## -*- Mode: python; py-indent-offset: 4; indent-tabs-mode: nil; coding: utf-8; -*-
from __future__ import print_function
import os, os.path
import sys
import shutil
import types
import warnings
from waflib import TaskGen, Task, Options, Build, Utils
from waflib.Errors import WafError
import wutils
try:
set
except NameError:
from sets import Set as set # Python 2.3 fallback
all_modules = []
for dirname in os.listdir('src'):
if dirname.startswith('.') or dirname == 'CVS':
continue
path = os.path.join('src', dirname)
if not os.path.isdir(path):
continue
if os.path.exists(os.path.join(path, 'wscript')):
all_modules.append(dirname)
all_modules.sort()
def options(opt):
opt.add_option('--enable-rpath',
help=("Link programs with rpath"
" (normally not needed, see "
" --run and --shell; moreover, only works in some"
" specific platforms, such as Linux and Solaris)"),
action="store_true", dest='enable_rpath', default=False)
opt.add_option('--enable-modules',
help=("Build only these modules (and dependencies)"),
dest='enable_modules')
opt.load('boost', tooldir=['waf-tools'])
for module in all_modules:
opt.recurse(module, mandatory=False)
def configure(conf):
conf.env['REQUIRED_BOOST_LIBS'] = []
for module in all_modules:
conf.recurse (module, name="required_boost_libs", mandatory=False)
if conf.env['REQUIRED_BOOST_LIBS'] is not []:
conf.load('boost')
conf.check_boost(lib=' '.join (conf.env['REQUIRED_BOOST_LIBS']), mandatory=False)
if not conf.env['LIB_BOOST']:
conf.check_boost(lib=' '.join (conf.env['REQUIRED_BOOST_LIBS']), libpath="/usr/lib64", mandatory=False)
if not conf.env['LIB_BOOST']:
conf.env['LIB_BOOST'] = []
# Append blddir to the module path before recursing into modules
blddir = os.path.abspath(os.path.join(conf.bldnode.abspath(), conf.variant))
conf.env.append_value('NS3_MODULE_PATH', blddir + "/lib")
for module in all_modules:
conf.recurse(module, mandatory=False)
# Remove duplicate path items
conf.env['NS3_MODULE_PATH'] = wutils.uniquify_list(conf.env['NS3_MODULE_PATH'])
if Options.options.enable_rpath:
conf.env.append_value('RPATH', '-Wl,-rpath,%s' % (os.path.join(blddir),))
## Used to link the 'test-runner' program with all of ns-3 code
conf.env['NS3_MODULES'] = ['ns3-' + module.split('/')[-1] for module in all_modules]
# we need the 'ns3module' waf "feature" to be created because code
# elsewhere looks for it to find the ns3 module objects.
@TaskGen.feature('ns3module')
def _add_test_code(module):
pass
def create_ns3_module(bld, name, dependencies=(), test=False):
static = bool(bld.env.ENABLE_STATIC_NS3)
# Create a separate library for this module.
if static:
module = bld(features='cxx cxxstlib ns3module')
else:
module = bld(features='cxx cxxshlib ns3module')
module.target = '%s/lib/ns%s-%s%s' % (bld.srcnode.path_from(module.path), wutils.VERSION,
name, bld.env.BUILD_SUFFIX)
linkflags = []
cxxflags = []
ccflags = []
if not static:
cxxflags = module.env['shlib_CXXFLAGS']
ccflags = module.env['shlib_CXXFLAGS']
# Turn on the link flags for shared libraries if we have the
# proper compiler and platform.
if module.env['CXX_NAME'] in ['gcc', 'icc'] and module.env['WL_SONAME_SUPPORTED']:
# Get the module library name without any relative paths
# at its beginning because all of the libraries will end
# up in the same directory.
module_library_name = module.env.cshlib_PATTERN % (os.path.basename(module.target),)
linkflags = '-Wl,--soname=' + module_library_name
cxxdefines = ["NS3_MODULE_COMPILATION"]
ccdefines = ["NS3_MODULE_COMPILATION"]
module.env.append_value('CXXFLAGS', cxxflags)
module.env.append_value('CCFLAGS', ccflags)
module.env.append_value('LINKFLAGS', linkflags)
module.env.append_value('CXXDEFINES', cxxdefines)
module.env.append_value('CCDEFINES', ccdefines)
