lldb/scripts/Python/python-wrapper.swig - llvm-project - Git at Google

 %wrapper %{

 class PyErr_Cleaner
 {
 public:
     PyErr_Cleaner(bool print=false) :
         m_print(print)
     {
     }

     ~PyErr_Cleaner()
     {
         if (PyErr_Occurred())
         {
             if(m_print)
                 PyErr_Print();
             PyErr_Clear();
         }
     }

 private:
     bool m_print;
 };

 // resolve a dotted Python name in the form
 // foo.bar.baz.Foobar to an actual Python object
 // if pmodule is NULL, the __main__ module will be used
 // as the starting point for the search

 static PyObject*
 ResolvePythonName(const char* name,
                   PyObject* pmodule = NULL)
 {
     if (!name)
         return pmodule;

     PyErr_Cleaner pyerr_cleanup(true);  // show Python errors

     PyObject* main_dict;

     if (!pmodule)
     {
         pmodule = PyImport_AddModule ("__main__");
         if (!pmodule)
             return NULL;
     }

     if (!PyDict_Check(pmodule))
     {
         main_dict = PyModule_GetDict (pmodule);
         if (!main_dict)
             return NULL;
     }
     else
         main_dict = pmodule;

     const char* dot_pos = ::strchr(name, '.');

     PyObject *dest_object;
     PyObject *key, *value;
     Py_ssize_t pos = 0;

     if (!dot_pos)
     {
         dest_object = NULL;
         while (PyDict_Next (main_dict, &pos, &key, &value))
         {
             // We have stolen references to the key and value objects in the dictionary; we need to increment
             // them now so that Python's garbage collector doesn't collect them out from under us.
             Py_INCREF (key);
             Py_INCREF (value);
             if (strcmp (PyString_AsString (key), name) == 0)
             {
                 dest_object = value;
                 break;
             }
         }
         if (!dest_object || dest_object == Py_None)
             return NULL;
         return dest_object;
     }
     else
     {
         size_t len = dot_pos - name;
         std::string piece(name,len);
         pmodule = ResolvePythonName(piece.c_str(), main_dict);
         if (!pmodule)
             return NULL;
         name = dot_pos+1;
         return ResolvePythonName(dot_pos+1,pmodule); // tail recursion.. should be optimized by the compiler
     }
 }

 static PyObject*
 FindSessionDictionary(const char *session_dictionary_name)
 {
     return ResolvePythonName(session_dictionary_name, NULL);
 }

 // This function is called by lldb_private::ScriptInterpreterPython::BreakpointCallbackFunction(...)
 // and is used when a script command is attached to a breakpoint for execution.

 SWIGEXPORT bool
 LLDBSwigPythonBreakpointCallbackFunction
 (
     const char *python_function_name,
     const char *session_dictionary_name,
     const lldb::StackFrameSP& frame_sp,
     const lldb::BreakpointLocationSP& bp_loc_sp
 )
 {
     lldb::SBFrame sb_frame (frame_sp);
     lldb::SBBreakpointLocation sb_bp_loc(bp_loc_sp);

     bool stop_at_breakpoint = true;
     PyObject *Frame_PyObj = SWIG_NewPointerObj((void *) &sb_frame, SWIGTYPE_p_lldb__SBFrame, 0);
     PyObject *Bp_Loc_PyObj = SWIG_NewPointerObj ((void *) &sb_bp_loc, SWIGTYPE_p_lldb__SBBreakpointLocation, 0);

     if (Frame_PyObj == NULL || Bp_Loc_PyObj == NULL)
         return stop_at_breakpoint;

     if (!python_function_name || !session_dictionary_name)
         return stop_at_breakpoint;

     PyObject *session_dict, *pfunc;
     PyObject *pargs, *pvalue;

     session_dict = FindSessionDictionary (session_dictionary_name);
     if (session_dict != NULL)
     {
         pfunc = ResolvePythonName (python_function_name, session_dict);
         if (pfunc != NULL)
         {
             // Set up the arguments and call the function.

             if (PyCallable_Check (pfunc))
             {
                 pargs = PyTuple_New (3);
                 if (pargs == NULL)
                 {
                     if (PyErr_Occurred())
                         PyErr_Clear();
                     return stop_at_breakpoint;
                 }

                 PyTuple_SetItem (pargs, 0, Frame_PyObj);  // This "steals" a reference to Frame_PyObj
                 PyTuple_SetItem (pargs, 1, Bp_Loc_PyObj); // This "steals" a reference to Bp_Loc_PyObj
                 PyTuple_SetItem (pargs, 2, session_dict); // This "steals" a reference to session_dict
                 pvalue = PyObject_CallObject (pfunc, pargs);
                 Py_DECREF (pargs);

                 if (pvalue != NULL)
                 {
                     Py_DECREF (pvalue);
                 }
                 else if (PyErr_Occurred ())
                 {
                     PyErr_Clear();
                 }
                 Py_INCREF (session_dict);
             }
             else if (PyErr_Occurred())
             {
                 PyErr_Clear();
             }
         }
         else if (PyErr_Occurred())
         {
             PyErr_Clear();
         }
     }
     else if (PyErr_Occurred ())
     {
         PyErr_Clear ();
     }
     return stop_at_breakpoint;
 }

