"""Utility file for generating PyIEnum support. This is almost a 'template' file. It simplay contains almost full C++ source code for PyIEnum* support, and the Python code simply substitutes the appropriate interface name. This module is notmally not used directly - the @makegw@ module automatically calls this. """ # # INTERNAL FUNCTIONS # # import string def is_interface_enum(enumtype): return not (enumtype[0] in string.uppercase and enumtype[2] in string.uppercase) def _write_enumifc_cpp(f, interface): enumtype = interface.name[5:] if is_interface_enum(enumtype): # Assume an interface. enum_interface = "I" + enumtype[:-1] converter = ( "PyObject *ob = PyCom_PyObjectFromIUnknown(rgVar[i], IID_%(enum_interface)s, FALSE);" % locals() ) arraydeclare = ( "%(enum_interface)s **rgVar = new %(enum_interface)s *[celt];" % locals() ) else: # Enum of a simple structure converter = ( "PyObject *ob = PyCom_PyObjectFrom%(enumtype)s(&rgVar[i]);" % locals() ) arraydeclare = "%(enumtype)s *rgVar = new %(enumtype)s[celt];" % locals() f.write( """ // --------------------------------------------------- // // Interface Implementation PyIEnum%(enumtype)s::PyIEnum%(enumtype)s(IUnknown *pdisp): PyIUnknown(pdisp) { ob_type = &type; } PyIEnum%(enumtype)s::~PyIEnum%(enumtype)s() { } /* static */ IEnum%(enumtype)s *PyIEnum%(enumtype)s::GetI(PyObject *self) { return (IEnum%(enumtype)s *)PyIUnknown::GetI(self); } // @pymethod object|PyIEnum%(enumtype)s|Next|Retrieves a specified number of items in the enumeration sequence. PyObject *PyIEnum%(enumtype)s::Next(PyObject *self, PyObject *args) { long celt = 1; // @pyparm int|num|1|Number of items to retrieve. if ( !PyArg_ParseTuple(args, "|l:Next", &celt) ) return NULL; IEnum%(enumtype)s *pIE%(enumtype)s = GetI(self); if ( pIE%(enumtype)s == NULL ) return NULL; %(arraydeclare)s if ( rgVar == NULL ) { PyErr_SetString(PyExc_MemoryError, "allocating result %(enumtype)ss"); return NULL; } int i; /* for ( i = celt; i--; ) // *** possibly init each structure element??? */ ULONG celtFetched = 0; PY_INTERFACE_PRECALL; HRESULT hr = pIE%(enumtype)s->Next(celt, rgVar, &celtFetched); PY_INTERFACE_POSTCALL; if ( HRESULT_CODE(hr) != ERROR_NO_MORE_ITEMS && FAILED(hr) ) { delete [] rgVar; return PyCom_BuildPyException(hr,pIE%(enumtype)s, IID_IE%(enumtype)s); } PyObject *result = PyTuple_New(celtFetched); if ( result != NULL ) { for ( i = celtFetched; i--; ) { %(converter)s if ( ob == NULL ) { Py_DECREF(result); result = NULL; break; } PyTuple_SET_ITEM(result, i, ob); } } /* for ( i = celtFetched; i--; ) // *** possibly cleanup each structure element??? */ delete [] rgVar; return result; } // @pymethod |PyIEnum%(enumtype)s|Skip|Skips over the next specified elementes. PyObject *PyIEnum%(enumtype)s::Skip(PyObject *self, PyObject *args) { long celt; if ( !PyArg_ParseTuple(args, "l:Skip", &celt) ) return NULL; IEnum%(enumtype)s *pIE%(enumtype)s = GetI(self); if ( pIE%(enumtype)s == NULL ) return NULL; PY_INTERFACE_PRECALL; HRESULT hr = pIE%(enumtype)s->Skip(celt); PY_INTERFACE_POSTCALL; if ( FAILED(hr) ) return