///////////////////////////////////////////////////////////////////////////// // Name: _treectrl.i // Purpose: SWIG interface file for wxTreeCtrl and related classes // // Author: Robin Dunn // // Created: 10-June-1998 // RCS-ID: $Id$ // Copyright: (c) 2002 by Total Control Software // Licence: wxWindows license ///////////////////////////////////////////////////////////////////////////// // Not a %module //--------------------------------------------------------------------------- %{ #include #include "wx/wxPython/pytree.h" const wxChar* wx_TreeCtrlNameStr = _T("wxTreeCtrl"); DECLARE_DEF_STRING(_TreeCtrlNameStr); %} //--------------------------------------------------------------------------- %newgroup // wxTreeCtrl flags enum { wxTR_NO_BUTTONS, wxTR_HAS_BUTTONS, wxTR_NO_LINES, wxTR_LINES_AT_ROOT, wxTR_SINGLE, wxTR_MULTIPLE, wxTR_EXTENDED, wxTR_HAS_VARIABLE_ROW_HEIGHT, wxTR_EDIT_LABELS, wxTR_HIDE_ROOT, wxTR_ROW_LINES, wxTR_FULL_ROW_HIGHLIGHT, wxTR_DEFAULT_STYLE, wxTR_TWIST_BUTTONS, wxTR_MAC_BUTTONS, wxTR_AQUA_BUTTONS, }; enum wxTreeItemIcon { wxTreeItemIcon_Normal, // not selected, not expanded wxTreeItemIcon_Selected, // selected, not expanded wxTreeItemIcon_Expanded, // not selected, expanded wxTreeItemIcon_SelectedExpanded, // selected, expanded wxTreeItemIcon_Max }; // constants for HitTest enum { wxTREE_HITTEST_ABOVE, wxTREE_HITTEST_BELOW, wxTREE_HITTEST_NOWHERE, wxTREE_HITTEST_ONITEMBUTTON, wxTREE_HITTEST_ONITEMICON, wxTREE_HITTEST_ONITEMINDENT, wxTREE_HITTEST_ONITEMLABEL, wxTREE_HITTEST_ONITEMRIGHT, wxTREE_HITTEST_ONITEMSTATEICON, wxTREE_HITTEST_TOLEFT, wxTREE_HITTEST_TORIGHT, wxTREE_HITTEST_ONITEMUPPERPART, wxTREE_HITTEST_ONITEMLOWERPART, wxTREE_HITTEST_ONITEM }; //--------------------------------------------------------------------------- %newgroup typedef void *wxTreeItemIdValue; // wxTreeItemId identifies an element of the tree. In this implementation, it's // just a trivial wrapper around Win32 HTREEITEM or a pointer to some private // data structure in the generic version. It's opaque for the application and // the only method which can be used by user code is IsOk(). class wxTreeItemId { public: wxTreeItemId(); ~wxTreeItemId(); // is this a valid tree item? bool IsOk() const; %extend { bool operator==(const wxTreeItemId* other) { if (!other) return False; return *self == *other; } bool operator!=(const wxTreeItemId* other) { if (!other) return True; return *self != *other; } } wxTreeItemIdValue m_pItem; %pythoncode { Ok = IsOk def __nonzero__(self): return self.IsOk() } }; // wxTreeItemData is some (arbitrary) user data associated with some tree // item. The Python version is just a simple wrapper around a Python object // that knows how to handle references properly. Using this class directly in // Python code should rarely be neccessary. Just use the GetItemPyData and // SetItemPyData tree methods instead of the GetItemData and SetItemData // methods. %name(TreeItemData) class wxPyTreeItemData { public: wxPyTreeItemData(PyObject* obj = NULL); PyObject* GetData(); void SetData(PyObject* obj); const wxTreeItemId& GetId(); void SetId(const wxTreeItemId& id); %extend { void Destroy() { delete self; } } }; #if 0 // it's not currently used anywhere... // wxTreeItemAttr: a structure containing the visual attributes of an item class wxTreeItemAttr { public: // ctors //wxTreeItemAttr() { } wxTreeItemAttr(const wxColour& colText = wxNullColour, const wxColour& colBack = wxNullColour, const wxFont& font = wxNullFont); // setters void SetTextColour(const wxColour& colText); void SetBackgroundColour(const wxColour& colBack); void SetFont(const wxFont& font); // accessors bool HasTextColour(); bool HasBackgroundColour(); bool