 SWIGEXPORT bool
 LLDBSwigPythonCallTypeScript
 (
     const char *python_function_name,
     const void *session_dictionary,
     const lldb::ValueObjectSP& valobj_sp,
     void** pyfunct_wrapper,
     std::string& retval
 )
 {
     lldb::SBValue sb_value (valobj_sp);

     PyObject *ValObj_PyObj = SWIG_NewPointerObj((void *) &sb_value, SWIGTYPE_p_lldb__SBValue, 0);

     if (ValObj_PyObj == NULL)
         return false;

     if (!python_function_name || !session_dictionary)
         return false;

     PyObject *session_dict = (PyObject*)session_dictionary, *pfunc = NULL, *pargs = NULL, *pvalue = NULL;

     if (pyfunct_wrapper && *pyfunct_wrapper && PyFunction_Check (*pyfunct_wrapper))
     {
         pfunc = (PyObject*)(*pyfunct_wrapper);
         if (pfunc->ob_refcnt == 1)
         {
             Py_XDECREF(pfunc);
             pfunc = NULL;
         }
     }

     if (PyDict_Check(session_dict))
     {
         PyErr_Cleaner pyerr_cleanup(true);  // show Python errors

         if (!pfunc)
         {
             pfunc = ResolvePythonName (python_function_name, session_dict);
             if (!pfunc || !PyFunction_Check (pfunc))
                 return false;
             else
             {
                 if (pyfunct_wrapper)
                     *pyfunct_wrapper = pfunc;
             }
         }
         /*else
             printf("caching works!!!!\n");*/

         pargs = PyTuple_Pack(2, ValObj_PyObj, session_dict);
         if (pargs == NULL)
             return false;

         pvalue = PyObject_CallObject (pfunc, pargs);
         Py_DECREF (pargs);

         if (pvalue != NULL && pvalue != Py_None && PyString_Check(pvalue))
             retval.assign(PyString_AsString(pvalue));
         Py_XDECREF (pvalue);
         Py_INCREF (session_dict);
     }
     return true;
 }

 SWIGEXPORT void*
 LLDBSwigPythonCreateSyntheticProvider
 (
     const std::string python_class_name,
     const char *session_dictionary_name,
     const lldb::ValueObjectSP& valobj_sp
 )
 {
     PyObject* retval = NULL;

     if (python_class_name.empty() || !session_dictionary_name)
         Py_RETURN_NONE;

     // I do not want the SBValue to be deallocated when going out of scope because python
     // has ownership of it and will manage memory for this object by itself
     lldb::SBValue *valobj_sb = new lldb::SBValue(valobj_sp);

     PyObject *ValObj_PyObj = SWIG_NewPointerObj((void *)valobj_sb, SWIGTYPE_p_lldb__SBValue, 0);

     if (ValObj_PyObj == NULL)
         Py_RETURN_NONE;

     const char* python_function_name = python_class_name.c_str();

     PyObject *session_dict, *pfunc;
     PyObject *pvalue;

     session_dict = FindSessionDictionary (session_dictionary_name);
     if (session_dict != NULL)
     {
         pfunc = ResolvePythonName (python_function_name, session_dict);
         if (pfunc != NULL)
         {
             // Set up the arguments and call the function.

             if (PyCallable_Check (pfunc))
             {
                 PyObject *argList = Py_BuildValue("SS", ValObj_PyObj, session_dict);

                 if (PyErr_Occurred ())
                 {
                     PyErr_Print();
                     PyErr_Clear();
                     return retval;
                 }

                 if (argList == NULL)
                 {
                     return retval;
                 }

                 Py_INCREF(ValObj_PyObj);

                 pvalue = PyObject_CallObject(pfunc, argList);

                 Py_DECREF(argList);

                 if (pvalue != NULL)
                 {
                     if (pvalue != Py_None)
                         retval = pvalue;
                     else
                     {
                         retval = Py_None;
                         Py_INCREF(retval);
                     }
                 }
                 else if (PyErr_Occurred ())
                 {
                     PyErr_Print();
                     PyErr_Clear();
                 }
                 Py_INCREF (session_dict);
             }
             else if (PyErr_Occurred())
             {
                 PyErr_Print();
                 PyErr_Clear();
             }
         }
         else if (PyErr_Occurred())
         {
             PyErr_Print();
             PyErr_Clear();
         }
     }
     else if (PyErr_Occurred ())
     {
         PyErr_Print();
         PyErr_Clear ();
     }
     if (retval)
         return retval;
     else
         Py_RETURN_NONE;
 }

 /*
 these four calls below are meant to support
 Python-based synthetic children providers
 they essentially mimic the four pure virtual
 method calls provided by the frontend class
 */

