import os, sys, inspect
-VERSION="2.0.24"
+VERSION="2.0.25"
REVISION="x"
GIT="x"
INSTALL="x"
os.environ['PYTHONUNBUFFERED'] = '1'
-if Context.HEXVERSION not in (0x2001800,):
+if Context.HEXVERSION not in (0x2001900,):
Logs.error('''
Please use the version of waf that comes with Samba, not
a system installed version. See http://wiki.samba.org/index.php/Waf
var = kw.get('var', '')
if not var:
- var = re.sub(r'[-.]', '_', filename[0].upper())
+ var = re.sub(r'\W', '_', filename[0].upper())
path_list = kw.get('path_list', '')
if path_list:
import imp
# the following 3 constants are updated on each new release (do not touch)
-HEXVERSION=0x2001800
+HEXVERSION=0x2001900
"""Constant updated on new releases"""
-WAFVERSION="2.0.24"
+WAFVERSION="2.0.25"
"""Constant updated on new releases"""
-WAFREVISION="1af97c71f5a6756abf36d0f78ed8fd551596d7cb"
+WAFREVISION="2db0b41b2805cd5db3b55476c06b23c1e46d319f"
"""Git revision when the waf version is updated"""
WAFNAME="waf"
Decorator that registers a task generator method that will be executed when the
object attribute ``feature`` contains the corresponding key(s)::
- from waflib.Task import feature
+ from waflib.TaskGen import feature
@feature('myfeature')
def myfunction(self):
print('that is my feature!')
class MSVCVersion(object):
def __init__(self, ver):
- m = re.search('^(.*)\s+(\d+[.]\d+)', ver)
+ m = re.search(r'^(.*)\s+(\d+[.]\d+)', ver)
if m:
self.name = m.group(1)
self.number = float(m.group(2))
Piece of Python code used in :py:class:`waflib.Tools.python.pyo` and :py:class:`waflib.Tools.python.pyc` for byte-compiling python files
"""
-DISTUTILS_IMP = ['from distutils.sysconfig import get_config_var, get_python_lib']
+DISTUTILS_IMP = """
+try:
+ from distutils.sysconfig import get_config_var, get_python_lib
+except ImportError:
+ from sysconfig import get_config_var, get_path
+ def get_python_lib(*k, **kw):
+ keyword='platlib' if kw.get('plat_specific') else 'purelib'
+ if 'prefix' in kw:
+ return get_path(keyword, vars={'installed_base': kw['prefix'], 'platbase': kw['prefix']})
+ return get_path(keyword)
+""".splitlines()
@before_method('process_source')
@feature('py')
try:
out = self.cmd_and_log(self.env.PYTHON + ['-c', '\n'.join(program)], env=os_env)
except Errors.WafError:
- self.fatal('The distutils module is unusable: install "python-devel"?')
+ self.fatal('Could not run %r' % self.env.PYTHON)
self.to_log(out)
return_values = []
for s in out.splitlines():
@conf
def check_python_headers(conf, features='pyembed pyext'):
"""
- Check for headers and libraries necessary to extend or embed python by using the module *distutils*.
+ Check for headers and libraries necessary to extend or embed python.
+ It may use the module *distutils* or sysconfig in newer Python versions.
