///////////////////////////////////////////////////////////////////////////// // Name: ogl.i // Purpose: SWIG definitions for the wxWindows Object Graphics Library // // Author: Robin Dunn // // Created: 30-June-1999 // RCS-ID: $Id$ // Copyright: (c) 1998 by Total Control Software // Licence: wxWindows license ///////////////////////////////////////////////////////////////////////////// %module ogl %{ #include "wx/wxPython/wxPython.h" #include "wx/wxPython/pyclasses.h" #include "oglhelpers.h" static const wxString wxPyEmptyString(wxT("")); %} //--------------------------------------------------------------------------- %import windows.i %pythoncode { wx = core } %include _ogl_rename.i %include _ogldefs.i %include _oglbasic.i %include _oglshapes.i %include _oglshapes2.i %include _oglcanvas.i %pythoncode { %# Aliases ShapeCanvas = PyShapeCanvas ShapeEvtHandler = PyShapeEvtHandler Shape = PyShape RectangleShape = PyRectangleShape BitmapShape = PyBitmapShape DrawnShape = PyDrawnShape CompositeShape = PyCompositeShape DividedShape = PyDividedShape DivisionShape = PyDivisionShape EllipseShape = PyEllipseShape CircleShape = PyCircleShape LineShape = PyLineShape PolygonShape = PyPolygonShape TextShape = PyTextShape ControlPoint = PyControlPoint } //--------------------------------------------------------------------------- enum { KEY_SHIFT, KEY_CTRL, ARROW_NONE, ARROW_END, ARROW_BOTH, ARROW_MIDDLE, ARROW_START, ARROW_HOLLOW_CIRCLE, ARROW_FILLED_CIRCLE, ARROW_ARROW, ARROW_SINGLE_OBLIQUE, ARROW_DOUBLE_OBLIQUE, ARROW_METAFILE, ARROW_POSITION_END, ARROW_POSITION_START, CONTROL_POINT_VERTICAL, CONTROL_POINT_HORIZONTAL, CONTROL_POINT_DIAGONAL, CONTROL_POINT_ENDPOINT_TO, CONTROL_POINT_ENDPOINT_FROM, CONTROL_POINT_LINE, FORMAT_NONE, FORMAT_CENTRE_HORIZ, FORMAT_CENTRE_VERT, FORMAT_SIZE_TO_CONTENTS, LINE_ALIGNMENT_HORIZ, LINE_ALIGNMENT_VERT, LINE_ALIGNMENT_TO_NEXT_HANDLE, LINE_ALIGNMENT_NONE, SHADOW_NONE, SHADOW_LEFT, SHADOW_RIGHT, // SHAPE_BASIC, // SHAPE_RECTANGLE, // SHAPE_ELLIPSE, // SHAPE_POLYGON, // SHAPE_CIRCLE, // SHAPE_LINE, // SHAPE_DIVIDED_RECTANGLE, // SHAPE_COMPOSITE, // SHAPE_CONTROL_POINT, // SHAPE_DRAWN, // SHAPE_DIVISION, // SHAPE_LABEL_OBJECT, // SHAPE_BITMAP, // SHAPE_DIVIDED_OBJECT_CONTROL_POINT, // OBJECT_REGION, OP_CLICK_LEFT, OP_CLICK_RIGHT, OP_DRAG_LEFT, OP_DRAG_RIGHT, OP_ALL, ATTACHMENT_MODE_NONE, ATTACHMENT_MODE_EDGE, ATTACHMENT_MODE_BRANCHING, BRANCHING_ATTACHMENT_NORMAL, BRANCHING_ATTACHMENT_BLOB, gyCONSTRAINT_CENTRED_VERTICALLY, gyCONSTRAINT_CENTRED_HORIZONTALLY, gyCONSTRAINT_CENTRED_BOTH, gyCONSTRAINT_LEFT_OF, gyCONSTRAINT_RIGHT_OF, gyCONSTRAINT_ABOVE, gyCONSTRAINT_BELOW, gyCONSTRAINT_ALIGNED_TOP, gyCONSTRAINT_ALIGNED_BOTTOM, gyCONSTRAINT_ALIGNED_LEFT, gyCONSTRAINT_ALIGNED_RIGHT, gyCONSTRAINT_MIDALIGNED_TOP, gyCONSTRAINT_MIDALIGNED_BOTTOM, gyCONSTRAINT_MIDALIGNED_LEFT, gyCONSTRAINT_MIDALIGNED_RIGHT, DIVISION_SIDE_NONE, DIVISION_SIDE_LEFT, DIVISION_SIDE_TOP, DIVISION_SIDE_RIGHT, DIVISION_SIDE_BOTTOM, }; //--------------------------------------------------------------------------- void wxOGLInitialize(); void wxOGLCleanUp(); %{ //--------------------------------------------------------------------------- // Convert from a Python list to a list of className objects. This one will // work for any class for the VERY generic cases, but beyond that the helper // needs to know more about the type. wxList* wxPy_wxListHelper(PyObject* pyList, const wxChar* className) { wxPyBeginBlockThreads(); if (!PyList_Check(pyList)) { PyErr_SetString(PyExc_TypeError, "Expected a list object."); wxPyEndBlockThreads(); return NULL; } int count = PyList_Size(pyList); wxList* list = new wxList; if (! list) { PyErr_SetString(PyExc_MemoryError, "Unable to allocate wxList object"); wxPyEndBlockThreads(); return NULL; } for (int x=0; xAppend(wxo); } wxPyEndBlockThreads(); return list; } //--------------------------------------------------------------------------- wxList* wxPy_wxRealPoint_ListHelper(PyObject* pyList) { wxPyBeginBlockThreads(); if (!PyList_Check(pyList)) { PyErr_SetString(PyExc_TypeError, "Expected a list