/*
* JBoss, Home of Professional Open Source
* Copyright 2005, JBoss Inc., and individual contributors as indicated
* by the @authors tag. See the copyright.txt in the distribution for a
* full listing of individual contributors.
*
* This is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation; either version 2.1 of
* the License, or (at your option) any later version.
*
* This software is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this software; if not, write to the Free
* Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
* 02110-1301 USA, or see the FSF site: http://www.fsf.org.
*/
package org.jbpm.graph.exe;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Date;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import org.jbpm.JbpmException;
import org.jbpm.context.exe.ContextInstance;
import org.jbpm.graph.def.Event;
import org.jbpm.graph.def.Node;
import org.jbpm.graph.def.ProcessDefinition;
import org.jbpm.graph.def.Transition;
import org.jbpm.graph.log.ProcessInstanceCreateLog;
import org.jbpm.graph.log.ProcessInstanceEndLog;
import org.jbpm.logging.exe.LoggingInstance;
import org.jbpm.logging.log.ProcessLog;
import org.jbpm.module.def.ModuleDefinition;
import org.jbpm.module.exe.ModuleInstance;
import org.jbpm.scheduler.SchedulerService;
import org.jbpm.svc.Services;
import org.jbpm.taskmgmt.exe.TaskMgmtInstance;
import org.jbpm.util.Clock;
import org.jbpm.util.EqualsUtil;
/**
* is one execution of a {@link org.jbpm.graph.def.ProcessDefinition}.
* To create a new process execution of a process definition, just use the
* {@link #ProcessInstance(ProcessDefinition)}.
*
*/
public class ProcessInstance implements Serializable {
private static final long serialVersionUID = 1L;
long id = 0;
int version = 0;
protected String key = null;
protected Date start = null;
protected Date end = null;
protected ProcessDefinition processDefinition = null;
protected Token rootToken = null;
protected Token superProcessToken = null;
protected boolean isSuspended = false;
protected Map instances = null;
protected Map transientInstances = null;
protected List runtimeActions = null;
/** not persisted */
protected List cascadeProcessInstances = null;
// constructors /////////////////////////////////////////////////////////////
public ProcessInstance() {
}
/**
* creates a new process instance for the given process definition,
* puts the root-token (=main path of execution) in the start state
* and executes the initial node. In case the initial node is a
* start-state, it will behave as a wait state.
* For each of the optional module definitions contained in the
* {@link ProcessDefinition}, the corresponding module instance
* will be created.
* @throws JbpmException if processDefinition is null.
*/
public ProcessInstance(ProcessDefinition processDefinition) {
this(processDefinition, null, null);
}
/**
* creates a new process instance for the given process definition,
* puts the root-token (=main path of execution) in the start state
* and executes the initial node. In case the initial node is a
* start-state, it will behave as a wait state.
* For each of the optional module definitions contained in the
* {@link ProcessDefinition}, the corresponding module instance
* will be created.
* @param variables will be inserted into the context variables
* after the context submodule has been created and before the
* process-start event is fired, which is also before the execution
* of the initial node.
* @throws JbpmException if processDefinition is null.
*/
public ProcessInstance(ProcessDefinition processDefinition, Map variables) {
this(processDefinition, variables, null);
}
/**
* creates a new process instance for the given process definition,
* puts the root-token (=main path of execution) in the start state
* and executes the initial node. In case the initial node is a
* start-state, it will behave as a wait state.
* For each of the optional module definitions contained in the
* {@link ProcessDefinition}, the corresponding module instance
* will be created.
* @param variables will be inserted into the context variables
* after the context submodule has been created and before the
* process-start event is fired, which is also before the execution
* of the initial node.
* @throws JbpmException if processDefinition is null.
*/
public ProcessInstance(ProcessDefinition processDefinition, Map variables, String key) {
if (processDefinition==null) throw new JbpmException("can't create a process instance when processDefinition is null");
// initialize the members
this.processDefinition = processDefinition;
this.rootToken = new Token(this);
this.start = Clock.getCurrentTime();
this.key = key;
// if this process instance is created in the context of a persistent operation
Services.assignId(this);
// create the optional definitions
Map definitions = processDefinition.getDefinitions();
// if the state-definition has optional definitions
if ( definitions != null ) {
instances = new HashMap();
// loop over each optional definition
Iterator iter = definitions.values().iterator();
while (iter.hasNext()) {
ModuleDefinition definition = (ModuleDefinition) iter.next();
// and create the corresponding optional instance
ModuleInstance instance = definition.createInstance();
if (instance != null) {
addInstance( instance );
}
}
}
// add the creation log
rootToken.addLog(new ProcessInstanceCreateLog());
// set the variables
ContextInstance contextInstance = getContextInstance();
if ( (contextInstance!=null)
&& (variables!=null)
) {
contextInstance.addVariables(variables);
}
Node initialNode = rootToken.getNode();
// fire the process start event
if (initialNode!=null) {
ExecutionContext executionContext = new ExecutionContext(rootToken);
processDefinition.fireEvent(Event.EVENTTYPE_PROCESS_START, executionContext);
// execute the start node
initialNode.execute(executionContext);
}
}
// optional module instances ////////////////////////////////////////////////
/**
* adds the given optional moduleinstance (bidirectional).
