org.springframework.webflow.engine.Flow Maven / Gradle / Ivy
/*
* Copyright 2004-2008 the original author or authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.springframework.webflow.engine;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.springframework.binding.mapping.Mapper;
import org.springframework.binding.mapping.MappingResults;
import org.springframework.context.ApplicationContext;
import org.springframework.context.ConfigurableApplicationContext;
import org.springframework.core.style.StylerUtils;
import org.springframework.core.style.ToStringCreator;
import org.springframework.util.Assert;
import org.springframework.util.ClassUtils;
import org.springframework.util.StringUtils;
import org.springframework.webflow.core.AnnotatedObject;
import org.springframework.webflow.core.collection.AttributeMap;
import org.springframework.webflow.core.collection.MutableAttributeMap;
import org.springframework.webflow.definition.FlowDefinition;
import org.springframework.webflow.definition.StateDefinition;
import org.springframework.webflow.definition.TransitionDefinition;
import org.springframework.webflow.execution.FlowExecutionException;
import org.springframework.webflow.execution.RequestContext;
/**
* A single flow definition. A Flow definition is a reusable, self-contained controller module that provides the blue
* print for a user dialog or conversation. Flows typically drive controlled navigations within web applications to
* guide users through fulfillment of a business process/goal that takes place over a series of steps, modeled as
* states.
*
* A simple Flow definition could do nothing more than execute an action and display a view all in one request. A more
* elaborate Flow definition may be long-lived and execute across a series of requests, invoking many possible paths,
* actions, and subflows.
*
* Especially in Intranet applications there are often "controlled navigations" where the user is not free to do what he
* or she wants but must follow the guidelines provided by the system to complete a process that is transactional in
* nature (the quintessential example would be a 'checkout' flow of a shopping cart application). This is a typical use
* case appropriate to model as a flow.
*
* Structurally a Flow is composed of a set of states. A {@link State} is a point in a flow where a behavior is
* executed; for example, showing a view, executing an action, spawning a subflow, or terminating the flow. Different
* types of states execute different behaviors in a polymorphic fashion.
*
* Each {@link TransitionableState} type has one or more transitions that when executed move a flow to another state.
* These transitions define the supported paths through the flow.
*
* A state transition is triggered by the occurrence of an event. An event is something that happens the flow should
* respond to, for example a user input event like ("submit") or an action execution result event like ("success"). When
* an event occurs in a state of a Flow that event drives a state transition that decides what to do next.
*
* Each Flow has exactly one start state. A start state is simply a marker noting the state executions of this Flow
* definition should start in. The first state added to the flow will become the start state by default.
*
* Flow definitions may have one or more flow exception handlers. A {@link FlowExecutionExceptionHandler} can execute
* custom behavior in response to a specific exception (or set of exceptions) that occur in a state of one of this
* flow's executions.
*
* Instances of this class are typically built by {@link org.springframework.webflow.engine.builder.FlowBuilder}
* implementations but may also be directly instantiated.
*
* This class and the rest of the Spring Web Flow (SWF) engine have been designed with minimal dependencies on other
* libraries. Spring Web Flow is usable in a standalone fashion. The engine system is fully usable outside an HTTP
* servlet environment, for example in portlets, tests, or standalone applications. One of the major architectural
* benefits of Spring Web Flow is the ability to design reusable, high-level controller modules that may be executed in
* any environment.
*
* Note: flows are singleton definition objects so they should be thread-safe. You can think a flow definition as
* analogous to a Java class, defining all the behavior of an application module. The core behaviors
* {@link #start(RequestControlContext, MutableAttributeMap) start}, {@link #resume(RequestControlContext)},
* {@link #handleEvent(RequestControlContext) on event},
* {@link #end(RequestControlContext, String, MutableAttributeMap) end}, and
* {@link #handleException(FlowExecutionException, RequestControlContext)}. Each method accepts a {@link RequestContext
* request context} that allows for this flow to access execution state in a thread safe manner. A flow execution is
* what models a running instance of this flow definition, somewhat analogous to a java object that is an instance of a
* class.