 SWIGEXPORT uint32_t
 LLDBSwigPython_CalculateNumChildren
 (
     PyObject *implementor
 )
 {

     static char callee_name[] = "num_children";

     if (implementor == NULL || implementor == Py_None)
         return 0;
     PyObject* py_return = PyObject_CallMethod(implementor, callee_name, NULL);
     if (PyErr_Occurred())
     {
         PyErr_Print();
         PyErr_Clear();
     }

     if (py_return == NULL || py_return == Py_None)
     {
         Py_XDECREF(py_return);
         return UINT32_MAX;
     }
     long retval = PyInt_AsLong(py_return);
     Py_DECREF(py_return);
     if (retval >= 0)
         return (uint32_t)retval;
     if (PyErr_Occurred())
     {
         PyErr_Print();
         PyErr_Clear();
     }
     return 0;
 }

 SWIGEXPORT PyObject*
 LLDBSwigPython_GetChildAtIndex
 (
     PyObject *implementor,
     uint32_t idx
 )
 {

     static char callee_name[] = "get_child_at_index";
     static char param_format[] = "i";

     if (implementor == NULL || implementor == Py_None)
         return NULL;
     PyObject* py_return = PyObject_CallMethod(implementor, callee_name, param_format, idx);
     if (PyErr_Occurred())
     {
         PyErr_Print();
         PyErr_Clear();
     }

     if (py_return == NULL || py_return == Py_None)
     {
         Py_XDECREF(py_return);
         return NULL;
     }

     lldb::SBValue* sbvalue_ptr = NULL;

     if (SWIG_ConvertPtr(py_return, (void**)&sbvalue_ptr, SWIGTYPE_p_lldb__SBValue, 0) == -1)
     {
         Py_DECREF(py_return);
         return NULL;
     }

     if (sbvalue_ptr == NULL)
         return NULL;

     return py_return;
 }

 SWIGEXPORT int
 LLDBSwigPython_GetIndexOfChildWithName
 (
     PyObject *implementor,
     const char* child_name
 )
 {
     static char callee_name[] = "get_child_index";
     static char param_format[] = "s";

     if (implementor == NULL || implementor == Py_None)
         return 0;
     PyObject* py_return = PyObject_CallMethod(implementor, callee_name, param_format, child_name);
     if (PyErr_Occurred())
     {
         PyErr_Print();
         PyErr_Clear();
     }

     if (py_return == NULL || py_return == Py_None)
     {
         Py_XDECREF(py_return);
         return UINT32_MAX;
     }
     long retval = PyInt_AsLong(py_return);
     Py_DECREF(py_return);
     if (retval >= 0)
         return (uint32_t)retval;
     if (PyErr_Occurred())
     {
         PyErr_Print();
         PyErr_Clear();
     }
     return 0;
 }

 SWIGEXPORT bool
 LLDBSwigPython_UpdateSynthProviderInstance
 (
     PyObject *implementor
 )
 {

     bool ret_val = false;

     static char callee_name[] = "update";

     if (implementor == NULL || implementor == Py_None)
         return ret_val;

     // all this code is here because update is optional, so we don't want to bother trying to call it unless it's been def:ined for us
     // other synth provider calls are mandatory, so we want to fail in a very obvious way if they are missing!
     PyObject* pmeth  = PyObject_GetAttrString(implementor, callee_name);

     if (PyErr_Occurred())
     {
         PyErr_Clear();
     }

     if (pmeth == NULL || pmeth == Py_None)
     {
         Py_XDECREF(pmeth);
         return ret_val;
     }

     if (PyCallable_Check(pmeth) == 0)
     {
         if (PyErr_Occurred())
         {
             PyErr_Clear();
         }

         Py_XDECREF(pmeth);
         return ret_val;
     }

     if (PyErr_Occurred())
     {
         PyErr_Clear();
     }

     Py_XDECREF(pmeth);

     // right now we know this function exists and is callable..
     PyObject* py_return = PyObject_CallMethod(implementor, callee_name, NULL);

     // if it fails, print the error but otherwise go on
     if (PyErr_Occurred())
     {
         PyErr_Print();
         PyErr_Clear();
     }

     if (py_return == Py_True)
         ret_val = true;

     Py_XDECREF(py_return);

     return ret_val;

 }

 SWIGEXPORT void*
 LLDBSWIGPython_CastPyObjectToSBValue
 (
     PyObject* data
 )
 {
     lldb::SBValue* sb_ptr = NULL;

     int valid_cast = SWIG_ConvertPtr(data, (void**)&sb_ptr, SWIGTYPE_p_lldb__SBValue, 0);

     if (valid_cast == -1)
         return NULL;

     return sb_ptr;
 }

 // Currently, SBCommandReturnObjectReleaser wraps an std::auto_ptr to an
 // lldb_private::CommandReturnObject. This means that the destructor for the
 // SB object will deallocate its contained CommandReturnObject. Because that
 // object is used as the real return object for Python-based commands, we want
 // it to stay around. Thus, we release the auto_ptr before returning from
 // LLDBSwigPythonCallCommand, and to guarantee that the release will occur no
 // matter how we exit from the function, we have a releaser object whose
 // destructor does the right thing for us
 class SBCommandReturnObjectReleaser
 {
 public:
     SBCommandReturnObjectReleaser (lldb::SBCommandReturnObject &obj) :
         m_command_return_object_ref (obj)
     {
     }

