# This file was created automatically by SWIG 1.3.27. # Don't modify this file, modify the SWIG interface instead. import _activex def _swig_setattr_nondynamic(self,class_type,name,value,static=1): if (name == "this"): if isinstance(value, class_type): self.__dict__[name] = value.this if hasattr(value,"thisown"): self.__dict__["thisown"] = value.thisown del value.thisown return method = class_type.__swig_setmethods__.get(name,None) if method: return method(self,value) if (not static) or hasattr(self,name) or (name == "thisown"): self.__dict__[name] = value else: raise AttributeError("You cannot add attributes to %s" % self) def _swig_setattr(self,class_type,name,value): return _swig_setattr_nondynamic(self,class_type,name,value,0) def _swig_getattr(self,class_type,name): method = class_type.__swig_getmethods__.get(name,None) if method: return method(self) raise AttributeError,name import types try: _object = types.ObjectType _newclass = 1 except AttributeError: class _object : pass _newclass = 0 del types def _swig_setattr_nondynamic_method(set): def set_attr(self,name,value): if hasattr(self,name) or (name in ("this", "thisown")): set(self,name,value) else: raise AttributeError("You cannot add attributes to %s" % self) return set_attr import _core wx = _core __docfilter__ = wx.__DocFilter(globals()) #--------------------------------------------------------------------------- class CLSID(object): """ This class wraps the Windows CLSID structure and is used to specify the class of the ActiveX object that is to be created. A CLSID can be constructed from either a ProgID string, (such as 'WordPad.Document.1') or a classID string, (such as '{CA8A9783-280D-11CF-A24D-444553540000}'). """ def __repr__(self): return "<%s.%s; proxy of C++ CLSID instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) def __init__(self, *args, **kwargs): """ __init__(self, String id) -> CLSID This class wraps the Windows CLSID structure and is used to specify the class of the ActiveX object that is to be created. A CLSID can be constructed from either a ProgID string, (such as 'WordPad.Document.1') or a classID string, (such as '{CA8A9783-280D-11CF-A24D-444553540000}'). """ newobj = _activex.new_CLSID(*args, **kwargs) self.this = newobj.this self.thisown = 1 del newobj.thisown def __del__(self, destroy=_activex.delete_CLSID): """__del__(self)""" try: if self.thisown: destroy(self) except: pass def GetCLSIDString(*args, **kwargs): """GetCLSIDString(self) -> String""" return _activex.CLSID_GetCLSIDString(*args, **kwargs) def GetProgIDString(*args, **kwargs): """GetProgIDString(self) -> String""" return _activex.CLSID_GetProgIDString(*args, **kwargs) def __str__(self): return self.GetCLSIDString() class CLSIDPtr(CLSID): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = CLSID _activex.CLSID_swigregister(CLSIDPtr) #--------------------------------------------------------------------------- class ParamX(object): """Proxy of C++ ParamX class""" def __init__(self): raise RuntimeError, "No constructor defined" def __repr__(self): return "<%s.%s; proxy of C++ wxParamX instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) flags = property(_activex.ParamX_flags_get) isPtr = property(_activex.ParamX_isPtr_get) isSafeArray = property(_activex.ParamX_isSafeArray_get) isOptional = property(_activex.ParamX_isOptional_get) vt = property(_activex.ParamX_vt_get) name = property(_activex.ParamX_name_get) vt_type = property(_activex.ParamX_vt_type_get) isIn = property(_activex.ParamX_IsIn) isOut = property(_activex.ParamX_IsOut) isRetVal = property(_activex.ParamX_IsRetVal) class ParamXPtr(ParamX): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = ParamX _activex.ParamX_swigregister(ParamXPtr) class FuncX(object): """Proxy of C++ FuncX class""" def __init__(self): raise RuntimeError, "No constructor defined" def __repr__(self): return "<%s.