// return the resource as a stream private InputStream mapResource(String publicId) { if (publicId == null || id2resource == null) return null; String resourceName = (String) id2resource.get(publicId); ClassLoader loader = null; if (resourceName == null) return null; if (id2loader != null) loader = (ClassLoader) id2loader.get(publicId); if (loader == null) return ClassLoader.getSystemResourceAsStream(resourceName); return loader.getResourceAsStream(resourceName); }
/** * Reads the children of an XML element and matches them to properties of a bean. * * @param ob The bean to receive the values * @param element The element the corresponds to the bean * @throws IOException If there is an error reading the document */ public void readObject(Object ob, Element element) throws IOException { // If the object is null, skip the element if (ob == null) { return; } try { BeanInfo info = (BeanInfo) beanCache.get(ob.getClass()); if (info == null) { // Get the bean info for the object info = Introspector.getBeanInfo(ob.getClass(), Object.class); beanCache.put(ob.getClass(), info); } // Get the object's properties PropertyDescriptor[] props = info.getPropertyDescriptors(); // Get the attributes of the node NamedNodeMap attrs = element.getAttributes(); // Get the children of the XML element NodeList nodes = element.getChildNodes(); int numNodes = nodes.getLength(); for (int i = 0; i < props.length; i++) { // Treat indexed properties a little differently if (props[i] instanceof IndexedPropertyDescriptor) { readIndexedProperty(ob, (IndexedPropertyDescriptor) props[i], nodes, attrs); } else { readProperty(ob, props[i], nodes, attrs); } } } catch (IntrospectionException exc) { throw new IOException( "Error getting bean info for " + ob.getClass().getName() + ": " + exc.toString()); } }
/** SAX entity resolver */ public InputSource resolveEntity(String name, String uri) throws IOException, SAXException { InputSource retval; String mappedURI = name2uri(name); InputStream stream = mapResource(name); // prefer explicit URI mappings, then bundled resources... if (mappedURI != null) { retval = new InputSource(mappedURI); retval.setPublicId(name); return retval; } else if (stream != null) { uri = "java:resource:" + (String) id2resource.get(name); // NOI18N retval = new InputSource(stream); retval.setPublicId(name); return retval; } else { return null; } }
/** * XML Circuit constructor * * @param file the file that contains the XML description of the circuit * @param g the graphics that will paint the node * @throws CircuitLoadingException if the internal circuit can not be loaded */ public CircuitUI(File file, Graphics g) throws CircuitLoadingException { this(""); DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance(); DocumentBuilder builder; Document doc; Element root; Hashtable<Integer, Link> linkstable = new Hashtable<Integer, Link>(); try { builder = factory.newDocumentBuilder(); doc = builder.parse(file); } catch (SAXException sxe) { throw new CircuitLoadingException("SAX exception raised, invalid XML file."); } catch (ParserConfigurationException pce) { throw new CircuitLoadingException( "Parser exception raised, parser configuration is invalid."); } catch (IOException ioe) { throw new CircuitLoadingException("I/O exception, file cannot be loaded."); } root = (Element) doc.getElementsByTagName("Circuit").item(0); this.setName(root.getAttribute("name")); NodeList nl = root.getElementsByTagName("Node"); Element e; Node n; Class cl; for (int i = 0; i < nl.getLength(); ++i) { e = (Element) nl.item(i); try { cl = Class.forName(e.getAttribute("class")); } catch (Exception exc) { System.err.println(exc.getMessage()); throw new RuntimeException("Circuit creation from xml."); } try { n = ((Node) cl.newInstance()); } catch (Exception exc) { System.err.println(exc.getMessage()); throw new RuntimeException("Circuit creation from