PyCom_BuildPyException(hr, pIE%(enumtype)s, IID_IE%(enumtype)s); Py_INCREF(Py_None); return Py_None; } // @pymethod |PyIEnum%(enumtype)s|Reset|Resets the enumeration sequence to the beginning. PyObject *PyIEnum%(enumtype)s::Reset(PyObject *self, PyObject *args) { if ( !PyArg_ParseTuple(args, ":Reset") ) return NULL; IEnum%(enumtype)s *pIE%(enumtype)s = GetI(self); if ( pIE%(enumtype)s == NULL ) return NULL; PY_INTERFACE_PRECALL; HRESULT hr = pIE%(enumtype)s->Reset(); PY_INTERFACE_POSTCALL; if ( FAILED(hr) ) return PyCom_BuildPyException(hr, pIE%(enumtype)s, IID_IE%(enumtype)s); Py_INCREF(Py_None); return Py_None; } // @pymethod |PyIEnum%(enumtype)s|Clone|Creates another enumerator that contains the same enumeration state as the current one PyObject *PyIEnum%(enumtype)s::Clone(PyObject *self, PyObject *args) { if ( !PyArg_ParseTuple(args, ":Clone") ) return NULL; IEnum%(enumtype)s *pIE%(enumtype)s = GetI(self); if ( pIE%(enumtype)s == NULL ) return NULL; IEnum%(enumtype)s *pClone; PY_INTERFACE_PRECALL; HRESULT hr = pIE%(enumtype)s->Clone(&pClone); PY_INTERFACE_POSTCALL; if ( FAILED(hr) ) return PyCom_BuildPyException(hr, pIE%(enumtype)s, IID_IE%(enumtype)s); return PyCom_PyObjectFromIUnknown(pClone, IID_IEnum%(enumtype)s, FALSE); } // @object PyIEnum%(enumtype)s|A Python interface to IEnum%(enumtype)s static struct PyMethodDef PyIEnum%(enumtype)s_methods[] = { { "Next", PyIEnum%(enumtype)s::Next, 1 }, // @pymeth Next|Retrieves a specified number of items in the enumeration sequence. { "Skip", PyIEnum%(enumtype)s::Skip, 1 }, // @pymeth Skip|Skips over the next specified elementes. { "Reset", PyIEnum%(enumtype)s::Reset, 1 }, // @pymeth Reset|Resets the enumeration sequence to the beginning. { "Clone", PyIEnum%(enumtype)s::Clone, 1 }, // @pymeth Clone|Creates another enumerator that contains the same enumeration state as the current one. { NULL } }; PyComEnumTypeObject PyIEnum%(enumtype)s::type("PyIEnum%(enumtype)s", &PyIUnknown::type, sizeof(PyIEnum%(enumtype)s), PyIEnum%(enumtype)s_methods, GET_PYCOM_CTOR(PyIEnum%(enumtype)s)); """ % locals() ) def _write_enumgw_cpp(f, interface): enumtype = interface.name[5:] if is_interface_enum(enumtype): # Assume an interface. enum_interface = "I" + enumtype[:-1] converter = ( "if ( !PyCom_InterfaceFromPyObject(ob, IID_%(enum_interface)s, (void **)&rgVar[i], FALSE) )" % locals() ) argdeclare = "%(enum_interface)s __RPC_FAR * __RPC_FAR *rgVar" % locals() else: argdeclare = "%(enumtype)s __RPC_FAR *rgVar" % locals() converter = "if ( !PyCom_PyObjectAs%(enumtype)s(ob, &rgVar[i]) )" % locals() f.write( """ // --------------------------------------------------- // // Gateway Implementation // Std delegation STDMETHODIMP_(ULONG) PyGEnum%(enumtype)s::AddRef(void) {return PyGatewayBase::AddRef();} STDMETHODIMP_(ULONG) PyGEnum%(enumtype)s::Release(void) {return PyGatewayBase::Release();} STDMETHODIMP PyGEnum%(enumtype)s::QueryInterface(REFIID iid, void ** obj) {return PyGatewayBase::QueryInterface(iid, obj);} STDMETHODIMP PyGEnum%(enumtype)s::GetTypeInfoCount(UINT FAR* pctInfo) {return