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Moving all well-defined makepanda routines into makepandacore

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This commit is contained in:
Josh Yelon 2007-11-08 16:27:40 +00:00
parent 8ed57328c2
commit a53cbe4f80
1 changed files with 958 additions and 0 deletions
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doc/makepanda/makepandacore.py Normal file
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########################################################################
##
## Caution: there are two separate, independent build systems:
## 'makepanda', and 'ppremake'. Use one or the other, do not attempt
## to use both. This file is part of the 'makepanda' system.
##
## This file, makepandacore, contains all the global state and
## global functions for the makepanda system.
##
########################################################################
import sys,os,time,stat,string,re,getopt,cPickle,fnmatch,threading,Queue,signal,shutil
SUFFIX_INC=[".cxx",".c",".h",".I",".yxx",".lxx"]
SUFFIX_DLL=[".dll",".dlo",".dle",".dli",".dlm",".mll",".exe"]
SUFFIX_LIB=[".lib",".ilb"]
STARTTIME=time.time()
MAINTHREAD=threading.currentThread()
########################################################################
##
## 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=[]
def PrettyTime(t):
t = int(t)
hours = t/3600
t -= hours*3600
minutes = t/60
t -= minutes*60
seconds = t
if (hours): return str(hours)+" hours "+str(minutes)+" min"
if (minutes): return str(minutes)+" min "+str(seconds)+" sec"
return str(seconds)+" sec"
def exit(msg):
if (threading.currentThread() == MAINTHREAD):
SaveDependencyCache()
print "Elapsed Time: "+PrettyTime(time.time() - STARTTIME)
print msg
sys.stdout.flush()
sys.stderr.flush()
os._exit(1)
else:
print msg
raise "initiate-exit"
########################################################################
##
## Run a command.
##
########################################################################
def oscmd(cmd):
print cmd
sys.stdout.flush()
if sys.platform == "win32":
exe = cmd.split()[0]+".exe"
if os.path.isfile(exe)==0:
for i in os.environ["PATH"].split(";"):
if os.path.isfile(os.path.join(i, exe)):
exe = os.path.join(i, exe)
break
if os.path.isfile(exe)==0:
exit("Cannot find "+exe+" on search path")
res = os.spawnl(os.P_WAIT, exe, cmd)
else:
res = os.system(cmd)
if res != 0:
exit("")
########################################################################
##
## GetDirectoryContents
##
## At times, makepanda will use a function like "os.listdir" to process
## all the files in a directory. Unfortunately, that means that any
## accidental addition of a file to a directory could cause makepanda
## to misbehave without warning.
##
## To alleviate this weakness, we created GetDirectoryContents. This
## uses "os.listdir" to fetch the directory contents, but then it
## compares the results to the appropriate CVS/Entries to see if
## they match. If not, it prints a big warning message.
##
########################################################################
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
if (os.path.isfile(dir + "/CVS/Entries")):
cvs = {}
srchandle = open(dir+"/CVS/Entries", "r")
files = []
for line in srchandle:
if (line[0]=="/"):
s = line.split("/",2)
if (len(s)==3):
files.append(s[1])
srchandle.close()
for filter in filters:
for file in fnmatch.filter(files, filter):
if (skip.count(file)==0):
cvs[file] = 1
for file in actual.keys():
if (cvs.has_key(file)==0):
msg = "WARNING: %s is in %s, but not in CVS"%(file, dir)
print msg
WARNINGS.append(msg)
for file in cvs.keys():
if (actual.has_key(file)==0):
msg = "WARNING: %s is not in %s, but is in CVS"%(file, dir)
print msg
WARNINGS.append(msg)
results = actual.keys()
results.sort()
return results
########################################################################
##
## 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 TIMESTAMPCACHE.has_key(path):
return TIMESTAMPCACHE[path]
try: date = 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.append(GetTimestamp(file))
for file in others:
dates.append(GetTimestamp(file))
key = tuple(files)
BUILTFROMCACHE[key] = [others,dates]
def NeedsBuild(files,others):
dates = []
for file in files:
dates.append(GetTimestamp(file))
for file in others:
dates.append(GetTimestamp(file))
key = tuple(files)
if (BUILTFROMCACHE.has_key(key)):
if (BUILTFROMCACHE[key] == [others,dates]):
return 0
else:
oldothers = BUILTFROMCACHE[key][0]
if (oldothers != others):
for f in files:
print "CAUTION: file dependencies changed: "+f
return 1
########################################################################
##
## 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 (CXXINCLUDECACHE.has_key(path)):
cached = CXXINCLUDECACHE[path]
if (cached[0]==date): return cached[1]
try: sfile = open(path, 'rb')
except:
exit("Cannot open source file \""+path+"\" for reading.")
