views/focus/focus_search.cc - chromium/src - Git at Google

 // Copyright (c) 2010 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/logging.h"
 #include "views/focus/focus_manager.h"
 #include "views/focus/focus_search.h"
 #include "views/view.h"

 namespace views {

 FocusSearch::FocusSearch(View* root, bool cycle, bool accessibility_mode)
     : root_(root),
       cycle_(cycle),
       accessibility_mode_(accessibility_mode) {
 }

 View* FocusSearch::FindNextFocusableView(View* starting_view,
                                          bool reverse,
                                          Direction direction,
                                          bool check_starting_view,
                                          FocusTraversable** focus_traversable,
                                          View** focus_traversable_view) {
   *focus_traversable = NULL;
   *focus_traversable_view = NULL;

   if (!root_->has_children()) {
     NOTREACHED();
     // Nothing to focus on here.
     return NULL;
   }

   View* initial_starting_view = starting_view;
   int starting_view_group = -1;
   if (starting_view)
     starting_view_group = starting_view->GetGroup();

   if (!starting_view) {
     // Default to the first/last child
     starting_view = reverse ? root_->child_at(root_->child_count() - 1) :
         root_->child_at(0);
     // If there was no starting view, then the one we select is a potential
     // focus candidate.
     check_starting_view = true;
   } else {
     // The starting view should be a direct or indirect child of the root.
     DCHECK(root_->Contains(starting_view));
   }

   View* v = NULL;
   if (!reverse) {
     v = FindNextFocusableViewImpl(starting_view, check_starting_view,
                                   true,
                                   (direction == DOWN) ? true : false,
                                   starting_view_group,
                                   focus_traversable,
                                   focus_traversable_view);
   } else {
     // If the starting view is focusable, we don't want to go down, as we are
     // traversing the view hierarchy tree bottom-up.
     bool can_go_down = (direction == DOWN) && !IsFocusable(starting_view);
     v = FindPreviousFocusableViewImpl(starting_view, check_starting_view,
                                       true,
                                       can_go_down,
                                       starting_view_group,
                                       focus_traversable,
                                       focus_traversable_view);
   }

   // Don't set the focus to something outside of this view hierarchy.
   if (v && v != root_ && !root_->Contains(v))
     v = NULL;

   // If |cycle_| is true, prefer to keep cycling rather than returning NULL.
   if (cycle_ && !v && initial_starting_view) {
     v = FindNextFocusableView(NULL, reverse, direction, check_starting_view,
                               focus_traversable, focus_traversable_view);
     DCHECK(IsFocusable(v));
     return v;
   }

   // Doing some sanity checks.
   if (v) {
     DCHECK(IsFocusable(v));
     return v;
   }
   if (*focus_traversable) {
     DCHECK(*focus_traversable_view);
     return NULL;
   }
   // Nothing found.
   return NULL;
 }

 bool FocusSearch::IsViewFocusableCandidate(View* v, int skip_group_id) {
   return IsFocusable(v) &&
       (v->IsGroupFocusTraversable() || skip_group_id == -1 ||
        v->GetGroup() != skip_group_id);
 }

 bool FocusSearch::IsFocusable(View* v) {
   if (accessibility_mode_)
     return v && v->IsAccessibilityFocusableInRootView();

   return v && v->IsFocusableInRootView();
 }

 View* FocusSearch::FindSelectedViewForGroup(View* view) {
   if (view->IsGroupFocusTraversable() ||
       view->GetGroup() == -1)  // No group for that view.
     return view;

   View* selected_view = view->GetSelectedViewForGroup(view->GetGroup());
   if (selected_view)
     return selected_view;

   // No view selected for that group, default to the specified view.
   return view;
 }

 View* FocusSearch::GetParent(View* v) {
   return root_->Contains(v) ? v->parent() : NULL;
 }

