content/renderer/paint_aggregator.cc - chromium/src - Git at Google

 // Copyright (c) 2009 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/paint_aggregator.h"

 #include "base/logging.h"
 #include "base/metrics/histogram.h"

 // ----------------------------------------------------------------------------
 // ALGORITHM NOTES
 //
 // We attempt to maintain a scroll rect in the presence of invalidations that
 // are contained within the scroll rect.  If an invalidation crosses a scroll
 // rect, then we just treat the scroll rect as an invalidation rect.
 //
 // For invalidations performed prior to scrolling and contained within the
 // scroll rect, we offset the invalidation rects to account for the fact that
 // the consumer will perform scrolling before painting.
 //
 // We only support scrolling along one axis at a time.  A diagonal scroll will
 // therefore be treated as an invalidation.
 // ----------------------------------------------------------------------------

 // If the combined area of paint rects contained within the scroll rect grows
 // too large, then we might as well just treat the scroll rect as a paint rect.
 // This constant sets the max ratio of paint rect area to scroll rect area that
 // we will tolerate before dograding the scroll into a repaint.
 static const float kMaxRedundantPaintToScrollArea = 0.8f;

 // The maximum number of paint rects.  If we exceed this limit, then we'll
 // start combining paint rects (see CombinePaintRects).  This limiting is
 // important since the WebKit code associated with deciding what to paint given
 // a paint rect can be significant.
 static const size_t kMaxPaintRects = 5;

 // If the combined area of paint rects divided by the area of the union of all
 // paint rects exceeds this threshold, then we will combine the paint rects.
 static const float kMaxPaintRectsAreaRatio = 0.7f;

 PaintAggregator::PendingUpdate::PendingUpdate() {}

 PaintAggregator::PendingUpdate::~PendingUpdate() {}

 gfx::Rect PaintAggregator::PendingUpdate::GetScrollDamage() const {
   // Should only be scrolling in one direction at a time.
   DCHECK(!(scroll_delta.x() && scroll_delta.y()));

   gfx::Rect damaged_rect;

   // Compute the region we will expose by scrolling, and paint that into a
   // shared memory section.
   if (scroll_delta.x()) {
     int dx = scroll_delta.x();
     damaged_rect.set_y(scroll_rect.y());
     damaged_rect.set_height(scroll_rect.height());
     if (dx > 0) {
       damaged_rect.set_x(scroll_rect.x());
       damaged_rect.set_width(dx);
     } else {
       damaged_rect.set_x(scroll_rect.right() + dx);
       damaged_rect.set_width(-dx);
     }
   } else {
     int dy = scroll_delta.y();
     damaged_rect.set_x(scroll_rect.x());
     damaged_rect.set_width(scroll_rect.width());
     if (dy > 0) {
       damaged_rect.set_y(scroll_rect.y());
       damaged_rect.set_height(dy);
     } else {
       damaged_rect.set_y(scroll_rect.bottom() + dy);
       damaged_rect.set_height(-dy);
     }
   }

   // In case the scroll offset exceeds the width/height of the scroll rect
   return scroll_rect.Intersect(damaged_rect);
 }

 gfx::Rect PaintAggregator::PendingUpdate::GetPaintBounds() const {
   gfx::Rect bounds;
   for (size_t i = 0; i < paint_rects.size(); ++i)
     bounds = bounds.Union(paint_rects[i]);
   return bounds;
 }

 bool PaintAggregator::HasPendingUpdate() const {
   return !update_.scroll_rect.IsEmpty() || !update_.paint_rects.empty();
 }

 void PaintAggregator::ClearPendingUpdate() {
   update_ = PendingUpdate();
 }

 void PaintAggregator::PopPendingUpdate(PendingUpdate* update) {
   // Combine paint rects if their combined area is not sufficiently less than
   // the area of the union of all paint rects.  We skip this if there is a
   // scroll rect since scrolling benefits from smaller paint rects.
   if (update_.scroll_rect.IsEmpty() && update_.paint_rects.size() > 1) {
     int paint_area = 0;
     gfx::Rect union_rect;
     for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
       paint_area += update_.paint_rects[i].size().GetArea();
       union_rect = union_rect.Union(update_.paint_rects[i]);
     }
     int union_area = union_rect.size().GetArea();
     if (float(paint_area) / float(union_area) > kMaxPaintRectsAreaRatio)
       CombinePaintRects();
   }
   *update = update_;
   ClearPendingUpdate();
 }