*
* @see org.springframework.webflow.engine.State
* @see org.springframework.webflow.engine.ActionState
* @see org.springframework.webflow.engine.ViewState
* @see org.springframework.webflow.engine.SubflowState
* @see org.springframework.webflow.engine.EndState
* @see org.springframework.webflow.engine.DecisionState
* @see org.springframework.webflow.engine.Transition
* @see org.springframework.webflow.engine.FlowExecutionExceptionHandler
*
* @author Keith Donald
* @author Erwin Vervaet
* @author Colin Sampaleanu
* @author Jeremy Grelle
*/
public class Flow extends AnnotatedObject implements FlowDefinition {
/**
* Logger, can be used in subclasses.
*/
protected final Log logger = LogFactory.getLog(getClass());
/**
* An assigned flow identifier uniquely identifying this flow among all other flows.
*/
private String id;
/**
* The set of state definitions for this flow.
*/
private Set states = new LinkedHashSet(9);
/**
* The default start state for this flow.
*/
private State startState;
/**
* The set of flow variables created by this flow.
*/
private Map variables = new LinkedHashMap();
/**
* The mapper to map flow input attributes.
*/
private Mapper inputMapper;
/**
* The list of actions to execute when this flow starts.
*
* Start actions should execute with care as during startup a flow session has not yet fully initialized and some
* properties like its "currentState" have not yet been set.
*/
private ActionList startActionList = new ActionList();
/**
* The set of global transitions that are shared by all states of this flow.
*/
private TransitionSet globalTransitionSet = new TransitionSet();
/**
* The list of actions to execute when this flow ends.
*/
private ActionList endActionList = new ActionList();
/**
* The mapper to map flow output attributes.
*/
private Mapper outputMapper;
/**
* The set of exception handlers for this flow.
*/
private FlowExecutionExceptionHandlerSet exceptionHandlerSet = new FlowExecutionExceptionHandlerSet();
/**
* An optional application context hosting services needed by this flow.
*/
private ApplicationContext applicationContext;
/**
* Construct a new flow definition with the given id. The id should be unique among all flows.
* @param id the flow identifier
*/
public Flow(String id) {
Assert.hasText(id, "This flow must be uniquely identified");
this.id = id;
}
// convenient static factory methods
/**
* Create a new flow with the given id and attributes.
* @param id the flow id
* @param attributes the attributes
* @return the flow
*/
public static Flow create(String id, AttributeMap attributes) {
Flow flow = new Flow(id);
flow.getAttributes().putAll(attributes);
return flow;
}
// implementing FlowDefinition
public String getId() {
return id;
}
public StateDefinition getStartState() {
if (startState == null) {
throw new IllegalStateException("No start state has been set for this flow ('" + getId()
+ "') -- flow builder configuration error?");
}
return startState;
}
public StateDefinition getState(String stateId) {
return getStateInstance(stateId);
}
public String[] getPossibleOutcomes() {
List possibleOutcomes = new ArrayList();
for (Iterator it = states.iterator(); it.hasNext();) {
State state = (State) it.next();
if (state instanceof EndState) {
possibleOutcomes.add(state.getId());
}
}
return (String[]) possibleOutcomes.toArray(new String[possibleOutcomes.size()]);
}
public ClassLoader getClassLoader() {
if (applicationContext != null) {
return applicationContext.getClassLoader();
} else {
return ClassUtils.getDefaultClassLoader();
}
}
public ApplicationContext getApplicationContext() {
return applicationContext;
}
public boolean inDevelopment() {
return getAttributes().getBoolean("development", Boolean.FALSE).booleanValue();
}
/**
* Add given state definition to this flow definition. Marked protected, as this method is to be called by the
* (privileged) state definition classes themselves during state construction as part of a FlowBuilder invocation.