%s; proxy of C++ wxFuncX instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) name = property(_activex.FuncX_name_get) memid = property(_activex.FuncX_memid_get) hasOut = property(_activex.FuncX_hasOut_get) retType = property(_activex.FuncX_retType_get) params = property(_activex.FuncX_params_get) class FuncXPtr(FuncX): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = FuncX _activex.FuncX_swigregister(FuncXPtr) class PropX(object): """Proxy of C++ PropX class""" def __init__(self): raise RuntimeError, "No constructor defined" def __repr__(self): return "<%s.%s; proxy of C++ wxPropX instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) name = property(_activex.PropX_name_get) memid = property(_activex.PropX_memid_get) type = property(_activex.PropX_type_get) arg = property(_activex.PropX_arg_get) putByRef = property(_activex.PropX_putByRef_get) canGet = property(_activex.PropX_CanGet) canSet = property(_activex.PropX_CanSet) class PropXPtr(PropX): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = PropX _activex.PropX_swigregister(PropXPtr) class ParamXArray(object): """Proxy of C++ ParamXArray class""" def __init__(self): raise RuntimeError, "No constructor defined" def __repr__(self): return "<%s.%s; proxy of C++ wxParamXArray instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) def __nonzero__(*args, **kwargs): """__nonzero__(self) -> bool""" return _activex.ParamXArray___nonzero__(*args, **kwargs) def __len__(*args, **kwargs): """__len__(self) -> int""" return _activex.ParamXArray___len__(*args, **kwargs) def __getitem__(*args, **kwargs): """__getitem__(self, int idx) -> ParamX""" return _activex.ParamXArray___getitem__(*args, **kwargs) class ParamXArrayPtr(ParamXArray): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = ParamXArray _activex.ParamXArray_swigregister(ParamXArrayPtr) class FuncXArray(object): """Proxy of C++ FuncXArray class""" def __init__(self): raise RuntimeError, "No constructor defined" def __repr__(self): return "<%s.%s; proxy of C++ wxFuncXArray instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) def __nonzero__(*args, **kwargs): """__nonzero__(self) -> bool""" return _activex.FuncXArray___nonzero__(*args, **kwargs) def __len__(*args, **kwargs): """__len__(self) -> int""" return _activex.FuncXArray___len__(*args, **kwargs) def __getitem__(*args, **kwargs): """__getitem__(self, int idx) -> FuncX""" return _activex.FuncXArray___getitem__(*args, **kwargs) class FuncXArrayPtr(FuncXArray): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = FuncXArray _activex.FuncXArray_swigregister(FuncXArrayPtr) class PropXArray(object): """Proxy of C++ PropXArray class""" def __init__(self): raise RuntimeError, "No constructor defined" def __repr__(self): return "<%s.%s; proxy of C++ wxPropXArray instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) def __nonzero__(*args, **kwargs): """__nonzero__(self) -> bool""" return _activex.PropXArray___nonzero__(*args, **kwargs) def __len__(*args, **kwargs): """__len__(self) -> int""" return _activex.PropXArray___len__(*args, **kwargs) def __getitem__(*args, **kwargs): """__getitem__(self, int idx) -> PropX""" return _activex.PropXArray___getitem__(*args, **kwargs) class PropXArrayPtr(PropXArray): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = PropXArray _activex.PropXArray_swigregister(PropXArrayPtr) #--------------------------------------------------------------------------- class ActiveXWindow(_core.Window): """ ActiveXWindow derives from wxWindow and the constructor accepts a CLSID for the ActiveX Control that should be created. The ActiveXWindow class simply adds methods that allow you to query some of the TypeInfo exposed by the ActiveX object, and also to get/set properties or call methods by name. The Python implementation automatically handles converting parameters and return values to/from the types expected by the ActiveX code as specified by the TypeInfo. """ def __repr__(self): return "<%s.