# # File : building.py # This file is part of RT-Thread RTOS # COPYRIGHT (C) 2006 - 2015, RT-Thread Development Team # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # # Change Logs: # Date Author Notes # 2015-01-20 Bernard Add copyright information # 2015-07-25 Bernard Add LOCAL_CCFLAGS/LOCAL_CPPPATH/LOCAL_CPPDEFINES for # group definition. # import os import sys import string from SCons.Script import * from utils import _make_path_relative from mkdist import do_copy_file BuildOptions = {} Projects = [] Rtt_Root = '' Env = None # SCons PreProcessor patch def start_handling_includes(self, t=None): """ Causes the PreProcessor object to start processing #import, #include and #include_next lines. This method will be called when a #if, #ifdef, #ifndef or #elif evaluates True, or when we reach the #else in a #if, #ifdef, #ifndef or #elif block where a condition already evaluated False. """ d = self.dispatch_table p = self.stack[-1] if self.stack else self.default_table for k in ('import', 'include', 'include_next', 'define'): d[k] = p[k] def stop_handling_includes(self, t=None): """ Causes the PreProcessor object to stop processing #import, #include and #include_next lines. This method will be called when a #if, #ifdef, #ifndef or #elif evaluates False, or when we reach the #else in a #if, #ifdef, #ifndef or #elif block where a condition already evaluated True. """ d = self.dispatch_table d['import'] = self.do_nothing d['include'] = self.do_nothing d['include_next'] = self.do_nothing d['define'] = self.do_nothing PatchedPreProcessor = SCons.cpp.PreProcessor PatchedPreProcessor.start_handling_includes = start_handling_includes PatchedPreProcessor.stop_handling_includes = stop_handling_includes class Win32Spawn: def spawn(self, sh, escape, cmd, args, env): # deal with the cmd build-in commands which cannot be used in # subprocess.Popen if cmd == 'del': for f in args[1:]: try: os.remove(f) except Exception as e: print 'Error removing file: %s' % e return -1 return 0 import subprocess newargs = string.join(args[1:], ' ') cmdline = cmd + " " + newargs # Make sure the env is constructed by strings _e = dict([(k, str(v)) for k, v in env.items()]) # Windows(tm) CreateProcess does not use the env passed to it to find # the executables. So we have to modify our own PATH to make Popen # work. old_path = os.environ['PATH'] os.environ['PATH'] = _e['PATH'] try: proc = subprocess.Popen(cmdline, env=_e, shell=False) except Exception as e: print 'Error in calling:\n%s' % cmdline print 'Exception: %s: %s' % (e, os.strerror(e.errno)) return e.errno finally: os.environ['PATH'] = old_path return proc.wait() # generate cconfig.h file def GenCconfigFile(env, BuildOptions): import rtconfig if rtconfig.PLATFORM == 'gcc': contents = '' if not os.path.isfile('cconfig.h'): import gcc gcc.GenerateGCCConfig(rtconfig) # try again if os.path.isfile('cconfig.h'): f = file('cconfig.h', 'r') if f: contents = f.read() f.close(); prep = PatchedPreProcessor() prep.process_contents(contents) options = prep.cpp_namespace BuildOptions.update(options) # add HAVE_CCONFIG_H definition env.AppendUnique(CPPDEFINES = ['HAVE_CCONFIG_H']) def PrepareBuilding(env, root_directory, has_libcpu=False, remove_components = []): import rtconfig global BuildOptions global Projects global Env global Rtt_Root # ===== Add option to SCons ===== AddOption('--copy', dest = 'copy', action = 'store_true', default = False, help = 'copy rt-thread directory