/** * Unmarshall a Genotype instance from a given XML Element representation. Its population of * Chromosomes will be unmarshalled from the Chromosome sub-elements. * * @param a_activeConfiguration the current active Configuration object that is to be used during * construction of the Genotype and Chromosome instances * @param a_xmlElement the XML Element representation of the Genotype * @return a new Genotype instance, complete with a population of Chromosomes, setup with the data * from the XML Element representation * @throws ImproperXMLException if the given Element is improperly structured or missing data * @throws InvalidConfigurationException if the given Configuration is in an inconsistent state * @throws UnsupportedRepresentationException if the actively configured Gene implementation does * not support the string representation of the alleles used in the given XML document * @throws GeneCreationException if there is a problem creating or populating a Gene instance * @author Neil Rotstan * @author Klaus Meffert * @since 1.0 */ public static Genotype getGenotypeFromElement( Configuration a_activeConfiguration, Element a_xmlElement) throws ImproperXMLException, InvalidConfigurationException, UnsupportedRepresentationException, GeneCreationException { // Sanity check. Make sure the XML element isn't null and that it // actually represents a genotype. if (a_xmlElement == null || !(a_xmlElement.getTagName().equals(GENOTYPE_TAG))) { throw new ImproperXMLException( "Unable to build Genotype instance from XML Element: " + "given Element is not a 'genotype' element."); } // Fetch all of the nested chromosome elements and convert them // into Chromosome instances. // ------------------------------------------------------------ NodeList chromosomes = a_xmlElement.getElementsByTagName(CHROMOSOME_TAG); int numChromosomes = chromosomes.getLength(); Population population = new Population(a_activeConfiguration, numChromosomes); for (int i = 0; i < numChromosomes; i++) { population.addChromosome( getChromosomeFromElement(a_activeConfiguration, (Element) chromosomes.item(i))); } // Construct a new Genotype with the chromosomes and return it. // ------------------------------------------------------------ return new Genotype(a_activeConfiguration, population); }
public Command executeStep(Element stepRow) throws Exception { Command command = new Command(); NodeList stepFields = stepRow.getElementsByTagName("td"); String cmd = stepFields.item(0).getTextContent().trim(); command.cmd = cmd; ArrayList<String> argList = new ArrayList<String>(); if (stepFields.getLength() == 1) { // skip comments command.result = "OK"; return command; } for (int i = 1; i < stepFields.getLength(); i++) { String content = stepFields.item(i).getTextContent(); content = content.replaceAll(" +", " "); content = content.replace('\u00A0', ' '); content = content.trim(); argList.add(content); } String args[] = argList.toArray(new String[0]); command.args = args; if (this.verbose) { System.out.println(cmd + " " + Arrays.asList(args)); } try { command.result = this.commandProcessor.doCommand(cmd, args); command.error = false; } catch (Exception e) { command.result = e.getMessage(); command.error = true; } command.failure = command.error && !cmd.startsWith("verify"); if (this.verbose) { System.out.println(command.result); } return command; }
/** * Searches the children of an element looking for a Text node. If it finds one, it returns it. * * @param element The element whose children will be searched * @return The text for the element, or null if there is none */ public static String getElementString(Element element) { NodeList nodes = element.getChildNodes(); int numNodes = nodes.getLength(); for (int i = 0; i < numNodes; i++) { Node node = nodes.item(i); if (node instanceof Text) { return ((Text) node).getData(); } } return null; }