include = []
for line in sfile:
match = CxxIncludeRegex.match(line,0)
if (match):
incname = match.group(1)
include.append(incname)
sfile.close()
CXXINCLUDECACHE[path] = [date, include]
return include
########################################################################
##
## SaveDependencyCache / LoadDependencyCache
##
## This actually saves both the dependency and cxx-include caches.
##
########################################################################
def SaveDependencyCache():
try: icache = open("built/tmp/makepanda-dcache",'wb')
except: icache = 0
if (icache!=0):
print "Storing dependency cache."
cPickle.dump(CXXINCLUDECACHE, icache, 1)
cPickle.dump(BUILTFROMCACHE, icache, 1)
icache.close()
def LoadDependencyCache():
global CXXINCLUDECACHE
global BUILTFROMCACHE
try: icache = open("built/tmp/makepanda-dcache",'rb')
except: icache = 0
if (icache!=0):
CXXINCLUDECACHE = cPickle.load(icache)
BUILTFROMCACHE = cPickle.load(icache)
icache.close()
########################################################################
##
## 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
########################################################################
##
## 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 (CxxDependencyCache.has_key(srcfile)):
return CxxDependencyCache[srcfile]
if (ignore.count(srcfile)): return []
dep = {}
dep[srcfile] = 1
includes = CxxGetIncludes(srcfile)
for include in includes:
if (CxxIgnoreHeader.has_key(include)==0):
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
else:
pass
# print "CAUTION: header file "+include+" cannot be found in "+srcfile+" IPATH="+str(ipath)
result = dep.keys()
CxxDependencyCache[srcfile] = result
return result
########################################################################
##
## 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":
import _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 GetRegistryKey(path, subkey):
k1=0
key = TryRegistryKey(path)
if (key != 0):
try:
k1, k2 = _winreg.QueryValueEx(key, subkey)
except: pass
_winreg.CloseKey(key)
return k1
########################################################################
##
## 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,defval):
val = GetValueOption(opts, "OPT:")
if (val == 0):
return defval
return val
########################################################################
##
## General File Manipulation
##
########################################################################
def MakeDirectory(path):
if os.path.isdir(path): return 0
os.mkdir(path)
def ReadFile(wfile):
try:
srchandle = open(wfile, "rb")
data = srchandle.read()
srchandle.close()
return data
except: exit("Cannot read "+wfile)
def WriteFile(wfile,data):
try:
dsthandle = open(wfile, "wb")
dsthandle.write(data)
dsthandle.close()
except: exit("Cannot write "+wfile)
def ConditionalWriteFile(dest,desiredcontents):
try:
rfile = open(dest, 'rb')
contents = rfile.read(-1)
rfile.close()
except:
contents=0
if contents != desiredcontents:
sys.stdout.flush()
WriteFile(dest,desiredcontents)
def DeleteCVS(dir):
for entry in os.listdir(dir):
if (entry != ".") and (entry != ".."):
subdir = dir + "/" + entry
if (os.path.isdir(subdir)):
if (entry == "CVS"):
shutil.rmtree(subdir)
else:
DeleteCVS(subdir)
def CreateFile(file):
if (os.path.exists(file)==0):
WriteFile(file,"")
########################################################################
#
# 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.")
########################################################################
##
## Visual Studio Manifest Manipulation.
##
########################################################################
VC80CRTVERSIONRE=re.compile(" name=['\"]Microsoft.VC80.CRT['\"] version=['\"]([0-9.]+)['\"] ")
def GetVC80CRTVersion(fn):
manifest = ReadFile(fn)
version = VC80CRTVERSIONRE.search(manifest)
if (version == None):
exit("Cannot locate version number in "+manifn)
return version.group(1)
def SetVC80CRTVersion(fn, ver):
manifest = ReadFile(fn)
subst = " name='Microsoft.VC80.CRT' version='"+ver+"' "
manifest = VC80CRTVERSIONRE.sub(subst, manifest)
WriteFile(fn, manifest)
