## -*- Mode: python; py-indent-offset: 4; indent-tabs-mode: nil; coding: utf-8; -*-
import re
import os
import pproc as subprocess
import shutil
import sys
import Task
import Options
import Configure
import TaskGen
import Logs
import Build
import Utils
## https://launchpad.net/pybindgen/
REQUIRED_PYBINDGEN_VERSION = (0, 14, 1)
REQUIRED_PYGCCXML_VERSION = (0, 9, 5)
from TaskGen import feature, after
import Task, ccroot
@feature('pch')
@after('apply_link')
def process_pch(self):
node = self.path.find_resource(self.pch)
assert node
tsk = self.create_task('gchx')
tsk.set_inputs(node)
tsk.set_outputs(node.parent.find_or_declare(node.name + '.gch'))
comp_line = '${CXX} ${CXXFLAGS} ${CPPFLAGS} ${_CXXINCFLAGS} ${_CXXDEFFLAGS} ${SRC} -o ${TGT}'
cls = Task.simple_task_type('gchx', comp_line, before='cc cxx')
cls.scan = ccroot.scan
def add_to_python_path(path):
if os.environ.get('PYTHONPATH', ''):
os.environ['PYTHONPATH'] = path + os.pathsep + os.environ.get('PYTHONPATH')
else:
os.environ['PYTHONPATH'] = path
def set_pybindgen_pythonpath(env):
if env['WITH_PYBINDGEN']:
add_to_python_path(env['WITH_PYBINDGEN'])
def set_options(opt):
opt.tool_options('python')
opt.add_option('--disable-python',
help=("Don't build Python bindings."),
action="store_true", default=False,
dest='python_disable')
opt.add_option('--python-scan',
help=("Rescan Python bindings. Needs working GCCXML / pygccxml environment."),
action="store_true", default=False,
dest='python_scan')
opt.add_option('--with-pybindgen',
help=('Path to an existing pybindgen source tree to use.'),
default=None,
dest='with_pybindgen', type="string")
opt.add_option('--enable-python-pch',
help=("Enable precompiled headers when compiling python bindings, to speed up compilation."),
action="store_true", default=False,
dest='enable_python_pch')
def configure(conf):
conf.env['ENABLE_PYTHON_PCH'] = Options.options.enable_python_pch
conf.env['ENABLE_PYTHON_BINDINGS'] = False
if Options.options.python_disable:
conf.report_optional_feature("python", "Python Bindings", False,
"disabled by user request")
return
conf.check_tool('misc')
if sys.platform == 'cygwin':
conf.report_optional_feature("python", "Python Bindings", False,
"unsupported platform 'cygwin'")
Logs.warn("Python is not supported in CygWin environment. Try MingW instead.")
return
## Check for Python
try:
conf.check_tool('python')
conf.check_python_version((2,3))
conf.check_python_headers()
except Configure.ConfigurationError, ex:
conf.report_optional_feature("python", "Python Bindings", False, str(ex))
return
# -fvisibility=hidden optimization
if (conf.env['CXX_NAME'] == 'gcc' and [int(x) for x in conf.env['CC_VERSION']] >= [4,0,0]
and conf.check_compilation_flag('-fvisibility=hidden')):
conf.env.append_value('CXXFLAGS_PYEXT', '-fvisibility=hidden')
conf.env.append_value('CCFLAGS_PYEXT', '-fvisibility=hidden')
# Check for the location of pybindgen
if Options.options.with_pybindgen is not None:
if os.path.isdir(Options.options.with_pybindgen):
conf.check_message("pybindgen location", '', True, ("%s (given)" % Options.options.with_pybindgen))
conf.env['WITH_PYBINDGEN'] = os.path.abspath(Options.options.with_pybindgen)
else:
pybindgen_dir = os.path.join('..', "pybindgen")
if os.path.isdir(pybindgen_dir):
conf.check_message("pybindgen location", '', True, ("%s (guessed)" % pybindgen_dir))
conf.env['WITH_PYBINDGEN'] = os.path.abspath(pybindgen_dir)
del pybindgen_dir
if not conf.env['WITH_PYBINDGEN']:
conf.check_message("pybindgen location", '', False)
# Check for pybindgen
set_pybindgen_pythonpath(conf.env)
try:
conf.check_python_module('pybindgen')
except Configure.ConfigurationError:
Logs.warn("pybindgen missing => no python bindings")
conf.report_optional_feature("python", "Python Bindings", False,
"PyBindGen missing")
return
else:
out = subprocess.Popen([conf.env['PYTHON'], "-c",
"import pybindgen.version; "
"print '.'.join([str(x) for x in pybindgen.version.__version__])"],
stdout=subprocess.PIPE).communicate()[0]
pybindgen_version_str = out.strip()
pybindgen_version = tuple([int(x) for x in pybindgen_version_str.split('.')])
