src/cobalt/debug/remote/devtools/front_end/timeline_model/TracingLayerTree.js - cobalt - Git at Google

 // Copyright 2016 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.
 /** @typedef {!{
         bounds: {height: number, width: number},
         children: Array.<!TimelineModel.TracingLayerPayload>,
         layer_id: number,
         position: Array.<number>,
         scroll_offset: Array.<number>,
         layer_quad: Array.<number>,
         draws_content: number,
         gpu_memory_usage: number,
         transform: Array.<number>,
         owner_node: number,
         compositing_reasons: Array.<string>
     }}
 */
 TimelineModel.TracingLayerPayload;

 /** @typedef {!{
         id: string,
         layer_id: string,
         gpu_memory_usage: number,
         content_rect: !Array.<number>
     }}
 */
 TimelineModel.TracingLayerTile;

 /**
  * @unrestricted
  */
 TimelineModel.TracingLayerTree = class extends SDK.LayerTreeBase {
   /**
    * @param {?SDK.Target} target
    */
   constructor(target) {
     super(target);
     /** @type {!Map.<string, !TimelineModel.TracingLayerTile>} */
     this._tileById = new Map();
     this._paintProfilerModel = target && target.model(SDK.PaintProfilerModel);
   }

   /**
    * @param {?TimelineModel.TracingLayerPayload} root
    * @param {?Array<!TimelineModel.TracingLayerPayload>} layers
    * @param {!Array<!TimelineModel.LayerPaintEvent>} paints
    * @return {!Promise}
    */
   async setLayers(root, layers, paints) {
     const idsToResolve = new Set();
     if (root) {
       // This is a legacy code path for compatibility, as cc is removing
       // layer tree hierarchy, this code will eventually be removed.
       this._extractNodeIdsToResolve(idsToResolve, {}, root);
     } else {
       for (let i = 0; i < layers.length; ++i)
         this._extractNodeIdsToResolve(idsToResolve, {}, layers[i]);
     }

     await this.resolveBackendNodeIds(idsToResolve);

     const oldLayersById = this._layersById;
     this._layersById = {};
     this.setContentRoot(null);
     if (root) {
       const convertedLayers = this._innerSetLayers(oldLayersById, root);
       this.setRoot(convertedLayers);
     } else {
       const processedLayers = layers.map(this._innerSetLayers.bind(this, oldLayersById));
       const contentRoot = this.contentRoot();
       this.setRoot(contentRoot);
       for (let i = 0; i < processedLayers.length; ++i) {
         if (processedLayers[i].id() !== contentRoot.id())
           contentRoot.addChild(processedLayers[i]);
       }
     }
     this._setPaints(paints);
   }

   /**
    * @param {!Array.<!TimelineModel.TracingLayerTile>} tiles
    */
   setTiles(tiles) {
     this._tileById = new Map();
     for (const tile of tiles)
       this._tileById.set(tile.id, tile);
   }

   /**
    * @param {string} tileId
    * @return {!Promise<?SDK.SnapshotWithRect>}
    */
   pictureForRasterTile(tileId) {
     const tile = this._tileById.get('cc::Tile/' + tileId);
     if (!tile) {
       Common.console.error(`Tile ${tileId} is missing`);
       return /** @type {!Promise<?SDK.SnapshotWithRect>} */ (Promise.resolve(null));
     }
     const layer = this.layerById(tile.layer_id);
     if (!layer) {
       Common.console.error(`Layer ${tile.layer_id} for tile ${tileId} is not found`);
       return /** @type {!Promise<?SDK.SnapshotWithRect>} */ (Promise.resolve(null));
     }
     return layer._pictureForRect(tile.content_rect);
   }

   /**
    * @param {!Array<!TimelineModel.LayerPaintEvent>} paints
    */
   _setPaints(paints) {
     for (let i = 0; i < paints.length; ++i) {
       const layer = this._layersById[paints[i].layerId()];
       if (layer)
         layer._addPaintEvent(paints[i]);
     }
   }