########################################################################
##
## Package Selection
##
## This facility enables makepanda to keep a list of packages selected
## by the user for inclusion or omission.
##
########################################################################
PKG_LIST_ALL=0
PKG_LIST_OMIT=0
def PkgListSet(pkgs):
global PKG_LIST_ALL
global PKG_LIST_OMIT
PKG_LIST_ALL=pkgs
PKG_LIST_OMIT={}
PkgDisableAll()
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 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
########################################################################
##
## 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 = {}
MAYAVERSIONINFO=[("MAYA6", "SOFTWARE\\Alias|Wavefront\\Maya\\6.0\\Setup\\InstallPath"),
("MAYA65", "SOFTWARE\\Alias|Wavefront\\Maya\\6.5\\Setup\\InstallPath"),
("MAYA7", "SOFTWARE\\Alias|Wavefront\\Maya\\7.0\\Setup\\InstallPath"),
("MAYA8", "SOFTWARE\\Alias\\Maya\\8.0\\Setup\\InstallPath"),
("MAYA85", "SOFTWARE\\Alias\\Maya\\8.5\\Setup\\InstallPath")
]
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"),
]
def SdkLocateDirectX():
if (sys.platform != "win32"): return
if (os.path.isdir("sdks/directx8")): SDK["DX8"]="sdks/directx8"
if (os.path.isdir("sdks/directx9")): SDK["DX9"]="sdks/directx9"
uninstaller = "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Uninstall";
for subdir in ListRegistryKeys(uninstaller):
if (subdir[0]=="{"):
dir = GetRegistryKey(uninstaller+"\\"+subdir, "InstallLocation")
if (dir != 0):
if ((SDK.has_key("DX8")==0) and
(os.path.isfile(dir+"\\Include\\d3d8.h")) and
(os.path.isfile(dir+"\\Include\\d3dx8.h")) and
(os.path.isfile(dir+"\\Lib\\d3d8.lib")) and
(os.path.isfile(dir+"\\Lib\\d3dx8.lib"))):
SDK["DX8"] = dir.replace("\\", "/").rstrip("/")
if ((SDK.has_key("DX9")==0) 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\\x86\\d3d9.lib")) and
(os.path.isfile(dir+"\\Lib\\x86\\d3dx9.lib"))):
SDK["DX9"] = dir.replace("\\", "/").rstrip("/")
def SdkLocateMaya():
if (sys.platform != "win32"): return
for (ver,key) in MAYAVERSIONINFO:
if (PkgSkip(ver)==0):
if (SDK.has_key(ver)==0):
ddir = "sdks/"+ver.lower()
if (os.path.isdir(ddir)):
SDK[ver] = ddir
else:
res = GetRegistryKey(key, "MAYA_INSTALL_LOCATION")
if (key != 0):
res = res.replace("\\", "/").rstrip("/")
SDK[res] = ver
def SdkLocateMax():
if (sys.platform != "win32"): return
for version,key1,key2,subdir in MAXVERSIONINFO:
if (PkgSkip(version)==0):
if (SDK.has_key(version)==0):
ddir = "sdks/"+version.lower()
if (os.path.isdir(ddir)):
SDK[version] = ddir
SDK[version+"CS"] = ddir
else:
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():
if (PkgSkip("PYTHON")==0):
if (sys.platform == "win32"):
SDK["PYTHON"]="thirdparty/win-python"
else:
if (os.path.isdir("/usr/include/python2.5")): SDK["PYTHON"] = "/usr/include/python2.5"
elif (os.path.isdir("/usr/include/python2.4")): SDK["PYTHON"] = "/usr/include/python2.4"
elif (os.path.isdir("/usr/include/python2.3")): SDK["PYTHON"] = "/usr/include/python2.3"
elif (os.path.isdir("/usr/include/python2.2")): SDK["PYTHON"] = "/usr/include/python2.2"
else: exit("Cannot find the python SDK")
def SdkLocateVisualStudio():
if (sys.platform != "win32"): return
vcdir = GetRegistryKey("SOFTWARE\\Microsoft\\VisualStudio\\SxS\\VC7", "8.0")
if (vcdir != 0) and (vcdir[-4:] == "\\VC\\"):
vcdir = vcdir[:-3]
SDK["VISUALSTUDIO"] = vcdir
def SdkLocateMSPlatform():
platsdk=GetRegistryKey("SOFTWARE\\Microsoft\\MicrosoftSDK\\InstalledSDKs\\D2FF9F89-8AA2-4373-8A31-C838BF4DBBE1",
"Install Dir")
if (platsdk != 0):
