src/cobalt/debug/devtools/front_end/profiler/HeapSnapshotProxy.js - cobalt - Git at Google

 /*
  * Copyright (C) 2011 Google Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are
  * met:
  *
  *     * Redistributions of source code must retain the above copyrightdd
  * notice, this list of conditions and the following disclaimer.
  *     * Redistributions in binary form must reproduce the above
  * copyright notice, this list of conditions and the following disclaimer
  * in the documentation and/or other materials provided with the
  * distribution.
  *     * Neither the name of Google Inc. nor the names of its
  * contributors may be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 /**
  * @unrestricted
  */
 Profiler.HeapSnapshotWorkerProxy = class extends Common.Object {
   /**
    * @param {function(string, *)} eventHandler
    */
   constructor(eventHandler) {
     super();
     this._eventHandler = eventHandler;
     this._nextObjectId = 1;
     this._nextCallId = 1;
     /** @type {!Map<number, function(*)>} */
     this._callbacks = new Map();
     /** @type {!Set<number>} */
     this._previousCallbacks = new Set();
     this._worker = new Common.Worker('heap_snapshot_worker');
     this._worker.onmessage = this._messageReceived.bind(this);
   }

   /**
    * @param {number} profileUid
    * @param {function(!Profiler.HeapSnapshotProxy)} snapshotReceivedCallback
    * @return {!Profiler.HeapSnapshotLoaderProxy}
    */
   createLoader(profileUid, snapshotReceivedCallback) {
     const objectId = this._nextObjectId++;
     const proxy = new Profiler.HeapSnapshotLoaderProxy(this, objectId, profileUid, snapshotReceivedCallback);
     this._postMessage({
       callId: this._nextCallId++,
       disposition: 'create',
       objectId: objectId,
       methodName: 'HeapSnapshotWorker.HeapSnapshotLoader'
     });
     return proxy;
   }

   dispose() {
     this._worker.terminate();
     if (this._interval)
       clearInterval(this._interval);
   }

   disposeObject(objectId) {
     this._postMessage({callId: this._nextCallId++, disposition: 'dispose', objectId: objectId});
   }

   evaluateForTest(script, callback) {
     const callId = this._nextCallId++;
     this._callbacks.set(callId, callback);
     this._postMessage({callId: callId, disposition: 'evaluateForTest', source: script});
   }

   /**
    * @param {?function(...?)} callback
    * @param {string} objectId
    * @param {string} methodName
    * @param {function(new:T, ...?)} proxyConstructor
    * @return {?Object}
    * @template T
    */
   callFactoryMethod(callback, objectId, methodName, proxyConstructor) {
     const callId = this._nextCallId++;
     const methodArguments = Array.prototype.slice.call(arguments, 4);
     const newObjectId = this._nextObjectId++;

     /**
      * @this {Profiler.HeapSnapshotWorkerProxy}
      */
     function wrapCallback(remoteResult) {
       callback(remoteResult ? new proxyConstructor(this, newObjectId) : null);
     }

     if (callback) {
       this._callbacks.set(callId, wrapCallback.bind(this));
       this._postMessage({
         callId: callId,
         disposition: 'factory',
         objectId: objectId,
         methodName: methodName,
         methodArguments: methodArguments,
         newObjectId: newObjectId
       });
       return null;
     } else {
       this._postMessage({
         callId: callId,
         disposition: 'factory',
         objectId: objectId,
         methodName: methodName,
         methodArguments: methodArguments,
         newObjectId: newObjectId
       });
       return new proxyConstructor(this, newObjectId);
     }
   }