conf.check_message('pybindgen', 'version',
(pybindgen_version == REQUIRED_PYBINDGEN_VERSION),
pybindgen_version_str)
if not (pybindgen_version == REQUIRED_PYBINDGEN_VERSION):
Logs.warn("pybindgen (found %s), (need %s)" %
(pybindgen_version_str,
'.'.join([str(x) for x in REQUIRED_PYBINDGEN_VERSION])))
conf.report_optional_feature("python", "Python Bindings", False,
"PyBindGen version not correct and newer version could not be retrieved")
return
def test(t1, t2):
test_program = '''
#include <stdint.h>
#include <vector>
int main ()
{
std::vector< %(type1)s > t = std::vector< %(type2)s > ();
return 0;
}
''' % dict(type1=t1, type2=t2)
try:
ret = conf.run_c_code(code=test_program,
env=conf.env.copy(), compile_filename='test.cc',
compile_mode='cxx',type='cprogram', execute=False)
except Configure.ConfigurationError:
ret = 1
conf.check_message_custom('types %s and %s' % (t1, t2), 'equivalency', (ret and 'no' or 'yes'))
return not ret
uint64_is_long = test("uint64_t", "unsigned long")
uint64_is_long_long = test("uint64_t", "unsigned long long")
if uint64_is_long:
conf.env['PYTHON_BINDINGS_APIDEFS'] = 'gcc-LP64'
elif uint64_is_long_long:
conf.env['PYTHON_BINDINGS_APIDEFS'] = 'gcc-ILP32'
else:
conf.env['PYTHON_BINDINGS_APIDEFS'] = None
if conf.env['PYTHON_BINDINGS_APIDEFS'] is None:
msg = 'none available'
else:
msg = conf.env['PYTHON_BINDINGS_APIDEFS']
conf.check_message_custom('the apidefs that can be used for Python bindings', '', msg)
if conf.env['PYTHON_BINDINGS_APIDEFS'] is None:
conf.report_optional_feature("python", "Python Bindings", False,
"No apidefs are available that can be used in this system")
return
## If all has gone well, we finally enable the Python bindings
conf.env['ENABLE_PYTHON_BINDINGS'] = True
conf.report_optional_feature("python", "Python Bindings", True, None)
## Check for pygccxml
try:
conf.check_python_module('pygccxml')
except Configure.ConfigurationError:
conf.report_optional_feature("pygccxml", "Python API Scanning Support", False,
"Missing 'pygccxml' Python module")
return
out = subprocess.Popen([conf.env['PYTHON'], "-c",
"import pygccxml; print pygccxml.__version__"],
stdout=subprocess.PIPE).communicate()[0]
pygccxml_version_str = out.strip()
pygccxml_version = tuple([int(x) for x in pygccxml_version_str.split('.')])
