content/renderer/disambiguation_popup_helper.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2012 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 "content/renderer/disambiguation_popup_helper.h"

 #include "third_party/WebKit/public/platform/WebRect.h"
 #include "ui/gfx/size_conversions.h"

 using blink::WebRect;
 using blink::WebVector;

 namespace {

 // The amount of padding to add to the disambiguation popup to show
 // content around the possible elements, adding some context.
 const int kDisambiguationPopupPadding = 8;

 // Constants used for fitting the disambiguation popup inside the bounds of
 // the view. Note that there are mirror constants in PopupZoomer.java.
 const int kDisambiguationPopupBoundsMargin = 25;

 // The smallest allowable touch target used for disambiguation popup.
 // This value is used to determine the minimum amount we need to scale to
 // make all targets touchable.
 const int kDisambiguationPopupMinimumTouchSize = 40;
 const float kDisambiguationPopupMaxScale = 5.0;
 const float kDisambiguationPopupMinScale = 2.0;

 // Compute the scaling factor to ensure the smallest touch candidate reaches
 // a certain clickable size after zooming
 float FindOptimalScaleFactor(const WebVector<WebRect>& target_rects,
                              float total_scale) {
   using std::min;
   using std::max;
   if (!target_rects.size())  // shall never reach
     return kDisambiguationPopupMinScale;
   float smallest_target = min(target_rects[0].width * total_scale,
                               target_rects[0].height * total_scale);
   for (size_t i = 1; i < target_rects.size(); i++) {
     smallest_target = min(smallest_target, target_rects[i].width * total_scale);
     smallest_target = min(smallest_target,
         target_rects[i].height * total_scale);
   }
   smallest_target = max(smallest_target, 1.0f);
   return min(kDisambiguationPopupMaxScale, max(kDisambiguationPopupMinScale,
       kDisambiguationPopupMinimumTouchSize / smallest_target)) * total_scale;
 }

 void TrimEdges(int *e1, int *e2, int max_combined) {
   if (*e1 + *e2 <= max_combined)
     return;

   if (std::min(*e1, *e2) * 2 >= max_combined)
     *e1 = *e2 = max_combined / 2;
   else if (*e1 > *e2)
     *e1 = max_combined - *e2;
   else
     *e2 = max_combined - *e1;
 }

 // Ensure the disambiguation popup fits inside the screen,
 // clip the edges farthest to the touch point if needed.
 gfx::Rect CropZoomArea(const gfx::Rect& zoom_rect,
                        const gfx::Size& viewport_size,
                        const gfx::Point& touch_point,
                        float scale) {
   gfx::Size max_size = viewport_size;
   max_size.Enlarge(-2 * kDisambiguationPopupBoundsMargin,
                    -2 * kDisambiguationPopupBoundsMargin);
   max_size = ToCeiledSize(ScaleSize(max_size, 1.0 / scale));

   int left = touch_point.x() - zoom_rect.x();
   int right = zoom_rect.right() - touch_point.x();
   int top = touch_point.y() - zoom_rect.y();
   int bottom = zoom_rect.bottom() - touch_point.y();
   TrimEdges(&left, &right, max_size.width());
   TrimEdges(&top, &bottom, max_size.height());

   return gfx::Rect(touch_point.x() - left,
                    touch_point.y() - top,
                    left + right,
                    top + bottom);
 }

 }  // namespace

 namespace content {

 float DisambiguationPopupHelper::ComputeZoomAreaAndScaleFactor(
     const gfx::Rect& tap_rect,
     const WebVector<WebRect>& target_rects,
     const gfx::Size& screen_size,
     const gfx::Size& visible_content_size,
     float total_scale,
     gfx::Rect* zoom_rect) {
   *zoom_rect = tap_rect;
   for (size_t i = 0; i < target_rects.size(); i++)
     zoom_rect->Union(gfx::Rect(target_rects[i]));
   zoom_rect->Inset(-kDisambiguationPopupPadding, -kDisambiguationPopupPadding);

   zoom_rect->Intersect(gfx::Rect(visible_content_size));

   float new_total_scale =
       FindOptimalScaleFactor(target_rects, total_scale);
   *zoom_rect = CropZoomArea(
       *zoom_rect, screen_size, tap_rect.CenterPoint(), new_total_scale);

   return new_total_scale;
 }

 }  // namespace content
	// Copyright (c) 2012 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 "content/renderer/disambiguation_popup_helper.h"