module.is_static = static
module.vnum = wutils.VNUM
# Add the proper path to the module's name.
# Set the libraries this module depends on.
module.module_deps = list(dependencies)
module.install_path = "${LIBDIR}"
module.name = "ns3-" + name
module.dependencies = dependencies
# Initially create an empty value for this because the pcfile
# writing task assumes every module has a uselib attribute.
module.uselib = ''
module.use = ['ns3-' + dep for dep in dependencies]
module.test = test
module.is_ns3_module = True
module.ns3_dir_location = bld.path.path_from(bld.srcnode)
module.env.append_value("INCLUDES", '#')
module.pcfilegen = bld(features='ns3pcfile')
module.pcfilegen.module = module.name
return module
@TaskGen.feature("ns3testlib")
@TaskGen.before_method("apply_incpaths")
def apply_incpaths_ns3testlib(self):
if not self.source:
return
testdir = self.to_nodes(self.source[-1])[0].parent.path_from(self.bld.srcnode)
self.env.append_value("DEFINES", 'NS_TEST_SOURCEDIR="%s"' % (testdir,))
def create_ns3_module_test_library(bld, name):
# Create an ns3 module for the test library that depends only on
# the module being tested.
library_name = name + "-test"
library = bld.create_ns3_module(library_name, [name], test=True)
library.features += " ns3testlib"
# Modify attributes for the test library that are different from a
# normal module.
del library.is_ns3_module
library.is_ns3_module_test_library = True
library.module_name = 'ns3-' + name
# Add this module and test library to the list.
bld.env.append_value('NS3_MODULES_WITH_TEST_LIBRARIES', [(library.module_name, library.name)])
# Set the include path from the build directory to modules.
relative_path_from_build_to_here = bld.path.path_from(bld.bldnode)
include_flag = '-I' + relative_path_from_build_to_here
library.env.append_value('CXXFLAGS', include_flag)
library.env.append_value('CCFLAGS', include_flag)
return library
def create_obj(bld, *args):
warnings.warn("(in %s) Use bld(...) call now, instead of bld.create_obj(...)" % str(bld.path),
DeprecationWarning, stacklevel=2)
return bld(*args)
def ns3_python_bindings(bld):
# this method is called from a module wscript, so remember bld.path is not bindings/python!
module_abs_src_path = bld.path.abspath()
module = os.path.basename(module_abs_src_path)
env = bld.env
env.append_value("MODULAR_BINDINGS_MODULES", "ns3-"+module)
if Options.options.apiscan:
return
if not env['ENABLE_PYTHON_BINDINGS']:
return
bindings_dir = bld.path.find_dir("bindings")
if bindings_dir is None or not os.path.exists(bindings_dir.abspath()):
warnings.warn("(in %s) Requested to build modular python bindings, but apidefs dir not found "
"=> skipped the bindings." % str(bld.path),
Warning, stacklevel=2)
return
if ("ns3-%s" % (module,)) not in env.NS3_ENABLED_MODULES:
#print "bindings for module %s which is not enabled, skip" % module
return
env.append_value('PYTHON_MODULES_BUILT', module)
try:
apidefs = env['PYTHON_BINDINGS_APIDEFS'].replace("-", "_")
except AttributeError:
# we likely got an empty list for env['PYTHON_BINDINGS_APIDEFS']
return
#debug = ('PYBINDGEN_DEBUG' in os.environ)
debug = True # XXX
source = [bld.srcnode.find_resource('bindings/python/ns3modulegen-modular.py'),
bld.path.find_resource("bindings/modulegen__%s.py" % apidefs)]
modulegen_customizations = bindings_dir.find_resource("modulegen_customizations.py")
if modulegen_customizations is not None:
source.append(modulegen_customizations)
