/*
* Title: CloudSim Toolkit
* Description: CloudSim (Cloud Simulation) Toolkit for Modeling and Simulation of Clouds
* Licence: GPL - http://www.gnu.org/copyleft/gpl.html
*
* Copyright (c) 2009-2010, The University of Melbourne, Australia
*/
package org.cloudbus.cloudsim.core;
import org.cloudbus.cloudsim.Log;
import org.cloudbus.cloudsim.NetworkTopology;
import org.cloudbus.cloudsim.core.predicates.Predicate;
/**
* simEntity类继承Cloneable接口,必须实现clone()方法,可以使此类按字段复制,产生一
* 个对象副本
* 这个类代表仿真实体,一个实体可以处理事件,也可以发送事件到其他实体。当这个类被继承,
* 有一些方法需要实现
* startEntity()方法被请求,当仿真开始的时候,这个方法负责启动实体。
* processEvent()被请求,当defered队列中还有事件时。
* 当仿真结束前,需要关闭实体.
* 方法总结:
* 1、发送事件,有cloudsim组建成simevent,调用futureQueue方法加入future queue队列中
* 2、队列中发往本实体满足谓词p的事件个数,谓词p用来对事件限制
* 3、队列中等待发往本实体的事件个数
* 4、选择第一个满足src(此目的地为实体本身)和谓词p条件的事件,并把它从队列中移走
* 5、在future队列中寻找第一个满足条件的事件,从中移走即取消此事件
* 6、选择下一个事件
* 7、三个核心方法,分别是实体开始,处理事件,实体销毁
* 8、实体线程,一直查找事件并处理事件
* 9、clone对象
* 10、向目标实体发送事件delay差brite矩阵获得。
* 11、获得两实体之间传送事件延迟,从birte矩阵中获得
* 可认为包括三种方法:发送事件,查找事件,处理事件
* This class represents a simulation entity. An entity handles events and can
* send events to other entities. When this class is extended, there are a few
* methods that need to be implemented:
* <ul>
* <li> {@link #startEntity()} is invoked by the {@link Simulation} class when
* the simulation is started. This method should be responsible for starting the
* entity up.
* <li> {@link #processEvent(SimEvent)} is invoked by the {@link Simulation}
* class whenever there is an event in the deferred queue, which needs to be
* processed by the entity.
* <li> {@link #shutdownEntity()} is invoked by the {@link Simulation} before the
* simulation finishes. If you want to save data in log files this is the method
* in which the corresponding code would be placed.
* </ul>
* @author Marcos Dias de Assuncao
* @since CloudSim Toolkit 1.0
*/
public abstract class SimEntity implements Cloneable {
/**
* 实体字段:
* 1、名字name
* 2、实体的id
* 3、从defer Queue中的事件evbuf
* 4、实体现在的状态state:RUNNABLE,WAITING,HOLDING,FINISHED
*/
/** The name. */
private String name;
/** The id. */
private int id;
/** The buffer for selected incoming events. */
private SimEvent evbuf;
/** The entity's current state. */
private int state;
/**
* Creates a new entity.
*
* @param name the name to be associated with this entity
*/
public SimEntity(String name) {
//名字不可以包含空格
if (name.indexOf(" ") != -1) {
throw new IllegalArgumentException(
"Entity names can't contain spaces.");
}
this.name = name;
id = -1; //默认id为-1
state = RUNNABLE; //实体创建后的状态为运行状态
CloudSim.addEntity(this); //实体添加到cloudsim的实体列表中
}
/**
* Get the name of this entity.
*
* @return The entity's name
*/
public String getName() {
return name;
}
/**
* Get the unique id number assigned to this entity.
*
* @return The id number
*/
public int getId() {
return id;
}
// The schedule functions
/**
* 发送事件,有cloudsim组建成simevent,调用futureQueue方法加入future queue队列中
* Send an event to another entity by id number, with data. Note that the
* tag <code>9999</code> is reserved.
* @param dest The unique id number of the destination entity
* @param delay How long from the current simulation time the event
* should be sent
* @param tag An user-defined number representing the type of event.
* @param data The data to be sent with the event.
*/
public void schedule(int dest, double delay, int tag, Object data) {
if (!CloudSim.running()) {
return;
}
CloudSim.send(id, dest, delay, tag, data);
}
/**
* Send an event to another entity by id number and with <b>no</b> data.