to local.') AddOption('--copy-header', dest = 'copy-header', action = 'store_true', default = False, help = 'copy header of rt-thread directory to local.') AddOption('--dist', dest = 'make-dist', action = 'store_true', default = False, help = 'make distribution') AddOption('--cscope', dest = 'cscope', action = 'store_true', default = False, help = 'Build Cscope cross reference database. Requires cscope installed.') AddOption('--clang-analyzer', dest = 'clang-analyzer', action = 'store_true', default = False, help = 'Perform static analyze with Clang-analyzer. ' + \ 'Requires Clang installed.\n' + \ 'It is recommended to use with scan-build like this:\n' + \ '`scan-build scons --clang-analyzer`\n' + \ 'If things goes well, scan-build will instruct you to invoke scan-view.') AddOption('--buildlib', dest = 'buildlib', type = 'string', help = 'building library of a component') AddOption('--cleanlib', dest = 'cleanlib', action = 'store_true', default = False, help = 'clean up the library by --buildlib') AddOption('--target', dest = 'target', type = 'string', help = 'set target project: mdk/mdk4/mdk5/iar/vs/vsc/ua/cdk') AddOption('--genconfig', dest = 'genconfig', action = 'store_true', default = False, help = 'Generate .config from rtconfig.h') AddOption('--useconfig', dest = 'useconfig', type = 'string', help = 'make rtconfig.h from config file.') AddOption('--verbose', dest = 'verbose', action = 'store_true', default = False, help = 'print verbose information during build') Env = env Rtt_Root = os.path.abspath(root_directory) # set RTT_ROOT in ENV Env['RTT_ROOT'] = Rtt_Root # set BSP_ROOT in ENV Env['BSP_ROOT'] = Dir('#').abspath sys.path = sys.path + [os.path.join(Rtt_Root, 'tools')] # {target_name:(CROSS_TOOL, PLATFORM)} tgt_dict = {'mdk':('keil', 'armcc'), 'mdk4':('keil', 'armcc'), 'mdk5':('keil', 'armcc'), 'iar':('iar', 'iar'), 'vs':('msvc', 'cl'), 'vs2012':('msvc', 'cl'), 'vsc' : ('gcc', 'gcc'), 'cb':('keil', 'armcc'), 'ua':('gcc', 'gcc'), 'cdk':('gcc', 'gcc')} tgt_name = GetOption('target') if tgt_name: # --target will change the toolchain settings which clang-analyzer is # depend on if GetOption('clang-analyzer'): print '--clang-analyzer cannot be used with --target' sys.exit(1) SetOption('no_exec', 1) try: rtconfig.CROSS_TOOL, rtconfig.PLATFORM = tgt_dict[tgt_name] # replace the 'RTT_CC' to 'CROSS_TOOL' os.environ['RTT_CC'] = rtconfig.CROSS_TOOL reload(rtconfig) except KeyError: print 'Unknow target: %s. Avaible targets: %s' % \ (tgt_name, ', '.join(tgt_dict.keys())) sys.exit(1) elif (GetDepend('RT_USING_NEWLIB') == False and GetDepend('RT_USING_NOLIBC') == False) \ and rtconfig.PLATFORM == 'gcc': AddDepend('RT_USING_MINILIBC') # auto change the 'RTT_EXEC_PATH' when 'rtconfig.EXEC_PATH' get failed if not os.path.exists(rtconfig.EXEC_PATH): if 'RTT_EXEC_PATH' in os.environ: # del the 'RTT_EXEC_PATH' and using the 'EXEC_PATH' setting on rtconfig.py del os.environ['RTT_EXEC_PATH'] reload(rtconfig) # add compability with Keil MDK 4.6 which changes the directory of armcc.exe if rtconfig.PLATFORM == 'armcc': if not os.path.isfile(os.path.join(rtconfig.EXEC_PATH, 'armcc.exe')): if rtconfig.EXEC_PATH.find('bin40') > 0: rtconfig.EXEC_PATH = rtconfig.EXEC_PATH.replace('bin40', 'armcc/bin') Env['LINKFLAGS'] = Env['LINKFLAGS'].replace('RV31', 'armcc') # reset AR command flags env['ARCOM'] = '$AR --create $TARGET $SOURCES' env['LIBPREFIX'] = '' env['LIBSUFFIX'] = '.lib' env['LIBLINKPREFIX'] = '' env['LIBLINKSUFFIX'] = '.lib' env['LIBDIRPREFIX'] = '--userlibpath ' # patch for win32 spawn if env['PLATFORM'] == 'win32': win32_spawn = Win32Spawn() win32_spawn.env = env env['SPAWN'] = win32_spawn.spawn if env['PLATFORM'] == 'win32': os.environ['PATH'] = rtconfig.EXEC_PATH + ";" + os.environ['PATH'] else: os.environ['PATH'] = rtconfig.EXEC_PATH + ":" + os.environ['PATH'] # add program path env.PrependENVPath('PATH', rtconfig.EXEC_PATH) # add rtconfig.h path env.Append(CPPPATH = [str(Dir('#').abspath)]) # add library build action act = SCons.Action.Action(BuildLibInstallAction, 'Install compiled library... $TARGET') bld = Builder(action = act) Env.Append(BUILDERS = {'BuildLib': bld}) # parse rtconfig.h to get used component PreProcessor = PatchedPreProcessor() f = file('rtconfig.h', 'r') contents = f.read() f.close() PreProcessor.process_contents(contents) BuildOptions = PreProcessor.cpp_namespace if GetOption('clang-analyzer'): # perform what scan-build does env.Replace( CC = 'ccc-analyzer', CXX = 'c++-analyzer', # skip as and link LINK = 'true', AS = 'true',) env["ENV"].update(x for x in os.environ.items() if x[0].startswith("CCC_")) # only check, don't compile. ccc-analyzer use CCC_CC as the CC. # fsyntax-only will give us some additional warning messages env['ENV']['CCC_CC'] = 'clang' env.Append(CFLAGS=['-fsyntax-only', '-Wall', '-Wno-invalid-source-encoding']) env['ENV']['CCC_CXX'] = 'clang++' env.Append(CXXFLAGS=['-fsyntax-only', '-Wall', '-Wno-invalid-source-encoding']) # remove the POST_ACTION as it will cause meaningless errors(file not # found or something like that). rtconfig.POST_ACTION = '' # generate cconfig.h file GenCconfigFile(env, BuildOptions) # auto append '_REENT_SMALL' when using newlib 'nano.specs' option if rtconfig.PLATFORM == 'gcc' and str(env['LINKFLAGS']).find('nano.specs') != -1: env.AppendUnique(CPPDEFINES = ['_REENT_SMALL']) if GetOption('genconfig'): from genconf import genconfig genconfig() exit(0) if env['PLATFORM'] != 'win32': AddOption('--menuconfig', dest = 'menuconfig', action = 'store_true', default = False, help = 'make menuconfig for RT-Thread BSP') if GetOption('menuconfig'): from menuconfig import menuconfig menuconfig(Rtt_Root) exit(0) configfn = GetOption('useconfig') if configfn: from menuconfig import mk_rtconfig mk_rtconfig(configfn) exit(0) if not GetOption('verbose'): # override the default verbose command string env.Replace( ARCOMSTR = 'AR $TARGET', ASCOMSTR = 'AS $TARGET', ASPPCOMSTR = 'AS $TARGET', CCCOMSTR = 'CC $TARGET', CXXCOMSTR = 'CXX $TARGET', LINKCOMSTR = 'LINK $TARGET' ) # fix the linker for C++ if GetDepend('RT_USING_CPLUSPLUS'): if env['LINK'].find('gcc') != -1: env['LINK'] = env['LINK'].replace('gcc', 'g++') # we need to seperate the variant_dir for BSPs and the kernels. BSPs could # have their own components etc. If they point to the same folder, SCons # would find the wrong source code to compile. bsp_vdir = 'build' kernel_vdir = 'build/kernel' # board build script objs = SConscript('SConscript', variant_dir=bsp_vdir, duplicate=0) # include kernel objs.extend(SConscript(Rtt_Root + '/src/SConscript', variant_dir=kernel_vdir + '/src', duplicate=0)) # include libcpu if not has_libcpu: objs.extend(SConscript(Rtt_Root + '/libcpu/SConscript', variant_dir=kernel_vdir + '/libcpu', duplicate=0)) # include components objs.extend(SConscript(Rtt_Root + '/components/SConscript', variant_dir=kernel_vdir + '/components', duplicate=0, exports='remove_components')) return objs def PrepareModuleBuilding(env, root_directory, bsp_directory): import rtconfig global BuildOptions global Env global Rtt_Root # patch for win32 spawn if env['PLATFORM'] == 'win32': win32_spawn = Win32Spawn() win32_spawn.env = env env['SPAWN'] = win32_spawn.spawn Env = env Rtt_Root = root_directory # parse bsp rtconfig.h to get used component PreProcessor = PatchedPreProcessor() f = file(bsp_directory + '/rtconfig.h', 'r') contents = f.read() f.close() PreProcessor.process_contents(contents) BuildOptions = PreProcessor.cpp_namespace # add build/clean library option for library checking AddOption('--buildlib', dest='buildlib', type='string', help='building library of a component') AddOption('--cleanlib', dest='cleanlib', action='store_true', default=False, help='clean up the library by --buildlib') # add program path env.PrependENVPath('PATH', rtconfig.EXEC_PATH) def GetConfigValue(name): assert type(name) == str, 'GetConfigValue: only string parameter is valid' try: return BuildOptions[name] except: return '' def GetDepend(depend): building = True if type(depend) == type('str'): if not BuildOptions.has_key(depend) or BuildOptions[depend] == 0: building = False elif BuildOptions[depend] != '': return BuildOptions[depend] return building # for list type depend for item in depend: if item != '': if not BuildOptions.has_key(item) or BuildOptions[item] == 0: building = False return building def LocalOptions(config_filename): from SCons.Script import SCons # parse wiced_config.h to get used component PreProcessor = SCons.cpp.PreProcessor() f = file(config_filename, 'r') contents = f.read() f.close() PreProcessor.process_contents(contents) local_options = PreProcessor.cpp_namespace return local_options def GetLocalDepend(options, depend): building = True if type(depend) == type('str'): if not options.has_key(depend) or options[depend] == 0: building = False elif options[depend] != '': return options[depend] return building # for list type depend for item in depend: if item != '': if not options.has_key(item) or options[item] == 0: building = False return building def AddDepend(option): BuildOptions[option] = 1 def MergeGroup(src_group, group): src_group['src'] = src_group['src'] + group['src'] if group.has_key('CCFLAGS'): if src_group.has_key('CCFLAGS'): src_group['CCFLAGS'] = src_group['CCFLAGS'] + group['CCFLAGS'] else: src_group['CCFLAGS'] = group['CCFLAGS'] if group.has_key('CPPPATH'): if src_group.has_key('CPPPATH'): src_group['CPPPATH'] = src_group['CPPPATH'] + group['CPPPATH'] else: src_group['CPPPATH'] = group['CPPPATH'] if group.has_key('CPPDEFINES'): if src_group.has_key('CPPDEFINES'): src_group['CPPDEFINES'] = src_group['CPPDEFINES'] + group['CPPDEFINES'] else: src_group['CPPDEFINES'] = group['CPPDEFINES'] if group.has_key('ASFLAGS'): if src_group.has_key('ASFLAGS'): src_group['ASFLAGS'] = src_group['ASFLAGS'] + group['ASFLAGS'] else: src_group['ASFLAGS'] = group['ASFLAGS'] # for local CCFLAGS/CPPPATH/CPPDEFINES if group.has_key('LOCAL_CCFLAGS'): if src_group.has_key('LOCAL_CCFLAGS'): src_group['LOCAL_CCFLAGS'] = src_group['LOCAL_CCFLAGS'] + group['LOCAL_CCFLAGS'] else: src_group['LOCAL_CCFLAGS'] = group['LOCAL_CCFLAGS'] if group.has_key('LOCAL_CPPPATH'): if src_group.has_key('LOCAL_CPPPATH'): src_group['LOCAL_CPPPATH'] = src_group['LOCAL_CPPPATH'] + group['LOCAL_CPPPATH'] else: src_group['LOCAL_CPPPATH'] = group['LOCAL_CPPPATH'] if