On success the environment variables xxx_PYEXT and xxx_PYEMBED are added:
* PYEXT: for compiling python extensions
env.LIBPATH_PYEXT = env.LIBPATH_PYEMBED
env.LIB_PYEXT = env.LIB_PYEMBED
- conf.to_log("Include path for Python extensions (found via distutils module): %r\n" % (dct['INCLUDEPY'],))
+ conf.to_log("Found an include path for Python extensions: %r\n" % (dct['INCLUDEPY'],))
env.INCLUDES_PYEXT = [dct['INCLUDEPY']]
env.INCLUDES_PYEMBED = [dct['INCLUDEPY']]
env.append_unique('CXXFLAGS_PYEXT', ['-fno-strict-aliasing'])
if env.CC_NAME == "msvc":
- from distutils.msvccompiler import MSVCCompiler
- dist_compiler = MSVCCompiler()
- dist_compiler.initialize()
- env.append_value('CFLAGS_PYEXT', dist_compiler.compile_options)
- env.append_value('CXXFLAGS_PYEXT', dist_compiler.compile_options)
- env.append_value('LINKFLAGS_PYEXT', dist_compiler.ldflags_shared)
+ try:
+ from distutils.msvccompiler import MSVCCompiler
+ except ImportError:
+ # From https://github.com/python/cpython/blob/main/Lib/distutils/msvccompiler.py
+ env.append_value('CFLAGS_PYEXT', [ '/nologo', '/Ox', '/MD', '/W3', '/GX', '/DNDEBUG'])
+ env.append_value('CXXFLAGS_PYEXT', [ '/nologo', '/Ox', '/MD', '/W3', '/GX', '/DNDEBUG'])
+ env.append_value('LINKFLAGS_PYEXT', ['/DLL', '/nologo', '/INCREMENTAL:NO'])
+ else:
+ dist_compiler = MSVCCompiler()
+ dist_compiler.initialize()
+ env.append_value('CFLAGS_PYEXT', dist_compiler.compile_options)
+ env.append_value('CXXFLAGS_PYEXT', dist_compiler.compile_options)
+ env.append_value('LINKFLAGS_PYEXT', dist_compiler.ldflags_shared)
- # See if it compiles
- conf.check(header_name='Python.h', define_name='HAVE_PYTHON_H', uselib='PYEMBED', fragment=FRAG, errmsg='Distutils not installed? Broken python installation? Get python-config now!')
+ conf.check(header_name='Python.h', define_name='HAVE_PYTHON_H', uselib='PYEMBED', fragment=FRAG, errmsg='Could not build a Python embedded interpreter')
@conf
def check_python_version(conf, minver=None):
else:
# Finally, try to guess
if Utils.is_win32:
- (python_LIBDEST, pydir) = conf.get_python_variables(
- ["get_config_var('LIBDEST') or ''",
- "get_python_lib(standard_lib=0) or ''"])
+ (pydir,) = conf.get_python_variables(["get_python_lib(standard_lib=0) or ''"])
else:
- python_LIBDEST = None
- (pydir,) = conf.get_python_variables( ["get_python_lib(standard_lib=0, prefix=%r) or ''" % conf.env.PREFIX])
- if python_LIBDEST is None:
- if conf.env.LIBDIR:
- python_LIBDEST = os.path.join(conf.env.LIBDIR, 'python' + pyver)
- else:
- python_LIBDEST = os.path.join(conf.env.PREFIX, 'lib', 'python' + pyver)
+ (pydir,) = conf.get_python_variables(["get_python_lib(standard_lib=0, prefix=%r) or ''" % conf.env.PREFIX])
if 'PYTHONARCHDIR' in conf.env:
# Check if --pythonarchdir was specified
pyarchdir = conf.environ['PYTHONARCHDIR']
else:
# Finally, try to guess
- (pyarchdir, ) = conf.get_python_variables( ["get_python_lib(plat_specific=1, standard_lib=0, prefix=%r) or ''" % conf.env.PREFIX])
+ (pyarchdir, ) = conf.get_python_variables(["get_python_lib(plat_specific=1, standard_lib=0, prefix=%r) or ''" % conf.env.PREFIX])
if not pyarchdir:
pyarchdir = pydir
if ret == 'unknown version':
conf.fatal('Could not check the %s version' % module_name)
- from distutils.version import LooseVersion
def num(*k):
if isinstance(k[0], int):
- return LooseVersion('.'.join([str(x) for x in k]))
+ return Utils.loose_version('.'.join([str(x) for x in k]))
else:
- return LooseVersion(k[0])
- d = {'num': num, 'ver': LooseVersion(ret)}
+ return Utils.loose_version(k[0])
+ d = {'num': num, 'ver': Utils.loose_version(ret)}
ev = eval(condition, {}, d)
if not ev:
conf.fatal('The %s version does not satisfy the requirements' % module_name)
pass
else:
if codepage:
+ if 65001 == codepage and sys.version_info < (3, 3):
+ return 'utf-8'
return 'cp%d' % codepage
return sys.stdout.encoding or ('cp1252' if is_win32 else 'latin-1')
return '64'
return ''
+def loose_version(ver_str):
+ # private for the time being!