   /**
    * @param {function(*)} callback
    * @param {string} objectId
    * @param {string} methodName
    */
   callMethod(callback, objectId, methodName) {
     const callId = this._nextCallId++;
     const methodArguments = Array.prototype.slice.call(arguments, 3);
     if (callback)
       this._callbacks.set(callId, callback);
     this._postMessage({
       callId: callId,
       disposition: 'method',
       objectId: objectId,
       methodName: methodName,
       methodArguments: methodArguments
     });
   }

   startCheckingForLongRunningCalls() {
     if (this._interval)
       return;
     this._checkLongRunningCalls();
     this._interval = setInterval(this._checkLongRunningCalls.bind(this), 300);
   }

   _checkLongRunningCalls() {
     for (const callId of this._previousCallbacks) {
       if (!this._callbacks.has(callId))
         this._previousCallbacks.delete(callId);
     }
     const hasLongRunningCalls = !!this._previousCallbacks.size;
     this.dispatchEventToListeners(Profiler.HeapSnapshotWorkerProxy.Events.Wait, hasLongRunningCalls);
     for (const callId of this._callbacks.keysArray())
       this._previousCallbacks.add(callId);
   }

   /**
    * @param {!MessageEvent} event
    */
   _messageReceived(event) {
     const data = event.data;
     if (data.eventName) {
       if (this._eventHandler)
         this._eventHandler(data.eventName, data.data);
       return;
     }
     if (data.error) {
       if (data.errorMethodName) {
         Common.console.error(
             Common.UIString('An error occurred when a call to method \'%s\' was requested', data.errorMethodName));
       }
       Common.console.error(data['errorCallStack']);
       this._callbacks.delete(data.callId);
       return;
     }
     if (!this._callbacks.has(data.callId))
       return;
     const callback = this._callbacks.get(data.callId);
     this._callbacks.delete(data.callId);
     callback(data.result);
   }

   _postMessage(message) {
     this._worker.postMessage(message);
   }
 };

 Profiler.HeapSnapshotWorkerProxy.Events = {
   Wait: Symbol('Wait')
 };

 /**
  * @unrestricted
  */
 Profiler.HeapSnapshotProxyObject = class {
   /**
    * @param {!Profiler.HeapSnapshotWorkerProxy} worker
    * @param {number} objectId
    */
   constructor(worker, objectId) {
     this._worker = worker;
     this._objectId = objectId;
   }

   /**
    * @param {string} workerMethodName
    * @param {!Array.<*>} args
    */
   _callWorker(workerMethodName, args) {
     args.splice(1, 0, this._objectId);
     return this._worker[workerMethodName].apply(this._worker, args);
   }

   dispose() {
     this._worker.disposeObject(this._objectId);
   }

   disposeWorker() {
     this._worker.dispose();
   }

   /**
    * @param {?function(...?)} callback
    * @param {string} methodName
    * @param {function (new:T, ...?)} proxyConstructor
    * @param {...*} var_args
    * @return {!T}
    * @template T
    */
   callFactoryMethod(callback, methodName, proxyConstructor, var_args) {
     return this._callWorker('callFactoryMethod', Array.prototype.slice.call(arguments, 0));
   }

   /**
    * @param {string} methodName
    * @param {...*} var_args
    * @return {!Promise.<?T>}
    * @template T
    */
   _callMethodPromise(methodName, var_args) {
     const args = Array.prototype.slice.call(arguments);
     return new Promise(resolve => this._callWorker('callMethod', [resolve, ...args]));
   }
 };

 /**
  * @implements {Common.OutputStream}
  * @unrestricted
  */
 Profiler.HeapSnapshotLoaderProxy = class extends Profiler.HeapSnapshotProxyObject {
   /**
    * @param {!Profiler.HeapSnapshotWorkerProxy} worker
    * @param {number} objectId
    * @param {number} profileUid
    * @param {function(!Profiler.HeapSnapshotProxy)} snapshotReceivedCallback
    */
   constructor(worker, objectId, profileUid, snapshotReceivedCallback) {
     super(worker, objectId);
     this._profileUid = profileUid;
     this._snapshotReceivedCallback = snapshotReceivedCallback;
   }