* @param state the state to add
* @throws IllegalArgumentException when the state cannot be added to the flow; for instance if another state shares
* the same id as the one provided or if given state already belongs to another flow
*/
protected void add(State state) throws IllegalArgumentException {
if (this != state.getFlow() && state.getFlow() != null) {
throw new IllegalArgumentException("State " + state + " cannot be added to this flow '" + getId()
+ "' -- it already belongs to a different flow: '" + state.getFlow().getId() + "'");
}
if (this.states.contains(state) || this.containsState(state.getId())) {
throw new IllegalArgumentException("This flow '" + getId() + "' already contains a state with id '"
+ state.getId() + "' -- state ids must be locally unique to the flow definition; "
+ "existing state-ids of this flow include: " + StylerUtils.style(getStateIds()));
}
boolean firstAdd = states.isEmpty();
states.add(state);
if (firstAdd) {
setStartState(state);
}
}
/**
* Returns the number of states defined in this flow.
* @return the state count
*/
public int getStateCount() {
return states.size();
}
/**
* Is a state with the provided id present in this flow?
* @param stateId the state id
* @return true if yes, false otherwise
*/
public boolean containsState(String stateId) {
Iterator it = states.iterator();
while (it.hasNext()) {
State state = (State) it.next();
if (state.getId().equals(stateId)) {
return true;
}
}
return false;
}
/**
* Set the start state for this flow to the state with the provided stateId
; a state must exist by the
* provided stateId
.
* @param stateId the id of the new start state
* @throws IllegalArgumentException when no state exists with the id you provided
*/
public void setStartState(String stateId) throws IllegalArgumentException {
setStartState(getStateInstance(stateId));
}
/**
* Set the start state for this flow to the state provided; any state may be the start state.
* @param state the new start state
* @throws IllegalArgumentException given state has not been added to this flow
*/
public void setStartState(State state) throws IllegalArgumentException {
if (!states.contains(state)) {
throw new IllegalArgumentException("State '" + state + "' is not a state of flow '" + getId() + "'");
}
startState = state;
}
/**
* Return the TransitionableState
with given stateId
.
* @param stateId id of the state to look up
* @return the transitionable state
* @throws IllegalArgumentException if the identified state cannot be found
* @throws ClassCastException when the identified state is not transitionable
*/
public TransitionableState getTransitionableState(String stateId) throws IllegalArgumentException,
ClassCastException {
State state = getStateInstance(stateId);
if (state != null && !(state instanceof TransitionableState)) {
throw new ClassCastException("The state '" + stateId + "' of flow '" + getId() + "' must be transitionable");
}
return (TransitionableState) state;
}
/**
* Lookup the identified state instance of this flow.
* @param stateId the state id
* @return the state
* @throws IllegalArgumentException if the identified state cannot be found
*/
public State getStateInstance(String stateId) throws IllegalArgumentException {
if (!StringUtils.hasText(stateId)) {
throw new IllegalArgumentException("The specified stateId is invalid: state identifiers must be non-blank");
}
Iterator it = states.iterator();
while (it.hasNext()) {
State state = (State) it.next();
if (state.getId().equals(stateId)) {
return state;
}
}
throw new IllegalArgumentException("Cannot find state with id '" + stateId + "' in flow '" + getId() + "' -- "
+ "Known state ids are '" + StylerUtils.style(getStateIds()) + "'");
}
/**
* Convenience accessor that returns an ordered array of the String ids
for the state definitions
* associated with this flow definition.
* @return the state ids
*/
public String[] getStateIds() {
String[] stateIds = new String[getStateCount()];
int i = 0;
Iterator it = states.iterator();
while (it.hasNext()) {
stateIds[i++] = ((State) it.next()).getId();
}
return stateIds;
}
/**
* Adds a flow variable.
* @param variable the variable
*/
public void addVariable(FlowVariable variable) {
variables.put(variable.getName(), variable);
}
/**
* Adds flow variables.
* @param variables the variables
*/
public void addVariables(FlowVariable[] variables) {
if (variables == null) {
return;
}
for (int i = 0; i < variables.length; i++) {
addVariable(variables[i]);
}
}
/**
* Returns the flow variable with the given name.