private Object deserialize(Node node, boolean setProperty, boolean popBean) throws Exception { Object object = null; currentType = null; currentNode = node; currentName = node.getNodeName(); boolean isNull = false; NamedNodeMap attrs = node.getAttributes(); String arrayType = null; for (int i = 0; i < attrs.getLength(); i++) { String nodeName = attrs.item(i).getNodeName(); String nodeValue = attrs.item(i).getNodeValue(); if (nodeName.equals(NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE)) currentType = new StringBuffer(nodeValue).delete(0, nodeValue.indexOf(':') + 1).toString(); else if (nodeName.equals( NamespaceConstants.NSPREFIX_SOAP_ENCODING + ":" + Constants.ATTR_ARRAY_TYPE)) arrayType = new StringBuffer(nodeValue).delete(0, nodeValue.indexOf(':') + 1).toString(); else if (nodeName.equals(NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null")) isNull = nodeValue.equals("true"); } Class cls = null; if (currentType != null) cls = getXsdTypeClass(currentType); // Handle array, Vector, ArrayList, LinkedList, Hashtable, // Properties, and HashMap data types if ((cls != null) && ((cls == java.lang.reflect.Array.class) || (cls == Vector.class) || (cls == ArrayList.class) || (cls == LinkedList.class) || (cls == Hashtable.class) || (cls == Properties.class) || (cls == HashMap.class) || (cls == SortedMap.class))) { parentNode = currentNode; String name = node.getNodeName(); // Handle arrays if (cls == java.lang.reflect.Array.class) { int a = arrayType.indexOf("["); int b = arrayType.indexOf("]"); String s = arrayType.substring(a + 1, b); int arrayLen = Integer.valueOf(s).intValue(); arrayType = arrayType.substring(0, a); // check if the array element is a standard Java class Class arrayClass = getXsdTypeClass(arrayType); // otherwise try to get the class of the bean if (arrayClass == null) arrayClass = getClassOfBean((ClassLoader) classLoaderStrategy, arrayType); object = java.lang.reflect.Array.newInstance(arrayClass, arrayLen); } else { // Construct the list or map type Constructor ct = cls.getConstructor((Class[]) null); object = ct.newInstance((Object[]) null); } // deserialize the elements of the array, list, or map NodeList childNodes = node.getChildNodes(); int arrayIndex = -1; Node childNode = null; Object nodeObj = null; for (int i = 0; i < childNodes.getLength(); i++) { childNode = childNodes.item(i); if (childNode.getNodeType() == Node.ELEMENT_NODE) { if ((cls == java.lang.reflect.Array.class) || (cls == Vector.class) || (cls == ArrayList.class) || (cls == LinkedList.class)) { nodeObj = deserialize(childNode, false, true); if (nodeObj != null) { if (cls == java.lang.reflect.Array.class) java.lang.reflect.Array.set(object, ++arrayIndex, nodeObj); else ((List) object).add(nodeObj); } } else if ((cls == Hashtable.class) || (cls == Properties.class) || (cls == HashMap.class) || (cls == SortedMap.class)) { if (childNode.getLocalName().equals("item")) { NodeList htNodes = childNode.getChildNodes(); if (htNodes.getLength() == 2) { Object hashKey = deserialize(htNodes.item(0), false, false); Object hashValue = deserialize(htNodes.item(1), false, true); ((Map) object).put(hashKey, hashValue); } } } } } setBeanProperty(name, object); // Handle everything else (primitives & POJOs) } else { // recurse on each of the child nodes NodeList childNodes = node.getChildNodes(); if ((childNodes != null) && (childNodes.getLength() > 0)) { for (int i = 0; i < childNodes.getLength(); i++) { Node childNode = childNodes.item(i); if (childNode.getNodeType() == Node.ELEMENT_NODE) { if (currentType != null) createObject( node, currentName, currentPackage, currentType, childNode.getNodeValue(), setProperty); parentNode = node; object = deserialize(childNode, true, true); } else if ((childNode.getNodeType() == Node.TEXT_NODE) && (currentType != null)) { object = createObject( node, currentName, currentPackage, currentType, childNode.getNodeValue(), setProperty); } currentType = null; } } else { if (!isNull) object = createObject(node, currentName, currentPackage, currentType, null, setProperty); } if (node.getParentNode() != parentNode) { parentNode = node.getParentNode(); if (popBean) { Object bean = popBeanOffStack(); if (bean != null) object = bean; } } } return object; }
public boolean runTest(Test test) throws Exception { String filename = test.file.toString(); if (this.verbose) { System.out.println( "Running " + filename + " against " + this.host + ":" + this.port + " with " + this.browser); } this.document = parseDocument(filename); if (this.baseUrl == null) { NodeList links = this.document.getElementsByTagName("link"); if (links.getLength() != 0) { Element link = (Element) links.item(0); setBaseUrl(link.getAttribute("href")); } } if (this.verbose) { System.out.println("Base URL=" + this.baseUrl); } Node body = this.document.getElementsByTagName("body").item(0); Element resultContainer = document.createElement("div"); resultContainer.setTextContent("Result: "); Element resultElt = document.createElement("span"); resultElt.setAttribute("id", "result"); resultElt.setIdAttribute("id", true); resultContainer.appendChild(resultElt); body.insertBefore(resultContainer, body.getFirstChild()); Element executionLogContainer = document.createElement("div"); executionLogContainer.setTextContent("Execution Log:"); Element executionLog = document.createElement("div"); executionLog.setAttribute("id", "log"); executionLog.setIdAttribute("id", true); executionLog.setAttribute("style", "white-space: pre;"); executionLogContainer.appendChild(executionLog); body.appendChild(executionLogContainer); NodeList tableRows = document.getElementsByTagName("tr"); Element theadRow = (Element) tableRows.item(0); test.name = theadRow.getTextContent(); appendCellToRow(theadRow, "Result"); this.commandProcessor = new HtmlCommandProcessor(this.host, this.port, this.browser, this.baseUrl); String resultState; String resultLog; test.result = true; try { this.commandProcessor.start(); test.commands = new Command[tableRows.getLength() - 1]; for (int i = 1; i < tableRows.getLength(); i++) { Element stepRow = (Element) tableRows.item(i); Command command = executeStep(stepRow); appendCellToRow(stepRow, command.result); test.commands[i - 1] = command; if (command.error) { test.result = false; } if (command.failure) { test.result = false; // break; } } resultState = test.result ? "PASSED" : "FAILED"; resultLog = (test.result ? "Test Complete" : "Error"); this.commandProcessor.stop(); } catch (Exception e) { test.result = false; resultState = "ERROR"; resultLog = "Failed to initialize session\n" + e; e.printStackTrace(); } document.getElementById("result").setTextContent(resultState); Element log = document.getElementById("log"); log.setTextContent(log.getTextContent() + resultLog + "\n"); return test.result; }
public boolean runSuite(String filename) throws Exception { if (this.verbose) { System.out.println( "Running test suite " + filename + " against " + this.host + ":" + this.port + " with " + this.browser); } TestSuite suite = new TestSuite(); long start = System.currentTimeMillis(); suite.numTestPasses = 0; suite.file = new File(filename); File suiteDirectory = suite.file.getParentFile(); this.document = parseDocument(filename); Element table = (Element) this.document.getElementsByTagName("table").item(0); NodeList tableRows = table.getElementsByTagName("tr"); Element tableNameRow = (Element) tableRows.item(0); suite.name = tableNameRow.getTextContent(); suite.result = true; suite.tests = new Test[tableRows.getLength() - 1]; for (int i = 1; i < tableRows.getLength(); i++) { Element tableRow = (Element) tableRows.item(i); Element cell = (Element) tableRow.getElementsByTagName("td").item(0); Element link = (Element) cell.getElementsByTagName("a").item(0); Test test = new Test(); test.label = link.getTextContent(); test.file = new File(suiteDirectory, link.getAttribute("href")); SeleniumHtmlClient subclient = new SeleniumHtmlClient(); subclient.setHost(this.host); subclient.setPort(this.port); subclient.setBrowser(this.browser); // subclient.setResultsWriter(this.resultsWriter); subclient.setBaseUrl(this.baseUrl); subclient.setVerbose(this.verbose); subclient.runTest(test); if (test.result) { suite.numTestPasses++; } suite.result &= test.result; suite.tests[i - 1] = test; } long end = System.currentTimeMillis(); suite.totalTime = (end - start) / 1000; if (this.resultsWriter != null) { this.resultsWriter.write("<html><head>\n"); this.resultsWriter.write("<style type='text/css'>\n"); this.resultsWriter.write( "body, table {font-family: Verdana, Arial, sans-serif;font-size: 12;}\n"); this.resultsWriter.write("table {border-collapse: collapse;border: 1px solid #ccc;}\n"); this.resultsWriter.write("th, td {padding-left: 0.3em;padding-right: 0.3em;}\n"); this.resultsWriter.write("a {text-decoration: none;}\n"); this.resultsWriter.write(".title {font-style: italic;}"); this.resultsWriter.write(".selected {background-color: #ffffcc;}\n"); this.resultsWriter.write(".status_done {background-color: #eeffee;}\n"); this.resultsWriter.write(".status_passed {background-color: #ccffcc;}\n"); this.resultsWriter.write(".status_failed {background-color: #ffcccc;}\n"); this.resultsWriter.write( ".breakpoint {background-color: #cccccc;border: 1px solid black;}\n"); this.resultsWriter.write("</style>\n"); this.resultsWriter.write("<title>" + suite.name + "</title>\n"); this.resultsWriter.write("</head><body>\n"); this.resultsWriter.write("<h1>Test suite results </h1>\n\n"); this.resultsWriter.write("<table>\n"); this.resultsWriter.write( "<tr>\n<td>result:</td>\n<td>" + (suite.result ? "passed" : "failed") + "</td>\n</tr>\n"); this.resultsWriter.write( "<tr>\n<td>totalTime:</td>\n<td>" + suite.totalTime + "</td>\n</tr>\n"); this.resultsWriter.write( "<tr>\n<td>numTestTotal:</td>\n<td>" + suite.tests.length + "</td>\n</tr>\n"); this.resultsWriter.write( "<tr>\n<td>numTestPasses:</td>\n<td>" + suite.numTestPasses + "</td>\n</tr>\n"); int numTestFailures = suite.tests.length - suite.numTestPasses; this.resultsWriter.write( "<tr>\n<td>numTestFailures:</td>\n<td>" + numTestFailures + "</td>\n</tr>\n"); this.resultsWriter.write("<tr>\n<td>numCommandPasses:</td>\n<td>0</td>\n</tr>\n"); this.resultsWriter.write("<tr>\n<td>numCommandFailures:</td>\n<td>0</td>\n</tr>\n"); this.resultsWriter.write("<tr>\n<td>numCommandErrors:</td>\n<td>0</td>\n</tr>\n"); this.resultsWriter.write("<tr>\n<td>Selenium Version:</td>\n<td>2.24</td>\n</tr>\n"); this.resultsWriter.write("<tr>\n<td>Selenium Revision:</td>\n<td>.1</td>\n</tr>\n"); // test suite this.resultsWriter.write("<tr>\n<td>\n"); this.resultsWriter.write( "<table id=\"suiteTable\" class=\"selenium\" border=\"1\" cellpadding=\"1\" cellspacing=\"1\"><tbody>\n"); this.resultsWriter.write( "<tr class=\"title " + (suite.result ? "status_passed" : "status_failed") + "\"><td><b>Test Suite</b></td></tr>\n"); int i = 0; for (Test test : suite.tests) { this.resultsWriter.write( "<tr class=\"" + (test.result ? "status_passed" : "status_failed") + "\"><td><a href=\"#testresult" + i + "\">" + test.name + "</a></td></tr>"); i++; } this.resultsWriter.write( "</tbody></table>\n</td>\n<td> </td>\n</tr>\n</table>\n<table>"); int j = 0; for (Test test : suite.tests) { this.resultsWriter.write( "<tr><td><a name=\"testresult" + j + "\">" + test.file + "</a><br/><div>\n"); this.resultsWriter.write("<table border=\"1\" cellpadding=\"1\" cellspacing=\"1\">\n"); this.resultsWriter.write( "<thead>\n<tr class=\"title " + (test.result ? "status_passed" : "status_failed") + "\"><td rowspan=\"1\" colspan=\"3\">" + test.name + "</td></tr>"); this.resultsWriter.write("</thead><tbody>\n"); for (Command command : test.commands) { boolean result = command.result.startsWith("OK"); boolean isAssert = command.cmd.startsWith("assert") || command.cmd.startsWith("verify"); ; if (!isAssert) { this.resultsWriter.write( "<tr class=\"" + (result ? "status_done" : "") + "\">\n<td>\n"); } else { this.resultsWriter.write( "<tr class=\"" + (result ? "status_passed" : "status_failed") + "\">\n<td>\n"); } this.resultsWriter.write(command.cmd); this.resultsWriter.write("</td>\n"); if (command.args != null) { for (String arg : Arrays.asList(command.args)) { this.resultsWriter.write("<td>" + arg + "</td>\n"); } } } this.resultsWriter.write("</tr>\n"); this.resultsWriter.write("</tbody></table>\n"); this.resultsWriter.write("</div></td>\n<td> </td>\n</tr>"); j++; } int k = 0; for (Test test : suite.tests) { k++; } this.resultsWriter.write("</tbody></table>\n</td><td> </td>\n</tr>\n</table>\n"); this.resultsWriter.write("</body></html>"); } return suite.result; }
/** * Reads XML element(s) into an indexed bean property by first locating the XML element(s) * corresponding to this property. * * @param ob The bean whose property is being set * @param desc The property that will be set * @param nodes The list of XML items that may contain the property * @throws IOException If there is an error reading the document */ public void readIndexedProperty( Object ob, IndexedPropertyDescriptor desc, NodeList nodes, NamedNodeMap attrs) throws IOException { // Create a vector to hold the property values Vector v = new Vector(); int numAttrs = attrs.getLength(); for (int i = 0; i < numAttrs; i++) { // See if this attribute matches the property name if (namesMatch(desc.getName(), attrs.item(i).getNodeName())) { // Get the property value Object obValue = getObjectValue(desc, attrs.item(i).getNodeValue()); if (obValue != null) { // Add the value to the list of values to be set v.addElement(obValue); } } } int numNodes = nodes.getLength(); for (int i = 0; i < numNodes; i++) { Node node = nodes.item(i); // Skip non-element nodes if (!