*/
public ModuleInstance addInstance(ModuleInstance moduleInstance) {
if (moduleInstance == null) throw new IllegalArgumentException("can't add a null moduleInstance to a process instance");
if (instances == null) instances = new HashMap();
instances.put(moduleInstance.getClass().getName(), moduleInstance);
moduleInstance.setProcessInstance(this);
return moduleInstance;
}
/**
* removes the given optional moduleinstance (bidirectional).
*/
public ModuleInstance removeInstance(ModuleInstance moduleInstance) {
ModuleInstance removedModuleInstance = null;
if (moduleInstance == null) throw new IllegalArgumentException("can't remove a null moduleInstance from a process instance");
if (instances != null) {
removedModuleInstance = (ModuleInstance) instances.remove(moduleInstance.getClass().getName());
if (removedModuleInstance!=null) {
moduleInstance.setProcessInstance(null);
}
}
return removedModuleInstance;
}
/**
* looks up an optional module instance by its class.
*/
public ModuleInstance getInstance(Class clazz) {
ModuleInstance moduleInstance = null;
if ( instances != null ) {
moduleInstance = (ModuleInstance) instances.get( clazz.getName() );
}
if (moduleInstance==null) {
if (transientInstances==null) transientInstances = new HashMap();
// client requested an instance that is not in the map of instances.
// so we can safely assume that the client wants a transient instance
moduleInstance = (ModuleInstance) transientInstances.get( clazz.getName() );
if (moduleInstance==null) {
try {
moduleInstance = (ModuleInstance) clazz.newInstance();
moduleInstance.setProcessInstance(this);
} catch (Exception e) {
e.printStackTrace();
throw new JbpmException("couldn't instantiate transient module '"+clazz.getName()+"' with the default constructor");
}
transientInstances.put(clazz.getName(), moduleInstance);
}
}
return moduleInstance;
}
/**
* process instance extension for process variableInstances.
*/
public ContextInstance getContextInstance() {
return (ContextInstance) getInstance(ContextInstance.class);
}
/**
* process instance extension for managing the tasks and actors.
*/
public TaskMgmtInstance getTaskMgmtInstance() {
return (TaskMgmtInstance) getInstance(TaskMgmtInstance.class);
}
/**
* process instance extension for logging. Probably you don't need to access
* the logging instance directly. Mostly, {@link Token#addLog(ProcessLog)} is
* sufficient and more convenient.
*/
public LoggingInstance getLoggingInstance() {
return (LoggingInstance) getInstance(LoggingInstance.class);
}
// operations ///////////////////////////////////////////////////////////////
/**
* instructs the main path of execution to continue by taking the default
* transition on the current node.
* @throws IllegalStateException if the token is not active.
*/
public void signal() {
if ( hasEnded() ) {
throw new IllegalStateException("couldn't signal token : token has ended");
}
rootToken.signal();
}
/**
* instructs the main path of execution to continue by taking the specified
* transition on the current node.
* @throws IllegalStateException if the token is not active.
*/
public void signal(String transitionName) {
if ( hasEnded() ) {
throw new IllegalStateException("couldn't signal token : token has ended");
}
rootToken.signal(transitionName);
}
/**
* instructs the main path of execution to continue by taking the specified
* transition on the current node.
* @throws IllegalStateException if the token is not active.
*/
public void signal( Transition transition ) {
if ( hasEnded() ) {
throw new IllegalStateException("couldn't signal token : token has ended");
}
rootToken.signal(transition);
}
/**
* ends (=cancels) this process instance and all the tokens in it.
*/
public void end() {
// end the main path of execution
rootToken.end();
if (end==null) {
// mark this process instance as ended
end = Clock.getCurrentTime();
// fire the process-end event
ExecutionContext executionContext = new ExecutionContext(rootToken);
processDefinition.fireEvent(Event.EVENTTYPE_PROCESS_END, executionContext);
// add the process instance end log
rootToken.addLog(new ProcessInstanceEndLog());
// check if this process was started as a subprocess of a super process
if (superProcessToken!=null) {
addCascadeProcessInstance(superProcessToken.getProcessInstance());
ExecutionContext superExecutionContext = new ExecutionContext(superProcessToken);
superExecutionContext.setSubProcessInstance(this);
superProcessToken.signal(superExecutionContext);
}
// make sure all the timers for this process instance are cancelled when the process end updates get saved in the database.