PyGatewayBase::GetTypeInfoCount(pctInfo);} STDMETHODIMP PyGEnum%(enumtype)s::GetTypeInfo(UINT itinfo, LCID lcid, ITypeInfo FAR* FAR* pptInfo) {return PyGatewayBase::GetTypeInfo(itinfo, lcid, pptInfo);} STDMETHODIMP PyGEnum%(enumtype)s::GetIDsOfNames(REFIID refiid, OLECHAR FAR* FAR* rgszNames, UINT cNames, LCID lcid, DISPID FAR* rgdispid) {return PyGatewayBase::GetIDsOfNames( refiid, rgszNames, cNames, lcid, rgdispid);} STDMETHODIMP PyGEnum%(enumtype)s::Invoke(DISPID dispid, REFIID riid, LCID lcid, WORD wFlags, DISPPARAMS FAR* params, VARIANT FAR* pVarResult, EXCEPINFO FAR* pexcepinfo, UINT FAR* puArgErr) {return PyGatewayBase::Invoke( dispid, riid, lcid, wFlags, params, pVarResult, pexcepinfo, puArgErr);} STDMETHODIMP PyGEnum%(enumtype)s::Next( /* [in] */ ULONG celt, /* [length_is][size_is][out] */ %(argdeclare)s, /* [out] */ ULONG __RPC_FAR *pCeltFetched) { PY_GATEWAY_METHOD; PyObject *result; HRESULT hr = InvokeViaPolicy("Next", &result, "i", celt); if ( FAILED(hr) ) return hr; if ( !PySequence_Check(result) ) goto error; int len; len = PyObject_Length(result); if ( len == -1 ) goto error; if ( len > (int)celt) len = celt; if ( pCeltFetched ) *pCeltFetched = len; int i; for ( i = 0; i < len; ++i ) { PyObject *ob = PySequence_GetItem(result, i); if ( ob == NULL ) goto error; %(converter)s { Py_DECREF(result); return PyCom_SetCOMErrorFromPyException(IID_IEnum%(enumtype)s); } } Py_DECREF(result); return len < (int)celt ? S_FALSE : S_OK; error: PyErr_Clear(); // just in case Py_DECREF(result); return PyCom_HandleIEnumNoSequence(IID_IEnum%(enumtype)s); } STDMETHODIMP PyGEnum%(enumtype)s::Skip( /* [in] */ ULONG celt) { PY_GATEWAY_METHOD; return InvokeViaPolicy("Skip", NULL, "i", celt); } STDMETHODIMP PyGEnum%(enumtype)s::Reset(void) { PY_GATEWAY_METHOD; return InvokeViaPolicy("Reset"); } STDMETHODIMP PyGEnum%(enumtype)s::Clone( /* [out] */ IEnum%(enumtype)s __RPC_FAR *__RPC_FAR *ppEnum) { PY_GATEWAY_METHOD; PyObject * result; HRESULT hr = InvokeViaPolicy("Clone", &result); if ( FAILED(hr) ) return hr; /* ** Make sure we have the right kind of object: we should have some kind ** of IUnknown subclass wrapped into a PyIUnknown instance. */ if ( !PyIBase::is_object(result, &PyIUnknown::type) ) { /* the wrong kind of object was returned to us */ Py_DECREF(result); return PyCom_SetCOMErrorFromSimple(E_FAIL, IID_IEnum%(enumtype)s); } /* ** Get the IUnknown out of the thing. note that the Python ob maintains ** a reference, so we don't have to explicitly AddRef() here. */ IUnknown *punk = ((PyIUnknown *)result)->m_obj; if ( !punk ) { /* damn. the object was released. */ Py_DECREF(result); return PyCom_SetCOMErrorFromSimple(E_FAIL, IID_IEnum%(enumtype)s); } /* ** Get the interface we want. note it is returned with a refcount. ** This QI is actually going to instantiate a PyGEnum%(enumtype)s. */ hr = punk->QueryInterface(IID_IEnum%(enumtype)s, (LPVOID *)ppEnum); /* done with the result; this DECREF is also for */ Py_DECREF(result); return PyCom_CheckIEnumNextResult(hr, IID_IEnum%(enumtype)s); } """ % locals() )