HasFont(); wxColour GetTextColour(); wxColour GetBackgroundColour(); wxFont GetFont(); %extend { void Destroy() { delete self; } } }; #endif //--------------------------------------------------------------------------- %newgroup /* Tree control event types */ %constant wxEventType wxEVT_COMMAND_TREE_BEGIN_DRAG; %constant wxEventType wxEVT_COMMAND_TREE_BEGIN_RDRAG; %constant wxEventType wxEVT_COMMAND_TREE_BEGIN_LABEL_EDIT; %constant wxEventType wxEVT_COMMAND_TREE_END_LABEL_EDIT; %constant wxEventType wxEVT_COMMAND_TREE_DELETE_ITEM; %constant wxEventType wxEVT_COMMAND_TREE_GET_INFO; %constant wxEventType wxEVT_COMMAND_TREE_SET_INFO; %constant wxEventType wxEVT_COMMAND_TREE_ITEM_EXPANDED; %constant wxEventType wxEVT_COMMAND_TREE_ITEM_EXPANDING; %constant wxEventType wxEVT_COMMAND_TREE_ITEM_COLLAPSED; %constant wxEventType wxEVT_COMMAND_TREE_ITEM_COLLAPSING; %constant wxEventType wxEVT_COMMAND_TREE_SEL_CHANGED; %constant wxEventType wxEVT_COMMAND_TREE_SEL_CHANGING; %constant wxEventType wxEVT_COMMAND_TREE_KEY_DOWN; %constant wxEventType wxEVT_COMMAND_TREE_ITEM_ACTIVATED; %constant wxEventType wxEVT_COMMAND_TREE_ITEM_RIGHT_CLICK; %constant wxEventType wxEVT_COMMAND_TREE_ITEM_MIDDLE_CLICK; %constant wxEventType wxEVT_COMMAND_TREE_END_DRAG; %constant wxEventType wxEVT_COMMAND_TREE_STATE_IMAGE_CLICK; %constant wxEventType wxEVT_COMMAND_TREE_ITEM_GETTOOLTIP; %pythoncode { EVT_TREE_BEGIN_DRAG = wx.PyEventBinder(wxEVT_COMMAND_TREE_BEGIN_DRAG , 1) EVT_TREE_BEGIN_RDRAG = wx.PyEventBinder(wxEVT_COMMAND_TREE_BEGIN_RDRAG , 1) EVT_TREE_BEGIN_LABEL_EDIT = wx.PyEventBinder(wxEVT_COMMAND_TREE_BEGIN_LABEL_EDIT , 1) EVT_TREE_END_LABEL_EDIT = wx.PyEventBinder(wxEVT_COMMAND_TREE_END_LABEL_EDIT , 1) EVT_TREE_DELETE_ITEM = wx.PyEventBinder(wxEVT_COMMAND_TREE_DELETE_ITEM , 1) EVT_TREE_GET_INFO = wx.PyEventBinder(wxEVT_COMMAND_TREE_GET_INFO , 1) EVT_TREE_SET_INFO = wx.PyEventBinder(wxEVT_COMMAND_TREE_SET_INFO , 1) EVT_TREE_ITEM_EXPANDED = wx.PyEventBinder(wxEVT_COMMAND_TREE_ITEM_EXPANDED , 1) EVT_TREE_ITEM_EXPANDING = wx.PyEventBinder(wxEVT_COMMAND_TREE_ITEM_EXPANDING , 1) EVT_TREE_ITEM_COLLAPSED = wx.PyEventBinder(wxEVT_COMMAND_TREE_ITEM_COLLAPSED , 1) EVT_TREE_ITEM_COLLAPSING = wx.PyEventBinder(wxEVT_COMMAND_TREE_ITEM_COLLAPSING , 1) EVT_TREE_SEL_CHANGED = wx.PyEventBinder(wxEVT_COMMAND_TREE_SEL_CHANGED , 1) EVT_TREE_SEL_CHANGING = wx.PyEventBinder(wxEVT_COMMAND_TREE_SEL_CHANGING , 1) EVT_TREE_KEY_DOWN = wx.PyEventBinder(wxEVT_COMMAND_TREE_KEY_DOWN , 1) EVT_TREE_ITEM_ACTIVATED = wx.PyEventBinder(wxEVT_COMMAND_TREE_ITEM_ACTIVATED , 1) EVT_TREE_ITEM_RIGHT_CLICK = wx.PyEventBinder(wxEVT_COMMAND_TREE_ITEM_RIGHT_CLICK , 1) EVT_TREE_ITEM_MIDDLE_CLICK = wx.PyEventBinder(wxEVT_COMMAND_TREE_ITEM_MIDDLE_CLICK, 1) EVT_TREE_END_DRAG = wx.PyEventBinder(wxEVT_COMMAND_TREE_END_DRAG , 1) EVT_TREE_STATE_IMAGE_CLICK = wx.PyEventBinder(wxEVT_COMMAND_TREE_STATE_IMAGE_CLICK, 1) EVT_TREE_ITEM_GETTOOLTIP = wx.PyEventBinder(wxEVT_COMMAND_TREE_ITEM_GETTOOLTIP, 1) } // wxTreeEvent is a special class for all events associated with tree controls // // NB: note that not all accessors make sense for all events, see the event // descriptions below class wxTreeEvent : public wxNotifyEvent { public: wxTreeEvent(wxEventType commandType = wxEVT_NULL, int id = 0); // get the item on which the operation was performed or the newly // selected item for wxEVT_COMMAND_TREE_SEL_CHANGED/ING events wxTreeItemId GetItem() const; void SetItem(const wxTreeItemId& item); // for wxEVT_COMMAND_TREE_SEL_CHANGED/ING events, get the previously // selected item wxTreeItemId GetOldItem() const; void SetOldItem(const wxTreeItemId& item); // the point where the mouse was when the drag