shithub: cstory

ref: e447c9fb929e61a40203b0193ee8d4cab8d72f7e
dir: /DoConfig/fltk/src/Fl_Tree.cxx/

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//
// "$Id$"
//

#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include <FL/Fl_Tree.H>
#include <FL/Fl_Preferences.H>

//////////////////////
// Fl_Tree.cxx
//////////////////////
//
// Fl_Tree -- This file is part of the Fl_Tree widget for FLTK
// Copyright (C) 2009-2010 by Greg Ercolano.
//
// This library is free software. Distribution and use rights are outlined in
// the file "COPYING" which should have been included with this file.  If this
// file is missing or damaged, see the license at:
//
//     http://www.fltk.org/COPYING.php
//
// Please report all bugs and problems on the following page:
//
//     http://www.fltk.org/str.php
//

// INTERNAL: scroller callback (hor+vert scroll)
static void scroll_cb(Fl_Widget*,void *data) {
  ((Fl_Tree*)data)->redraw();
}

// INTERNAL: Parse elements from 'path' into an array of null terminated strings
//    Handles escape characters, ignores multiple /'s.
//    Path="/aa/bb", returns arr[0]="aa", arr[1]="bb", arr[2]=0.
//    Caller must call free_path(arr).
//
static char **parse_path(const char *path) {
  size_t len = strlen(path);
  char *cp = new char[(len+1)], *word = cp, *s = cp; // freed below or in free_path()
  char **ap = new char*[(len+1)], **arr = ap;	     // overallocates arr[]
  while (1) {
    if (*path =='/' || *path == 0) {		// handle path sep or eos
      if (word != s) { *s++ = 0; *arr++= word; word = s; }
      if ( !*path++) break; else continue;	// eos? done, else cont
    } else if ( *path == '\\' ) {		// handle escape
      if ( *(++path) ) { *s++ = *path++; } else continue;
    } else { *s++ = *path++; }			// handle normal char
  }
  *arr = 0;
  if ( arr == ap ) delete[] cp;	// empty arr[]? delete since free_path() can't
  return ap;
}

// INTERNAL: Free an array 'arr' returned by parse_path()
static void free_path(char **arr) {
  if ( arr ) {
    if ( arr[0] ) { delete[] arr[0]; }	// deletes cp in parse_path
    delete[] arr;  			// deletes ptr array
  }
}

#if 0		/* unused code -- STR #3169 */
// INTERNAL: Recursively descend 'item's tree hierarchy
//           accumulating total child 'count'
//
static int find_total_children(Fl_Tree_Item *item, int count=0) {
  count++;
  for ( int t=0; t<item->children(); t++ ) {
    count = find_total_children(item->child(t), count);
  }
  return(count);
}
#endif

/// Constructor.
Fl_Tree::Fl_Tree(int X, int Y, int W, int H, const char *L) : Fl_Group(X,Y,W,H,L) { 
#if FLTK_ABI_VERSION >= 10303
  _root = new Fl_Tree_Item(this);
#else
  _root = new Fl_Tree_Item(_prefs);
#endif
  _root->parent(0);				// we are root of tree
  _root->label("ROOT");
  _item_focus      = 0;
  _callback_item   = 0;
  _callback_reason = FL_TREE_REASON_NONE;
  _scrollbar_size  = 0;				// 0: uses Fl::scrollbar_size()
	
#if FLTK_ABI_VERSION >= 10301
  // NEW
  _lastselect       = 0;
#else /*FLTK_ABI_VERSION*/
  // OLD: data initialized static inside handle()
#endif /*FLTK_ABI_VERSION*/

  box(FL_DOWN_BOX);
  color(FL_BACKGROUND2_COLOR, FL_SELECTION_COLOR);
  when(FL_WHEN_CHANGED);
  int scrollsize = _scrollbar_size ? _scrollbar_size : Fl::scrollbar_size();
  _vscroll = new Fl_Scrollbar(X+W-scrollsize,Y,scrollsize,H);
  _vscroll->hide();
  _vscroll->type(FL_VERTICAL);
  _vscroll->step(1);
  _vscroll->callback(scroll_cb, (void*)this);
#if FLTK_ABI_VERSION >= 10303
  _hscroll = new Fl_Scrollbar(X,Y+H-scrollsize,W,scrollsize);
  _hscroll->hide();
  _hscroll->type(FL_HORIZONTAL);
  _hscroll->step(1);
  _hscroll->callback(scroll_cb, (void*)this);
  _tox = _tix = X + Fl::box_dx(box());
  _toy = _tiy = Y + Fl::box_dy(box());
  _tow = _tiw = W - Fl::box_dw(box());
  _toh = _tih = H - Fl::box_dh(box());
  _tree_w = -1;
  _tree_h = -1;
#endif
  end();
}

/// Destructor.
Fl_Tree::~Fl_Tree() {
  if ( _root ) { delete _root; _root = 0; }
}

/// Extend the selection between and including \p 'from' and \p 'to'
/// depending on direction \p 'dir', \p 'val', and \p 'visible'.
///
/// Efficient: does not walk entire tree; starts with \p 'from' and stops
/// at \p 'to' while moving in direction \p 'dir'. Dir must be specified though.
#if FLTK_ABI_VERSION >= 10303
///
/// If dir cannot be known in advance, such as during SHIFT-click operations,
/// the method extend_selection(Fl_Tree_Item*,Fl_Tree_Item*,int,bool)
/// should be used.
#endif
///
/// Handles calling redraw() if anything changed.
///
/// \param[in] from Starting item
/// \param[in] to   Ending item
/// \param[in] dir  Direction to extend selection (FL_Up or FL_Down)
/// \param[in] val  0=deselect, 1=select, 2=toggle
/// \param[in] visible true=affect only open(), visible items,<br>
///                    false=affect open or closed items (default)
/// \returns The number of items whose selection states were changed, if any.
/// \version 1.3.3
///
int Fl_Tree::extend_selection_dir(Fl_Tree_Item *from, Fl_Tree_Item *to,
			          int dir, int val, bool visible ) {
  int changed = 0;
  for (Fl_Tree_Item *item=from; item; item = next_item(item, dir, visible) ) {
    switch (val) {
      case 0:
	if ( deselect(item, when()) ) ++changed;
        break;
      case 1:
        if ( select(item, when()) ) ++changed;
	break;
      case 2:
        select_toggle(item, when());
	++changed;	// toggle always involves a change
	break;
    }
    if ( item==to ) break;
  }
  return(changed);
}

/// Extend a selection between \p 'from' and \p 'to' depending on \p 'visible'.
///
/// Similar to the more efficient
/// extend_selection_dir(Fl_Tree_Item*,Fl_Tree_Item*,int dir,int val,bool vis)
/// method, but direction (up or down) doesn't need to be known.<br>
/// We're less efficient because we search the tree for to/from, then operate
/// on items in between. The more efficient method avoids the "search",
/// but necessitates a direction to be specified to find \p 'to'.<br>
/// Used by SHIFT-click to extend a selection between two items inclusive.<br>
/// Handles calling redraw() if anything changed.
/// 
/// \param[in] from    Starting item
/// \param[in] to      Ending item
/// \param[in] val     Select or deselect items (0=deselect, 1=select, 2=toggle)
/// \param[in] visible true=affect only open(), visible items,<br>
///                    false=affect open or closed items (default)
/// \returns The number of items whose selection states were changed, if any.
#if FLTK_ABI_VERSION >= 10303
/// \version 1.3.3 ABI feature
int Fl_Tree::extend_selection(Fl_Tree_Item *from, Fl_Tree_Item *to,
			      int val, bool visible) {
#else
/// \note Made public in 1.3.3 ABI
// Adding overload if not at least one overload breaks ABI, so avoid
// by making a private function until ABI can change..
int Fl_Tree::extend_selection__(Fl_Tree_Item *from, Fl_Tree_Item *to,
			        int val, bool visible) {
#endif
  int changed = 0;
  if ( from == to ) {
    if ( visible && !from->is_visible() ) return(0);	// do nothing
    switch (val) {
      case 0:
        if ( deselect(from, when()) ) ++changed;
	break;
      case 1:
        if ( select(from, when()) ) ++changed;
	break;
      case 2:
        select_toggle(from, when());
	++changed;		// always changed
	break;
    }
    return(changed);
  }
  char on = 0;
  for ( Fl_Tree_Item *item = first(); item; item = item->next_visible(_prefs) ) {
    if ( visible && !item->is_visible() ) continue;
    if ( on || (item == from) || (item == to) ) {
      switch (val) {
	case 0:
	  if ( deselect(item, when()) ) ++changed;
	  break;
	case 1:
	  if ( select(item, when()) ) ++changed;
	  break;
	case 2:
	  select_toggle(item, when());
	  ++changed;	// toggle always involves a change
	  break;
      }
      if ( (item == from) || (item == to) ) {
        on ^= 1;
	if ( !on ) break;	// done
      }
    }
  }
  return(changed);
}

#if FLTK_ABI_VERSION >= 10303
// not needed, above overload handles this
#else
/// Extend a selection between \p 'from' and \p 'to'.
/// Extends selection for items and all children, visible ('open') or not.
/// Walks entire tree from top to bottom looking for \p 'from' and \p 'to'.
/// \version 1.3.0
///
void Fl_Tree::extend_selection(Fl_Tree_Item *from, Fl_Tree_Item *to) {
  const int val = 1;		// 0=clr, 1=set, 2=toggle
  const bool visible = false;	// true=only 'open' items, false='open' or 'closed'
  extend_selection__(from, to, val, visible);	// use private method until we can release it
}
#endif

/// Standard FLTK event handler for this widget.
/// \todo add Fl_Widget_Tracker (see Fl_Browser_.cxx::handle())
int Fl_Tree::handle(int e) {
  if (e == FL_NO_EVENT) return(0);		// XXX: optimize to prevent slow resizes on large trees!
  int ret = 0;
  char is_shift   = Fl::event_state() & FL_SHIFT   ? 1 : 0;
  char is_ctrl    = Fl::event_state() & FL_CTRL    ? 1 : 0;
  char is_command = Fl::event_state() & FL_COMMAND ? 1 : 0;	// ctrl on win/lin, 'Command' on mac
#if FLTK_ABI_VERSION >= 10301
  // NEW: data inside Fl_Tree
#else /*FLTK_ABI_VERSION*/
  // OLD:
  static Fl_Tree_Item *_lastselect = 0;		// used to extend selections
#endif /*FLTK_ABI_VERSION*/
  // Developer note: Fl_Browser_::handle() used for reference here..
  // #include <FL/names.h>	// for event debugging
  // fprintf(stderr, "DEBUG: %s (%d)\n", fl_eventnames[e], e);