   /**
    * @override
    * @param {string} chunk
    * @return {!Promise}
    */
   write(chunk) {
     return this._callMethodPromise('write', chunk);
   }

   /**
    * @override
    */
   async close() {
     await this._callMethodPromise('close');
     const snapshotProxy =
         await new Promise(resolve => this.callFactoryMethod(resolve, 'buildSnapshot', Profiler.HeapSnapshotProxy));
     this.dispose();
     snapshotProxy.setProfileUid(this._profileUid);
     await snapshotProxy.updateStaticData();
     this._snapshotReceivedCallback(snapshotProxy);
   }
 };

 /**
  * @unrestricted
  */
 Profiler.HeapSnapshotProxy = class extends Profiler.HeapSnapshotProxyObject {
   /**
    * @param {!Profiler.HeapSnapshotWorkerProxy} worker
    * @param {number} objectId
    */
   constructor(worker, objectId) {
     super(worker, objectId);
     /** @type {?HeapSnapshotModel.StaticData} */
     this._staticData = null;
   }

   /**
    * @param {!HeapSnapshotModel.SearchConfig} searchConfig
    * @param {!HeapSnapshotModel.NodeFilter} filter
    * @return {!Promise<!Array<number>>}
    */
   search(searchConfig, filter) {
     return this._callMethodPromise('search', searchConfig, filter);
   }

   /**
    * @param {!HeapSnapshotModel.NodeFilter} filter
    * @return {!Promise<!Object<string, !HeapSnapshotModel.Aggregate>>}
    */
   aggregatesWithFilter(filter) {
     return this._callMethodPromise('aggregatesWithFilter', filter);
   }

   /**
    * @return {!Promise<!Object.<string, !HeapSnapshotModel.AggregateForDiff>>}
    */
   aggregatesForDiff() {
     return this._callMethodPromise('aggregatesForDiff');
   }

   /**
    * @param {string} baseSnapshotId
    * @param {!Object<string, !HeapSnapshotModel.AggregateForDiff>} baseSnapshotAggregates
    * @return {!Promise<!Object<string, !HeapSnapshotModel.Diff>>}
    */
   calculateSnapshotDiff(baseSnapshotId, baseSnapshotAggregates) {
     return this._callMethodPromise('calculateSnapshotDiff', baseSnapshotId, baseSnapshotAggregates);
   }

   /**
    * @param {number} snapshotObjectId
    * @return {!Promise<?string>}
    */
   nodeClassName(snapshotObjectId) {
     return this._callMethodPromise('nodeClassName', snapshotObjectId);
   }

   /**
    * @param {number} nodeIndex
    * @return {!Profiler.HeapSnapshotProviderProxy}
    */
   createEdgesProvider(nodeIndex) {
     return this.callFactoryMethod(null, 'createEdgesProvider', Profiler.HeapSnapshotProviderProxy, nodeIndex);
   }

   /**
    * @param {number} nodeIndex
    * @return {!Profiler.HeapSnapshotProviderProxy}
    */
   createRetainingEdgesProvider(nodeIndex) {
     return this.callFactoryMethod(null, 'createRetainingEdgesProvider', Profiler.HeapSnapshotProviderProxy, nodeIndex);
   }

   /**
    * @param {string} baseSnapshotId
    * @param {string} className
    * @return {?Profiler.HeapSnapshotProviderProxy}
    */
   createAddedNodesProvider(baseSnapshotId, className) {
     return this.callFactoryMethod(
         null, 'createAddedNodesProvider', Profiler.HeapSnapshotProviderProxy, baseSnapshotId, className);
   }

   /**
    * @param {!Array.<number>} nodeIndexes
    * @return {?Profiler.HeapSnapshotProviderProxy}
    */
   createDeletedNodesProvider(nodeIndexes) {
     return this.callFactoryMethod(null, 'createDeletedNodesProvider', Profiler.HeapSnapshotProviderProxy, nodeIndexes);
   }