xml."); } this.nodes.add(n); n.setLocation(new Integer(e.getAttribute("x")), new Integer(e.getAttribute("y"))); if (n instanceof giraffe.ui.Nameable) ((Nameable) n).setNodeName(e.getAttribute("node_name")); if (n instanceof giraffe.ui.CompositeNode) { try { ((CompositeNode) n) .load(new File(file.getParent() + "/" + e.getAttribute("file_name")), g); } catch (Exception exc) { /* try to load from the lib */ ((CompositeNode) n) .load(new File(giraffe.Giraffe.PATH + "/lib/" + e.getAttribute("file_name")), g); } } NodeList nlist = e.getElementsByTagName("Anchor"); Element el; for (int j = 0; j < nlist.getLength(); ++j) { el = (Element) nlist.item(j); Anchor a = n.getAnchor(new Integer(el.getAttribute("id"))); NodeList linklist = el.getElementsByTagName("Link"); Element link; Link l; for (int k = 0; k < linklist.getLength(); ++k) { link = (Element) linklist.item(k); int id = new Integer(link.getAttribute("id")); int index = new Integer(link.getAttribute("index")); if (id >= this.linkID) linkID = id + 1; if (linkstable.containsKey(id)) { l = linkstable.get(id); l.addLinkedAnchorAt(a, index); a.addLink(l); } else { l = new Link(id); l.addLinkedAnchorAt(a, index); this.links.add(l); linkstable.put(id, l); a.addLink(l); } } } } }
/* PROTECTED METHODS */ protected void getBeanElements( Element parentElement, String objectName, String objectType, Object bean) throws IntrospectionException, IllegalAccessException { if (objectName == null) { // Get just the class name by lopping off the package name StringBuffer sb = new StringBuffer(bean.getClass().getName()); sb.delete(0, sb.lastIndexOf(".") + 1); objectName = sb.toString(); } // Check if the bean is a standard Java object type or a byte[] (encoded as a base 64 array) Element element = getStandardObjectElement(document, bean, objectName); // If the body element object is null then the bean is not a standard Java object type if (element != null) { if (includeNullValues || !element .getAttribute( NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + org.apache.axis.Constants.ATTR_TYPE) .equals("anyType")) { if (!includeTypeInfo) { element.removeAttribute( NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + org.apache.axis.Constants.ATTR_TYPE); element.removeAttribute(NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null"); } parentElement.appendChild(element); } } else { // Analyze the bean Class classOfBean = null; if (bean != null) classOfBean = bean.getClass(); // If the object is an array, then serialize each of the beans in the array. if ((classOfBean != null) && (classOfBean.isArray())) { String[] arrayInfo = getXsdSoapArrayInfo(classOfBean.getCanonicalName(), nsPrefix); int arrayLen = Array.getLength(bean); StringBuffer arrayType = new StringBuffer(arrayInfo[1]); arrayType.insert(arrayType.indexOf("[]") + 1, arrayLen); if (objectName.charAt(objectName.length() - 1) == ';') objectName = new StringBuffer(objectName).deleteCharAt(objectName.length() - 1).toString(); element = document.createElement(objectName); parentElement.appendChild(element); // Get the bean objects from the array and serialize each for (int i = 0; i < arrayLen; i++) { Object b = Array.get(bean, i); if (b != null) { String name = null; if (objectName.charAt(objectName.length() - 1) == 's') { name = formatName(objectName.substring(0, objectName.length() - 1)); } getBeanElements(element, name, b.getClass().getName(), b); } else { // Array element is null, so don't include it and decrement the # elements in the array int index = arrayType.indexOf("["); arrayType.replace(index + 1, index + 2, String.valueOf(--arrayLen)); } if (includeTypeInfo) { element.setAttributeNS( NamespaceConstants.NSURI_SCHEMA_XSI, NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE, NamespaceConstants.NSPREFIX_SOAP_ENCODING + ":Array"); element.setAttributeNS( NamespaceConstants.NSURI_SOAP_ENCODING, NamespaceConstants.NSPREFIX_SOAP_ENCODING + ":" + Constants.ATTR_ARRAY_TYPE, arrayInfo[0] + ":" + arrayType.toString()); } } } else { int beanType = 0; String beanName = null; if (classOfBean != null) { if (classOfBean == Vector.class) { beanType = 1; beanName = "Vector"; } else if (classOfBean == ArrayList.class) { beanType = 2; beanName = "ArrayList"; } else if (classOfBean == LinkedList.class) { beanType = 3; beanName = "LinkedList"; } else if (classOfBean == Hashtable.class) { beanType = 4; beanName = "Hashtable"; } else if (classOfBean == Properties.class) { beanType = 5; beanName = "Properties"; } else if ((classOfBean == HashMap.class) || (classOfBean == SortedMap.class)) { beanType = 6; beanName = "Map"; } } if (beanType > 0) { String prefix = null; if ((beanType == 1) || (beanType == 5)) prefix = NamespaceConstants.NSPREFIX_SOAP_ENCODING; if (beanType == 6) prefix = Constants.NS_PREFIX_XMLSOAP; else prefix = DEFAULT_NS_PREFIX; element = document.createElement(objectName); if (includeTypeInfo) { element.setAttributeNS( NamespaceConstants.NSURI_SCHEMA_XSI, NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE, prefix + ":" + beanName); if (bean == null) element.setAttributeNS( NamespaceConstants.NSURI_SCHEMA_XSI, NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null", "true"); } parentElement.appendChild(element); if ((beanType >= 1) && (beanType <= 3)) { AbstractCollection collection = (AbstractCollection) bean; // Get the bean objects from the vector and serialize each Iterator it = collection.iterator(); while (it.hasNext()) { Object b = it.next(); String name = null; if (b != null) { if (objectName.charAt(objectName.length() - 1) == 's') { name = formatName(objectName.substring(0, objectName.length() - 1)); } else name = "item"; } getBeanElements(element, name, b.getClass().getName(), b); } } else if ((beanType == 4) || (beanType == 5)) { Hashtable hashtable = (Hashtable) bean; // Get the bean objects from the hashtable or properties and serialize each Enumeration en = hashtable.keys(); while (en.hasMoreElements()) { Object key = en.nextElement(); String keyClassName = key.getClass().getName(); Object value = hashtable.get(key); String beanClassName = null; if (value != null) beanClassName = value.getClass().getName(); Element itemElement = document.createElement("item"); element.appendChild(itemElement); getBeanElements(itemElement, "key", keyClassName, key); getBeanElements(itemElement, "value", beanClassName, value); } } else if (beanType == 6) { Map map = null; if (classOfBean == HashMap.class) map = (HashMap) bean; else if (classOfBean == SortedMap.class) map = (SortedMap) bean; // Get the bean objects from the hashmap and serialize each Set set = map.keySet(); Iterator it = set.iterator(); while (it.hasNext()) { Object key = it.next(); String keyClassName = key.getClass().getName(); Object value = map.get(key); String beanClassName = null; if (value != null) beanClassName = value.getClass().getName(); Element itemElement = document.createElement("item"); element.appendChild(itemElement); getBeanElements(itemElement, "key", keyClassName, key); getBeanElements(itemElement, "value", beanClassName, value); } } } else { // Create a parent element for this bean's properties if (objectName.charAt(objectName.length() - 1) == ';') objectName = new StringBuffer(objectName).deleteCharAt(objectName.length() - 1).toString(); objectName = formatName(objectName); element = document.createElement(objectName); parentElement.appendChild(element); if (includeTypeInfo) { StringBuffer className = new StringBuffer(objectType); element.setAttributeNS( NamespaceConstants.NSURI_SCHEMA_XSI, NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE, nsPrefix + ":" + className.delete(0, className.lastIndexOf(".") + 1).toString()); } if (classOfBean != null) { // Get an array of property descriptors BeanInfo bi = Introspector.getBeanInfo(classOfBean); PropertyDescriptor[] pds = bi.getPropertyDescriptors(); // For each property of the bean, get a SOAPBodyElement that // represents the individual property. Append that SOAPBodyElement // to the class name element of the SOAP body. for (int i = 0; i < pds.length; i++) { PropertyDescriptor pd = pds[i]; getBeanElementProperties(element, bean, pd); } } else { if (includeTypeInfo) element.setAttributeNS( NamespaceConstants.NSURI_SCHEMA_XSI, NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null", "true"); } } } } }