   /**
    * @param {!Object<(string|number), !SDK.Layer>} oldLayersById
    * @param {!TimelineModel.TracingLayerPayload} payload
    * @return {!TimelineModel.TracingLayer}
    */
   _innerSetLayers(oldLayersById, payload) {
     let layer = /** @type {?TimelineModel.TracingLayer} */ (oldLayersById[payload.layer_id]);
     if (layer)
       layer._reset(payload);
     else
       layer = new TimelineModel.TracingLayer(this._paintProfilerModel, payload);
     this._layersById[payload.layer_id] = layer;
     if (payload.owner_node)
       layer._setNode(this.backendNodeIdToNode().get(payload.owner_node) || null);
     if (!this.contentRoot() && layer.drawsContent())
       this.setContentRoot(layer);
     for (let i = 0; payload.children && i < payload.children.length; ++i)
       layer.addChild(this._innerSetLayers(oldLayersById, payload.children[i]));
     return layer;
   }

   /**
    * @param {!Set<number>} nodeIdsToResolve
    * @param {!Object} seenNodeIds
    * @param {!TimelineModel.TracingLayerPayload} payload
    */
   _extractNodeIdsToResolve(nodeIdsToResolve, seenNodeIds, payload) {
     const backendNodeId = payload.owner_node;
     if (backendNodeId && !this.backendNodeIdToNode().has(backendNodeId))
       nodeIdsToResolve.add(backendNodeId);
     for (let i = 0; payload.children && i < payload.children.length; ++i)
       this._extractNodeIdsToResolve(nodeIdsToResolve, seenNodeIds, payload.children[i]);
   }
 };

 /**
  * @implements {SDK.Layer}
  * @unrestricted
  */
 TimelineModel.TracingLayer = class {
   /**
    * @param {?SDK.PaintProfilerModel} paintProfilerModel
    * @param {!TimelineModel.TracingLayerPayload} payload
    */
   constructor(paintProfilerModel, payload) {
     this._paintProfilerModel = paintProfilerModel;
     this._reset(payload);
   }

   /**
    * @param {!TimelineModel.TracingLayerPayload} payload
    */
   _reset(payload) {
     /** @type {?SDK.DOMNode} */
     this._node = null;
     this._layerId = String(payload.layer_id);
     this._offsetX = payload.position[0];
     this._offsetY = payload.position[1];
     this._width = payload.bounds.width;
     this._height = payload.bounds.height;
     this._children = [];
     this._parentLayerId = null;
     this._parent = null;
     this._quad = payload.layer_quad || [];
     this._createScrollRects(payload);
     this._compositingReasons = payload.compositing_reasons || [];
     this._drawsContent = !!payload.draws_content;
     this._gpuMemoryUsage = payload.gpu_memory_usage;
     this._paints = [];
   }

   /**
    * @override
    * @return {string}
    */
   id() {
     return this._layerId;
   }

   /**
    * @override
    * @return {?string}
    */
   parentId() {
     return this._parentLayerId;
   }

   /**
    * @override
    * @return {?SDK.Layer}
    */
   parent() {
     return this._parent;
   }

   /**
    * @override
    * @return {boolean}
    */
   isRoot() {
     return !this.parentId();
   }

   /**
    * @override
    * @return {!Array.<!SDK.Layer>}
    */
   children() {
     return this._children;
   }

   /**
    * @override
    * @param {!SDK.Layer} child
    */
   addChild(child) {
     if (child._parent)
       console.assert(false, 'Child already has a parent');
     this._children.push(child);
     child._parent = this;
     child._parentLayerId = this._layerId;
   }

   /**
    * @param {?SDK.DOMNode} node
    */
   _setNode(node) {
     this._node = node;
   }

   /**
    * @override
    * @return {?SDK.DOMNode}
    */
   node() {
     return this._node;
   }