%s; proxy of C++ wxActiveXWindow instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) def __init__(self, *args, **kwargs): """ __init__(self, Window parent, CLSID clsId, int id=-1, Point pos=DefaultPosition, Size size=DefaultSize, long style=0, String name=PanelNameStr) -> ActiveXWindow Creates an ActiveX control from the clsID given and makes it act as much like a regular wx.Window as possible. """ newobj = _activex.new_ActiveXWindow(*args, **kwargs) self.this = newobj.this self.thisown = 1 del newobj.thisown self._setOORInfo(self) def GetCLSID(*args, **kwargs): """ GetCLSID(self) -> CLSID Return the CLSID used to construct this ActiveX window """ return _activex.ActiveXWindow_GetCLSID(*args, **kwargs) def GetAXEventCount(*args, **kwargs): """ GetAXEventCount(self) -> int Number of events defined for this control """ return _activex.ActiveXWindow_GetAXEventCount(*args, **kwargs) def GetAXEventDesc(*args, **kwargs): """ GetAXEventDesc(self, int idx) -> FuncX Returns event description by index """ return _activex.ActiveXWindow_GetAXEventDesc(*args, **kwargs) def GetAXPropCount(*args, **kwargs): """ GetAXPropCount(self) -> int Number of properties defined for this control """ return _activex.ActiveXWindow_GetAXPropCount(*args, **kwargs) def GetAXPropDesc(*args): """ GetAXPropDesc(self, int idx) -> PropX GetAXPropDesc(self, String name) -> PropX """ return _activex.ActiveXWindow_GetAXPropDesc(*args) def GetAXMethodCount(*args, **kwargs): """ GetAXMethodCount(self) -> int Number of methods defined for this control """ return _activex.ActiveXWindow_GetAXMethodCount(*args, **kwargs) def GetAXMethodDesc(*args): """ GetAXMethodDesc(self, int idx) -> FuncX GetAXMethodDesc(self, String name) -> FuncX """ return _activex.ActiveXWindow_GetAXMethodDesc(*args) def GetAXEvents(*args, **kwargs): """ GetAXEvents(self) -> FuncXArray Returns a sequence of FuncX objects describing the events available for this ActiveX object. """ return _activex.ActiveXWindow_GetAXEvents(*args, **kwargs) def GetAXMethods(*args, **kwargs): """ GetAXMethods(self) -> FuncXArray Returns a sequence of FuncX objects describing the methods available for this ActiveX object. """ return _activex.ActiveXWindow_GetAXMethods(*args, **kwargs) def GetAXProperties(*args, **kwargs): """ GetAXProperties(self) -> PropXArray Returns a sequence of PropX objects describing the properties available for this ActiveX object. """ return _activex.ActiveXWindow_GetAXProperties(*args, **kwargs) def SetAXProp(*args, **kwargs): """ SetAXProp(self, String name, PyObject value) Set a property of the ActiveX object by name. """ return _activex.ActiveXWindow_SetAXProp(*args, **kwargs) def GetAXProp(*args, **kwargs): """ GetAXProp(self, String name) -> PyObject Get the value of an ActiveX property by name. """ return _activex.ActiveXWindow_GetAXProp(*args, **kwargs) def _CallAXMethod(*args): """ _CallAXMethod(self, String name, PyObject args) -> PyObject The implementation for CallMethod. Calls an ActiveX method, by name passing the parameters given in args. """ return _activex.ActiveXWindow__CallAXMethod(*args) def CallAXMethod(self, name, *args): """ Front-end for _CallMethod. Simply passes all positional args after the name as a single tuple to _CallMethod. """ return self._CallAXMethod(name, args) class ActiveXWindowPtr(ActiveXWindow): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = ActiveXWindow _activex.ActiveXWindow_swigregister(ActiveXWindowPtr) #--------------------------------------------------------------------------- def RegisterActiveXEvent(*args, **kwargs): """ RegisterActiveXEvent(String