blender/build_files/scons/tools/Blender.py

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#!/usr/bin/env python
"""
tools.BlenderEnvironment
This environment builds on SCons.Script.SConscript.SConsEnvironment
* library repository
* custom printout
* wrapper functions
TODO: clean up and sanitise code - crosscheck with btools and SConstruct
to kill any code duplication
2007-05-22 22:20:35 +00:00
"""
import os
import os.path
import string
import glob
import time
import sys
import zipfile
import shutil
import cStringIO
import platform
from SCons.Script.SConscript import SConsEnvironment
import SCons.Action
import SCons.Util
import SCons.Builder
import SCons.Tool
import bcolors
bc = bcolors.bcolors()
import btools
VERSION = btools.VERSION
Split = SCons.Util.Split
Action = SCons.Action.Action
Builder = SCons.Builder.Builder
GetBuildPath = SConsEnvironment.GetBuildPath
# a few globals
root_build_dir = ''
doc_build_dir = ''
quickie = None # Anything else than None if BF_QUICK has been passed
quicklist = [] # The list of libraries/programs to compile during a quickie
program_list = [] # A list holding Nodes to final binaries, used to create installs
arguments = None
targets = None
resources = []
#some internals
blenderdeps = [] # don't manipulate this one outside this module!
##### LIB STUFF ##########
possible_types = ['core'] # can be set in ie. SConstruct
libs = {}
vcp = []
def getresources():
return resources
def init_lib_dict():
for pt in possible_types:
libs[pt] = {}
# helper func for add_lib_to_dict
def internal_lib_to_dict(dict = None, libtype = None, libname = None, priority = 100):
if not libname in dict[libtype]:
done = None
while not done:
if dict[libtype].has_key(priority):
priority = priority + 1
else:
done = True
dict[libtype][priority] = libname
# libtype and priority can both be lists, for defining lib in multiple places
def add_lib_to_dict(env, dict = None, libtype = None, libname = None, priority = 100):
if not dict or not libtype or not libname:
print "Passed wrong arg"
env.Exit()
if type(libtype) is str and type(priority) is int:
internal_lib_to_dict(dict, libtype, libname, priority)
elif type(libtype) is list and type(priority) is list:
if len(libtype)==len(priority):
for lt, p in zip(libtype, priority):
internal_lib_to_dict(dict, lt, libname, p)
else:
print "libtype and priority lists are unequal in length"
env.Exit()
else:
print "Wrong type combinations for libtype and priority. Only str and int or list and list"
env.Exit()
def create_blender_liblist(lenv = None, libtype = None):
if not lenv or not libtype:
print "missing arg"
lst = []
if libtype in possible_types:
curlib = libs[libtype]
sortlist = curlib.keys()
sortlist.sort()
for sk in sortlist:
v = curlib[sk]
if not (root_build_dir[0]==os.sep or root_build_dir[1]==':'):
target = os.path.abspath(os.getcwd() + os.sep + root_build_dir + 'lib' + os.sep +lenv['LIBPREFIX'] + v + lenv['LIBSUFFIX'])
else:
target = os.path.abspath(root_build_dir + 'lib' + os.sep +lenv['LIBPREFIX'] + v + lenv['LIBSUFFIX'])
lst.append(target)
return lst
## TODO: static linking
def setup_staticlibs(lenv):
statlibs = [
#here libs for static linking
]
libincs = []
if lenv['WITH_BF_FFMPEG']:
libincs += Split(lenv['BF_FFMPEG_LIBPATH'])
libincs.extend([
lenv['BF_OPENGL_LIBPATH'],
lenv['BF_JPEG_LIBPATH'],
lenv['BF_ZLIB_LIBPATH'],
lenv['BF_PNG_LIBPATH'],
lenv['BF_LIBSAMPLERATE_LIBPATH'],
lenv['BF_ICONV_LIBPATH']
])
libincs += Split(lenv['BF_FREETYPE_LIBPATH'])