     ~SBCommandReturnObjectReleaser ()
     {
         m_command_return_object_ref.Release();
     }
 private:
     lldb::SBCommandReturnObject &m_command_return_object_ref;
 };

 SWIGEXPORT bool
 LLDBSwigPythonCallCommand
 (
     const char *python_function_name,
     const char *session_dictionary_name,
     lldb::DebuggerSP& debugger,
     const char* args,
     std::string& err_msg,
     lldb_private::CommandReturnObject& cmd_retobj
 )
 {

     lldb::SBCommandReturnObject cmd_retobj_sb(&cmd_retobj);
     SBCommandReturnObjectReleaser cmd_retobj_sb_releaser(cmd_retobj_sb);
     lldb::SBDebugger debugger_sb(debugger);

     bool retval = false;

     PyObject *DebuggerObj_PyObj = SWIG_NewPointerObj((void *) &debugger_sb, SWIGTYPE_p_lldb__SBDebugger, 0);
     PyObject *CmdRetObj_PyObj = SWIG_NewPointerObj((void *) &cmd_retobj_sb, SWIGTYPE_p_lldb__SBCommandReturnObject, 0);

     if (DebuggerObj_PyObj == NULL)
         return retval;

     if (CmdRetObj_PyObj == NULL)
         return retval;

     if (!python_function_name || !session_dictionary_name)
         return retval;

     PyObject *session_dict, *pfunc;
     PyObject *pargs, *pvalue;

     session_dict = FindSessionDictionary (session_dictionary_name);
     if (session_dict != NULL)
     {
         pfunc = ResolvePythonName (python_function_name, session_dict);
         if (pfunc != NULL)
         {
             // Set up the arguments and call the function.

             if (PyCallable_Check (pfunc))
             {
                 pargs = PyTuple_New (4);
                 if (pargs == NULL)
                 {
                     if (PyErr_Occurred())
                         PyErr_Clear();
                     return retval;
                 }

                 PyTuple_SetItem (pargs, 0, DebuggerObj_PyObj);  // This "steals" a reference to DebuggerObj_PyObj
                 PyTuple_SetItem (pargs, 1, PyString_FromString(args));
                 PyTuple_SetItem (pargs, 2, CmdRetObj_PyObj);  // This "steals" a reference to CmdRetObj_PyObj
                 PyTuple_SetItem (pargs, 3, session_dict); // This "steals" a reference to session_dict
                 pvalue = PyObject_CallObject (pfunc, pargs);
                 Py_DECREF (pargs);

                 if (pvalue != NULL)
                 {
                     if (pvalue == Py_None) // no error
                     {
                         err_msg.clear();
                         retval = true;
                     }
                     else
                     {
                         // return value is an error string
                         if (PyString_CheckExact(pvalue))
                             err_msg.assign(PyString_AsString(pvalue));
                         retval = false;
                     }
                     Py_DECREF (pvalue);
                 }
                 else if (PyErr_Occurred ())
                 {
                     PyErr_Print();
                     PyErr_Clear();
                 }
                 Py_INCREF (session_dict);
             }
             else if (PyErr_Occurred())
             {
                 PyErr_Print();
                 PyErr_Clear();
             }
         }
         else if (PyErr_Occurred())
         {
             PyErr_Print();
             PyErr_Clear();
         }
     }
     else if (PyErr_Occurred ())
     {
         PyErr_Print();
         PyErr_Clear ();
     }
     return retval;
 }

 SWIGEXPORT bool
 LLDBSwigPythonCallModuleInit
 (
     const std::string python_module_name,
     const char *session_dictionary_name,
     lldb::DebuggerSP& debugger
 )
 {

     lldb::SBDebugger debugger_sb(debugger);

     bool retval = false;

     PyObject *DebuggerObj_PyObj = SWIG_NewPointerObj((void *) &debugger_sb, SWIGTYPE_p_lldb__SBDebugger, 0);

     if (DebuggerObj_PyObj == NULL)
         return retval;

     if (!(python_module_name.length()) || !session_dictionary_name)
         return retval;

     PyObject *session_dict, *pfunc;
     PyObject *pargs, *pvalue;

     session_dict = FindSessionDictionary (session_dictionary_name);

     std::string python_function_name_string = python_module_name + (".__lldb_init_module");
     const char* python_function_name = python_function_name_string.c_str();

     if (session_dict != NULL)
     {
         pfunc = ResolvePythonName (python_function_name, session_dict);

         if (PyErr_Occurred()) // this might not exist.. let's make sure we handle that
         {
             PyErr_Clear();
             return true;
         }

         if (pfunc == NULL)
             return true;
         else
         {
             // Set up the arguments and call the function.

             if (PyCallable_Check (pfunc))
             {
                 pargs = PyTuple_New (2);
                 if (pargs == NULL)
                 {
                     if (PyErr_Occurred())
                         PyErr_Clear();
                     return retval;
                 }