 void PaintAggregator::InvalidateRect(const gfx::Rect& rect) {
   // Combine overlapping paints using smallest bounding box.
   for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
     const gfx::Rect& existing_rect = update_.paint_rects[i];
     if (existing_rect.Contains(rect))  // Optimize out redundancy.
       return;
     if (rect.Intersects(existing_rect) || rect.SharesEdgeWith(existing_rect)) {
       // Re-invalidate in case the union intersects other paint rects.
       gfx::Rect combined_rect = existing_rect.Union(rect);
       update_.paint_rects.erase(update_.paint_rects.begin() + i);
       InvalidateRect(combined_rect);
       return;
     }
   }

   // Add a non-overlapping paint.
   update_.paint_rects.push_back(rect);

   // If the new paint overlaps with a scroll, then it forces an invalidation of
   // the scroll.  If the new paint is contained by a scroll, then trim off the
   // scroll damage to avoid redundant painting.
   if (!update_.scroll_rect.IsEmpty()) {
     if (ShouldInvalidateScrollRect(rect)) {
       InvalidateScrollRect();
     } else if (update_.scroll_rect.Contains(rect)) {
       update_.paint_rects[update_.paint_rects.size() - 1] =
           rect.Subtract(update_.GetScrollDamage());
       if (update_.paint_rects[update_.paint_rects.size() - 1].IsEmpty())
         update_.paint_rects.erase(update_.paint_rects.end() - 1);
     }
   }

   if (update_.paint_rects.size() > kMaxPaintRects)
     CombinePaintRects();

   // Track how large the paint_rects vector grows during an invalidation
   // sequence.  Note: A subsequent invalidation may end up being combined
   // with all existing paints, which means that tracking the size of
   // paint_rects at the time when PopPendingUpdate() is called may mask
   // certain performance problems.
   HISTOGRAM_COUNTS_100("MPArch.RW_IntermediatePaintRectCount",
                        update_.paint_rects.size());
 }

 void PaintAggregator::ScrollRect(int dx, int dy, const gfx::Rect& clip_rect) {
   // We only support scrolling along one axis at a time.
   if (dx != 0 && dy != 0) {
     InvalidateRect(clip_rect);
     return;
   }

   // We can only scroll one rect at a time.
   if (!update_.scroll_rect.IsEmpty() &&
       !update_.scroll_rect.Equals(clip_rect)) {
     InvalidateRect(clip_rect);
     return;
   }

   // Again, we only support scrolling along one axis at a time.  Make sure this
   // update doesn't scroll on a different axis than any existing one.
   if ((dx && update_.scroll_delta.y()) || (dy && update_.scroll_delta.x())) {
     InvalidateRect(clip_rect);
     return;
   }

   // The scroll rect is new or isn't changing (though the scroll amount may
   // be changing).
   update_.scroll_rect = clip_rect;
   update_.scroll_delta.Offset(dx, dy);

   // We might have just wiped out a pre-existing scroll.
   if (update_.scroll_delta == gfx::Point()) {
     update_.scroll_rect = gfx::Rect();
     return;
   }

   // Adjust any contained paint rects and check for any overlapping paints.
   for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
     if (update_.scroll_rect.Contains(update_.paint_rects[i])) {
       update_.paint_rects[i] = ScrollPaintRect(update_.paint_rects[i], dx, dy);
       // The rect may have been scrolled out of view.
       if (update_.paint_rects[i].IsEmpty()) {
         update_.paint_rects.erase(update_.paint_rects.begin() + i);
         i--;
       }
     } else if (update_.scroll_rect.Intersects(update_.paint_rects[i])) {
       InvalidateScrollRect();
       return;
     }
   }

   // If the new scroll overlaps too much with contained paint rects, then force
   // an invalidation of the scroll.
   if (ShouldInvalidateScrollRect(gfx::Rect()))
     InvalidateScrollRect();
 }

 gfx::Rect PaintAggregator::ScrollPaintRect(const gfx::Rect& paint_rect,
                                            int dx, int dy) const {
   gfx::Rect result = paint_rect;

   result.Offset(dx, dy);
   result = update_.scroll_rect.Intersect(result);

