3DSMAX\\11.0\\MAX-1:409", "Installdir", "maxsdk\\include\\CS"),
("MAX2010", "SOFTWARE\\Autodesk\\3DSMAX\\12.0\\MAX-1:409", "Installdir", "maxsdk\\include\\CS"),
("MAX2011", "SOFTWARE\\Autodesk\\3DSMAX\\13.0\\MAX-1:409", "Installdir", "maxsdk\\include\\CS"),
("MAX2012", "SOFTWARE\\Autodesk\\3DSMAX\\14.0\\MAX-1:409", "Installdir", "maxsdk\\include\\CS"),
("MAX2013", "SOFTWARE\\Autodesk\\3DSMAX\\15.0\\MAX-1:409", "Installdir", "maxsdk\\include\\CS"),
("MAX2014", "SOFTWARE\\Autodesk\\3DSMAX\\16.0\\MAX-1:409", "Installdir", "maxsdk\\include\\CS"),
]
MAYAVERSIONS = []
MAXVERSIONS = []
DXVERSIONS = ["DX9"]
for (ver,key) in MAYAVERSIONINFO:
MAYAVERSIONS.append(ver)
for (ver,key1,key2,subdir) in MAXVERSIONINFO:
MAXVERSIONS.append(ver)
########################################################################
##
## Potentially Conflicting Files
##
## The next function can warn about the existence of files that are
## commonly generated by ppremake that may conflict with the build.
##
########################################################################
CONFLICTING_FILES=["dtool/src/dtoolutil/pandaVersion.h",
"dtool/src/dtoolutil/checkPandaVersion.h",
"dtool/src/dtoolutil/checkPandaVersion.cxx",
"dtool/src/prc/prc_parameters.h",
"panda/src/speedtree/speedtree_parameters.h",
"direct/src/plugin/p3d_plugin_config.h",
"direct/src/plugin_activex/P3DActiveX.rc",
"direct/src/plugin_npapi/nppanda3d.rc",
"direct/src/plugin_standalone/panda3d.rc"]
def WarnConflictingFiles(delete = False):
for cfile in CONFLICTING_FILES:
if os.path.exists(cfile):
Warn("file may conflict with build:", cfile)
if delete:
os.unlink(cfile)
print("Deleted.")
########################################################################
##
## The exit routine will normally
##
## - print a message
## - save the dependency cache
## - exit
##
## However, if it is invoked inside a thread, it instead:
##
## - prints a message
## - raises the "initiate-exit" exception
##
## If you create a thread, you must be prepared to catch this
## exception, save the dependency cache, and exit.
##
########################################################################
WARNINGS = []
THREADS = {}
HAVE_COLORS = False
SETF = ""
try:
import curses
curses.setupterm()
SETF = curses.tigetstr("setf")
if (SETF == None):
SETF = curses.tigetstr("setaf")
assert SETF != None
HAVE_COLORS = sys.stdout.isatty()
except: pass
def DisableColors():
global HAVE_COLORS
HAVE_COLORS = False
def GetColor(color = None):
if not HAVE_COLORS:
return ""
if color != None:
color = color.lower()
if (color == "blue"):
token = curses.tparm(SETF, 1)
elif (color == "green"):
token = curses.tparm(SETF, 2)
elif (color == "cyan"):
token = curses.tparm(SETF, 3)
elif (color == "red"):
token = curses.tparm(SETF, 4)
elif (color == "magenta"):
token = curses.tparm(SETF, 5)
elif (color == "yellow"):
token = curses.tparm(SETF, 6)
else:
token = curses.tparm(curses.tigetstr("sgr0"))
if sys.version_info >= (3, 0):
return token.decode('ascii')
else:
return token
def ColorText(color, text, reset=True):
if reset is True:
return ''.join((GetColor(color), text, GetColor()))
else:
return ''.join((GetColor(color), text))
def PrettyTime(t):
t = int(t)
hours = t // 3600
t -= hours * 3600
minutes = t // 60
t -= minutes * 60
seconds = t
if hours:
return "%d hours %d min" % (hours, minutes)
if minutes:
return "%d min %d sec" % (minutes, seconds)
return "%d sec" % (seconds)
def ProgressOutput(progress, msg, target = None):
sys.stdout.flush()
sys.stderr.flush()
prefix = ""
thisthread = threading.current_thread()
if thisthread is MAINTHREAD:
if progress is None:
prefix = ""
elif (progress >= 100.0):
prefix = "%s[%s%d%%%s] " % (GetColor("yellow"), GetColor("cyan"), progress, GetColor("yellow"))
elif (progress < 10.0):
prefix = "%s[%s %d%%%s] " % (GetColor("yellow"), GetColor("cyan"), progress, GetColor("yellow"))
else:
prefix = "%s[%s %d%%%s] " % (GetColor("yellow"), GetColor("cyan"), progress, GetColor("yellow"))
else:
global THREADS
ident = thread.get_ident()
if (ident not in THREADS):
THREADS[ident] = len(THREADS) + 1
prefix = "%s[%sT%d%s] " % (GetColor("yellow"), GetColor("cyan"), THREADS[ident], GetColor("yellow"))
if target is not None:
suffix = ' ' + ColorText("green", target)
else:
suffix = GetColor()
print(''.join((prefix, msg, suffix)))
sys.stdout.flush()
sys.stderr.flush()
def exit(msg = ""):
sys.stdout.flush()
sys.stderr.flush()
if threading.current_thread() == MAINTHREAD:
SaveDependencyCache()
print("Elapsed Time: " + PrettyTime(time.time() - STARTTIME))
print(msg)
print(ColorText("red", "Build terminated."))
sys.stdout.flush()
sys.stderr.flush()
##Don't quit the interperter if I'm running this file directly (debugging)
if __name__ != '__main__':
os._exit(1)
else:
print(msg)
raise "initiate-exit"
def Warn(msg, extra=None):
if extra is not None:
print("%sWARNING:%s %s %s%s%s" % (GetColor("red"), GetColor(), msg, GetColor("green"), extra, GetColor()))
else:
print("%sWARNING:%s %s" % (GetColor("red"), GetColor(), msg))
sys.stdout.flush()
def Error(msg, extra=None):
if extra is not None:
print("%sERROR:%s %s %s%s%s" % (GetColor("red"), GetColor(), msg, GetColor("green"), extra, GetColor()))
else:
print("%sERROR:%s %s" % (GetColor("red"), GetColor(), msg))
exit()
########################################################################
##
## SetTarget, GetTarget, GetHost
##
## These functions control cross-compilation.
##
########################################################################
def GetHost():
"""Returns the host platform, ie. the one we're compiling on."""
if sys.platform == 'win32' or sys.platform == 'cygwin':
# sys.platform is win32 on 64-bits Windows as well.
return 'windows'
elif sys.platform == 'darwin':
return 'darwin'
elif sys.platform.startswith('linux'):
try:
# Python seems to offer no built-in way to check this.
osname = subprocess.check_output(["uname", "-o"])
if osname.strip().lower() == b'android':
return 'android'
else:
return 'linux'
except:
return 'linux'
elif sys.platform.startswith('freebsd'):
return 'freebsd'
else:
exit('Unrecognized sys.platform: %s' % (sys.platform))
def GetHostArch():
"""Returns the architecture we're compiling on.
Its value is also platform-dependent, as different platforms
have different architecture naming."""
target = GetTarget()
if target == 'windows':
return 'x64' if host_64 else 'x86'
machine = platform.machine()
if machine.startswith('armv7'):
return 'armv7a'
else:
return machine
def SetTarget(target, arch=None):
"""Sets the target platform; the one we're compiling for. Also
sets the target architecture (None for default, if any). Should
be called *before* any calls are made to GetOutputDir, GetCC, etc."""
global TARGET, TARGET_ARCH, HAS_TARGET_ARCH
global TOOLCHAIN_PREFIX
host = GetHost()
host_arch = GetHostArch()
if target is None:
target = host
else:
target = target.lower()
if arch is not None:
HAS_TARGET_ARCH = True
TOOLCHAIN_PREFIX = ''
if target == 'windows':
if arch == 'i386':
arch = 'x86'
elif arch == 'amd64':
arch = 'x64'
if arch is not None and arch != 'x86' and arch != 'x64':
exit("Windows architecture must be x86 or x64")
elif target == 'darwin':
if arch == 'amd64':
arch = 'x86_64'
if arch == 'aarch64':
arch = 'arm64'
if arch is not None:
choices = ('i386', 'x86_64', 'ppc', 'ppc64', 'arm64')
if arch not in choices:
exit('macOS architecture must be one of %s' % (', '.join(choices)))
elif target == 'android' or target.startswith('android-'):
if arch is None:
# If compiling on Android, default to same architecture. Otherwise, arm.
if host == 'android':
arch = host_arch
else:
arch = 'armv7a'
if arch == 'arm64':
arch = 'aarch64'
# Did we specify an API level?
global ANDROID_API
target, _, api = target.partition('-')
if api:
ANDROID_API = int(api)
elif arch in ('mips64', 'aarch64', 'x86_64'):
# 64-bit platforms were introduced in Android 21.
ANDROID_API = 21
else:
# Default to the lowest API level supported by NDK r16.
ANDROID_API = 14
# Determine the prefix for our gcc tools, eg. arm-linux-androideabi-gcc
global ANDROID_ABI, ANDROID_TRIPLE
if arch == 'armv7a':
ANDROID_ABI = 'armeabi-v7a'
ANDROID_TRIPLE = 'arm-linux-androideabi'
elif arch == 'arm':
ANDROID_ABI = 'armeabi'
ANDROID_TRIPLE = 'arm-linux-androideabi'
elif arch == 'aarch64':
ANDROID_ABI = 'arm64-v8a'
ANDROID_TRIPLE = 'aarch64-linux-android'
elif arch == 'mips':
ANDROID_ABI = 'mips'
ANDROID_TRIPLE = 'mipsel-linux-android'
elif arch == 'mips64':
ANDROID_ABI = 'mips64'
ANDROID_TRIPLE = 'mips64el-linux-android'
elif arch == 'x86':
ANDROID_ABI = 'x86'
ANDROID_TRIPLE = 'i686-linux-android'
elif arch == 'x86_64':
ANDROID_ABI = 'x86_64'
ANDROID_TRIPLE = 'x86_64-linux-android'
else:
exit('Android architecture must be arm, armv7a, aarch64, mips, mips64, x86 or x86_64, use --arch to specify')
TOOLCHAIN_PREFIX = ANDROID_TRIPLE + '-'
elif target == 'linux':
if arch is not None:
TOOLCHAIN_PREFIX = '%s-linux-gnu-' % arch
elif host != 'linux':
exit('Should specify an architecture when building for Linux')
elif target == host:
if arch is None or arch == host_arch:
# Not a cross build.
pass
else:
exit('Cannot cross-compile for %s-%s from %s-%s' % (target, arch, host, host_arch))
else:
exit('Cannot cross-compile for %s from %s' % (target, host))
if arch is None:
arch = host_arch
TARGET = target
TARGET_ARCH = arch
def GetTarget():
"""Returns the platform we're compiling for. Defaults to GetHost()."""
global TARGET
if TARGET is None:
TARGET = GetHost()
return TARGET
def HasTargetArch():
"""Returns True if the user specified an architecture to compile for."""
return HAS_TARGET_ARCH
def GetTargetArch():
"""Returns the architecture we're compiling for. Defaults to GetHostArch().
Its value is also dependent on that of GetTarget(), as different platforms
use a different architecture naming."""
global TARGET_ARCH
if TARGET_ARCH is None:
TARGET_ARCH = GetHostArch()
return TARGET_ARCH
def CrossCompiling():
"""Returns True if we're cross-compiling."""
return GetTarget() != GetHost()
def GetCC():
if TARGET in ('darwin', 'freebsd', 'android'):
return os.environ.get('CC', TOOLCHAIN_PREFIX + 'clang')
else:
return os.environ.get('CC', TOOLCHAIN_PREFIX + 'gcc')
def GetCXX():
if TARGET in ('darwin', 'freebsd', 'android'):
return os.environ.get('CXX', TOOLCHAIN_PREFIX + 'clang++')
else:
return os.environ.get('CXX', TOOLCHAIN_PREFIX + 'g++')
def GetStrip():
# Hack
if TARGET == 'android':
return TOOLCHAIN_PREFIX + 'strip'
else:
return 'strip'
def GetAR():
# Hack
if TARGET == 'android':
return TOOLCHAIN_PREFIX + 'ar'
else:
return 'ar'
def GetRanlib():
# Hack
if TARGET == 'android':
return TOOLCHAIN_PREFIX + 'ranlib'
else:
return 'ranlib'
BISON = None
def GetBison():
global BISON
if BISON is not None:
return BISON
# We now require a newer version of Bison than the one we previously
# shipped in the win-util dir. The new version has a 'data'
# subdirectory, so check for that.
win_util_data = os.path.join(GetThirdpartyBase(), 'win-util', 'data')
if GetHost() == 'windows' and os.path.isdir(win_util_data):
BISON = os.path.join(GetThirdpartyBase(), 'win-util', 'bison.exe')
elif LocateBinary('bison'):
BISON = 'bison'
else:
# We don't strictly need it, so don't give an error
return None
return BISON
FLEX = None
def GetFlex():
global FLEX
if FLEX is not None:
return FLEX
win_util = os.path.join(GetThirdpartyBase(), 'win-util')
if GetHost() == 'windows' and os.path.isdir(win_util):
FLEX = GetThirdpartyBase() + "/win-util/flex.exe"
elif LocateBinary('flex'):
FLEX = 'flex'
else:
# We don't strictly need it, so don't give an error
return None
return FLEX
def GetFlexVersion():
flex = GetFlex()
if not flex:
return (0, 0, 0)
try:
handle = subprocess.Popen(["flex", "--version"], executable=flex, stdout=subprocess.PIPE)
words = handle.communicate()[0].strip().splitlines()[0].split(b' ')
if words[1] != "version":
version = words[1]
else:
version = words[2]
return tuple(map(int, version.split(b'.')))
except:
Warn("Unable to detect flex version")
return (0, 0, 0)
########################################################################
##
## LocateBinary
##
## This function searches the system PATH for the binary. Returns its
## full path when it is found, or None when it was not found.
##
########################################################################
def LocateBinary(binary):
if os.path.isfile(binary):
return binary
if "PATH" not in os.environ or os.environ["PATH"] == "":
p = os.defpath
else:
p = os.environ["PATH"]
pathList = p.split(os.pathsep)
suffixes = ['']
if GetHost() == 'windows':
if not binary.lower().endswith('.exe') and not binary.lower().endswith('.bat'):
# Append .exe if necessary
suffixes = ['.exe', '.bat']
# On Windows the current directory is always implicitly
# searched before anything else on PATH.
pathList = ['.'] + pathList
for path in pathList:
binpath = os.path.join(os.path.expanduser(path), binary)
for suffix in suffixes:
if os.access(binpath + suffix, os.X_OK):
return os.path.abspath(os.path.realpath(binpath + suffix))
return None
########################################################################
##
## Run a command.
##
########################################################################
def oscmd(cmd, ignoreError = False, cwd=None):
if VERBOSE:
print(GetColor("blue") + cmd.split(" ", 1)[0] + " " + GetColor("magenta") + cmd.split(" ", 1)[1] + GetColor())
sys.stdout.flush()
if sys.platform == "win32":
if cmd[0] == '"':
exe = cmd[1 : cmd.index('"', 1)]
else:
exe = cmd.split()[0]
exe_path = LocateBinary(exe)
if exe_path is None:
exit("Cannot find "+exe+" on search path")
if cwd is not None:
pwd = os.getcwd()
os.chdir(cwd)
res = os.spawnl(os.P_WAIT, exe_path, cmd)
if res == -1073741510: # 0xc000013a
exit("keyboard interrupt")
if cwd is not None:
os.chdir(pwd)
else:
cmd = cmd.replace(';', '\\;')
res = subprocess.call(cmd, cwd=cwd, shell=True)
sig = res & 0x7F
if (GetVerbose() and res != 0):
print(ColorText("red", "Process exited with exit status %d and signal code %d" % ((res & 0xFF00) >> 8, sig)))
if (sig == signal.SIGINT):
exit("keyboard interrupt")
# Don't ask me where the 35584 or 34304 come from...
if (sig == signal.SIGSEGV or res == 35584 or res == 34304):
if (LocateBinary("gdb") and GetVerbose() and GetHost() != "windows"):
print(ColorText("red", "Received SIGSEGV, retrieving traceback..."))
os.system("gdb -batch -ex 'handle SIG33 pass nostop noprint' -ex 'set pagination 0' -ex 'run' -ex 'bt full' -ex 'info registers' -ex 'thread apply all backtrace' -ex 'quit' --args %s < /dev/null" % cmd)
else:
print(ColorText("red", "Received SIGSEGV"))
exit("")
if res != 0 and not ignoreError:
if "interrogate" in cmd.split(" ", 1)[0] and GetVerbose():
print(ColorText("red", "Interrogate failed, retrieving debug output..."))