eventName) -> wxEventType Creates a standard wx event ID for the given eventName. """ return _activex.RegisterActiveXEvent(*args, **kwargs) class ActiveXEvent(_core.CommandEvent): """ An instance of ActiveXEvent is sent to the handler for all bound ActiveX events. Any event parameters from the ActiveX cntrol are turned into attributes of the Python proxy for this event object. Additionally, there is a property called eventName that will return (surprisingly ) the name of the ActiveX event. """ def __init__(self): raise RuntimeError, "No constructor defined" def __repr__(self): return "<%s.%s; proxy of C++ wxActiveXEvent instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) eventName = property(_activex.ActiveXEvent_EventName) def _preCallInit(*args, **kwargs): """_preCallInit(self, PyObject pyself)""" return _activex.ActiveXEvent__preCallInit(*args, **kwargs) def _postCallCleanup(*args, **kwargs): """_postCallCleanup(self, PyObject pyself)""" return _activex.ActiveXEvent__postCallCleanup(*args, **kwargs) class ActiveXEventPtr(ActiveXEvent): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = ActiveXEvent _activex.ActiveXEvent_swigregister(ActiveXEventPtr) #--------------------------------------------------------------------------- class IEHtmlWindowBase(ActiveXWindow): def __repr__(self): return "<%s.%s; proxy of C++ wxIEHtmlWindowBase instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,) def __init__(self, *args, **kwargs): newobj = _activex.new_IEHtmlWindowBase(*args, **kwargs) self.this = newobj.this self.thisown = 1 del newobj.thisown self._setOORInfo(self) def SetCharset(*args, **kwargs): return _activex.IEHtmlWindowBase_SetCharset(*args, **kwargs) def LoadString(*args, **kwargs): return _activex.IEHtmlWindowBase_LoadString(*args, **kwargs) def LoadStream(*args, **kwargs): return _activex.IEHtmlWindowBase_LoadStream(*args, **kwargs) def GetStringSelection(*args, **kwargs): return _activex.IEHtmlWindowBase_GetStringSelection(*args, **kwargs) def GetText(*args, **kwargs): return _activex.IEHtmlWindowBase_GetText(*args, **kwargs) class IEHtmlWindowBasePtr(IEHtmlWindowBase): def __init__(self, this): self.this = this if not hasattr(self,"thisown"): self.thisown = 0 self.__class__ = IEHtmlWindowBase _activex.IEHtmlWindowBase_swigregister(IEHtmlWindowBasePtr) #--------------------------------------------------------------------------- # Some helper and utility functions for ActiveX t4 = " " * 4 t8 = " " * 8 def GetAXInfo(ax): """ Returns a printable summary of the TypeInfo from the ActiveX instance passed in. """ def ProcessFuncX(f, out, name): out.append(name) out.append(t4 + "retType: %s" % f.retType.vt_type) if f.params: out.append(t4 + "params:") for p in f.params: out.append(t8 + p.name) out.append(t8+t4+ "in:%s out:%s optional:%s type:%s" % (p.isIn, p.isOut, p.isOptional, p.vt_type)) out.append('') def ProcessPropX(p, out): out.append(GernerateAXModule.trimPropName(p.name)) out.append(t4+ "type:%s arg:%s canGet:%s canSet:%s" % (p.type.vt_type, p.arg.vt_type, p.canGet, p.canSet)) out.append('') out = [] out.append("PROPERTIES") out.append("-"*20) for p in ax.GetAXProperties(): ProcessPropX(p, out) out.append('\n\n') out.append("METHODS") out.append("-"*20) for m in ax.GetAXMethods(): ProcessFuncX(m, out, GernerateAXModule.trimMethodName(m.name)) out.append('\n\n') out.append("EVENTS") out.append("-"*20) for e in ax.GetAXEvents(): ProcessFuncX(e, out, GernerateAXModule.trimEventName(e.name)) out.append('\n\n') return "\n".join(out) class GernerateAXModule: def __init__(self, ax, className, modulePath, moduleName=None, verbose=False): """ Make a Python module file with a class that has been specialized for the AcitveX object. ax An instance of the ActiveXWindow class className The name to use for the new class modulePath The path where the