   /**
    * @override
    * @return {?SDK.DOMNode}
    */
   nodeForSelfOrAncestor() {
     for (let layer = this; layer; layer = layer._parent) {
       if (layer._node)
         return layer._node;
     }
     return null;
   }

   /**
    * @override
    * @return {number}
    */
   offsetX() {
     return this._offsetX;
   }

   /**
    * @override
    * @return {number}
    */
   offsetY() {
     return this._offsetY;
   }

   /**
    * @override
    * @return {number}
    */
   width() {
     return this._width;
   }

   /**
    * @override
    * @return {number}
    */
   height() {
     return this._height;
   }

   /**
    * @override
    * @return {?Array.<number>}
    */
   transform() {
     return null;
   }

   /**
    * @override
    * @return {!Array.<number>}
    */
   quad() {
     return this._quad;
   }

   /**
    * @override
    * @return {!Array.<number>}
    */
   anchorPoint() {
     return [0.5, 0.5, 0];
   }

   /**
    * @override
    * @return {boolean}
    */
   invisible() {
     return false;
   }

   /**
    * @override
    * @return {number}
    */
   paintCount() {
     return 0;
   }

   /**
    * @override
    * @return {?Protocol.DOM.Rect}
    */
   lastPaintRect() {
     return null;
   }

   /**
    * @override
    * @return {!Array.<!Protocol.LayerTree.ScrollRect>}
    */
   scrollRects() {
     return this._scrollRects;
   }

   /**
    * @override
    * @return {?SDK.Layer.StickyPositionConstraint}
    */
   stickyPositionConstraint() {
     // TODO(smcgruer): Provide sticky layer information in traces.
     return null;
   }

   /**
    * @override
    * @return {number}
    */
   gpuMemoryUsage() {
     return this._gpuMemoryUsage;
   }

   /**
    * @override
    * @return {!Array<!Promise<?SDK.SnapshotWithRect>>}
    */
   snapshots() {
     return this._paints.map(paint => paint.snapshotPromise().then(snapshot => {
       if (!snapshot)
         return null;
       const rect = {x: snapshot.rect[0], y: snapshot.rect[1], width: snapshot.rect[2], height: snapshot.rect[3]};
       return {rect: rect, snapshot: snapshot.snapshot};
     }));
   }

   /**
    * @param {!Array<number>} targetRect
    * @return {!Promise<?SDK.SnapshotWithRect>}
    */
   _pictureForRect(targetRect) {
     return Promise.all(this._paints.map(paint => paint.picturePromise())).then(pictures => {
       const fragments =
           pictures.filter(picture => picture && rectsOverlap(picture.rect, targetRect))
               .map(picture => ({x: picture.rect[0], y: picture.rect[1], picture: picture.serializedPicture}));
       if (!fragments.length || !this._paintProfilerModel)
         return null;
       const x0 = fragments.reduce((min, item) => Math.min(min, item.x), Infinity);
       const y0 = fragments.reduce((min, item) => Math.min(min, item.y), Infinity);
       // Rect is in layer content coordinates, make it relative to picture by offsetting to the top left corner.
       const rect = {x: targetRect[0] - x0, y: targetRect[1] - y0, width: targetRect[2], height: targetRect[3]};
       return this._paintProfilerModel.loadSnapshotFromFragments(fragments).then(
           snapshot => snapshot ? {rect: rect, snapshot: snapshot} : null);
     });

     /**
      * @param {number} a1
      * @param {number} a2
      * @param {number} b1
      * @param {number} b2
      * @return {boolean}
      */
     function segmentsOverlap(a1, a2, b1, b2) {
       console.assert(a1 <= a2 && b1 <= b2, 'segments should be specified as ordered pairs');
       return a2 > b1 && a1 < b2;
     }

     /**
      * @param {!Array.<number>} a
      * @param {!Array.<number>} b
      * @return {boolean}
      */
     function rectsOverlap(a, b) {
       return segmentsOverlap(a[0], a[0] + a[2], b[0], b[0] + b[2]) &&
           segmentsOverlap(a[1], a[1] + a[3], b[1], b[1] + b[3]);
     }
   }