                 PyTuple_SetItem (pargs, 0, DebuggerObj_PyObj);  // This "steals" a reference to DebuggerObj_PyObj
                 PyTuple_SetItem (pargs, 1, session_dict); // This "steals" a reference to session_dict
                 pvalue = PyObject_CallObject (pfunc, pargs);
                 Py_DECREF (pargs);

                 if (PyErr_Occurred ())
                 {
                     PyErr_Print();
                     PyErr_Clear();
                 }
                 else
                 {
                     retval = true;
                     Py_XDECREF (pvalue);
                 }
                 Py_INCREF (session_dict);
             }
             else if (PyErr_Occurred())
             {
                 PyErr_Print();
                 PyErr_Clear();
             }
         }
     }
     return retval;
 }

 %}
	%wrapper %{

	class PyErr_Cleaner
	{
	public:
	PyErr_Cleaner(bool print=false) :
	m_print(print)
	{
	}

	~PyErr_Cleaner()
	{
	if (PyErr_Occurred())
	{
	if(m_print)
	PyErr_Print();
	PyErr_Clear();
	}
	}

	private:
	bool m_print;
	};

	// resolve a dotted Python name in the form
	// foo.bar.baz.Foobar to an actual Python object
	// if pmodule is NULL, the __main__ module will be used
	// as the starting point for the search

	static PyObject*
	ResolvePythonName(const char* name,
	PyObject* pmodule = NULL)
	{
	if (!name)
	return pmodule;

	PyErr_Cleaner pyerr_cleanup(true); // show Python errors

	PyObject* main_dict;

	if (!pmodule)
	{
	pmodule = PyImport_AddModule ("__main__");
	if (!pmodule)
	return NULL;
	}

	if (!PyDict_Check(pmodule))
	{
	main_dict = PyModule_GetDict (pmodule);
	if (!main_dict)
	return NULL;
	}
	else
	main_dict = pmodule;

	const char* dot_pos = ::strchr(name, '.');

	PyObject *dest_object;
	PyObject key, value;
	Py_ssize_t pos = 0;

	if (!dot_pos)
	{
	dest_object = NULL;
	while (PyDict_Next (main_dict, &pos, &key, &value))
	{
	// We have stolen references to the key and value objects in the dictionary; we need to increment
	// them now so that Python's garbage collector doesn't collect them out from under us.
	Py_INCREF (key);
	Py_INCREF (value);
	if (strcmp (PyString_AsString (key), name) == 0)
	{
	dest_object = value;
	break;
	}
	}
	if (!dest_object \|\| dest_object == Py_None)
	return NULL;
	return dest_object;
	}
	else
	{
	size_t len = dot_pos - name;
	std::string piece(name,len);
	pmodule = ResolvePythonName(piece.c_str(), main_dict);
	if (!pmodule)
	return NULL;
	name = dot_pos+1;
	return ResolvePythonName(dot_pos+1,pmodule); // tail recursion.. should be optimized by the compiler
	}
	}

	static PyObject*
	FindSessionDictionary(const char *session_dictionary_name)
	{
	return ResolvePythonName(session_dictionary_name, NULL);
	}

	// This function is called by lldb_private::ScriptInterpreterPython::BreakpointCallbackFunction(...)
	// and is used when a script command is attached to a breakpoint for execution.

	SWIGEXPORT bool
	LLDBSwigPythonBreakpointCallbackFunction
	(
	const char *python_function_name,
	const char *session_dictionary_name,
	const lldb::StackFrameSP& frame_sp,
	const lldb::BreakpointLocationSP& bp_loc_sp
	)
	{
	lldb::SBFrame sb_frame (frame_sp);
	lldb::SBBreakpointLocation sb_bp_loc(bp_loc_sp);

	bool stop_at_breakpoint = true;
	PyObject Frame_PyObj = SWIG_NewPointerObj((void ) &sb_frame, SWIGTYPE_p_lldb__SBFrame, 0);
	PyObject Bp_Loc_PyObj = SWIG_NewPointerObj ((void ) &sb_bp_loc, SWIGTYPE_p_lldb__SBBreakpointLocation, 0);

	if (Frame_PyObj == NULL \|\| Bp_Loc_PyObj == NULL)
	return stop_at_breakpoint;

	if (!python_function_name \|\| !session_dictionary_name)
	return stop_at_breakpoint;

	PyObject session_dict, pfunc;
	PyObject pargs, pvalue;

	session_dict = FindSessionDictionary (session_dictionary_name);
	if (session_dict != NULL)
	{
	pfunc = ResolvePythonName (python_function_name, session_dict);
	if (pfunc != NULL)
	{
	// Set up the arguments and call the function.

	if (PyCallable_Check (pfunc))
	{
	pargs = PyTuple_New (3);
	if (pargs == NULL)
	{
	if (PyErr_Occurred())
	PyErr_Clear();
	return stop_at_breakpoint;
	}