  if (e == FL_ENTER || e == FL_LEAVE) return(1);
  switch (e) {
    case FL_FOCUS: {
      // FLTK tests if we want focus. 
      //     If a nav key was used to give us focus, and we've got no saved
      //     focus widget, determine which item gets focus depending on nav key.
      //
      if ( ! _item_focus ) {				// no focus established yet?
	switch (Fl::event_key()) {			// determine if focus was navigated..
	  case FL_Tab: {				// received focus via TAB?
	    int updown = is_shift ? FL_Up : FL_Down;	// SHIFT-TAB similar to Up, TAB similar to Down
	    set_item_focus(next_visible_item(0, updown));
	    break;
	  }
	  case FL_Left:		// received focus via LEFT or UP?
	  case FL_Up: { 	// XK_ISO_Left_Tab
	    set_item_focus(next_visible_item(0, FL_Up));
	    break;
	  }
	  case FL_Right: 	// received focus via RIGHT or DOWN?
	  case FL_Down:
	  default: {
	    set_item_focus(next_visible_item(0, FL_Down));
	    break;
	  }
	}
      }
      if ( visible_focus() ) redraw();	// draw focus change
      return(1);
    }
    case FL_UNFOCUS: {		// FLTK telling us some other widget took focus.
      if ( visible_focus() ) redraw();	// draw focus change
      return(1);
    }
    case FL_KEYBOARD: {		// keyboard shortcut
      // Do shortcuts first or scrollbar will get them...
      if ( (Fl::focus() == this) &&				// tree has focus?
           _prefs.selectmode() > FL_TREE_SELECT_NONE ) {	// select mode that supports kb events?
	if ( !_item_focus ) {					// no current focus item?
	  set_item_focus(first_visible_item());			// use first vis item
	  if ( Fl::event_key() == FL_Up ||			// Up or down?
	       Fl::event_key() == FL_Down )			// ..if so, already did 'motion'
	    return(1);						// ..so just return.
	}
	if ( _item_focus ) {
	  int ekey = Fl::event_key();
	  switch (ekey) {
	    case FL_Enter:	// ENTER: toggle open/close
	    case FL_KP_Enter: {
	      open_toggle(_item_focus, when());			// toggle item in focus
	      return(1);					// done, we handled key
	    }
	    case ' ':		// SPACE: change selection state
	      switch ( _prefs.selectmode() ) {
		case FL_TREE_SELECT_NONE:
		  break;					// ignore, let group have shot at event
		case FL_TREE_SELECT_SINGLE:
		case FL_TREE_SELECT_SINGLE_DRAGGABLE:
		  if ( is_ctrl ) {				// CTRL-SPACE: (single mode) toggle
		    if ( ! _item_focus->is_selected() ) {
		      select_only(_item_focus, when());
		    } else {
		      deselect_all(0, when());
		    }
		  } else {
		    select_only(_item_focus, when());		// SPACE: (single mode) select only
		  }
		  _lastselect = _item_focus;
	          return(1);					// done, we handled key
		case FL_TREE_SELECT_MULTI:
		  if ( is_ctrl ) {
		    select_toggle(_item_focus, when());		// CTRL-SPACE: (multi mode) toggle selection
		  } else {
		    select(_item_focus, when());		// SPACE: (multi-mode) select
		  }
		  _lastselect = _item_focus;
	          return(1);					// done, we handled key
	      }
	      break;
	    case FL_Right:  	// RIGHT: open children (if any)
	    case FL_Left: {	// LEFT: close children (if any)
	      if ( _item_focus ) {
		if ( ekey == FL_Right && _item_focus->is_close() ) {
		  open(_item_focus);	// open closed item
		  ret = 1;
		} else if ( ekey == FL_Left && _item_focus->is_open() ) {
		  close(_item_focus);	// close open item
		  ret = 1;
		}
		return(1);
	      }
	      break;
	    }
	    case FL_Up:		// UP: next item up, or extend selection up
	    case FL_Down: {	// DOWN: next item down, or extend selection down
	      set_item_focus(next_visible_item(_item_focus, ekey));	// next item up|dn
	      if ( _item_focus ) {					// item in focus?
	        // Autoscroll
		int itemtop = _item_focus->y();
		int itembot = _item_focus->y()+_item_focus->h();
		if ( itemtop < y() ) { show_item_top(_item_focus); }
		if ( itembot > y()+h() ) { show_item_bottom(_item_focus); }
		// Extend selection
		if ( _prefs.selectmode() == FL_TREE_SELECT_MULTI &&	// multiselect on?
		     is_shift &&					// shift key?
		     ! _item_focus->is_selected() ) {			// not already selected?
		  select(_item_focus, when());				// extend selection..
		  _lastselect = _item_focus;
		}
		return(1);
	      }
	      break;
	    }
	    case 'a':
	    case 'A': {
	      if ( is_command ) {					// ^A (win/linux), Meta-A (mac)
		switch ( _prefs.selectmode() ) {
		  case FL_TREE_SELECT_NONE:
		  case FL_TREE_SELECT_SINGLE:
		  case FL_TREE_SELECT_SINGLE_DRAGGABLE:
		    break;
		  case FL_TREE_SELECT_MULTI:
		    // Do a 'select all'
	            select_all();
		    _lastselect = first_visible_item();
		    take_focus();
		    return(1);
		}
	      }
	      break;
	    }
	  }
	}
      }
      break;
    }
  }

  // Let Fl_Group take a shot at handling the event
  if (Fl_Group::handle(e)) {
    return(1);			// handled? don't continue below
  }

  // Handle events the child FLTK widgets didn't need

  // fprintf(stderr, "Fl_Tree::handle(): Event was %s (%d)\n", fl_eventnames[e], e); // DEBUGGING
  if ( ! _root ) return(ret);
  static int last_my = 0;
  switch ( e ) {
    case FL_PUSH: {		// clicked on tree
      last_my = Fl::event_y();	// save for dragging direction..
      if (Fl::visible_focus() && handle(FL_FOCUS)) Fl::focus(this);
#if FLTK_ABI_VERSION >= 10303
      Fl_Tree_Item *item = _root->find_clicked(_prefs, 0);
#else
      Fl_Tree_Item *item = _root->find_clicked(_prefs);
#endif
      if ( !item ) {		// clicked, but not on an item?
        _lastselect = 0;
	switch ( _prefs.selectmode() ) {
	  case FL_TREE_SELECT_NONE:
	    break;
	  case FL_TREE_SELECT_SINGLE:
	  case FL_TREE_SELECT_SINGLE_DRAGGABLE:
	  case FL_TREE_SELECT_MULTI:
	    deselect_all();
	    break;
	}
	break;
      }
      set_item_focus(item);			// becomes new focus widget, calls redraw() if needed
      ret |= 1;					// handled
      if ( Fl::event_button() == FL_LEFT_MOUSE ) {
	if ( item->event_on_collapse_icon(_prefs) ) {	// collapse icon clicked?
	  open_toggle(item);				// toggle open (handles redraw)
	} else if ( item->event_on_label(_prefs) && 	// label clicked?
		 (!item->widget() || !Fl::event_inside(item->widget())) ) {	// not inside widget
	  switch ( _prefs.selectmode() ) {
	    case FL_TREE_SELECT_NONE:
	      break;
	    case FL_TREE_SELECT_SINGLE:
	    case FL_TREE_SELECT_SINGLE_DRAGGABLE:
	      select_only(item, when());		// select only this item (handles redraw)
	      _lastselect = item;
	      break;
	    case FL_TREE_SELECT_MULTI: {
	      if ( is_shift ) {			// SHIFT+PUSH?
	        if ( _lastselect ) {
		  int val = is_ctrl ? 2 : 1;
		  bool visible = true;
#if FLTK_ABI_VERSION >= 10303
	          extend_selection(_lastselect, item, val, visible);
#else
	          extend_selection__(_lastselect, item, val, visible);
#endif
	        } else {
	          select(item);			// add to selection
		}
	      } else if ( is_ctrl ) {		// CTRL+PUSH?
		select_toggle(item, when());	// toggle selection state
	      } else {
		select_only(item, when());
	      }
	      _lastselect = item;
	      break;
	    }
	  }
	}
      }
      break;
    }
    case FL_DRAG: {
      // Do scrolling first..

      // Detect up/down dragging
      int my = Fl::event_y();
      int dir = (my>last_my) ? FL_Down : FL_Up;
      last_my = my;

      // Handle autoscrolling
      if ( my < y() ) {				// Above top?
        dir = FL_Up;				// ..going up
        int p = vposition()-(y()-my);		// ..position above us
	if ( p < 0 ) p = 0;			// ..don't go above 0
        vposition(p);				// ..scroll to new position
      } else if ( my > (y()+h()) ) {		// Below bottom?
        dir = FL_Down;				// ..going down
        int p = vposition()+(my-y()-h());	// ..position below us
	if ( p > (int)_vscroll->maximum() )	// ..don't go below bottom
	  p = (int)_vscroll->maximum();
        vposition(p);				// ..scroll to new position
      }

      // Now handle the event..
      //    During drag, only interested in left-mouse operations.
      //
      if ( Fl::event_button() != FL_LEFT_MOUSE ) break;
#if FLTK_ABI_VERSION >= 10303
      Fl_Tree_Item *item = _root->find_clicked(_prefs, 1); // item we're on, vertically
#else
      Fl_Tree_Item *item = _root->find_clicked(_prefs); // item we're on, vertically
#endif
      if ( !item ) break;			// not near item? ignore drag event
      ret |= 1;					// acknowledge event
      if (_prefs.selectmode() != FL_TREE_SELECT_SINGLE_DRAGGABLE)
        set_item_focus(item);			// becomes new focus item
      if (item==_lastselect) break;		// same item as before? avoid reselect

      // Handle selection behavior
      switch ( _prefs.selectmode() ) {
	case FL_TREE_SELECT_NONE:
	  break;				// no selection changes
	case FL_TREE_SELECT_SINGLE: {
	  select_only(item, when());		// select only this item (handles redraw)
	  break;
	}
	case FL_TREE_SELECT_SINGLE_DRAGGABLE: {
	  item = _lastselect; // Keep the source intact
	  redraw();
	  break;
	}
	case FL_TREE_SELECT_MULTI: {
	  Fl_Tree_Item *from = next_visible_item(_lastselect, dir); // avoid reselecting item
	  Fl_Tree_Item *to = item;
	  int val = is_ctrl ? 2 : 1;	// toggle_select() or just select()?
	  bool visible = true;
	  extend_selection_dir(from, to, dir, val, visible);
	  break;
	}
      }
      _lastselect = item;			// save current item for later
      break;
    }
    case FL_RELEASE:
      if (_prefs.selectmode() == FL_TREE_SELECT_SINGLE_DRAGGABLE &&
          Fl::event_button() == FL_LEFT_MOUSE) {
#if FLTK_ABI_VERSION >= 10303
        Fl_Tree_Item *item = _root->find_clicked(_prefs, 1); // item we're on, vertically
#else
        Fl_Tree_Item *item = _root->find_clicked(_prefs); // item we're on, vertically
#endif

        if (item && _lastselect && item != _lastselect &&
            Fl::event_x() >= item->label_x()) {
          //printf("Would drag '%s' to '%s'\n", _lastselect->label(), item->label());
          // Are we dropping above or below the target item?
          const int h = Fl::event_y() - item->y();
          const int mid = item->h() / 2;
          const bool before = h < mid;
          //printf("Dropping %s it\n", before ? "before" : "after");

          // Do nothing if it would be a no-op
          if ((before && prev(item) != _lastselect) ||
              (!before && next(item) != _lastselect)) {
            Fl_Tree_Item *parent = item->parent();

            if (parent) {
              int pos = parent->find_child(item);
              if (!before)
                pos++;

              // Special case: trying to drop right before a folder
              if (item->children() && item->is_open() && !before) {
                parent = item;
                pos = 0;
              }

              // If we're moving inside the same parent, use the below/above methods
              if (_lastselect->parent() == parent) {
                if (before) {
                  _lastselect->move_above(item);
                } else {
                  _lastselect->move_below(item);
                }
              } else {
                _lastselect->move_into(parent, pos);
              }

              redraw();
              do_callback_for_item(_lastselect, FL_TREE_REASON_DRAGGED);
            }
          }
        }
        redraw();
      } // End single-drag check
      ret |= 1;
      break;
  }
  return(ret);
}

#if FLTK_ABI_VERSION >= 10303
// nothing
#else
// Redraw timeout callback
// (Only need this hack for old ABI 10302 and older)
//
static void redraw_soon(void *data) {
  ((Fl_Tree*)data)->redraw();
  Fl::remove_timeout(redraw_soon, data);
}
#endif

#if FLTK_ABI_VERSION >= 10303
/// Recalculate widget dimensions and scrollbar visibility,
/// normally managed automatically.
///
/// Low overhead way to update the tree widget's outer/inner dimensions
/// and re-determine scrollbar visibility based on these changes without
/// recalculating the entire size of the tree data.
///
/// Assumes that either the tree's size in _tree_w/_tree_h are correct
/// so that scrollbar visibility can be calculated easily, or are both
/// zero indicating scrollbar visibility can't be calculated yet.
///
/// This method is called when the widget is resize()ed or if the
/// scrollbar's sizes are changed (affects tree widget's inner dimensions
/// tix/y/w/h), and also used by calc_tree().
/// \version 1.3.3 ABI feature
///
void Fl_Tree::calc_dimensions() {
  // Calc tree outer xywh
  //    Area of the tree widget /outside/ scrollbars
  //
  _tox = x() + Fl::box_dx(box());
  _toy = y() + Fl::box_dy(box());
  _tow = w() - Fl::box_dw(box());
  _toh = h() - Fl::box_dh(box());

  // Scrollbar visiblity + positions
  //    Calc this ONLY if tree_h and tree_w have been calculated.
  //    Zero values for these indicate calc in progress, but not done yet.
  //
  if ( _tree_h >= 0 && _tree_w >= 0 ) {
    int scrollsize = _scrollbar_size ? _scrollbar_size : Fl::scrollbar_size();
    int vshow = _tree_h > _toh ? 1 : 0;
    int hshow = _tree_w > _tow ? 1 : 0;
    // See if one scroller's appearance affects the other's visibility
    if ( hshow && !vshow && (_tree_h > (_toh-scrollsize)) ) vshow = 1;
    if ( vshow && !hshow && (_tree_w > (_tow-scrollsize)) ) hshow = 1;
    // vertical scrollbar visibility
    if ( vshow ) {
      _vscroll->show();
      _vscroll->resize(_tox+_tow-scrollsize, _toy,
		       scrollsize, h()-Fl::box_dh(box()) - (hshow ? scrollsize : 0));
    } else {
      _vscroll->hide();
      _vscroll->value(0);
    }
    // horizontal scrollbar visibility
    if ( hshow ) {
      _hscroll->show();
      _hscroll->resize(_tox, _toy+_toh-scrollsize,
		       _tow - (vshow ? scrollsize : 0), scrollsize);
    } else {
      _hscroll->hide();
      _hscroll->value(0);
    }

    // Calculate inner dimensions
    //    The area the tree occupies inside the scrollbars and margins
    //
    _tix = _tox;
    _tiy = _toy;
    _tiw = _tow - (_vscroll->visible() ? _vscroll->w() : 0);
    _tih = _toh - (_hscroll->visible() ? _hscroll->h() : 0);