* Note that the tag <code>9999</code> is reserved.
*
* @param dest The unique id number of the destination entity
* @param delay How long from the current simulation time the event
* should be sent
* @param tag An user-defined number representing the type of event.
*/
public void schedule(int dest, double delay, int tag) {
schedule(dest, delay, tag, null);
}
/**
* Send an event to another entity through a port with a given name, with
* data. Note that the tag <code>9999</code> is reserved.
*
* @param dest The name of the port to send the event through
* @param delay How long from the current simulation time the event
* should be sent
* @param tag An user-defined number representing the type of event.
* @param data The data to be sent with the event.
*/
public void schedule(String dest, double delay, int tag, Object data) {
schedule(CloudSim.getEntityId(dest), delay, tag, data);
}
/**
* Send an event to another entity through a port with a given name, with
* <b>no</b> data. Note that the tag <code>9999</code> is reserved.
*
* @param dest The name of the port to send the event through
* @param delay How long from the current simulation time the event should be
* sent
* @param tag An user-defined number representing the type of event.
*/
public void schedule(String dest, double delay, int tag) {
schedule(dest, delay, tag, null);
}
/**
* Send an event to another entity by id number, with data. Note that the
* tag <code>9999</code> is reserved.
*
* @param dest The unique id number of the destination entity
* @param tag An user-defined number representing the type of event.
* @param data The data to be sent with the event.
*/
public void scheduleNow(int dest, int tag, Object data) {
schedule(dest, 0, tag, data);
}
/**
* Send an event to another entity by id number and with <b>no</b> data.
* Note that the tag <code>9999</code> is reserved.
*
* @param dest The unique id number of the destination entity
* @param tag An user-defined number representing the type of event.
*/
public void scheduleNow(int dest, int tag) {
schedule(dest, 0, tag, null);
}
/**
* Send an event to another entity through a port with a given name, with
* data. Note that the tag <code>9999</code> is reserved.
*
* @param dest The name of the port to send the event through
* @param tag An user-defined number representing the type of event.
* @param data The data to be sent with the event.
*/
public void scheduleNow(String dest, int tag, Object data) {
schedule(CloudSim.getEntityId(dest), 0, tag, data);
}
/**
* Send an event to another entity through a port with a given name, with
* <b>no</b> data. Note that the tag <code>9999</code> is reserved.
*
* @param dest The name of the port to send the event through
* @param tag An user-defined number representing the type of event.
*/
public void scheduleNow(String dest, int tag) {
schedule(dest, 0, tag, null);
}
/**
* 设置高优先及加入future Queue队列中,调用cloudsim.sendfirst方法会设置event中
* 的serial字段更低,优先级更高
* Send a high priority event to another entity by id number, with data. Note that the
* tag <code>9999</code> is reserved.
*
* @param dest The unique id number of the destination entity
* @param delay How long from the current simulation time the event
* should be sent
* @param tag An user-defined number representing the type of event.
* @param data The data to be sent with the event.
*/
public void scheduleFirst(int dest, double delay, int tag, Object data) {
if (!CloudSim.running()) {
return;
}
CloudSim.sendFirst(id, dest, delay, tag, data);
}
/**
* Send a high priority event to another entity by id number and with <b>no</b> data.
* Note that the tag <code>9999</code> is reserved.
*
* @param dest The unique id number of the destination entity
* @param delay How long from the current simulation time the event
* should be sent
* @param tag An user-defined number representing the type of event.
*/
public void scheduleFirst(int dest, double delay, int tag) {
scheduleFirst(dest, delay, tag, null);
}
/**
* Send a high priority event to another entity through a port with a given name, with
* data. Note that the tag <code>9999</code> is reserved.
*
* @param dest The name of the port to send the event through
* @param delay How long from the current simulation time the event
* should be sent
* @param tag An user-defined number representing the type of event.
* @param data The data to be sent with the event.
*/
public void scheduleFirst(String dest, double delay, int tag, Object data) {
scheduleFirst(CloudSim.getEntityId(dest), delay, tag, data);
}
/**
* Send a high priority event to another entity through a port with a given name, with
* <b>no</b> data. Note that the tag <code>9999</code> is reserved.
*
* @param dest The name of the port to send the event through
* @param delay How long from the current simulation time the event should be
* sent
* @param tag An user-defined number representing the type of event.