	PyTuple_SetItem (pargs, 0, Frame_PyObj); // This "steals" a reference to Frame_PyObj
	PyTuple_SetItem (pargs, 1, Bp_Loc_PyObj); // This "steals" a reference to Bp_Loc_PyObj
	PyTuple_SetItem (pargs, 2, session_dict); // This "steals" a reference to session_dict
	pvalue = PyObject_CallObject (pfunc, pargs);
	Py_DECREF (pargs);

	if (pvalue != NULL)
	{
	Py_DECREF (pvalue);
	}
	else if (PyErr_Occurred ())
	{
	PyErr_Clear();
	}
	Py_INCREF (session_dict);
	}
	else if (PyErr_Occurred())
	{
	PyErr_Clear();
	}
	}
	else if (PyErr_Occurred())
	{
	PyErr_Clear();
	}
	}
	else if (PyErr_Occurred ())
	{
	PyErr_Clear ();
	}
	return stop_at_breakpoint;
	}

	SWIGEXPORT bool
	LLDBSwigPythonCallTypeScript
	(
	const char *python_function_name,
	const void *session_dictionary,
	const lldb::ValueObjectSP& valobj_sp,
	void** pyfunct_wrapper,
	std::string& retval
	)
	{
	lldb::SBValue sb_value (valobj_sp);

	PyObject ValObj_PyObj = SWIG_NewPointerObj((void ) &sb_value, SWIGTYPE_p_lldb__SBValue, 0);

	if (ValObj_PyObj == NULL)
	return false;

	if (!python_function_name \|\| !session_dictionary)
	return false;

	PyObject session_dict = (PyObject)session_dictionary, pfunc = NULL, pargs = NULL, *pvalue = NULL;

	if (pyfunct_wrapper && pyfunct_wrapper && PyFunction_Check (pyfunct_wrapper))
	{
	pfunc = (PyObject)(pyfunct_wrapper);
	if (pfunc->ob_refcnt == 1)
	{
	Py_XDECREF(pfunc);
	pfunc = NULL;
	}
	}

	if (PyDict_Check(session_dict))
	{
	PyErr_Cleaner pyerr_cleanup(true); // show Python errors

	if (!pfunc)
	{
	pfunc = ResolvePythonName (python_function_name, session_dict);
	if (!pfunc \|\| !PyFunction_Check (pfunc))
	return false;
	else
	{
	if (pyfunct_wrapper)
	*pyfunct_wrapper = pfunc;
	}
	}
	/*else
	printf("caching works!!!!\n");*/

	pargs = PyTuple_Pack(2, ValObj_PyObj, session_dict);
	if (pargs == NULL)
	return false;

	pvalue = PyObject_CallObject (pfunc, pargs);
	Py_DECREF (pargs);

	if (pvalue != NULL && pvalue != Py_None && PyString_Check(pvalue))
	retval.assign(PyString_AsString(pvalue));
	Py_XDECREF (pvalue);
	Py_INCREF (session_dict);
	}
	return true;
	}

	SWIGEXPORT void*
	LLDBSwigPythonCreateSyntheticProvider
	(
	const std::string python_class_name,
	const char *session_dictionary_name,
	const lldb::ValueObjectSP& valobj_sp
	)
	{
	PyObject* retval = NULL;

	if (python_class_name.empty() \|\| !session_dictionary_name)
	Py_RETURN_NONE;

	// I do not want the SBValue to be deallocated when going out of scope because python
	// has ownership of it and will manage memory for this object by itself
	lldb::SBValue *valobj_sb = new lldb::SBValue(valobj_sp);

	PyObject ValObj_PyObj = SWIG_NewPointerObj((void )valobj_sb, SWIGTYPE_p_lldb__SBValue, 0);

	if (ValObj_PyObj == NULL)
	Py_RETURN_NONE;

	const char* python_function_name = python_class_name.c_str();

	PyObject session_dict, pfunc;
	PyObject *pvalue;

	session_dict = FindSessionDictionary (session_dictionary_name);
	if (session_dict != NULL)
	{
	pfunc = ResolvePythonName (python_function_name, session_dict);
	if (pfunc != NULL)
	{
	// Set up the arguments and call the function.

	if (PyCallable_Check (pfunc))
	{
	PyObject *argList = Py_BuildValue("SS", ValObj_PyObj, session_dict);

	if (PyErr_Occurred ())
	{
	PyErr_Print();
	PyErr_Clear();
	return retval;
	}

	if (argList == NULL)
	{
	return retval;
	}

	Py_INCREF(ValObj_PyObj);

	pvalue = PyObject_CallObject(pfunc, argList);

	Py_DECREF(argList);

	if (pvalue != NULL)
	{
	if (pvalue != Py_None)
	retval = pvalue;
	else
	{
	retval = Py_None;
	Py_INCREF(retval);
	}
	}
	else if (PyErr_Occurred ())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	Py_INCREF (session_dict);
	}
	else if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	}
	else if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	}
	else if (PyErr_Occurred ())
	{
	PyErr_Print();
	PyErr_Clear ();
	}
	if (retval)
	return retval;
	else
	Py_RETURN_NONE;
	}

	/*
	these four calls below are meant to support
	Python-based synthetic children providers
	they essentially mimic the four pure virtual
	method calls provided by the frontend class
	*/