   /**
    * @param {!Array.<number>} params
    * @param {string} type
    * @return {!Object}
    */
   _scrollRectsFromParams(params, type) {
     return {rect: {x: params[0], y: params[1], width: params[2], height: params[3]}, type: type};
   }

   /**
    * @param {!TimelineModel.TracingLayerPayload} payload
    */
   _createScrollRects(payload) {
     this._scrollRects = [];
     if (payload.non_fast_scrollable_region) {
       this._scrollRects.push(this._scrollRectsFromParams(
           payload.non_fast_scrollable_region, SDK.Layer.ScrollRectType.NonFastScrollable.name));
     }
     if (payload.touch_event_handler_region) {
       this._scrollRects.push(this._scrollRectsFromParams(
           payload.touch_event_handler_region, SDK.Layer.ScrollRectType.TouchEventHandler.name));
     }
     if (payload.wheel_event_handler_region) {
       this._scrollRects.push(this._scrollRectsFromParams(
           payload.wheel_event_handler_region, SDK.Layer.ScrollRectType.WheelEventHandler.name));
     }
     if (payload.scroll_event_handler_region) {
       this._scrollRects.push(this._scrollRectsFromParams(
           payload.scroll_event_handler_region, SDK.Layer.ScrollRectType.RepaintsOnScroll.name));
     }
   }

   /**
    * @param {!TimelineModel.LayerPaintEvent} paint
    */
   _addPaintEvent(paint) {
     this._paints.push(paint);
   }

   /**
    * @override
    * @return {!Promise<!Array<string>>}
    */
   requestCompositingReasons() {
     return Promise.resolve(this._compositingReasons);
   }

   /**
    * @override
    * @return {boolean}
    */
   drawsContent() {
     return this._drawsContent;
   }
 };
	// Copyright 2016 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.
	/** @typedef {!{
	bounds: {height: number, width: number},
	children: Array.<!TimelineModel.TracingLayerPayload>,
	layer_id: number,
	position: Array.<number>,
	scroll_offset: Array.<number>,
	layer_quad: Array.<number>,
	draws_content: number,
	gpu_memory_usage: number,
	transform: Array.<number>,
	owner_node: number,
	compositing_reasons: Array.<string>
	}}
	*/
	TimelineModel.TracingLayerPayload;

	/** @typedef {!{
	id: string,
	layer_id: string,
	gpu_memory_usage: number,
	content_rect: !Array.<number>
	}}
	*/
	TimelineModel.TracingLayerTile;

	/**
	* @unrestricted
	*/
	TimelineModel.TracingLayerTree = class extends SDK.LayerTreeBase {
	/**
	* @param {?SDK.Target} target
	*/
	constructor(target) {
	super(target);
	/** @type {!Map.<string, !TimelineModel.TracingLayerTile>} */
	this._tileById = new Map();
	this._paintProfilerModel = target && target.model(SDK.PaintProfilerModel);
	}

	/**
	* @param {?TimelineModel.TracingLayerPayload} root
	* @param {?Array<!TimelineModel.TracingLayerPayload>} layers
	* @param {!Array<!TimelineModel.LayerPaintEvent>} paints
	* @return {!Promise}
	*/
	async setLayers(root, layers, paints) {
	const idsToResolve = new Set();
	if (root) {
	// This is a legacy code path for compatibility, as cc is removing
	// layer tree hierarchy, this code will eventually be removed.
	this._extractNodeIdsToResolve(idsToResolve, {}, root);
	} else {
	for (let i = 0; i < layers.length; ++i)
	this._extractNodeIdsToResolve(idsToResolve, {}, layers[i]);
	}

	await this.resolveBackendNodeIds(idsToResolve);

	const oldLayersById = this._layersById;
	this._layersById = {};
	this.setContentRoot(null);
	if (root) {
	const convertedLayers = this._innerSetLayers(oldLayersById, root);
	this.setRoot(convertedLayers);
	} else {
	const processedLayers = layers.map(this._innerSetLayers.bind(this, oldLayersById));
	const contentRoot = this.contentRoot();
	this.setRoot(contentRoot);
	for (let i = 0; i < processedLayers.length; ++i) {
	if (processedLayers[i].id() !== contentRoot.id())
	contentRoot.addChild(processedLayers[i]);
	}
	}
	this._setPaints(paints);
	}