   /**
    * @param {function(*):boolean} filter
    * @return {?Profiler.HeapSnapshotProviderProxy}
    */
   createNodesProvider(filter) {
     return this.callFactoryMethod(null, 'createNodesProvider', Profiler.HeapSnapshotProviderProxy, filter);
   }

   /**
    * @param {string} className
    * @param {!HeapSnapshotModel.NodeFilter} nodeFilter
    * @return {?Profiler.HeapSnapshotProviderProxy}
    */
   createNodesProviderForClass(className, nodeFilter) {
     return this.callFactoryMethod(
         null, 'createNodesProviderForClass', Profiler.HeapSnapshotProviderProxy, className, nodeFilter);
   }

   /**
    * @return {!Promise<!Array<!HeapSnapshotModel.SerializedAllocationNode>>}
    */
   allocationTracesTops() {
     return this._callMethodPromise('allocationTracesTops');
   }

   /**
    * @param {number} nodeId
    * @return {!Promise<!HeapSnapshotModel.AllocationNodeCallers>}
    */
   allocationNodeCallers(nodeId) {
     return this._callMethodPromise('allocationNodeCallers', nodeId);
   }

   /**
    * @param {number} nodeIndex
    * @return {!Promise<?Array<!HeapSnapshotModel.AllocationStackFrame>>}
    */
   allocationStack(nodeIndex) {
     return this._callMethodPromise('allocationStack', nodeIndex);
   }

   /**
    * @override
    */
   dispose() {
     throw new Error('Should never be called');
   }

   get nodeCount() {
     return this._staticData.nodeCount;
   }

   get rootNodeIndex() {
     return this._staticData.rootNodeIndex;
   }

   /**
    * @return {!Promise}
    */
   async updateStaticData() {
     this._staticData = await this._callMethodPromise('updateStaticData');
   }

   /**
    * @return {!Promise<!HeapSnapshotModel.Statistics>}
    */
   getStatistics() {
     return this._callMethodPromise('getStatistics');
   }

   /**
    * @return {!Promise.<?HeapSnapshotModel.Samples>}
    */
   getSamples() {
     return this._callMethodPromise('getSamples');
   }

   get totalSize() {
     return this._staticData.totalSize;
   }

   get uid() {
     return this._profileUid;
   }

   setProfileUid(profileUid) {
     this._profileUid = profileUid;
   }

   /**
    * @return {number}
    */
   maxJSObjectId() {
     return this._staticData.maxJSObjectId;
   }
 };

 /**
  * @implements {Profiler.HeapSnapshotGridNode.ChildrenProvider}
  * @unrestricted
  */
 Profiler.HeapSnapshotProviderProxy = class extends Profiler.HeapSnapshotProxyObject {
   /**
    * @param {!Profiler.HeapSnapshotWorkerProxy} worker
    * @param {number} objectId
    */
   constructor(worker, objectId) {
     super(worker, objectId);
   }

   /**
    * @override
    * @param {number} snapshotObjectId
    * @return {!Promise<number>}
    */
   nodePosition(snapshotObjectId) {
     return this._callMethodPromise('nodePosition', snapshotObjectId);
   }

   /**
    * @override
    * @return {!Promise<boolean>}
    */
   isEmpty() {
     return this._callMethodPromise('isEmpty');
   }

   /**
    * @override
    * @param {number} startPosition
    * @param {number} endPosition
    * @return {!Promise<!HeapSnapshotModel.ItemsRange>}
    */
   serializeItemsRange(startPosition, endPosition) {
     return this._callMethodPromise('serializeItemsRange', startPosition, endPosition);
   }