conf.check_message('pygccxml', 'version',
(pygccxml_version >= REQUIRED_PYGCCXML_VERSION),
pygccxml_version_str)
if not (pygccxml_version >= REQUIRED_PYGCCXML_VERSION):
Logs.warn("pygccxml (found %s) is too old (need %s) => "
"automatic scanning of API definitions will not be possible" %
(pygccxml_version_str,
'.'.join([str(x) for x in REQUIRED_PYGCCXML_VERSION])))
conf.report_optional_feature("pygccxml", "Python API Scanning Support", False,
"pygccxml too old")
return
## Check gccxml version
gccxml = conf.find_program('gccxml', var='GCCXML')
if not gccxml:
Logs.warn("gccxml missing; automatic scanning of API definitions will not be possible")
conf.report_optional_feature("pygccxml", "Python API Scanning Support", False,
"gccxml missing")
return
gccxml_version_line = os.popen(gccxml + " --version").readline().strip()
m = re.match( "^GCC-XML version (\d\.\d(\.\d)?)$", gccxml_version_line)
gccxml_version = m.group(1)
gccxml_version_ok = ([int(s) for s in gccxml_version.split('.')] >= [0, 9])
conf.check_message('gccxml', 'version', True, gccxml_version)
if not gccxml_version_ok:
Logs.warn("gccxml too old, need version >= 0.9; automatic scanning of API definitions will not be possible")
conf.report_optional_feature("pygccxml", "Python API Scanning Support", False,
"gccxml too old")
return
## If we reached
conf.env['ENABLE_PYTHON_SCANNING'] = True
conf.report_optional_feature("pygccxml", "Python API Scanning Support", True, None)
prio_headers = {
-2: (
"string.h", # work around http://www.gccxml.org/Bug/view.php?id=6682
),
-1: (
"propagation-delay-model.h",
"propagation-loss-model.h",
"net-device.h",
"ipv4-interface.h",
)
}
def get_header_prio(header):
for prio, headers in prio_headers.iteritems():
if header in headers:
return prio
return 1
def calc_header_include(path):
(head, tail) = os.path.split (path)
if tail == 'ns3':
return ''
else:
return os.path.join (calc_header_include (head), tail)
class gen_everything_h_task(Task.Task):
before = 'cc cxx gchx'
after = 'ns3header_task'
color = 'BLUE'
def run(self):
assert len(self.outputs) == 1
header_files = [calc_header_include(node.abspath(self.env)) for node in self.inputs]
outfile = file(self.outputs[0].bldpath(self.env), "w")
def sort_func(h1, h2):
return cmp((get_header_prio(h1), h1), (get_header_prio(h1), h2))
header_files.sort(sort_func)
print >> outfile, """
/* http://www.nsnam.org/bugzilla/show_bug.cgi?id=413 */
#ifdef ECHO
# undef ECHO
#endif
"""
for header in header_files:
print >> outfile, "#include \"ns3/%s\"" % (header,)
print >> outfile, """
namespace ns3 {
static inline Ptr<Object>
__dummy_function_to_force_template_instantiation (Ptr<Object> obj, TypeId typeId)
{
return obj->GetObject<Object> (typeId);
}
static inline void
__dummy_function_to_force_template_instantiation_v2 ()
{
Time t1, t2, t3;
t1 = t2 + t3;
t1 = t2 - t3;
TimeSquare tsq = t2*t3;
Time tsqdiv = tsq/Seconds(1);
Scalar scal = t2/t3;
TimeInvert inv = scal/t3;
t1 = scal*t1;
t1 = t1/scal;
t1 < t2;
t1 <= t2;
t1 == t2;
t1 != t2;
t1 >= t2;
t1 > t2;
}
}
"""
outfile.close()
return 0
class all_ns3_headers_taskgen(TaskGen.task_gen):
"""Generates a 'everything.h' header file that includes some/all public ns3 headers.
This single header file is to be parsed only once by gccxml, for greater efficiency.
"""
def __init__(self, *args, **kwargs):
super(all_ns3_headers_taskgen, self).__init__(*args, **kwargs)
self.install_path = None
#self.inst_dir = 'ns3'
def apply(self):
## get all of the ns3 headers
ns3_dir_node = self.bld.path.find_dir("ns3")
all_headers_inputs = []
for filename in self.to_list(self.source):
src_node = ns3_dir_node.find_or_declare(filename)
if src_node is None:
raise Utils.WafError("source ns3 header file %s not found" % (filename,))
all_headers_inputs.append(src_node)
## if self.source was empty, include all ns3 headers in enabled modules
if not all_headers_inputs:
for ns3headers in self.bld.all_task_gen:
if type(ns3headers).__name__ == 'ns3header_taskgen': # XXX: find less hackish way to compare
## skip headers not part of enabled modules
if self.env['NS3_ENABLED_MODULES']:
if ("ns3-%s" % ns3headers.module) not in self.env['NS3_ENABLED_MODULES']:
continue
for source in ns3headers.to_list(ns3headers.source):
#source = os.path.basename(source)
node = ns3_dir_node.find_or_declare(source)
if node is None:
raise Utils.WafError("missing header file %s" % (source,))
all_headers_inputs.append(node)
assert all_headers_inputs
all_headers_outputs = [self.path.find_or_declare("everything.h")]
task = self.create_task('gen_everything_h', env=self.env)
task.set_inputs(all_headers_inputs)
task.set_outputs(all_headers_outputs)
def install(self):
pass
def get_modules_and_headers(bld):
"""
Gets a dict of
module_name => ([module_dep1, module_dep2, ...], [module_header1, module_header2, ...])
tuples, one for each module.