*/
public void scheduleFirst(String dest, double delay, int tag) {
scheduleFirst(dest, delay, tag, null);
}
/**
* Send a high priority event to another entity by id number, with data. Note that the
* tag <code>9999</code> is reserved.
*
* @param dest The unique id number of the destination entity
* @param tag An user-defined number representing the type of event.
* @param data The data to be sent with the event.
*/
public void scheduleFirstNow(int dest, int tag, Object data) {
scheduleFirst(dest, 0, tag, data);
}
/**
* Send a high priority event to another entity by id number and with <b>no</b> data.
* Note that the tag <code>9999</code> is reserved.
*
* @param dest The unique id number of the destination entity
* @param tag An user-defined number representing the type of event.
*/
public void scheduleFirstNow(int dest, int tag) {
scheduleFirst(dest, 0, tag, null);
}
/**
* Send a high priority event to another entity through a port with a given name, with
* data. Note that the tag <code>9999</code> is reserved.
*
* @param dest The name of the port to send the event through
* @param tag An user-defined number representing the type of event.
* @param data The data to be sent with the event.
*/
public void scheduleFirstNow(String dest, int tag, Object data) {
scheduleFirst(CloudSim.getEntityId(dest), 0, tag, data);
}
/**
* Send a high priority event to another entity through a port with a given name, with
* <b>no</b> data. Note that the tag <code>9999</code> is reserved.
*
* @param dest The name of the port to send the event through
* @param tag An user-defined number representing the type of event.
*/
public void scheduleFirstNow(String dest, int tag) {
scheduleFirst(dest, 0, tag, null);
}
/**
* Set the entity to be inactive for a time period.
* 实体挂起一段时间
* @param delay the time period for which the entity will be inactive
*/
public void pause(double delay) {
if (delay < 0) {
throw new IllegalArgumentException("Negative delay supplied.");
}
//仿真不在运行
if (!CloudSim.running()) {
return;
}
CloudSim.pause(id, delay);
}
/**
* 队列中发往本实体满足谓词p的事件个数,谓词p用来对事件限制
* p:实体要选择的事件谓词。
* Count how many events matching a predicate are waiting in the entity's
* deferred queue.
*
* @param p The event selection predicate
*
* @return The count of matching events
*/
public int numEventsWaiting(Predicate p) {
return CloudSim.waiting(id, p);
}
/**
* 队列中等待发往本实体的事件个数
* Count how many events are waiting in the entity's deferred queue.
*
* @return The count of events
*/
public int numEventsWaiting() {
return CloudSim.waiting(id, CloudSim.SIM_ANY);
}
/**
* 选择第一个满足src(此目的地为实体本身)和谓词p条件的事件,并把它从队列中移走
* Extract the first event matching a predicate waiting in the entity's
* deferred queue.
*
* @param p The event selection predicate
*
* @return the simulation event
*/
public SimEvent selectEvent(Predicate p) {
if (!CloudSim.running()) {
return null;
}
return CloudSim.select(id, p);
}
/**
* 在future队列中寻找第一个满足条件的事件,从中移走即取消此事件
* Cancel the first event matching a predicate waiting in the entity's
* future queue.
*
* @param p The event selection predicate
*
* @return The number of events cancelled (0 or 1)
*/
public SimEvent cancelEvent(Predicate p) {
//因为cloudsim在任意时刻可能停止,所以所有操作要保证cloudsim正在运行
if (!CloudSim.running()) {
return null;
}
return CloudSim.cancel(id, p);
}
/**
* 选择下一个事件
* ??同选择selectevent()一样的
* Get the first event matching a predicate from the deferred queue, or if
* none match, wait for a matching event to arrive.
*
* @param p The predicate to match
*
* @return the simulation event
*/
public SimEvent getNextEvent(Predicate p) {
if (!CloudSim.running()) {
return null;
}
if (numEventsWaiting(p) > 0) {
return selectEvent(p);
}
return null;
}
/**
* Wait for an event matching a specific predicate. This method does not
* check the entity's deferred queue.
*
* @param p The predicate to match
*/
public void waitForEvent(Predicate p) {
if (!CloudSim.running()) {
return;
}
CloudSim.wait(id, p);
this.state = WAITING;
}
/**
* Get the first event waiting in the entity's deferred queue, or if there
* are none, wait for an event to arrive.