	#include "third_party/WebKit/public/platform/WebRect.h"
	#include "ui/gfx/size_conversions.h"

	using blink::WebRect;
	using blink::WebVector;

	namespace {

	// The amount of padding to add to the disambiguation popup to show
	// content around the possible elements, adding some context.
	const int kDisambiguationPopupPadding = 8;

	// Constants used for fitting the disambiguation popup inside the bounds of
	// the view. Note that there are mirror constants in PopupZoomer.java.
	const int kDisambiguationPopupBoundsMargin = 25;

	// The smallest allowable touch target used for disambiguation popup.
	// This value is used to determine the minimum amount we need to scale to
	// make all targets touchable.
	const int kDisambiguationPopupMinimumTouchSize = 40;
	const float kDisambiguationPopupMaxScale = 5.0;
	const float kDisambiguationPopupMinScale = 2.0;

	// Compute the scaling factor to ensure the smallest touch candidate reaches
	// a certain clickable size after zooming
	float FindOptimalScaleFactor(const WebVector<WebRect>& target_rects,
	float total_scale) {
	using std::min;
	using std::max;
	if (!target_rects.size()) // shall never reach
	return kDisambiguationPopupMinScale;
	float smallest_target = min(target_rects[0].width * total_scale,
	target_rects[0].height * total_scale);
	for (size_t i = 1; i < target_rects.size(); i++) {
	smallest_target = min(smallest_target, target_rects[i].width * total_scale);
	smallest_target = min(smallest_target,
	target_rects[i].height * total_scale);
	}
	smallest_target = max(smallest_target, 1.0f);
	return min(kDisambiguationPopupMaxScale, max(kDisambiguationPopupMinScale,
	kDisambiguationPopupMinimumTouchSize / smallest_target)) * total_scale;
	}

	void TrimEdges(int e1, int e2, int max_combined) {
	if (e1 + e2 <= max_combined)
	return;

	if (std::min(e1, e2) * 2 >= max_combined)
	e1 = e2 = max_combined / 2;
	else if (e1 > e2)
	e1 = max_combined - e2;
	else
	e2 = max_combined - e1;
	}

	// Ensure the disambiguation popup fits inside the screen,
	// clip the edges farthest to the touch point if needed.
	gfx::Rect CropZoomArea(const gfx::Rect& zoom_rect,
	const gfx::Size& viewport_size,
	const gfx::Point& touch_point,
	float scale) {
	gfx::Size max_size = viewport_size;
	max_size.Enlarge(-2 * kDisambiguationPopupBoundsMargin,
	-2 * kDisambiguationPopupBoundsMargin);
	max_size = ToCeiledSize(ScaleSize(max_size, 1.0 / scale));

	int left = touch_point.x() - zoom_rect.x();
	int right = zoom_rect.right() - touch_point.x();
	int top = touch_point.y() - zoom_rect.y();
	int bottom = zoom_rect.bottom() - touch_point.y();
	TrimEdges(&left, &right, max_size.width());
	TrimEdges(&top, &bottom, max_size.height());

	return gfx::Rect(touch_point.x() - left,
	touch_point.y() - top,
	left + right,
	top + bottom);
	}

	} // namespace

	namespace content {

	float DisambiguationPopupHelper::ComputeZoomAreaAndScaleFactor(
	const gfx::Rect& tap_rect,
	const WebVector<WebRect>& target_rects,
	const gfx::Size& screen_size,
	const gfx::Size& visible_content_size,
	float total_scale,
	gfx::Rect* zoom_rect) {
	*zoom_rect = tap_rect;
	for (size_t i = 0; i < target_rects.size(); i++)
	zoom_rect->Union(gfx::Rect(target_rects[i]));
	zoom_rect->Inset(-kDisambiguationPopupPadding, -kDisambiguationPopupPadding);

	zoom_rect->Intersect(gfx::Rect(visible_content_size));

	float new_total_scale =
	FindOptimalScaleFactor(target_rects, total_scale);
	*zoom_rect = CropZoomArea(
	*zoom_rect, screen_size, tap_rect.CenterPoint(), new_total_scale);

	return new_total_scale;
	}

	} // namespace content