// TODO route this directly through the jobSession. just like the suspend and resume.
// NOTE Only timers should be deleted, messages-type of jobs should be kept.
SchedulerService schedulerService = (SchedulerService) Services.getCurrentService(Services.SERVICENAME_SCHEDULER, false);
if (schedulerService!=null) schedulerService.deleteTimersByProcessInstance(this);
}
}
/**
* suspends this execution. This will make sure that tasks, timers and
* messages related to this process instance will not show up in database
* queries.
* @see #resume()
*/
public void suspend() {
isSuspended = true;
rootToken.suspend();
}
/**
* resumes a suspended execution. All timers that have been suspended might fire
* if the duedate has been passed. If an admin resumes a process instance, the option
* should be offered to update, remove and create the timers and messages related to
* this process instance.
* @see #suspend()
*/
public void resume() {
isSuspended = false;
rootToken.resume();
}
// runtime actions //////////////////////////////////////////////////////////
/**
* adds an action to be executed upon a process event in the future.
*/
public RuntimeAction addRuntimeAction( RuntimeAction runtimeAction ) {
if (runtimeAction == null) throw new IllegalArgumentException("can't add a null runtimeAction to a process instance");
if (runtimeActions == null) runtimeActions = new ArrayList();
runtimeActions.add(runtimeAction);
runtimeAction.processInstance = this;
return runtimeAction;
}
/**
* removes a runtime action.
*/
public RuntimeAction removeRuntimeAction( RuntimeAction runtimeAction ) {
RuntimeAction removedRuntimeAction = null;
if (runtimeAction == null)
throw new IllegalArgumentException("can't remove a null runtimeAction from an process instance");
if (runtimeActions != null) {
if (runtimeActions.remove(runtimeAction)) {
removedRuntimeAction = runtimeAction;
runtimeAction.processInstance = null;
}
}
return removedRuntimeAction;
}
/**
* is the list of all runtime actions.
*/
public List getRuntimeActions() {
return runtimeActions;
}
// various information retrieval methods ////////////////////////////////////
/**
* tells if this process instance is still active or not.
*/
public boolean hasEnded() {
return ( end != null );
}
/**
* calculates if this process instance has still options to continue.
*/
public boolean isTerminatedImplicitly() {
boolean isTerminatedImplicitly = true;
if ( end == null ) {
isTerminatedImplicitly = rootToken.isTerminatedImplicitly();
}
return isTerminatedImplicitly;
}
/**
* looks up the token in the tree, specified by the slash-separated token path.
* @param tokenPath is a slash-separated name that specifies a token in the tree.
* @return the specified token or null if the token is not found.
*/
public Token findToken(String tokenPath) {
return ( rootToken!=null ? rootToken.findToken(tokenPath) : null );
}
/**
* collects all instances for this process instance.
*/
public List findAllTokens() {
List tokens = new ArrayList();
tokens.add(rootToken);
rootToken.collectChildrenRecursively(tokens);
return tokens;
}
void addCascadeProcessInstance(ProcessInstance cascadeProcessInstance) {
if (cascadeProcessInstances==null) {
cascadeProcessInstances = new ArrayList();
}
cascadeProcessInstances.add(cascadeProcessInstance);
}
public Collection removeCascadeProcessInstances() {
Collection removed = cascadeProcessInstances;
cascadeProcessInstances = null;
return removed;
}
// equals ///////////////////////////////////////////////////////////////////
// hack to support comparing hibernate proxies against the real objects
// since this always falls back to ==, we don't need to overwrite the hashcode
public boolean equals(Object o) {
return EqualsUtil.equals(this, o);
}
// getters and setters //////////////////////////////////////////////////////
public long getId() {
return id;
}
public Token getRootToken() {
return rootToken;
}
public Date getStart() {
return start;
}
public Date getEnd() {
return end;
}
public Map getInstances() {
return instances;
}
public ProcessDefinition getProcessDefinition() {
return processDefinition;
}
public Token getSuperProcessToken() {
return superProcessToken;
}
public void setSuperProcessToken(Token superProcessToken) {
this.superProcessToken = superProcessToken;
}
public boolean isSuspended() {
return isSuspended;
}
public int getVersion() {
return version;
}
public void setVersion(int version) {
this.version = version;
}
public void setEnd(Date end) {
this.end = end;
}
public void setProcessDefinition(ProcessDefinition processDefinition) {
this.processDefinition = processDefinition;
}
public void setRootToken(Token rootToken) {
this.rootToken = rootToken;
}
public void setStart(Date start) {
this.start = start;
}
/** a unique business key */
public String getKey() {
return key;
}
/** set the unique business key */
public void setKey(String key) {
this.key = key;
}
// private static Log log = LogFactory.getLog(ProcessInstance.class);
}