sys.stdout.flush()
verbose_cmd = cmd.split(" ", 1)[0] + " -vv " + cmd.split(" ", 1)[1]
if sys.platform == "win32":
os.spawnl(os.P_WAIT, exe_path, verbose_cmd)
else:
subprocess.call(verbose_cmd, shell=True)
exit("The following command returned a non-zero value: " + str(cmd))
return res
########################################################################
##
## GetDirectoryContents
##
########################################################################
def GetDirectoryContents(dir, filters="*", skip=[]):
if (type(filters)==str):
filters = [filters]
actual = {}
files = os.listdir(dir)
for filter in filters:
for file in fnmatch.filter(files, filter):
if (skip.count(file)==0) and (os.path.isfile(dir + "/" + file)):
actual[file] = 1
results = list(actual.keys())
results.sort()
return results
def GetDirectorySize(dir):
if not os.path.isdir(dir):
return 0
size = 0
for (path, dirs, files) in os.walk(dir):
for file in files:
try:
size += os.path.getsize(os.path.join(path, file))
except: pass
return size
########################################################################
##
## The Timestamp Cache
##
## The make utility is constantly fetching the timestamps of files.
## This can represent the bulk of the file accesses during the make
## process. The timestamp cache eliminates redundant checks.
##
########################################################################
TIMESTAMPCACHE = {}
def GetTimestamp(path):
if path in TIMESTAMPCACHE:
return TIMESTAMPCACHE[path]
try:
date = int(os.path.getmtime(path))
except:
date = 0
TIMESTAMPCACHE[path] = date
return date
def ClearTimestamp(path):
del TIMESTAMPCACHE[path]
########################################################################
##
## The Dependency cache.
##
## Makepanda's strategy for file dependencies is different from most
## make-utilities. Whenever a file is built, makepanda records
## that the file was built, and it records what the input files were,
## and what their dates were. Whenever a file is about to be built,
## panda compares the current list of input files and their dates,
## to the previous list of input files and their dates. If they match,
## there is no need to build the file.
##
########################################################################
BUILTFROMCACHE = {}
def JustBuilt(files, others):
dates = {}
for file in files:
del TIMESTAMPCACHE[file]
dates[file] = GetTimestamp(file)
for file in others:
dates[file] = GetTimestamp(file)
key = tuple(files)
BUILTFROMCACHE[key] = dates
def NeedsBuild(files, others):
dates = {}
for file in files:
dates[file] = GetTimestamp(file)
if not os.path.exists(file):
if DEBUG_DEPENDENCIES:
print("rebuilding %s because it does not exist" % (file))
return True
for file in others:
dates[file] = GetTimestamp(file)
key = tuple(files)
if key in BUILTFROMCACHE:
cached = BUILTFROMCACHE[key]
if cached == dates:
return False
elif DEBUG_DEPENDENCIES:
print("rebuilding %s because:" % (key))
for key in frozenset(cached.keys()) | frozenset(dates.keys()):
if key not in cached:
print(" new dependency: %s" % (key))
elif key not in dates:
print(" removed dependency: %s" % (key))
elif cached[key] != dates[key]:
print(" dependency changed: %s" % (key))
if VERBOSE and frozenset(cached) != frozenset(dates):
Warn("file dependencies changed:", files)
return True
########################################################################
##
## The CXX include cache:
##
## The following routine scans a CXX file and returns a list of
## the include-directives inside that file. It's not recursive:
## it just returns the includes that are textually inside the
## file. If you need recursive dependencies, you need the higher-level
## routine CxxCalcDependencies, defined elsewhere.
##
## Since scanning a CXX file is slow, we cache the result. It records
## the date of the source file and the list of includes that it
## contains. It assumes that if the file date hasn't changed, that
## the list of include-statements inside the file has not changed
## either. Once again, this particular routine does not return
## recursive dependencies --- it only returns an explicit list of
## include statements that are textually inside the file. That
## is what the cache stores, as well.
##
########################################################################
CXXINCLUDECACHE = {}
global CxxIncludeRegex
CxxIncludeRegex = re.compile('^[ \t]*[#][ \t]*include[ \t]+"([^"]+)"[ \t\r\n]*$')
def CxxGetIncludes(path):
date = GetTimestamp(path)
if (path in CXXINCLUDECACHE):
cached = CXXINCLUDECACHE[path]
if (cached[0]==date): return cached[1]
try: sfile = open(path, 'r')
except:
exit("Cannot open source file \""+path+"\" for reading.")
include = []
try:
for line in sfile:
match = CxxIncludeRegex.match(line,0)
if (match):
incname = match.group(1)
include.append(incname)
except:
print("Failed to determine dependencies of \""+path+"\".")
raise
sfile.close()
CXXINCLUDECACHE[path] = [date, include]
return include
JAVAIMPORTCACHE = {}
global JavaImportRegex
JavaImportRegex = re.compile('[ \t\r\n;]import[ \t]+([a-zA-Z][^;]+)[ \t\r\n]*;')
def JavaGetImports(path):
date = GetTimestamp(path)
if path in JAVAIMPORTCACHE:
cached = JAVAIMPORTCACHE[path]
if cached[0] == date:
return cached[1]
try:
source = open(path, 'r').read()
except:
exit("Cannot open source file \"" + path + "\" for reading.")
imports = []
try:
for match in JavaImportRegex.finditer(source, 0):
impname = match.group(1)
imports.append(impname.strip())
except:
print("Failed to determine dependencies of \"" + path +"\".")
raise
JAVAIMPORTCACHE[path] = [date, imports]
return imports
########################################################################
##
## SaveDependencyCache / LoadDependencyCache
##
## This actually saves both the dependency and cxx-include caches.
##
########################################################################
DCACHE_VERSION = 3
DCACHE_BACKED_UP = False
def SaveDependencyCache():
global DCACHE_BACKED_UP
if not DCACHE_BACKED_UP:
try:
if (os.path.exists(os.path.join(OUTPUTDIR, "tmp", "makepanda-dcache"))):
os.rename(os.path.join(OUTPUTDIR, "tmp", "makepanda-dcache"),
os.path.join(OUTPUTDIR, "tmp", "makepanda-dcache-backup"))
except: pass
DCACHE_BACKED_UP = True
try:
icache = open(os.path.join(OUTPUTDIR, "tmp", "makepanda-dcache"),'wb')
except:
icache = None
if icache is not None:
print("Storing dependency cache.")
pickle.dump(DCACHE_VERSION, icache, 0)
pickle.dump(CXXINCLUDECACHE, icache, 2)
pickle.dump(BUILTFROMCACHE, icache, 2)
icache.close()
def LoadDependencyCache():
global CXXINCLUDECACHE
global BUILTFROMCACHE
try:
icache = open(os.path.join(OUTPUTDIR, "tmp", "makepanda-dcache"), 'rb')
except:
icache = None
if icache is not None:
ver = pickle.load(icache)
if ver == DCACHE_VERSION:
CXXINCLUDECACHE = pickle.load(icache)
BUILTFROMCACHE = pickle.load(icache)
icache.close()
else:
print("Cannot load dependency cache, version is too old!")
########################################################################
##
## CxxFindSource: given a source file name and a directory list,
## searches the directory list for the given source file. Returns
## the full pathname of the located file.
##
## CxxFindHeader: given a source file, an include directive, and a
## directory list, searches the directory list for the given header
## file. Returns the full pathname of the located file.
##
## Of course, CxxFindSource and CxxFindHeader cannot find a source
## file that has not been created yet. This can cause dependency
## problems. So the function CreateStubHeader can be used to create
## a file that CxxFindSource or CxxFindHeader can subsequently find.
##
########################################################################
def CxxFindSource(name, ipath):
for dir in ipath:
if (dir == "."): full = name
else: full = dir + "/" + name
if GetTimestamp(full) > 0: return full
exit("Could not find source file: "+name)
def CxxFindHeader(srcfile, incfile, ipath):
if (incfile.startswith(".")):
last = srcfile.rfind("/")
if (last < 0): exit("CxxFindHeader cannot handle this case #1")
srcdir = srcfile[:last+1]
while (incfile[:1]=="."):
if (incfile[:2]=="./"):
incfile = incfile[2:]
elif (incfile[:3]=="../"):
incfile = incfile[3:]
last = srcdir[:-1].rfind("/")
if (last < 0): exit("CxxFindHeader cannot handle this case #2")
srcdir = srcdir[:last+1]
else: exit("CxxFindHeader cannot handle this case #3")
full = srcdir + incfile
if GetTimestamp(full) > 0: return full
return 0
else:
for dir in ipath:
full = dir + "/" + incfile
if GetTimestamp(full) > 0: return full
return 0
def JavaFindClasses(impspec, clspath):
path = clspath + '/' + impspec.replace('.', '/') + '.class'
if '*' in path:
return glob.glob(path)
else:
return [path]
########################################################################
##
## CxxCalcDependencies(srcfile, ipath, ignore)
##
## Calculate the dependencies of a source file given a
## particular include-path. Any file in the list of files to
## ignore is not considered.
##
########################################################################
global CxxIgnoreHeader
global CxxDependencyCache
CxxIgnoreHeader = {}
CxxDependencyCache = {}
def CxxCalcDependencies(srcfile, ipath, ignore):
if (srcfile in CxxDependencyCache):
return CxxDependencyCache[srcfile]
if (ignore.count(srcfile)): return []
dep = {}
dep[srcfile] = 1
includes = CxxGetIncludes(srcfile)
for include in includes:
header = CxxFindHeader(srcfile, include, ipath)
if (header!=0):
if (ignore.count(header)==0):
hdeps = CxxCalcDependencies(header, ipath, [srcfile]+ignore)
for x in hdeps: dep[x] = 1
result = list(dep.keys())
CxxDependencyCache[srcfile] = result
return result
global JavaDependencyCache
JavaDependencyCache = {}
def JavaCalcDependencies(srcfile, clspath):
if srcfile in JavaDependencyCache:
return JavaDependencyCache[srcfile]
deps = set((srcfile,))
JavaDependencyCache[srcfile] = deps
imports = JavaGetImports(srcfile)
for impspec in imports:
for cls in JavaFindClasses(impspec, clspath):
deps.add(cls)
return deps
########################################################################
##
## Registry Key Handling
##
## Of course, these routines will fail if you call them on a
## non win32 platform. If you use them on a win64 platform, they
## will look in the win32 private hive first, then look in the
## win64 hive.
##
########################################################################
if sys.platform == "win32":
# Note: not supported on cygwin.
if sys.version_info >= (3, 0):
import winreg
else:
import _winreg as winreg
def TryRegistryKey(path):
try:
key = winreg.OpenKey(winreg.HKEY_LOCAL_MACHINE, path, 0, winreg.KEY_READ)
return key
except: pass
try:
key = winreg.OpenKey(winreg.HKEY_LOCAL_MACHINE, path, 0, winreg.KEY_READ | 256)
return key
except: pass
return 0
def ListRegistryKeys(path):
result=[]
index=0
key = TryRegistryKey(path)
if (key != 0):
try:
while (1):
result.append(winreg.EnumKey(key, index))
index = index + 1
except: pass
winreg.CloseKey(key)
return result
def ListRegistryValues(path):
result = []
index = 0
key = TryRegistryKey(path)
if (key != 0):
try:
while (1):
result.append(winreg.EnumValue(key, index)[0])
index = index + 1
except: pass
winreg.CloseKey(key)
return result
def GetRegistryKey(path, subkey, override64=True):
if (host_64 and override64):
path = path.replace("SOFTWARE\\", "SOFTWARE\\Wow6432Node\\")
k1=0
key = TryRegistryKey(path)
if (key != 0):
try:
k1, k2 = winreg.QueryValueEx(key, subkey)
except: pass
winreg.CloseKey(key)
return k1
def GetProgramFiles():
if ("PROGRAMFILES" in os.environ):
return os.environ["PROGRAMFILES"]
elif (os.path.isdir("C:\\Program Files")):
return "C:\\Program Files"
elif (os.path.isdir("D:\\Program Files")):
return "D:\\Program Files"
elif (os.path.isdir("E:\\Program Files")):
return "E:\\Program Files"
return 0
def GetProgramFiles_x86():
if ("ProgramFiles(x86)" in os.environ):
return os.environ["ProgramFiles(x86)"]
elif (os.path.isdir("C:\\Program Files (x86)")):
return "C:\\Program Files (x86)"
elif (os.path.isdir("D:\\Program Files (x86)")):
return "D:\\Program Files (x86)"
elif (os.path.isdir("E:\\Program Files (x86)")):
return "E:\\Program Files (x86)"
return GetProgramFiles()
########################################################################
##
## Parsing Compiler Option Lists
##
########################################################################
def GetListOption(opts, prefix):
res=[]
for x in opts:
if (x.startswith(prefix)):
res.append(x[len(prefix):])
return res
def GetValueOption(opts, prefix):
for x in opts:
if (x.startswith(prefix)):
return x[len(prefix):]
return 0
def GetOptimizeOption(opts):
val = GetValueOption(opts, "OPT:")
if (val == 0):
return OPTIMIZE
return val
########################################################################
##
## General File Manipulation
##
########################################################################
def MakeDirectory(path, mode=None, recursive=False):
if os.path.isdir(path):
return
if recursive:
parent = os.path.dirname(path)
if parent and not os.path.isdir(parent):
MakeDirectory(parent, mode=mode, recursive=True)
if mode is not None:
os.mkdir(path, mode)
else:
os.mkdir(path)
def ReadFile(wfile):
try:
srchandle = open(wfile, "r")
data = srchandle.read()
srchandle.close()
return data
except:
ex = sys.exc_info()[1]
exit("Cannot read %s: %s" % (wfile, ex))
def ReadBinaryFile(wfile):
try:
srchandle = open(wfile, "rb")
data = srchandle.read()
srchandle.close()
return data
except:
ex = sys.exc_info()[1]
exit("Cannot read %s: %s" % (wfile, ex))
def WriteFile(wfile, data, newline=None):
if newline is not None:
data = data.replace('\r\n', '\n')
data = data.replace('\r', '\n')
data = data.replace('\n', newline)
try:
if sys.version_info >= (3, 0):
dsthandle = open(wfile, "w", newline='')
else:
dsthandle = open(wfile, "w")
dsthandle.write(data)
dsthandle.close()
except:
ex = sys.exc_info()[1]
exit("Cannot write to %s: %s" % (wfile, ex))
def WriteBinaryFile(wfile, data):
try:
dsthandle = open(wfile, "wb")
dsthandle.write(data)
dsthandle.close()
except:
ex = sys.exc_info()[1]
exit("Cannot write to %s: %s" % (wfile, ex))
def ConditionalWriteFile(dest, data, newline=None):
if newline is not None:
data = data.replace('\r\n', '\n')
data = data.replace('\r', '\n')
data = data.replace('\n', newline)
try:
rfile = open(dest, 'r')
contents = rfile.read(-1)
rfile.close()
except:
contents = 0
if contents != data:
if VERBOSE:
print("Writing %s" % (dest))
sys.stdout.flush()
WriteFile(dest, data)
def DeleteVCS(dir):
if dir == "": dir = "."
for entry in os.listdir(dir):
subdir = os.path.join(dir, entry)
if (os.path.isdir(subdir)):
if entry in VCS_DIRS:
shutil.rmtree(subdir)
else:
DeleteVCS(subdir)
elif (os.path.isfile(subdir) and (entry in VCS_FILES or entry.startswith(".#"))):
os.remove(subdir)
def DeleteBuildFiles(dir):
if dir == "": dir = "."
for entry in os.listdir(dir):
subdir = os.path.join(dir, entry)
if (os.path.isfile(subdir) and os.path.splitext(subdir)[-1] in [".pp", ".moved"]):
os.remove(subdir)
elif (os.path.isdir(subdir)):
if (os.path.basename(subdir)[:3] == "Opt" and os.path.basename(subdir)[4] == "-"):
shutil.rmtree(subdir)
else:
DeleteBuildFiles(subdir)
def DeleteEmptyDirs(dir):
if dir == "": dir = "."
entries = os.listdir(dir)
if not entries:
os.rmdir(dir)
return
for entry in entries:
subdir = os.path.join(dir, entry)
if (os.path.isdir(subdir)):
if (not os.listdir(subdir)):
os.rmdir(subdir)
else:
DeleteEmptyDirs(subdir)
def CreateFile(file):
if (os.path.exists(file)==0):
WriteFile(file, "")
########################################################################
#
# Create the panda build tree.
#
########################################################################
def MakeBuildTree():
MakeDirectory(OUTPUTDIR)
MakeDirectory(OUTPUTDIR + "/bin")
MakeDirectory(OUTPUTDIR + "/lib")
MakeDirectory(OUTPUTDIR + "/tmp")
MakeDirectory(OUTPUTDIR + "/etc")
MakeDirectory(OUTPUTDIR + "/plugins")
MakeDirectory(OUTPUTDIR + "/include")
MakeDirectory(OUTPUTDIR + "/models")
MakeDirectory(OUTPUTDIR + "/models/audio")
MakeDirectory(OUTPUTDIR + "/models/audio/sfx")
MakeDirectory(OUTPUTDIR + "/models/icons")
MakeDirectory(OUTPUTDIR + "/models/maps")
MakeDirectory(OUTPUTDIR + "/models/misc")
MakeDirectory(OUTPUTDIR + "/models/gui")
MakeDirectory(OUTPUTDIR + "/pandac")
MakeDirectory(OUTPUTDIR + "/pandac/input")
MakeDirectory(OUTPUTDIR + "/panda3d")
if GetTarget() == 'android':
MakeDirectory(OUTPUTDIR + "/classes")
########################################################################
#
# Make sure that you are in the root of the panda tree.
#
########################################################################
def CheckPandaSourceTree():
dir = os.getcwd()
if ((os.path.exists(os.path.join(dir, "makepanda/makepanda.py"))==0) or
(os.path.exists(os.path.join(dir, "dtool", "src", "dtoolbase", "dtoolbase.h"))==0) or
(os.path.exists(os.path.join(dir, "panda", "src", "pandabase", "pandabase.h"))==0)):
exit("Current directory is not the root of the panda tree.")