modulegen_local = bld.path.find_resource("bindings/modulegen_local.py")
# the local customization file may or not exist
if modulegen_local is not None:
source.append("bindings/modulegen_local.py")
module_py_name = module.replace('-', '_')
module_target_dir = bld.srcnode.find_dir("bindings/python/ns").path_from(bld.path)
# if bindings/<module>.py exists, it becomes the module frontend, and the C extension befomes _<module>
if bld.path.find_resource("bindings/%s.py" % (module_py_name,)) is not None:
bld(features='copy',
source=("bindings/%s.py" % (module_py_name,)),
target=('%s/%s.py' % (module_target_dir, module_py_name)))
extension_name = '_%s' % (module_py_name,)
bld.install_files('${PYTHONARCHDIR}/ns', ["bindings/%s.py" % (module_py_name,)])
else:
extension_name = module_py_name
target = ['bindings/ns3module.cc', 'bindings/ns3module.h', 'bindings/ns3modulegen.log']
#if not debug:
# target.append('ns3modulegen.log')
argv = ['NS3_ENABLED_FEATURES=${FEATURES}',
'GCC_RTTI_ABI_COMPLETE=${GCC_RTTI_ABI_COMPLETE}',
'${PYTHON}']
#if debug:
# argv.extend(["-m", "pdb"])
argv.extend(['${SRC[0]}', module_abs_src_path, apidefs, extension_name, '${TGT[0]}'])
argv.extend(['2>', '${TGT[2]}']) # 2> ns3modulegen.log
features = []
for (name, caption, was_enabled, reason_not_enabled) in env['NS3_OPTIONAL_FEATURES']:
if was_enabled:
features.append(name)
bindgen = bld(features='command', source=source, target=target, command=argv)
bindgen.env['FEATURES'] = ','.join(features)
bindgen.dep_vars = ['FEATURES', "GCC_RTTI_ABI_COMPLETE"]
bindgen.before = 'cxx'
bindgen.after = 'gen_ns3_module_header'
bindgen.name = "pybindgen(ns3 module %s)" % module
bindgen.install_path = None
# generate the extension module
pymod = bld(features='cxx cxxshlib pyext')
pymod.source = ['bindings/ns3module.cc']
pymod.target = '%s/%s' % (module_target_dir, extension_name)
pymod.name = 'ns3module_%s' % module
pymod.use = ["%s" % mod for mod in pymod.env['NS3_ENABLED_MODULES']] # Should be '"ns3-"+module', but see bug 1117
if pymod.env['ENABLE_STATIC_NS3']:
if sys.platform == 'darwin':
pymod.env.append_value('LINKFLAGS', '-Wl,-all_load')
for mod in pymod.usel:
#mod = mod.split("--lib")[0]
pymod.env.append_value('LINKFLAGS', '-l' + mod)
else:
pymod.env.append_value('LINKFLAGS', '-Wl,--whole-archive,-Bstatic')
for mod in pymod.use:
#mod = mod.split("--lib")[0]
pymod.env.append_value('LINKFLAGS', '-l' + mod)
pymod.env.append_value('LINKFLAGS', '-Wl,-Bdynamic,--no-whole-archive')
defines = list(pymod.env['DEFINES'])
defines.extend(['NS_DEPRECATED=', 'NS3_DEPRECATED_H'])
if Utils.unversioned_sys_platform()== 'win32':
try:
defines.remove('_DEBUG') # causes undefined symbols on win32
except ValueError:
pass
pymod.env['DEFINES'] = defines
pymod.includes = '# bindings'
pymod.install_path = '${PYTHONARCHDIR}/ns'
# Workaround to a WAF bug, remove this when ns-3 upgrades to WAF > 1.6.10
# https://www.nsnam.org/bugzilla/show_bug.cgi?id=1335
# http://code.google.com/p/waf/issues/detail?id=1098
if Utils.unversioned_sys_platform() == 'darwin':
pymod.mac_bundle = True
return pymod
def build(bld):
bld.create_ns3_module = types.MethodType(create_ns3_module, bld)
bld.create_ns3_module_test_library = types.MethodType(create_ns3_module_test_library, bld)
bld.create_obj = types.MethodType(create_obj, bld)
bld.ns3_python_bindings = types.MethodType(ns3_python_bindings, bld)
# Remove these modules from the list of all modules.
for not_built in bld.env['MODULES_NOT_BUILT']:
# XXX Because these modules are located in subdirectories of
# test, their names in the all_modules list include the extra
# relative path "test/". If these modules are moved into the
# src directory, then this if block should be removed.
if not_built == 'ns3tcp' or not_built == 'ns3wifi':
not_built = 'test/' + not_built
if not_built in all_modules:
all_modules.remove(not_built)
bld.recurse(list(all_modules))
for module in all_modules:
modheader = bld(features='ns3moduleheader')
modheader.module = module.split('/')[-1]
class ns3pcfile(Task.Task):
after = 'cxx'
def __str__(self):
"string to display to the user"
tgt_str = ' '.join([a.bldpath() for a in self.outputs])
return 'pcfile: %s' % (tgt_str)
def runnable_status(self):
return super(ns3pcfile, self).runnable_status()
def _self_libs(self, env, name, libdir):
if env['ENABLE_STATIC_NS3']:
path_st = 'STLIBPATH_ST'
lib_st = 'STLIB_ST'
lib_marker = 'STLIB_MARKER'
else:
path_st = 'LIBPATH_ST'
lib_st = 'LIB_ST'
lib_marker = 'SHLIB_MARKER'
retval = [env[path_st] % libdir]
if env[lib_marker]:
retval.append(env[lib_marker])
retval.append(env[lib_st] % name)
return retval
def _lib(self, env, dep):
libpath = env['LIBPATH_%s' % dep]
linkflags = env['LINKFLAGS_%s' % dep]
libs = env['LIB_%s' % dep]
retval = []
for path in libpath:
retval.append(env['LIBPATH_ST'] % path)
retval = retval + linkflags
for lib in libs:
retval.append(env['LIB_ST'] % lib)
return retval
def _listify(self, v):
if isinstance(v, list):
return v
else:
return [v]
def _cflags(self, dep):
flags = self.env['CFLAGS_%s' % dep]
return self._listify(flags)
def _cxxflags(self, dep):
return self._listify(self.env['CXXFLAGS_%s' % dep])
def _defines(self, dep):
return [self.env['DEFINES_ST'] % define for define in self.env['DEFINES_%s' % dep]]
def _includes(self, dep):
includes = self.env['INCLUDES_%s' % dep]
return [self.env['CPPPATH_ST'] % include for include in Utils.to_list(includes)]
def _generate_pcfile(self, name, use, env, outfilename, module):
outfile = open(outfilename, 'wt')
prefix = env.PREFIX
includedir = Utils.subst_vars('${INCLUDEDIR}/%s%s' % (wutils.APPNAME, wutils.VERSION), env)
libdir = env.LIBDIR
libs = self._self_libs(env, "%s%s-%s%s" % (wutils.APPNAME, wutils.VERSION, name[4:], env.BUILD_SUFFIX), '${libdir}')
for dep in use:
libs += self._lib(env, dep)
for dep in env.LIBS:
libs += self.env['LIB_ST'] % dep
cflags = [self.env['CPPPATH_ST'] % '${includedir}']
if getattr(module, 'export_includes', None):
for include in module.to_incnodes(module.export_includes):
cflags += [self.env['CPPPATH_ST'] % include.abspath()]
requires = []
for dep in use:
cflags = cflags + self._cflags(dep) + self._cxxflags(dep) + \
self._defines(dep) + self._includes(dep)
if dep.startswith('ns3-'):
dep_name = dep[4:]
requires.append("libns%s-%s%s" % (wutils.VERSION, dep_name, env.BUILD_SUFFIX))
print("""\
prefix=%s
libdir=%s
includedir=%s
Name: lib%s
Description: ns-3 module %s
Version: %s
Libs: %s
Cflags: %s
Requires: %s\
""" % (prefix, libdir, includedir,
name, name, wutils.VERSION, ' '.join(libs), ' '.join(cflags), ' '.join(requires)), file=outfile)
outfile.close()
def run(self):
output_filename = self.outputs[0].abspath()
self._generate_pcfile(self.module.name,
self.module.to_list(self.module.use),
self.env, output_filename, self.module)
@TaskGen.feature('ns3pcfile')
@TaskGen.after_method('process_rule')
def apply(self):
module = self.bld.find_ns3_module(self.module)
output_filename = 'lib%s.pc' % os.path.basename(module.target)
output_node = self.path.find_or_declare(output_filename)
assert output_node is not None, str(self)
task = self.create_task('ns3pcfile')
self.bld.install_files('${LIBDIR}/pkgconfig', output_node)
task.set_outputs([output_node])
task.module = module
@TaskGen.feature('ns3header')
@TaskGen.after_method('process_rule')
def apply_ns3header(self):
if self.module is None:
raise WafError("'module' missing on ns3headers object %s" % self)
ns3_dir_node = self.bld.path.find_or_declare("ns3")
for filename in set(self.to_list(self.source)):
src_node = self.path.find_resource(filename)
if src_node is None:
raise WafError("source ns3 header file %s not found" % (filename,))