+ # see #2402
+ lst = re.split(r'([.]|\\d+|[a-zA-Z])', ver_str)
+ ver = []
+ for i, val in enumerate(lst):
+ try:
+ ver.append(int(val))
+ except ValueError:
+ if val != '.':
+ ver.append(val)
+ return ver
+
def sane_path(p):
# private function for the time being!
return os.path.abspath(os.path.expanduser(p))
global critical_errors
with cpplint_wrapper(get_cpplint_logger(self.env.CPPLINT_OUTPUT), self.env.CPPLINT_BREAK, self.env.CPPLINT_OUTPUT):
params = {key: str(self.env[key]) for key in self.env if 'CPPLINT_' in key}
- if params['CPPLINT_OUTPUT'] is 'waf':
+ if params['CPPLINT_OUTPUT'] == 'waf':
params['CPPLINT_OUTPUT'] = 'emacs'
params['CPPLINT'] = self.env.get_flat('CPPLINT')
cmd = Utils.subst_vars(CPPLINT_STR, params)
--- /dev/null
+#! /usr/bin/env python
+# encoding: utf-8
+# Detection of the Fujitsu Fortran compiler for ARM64FX
+
+import re
+from waflib.Tools import fc,fc_config,fc_scan
+from waflib.Configure import conf
+from waflib.Tools.compiler_fc import fc_compiler
+fc_compiler['linux'].append('fc_fujitsu')
+
+@conf
+def find_fujitsu(conf):
+ fc=conf.find_program(['frtpx'],var='FC')
+ conf.get_fujitsu_version(fc)
+ conf.env.FC_NAME='FUJITSU'
+ conf.env.FC_MOD_CAPITALIZATION='lower'
+
+@conf
+def fujitsu_flags(conf):
+ v=conf.env
+ v['_FCMODOUTFLAGS']=[]
+ v['FCFLAGS_DEBUG']=[]
+ v['FCFLAGS_fcshlib']=[]
+ v['LINKFLAGS_fcshlib']=[]
+ v['FCSTLIB_MARKER']=''
+ v['FCSHLIB_MARKER']=''
+
+@conf
+def get_fujitsu_version(conf,fc):
+ version_re=re.compile(r"frtpx\s*\(FRT\)\s*(?P<major>\d+)\.(?P<minor>\d+)\.",re.I).search
+ cmd=fc+['--version']
+ out,err=fc_config.getoutput(conf,cmd,stdin=False)
+ if out:
+ match=version_re(out)
+ else:
+ match=version_re(err)
+ if not match:
+ return(False)
+ conf.fatal('Could not determine the Fujitsu FRT Fortran compiler version.')