########################################################################
##
## Thirdparty libraries paths
##
########################################################################
def GetThirdpartyBase():
"""Returns the location of the 'thirdparty' directory.
Normally, this is simply the thirdparty directory relative
to the root of the source root, but if a MAKEPANDA_THIRDPARTY
environment variable was set, it is used as the location of the
thirdparty directory. This is useful when wanting to use a single
system-wide thirdparty directory, for instance on a build machine."""
global THIRDPARTYBASE
if (THIRDPARTYBASE != None):
return THIRDPARTYBASE
THIRDPARTYBASE = "thirdparty"
if "MAKEPANDA_THIRDPARTY" in os.environ:
THIRDPARTYBASE = os.environ["MAKEPANDA_THIRDPARTY"]
return THIRDPARTYBASE
def GetThirdpartyDir():
"""Returns the thirdparty directory for the target platform,
ie. thirdparty/win-libs-vc10/. May return None in the future."""
global THIRDPARTYDIR
if THIRDPARTYDIR != None:
return THIRDPARTYDIR
base = GetThirdpartyBase()
target = GetTarget()
target_arch = GetTargetArch()
if (target == 'windows'):
vc = str(SDK["MSVC_VERSION"][0])
if target_arch == 'x64':
THIRDPARTYDIR = base + "/win-libs-vc" + vc + "-x64/"
else:
THIRDPARTYDIR = base + "/win-libs-vc" + vc + "/"
elif (target == 'darwin'):
# macOS thirdparty binaries are universal, where possible.
THIRDPARTYDIR = base + "/darwin-libs-a/"
elif (target == 'linux'):
if target_arch in ("aarch64", "arm64"):
THIRDPARTYDIR = base + "/linux-libs-arm64/"
elif target_arch.startswith("arm"):
THIRDPARTYDIR = base + "/linux-libs-arm/"
elif (target_arch in ("x86_64", "amd64")):
THIRDPARTYDIR = base + "/linux-libs-x64/"
else:
THIRDPARTYDIR = base + "/linux-libs-a/"
elif (target == 'freebsd'):
if target_arch in ("aarch64", "arm64"):
THIRDPARTYDIR = base + "/freebsd-libs-arm64/"
elif target_arch.startswith("arm"):
THIRDPARTYDIR = base + "/freebsd-libs-arm/"
elif (target_arch in ("x86_64", "amd64")):
THIRDPARTYDIR = base + "/freebsd-libs-x64/"
else:
THIRDPARTYDIR = base + "/freebsd-libs-a/"
elif (target == 'android'):
THIRDPARTYDIR = GetThirdpartyBase()+"/android-libs-%s/" % (GetTargetArch())
else:
Warn("Unsupported platform:", target)
return
if (GetVerbose()):
print("Using thirdparty directory: %s" % THIRDPARTYDIR)
return THIRDPARTYDIR
def GetThirdpartyLibDir(pkg):
pkg_dir = os.path.join(GetThirdpartyDir(), pkg.lower())
lib_dir = os.path.join(pkg_dir, "lib")
if GetTarget() != 'darwin':
return lib_dir
osxtarget = SDK["OSXTARGET"]
if osxtarget >= (10, 9):
return lib_dir
elif osxtarget >= (10, 8) and os.path.isdir(lib_dir + "-10.8"):
return lib_dir + "-10.8"
elif osxtarget >= (10, 7) and os.path.isdir(lib_dir + "-10.7"):
return lib_dir + "-10.7"
elif os.path.isdir(lib_dir + "-10.6"):
return lib_dir + "-10.6"
else:
return lib_dir
def GetThirdpartyIncDir(pkg):
pkg_dir = os.path.join(GetThirdpartyDir(), pkg.lower())
inc_dir = os.path.join(pkg_dir, "include")
if GetTarget() != 'darwin':
return inc_dir
osxtarget = SDK["OSXTARGET"]
lib_dir = os.path.join(pkg_dir, "lib")
if osxtarget >= (10, 9):
return inc_dir
elif osxtarget >= (10, 8) and os.path.isdir(lib_dir + "-10.8"):
suffix = "-10.8"
elif osxtarget >= (10, 7) and os.path.isdir(lib_dir + "-10.7"):
suffix = "-10.7"
elif os.path.isdir(lib_dir + "-10.6"):
suffix = "-10.6"
else:
suffix = ""
# Make sure we pick the include dir matching the lib dir we picked, or fall
# back to a generic include dir.
if os.path.isdir(inc_dir + suffix):
return inc_dir + suffix
else:
return inc_dir
########################################################################
##
## Gets or sets the output directory, by default "built".
## Gets or sets the optimize level.
## Gets or sets the verbose flag.
##
########################################################################
def GetOutputDir():
return OUTPUTDIR
def IsCustomOutputDir():
return CUSTOM_OUTPUTDIR
def SetOutputDir(outputdir):
global OUTPUTDIR, CUSTOM_OUTPUTDIR
OUTPUTDIR = outputdir
CUSTOM_OUTPUTDIR = True
def GetOptimize():
return int(OPTIMIZE)
def SetOptimize(optimize):
global OPTIMIZE
OPTIMIZE = optimize
def GetVerbose():
return VERBOSE
def SetVerbose(verbose):
global VERBOSE
VERBOSE = verbose
def SetDebugDependencies(dd = True):
global DEBUG_DEPENDENCIES
DEBUG_DEPENDENCIES = dd
def GetLinkAllStatic():
return LINK_ALL_STATIC
def SetLinkAllStatic(val = True):
global LINK_ALL_STATIC
LINK_ALL_STATIC = val
def UnsetLinkAllStatic():
global LINK_ALL_STATIC
LINK_ALL_STATIC = False
########################################################################
##
## Package Selection
##
## This facility enables makepanda to keep a list of packages selected
## by the user for inclusion or omission.
##
########################################################################
PKG_LIST_ALL = []
PKG_LIST_OMIT = {}
PKG_LIST_CUSTOM = set()
def PkgListSet(pkgs):
global PKG_LIST_ALL
global PKG_LIST_OMIT
PKG_LIST_ALL=pkgs
PKG_LIST_OMIT={}
PkgEnableAll()
def PkgListGet():
return PKG_LIST_ALL
def PkgEnableAll():
for x in PKG_LIST_ALL:
PKG_LIST_OMIT[x] = 0
def PkgDisableAll():
for x in PKG_LIST_ALL:
PKG_LIST_OMIT[x] = 1
def PkgEnable(pkg):
PKG_LIST_OMIT[pkg] = 0
def PkgDisable(pkg):
PKG_LIST_OMIT[pkg] = 1
def PkgSetCustomLocation(pkg):
PKG_LIST_CUSTOM.add(pkg)
def PkgHasCustomLocation(pkg):
return pkg in PKG_LIST_CUSTOM
def PkgSkip(pkg):
return PKG_LIST_OMIT[pkg]
def PkgSelected(pkglist, pkg):
if (pkglist.count(pkg)==0): return 0
if (PKG_LIST_OMIT[pkg]): return 0
return 1
########################################################################
##
## DTOOL/PRC Option value override
##
## This facility enables makepanda to keep a list of parameters
## overriden by the command line.
##
########################################################################
OVERRIDES_LIST={}
def AddOverride(spec):
if (spec.find("=")==-1):return
pair = spec.split("=",1)
OVERRIDES_LIST[pair[0]] = pair[1]
def OverrideValue(parameter, value):
if parameter in OVERRIDES_LIST:
print("Overriding value of key \"" + parameter + "\" with value \"" + OVERRIDES_LIST[parameter] + "\"")
return OVERRIDES_LIST[parameter]
else:
return value
########################################################################
##
## These functions are for libraries which use pkg-config.
##
########################################################################
def PkgConfigHavePkg(pkgname, tool = "pkg-config"):
"""Returns a bool whether the pkg-config package is installed."""
if (sys.platform == "win32" or CrossCompiling() or not LocateBinary(tool)):
return False
if (tool == "pkg-config"):
handle = os.popen(LocateBinary("pkg-config") + " --silence-errors --modversion " + pkgname)
else:
return bool(LocateBinary(tool) != None)
result = handle.read().strip()
returnval = handle.close()
if returnval != None and returnval != 0:
return False
return bool(len(result) > 0)
def PkgConfigGetLibs(pkgname, tool = "pkg-config"):
"""Returns a list of libs for the package, prefixed by -l."""
if (sys.platform == "win32" or CrossCompiling() or not LocateBinary(tool)):
return []
if (tool == "pkg-config"):
handle = os.popen(LocateBinary("pkg-config") + " --silence-errors --libs-only-l " + pkgname)
elif (tool == "fltk-config"):
handle = os.popen(LocateBinary("fltk-config") + " --ldstaticflags")
else:
handle = os.popen(LocateBinary(tool) + " --libs")
result = handle.read().strip()
handle.close()
libs = []
# Walk through the result arguments carefully. Look for -lname as
# well as -framework name.
r = result.split(' ')
ri = 0
while ri < len(r):
l = r[ri]
if l.startswith("-l") or l.startswith("/"):
libs.append(l)
elif l == '-framework':
libs.append(l)
ri += 1
libs.append(r[ri])
ri += 1
return libs
def PkgConfigGetIncDirs(pkgname, tool = "pkg-config"):
"""Returns a list of includes for the package, NOT prefixed by -I."""
if (sys.platform == "win32" or CrossCompiling() or not LocateBinary(tool)):
return []
if (tool == "pkg-config"):
handle = os.popen(LocateBinary("pkg-config") + " --silence-errors --cflags-only-I " + pkgname)
else:
handle = os.popen(LocateBinary(tool) + " --cflags")
result = handle.read().strip()
handle.close()
if len(result) == 0: return []
dirs = []
for opt in result.split(" "):
if (opt.startswith("-I")):
inc_dir = opt.replace("-I", "").replace("\"", "").strip()
# Hack for ODE, otherwise -S/usr/include gets added to interrogate
if inc_dir != '/usr/include' and inc_dir != '/usr/include/':
dirs.append(inc_dir)
return dirs
def PkgConfigGetLibDirs(pkgname, tool = "pkg-config"):
"""Returns a list of library paths for the package, NOT prefixed by -L."""
if (sys.platform == "win32" or CrossCompiling() or not LocateBinary(tool)):
return []
if (tool == "pkg-config"):
handle = os.popen(LocateBinary("pkg-config") + " --silence-errors --libs-only-L " + pkgname)
elif (tool == "wx-config" or tool == "ode-config"):
return []
else:
handle = os.popen(LocateBinary(tool) + " --ldflags")
result = handle.read().strip()
handle.close()
if len(result) == 0: return []
libs = []
for l in result.split(" "):
if (l.startswith("-L")):
libs.append(l.replace("-L", "").replace("\"", "").strip())
return libs
def PkgConfigGetDefSymbols(pkgname, tool = "pkg-config"):
"""Returns a dictionary of preprocessor definitions."""
if (sys.platform == "win32" or CrossCompiling() or not LocateBinary(tool)):
return []
if (tool == "pkg-config"):
handle = os.popen(LocateBinary("pkg-config") + " --silence-errors --cflags " + pkgname)
else:
handle = os.popen(LocateBinary(tool) + " --cflags")
result = handle.read().strip()
handle.close()
if len(result) == 0: return {}
defs = {}
for l in result.split(" "):
if (l.startswith("-D")):
d = l.replace("-D", "").replace("\"", "").strip().split("=")
if d[0] in ('NDEBUG', '_DEBUG'):
# Setting one of these flags by accident could cause serious harm.
if GetVerbose():
print("Ignoring %s flag provided by %s" % (l, tool))
elif len(d) == 1:
defs[d[0]] = ""
else:
defs[d[0]] = d[1]
return defs
def PkgConfigEnable(opt, pkgname, tool = "pkg-config"):
"""Adds the libraries and includes to IncDirectory, LibName and LibDirectory."""
for i in PkgConfigGetIncDirs(pkgname, tool):
IncDirectory(opt, i)
for i in PkgConfigGetLibDirs(pkgname, tool):
LibDirectory(opt, i)
for i in PkgConfigGetLibs(pkgname, tool):
LibName(opt, i)
for i, j in PkgConfigGetDefSymbols(pkgname, tool).items():
DefSymbol(opt, i, j)
def LocateLibrary(lib, lpath=[], prefer_static=False):
"""Searches for the library in the search path, returning its path if found,
or None if it was not found."""
target = GetTarget()
if prefer_static and target != 'windows':
for dir in lpath:
if os.path.isfile(os.path.join(dir, 'lib%s.a' % lib)):
return os.path.join(dir, 'lib%s.a' % lib)
for dir in lpath:
if target == 'darwin' and os.path.isfile(os.path.join(dir, 'lib%s.dylib' % lib)):
return os.path.join(dir, 'lib%s.dylib' % lib)
elif target != 'darwin' and os.path.isfile(os.path.join(dir, 'lib%s.so' % lib)):
return os.path.join(dir, 'lib%s.so' % lib)
elif os.path.isfile(os.path.join(dir, 'lib%s.a' % lib)):
return os.path.join(dir, 'lib%s.a' % lib)
return None
def SystemLibraryExists(lib):
result = LocateLibrary(lib, SYS_LIB_DIRS)
if result is not None:
return True
if GetHost() == "android" and GetTarget() == "android":
return ('lib%s.so' % lib) in ANDROID_SYS_LIBS
return False
def ChooseLib(libs, thirdparty=None):
""" Chooses a library from the parameters, in order of preference. Returns the first if none of them were found. """
lpath = []
if thirdparty is not None:
lpath.append(GetThirdpartyLibDir(thirdparty))
lpath += SYS_LIB_DIRS
for l in libs:
libname = l
if l.startswith("lib"):
libname = l[3:]
if LocateLibrary(libname, lpath):
return libname
if len(libs) > 0:
if VERBOSE:
print(ColorText("cyan", "Couldn't find any of the libraries " + ", ".join(libs)))
return libs[0]
def SmartPkgEnable(pkg, pkgconfig = None, libs = None, incs = None, defs = None, framework = None, target_pkg = None, tool = "pkg-config", thirdparty_dir = None):
global PKG_LIST_ALL
if (pkg in PkgListGet() and PkgSkip(pkg)):
return
if (target_pkg == "" or target_pkg == None):
target_pkg = pkg
if (pkgconfig == ""):
pkgconfig = None
if (framework == ""):
framework = None
if (libs == None or libs == ""):
libs = ()
elif (isinstance(libs, str)):
libs = (libs, )
if (incs == None or incs == ""):
incs = ()
elif (isinstance(incs, str)):
incs = (incs, )
if (defs == None or defs == "" or len(defs) == 0):
defs = {}
elif (isinstance(incs, str)):
defs = {defs : ""}
elif (isinstance(incs, list) or isinstance(incs, tuple) or isinstance(incs, set)):
olddefs = defs
defs = {}
for d in olddefs:
defs[d] = ""
custom_loc = PkgHasCustomLocation(pkg)
# Determine the location of the thirdparty directory.
if not thirdparty_dir:
thirdparty_dir = pkg.lower()
pkg_dir = os.path.join(GetThirdpartyDir(), thirdparty_dir)
# First check if the library can be found in the thirdparty directory.
if not custom_loc and os.path.isdir(pkg_dir):
if framework and os.path.isdir(os.path.join(pkg_dir, framework + ".framework")):
FrameworkDirectory(target_pkg, pkg_dir)
LibName(target_pkg, "-framework " + framework)
return
inc_dir = GetThirdpartyIncDir(thirdparty_dir)
if os.path.isdir(inc_dir):
IncDirectory(target_pkg, inc_dir)
# Handle cases like freetype2 where the include dir is a subdir under "include"
for i in incs:
if os.path.isdir(os.path.join(inc_dir, i)):
IncDirectory(target_pkg, os.path.join(inc_dir, i))
lib_dir = GetThirdpartyLibDir(thirdparty_dir)
lpath = [lib_dir]
if not PkgSkip("PYTHON"):
py_lib_dir = os.path.join(lib_dir, SDK["PYTHONVERSION"])
if os.path.isdir(py_lib_dir):
lpath.append(py_lib_dir)
# TODO: check for a .pc file in the lib/pkgconfig/ dir
if (tool != None and os.path.isfile(os.path.join(pkg_dir, "bin", tool))):
tool = os.path.join(pkg_dir, "bin", tool)
for i in PkgConfigGetLibs(None, tool):
if i.startswith('-l'):