   /**
    * @override
    * @param {!HeapSnapshotModel.ComparatorConfig} comparator
    * @return {!Promise}
    */
   sortAndRewind(comparator) {
     return this._callMethodPromise('sortAndRewind', comparator);
   }
 };
	/*
	* Copyright (C) 2011 Google Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are
	* met:
	*
	* * Redistributions of source code must retain the above copyrightdd
	* notice, this list of conditions and the following disclaimer.
	* * Redistributions in binary form must reproduce the above
	* copyright notice, this list of conditions and the following disclaimer
	* in the documentation and/or other materials provided with the
	* distribution.
	* * Neither the name of Google Inc. nor the names of its
	* contributors may be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	/**
	* @unrestricted
	*/
	Profiler.HeapSnapshotWorkerProxy = class extends Common.Object {
	/**
	* @param {function(string, *)} eventHandler
	*/
	constructor(eventHandler) {
	super();
	this._eventHandler = eventHandler;
	this._nextObjectId = 1;
	this._nextCallId = 1;
	/** @type {!Map<number, function()>} /
	this._callbacks = new Map();
	/** @type {!Set<number>} */
	this._previousCallbacks = new Set();
	this._worker = new Common.Worker('heap_snapshot_worker');
	this._worker.onmessage = this._messageReceived.bind(this);
	}

	/**
	* @param {number} profileUid
	* @param {function(!Profiler.HeapSnapshotProxy)} snapshotReceivedCallback
	* @return {!Profiler.HeapSnapshotLoaderProxy}
	*/
	createLoader(profileUid, snapshotReceivedCallback) {
	const objectId = this._nextObjectId++;
	const proxy = new Profiler.HeapSnapshotLoaderProxy(this, objectId, profileUid, snapshotReceivedCallback);
	this._postMessage({
	callId: this._nextCallId++,
	disposition: 'create',
	objectId: objectId,
	methodName: 'HeapSnapshotWorker.HeapSnapshotLoader'
	});
	return proxy;
	}

	dispose() {
	this._worker.terminate();
	if (this._interval)
	clearInterval(this._interval);
	}

	disposeObject(objectId) {
	this._postMessage({callId: this._nextCallId++, disposition: 'dispose', objectId: objectId});
	}

	evaluateForTest(script, callback) {
	const callId = this._nextCallId++;
	this._callbacks.set(callId, callback);
	this._postMessage({callId: callId, disposition: 'evaluateForTest', source: script});
	}

	/**
	* @param {?function(...?)} callback
	* @param {string} objectId
	* @param {string} methodName
	* @param {function(new:T, ...?)} proxyConstructor
	* @return {?Object}
	* @template T
	*/
	callFactoryMethod(callback, objectId, methodName, proxyConstructor) {
	const callId = this._nextCallId++;
	const methodArguments = Array.prototype.slice.call(arguments, 4);
	const newObjectId = this._nextObjectId++;

	/**
	* @this {Profiler.HeapSnapshotWorkerProxy}
	*/
	function wrapCallback(remoteResult) {
	callback(remoteResult ? new proxyConstructor(this, newObjectId) : null);
	}

	if (callback) {
	this._callbacks.set(callId, wrapCallback.bind(this));
	this._postMessage({
	callId: callId,
	disposition: 'factory',
	objectId: objectId,
	methodName: methodName,
	methodArguments: methodArguments,
	newObjectId: newObjectId
	});
	return null;
	} else {
	this._postMessage({
	callId: callId,
	disposition: 'factory',
	objectId: objectId,
	methodName: methodName,
	methodArguments: methodArguments,
	newObjectId: newObjectId
	});
	return new proxyConstructor(this, newObjectId);
	}
	}

	/**
	* @param {function(*)} callback
	* @param {string} objectId
	* @param {string} methodName
	*/
	callMethod(callback, objectId, methodName) {
	const callId = this._nextCallId++;
	const methodArguments = Array.prototype.slice.call(arguments, 3);
	if (callback)
	this._callbacks.set(callId, callback);
	this._postMessage({
	callId: callId,
	disposition: 'method',
	objectId: objectId,
	methodName: methodName,
	methodArguments: methodArguments
	});
	}

	startCheckingForLongRunningCalls() {
	if (this._interval)
	return;
	this._checkLongRunningCalls();
	this._interval = setInterval(this._checkLongRunningCalls.bind(this), 300);
	}