if lenv['WITH_BF_PYTHON']:
libincs += Split(lenv['BF_PYTHON_LIBPATH'])
if lenv['WITH_BF_SDL']:
libincs += Split(lenv['BF_SDL_LIBPATH'])
if lenv['WITH_BF_JACK']:
libincs += Split(lenv['BF_JACK_LIBPATH'])
if lenv['WITH_BF_SNDFILE']:
libincs += Split(lenv['BF_SNDFILE_LIBPATH'])
if lenv['WITH_BF_OPENEXR']:
libincs += Split(lenv['BF_OPENEXR_LIBPATH'])
if lenv['WITH_BF_STATICOPENEXR']:
statlibs += Split(lenv['BF_OPENEXR_LIB_STATIC'])
if lenv['WITH_BF_LCMS']:
libincs += Split(lenv['BF_LCMS_LIBPATH'])
if lenv['WITH_BF_TIFF']:
libincs += Split(lenv['BF_TIFF_LIBPATH'])
if lenv['WITH_BF_STATICTIFF']:
statlibs += Split(lenv['BF_TIFF_LIB_STATIC'])
if lenv['WITH_BF_ZLIB'] and lenv['WITH_BF_STATICZLIB']:
statlibs += Split(lenv['BF_ZLIB_LIB_STATIC'])
if lenv['WITH_BF_FFTW3']:
libincs += Split(lenv['BF_FFTW3_LIBPATH'])
if lenv['WITH_BF_STATICFFTW3']:
statlibs += Split(lenv['BF_FFTW3_LIB_STATIC'])
if lenv['WITH_BF_FFMPEG'] and lenv['WITH_BF_STATICFFMPEG']:
statlibs += Split(lenv['BF_FFMPEG_LIB_STATIC'])
if lenv['WITH_BF_INTERNATIONAL']:
libincs += Split(lenv['BF_GETTEXT_LIBPATH'])
if lenv['WITH_BF_GETTEXT_STATIC']:
statlibs += Split(lenv['BF_GETTEXT_LIB_STATIC'])
if lenv['WITH_BF_FREETYPE_STATIC']:
statlibs += Split(lenv['BF_FREETYPE_LIB_STATIC'])
if lenv['WITH_BF_OPENAL']:
libincs += Split(lenv['BF_OPENAL_LIBPATH'])
if lenv['WITH_BF_STATICOPENAL']:
statlibs += Split(lenv['BF_OPENAL_LIB_STATIC'])
if lenv['WITH_BF_STATICOPENGL']:
statlibs += Split(lenv['BF_OPENGL_LIB_STATIC'])
if lenv['WITH_BF_STATICCXX']:
statlibs += Split(lenv['BF_CXX_LIB_STATIC'])
if lenv['WITH_BF_PYTHON'] and lenv['WITH_BF_STATICPYTHON']:
statlibs += Split(lenv['BF_PYTHON_LIB_STATIC'])
if lenv['WITH_BF_SNDFILE'] and lenv['WITH_BF_STATICSNDFILE']:
statlibs += Split(lenv['BF_SNDFILE_LIB_STATIC'])
if lenv['OURPLATFORM'] in ('win32-vc', 'win32-mingw', 'linuxcross', 'win64-vc'):
libincs += Split(lenv['BF_PTHREADS_LIBPATH'])
if lenv['WITH_BF_COLLADA']:
libincs += Split(lenv['BF_OPENCOLLADA_LIBPATH'])
if lenv['OURPLATFORM'] not in ('win32-vc', 'win32-mingw', 'linuxcross', 'win64-vc'):
libincs += Split(lenv['BF_PCRE_LIBPATH'])
libincs += Split(lenv['BF_EXPAT_LIBPATH'])
if lenv['WITH_BF_OPENMP']:
if lenv['OURPLATFORM'] == 'linuxcross':
libincs += Split(lenv['BF_OPENMP_LIBPATH'])
if lenv['WITH_BF_STATICLIBSAMPLERATE']:
statlibs += Split(lenv['BF_LIBSAMPLERATE_LIB_STATIC'])
# setting this last so any overriding of manually libs could be handled
if lenv['OURPLATFORM'] not in ('win32-vc', 'win32-mingw', 'win64-vc', 'linuxcross'):
libincs.append('/usr/lib')
return statlibs, libincs
def setup_syslibs(lenv):
syslibs = [
lenv['BF_JPEG_LIB'],
lenv['BF_PNG_LIB'],
]
if not lenv['WITH_BF_FREETYPE_STATIC']:
syslibs += Split(lenv['BF_FREETYPE_LIB'])
if lenv['WITH_BF_PYTHON'] and not lenv['WITH_BF_STATICPYTHON']:
if lenv['BF_DEBUG'] and lenv['OURPLATFORM'] in ('win32-vc', 'win64-vc', 'win32-mingw'):
syslibs.append(lenv['BF_PYTHON_LIB']+'_d')
else:
syslibs.append(lenv['BF_PYTHON_LIB'])
if lenv['WITH_BF_INTERNATIONAL'] and not lenv['WITH_BF_GETTEXT_STATIC']:
syslibs += Split(lenv['BF_GETTEXT_LIB'])
if lenv['WITH_BF_OPENAL']:
if not lenv['WITH_BF_STATICOPENAL']:
syslibs += Split(lenv['BF_OPENAL_LIB'])
if lenv['WITH_BF_OPENMP'] and lenv['CC'] != 'icc':
if lenv['CC'] == 'cl.exe':
syslibs += ['vcomp']
else:
syslibs += ['gomp']
if lenv['WITH_BF_ICONV']:
syslibs += Split(lenv['BF_ICONV_LIB'])
if lenv['WITH_BF_OPENEXR'] and not lenv['WITH_BF_STATICOPENEXR']:
syslibs += Split(lenv['BF_OPENEXR_LIB'])
if lenv['WITH_BF_TIFF'] and not lenv['WITH_BF_STATICTIFF']:
syslibs += Split(lenv['BF_TIFF_LIB'])
if lenv['WITH_BF_ZLIB'] and not lenv['WITH_BF_STATICZLIB']:
syslibs += Split(lenv['BF_ZLIB_LIB'])
if lenv['WITH_BF_FFMPEG'] and not lenv['WITH_BF_STATICFFMPEG']:
syslibs += Split(lenv['BF_FFMPEG_LIB'])
if lenv['WITH_BF_OGG']:
syslibs += Split(lenv['BF_OGG_LIB'])
if lenv['WITH_BF_JACK']:
syslibs += Split(lenv['BF_JACK_LIB'])
if lenv['WITH_BF_SNDFILE'] and not lenv['WITH_BF_STATICSNDFILE']:
syslibs += Split(lenv['BF_SNDFILE_LIB'])
if lenv['WITH_BF_FFTW3'] and not lenv['WITH_BF_STATICFFTW3']:
syslibs += Split(lenv['BF_FFTW3_LIB'])
if lenv['WITH_BF_SDL']:
syslibs += Split(lenv['BF_SDL_LIB'])
if not lenv['WITH_BF_STATICOPENGL']:
syslibs += Split(lenv['BF_OPENGL_LIB'])
if lenv['OURPLATFORM'] in ('win32-vc', 'win32-mingw','linuxcross', 'win64-vc'):
syslibs += Split(lenv['BF_PTHREADS_LIB'])
if lenv['WITH_BF_LCMS']:
syslibs.append(lenv['BF_LCMS_LIB'])
if lenv['WITH_BF_COLLADA']:
syslibs.append(lenv['BF_PCRE_LIB'])
syslibs += Split(lenv['BF_OPENCOLLADA_LIB'])
syslibs.append(lenv['BF_EXPAT_LIB'])
if not lenv['WITH_BF_STATICLIBSAMPLERATE']:
syslibs += Split(lenv['BF_LIBSAMPLERATE_LIB'])
syslibs += lenv['LLIBS']
return syslibs
def propose_priorities():
print bc.OKBLUE+"Priorities:"+bc.ENDC
for t in possible_types:
print bc.OKGREEN+"\t"+t+bc.ENDC
new_priority = 0
curlib = libs[t]
sortlist = curlib.keys()
sortlist.sort()
for sk in sortlist:
v = curlib[sk]
#for p,v in sorted(libs[t].iteritems()):
print "\t\t",new_priority, v
new_priority += 5
## TODO: see if this can be made in an emitter
def buildinfo(lenv, build_type):
"""
Generate a buildinfo object
"""
build_date = time.strftime ("%Y-%m-%d")
build_time = time.strftime ("%H:%M:%S")
build_rev = os.popen('svnversion').read()[:-1] # remove \n
if build_rev == '':
build_rev = '-UNKNOWN-'
if lenv['BF_DEBUG']:
build_type = "Debug"
build_cflags = ' '.join(lenv['CFLAGS'] + lenv['CCFLAGS'] + lenv['BF_DEBUG_CCFLAGS'] + lenv['CPPFLAGS'])
build_cxxflags = ' '.join(lenv['CCFLAGS'] + lenv['CXXFLAGS'] + lenv['CPPFLAGS'])
else:
build_type = "Release"
build_cflags = ' '.join(lenv['CFLAGS'] + lenv['CCFLAGS'] + lenv['REL_CFLAGS'] + lenv['REL_CCFLAGS'] + lenv['CPPFLAGS'])
build_cxxflags = ' '.join(lenv['CCFLAGS'] + lenv['CXXFLAGS'] + lenv['REL_CXXFLAGS'] + lenv['REL_CCFLAGS'] + lenv['CPPFLAGS'])
build_linkflags = ' '.join(lenv['PLATFORM_LINKFLAGS'])
obj = []
if lenv['BF_BUILDINFO']:
lenv.Append (CPPDEFINES = ['BUILD_TIME="%s"'%(build_time),
'BUILD_DATE="%s"'%(build_date),
'BUILD_TYPE="%s"'%(build_type),
'BUILD_REV="%s"'%(build_rev),
'NAN_BUILDINFO',
'BUILD_PLATFORM="%s:%s"'%(platform.system(), platform.architecture()[0]),
'BUILD_CFLAGS=\\"%s\\"'%(build_cflags),
'BUILD_CXXFLAGS=\\"%s\\"'%(build_cxxflags),
'BUILD_LINKFLAGS=\\"%s\\"'%(build_linkflags),
'BUILD_SYSTEM="SCons"'
])
lenv.Append (CPPPATH = [root_build_dir+'source/blender/blenkernel'])
obj = [lenv.Object (root_build_dir+'source/creator/%s_buildinfo'%build_type, [root_build_dir+'source/creator/buildinfo.c'])]
return obj
##### END LIB STUFF ############
##### ACTION STUFF #############
def my_print_cmd_line(self, s, target, source, env):
sys.stdout.write(' ' * 70 + '\r')
sys.stdout.flush()
sys.stdout.write(s + "\r")
sys.stdout.flush()
def my_compile_print(target, source, env):
a = '%s' % (source[0])
d, f = os.path.split(a)
