/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You 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.apache.commons.scxml.io;
import java.text.MessageFormat;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.StringTokenizer;
import org.apache.commons.logging.LogFactory;
import org.apache.commons.scxml.SCXMLHelper;
import org.apache.commons.scxml.model.History;
import org.apache.commons.scxml.model.Initial;
import org.apache.commons.scxml.model.Invoke;
import org.apache.commons.scxml.model.ModelException;
import org.apache.commons.scxml.model.Parallel;
import org.apache.commons.scxml.model.SCXML;
import org.apache.commons.scxml.model.State;
import org.apache.commons.scxml.model.Transition;
import org.apache.commons.scxml.model.TransitionTarget;
/**
* The ModelUpdater provides the utility methods to check the Commons
* SCXML model for inconsistencies, detect errors, and wire the Commons
* SCXML model appropriately post document parsing by the digester to make
* it executor ready.
*/
final class ModelUpdater {
/*
* Post-processing methods to make the SCXML object SCXMLExecutor ready.
*/
/**
* <p>Update the SCXML object model and make it SCXMLExecutor ready.
* This is part of post-digester processing, and sets up the necessary
* object references throughtout the SCXML object model for the parsed
* document.</p>
*
* @param scxml The SCXML object (output from Digester)
* @throws ModelException If the object model is flawed
*/
static void updateSCXML(final SCXML scxml) throws ModelException {
// Watch case, slightly unfortunate naming ;-)
String initialstate = scxml.getInitialstate();
//we have to use getTargets() here since the initialState can be
//an indirect descendant
TransitionTarget initialTarget = (TransitionTarget) scxml.getTargets().
get(initialstate);
if (initialTarget == null) {
// Where do we, where do we go?
logAndThrowModelError(ERR_SCXML_NO_INIT, new Object[] {
initialstate });
}
scxml.setInitialTarget(initialTarget);
Map targets = scxml.getTargets();
Map children = scxml.getChildren();
Iterator i = children.keySet().iterator();
while (i.hasNext()) {
TransitionTarget tt = (TransitionTarget) children.get(i.next());
if (tt instanceof State) {
updateState((State) tt, targets);
} else {
updateParallel((Parallel) tt, targets);
}
}
}
/**
* Update this State object (part of post-digestion processing).
* Also checks for any errors in the document.
*
* @param s The State object
* @param targets The global Map of all transition targets
* @throws ModelException If the object model is flawed
*/
private static void updateState(final State s, final Map targets)
throws ModelException {
//initialize next / inital
Initial ini = s.getInitial();
Map c = s.getChildren();
List initialStates = null;
if (!c.isEmpty()) {
if (ini == null) {
logAndThrowModelError(ERR_STATE_NO_INIT,
new Object[] {getStateName(s)});
}
Transition initialTransition = ini.getTransition();
updateTransition(initialTransition, targets);
initialStates = initialTransition.getTargets();
// we have to allow for an indirect descendant initial (targets)
//check that initialState is a descendant of s
if (initialStates.size() == 0) {
logAndThrowModelError(ERR_STATE_BAD_INIT,
new Object[] {getStateName(s)});
} else {
for (int i = 0; i < initialStates.size(); i++) {
TransitionTarget initialState = (TransitionTarget)
initialStates.get(i);
if (!SCXMLHelper.isDescendant(initialState, s)) {
logAndThrowModelError(ERR_STATE_BAD_INIT,
new Object[] {getStateName(s)});
}
}
}
}
List histories = s.getHistory();
Iterator histIter = histories.iterator();
while (histIter.hasNext()) {
if (s.isSimple()) {
logAndThrowModelError(ERR_HISTORY_SIMPLE_STATE,
new Object[] {getStateName(s)});
}
History h = (History) histIter.next();
Transition historyTransition = h.getTransition();
if (historyTransition == null) {
// try to assign initial as default
if (initialStates != null && initialStates.size() > 0) {
for (int i = 0; i < initialStates.size(); i++) {
if (initialStates.get(i) instanceof History) {
logAndThrowModelError(ERR_HISTORY_BAD_DEFAULT,
new Object[] {h.getId(), getStateName(s)});