    // Scrollbar tab sizes
    _vscroll->slider_size(float(_tih) / float(_tree_h));
    _vscroll->range(0.0, _tree_h - _tih);

    _hscroll->slider_size(float(_tiw) / float(_tree_w));
    _hscroll->range(0.0, _tree_w - _tiw);
  } else {
    // Best we can do without knowing tree_h/tree_w
    _tix = _tox;
    _tiy = _toy;
    _tiw = _tow;
    _tih = _toh;
  }
}

/// Recalculates the tree's sizes and scrollbar visibility,
/// normally managed automatically.
///
/// On return:
///
///	- _tree_w will be the overall pixel width of the entire viewable tree
///	- _tree_h will be the overall pixel height ""
///     - scrollbar visibility and pan sizes are updated
///     - internal _tix/_tiy/_tiw/_tih dimensions are updated
///
/// _tree_w/_tree_h include the tree's margins (e.g. marginleft()),
/// whether items are open or closed, label contents and font sizes, etc.
///     
/// The tree hierarchy's size is managed separately from the widget's
/// size as an optimization; this way resize() on the widget doesn't
/// involve recalculating the tree's hierarchy needlessly, as widget
/// size has no bearing on the tree hierarchy.
///
/// The tree hierarchy's size only changes when items are added/removed,
/// open/closed, label contents or font sizes changed, margins changed, etc.
///
/// This calculation involves walking the *entire* tree from top to bottom,
/// potentially a slow calculation if the tree has many items (potentially
/// hundreds of thousands), and should therefore be called sparingly.
///
/// For this reason, recalc_tree() is used as a way to /schedule/
/// calculation when changes affect the tree hierarchy's size.
///
/// Apps may want to call this method directly if the app makes changes
/// to the tree's geometry, then immediately needs to work with the tree's
/// new dimensions before an actual redraw (and recalc) occurs. (This
/// use by an app should only rarely be needed)
///
void Fl_Tree::calc_tree() {
  // Set tree width and height to zero, and recalc just _tox/_toy/_tow/_toh for now.
  _tree_w = _tree_h = -1;
  calc_dimensions();
  if ( !_root ) return;
  // Walk the tree to determine its width and height.
  // We need this to compute scrollbars..
  // By the end, 'Y' will be the lowest point on the tree
  //
  int X = _tix + _prefs.marginleft() + _hscroll->value();
  int Y = _tiy + _prefs.margintop()  - _vscroll->value();
  int W = _tiw;
  // Adjust root's X/W if connectors off
  if (_prefs.connectorstyle() == FL_TREE_CONNECTOR_NONE) {
    X -= _prefs.openicon()->w();
    W += _prefs.openicon()->w();
  }
  int xmax = 0, render = 0, ytop = Y;
  fl_font(_prefs.labelfont(), _prefs.labelsize());
  _root->draw(X, Y, W, 0, xmax, 1, render);		// descend into tree without drawing (render=0)
  // Save computed tree width and height
  _tree_w = _prefs.marginleft() + xmax - X;		// include margin in tree's width
  _tree_h = _prefs.margintop()  + Y - ytop;		// include margin in tree's height
  // Calc tree dims again; now that tree_w/tree_h are known, scrollbars are calculated.
  calc_dimensions();
}
#endif

void Fl_Tree::resize(int X,int Y,int W, int H) {
  fix_scrollbar_order();
  Fl_Group::resize(X,Y,W,H);
#if FLTK_ABI_VERSION >= 10303
  calc_dimensions();
#endif
  init_sizes();
}

#if FLTK_ABI_VERSION >= 10303
/// Standard FLTK draw() method, handles drawing the tree widget.
void Fl_Tree::draw() {
  fix_scrollbar_order();
  // Has tree recalc been scheduled? If so, do it
  if ( _tree_w == -1 ) calc_tree();
  else calc_dimensions();
  // Let group draw box+label but *NOT* children.
  // We handle drawing children ourselves by calling each item's draw()
  {
    // Draw group's bg + label
    if ( damage() & ~FL_DAMAGE_CHILD) {	// redraw entire widget?
      Fl_Group::draw_box();
      Fl_Group::draw_label();
    }
    if ( ! _root ) return;
    // These values are changed during drawing
    // By end, 'Y' will be the lowest point on the tree
    int X = _tix + _prefs.marginleft() - _hscroll->value();
    int Y = _tiy + _prefs.margintop()  - _vscroll->value();
    int W = _tiw - X + _tix;
    // Adjust root's X/W if connectors off
    if (_prefs.connectorstyle() == FL_TREE_CONNECTOR_NONE) {
      X -= _prefs.openicon()->w();
      W += _prefs.openicon()->w();
    }
    // Draw entire tree, starting with root
    fl_push_clip(_tix,_tiy,_tiw,_tih);
    {
      int xmax = 0;
      fl_font(_prefs.labelfont(), _prefs.labelsize());
      _root->draw(X, Y, W, 				// descend into tree here to draw it
		  (Fl::focus()==this)?_item_focus:0,	// show focus item ONLY if Fl_Tree has focus
		  xmax, 1, 1);
    }
    fl_pop_clip();
  }  
  // Draw scrollbars last
  draw_child(*_vscroll);
  draw_child(*_hscroll);
  // That little tile between the scrollbars
  if ( _vscroll->visible() && _hscroll->visible() ) {
    fl_color(_vscroll->color());
    fl_rectf(_hscroll->x()+_hscroll->w(),
             _vscroll->y()+_vscroll->h(),
	     _vscroll->w(),
	     _hscroll->h());
  }

  // Draw dragging line
  if (_prefs.selectmode() == FL_TREE_SELECT_SINGLE_DRAGGABLE &&
      Fl::pushed() == this) {

    Fl_Tree_Item *item = _root->find_clicked(_prefs, 1); // item we're on, vertically
    if (item && item != _item_focus) {
      // Are we dropping above or before the target item?
      const int h = Fl::event_y() - item->y();
      const int mid = item->h() / 2;
      const bool before = h < mid;

      fl_color(FL_BLACK);

      int tgt = item->y() + (before ? 0 : item->h());
      fl_line(item->x(), tgt, item->x() + item->w(), tgt);
    }
  }
}
#else
/// Standard FLTK draw() method, handles drawing the tree widget.
void Fl_Tree::draw() {
  int ytoofar = draw_tree();

  // See if we're scrolled below bottom of tree
  //   This can happen if someone just closed a large item.
  //   If so, change scroller as needed.
  //
  if ( _vscroll->visible() && ytoofar > 0 ) {
    int scrollval = _vscroll->value();
    int ch = h() - Fl::box_dh(box());
    int range2 = scrollval - ytoofar;
    int size2 = ch + range2;
    if ( range2 < 0 ) {
      _vscroll->value(0);
      _vscroll->hide();
    } else {
      _vscroll->slider_size(float(ch)/float(size2));
      _vscroll->range(0.0,range2);
      _vscroll->value(range2);
    }
    Fl::add_timeout(.10, redraw_soon, (void*)this);	// use timer to trigger redraw; we can't
  }

  // Draw dragging line
  if (_prefs.selectmode() == FL_TREE_SELECT_SINGLE_DRAGGABLE &&
      Fl::pushed() == this) {

    Fl_Tree_Item *item = _root->find_clicked(_prefs); // item we're on, vertically
    if (item && item != _item_focus) {
      // Are we dropping above or before the target item?
      const int h = Fl::event_y() - item->y();
      const int mid = item->h() / 2;
      const bool before = h < mid;

      fl_color(FL_BLACK);

      int tgt = item->y() + (before ? 0 : item->h());
      fl_line(item->x(), tgt, item->x() + item->w(), tgt);
    }
  }
}

// This method is undocumented, and has been removed in ABI 1.3.3
int Fl_Tree::draw_tree() {
  int ret = 0;
  fix_scrollbar_order();
  // Let group draw box+label but *NOT* children.
  // We handle drawing children ourselves by calling each item's draw()
  //
  int cx = x() + Fl::box_dx(box());
  int cy = y() + Fl::box_dy(box());
  int cw = w() - Fl::box_dw(box());
  int ch = h() - Fl::box_dh(box());
  {
    // Handle group's bg
    if ( damage() & ~FL_DAMAGE_CHILD) {			// redraw entire widget?
      Fl_Group::draw_box();
      Fl_Group::draw_label();
    }
    if ( ! _root ) return(0);
    // These values are changed during drawing
    // By end, 'Y' will be the lowest point on the tree
    int X = cx + _prefs.marginleft();
    int Y = cy + _prefs.margintop() - (_vscroll->visible() ? _vscroll->value() : 0);
    int W = cw - _prefs.marginleft();			// - _prefs.marginright();
    // Adjust root's X/W if connectors off
    if (_prefs.connectorstyle() == FL_TREE_CONNECTOR_NONE) {
      X -= _prefs.openicon()->w();
      W += _prefs.openicon()->w();
    }
    int Ysave = Y;
    fl_push_clip(cx,cy,cw,ch);
    {
      fl_font(_prefs.labelfont(), _prefs.labelsize());
      _root->draw(X, Y, W, this,
		  (Fl::focus()==this)?_item_focus:0,	// show focus item ONLY if Fl_Tree has focus
		  _prefs);
    }
    fl_pop_clip();
    
    // Show vertical scrollbar?
    {
#if FLTK_ABI_VERSION >= 10301
      // NEW
      int SY = Y + _prefs.marginbottom();
#else /*FLTK_ABI_VERSION*/
      // OLD
      int SY = Y;
#endif /*FLTK_ABI_VERSION*/
      int ydiff = (SY+_prefs.margintop())-Ysave;		// ydiff=size of tree
      int ytoofar = (cy+ch) - SY;				// ytoofar -- if >0, scrolled beyond bottom
      if ( ytoofar > 0 ) ydiff += ytoofar;
      if ( Ysave<cy || ydiff>ch || int(_vscroll->value())>1 ) {
	_vscroll->visible();
	int scrollsize = _scrollbar_size ? _scrollbar_size : Fl::scrollbar_size();
	int sx = x()+w()-Fl::box_dx(box())-scrollsize;
	int sy = y()+Fl::box_dy(box());
	int sw = scrollsize;
	int sh = h()-Fl::box_dh(box());
	_vscroll->show();
	_vscroll->resize(sx,sy,sw,sh);
	_vscroll->slider_size(float(ch)/float(ydiff));
	_vscroll->range(0.0,ydiff-ch);
	ret = ytoofar;
      } else {
	_vscroll->Fl_Slider::value(0);
	_vscroll->hide();
	ret = 0;
      }
    }
  }
  draw_child(*_vscroll);	// draw scroll last
  return(ret);
}
#endif

/// Print the tree as 'ascii art' to stdout.
/// Used mainly for debugging.
/// \todo should be const
/// \version 1.3.0
///
void Fl_Tree::show_self() {
  if ( ! _root ) return;
  _root->show_self();
}

/// Set the label for the root item to \p 'new_label'. 
///
/// Makes an internally managed copy of 'new_label'.
///
void Fl_Tree::root_label(const char *new_label) {
  if ( ! _root ) return;
  _root->label(new_label);
}

/// Returns the root item.
Fl_Tree_Item* Fl_Tree::root() {
  return(_root);
}

/// Sets the root item to \p 'newitem'.
///
/// If a root item already exists, clear() is called first to clear it
/// before replacing it with newitem.
///
#if FLTK_ABI_VERSION >= 10303
/// Use this to install a custom item (derived from Fl_Tree_Item) as the root
/// of the tree. This allows the derived class to implement custom drawing
/// by overriding Fl_Tree_Item::draw_item_content().
///
#endif
/// \version 1.3.3
///
void Fl_Tree::root(Fl_Tree_Item *newitem) {
  if ( _root ) clear();
  _root = newitem;
}

/// Adds a new item, given a menu style \p 'path'.
/// Any parent nodes that don't already exist are created automatically.
/// Adds the item based on the value of sortorder().
/// If \p 'item' is NULL, a new item is created.
///
/// To specify items or submenus that contain slashes ('/' or '\')
/// use an escape character to protect them, e.g.
/// \code
///     tree->add("/Holidays/Photos/12\\/25\\/2010");         // Adds item "12/25/2010"
///     tree->add("/Pathnames/c:\\\\Program Files\\\\MyApp"); // Adds item "c:\Program Files\MyApp"
/// \endcode
/// \param[in] path The path to the item, e.g. "Flintstone/Fred".
/// \param[in] item The new item to be added.
///                 If NULL, a new item is created with
///                 a name that is the last element in \p 'path'.
/// \returns The new item added, or 0 on error.
/// \version 1.3.3
///
Fl_Tree_Item* Fl_Tree::add(const char *path, Fl_Tree_Item *item) {
  // Tree has no root? make one
  if ( ! _root ) {
#if FLTK_ABI_VERSION >= 10303
    _root = new Fl_Tree_Item(this);
#else
    _root = new Fl_Tree_Item(_prefs);
#endif
    _root->parent(0);
    _root->label("ROOT");
  } 
  // Find parent item via path
  char **arr = parse_path(path);
  item = _root->add(_prefs, arr, item);
  free_path(arr);
  return(item);
}