(node instanceof Element)) continue; Element element = (Element) node; // See if this element tag matches the property name if (namesMatch(desc.getName(), element.getTagName())) { // Get the property value Object obValue = getObjectValue(desc, element); if (obValue != null) { // Add the value to the list of values to be set v.addElement(obValue); } } } // Get the method used to set the property value Method setter = desc.getWriteMethod(); // If this property has no setter, don't write it if (setter == null) return; // Create a new array of property values Object propArray = Array.newInstance(desc.getPropertyType().getComponentType(), v.size()); // Copy the vector into the array v.copyInto((Object[]) propArray); try { // Store the array of property values setter.invoke(ob, new Object[] {propArray}); } catch (InvocationTargetException exc) { throw new IOException("Error setting property " + desc.getName() + ": " + exc.toString()); } catch (IllegalAccessException exc) { throw new IOException("Error setting property " + desc.getName() + ": " + exc.toString()); } }
/** * Reads an XML element into a bean property by first locating the XML element corresponding to * this property. * * @param ob The bean whose property is being set * @param desc The property that will be set * @param nodes The list of XML items that may contain the property * @throws IOException If there is an error reading the document */ public void readProperty(Object ob, PropertyDescriptor desc, NodeList nodes, NamedNodeMap attrs) throws IOException { int numAttrs = attrs.getLength(); for (int i = 0; i < numAttrs; i++) { // See if the attribute name matches the property name if (namesMatch(desc.getName(), attrs.item(i).getNodeName())) { // Get the method used to set this property Method setter = desc.getWriteMethod(); // If this object has no setter, don't bother writing it if (setter == null) continue; // Get the value of the property Object obValue = getObjectValue(desc, attrs.item(i).getNodeValue()); if (obValue != null) { try { // Set the property value setter.invoke(ob, new Object[] {obValue}); } catch (InvocationTargetException exc) { throw new IOException( "Error setting property " + desc.getName() + ": " + exc.toString()); } catch (IllegalAccessException exc) { throw new IOException( "Error setting property " + desc.getName() + ": " + exc.toString()); } } return; } } int numNodes = nodes.getLength(); Vector arrayBuild = null; for (int i = 0; i < numNodes; i++) { Node node = nodes.item(i); // If this node isn't an element, skip it if (!(node instanceof Element)) continue; Element element = (Element) node; // See if the tag name matches the property name if (namesMatch(desc.getName(), element.getTagName())) { // Get the method used to set this property Method setter = desc.getWriteMethod(); // If this object has no setter, don't bother writing it if (setter == null) continue; // Get the value of the property Object obValue = getObjectValue(desc, element); // 070201 MAW: Modified from change submitted by Steve Poulson if (setter.getParameterTypes()[0].isArray()) { if (arrayBuild == null) { arrayBuild = new Vector(); } arrayBuild.addElement(obValue); // 070201 MAW: Go ahead and read through the rest of the nodes in case // another one matches the array. This has the effect of skipping // over the "return" statement down below continue; } if (obValue != null) { try { // Set the property value setter.invoke(ob, new Object[] {obValue}); } catch (InvocationTargetException exc) { throw new IOException( "Error setting property " + desc.getName() + ": " + exc.toString()); } catch (IllegalAccessException exc) { throw new IOException( "Error setting property " + desc.getName() + ": " + exc.toString()); } } return; } } // If we build a vector of array members, convert the vector into // an array and save it in the property if (arrayBuild != null) { // Get the method used to set this property Method setter = desc.getWriteMethod(); if (setter == null) return; Object[] obValues = (Object[]) Array.newInstance(desc.getPropertyType(), arrayBuild.size()); arrayBuild.copyInto(obValues); try { setter.invoke(ob, new Object[] {obValues}); } catch (InvocationTargetException exc) { throw new IOException("Error setting property " + desc.getName() + ": " + exc.toString()); } catch (IllegalAccessException exc) { throw new IOException("Error setting property " + desc.getName() + ": " + exc.toString()); } return; } }