	/**
	* @param {!Array.<!TimelineModel.TracingLayerTile>} tiles
	*/
	setTiles(tiles) {
	this._tileById = new Map();
	for (const tile of tiles)
	this._tileById.set(tile.id, tile);
	}

	/**
	* @param {string} tileId
	* @return {!Promise<?SDK.SnapshotWithRect>}
	*/
	pictureForRasterTile(tileId) {
	const tile = this._tileById.get('cc::Tile/' + tileId);
	if (!tile) {
	Common.console.error(`Tile ${tileId} is missing`);
	return /** @type {!Promise<?SDK.SnapshotWithRect>} */ (Promise.resolve(null));
	}
	const layer = this.layerById(tile.layer_id);
	if (!layer) {
	Common.console.error(`Layer ${tile.layer_id} for tile ${tileId} is not found`);
	return /** @type {!Promise<?SDK.SnapshotWithRect>} */ (Promise.resolve(null));
	}
	return layer._pictureForRect(tile.content_rect);
	}

	/**
	* @param {!Array<!TimelineModel.LayerPaintEvent>} paints
	*/
	_setPaints(paints) {
	for (let i = 0; i < paints.length; ++i) {
	const layer = this._layersById[paints[i].layerId()];
	if (layer)
	layer._addPaintEvent(paints[i]);
	}
	}

	/**
	* @param {!Object<(string\|number), !SDK.Layer>} oldLayersById
	* @param {!TimelineModel.TracingLayerPayload} payload
	* @return {!TimelineModel.TracingLayer}
	*/
	_innerSetLayers(oldLayersById, payload) {
	let layer = /** @type {?TimelineModel.TracingLayer} */ (oldLayersById[payload.layer_id]);
	if (layer)
	layer._reset(payload);
	else
	layer = new TimelineModel.TracingLayer(this._paintProfilerModel, payload);
	this._layersById[payload.layer_id] = layer;
	if (payload.owner_node)
	layer._setNode(this.backendNodeIdToNode().get(payload.owner_node) \|\| null);
	if (!this.contentRoot() && layer.drawsContent())
	this.setContentRoot(layer);
	for (let i = 0; payload.children && i < payload.children.length; ++i)
	layer.addChild(this._innerSetLayers(oldLayersById, payload.children[i]));
	return layer;
	}

	/**
	* @param {!Set<number>} nodeIdsToResolve
	* @param {!Object} seenNodeIds
	* @param {!TimelineModel.TracingLayerPayload} payload
	*/
	_extractNodeIdsToResolve(nodeIdsToResolve, seenNodeIds, payload) {
	const backendNodeId = payload.owner_node;
	if (backendNodeId && !this.backendNodeIdToNode().has(backendNodeId))
	nodeIdsToResolve.add(backendNodeId);
	for (let i = 0; payload.children && i < payload.children.length; ++i)
	this._extractNodeIdsToResolve(nodeIdsToResolve, seenNodeIds, payload.children[i]);
	}
	};

	/**
	* @implements {SDK.Layer}
	* @unrestricted
	*/
	TimelineModel.TracingLayer = class {
	/**
	* @param {?SDK.PaintProfilerModel} paintProfilerModel
	* @param {!TimelineModel.TracingLayerPayload} payload
	*/
	constructor(paintProfilerModel, payload) {
	this._paintProfilerModel = paintProfilerModel;
	this._reset(payload);
	}