SDK["MSPLATFORM"] = platsdk
########################################################################
##
## SDK Auto-Disables
##
## Disable packages whose SDKs could not be found.
##
########################################################################
def SdkAutoDisableDirectX():
for ver in ["DX8","DX9"]:
if (PkgSkip(ver)==0):
if (SDK.has_key(ver)==0):
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 (SDK.has_key(ver)==0) and (PkgSkip(ver)==0):
if (sys.platform == "win32"):
WARNINGS.append("The registry does not appear to contain a pointer to the "+ver+" SDK.")
WARNINGS.append("I have automatically added this command-line option: --no-"+ver.lower())
else:
WARNINGS.append(ver+" not yet supported under linux")
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 ((SDK.has_key(version)==0) or (SDK.has_key(version+"CS")==0)):
if (sys.platform == "win32"):
if (SDK.has_key(version)):
WARNINGS.append("Your copy of "+version+" does not include the character studio SDK")
WARNINGS.append("I have automatically added this command-line option: --no-"+version.lower())
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())
else:
WARNINGS.append(version+" not yet supported under linux")
WARNINGS.append("I have automatically added this command-line option: --no-"+version.lower())
PkgDisable(version)
########################################################################
##
## 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 (os.environ.has_key(path)):
os.environ[path] = add + ";" + os.environ[path]
else:
os.environ[path] = add
def SetupVisualStudioEnviron():
if (SDK.has_key("VISUALSTUDIO")==0):
exit("Could not find Visual Studio install directory")
if (SDK.has_key("MSPLATFORM")==0):
exit("Could not find the Microsoft Platform SDK")
AddToPathEnv("PATH", SDK["VISUALSTUDIO"] + "VC\\bin")
AddToPathEnv("PATH", SDK["VISUALSTUDIO"] + "Common7\\IDE")
AddToPathEnv("INCLUDE", SDK["VISUALSTUDIO"] + "VC\\include")
AddToPathEnv("LIB", SDK["VISUALSTUDIO"] + "VC\\lib")
AddToPathEnv("INCLUDE", SDK["MSPLATFORM"] + "include")
AddToPathEnv("INCLUDE", SDK["MSPLATFORM"] + "include\\atl")
AddToPathEnv("LIB", SDK["MSPLATFORM"] + "lib")
########################################################################
#
# On Linux, to run panda, the dynamic linker needs to know how to find
# the shared libraries. This subroutine verifies that the dynamic
# linker is properly configured. If not, it sets it up on a temporary
# basis and issues a warning.
#
########################################################################
def CheckLinkerLibraryPath():
if (sys.platform == "win32"): return
builtlib = os.path.abspath("built/lib")
try:
ldpath = []
f = file("/etc/ld.so.conf","r")
for line in f: ldpath.append(line.rstrip())
f.close()
except: ldpath = []
if (os.environ.has_key("LD_LIBRARY_PATH")):
ldpath = ldpath + os.environ["LD_LIBRARY_PATH"].split(":")
if (ldpath.count(builtlib)==0):
WARNINGS.append("Caution: the built/lib directory is not in LD_LIBRARY_PATH")
WARNINGS.append("or /etc/ld.so.conf. You must add it before using panda.")