return bc.OKBLUE+"Compiling"+bc.ENDC +" ==> '"+bc.OKGREEN+"%s" % (f) + "'"+bc.ENDC
def my_moc_print(target, source, env):
a = '%s' % (source[0])
d, f = os.path.split(a)
return bc.OKBLUE+"Creating MOC"+bc.ENDC+ " ==> '"+bc.OKGREEN+"%s" %(f) + "'"+bc.ENDC
def my_linking_print(target, source, env):
t = '%s' % (target[0])
d, f = os.path.split(t)
return bc.OKBLUE+"Linking library"+bc.ENDC +" ==> '"+bc.OKGREEN+"%s" % (f) + "'"+bc.ENDC
def my_program_print(target, source, env):
t = '%s' % (target[0])
d, f = os.path.split(t)
return bc.OKBLUE+"Linking program"+bc.ENDC +" ==> '"+bc.OKGREEN+"%s" % (f) + "'"+bc.ENDC
def msvc_hack(env):
static_lib = SCons.Tool.createStaticLibBuilder(env)
program = SCons.Tool.createProgBuilder(env)
env['BUILDERS']['Library'] = static_lib
env['BUILDERS']['StaticLibrary'] = static_lib
env['BUILDERS']['Program'] = program
def set_quiet_output(env):
mycaction = Action("$CCCOM", strfunction=my_compile_print)
myshcaction = Action("$SHCCCOM", strfunction=my_compile_print)
mycppaction = Action("$CXXCOM", strfunction=my_compile_print)
myshcppaction = Action("$SHCXXCOM", strfunction=my_compile_print)
mylibaction = Action("$ARCOM", strfunction=my_linking_print)
mylinkaction = Action("$LINKCOM", strfunction=my_program_print)
static_ob, shared_ob = SCons.Tool.createObjBuilders(env)
static_ob.add_action('.c', mycaction)
static_ob.add_action('.cpp', mycppaction)
shared_ob.add_action('.c', myshcaction)
shared_ob.add_action('.cpp', myshcppaction)
static_lib = SCons.Builder.Builder(action = mylibaction,
emitter = '$LIBEMITTER',
prefix = '$LIBPREFIX',
suffix = '$LIBSUFFIX',
src_suffix = '$OBJSUFFIX',
src_builder = 'StaticObject')
program = SCons.Builder.Builder(action = mylinkaction,
emitter = '$PROGEMITTER',
prefix = '$PROGPREFIX',
suffix = '$PROGSUFFIX',
src_suffix = '$OBJSUFFIX',
src_builder = 'Object',
target_scanner = SCons.Defaults.ProgScan)
env['BUILDERS']['Object'] = static_ob
env['BUILDERS']['StaticObject'] = static_ob
env['BUILDERS']['StaticLibrary'] = static_lib
env['BUILDERS']['Library'] = static_lib
env['BUILDERS']['Program'] = program
if env['BF_LINE_OVERWRITE']:
SCons.Action._ActionAction.print_cmd_line = my_print_cmd_line
class CompZipFile(zipfile.ZipFile):
"""Partial copy of python2.6's zipfile.ZipFile (see http://www.python.org)
to get a extractall() that works on py2.5 and probably earlier distributions."""
def __init__(self, file, mode="r", compression=zipfile.ZIP_STORED, allowZip64=False):
if sys.version_info < (2, 6):
zipfile.ZipFile.__init__(self, file, mode, compression)
else:
zipfile.ZipFile.__init__(self, file, mode, compression, allowZip64)
if not hasattr(self,"extractall"): # use our method
print "Debug: Using comp_extractall!"
self.extractall= self.comp_extractall
def comp_extractall(self, path=None, members=None, pwd=None): #renamed method
"""Extract all members from the archive to the current working
directory. `path' specifies a different directory to extract to.
`members' is optional and must be a subset of the list returned
by namelist().
"""
if members is None:
members = self.namelist()
for zipinfo in members:
self.comp_extract(zipinfo, path, pwd) # use our method
def comp_extract(self, member, path=None, pwd=None): #renamed method
"""Extract a member from the archive to the current working directory,
using its full name. Its file information is extracted as accurately
as possible. `member' may be a filename or a ZipInfo object. You can
specify a different directory using `path'.