	/**
	* @param {!TimelineModel.TracingLayerPayload} payload
	*/
	_reset(payload) {
	/** @type {?SDK.DOMNode} */
	this._node = null;
	this._layerId = String(payload.layer_id);
	this._offsetX = payload.position[0];
	this._offsetY = payload.position[1];
	this._width = payload.bounds.width;
	this._height = payload.bounds.height;
	this._children = [];
	this._parentLayerId = null;
	this._parent = null;
	this._quad = payload.layer_quad \|\| [];
	this._createScrollRects(payload);
	this._compositingReasons = payload.compositing_reasons \|\| [];
	this._drawsContent = !!payload.draws_content;
	this._gpuMemoryUsage = payload.gpu_memory_usage;
	this._paints = [];
	}

	/**
	* @override
	* @return {string}
	*/
	id() {
	return this._layerId;
	}

	/**
	* @override
	* @return {?string}
	*/
	parentId() {
	return this._parentLayerId;
	}

	/**
	* @override
	* @return {?SDK.Layer}
	*/
	parent() {
	return this._parent;
	}

	/**
	* @override
	* @return {boolean}
	*/
	isRoot() {
	return !this.parentId();
	}

	/**
	* @override
	* @return {!Array.<!SDK.Layer>}
	*/
	children() {
	return this._children;
	}

	/**
	* @override
	* @param {!SDK.Layer} child
	*/
	addChild(child) {
	if (child._parent)
	console.assert(false, 'Child already has a parent');
	this._children.push(child);
	child._parent = this;
	child._parentLayerId = this._layerId;
	}

	/**
	* @param {?SDK.DOMNode} node
	*/
	_setNode(node) {
	this._node = node;
	}

	/**
	* @override
	* @return {?SDK.DOMNode}
	*/
	node() {
	return this._node;
	}

	/**
	* @override
	* @return {?SDK.DOMNode}
	*/
	nodeForSelfOrAncestor() {
	for (let layer = this; layer; layer = layer._parent) {
	if (layer._node)
	return layer._node;
	}
	return null;
	}

	/**
	* @override
	* @return {number}
	*/
	offsetX() {
	return this._offsetX;
	}

	/**
	* @override
	* @return {number}
	*/
	offsetY() {
	return this._offsetY;
	}

	/**
	* @override
	* @return {number}
	*/
	width() {
	return this._width;
	}

	/**
	* @override
	* @return {number}
	*/
	height() {
	return this._height;
	}

	/**
	* @override
	* @return {?Array.<number>}
	*/
	transform() {
	return null;
	}

	/**
	* @override
	* @return {!Array.<number>}
	*/
	quad() {
	return this._quad;
	}

	/**
	* @override
	* @return {!Array.<number>}
	*/
	anchorPoint() {
	return [0.5, 0.5, 0];
	}

	/**
	* @override
	* @return {boolean}
	*/
	invisible() {
	return false;
	}

	/**
	* @override
	* @return {number}
	*/
	paintCount() {
	return 0;
	}

	/**
	* @override
	* @return {?Protocol.DOM.Rect}
	*/
	lastPaintRect() {
	return null;
	}

	/**
	* @override
	* @return {!Array.<!Protocol.LayerTree.ScrollRect>}
	*/
	scrollRects() {
	return this._scrollRects;
	}

	/**
	* @override
	* @return {?SDK.Layer.StickyPositionConstraint}
	*/
	stickyPositionConstraint() {
	// TODO(smcgruer): Provide sticky layer information in traces.
	return null;
	}

	/**
	* @override
	* @return {number}
	*/
	gpuMemoryUsage() {
	return this._gpuMemoryUsage;
	}