+ else:
+ k=match.groupdict()
+ conf.env['FC_VERSION']=(k['major'],k['minor'])
+
+def configure(conf):
+ conf.find_fujitsu()
+ conf.find_program('ar',var='AR')
+ conf.add_os_flags('ARFLAGS')
+ if not conf.env.ARFLAGS:
+ conf.env.ARFLAGS=['rcs']
+ conf.fc_flags()
+ conf.fc_add_flags()
+ conf.fujitsu_flags()
import os, re, threading
from waflib import Task, Logs, Utils, Errors
-from waflib.Tools import c_preproc
+from waflib.Tools import asm, c, c_preproc, cxx
from waflib.TaskGen import before_method, feature
lock = threading.Lock()
#!/usr/bin/env python
# encoding: utf-8
-# Federico Pellegrin, 2016-2019 (fedepell) adapted for Python
+# Federico Pellegrin, 2016-2022 (fedepell) adapted for Python
"""
This tool helps with finding Python Qt5 tools and libraries,
Processes ``.qrc`` files
"""
color = 'BLUE'
- run_str = '${QT_PYRCC} ${SRC} -o ${TGT}'
+ run_str = '${QT_PYRCC} ${QT_PYRCC_FLAGS} ${SRC} -o ${TGT}'
ext_out = ['.py']
def rcname(self):
Processes ``.ui`` files for python
"""
color = 'BLUE'
- run_str = '${QT_PYUIC} ${SRC} -o ${TGT}'
+ run_str = '${QT_PYUIC} ${QT_PYUIC_FLAGS} ${SRC} -o ${TGT}'
ext_out = ['.py']
class ts2qm(Task.Task):
self.find_program(['pyrcc5'], var='QT_PYRCC')
self.find_program(['pylupdate5'], var='QT_PYLUPDATE')
elif getattr(Options.options, 'want_pyside2', True):
- self.find_program(['pyside2-uic'], var='QT_PYUIC')
- self.find_program(['pyside2-rcc'], var='QT_PYRCC')
- self.find_program(['pyside2-lupdate'], var='QT_PYLUPDATE')
+ self.find_program(['pyside2-uic','uic-qt5'], var='QT_PYUIC')
+ self.find_program(['pyside2-rcc','rcc-qt5'], var='QT_PYRCC')
+ self.find_program(['pyside2-lupdate','lupdate-qt5'], var='QT_PYLUPDATE')
elif getattr(Options.options, 'want_pyqt4', True):
self.find_program(['pyuic4'], var='QT_PYUIC')
self.find_program(['pyrcc4'], var='QT_PYRCC')
self.find_program(['pylupdate4'], var='QT_PYLUPDATE')
else:
- self.find_program(['pyuic5','pyside2-uic','pyuic4'], var='QT_PYUIC')
- self.find_program(['pyrcc5','pyside2-rcc','pyrcc4'], var='QT_PYRCC')
- self.find_program(['pylupdate5', 'pyside2-lupdate','pylupdate4'], var='QT_PYLUPDATE')
+ self.find_program(['pyuic5','pyside2-uic','pyuic4','uic-qt5'], var='QT_PYUIC')
+ self.find_program(['pyrcc5','pyside2-rcc','pyrcc4','rcc-qt5'], var='QT_PYRCC')
+ self.find_program(['pylupdate5', 'pyside2-lupdate','pylupdate4','lupdate-qt5'], var='QT_PYLUPDATE')
if not env.QT_PYUIC:
self.fatal('cannot find the uic compiler for python for qt5')
"""Support for Sphinx documentation
-This is a wrapper for sphinx-build program. Please note that sphinx-build supports only one output format which can
-passed to build via sphinx_output_format attribute. The default output format is html.
+This is a wrapper for sphinx-build program. Please note that sphinx-build supports only
+one output format at a time, but the tool can create multiple tasks to handle more.
+The output formats can be passed via the sphinx_output_format, which is an array of
+strings. For backwards compatibility if only one output is needed, it can be passed
+as a single string.
+The default output format is html.
+
+Specific formats can be installed in different directories by specifying the
+install_path_<FORMAT> attribute. If not defined, the standard install_path
+will be used instead.