 // Strategy for finding the next focusable view:
 // - keep going down the first child, stop when you find a focusable view or
 //   a focus traversable view (in that case return it) or when you reach a view
 //   with no children.
 // - go to the right sibling and start the search from there (by invoking
 //   FindNextFocusableViewImpl on that view).
 // - if the view has no right sibling, go up the parents until you find a parent
 //   with a right sibling and start the search from there.
 View* FocusSearch::FindNextFocusableViewImpl(
     View* starting_view,
     bool check_starting_view,
     bool can_go_up,
     bool can_go_down,
     int skip_group_id,
     FocusTraversable** focus_traversable,
     View** focus_traversable_view) {
   if (check_starting_view) {
     if (IsViewFocusableCandidate(starting_view, skip_group_id)) {
       View* v = FindSelectedViewForGroup(starting_view);
       // The selected view might not be focusable (if it is disabled for
       // example).
       if (IsFocusable(v))
         return v;
     }

     *focus_traversable = starting_view->GetFocusTraversable();
     if (*focus_traversable) {
       *focus_traversable_view = starting_view;
       return NULL;
     }
   }

   // First let's try the left child.
   if (can_go_down) {
     if (starting_view->has_children()) {
       View* v = FindNextFocusableViewImpl(starting_view->child_at(0),
                                           true, false, true, skip_group_id,
                                           focus_traversable,
                                           focus_traversable_view);
       if (v || *focus_traversable)
         return v;
     }
   }

   // Then try the right sibling.
   View* sibling = starting_view->GetNextFocusableView();
   if (sibling) {
     View* v = FindNextFocusableViewImpl(sibling,
                                         true, false, true, skip_group_id,
                                         focus_traversable,
                                         focus_traversable_view);
     if (v || *focus_traversable)
       return v;
   }

   // Then go up to the parent sibling.
   if (can_go_up) {
     View* parent = GetParent(starting_view);
     while (parent) {
       sibling = parent->GetNextFocusableView();
       if (sibling) {
         return FindNextFocusableViewImpl(sibling,
                                          true, true, true,
                                          skip_group_id,
                                          focus_traversable,
                                          focus_traversable_view);
       }
       parent = GetParent(parent);
     }
   }

   // We found nothing.
   return NULL;
 }

 // Strategy for finding the previous focusable view:
 // - keep going down on the right until you reach a view with no children, if it
 //   it is a good candidate return it.
 // - start the search on the left sibling.
 // - if there are no left sibling, start the search on the parent (without going
 //   down).
 View* FocusSearch::FindPreviousFocusableViewImpl(
     View* starting_view,
     bool check_starting_view,
     bool can_go_up,
     bool can_go_down,
     int skip_group_id,
     FocusTraversable** focus_traversable,
     View** focus_traversable_view) {
   // Let's go down and right as much as we can.
   if (can_go_down) {
     // Before we go into the direct children, we have to check if this view has
     // a FocusTraversable.
     *focus_traversable = starting_view->GetFocusTraversable();
     if (*focus_traversable) {
       *focus_traversable_view = starting_view;
       return NULL;
     }

     if (starting_view->has_children()) {
       View* view =
           starting_view->child_at(starting_view->child_count() - 1);
       View* v = FindPreviousFocusableViewImpl(view, true, false, true,
                                               skip_group_id,
                                               focus_traversable,
                                               focus_traversable_view);
       if (v || *focus_traversable)
         return v;
     }
   }

   // Then look at this view. Here, we do not need to see if the view has
   // a FocusTraversable, since we do not want to go down any more.
   if (check_starting_view &&
       IsViewFocusableCandidate(starting_view, skip_group_id)) {
     View* v = FindSelectedViewForGroup(starting_view);
     // The selected view might not be focusable (if it is disabled for
     // example).
     if (IsFocusable(v))
       return v;
   }

   // Then try the left sibling.
   View* sibling = starting_view->GetPreviousFocusableView();
   if (sibling) {
     return FindPreviousFocusableViewImpl(sibling,
                                          true, true, true,
                                          skip_group_id,
                                          focus_traversable,
                                          focus_traversable_view);
   }

   // Then go up the parent.
   if (can_go_up) {
     View* parent = GetParent(starting_view);
     if (parent)
       return FindPreviousFocusableViewImpl(parent,
                                            true, true, false,
                                            skip_group_id,
                                            focus_traversable,
                                            focus_traversable_view);
   }