	/**
	* @override
	* @return {!Array<!Promise<?SDK.SnapshotWithRect>>}
	*/
	snapshots() {
	return this._paints.map(paint => paint.snapshotPromise().then(snapshot => {
	if (!snapshot)
	return null;
	const rect = {x: snapshot.rect[0], y: snapshot.rect[1], width: snapshot.rect[2], height: snapshot.rect[3]};
	return {rect: rect, snapshot: snapshot.snapshot};
	}));
	}

	/**
	* @param {!Array<number>} targetRect
	* @return {!Promise<?SDK.SnapshotWithRect>}
	*/
	_pictureForRect(targetRect) {
	return Promise.all(this._paints.map(paint => paint.picturePromise())).then(pictures => {
	const fragments =
	pictures.filter(picture => picture && rectsOverlap(picture.rect, targetRect))
	.map(picture => ({x: picture.rect[0], y: picture.rect[1], picture: picture.serializedPicture}));
	if (!fragments.length \|\| !this._paintProfilerModel)
	return null;
	const x0 = fragments.reduce((min, item) => Math.min(min, item.x), Infinity);
	const y0 = fragments.reduce((min, item) => Math.min(min, item.y), Infinity);
	// Rect is in layer content coordinates, make it relative to picture by offsetting to the top left corner.
	const rect = {x: targetRect[0] - x0, y: targetRect[1] - y0, width: targetRect[2], height: targetRect[3]};
	return this._paintProfilerModel.loadSnapshotFromFragments(fragments).then(
	snapshot => snapshot ? {rect: rect, snapshot: snapshot} : null);
	});

	/**
	* @param {number} a1
	* @param {number} a2
	* @param {number} b1
	* @param {number} b2
	* @return {boolean}
	*/
	function segmentsOverlap(a1, a2, b1, b2) {
	console.assert(a1 <= a2 && b1 <= b2, 'segments should be specified as ordered pairs');
	return a2 > b1 && a1 < b2;
	}

	/**
	* @param {!Array.<number>} a
	* @param {!Array.<number>} b
	* @return {boolean}
	*/
	function rectsOverlap(a, b) {
	return segmentsOverlap(a[0], a[0] + a[2], b[0], b[0] + b[2]) &&
	segmentsOverlap(a[1], a[1] + a[3], b[1], b[1] + b[3]);
	}
	}

	/**
	* @param {!Array.<number>} params
	* @param {string} type
	* @return {!Object}
	*/
	_scrollRectsFromParams(params, type) {
	return {rect: {x: params[0], y: params[1], width: params[2], height: params[3]}, type: type};
	}

	/**
	* @param {!TimelineModel.TracingLayerPayload} payload
	*/
	_createScrollRects(payload) {
	this._scrollRects = [];
	if (payload.non_fast_scrollable_region) {
	this._scrollRects.push(this._scrollRectsFromParams(
	payload.non_fast_scrollable_region, SDK.Layer.ScrollRectType.NonFastScrollable.name));
	}
	if (payload.touch_event_handler_region) {
	this._scrollRects.push(this._scrollRectsFromParams(
	payload.touch_event_handler_region, SDK.Layer.ScrollRectType.TouchEventHandler.name));
	}
	if (payload.wheel_event_handler_region) {
	this._scrollRects.push(this._scrollRectsFromParams(
	payload.wheel_event_handler_region, SDK.Layer.ScrollRectType.WheelEventHandler.name));
	}
	if (payload.scroll_event_handler_region) {
	this._scrollRects.push(this._scrollRectsFromParams(
	payload.scroll_event_handler_region, SDK.Layer.ScrollRectType.RepaintsOnScroll.name));
	}
	}

	/**
	* @param {!TimelineModel.LayerPaintEvent} paint
	*/
	_addPaintEvent(paint) {
	this._paints.push(paint);
	}

	/**
	* @override
	* @return {!Promise<!Array<string>>}
	*/
	requestCompositingReasons() {
	return Promise.resolve(this._compositingReasons);
	}

	/**
	* @override
	* @return {boolean}
	*/
	drawsContent() {
	return this._drawsContent;
	}
	};