new module should be written to moduleName The name of the .py file to create. If not given then the className will be used. """ import os if moduleName is None: moduleName = className + '.py' filename = os.path.join(modulePath, moduleName) if verbose: print "Creating module in:", filename print " ProgID: ", ax.GetCLSID().GetProgIDString() print " CLSID: ", ax.GetCLSID().GetCLSIDString() print self.mf = file(filename, "w") self.WriteFileHeader(ax) self.WriteEvents(ax) self.WriteClassHeader(ax, className) self.WriteMethods(ax) self.WriteProperties(ax) self.WriteDocs(ax) self.mf.close() del self.mf def WriteFileHeader(self, ax): self.write("# This module was generated by the wx.activex.GernerateAXModule class\n" "# (See also the genaxmodule script.)\n") self.write("import wx") self.write("import wx.activex\n") self.write("clsID = '%s'\nprogID = '%s'\n" % (ax.GetCLSID().GetCLSIDString(), ax.GetCLSID().GetProgIDString())) self.write("\n") def WriteEvents(self, ax): events = ax.GetAXEvents() if events: self.write("# Create eventTypes and event binders") for e in events: self.write("wxEVT_%s = wx.activex.RegisterActiveXEvent('%s')" % (self.trimEventName(e.name), e.name)) self.write() for e in events: n = self.trimEventName(e.name) self.write("EVT_%s = wx.PyEventBinder(wxEVT_%s, 1)" % (n,n)) self.write("\n") def WriteClassHeader(self, ax, className): self.write("# Derive a new class from ActiveXWindow") self.write("""\ class %s(wx.activex.ActiveXWindow): def __init__(self, parent, ID=-1, pos=wx.DefaultPosition, size=wx.DefaultSize, style=0, name='%s'): wx.activex.ActiveXWindow.__init__(self, parent, wx.activex.CLSID('%s'), ID, pos, size, style, name) """ % (className, className, ax.GetCLSID().GetCLSIDString()) ) def WriteMethods(self, ax): methods = ax.GetAXMethods() if methods: self.write(t4, "# Methods exported by the ActiveX object") for m in methods: name = self.trimMethodName(m.name) self.write(t4, "def %s(self%s):" % (name, self.getParameters(m, True))) self.write(t8, "return self.CallAXMethod('%s'%s)" % (m.name, self.getParameters(m, False))) self.write() def WriteProperties(self, ax): props = ax.GetAXProperties() if props: self.write(t4, "# Getters, Setters and properties") for p in props: getterName = setterName = "None" if p.canGet: getterName = "_get_" + p.name self.write(t4, "def %s(self):" % getterName) self.write(t8, "return self.GetAXProp('%s')" % p.name) if p.canSet: setterName = "_set_" + p.name self.write(t4, "def %s(self, %s):" % (setterName, p.arg.name)) self.write(t8, "self.SetAXProp('%s', %s)" % (p.name, p.arg.name)) self.write(t4, "%s = property(%s, %s)" % (self.trimPropName(p.name), getterName, setterName)) self.write() def WriteDocs(self, ax): self.write() doc = GetAXInfo(ax) for line in doc.split('\n'): self.write("# ", line) def write(self, *args): for a in args: self.mf.write(a) self.mf.write("\n") def trimEventName(name): if name.startswith("On"): name = name[2:] return name trimEventName = staticmethod(trimEventName) def trimPropName(name): #name = name[0].lower() + name[1:] name = name.lower() import keyword if name in keyword.kwlist: name += '_' return name trimPropName = staticmethod(trimPropName) def trimMethodName(name): import keyword if name in keyword.kwlist: name += '_' return name trimMethodName = staticmethod(trimMethodName) def getParameters(self, m, withDefaults): import keyword st = "" # collect the input parameters, if both isIn and isOut are # False then assume it is an input paramater params = [] for p in m.params: if p.isIn or (not p.isIn and not p.isOut): params.append(p) # did we get any? for p in params: name = p.name if name in keyword.kwlist: name += '_' st += ", " st += name if withDefaults and p.isOptional: st += '=None' return st #---------------------------------------------------------------------------