}
}
historyTransition = new Transition();
historyTransition.getTargets().addAll(initialStates);
h.setTransition(historyTransition);
} else {
logAndThrowModelError(ERR_HISTORY_NO_DEFAULT,
new Object[] {h.getId(), getStateName(s)});
}
}
updateTransition(historyTransition, targets);
List historyStates = historyTransition.getTargets();
if (historyStates.size() == 0) {
logAndThrowModelError(ERR_STATE_NO_HIST,
new Object[] {getStateName(s)});
}
for (int i = 0; i < historyStates.size(); i++) {
TransitionTarget historyState = (TransitionTarget)
historyStates.get(i);
if (!h.isDeep()) {
if (!c.containsValue(historyState)) {
logAndThrowModelError(ERR_STATE_BAD_SHALLOW_HIST,
new Object[] {getStateName(s)});
}
} else {
if (!SCXMLHelper.isDescendant(historyState, s)) {
logAndThrowModelError(ERR_STATE_BAD_DEEP_HIST,
new Object[] {getStateName(s)});
}
}
}
}
List t = s.getTransitionsList();
for (int i = 0; i < t.size(); i++) {
Transition trn = (Transition) t.get(i);
updateTransition(trn, targets);
}
Parallel p = s.getParallel(); //TODO: Remove in v1.0
Invoke inv = s.getInvoke();
if ((inv != null && p != null)
|| (inv != null && !c.isEmpty())
|| (p != null && !c.isEmpty())) {
logAndThrowModelError(ERR_STATE_BAD_CONTENTS,
new Object[] {getStateName(s)});
}
if (p != null) {
updateParallel(p, targets);
} else if (inv != null) {
String ttype = inv.getTargettype();
if (ttype == null || ttype.trim().length() == 0) {
logAndThrowModelError(ERR_INVOKE_NO_TARGETTYPE,
new Object[] {getStateName(s)});
}
String src = inv.getSrc();
boolean noSrc = (src == null || src.trim().length() == 0);
String srcexpr = inv.getSrcexpr();
boolean noSrcexpr = (srcexpr == null
|| srcexpr.trim().length() == 0);
if (noSrc && noSrcexpr) {
logAndThrowModelError(ERR_INVOKE_NO_SRC,
new Object[] {getStateName(s)});
}
if (!noSrc && !noSrcexpr) {
logAndThrowModelError(ERR_INVOKE_AMBIGUOUS_SRC,
new Object[] {getStateName(s)});
}
} else {
Iterator j = c.keySet().iterator();
while (j.hasNext()) {
updateState((State) c.get(j.next()), targets);
}
}
}
/**
* Update this Parallel object (part of post-digestion processing).
*
* @param p The Parallel object
* @param targets The global Map of all transition targets
* @throws ModelException If the object model is flawed
*/
private static void updateParallel(final Parallel p, final Map targets)
throws ModelException {
Iterator i = p.getChildren().iterator();
while (i.hasNext()) {
updateState((State) i.next(), targets);
}
}
/**
* Update this Transition object (part of post-digestion processing).
*
* @param t The Transition object
* @param targets The global Map of all transition targets
* @throws ModelException If the object model is flawed
*/
private static void updateTransition(final Transition t,
final Map targets) throws ModelException {
String next = t.getNext();
if (next == null) { // stay transition
return;
}
List tts = t.getTargets();
if (tts.size() == 0) {
// 'next' is a space separated list of transition target IDs
StringTokenizer ids = new StringTokenizer(next);
while (ids.hasMoreTokens()) {
String id = ids.nextToken();
TransitionTarget tt = (TransitionTarget) targets.get(id);
if (tt == null) {
logAndThrowModelError(ERR_TARGET_NOT_FOUND, new Object[] {
id });
}
tts.add(tt);
}
if (tts.size() > 1) {
boolean legal = verifyTransitionTargets(tts);
if (!legal) {
logAndThrowModelError(ERR_ILLEGAL_TARGETS, new Object[] {
next });
}
}
}
}
/**
* Log an error discovered in post-digestion processing.
*
* @param errType The type of error
* @param msgArgs The arguments for formatting the error message
* @throws ModelException The model error, always thrown.
*/
private static void logAndThrowModelError(final String errType,
final Object[] msgArgs) throws ModelException {
MessageFormat msgFormat = new MessageFormat(errType);
String errMsg = msgFormat.format(msgArgs);
org.apache.commons.logging.Log log = LogFactory.
getLog(ModelUpdater.class);
log.error(errMsg);
throw new ModelException(errMsg);
}
/**
* Get state identifier for error message. This method is only
* called to produce an appropriate log message in some error
* conditions.