group.has_key('LOCAL_CPPDEFINES'): if src_group.has_key('LOCAL_CPPDEFINES'): src_group['LOCAL_CPPDEFINES'] = src_group['LOCAL_CPPDEFINES'] + group['LOCAL_CPPDEFINES'] else: src_group['LOCAL_CPPDEFINES'] = group['LOCAL_CPPDEFINES'] if group.has_key('LINKFLAGS'): if src_group.has_key('LINKFLAGS'): src_group['LINKFLAGS'] = src_group['LINKFLAGS'] + group['LINKFLAGS'] else: src_group['LINKFLAGS'] = group['LINKFLAGS'] if group.has_key('LIBS'): if src_group.has_key('LIBS'): src_group['LIBS'] = src_group['LIBS'] + group['LIBS'] else: src_group['LIBS'] = group['LIBS'] if group.has_key('LIBPATH'): if src_group.has_key('LIBPATH'): src_group['LIBPATH'] = src_group['LIBPATH'] + group['LIBPATH'] else: src_group['LIBPATH'] = group['LIBPATH'] if group.has_key('LOCAL_ASFLAGS'): if src_group.has_key('LOCAL_ASFLAGS'): src_group['LOCAL_ASFLAGS'] = src_group['LOCAL_ASFLAGS'] + group['LOCAL_ASFLAGS'] else: src_group['LOCAL_ASFLAGS'] = group['LOCAL_ASFLAGS'] def DefineGroup(name, src, depend, **parameters): global Env if not GetDepend(depend): return [] # find exist group and get path of group group_path = '' for g in Projects: if g['name'] == name: group_path = g['path'] if group_path == '': group_path = GetCurrentDir() group = parameters group['name'] = name group['path'] = group_path if type(src) == type([]): group['src'] = File(src) else: group['src'] = src if group.has_key('CCFLAGS'): Env.AppendUnique(CCFLAGS = group['CCFLAGS']) if group.has_key('CPPPATH'): Env.AppendUnique(CPPPATH = group['CPPPATH']) if group.has_key('CPPDEFINES'): Env.AppendUnique(CPPDEFINES = group['CPPDEFINES']) if group.has_key('LINKFLAGS'): Env.AppendUnique(LINKFLAGS = group['LINKFLAGS']) if group.has_key('ASFLAGS'): Env.AppendUnique(ASFLAGS = group['ASFLAGS']) # check whether to clean up library if GetOption('cleanlib') and os.path.exists(os.path.join(group['path'], GroupLibFullName(name, Env))): if group['src'] != []: print 'Remove library:', GroupLibFullName(name, Env) fn = os.path.join(group['path'], GroupLibFullName(name, Env)) if os.path.exists(fn): os.unlink(fn) # check whether exist group library if not GetOption('buildlib') and os.path.exists(os.path.join(group['path'], GroupLibFullName(name, Env))): group['src'] = [] if group.has_key('LIBS'): group['LIBS'] = group['LIBS'] + [GroupLibName(name, Env)] else : group['LIBS'] = [GroupLibName(name, Env)] if group.has_key('LIBPATH'): group['LIBPATH'] = group['LIBPATH'] + [GetCurrentDir()] else : group['LIBPATH'] = [GetCurrentDir()] if group.has_key('LIBS'): Env.AppendUnique(LIBS = group['LIBS']) if group.has_key('LIBPATH'): Env.AppendUnique(LIBPATH = group['LIBPATH']) # check whether to build group library if group.has_key('LIBRARY'): objs = Env.Library(name, group['src']) else: # only add source objs = group['src'] # merge group for g in Projects: if g['name'] == name: # merge to this group MergeGroup(g, group) return objs # add a new group Projects.append(group) return objs def GetCurrentDir(): conscript = File('SConscript') fn = conscript.rfile() name = fn.name path = os.path.dirname(fn.abspath) return path PREBUILDING = [] def RegisterPreBuildingAction(act): global PREBUILDING assert callable(act), 'Could only register callable objects. %s received' % repr(act) PREBUILDING.append(act) def PreBuilding(): global PREBUILDING for a in PREBUILDING: a() def GroupLibName(name, env): import rtconfig if rtconfig.PLATFORM == 'armcc': return name + '_rvds' elif rtconfig.PLATFORM == 'gcc': return name + '_gcc' return name def GroupLibFullName(name, env): return env['LIBPREFIX'] + GroupLibName(name, env) + env['LIBSUFFIX'] def BuildLibInstallAction(target, source, env): lib_name = GetOption('buildlib') for Group in Projects: if Group['name'] == lib_name: lib_name = GroupLibFullName(Group['name'], env) dst_name = os.path.join(Group['path'], lib_name) print 'Copy %s => %s' % (lib_name, dst_name) do_copy_file(lib_name, dst_name) break def DoBuilding(target, objects): # merge all objects into one list def one_list(l): lst = [] for item in l: if type(item) == type([]): lst += one_list(item) else: lst.append(item) return lst # handle local group def local_group(group, objects): if group.has_key('LOCAL_CCFLAGS') or group.has_key('LOCAL_CPPPATH') or group.has_key('LOCAL_CPPDEFINES') or group.has_key('LOCAL_ASFLAGS'): CCFLAGS = Env.get('CCFLAGS', '') + group.get('LOCAL_CCFLAGS', '') CPPPATH = Env.get('CPPPATH', ['']) + group.get('LOCAL_CPPPATH', ['']) CPPDEFINES = Env.get('CPPDEFINES', ['']) + group.get('LOCAL_CPPDEFINES', ['']) ASFLAGS = Env.get('ASFLAGS', '') + group.get('LOCAL_ASFLAGS', '') for source in group['src']: objects.append(Env.Object(source, CCFLAGS = CCFLAGS, ASFLAGS = ASFLAGS, CPPPATH = CPPPATH, CPPDEFINES = CPPDEFINES)) return True return False objects = one_list(objects) program = None # check whether special buildlib option lib_name = GetOption('buildlib') if lib_name: objects = [] # remove all of objects # build library with special component for Group in Projects: if Group['name'] == lib_name: lib_name = GroupLibName(Group['name'], Env) if not local_group(Group, objects): objects = Env.Object(Group['src']) program = Env.Library(lib_name, objects) # add library copy action Env.BuildLib(lib_name, program) break else: # remove source files with local flags setting for group in Projects: if group.has_key('LOCAL_CCFLAGS') or group.has_key('LOCAL_CPPPATH') or group.has_key('LOCAL_CPPDEFINES'): for source in group['src']: for obj in objects: if source.abspath == obj.abspath or (len(obj.sources) > 0 and source.abspath == obj.sources[0].abspath): objects.remove(obj) # re-add the source files to the objects for group in Projects: local_group(group, objects) program = Env.Program(target, objects) EndBuilding(target, program) def GenTargetProject(program = None): if GetOption('target') == 'mdk': from keil import MDKProject from keil import MDK4Project from keil import MDK5Project template = os.path.isfile('template.Uv2') if template: MDKProject('project.Uv2', Projects) else: template = os.path.isfile('template.uvproj') if template: MDK4Project('project.uvproj', Projects) else: template = os.path.isfile('template.uvprojx') if template: MDK5Project('project.uvprojx', Projects) else: print 'No template project file found.' if GetOption('target') == 'mdk4': from keil import MDK4Project MDK4Project('project.uvproj', Projects) if GetOption('target') == 'mdk5': from keil import MDK5Project MDK5Project('project.uvprojx', Projects) if GetOption('target') == 'iar': from iar import IARProject IARProject('project.ewp', Projects) if GetOption('target') == 'vs': from vs import VSProject VSProject('project.vcproj', Projects, program) if GetOption('target') == 'vs2012': from vs2012 import VS2012Project VS2012Project('project.vcxproj', Projects, program) if GetOption('target') == 'cb': from codeblocks import CBProject CBProject('project.cbp', Projects, program) if GetOption('target') == 'ua': from ua import