public Track getTrack(String key) { return (Track) hash.get(key); }
public static PetriNet convert(ConfigurableEPC baseEPC) { HashMap<EPCFunction, Transition> functionActivityMapping; HashMap<EPCConnector, Place> xorconnectorChoiceMapping; // HV: Initialize the mappings. functionActivityMapping = new HashMap<EPCFunction, Transition>(); xorconnectorChoiceMapping = new HashMap<EPCConnector, Place>(); // Check to use the weights if necessary // HV: Add both mappings. On completion, these will be filledd. PetriNet petrinet = EPCToPetriNetConverter.convert( baseEPC, new HashMap(), functionActivityMapping, xorconnectorChoiceMapping); HashSet visible = new HashSet(); // HV: The next block is taken care of by the functionActivityMapping // below. /* * Iterator it = petrinet.getTransitions().iterator(); while * (it.hasNext()) { Transition t = (Transition) it.next(); if (t.object * instanceof EPCFunction) { // if (t.getLogEvent() != null) { // Add * transitions with LogEvent (i.e. referring to functions) * visible.add(t); } } */ // HV: Prevent the places mapped onto from being reduced. visible.addAll(functionActivityMapping.values()); visible.addAll(xorconnectorChoiceMapping.values()); Message.add(visible.toString(), Message.DEBUG); Iterator it = petrinet.getPlaces().iterator(); while (it.hasNext()) { Place p = (Place) it.next(); if (p.inDegree() * p.outDegree() == 0) { // Add Initial and final places to visible, i.e. places that // refer to in and output events visible.add(p); } } // Reduce the PetriNet with Murata rules, while keeping the visible ones PetriNetReduction pnred = new PetriNetReduction(); pnred.setNonReducableNodes(visible); HashMap pnMap = new HashMap(); // Used to map pre-reduction nodes to // post-reduction nodes. PetriNet reduced = pnred.reduce(petrinet, pnMap); if (reduced != petrinet) { // Update both mappings from pre-reduction nodes to post-reduction // nodes. HashMap<EPCFunction, Transition> newFunctionActivityMapping = new HashMap<EPCFunction, Transition>(); for (EPCFunction function : functionActivityMapping.keySet()) { Transition transition = (Transition) functionActivityMapping.get(function); if (pnMap.keySet().contains(transition)) { newFunctionActivityMapping.put(function, (Transition) pnMap.get(transition)); } } functionActivityMapping = newFunctionActivityMapping; HashMap<EPCConnector, Place> newXorconnectorChoiceMapping = new HashMap<EPCConnector, Place>(); for (EPCConnector connector : xorconnectorChoiceMapping.keySet()) { Place place = (Place) xorconnectorChoiceMapping.get(connector); if (pnMap.keySet().contains(place)) { newXorconnectorChoiceMapping.put(connector, (Place) pnMap.get(place)); } } xorconnectorChoiceMapping = newXorconnectorChoiceMapping; } reduced.makeClusters(); // filter the \nunknown:normal ArrayList<Transition> alTrans = reduced.getVisibleTasks(); for (int i = 0; i < alTrans.size(); i++) { Transition t = alTrans.get(i); String id = t.getIdentifier(); int idx = id.indexOf("\\nunknown:normal"); if (idx > 0) { id = id.substring(0, idx); } // �˴������ֵ��ѯ�滻���е�label String mappedId = htDict.get(id); if (mappedId != null) { t.setIdentifier(mappedId); } else { t.setIdentifier(id); } } return reduced; }
// maps the public ID to an alternate URI, if one is registered private String name2uri(String publicId) { if (publicId == null || id2uri == null) return null; return (String) id2uri.get(publicId); }