dst_node = ns3_dir_node.find_or_declare(src_node.name)
assert dst_node is not None
task = self.create_task('ns3header')
task.mode = getattr(self, 'mode', 'install')
if task.mode == 'install':
self.bld.install_files('${INCLUDEDIR}/%s%s/ns3' % (wutils.APPNAME, wutils.VERSION), [src_node])
task.set_inputs([src_node])
task.set_outputs([dst_node])
else:
task.header_to_remove = dst_node
self.headers = set(self.to_list(self.source))
self.source = '' # tell WAF not to process these files further
class ns3header(Task.Task):
before = 'cxx gen_ns3_module_header'
color = 'BLUE'
def __str__(self):
"string to display to the user"
env = self.env
src_str = ' '.join([a.bldpath() for a in self.inputs])
tgt_str = ' '.join([a.bldpath() for a in self.outputs])
if self.outputs: sep = ' -> '
else: sep = ''
if self.mode == 'remove':
return 'rm-ns3-header %s' % (self.header_to_remove.abspath(),)
return 'install-ns3-header: %s' % (tgt_str)
def __repr__(self):
return str(self)
def uid(self):
try:
return self.uid_
except AttributeError:
m = Utils.md5()
up = m.update
up(self.__class__.__name__.encode())
for x in self.inputs + self.outputs:
up(x.abspath().encode())
up(self.mode.encode())
if self.mode == 'remove':
up(self.header_to_remove.abspath().encode())
self.uid_ = m.digest()
return self.uid_
def runnable_status(self):
if self.mode == 'remove':
if os.path.exists(self.header_to_remove.abspath()):
return Task.RUN_ME
else:
return Task.SKIP_ME
else:
return super(ns3header, self).runnable_status()
def run(self):
if self.mode == 'install':
assert len(self.inputs) == len(self.outputs)
inputs = [node.abspath() for node in self.inputs]
outputs = [node.abspath() for node in self.outputs]
for src, dst in zip(inputs, outputs):
try:
os.chmod(dst, 0o600)
except OSError:
pass
shutil.copy2(src, dst)
## make the headers in builddir read-only, to prevent
## accidental modification
os.chmod(dst, 0o400)
return 0
else:
assert len(self.inputs) == 0
assert len(self.outputs) == 0
out_file_name = self.header_to_remove.abspath()
try:
os.unlink(out_file_name)
except OSError as ex:
if ex.errno != 2:
raise
return 0
@TaskGen.feature('ns3privateheader')
@TaskGen.after_method('process_rule')
def apply_ns3privateheader(self):
if self.module is None:
raise WafError("'module' missing on ns3headers object %s" % self)
ns3_dir_node = self.bld.path.find_or_declare("ns3/private")
for filename in set(self.to_list(self.source)):
src_node = self.path.find_resource(filename)
if src_node is None:
raise WafError("source ns3 header file %s not found" % (filename,))
dst_node = ns3_dir_node.find_or_declare(src_node.name)
assert dst_node is not None
task = self.create_task('ns3privateheader')
task.mode = getattr(self, 'mode', 'install')
if task.mode == 'install':
task.set_inputs([src_node])
task.set_outputs([dst_node])
else:
task.header_to_remove = dst_node
self.headers = set(self.to_list(self.source))
self.source = '' # tell WAF not to process these files further
class ns3privateheader(Task.Task):
before = 'cxx gen_ns3_module_header'
after = 'ns3header'
color = 'BLUE'
def __str__(self):
"string to display to the user"
env = self.env
src_str = ' '.join([a.bldpath() for a in self.inputs])
tgt_str = ' '.join([a.bldpath() for a in self.outputs])
if self.outputs: sep = ' -> '
else: sep = ''
if self.mode == 'remove':
return 'rm-ns3-header %s' % (self.header_to_remove.abspath(),)
return 'install-ns3-header: %s' % (tgt_str)
def __repr__(self):
return str(self)
def uid(self):
try:
return self.uid_
except AttributeError:
m = Utils.md5()
up = m.update
up(self.__class__.__name__.encode())
for x in self.inputs + self.outputs:
up(x.abspath().encode())
up(self.mode.encode())
if self.mode == 'remove':
up(self.header_to_remove.abspath().encode())
self.uid_ = m.digest()
return self.uid_
def runnable_status(self):
if self.mode == 'remove':
if os.path.exists(self.header_to_remove.abspath()):
return Task.RUN_ME
else:
return Task.SKIP_ME
else:
return super(ns3privateheader, self).runnable_status()
def run(self):
if self.mode == 'install':
assert len(self.inputs) == len(self.outputs)
inputs = [node.abspath() for node in self.inputs]