"""
if not isinstance(member, zipfile.ZipInfo):
member = self.getinfo(member)
if path is None:
path = os.getcwd()
return self.comp_extract_member(member, path, pwd) # use our method
def comp_extract_member(self, member, targetpath, pwd): #renamed method
"""Extract the ZipInfo object 'member' to a physical
file on the path targetpath.
"""
# build the destination pathname, replacing
# forward slashes to platform specific separators.
if targetpath[-1:] in (os.path.sep, os.path.altsep):
targetpath = targetpath[:-1]
# don't include leading "/" from file name if present
if member.filename[0] == '/':
targetpath = os.path.join(targetpath, member.filename[1:])
else:
targetpath = os.path.join(targetpath, member.filename)
targetpath = os.path.normpath(targetpath)
# Create all upper directories if necessary.
upperdirs = os.path.dirname(targetpath)
if upperdirs and not os.path.exists(upperdirs):
os.makedirs(upperdirs)
if member.filename[-1] == '/':
os.mkdir(targetpath)
return targetpath
#use StrinIO instead so we don't have to reproduce more functionality.
source = cStringIO.StringIO(self.read(member.filename))
target = file(targetpath, "wb")
shutil.copyfileobj(source, target)
source.close()
target.close()
return targetpath
def unzip_pybundle(from_zip,to_dir,exclude_re):
zip= CompZipFile(from_zip, mode='r')
exclude_re= list(exclude_re) #single re object or list of re objects
debug= 0 #list files instead of unpacking
good= []
if debug: print '\nFiles not being unpacked:\n'
for name in zip.namelist():
is_bad= 0
for r in exclude_re:
if r.match(name):
is_bad=1
if debug: print name
break
if not is_bad:
good.append(name)
if debug:
print '\nFiles being unpacked:\n'
for g in good:
print g
else:
zip.extractall(to_dir, good)
def my_winpybundle_print(target, source, env):
pass
def WinPyBundle(target=None, source=None, env=None):
import re
py_zip= env.subst( env['LCGDIR'] )
if py_zip[0]=='#':
py_zip= py_zip[1:]
if env['BF_DEBUG']:
py_zip+= '/release/python' + env['BF_PYTHON_VERSION'].replace('.','') + '_d.zip'
else:
py_zip+= '/release/python' + env['BF_PYTHON_VERSION'].replace('.','') + '.zip'
py_target = env.subst( env['BF_INSTALLDIR'] )
if py_target[0]=='#':
py_target=py_target[1:]
py_target = os.path.join(py_target, VERSION, 'python', 'lib')
def printexception(func,path,ex):
if os.path.exists(path): #do not report if path does not exist. eg on a fresh build.
print str(func) + ' failed on ' + str(path)
print "Trying to remove existing py bundle."
shutil.rmtree(py_target, False, printexception)
exclude_re=[re.compile('.*/test/.*'),
re.compile('^config/.*'),
re.compile('^distutils/.*'),
re.compile('^idlelib/.*'),
re.compile('^lib2to3/.*'),
re.compile('^tkinter/.*')]
print "Unpacking '" + py_zip + "' to '" + py_target + "'"
unzip_pybundle(py_zip,py_target,exclude_re)
def my_appit_print(target, source, env):
a = '%s' % (target[0])
d, f = os.path.split(a)
return "making bundle for " + f
def AppIt(target=None, source=None, env=None):
import shutil
import commands
import os.path
a = '%s' % (target[0])
builddir, b = os.path.split(a)
libdir = env['LCGDIR'][1:]
osxarch = env['MACOSX_ARCHITECTURE']
installdir = env['BF_INSTALLDIR']
print("compiled architecture: %s"%(osxarch))
print("Installing to %s"%(installdir))
python_zip = 'python_' + osxarch + '.zip' # set specific python_arch.zip
print("unzipping to app-bundle: %s"%(python_zip))
bldroot = env.Dir('.').abspath
binary = env['BINARYKIND']
if b=='verse':
print bc.OKBLUE+"no bundle for verse"+bc.ENDC
return 0
sourcedir = bldroot + '/source/darwin/%s.app'%binary
sourceinfo = bldroot + "/source/darwin/%s.app/Contents/Info.plist"%binary
