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Fixing --log-level problem in WinHPC job setup.
Fixing --log-level problem in WinHPC job setup.

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ipy_autoreload.py
350 lines | 10.5 KiB | text/x-python | PythonLexer
"""
IPython extension: autoreload modules before executing the next line
Try::
%autoreload?
for documentation.
"""
# Pauli Virtanen <pav@iki.fi>, 2008.
# Thomas Heller, 2000.
#
# This IPython module is written by Pauli Virtanen, based on the autoreload
# code by Thomas Heller.
#------------------------------------------------------------------------------
# Autoreload functionality
#------------------------------------------------------------------------------
import time, os, threading, sys, types, imp, inspect, traceback, atexit
import weakref
def _get_compiled_ext():
"""Official way to get the extension of compiled files (.pyc or .pyo)"""
for ext, mode, typ in imp.get_suffixes():
if typ == imp.PY_COMPILED:
return ext
PY_COMPILED_EXT = _get_compiled_ext()
class ModuleReloader(object):
failed = {}
"""Modules that failed to reload: {module: mtime-on-failed-reload, ...}"""
modules = {}
"""Modules specially marked as autoreloadable."""
skip_modules = {}
"""Modules specially marked as not autoreloadable."""
check_all = True
"""Autoreload all modules, not just those listed in 'modules'"""
old_objects = {}
"""(module-name, name) -> weakref, for replacing old code objects"""
def check(self, check_all=False):
"""Check whether some modules need to be reloaded."""
if check_all or self.check_all:
modules = sys.modules.keys()
else:
modules = self.modules.keys()
for modname in modules:
m = sys.modules.get(modname, None)
if modname in self.skip_modules:
continue
if not hasattr(m, '__file__'):
continue
if m.__name__ == '__main__':
# we cannot reload(__main__)
continue
filename = m.__file__
dirname = os.path.dirname(filename)
path, ext = os.path.splitext(filename)
if ext.lower() == '.py':
ext = PY_COMPILED_EXT
filename = os.path.join(dirname, path + PY_COMPILED_EXT)
if ext != PY_COMPILED_EXT:
continue
try:
pymtime = os.stat(filename[:-1]).st_mtime
if pymtime <= os.stat(filename).st_mtime:
continue
if self.failed.get(filename[:-1], None) == pymtime:
continue
except OSError:
continue
try:
superreload(m, reload, self.old_objects)
if filename[:-1] in self.failed:
del self.failed[filename[:-1]]
except:
print >> sys.stderr, "[autoreload of %s failed: %s]" % (
modname, traceback.format_exc(1))
self.failed[filename[:-1]] = pymtime
#------------------------------------------------------------------------------
# superreload
#------------------------------------------------------------------------------
def update_function(old, new):
"""Upgrade the code object of a function"""
for name in ['func_code', 'func_defaults', 'func_doc',
'func_closure', 'func_globals', 'func_dict']:
try:
setattr(old, name, getattr(new, name))
except (AttributeError, TypeError):
pass
def update_class(old, new):
"""Replace stuff in the __dict__ of a class, and upgrade
method code objects"""
for key in old.__dict__.keys():
old_obj = getattr(old, key)
try:
new_obj = getattr(new, key)
except AttributeError:
# obsolete attribute: remove it
try:
delattr(old, key)
except (AttributeError, TypeError):
pass
continue
if update_generic(old_obj, new_obj): continue
try:
setattr(old, key, getattr(new, key))
except (AttributeError, TypeError):
pass # skip non-writable attributes
def update_property(old, new):
"""Replace get/set/del functions of a property"""
update_generic(old.fdel, new.fdel)
update_generic(old.fget, new.fget)
update_generic(old.fset, new.fset)
def isinstance2(a, b, typ):
return isinstance(a, typ) and isinstance(b, typ)
UPDATE_RULES = [
(lambda a, b: isinstance2(a, b, types.ClassType),
update_class),
(lambda a, b: isinstance2(a, b, types.TypeType),
update_class),
(lambda a, b: isinstance2(a, b, types.FunctionType),
update_function),
(lambda a, b: isinstance2(a, b, property),
update_property),
(lambda a, b: isinstance2(a, b, types.MethodType),
lambda a, b: update_function(a.im_func, b.im_func)),
]
def update_generic(a, b):
for type_check, update in UPDATE_RULES:
if type_check(a, b):
update(a, b)
return True
return False
class StrongRef(object):
def __init__(self, obj):
self.obj = obj
def __call__(self):
return self.obj
def superreload(module, reload=reload, old_objects={}):
"""Enhanced version of the builtin reload function.
