///////////////////////////////////////////////////////////////////////////// // Name: wx/gtk1/treectrl.h // Purpose: wxTreeCtrl class // Author: Denis Pershin // Modified by: // Created: 08/08/98 // Copyright: (c) Denis Pershin // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// #ifndef _WX_TREECTRL_H_ #define _WX_TREECTRL_H_ #include "wx/textctrl.h" #include "wx/imaglist.h" #include // the type for "untyped" data typedef long wxDataType; // fwd decl class WXDLLIMPEXP_CORE wxImageList; struct wxTreeViewItem; // a callback function used for sorting tree items, it should return -1 if the // first item precedes the second, +1 if the second precedes the first or 0 if // they're equivalent class WXDLLIMPEXP_FWD_CORE wxTreeItemData; typedef int (*wxTreeItemCmpFunc)(wxTreeItemData *item1, wxTreeItemData *item2); // ---------------------------------------------------------------------------- // constants // ---------------------------------------------------------------------------- // values for the `flags' parameter of wxTreeCtrl::HitTest() which determine // where exactly the specified point is situated: // above the client area. static const int wxTREE_HITTEST_ABOVE = 0x0001; // below the client area. static const int wxTREE_HITTEST_BELOW = 0x0002; // in the client area but below the last item. static const int wxTREE_HITTEST_NOWHERE = 0x0004; // on the button associated with an item. static const int wxTREE_HITTEST_ONITEMBUTTON = 0x0010; // on the bitmap associated with an item. static const int wxTREE_HITTEST_ONITEMICON = 0x0020; // in the indentation associated with an item. static const int wxTREE_HITTEST_ONITEMINDENT = 0x0040; // on the label (string) associated with an item. static const int wxTREE_HITTEST_ONITEMLABEL = 0x0080; // in the area to the right of an item. static const int wxTREE_HITTEST_ONITEMRIGHT = 0x0100; // on the state icon for a tree view item that is in a user-defined state. static const int wxTREE_HITTEST_ONITEMSTATEICON = 0x0200; // to the right of the client area. static const int wxTREE_HITTEST_TOLEFT = 0x0400; // to the left of the client area. static const int wxTREE_HITTEST_TORIGHT = 0x0800; // anywhere on the item static const int wxTREE_HITTEST_ONITEM = wxTREE_HITTEST_ONITEMICON | wxTREE_HITTEST_ONITEMLABEL | wxTREE_HITTEST_ONITEMSTATEICON; // ---------------------------------------------------------------------------- // wxTreeItemId identifies an element of the tree. In this implementation, it's // just a trivial wrapper around GTK GtkTreeItem *. It's opaque for the // application. // ---------------------------------------------------------------------------- class WXDLLIMPEXP_CORE wxTreeItemId { public: // ctors wxTreeItemId() { m_itemId = NULL; } // default copy ctor/assignment operator are ok for us // accessors // is this a valid tree item? bool IsOk() const { return m_itemId != NULL; } // conversion to/from either real (system-dependent) tree item id or // to "long" which used to be the type for tree item ids in previous // versions of wxWidgets // for wxTreeCtrl usage only wxTreeItemId(GtkTreeItem *itemId) { m_itemId = itemId; } operator GtkTreeItem *() const { return m_itemId; } void operator =(GtkTreeItem *item) { m_itemId = item; } protected: GtkTreeItem *m_itemId; }; // ---------------------------------------------------------------------------- // wxTreeItemData is some (arbitrary) user class associated with some item. The // main advantage of having this class (compared to old untyped interface) is // that wxTreeItemData's are destroyed automatically by the tree and, as this // class has virtual dtor, it means that the memory will be automatically // freed. OTOH, we don't just use wxObject instead of wxTreeItemData because // the size of this class is critical: in any real application, each tree leaf // will have wxTreeItemData associated with it and number of leaves may be // quite big. // // Because the objects of this class are deleted by the tree, they should // always be allocated on the heap! // ---------------------------------------------------------------------------- class WXDLLIMPEXP_CORE wxTreeItemData : private wxTreeItemId { public: // default ctor/copy ctor/assignment operator are ok // dtor is virtual and all the items are deleted by the tree control when // it's deleted, so you normally don't have to care about freeing memory // allocated in your wxTreeItemData-derived class virtual ~wxTreeItemData() { } // accessors: set/get the item associated with this node void SetId(const wxTreeItemId& id) { m_itemId = id; } const wxTreeItemId& GetId() const { return (wxTreeItemId&) m_itemId; } }; class WXDLLIMPEXP_CORE wxTreeCtrl: public wxControl { public: // creation // -------- wxTreeCtrl() { Init(); } wxTreeCtrl(wxWindow *parent, wxWindowID id = wxID_ANY, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxTR_HAS_BUTTONS | wxTR_LINES_AT_ROOT, const wxValidator& validator = wxDefaultValidator, const wxString& name = "wxTreeCtrl") { Create(parent, id, pos, size, style, validator, name); } virtual ~wxTreeCtrl(); bool Create(wxWindow *parent, wxWindowID id = wxID_ANY, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxTR_HAS_BUTTONS | wxTR_LINES_AT_ROOT, const wxValidator& validator = wxDefaultValidator, const wxString& name = "wxTreeCtrl"); // accessors // --------- // get the total number of items in the control virtual unsigned int 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); // 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); // Functions to work with tree ctrl items. Unfortunately, they can _not_ be // member functions of wxTreeItem because they must know the tree the item // belongs to for Windows implementation and storing the pointer to // wxTreeCtrl in each wxTreeItem is just too much waste. // accessors // --------- // retrieve items label wxString GetItemText(const wxTreeItemId& item) const; // get the normal item image int GetItemImage(const wxTreeItemId& item) const; // get the data associated with the item wxTreeItemData *GetItemData(const wxTreeItemId& item) const; // modifiers // --------- // set items label void SetItemText(const wxTreeItemId& item, const wxString& text); // set the normal item image void SetItemImage(const wxTreeItemId& item, int image); // associate some data with the item void SetItemData(const wxTreeItemId& item, wxTreeItemData *data); // item status inquiries // --------------------- // 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; // number of children // ------------------ // 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); // navigation // ---------- // wxTreeItemId.IsOk() will return false if there is no such item // get the root tree item wxTreeItemId GetRootItem() const; // get the item currently selected (may return NULL if no selection) wxTreeItemId GetSelection() const; // get the parent of this item (may return NULL if root) wxTreeItemId GetItemParent(const wxTreeItemId& item) const; // for this enumeration function you must pass in a "cookie" parameter // which is opaque for the application but is necessary for the library // to make these functions reentrant (i.e. allow more than one // enumeration on one and the same object simultaneously). Of course, // the "cookie" passed to GetFirstChild() and GetNextChild() should be // the same! // get the last child of this item - this method doesn't use cookies 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; // operations // ---------- // add the root node to the tree wxTreeItemId AddRoot(const wxString& text, int image = -1, int selectedImage = -1, wxTreeItemData *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, wxTreeItemData *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, wxTreeItemData *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, wxTreeItemData *data = NULL); // delete this item and associated data if any void Delete(const wxTreeItemId& item); // delete all items from the tree 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(); // 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. textCtrlClass parameter allows you to create an edit // control of arbitrary user-defined class deriving from wxTextCtrl. wxTextCtrl* EditLabel(const wxTreeItemId& item, wxClassInfo* textCtrlClass = wxCLASSINFO(wxTextCtrl)); // 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; // end editing and accept or discard the changes to item label void EndEditLabel(const wxTreeItemId& item, bool discardChanges = false); // sort the children of this item using the specified callback function // (it should return -1, 0 or +1 as usual), if it's not specified // alphabetical comparaison is performed. // // NB: this function is not reentrant! void SortChildren(const wxTreeItemId& item, wxTreeItemCmpFunc *cmpFunction = NULL); // use Set/GetImageList and Set/GetStateImageList wxImageList *GetImageList(int) const { return GetImageList(); } void SendExpanding(const wxTreeItemId& item); void SendExpanded(const wxTreeItemId& item); void SendCollapsing(const wxTreeItemId& item); void SendCollapsed(const wxTreeItemId& item); void SendSelChanging(const wxTreeItemId& item); void SendSelChanged(const wxTreeItemId& item); protected: wxTreeItemId m_editItem; GtkTree *m_tree; GtkTreeItem *m_anchor; wxTextCtrl* m_textCtrl; wxImageList* m_imageListNormal; wxImageList* m_imageListState; long m_curitemId; void SendMessage(wxEventType command, const wxTreeItemId& item); // GtkTreeItem *findGtkTreeItem(wxTreeCtrlId &id) const; // the common part of all ctors void Init(); // insert a new item in as the last child of the parent wxTreeItemId p_InsertItem(GtkTreeItem *p, const wxString& text, int image, int selectedImage, wxTreeItemData *data); wxDECLARE_DYNAMIC_CLASS(wxTreeCtrl); }; #endif // _WX_TREECTRL_H_