84 lines
2.9 KiB
Python
84 lines
2.9 KiB
Python
"""General client side utilities.
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This module contains utility functions, used primarily by advanced COM
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programmers, or other COM modules.
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"""
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import pythoncom
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from win32com.client import Dispatch, _get_good_object_
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PyIDispatchType = pythoncom.TypeIIDs[pythoncom.IID_IDispatch]
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def WrapEnum(ob, resultCLSID = None):
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"""Wrap an object in a VARIANT enumerator.
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All VT_DISPATCHs returned by the enumerator are converted to wrapper objects
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(which may be either a class instance, or a dynamic.Dispatch type object).
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"""
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if type(ob) != pythoncom.TypeIIDs[pythoncom.IID_IEnumVARIANT]:
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ob = ob.QueryInterface(pythoncom.IID_IEnumVARIANT)
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return EnumVARIANT(ob, resultCLSID)
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class Enumerator:
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"""A class that provides indexed access into an Enumerator
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By wrapping a PyIEnum* object in this class, you can perform
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natural looping and indexing into the Enumerator.
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Looping is very efficient, but it should be noted that although random
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access is supported, the underlying object is still an enumerator, so
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this will force many reset-and-seek operations to find the requested index.
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"""
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def __init__(self, enum):
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self._oleobj_ = enum # a PyIEnumVARIANT
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self.index = -1
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def __getitem__(self, index):
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return self.__GetIndex(index)
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def __call__(self, index):
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return self.__GetIndex(index)
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def __GetIndex(self, index):
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if type(index)!=type(0): raise TypeError("Only integer indexes are supported for enumerators")
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# NOTE
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# In this context, self.index is users purely as a flag to say
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# "am I still in sequence". The user may call Next() or Reset() if they
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# so choose, in which case self.index will not be correct (although we
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# still want to stay in sequence)
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if index != self.index + 1:
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# Index requested out of sequence.
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self._oleobj_.Reset()
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if index: self._oleobj_.Skip(index) # if asked for item 1, must skip 1, Python always zero based.
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self.index = index
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result = self._oleobj_.Next(1)
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if len(result):
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return self._make_retval_(result[0])
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raise IndexError("list index out of range")
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def Next(self, count=1):
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ret = self._oleobj_.Next(count)
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realRets = []
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for r in ret:
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realRets.append(self._make_retval_(r))
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return tuple(realRets) # Convert back to tuple.
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def Reset(self):
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return self._oleobj_.Reset()
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def Clone(self):
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return self.__class__( self._oleobj_.Clone(), self.resultCLSID)
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def _make_retval_(self, result):
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return result
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class EnumVARIANT(Enumerator):
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def __init__(self, enum, resultCLSID = None):
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self.resultCLSID = resultCLSID
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Enumerator.__init__(self, enum)
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def _make_retval_(self, result):
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return _get_good_object_(result, resultCLSID = self.resultCLSID)
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class Iterator:
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def __init__(self, enum, resultCLSID = None):
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self.resultCLSID = resultCLSID
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self._iter_ = iter(enum.QueryInterface(pythoncom.IID_IEnumVARIANT))
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def __iter__(self):
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return self
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def __next__(self):
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return _get_good_object_(next(self._iter_), resultCLSID = self.resultCLSID)
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