c07a92efbe
Started new SVG exporter Merged updates from ACQ4
517 lines
17 KiB
Python
517 lines
17 KiB
Python
# -*- coding: utf-8 -*-
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"""
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Magic Reload Library
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Luke Campagnola 2010
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Python reload function that actually works (the way you expect it to)
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- No re-importing necessary
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- Modules can be reloaded in any order
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- Replaces functions and methods with their updated code
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- Changes instances to use updated classes
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- Automatically decides which modules to update by comparing file modification times
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Does NOT:
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- re-initialize exting instances, even if __init__ changes
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- update references to any module-level objects
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ie, this does not reload correctly:
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from module import someObject
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print someObject
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..but you can use this instead: (this works even for the builtin reload)
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import module
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print module.someObject
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"""
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import inspect, os, sys, gc, traceback
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try:
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import __builtin__ as builtins
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except ImportError:
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import builtins
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from .debug import printExc
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def reloadAll(prefix=None, debug=False):
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"""Automatically reload everything whose __file__ begins with prefix.
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- Skips reload if the file has not been updated (if .pyc is newer than .py)
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- if prefix is None, checks all loaded modules
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"""
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failed = []
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changed = []
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for modName, mod in list(sys.modules.items()): ## don't use iteritems; size may change during reload
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if not inspect.ismodule(mod):
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continue
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if modName == '__main__':
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continue
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## Ignore if the file name does not start with prefix
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if not hasattr(mod, '__file__') or os.path.splitext(mod.__file__)[1] not in ['.py', '.pyc']:
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continue
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if prefix is not None and mod.__file__[:len(prefix)] != prefix:
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continue
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## ignore if the .pyc is newer than the .py (or if there is no pyc or py)
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py = os.path.splitext(mod.__file__)[0] + '.py'
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pyc = py + 'c'
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if py not in changed and os.path.isfile(pyc) and os.path.isfile(py) and os.stat(pyc).st_mtime >= os.stat(py).st_mtime:
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#if debug:
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#print "Ignoring module %s; unchanged" % str(mod)
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continue
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changed.append(py) ## keep track of which modules have changed to insure that duplicate-import modules get reloaded.
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try:
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reload(mod, debug=debug)
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except:
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printExc("Error while reloading module %s, skipping\n" % mod)
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failed.append(mod.__name__)
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if len(failed) > 0:
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raise Exception("Some modules failed to reload: %s" % ', '.join(failed))
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def reload(module, debug=False, lists=False, dicts=False):
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"""Replacement for the builtin reload function:
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- Reloads the module as usual
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- Updates all old functions and class methods to use the new code
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- Updates all instances of each modified class to use the new class
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- Can update lists and dicts, but this is disabled by default
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- Requires that class and function names have not changed
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"""
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if debug:
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print("Reloading %s" % str(module))
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## make a copy of the old module dictionary, reload, then grab the new module dictionary for comparison
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oldDict = module.__dict__.copy()
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builtins.reload(module)
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newDict = module.__dict__
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## Allow modules access to the old dictionary after they reload
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if hasattr(module, '__reload__'):
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module.__reload__(oldDict)
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## compare old and new elements from each dict; update where appropriate
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for k in oldDict:
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old = oldDict[k]
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new = newDict.get(k, None)
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if old is new or new is None:
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continue
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if inspect.isclass(old):
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if debug:
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print(" Updating class %s.%s (0x%x -> 0x%x)" % (module.__name__, k, id(old), id(new)))
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updateClass(old, new, debug)
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elif inspect.isfunction(old):
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depth = updateFunction(old, new, debug)
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if debug:
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extra = ""
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if depth > 0:
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extra = " (and %d previous versions)" % depth
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print(" Updating function %s.%s%s" % (module.__name__, k, extra))
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elif lists and isinstance(old, list):
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l = old.len()
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old.extend(new)
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for i in range(l):
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old.pop(0)
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elif dicts and isinstance(old, dict):
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old.update(new)
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for k in old:
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if k not in new:
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del old[k]
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## For functions:
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## 1) update the code and defaults to new versions.