   // We found nothing.
   return NULL;
 }

 }  // namespace views
	// Copyright (c) 2010 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/logging.h"
	#include "views/focus/focus_manager.h"
	#include "views/focus/focus_search.h"
	#include "views/view.h"

	namespace views {

	FocusSearch::FocusSearch(View* root, bool cycle, bool accessibility_mode)
	: root_(root),
	cycle_(cycle),
	accessibility_mode_(accessibility_mode) {
	}

	View* FocusSearch::FindNextFocusableView(View* starting_view,
	bool reverse,
	Direction direction,
	bool check_starting_view,
	FocusTraversable** focus_traversable,
	View** focus_traversable_view) {
	*focus_traversable = NULL;
	*focus_traversable_view = NULL;

	if (!root_->has_children()) {
	NOTREACHED();
	// Nothing to focus on here.
	return NULL;
	}

	View* initial_starting_view = starting_view;
	int starting_view_group = -1;
	if (starting_view)
	starting_view_group = starting_view->GetGroup();

	if (!starting_view) {
	// Default to the first/last child
	starting_view = reverse ? root_->child_at(root_->child_count() - 1) :
	root_->child_at(0);
	// If there was no starting view, then the one we select is a potential
	// focus candidate.
	check_starting_view = true;
	} else {
	// The starting view should be a direct or indirect child of the root.
	DCHECK(root_->Contains(starting_view));
	}

	View* v = NULL;
	if (!reverse) {
	v = FindNextFocusableViewImpl(starting_view, check_starting_view,
	true,
	(direction == DOWN) ? true : false,
	starting_view_group,
	focus_traversable,
	focus_traversable_view);
	} else {
	// If the starting view is focusable, we don't want to go down, as we are
	// traversing the view hierarchy tree bottom-up.
	bool can_go_down = (direction == DOWN) && !IsFocusable(starting_view);
	v = FindPreviousFocusableViewImpl(starting_view, check_starting_view,
	true,
	can_go_down,
	starting_view_group,
	focus_traversable,
	focus_traversable_view);
	}

	// Don't set the focus to something outside of this view hierarchy.
	if (v && v != root_ && !root_->Contains(v))
	v = NULL;

	// If \|cycle_\| is true, prefer to keep cycling rather than returning NULL.
	if (cycle_ && !v && initial_starting_view) {
	v = FindNextFocusableView(NULL, reverse, direction, check_starting_view,
	focus_traversable, focus_traversable_view);
	DCHECK(IsFocusable(v));
	return v;
	}

	// Doing some sanity checks.
	if (v) {
	DCHECK(IsFocusable(v));
	return v;
	}
	if (*focus_traversable) {
	DCHECK(*focus_traversable_view);
	return NULL;
	}
	// Nothing found.
	return NULL;
	}

	bool FocusSearch::IsViewFocusableCandidate(View* v, int skip_group_id) {
	return IsFocusable(v) &&
	(v->IsGroupFocusTraversable() \|\| skip_group_id == -1 \|\|
	v->GetGroup() != skip_group_id);
	}

	bool FocusSearch::IsFocusable(View* v) {
	if (accessibility_mode_)
	return v && v->IsAccessibilityFocusableInRootView();

	return v && v->IsFocusableInRootView();
	}

	View* FocusSearch::FindSelectedViewForGroup(View* view) {
	if (view->IsGroupFocusTraversable() \|\|
	view->GetGroup() == -1) // No group for that view.
	return view;

	View* selected_view = view->GetSelectedViewForGroup(view->GetGroup());
	if (selected_view)
	return selected_view;

	// No view selected for that group, default to the specified view.
	return view;
	}

	View* FocusSearch::GetParent(View* v) {
	return root_->Contains(v) ? v->parent() : NULL;
	}