* @param name the name of the variable
*/
public FlowVariable getVariable(String name) {
return (FlowVariable) variables.get(name);
}
/**
* Returns the flow variables.
*/
public FlowVariable[] getVariables() {
return (FlowVariable[]) variables.values().toArray(new FlowVariable[variables.size()]);
}
/**
* Returns the configured flow input mapper, or null if none.
* @return the input mapper
*/
public Mapper getInputMapper() {
return inputMapper;
}
/**
* Sets the mapper to map flow input attributes.
* @param inputMapper the input mapper
*/
public void setInputMapper(Mapper inputMapper) {
this.inputMapper = inputMapper;
}
/**
* Returns the list of actions executed by this flow when an execution of the flow starts. The returned list
* is mutable.
* @return the start action list
*/
public ActionList getStartActionList() {
return startActionList;
}
/**
* Returns the list of actions executed by this flow when an execution of the flow ends. The returned list is
* mutable.
* @return the end action list
*/
public ActionList getEndActionList() {
return endActionList;
}
/**
* Returns the configured flow output mapper, or null if none.
* @return the output mapper
*/
public Mapper getOutputMapper() {
return outputMapper;
}
/**
* Sets the mapper to map flow output attributes.
* @param outputMapper the output mapper
*/
public void setOutputMapper(Mapper outputMapper) {
this.outputMapper = outputMapper;
}
/**
* Returns the set of exception handlers, allowing manipulation of how exceptions are handled when thrown during
* flow execution. Exception handlers are invoked when an exception occurs at execution time and can execute custom
* exception handling logic as well as select an error view to display. Exception handlers attached at the flow
* level have an opportunity to handle exceptions that aren't handled at the state level.
* @return the exception handler set
*/
public FlowExecutionExceptionHandlerSet getExceptionHandlerSet() {
return exceptionHandlerSet;
}
/**
* Returns the set of transitions eligible for execution by this flow if no state-level transition is matched. The
* returned set is mutable.
* @return the global transition set
*/
public TransitionSet getGlobalTransitionSet() {
return globalTransitionSet;
}
/**
* Returns the transition that matches the event with the provided id.
* @param eventId the event id
* @return the transition that matches, or null if no match is found.
*/
public TransitionDefinition getGlobalTransition(String eventId) {
for (Iterator it = globalTransitionSet.iterator(); it.hasNext();) {
Transition transition = (Transition) it.next();
if (transition.getId().equals(eventId)) {
return transition;
}
}
return null;
}
/**
* Sets a reference to the application context hosting application objects needed by this flow.
* @param applicationContext the application context
*/
public void setApplicationContext(ApplicationContext applicationContext) {
this.applicationContext = applicationContext;
}
// id based equality
public boolean equals(Object o) {
if (!(o instanceof Flow)) {
return false;
}
Flow other = (Flow) o;
return id.equals(other.id);
}
public int hashCode() {
return id.hashCode();
}
// behavioral code, could be overridden in subclasses
/**
* Start a new session for this flow in its start state. This boils down to the following:
*
* - Create (setup) all registered flow variables ({@link #addVariable(FlowVariable)}) in flow scope.
* - Map provided input data into the flow. Typically data will be mapped into flow scope using the registered
* input mapper ({@link #setInputMapper(Mapper)}).
* - Execute all registered start actions ( {@link #getStartActionList()}).
* - Enter the configured start state ({@link #setStartState(State)})
*
* @param context the flow execution control context
* @param input eligible input into the session
* @throws FlowExecutionException when an exception occurs starting the flow
*/
public void start(RequestControlContext context, MutableAttributeMap input) throws FlowExecutionException {
assertStartStateSet();
createVariables(context);
if (inputMapper != null) {
MappingResults results = inputMapper.map(input, context);
if (results != null && results.hasErrorResults()) {
throw new FlowInputMappingException(getId(), results);
}
}
startActionList.execute(context);
startState.enter(context);
}
/**
* Resume a paused session for this flow in its current view state.