#if FLTK_ABI_VERSION >= 10303
// do nothing here: add(path,item) where item defaults to 0 takes its place
#else
/// Adds a new item given a menu style \p 'path'.
/// Same as calling add(path, NULL);
/// \param[in] path The path to the item to be created, e.g. "Flintstone/Fred".
/// \returns The new item added, or 0 on error.
/// \see add(const char*,Fl_Tree_Item*)
/// \version 1.3.0 release
///
Fl_Tree_Item* Fl_Tree::add(const char *path) {
  return add(path, 0);
}
#endif

/// Add a new child item labeled \p 'name' to the specified \p 'parent_item'.
///
/// \param[in] parent_item The parent item the new child item will be added to.
///                        Must not be NULL.
/// \param[in] name The label for the new item
/// \returns The new item added.
/// \version 1.3.0 release
///
Fl_Tree_Item* Fl_Tree::add(Fl_Tree_Item *parent_item, const char *name) {
  return(parent_item->add(_prefs, name));
}

/// Inserts a new item \p 'name' above the specified Fl_Tree_Item \p 'above'.
/// Example:
/// \code
/// tree->add("Aaa/000");       // "000" is index 0 in Aaa's children
/// tree->add("Aaa/111");       // "111" is index 1 in Aaa's children
/// tree->add("Aaa/222");       // "222" is index 2 in Aaa's children
/// ..
/// // How to use insert_above() to insert a new item above Aaa/222
/// Fl_Tree_Item *item = tree->find_item("Aaa/222");  // get item Aaa/222
/// if (item) tree->insert_above(item, "New item");   // insert new item above it
/// \endcode
///
/// \param[in] above -- the item above which to insert the new item. Must not be NULL.
/// \param[in] name -- the name of the new item
/// \returns The new item added, or 0 if 'above' could not be found.
/// \see insert()
/// 
Fl_Tree_Item* Fl_Tree::insert_above(Fl_Tree_Item *above, const char *name) {
  return(above->insert_above(_prefs, name));
}

/// Insert a new item \p 'name' into \p 'item's children at position \p 'pos'.
///
/// If \p pos is out of range the new item is
///  - prepended if \p pos \< 0 or
///  - appended  if \p pos \> item->children().
///
/// Note: \p pos == children() is not considered out of range: the item is
/// appended to the child list.
/// Example:
/// \code
/// tree->add("Aaa/000");       // "000" is index 0 in Aaa's children
/// tree->add("Aaa/111");       // "111" is index 1 in Aaa's children
/// tree->add("Aaa/222");       // "222" is index 2 in Aaa's children
/// ..
/// // How to use insert() to insert a new item between Aaa/111 + Aaa/222
/// Fl_Tree_Item *item = tree->find_item("Aaa");  // get parent item Aaa
/// if (item) tree->insert(item, "New item", 2);  // insert as a child of Aaa at index #2
/// \endcode
///
/// \param[in] item The existing item to insert new child into. Must not be NULL.
/// \param[in] name The label for the new item
/// \param[in] pos The position of the new item in the child list
/// \returns The new item added.
/// \see insert_above()
///
Fl_Tree_Item* Fl_Tree::insert(Fl_Tree_Item *item, const char *name, int pos) {
  return(item->insert(_prefs, name, pos));
}

/// Remove the specified \p 'item' from the tree.
/// \p item may not be NULL.
/// If it has children, all those are removed too.
/// If item being removed has focus, no item will have focus.
/// \returns 0 if done, -1 if 'item' not found.
///
int Fl_Tree::remove(Fl_Tree_Item *item) {
  // Item being removed is focus item? zero focus
  if ( item == _item_focus ) _item_focus = 0;
#if FLTK_ABI_VERSION >= 10301
  if ( item == _lastselect ) _lastselect = 0;
#endif /*FLTK_ABI_VERSION*/
  if ( item == _root ) {
    clear();
  } else {
    Fl_Tree_Item *parent = item->parent();	// find item's parent
    if ( ! parent ) return(-1);
    parent->remove_child(item);			// remove child + children
  }
  return(0);
} 

/// Clear the entire tree's children, including the root.
/// The tree will be left completely empty.
///
void Fl_Tree::clear() {
  if ( ! _root ) return;
  _root->clear_children();
  delete _root; _root = 0;
  _item_focus = 0;
#if FLTK_ABI_VERSION >= 10301
  _lastselect = 0;
#endif /*FLTK_ABI_VERSION*/
} 

/// Clear all the children for \p 'item'.
/// Item may not be NULL.
///
void Fl_Tree::clear_children(Fl_Tree_Item *item) {
  if ( item->has_children() ) {
    item->clear_children();
    redraw();				// redraw only if there were children to clear
  }
} 

/// Find the item, given a menu style path, e.g. "/Parent/Child/item".
/// There is both a const and non-const version of this method.
/// Const version allows pure const methods to use this method 
/// to do lookups without causing compiler errors.
///
/// To specify items or submenus that contain slashes ('/' or '\')
/// use an escape character to protect them, e.g.
///
/// \code
///     tree->add("/Holidays/Photos/12\\/25\\/2010");         // Adds item "12/25/2010"
///     tree->add("/Pathnames/c:\\\\Program Files\\\\MyApp"); // Adds item "c:\Program Files\MyApp"
/// \endcode
///
/// \param[in] path -- the tree item's pathname to be found (e.g. "Flintstones/Fred")
/// \returns The item, or NULL if not found.
/// \see item_pathname()
///
const Fl_Tree_Item *Fl_Tree::find_item(const char *path) const {
  if ( ! _root ) return(NULL);
  char **arr = parse_path(path);
  const Fl_Tree_Item *item = _root->find_item(arr);
  free_path(arr);
  return(item);
}

/// Non-const version of Fl_Tree::find_item(const char *path) const
Fl_Tree_Item *Fl_Tree::find_item(const char *path) {
  // "Effective C++, 3rd Ed", p.23. Sola fide, Amen.
  return(const_cast<Fl_Tree_Item*>(
	 static_cast<const Fl_Tree&>(*this).find_item(path)));
}

// Handle safe 'reverse string concatenation'.
//   In the following we build the pathname from right-to-left,
//   since we start at the child and work our way up to the root.
//
#define SAFE_RCAT(c) { \
  slen += 1; if ( slen >= pathnamelen ) { pathname[0] = '\0'; return(-2); } \
  *s-- = c; \
  }

/// Return \p 'pathname' of size \p 'pathnamelen' for the specified \p 'item'.
///
/// If \p 'item' is NULL, root() is used.<br>
/// The tree's root will be included in the pathname if showroot() is on.<br>
/// Menu items or submenus that contain slashes ('/' or '\') in their names
/// will be escaped with a backslash. This is symmetrical with the add()
/// function which uses the same escape pattern to set names.
///
/// \param[out] pathname The string to use to return the pathname
/// \param[in] pathnamelen The maximum length of the string (including NULL). Must not be zero.
/// \param[in] item The item whose pathname is to be returned.
/// \returns
///	-   0 : OK (\p pathname returns the item's pathname)
///	-  -1 : item not found (pathname="")
///	-  -2 : pathname not large enough (pathname="")
/// \see find_item()
///
int Fl_Tree::item_pathname(char *pathname, int pathnamelen, const Fl_Tree_Item *item) const {
  pathname[0] = '\0';
  item = item ? item : _root;
  if ( !item ) return(-1);
  // Build pathname starting at end
  char *s = (pathname+pathnamelen-1);
  int slen = 0;			// length of string compiled so far (including NULL)
  SAFE_RCAT('\0');
  while ( item ) {
    if ( item->is_root() && showroot() == 0 ) break;		// don't include root in path if showroot() off
    // Find name of current item
    const char *name = item->label() ? item->label() : "???";	// name for this item
    int len = (int) strlen(name);
    // Add name to end of pathname[]
    for ( --len; len>=0; len-- ) {
      SAFE_RCAT(name[len]);					// rcat name of item
      if ( name[len] == '/' || name[len] == '\\' ) {
        SAFE_RCAT('\\');					// escape front or back slashes within name
      }
    }
    SAFE_RCAT('/');						// rcat leading slash
    item = item->parent();					// move up tree (NULL==root)
  }
  if ( *(++s) == '/' ) { ++s; --slen; }				// leave off leading slash from pathname
  if ( s != pathname ) memmove(pathname, s, slen);	// Shift down right-aligned string
  return(0);
}

#if FLTK_ABI_VERSION >= 10303
/// Find the item that was last clicked on.
/// You should use callback_item() instead, which is fast,
/// and is meant to be used within a callback to determine the item clicked.
///
/// This method walks the entire tree looking for the first item that is
/// under the mouse. (The value of the \p 'yonly' flag affects whether
/// both x and y events are checked, or just y)
///
/// Use this method /only/ if you've subclassed Fl_Tree, and are receiving
/// events before Fl_Tree has been able to process and update callback_item().
/// 
/// \param[in] yonly -- 0: check both event's X and Y values.
///                  -- 1: only check event's Y value, don't care about X.
/// \returns The item clicked, or NULL if no item was under the current event.
/// \version 1.3.0
/// \version 1.3.3 ABI feature: added yonly parameter
///
const Fl_Tree_Item* Fl_Tree::find_clicked(int yonly) const {
  if ( ! _root ) return(NULL);
  return(_root->find_clicked(_prefs, yonly));
}

/// Non-const version of Fl_Tree::find_clicked(int yonly) const.
Fl_Tree_Item *Fl_Tree::find_clicked(int yonly) {
  // "Effective C++, 3rd Ed", p.23. Sola fide, Amen.
  return(const_cast<Fl_Tree_Item*>(
	 static_cast<const Fl_Tree&>(*this).find_clicked(yonly)));
}
#else
/// Find the item that was last clicked on.
/// You should use callback_item() instead, which is fast,
/// and is meant to be used within a callback to determine the item clicked.
///
/// This method walks the entire tree looking for the first item that is
/// under the mouse, i.e. at Fl::event_x() / Fl::event_y().
///
/// Use this method /only/ if you've subclassed Fl_Tree, and are receiving
/// events before Fl_Tree has been able to process and update callback_item().
/// 
/// \returns The item clicked, or NULL if no item was under the current event.
/// \version 1.3.0
///
const Fl_Tree_Item* Fl_Tree::find_clicked() const {
  if ( ! _root ) return(NULL);
  return(_root->find_clicked(_prefs));
}

/// Non-const version of Fl_Tree::find_clicked() const.
/// \version 1.3.0
Fl_Tree_Item *Fl_Tree::find_clicked() {
  // "Effective C++, 3rd Ed", p.23. Sola fide, Amen.
  return(const_cast<Fl_Tree_Item*>(
	 static_cast<const Fl_Tree&>(*this).find_clicked()));
}
#endif

/// Set the item that was last clicked.
/// Should only be used by subclasses needing to change this value.
/// Normally Fl_Tree manages this value.
///
/// \deprecated in 1.3.3 ABI -- use callback_item() instead.
///
void Fl_Tree::item_clicked(Fl_Tree_Item* item) {
  _callback_item = item;
}

/// Return the item that was last clicked.
///
/// Valid only from within the callback().
///
/// \returns The item clicked, or 0 if none.
///          0 may also be used to indicate several items were clicked/changed.
/// \deprecated in 1.3.3 ABI -- use callback_item() instead.
///
Fl_Tree_Item* Fl_Tree::item_clicked() {
  return(_callback_item);
}

/// Returns next open(), visible item above (\p dir==FL_Up)
/// or below (\p dir==FL_Down) the specified \p 'item', or 0 if no more items.
///
/// If \p 'item' is 0, returns last() if \p 'dir' is FL_Up,
/// or first() if \p dir is FL_Down.
///
/// \code
/// // Walk down the tree (forwards)
/// for ( Fl_Tree_Item *i=tree->first_visible_item(); i; i=tree->next_visible_item(i, FL_Down) )
///     printf("Item: %s\n", i->label());
///
/// // Walk up the tree (backwards)
/// for ( Fl_Tree_Item *i=tree->last_visible_item(); i; i=tree->next_visible_item(i, FL_Up) )
///     printf("Item: %s\n", i->label());
/// \endcode
/// \param[in] item The item above/below which we'll find the next visible item
/// \param[in] dir  The direction to search. Can be FL_Up or FL_Down.
/// \returns The item found, or 0 if there's no visible items above/below the specified \p item.
/// \version 1.3.3
///
Fl_Tree_Item *Fl_Tree::next_visible_item(Fl_Tree_Item *item, int dir) {
  return next_item(item, dir, true);
}

/// Returns the first item in the tree, or 0 if none.
///
/// Use this to walk the tree in the forward direction, e.g.
/// \code
/// for ( Fl_Tree_Item *item = tree->first(); item; item = tree->next(item) )
///     printf("Item: %s\n", item->label());
/// \endcode
///
/// \returns First item in tree, or 0 if none (tree empty).
/// \see first(), next(), last(), prev()
///
Fl_Tree_Item* Fl_Tree::first() {
  return(_root);				// first item always root
}