operation started (for // wxEVT_COMMAND_TREE_BEGIN_(R)DRAG events only) or click position wxPoint GetPoint() const; void SetPoint(const wxPoint& pt); // keyboard data (for wxEVT_COMMAND_TREE_KEY_DOWN only) const wxKeyEvent& GetKeyEvent() const; int GetKeyCode() const; void SetKeyEvent(const wxKeyEvent& evt); // label (for EVT_TREE_{BEGIN|END}_LABEL_EDIT only) const wxString& GetLabel() const; void SetLabel(const wxString& label); // edit cancel flag (for EVT_TREE_{BEGIN|END}_LABEL_EDIT only) bool IsEditCancelled() const; void SetEditCanceled(bool editCancelled); // Set the tooltip for the item (for EVT_TREE_ITEM_GETTOOLTIP events) void SetToolTip(const wxString& toolTip); }; //--------------------------------------------------------------------------- %newgroup %{ // C++ version of Python aware wxTreeCtrl class wxPyTreeCtrl : public wxTreeCtrl { DECLARE_ABSTRACT_CLASS(wxPyTreeCtrl); public: wxPyTreeCtrl() : wxTreeCtrl() {} wxPyTreeCtrl(wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxValidator& validator, const wxString& name) : wxTreeCtrl(parent, id, pos, size, style, validator, name) {} bool Create(wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxValidator& validator, const wxString& name) { return wxTreeCtrl::Create(parent, id, pos, size, style, validator, name); } int OnCompareItems(const wxTreeItemId& item1, const wxTreeItemId& item2) { int rval = 0; bool found; wxPyBeginBlockThreads(); if ((found = wxPyCBH_findCallback(m_myInst, "OnCompareItems"))) { PyObject *o1 = wxPyConstructObject((void*)&item1, wxT("wxTreeItemId"), False); PyObject *o2 = wxPyConstructObject((void*)&item2, wxT("wxTreeItemId"), False); rval = wxPyCBH_callCallback(m_myInst, Py_BuildValue("(OO)",o1,o2)); Py_DECREF(o1); Py_DECREF(o2); } wxPyEndBlockThreads(); if (! found) rval = wxTreeCtrl::OnCompareItems(item1, item2); return rval; } PYPRIVATE; }; IMPLEMENT_ABSTRACT_CLASS(wxPyTreeCtrl, wxTreeCtrl); %} %name(TreeCtrl)class wxPyTreeCtrl : public wxControl { public: %addtofunc wxPyTreeCtrl "self._setOORInfo(self);self._setCallbackInfo(self, TreeCtrl)" %addtofunc wxPyTreeCtrl() "" wxPyTreeCtrl(wxWindow *parent, wxWindowID id = -1, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxTR_DEFAULT_STYLE, const wxValidator& validator = wxDefaultValidator, const wxString& name = wxPy_TreeCtrlNameStr); %name(PreTreeCtrl)wxPyTreeCtrl(); bool Create(wxWindow *parent, wxWindowID id = -1, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxTR_DEFAULT_STYLE, const wxValidator& validator = wxDefaultValidator, const wxString& name = wxPy_TreeCtrlNameStr); void _setCallbackInfo(PyObject* self, PyObject* _class); // get the total number of items in the control size_t GetCount() const; // indent is the number of pixels the children are indented relative to // the parents position. SetIndent() also redraws the control // immediately. unsigned int GetIndent() const; void SetIndent(unsigned int indent); // spacing is the number of pixels between the start and the Text // not implemented under wxMSW unsigned int GetSpacing() const; void SetSpacing(unsigned int spacing); // image list: these functions allow to associate an image list with // the control and retrieve it. Note that the control does _not_ delete // the associated image list when it's deleted in order to allow image // lists to be shared between different controls. // // The normal image list is for the icons which correspond to the // normal tree item state (whether it is selected or not). // Additionally, the application might choose to show a state icon // which corresponds to an app-defined item state (for example, // checked/unchecked) which are taken from the state image list. wxImageList *GetImageList() const; wxImageList *GetStateImageList() const; void SetImageList(wxImageList *imageList); void SetStateImageList(wxImageList *imageList); %addtofunc AssignImageList "args[1].thisown = 0"; %addtofunc AssignStateImageList "args[1].thisown = 0"; void AssignImageList(wxImageList *imageList); void AssignStateImageList(wxImageList *imageList); // retrieve items label wxString GetItemText(const wxTreeItemId& item) const; // get one of the images associated with the item (normal by default) int GetItemImage(const wxTreeItemId& item, wxTreeItemIcon which = wxTreeItemIcon_Normal) const; %extend { // get the wxPyTreeItemData associated with the tree item wxPyTreeItemData* GetItemData(const wxTreeItemId& item) { wxPyTreeItemData* data = (wxPyTreeItemData*)self->GetItemData(item); if (data == NULL) { data = new wxPyTreeItemData(); data->SetId(item); // set the id self->SetItemData(item, data); } return data; } // Get the Python object associated with the tree item PyObject* GetItemPyData(const wxTreeItemId& item) { wxPyTreeItemData* data = (wxPyTreeItemData*)self->GetItemData(item); if (data == NULL) { data = new wxPyTreeItemData(); data->SetId(item); // set the id self->SetItemData(item, data); } return data->GetData(); } } %pythoncode { GetPyData = GetItemPyData } // get the item's text colour wxColour GetItemTextColour(const wxTreeItemId& item) const; // get the item's background colour wxColour GetItemBackgroundColour(const wxTreeItemId& item) const; // get the item's font wxFont GetItemFont(const wxTreeItemId& item) const; // set items label void SetItemText(const wxTreeItemId& item, const wxString& text); // get one of the images associated with the item (normal by default) void SetItemImage(const wxTreeItemId& item, int image, wxTreeItemIcon which = wxTreeItemIcon_Normal); %extend { // associate a wxPyTreeItemData with the tree item void SetItemData(const wxTreeItemId& item, wxPyTreeItemData* data) { data->SetId(item); // set the id self->SetItemData(item, data); } // associate a Python object with the tree item void SetItemPyData(const wxTreeItemId& item, PyObject* obj) { wxPyTreeItemData* data = (wxPyTreeItemData*)self->GetItemData(item); if (data == NULL) { data = new wxPyTreeItemData(obj); data->SetId(item); // set the id self->SetItemData(item, data); } else data->SetData(obj); } } %pythoncode { SetPyData = SetItemPyData } // force appearance of [+] button near the item. This is useful to // allow the user to expand the items which don't have any children now // - but instead add them only when needed, thus minimizing memory // usage and loading time. void SetItemHasChildren(const wxTreeItemId& item, bool has = True); // the item will be shown in bold void SetItemBold(const wxTreeItemId& item, bool bold = True); #ifdef __WXMSW__ // the item will be shown with a drop highlight void SetItemDropHighlight(const wxTreeItemId& item, bool highlight = True); #endif // set the items text colour void SetItemTextColour(const wxTreeItemId& item, const wxColour& col); // set the items background colour void SetItemBackgroundColour(const wxTreeItemId& item, const wxColour& col); // set the items font (should be of the same height for all items) void SetItemFont(const wxTreeItemId& item, const wxFont& font); // is the item visible (it might be outside the view or not expanded)? bool IsVisible(const wxTreeItemId& item) const; // does the item has any children? bool ItemHasChildren(const wxTreeItemId& item) const; // is the item expanded (only makes sense if HasChildren())? bool IsExpanded(const wxTreeItemId& item) const; // is this item currently selected (the same as has focus)? bool IsSelected(const wxTreeItemId& item) const; // is