superreload remembers objects previously in the module, and
- upgrades the class dictionary of every old class in the module
- upgrades the code object of every old function and method
- clears the module's namespace before reloading
"""
# collect old objects in the module
for name, obj in module.__dict__.items():
if not hasattr(obj, '__module__') or obj.__module__ != module.__name__:
continue
key = (module.__name__, name)
try:
old_objects.setdefault(key, []).append(weakref.ref(obj))
except TypeError:
# weakref doesn't work for all types;
# create strong references for 'important' cases
if isinstance(obj, types.ClassType):
old_objects.setdefault(key, []).append(StrongRef(obj))
# reload module
try:
# clear namespace first from old cruft
old_name = module.__name__
module.__dict__.clear()
module.__dict__['__name__'] = old_name
except (TypeError, AttributeError, KeyError):
pass
module = reload(module)
# iterate over all objects and update functions & classes
for name, new_obj in module.__dict__.items():
key = (module.__name__, name)
if key not in old_objects: continue
new_refs = []
for old_ref in old_objects[key]:
old_obj = old_ref()
if old_obj is None: continue
new_refs.append(old_ref)
update_generic(old_obj, new_obj)
if new_refs:
old_objects[key] = new_refs
else:
del old_objects[key]
return module
reloader = ModuleReloader()
#------------------------------------------------------------------------------
# IPython connectivity
#------------------------------------------------------------------------------
from IPython.core import ipapi
from IPython.core.error import TryNext
ip = ipapi.get()
autoreload_enabled = False
def runcode_hook(self):
if not autoreload_enabled:
raise TryNext
try:
reloader.check()
except:
pass
def enable_autoreload():
global autoreload_enabled
autoreload_enabled = True
def disable_autoreload():
global autoreload_enabled
autoreload_enabled = False
def autoreload_f(self, parameter_s=''):
r""" %autoreload => Reload modules automatically
%autoreload
Reload all modules (except those excluded by %aimport) automatically now.
%autoreload 0
Disable automatic reloading.
%autoreload 1
Reload all modules imported with %aimport every time before executing
the Python code typed.
%autoreload 2
Reload all modules (except those excluded by %aimport) every time
before executing the Python code typed.
Reloading Python modules in a reliable way is in general
difficult, and unexpected things may occur. %autoreload tries to
work around common pitfalls by replacing function code objects and
parts of classes previously in the module with new versions. This
makes the following things to work:
- Functions and classes imported via 'from xxx import foo' are upgraded
to new versions when 'xxx' is reloaded.
- Methods and properties of classes are upgraded on reload, so that
calling 'c.foo()' on an object 'c' created before the reload causes
the new code for 'foo' to be executed.
Some of the known remaining caveats are:
- Replacing code objects does not always succeed: changing a @property
in a class to an ordinary method or a method to a member variable
can cause problems (but in old objects only).
- Functions that are removed (eg. via monkey-patching) from a module
before it is reloaded are not upgraded.
- C extension modules cannot be reloaded, and so cannot be
autoreloaded.
"""
if parameter_s == '':
reloader.check(True)
elif parameter_s == '0':
disable_autoreload()
elif parameter_s == '1':
reloader.check_all = False
enable_autoreload()
elif parameter_s == '2':
reloader.check_all = True
enable_autoreload()
def aimport_f(self, parameter_s=''):
"""%aimport => Import modules for automatic reloading.
%aimport
List modules to automatically import and not to import.
%aimport foo
Import module 'foo' and mark it to be autoreloaded for %autoreload 1
%aimport -foo
Mark module 'foo' to not be autoreloaded for %autoreload 1
"""
modname = parameter_s
if not modname:
to_reload = reloader.modules.keys()
to_reload.sort()
to_skip = reloader.skip_modules.keys()
to_skip.sort()
if reloader.check_all:
print "Modules to reload:\nall-expect-skipped"
else:
print "Modules to reload:\n%s" % ' '.join(to_reload)
print "\nModules to skip:\n%s" % ' '.join(to_skip)
elif modname.startswith('-'):
modname = modname[1:]
try: del reloader.modules[modname]
except KeyError: pass
reloader.skip_modules[modname] = True
else:
try: del reloader.skip_modules[modname]
except KeyError: pass
reloader.modules[modname] = True
# Inject module to user namespace; handle also submodules properly
__import__(modname)
basename = modname.split('.')[0]
mod = sys.modules[basename]
ip.push({basename: mod})
def init():
ip.define_magic('autoreload', autoreload_f)
ip.define_magic('aimport', aimport_f)
ip.set_hook('pre_runcode_hook', runcode_hook)
init()