*
* @return the simulation event
*/
public SimEvent getNextEvent() {
return getNextEvent(CloudSim.SIM_ANY);
}
/**
* 三个核心方法,分别是实体开始,处理事件,实体销毁
* This method is invoked by the {@link Simulation} class when
* the simulation is started. This method should be responsible for starting the
* entity up.
*/
public abstract void startEntity();
/**
* This method is invoked by the {@link Simulation}
* class whenever there is an event in the deferred queue, which needs to be
* processed by the entity.
*
* @param ev the event to be processed by the entity
*/
public abstract void processEvent(SimEvent ev);
/**
* 一直查找事件并处理事件
* This method is invoked by the {@link Simulation} before the
* simulation finishes. If you want to save data in log files this is the method
* in which the corresponding code would be placed.
*/
public abstract void shutdownEntity();
public void run() {
SimEvent ev = evbuf != null ? evbuf : getNextEvent();
while (ev != null) {
processEvent(ev);
if (state != RUNNABLE) {
break;
}
ev = getNextEvent();
}
evbuf = null;
}
/**
* clone对象
* Get a clone of the entity. This is used when independent replications
* have been specified as an output analysis method. Clones or backups of
* the entities are made in the beginning of the simulation in order to
* reset the entities for each subsequent replication. This method should
* not be called by the user.
*
* @return A clone of the entity
*
* @throws CloneNotSupportedException the clone not supported exception
*/
//方法前面加final表示此方法不可以被覆盖
@Override
protected final Object clone() throws CloneNotSupportedException {
SimEntity copy = (SimEntity) super.clone();
copy.setName(name);
copy.setEventBuffer(null);
return copy;
}
// Used to set a cloned entity's name
/**
* Sets the name.
*
* @param new_name the new name
*/
private void setName(String new_name) {
name = new_name;
}
// --------------- PACKAGE LEVEL METHODS ------------------
/**
* Gets the state.
*
* @return the state
*/
protected int getState() {
return state;
}
/**
* Gets the event buffer.
*
* @return the event buffer
*/
protected SimEvent getEventBuffer() {
return evbuf;
}
// The entity states
/** The Constant RUNNABLE. */
public static final int RUNNABLE = 0;
/** The Constant WAITING. */
public static final int WAITING = 1;
/** The Constant HOLDING. */
public static final int HOLDING = 2;
/** The Constant FINISHED. */
public static final int FINISHED = 3;
/**
* Sets the state.
*
* @param state the new state
*/
protected void setState(int state) {
this.state = state;
}
/**
* Sets the id.
*
* @param id the new id
*/
protected void setId(int id) {
this.id = id;
}
/**
* Sets the event buffer.
*
* @param e the new event buffer
*/
protected void setEventBuffer(SimEvent e) {
evbuf = e;
}
// --------------- EVENT / MESSAGE SEND WITH NETWORK DELAY METHODS ------------------
/**
* 向目标实体发送事件delay差brite矩阵获得。
* Sends an event/message to another entity by <tt>delaying</tt>
* the simulation time from the current time, with a tag representing
* the event type.
*
* @param entityId the id number of the destination entity
* @param delay how long from the current simulation time the event
* should be sent.
* If delay is a negative number, then it will be
* changed to 0
* @param cloudSimTag an user-defined number representing the type of
* an event/message
* @param data A reference to data to be sent with the event
*
* @pre entityID > 0
* @pre delay >= 0.0
* @pre data != null
* @post $none
*/
protected void send(int entityId, double delay, int cloudSimTag, Object data) {
if (entityId < 0) {
return;
}
// if delay is -ve, then it doesn't make sense. So resets to 0.0
if (delay < 0) {
delay = 0;
}
if (Double.isInfinite(delay)) {
throw new IllegalArgumentException("The specified delay is infinite value");
}
if (entityId < 0) {
Log.printLine(getName() + ".send(): Error - " +
"invalid entity id " + entityId);
return;
}
int srcId = getId();
if (entityId != srcId) {// does not delay self messages
delay += getNetworkDelay(srcId, entityId);
}
schedule(entityId, delay, cloudSimTag, data);
}
/**
* Sends an event/message to another entity by <tt>delaying</tt> the
* simulation time from the current time, with a tag representing
* the event type.
*
* @param entityId the id number of the destination entity
* @param delay how long from the current simulation time the event
* should be sent.