/// Returns the first open(), visible item in the tree, or 0 if none.
/// \deprecated in 1.3.3 ABI -- use first_visible_item() instead.
///
Fl_Tree_Item* Fl_Tree::first_visible() {
  return(first_visible_item());
}

/// Returns the first open(), visible item in the tree, or 0 if none.
/// \returns First visible item in tree, or 0 if none.
/// \see first_visible_item(), last_visible_item(), next_visible_item()
/// \version 1.3.3
///
Fl_Tree_Item* Fl_Tree::first_visible_item() {
  Fl_Tree_Item *i = showroot() ? first() : next(first());
  while ( i ) {
    if ( i->visible() ) return(i);
    i = next(i);
  }
  return(0);
}

/// Return the next item after \p 'item', or 0 if no more items.
///
/// Use this code to walk the entire tree:
/// \code
/// for ( Fl_Tree_Item *i = tree->first(); i; i = tree->next(i) )
///     printf("Item: %s\n", i->label());
/// \endcode
///
/// \param[in] item The item to use to find the next item. If NULL, returns 0.
/// \returns Next item in tree, or 0 if at last item.
///
/// \see first(), next(), last(), prev()
///
Fl_Tree_Item *Fl_Tree::next(Fl_Tree_Item *item) {
  if ( ! item ) return(0);
  return(item->next());
}

/// Return the previous item before \p 'item', or 0 if no more items.
///
/// This can be used to walk the tree in reverse, e.g.
/// \code
/// for ( Fl_Tree_Item *item = tree->first(); item; item = tree->prev(item) )
///     printf("Item: %s\n", item->label());
/// \endcode
///
/// \param[in] item The item to use to find the previous item. If NULL, returns 0.
/// \returns Previous item in tree, or 0 if at first item.
///
/// \see first(), next(), last(), prev()
///
Fl_Tree_Item *Fl_Tree::prev(Fl_Tree_Item *item) {
  if ( ! item ) return(0);
  return(item->prev());
}

/// Returns the last item in the tree.
///
/// This can be used to walk the tree in reverse, e.g.
///
/// \code
/// for ( Fl_Tree_Item *item = tree->last(); item; item = tree->prev() )
///     printf("Item: %s\n", item->label());
/// \endcode
///
/// \returns Last item in the tree, or 0 if none (tree empty).
/// \see first(), next(), last(), prev()
///
Fl_Tree_Item* Fl_Tree::last() {
  if ( ! _root ) return(0);
  Fl_Tree_Item *item = _root;
  while ( item->has_children() ) {
    item = item->child(item->children()-1);
  }
  return(item);
}

/// Returns the last open(), visible item in the tree.
/// \deprecated in 1.3.3 -- use last_visible_item() instead.
///
Fl_Tree_Item* Fl_Tree::last_visible() {
  return(last_visible_item());
}

/// Returns the last open(), visible item in the tree.
/// \returns Last visible item in the tree, or 0 if none.
/// \see first_visible_item(), last_visible_item(), next_visible_item()
/// \version 1.3.3
///
Fl_Tree_Item* Fl_Tree::last_visible_item() {
  Fl_Tree_Item *item = last();
  while ( item ) {
    if ( item->visible() ) {
      if ( item == _root && !showroot() ) {
        return(0);
      } else {
        return(item);
      }
    }
    item = prev(item);
  }
  return(item);
}

/// Returns the first selected item in the tree.
///
/// Use this to walk the tree from top to bottom
/// looking for all the selected items, e.g.
///
/// \code
/// // Walk tree forward, from top to bottom
/// for ( Fl_Tree_Item *i=tree->first_selected_item(); i; i=tree->next_selected_item(i) )
///     printf("Selected item: %s\n", i->label());
/// \endcode
///
/// \returns The first selected item, or 0 if none.
/// \see first_selected_item(), last_selected_item(), next_selected_item()
///     
Fl_Tree_Item *Fl_Tree::first_selected_item() {
  return(next_selected_item(0));
}

#if FLTK_ABI_VERSION >= 10303
// nothing
#else
/// Returns the next selected item after \p 'item'.
/// If \p item is 0, search starts at the first item (root).
///
/// This is a convenience method; equivalent to next_selected_item(item, FL_Down);
///
/// Use this to walk the tree forward (downward) looking for all the selected items, e.g.
/// \code
/// for ( Fl_Tree_Item *i = tree->first_selected_item(); i; i = tree->next_selected_item(i) )
///     printf("Selected item: %s\n", i->label());
/// \endcode
///
/// \param[in] item The item to use to find the next selected item. If NULL, first() is used.
/// \returns The next selected item, or 0 if there are no more selected items.
/// \see first_selected_item(), last_selected_item(), next_selected_item()
///     
Fl_Tree_Item *Fl_Tree::next_selected_item(Fl_Tree_Item *item) {
  return(next_selected_item(item, FL_Down));
}
#endif

/// Returns the last selected item in the tree.
///
/// Use this to walk the tree in reverse from bottom to top
/// looking for all the selected items, e.g.
///
/// \code
/// // Walk tree in reverse, from bottom to top
/// for ( Fl_Tree_Item *i=tree->last_selected_item(); i; i=tree->next_selected_item(i, FL_Up) )
///     printf("Selected item: %s\n", i->label());
/// \endcode
///
/// \returns The last selected item, or 0 if none.
/// \see first_selected_item(), last_selected_item(), next_selected_item()
/// \version 1.3.3
///     
Fl_Tree_Item *Fl_Tree::last_selected_item() {
  return(next_selected_item(0, FL_Up));
}

/// Returns next item after \p 'item' in direction \p 'dir'
/// depending on \p 'visible'.
///
/// Next item will be above (if dir==FL_Up) or below (if dir==FL_Down).
/// If \p 'visible' is true, only items whose parents are open() will be returned.
/// If \p 'visible' is false, even items whose parents are close()ed will be returned.
///
/// If \p item is 0, the return value will be the result of this truth table:
/// <PRE>
///                        visible=true           visible=false
///                        -------------------    -------------
///          dir=FL_Up:    last_visible_item()    last()
///        dir=FL_Down:    first_visible_item()   first()
/// </PRE>
///
/// \par Example use:
/// \code
/// // Walk down the tree showing open(), visible items
/// for ( Fl_Tree_Item *i=tree->first_visible_item(); i; i=tree->next_item(i, FL_Down, true) )
///     printf("Item: %s\n", i->label());
///
/// // Walk up the tree showing open(), visible items
/// for ( Fl_Tree_Item *i=tree->last_visible_item(); i; i=tree->next_item(i, FL_Up, true) )
///     printf("Item: %s\n", i->label());
///
/// // Walk down the tree showing all items (open or closed)
/// for ( Fl_Tree_Item *i=tree->first(); i; i=tree->next_item(i, FL_Down, false) )
///     printf("Item: %s\n", i->label());
///
/// // Walk up the tree showing all items (open or closed)
/// for ( Fl_Tree_Item *i=tree->last(); i; i=tree->next_item(i, FL_Up, false) )
///     printf("Item: %s\n", i->label());
/// \endcode
///
/// \param[in] item    The item to use to find the next item. If NULL, returns 0.
/// \param[in] dir     Can be FL_Up or FL_Down (default=FL_Down or 'next')
/// \param[in] visible true=return only open(), visible items,<br>
///                    false=return open or closed items (default)
/// \returns Next item in tree in the direction and visibility specified,
///          or 0 if no more items of specified visibility in that direction.
/// \see first(), last(), next(),<BR>
///      first_visible_item(), last_visible_item(), next_visible_item(),<BR>
///      first_selected_item(), last_selected_item(), next_selected_item()
/// \version 1.3.3
///  
Fl_Tree_Item *Fl_Tree::next_item(Fl_Tree_Item *item, int dir, bool visible) {
  if ( ! item ) {					// no start item?
    if ( visible ) {
	item = ( dir == FL_Up ) ? last_visible_item() : // wrap to bottom
				  first_visible_item();	// wrap to top
    } else {
	item = ( dir == FL_Up ) ? last() :		// wrap to bottom
				  first();		// wrap to top
    }
    if ( ! item ) return(0);
    if ( item->visible_r() ) return(item);		// return first/last visible item
  }
  switch (dir) {
    case FL_Up:
      if ( visible ) return(item->prev_visible(_prefs));
      else           return(item->prev());
    case FL_Down:
      if ( visible ) return(item->next_visible(_prefs));
      else           return(item->next());
  }
  return(0);		// unknown dir
}

/// Returns the next selected item above or below \p 'item', depending on \p 'dir'.
/// If \p 'item' is 0, search starts at either first() or last(), depending on \p 'dir':
/// first() if \p 'dir' is FL_Down (default), last() if \p 'dir' is FL_Up.
///
/// Use this to walk the tree looking for all the selected items, e.g.
/// \code
/// // Walk down the tree (forwards)
/// for ( Fl_Tree_Item *i=tree->first_selected_item(); i; i=tree->next_selected_item(i, FL_Down) )
///     printf("Item: %s\n", i->label());
///
/// // Walk up the tree (backwards)
/// for ( Fl_Tree_Item *i=tree->last_selected_item(); i; i=tree->next_selected_item(i, FL_Up) )
///     printf("Item: %s\n", i->label());
/// \endcode
///
/// \param[in] item The item above or below which we'll find the next selected item.
///                 If NULL, first() is used if FL_Down, last() if FL_Up.
///                 (default=NULL)
/// \param[in] dir  The direction to go.
///                 FL_Up for moving up the tree,
///                 FL_Down for down the tree (default)
/// \returns The next selected item, or 0 if there are no more selected items.
/// \see first_selected_item(), last_selected_item(), next_selected_item()
/// \version 1.3.3
///
Fl_Tree_Item *Fl_Tree::next_selected_item(Fl_Tree_Item *item, int dir) {
  switch (dir) {
    case FL_Down:
      if ( ! item ) {
	if ( ! (item = first()) ) return(0);
	if ( item->is_selected() ) return(item);
      }
      while ( (item = item->next()) )
	if ( item->is_selected() )
	  return(item);
      return(0);
    case FL_Up:
      if ( ! item ) {
	if ( ! (item = last()) ) return(0);
	if ( item->is_selected() ) return(item);
      }
      while ( (item = item->prev()) )
	if ( item->is_selected() )
	  return(item);
      return(0);
  }
  return(0);
}

#if FLTK_ABI_VERSION >= 10303		/* reason for this: Fl_Tree_Item_Array::manage_item_destroy() */
/// Returns the currently selected items as an array of \p 'ret_items'.
///
/// Example:
/// \code
///   // Get selected items as an array
///   Fl_Tree_Item_Array items;
///   tree->get_selected_items(items);
///   // Manipulate the returned array
///   for ( int t=0; t<items.total(); t++ ) {
///       Fl_Tree_Item &item = items[t];
///       ..do stuff with each selected item..
///   }
/// \endcode
///
/// \param[out] ret_items The returned array of selected items.
/// \returns The number of items in the returned array.
/// \see first_selected_item(), next_selected_item()
/// \version 1.3.3 ABI feature
///
int Fl_Tree::get_selected_items(Fl_Tree_Item_Array &ret_items) {
  ret_items.clear();
  for ( Fl_Tree_Item *i=first_selected_item(); i; i=next_selected_item(i) ) {
    ret_items.add(i);
  }
  return ret_items.total();
}
#endif

/// Open the specified \p 'item'.
///
/// This causes the item's children (if any) to be shown.<br>
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] item -- the item to be opened. Must not be NULL.
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - callback() is not invoked
///     -   1 - callback() is invoked if item changed (default),
///             callback_reason() will be FL_TREE_REASON_OPENED
/// \returns
///     -   1 -- item was opened
///     -   0 -- item was already open, no change
///
/// \see open(), close(), is_open(), is_close(), callback_item(), callback_reason()
///
int Fl_Tree::open(Fl_Tree_Item *item, int docallback) {
  if ( item->is_open() ) return(0);
  item->open();		// handles recalc_tree()
  redraw();
  if ( docallback ) {
    do_callback_for_item(item, FL_TREE_REASON_OPENED);
  }
  return(1);
}

/// Opens the item specified by \p 'path'.
///
/// This causes the item's children (if any) to be shown.<br>
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// Items or submenus that themselves contain slashes ('/' or '\')
/// should be escaped, e.g. open("Holidays/12\\/25\\/2010").
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] path -- the tree item's pathname (e.g. "Flintstones/Fred")
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - callback() is not invoked
///     -   1 - callback() is invoked if item changed (default),
///             callback_reason() will be FL_TREE_REASON_OPENED
/// \returns
///     -   1 -- OK: item opened
///     -   0 -- OK: item was already open, no change
///     -  -1 -- ERROR: item was not found
/// \see open(), close(), is_open(), is_close(), callback_item(), callback_reason()
///         
int Fl_Tree::open(const char *path, int docallback) {
  Fl_Tree_Item *item = find_item(path);
  if ( ! item ) return(-1);
  return(open(item, docallback));		// handles recalc_tree()
}