targetinfo = installdir +'/' + "%s.app/Contents/Info.plist"%binary
cmd = installdir + '/' +'%s.app'%binary
if os.path.isdir(cmd):
shutil.rmtree(cmd)
shutil.copytree(sourcedir, cmd)
cmd = "cat %s | sed s/VERSION/`cat release/VERSION`/ | sed s/DATE/`date +'%%Y-%%b-%%d'`/ > %s"%(sourceinfo,targetinfo)
commands.getoutput(cmd)
cmd = 'cp %s/%s %s/%s.app/Contents/MacOS/%s'%(builddir, binary,installdir, binary, binary)
commands.getoutput(cmd)
cmd = 'mkdir %s/%s.app/Contents/MacOS/%s/'%(installdir, binary, VERSION)
# print cmd
commands.getoutput(cmd)
cmd = installdir + '/%s.app/Contents/MacOS/%s'%(binary,VERSION)
shutil.copy(bldroot + '/release/bin/.blender/.bfont.ttf', cmd)
shutil.copy(bldroot + '/release/bin/.blender/.Blanguages', cmd)
cmd = 'cp -R %s/release/bin/%s/locale %s/%s.app/Contents/Resources/'%(bldroot,VERSION,installdir,binary)
commands.getoutput(cmd)
cmd = 'cp -R %s/release/bin/%s/locale %s/%s.app/Contents/MacOS/%s/'%(bldroot,VERSION,installdir,binary,VERSION)
commands.getoutput(cmd)
cmd = 'cp %s/release/bin/%s/.Blanguages %s/%s.app/Contents/Resources/'%(bldroot,VERSION,installdir,binary)
commands.getoutput(cmd)
cmd = 'mkdir %s/%s.app/Contents/MacOS/%s/python/'%(installdir,binary, VERSION)
commands.getoutput(cmd)
cmd = 'unzip -q %s/release/%s -d %s/%s.app/Contents/MacOS/%s/python/'%(libdir,python_zip,installdir,binary,VERSION)
commands.getoutput(cmd)
cmd = 'cp -R %s/release/scripts %s/%s.app/Contents/MacOS/%s/'%(bldroot,installdir,binary,VERSION)
commands.getoutput(cmd)
cmd = 'cp -R %s/release/ui %s/%s.app/Contents/MacOS/%s/'%(bldroot,installdir,binary,VERSION)
commands.getoutput(cmd)
cmd = 'cp -R %s/release/io %s/%s.app/Contents/MacOS/%s/'%(bldroot,installdir,binary,VERSION)
commands.getoutput(cmd)
cmd = 'chmod +x %s/%s.app/Contents/MacOS/%s'%(installdir,binary, binary)
commands.getoutput(cmd)
cmd = 'find %s/%s.app -name .svn -prune -exec rm -rf {} \;'%(installdir, binary)
commands.getoutput(cmd)
cmd = 'find %s/%s.app -name .DS_Store -exec rm -rf {} \;'%(installdir, binary)
commands.getoutput(cmd)
cmd = 'find %s/%s.app -name __MACOSX -exec rm -rf {} \;'%(installdir, binary)
commands.getoutput(cmd)
# extract copy system python, be sure to update other build systems
# when making changes to the files that are copied.
def my_unixpybundle_print(target, source, env):
pass
def UnixPyBundle(target=None, source=None, env=None):
# Any Unix except osx
#-- VERSION/python/lib/python3.1
import commands
def run(cmd):
print 'Install command:', cmd
commands.getoutput(cmd)
dir = os.path.join(env['BF_INSTALLDIR'], VERSION)
py_src = env.subst( env['BF_PYTHON_LIBPATH'] + '/python'+env['BF_PYTHON_VERSION'] )
py_target = env.subst( dir + '/python/lib/python'+env['BF_PYTHON_VERSION'] )
# This is a bit weak, but dont install if its been installed before, makes rebuilds quite slow.
if os.path.exists(py_target):
print 'Using existing python from:'
print '\t"%s"' % py_target
print '\t(skipping copy)\n'
return
# Copied from source/creator/CMakeLists.txt, keep in sync.
print 'Install python from:'
print '\t"%s" into...' % py_src
print '\t"%s"\n' % py_target
run('rm -rf "%s"' % py_target)
try: os.makedirs(os.path.dirname(py_target)) # the final part is copied
except:pass
run('cp -R "%s" "%s"' % (py_src, os.path.dirname(py_target)))
run('rm -rf "%s/distutils"' % py_target)
run('rm -rf "%s/lib2to3"' % py_target)
run('rm -rf "%s/idlelib"' % py_target)
run('rm -rf "%s/tkinter"' % py_target)
run('rm -rf "%s/config"' % py_target)
run('rm -rf "%s/site-packages"' % py_target)
run('mkdir "%s/site-packages"' % py_target) # python needs it.'