	_checkLongRunningCalls() {
	for (const callId of this._previousCallbacks) {
	if (!this._callbacks.has(callId))
	this._previousCallbacks.delete(callId);
	}
	const hasLongRunningCalls = !!this._previousCallbacks.size;
	this.dispatchEventToListeners(Profiler.HeapSnapshotWorkerProxy.Events.Wait, hasLongRunningCalls);
	for (const callId of this._callbacks.keysArray())
	this._previousCallbacks.add(callId);
	}

	/**
	* @param {!MessageEvent} event
	*/
	_messageReceived(event) {
	const data = event.data;
	if (data.eventName) {
	if (this._eventHandler)
	this._eventHandler(data.eventName, data.data);
	return;
	}
	if (data.error) {
	if (data.errorMethodName) {
	Common.console.error(
	Common.UIString('An error occurred when a call to method \'%s\' was requested', data.errorMethodName));
	}
	Common.console.error(data['errorCallStack']);
	this._callbacks.delete(data.callId);
	return;
	}
	if (!this._callbacks.has(data.callId))
	return;
	const callback = this._callbacks.get(data.callId);
	this._callbacks.delete(data.callId);
	callback(data.result);
	}

	_postMessage(message) {
	this._worker.postMessage(message);
	}
	};

	Profiler.HeapSnapshotWorkerProxy.Events = {
	Wait: Symbol('Wait')
	};

	/**
	* @unrestricted
	*/
	Profiler.HeapSnapshotProxyObject = class {
	/**
	* @param {!Profiler.HeapSnapshotWorkerProxy} worker
	* @param {number} objectId
	*/
	constructor(worker, objectId) {
	this._worker = worker;
	this._objectId = objectId;
	}

	/**
	* @param {string} workerMethodName
	* @param {!Array.<*>} args
	*/
	_callWorker(workerMethodName, args) {
	args.splice(1, 0, this._objectId);
	return this._worker[workerMethodName].apply(this._worker, args);
	}

	dispose() {
	this._worker.disposeObject(this._objectId);
	}

	disposeWorker() {
	this._worker.dispose();
	}

	/**
	* @param {?function(...?)} callback
	* @param {string} methodName
	* @param {function (new:T, ...?)} proxyConstructor
	* @param {...*} var_args
	* @return {!T}
	* @template T
	*/
	callFactoryMethod(callback, methodName, proxyConstructor, var_args) {
	return this._callWorker('callFactoryMethod', Array.prototype.slice.call(arguments, 0));
	}

	/**
	* @param {string} methodName
	* @param {...*} var_args
	* @return {!Promise.<?T>}
	* @template T
	*/
	_callMethodPromise(methodName, var_args) {
	const args = Array.prototype.slice.call(arguments);
	return new Promise(resolve => this._callWorker('callMethod', [resolve, ...args]));
	}
	};

	/**
	* @implements {Common.OutputStream}
	* @unrestricted
	*/
	Profiler.HeapSnapshotLoaderProxy = class extends Profiler.HeapSnapshotProxyObject {
	/**
	* @param {!Profiler.HeapSnapshotWorkerProxy} worker
	* @param {number} objectId
	* @param {number} profileUid
	* @param {function(!Profiler.HeapSnapshotProxy)} snapshotReceivedCallback
	*/
	constructor(worker, objectId, profileUid, snapshotReceivedCallback) {
	super(worker, objectId);
	this._profileUid = profileUid;
	this._snapshotReceivedCallback = snapshotReceivedCallback;
	}

	/**
	* @override
	* @param {string} chunk
	* @return {!Promise}
	*/
	write(chunk) {
	return this._callMethodPromise('write', chunk);
	}