if (os.environ.has_key("LD_LIBRARY_PATH")):
os.environ["LD_LIBRARY_PATH"] = builtlib + ":" + os.environ["LD_LIBRARY_PATH"]
else:
os.environ["LD_LIBRARY_PATH"] = builtlib
########################################################################
##
## Routines to copy files into the build tree
##
########################################################################
def CopyFile(dstfile,srcfile):
if (dstfile[-1]=='/'):
dstdir = dstfile
fnl = srcfile.rfind("/")
if (fnl < 0): fn = srcfile
else: fn = srcfile[fnl+1:]
dstfile = dstdir + fn
if (NeedsBuild([dstfile],[srcfile])):
WriteFile(dstfile,ReadFile(srcfile))
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 = "built/include/" + filename
if (NeedsBuild([dstfile],[srcfile])):
WriteFile(dstfile,ReadFile(srcfile))
JustBuilt([dstfile],[srcfile])
def CopyTree(dstdir,srcdir):
if (os.path.isdir(dstdir)): return 0
if (sys.platform == "win32"):
cmd = 'xcopy /I/Y/E/Q "' + srcdir + '" "' + dstdir + '"'
else:
cmd = 'cp --recursive --force ' + srcdir + ' ' + dstdir
oscmd(cmd)
########################################################################
##
## Parse PandaVersion.pp to extract the version number.
##
########################################################################
def ParsePandaVersion(fn):
try:
f = file(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):
version = match.group(1)+"."+match.group(2)+"."+match.group(3)
break
f.close()
except: version="0.0.0"
return version
########################################################################
##
## FindLocation
##
########################################################################
def FindLocation(fn, ipath):
if (fn.count("/")): return fn
if (sys.platform == "win32"):
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(".yxx")): return CxxFindSource(fn, ipath)
if (fn.endswith(".lxx")): return CxxFindSource(fn, ipath)
if (fn.endswith(".def")): return CxxFindSource(fn, ipath)
if (fn.endswith(".obj")): return "built/tmp/"+fn
if (fn.endswith(".dll")): return "built/bin/"+fn
if (fn.endswith(".dlo")): return "built/plugins/"+fn
if (fn.endswith(".dli")): return "built/plugins/"+fn
if (fn.endswith(".dle")): return "built/plugins/"+fn
if (fn.endswith(".mll")): return "built/plugins/"+fn
if (fn.endswith(".exe")): return "built/bin/"+fn
if (fn.endswith(".lib")): return "built/lib/"+fn
if (fn.endswith(".ilb")): return "built/tmp/"+fn[:-4]+".lib"
if (fn.endswith(".dat")): return "built/tmp/"+fn
if (fn.endswith(".in")): return "built/pandac/input/"+fn
else:
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(".yxx")): return CxxFindSource(fn, ipath)
if (fn.endswith(".lxx")): return CxxFindSource(fn, ipath)
if (fn.endswith(".obj")): return "built/tmp/"+fn[:-4]+".o"
if (fn.endswith(".dll")): return "built/lib/"+fn[:-4]+".so"
if (fn.endswith(".exe")): return "built/bin/"+fn[:-4]
if (fn.endswith(".lib")): return "built/lib/"+fn[:-4]+".a"
if (fn.endswith(".ilb")): return "built/tmp/"+fn[:-4]+".a"
if (fn.endswith(".dat")): return "built/tmp/"+fn
if (fn.endswith(".in")): return "built/pandac/input/"+fn
return fn
########################################################################
##
## 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.
##
########################################################################
class Target:
pass
TARGET_LIST=[]
TARGET_TABLE={}
def TargetAdd(target, dummy=0, opts=0, input=0, dep=0, ipath=0):
if (dummy != 0):
exit("Syntax error in TargetAdd "+target)
if (ipath == 0): ipath = opts
if (ipath == 0): ipath = []
if (type(input) == str): input = [input]
if (type(dep) == str): dep = [dep]
full = FindLocation(target,["built/include"])
if (TARGET_TABLE.has_key(full) == 0):
(base,suffix) = os.path.splitext(target)
t = Target()
t.ext = suffix
t.name = full
t.inputs = []
t.deps = {}
t.opts = []
TARGET_TABLE[full] = t
TARGET_LIST.append(t)
else:
t = TARGET_TABLE[full]
ipath = ["built/tmp"] + GetListOption(ipath, "DIR:") + ["built/include"]
if (opts != 0):
for x in opts:
if (t.opts.count(x)==0):
t.opts.append(x)
if (input != 0):
for x in input:
fullinput = FindLocation(x, ipath)
t.inputs.append(fullinput)
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
if (dep != 0):
for x in dep:
fulldep = FindLocation(x, ipath)
t.deps[fulldep] = 1
if (target.endswith(".in")):
t.deps[FindLocation("interrogate.exe",[])] = 1
t.deps[FindLocation("dtool_have_python.dat",[])] = 1