Example wscript:
features='sphinx',
sphinx_source='sources', # path to source directory
sphinx_options='-a -v', # sphinx-build program additional options
- sphinx_output_format='man' # output format of sphinx documentation
+ sphinx_output_format=['html', 'man'], # output format of sphinx documentation
+ install_path_man='${DOCDIR}/man' # put man pages in a specific directory
)
"""
if not self.sphinx_source:
self.bld.fatal('Can\'t find sphinx_source: %r' % self.sphinx_source)
+ # In the taskgen we have the complete list of formats
Utils.def_attrs(self, sphinx_output_format='html')
- self.env.SPHINX_OUTPUT_FORMAT = self.sphinx_output_format
+ self.sphinx_output_format = Utils.to_list(self.sphinx_output_format)
+
self.env.SPHINX_OPTIONS = getattr(self, 'sphinx_options', [])
for source_file in self.sphinx_source.ant_glob('**/*'):
self.bld.add_manual_dependency(self.sphinx_source, source_file)
- sphinx_build_task = self.create_task('SphinxBuildingTask')
- sphinx_build_task.set_inputs(self.sphinx_source)
- sphinx_build_task.set_outputs(self.path.get_bld())
+ for cfmt in self.sphinx_output_format:
+ sphinx_build_task = self.create_task('SphinxBuildingTask')
+ sphinx_build_task.set_inputs(self.sphinx_source)
+ # In task we keep the specific format this task is generating
+ sphinx_build_task.env.SPHINX_OUTPUT_FORMAT = cfmt
+
+ # the sphinx-build results are in <build + output_format> directory
+ sphinx_build_task.sphinx_output_directory = self.path.get_bld().make_node(cfmt)
+ sphinx_build_task.set_outputs(sphinx_build_task.sphinx_output_directory)
+ sphinx_build_task.sphinx_output_directory.mkdir()
- # the sphinx-build results are in <build + output_format> directory
- self.sphinx_output_directory = self.path.get_bld().make_node(self.env.SPHINX_OUTPUT_FORMAT)
- self.sphinx_output_directory.mkdir()
- Utils.def_attrs(self, install_path=get_install_path(self))
+ Utils.def_attrs(sphinx_build_task, install_path=getattr(self, 'install_path_' + cfmt, getattr(self, 'install_path', get_install_path(sphinx_build_task))))
-def get_install_path(tg):
- if tg.env.SPHINX_OUTPUT_FORMAT == 'man':
- return tg.env.MANDIR
- elif tg.env.SPHINX_OUTPUT_FORMAT == 'info':
- return tg.env.INFODIR
+def get_install_path(object):
+ if object.env.SPHINX_OUTPUT_FORMAT == 'man':
+ return object.env.MANDIR
+ elif object.env.SPHINX_OUTPUT_FORMAT == 'info':
+ return object.env.INFODIR
else:
- return tg.env.DOCDIR
+ return object.env.DOCDIR
class SphinxBuildingTask(Task.Task):
def add_install(self):
- nodes = self.generator.sphinx_output_directory.ant_glob('**/*', quiet=True)
+ nodes = self.sphinx_output_directory.ant_glob('**/*', quiet=True)
self.outputs += nodes
- self.generator.add_install_files(install_to=self.generator.install_path,
+ self.generator.add_install_files(install_to=self.install_path,
install_from=nodes,
postpone=False,
- cwd=self.generator.sphinx_output_directory,
+ cwd=self.sphinx_output_directory.make_node(self.env.SPHINX_OUTPUT_FORMAT),
relative_trick=True)
* WAFCACHE_TRIM_MAX_FOLDER: maximum amount of tasks to cache (1M)
* WAFCACHE_EVICT_MAX_BYTES: maximum amount of cache size in bytes (10GB)