*
* @param state The <code>State</code> object
* @return The state identifier for the error message
*/
private static String getStateName(final State state) {
String badState = "anonymous state";
if (!SCXMLHelper.isStringEmpty(state.getId())) {
badState = "state with ID \"" + state.getId() + "\"";
}
return badState;
}
/**
* If a transition has multiple targets, then they satisfy the following
* criteria.
* <ul>
* <li>They must belong to the regions of the same parallel</li>
* <li>All regions must be represented with exactly one target</li>
* </ul>
*
* @param tts The transition targets
* @return Whether this is a legal configuration
*/
private static boolean verifyTransitionTargets(final List tts) {
if (tts.size() <= 1) { // No contention
return true;
}
TransitionTarget lca = SCXMLHelper.getLCA((TransitionTarget)
tts.get(0), (TransitionTarget) tts.get(1));
if (lca == null || !(lca instanceof Parallel)) {
return false; // Must have a Parallel LCA
}
Parallel p = (Parallel) lca;
Set regions = new HashSet();
for (int i = 0; i < tts.size(); i++) {
TransitionTarget tt = (TransitionTarget) tts.get(i);
while (tt.getParent() != p) {
tt = tt.getParent();
}
if (!regions.add(tt)) {
return false; // One per region
}
}
if (regions.size() != p.getChildren().size()) {
return false; // Must represent all regions
}
return true;
}
/**
* Discourage instantiation since this is a utility class.
*/
private ModelUpdater() {
super();
}
//// Error messages
/**
* Error message when SCXML document specifies an illegal initial state.
*/
private static final String ERR_SCXML_NO_INIT = "No SCXML child state "
+ "with ID \"{0}\" found; illegal initialstate for SCXML document";
/**
* Error message when a state element specifies an initial state which
* cannot be found.
*/
private static final String ERR_STATE_NO_INIT = "No initial element "
+ "available for {0}";
/**
* Error message when a state element specifies an initial state which
* is not a direct descendent.
*/
private static final String ERR_STATE_BAD_INIT = "Initial state "
+ "null or not a descendant of {0}";
/**
* Error message when a state element contains anything other than
* one <parallel>, one <invoke> or any number of
* <state> children.
*/
private static final String ERR_STATE_BAD_CONTENTS = "{0} should "
+ "contain either one <parallel>, one <invoke> or any number of "
+ "<state> children.";
/**
* Error message when a referenced history state cannot be found.
*/
private static final String ERR_STATE_NO_HIST = "Referenced history state"
+ " null for {0}";
/**
* Error message when a shallow history state is not a child state.
*/
private static final String ERR_STATE_BAD_SHALLOW_HIST = "History state"
+ " for shallow history is not child for {0}";
/**
* Error message when a deep history state is not a descendent state.
*/
private static final String ERR_STATE_BAD_DEEP_HIST = "History state"
+ " for deep history is not descendant for {0}";
/**
* Transition target is not a legal IDREF (not found).
*/
private static final String ERR_TARGET_NOT_FOUND =
"Transition target with ID \"{0}\" not found";
/**
* Transition targets do not form a legal configuration.
*/
private static final String ERR_ILLEGAL_TARGETS =
"Transition targets \"{0}\" do not satisfy the requirements for"
+ " target regions belonging to a <parallel>";
/**
* Simple states should not contain a history.
*/
private static final String ERR_HISTORY_SIMPLE_STATE =
"Simple {0} contains history elements";
/**
* History does not specify a default transition target.
*/
private static final String ERR_HISTORY_NO_DEFAULT =
"No default target specified for history with ID \"{0}\""
+ " belonging to {1}";
/**
* History specifies a bad default transition target.
*/
private static final String ERR_HISTORY_BAD_DEFAULT =
"Default target specified for history with ID \"{0}\""
+ " belonging to \"{1}\" is also a history";
/**
* Error message when an <invoke> does not specify a "targettype"
* attribute.
*/
private static final String ERR_INVOKE_NO_TARGETTYPE = "{0} contains "
+ "<invoke> with no \"targettype\" attribute specified.";
/**
* Error message when an <invoke> does not specify a "src"
* or a "srcexpr" attribute.
*/
private static final String ERR_INVOKE_NO_SRC = "{0} contains "
+ "<invoke> without a \"src\" or \"srcexpr\" attribute specified.";
/**
* Error message when an <invoke> specifies both "src" and "srcexpr"
* attributes.
*/
private static final String ERR_INVOKE_AMBIGUOUS_SRC = "{0} contains "
+ "<invoke> with both \"src\" and \"srcexpr\" attributes specified,"
+ " must specify either one, but not both.";
}