/// Toggle the open state of \p 'item'.
///
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] item -- the item whose open state is to be toggled. Must not be NULL.
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - callback() is not invoked
///     -   1 - callback() is invoked (default), callback_reason() will be either
///             FL_TREE_REASON_OPENED or FL_TREE_REASON_CLOSED
///
/// \see open(), close(), is_open(), is_close(), callback_item(), callback_reason()
///
void Fl_Tree::open_toggle(Fl_Tree_Item *item, int docallback) {
  if ( item->is_open() ) {
    close(item, docallback);		// handles recalc_tree()
  } else {
    open(item, docallback);		// handles recalc_tree()
  }
}

/// Closes the specified \p 'item'.
///
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] item -- the item to be closed. Must not be NULL.
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - callback() is not invoked
///     -   1 - callback() is invoked if item changed (default),
///             callback_reason() will be FL_TREE_REASON_CLOSED
/// \returns
///     -   1 -- item was closed
///     -   0 -- item was already closed, no change
/// \see open(), close(), is_open(), is_close(), callback_item(), callback_reason()
///
int Fl_Tree::close(Fl_Tree_Item *item, int docallback) {
  if ( item->is_close() ) return(0);
  item->close();		// handles recalc_tree()
  redraw();
  if ( docallback ) {
    do_callback_for_item(item, FL_TREE_REASON_CLOSED);
  }
  return(1);
}

/// Closes the item specified by \p 'path'.
///
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// Items or submenus that themselves contain slashes ('/' or '\')
/// should be escaped, e.g. close("Holidays/12\\/25\\/2010").
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] path -- the tree item's pathname (e.g. "Flintstones/Fred")
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - callback() is not invoked
///     -   1 - callback() is invoked if item changed (default),
///             callback_reason() will be FL_TREE_REASON_CLOSED
/// \returns
///     -   1 -- OK: item closed
///     -   0 -- OK: item was already closed, no change
///     -  -1 -- ERROR: item was not found
/// \see open(), close(), is_open(), is_close(), callback_item(), callback_reason()
///         
int Fl_Tree::close(const char *path, int docallback) {
  Fl_Tree_Item *item = find_item(path);
  if ( ! item ) return(-1);
  return(close(item, docallback));		// handles recalc_tree()
}

/// See if \p 'item' is open.
///
/// Items that are 'open' are themselves not necessarily visible;
/// one of the item's parents might be closed.
///
/// \param[in] item -- the item to be tested. Must not be NULL.
/// \returns
///     -  1 : item is open
///     -  0 : item is closed
///
int Fl_Tree::is_open(Fl_Tree_Item *item) const {
  return(item->is_open()?1:0);
}

/// See if item specified by \p 'path' is open.
///
/// Items or submenus that themselves contain slashes ('/' or '\')
/// should be escaped, e.g. is_open("Holidays/12\\/25\\/2010").
///
/// Items that are 'open' are themselves not necessarily visible;
/// one of the item's parents might be closed.
///
/// \param[in] path -- the tree item's pathname (e.g. "Flintstones/Fred")
/// \returns
///     -    1 - OK: item is open
///     -    0 - OK: item is closed
///     -   -1 - ERROR: item was not found
/// \see Fl_Tree_Item::visible_r()
///
int Fl_Tree::is_open(const char *path) const {
  const Fl_Tree_Item *item = find_item(path);
  if ( ! item ) return(-1);
  return(item->is_open()?1:0);
}

/// See if the specified \p 'item' is closed.
///
/// \param[in] item -- the item to be tested. Must not be NULL.
/// \returns
///     -   1 : item is closed
///     -   0 : item is open
///
int Fl_Tree::is_close(Fl_Tree_Item *item) const {
  return(item->is_close());
}

/// See if item specified by \p 'path' is closed.
///
/// Items or submenus that themselves contain slashes ('/' or '\')
/// should be escaped, e.g. is_close("Holidays/12\\/25\\/2010").
///
/// \param[in] path -- the tree item's pathname (e.g. "Flintstones/Fred")
/// \returns
///     -   1 - OK: item is closed
///     -   0 - OK: item is open
///     -  -1 - ERROR: item was not found
///
int Fl_Tree::is_close(const char *path) const {
  const Fl_Tree_Item *item = find_item(path);
  if ( ! item ) return(-1);
  return(item->is_close()?1:0);
}

/// Select the specified \p 'item'. Use 'deselect()' to deselect it.
///
/// Invokes the callback depending on the value of optional parameter \p docallback.<br>
/// Handles calling redraw() if anything changed.
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] item -- the item to be selected. Must not be NULL.
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - the callback() is not invoked
///     -   1 - the callback() is invoked if item changed state,
///             callback_reason() will be FL_TREE_REASON_SELECTED
/// \returns
///     -   1 - item's state was changed
///     -   0 - item was already selected, no change was made
///
int Fl_Tree::select(Fl_Tree_Item *item, int docallback) {
  int alreadySelected = item->is_selected();
  if ( !alreadySelected ) {
    item->select();
    set_changed();
    if ( docallback ) {
      do_callback_for_item(item, FL_TREE_REASON_SELECTED);
    }
    redraw();
    return(1);
  }
#if FLTK_ABI_VERSION >= 10301
  // NEW
  if ( alreadySelected ) {
    if ( (item_reselect_mode() == FL_TREE_SELECTABLE_ALWAYS) && docallback ) {
      do_callback_for_item(item, FL_TREE_REASON_RESELECTED);
    }
  }
#endif /*FLTK_ABI_VERSION*/
  return(0);
}

/// Select the item specified by \p 'path'.
///
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// Items or submenus that themselves contain slashes ('/' or '\')
/// should be escaped, e.g. select("Holidays/12\\/25\\/2010").
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] path -- the tree item's pathname (e.g. "Flintstones/Fred")
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - the callback() is not invoked
///     -   1 - the callback() is invoked if item changed state (default),
///             callback_reason() will be FL_TREE_REASON_SELECTED
/// \returns
///     -   1 : OK: item's state was changed
///     -   0 : OK: item was already selected, no change was made
///     -  -1 : ERROR: item was not found
///
int Fl_Tree::select(const char *path, int docallback) {
  Fl_Tree_Item *item = find_item(path);
  if ( ! item ) return(-1);
  return(select(item, docallback));
}

/// Toggle the select state of the specified \p 'item'.
///
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] item -- the item to be selected. Must not be NULL.
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - the callback() is not invoked
///     -   1 - the callback() is invoked (default), callback_reason() will be
///             either FL_TREE_REASON_SELECTED or FL_TREE_REASON_DESELECTED
///
void Fl_Tree::select_toggle(Fl_Tree_Item *item, int docallback) {
  item->select_toggle();
  set_changed();
  if ( docallback ) {
    do_callback_for_item(item, item->is_selected() ? FL_TREE_REASON_SELECTED
						   : FL_TREE_REASON_DESELECTED);
  }
  redraw();
}

/// Deselect the specified \p item.
///
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] item -- the item to be deselected. Must not be NULL.
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - the callback() is not invoked
///     -   1 - the callback() is invoked if item changed state (default),
///             callback_reason() will be FL_TREE_REASON_DESELECTED
/// \returns
///     -   0 - item was already deselected, no change was made
///     -   1 - item's state was changed
///
int Fl_Tree::deselect(Fl_Tree_Item *item, int docallback) {
  if ( item->is_selected() ) {
    item->deselect();
    set_changed();
    if ( docallback ) {
      do_callback_for_item(item, FL_TREE_REASON_DESELECTED);
    }
    redraw();
    return(1);
  }
  return(0);
}

/// Deselect an item specified by \p 'path'.
///
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// Items or submenus that themselves contain slashes ('/' or '\')
/// should be escaped, e.g. deselect("Holidays/12\\/25\\/2010").
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] path -- the tree item's pathname (e.g. "Flintstones/Fred")
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - the callback() is not invoked
///     -   1 - the callback() is invoked if item changed state (default),
///             callback_reason() will be FL_TREE_REASON_DESELECTED
///  \returns
///     -   1 - OK: item's state was changed
///     -   0 - OK: item was already deselected, no change was made
///     -  -1 - ERROR: item was not found
///
int Fl_Tree::deselect(const char *path, int docallback) {
  Fl_Tree_Item *item = find_item(path);
  if ( ! item ) return(-1);
  return(deselect(item, docallback));
}

/// Deselect \p 'item' and all its children.
///
/// If item is NULL, first() is used.<br>
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] item The item that will be deselected (along with all its children).
///                 If NULL, first() is used.
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - the callback() is not invoked
///     -   1 - the callback() is invoked for each item that changed state (default),
///             callback_reason() will be FL_TREE_REASON_DESELECTED
/// \returns Count of how many items were actually changed to the deselected state.
///
int Fl_Tree::deselect_all(Fl_Tree_Item *item, int docallback) {
  item = item ? item : first();			// NULL? use first()
  if ( ! item ) return(0);
  int count = 0;
  // Deselect item
  if ( item->is_selected() )
    if ( deselect(item, docallback) )
      ++count;
  // Deselect its children
  for ( int t=0; t<item->children(); t++ ) {
    count += deselect_all(item->child(t), docallback);	// recurse
  }
  return(count);
}

/// Select only the specified item, deselecting all others that might be selected.
///
/// If \p 'selitem' is 0, first() is used.<br>
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] selitem The item to be selected. If NULL, first() is used.
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - the callback() is not invoked
///     -   1 - the callback() is invoked for each item that changed state (default), 
///             callback_reason() will be either FL_TREE_REASON_SELECTED or 
///             FL_TREE_REASON_DESELECTED
/// \returns The number of items whose selection states were changed, if any.
///
int Fl_Tree::select_only(Fl_Tree_Item *selitem, int docallback) {
  selitem = selitem ? selitem : first();	// NULL? use first()
  if ( ! selitem ) return(0);
  int changed = 0;
  // Deselect everything first.
  //    Prevents callbacks from seeing more than one item selected.
  //
  for ( Fl_Tree_Item *item = first(); item; item = item->next() ) {
    if ( item == selitem ) continue;		// don't do anything to selitem yet..
    if ( item->is_selected() ) {
      deselect(item, docallback);
      ++changed;
    }
  }
#if FLTK_ABI_VERSION >= 10301
  // Should we 'reselect' item if already selected?
  if ( selitem->is_selected() && (item_reselect_mode()==FL_TREE_SELECTABLE_ALWAYS) ) {
    // Selection unchanged, so no ++changed
    select(selitem, docallback);			// do callback with reason=reselect
  } else if ( !selitem->is_selected() ) {
    // Item was not already selected, select and indicate changed
    select(selitem, docallback);
    ++changed;
  }
#else
  if ( !selitem->is_selected() ) {
    // All items deselected, now select the one we want
    select(selitem, docallback);
    ++changed;
  }
#endif
  return(changed);
}

/// Select \p 'item' and all its children.
///
/// If item is NULL, first() is used.<br>
/// Invokes the callback depending on the value of optional
/// parameter \p 'docallback'.<br>
/// Handles calling redraw() if anything changed.
///
/// The callback can use callback_item() and callback_reason() respectively to determine 
/// the item changed and the reason the callback was called.
///
/// \param[in] item The item that will be selected (along with all its children). 
///            If NULL, first() is used.
/// \param[in] docallback -- A flag that determines if the callback() is invoked or not:
///     -   0 - the callback() is not invoked
///     -   1 - the callback() is invoked for each item that changed state (default),
///             callback_reason() will be FL_TREE_REASON_SELECTED
/// \returns Count of how many items were actually changed to the selected state.
///
int Fl_Tree::select_all(Fl_Tree_Item *item, int docallback) {
  item = item ? item : first();			// NULL? use first()
  if ( ! item ) return(0);
  int count = 0;
  // Select item
  if ( !item->is_selected() )
    if ( select(item, docallback) )
      ++count;
  // Select its children
  for ( int t=0; t<item->children(); t++ ) {
    count += select_all(item->child(t), docallback);	// recurse
  }
  return(count);
}

/// Get the item that currently has keyboard focus.
Fl_Tree_Item* Fl_Tree::get_item_focus() const {
  return(_item_focus);
}

/// Set the item that currently should have keyboard focus.
///
/// Handles calling redraw() to update the focus box (if it is visible).
///
/// \param[in] item The item that should take focus. If NULL, none will have focus.
///
void Fl_Tree::set_item_focus(Fl_Tree_Item *item) {
  if ( _item_focus != item ) {		// changed?
    _item_focus = item;			// update
    if ( visible_focus() ) redraw();	// redraw to update focus box
  }
}

/// See if the specified \p 'item' is selected.
///
/// \param[in] item -- the item to be tested. Must not be NULL.
///
/// \return
///     -   1 : item selected
///     -   0 : item deselected
///
int Fl_Tree::is_selected(Fl_Tree_Item *item) const {
  return(item->is_selected()?1:0);
}