* WAFCACHE_EVICT_INTERVAL_MINUTES: minimum time interval to try
- and trim the cache (3 minutess)
+ and trim the cache (3 minutes)
+
+Upload specific options:
+* WAFCACHE_ASYNC_WORKERS: define a number of workers to upload results asynchronously
+ this may improve build performance with many/long file uploads
+ the default is unset (synchronous uploads)
+* WAFCACHE_ASYNC_NOWAIT: do not wait for uploads to complete (default: False)
+ this requires asynchonous uploads to have an effect
Usage::
To troubleshoot::
- waf clean build --zones=wafcache
+ waf clean build --zone=wafcache
"""
-import atexit, base64, errno, fcntl, getpass, os, re, shutil, sys, time, traceback, urllib3, shlex
+import atexit, base64, errno, fcntl, getpass, os, re, shutil, sys, time, threading, traceback, urllib3, shlex
try:
import subprocess32 as subprocess
except ImportError:
WAFCACHE_NO_PUSH = 1 if os.environ.get('WAFCACHE_NO_PUSH') else 0
WAFCACHE_VERBOSITY = 1 if os.environ.get('WAFCACHE_VERBOSITY') else 0
WAFCACHE_STATS = 1 if os.environ.get('WAFCACHE_STATS') else 0
+WAFCACHE_ASYNC_WORKERS = os.environ.get('WAFCACHE_ASYNC_WORKERS')
+WAFCACHE_ASYNC_NOWAIT = os.environ.get('WAFCACHE_ASYNC_NOWAIT')
OK = "ok"
re_waf_cmd = re.compile('(?P<src>%{SRC})|(?P<tgt>%{TGT})')
self.generator.bld.cache_reqs += 1
files_to = [node.abspath() for node in self.outputs]
- err = cache_command(ssig, [], files_to)
+ proc = get_process()
+ err = cache_command(proc, ssig, [], files_to)
+ process_pool.append(proc)
if err.startswith(OK):
if WAFCACHE_VERBOSITY:
Logs.pprint('CYAN', ' Fetched %r from cache' % files_to)
files_from.append(path)
bld = self.generator.bld
+ old_sig = self.signature()
+
+ for node in self.inputs:
+ try:
+ del node.ctx.cache_sig[node]
+ except KeyError:
+ pass
+
+ delattr(self, 'cache_sig')
sig = self.signature()
- ssig = Utils.to_hex(self.uid() + sig)
- err = cache_command(ssig, files_from, [])
+ def _async_put_files_cache(bld, ssig, files_from):
+ proc = get_process()
+ if WAFCACHE_ASYNC_WORKERS:
+ with bld.wafcache_lock:
+ if bld.wafcache_stop:
+ process_pool.append(proc)
+ return
+ bld.wafcache_procs.add(proc)
+
+ err = cache_command(proc, ssig, files_from, [])
+ process_pool.append(proc)
+ if err.startswith(OK):
+ if WAFCACHE_VERBOSITY:
+ Logs.pprint('CYAN', ' Successfully uploaded %s to cache' % files_from)
+ else:
+ Logs.debug('wafcache: Successfully uploaded %r to cache', files_from)
+ if WAFCACHE_STATS:
+ bld.cache_puts += 1
+ else:
+ if WAFCACHE_VERBOSITY:
+ Logs.pprint('RED', ' Error caching step results %s: %s' % (files_from, err))
+ else:
+ Logs.debug('wafcache: Error caching results %s: %s', files_from, err)
- if err.startswith(OK):
- if WAFCACHE_VERBOSITY:
- Logs.pprint('CYAN', ' Successfully uploaded %s to cache' % files_from)
+ if old_sig == sig:
+ ssig = Utils.to_hex(self.uid() + sig)
+ if WAFCACHE_ASYNC_WORKERS:
+ fut = bld.wafcache_executor.submit(_async_put_files_cache, bld, ssig, files_from)
+ bld.wafcache_uploads.append(fut)
else:
- Logs.debug('wafcache: Successfully uploaded %r to cache', files_from)
- if WAFCACHE_STATS:
- self.generator.bld.cache_puts += 1