   // Subtract out the scroll damage rect to avoid redundant painting.
   return result.Subtract(update_.GetScrollDamage());
 }

 bool PaintAggregator::ShouldInvalidateScrollRect(const gfx::Rect& rect) const {
   if (!rect.IsEmpty()) {
     if (!update_.scroll_rect.Intersects(rect))
       return false;

     if (!update_.scroll_rect.Contains(rect))
       return true;
   }

   // Check if the combined area of all contained paint rects plus this new
   // rect comes too close to the area of the scroll_rect.  If so, then we
   // might as well invalidate the scroll rect.

   int paint_area = rect.size().GetArea();
   for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
     const gfx::Rect& existing_rect = update_.paint_rects[i];
     if (update_.scroll_rect.Contains(existing_rect))
       paint_area += existing_rect.size().GetArea();
   }
   int scroll_area = update_.scroll_rect.size().GetArea();
   if (float(paint_area) / float(scroll_area) > kMaxRedundantPaintToScrollArea)
     return true;

   return false;
 }

 void PaintAggregator::InvalidateScrollRect() {
   gfx::Rect scroll_rect = update_.scroll_rect;
   update_.scroll_rect = gfx::Rect();
   update_.scroll_delta = gfx::Point();
   InvalidateRect(scroll_rect);
 }

 void PaintAggregator::CombinePaintRects() {
   // Combine paint rects do to at most two rects: one inside the scroll_rect
   // and one outside the scroll_rect.  If there is no scroll_rect, then just
   // use the smallest bounding box for all paint rects.
   //
   // NOTE: This is a fairly simple algorithm.  We could get fancier by only
   // combining two rects to get us under the kMaxPaintRects limit, but if we
   // reach this method then it means we're hitting a rare case, so there's no
   // need to over-optimize it.
   //
   if (update_.scroll_rect.IsEmpty()) {
     gfx::Rect bounds = update_.GetPaintBounds();
     update_.paint_rects.clear();
     update_.paint_rects.push_back(bounds);
   } else {
     gfx::Rect inner, outer;
     for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
       const gfx::Rect& existing_rect = update_.paint_rects[i];
       if (update_.scroll_rect.Contains(existing_rect)) {
         inner = inner.Union(existing_rect);
       } else {
         outer = outer.Union(existing_rect);
       }
     }
     update_.paint_rects.clear();
     update_.paint_rects.push_back(inner);
     update_.paint_rects.push_back(outer);
   }
 }
	// Copyright (c) 2009 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/paint_aggregator.h"

	#include "base/logging.h"
	#include "base/metrics/histogram.h"

	// ----------------------------------------------------------------------------
	// ALGORITHM NOTES
	//
	// We attempt to maintain a scroll rect in the presence of invalidations that
	// are contained within the scroll rect. If an invalidation crosses a scroll
	// rect, then we just treat the scroll rect as an invalidation rect.
	//
	// For invalidations performed prior to scrolling and contained within the
	// scroll rect, we offset the invalidation rects to account for the fact that
	// the consumer will perform scrolling before painting.
	//
	// We only support scrolling along one axis at a time. A diagonal scroll will
	// therefore be treated as an invalidation.
	// ----------------------------------------------------------------------------

	// If the combined area of paint rects contained within the scroll rect grows
	// too large, then we might as well just treat the scroll rect as a paint rect.
	// This constant sets the max ratio of paint rect area to scroll rect area that
	// we will tolerate before dograding the scroll into a repaint.
	static const float kMaxRedundantPaintToScrollArea = 0.8f;

	// The maximum number of paint rects. If we exceed this limit, then we'll
	// start combining paint rects (see CombinePaintRects). This limiting is
	// important since the WebKit code associated with deciding what to paint given
	// a paint rect can be significant.
	static const size_t kMaxPaintRects = 5;

	// If the combined area of paint rects divided by the area of the union of all
	// paint rects exceeds this threshold, then we will combine the paint rects.
	static const float kMaxPaintRectsAreaRatio = 0.7f;

	PaintAggregator::PendingUpdate::PendingUpdate() {}

	PaintAggregator::PendingUpdate::~PendingUpdate() {}

	gfx::Rect PaintAggregator::PendingUpdate::GetScrollDamage() const {
	// Should only be scrolling in one direction at a time.
	DCHECK(!(scroll_delta.x() && scroll_delta.y()));

	gfx::Rect damaged_rect;