# To make sure we don't pick up the system copy, write out
# the full path instead.
libname = i[2:]
location = LocateLibrary(libname, lpath, prefer_static=True)
if location is not None:
LibName(target_pkg, location)
else:
print(GetColor("cyan") + "Couldn't find library lib" + libname + " in thirdparty directory " + pkg.lower() + GetColor())
LibName(target_pkg, i)
else:
LibName(target_pkg, i)
for i, j in PkgConfigGetDefSymbols(None, tool).items():
DefSymbol(target_pkg, i, j)
return
# Now search for the libraries in the package's lib directories.
for l in libs:
libname = l
if l.startswith("lib"):
libname = l[3:]
location = LocateLibrary(libname, lpath, prefer_static=True)
if location is not None:
# If it's a .so or .dylib we may have changed it and copied it to the built/lib dir.
if location.endswith('.so') or location.endswith('.dylib'):
location = os.path.join(GetOutputDir(), "lib", os.path.basename(location))
LibName(target_pkg, location)
else:
# This is for backward compatibility - in the thirdparty dir,
# we kept some libs with "panda" prefix, like libpandatiff.
location = LocateLibrary("panda" + libname, lpath, prefer_static=True)
if location is not None:
if location.endswith('.so') or location.endswith('.dylib'):
location = os.path.join(GetOutputDir(), "lib", os.path.basename(location))
LibName(target_pkg, location)
else:
print(GetColor("cyan") + "Couldn't find library lib" + libname + " in thirdparty directory " + thirdparty_dir + GetColor())
for d, v in defs.values():
DefSymbol(target_pkg, d, v)
return
elif not custom_loc and GetHost() == "darwin" and framework != None:
prefix = SDK["MACOSX"]
if (os.path.isdir(prefix + "/Library/Frameworks/%s.framework" % framework) or
os.path.isdir(prefix + "/System/Library/Frameworks/%s.framework" % framework) or
os.path.isdir(prefix + "/Developer/Library/Frameworks/%s.framework" % framework) or
os.path.isdir(prefix + "/Users/%s/System/Library/Frameworks/%s.framework" % (getpass.getuser(), framework))):
LibName(target_pkg, "-framework " + framework)
for d, v in defs.values():
DefSymbol(target_pkg, d, v)
return
elif VERBOSE:
print(ColorText("cyan", "Couldn't find the framework %s" % (framework)))
elif not custom_loc and LocateBinary(tool) != None and (tool != "pkg-config" or pkgconfig != None):
if (isinstance(pkgconfig, str) or tool != "pkg-config"):
if (PkgConfigHavePkg(pkgconfig, tool)):
return PkgConfigEnable(target_pkg, pkgconfig, tool)
else:
have_all_pkgs = True
for pc in pkgconfig:
if (PkgConfigHavePkg(pc, tool)):
PkgConfigEnable(target_pkg, pc, tool)
else:
have_all_pkgs = False
if (have_all_pkgs):
return
if not custom_loc and pkgconfig is not None and not libs:
# pkg-config is all we can do, abort if it wasn't found.
if pkg in PkgListGet():
Warn("Could not locate pkg-config package %s, excluding from build" % (pkgconfig))
PkgDisable(pkg)
else:
Error("Could not locate pkg-config package %s, aborting build" % (pkgconfig))
else:
# Okay, our pkg-config attempts failed. Let's try locating the libs by ourselves.
have_pkg = True
for l in libs:
libname = l
if l.startswith("lib"):
libname = l[3:]
if custom_loc:
# Try searching in the package's LibDirectories.
lpath = [dir for ppkg, dir in LIBDIRECTORIES if pkg == ppkg]
location = LocateLibrary(libname, lpath)
if location is not None:
LibName(target_pkg, location)
else:
have_pkg = False
print(GetColor("cyan") + "Couldn't find library lib" + libname + GetColor())
elif SystemLibraryExists(libname):
# It exists in a system library directory.
LibName(target_pkg, "-l" + libname)
else:
# Try searching in the package's LibDirectories.
lpath = [dir for ppkg, dir in LIBDIRECTORIES if pkg == ppkg or ppkg == "ALWAYS"]
location = LocateLibrary(libname, lpath)
if location is not None:
LibName(target_pkg, "-l" + libname)
else:
have_pkg = False
if VERBOSE or custom_loc:
print(GetColor("cyan") + "Couldn't find library lib" + libname + GetColor())
# Determine which include directories to look in.
incdirs = []
if not custom_loc:
incdirs += list(SYS_INC_DIRS)
for ppkg, pdir in INCDIRECTORIES[:]:
if pkg == ppkg or (ppkg == "ALWAYS" and not custom_loc):
incdirs.append(pdir)
if custom_loc and pkg != target_pkg:
IncDirectory(target_pkg, pdir)
# The incs list contains both subdirectories to explicitly add to
# the include path and header files to check the existence of.
for i in incs:
incdir = None
for dir in incdirs:
if len(glob.glob(os.path.join(dir, i))) > 0:
incdir = sorted(glob.glob(os.path.join(dir, i)))[-1]
# Note: It's possible to specify a file instead of a dir, for the sake of checking if it exists.
if incdir is None and (i.endswith('/Dense') or i.endswith(".h")):
have_pkg = False
if VERBOSE or custom_loc:
print(GetColor("cyan") + "Couldn't find header file " + i + GetColor())
if incdir is not None and os.path.isdir(incdir):
IncDirectory(target_pkg, incdir)
if not have_pkg:
if custom_loc:
Error("Could not locate thirdparty package %s in specified directory, aborting build" % (pkg.lower()))
elif pkg in PkgListGet():
Warn("Could not locate thirdparty package %s, excluding from build" % (pkg.lower()))
PkgDisable(pkg)
else:
Error("Could not locate thirdparty package %s, aborting build" % (pkg.lower()))
########################################################################
##
## SDK Location
##
## This section is concerned with locating the install directories
## for various third-party packages. The results are stored in the
## SDK table.
##
## Microsoft keeps changing the &*#$*& registry key for the DirectX SDK.
## The only way to reliably find it is to search through the installer's
## uninstall-directories, look in each one, and see if it contains the
## relevant files.
##
########################################################################
SDK = {}
def GetSdkDir(sdkname, sdkkey = None):
# Returns the default SDK directory. If it exists,
# and sdkkey is not None, it is put in SDK[sdkkey].
# Note: return value may not be an existing path.
sdkbase = "sdks"
if "MAKEPANDA_SDKS" in os.environ:
sdkbase = os.environ["MAKEPANDA_SDKS"]
sdir = sdkbase[:]
target = GetTarget()
target_arch = GetTargetArch()
if target == 'windows':
if target_arch == 'x64':
sdir += "/win64"
else:
sdir += "/win32"
elif target == 'linux':
sdir += "/linux"
sdir += platform.architecture()[0][:2]
elif target == 'darwin':
sdir += "/macosx"
sdir += "/" + sdkname
# If it does not exist, try the old location.
if (not os.path.isdir(sdir)):
sdir = sdkbase + "/" + sdir
if (target == 'linux'):
sdir += "-linux"
sdir += platform.architecture()[0][:2]
elif (target == "darwin"):
sdir += "-osx"
if (sdkkey and os.path.isdir(sdir)):
SDK[sdkkey] = sdir
return sdir
def SdkLocateDirectX( strMode = 'default' ):
if (GetHost() != "windows"): return
if strMode == 'default':
GetSdkDir("directx9", "DX9")
if ("DX9" not in SDK):
strMode = 'latest'
if strMode == 'latest':
## We first try to locate the August SDK in 64 bits, then 32.
if ("DX9" not in SDK):
dir = GetRegistryKey("SOFTWARE\\Wow6432Node\\Microsoft\\DirectX\\Microsoft DirectX SDK (June 2010)", "InstallPath")
if (dir != 0):
print("Using DirectX SDK June 2010")
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
SDK["GENERIC_DXERR_LIBRARY"] = 1;
if ("DX9" not in SDK):
dir = GetRegistryKey("SOFTWARE\\Microsoft\\DirectX\\Microsoft DirectX SDK (June 2010)", "InstallPath")
if (dir != 0):
print("Using DirectX SDK June 2010")
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
SDK["GENERIC_DXERR_LIBRARY"] = 1;
if ("DX9" not in SDK):
dir = "C:/Program Files (x86)/Microsoft DirectX SDK (June 2010)"
if os.path.isdir(dir):
print("Using DirectX SDK June 2010")
SDK["DX9"] = dir
SDK["GENERIC_DXERR_LIBRARY"] = 1
if ("DX9" not in SDK):
dir = "C:/Program Files/Microsoft DirectX SDK (June 2010)"
if os.path.isdir(dir):
print("Using DirectX SDK June 2010")
SDK["DX9"] = dir
SDK["GENERIC_DXERR_LIBRARY"] = 1
if ("DX9" not in SDK):
dir = GetRegistryKey("SOFTWARE\\Wow6432Node\\Microsoft\\DirectX\\Microsoft DirectX SDK (August 2009)", "InstallPath")
if (dir != 0):
print("Using DirectX SDK Aug 2009")
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
SDK["GENERIC_DXERR_LIBRARY"] = 1;
if ("DX9" not in SDK):
dir = GetRegistryKey("SOFTWARE\\Microsoft\\DirectX\\Microsoft DirectX SDK (August 2009)", "InstallPath")
if (dir != 0):
print("Using DirectX SDK Aug 2009")
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
SDK["GENERIC_DXERR_LIBRARY"] = 1;
if ("DX9" not in SDK):
## Try to locate the key within the "new" March 2009 location in the registry (yecch):
dir = GetRegistryKey("SOFTWARE\\Microsoft\\DirectX\\Microsoft DirectX SDK (March 2009)", "InstallPath")
if (dir != 0):
print("Using DirectX SDK March 2009")
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
archStr = GetTargetArch()
if ("DX9" not in SDK):
uninstaller = "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Uninstall"
for subdir in ListRegistryKeys(uninstaller):
if (subdir[0]=="{"):
dir = GetRegistryKey(uninstaller+"\\"+subdir, "InstallLocation")
if (dir != 0):
if (("DX9" not in SDK) and
(os.path.isfile(dir+"\\Include\\d3d9.h")) and
(os.path.isfile(dir+"\\Include\\d3dx9.h")) and
(os.path.isfile(dir+"\\Include\\dxsdkver.h")) and
(os.path.isfile(dir+"\\Lib\\" + archStr + "\\d3d9.lib")) and
(os.path.isfile(dir+"\\Lib\\" + archStr + "\\d3dx9.lib"))):
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
if ("DX9" not in SDK):
return
elif strMode == 'jun2010':
if ("DX9" not in SDK):
dir = GetRegistryKey("SOFTWARE\\Wow6432Node\\Microsoft\\DirectX\\Microsoft DirectX SDK (June 2010)", "InstallPath")
if (dir != 0):
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
SDK["GENERIC_DXERR_LIBRARY"] = 1;
if ("DX9" not in SDK):
dir = GetRegistryKey("SOFTWARE\\Microsoft\\DirectX\\Microsoft DirectX SDK (June 2010)", "InstallPath")
if (dir != 0):
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
SDK["GENERIC_DXERR_LIBRARY"] = 1;
if ("DX9" not in SDK):
dir = "C:/Program Files (x86)/Microsoft DirectX SDK (June 2010)"
if os.path.isdir(dir):
SDK["DX9"] = dir
SDK["GENERIC_DXERR_LIBRARY"] = 1
if ("DX9" not in SDK):
dir = "C:/Program Files/Microsoft DirectX SDK (June 2010)"
if os.path.isdir(dir):
SDK["DX9"] = dir
SDK["GENERIC_DXERR_LIBRARY"] = 1
if ("DX9" not in SDK):
exit("Couldn't find DirectX June2010 SDK")
else:
print("Found DirectX SDK June 2010")
elif strMode == 'aug2009':
if ("DX9" not in SDK):
dir = GetRegistryKey("SOFTWARE\\Wow6432Node\\Microsoft\\DirectX\\Microsoft DirectX SDK (August 2009)", "InstallPath")
if (dir != 0):
print("Found DirectX SDK Aug 2009")
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
SDK["GENERIC_DXERR_LIBRARY"] = 1;
if ("DX9" not in SDK):
dir = GetRegistryKey("SOFTWARE\\Microsoft\\DirectX\\Microsoft DirectX SDK (August 2009)", "InstallPath")
if (dir != 0):
print("Found DirectX SDK Aug 2009")
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
SDK["GENERIC_DXERR_LIBRARY"] = 1;
if ("DX9" not in SDK):
exit("Couldn't find DirectX Aug 2009 SDK")
elif strMode == 'mar2009':
if ("DX9" not in SDK):
## Try to locate the key within the "new" March 2009 location in the registry (yecch):
dir = GetRegistryKey("SOFTWARE\\Microsoft\\DirectX\\Microsoft DirectX SDK (March 2009)", "InstallPath")
if (dir != 0):
print("Found DirectX SDK March 2009")
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
if ("DX9" not in SDK):
exit("Couldn't find DirectX March 2009 SDK")
elif strMode == 'aug2006':
archStr = GetTargetArch()
if ("DX9" not in SDK):
uninstaller = "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Uninstall"
for subdir in ListRegistryKeys(uninstaller):
if (subdir[0]=="{"):
dir = GetRegistryKey(uninstaller+"\\"+subdir, "InstallLocation")
if (dir != 0):
if (("DX9" not in SDK) and
(os.path.isfile(dir+"\\Include\\d3d9.h")) and
(os.path.isfile(dir+"\\Include\\d3dx9.h")) and
(os.path.isfile(dir+"\\Include\\dxsdkver.h")) and
(os.path.isfile(dir+"\\Lib\\" + archStr + "\\d3d9.lib")) and
(os.path.isfile(dir+"\\Lib\\" + archStr + "\\d3dx9.lib"))):
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
if ("DX9" not in SDK):
exit("Couldn't find a DirectX Aug 2006 SDK")
if ("DX9" in SDK):
SDK["DIRECTCAM"] = SDK["DX9"]
def SdkLocateMaya():
for (ver, key) in MAYAVERSIONINFO:
if (PkgSkip(ver)==0 and ver not in SDK):
GetSdkDir(ver.lower().replace("x",""), ver)
if (not ver in SDK):
if (GetHost() == "windows"):
for dev in ["Alias|Wavefront","Alias","Autodesk"]:
fullkey="SOFTWARE\\"+dev+"\\Maya\\"+key+"\\Setup\\InstallPath"
res = GetRegistryKey(fullkey, "MAYA_INSTALL_LOCATION", override64=False)
if (res != 0):
res = res.replace("\\", "/").rstrip("/")
SDK[ver] = res
elif (GetHost() == "darwin"):
ddir = "/Applications/Autodesk/maya"+key
if (os.path.isdir(ddir)): SDK[ver] = ddir
else:
if (GetTargetArch() in ("x86_64", "amd64")):
ddir1 = "/usr/autodesk/maya"+key+"-x64"
ddir2 = "/usr/aw/maya"+key+"-x64"
else:
ddir1 = "/usr/autodesk/maya"+key
ddir2 = "/usr/aw/maya"+key
if (os.path.isdir(ddir1)): SDK[ver] = ddir1
elif (os.path.isdir(ddir2)): SDK[ver] = ddir2
def SdkLocateMax():
if (GetHost() != "windows"): return
for version,key1,key2,subdir in MAXVERSIONINFO:
if (PkgSkip(version)==0):
if (version not in SDK):
GetSdkDir("maxsdk"+version.lower()[3:], version)
GetSdkDir("maxsdk"+version.lower()[3:], version+"CS")
if (not version in SDK):
top = GetRegistryKey(key1,key2)
if (top != 0):
SDK[version] = top + "maxsdk"
if (os.path.isdir(top + "\\" + subdir)!=0):
SDK[version+"CS"] = top + subdir
def SdkLocatePython(prefer_thirdparty_python=False):
if PkgSkip("PYTHON"):