outputs = [node.abspath() for node in self.outputs]
for src, dst in zip(inputs, outputs):
try:
os.chmod(dst, 0o600)
except OSError:
pass
shutil.copy2(src, dst)
## make the headers in builddir read-only, to prevent
## accidental modification
os.chmod(dst, 0o400)
return 0
else:
assert len(self.inputs) == 0
assert len(self.outputs) == 0
out_file_name = self.header_to_remove.abspath()
try:
os.unlink(out_file_name)
except OSError as ex:
if ex.errno != 2:
raise
return 0
class gen_ns3_module_header(Task.Task):
before = 'cxx'
after = 'ns3header'
color = 'BLUE'
def runnable_status(self):
if self.mode == 'remove':
if os.path.exists(self.header_to_remove.abspath()):
return Task.RUN_ME
else:
return Task.SKIP_ME
else:
return super(gen_ns3_module_header, self).runnable_status()
def __str__(self):
"string to display to the user"
env = self.env
src_str = ' '.join([a.bldpath() for a in self.inputs])
tgt_str = ' '.join([a.bldpath() for a in self.outputs])
if self.outputs: sep = ' -> '
else: sep = ''
if self.mode == 'remove':
return 'rm-module-header %s' % (self.header_to_remove.abspath(),)
return 'gen-module-header: %s' % (tgt_str)
def run(self):
if self.mode == 'remove':
assert len(self.inputs) == 0
assert len(self.outputs) == 0
out_file_name = self.header_to_remove.abspath()
try:
os.unlink(out_file_name)
except OSError as ex:
if ex.errno != 2:
raise
return 0
assert len(self.outputs) == 1
out_file_name = self.outputs[0].get_bld().abspath()#self.env)
header_files = [os.path.basename(node.abspath()) for node in self.inputs]
outfile = open(out_file_name, "w")
header_files.sort()
print("""
#ifdef NS3_MODULE_COMPILATION
# error "Do not include ns3 module aggregator headers from other modules; these are meant only for end user scripts."
#endif
#ifndef NS3_MODULE_%s
""" % (self.module.upper().replace('-', '_'),), file=outfile)
# if self.module_deps:
# print >> outfile, "// Module dependencies:"
# for dep in self.module_deps:
# print >> outfile, "#include \"%s-module.h\"" % dep
print(file=outfile)
print("// Module headers:", file=outfile)
for header in header_files:
print("#include \"%s\"" % (header,), file=outfile)
print("#endif", file=outfile)
outfile.close()
return 0
def sig_explicit_deps(self):
self.m.update('\n'.join(sorted([node.abspath() for node in self.inputs])).encode('utf-8'))
return self.m.digest()
def unique_id(self):
try:
return self.uid
except AttributeError:
"this is not a real hot zone, but we want to avoid surprizes here"
m = Utils.md5()
m.update("ns-3-module-header-%s" % self.module)
self.uid = m.digest()
return self.uid
# Generates a 'ns3/foo-module.h' header file that includes all public
# ns3 headers of a certain module.
@TaskGen.feature('ns3moduleheader')
@TaskGen.after_method('process_rule')
def apply_ns3moduleheader(self):
## get all of the ns3 headers
ns3_dir_node = self.bld.path.find_or_declare("ns3")
all_headers_inputs = []
found_the_module = False
for ns3headers in self.bld.all_task_gen:
if 'ns3header' in getattr(ns3headers, "features", []):
if ns3headers.module != self.module:
continue
found_the_module = True
for source in sorted(ns3headers.headers):
source = os.path.basename(source)
node = ns3_dir_node.find_or_declare(os.path.basename(source))
if node is None:
fatal("missing header file %s" % (source,))
all_headers_inputs.append(node)
if not found_the_module:
raise WafError("error finding headers for module %s" % self.module)
if not all_headers_inputs:
return
try:
module_obj = self.bld.get_tgen_by_name("ns3-" + self.module)
except WafError: # maybe the module was disabled, and therefore removed
return
all_headers_outputs = [ns3_dir_node.find_or_declare("%s-module.h" % self.module)]
task = self.create_task('gen_ns3_module_header')
task.module = self.module
task.mode = getattr(self, "mode", "install")
if task.mode == 'install':
assert module_obj is not None, self.module
self.bld.install_files('${INCLUDEDIR}/%s%s/ns3' % (wutils.APPNAME, wutils.VERSION),
ns3_dir_node.find_or_declare("%s-module.h" % self.module))
task.set_inputs(all_headers_inputs)
task.set_outputs(all_headers_outputs)
task.module_deps = module_obj.module_deps
else:
task.header_to_remove = all_headers_outputs[0]