"""
retval = {}
for module in bld.all_task_gen:
if not module.name.startswith('ns3-'):
continue
module_name = module.name[4:] # strip the ns3- prefix
## find the headers object for this module
headers = []
for ns3headers in bld.all_task_gen:
if type(ns3headers).__name__ != 'ns3header_taskgen': # XXX: find less hackish way to compare
continue
if ns3headers.module != module_name:
continue
for source in ns3headers.to_list(ns3headers.source):
headers.append(source)
retval[module_name] = (list(module.module_deps), headers)
return retval
class python_scan_task(Task.TaskBase):
"""Uses gccxml to scan the file 'everything.h' and extract API definitions.
"""
after = 'gen_everything_h_task'
before = 'cc cxx gchx'
color = "BLUE"
def __init__(self, curdirnode, env, bld, target, cflags):
self.bld = bld
super(python_scan_task, self).__init__(generator=self)
self.curdirnode = curdirnode
self.env = env
self.target = target
self.cflags = cflags
def display(self):
return 'python-scan-%s\n' % (self.target,)
def run(self):
defsdir = os.path.join(self.curdirnode.abspath(), 'apidefs', self.target)
try:
os.mkdir(defsdir)
except OSError:
pass
argv = [
self.env['PYTHON'],
os.path.join(self.curdirnode.abspath(), 'ns3modulescan.py'), # scanning script
self.curdirnode.find_dir('../..').abspath(self.env), # include path (where the ns3 include dir is)
self.curdirnode.find_or_declare('everything.h').abspath(self.env),
os.path.join(defsdir, 'ns3modulegen_generated.py'), # output file
self.cflags,
]
scan = subprocess.Popen(argv, stdin=subprocess.PIPE)
scan.stdin.write(repr(get_modules_and_headers(self.bld)))
scan.stdin.close()
retval = scan.wait()
return retval
class python_scan_task_collector(Task.TaskBase):
"""Tasks that waits for the python-scan-* tasks to complete and then signals WAF to exit
"""
after = 'python_scan_task'
before = 'cc cxx'
color = "BLUE"
def __init__(self, curdirnode, env, bld):
self.bld = bld
super(python_scan_task_collector, self).__init__(generator=self)
self.curdirnode = curdirnode
self.env = env
def display(self):
return 'python-scan-collector\n'
def run(self):
# signal stop (we generated files into the source dir and WAF
# can't cope with it, so we have to force the user to restart
# WAF)
self.bld.generator.stop = 1
return 0
def build(bld):
if Options.options.python_disable:
return
env = bld.env
curdir = bld.path.abspath()
set_pybindgen_pythonpath(env)
if env['ENABLE_PYTHON_BINDINGS']:
obj = bld.new_task_gen('all_ns3_headers')
if Options.options.python_scan:
if not env['ENABLE_PYTHON_SCANNING']:
raise Utils.WafError("Cannot re-scan python bindings: (py)gccxml not available")
scan_targets = []
if sys.platform == 'cygwin':
scan_targets.append(('gcc-cygwin', ''))
else:
import struct
if struct.calcsize('I') == 4 and struct.calcsize('L') == 8 and struct.calcsize('P') == 8:
scan_targets.extend([('gcc-ILP32', '-m32'), ('gcc-LP64', '-m64')])
elif struct.calcsize('I') == 4 and struct.calcsize('L') == 4 and struct.calcsize('P') == 4:
scan_targets.append(('gcc-ILP32', ''))
else:
raise Utils.WafError("Cannot scan python bindings for unsupported data model")
for target, cflags in scan_targets:
python_scan_task(bld.path, env, bld, target, cflags)
python_scan_task_collector(bld.path, env, bld)
return
if env['ENABLE_PYTHON_BINDINGS']:
apidefs = env['PYTHON_BINDINGS_APIDEFS']
