ui/views/view_targeter_delegate.cc - chromium/src - Git at Google

 // Copyright 2014 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 "ui/views/view_targeter_delegate.h"

 #include <limits.h>

 #include "base/containers/adapters.h"
 #include "ui/gfx/geometry/rect_conversions.h"
 #include "ui/views/rect_based_targeting_utils.h"
 #include "ui/views/view.h"

 namespace {

 // The minimum percentage of a view's area that needs to be covered by a rect
 // representing a touch region in order for that view to be considered by the
 // rect-based targeting algorithm.
 static const float kRectTargetOverlap = 0.6f;

 }  // namespace

 namespace views {

 // TODO(tdanderson): Move the contents of rect_based_targeting_utils.(h|cc)
 //                   into here.

 bool ViewTargeterDelegate::DoesIntersectRect(const View* target,
                                              const gfx::Rect& rect) const {
   return target->GetLocalBounds().Intersects(rect);
 }

 View* ViewTargeterDelegate::TargetForRect(View* root, const gfx::Rect& rect) {
   // |rect_view| represents the current best candidate to return
   // if rect-based targeting (i.e., fuzzing) is used.
   // |rect_view_distance| is used to keep track of the distance
   // between the center point of |rect_view| and the center
   // point of |rect|.
   View* rect_view = nullptr;
   int rect_view_distance = INT_MAX;

   // |point_view| represents the view that would have been returned
   // from this function call if point-based targeting were used.
   View* point_view = nullptr;

   View::Views children = root->GetChildrenInZOrder();
   DCHECK_EQ(root->children().size(), children.size());
   for (auto* child : base::Reversed(children)) {
     if (!child->CanProcessEventsWithinSubtree())
       continue;

     // Ignore any children which are invisible or do not intersect |rect|.
     if (!child->visible())
       continue;
     gfx::RectF rect_in_child_coords_f(rect);
     View::ConvertRectToTarget(root, child, &rect_in_child_coords_f);
     gfx::Rect rect_in_child_coords = gfx::ToEnclosingRect(
         rect_in_child_coords_f);
     if (!child->HitTestRect(rect_in_child_coords))
       continue;

     View* cur_view = child->GetEventHandlerForRect(rect_in_child_coords);

     if (views::UsePointBasedTargeting(rect))
       return cur_view;

     gfx::RectF cur_view_bounds_f(cur_view->GetLocalBounds());
     View::ConvertRectToTarget(cur_view, root, &cur_view_bounds_f);
     gfx::Rect cur_view_bounds = gfx::ToEnclosingRect(
         cur_view_bounds_f);
     if (views::PercentCoveredBy(cur_view_bounds, rect) >= kRectTargetOverlap) {
       // |cur_view| is a suitable candidate for rect-based targeting.
       // Check to see if it is the closest suitable candidate so far.
       gfx::Point touch_center(rect.CenterPoint());
       int cur_dist = views::DistanceSquaredFromCenterToPoint(touch_center,
                                                              cur_view_bounds);
       if (!rect_view || cur_dist < rect_view_distance) {
         rect_view = cur_view;
         rect_view_distance = cur_dist;
       }
     } else if (!rect_view && !point_view) {
       // Rect-based targeting has not yielded any candidates so far. Check
       // if point-based targeting would have selected |cur_view|.
       gfx::Point point_in_child_coords(rect_in_child_coords.CenterPoint());
       if (child->HitTestPoint(point_in_child_coords))
         point_view = child->GetEventHandlerForPoint(point_in_child_coords);
     }
   }

   if (views::UsePointBasedTargeting(rect) || (!rect_view && !point_view))
     return root;

   // If |root| is a suitable candidate for rect-based targeting, check to
   // see if it is closer than the current best suitable candidate so far.
   gfx::Rect local_bounds(root->GetLocalBounds());
   if (views::PercentCoveredBy(local_bounds, rect) >= kRectTargetOverlap) {
     gfx::Point touch_center(rect.CenterPoint());
     int cur_dist = views::DistanceSquaredFromCenterToPoint(touch_center,
                                                            local_bounds);
     if (!rect_view || cur_dist < rect_view_distance)
       rect_view = root;
   }

   return rect_view ? rect_view : point_view;
 }

 }  // namespace views
	// Copyright 2014 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 "ui/views/view_targeter_delegate.h"