/// See if item specified by \p 'path' is selected.
///
/// Items or submenus that themselves contain slashes ('/' or '\')
/// should be escaped, e.g. is_selected("Holidays/12\\/25\\/2010").
///
/// \param[in] path -- the tree item's pathname (e.g. "Flintstones/Fred")
/// \returns
///     -   1 : item selected
///     -   0 : item deselected
///     -  -1 : item was not found
///
int Fl_Tree::is_selected(const char *path) {
  Fl_Tree_Item *item = find_item(path);
  if ( ! item ) return(-1);
  return(is_selected(item));
}

/// Get the default label fontsize used for creating new items.
Fl_Fontsize Fl_Tree::item_labelsize() const {
  return(_prefs.labelsize());
}

/// Set the default label font size used for creating new items.
/// To change the font size on a per-item basis, use Fl_Tree_Item::labelsize(Fl_Fontsize)
///
void Fl_Tree::item_labelsize(Fl_Fontsize val) {
  _prefs.labelsize(val);
}

/// Get the default font face used for creating new items.
Fl_Font Fl_Tree::item_labelfont() const {
  return(_prefs.labelfont());
}

/// Set the default font face used for creating new items.
/// To change the font face on a per-item basis, use Fl_Tree_Item::labelfont(Fl_Font)
///
void Fl_Tree::item_labelfont(Fl_Font val) {
  _prefs.labelfont(val);
}

/// Get the default label foreground color used for creating new items.
Fl_Color Fl_Tree::item_labelfgcolor(void) const {
  return(_prefs.labelfgcolor());
}

/// Set the default label foreground color used for creating new items.
/// To change the foreground color on a per-item basis, use Fl_Tree_Item::labelfgcolor(Fl_Color)
///
void Fl_Tree::item_labelfgcolor(Fl_Color val) {
  _prefs.labelfgcolor(val);
}

/// Get the default label background color used for creating new items.
/// If the color is 0xffffffff, it is 'transparent'.
Fl_Color Fl_Tree::item_labelbgcolor(void) const {
  return(_prefs.labelbgcolor());
}

/// Set the default label background color used for creating new items.
/// A special case is made for color 0xffffffff (default) which is treated as 'transparent'.
/// To change the background color on a per-item basis, use Fl_Tree_Item::labelbgcolor(Fl_Color)
///
void Fl_Tree::item_labelbgcolor(Fl_Color val) {
  _prefs.labelbgcolor(val);
}

/// Get the connector color used for tree connection lines.
Fl_Color Fl_Tree::connectorcolor() const {
  return(_prefs.connectorcolor());
}

/// Set the connector color used for tree connection lines.
void Fl_Tree::connectorcolor(Fl_Color val) {
  _prefs.connectorcolor(val);
}

/// Get the amount of white space (in pixels) that should appear
/// between the widget's left border and the tree's contents.
///
int Fl_Tree::marginleft() const {
  return(_prefs.marginleft());
}

/// Set the amount of white space (in pixels) that should appear
/// between the widget's left border and the left side of the tree's contents.
///
void Fl_Tree::marginleft(int val) {
  _prefs.marginleft(val);
  redraw();
  recalc_tree();
}

/// Get the amount of white space (in pixels) that should appear
/// between the widget's top border and the top of the tree's contents.
///
int Fl_Tree::margintop() const {
  return(_prefs.margintop());
}

/// Sets the amount of white space (in pixels) that should appear
/// between the widget's top border and the top of the tree's contents.
///
void Fl_Tree::margintop(int val) {
  _prefs.margintop(val);
  redraw();
  recalc_tree();
}

#if FLTK_ABI_VERSION >= 10301
/// Get the amount of white space (in pixels) that should appear
/// below the last visible item when the vertical scroller is scrolled to the bottom.
///
int Fl_Tree::marginbottom() const {
  return(_prefs.marginbottom());
}

/// Sets the amount of white space (in pixels) that should appear
/// below the last visible item when the vertical scroller is scrolled to the bottom.
///
void Fl_Tree::marginbottom(int val) {
  _prefs.marginbottom(val);
  redraw();
  recalc_tree();
}
#endif /*FLTK_ABI_VERSION*/

/// Get the amount of white space (in pixels) that should appear
/// between items in the tree.
///
int Fl_Tree::linespacing() const {
  return(_prefs.linespacing());
}

/// Sets the amount of white space (in pixels) that should appear
/// between items in the tree.
///
void Fl_Tree::linespacing(int val) {
  _prefs.linespacing(val);
  redraw();
  recalc_tree();
}

/// Get the amount of white space (in pixels) that should appear
/// below an open child tree's contents.
///
int Fl_Tree::openchild_marginbottom() const {
  return(_prefs.openchild_marginbottom());
}

/// Set the amount of white space (in pixels) that should appear
/// below an open child tree's contents.
///
void Fl_Tree::openchild_marginbottom(int val) {
  _prefs.openchild_marginbottom(val);
  redraw();
  recalc_tree();
}

/// Get the amount of white space (in pixels) that should appear
/// to the left of the usericon.
int Fl_Tree::usericonmarginleft() const {
  return(_prefs.usericonmarginleft());
}

/// Set the amount of white space (in pixels) that should appear
/// to the left of the usericon.
void Fl_Tree::usericonmarginleft(int val) {
  _prefs.usericonmarginleft(val);
  redraw();
  recalc_tree();
}

/// Get the amount of white space (in pixels) that should appear
/// to the left of the label text.
int Fl_Tree::labelmarginleft() const {
  return(_prefs.labelmarginleft());
}

/// Set the amount of white space (in pixels) that should appear
/// to the left of the label text.
void Fl_Tree::labelmarginleft(int val) {
  _prefs.labelmarginleft(val);
  redraw();
  recalc_tree();
}

#if FLTK_ABI_VERSION >= 10301
/// Get the amount of white space (in pixels) that should appear
/// to the left of the child fltk widget (if any).
int Fl_Tree::widgetmarginleft() const {
  return(_prefs.widgetmarginleft());
}

/// Set the amount of white space (in pixels) that should appear
/// to the left of the child fltk widget (if any).
void Fl_Tree::widgetmarginleft(int val) {
  _prefs.widgetmarginleft(val);
  redraw();
  recalc_tree();
}
#endif /*FLTK_ABI_VERSION*/

/// Gets the width of the horizontal connection lines (in pixels) 
/// that appear to the left of each tree item's label.
///
int Fl_Tree::connectorwidth() const {
  return(_prefs.connectorwidth());
}

/// Sets the width of the horizontal connection lines (in pixels) 
/// that appear to the left of each tree item's label.
///
void Fl_Tree::connectorwidth(int val) {
  _prefs.connectorwidth(val);
  redraw();
  recalc_tree();
}

/// Returns the Fl_Image being used as the default user icon for all
/// newly created items.
/// Returns zero if no icon has been set, which is the default.
///
Fl_Image* Fl_Tree::usericon() const {
  return(_prefs.usericon());
}

/// Sets the Fl_Image to be used as the default user icon for all
/// newly created items.
///
/// If you want to specify user icons on a per-item basis,
/// use Fl_Tree_Item::usericon() instead.
///
/// \param[in] val -- The new image to be used, or
///                   zero to disable user icons.
///
void Fl_Tree::usericon(Fl_Image *val) {
  _prefs.usericon(val);
  redraw();
  recalc_tree();
}

/// Returns the icon to be used as the 'open' icon.
/// If none was set, the internal default is returned,
/// a simple '[+]' icon.
///
Fl_Image* Fl_Tree::openicon() const {
  return(_prefs.openicon());
}

/// Sets the icon to be used as the 'open' icon.
/// This overrides the built in default '[+]' icon.
///
/// \param[in] val -- The new image, or zero to use the default [+] icon.
///
void Fl_Tree::openicon(Fl_Image *val) {
  _prefs.openicon(val);
  redraw();
  recalc_tree();
}

/// Returns the icon to be used as the 'close' icon.
/// If none was set, the internal default is returned,
/// a simple '[-]' icon.
///
Fl_Image* Fl_Tree::closeicon() const {
  return(_prefs.closeicon());
}

/// Sets the icon to be used as the 'close' icon.
/// This overrides the built in default '[-]' icon.
///
/// \param[in] val -- The new image, or zero to use the default [-] icon.
///
void Fl_Tree::closeicon(Fl_Image *val) {
  _prefs.closeicon(val);
  redraw();
  recalc_tree();
}

/// Returns 1 if the collapse icon is enabled, 0 if not.
/// \see showcollapse(int)
int Fl_Tree::showcollapse() const {
  return(_prefs.showcollapse());
}

/// Set if we should show the collapse icon or not.
/// If collapse icons are disabled, the user will not be able
/// to interactively collapse items in the tree, unless the application
/// provides some other means via open() and close().
///
/// \param[in] val 1: shows collapse icons (default),\n
///                0: hides collapse icons.
///
void Fl_Tree::showcollapse(int val) {
  _prefs.showcollapse(val);
  redraw();
  recalc_tree();
}

/// Returns 1 if the root item is to be shown, or 0 if not.
int Fl_Tree::showroot() const {
  return(_prefs.showroot());
}

/// Set if the root item should be shown or not.
/// \param[in] val 1 -- show the root item (default)\n
///                0 -- hide the root item.
///
void Fl_Tree::showroot(int val) {
  _prefs.showroot(val);
  redraw();
  recalc_tree();
}

/// Returns the line drawing style for inter-connecting items.
Fl_Tree_Connector Fl_Tree::connectorstyle() const {
  return(_prefs.connectorstyle());
}

/// Sets the line drawing style for inter-connecting items.
///     See ::Fl_Tree_Connector for possible values.
///
void Fl_Tree::connectorstyle(Fl_Tree_Connector val) {
  _prefs.connectorstyle(val);
  redraw();
}

/// Set the default sort order used when items are added to the tree.
///     See ::Fl_Tree_Sort for possible values.
///
Fl_Tree_Sort Fl_Tree::sortorder() const {
  return(_prefs.sortorder());
}

/// Gets the sort order used to add items to the tree.
void Fl_Tree::sortorder(Fl_Tree_Sort val) {
  _prefs.sortorder(val);
  // no redraw().. only affects new add()itions
}

/// Sets the style of box used to draw selected items.
/// This is an fltk ::Fl_Boxtype.
/// The default is influenced by FLTK's current Fl::scheme()
///
Fl_Boxtype Fl_Tree::selectbox() const {
  return(_prefs.selectbox());
}

/// Gets the style of box used to draw selected items.
/// This is an fltk ::Fl_Boxtype.
/// The default is influenced by FLTK's current Fl::scheme()
///
void Fl_Tree::selectbox(Fl_Boxtype val) {
  _prefs.selectbox(val);
  redraw();
}

/// Gets the tree's current selection mode.
/// See ::Fl_Tree_Select for possible values.
///
Fl_Tree_Select Fl_Tree::selectmode() const {
  return(_prefs.selectmode());
}

/// Sets the tree's selection mode.
/// See ::Fl_Tree_Select for possible values.
///
void Fl_Tree::selectmode(Fl_Tree_Select val) {
  _prefs.selectmode(val);
}

#if FLTK_ABI_VERSION >= 10301
/// Returns the current item re/selection mode.
/// \version 1.3.1 ABI feature
///
Fl_Tree_Item_Reselect_Mode Fl_Tree::item_reselect_mode() const {
  return(_prefs.item_reselect_mode());
}

/// Sets the item re/selection mode.
/// See ::Fl_Tree_Item_Reselect_Mode for possible values.
/// \version 1.3.1 ABI feature
///
void Fl_Tree::item_reselect_mode(Fl_Tree_Item_Reselect_Mode mode) {
  _prefs.item_reselect_mode(mode);
}

/// Get the 'item draw mode' used for the tree.
/// \version 1.3.1 ABI feature
///
Fl_Tree_Item_Draw_Mode Fl_Tree::item_draw_mode() const {
  return(_prefs.item_draw_mode());
}

/// Set the 'item draw mode' used for the tree to \p 'mode'.
///
/// This affects how items in the tree are drawn,
/// such as when a widget() is defined. 
/// See ::Fl_Tree_Item_Draw_Mode for possible values.
/// \version 1.3.1 ABI feature
///
void Fl_Tree::item_draw_mode(Fl_Tree_Item_Draw_Mode mode) {
  _prefs.item_draw_mode(mode);
}

/// Set the 'item draw mode' used for the tree to integer \p 'mode'.
///
/// This affects how items in the tree are drawn,
/// such as when a widget() is defined. 
/// See ::Fl_Tree_Item_Draw_Mode for possible values.
/// \version 1.3.1 ABI feature
///
void Fl_Tree::item_draw_mode(int mode) {
  _prefs.item_draw_mode(Fl_Tree_Item_Draw_Mode(mode));
}
#endif

/// See if \p 'item' is currently displayed on-screen (visible within the widget).
///
/// This can be used to detect if the item is scrolled off-screen.
/// Checks to see if the item's vertical position is within the top and bottom
/// edges of the display window. This does NOT take into account the hide() / show()
/// or open() / close() status of the item.
///
/// \param[in] item The item to be checked. If NULL, first() is used.
/// \returns 1 if displayed, 0 if scrolled off screen or no items are in tree.
///
int Fl_Tree::displayed(Fl_Tree_Item *item) {
  item = item ? item : first();
  if (!item) return(0);
  return( (item->y() >= y()) && (item->y() <= (y()+h()-item->h())) ? 1 : 0);
}