	/**
	* @override
	*/
	async close() {
	await this._callMethodPromise('close');
	const snapshotProxy =
	await new Promise(resolve => this.callFactoryMethod(resolve, 'buildSnapshot', Profiler.HeapSnapshotProxy));
	this.dispose();
	snapshotProxy.setProfileUid(this._profileUid);
	await snapshotProxy.updateStaticData();
	this._snapshotReceivedCallback(snapshotProxy);
	}
	};

	/**
	* @unrestricted
	*/
	Profiler.HeapSnapshotProxy = class extends Profiler.HeapSnapshotProxyObject {
	/**
	* @param {!Profiler.HeapSnapshotWorkerProxy} worker
	* @param {number} objectId
	*/
	constructor(worker, objectId) {
	super(worker, objectId);
	/** @type {?HeapSnapshotModel.StaticData} */
	this._staticData = null;
	}

	/**
	* @param {!HeapSnapshotModel.SearchConfig} searchConfig
	* @param {!HeapSnapshotModel.NodeFilter} filter
	* @return {!Promise<!Array<number>>}
	*/
	search(searchConfig, filter) {
	return this._callMethodPromise('search', searchConfig, filter);
	}

	/**
	* @param {!HeapSnapshotModel.NodeFilter} filter
	* @return {!Promise<!Object<string, !HeapSnapshotModel.Aggregate>>}
	*/
	aggregatesWithFilter(filter) {
	return this._callMethodPromise('aggregatesWithFilter', filter);
	}

	/**
	* @return {!Promise<!Object.<string, !HeapSnapshotModel.AggregateForDiff>>}
	*/
	aggregatesForDiff() {
	return this._callMethodPromise('aggregatesForDiff');
	}

	/**
	* @param {string} baseSnapshotId
	* @param {!Object<string, !HeapSnapshotModel.AggregateForDiff>} baseSnapshotAggregates
	* @return {!Promise<!Object<string, !HeapSnapshotModel.Diff>>}
	*/
	calculateSnapshotDiff(baseSnapshotId, baseSnapshotAggregates) {
	return this._callMethodPromise('calculateSnapshotDiff', baseSnapshotId, baseSnapshotAggregates);
	}

	/**
	* @param {number} snapshotObjectId
	* @return {!Promise<?string>}
	*/
	nodeClassName(snapshotObjectId) {
	return this._callMethodPromise('nodeClassName', snapshotObjectId);
	}

	/**
	* @param {number} nodeIndex
	* @return {!Profiler.HeapSnapshotProviderProxy}
	*/
	createEdgesProvider(nodeIndex) {
	return this.callFactoryMethod(null, 'createEdgesProvider', Profiler.HeapSnapshotProviderProxy, nodeIndex);
	}

	/**
	* @param {number} nodeIndex
	* @return {!Profiler.HeapSnapshotProviderProxy}
	*/
	createRetainingEdgesProvider(nodeIndex) {
	return this.callFactoryMethod(null, 'createRetainingEdgesProvider', Profiler.HeapSnapshotProviderProxy, nodeIndex);
	}

	/**
	* @param {string} baseSnapshotId
	* @param {string} className
	* @return {?Profiler.HeapSnapshotProviderProxy}
	*/
	createAddedNodesProvider(baseSnapshotId, className) {
	return this.callFactoryMethod(
	null, 'createAddedNodesProvider', Profiler.HeapSnapshotProviderProxy, baseSnapshotId, className);
	}

	/**
	* @param {!Array.<number>} nodeIndexes
	* @return {?Profiler.HeapSnapshotProviderProxy}
	*/
	createDeletedNodesProvider(nodeIndexes) {
	return this.callFactoryMethod(null, 'createDeletedNodesProvider', Profiler.HeapSnapshotProviderProxy, nodeIndexes);
	}