	#include <limits.h>

	#include "base/containers/adapters.h"
	#include "ui/gfx/geometry/rect_conversions.h"
	#include "ui/views/rect_based_targeting_utils.h"
	#include "ui/views/view.h"

	namespace {

	// The minimum percentage of a view's area that needs to be covered by a rect
	// representing a touch region in order for that view to be considered by the
	// rect-based targeting algorithm.
	static const float kRectTargetOverlap = 0.6f;

	} // namespace

	namespace views {

	// TODO(tdanderson): Move the contents of rect_based_targeting_utils.(h\|cc)
	// into here.

	bool ViewTargeterDelegate::DoesIntersectRect(const View* target,
	const gfx::Rect& rect) const {
	return target->GetLocalBounds().Intersects(rect);
	}

	View* ViewTargeterDelegate::TargetForRect(View* root, const gfx::Rect& rect) {
	// \|rect_view\| represents the current best candidate to return
	// if rect-based targeting (i.e., fuzzing) is used.
	// \|rect_view_distance\| is used to keep track of the distance
	// between the center point of \|rect_view\| and the center
	// point of \|rect\|.
	View* rect_view = nullptr;
	int rect_view_distance = INT_MAX;

	// \|point_view\| represents the view that would have been returned
	// from this function call if point-based targeting were used.
	View* point_view = nullptr;

	View::Views children = root->GetChildrenInZOrder();
	DCHECK_EQ(root->children().size(), children.size());
	for (auto* child : base::Reversed(children)) {
	if (!child->CanProcessEventsWithinSubtree())
	continue;

	// Ignore any children which are invisible or do not intersect \|rect\|.
	if (!child->visible())
	continue;
	gfx::RectF rect_in_child_coords_f(rect);
	View::ConvertRectToTarget(root, child, &rect_in_child_coords_f);
	gfx::Rect rect_in_child_coords = gfx::ToEnclosingRect(
	rect_in_child_coords_f);
	if (!child->HitTestRect(rect_in_child_coords))
	continue;

	View* cur_view = child->GetEventHandlerForRect(rect_in_child_coords);

	if (views::UsePointBasedTargeting(rect))
	return cur_view;

	gfx::RectF cur_view_bounds_f(cur_view->GetLocalBounds());
	View::ConvertRectToTarget(cur_view, root, &cur_view_bounds_f);
	gfx::Rect cur_view_bounds = gfx::ToEnclosingRect(
	cur_view_bounds_f);
	if (views::PercentCoveredBy(cur_view_bounds, rect) >= kRectTargetOverlap) {
	// \|cur_view\| is a suitable candidate for rect-based targeting.
	// Check to see if it is the closest suitable candidate so far.
	gfx::Point touch_center(rect.CenterPoint());
	int cur_dist = views::DistanceSquaredFromCenterToPoint(touch_center,
	cur_view_bounds);
	if (!rect_view \|\| cur_dist < rect_view_distance) {
	rect_view = cur_view;
	rect_view_distance = cur_dist;
	}
	} else if (!rect_view && !point_view) {
	// Rect-based targeting has not yielded any candidates so far. Check
	// if point-based targeting would have selected \|cur_view\|.
	gfx::Point point_in_child_coords(rect_in_child_coords.CenterPoint());
	if (child->HitTestPoint(point_in_child_coords))
	point_view = child->GetEventHandlerForPoint(point_in_child_coords);
	}
	}

	if (views::UsePointBasedTargeting(rect) \|\| (!rect_view && !point_view))
	return root;

	// If \|root\| is a suitable candidate for rect-based targeting, check to
	// see if it is closer than the current best suitable candidate so far.
	gfx::Rect local_bounds(root->GetLocalBounds());
	if (views::PercentCoveredBy(local_bounds, rect) >= kRectTargetOverlap) {
	gfx::Point touch_center(rect.CenterPoint());
	int cur_dist = views::DistanceSquaredFromCenterToPoint(touch_center,
	local_bounds);
	if (!rect_view \|\| cur_dist < rect_view_distance)
	rect_view = root;
	}

	return rect_view ? rect_view : point_view;
	}

	} // namespace views