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## 2) keep a reference to the previous version so ALL versions get updated for every reload
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def updateFunction(old, new, debug, depth=0, visited=None):
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#if debug and depth > 0:
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#print " -> also updating previous version", old, " -> ", new
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old.__code__ = new.__code__
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old.__defaults__ = new.__defaults__
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if visited is None:
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visited = []
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if old in visited:
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return
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visited.append(old)
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## finally, update any previous versions still hanging around..
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if hasattr(old, '__previous_reload_version__'):
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maxDepth = updateFunction(old.__previous_reload_version__, new, debug, depth=depth+1, visited=visited)
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else:
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maxDepth = depth
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## We need to keep a pointer to the previous version so we remember to update BOTH
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## when the next reload comes around.
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if depth == 0:
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new.__previous_reload_version__ = old
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return maxDepth
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## For classes:
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## 1) find all instances of the old class and set instance.__class__ to the new class
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## 2) update all old class methods to use code from the new class methods
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def updateClass(old, new, debug):
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## Track town all instances and subclasses of old
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refs = gc.get_referrers(old)
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for ref in refs:
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try:
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if isinstance(ref, old) and ref.__class__ is old:
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ref.__class__ = new
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if debug:
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print(" Changed class for %s" % safeStr(ref))
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elif inspect.isclass(ref) and issubclass(ref, old) and old in ref.__bases__:
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ind = ref.__bases__.index(old)
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## Does not work:
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#ref.__bases__ = ref.__bases__[:ind] + (new,) + ref.__bases__[ind+1:]
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## reason: Even though we change the code on methods, they remain bound
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## to their old classes (changing im_class is not allowed). Instead,
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## we have to update the __bases__ such that this class will be allowed
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## as an argument to older methods.
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## This seems to work. Is there any reason not to?
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## Note that every time we reload, the class hierarchy becomes more complex.
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## (and I presume this may slow things down?)
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ref.__bases__ = ref.__bases__[:ind] + (new,old) + ref.__bases__[ind+1:]
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if debug:
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print(" Changed superclass for %s" % safeStr(ref))
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#else:
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#if debug:
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#print " Ignoring reference", type(ref)
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except:
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print("Error updating reference (%s) for class change (%s -> %s)" % (safeStr(ref), safeStr(old), safeStr(new)))
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raise
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## update all class methods to use new code.
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## Generally this is not needed since instances already know about the new class,
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## but it fixes a few specific cases (pyqt signals, for one)
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for attr in dir(old):
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oa = getattr(old, attr)
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if inspect.ismethod(oa):
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try:
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na = getattr(new, attr)
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except AttributeError:
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if debug:
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print(" Skipping method update for %s; new class does not have this attribute" % attr)
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continue
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if hasattr(oa, 'im_func') and hasattr(na, 'im_func') and oa.__func__ is not na.__func__:
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depth = updateFunction(oa.__func__, na.__func__, debug)
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#oa.im_class = new ## bind old method to new class ## not allowed
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if debug:
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extra = ""
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if depth > 0:
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extra = " (and %d previous versions)" % depth
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print(" Updating method %s%s" % (attr, extra))
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## And copy in new functions that didn't exist previously
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for attr in dir(new):
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if not hasattr(old, attr):
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if debug:
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print(" Adding missing attribute %s" % attr)
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setattr(old, attr, getattr(new, attr))
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## finally, update any previous versions still hanging around..
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if hasattr(old, '__previous_reload_version__'):
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updateClass(old.__previous_reload_version__, new, debug)
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## It is possible to build classes for which str(obj) just causes an exception.