# We're not compiling with Python support. We still need to set this
# in case we want to run any scripts that use Python, though.
SDK["PYTHONEXEC"] = os.path.realpath(sys.executable)
return
abiflags = getattr(sys, 'abiflags', '')
if GetTarget() == 'windows':
sdkdir = GetThirdpartyBase() + "/win-python"
if sys.version_info >= (3, 0):
# Python 3 build...
sdkdir += "%d.%d" % sys.version_info[:2]
if GetOptimize() <= 2:
sdkdir += "-dbg"
if GetTargetArch() == 'x64':
sdkdir += "-x64"
SDK["PYTHON"] = sdkdir
SDK["PYTHONEXEC"] = SDK["PYTHON"].replace('\\', '/') + "/python"
if (GetOptimize() <= 2):
SDK["PYTHONEXEC"] += "_d.exe"
else:
SDK["PYTHONEXEC"] += ".exe"
if (not os.path.isfile(SDK["PYTHONEXEC"])):
exit("Could not find %s!" % SDK["PYTHONEXEC"])
# Determine which version it is by checking which dll is in the directory.
if (GetOptimize() <= 2):
py_dlls = glob.glob(SDK["PYTHON"] + "/python[0-9][0-9]_d.dll") + \
glob.glob(SDK["PYTHON"] + "/python[0-9][0-9][0-9]_d.dll")
else:
py_dlls = glob.glob(SDK["PYTHON"] + "/python[0-9][0-9].dll") + \
glob.glob(SDK["PYTHON"] + "/python[0-9][0-9][0-9].dll")
if len(py_dlls) == 0:
exit("Could not find the Python dll in %s." % (SDK["PYTHON"]))
elif len(py_dlls) > 1:
exit("Found multiple Python dlls in %s." % (SDK["PYTHON"]))
py_dll = os.path.basename(py_dlls[0])
py_dllver = py_dll.strip(".DHLNOPTY_dhlnopty")
ver = py_dllver[0] + '.' + py_dllver[1:]
SDK["PYTHONVERSION"] = "python" + ver
os.environ["PYTHONHOME"] = SDK["PYTHON"]
running_ver = '%d.%d' % sys.version_info[:2]
if ver != running_ver:
Warn("running makepanda with Python %s, but building Panda3D with Python %s." % (running_ver, ver))
elif CrossCompiling() or (prefer_thirdparty_python and os.path.isdir(os.path.join(GetThirdpartyDir(), "python"))):
tp_python = os.path.join(GetThirdpartyDir(), "python")
if GetTarget() == 'darwin':
py_libs = glob.glob(tp_python + "/lib/libpython[0-9].[0-9].dylib") + \
glob.glob(tp_python + "/lib/libpython[0-9].[0-9][0-9].dylib")
else:
py_libs = glob.glob(tp_python + "/lib/libpython[0-9].[0-9].so") + \
glob.glob(tp_python + "/lib/libpython[0-9].[0-9][0-9].so")
if len(py_libs) == 0:
py_libs = glob.glob(tp_python + "/lib/libpython[0-9].[0-9].a") + \
glob.glob(tp_python + "/lib/libpython[0-9].[0-9][0-9].a")
if len(py_libs) == 0:
exit("Could not find the Python library in %s." % (tp_python))
elif len(py_libs) > 1:
exit("Found multiple Python libraries in %s." % (tp_python))
py_lib = os.path.basename(py_libs[0])
py_libver = py_lib.strip('.abdhilnopsty')
SDK["PYTHONVERSION"] = "python" + py_libver
SDK["PYTHONEXEC"] = tp_python + "/bin/" + SDK["PYTHONVERSION"]
SDK["PYTHON"] = tp_python + "/include/" + SDK["PYTHONVERSION"]
elif GetTarget() == 'darwin' and not PkgHasCustomLocation("PYTHON"):
# On macOS, search for the Python framework directory matching the
# version number of our current Python version.
sysroot = SDK.get("MACOSX", "")
version = sysconfig.get_python_version()
py_fwx = "{0}/System/Library/Frameworks/Python.framework/Versions/{1}".format(sysroot, version)
if not os.path.exists(py_fwx):
# Fall back to looking on the system.
py_fwx = "/Library/Frameworks/Python.framework/Versions/" + version
if not os.path.exists(py_fwx):
exit("Could not locate Python installation at %s" % (py_fwx))
SDK["PYTHON"] = py_fwx + "/Headers"
SDK["PYTHONVERSION"] = "python" + version + abiflags
SDK["PYTHONEXEC"] = py_fwx + "/bin/python" + version
# Avoid choosing the one in the thirdparty package dir.
PkgSetCustomLocation("PYTHON")
IncDirectory("PYTHON", py_fwx + "/include")
LibDirectory("PYTHON", py_fwx + "/lib")
#elif GetTarget() == 'windows':
# SDK["PYTHON"] = os.path.dirname(sysconfig.get_python_inc())
# SDK["PYTHONVERSION"] = "python" + sysconfig.get_python_version()
# SDK["PYTHONEXEC"] = sys.executable
else:
SDK["PYTHON"] = sysconfig.get_python_inc()
SDK["PYTHONVERSION"] = "python" + sysconfig.get_python_version() + abiflags
SDK["PYTHONEXEC"] = os.path.realpath(sys.executable)
if CrossCompiling():
# We need a version of Python we can run.
SDK["PYTHONEXEC"] = sys.executable
host_version = "python" + sysconfig.get_python_version() + abiflags
if SDK["PYTHONVERSION"] != host_version:
exit("Host Python version (%s) must be the same as target Python version (%s)!" % (host_version, SDK["PYTHONVERSION"]))
if GetVerbose():
print("Using Python %s build located at %s" % (SDK["PYTHONVERSION"][6:], SDK["PYTHON"]))
else:
print("Using Python %s" % (SDK["PYTHONVERSION"][6:]))
def SdkLocateVisualStudio(version=(10,0)):
if (GetHost() != "windows"): return
try:
msvcinfo = MSVCVERSIONINFO[version]
except:
exit("Couldn't get Visual Studio infomation with MSVC %s.%s version." % version)
vsversion = msvcinfo["vsversion"]
vsversion_str = "%s.%s" % vsversion
version_str = "%s.%s" % version
# try to use vswhere.exe
vswhere_path = LocateBinary("vswhere.exe")
if not vswhere_path:
if sys.platform == 'cygwin':
vswhere_path = "/cygdrive/c/Program Files/Microsoft Visual Studio/Installer/vswhere.exe"
else:
vswhere_path = "%s\\Microsoft Visual Studio\\Installer\\vswhere.exe" % GetProgramFiles()
if not os.path.isfile(vswhere_path):
vswhere_path = None
if not vswhere_path:
if sys.platform == 'cygwin':
vswhere_path = "/cygdrive/c/Program Files (x86)/Microsoft Visual Studio/Installer/vswhere.exe"
else:
vswhere_path = "%s\\Microsoft Visual Studio\\Installer\\vswhere.exe" % GetProgramFiles_x86()
if not os.path.isfile(vswhere_path):
vswhere_path = None
vsdir = 0
if vswhere_path:
min_vsversion = vsversion_str
max_vsversion = "%s.%s" % (vsversion[0]+1, 0)
vswhere_cmd = ["vswhere.exe", "-legacy", "-property", "installationPath",
"-version", "[{},{})".format(min_vsversion, max_vsversion)]
handle = subprocess.Popen(vswhere_cmd, executable=vswhere_path, stdout=subprocess.PIPE)
found_paths = handle.communicate()[0].splitlines()
if found_paths:
vsdir = found_paths[0].decode("utf-8") + "\\"
# try to use registry
if (vsdir == 0):
vsdir = GetRegistryKey("SOFTWARE\\Microsoft\\VisualStudio\\SxS\\VS7", vsversion_str)
vcdir = GetRegistryKey("SOFTWARE\\Microsoft\\VisualStudio\\SxS\\VC7", version_str)
if (vsdir != 0):
SDK["VISUALSTUDIO"] = vsdir
elif (vcdir != 0) and (vcdir[-4:] == "\\VC\\"):
vcdir = vcdir[:-3]
SDK["VISUALSTUDIO"] = vcdir
elif (os.path.isfile("C:\\Program Files\\Microsoft Visual Studio %s\\VC\\bin\\cl.exe" % (vsversion_str))):
SDK["VISUALSTUDIO"] = "C:\\Program Files\\Microsoft Visual Studio %s\\" % (vsversion_str)
elif (os.path.isfile("C:\\Program Files (x86)\\Microsoft Visual Studio %s\\VC\\bin\\cl.exe" % (vsversion_str))):
SDK["VISUALSTUDIO"] = "C:\\Program Files (x86)\\Microsoft Visual Studio %s\\" % (vsversion_str)
elif "VCINSTALLDIR" in os.environ:
vcdir = os.environ["VCINSTALLDIR"]
if (vcdir[-3:] == "\\VC"):
vcdir = vcdir[:-2]
elif (vcdir[-4:] == "\\VC\\"):
vcdir = vcdir[:-3]
SDK["VISUALSTUDIO"] = vcdir
else:
exit("Couldn't find %s. To use a different version, use the --msvc-version option." % msvcinfo["vsname"])
SDK["MSVC_VERSION"] = version
SDK["VISUALSTUDIO_VERSION"] = vsversion
if GetVerbose():
print("Using %s located at %s" % (msvcinfo["vsname"], SDK["VISUALSTUDIO"]))
else:
print("Using %s" % (msvcinfo["vsname"]))
print("Using MSVC %s" % version_str)
def SdkLocateWindows(version = '7.1'):
if GetTarget() != "windows" or GetHost() != "windows":
return
version = version.upper()
if version == '10':
version = '10.0'
if (version.startswith('10.') and version.count('.') == 1) or version == '11':
# Choose the latest version of the Windows 10 SDK.
platsdk = GetRegistryKey("SOFTWARE\\Microsoft\\Windows Kits\\Installed Roots", "KitsRoot10")
# Fallback in case we can't read the registry.
if not platsdk or not os.path.isdir(platsdk):
platsdk = "C:\\Program Files (x86)\\Windows Kits\\10\\"
if platsdk and os.path.isdir(platsdk):
min_version = (10, 0, 0)
if version == '11':
version = '10.0'
min_version = (10, 0, 22000)
incdirs = glob.glob(os.path.join(platsdk, 'Include', version + '.*.*'))
max_version = ()
for dir in incdirs:
verstring = os.path.basename(dir)
# Check that the important include directories exist.
if not os.path.isdir(os.path.join(dir, 'ucrt')):
continue
if not os.path.isdir(os.path.join(dir, 'shared')):
continue
if not os.path.isdir(os.path.join(dir, 'um')):
continue
if not os.path.isdir(os.path.join(platsdk, 'Lib', verstring, 'ucrt')):
continue
if not os.path.isdir(os.path.join(platsdk, 'Lib', verstring, 'um')):
continue
vertuple = tuple(map(int, verstring.split('.')))
if vertuple > max_version and vertuple > min_version:
version = verstring
max_version = vertuple
if not max_version:
# No suitable version found.
platsdk = None
elif version.startswith('10.'):
# We chose a specific version of the Windows 10 SDK. Verify it exists.
platsdk = GetRegistryKey("SOFTWARE\\Microsoft\\Windows Kits\\Installed Roots", "KitsRoot10")
# Fallback in case we can't read the registry.
if not platsdk or not os.path.isdir(platsdk):
platsdk = "C:\\Program Files (x86)\\Windows Kits\\10\\"
if version.count('.') == 2:
version += '.0'
if platsdk and not os.path.isdir(os.path.join(platsdk, 'Include', version)):
platsdk = None
elif version == '8.1':
platsdk = GetRegistryKey("SOFTWARE\\Microsoft\\Windows Kits\\Installed Roots", "KitsRoot81")
# Fallback in case we can't read the registry.
if not platsdk or not os.path.isdir(platsdk):
platsdk = "C:\\Program Files (x86)\\Windows Kits\\8.1\\"
elif version == '8.0':
platsdk = GetRegistryKey("SOFTWARE\\Microsoft\\Windows Kits\\Installed Roots", "KitsRoot")
else:
platsdk = GetRegistryKey("SOFTWARE\\Microsoft\\Microsoft SDKs\\Windows\\v" + version, "InstallationFolder")
if not platsdk or not os.path.isdir(platsdk):
# Most common location. Worth a try.
platsdk = GetProgramFiles() + "\\Microsoft SDKs\\Windows\\v" + version
if not os.path.isdir(platsdk):
if not version.endswith('A'):
# Try the stripped-down version that is bundled with Visual Studio.
return SdkLocateWindows(version + 'A')
platsdk = None
if not platsdk or not os.path.isdir(platsdk):
exit("Couldn't find Windows SDK version %s. To use a different version, use the --windows-sdk option." % (version))
if not platsdk.endswith("\\"):
platsdk += "\\"
SDK["MSPLATFORM"] = platsdk
SDK["MSPLATFORM_VERSION"] = version
if GetVerbose():
print("Using Windows SDK %s located at %s" % (version, platsdk))
else:
print("Using Windows SDK %s" % (version))
def SdkLocateMacOSX(osxtarget = None, archs = []):
if (GetHost() != "darwin"): return
if (osxtarget != None):
if osxtarget < (11, 0) and 'arm64' in archs:
# Building for arm64 requires the 11.0 SDK, with which we can still
# target 10.9.
assert osxtarget >= (10, 9)
sdkname = "MacOSX11.0"
else:
sdkname = "MacOSX%d.%d" % osxtarget
if (os.path.exists("/Library/Developer/CommandLineTools/SDKs/%s.sdk" % sdkname)):
SDK["MACOSX"] = "/Library/Developer/CommandLineTools/SDKs/%s.sdk" % sdkname
elif (os.path.exists("/Developer/SDKs/%su.sdk" % sdkname)):
SDK["MACOSX"] = "/Developer/SDKs/%su.sdk" % sdkname
elif (os.path.exists("/Developer/SDKs/%s.sdk" % sdkname)):
SDK["MACOSX"] = "/Developer/SDKs/%s.sdk" % sdkname
elif (os.path.exists("/Developer/SDKs/%s.0.sdk" % sdkname)):
SDK["MACOSX"] = "/Developer/SDKs/%s.0.sdk" % sdkname
elif (os.path.exists("/Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/%s.sdk" % sdkname)):
SDK["MACOSX"] = "/Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/%s.sdk" % sdkname
else:
handle = os.popen("xcode-select -print-path")
result = handle.read().strip().rstrip('/')
handle.close()
if (os.path.exists("%s/Platforms/MacOSX.platform/Developer/SDKs/%s.sdk" % (result, sdkname))):
SDK["MACOSX"] = "%s/Platforms/MacOSX.platform/Developer/SDKs/%s.sdk" % (result, sdkname)
elif sdkname == "MacOSX11.0" and os.path.exists("/Library/Developer/CommandLineTools/SDKs/MacOSX11.1.sdk"):
SDK["MACOSX"] = "/Library/Developer/CommandLineTools/SDKs/MacOSX11.1.sdk"
elif sdkname == "MacOSX11.0" and os.path.exists("/Library/Developer/CommandLineTools/SDKs/MacOSX11.3.sdk"):
SDK["MACOSX"] = "/Library/Developer/CommandLineTools/SDKs/MacOSX11.3.sdk"
else:
exit("Couldn't find any MacOSX SDK for macOS version %s!" % sdkname)
SDK["OSXTARGET"] = osxtarget
else:
SDK["MACOSX"] = ""
maj, min = platform.mac_ver()[0].split('.')[:2]
if int(maj) == 11:
SDK["OSXTARGET"] = int(maj), 0
else:
SDK["OSXTARGET"] = int(maj), int(min)
# Latest first
PHYSXVERSIONINFO = [
("PHYSX284", "v2.8.4"),
("PHYSX283", "v2.8.3"),
("PHYSX281", "v2.8.1"),
]
def SdkLocatePhysX():
# First check for a physx directory in sdks.
dir = GetSdkDir("physx")
if (dir and os.path.isdir(dir)):
SDK["PHYSX"] = dir
SDK["PHYSXLIBS"] = dir + "/lib"
return
if CrossCompiling():
return
# Try to find a PhysX installation on the system.
for (ver, key) in PHYSXVERSIONINFO:
if (GetHost() == "windows"):
folders = "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Installer\\Folders"
for folder in ListRegistryValues(folders):
if folder.endswith("NVIDIA PhysX SDK\\%s\\SDKs\\" % key) or \
folder.endswith("NVIDIA PhysX SDK\\%s_win\\SDKs\\" % key):
SDK["PHYSX"] = folder
if GetTargetArch() == 'x64':
SDK["PHYSXLIBS"] = folder + "/lib/win64"
AddToPathEnv("PATH", folder + "/../Bin/win64/")
else:
SDK["PHYSXLIBS"] = folder + "/lib/win32"
AddToPathEnv("PATH", folder + "/../Bin/win32/")
return
elif (GetHost() == "linux"):
incpath = "/usr/include/PhysX/%s/SDKs" % key
libpath = "/usr/lib/PhysX/%s" % key
if (os.path.isdir(incpath) and os.path.isdir(libpath)):
SDK["PHYSX"] = incpath
SDK["PHYSXLIBS"] = libpath
return
def SdkLocateSpeedTree():
# Look for all of the SpeedTree SDK directories within the
# sdks/win32/speedtree dir, and pick the highest-numbered one.
dir = GetSdkDir("speedtree")
if not os.path.exists(dir):
return
speedtrees = []
for dirname in os.listdir(dir):
if dirname.startswith('SpeedTree SDK v'):
version = dirname[15:].split()[0]
version = tuple(map(int, version.split('.')))
speedtrees.append((version, dirname))
if not speedtrees:
# No installed SpeedTree SDK.
return
speedtrees.sort()
version, dirname = speedtrees[-1]
SDK["SPEEDTREE"] = os.path.join(dir, dirname)
SDK["SPEEDTREEAPI"] = "OpenGL"
SDK["SPEEDTREEVERSION"] = '%s.%s' % (version[0], version[1])
def SdkLocateAndroid():
"""This actually locates the Android NDK, not the Android SDK.
