rt-thread-official/tools/building.py

932 lines
31 KiB
Python

#
# 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
import utils
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: ' + e)
return -1
return 0
import subprocess
newargs = ' '.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' + cmdline)
print ('Exception: ' + 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 = open('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('--dist',
dest = 'make-dist',
action = 'store_true',
default = False,
help = 'make distribution')
AddOption('--dist-strip',
dest = 'make-dist-strip',
action = 'store_true',
default = False,
help = 'make distribution and strip useless files')
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/ses')
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)
# make an absolute root directory
RTT_ROOT = Rtt_Root
Export('RTT_ROOT')
# 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'),
'ses' : ('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
utils.ReloadModule(rtconfig)
except KeyError:
print ('Unknow target: '+ tgt_name+'. Avaible targets: ' +', '.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']
utils.ReloadModule(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 = open('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)
AddOption('--pyconfig',
dest = 'pyconfig',
action = 'store_true',
default = False,
help = 'make menuconfig for RT-Thread BSP')
if GetOption('pyconfig'):
from menuconfig import pyconfig
pyconfig(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 = open(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 depend in BuildOptions 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 item in BuildOptions 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 = open(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 depend in options 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 item in options 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 'CCFLAGS' in group:
if 'CCFLAGS' in src_group:
src_group['CCFLAGS'] = src_group['CCFLAGS'] + group['CCFLAGS']
else:
src_group['CCFLAGS'] = group['CCFLAGS']
if 'CPPPATH' in group:
if 'CPPPATH' in src_group:
src_group['CPPPATH'] = src_group['CPPPATH'] + group['CPPPATH']
else:
src_group['CPPPATH'] = group['CPPPATH']
if 'CPPDEFINES' in group:
if 'CPPDEFINES' in src_group:
src_group['CPPDEFINES'] = src_group['CPPDEFINES'] + group['CPPDEFINES']
else:
src_group['CPPDEFINES'] = group['CPPDEFINES']
if 'ASFLAGS' in group:
if 'ASFLAGS' in src_group:
src_group['ASFLAGS'] = src_group['ASFLAGS'] + group['ASFLAGS']
else:
src_group['ASFLAGS'] = group['ASFLAGS']
# for local CCFLAGS/CPPPATH/CPPDEFINES
if 'LOCAL_CCFLAGS' in group:
if 'LOCAL_CCFLAGS' in src_group:
src_group['LOCAL_CCFLAGS'] = src_group['LOCAL_CCFLAGS'] + group['LOCAL_CCFLAGS']
else:
src_group['LOCAL_CCFLAGS'] = group['LOCAL_CCFLAGS']
if 'LOCAL_CPPPATH' in group:
if 'LOCAL_CPPPATH' in src_group:
src_group['LOCAL_CPPPATH'] = src_group['LOCAL_CPPPATH'] + group['LOCAL_CPPPATH']
else:
src_group['LOCAL_CPPPATH'] = group['LOCAL_CPPPATH']
if 'LOCAL_CPPDEFINES' in group:
if 'LOCAL_CPPDEFINES' in src_group:
src_group['LOCAL_CPPDEFINES'] = src_group['LOCAL_CPPDEFINES'] + group['LOCAL_CPPDEFINES']
else:
src_group['LOCAL_CPPDEFINES'] = group['LOCAL_CPPDEFINES']
if 'LINKFLAGS' in group:
if 'LINKFLAGS' in src_group:
src_group['LINKFLAGS'] = src_group['LINKFLAGS'] + group['LINKFLAGS']
else:
src_group['LINKFLAGS'] = group['LINKFLAGS']
if 'LIBS' in group:
if 'LIBS' in src_group:
src_group['LIBS'] = src_group['LIBS'] + group['LIBS']
else:
src_group['LIBS'] = group['LIBS']
if 'LIBPATH' in group:
if 'LIBPATH' in src_group:
src_group['LIBPATH'] = src_group['LIBPATH'] + group['LIBPATH']
else:
src_group['LIBPATH'] = group['LIBPATH']
if 'LOCAL_ASFLAGS' in group:
if 'LOCAL_ASFLAGS' in src_group:
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 'CCFLAGS' in group:
Env.AppendUnique(CCFLAGS = group['CCFLAGS'])
if 'CPPPATH' in group:
paths = []
for item in group['CPPPATH']:
paths.append(os.path.abspath(item))
group['CPPPATH'] = paths
Env.AppendUnique(CPPPATH = group['CPPPATH'])
if 'CPPDEFINES' in group:
Env.AppendUnique(CPPDEFINES = group['CPPDEFINES'])
if 'LINKFLAGS' in group:
Env.AppendUnique(LINKFLAGS = group['LINKFLAGS'])
if 'ASFLAGS' in group:
Env.AppendUnique(ASFLAGS = group['ASFLAGS'])
if 'LOCAL_CPPPATH' in group:
paths = []
for item in group['LOCAL_CPPPATH']:
paths.append(os.path.abspath(item))
group['LOCAL_CPPPATH'] = paths
import rtconfig
if rtconfig.PLATFORM == 'gcc':
if 'CCFLAGS' in group:
group['CCFLAGS'] = utils.GCCC99Patch(group['CCFLAGS'])
if 'LOCAL_CCFLAGS' in group:
group['LOCAL_CCFLAGS'] = utils.GCCC99Patch(group['LOCAL_CCFLAGS'])
# 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)
if 'LIBS' in group:
Env.AppendUnique(LIBS = group['LIBS'])
if 'LIBPATH' in group:
Env.AppendUnique(LIBPATH = group['LIBPATH'])
# check whether to build group library
if 'LIBRARY' in group:
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 '+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 'LOCAL_CCFLAGS' in group or 'LOCAL_CPPPATH' in group or 'LOCAL_CPPDEFINES' in group or 'LOCAL_ASFLAGS' in group:
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 'LOCAL_CCFLAGS' in group or 'LOCAL_CPPPATH' in group or 'LOCAL_CPPDEFINES' in group:
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)
if GetOption('target') == 'ses':
from ses import SESProject
SESProject(Env)
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('make-dist') and program != None:
from mkdist import MkDist
MkDist(program, BSP_ROOT, Rtt_Root, Env)
if GetOption('make-dist-strip') and program != None:
from mkdist import MkDist_Strip
MkDist_Strip(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 (" + rtconfig.EXEC_PATH + ") is not exist, please check 'EXEC_PATH' in path or rtconfig.py.")
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 = open(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 'RT_REVISION' in def_ns:
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)