	// Strategy for finding the next focusable view:
	// - keep going down the first child, stop when you find a focusable view or
	// a focus traversable view (in that case return it) or when you reach a view
	// with no children.
	// - go to the right sibling and start the search from there (by invoking
	// FindNextFocusableViewImpl on that view).
	// - if the view has no right sibling, go up the parents until you find a parent
	// with a right sibling and start the search from there.
	View* FocusSearch::FindNextFocusableViewImpl(
	View* starting_view,
	bool check_starting_view,
	bool can_go_up,
	bool can_go_down,
	int skip_group_id,
	FocusTraversable** focus_traversable,
	View** focus_traversable_view) {
	if (check_starting_view) {
	if (IsViewFocusableCandidate(starting_view, skip_group_id)) {
	View* v = FindSelectedViewForGroup(starting_view);
	// The selected view might not be focusable (if it is disabled for
	// example).
	if (IsFocusable(v))
	return v;
	}

	*focus_traversable = starting_view->GetFocusTraversable();
	if (*focus_traversable) {
	*focus_traversable_view = starting_view;
	return NULL;
	}
	}

	// First let's try the left child.
	if (can_go_down) {
	if (starting_view->has_children()) {
	View* v = FindNextFocusableViewImpl(starting_view->child_at(0),
	true, false, true, skip_group_id,
	focus_traversable,
	focus_traversable_view);
	if (v \|\| *focus_traversable)
	return v;
	}
	}

	// Then try the right sibling.
	View* sibling = starting_view->GetNextFocusableView();
	if (sibling) {
	View* v = FindNextFocusableViewImpl(sibling,
	true, false, true, skip_group_id,
	focus_traversable,
	focus_traversable_view);
	if (v \|\| *focus_traversable)
	return v;
	}

	// Then go up to the parent sibling.
	if (can_go_up) {
	View* parent = GetParent(starting_view);
	while (parent) {
	sibling = parent->GetNextFocusableView();
	if (sibling) {
	return FindNextFocusableViewImpl(sibling,
	true, true, true,
	skip_group_id,
	focus_traversable,
	focus_traversable_view);
	}
	parent = GetParent(parent);
	}
	}

	// We found nothing.
	return NULL;
	}

	// Strategy for finding the previous focusable view:
	// - keep going down on the right until you reach a view with no children, if it
	// it is a good candidate return it.
	// - start the search on the left sibling.
	// - if there are no left sibling, start the search on the parent (without going
	// down).
	View* FocusSearch::FindPreviousFocusableViewImpl(
	View* starting_view,
	bool check_starting_view,
	bool can_go_up,
	bool can_go_down,
	int skip_group_id,
	FocusTraversable** focus_traversable,
	View** focus_traversable_view) {
	// Let's go down and right as much as we can.
	if (can_go_down) {
	// Before we go into the direct children, we have to check if this view has
	// a FocusTraversable.
	*focus_traversable = starting_view->GetFocusTraversable();
	if (*focus_traversable) {
	*focus_traversable_view = starting_view;
	return NULL;
	}

	if (starting_view->has_children()) {
	View* view =
	starting_view->child_at(starting_view->child_count() - 1);
	View* v = FindPreviousFocusableViewImpl(view, true, false, true,
	skip_group_id,
	focus_traversable,
	focus_traversable_view);
	if (v \|\| *focus_traversable)
	return v;
	}
	}

	// Then look at this view. Here, we do not need to see if the view has
	// a FocusTraversable, since we do not want to go down any more.
	if (check_starting_view &&
	IsViewFocusableCandidate(starting_view, skip_group_id)) {
	View* v = FindSelectedViewForGroup(starting_view);
	// The selected view might not be focusable (if it is disabled for
	// example).
	if (IsFocusable(v))
	return v;
	}

	// Then try the left sibling.
	View* sibling = starting_view->GetPreviousFocusableView();
	if (sibling) {
	return FindPreviousFocusableViewImpl(sibling,
	true, true, true,
	skip_group_id,
	focus_traversable,
	focus_traversable_view);
	}

	// Then go up the parent.
	if (can_go_up) {
	View* parent = GetParent(starting_view);
	if (parent)
	return FindPreviousFocusableViewImpl(parent,
	true, true, false,
	skip_group_id,
	focus_traversable,
	focus_traversable_view);
	}

	// We found nothing.
	return NULL;
	}

	} // namespace views