run('rm -f "%s/lib-dynload/_tkinter.so"' % py_target)
run('find "%s" -name "test" -prune -exec rm -rf {} \;' % py_target)
run('find "%s" -name "*.py?" -exec rm -rf {} \;' % py_target)
run('find "%s" -name "*.so"-exec strip -s {} \;' % py_target)
#### END ACTION STUFF #########
def bsc(env, target, source):
bd = os.path.dirname(target[0].abspath)
bscfile = '\"'+target[0].abspath+'\"'
bscpathcollect = '\"'+bd + os.sep + '*.sbr\"'
bscpathtmp = '\"'+bd + os.sep + 'bscmake.tmp\"'
os.system('dir /b/s '+bscpathcollect+' >'+bscpathtmp)
myfile = open(bscpathtmp[1:-1], 'r')
lines = myfile.readlines()
myfile.close()
newfile = open(bscpathtmp[1:-1], 'w')
for l in lines:
newfile.write('\"'+l[:-1]+'\"\n')
newfile.close()
os.system('bscmake /nologo /n /o'+bscfile+' @'+bscpathtmp)
os.system('del '+bscpathtmp)
class BlenderEnvironment(SConsEnvironment):
def BlenderRes(self=None, libname=None, source=None, libtype=['core'], priority=[100]):
global libs
if not self or not libname or not source:
print bc.FAIL+'Cannot continue. Missing argument for BlenderRes '+libname+bc.ENDC
self.Exit()
if self['OURPLATFORM'] not in ('win32-vc','win32-mingw','linuxcross', 'win64-vc'):
print bc.FAIL+'BlenderRes is for windows only!'+bc.END
self.Exit()
print bc.HEADER+'Configuring resource '+bc.ENDC+bc.OKGREEN+libname+bc.ENDC
lenv = self.Clone()
if not (root_build_dir[0]==os.sep or root_build_dir[1]==':'):
res = lenv.RES('#'+root_build_dir+'lib/'+libname, source)
else:
res = lenv.RES(root_build_dir+'lib/'+libname, source)
SConsEnvironment.Default(self, res)
resources.append(res)
def BlenderLib(self=None, libname=None, sources=None, includes=[], defines=[], libtype='common', priority = 100, compileflags=None, cc_compileflags=None, cxx_compileflags=None):
global vcp
if not self or not libname or not sources:
print bc.FAIL+'Cannot continue. Missing argument for BuildBlenderLib '+libname+bc.ENDC
self.Exit()
def list_substring(quickie, libname):
for q in quickie:
if libname.find(q) != -1:
return True
return False
if list_substring(quickie, libname) or len(quickie)==0:
if list_substring(quickdebug, libname):
print bc.HEADER+'Configuring library '+bc.ENDC+bc.OKGREEN+libname +bc.ENDC+bc.OKBLUE+ " (debug mode)" + bc.ENDC
else:
print bc.HEADER+'Configuring library '+bc.ENDC+bc.OKGREEN+libname + bc.ENDC
lenv = self.Clone()
lenv.Append(CPPPATH=includes)
lenv.Append(CPPDEFINES=defines)
if lenv['BF_DEBUG'] or (libname in quickdebug):
lenv.Append(CFLAGS = lenv['BF_DEBUG_CFLAGS'])
lenv.Append(CCFLAGS = lenv['BF_DEBUG_CCFLAGS'])
lenv.Append(CXXFLAGS = lenv['BF_DEBUG_CXXFLAGS'])
else:
lenv.Append(CFLAGS = lenv['REL_CFLAGS'])
lenv.Append(CCFLAGS = lenv['REL_CCFLAGS'])
lenv.Append(CXXFLAGS = lenv['REL_CXXFLAGS'])
if lenv['BF_PROFILE']:
lenv.Append(CFLAGS = lenv['BF_PROFILE_CFLAGS'])
lenv.Append(CCFLAGS = lenv['BF_PROFILE_CCFLAGS'])
lenv.Append(CXXFLAGS = lenv['BF_PROFILE_CXXFLAGS'])
if compileflags:
lenv.Replace(CFLAGS = compileflags)
if cc_compileflags:
lenv.Replace(CCFLAGS = cc_compileflags)
if cxx_compileflags:
lenv.Replace(CXXFLAGS = cxx_compileflags)
lenv.Append(CFLAGS = lenv['C_WARN'])
lenv.Append(CCFLAGS = lenv['CC_WARN'])
lenv.Append(CXXFLAGS = lenv['CXX_WARN'])
if lenv['OURPLATFORM'] == 'win64-vc':
lenv.Append(LINKFLAGS = ['/MACHINE:X64'])
if lenv['OURPLATFORM'] in ('win32-vc', 'win64-vc'):
if lenv['BF_DEBUG']:
lenv.Append(CCFLAGS = ['/MTd'])
else:
lenv.Append(CCFLAGS = ['/MT'])
targetdir = root_build_dir+'lib/' + libname
if not (root_build_dir[0]==os.sep or root_build_dir[1]==':'):
targetdir = '#'+targetdir
lib = lenv.Library(target= targetdir, source=sources)