+ _async_put_files_cache(bld, ssig, files_from)
else:
- if WAFCACHE_VERBOSITY:
- Logs.pprint('RED', ' Error caching step results %s: %s' % (files_from, err))
- else:
- Logs.debug('wafcache: Error caching results %s: %s', files_from, err)
+ Logs.debug('wafcache: skipped %r upload due to late input modifications %r', self.outputs, self.inputs)
bld.task_sigs[self.uid()] = self.cache_sig
return subprocess.Popen(cmd, stdout=subprocess.PIPE, stdin=subprocess.PIPE, bufsize=0)
def atexit_pool():
- for k in process_pool:
- try:
- os.kill(k.pid, 9)
- except OSError:
- pass
- else:
- k.wait()
+ for proc in process_pool:
+ proc.kill()
atexit.register(atexit_pool)
def build(bld):
"""
Called during the build process to enable file caching
"""
+
+ if WAFCACHE_ASYNC_WORKERS:
+ try:
+ num_workers = int(WAFCACHE_ASYNC_WORKERS)
+ except ValueError:
+ Logs.warn('Invalid WAFCACHE_ASYNC_WORKERS specified: %r' % WAFCACHE_ASYNC_WORKERS)
+ else:
+ from concurrent.futures import ThreadPoolExecutor
+ bld.wafcache_executor = ThreadPoolExecutor(max_workers=num_workers)
+ bld.wafcache_uploads = []
+ bld.wafcache_procs = set([])
+ bld.wafcache_stop = False
+ bld.wafcache_lock = threading.Lock()
+
+ def finalize_upload_async(bld):
+ if WAFCACHE_ASYNC_NOWAIT:
+ with bld.wafcache_lock:
+ bld.wafcache_stop = True
+
+ for fut in reversed(bld.wafcache_uploads):
+ fut.cancel()
+
+ for proc in bld.wafcache_procs:
+ proc.kill()
+
+ bld.wafcache_procs.clear()
+ else:
+ Logs.pprint('CYAN', '... waiting for wafcache uploads to complete (%s uploads)' % len(bld.wafcache_uploads))
+ bld.wafcache_executor.shutdown(wait=True)
+ bld.add_post_fun(finalize_upload_async)
+
if WAFCACHE_STATS:
# Init counter for statistics and hook to print results at the end
bld.cache_reqs = bld.cache_hits = bld.cache_puts = 0
hit_ratio = 0
if bld.cache_reqs > 0:
hit_ratio = (bld.cache_hits / bld.cache_reqs) * 100
- Logs.pprint('CYAN', ' wafcache stats: requests: %s, hits, %s, ratio: %.2f%%, writes %s' %
+ Logs.pprint('CYAN', ' wafcache stats: %s requests, %s hits (ratio: %.2f%%), %s writes' %
(bld.cache_reqs, bld.cache_hits, hit_ratio, bld.cache_puts) )
-
bld.add_post_fun(printstats)
if process_pool:
for x in reversed(list(Task.classes.values())):
make_cached(x)
-def cache_command(sig, files_from, files_to):
+def cache_command(proc, sig, files_from, files_to):
"""
Create a command for cache worker processes, returns a pickled
base64-encoded tuple containing the task signature, a list of files to
cache and a list of files files to get from cache (one of the lists
is assumed to be empty)
"""
- proc = get_process()
-
obj = base64.b64encode(cPickle.dumps([sig, files_from, files_to]))
proc.stdin.write(obj)
proc.stdin.write('\n'.encode())
obj = proc.stdout.readline()
if not obj:
raise OSError('Preforked sub-process %r died' % proc.pid)
- process_pool.append(proc)
return cPickle.loads(base64.b64decode(obj))
try:
class fcache(object):
def __init__(self):
if not os.path.exists(CACHE_DIR):
- os.makedirs(CACHE_DIR)
+ try:
+ os.makedirs(CACHE_DIR)
+ except OSError:
+ pass
if not os.path.exists(CACHE_DIR):
raise ValueError('Could not initialize the cache directory')