NDK_ROOT must be set to its root directory."""
global TOOLCHAIN_PREFIX
if GetTarget() != 'android':
return
# Allow ANDROID_API/ANDROID_ABI to be used in makepanda.py.
if ANDROID_API is None:
SetTarget('android')
api = ANDROID_API
SDK["ANDROID_API"] = api
abi = ANDROID_ABI
SDK["ANDROID_ABI"] = abi
SDK["ANDROID_TRIPLE"] = ANDROID_TRIPLE
if GetHost() == 'android':
# Assume we're compiling from termux.
prefix = os.environ.get("PREFIX", "/data/data/com.termux/files/usr")
SDK["ANDROID_JAR"] = prefix + "/share/aapt/android.jar"
return
# Find the location of the Android SDK.
sdk_root = os.environ.get('ANDROID_HOME')
if not sdk_root or not os.path.isdir(sdk_root):
sdk_root = os.environ.get('ANDROID_SDK_ROOT')
# Try the default installation location on Windows.
if not sdk_root and GetHost() == 'windows':
sdk_root = os.path.expanduser(os.path.join('~', 'AppData', 'Local', 'Android', 'Sdk'))
if not sdk_root:
exit('ANDROID_SDK_ROOT must be set when compiling for Android!')
elif not os.path.isdir(sdk_root):
exit('Cannot find %s. Please install Android SDK and set ANDROID_SDK_ROOT or ANDROID_HOME.' % (sdk_root))
# Determine the NDK installation directory.
if os.environ.get('NDK_ROOT') or os.environ.get('ANDROID_NDK_ROOT'):
# We have an explicit setting from an environment variable.
ndk_root = os.environ.get('ANDROID_NDK_ROOT')
if not ndk_root or not os.path.isdir(ndk_root):
ndk_root = os.environ.get('NDK_ROOT')
if not ndk_root or not os.path.isdir(ndk_root):
exit("Cannot find %s. Please install Android NDK and set ANDROID_NDK_ROOT." % (ndk_root))
else:
# Often, it's installed in the ndk-bundle subdirectory of the SDK.
ndk_root = os.path.join(sdk_root, 'ndk-bundle')
if not os.path.isdir(os.path.join(ndk_root, 'toolchains')):
exit('Cannot find the Android NDK. Install it via the SDK manager or set the ANDROID_NDK_ROOT variable if you have installed it in a different location.')
SDK["ANDROID_NDK"] = ndk_root
# Determine the toolchain location.
prebuilt_dir = os.path.join(ndk_root, 'toolchains', 'llvm', 'prebuilt')
if not os.path.isdir(prebuilt_dir):
exit('Not found: %s (is the Android NDK installed?)' % (prebuilt_dir))
host_tag = GetHost() + '-x86'
if host_64:
host_tag += '_64'
elif host_tag == 'windows-x86':
host_tag = 'windows'
prebuilt_dir = os.path.join(prebuilt_dir, host_tag)
if host_tag == 'windows-x86_64' and not os.path.isdir(prebuilt_dir):
# Try the 32-bits toolchain instead.
host_tag = 'windows'
prebuilt_dir = os.path.join(prebuilt_dir, host_tag)
SDK["ANDROID_TOOLCHAIN"] = prebuilt_dir
# And locate the GCC toolchain, which is needed for some tools (eg. as/ld)
arch = GetTargetArch()
for opt in (TOOLCHAIN_PREFIX + '4.9', arch + '-4.9', TOOLCHAIN_PREFIX + '4.8', arch + '-4.8'):
if os.path.isdir(os.path.join(ndk_root, 'toolchains', opt)):
SDK["ANDROID_GCC_TOOLCHAIN"] = os.path.join(ndk_root, 'toolchains', opt, 'prebuilt', host_tag)
break
# The prebuilt binaries have no toolchain prefix.
TOOLCHAIN_PREFIX = ''
# Determine the sysroot directory.
if arch == 'armv7a':
arch_dir = 'arch-arm'
elif arch == 'aarch64':
arch_dir = 'arch-arm64'
else:
arch_dir = 'arch-' + arch
SDK["SYSROOT"] = os.path.join(ndk_root, 'platforms', 'android-%s' % (api), arch_dir).replace('\\', '/')
#IncDirectory("ALWAYS", os.path.join(SDK["SYSROOT"], 'usr', 'include'))
# Starting with NDK r16, libc++ is the recommended STL to use.
stdlibc = os.path.join(ndk_root, 'sources', 'cxx-stl', 'llvm-libc++')
IncDirectory("ALWAYS", os.path.join(stdlibc, 'include').replace('\\', '/'))
LibDirectory("ALWAYS", os.path.join(stdlibc, 'libs', abi).replace('\\', '/'))
stl_lib = os.path.join(stdlibc, 'libs', abi, 'libc++_shared.so')
LibName("ALWAYS", stl_lib.replace('\\', '/'))
CopyFile(os.path.join(GetOutputDir(), 'lib', 'libc++_shared.so'), stl_lib)
# The Android support library polyfills C++ features not available in the
# STL that ships with Android.
support = os.path.join(ndk_root, 'sources', 'android', 'support', 'include')
IncDirectory("ALWAYS", support.replace('\\', '/'))
if api < 21:
LibName("ALWAYS", "-landroid_support")
# Determine the location of android.jar.
SDK["ANDROID_JAR"] = os.path.join(sdk_root, 'platforms', 'android-%s' % (api), 'android.jar')
if not os.path.isfile(SDK["ANDROID_JAR"]):
exit("Cannot find %s. Install platform API level %s via the SDK manager or change the targeted API level with --target=android-#" % (SDK["ANDROID_JAR"], api))
# Which build tools versions do we have? Pick the latest.
versions = []
for version in os.listdir(os.path.join(sdk_root, "build-tools")):
match = re.match('([0-9]+)\\.([0-9]+)\\.([0-9]+)', version)
if match:
version_tuple = int(match.group(1)), int(match.group(2)), int(match.group(3))
versions.append(version_tuple)
versions.sort()
if versions:
version = versions[-1]
SDK["ANDROID_BUILD_TOOLS"] = os.path.join(sdk_root, "build-tools", "{0}.{1}.{2}".format(*version))
# And find the location of the Java compiler.
if GetHost() == "windows":
jdk_home = os.environ.get("JDK_HOME") or os.environ.get("JAVA_HOME")
if not jdk_home:
# Try to use the Java shipped with Android Studio.
studio_path = GetRegistryKey("SOFTWARE\\Android Studio", "Path", override64=False)
if studio_path and os.path.isdir(studio_path):
jdk_home = os.path.join(studio_path, "jre")
if not jdk_home or not os.path.isdir(jdk_home):
exit("Cannot find JDK. Please set JDK_HOME or JAVA_HOME.")
javac = os.path.join(jdk_home, "bin", "javac.exe")
if not os.path.isfile(javac):
exit("Cannot find %s. Install the JDK and set JDK_HOME or JAVA_HOME." % (javac))
SDK["JDK"] = jdk_home
########################################################################
##
## SDK Auto-Disables
##
## Disable packages whose SDKs could not be found.
##
########################################################################
def SdkAutoDisableDirectX():
for ver in DXVERSIONS + ["DIRECTCAM"]:
if (PkgSkip(ver)==0):
if (ver not in SDK):
if (GetHost() == "windows"):
WARNINGS.append("I cannot locate SDK for "+ver)
WARNINGS.append("I have automatically added this command-line option: --no-"+ver.lower())
PkgDisable(ver)
else:
WARNINGS.append("Using "+ver+" sdk: "+SDK[ver])
def SdkAutoDisableMaya():
for (ver,key) in MAYAVERSIONINFO:
if (ver not in SDK) and (PkgSkip(ver)==0):
if (GetHost() == "windows"):
WARNINGS.append("The registry does not appear to contain a pointer to the "+ver+" SDK.")
else:
WARNINGS.append("I cannot locate SDK for "+ver)
WARNINGS.append("I have automatically added this command-line option: --no-"+ver.lower())
PkgDisable(ver)
def SdkAutoDisableMax():
for version,key1,key2,subdir in MAXVERSIONINFO:
if (PkgSkip(version)==0) and ((version not in SDK) or (version+"CS" not in SDK)):
if (GetHost() == "windows"):
if (version in SDK):
WARNINGS.append("Your copy of "+version+" does not include the character studio SDK")
else:
WARNINGS.append("The registry does not appear to contain a pointer to "+version)
WARNINGS.append("I have automatically added this command-line option: --no-"+version.lower())
PkgDisable(version)
def SdkAutoDisablePhysX():
if ("PHYSX" not in SDK) and (PkgSkip("PHYSX")==0):
PkgDisable("PHYSX")
WARNINGS.append("I cannot locate SDK for PhysX")
WARNINGS.append("I have automatically added this command-line option: --no-physx")
def SdkAutoDisableSpeedTree():
if ("SPEEDTREE" not in SDK) and (PkgSkip("SPEEDTREE")==0):
PkgDisable("SPEEDTREE")
WARNINGS.append("I cannot locate SDK for SpeedTree")
WARNINGS.append("I have automatically added this command-line option: --no-speedtree")
########################################################################
##
## Visual Studio comes with a script called VSVARS32.BAT, which
## you need to run before using visual studio command-line tools.
## The following python subroutine serves the same purpose.
##
########################################################################
def AddToPathEnv(path,add):
if path in os.environ:
if sys.platform == 'cygwin' and path != "PATH":
# INCLUDE, LIB, etc. must remain in Windows-style in cygwin.
os.environ[path] = add + ';' + os.environ[path]
else:
os.environ[path] = add + os.pathsep + os.environ[path]
else:
os.environ[path] = add
def SetupVisualStudioEnviron():
if ("VISUALSTUDIO" not in SDK):
exit("Could not find Visual Studio install directory")
if ("MSPLATFORM" not in SDK):
exit("Could not find the Microsoft Platform SDK")
if (SDK["VISUALSTUDIO_VERSION"] >= (15,0)):
try:
vsver_file = open(os.path.join(SDK["VISUALSTUDIO"],
"VC\\Auxiliary\\Build\\Microsoft.VCToolsVersion.default.txt"), "r")
SDK["VCTOOLSVERSION"] = vsver_file.readline().strip()
vcdir_suffix = "VC\\Tools\\MSVC\\%s\\" % SDK["VCTOOLSVERSION"]
except:
exit("Couldn't find tool version of %s." % MSVCVERSIONINFO[SDK["MSVC_VERSION"]]["vsname"])
else:
vcdir_suffix = "VC\\"
os.environ["VCINSTALLDIR"] = SDK["VISUALSTUDIO"] + vcdir_suffix
os.environ["WindowsSdkDir"] = SDK["MSPLATFORM"]
winsdk_ver = SDK["MSPLATFORM_VERSION"]
# Determine the directories to look in based on the architecture.
arch = GetTargetArch()
bindir = ""
libdir = ""
if ("VCTOOLSVERSION" in SDK):
bindir = "Host" + GetHostArch().upper() + "\\" + arch
libdir = arch
else:
if (arch == 'x64'):
bindir = 'amd64'
libdir = 'amd64'
elif (arch != 'x86'):
bindir = arch
libdir = arch
if (arch != 'x86' and GetHostArch() == 'x86'):
# Special version of the tools that run on x86.
bindir = 'x86_' + bindir
vc_binpath = SDK["VISUALSTUDIO"] + vcdir_suffix + "bin"
binpath = os.path.join(vc_binpath, bindir)
if not os.path.isfile(binpath + "\\cl.exe"):
# Try the x86 tools, those should work just as well.
if arch == 'x64' and os.path.isfile(vc_binpath + "\\x86_amd64\\cl.exe"):
binpath = "{0}\\x86_amd64;{0}".format(vc_binpath)
elif winsdk_ver.startswith('10.'):
exit("Couldn't find compilers in %s. You may need to install the Windows SDK 7.1 and the Visual C++ 2010 SP1 Compiler Update for Windows SDK 7.1." % binpath)
else:
exit("Couldn't find compilers in %s." % binpath)
AddToPathEnv("PATH", binpath)
AddToPathEnv("PATH", SDK["VISUALSTUDIO"] + "Common7\\IDE")
AddToPathEnv("INCLUDE", os.environ["VCINSTALLDIR"] + "include")
AddToPathEnv("INCLUDE", os.environ["VCINSTALLDIR"] + "atlmfc\\include")
AddToPathEnv("LIB", os.environ["VCINSTALLDIR"] + "lib\\" + libdir)
AddToPathEnv("LIB", os.environ["VCINSTALLDIR"] + "atlmfc\\lib\\" + libdir)
winsdk_ver = SDK["MSPLATFORM_VERSION"]
if winsdk_ver.startswith('10.'):
AddToPathEnv("PATH", SDK["MSPLATFORM"] + "bin\\" + arch)
AddToPathEnv("PATH", SDK["MSPLATFORM"] + "bin\\" + winsdk_ver + "\\" + arch)
# Windows Kit 10 introduces the "universal CRT".
inc_dir = SDK["MSPLATFORM"] + "Include\\" + winsdk_ver + "\\"
lib_dir = SDK["MSPLATFORM"] + "Lib\\" + winsdk_ver + "\\"
AddToPathEnv("INCLUDE", inc_dir + "shared")
AddToPathEnv("INCLUDE", inc_dir + "ucrt")
AddToPathEnv("INCLUDE", inc_dir + "um")
AddToPathEnv("LIB", lib_dir + "ucrt\\" + arch)
AddToPathEnv("LIB", lib_dir + "um\\" + arch)
elif winsdk_ver == '8.1':
AddToPathEnv("PATH", SDK["MSPLATFORM"] + "bin\\" + arch)
inc_dir = SDK["MSPLATFORM"] + "Include\\"
lib_dir = SDK["MSPLATFORM"] + "Lib\\winv6.3\\"
AddToPathEnv("INCLUDE", inc_dir + "shared")
AddToPathEnv("INCLUDE", inc_dir + "ucrt")
AddToPathEnv("INCLUDE", inc_dir + "um")
AddToPathEnv("LIB", lib_dir + "ucrt\\" + arch)
AddToPathEnv("LIB", lib_dir + "um\\" + arch)
else:
AddToPathEnv("PATH", SDK["MSPLATFORM"] + "bin")
AddToPathEnv("INCLUDE", SDK["MSPLATFORM"] + "include")
AddToPathEnv("INCLUDE", SDK["MSPLATFORM"] + "include\\atl")
AddToPathEnv("INCLUDE", SDK["MSPLATFORM"] + "include\\mfc")
if arch != 'x64':
AddToPathEnv("LIB", SDK["MSPLATFORM"] + "lib")
AddToPathEnv("PATH",SDK["VISUALSTUDIO"] + "VC\\redist\\x86\\Microsoft.VC100.CRT")
AddToPathEnv("PATH",SDK["VISUALSTUDIO"] + "VC\\redist\\x86\\Microsoft.VC100.MFC")
elif os.path.isdir(SDK["MSPLATFORM"] + "lib\\x64"):
AddToPathEnv("LIB", SDK["MSPLATFORM"] + "lib\\x64")
elif os.path.isdir(SDK["MSPLATFORM"] + "lib\\amd64"):
AddToPathEnv("LIB", SDK["MSPLATFORM"] + "lib\\amd64")
else:
exit("Could not locate 64-bits libraries in Windows SDK directory!\nUsing directory: %s" % SDK["MSPLATFORM"])
# Targeting the 7.1 SDK (which is the only way to have Windows XP support)
# with Visual Studio 2015+ requires use of the Universal CRT.
if winsdk_ver in ('7.1', '7.1A', '8.0', '8.1') and SDK["VISUALSTUDIO_VERSION"] >= (14,0):
win_kit = GetRegistryKey("SOFTWARE\\Microsoft\\Windows Kits\\Installed Roots", "KitsRoot10")
# Fallback in case we can't read the registry.
if not win_kit or not os.path.isdir(win_kit):
win_kit = "C:\\Program Files (x86)\\Windows Kits\\10\\"
elif not win_kit.endswith('\\'):
win_kit += '\\'
for vnum in 10150, 10240, 10586, 14393, 15063, 16299, 17134, 17763, 18362, 19041, 20348, 22000:
version = "10.0.{0}.0".format(vnum)
if os.path.isfile(win_kit + "Include\\" + version + "\\ucrt\\assert.h"):
print("Using Universal CRT %s" % (version))
break
AddToPathEnv("LIB", "%s\\Lib\\%s\\ucrt\\%s" % (win_kit, version, arch))
AddToPathEnv("INCLUDE", "%s\\Include\\%s\\ucrt" % (win_kit, version))
# Copy the DLLs to the bin directory.
CopyAllFiles(GetOutputDir() + "/bin/", win_kit + "Redist\\ucrt\\DLLs\\" + arch + "\\")
########################################################################
#
# Include and Lib directories.
#
# These allow you to add include and lib directories to the
# compiler search paths. These methods accept a "package"
# parameter, which specifies which package the directory is
# associated with. The include/lib directory is not used
# if the package is not selected. The package can be 'ALWAYS'.
#
########################################################################
INCDIRECTORIES = []
LIBDIRECTORIES = []
FRAMEWORKDIRECTORIES = []
LIBNAMES = []
DEFSYMBOLS = []
def IncDirectory(opt, dir):
INCDIRECTORIES.append((opt, dir))
def LibDirectory(opt, dir):
LIBDIRECTORIES.append((opt, dir))
def FrameworkDirectory(opt, dir):
FRAMEWORKDIRECTORIES.append((opt, dir))
def LibName(opt, name):
# Check to see if the lib file actually exists for the thirdparty library given
# Are we a thirdparty library?
if name.startswith(GetThirdpartyDir()):
# Does this lib exist?
if not os.path.exists(name):
WARNINGS.append(name + " not found. Skipping Package " + opt)
if (opt in PkgListGet()):
if not PkgSkip(opt):
Warn("Could not locate thirdparty package %s, excluding from build" % (opt.lower()))
PkgDisable(opt)
return
else:
Error("Could not locate thirdparty package %s, aborting build" % (opt.lower()))
LIBNAMES.append((opt, name))
def DefSymbol(opt, sym, val=""):
DEFSYMBOLS.append((opt, sym, val))