	/**
	* @param {function(*):boolean} filter
	* @return {?Profiler.HeapSnapshotProviderProxy}
	*/
	createNodesProvider(filter) {
	return this.callFactoryMethod(null, 'createNodesProvider', Profiler.HeapSnapshotProviderProxy, filter);
	}

	/**
	* @param {string} className
	* @param {!HeapSnapshotModel.NodeFilter} nodeFilter
	* @return {?Profiler.HeapSnapshotProviderProxy}
	*/
	createNodesProviderForClass(className, nodeFilter) {
	return this.callFactoryMethod(
	null, 'createNodesProviderForClass', Profiler.HeapSnapshotProviderProxy, className, nodeFilter);
	}

	/**
	* @return {!Promise<!Array<!HeapSnapshotModel.SerializedAllocationNode>>}
	*/
	allocationTracesTops() {
	return this._callMethodPromise('allocationTracesTops');
	}

	/**
	* @param {number} nodeId
	* @return {!Promise<!HeapSnapshotModel.AllocationNodeCallers>}
	*/
	allocationNodeCallers(nodeId) {
	return this._callMethodPromise('allocationNodeCallers', nodeId);
	}

	/**
	* @param {number} nodeIndex
	* @return {!Promise<?Array<!HeapSnapshotModel.AllocationStackFrame>>}
	*/
	allocationStack(nodeIndex) {
	return this._callMethodPromise('allocationStack', nodeIndex);
	}

	/**
	* @override
	*/
	dispose() {
	throw new Error('Should never be called');
	}

	get nodeCount() {
	return this._staticData.nodeCount;
	}

	get rootNodeIndex() {
	return this._staticData.rootNodeIndex;
	}

	/**
	* @return {!Promise}
	*/
	async updateStaticData() {
	this._staticData = await this._callMethodPromise('updateStaticData');
	}

	/**
	* @return {!Promise<!HeapSnapshotModel.Statistics>}
	*/
	getStatistics() {
	return this._callMethodPromise('getStatistics');
	}

	/**
	* @return {!Promise.<?HeapSnapshotModel.Samples>}
	*/
	getSamples() {
	return this._callMethodPromise('getSamples');
	}

	get totalSize() {
	return this._staticData.totalSize;
	}

	get uid() {
	return this._profileUid;
	}

	setProfileUid(profileUid) {
	this._profileUid = profileUid;
	}

	/**
	* @return {number}
	*/
	maxJSObjectId() {
	return this._staticData.maxJSObjectId;
	}
	};

	/**
	* @implements {Profiler.HeapSnapshotGridNode.ChildrenProvider}
	* @unrestricted
	*/
	Profiler.HeapSnapshotProviderProxy = class extends Profiler.HeapSnapshotProxyObject {
	/**
	* @param {!Profiler.HeapSnapshotWorkerProxy} worker
	* @param {number} objectId
	*/
	constructor(worker, objectId) {
	super(worker, objectId);
	}

	/**
	* @override
	* @param {number} snapshotObjectId
	* @return {!Promise<number>}
	*/
	nodePosition(snapshotObjectId) {
	return this._callMethodPromise('nodePosition', snapshotObjectId);
	}

	/**
	* @override
	* @return {!Promise<boolean>}
	*/
	isEmpty() {
	return this._callMethodPromise('isEmpty');
	}

	/**
	* @override
	* @param {number} startPosition
	* @param {number} endPosition
	* @return {!Promise<!HeapSnapshotModel.ItemsRange>}
	*/
	serializeItemsRange(startPosition, endPosition) {
	return this._callMethodPromise('serializeItemsRange', startPosition, endPosition);
	}

	/**
	* @override
	* @param {!HeapSnapshotModel.ComparatorConfig} comparator
	* @return {!Promise}
	*/
	sortAndRewind(comparator) {
	return this._callMethodPromise('sortAndRewind', comparator);
	}
	};