	SWIGEXPORT uint32_t
	LLDBSwigPython_CalculateNumChildren
	(
	PyObject *implementor
	)
	{

	static char callee_name[] = "num_children";

	if (implementor == NULL \|\| implementor == Py_None)
	return 0;
	PyObject* py_return = PyObject_CallMethod(implementor, callee_name, NULL);
	if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}

	if (py_return == NULL \|\| py_return == Py_None)
	{
	Py_XDECREF(py_return);
	return UINT32_MAX;
	}
	long retval = PyInt_AsLong(py_return);
	Py_DECREF(py_return);
	if (retval >= 0)
	return (uint32_t)retval;
	if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	return 0;
	}

	SWIGEXPORT PyObject*
	LLDBSwigPython_GetChildAtIndex
	(
	PyObject *implementor,
	uint32_t idx
	)
	{

	static char callee_name[] = "get_child_at_index";
	static char param_format[] = "i";

	if (implementor == NULL \|\| implementor == Py_None)
	return NULL;
	PyObject* py_return = PyObject_CallMethod(implementor, callee_name, param_format, idx);
	if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}

	if (py_return == NULL \|\| py_return == Py_None)
	{
	Py_XDECREF(py_return);
	return NULL;
	}

	lldb::SBValue* sbvalue_ptr = NULL;

	if (SWIG_ConvertPtr(py_return, (void**)&sbvalue_ptr, SWIGTYPE_p_lldb__SBValue, 0) == -1)
	{
	Py_DECREF(py_return);
	return NULL;
	}

	if (sbvalue_ptr == NULL)
	return NULL;

	return py_return;
	}

	SWIGEXPORT int
	LLDBSwigPython_GetIndexOfChildWithName
	(
	PyObject *implementor,
	const char* child_name
	)
	{
	static char callee_name[] = "get_child_index";
	static char param_format[] = "s";

	if (implementor == NULL \|\| implementor == Py_None)
	return 0;
	PyObject* py_return = PyObject_CallMethod(implementor, callee_name, param_format, child_name);
	if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}

	if (py_return == NULL \|\| py_return == Py_None)
	{
	Py_XDECREF(py_return);
	return UINT32_MAX;
	}
	long retval = PyInt_AsLong(py_return);
	Py_DECREF(py_return);
	if (retval >= 0)
	return (uint32_t)retval;
	if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	return 0;
	}

	SWIGEXPORT bool
	LLDBSwigPython_UpdateSynthProviderInstance
	(
	PyObject *implementor
	)
	{

	bool ret_val = false;

	static char callee_name[] = "update";

	if (implementor == NULL \|\| implementor == Py_None)
	return ret_val;

	// all this code is here because update is optional, so we don't want to bother trying to call it unless it's been def:ined for us
	// other synth provider calls are mandatory, so we want to fail in a very obvious way if they are missing!
	PyObject* pmeth = PyObject_GetAttrString(implementor, callee_name);

	if (PyErr_Occurred())
	{
	PyErr_Clear();
	}

	if (pmeth == NULL \|\| pmeth == Py_None)
	{
	Py_XDECREF(pmeth);
	return ret_val;
	}

	if (PyCallable_Check(pmeth) == 0)
	{
	if (PyErr_Occurred())
	{
	PyErr_Clear();
	}

	Py_XDECREF(pmeth);
	return ret_val;
	}

	if (PyErr_Occurred())
	{
	PyErr_Clear();
	}

	Py_XDECREF(pmeth);

	// right now we know this function exists and is callable..
	PyObject* py_return = PyObject_CallMethod(implementor, callee_name, NULL);

	// if it fails, print the error but otherwise go on
	if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}

	if (py_return == Py_True)
	ret_val = true;

	Py_XDECREF(py_return);

	return ret_val;

	}

	SWIGEXPORT void*
	LLDBSWIGPython_CastPyObjectToSBValue
	(
	PyObject* data
	)
	{
	lldb::SBValue* sb_ptr = NULL;

	int valid_cast = SWIG_ConvertPtr(data, (void**)&sb_ptr, SWIGTYPE_p_lldb__SBValue, 0);

	if (valid_cast == -1)
	return NULL;

	return sb_ptr;
	}

	// Currently, SBCommandReturnObjectReleaser wraps an std::auto_ptr to an
	// lldb_private::CommandReturnObject. This means that the destructor for the
	// SB object will deallocate its contained CommandReturnObject. Because that
	// object is used as the real return object for Python-based commands, we want
	// it to stay around. Thus, we release the auto_ptr before returning from
	// LLDBSwigPythonCallCommand, and to guarantee that the release will occur no
	// matter how we exit from the function, we have a releaser object whose
	// destructor does the right thing for us
	class SBCommandReturnObjectReleaser
	{
	public:
	SBCommandReturnObjectReleaser (lldb::SBCommandReturnObject &obj) :
	m_command_return_object_ref (obj)
	{
	}