item text in bold font? bool IsBold(const wxTreeItemId& item) const; // if 'recursively' is False, only immediate children count, otherwise // the returned number is the number of all items in this branch size_t GetChildrenCount(const wxTreeItemId& item, bool recursively = True) /*const*/; // get the root tree item // wxTreeItemId.IsOk() will return False if there is no such item wxTreeItemId GetRootItem() const; // get the item currently selected // wxTreeItemId.IsOk() will return False if there is no such item wxTreeItemId GetSelection() const; %extend { // get the items currently selected, return the number of such item // // NB: this operation is expensive and can take a long time for a // control with a lot of items (~ O(number of items)). PyObject* GetSelections() { wxPyBeginBlockThreads(); PyObject* rval = PyList_New(0); wxArrayTreeItemIds array; size_t num, x; num = self->GetSelections(array); for (x=0; x < num; x++) { wxTreeItemId *tii = new wxTreeItemId(array.Item(x)); PyObject* item = wxPyConstructObject((void*)tii, wxT("wxTreeItemId"), True); PyList_Append(rval, item); } wxPyEndBlockThreads(); return rval; } } // get the parent of this item // wxTreeItemId.IsOk() will return False if there is no such item wxTreeItemId GetItemParent(const wxTreeItemId& item) const; %extend { // Get the first child of this item. Returns a wxTreeItemId and an // opaque "cookie" value that should be passed to GetNextChild in // order to continue the search. PyObject* GetFirstChild(const wxTreeItemId& item) { wxTreeItemIdValue cookie = 0; wxTreeItemId ritem = self->GetFirstChild(item, cookie); wxPyBeginBlockThreads(); PyObject* tup = PyTuple_New(2); PyTuple_SET_ITEM(tup, 0, wxPyConstructObject(&ritem, wxT("wxTreeItemId"), True)); PyTuple_SET_ITEM(tup, 1, wxPyConstructObject(cookie, wxT("wxTreeItemIdValue"), True)); wxPyEndBlockThreads(); return tup; } // Get the next child of this item. The cookie parameter is the 2nd // value returned from GetFirstChild or the previous GetNextChild. // Returns a wxTreeItemId and an opaque "cookie" value that should be // passed to GetNextChild in order to continue the search. PyObject* GetNextChild(const wxTreeItemId& item, wxTreeItemIdValue& cookie) { wxTreeItemId ritem = self->GetNextChild(item, cookie); wxPyBeginBlockThreads(); PyObject* tup = PyTuple_New(2); PyTuple_SET_ITEM(tup, 0, wxPyConstructObject(&ritem, wxT("wxTreeItemId"), True)); PyTuple_SET_ITEM(tup, 1, wxPyConstructObject(cookie, wxT("wxTreeItemIdValue"), True)); wxPyEndBlockThreads(); return tup; } } // get the last child of this item wxTreeItemId GetLastChild(const wxTreeItemId& item) const; // get the next sibling of this item wxTreeItemId GetNextSibling(const wxTreeItemId& item) const; // get the previous sibling wxTreeItemId GetPrevSibling(const wxTreeItemId& item) const; // get first visible item wxTreeItemId GetFirstVisibleItem() const; // get the next visible item: item must be visible itself! // see IsVisible() and wxTreeCtrl::GetFirstVisibleItem() wxTreeItemId GetNextVisible(const wxTreeItemId& item) const; // get the previous visible item: item must be visible itself! wxTreeItemId GetPrevVisible(const wxTreeItemId& item) const; // add the root node to the tree wxTreeItemId AddRoot(const wxString& text, int image = -1, int selectedImage = -1, wxPyTreeItemData *data = NULL); // insert a new item in as the first child of the parent wxTreeItemId PrependItem(const wxTreeItemId& parent, const wxString& text, int image = -1, int selectedImage = -1, wxPyTreeItemData *data = NULL); // insert a new item after a given one wxTreeItemId InsertItem(const wxTreeItemId& parent, const wxTreeItemId& idPrevious, const