/** * Unmarshall a Chromosome instance from a given XML Element representation. * * @param a_activeConfiguration current Configuration object * @param a_xmlElement the XML Element representation of the Chromosome * @return a new Chromosome instance setup with the data from the XML Element representation * @throws ImproperXMLException if the given Element is improperly structured or missing data * @throws UnsupportedRepresentationException if the actively configured Gene implementation does * not support the string representation of the alleles used in the given XML document * @throws GeneCreationException if there is a problem creating or populating a Gene instance * @author Neil Rotstan * @since 1.0 */ public static Gene[] getGenesFromElement( Configuration a_activeConfiguration, Element a_xmlElement) throws ImproperXMLException, UnsupportedRepresentationException, GeneCreationException { // Do some sanity checking. Make sure the XML Element isn't null and // that it in fact represents a set of genes. // ----------------------------------------------------------------- if (a_xmlElement == null || !(a_xmlElement.getTagName().equals(GENES_TAG))) { throw new ImproperXMLException( "Unable to build Chromosome instance from XML Element: " + "given Element is not a 'genes' element."); } List genes = Collections.synchronizedList(new ArrayList()); // Extract the nested gene elements. // --------------------------------- NodeList geneElements = a_xmlElement.getElementsByTagName(GENE_TAG); if (geneElements == null) { throw new ImproperXMLException( "Unable to build Gene instances from XML Element: " + "'" + GENE_TAG + "'" + " sub-elements not found."); } // For each gene, get the class attribute so we know what class // to instantiate to represent the gene instance, and then find // the child text node, which is where the string representation // of the allele is located, and extract the representation. // ------------------------------------------------------------- int numberOfGeneNodes = geneElements.getLength(); for (int i = 0; i < numberOfGeneNodes; i++) { Element thisGeneElement = (Element) geneElements.item(i); thisGeneElement.normalize(); // Fetch the class attribute and create an instance of that // class to represent the current gene. // -------------------------------------------------------- String geneClassName = thisGeneElement.getAttribute(CLASS_ATTRIBUTE); Gene thisGeneObject; Class geneClass = null; try { geneClass = Class.forName(geneClassName); try { Constructor constr = geneClass.getConstructor(new Class[] {Configuration.class}); thisGeneObject = (Gene) constr.newInstance(new Object[] {a_activeConfiguration}); } catch (NoSuchMethodException nsme) { // Try it by calling method newGeneInternal. // ----------------------------------------- Constructor constr = geneClass.getConstructor(new Class[] {}); thisGeneObject = (Gene) constr.newInstance(new Object[] {}); thisGeneObject = (Gene) PrivateAccessor.invoke( thisGeneObject, "newGeneInternal", new Class[] {}, new Object[] {}); } } catch (Throwable e) { throw new GeneCreationException(geneClass, e); } // Find the text node and fetch the string representation of // the allele. // --------------------------------------------------------- NodeList children = thisGeneElement.getChildNodes(); int childrenSize = children.getLength(); String alleleRepresentation = null; for (int j = 0; j < childrenSize; j++) { Element alleleElem = (Element) children.item(j); if (alleleElem.getTagName().equals(ALLELE_TAG)) { alleleRepresentation = alleleElem.getAttribute("value"); } if (children.item(j).getNodeType() == Node.TEXT_NODE) { // We found the text node. Extract the representation. // --------------------------------------------------- alleleRepresentation = children.item(j).getNodeValue(); break; } } // Sanity check: Make sure the representation isn't null. // ------------------------------------------------------ if (alleleRepresentation == null) { throw new ImproperXMLException( "Unable to build Gene instance from XML Element: " + "value (allele) is missing representation."); } // Now set the value of the gene to that reflect the // string representation. // ------------------------------------------------- try { thisGeneObject.setValueFromPersistentRepresentation(alleleRepresentation); } catch (UnsupportedOperationException e) { throw new GeneCreationException( "Unable to build Gene because it does not support the " + "setValueFromPersistentRepresentation() method."); } // Finally, add the current gene object to the list of genes. // ---------------------------------------------------------- genes.add(thisGeneObject); } return (Gene[]) genes.toArray(new Gene[genes.size()]); }