## Get a list of scanned modules; the set of scanned modules
## may be smaller than the set of all modules, in case a new
## ns3 module is being developed which wasn't scanned yet.
scanned_modules = []
for filename in os.listdir(os.path.join(curdir, 'apidefs', apidefs)):
m = re.match(r"^ns3_module_(.+)\.py$", filename)
if m is None:
continue
name = m.group(1)
if name.endswith("__local"):
continue
scanned_modules.append(name)
debug = ('PYBINDGEN_DEBUG' in os.environ)
source = [
'ns3modulegen.py',
'apidefs/%s/ns3modulegen_generated.py' % (apidefs,),
'ns3modulegen_core_customizations.py',
]
target = [
'ns3module.cc',
'pch/ns3module.h',
]
if not debug:
target.append('ns3modulegen.log')
argv = ['NS3_ENABLED_FEATURES=${FEATURES}', '${PYTHON}']
if debug:
argv.extend(["-m", "pdb"])
argv.extend(['${SRC[0]}', '${TGT[0]}', os.path.join(curdir, 'apidefs', apidefs)])
argv.extend(get_modules_and_headers(bld).iterkeys())
for module in scanned_modules:
source.append("apidefs/%s/ns3_module_%s.py" % (apidefs, module))
local = "ns3_module_%s__local.py" % module
if os.path.exists(os.path.join(curdir, local)):
source.append(local)
if not debug:
argv.extend(['2>', '${TGT[2]}']) # 2> ns3modulegen.log
for module in scanned_modules:
target.append("ns3_module_%s.cc" % module)
features = []
for (name, caption, was_enabled, reason_not_enabled) in env['NS3_OPTIONAL_FEATURES']:
if was_enabled:
features.append(name)
bindgen = bld.new_task_gen('command', source=source, target=target, command=argv)
bindgen.env['FEATURES'] = ','.join(features)
bindgen.dep_vars = ['FEATURES']
bindgen.before = 'cxx gchx'
bindgen.after = 'gen_everything_h_task'
bindgen.name = "pybindgen-command"
features = 'cxx cshlib pyext'
if env['ENABLE_PYTHON_PCH']:
features += ' pch'
pymod = bld.new_task_gen(features=features)
pymod.source = ['ns3module.cc', 'ns3module_helpers.cc']
pymod.includes = '. pch'
if env['ENABLE_PYTHON_PCH']:
pymod.pch = 'pch/ns3module.h'
for module in scanned_modules:
pymod.source.append("ns3_module_%s.cc" % module)
pymod.target = 'ns3/_ns3'
pymod.name = 'ns3module'
pymod.uselib_local = "ns3"
if pymod.env['ENABLE_STATIC_NS3']:
if sys.platform == 'darwin':
pymod.env.append_value('LINKFLAGS', '-Wl,-all_load')
pymod.env.append_value('LINKFLAGS', '-lns3')
else:
pymod.env.append_value('LINKFLAGS', '-Wl,--whole-archive,-Bstatic')
pymod.env.append_value('LINKFLAGS', '-lns3')
pymod.env.append_value('LINKFLAGS', '-Wl,-Bdynamic,--no-whole-archive')
defines = list(pymod.env['CXXDEFINES'])
defines.extend(['NS_DEPRECATED=', 'NS3_DEPRECATED_H'])
if Options.platform == 'win32':
try:
defines.remove('_DEBUG') # causes undefined symbols on win32
except ValueError:
pass
pymod.env['CXXDEFINES'] = defines
# copy the __init__.py file to the build dir. waf can't handle
# this, it's against waf's principles to have build dir files
# with the same name as source dir files, apparently.
dirnode = bld.path.find_dir('ns3')
src = os.path.join(dirnode.abspath(), '__init__.py')
dst = os.path.join(dirnode.abspath(env), '__init__.py')
try:
need_copy = os.stat(src).st_mtime > os.stat(dst).st_mtime
except OSError:
need_copy = True
if need_copy:
try:
os.mkdir(os.path.dirname(dst))
except OSError:
pass
print "%r -> %r" % (src, dst)
shutil.copy2(src, dst)