* @param context the flow execution control context
* @throws FlowExecutionException when an exception occurs during the resume operation
*/
public void resume(RequestControlContext context) throws FlowExecutionException {
restoreVariables(context);
getCurrentViewState(context).resume(context);
}
/**
* Handle the last event that occurred against an active session of this flow.
* @param context the flow execution control context
*/
public boolean handleEvent(RequestControlContext context) {
TransitionableState currentState = getCurrentTransitionableState(context);
try {
return currentState.handleEvent(context);
} catch (NoMatchingTransitionException e) {
// try the flow level transition set for a match
Transition transition = globalTransitionSet.getTransition(context);
if (transition != null) {
return context.execute(transition);
// return transition.execute(currentState, context);
} else {
// no matching global transition => let the original exception
// propagate
throw e;
}
}
}
/**
* Inform this flow definition that an execution session of itself has ended. As a result, the flow will do the
* following:
*
* - Execute all registered end actions ({@link #getEndActionList()}).
* - Map data available in the flow execution control context into provided output map using a registered output
* mapper ( {@link #setOutputMapper(Mapper)}).
*
* @param context the flow execution control context
* @param outcome the logical flow outcome that will be returned by the session, generally the id of the terminating
* end state
* @param output initial output produced by the session that is eligible for modification by this method
* @throws FlowExecutionException when an exception occurs ending this flow
*/
public void end(RequestControlContext context, String outcome, MutableAttributeMap output)
throws FlowExecutionException {
endActionList.execute(context);
if (outputMapper != null) {
MappingResults results = outputMapper.map(context, output);
if (results != null && results.hasErrorResults()) {
throw new FlowOutputMappingException(getId(), results);
}
}
}
public void destroy() {
if (applicationContext != null && applicationContext instanceof ConfigurableApplicationContext) {
((ConfigurableApplicationContext) applicationContext).close();
}
}
/**
* Handle an exception that occurred during an execution of this flow.
* @param exception the exception that occurred
* @param context the flow execution control context
*/
public boolean handleException(FlowExecutionException exception, RequestControlContext context)
throws FlowExecutionException {
return getExceptionHandlerSet().handleException(exception, context);
}
// internal helpers
private void assertStartStateSet() {
if (startState == null) {
throw new IllegalStateException("Unable to start flow '" + id
+ "'; the start state is not set -- flow builder configuration error?");
}
}
private void createVariables(RequestContext context) {
Iterator it = variables.values().iterator();
while (it.hasNext()) {
FlowVariable variable = (FlowVariable) it.next();
if (logger.isDebugEnabled()) {
logger.debug("Creating " + variable);
}
variable.create(context);
}
}
public void restoreVariables(RequestContext context) {
Iterator it = variables.values().iterator();
while (it.hasNext()) {
FlowVariable variable = (FlowVariable) it.next();
if (logger.isDebugEnabled()) {
logger.debug("Restoring " + variable);
}
variable.restore(context);
}
}
private ViewState getCurrentViewState(RequestControlContext context) {
State currentState = (State) context.getCurrentState();
if (!(currentState instanceof ViewState)) {
throw new IllegalStateException("You can only resume paused view states, and state "
+ context.getCurrentState() + " is not a view state - programmer error");
}
return (ViewState) currentState;
}
private TransitionableState getCurrentTransitionableState(RequestControlContext context) {
State currentState = (State) context.getCurrentState();
if (!(currentState instanceof TransitionableState)) {
throw new IllegalStateException("You can only signal events in transitionable states, and state "
+ context.getCurrentState() + " is not transitionable - programmer error");
}
return (TransitionableState) currentState;
}
public String toString() {
return new ToStringCreator(this).append("id", id).append("states", states).append("startState", startState)
.append("variables", variables).append("inputMapper", inputMapper).append("startActionList",
startActionList).append("exceptionHandlerSet", exceptionHandlerSet).append(
"globalTransitionSet", globalTransitionSet).append("endActionList", endActionList).append(
"outputMapper", outputMapper).toString();
}
}