PrepareUA PrepareUA(Projects, Rtt_Root, str(Dir('#'))) if GetOption('target') == 'vsc': from vsc import GenerateVSCode GenerateVSCode(Env) if GetOption('target') == 'cdk': from cdk import CDKProject CDKProject('project.cdkproj', Projects) def EndBuilding(target, program = None): import rtconfig need_exit = False Env['target'] = program Env['project'] = Projects Env.AddPostAction(target, rtconfig.POST_ACTION) # Add addition clean files Clean(target, 'cconfig.h') Clean(target, 'rtua.py') Clean(target, 'rtua.pyc') if GetOption('target'): GenTargetProject(program) BSP_ROOT = Dir('#').abspath if GetOption('copy') and program != None: from mkdist import MakeCopy MakeCopy(program, BSP_ROOT, Rtt_Root, Env) need_exit = True if GetOption('copy-header') and program != None: from mkdist import MakeCopyHeader MakeCopyHeader(program, BSP_ROOT, Rtt_Root, Env) need_exit = True if GetOption('make-dist') and program != None: from mkdist import MkDist MkDist(program, BSP_ROOT, Rtt_Root, Env) need_exit = True if GetOption('cscope'): from cscope import CscopeDatabase CscopeDatabase(Projects) if not GetOption('help') and not GetOption('target'): if not os.path.exists(rtconfig.EXEC_PATH): print "Error: the toolchain path (%s) is not exist, please check 'EXEC_PATH' in path or rtconfig.py." % rtconfig.EXEC_PATH need_exit = True if need_exit: exit(0) def SrcRemove(src, remove): if not src: return src_bak = src[:] if type(remove) == type('str'): if os.path.isabs(remove): remove = os.path.relpath(remove, GetCurrentDir()) remove = os.path.normpath(remove) for item in src_bak: if type(item) == type('str'): item_str = item else: item_str = item.rstr() if os.path.isabs(item_str): item_str = os.path.relpath(item_str, GetCurrentDir()) item_str = os.path.normpath(item_str) if item_str == remove: src.remove(item) else: for remove_item in remove: remove_str = str(remove_item) if os.path.isabs(remove_str): remove_str = os.path.relpath(remove_str, GetCurrentDir()) remove_str = os.path.normpath(remove_str) for item in src_bak: if type(item) == type('str'): item_str = item else: item_str = item.rstr() if os.path.isabs(item_str): item_str = os.path.relpath(item_str, GetCurrentDir()) item_str = os.path.normpath(item_str) if item_str == remove_str: src.remove(item) def GetVersion(): import SCons.cpp import string rtdef = os.path.join(Rtt_Root, 'include', 'rtdef.h') # parse rtdef.h to get RT-Thread version prepcessor = PatchedPreProcessor() f = file(rtdef, 'r') contents = f.read() f.close() prepcessor.process_contents(contents) def_ns = prepcessor.cpp_namespace version = int(filter(lambda ch: ch in '0123456789.', def_ns['RT_VERSION'])) subversion = int(filter(lambda ch: ch in '0123456789.', def_ns['RT_SUBVERSION'])) if def_ns.has_key('RT_REVISION'): revision = int(filter(lambda ch: ch in '0123456789.', def_ns['RT_REVISION'])) return '%d.%d.%d' % (version, subversion, revision) return '0.%d.%d' % (version, subversion) def GlobSubDir(sub_dir, ext_name): import os import glob def glob_source(sub_dir, ext_name): list = os.listdir(sub_dir) src = glob.glob(os.path.join(sub_dir, ext_name)) for item in list: full_subdir = os.path.join(sub_dir, item) if os.path.isdir(full_subdir): src += glob_source(full_subdir, ext_name) return src dst = [] src = glob_source(sub_dir, ext_name) for item in src: dst.append(os.path.relpath(item, sub_dir)) return dst def PackageSConscript(package): from package import BuildPackage return BuildPackage(package)