* If delay is a negative number, then it will be
* changed to 0
* @param cloudSimTag an user-defined number representing the type of
* an event/message
*
* @pre entityID > 0
* @pre delay >= 0.0
* @post $none
*/
protected void send(int entityId, double delay, int cloudSimTag) {
send(entityId, delay, cloudSimTag, null);
}
/**
* Sends an event/message to another entity by <tt>delaying</tt>
* the simulation time from the current time, with a tag representing the
* event type.
*
* @param entityName the name of the destination entity
* @param delay how long from the current simulation time the event
* should be sent.
* If delay is a negative number, then it will be
* changed to 0
* @param cloudSimTag an user-defined number representing the type of
* an event/message
* @param data A reference to data to be sent with the event
*
* @pre entityName != null
* @pre delay >= 0.0
* @pre data != null
* @post $none
*/
protected void send(String entityName, double delay, int cloudSimTag, Object data) {
send(CloudSim.getEntityId(entityName), delay, cloudSimTag, data);
}
/**
* Sends an event/message to another entity by <tt>delaying</tt>
* the simulation time from the current time, with a tag representing
* the event type.
*
* @param entityName the name of the destination entity
* @param delay how long from the current simulation time the event
* should be sent.
* If delay is a negative number, then it will be
* changed to 0
* @param cloudSimTag an user-defined number representing the type of
* an event/message
*
* @pre entityName != null
* @pre delay >= 0.0
* @post $none
*/
protected void send(String entityName, double delay, int cloudSimTag) {
send(entityName, delay, cloudSimTag, null);
}
/**
* Sends an event/message to another entity by <tt>delaying</tt>
* the simulation time from the current time, with a tag representing
* the event type.
*
* @param entityId the id number of the destination entity
* @param delay how long from the current simulation time the event
* should be sent.
* If delay is a negative number, then it will be
* changed to 0
* @param cloudSimTag an user-defined number representing the type of
* an event/message
* @param data A reference to data to be sent with the event
*
* @pre entityID > 0
* @pre delay >= 0.0
* @pre data != null
* @post $none
*/
protected void sendNow(int entityId, int cloudSimTag, Object data) {
send(entityId, 0, cloudSimTag, data);
}
/**
* Sends an event/message to another entity by <tt>delaying</tt> the
* simulation time from the current time, with a tag representing
* the event type.
*
* @param entityId the id number of the destination entity
* @param delay how long from the current simulation time the event
* should be sent.
* If delay is a negative number, then it will be
* changed to 0
* @param cloudSimTag an user-defined number representing the type of
* an event/message
*
* @pre entityID > 0
* @pre delay >= 0.0
* @post $none
*/
protected void sendNow(int entityId, int cloudSimTag) {
send(entityId, 0, cloudSimTag, null);
}
/**
* Sends an event/message to another entity by <tt>delaying</tt>
* the simulation time from the current time, with a tag representing the
* event type.
*
* @param entityName the name of the destination entity
* @param delay how long from the current simulation time the event
* should be sent.
* If delay is a negative number, then it will be
* changed to 0
* @param cloudSimTag an user-defined number representing the type of
* an event/message
* @param data A reference to data to be sent with the event
*
* @pre entityName != null
* @pre delay >= 0.0
* @pre data != null
* @post $none
*/
protected void sendNow(String entityName, int cloudSimTag, Object data) {
send(CloudSim.getEntityId(entityName), 0, cloudSimTag, data);
}
/**
* Sends an event/message to another entity by <tt>delaying</tt>
* the simulation time from the current time, with a tag representing
* the event type.
*
* @param entityName the name of the destination entity
* @param delay how long from the current simulation time the event
* should be sent.
* If delay is a negative number, then it will be
* changed to 0
* @param cloudSimTag an user-defined number representing the type of
* an event/message
*
* @pre entityName != null
* @pre delay >= 0.0
* @post $none
*/
protected void sendNow(String entityName, int cloudSimTag) {
send(entityName, 0, cloudSimTag, null);
}
/**
* 获得两实体之间传送事件延迟,从birte矩阵中获得
* Gets the network delay associated to the sent of a message from
* a given source to a given destination.
*
* @param src source of the message
* @param dst destination of the message
*
* @return delay to send a message from src to dst
*
* @pre src >= 0
* @pre dst >= 0
*/
private double getNetworkDelay(int src, int dst) {
//网络拓扑有效情况下
if (NetworkTopology.isNetworkEnabled()) {
return NetworkTopology.getDelay(src, dst);
}
//无效
return 0.0;
}
}