########################################################################
#
# This subroutine prepares the environment for the build.
#
########################################################################
def SetupBuildEnvironment(compiler):
if GetVerbose():
print("Using compiler: %s" % compiler)
print("Host OS: %s" % GetHost())
print("Host arch: %s" % GetHostArch())
target = GetTarget()
if target != 'android':
print("Target OS: %s" % GetTarget())
else:
print("Target OS: %s (API level %d)" % (GetTarget(), ANDROID_API))
print("Target arch: %s" % GetTargetArch())
# Set to English so we can safely parse the result of gcc commands.
# Setting it to UTF-8 is necessary for Python 3 modules to import
# correctly.
os.environ["LC_ALL"] = "en_US.UTF-8"
os.environ["LANGUAGE"] = "en"
# In the case of Android, we have to put the toolchain on the PATH in order to use it.
if GetTarget() == 'android' and GetHost() != 'android':
AddToPathEnv("PATH", os.path.join(SDK["ANDROID_TOOLCHAIN"], "bin"))
if "ANDROID_BUILD_TOOLS" in SDK:
AddToPathEnv("PATH", SDK["ANDROID_BUILD_TOOLS"])
if "JDK" in SDK:
AddToPathEnv("PATH", os.path.join(SDK["JDK"], "bin"))
os.environ["JAVA_HOME"] = SDK["JDK"]
if compiler == "MSVC":
# Add the visual studio tools to PATH et al.
SetupVisualStudioEnviron()
if compiler == "GCC":
# Invoke gcc to determine the system library directories.
global SYS_LIB_DIRS, SYS_INC_DIRS
if sys.platform == "darwin":
# We need to add this one explicitly for some reason.
SYS_LIB_DIRS.append(SDK["MACOSX"] + "/usr/lib")
if not SDK.get("MACOSX"):
# gcc doesn't add this one, but we do want it:
local_lib = SDK.get("SYSROOT", "") + "/usr/local/lib"
if os.path.isdir(local_lib):
SYS_LIB_DIRS.append(local_lib)
sysroot_flag = ""
if SDK.get("MACOSX"):
# The default compiler in Leopard does not respect --sysroot correctly.
sysroot_flag = " -isysroot " + SDK["MACOSX"]
if SDK.get("SYSROOT"):
sysroot_flag = ' --sysroot=%s -no-canonical-prefixes' % (SDK["SYSROOT"])
# Extract the dirs from the line that starts with 'libraries: ='.
cmd = GetCXX() + " -print-search-dirs" + sysroot_flag
handle = os.popen(cmd)
for line in handle:
if not line.startswith('libraries: ='):
continue
line = line[12:].strip()
libdirs = line.split(':')
while libdirs:
libdir = os.path.normpath(libdirs.pop(0))
if os.path.isdir(libdir):
if libdir not in SYS_LIB_DIRS:
SYS_LIB_DIRS.append(libdir)
elif len(libdir) == 1:
# Oops, is this a drive letter? Prepend it to the next.
libdirs[0] = libdir + ':' + libdirs[0]
elif GetVerbose():
print("Ignoring non-existent library directory %s" % (libdir))
returnval = handle.close()
if returnval != None and returnval != 0:
Warn("%s failed" % (cmd))
SYS_LIB_DIRS += [SDK.get("SYSROOT", "") + "/usr/lib"]
# The Android toolchain on Windows doesn't actually add this one.
if target == 'android' and GetHost() == 'windows':
libdir = SDK.get("SYSROOT", "") + "/usr/lib"
if GetTargetArch() == 'x86_64':
libdir += '64'
SYS_LIB_DIRS += [libdir]
# Now extract the preprocessor's include directories.
cmd = GetCXX() + " -x c++ -v -E " + os.devnull
if "ANDROID_NDK" in SDK:
ndk_dir = SDK["ANDROID_NDK"].replace('\\', '/')
cmd += ' -isystem %s/sysroot/usr/include' % (ndk_dir)
cmd += ' -isystem %s/sysroot/usr/include/%s' % (ndk_dir, SDK["ANDROID_TRIPLE"])
else:
cmd += sysroot_flag
null = open(os.devnull, 'w')
handle = subprocess.Popen(cmd, stdout=null, stderr=subprocess.PIPE, shell=True)
scanning = False
for line in handle.communicate()[1].splitlines():
line = line.decode('utf-8', 'replace')
# Start looking at a line that says: #include "..." search starts here
if not scanning:
if line.startswith('#include'):
scanning = True
continue
if sys.platform == "win32":
if not line.startswith(' '):
continue
else:
if not line.startswith(' /'):
continue
line = line.strip()
if line.endswith(" (framework directory)"):
pass
elif os.path.isdir(line):
SYS_INC_DIRS.append(os.path.normpath(line))
elif GetVerbose():
print("Ignoring non-existent include directory %s" % (line))
if handle.returncode != 0 or not SYS_INC_DIRS:
Warn("%s failed or did not produce the expected result" % (cmd))
sysroot = SDK.get("SYSROOT", "")
# Add some sensible directories as a fallback.
SYS_INC_DIRS = [
sysroot + "/usr/include",
sysroot + "/usr/local/include"
]
pcbsd_inc = sysroot + "/usr/PCBSD/local/include"
if os.path.isdir(pcbsd_inc):
SYS_INC_DIRS.append(pcbsd_inc)
null.close()
# Print out the search paths
if GetVerbose():
print("System library search path:")
for dir in SYS_LIB_DIRS:
print(" " + dir)
print("System include search path:")
for dir in SYS_INC_DIRS:
print(" " + dir)
# If we're cross-compiling, no point in putting our output dirs on the path.
if CrossCompiling():
return
# Add our output directories to the environment.
builtdir = GetOutputDir()
AddToPathEnv("PYTHONPATH", builtdir)
AddToPathEnv("PANDA_PRC_DIR", os.path.join(builtdir, "etc"))
AddToPathEnv("PATH", os.path.join(builtdir, "bin"))
if GetHost() == 'windows':
# extension_native_helpers.py currently expects to find libpandaexpress on sys.path.
AddToPathEnv("PYTHONPATH", os.path.join(builtdir, "bin"))
AddToPathEnv("PATH", os.path.join(builtdir, "plugins"))
# Now for the special (DY)LD_LIBRARY_PATH on Unix-esque systems.
if GetHost() != 'windows':
# Get the current
ldpath = os.environ.get("LD_LIBRARY_PATH", "").split(os.pathsep)
if GetHost() == 'darwin':
dyldpath = os.environ.get("DYLD_LIBRARY_PATH", "").split(os.pathsep)
# Remove any potential current Panda installation lib dirs
for i in ldpath[:]:
if i.startswith("/usr/lib/panda3d") or \
i.startswith("/usr/local/panda"):
ldpath.remove(i)
if GetHost() == 'darwin':
for i in dyldpath[:]:
if i.startswith("/Applications/Panda3D") or \
i.startswith("/Developer/Panda3D"):
dyldpath.remove(i)
# Add built/lib/ to (DY)LD_LIBRARY_PATH
ldpath.insert(0, os.path.join(builtdir, 'lib'))
os.environ["LD_LIBRARY_PATH"] = os.pathsep.join(ldpath)
if GetHost() == 'darwin':
dyldpath.insert(0, os.path.join(builtdir, 'lib'))
os.environ["DYLD_LIBRARY_PATH"] = os.pathsep.join(dyldpath)
# macOS 10.11 removed DYLD_LIBRARY_PATH, but we still need to pass
# on our lib directory to ppackage, so add it to PATH instead.
os.environ["PATH"] = os.path.join(builtdir, 'lib') + ':' + os.environ.get("PATH", "")
# Workaround around compile issue on PCBSD
if (os.path.exists("/usr/PCBSD")):
os.environ["LD_LIBRARY_PATH"] += os.pathsep + "/usr/PCBSD/local/lib"
########################################################################
##
## Routines to copy files into the build tree
##
########################################################################
def CopyFile(dstfile, srcfile):
if dstfile[-1] == '/':
dstfile += os.path.basename(srcfile)
if NeedsBuild([dstfile], [srcfile]):
if os.path.islink(srcfile):
# Preserve symlinks
if os.path.isfile(dstfile) or os.path.islink(dstfile):
print("Removing file %s" % (dstfile))
os.unlink(dstfile)
elif os.path.isdir(dstfile):
print("Removing directory %s" % (dstfile))
shutil.rmtree(dstfile)
os.symlink(os.readlink(srcfile), dstfile)
else:
WriteBinaryFile(dstfile, ReadBinaryFile(srcfile))
if sys.platform == 'cygwin' and os.path.splitext(dstfile)[1].lower() in ('.dll', '.exe'):
os.chmod(dstfile, 0o755)
JustBuilt([dstfile], [srcfile])
def CopyAllFiles(dstdir, srcdir, suffix=""):
for x in GetDirectoryContents(srcdir, ["*"+suffix]):
CopyFile(dstdir + x, srcdir + x)
def CopyAllHeaders(dir, skip=[]):
for filename in GetDirectoryContents(dir, ["*.h", "*.I", "*.T"], skip):
srcfile = dir + "/" + filename
dstfile = OUTPUTDIR + "/include/" + filename
if (NeedsBuild([dstfile], [srcfile])):
WriteBinaryFile(dstfile, ReadBinaryFile(srcfile))
JustBuilt([dstfile], [srcfile])
def CopyTree(dstdir, srcdir, omitVCS=True):
if os.path.isdir(dstdir):
source_entries = os.listdir(srcdir)
for entry in source_entries:
srcpth = os.path.join(srcdir, entry)
dstpth = os.path.join(dstdir, entry)
if os.path.islink(srcpth) or os.path.isfile(srcpth):
if not omitVCS or entry not in VCS_FILES:
CopyFile(dstpth, srcpth)
else:
if not omitVCS or entry not in VCS_DIRS:
CopyTree(dstpth, srcpth)
# Delete files in dstdir that are not in srcdir.
for entry in os.listdir(dstdir):
if entry not in source_entries:
path = os.path.join(dstdir, entry)
if os.path.islink(path) or os.path.isfile(path):
os.remove(path)
elif os.path.isdir(path):
shutil.rmtree(path)
else:
if GetHost() == 'windows':
srcdir = srcdir.replace('/', '\\')
dstdir = dstdir.replace('/', '\\')
cmd = 'xcopy /I/Y/E/Q "' + srcdir + '" "' + dstdir + '"'
oscmd(cmd)
else:
if subprocess.call(['cp', '-R', '-f', srcdir, dstdir]) != 0:
exit("Copy failed.")
if omitVCS:
DeleteVCS(dstdir)
def CopyPythonTree(dstdir, srcdir, lib2to3_fixers=[], threads=0):
if (not os.path.isdir(dstdir)):
os.mkdir(dstdir)
lib2to3 = None
lib2to3_args = ['-w', '-n', '--no-diffs']
if len(lib2to3_fixers) > 0 and sys.version_info >= (3, 0):
from lib2to3.main import main as lib2to3
if lib2to3_fixers == ['all']:
lib2to3_args += ['-x', 'buffer', '-x', 'idioms', '-x', 'set_literal', '-x', 'ws_comma']
else:
for fixer in lib2to3_fixers:
lib2to3_args += ['-f', fixer]
if threads:
lib2to3_args += ['-j', str(threads)]
exclude_files = set(VCS_FILES)
exclude_files.add('panda3d.py')
refactor = []
for entry in os.listdir(srcdir):
srcpth = os.path.join(srcdir, entry)
dstpth = os.path.join(dstdir, entry)
if os.path.isfile(srcpth):
base, ext = os.path.splitext(entry)
if entry not in exclude_files and ext not in SUFFIX_INC + ['.pyc', '.pyo']:
if (NeedsBuild([dstpth], [srcpth])):
WriteBinaryFile(dstpth, ReadBinaryFile(srcpth))
if ext == '.py' and not entry.endswith('-extensions.py') and lib2to3 is not None:
refactor.append((dstpth, srcpth))
lib2to3_args.append(dstpth)
else:
JustBuilt([dstpth], [srcpth])
elif entry not in VCS_DIRS:
CopyPythonTree(dstpth, srcpth, lib2to3_fixers, threads=threads)
if refactor and lib2to3 is not None:
ret = lib2to3("lib2to3.fixes", lib2to3_args)
if ret != 0:
for dstpth, srcpth in refactor:
os.remove(dstpth)
exit("Error in lib2to3.")
else:
for dstpth, srcpth in refactor:
JustBuilt([dstpth], [srcpth])
########################################################################
##
## Parse PandaVersion.pp to extract the version number.
##
########################################################################
cfg_parser = None
def GetMetadataValue(key):
global cfg_parser
if not cfg_parser:
# Parse the metadata from the setup.cfg file.
cfg_parser = configparser.ConfigParser()
path = os.path.join(os.path.dirname(__file__), '..', 'setup.cfg')
assert cfg_parser.read(path), "Could not read setup.cfg file."
value = cfg_parser.get('metadata', key)
if key == 'classifiers':
value = value.strip().split('\n')
return value
# This function is being phased out.
def ParsePandaVersion(fn):
try:
f = open(fn, "r")
pattern = re.compile('^[ \t]*[#][ \t]*define[ \t]+PANDA_VERSION[ \t]+([0-9]+)[ \t]+([0-9]+)[ \t]+([0-9]+)')
for line in f:
match = pattern.match(line, 0)
if (match):
f.close()
return match.group(1) + "." + match.group(2) + "." + match.group(3)
f.close()
except: pass
return "0.0.0"
def ParsePluginVersion(fn):
try:
f = open(fn, "r")
pattern = re.compile('^[ \t]*[#][ \t]*define[ \t]+P3D_PLUGIN_VERSION[ \t]+([0-9]+)[ \t]+([0-9]+)[ \t]+([0-9]+)')
for line in f:
match = pattern.match(line,0)
if (match):
f.close()
return match.group(1) + "." + match.group(2) + "." + match.group(3)
f.close()
except: pass
return "0.0.0"
def ParseCoreapiVersion(fn):
try:
f = open(fn, "r")
pattern = re.compile('^[ \t]*[#][ \t]*define[ \t]+P3D_COREAPI_VERSION.*([0-9]+)[ \t]*$')
for line in f:
match = pattern.match(line,0)
if (match):
f.close()
return match.group(1)
f.close()
except: pass
return "0"
##########################################################################################
#
# Utility function to generate a resource file
#
##########################################################################################
RESOURCE_FILE_TEMPLATE = """VS_VERSION_INFO VERSIONINFO
FILEVERSION %(commaversion)s
PRODUCTVERSION %(commaversion)s
FILEFLAGSMASK 0x3fL
FILEFLAGS %(debugflag)s
FILEOS 0x40004L
FILETYPE 0x2L
FILESUBTYPE 0x0L
BEGIN
BLOCK "StringFileInfo"
BEGIN
BLOCK "040904e4"
BEGIN
VALUE "FileDescription", "%(description)s\\0"
VALUE "FileVersion", "%(dotversion)s"
VALUE "LegalTrademarks", "\\0"
VALUE "MIMEType", "%(mimetype)s\\0"
VALUE "FileExtents", "%(extension)s\\0"
VALUE "FileOpenName", "%(filedesc)s\\0"
VALUE "OLESelfRegister", "\\0"
VALUE "OriginalFilename", "%(filename)s\\0"
VALUE "ProductName", "%(name)s %(version)s\\0"
VALUE "ProductVersion", "%(dotversion)s"
END
END
BLOCK "VarFileInfo"
BEGIN
VALUE "Translation", 0x409, 1252
END
END
"""
def GenerateResourceFile(**kwargs):
if "debugflag" not in kwargs:
if GetOptimize() <= 2:
kwargs["debugflag"] = "0x1L"
else:
kwargs["debugflag"] = "0x0L"
kwargs["dotversion"] = kwargs["version"]
if len(kwargs["dotversion"].split(".")) == 3:
kwargs["dotversion"] += ".0"
if "commaversion" not in kwargs:
kwargs["commaversion"] = kwargs["dotversion"].replace(".", ",")
rcdata = ""
if not "noinclude" in kwargs:
rcdata += "#define APSTUDIO_READONLY_SYMBOLS\n"
rcdata += "#include \"winresrc.h\"\n"
rcdata += "#undef APSTUDIO_READONLY_SYMBOLS\n"
rcdata += RESOURCE_FILE_TEMPLATE % kwargs
if "icon" in kwargs:
rcdata += "\nICON_FILE ICON \"%s\"\n" % kwargs["icon"]
return rcdata
def WriteResourceFile(basename, **kwargs):
if not basename.endswith(".rc"):
basename += ".rc"
basename = GetOutputDir() + "/include/" + basename
ConditionalWriteFile(basename, GenerateResourceFile(**kwargs))
return basename
def WriteEmbeddedStringFile(basename, inputs, string_name=None):
if os.path.splitext(basename)[1] not in SUFFIX_INC:
basename += '.cxx'
target = GetOutputDir() + "/tmp/" + basename
if string_name is None:
string_name = os.path.basename(os.path.splitext(target)[0])
string_name = string_name.replace('-', '_')
data = bytearray()
for input in inputs:
fp = open(input, 'rb')