object."); wxPyEndBlockThreads(); return NULL; } int count = PyList_Size(pyList); wxList* list = new wxList; if (! list) { PyErr_SetString(PyExc_MemoryError, "Unable to allocate wxList object"); wxPyEndBlockThreads(); return NULL; } for (int x=0; xAppend((wxObject*) new wxRealPoint(val1, val2)); } else { wxRealPoint* wxo = NULL; if (wxPyConvertSwigPtr(pyo, (void **)&wxo, wxT("wxRealPoint"))) { PyErr_SetString(PyExc_TypeError, "Type error, expected list of wxRealPoint objects or 2-tuples"); wxPyEndBlockThreads(); return NULL; } list->Append((wxObject*) new wxRealPoint(*wxo)); } } wxPyEndBlockThreads(); return list; } //--------------------------------------------------------------------------- PyObject* wxPyMake_wxShapeEvtHandler(wxShapeEvtHandler* source) { PyObject* target = NULL; if (source && wxIsKindOf(source, wxShapeEvtHandler)) { // If it's derived from wxShapeEvtHandler then there may // already be a pointer to a Python object that we can use // in the OOR data. wxShapeEvtHandler* seh = (wxShapeEvtHandler*)source; wxPyOORClientData* data = (wxPyOORClientData*)seh->GetClientObject(); if (data) { target = data->m_obj; Py_INCREF(target); } } if (! target) { target = wxPyMake_wxObject2(source, FALSE); if (target != Py_None) ((wxShapeEvtHandler*)source)->SetClientObject(new wxPyOORClientData(target)); } return target; } //--------------------------------------------------------------------------- PyObject* wxPy_ConvertShapeList(wxListBase* listbase) { wxList* list = (wxList*)listbase; PyObject* pyList; PyObject* pyObj; wxObject* wxObj; wxNode* node = list->GetFirst(); wxPyBeginBlockThreads(); pyList = PyList_New(0); while (node) { wxObj = node->GetData(); pyObj = wxPyMake_wxShapeEvtHandler((wxShapeEvtHandler*)wxObj); PyList_Append(pyList, pyObj); node = node->GetNext(); } wxPyEndBlockThreads(); return pyList; } //--------------------------------------------------------------------------- IMPLEMENT_DYNAMIC_CLASS(wxPyShapeCanvas, wxShapeCanvas); IMPLEMENT_DYNAMIC_CLASS(wxPyShapeEvtHandler, wxShapeEvtHandler); IMPLEMENT_ABSTRACT_CLASS(wxPyShape, wxShape); IMPLEMENT_DYNAMIC_CLASS(wxPyRectangleShape, wxRectangleShape); IMPLEMENT_DYNAMIC_CLASS(wxPyControlPoint, wxControlPoint); IMPLEMENT_DYNAMIC_CLASS(wxPyBitmapShape, wxBitmapShape); IMPLEMENT_DYNAMIC_CLASS(wxPyDrawnShape, wxDrawnShape); IMPLEMENT_DYNAMIC_CLASS(wxPyCompositeShape, wxCompositeShape); IMPLEMENT_DYNAMIC_CLASS(wxPyDividedShape, wxDividedShape); IMPLEMENT_DYNAMIC_CLASS(wxPyDivisionShape, wxDivisionShape); IMPLEMENT_DYNAMIC_CLASS(wxPyEllipseShape, wxEllipseShape); IMPLEMENT_DYNAMIC_CLASS(wxPyCircleShape, wxCircleShape); IMPLEMENT_DYNAMIC_CLASS(wxPyLineShape, wxLineShape); IMPLEMENT_DYNAMIC_CLASS(wxPyPolygonShape, wxPolygonShape); IMPLEMENT_DYNAMIC_CLASS(wxPyTextShape, wxTextShape); //--------------------------------------------------------------------------- // extern "C" SWIGEXPORT(void) initoglbasicc(); // extern "C" SWIGEXPORT(void) initoglshapesc(); // extern "C" SWIGEXPORT(void) initoglshapes2c(); // extern "C" SWIGEXPORT(void) initoglcanvasc(); %} %init %{ // initoglbasicc(); // initoglshapesc(); // initoglshapes2c(); // initoglcanvasc(); wxPyPtrTypeMap_Add("wxControlPoint", "wxPyControlPoint"); wxPyPtrTypeMap_Add("wxShapeCanvas", "wxPyShapeCanvas"); wxPyPtrTypeMap_Add("wxShapeEvtHandler", "wxPyShapeEvtHandler"); wxPyPtrTypeMap_Add("wxShape", "wxPyShape"); wxPyPtrTypeMap_Add("wxRectangleShape", "wxPyRectangleShape"); wxPyPtrTypeMap_Add("wxDrawnShape", "wxPyDrawnShape"); wxPyPtrTypeMap_Add("wxCompositeShape", "wxPyCompositeShape"); wxPyPtrTypeMap_Add("wxDividedShape", "wxPyDividedShape"); wxPyPtrTypeMap_Add("wxDivisionShape", "wxPyDivisionShape"); wxPyPtrTypeMap_Add("wxEllipseShape", "wxPyEllipseShape"); wxPyPtrTypeMap_Add("wxCircleShape", "wxPyCircleShape"); wxPyPtrTypeMap_Add("wxLineShape", "wxPyLineShape"); wxPyPtrTypeMap_Add("wxPolygonShape", "wxPyPolygonShape"); wxPyPtrTypeMap_Add("wxTextShape", "wxPyTextShape"); %} //--------------------------------------------------------------------------- //---------------------------------------------------------------------------