wxString& text, int image = -1, int selectedImage = -1, wxPyTreeItemData *data = NULL); // insert a new item before the one with the given index %name(InsertItemBefore) wxTreeItemId InsertItem(const wxTreeItemId& parent, size_t index, const wxString& text, int image = -1, int selectedImage = -1, wxPyTreeItemData *data = NULL); // insert a new item in as the last child of the parent wxTreeItemId AppendItem(const wxTreeItemId& parent, const wxString& text, int image = -1, int selectedImage = -1, wxPyTreeItemData *data = NULL); // delete this item and associated data if any void Delete(const wxTreeItemId& item); // delete all children (but don't delete the item itself) // NB: this won't send wxEVT_COMMAND_TREE_ITEM_DELETED events void DeleteChildren(const wxTreeItemId& item); // delete all items from the tree // NB: this won't send wxEVT_COMMAND_TREE_ITEM_DELETED events void DeleteAllItems(); // expand this item void Expand(const wxTreeItemId& item); // collapse the item without removing its children void Collapse(const wxTreeItemId& item); // collapse the item and remove all children void CollapseAndReset(const wxTreeItemId& item); // toggles the current state void Toggle(const wxTreeItemId& item); // remove the selection from currently selected item (if any) void Unselect(); // unselect all items (only makes sense for multiple selection control) void UnselectAll(); // select this item void SelectItem(const wxTreeItemId& item); // make sure this item is visible (expanding the parent item and/or // scrolling to this item if necessary) void EnsureVisible(const wxTreeItemId& item); // scroll to this item (but don't expand its parent) void ScrollTo(const wxTreeItemId& item); // start editing the item label: this (temporarily) replaces the item // with a one line edit control. The item will be selected if it hadn't // been before. /**wxTextCtrl* */ void EditLabel(const wxTreeItemId& item); // returns the same pointer as StartEdit() if the item is being edited, // NULL otherwise (it's assumed that no more than one item may be // edited simultaneously) wxTextCtrl* GetEditControl() const; #ifdef __WXMSW__ // end editing and accept or discard the changes to item label void EndEditLabel(const wxTreeItemId& item, bool discardChanges = False); #endif // Sort the children of this item using OnCompareItems, a member function // that is called to compare 2 items and should return -1, 0 or +1 if the // first item is less than, equal to or greater than the second one. The // base class version performs alphabetic comparaison of item labels // (GetText) void SortChildren(const wxTreeItemId& item); DocDeclAStr( wxTreeItemId, HitTest(const wxPoint& point, int& OUTPUT), "HitTest(Point point) -> (item, where)", "Determine which item (if any) belongs the given point. The\n" "coordinates specified are relative to the client area of tree ctrl\n" "and the where return value is set to a bitmask of wxTREE_HITTEST_xxx\n" "constants.\n"); %extend { // get the bounding rectangle of the item (or of its label only) PyObject* GetBoundingRect(const wxTreeItemId& item, bool textOnly = False) { wxRect rect; if (self->GetBoundingRect(item, rect, textOnly)) { wxPyBeginBlockThreads(); wxRect* r = new wxRect(rect); PyObject* val = wxPyConstructObject((void*)r, wxT("wxRect"), True); wxPyEndBlockThreads(); return val; } else RETURN_NONE(); } } }; //--------------------------------------------------------------------------- %init %{ // Map renamed classes back to their common name for OOR wxPyPtrTypeMap_Add("wxTreeItemData", "wxPyTreeItemData"); wxPyPtrTypeMap_Add("wxTreeCtrl", "wxPyTreeCtrl"); %} //---------------------------------------------------------------------------