# Insert a #line so that we get meaningful compile/assert errors when
# the result is inserted by interrogate_module into generated code.
if os.path.splitext(input)[1] in SUFFIX_INC:
line = '#line 1 "%s"\n' % (input)
data += bytearray(line.encode('ascii', 'replace'))
data += bytearray(fp.read())
fp.close()
data.append(0)
output = 'extern const char %s[] = {\n' % (string_name)
i = 0
for byte in data:
if i == 0:
output += ' '
output += ' 0x%02x,' % (byte)
i += 1
if i >= 12:
output += '\n'
i = 0
output += '\n};\n'
ConditionalWriteFile(target, output)
return target
########################################################################
##
## FindLocation
##
########################################################################
ORIG_EXT = {}
PYABI_SPECIFIC = set()
WARNED_FILES = set()
def GetOrigExt(x):
return ORIG_EXT[x]
def SetOrigExt(x, v):
ORIG_EXT[x] = v
def GetExtensionSuffix():
target = GetTarget()
if sys.version_info >= (3, 5) and target == 'windows':
if GetTargetArch() == 'x64':
return '.cp%d%d-win_amd64.pyd' % (sys.version_info[:2])
else:
return '.cp%d%d-win32.pyd' % (sys.version_info[:2])
elif sys.version_info >= (3, 0):
import _imp
return _imp.extension_suffixes()[0]
if target == 'windows':
return '.pyd'
else:
return '.so'
def GetPythonABI():
soabi = sysconfig.get_config_var('SOABI')
if soabi:
return soabi
soabi = 'cpython-%d%d' % (sys.version_info[:2])
if sys.version_info >= (3, 8):
return soabi
debug_flag = sysconfig.get_config_var('Py_DEBUG')
if (debug_flag is None and hasattr(sys, 'gettotalrefcount')) or debug_flag:
soabi += 'd'
malloc_flag = sysconfig.get_config_var('WITH_PYMALLOC')
if malloc_flag is None or malloc_flag:
soabi += 'm'
if sys.version_info < (3, 3):
usize = sysconfig.get_config_var('Py_UNICODE_SIZE')
if (usize is None and sys.maxunicode == 0x10ffff) or usize == 4:
soabi += 'u'
return soabi
def CalcLocation(fn, ipath):
if fn.startswith("panda3d/") and fn.endswith(".py"):
return OUTPUTDIR + "/" + fn
if (fn.endswith(".class")):return OUTPUTDIR+"/classes/"+fn
if (fn.count("/")): return fn
dllext = ""
target = GetTarget()
if (GetOptimize() <= 2 and target == 'windows'): dllext = "_d"
if (fn == "AndroidManifest.xml"): return OUTPUTDIR+"/"+fn
if (fn.endswith(".cxx")): return CxxFindSource(fn, ipath)
if (fn.endswith(".I")): return CxxFindSource(fn, ipath)
if (fn.endswith(".h")): return CxxFindSource(fn, ipath)
if (fn.endswith(".c")): return CxxFindSource(fn, ipath)
if (fn.endswith(".py")): return CxxFindSource(fn, ipath)
if (fn.endswith(".yxx")): return CxxFindSource(fn, ipath)
if (fn.endswith(".lxx")): return CxxFindSource(fn, ipath)
if (fn.endswith(".pdef")):return CxxFindSource(fn, ipath)
if (fn.endswith(".xml")): return CxxFindSource(fn, ipath)
if (fn.endswith(".java")):return CxxFindSource(fn, ipath)
if (fn.endswith(".egg")): return OUTPUTDIR+"/models/"+fn
if (fn.endswith(".egg.pz")):return OUTPUTDIR+"/models/"+fn
if (fn.endswith(".pyd")): return OUTPUTDIR+"/panda3d/"+fn[:-4]+GetExtensionSuffix()
if (target == 'windows'):
if (fn.endswith(".def")): return CxxFindSource(fn, ipath)
if (fn.endswith(".rc")): return CxxFindSource(fn, ipath)
if (fn.endswith(".idl")): return CxxFindSource(fn, ipath)
if (fn.endswith(".obj")): return OUTPUTDIR+"/tmp/"+fn
if (fn.endswith(".res")): return OUTPUTDIR+"/tmp/"+fn
if (fn.endswith(".tlb")): return OUTPUTDIR+"/tmp/"+fn
if (fn.endswith(".dll")): return OUTPUTDIR+"/bin/"+fn[:-4]+dllext+".dll"
if (fn.endswith(".ocx")): return OUTPUTDIR+"/plugins/"+fn[:-4]+dllext+".ocx"
if (fn.endswith(".mll")): return OUTPUTDIR+"/plugins/"+fn[:-4]+dllext+".mll"
if (fn.endswith(".dlo")): return OUTPUTDIR+"/plugins/"+fn[:-4]+dllext+".dlo"
if (fn.endswith(".dli")): return OUTPUTDIR+"/plugins/"+fn[:-4]+dllext+".dli"
if (fn.endswith(".dle")): return OUTPUTDIR+"/plugins/"+fn[:-4]+dllext+".dle"
if (fn.endswith(".plugin")):return OUTPUTDIR+"/plugins/"+fn[:-7]+dllext+".dll"
if (fn.endswith(".exe")): return OUTPUTDIR+"/bin/"+fn
if (fn.endswith(".p3d")): return OUTPUTDIR+"/bin/"+fn
if (fn.endswith(".lib")): return OUTPUTDIR+"/lib/"+fn[:-4]+dllext+".lib"
if (fn.endswith(".ilb")): return OUTPUTDIR+"/tmp/"+fn[:-4]+dllext+".lib"
elif (target == 'darwin'):
if (fn.endswith(".mm")): return CxxFindSource(fn, ipath)
if (fn.endswith(".r")): return CxxFindSource(fn, ipath)
if (fn.endswith(".plist")): return CxxFindSource(fn, ipath)
if (fn.endswith(".obj")): return OUTPUTDIR+"/tmp/"+fn[:-4]+".o"
if (fn.endswith(".dll")): return OUTPUTDIR+"/lib/"+fn[:-4]+".dylib"
if (fn.endswith(".mll")): return OUTPUTDIR+"/plugins/"+fn
if (fn.endswith(".exe")): return OUTPUTDIR+"/bin/"+fn[:-4]
if (fn.endswith(".p3d")): return OUTPUTDIR+"/bin/"+fn[:-4]
if (fn.endswith(".lib")): return OUTPUTDIR+"/lib/"+fn[:-4]+".a"
if (fn.endswith(".ilb")): return OUTPUTDIR+"/tmp/"+fn[:-4]+".a"
if (fn.endswith(".rsrc")): return OUTPUTDIR+"/tmp/"+fn
if (fn.endswith(".plugin")):return OUTPUTDIR+"/plugins/"+fn
if (fn.endswith(".app")): return OUTPUTDIR+"/bin/"+fn
else:
if (fn.endswith(".obj")): return OUTPUTDIR+"/tmp/"+fn[:-4]+".o"
if (fn.endswith(".dll")): return OUTPUTDIR+"/lib/"+fn[:-4]+".so"
if (fn.endswith(".mll")): return OUTPUTDIR+"/plugins/"+fn
if (fn.endswith(".plugin")):return OUTPUTDIR+"/plugins/"+fn[:-7]+dllext+".so"
if (fn.endswith(".exe")): return OUTPUTDIR+"/bin/"+fn[:-4]
if (fn.endswith(".p3d")): return OUTPUTDIR+"/bin/"+fn[:-4]
if (fn.endswith(".lib")): return OUTPUTDIR+"/lib/"+fn[:-4]+".a"
if (fn.endswith(".ilb")): return OUTPUTDIR+"/tmp/"+fn[:-4]+".a"
if (fn.endswith(".dat")): return OUTPUTDIR+"/tmp/"+fn
if (fn.endswith(".in")): return OUTPUTDIR+"/pandac/input/"+fn
return fn
def FindLocation(fn, ipath, pyabi=None):
if GetLinkAllStatic():
if fn.endswith(".dll"):
fn = fn[:-4] + ".lib"
elif fn.endswith(".pyd"):
fn = "libpy.panda3d." \
+ os.path.splitext(fn[:-4] + GetExtensionSuffix())[0] + ".lib"
loc = CalcLocation(fn, ipath)
base, ext = os.path.splitext(fn)
# If this is a target created with PyTargetAdd, we need to make sure it
# it put in a Python-version-specific directory.
if loc in PYABI_SPECIFIC:
if loc.startswith(OUTPUTDIR + "/tmp"):
if pyabi is not None:
loc = OUTPUTDIR + "/tmp/" + pyabi + loc[len(OUTPUTDIR) + 4:]
else:
raise RuntimeError("%s is a Python-specific target, use PyTargetAdd instead of TargetAdd" % (fn))
elif ext != ".pyd" and loc not in WARNED_FILES:
WARNED_FILES.add(loc)
Warn("file depends on Python but is not in an ABI-specific directory:", loc)
ORIG_EXT[loc] = ext
return loc
########################################################################
##
## These files maintain a python_versions.json file in the built/tmp
## directory that can be used by the other scripts in this directory.
##
########################################################################
def GetCurrentPythonVersionInfo():
if PkgSkip("PYTHON"):
return
from distutils.sysconfig import get_python_lib
return {
"version": SDK["PYTHONVERSION"][6:].rstrip('dmu'),
"soabi": GetPythonABI(),
"ext_suffix": GetExtensionSuffix(),
"executable": sys.executable,
"purelib": get_python_lib(False),
"platlib": get_python_lib(True),
}
def UpdatePythonVersionInfoFile(new_info):
import json
json_file = os.path.join(GetOutputDir(), "tmp", "python_versions.json")
json_data = []
if os.path.isfile(json_file) and not PkgSkip("PYTHON"):
try:
with open(json_file, 'r') as fh:
json_data = json.load(fh)
except:
json_data = []
# Prune the list by removing the entries that conflict with our build,
# plus the entries that no longer exist
for version_info in json_data[:]:
core_pyd = os.path.join(GetOutputDir(), "panda3d", "core" + version_info["ext_suffix"])
if version_info["ext_suffix"] == new_info["ext_suffix"] or \
version_info["soabi"] == new_info["soabi"] or \
not os.path.isfile(core_pyd):
json_data.remove(version_info)
if not PkgSkip("PYTHON"):
json_data.append(new_info)
if VERBOSE:
print("Writing %s" % (json_file))
with open(json_file, 'w') as fh:
json.dump(json_data, fh, indent=4)
def ReadPythonVersionInfoFile():
import json
json_file = os.path.join(GetOutputDir(), "tmp", "python_versions.json")
if os.path.isfile(json_file):
try:
return json.load(open(json_file, 'r'))
except:
pass
return []
########################################################################
##
## TargetAdd
##
## Makepanda maintains a list of make-targets. Each target has
## these attributes:
##
## name - the name of the file being created.
## ext - the original file extension, prior to OS-specific translation
## inputs - the names of the input files to the compiler
## deps - other input files that the target also depends on
## opts - compiler options, a catch-all category
##
## TargetAdd will create the target if it does not exist. Then,
## depending on what options you pass, it will push data onto these
## various target attributes. This is cumulative: for example, if
## you use TargetAdd to add compiler options, then use TargetAdd
## again with more compiler options, both sets of options will be
## included.
##
## TargetAdd does some automatic dependency generation on C++ files.
## It will scan these files for include-files and automatically push
## the include files onto the list of dependencies. In order to do
## this, it needs an include-file search path. So if you supply
## any C++ input, you also need to supply compiler options containing
## include-directories, or alternately, a separate ipath parameter.
##
## The main body of 'makepanda' is a long list of TargetAdd
## directives building up a giant list of make targets. Then,
## finally, the targets are run and panda is built.
##
## Makepanda's dependency system does not understand multiple
## outputs from a single build step. When a build step generates
## a primary output file and a secondary output file, it is
## necessary to trick the dependency system. Insert a dummy
## build step that "generates" the secondary output file, using
## the primary output file as an input. There is a special
## compiler option DEPENDENCYONLY that creates such a dummy
## build-step. There are two cases where dummy build steps must
## be inserted: bison generates an OBJ and a secondary header
## file, interrogate generates an IN and a secondary IGATE.OBJ.
##
## PyTargetAdd is a special version for targets that depend on Python.
## It will create a target for each Python version we are building with,
## ensuring that builds with different Python versions won't conflict
## when we build for multiple Python ABIs side-by-side.
##
########################################################################
class Target:
pass
TARGET_LIST = []
TARGET_TABLE = {}
def TargetAdd(target, dummy=0, opts=[], input=[], dep=[], ipath=None, winrc=None, pyabi=None):
if (dummy != 0):
exit("Syntax error in TargetAdd "+target)
if ipath is None: ipath = opts
if not ipath: ipath = []
if (type(input) == str): input = [input]
if (type(dep) == str): dep = [dep]
if target.endswith(".pyd") and not pyabi:
raise RuntimeError("Use PyTargetAdd to build .pyd targets")
full = FindLocation(target, [OUTPUTDIR + "/include"], pyabi=pyabi)
if (full not in TARGET_TABLE):
t = Target()
t.name = full
t.inputs = []
t.deps = {}
t.opts = []
TARGET_TABLE[full] = t
TARGET_LIST.append(t)
else:
t = TARGET_TABLE[full]
for x in opts:
if x not in t.opts:
t.opts.append(x)
ipath = [OUTPUTDIR + "/tmp"] + GetListOption(ipath, "DIR:") + [OUTPUTDIR+"/include"]
for x in input:
fullinput = FindLocation(x, ipath, pyabi=pyabi)
t.inputs.append(fullinput)
# Don't re-link a library or binary if just its dependency dlls have been altered.
# This should work out fine in most cases, and often reduces recompilation time.
if (os.path.splitext(x)[-1] not in SUFFIX_DLL):
t.deps[fullinput] = 1
(base,suffix) = os.path.splitext(x)
if (SUFFIX_INC.count(suffix)):
for d in CxxCalcDependencies(fullinput, ipath, []):
t.deps[d] = 1
elif suffix == '.java':
for d in JavaCalcDependencies(fullinput, OUTPUTDIR + "/classes"):
t.deps[d] = 1
# If we are linking statically, add the source DLL's dynamic dependencies.
if GetLinkAllStatic() and ORIG_EXT[fullinput] == '.lib' and fullinput in TARGET_TABLE:
tdep = TARGET_TABLE[fullinput]
for y in tdep.inputs:
if ORIG_EXT[y] == '.lib':
t.inputs.append(y)
for opt, _ in LIBNAMES + LIBDIRECTORIES + FRAMEWORKDIRECTORIES:
if opt in tdep.opts and opt not in t.opts:
t.opts.append(opt)
if x.endswith(".in"):
# Mark the _igate.cxx file as a dependency also.
outbase = os.path.basename(x)[:-3]
woutc = GetOutputDir()+"/tmp/"+outbase+"_igate.cxx"
t.deps[woutc] = 1
if target.endswith(".in"):
# Add any .N files.
base, ext = os.path.splitext(fullinput)
fulln = base + ".N"
if os.path.isfile(fulln):
t.deps[fulln] = 1
for x in dep:
fulldep = FindLocation(x, ipath, pyabi=pyabi)
t.deps[fulldep] = 1
if winrc and GetTarget() == 'windows':
TargetAdd(target, input=WriteResourceFile(target.split("/")[-1].split(".")[0], **winrc))
ext = os.path.splitext(target)[1]
if ext == ".in":
if not CrossCompiling():
t.deps[FindLocation("interrogate.exe", [])] = 1
t.deps[FindLocation("dtool_have_python.dat", [])] = 1
if ext in (".obj", ".tlb", ".res", ".plugin", ".app") or ext in SUFFIX_DLL or ext in SUFFIX_LIB:
t.deps[FindLocation("platform.dat", [])] = 1
if target.endswith(".obj") and any(x.endswith(".in") for x in input):
if not CrossCompiling():
t.deps[FindLocation("interrogate_module.exe", [])] = 1
if target.endswith(".pz") and not CrossCompiling():
t.deps[FindLocation("pzip.exe", [])] = 1
if target.endswith(".in"):
# Also add a target to compile the _igate.cxx file into an _igate.obj.
outbase = os.path.basename(target)[:-3]
woutc = OUTPUTDIR + "/tmp/" + outbase + "_igate.cxx"
CxxDependencyCache[woutc] = []
PyTargetAdd(outbase + "_igate.obj", opts=opts+['PYTHON','BIGOBJ'], input=woutc, dep=target)
def PyTargetAdd(target, opts=[], **kwargs):
if PkgSkip("PYTHON"):
return
if 'PYTHON' not in opts:
opts = opts + ['PYTHON']
abi = GetPythonABI()
MakeDirectory(OUTPUTDIR + "/tmp/" + abi)
# Mark this target as being a Python-specific target.
orig = CalcLocation(target, [OUTPUTDIR + "/include"])
PYABI_SPECIFIC.add(orig)
if orig.startswith(OUTPUTDIR + "/tmp/") and os.path.exists(orig):
print("Removing file %s" % (orig))
os.unlink(orig)
TargetAdd(target, opts=opts, pyabi=abi, **kwargs)
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