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## Avoid thusly:
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def safeStr(obj):
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try:
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s = str(obj)
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except:
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try:
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s = repr(obj)
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except:
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s = "<instance of %s at 0x%x>" % (safeStr(type(obj)), id(obj))
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return s
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## Tests:
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# write modules to disk, import, then re-write and run again
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if __name__ == '__main__':
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doQtTest = True
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try:
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from PyQt4 import QtCore
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if not hasattr(QtCore, 'Signal'):
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QtCore.Signal = QtCore.pyqtSignal
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#app = QtGui.QApplication([])
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class Btn(QtCore.QObject):
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sig = QtCore.Signal()
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def emit(self):
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self.sig.emit()
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btn = Btn()
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except:
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raise
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print("Error; skipping Qt tests")
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doQtTest = False
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import os
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if not os.path.isdir('test1'):
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os.mkdir('test1')
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open('test1/__init__.py', 'w')
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modFile1 = "test1/test1.py"
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modCode1 = """
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import sys
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class A(object):
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def __init__(self, msg):
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object.__init__(self)
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self.msg = msg
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def fn(self, pfx = ""):
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print pfx+"A class:", self.__class__, id(self.__class__)
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print pfx+" %%s: %d" %% self.msg
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class B(A):
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def fn(self, pfx=""):
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print pfx+"B class:", self.__class__, id(self.__class__)
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print pfx+" %%s: %d" %% self.msg
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print pfx+" calling superclass.. (%%s)" %% id(A)
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A.fn(self, " ")
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"""
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modFile2 = "test2.py"
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modCode2 = """
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from test1.test1 import A
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from test1.test1 import B
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a1 = A("ax1")
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b1 = B("bx1")
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class C(A):
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def __init__(self, msg):
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#print "| C init:"
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#print "| C.__bases__ = ", map(id, C.__bases__)
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#print "| A:", id(A)
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#print "| A.__init__ = ", id(A.__init__.im_func), id(A.__init__.im_func.__code__), id(A.__init__.im_class)
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A.__init__(self, msg + "(init from C)")
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def fn():
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print "fn: %s"
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"""
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open(modFile1, 'w').write(modCode1%(1,1))
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open(modFile2, 'w').write(modCode2%"message 1")
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import test1.test1 as test1
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import test2
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print("Test 1 originals:")
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A1 = test1.A
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B1 = test1.B
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a1 = test1.A("a1")
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b1 = test1.B("b1")
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a1.fn()
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b1.fn()
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#print "function IDs a1 bound method: %d a1 func: %d a1 class: %d b1 func: %d b1 class: %d" % (id(a1.fn), id(a1.fn.im_func), id(a1.fn.im_class), id(b1.fn.im_func), id(b1.fn.im_class))
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from test2 import fn, C
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if doQtTest:
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print("Button test before:")
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btn.sig.connect(fn)
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btn.sig.connect(a1.fn)
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btn.emit()
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#btn.sig.emit()
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print("")
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#print "a1.fn referrers:", sys.getrefcount(a1.fn.im_func), gc.get_referrers(a1.fn.im_func)
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print("Test2 before reload:")
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fn()
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oldfn = fn
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test2.a1.fn()
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test2.b1.fn()
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c1 = test2.C('c1')
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c1.fn()
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os.remove(modFile1+'c')
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open(modFile1, 'w').write(modCode1%(2,2))
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print("\n----RELOAD test1-----\n")
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reloadAll(os.path.abspath(__file__)[:10], debug=True)
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print("Subclass test:")
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c2 = test2.C('c2')
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c2.fn()
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os.remove(modFile2+'c')
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open(modFile2, 'w').write(modCode2%"message 2")
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print("\n----RELOAD test2-----\n")
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reloadAll(os.path.abspath(__file__)[:10], debug=True)
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if doQtTest:
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print("Button test after:")
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btn.emit()
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#btn.sig.emit()
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#print "a1.fn referrers:", sys.getrefcount(a1.fn.im_func), gc.get_referrers(a1.fn.im_func)
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print("Test2 after reload:")
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fn()
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test2.a1.fn()
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test2.b1.fn()
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print("\n==> Test 1 Old instances:")
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a1.fn()
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b1.fn()
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c1.fn()