	// Compute the region we will expose by scrolling, and paint that into a
	// shared memory section.
	if (scroll_delta.x()) {
	int dx = scroll_delta.x();
	damaged_rect.set_y(scroll_rect.y());
	damaged_rect.set_height(scroll_rect.height());
	if (dx > 0) {
	damaged_rect.set_x(scroll_rect.x());
	damaged_rect.set_width(dx);
	} else {
	damaged_rect.set_x(scroll_rect.right() + dx);
	damaged_rect.set_width(-dx);
	}
	} else {
	int dy = scroll_delta.y();
	damaged_rect.set_x(scroll_rect.x());
	damaged_rect.set_width(scroll_rect.width());
	if (dy > 0) {
	damaged_rect.set_y(scroll_rect.y());
	damaged_rect.set_height(dy);
	} else {
	damaged_rect.set_y(scroll_rect.bottom() + dy);
	damaged_rect.set_height(-dy);
	}
	}

	// In case the scroll offset exceeds the width/height of the scroll rect
	return scroll_rect.Intersect(damaged_rect);
	}

	gfx::Rect PaintAggregator::PendingUpdate::GetPaintBounds() const {
	gfx::Rect bounds;
	for (size_t i = 0; i < paint_rects.size(); ++i)
	bounds = bounds.Union(paint_rects[i]);
	return bounds;
	}

	bool PaintAggregator::HasPendingUpdate() const {
	return !update_.scroll_rect.IsEmpty() \|\| !update_.paint_rects.empty();
	}

	void PaintAggregator::ClearPendingUpdate() {
	update_ = PendingUpdate();
	}

	void PaintAggregator::PopPendingUpdate(PendingUpdate* update) {
	// Combine paint rects if their combined area is not sufficiently less than
	// the area of the union of all paint rects. We skip this if there is a
	// scroll rect since scrolling benefits from smaller paint rects.
	if (update_.scroll_rect.IsEmpty() && update_.paint_rects.size() > 1) {
	int paint_area = 0;
	gfx::Rect union_rect;
	for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
	paint_area += update_.paint_rects[i].size().GetArea();
	union_rect = union_rect.Union(update_.paint_rects[i]);
	}
	int union_area = union_rect.size().GetArea();
	if (float(paint_area) / float(union_area) > kMaxPaintRectsAreaRatio)
	CombinePaintRects();
	}
	*update = update_;
	ClearPendingUpdate();
	}

	void PaintAggregator::InvalidateRect(const gfx::Rect& rect) {
	// Combine overlapping paints using smallest bounding box.
	for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
	const gfx::Rect& existing_rect = update_.paint_rects[i];
	if (existing_rect.Contains(rect)) // Optimize out redundancy.
	return;
	if (rect.Intersects(existing_rect) \|\| rect.SharesEdgeWith(existing_rect)) {
	// Re-invalidate in case the union intersects other paint rects.
	gfx::Rect combined_rect = existing_rect.Union(rect);
	update_.paint_rects.erase(update_.paint_rects.begin() + i);
	InvalidateRect(combined_rect);
	return;
	}
	}

	// Add a non-overlapping paint.
	update_.paint_rects.push_back(rect);

	// If the new paint overlaps with a scroll, then it forces an invalidation of
	// the scroll. If the new paint is contained by a scroll, then trim off the
	// scroll damage to avoid redundant painting.
	if (!update_.scroll_rect.IsEmpty()) {
	if (ShouldInvalidateScrollRect(rect)) {
	InvalidateScrollRect();
	} else if (update_.scroll_rect.Contains(rect)) {
	update_.paint_rects[update_.paint_rects.size() - 1] =
	rect.Subtract(update_.GetScrollDamage());
	if (update_.paint_rects[update_.paint_rects.size() - 1].IsEmpty())
	update_.paint_rects.erase(update_.paint_rects.end() - 1);
	}
	}

	if (update_.paint_rects.size() > kMaxPaintRects)
	CombinePaintRects();

	// Track how large the paint_rects vector grows during an invalidation
	// sequence. Note: A subsequent invalidation may end up being combined
	// with all existing paints, which means that tracking the size of
	// paint_rects at the time when PopPendingUpdate() is called may mask
	// certain performance problems.
	HISTOGRAM_COUNTS_100("MPArch.RW_IntermediatePaintRectCount",
	update_.paint_rects.size());
	}

	void PaintAggregator::ScrollRect(int dx, int dy, const gfx::Rect& clip_rect) {
	// We only support scrolling along one axis at a time.
	if (dx != 0 && dy != 0) {
	InvalidateRect(clip_rect);
	return;
	}