	~SBCommandReturnObjectReleaser ()
	{
	m_command_return_object_ref.Release();
	}
	private:
	lldb::SBCommandReturnObject &m_command_return_object_ref;
	};

	SWIGEXPORT bool
	LLDBSwigPythonCallCommand
	(
	const char *python_function_name,
	const char *session_dictionary_name,
	lldb::DebuggerSP& debugger,
	const char* args,
	std::string& err_msg,
	lldb_private::CommandReturnObject& cmd_retobj
	)
	{

	lldb::SBCommandReturnObject cmd_retobj_sb(&cmd_retobj);
	SBCommandReturnObjectReleaser cmd_retobj_sb_releaser(cmd_retobj_sb);
	lldb::SBDebugger debugger_sb(debugger);

	bool retval = false;

	PyObject DebuggerObj_PyObj = SWIG_NewPointerObj((void ) &debugger_sb, SWIGTYPE_p_lldb__SBDebugger, 0);
	PyObject CmdRetObj_PyObj = SWIG_NewPointerObj((void ) &cmd_retobj_sb, SWIGTYPE_p_lldb__SBCommandReturnObject, 0);

	if (DebuggerObj_PyObj == NULL)
	return retval;

	if (CmdRetObj_PyObj == NULL)
	return retval;

	if (!python_function_name \|\| !session_dictionary_name)
	return retval;

	PyObject session_dict, pfunc;
	PyObject pargs, pvalue;

	session_dict = FindSessionDictionary (session_dictionary_name);
	if (session_dict != NULL)
	{
	pfunc = ResolvePythonName (python_function_name, session_dict);
	if (pfunc != NULL)
	{
	// Set up the arguments and call the function.

	if (PyCallable_Check (pfunc))
	{
	pargs = PyTuple_New (4);
	if (pargs == NULL)
	{
	if (PyErr_Occurred())
	PyErr_Clear();
	return retval;
	}

	PyTuple_SetItem (pargs, 0, DebuggerObj_PyObj); // This "steals" a reference to DebuggerObj_PyObj
	PyTuple_SetItem (pargs, 1, PyString_FromString(args));
	PyTuple_SetItem (pargs, 2, CmdRetObj_PyObj); // This "steals" a reference to CmdRetObj_PyObj
	PyTuple_SetItem (pargs, 3, session_dict); // This "steals" a reference to session_dict
	pvalue = PyObject_CallObject (pfunc, pargs);
	Py_DECREF (pargs);

	if (pvalue != NULL)
	{
	if (pvalue == Py_None) // no error
	{
	err_msg.clear();
	retval = true;
	}
	else
	{
	// return value is an error string
	if (PyString_CheckExact(pvalue))
	err_msg.assign(PyString_AsString(pvalue));
	retval = false;
	}
	Py_DECREF (pvalue);
	}
	else if (PyErr_Occurred ())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	Py_INCREF (session_dict);
	}
	else if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	}
	else if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	}
	else if (PyErr_Occurred ())
	{
	PyErr_Print();
	PyErr_Clear ();
	}
	return retval;
	}

	SWIGEXPORT bool
	LLDBSwigPythonCallModuleInit
	(
	const std::string python_module_name,
	const char *session_dictionary_name,
	lldb::DebuggerSP& debugger
	)
	{

	lldb::SBDebugger debugger_sb(debugger);

	bool retval = false;

	PyObject DebuggerObj_PyObj = SWIG_NewPointerObj((void ) &debugger_sb, SWIGTYPE_p_lldb__SBDebugger, 0);

	if (DebuggerObj_PyObj == NULL)
	return retval;

	if (!(python_module_name.length()) \|\| !session_dictionary_name)
	return retval;

	PyObject session_dict, pfunc;
	PyObject pargs, pvalue;

	session_dict = FindSessionDictionary (session_dictionary_name);

	std::string python_function_name_string = python_module_name + (".__lldb_init_module");
	const char* python_function_name = python_function_name_string.c_str();

	if (session_dict != NULL)
	{
	pfunc = ResolvePythonName (python_function_name, session_dict);

	if (PyErr_Occurred()) // this might not exist.. let's make sure we handle that
	{
	PyErr_Clear();
	return true;
	}

	if (pfunc == NULL)
	return true;
	else
	{
	// Set up the arguments and call the function.

	if (PyCallable_Check (pfunc))
	{
	pargs = PyTuple_New (2);
	if (pargs == NULL)
	{
	if (PyErr_Occurred())
	PyErr_Clear();
	return retval;
	}

	PyTuple_SetItem (pargs, 0, DebuggerObj_PyObj); // This "steals" a reference to DebuggerObj_PyObj
	PyTuple_SetItem (pargs, 1, session_dict); // This "steals" a reference to session_dict
	pvalue = PyObject_CallObject (pfunc, pargs);
	Py_DECREF (pargs);

	if (PyErr_Occurred ())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	else
	{
	retval = true;
	Py_XDECREF (pvalue);
	}
	Py_INCREF (session_dict);
	}
	else if (PyErr_Occurred())
	{
	PyErr_Print();
	PyErr_Clear();
	}
	}
	}
	return retval;
	}

	%}