/// Adjust the vertical scrollbar so that \p 'item' is visible
/// \p 'yoff' pixels from the top of the Fl_Tree widget's display.
///
/// For instance, yoff=0 will position the item at the top.
///
/// If yoff is larger than the vertical scrollbar's limit,
/// the value will be clipped. So if yoff=100, but scrollbar's max
/// is 50, then 50 will be used.
///
/// \param[in] item The item to be shown. If NULL, first() is used.
/// \param[in] yoff The pixel offset from the top for the displayed position.
///
/// \see show_item_top(), show_item_middle(), show_item_bottom()
///
void Fl_Tree::show_item(Fl_Tree_Item *item, int yoff) {
  item = item ? item : first();
  if (!item) return;
  int newval = item->y() - y() - yoff + (int)_vscroll->value();
  if ( newval < _vscroll->minimum() ) newval = (int)_vscroll->minimum();
  if ( newval > _vscroll->maximum() ) newval = (int)_vscroll->maximum();
  _vscroll->value(newval);
  redraw();
}

/// Adjust the vertical scrollbar to show \p 'item' at the top
/// of the display IF it is currently off-screen (for instance show_item_top()).
/// If it is already on-screen, no change is made.
///
/// \param[in] item The item to be shown. If NULL, first() is used.
///
/// \see show_item_top(), show_item_middle(), show_item_bottom()
///
void Fl_Tree::show_item(Fl_Tree_Item *item) {
  item = item ? item : first();
  if (!item) return;
  if ( displayed(item) ) return;
  show_item_top(item);
}

/// Adjust the vertical scrollbar so that \p 'item' is at the top of the display.
///
/// \param[in] item The item to be shown. If NULL, first() is used.
///
void Fl_Tree::show_item_top(Fl_Tree_Item *item) {
  item = item ? item : first();
  if (item) show_item(item, 0);
}

/// Adjust the vertical scrollbar so that \p 'item' is in the middle of the display.
///
/// \param[in] item The item to be shown. If NULL, first() is used.
///
void Fl_Tree::show_item_middle(Fl_Tree_Item *item) {
  item = item ? item : first();
#if FLTK_ABI_VERSION >= 10303
  if (item) show_item(item, (_tih/2)-(item->h()/2));
#else
  if (item) show_item(item, (h()/2)-(item->h()/2));
#endif
}

/// Adjust the vertical scrollbar so that \p 'item' is at the bottom of the display.
///
/// \param[in] item The item to be shown. If NULL, first() is used.
///
void Fl_Tree::show_item_bottom(Fl_Tree_Item *item) {
  item = item ? item : first();
#if FLTK_ABI_VERSION >= 10303
  if (item) show_item(item, _tih-item->h());
#else
  if (item) show_item(item, h()-item->h());
#endif
}

/// Displays \p 'item', scrolling the tree as necessary.
/// \param[in] item The item to be displayed. If NULL, first() is used.
///
void Fl_Tree::display(Fl_Tree_Item *item) {
  item = item ? item : first();
  if (item) show_item_middle(item);
}

/// Returns the vertical scroll position as a pixel offset.
/// The position returned is how many pixels of the tree are scrolled off the top edge
/// of the screen.
/// \see vposition(int), hposition(), hposition(int)
///
int Fl_Tree::vposition() const {
  return((int)_vscroll->value());
}

/// Sets the vertical scroll offset to position \p 'pos'.
/// The position is how many pixels of the tree are scrolled off the top edge
/// of the screen. 
/// \param[in] pos The vertical position (in pixels) to scroll the tree to.
/// \see vposition(), hposition(), hposition(int)
///
void Fl_Tree::vposition(int pos) {
  if (pos < 0) pos = 0;
  if (pos > _vscroll->maximum()) pos = (int)_vscroll->maximum();
  if (pos == _vscroll->value()) return;
  _vscroll->value(pos);
  redraw();
}

/// Returns the horizontal scroll position as a pixel offset.
/// The position returned is how many pixels of the tree are scrolled off the left edge
/// of the screen.
/// \see hposition(int), vposition(), vposition(int)
/// \note Must be using FLTK ABI 1.3.3 or higher for this to be effective.
///
int Fl_Tree::hposition() const {
#if FLTK_ABI_VERSION >= 10303
  return((int)_hscroll->value());
#else
  return(0);
#endif
}

/// Sets the horizontal scroll offset to position \p 'pos'.
/// The position is how many pixels of the tree are scrolled off the left edge
/// of the screen. 
/// \param[in] pos The vertical position (in pixels) to scroll the tree to.
/// \see hposition(), vposition(), vposition(int)
/// \note Must be using FLTK ABI 1.3.3 or higher for this to be effective.
///
void Fl_Tree::hposition(int pos) {
#if FLTK_ABI_VERSION >= 10303
  if (pos < 0) pos = 0;
  if (pos > _hscroll->maximum()) pos = (int)_hscroll->maximum();
  if (pos == _hscroll->value()) return;
  _hscroll->value(pos);
  redraw();
#endif
}

/// See if widget \p 'w' is one of the Fl_Tree widget's scrollbars.
/// Use this to skip over the scrollbars when walking the child() array. Example:
/// \code
/// for ( int i=0; i<tree->children(); i++ ) {    // walk children
///     Fl_Widget *w = tree->child(i);
///     if ( tree->is_scrollbar(w) ) continue;    // skip scrollbars
///     ..do work here..
/// }
/// \endcode
/// \param[in] w Widget to test
/// \returns 1 if \p w is a scrollbar, 0 if not.
/// \todo should be const
///
int Fl_Tree::is_scrollbar(Fl_Widget *w) {
#if FLTK_ABI_VERSION >= 10303
  return( (w==_vscroll || w==_hscroll) ? 1 : 0 );
#else
  return( (w==_vscroll) ? 1 : 0 );
#endif
}

/// Gets the default size of scrollbars' troughs for this widget
/// in pixels.
///
/// If this value is zero (default), this widget will use the global
/// Fl::scrollbar_size() value as the scrollbar's width.
/// 
/// \returns Scrollbar size in pixels, or 0 if the global Fl::scrollbar_size() is being used.
/// \see Fl::scrollbar_size(int)
///
int Fl_Tree::scrollbar_size() const {
  return(_scrollbar_size);
}

/// Sets the pixel size of the scrollbars' troughs to \p 'size'
/// for this widget, in pixels.
///
/// Normally you should not need this method, and should use the global
/// Fl::scrollbar_size(int) instead to manage the size of ALL 
/// your widgets' scrollbars. This ensures your application 
/// has a consistent UI, and is the default behavior. Normally
/// this is what you want.
///
/// Only use this method if you really need to override just THIS
/// instance of the widget's scrollbar size. (This need should be rare.)
///   
/// Setting \p size to the special value of 0 causes the widget to
/// track the global Fl::scrollbar_size(), which is the default.
///   
/// \param[in] size Sets the scrollbar size in pixels.\n
///                 If 0 (default), scrollbar size tracks the global Fl::scrollbar_size()
/// \see Fl::scrollbar_size()
///
void Fl_Tree::scrollbar_size(int size) {
  _scrollbar_size = size;
  int scrollsize = _scrollbar_size ? _scrollbar_size : Fl::scrollbar_size();
  if ( _vscroll->w() != scrollsize ) {
    _vscroll->resize(x()+w()-scrollsize, h(), scrollsize, _vscroll->h());
  }
#if FLTK_ABI_VERSION >= 10303
  if ( _hscroll->h() != scrollsize ) {
    _hscroll->resize(x(), y()+h()-scrollsize, _hscroll->w(), scrollsize);
  }
  // Changing scrollbar size affects _tiw/_tih + may affect scrollbar visibility
  calc_dimensions();
#endif
}   

/// See if the vertical scrollbar is currently visible.
/// \returns 1 if scrollbar visible, 0 if not.
///
int Fl_Tree::is_vscroll_visible() const {
  return(_vscroll->visible() ? 1 : 0);
}

/// See if the horizontal scrollbar is currently visible.
/// \returns 1 if scrollbar visible, 0 if not.
/// \note Must be using FLTK ABI 1.3.3 or higher for this to be effective.
///
int Fl_Tree::is_hscroll_visible() const {
#if FLTK_ABI_VERSION >= 10303
  return(_hscroll->visible() ? 1 : 0);
#else
  return 0;
#endif
}

/// Do the callback for the specified \p 'item' using \p 'reason',
/// setting the callback_item() and callback_reason().
///
void Fl_Tree::do_callback_for_item(Fl_Tree_Item* item, Fl_Tree_Reason reason) {
  callback_reason(reason);
  callback_item(item);
  do_callback((Fl_Widget*)this, user_data());
}

/// Sets the item that was changed for this callback.
/// Used internally to pass the item that invoked the callback.
///
void Fl_Tree::callback_item(Fl_Tree_Item* item) {
  _callback_item = item;
}

/// Gets the item that caused the callback.
/// The callback() can use this value to see which item changed.
///
Fl_Tree_Item* Fl_Tree::callback_item() {
  return(_callback_item);
}

/// Sets the reason for this callback.
///    Used internally to pass the reason the callback was invoked.
///
void Fl_Tree::callback_reason(Fl_Tree_Reason reason) {
  _callback_reason = reason;
}

/// Gets the reason for this callback.
///
/// The callback() can use this value to see why it was called. Example:
/// \code
///     void MyTreeCallback(Fl_Widget *w, void *userdata) {
///         Fl_Tree *tree = (Fl_Tree*)w;
///         Fl_Tree_Item *item = tree->callback_item();    // the item changed (can be NULL if more than one item was changed!)
///         switch ( tree->callback_reason() ) {           // reason callback was invoked
///             case     FL_TREE_REASON_OPENED: ..item was opened..
///             case     FL_TREE_REASON_CLOSED: ..item was closed..
///             case   FL_TREE_REASON_SELECTED: ..item was selected..
///             case FL_TREE_REASON_RESELECTED: ..item was reselected (double-clicked, etc)..
///             case FL_TREE_REASON_DESELECTED: ..item was deselected..
///         }
///     }
/// \endcode
///
/// \see item_reselect_mode() -- enables FL_TREE_REASON_RESELECTED events
///
Fl_Tree_Reason Fl_Tree::callback_reason() const {
  return(_callback_reason);
}

/**
 * Read a preferences database into the tree widget.
 * A preferences database is a hierarchical collection of data which can be
 * directly loaded into the tree view for inspection.
 * \param[in] prefs the Fl_Preferences database
 */
void Fl_Tree::load(Fl_Preferences &prefs) {
  int i, j, n, pn = (int) strlen(prefs.path());
  char *p;
  const char *path = prefs.path();
  if (strcmp(path, ".")==0)
    path += 1; // root path is empty
  else
    path += 2; // child path starts with "./"
  n = prefs.groups();
  for (i=0; i<n; i++) {
    Fl_Preferences prefsChild(prefs, i);
    add(prefsChild.path()+2); // children always start with "./"
    load(prefsChild);
  }
  n = prefs.entries();
  for (i=0; i<n; i++) {
    // We must remove all fwd slashes in the key and value strings. Replace with backslash.
    char *key = strdup(prefs.entry(i));
    int kn = (int) strlen(key);
    for (j=0; j<kn; j++) {
      if (key[j]=='/') key[j]='\\'; 
    }
    char *val;  prefs.get(key, val, "");
    int vn = (int) strlen(val);
    for (j=0; j<vn; j++) {
      if (val[j]=='/') val[j]='\\'; 
    }
    if (vn<40) {
      size_t sze = pn + strlen(key) + vn;
      p = (char*)malloc(sze+5);
      sprintf(p, "%s/%s = %s", path, key, val);
    } else {
      size_t sze = pn + strlen(key) + 40;
      p = (char*)malloc(sze+5);
      sprintf(p, "%s/%s = %.40s...", path, key, val);
    }
    add(p[0]=='/'?p+1:p);
    free(p);
    free(val);
    free(key);
  }
}

/// Ensure the scrollbars are the last children
void Fl_Tree::fix_scrollbar_order() {
  Fl_Widget** a = (Fl_Widget**)array();
  if (a[children()-1] != _vscroll) {
    int i,j;
#if FLTK_ABI_VERSION >= 10303
    for (i = j = 0; j < children(); j++) {
      if (a[j] != _vscroll && a[j] != _hscroll ) a[i++] = a[j];
    }
    a[i++] = _hscroll;
    a[i++] = _vscroll;
#else
    for (i = j = 0; j < children(); j++) {
      if (a[j] != _vscroll) a[i++] = a[j];
    }
    a[i++] = _vscroll;
#endif
  }
}

/// Schedule tree to recalc the entire tree size.
/// \note Must be using FLTK ABI 1.3.3 or higher for this to be effective.
///
void Fl_Tree::recalc_tree() {
#if FLTK_ABI_VERSION >= 10303
  _tree_w = _tree_h = -1;
#endif
}

//
// End of "$Id$".
//