SConsEnvironment.Default(self, lib) # we add to default target, because this way we get some kind of progress info during build
if self['BF_MSVS'] and self['OURPLATFORM'] in ('win32-vc', 'win64-vc'):
#if targetdir[0] == '#':
# targetdir = targetdir[1:-1]
print "! ",targetdir+ '.vcproj' # + self['MSVSPROJECTSUFFIX']
vcproject = self.MSVSProject(target = targetdir + '.vcproj', # + self['MSVSPROJECTSUFFIX'],
srcs = sources,
buildtarget = lib,
variant = 'Release',
auto_build_solution=0)
vcp.append(vcproject)
SConsEnvironment.Default(self, vcproject)
else:
print bc.WARNING+'Not building '+bc.ENDC+bc.OKGREEN+libname+bc.ENDC+' for '+bc.OKBLUE+'BF_QUICK'+bc.ENDC
# note: libs is a global
add_lib_to_dict(self, libs, libtype, libname, priority)
def BlenderProg(self=None, builddir=None, progname=None, sources=None, libs=None, libpath=None, binarykind=''):
global vcp
print bc.HEADER+'Configuring program '+bc.ENDC+bc.OKGREEN+progname+bc.ENDC
lenv = self.Clone()
if lenv['OURPLATFORM'] in ('win32-vc', 'cygwin', 'win64-vc'):
lenv.Append(LINKFLAGS = lenv['PLATFORM_LINKFLAGS'])
lenv.Append(LINKFLAGS = ['/FORCE:MULTIPLE'])
if lenv['BF_DEBUG']:
lenv.Prepend(LINKFLAGS = ['/DEBUG','/PDB:'+progname+'.pdb'])
if lenv['OURPLATFORM']=='linux2':
lenv.Append(LINKFLAGS = lenv['PLATFORM_LINKFLAGS'])
if lenv['WITH_BF_PYTHON']:
lenv.Append(LINKFLAGS = lenv['BF_PYTHON_LINKFLAGS'])
if lenv['OURPLATFORM']=='sunos5':
lenv.Append(LINKFLAGS = lenv['PLATFORM_LINKFLAGS'])
if lenv['WITH_BF_PYTHON']:
lenv.Append(LINKFLAGS = lenv['BF_PYTHON_LINKFLAGS'])
if lenv['CXX'].endswith('CC'):
lenv.Replace(LINK = '$CXX')
if lenv['OURPLATFORM']=='darwin':
lenv.Append(LINKFLAGS = lenv['PLATFORM_LINKFLAGS'])
if lenv['WITH_BF_PYTHON']:
lenv.Append(LINKFLAGS = lenv['BF_PYTHON_LINKFLAGS'])
lenv.Append(LINKFLAGS = lenv['BF_OPENGL_LINKFLAGS'])
if lenv['BF_PROFILE']:
lenv.Append(LINKFLAGS = lenv['BF_PROFILE_LINKFLAGS'])
if root_build_dir[0]==os.sep or root_build_dir[1]==':':
lenv.Append(LIBPATH=root_build_dir + '/lib')
lenv.Append(LIBPATH=libpath)
lenv.Append(LIBS=libs)
if lenv['WITH_BF_QUICKTIME']:
lenv.Append(LIBS = lenv['BF_QUICKTIME_LIB'])
lenv.Append(LIBPATH = lenv['BF_QUICKTIME_LIBPATH'])
prog = lenv.Program(target=builddir+'bin/'+progname, source=sources)
if lenv['BF_DEBUG'] and lenv['OURPLATFORM'] in ('win32-vc', 'win64-vc') and lenv['BF_BSC']:
f = lenv.File(progname + '.bsc', builddir)
brs = lenv.Command(f, prog, [bsc])
SConsEnvironment.Default(self, brs)
SConsEnvironment.Default(self, prog)
if self['BF_MSVS'] and self['OURPLATFORM'] in ('win32-vc', 'win64-vc') and progname == 'blender':
print "! ",builddir + "/" + progname + '.sln'
sln = self.MSVSProject(target = builddir + "/" + progname + '.sln',
projects= vcp,
variant = 'Release')
SConsEnvironment.Default(self, sln)
program_list.append(prog)
if lenv['OURPLATFORM']=='darwin':
lenv['BINARYKIND'] = binarykind
lenv.AddPostAction(prog,Action(AppIt,strfunction=my_appit_print))
elif os.sep == '/' and lenv['OURPLATFORM'] != 'linuxcross': # any unix (except cross-compilation)
if lenv['WITH_BF_PYTHON']:
if not lenv['WITHOUT_BF_INSTALL'] and not lenv['WITHOUT_BF_PYTHON_INSTALL']:
lenv.AddPostAction(prog,Action(UnixPyBundle,strfunction=my_unixpybundle_print))
elif lenv['OURPLATFORM'].startswith('win') or lenv['OURPLATFORM'] == 'linuxcross': # windows or cross-compilation
if lenv['WITH_BF_PYTHON']:
if not lenv['WITHOUT_BF_PYTHON_INSTALL']:
lenv.AddPostAction(prog,Action(WinPyBundle,strfunction=my_winpybundle_print))
return prog
def Glob(lenv, pattern):
path = string.replace(GetBuildPath(lenv,'SConscript'),'SConscript', '')
files = []
for i in glob.glob(path + pattern):
files.append(string.replace(i, path, ''))
return files