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#print "function IDs a1 bound method: %d a1 func: %d a1 class: %d b1 func: %d b1 class: %d" % (id(a1.fn), id(a1.fn.im_func), id(a1.fn.im_class), id(b1.fn.im_func), id(b1.fn.im_class))
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print("\n==> Test 1 New instances:")
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a2 = test1.A("a2")
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b2 = test1.B("b2")
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a2.fn()
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b2.fn()
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c2 = test2.C('c2')
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c2.fn()
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#print "function IDs a1 bound method: %d a1 func: %d a1 class: %d b1 func: %d b1 class: %d" % (id(a1.fn), id(a1.fn.im_func), id(a1.fn.im_class), id(b1.fn.im_func), id(b1.fn.im_class))
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os.remove(modFile1+'c')
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os.remove(modFile2+'c')
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open(modFile1, 'w').write(modCode1%(3,3))
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open(modFile2, 'w').write(modCode2%"message 3")
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print("\n----RELOAD-----\n")
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reloadAll(os.path.abspath(__file__)[:10], debug=True)
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if doQtTest:
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print("Button test after:")
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btn.emit()
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#btn.sig.emit()
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#print "a1.fn referrers:", sys.getrefcount(a1.fn.im_func), gc.get_referrers(a1.fn.im_func)
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print("Test2 after reload:")
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fn()
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test2.a1.fn()
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test2.b1.fn()
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print("\n==> Test 1 Old instances:")
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a1.fn()
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b1.fn()
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print("function IDs a1 bound method: %d a1 func: %d a1 class: %d b1 func: %d b1 class: %d" % (id(a1.fn), id(a1.fn.__func__), id(a1.fn.__self__.__class__), id(b1.fn.__func__), id(b1.fn.__self__.__class__)))
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print("\n==> Test 1 New instances:")
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a2 = test1.A("a2")
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b2 = test1.B("b2")
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a2.fn()
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b2.fn()
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print("function IDs a1 bound method: %d a1 func: %d a1 class: %d b1 func: %d b1 class: %d" % (id(a1.fn), id(a1.fn.__func__), id(a1.fn.__self__.__class__), id(b1.fn.__func__), id(b1.fn.__self__.__class__)))
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os.remove(modFile1)
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os.remove(modFile2)
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os.remove(modFile1+'c')
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os.remove(modFile2+'c')
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os.system('rm -r test1')
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#
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# Failure graveyard ahead:
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#
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"""Reload Importer:
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Hooks into import system to
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1) keep a record of module dependencies as they are imported
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2) make sure modules are always reloaded in correct order
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3) update old classes and functions to use reloaded code"""
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#import imp, sys
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## python's import hook mechanism doesn't work since we need to be
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## informed every time there is an import statement, not just for new imports
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#class ReloadImporter:
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#def __init__(self):
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#self.depth = 0
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#def find_module(self, name, path):
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#print " "*self.depth + "find: ", name, path
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##if name == 'PyQt4' and path is None:
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##print "PyQt4 -> PySide"
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##self.modData = imp.find_module('PySide')
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##return self
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##return None ## return none to allow the import to proceed normally; return self to intercept with load_module
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#self.modData = imp.find_module(name, path)
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#self.depth += 1
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##sys.path_importer_cache = {}
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#return self
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#def load_module(self, name):
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#mod = imp.load_module(name, *self.modData)
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#self.depth -= 1
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#print " "*self.depth + "load: ", name
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#return mod
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#def pathHook(path):
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#print "path hook:", path
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#raise ImportError
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#sys.path_hooks.append(pathHook)
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#sys.meta_path.append(ReloadImporter())
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### replace __import__ with a wrapper that tracks module dependencies
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#modDeps = {}
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#reloadModule = None
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#origImport = __builtins__.__import__
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#def _import(name, globals=None, locals=None, fromlist=None, level=-1, stack=[]):
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### Note that stack behaves as a static variable.
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##print " "*len(importStack) + "import %s" % args[0]
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#stack.append(set())
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#mod = origImport(name, globals, locals, fromlist, level)
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#deps = stack.pop()
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#if len(stack) > 0:
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#stack[-1].add(mod)
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#elif reloadModule is not None: ## If this is the top level import AND we're inside a module reload
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#modDeps[reloadModule].add(mod)
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#if mod in modDeps:
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#modDeps[mod] |= deps
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#else:
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#modDeps[mod] = deps
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#return mod
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#__builtins__.__import__ = _import
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### replace
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#origReload = __builtins__.reload
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#def _reload(mod):
|
|
#reloadModule = mod
|
|
#ret = origReload(mod)
|
|
#reloadModule = None
|
|
#return ret
|
|
#__builtins__.reload = _reload
|
|
|
|
|
|
#def reload(mod, visited=None):
|
|
#if visited is None:
|
|
#visited = set()
|
|
#if mod in visited:
|
|
#return
|
|
#visited.add(mod)
|
|
#for dep in modDeps.get(mod, []):
|
|
#reload(dep, visited)
|
|
#__builtins__.reload(mod)
|