	// We can only scroll one rect at a time.
	if (!update_.scroll_rect.IsEmpty() &&
	!update_.scroll_rect.Equals(clip_rect)) {
	InvalidateRect(clip_rect);
	return;
	}

	// Again, we only support scrolling along one axis at a time. Make sure this
	// update doesn't scroll on a different axis than any existing one.
	if ((dx && update_.scroll_delta.y()) \|\| (dy && update_.scroll_delta.x())) {
	InvalidateRect(clip_rect);
	return;
	}

	// The scroll rect is new or isn't changing (though the scroll amount may
	// be changing).
	update_.scroll_rect = clip_rect;
	update_.scroll_delta.Offset(dx, dy);

	// We might have just wiped out a pre-existing scroll.
	if (update_.scroll_delta == gfx::Point()) {
	update_.scroll_rect = gfx::Rect();
	return;
	}

	// Adjust any contained paint rects and check for any overlapping paints.
	for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
	if (update_.scroll_rect.Contains(update_.paint_rects[i])) {
	update_.paint_rects[i] = ScrollPaintRect(update_.paint_rects[i], dx, dy);
	// The rect may have been scrolled out of view.
	if (update_.paint_rects[i].IsEmpty()) {
	update_.paint_rects.erase(update_.paint_rects.begin() + i);
	i--;
	}
	} else if (update_.scroll_rect.Intersects(update_.paint_rects[i])) {
	InvalidateScrollRect();
	return;
	}
	}

	// If the new scroll overlaps too much with contained paint rects, then force
	// an invalidation of the scroll.
	if (ShouldInvalidateScrollRect(gfx::Rect()))
	InvalidateScrollRect();
	}

	gfx::Rect PaintAggregator::ScrollPaintRect(const gfx::Rect& paint_rect,
	int dx, int dy) const {
	gfx::Rect result = paint_rect;

	result.Offset(dx, dy);
	result = update_.scroll_rect.Intersect(result);

	// Subtract out the scroll damage rect to avoid redundant painting.
	return result.Subtract(update_.GetScrollDamage());
	}

	bool PaintAggregator::ShouldInvalidateScrollRect(const gfx::Rect& rect) const {
	if (!rect.IsEmpty()) {
	if (!update_.scroll_rect.Intersects(rect))
	return false;

	if (!update_.scroll_rect.Contains(rect))
	return true;
	}

	// Check if the combined area of all contained paint rects plus this new
	// rect comes too close to the area of the scroll_rect. If so, then we
	// might as well invalidate the scroll rect.

	int paint_area = rect.size().GetArea();
	for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
	const gfx::Rect& existing_rect = update_.paint_rects[i];
	if (update_.scroll_rect.Contains(existing_rect))
	paint_area += existing_rect.size().GetArea();
	}
	int scroll_area = update_.scroll_rect.size().GetArea();
	if (float(paint_area) / float(scroll_area) > kMaxRedundantPaintToScrollArea)
	return true;

	return false;
	}

	void PaintAggregator::InvalidateScrollRect() {
	gfx::Rect scroll_rect = update_.scroll_rect;
	update_.scroll_rect = gfx::Rect();
	update_.scroll_delta = gfx::Point();
	InvalidateRect(scroll_rect);
	}

	void PaintAggregator::CombinePaintRects() {
	// Combine paint rects do to at most two rects: one inside the scroll_rect
	// and one outside the scroll_rect. If there is no scroll_rect, then just
	// use the smallest bounding box for all paint rects.
	//
	// NOTE: This is a fairly simple algorithm. We could get fancier by only
	// combining two rects to get us under the kMaxPaintRects limit, but if we
	// reach this method then it means we're hitting a rare case, so there's no
	// need to over-optimize it.
	//
	if (update_.scroll_rect.IsEmpty()) {
	gfx::Rect bounds = update_.GetPaintBounds();
	update_.paint_rects.clear();
	update_.paint_rects.push_back(bounds);
	} else {
	gfx::Rect inner, outer;
	for (size_t i = 0; i < update_.paint_rects.size(); ++i) {
	const gfx::Rect& existing_rect = update_.paint_rects[i];
	if (update_.scroll_rect.Contains(existing_rect)) {
	inner = inner.Union(existing_rect);
	} else {
	outer = outer.Union(existing_rect);
	}
	}
	update_.paint_rects.clear();
	update_.paint_rects.push_back(inner);
	update_.paint_rects.push_back(outer);
	}
	}