use of com.google.firestore.v1.Document in project JMRI by JMRI.
the class QualifierAdderTest method testNotExistsOk1.
public void testNotExistsOk1() {
Element e = new Element("variable").addContent(new Element("qualifier").addContent(new Element("variableref").addContent("none")).addContent(new Element("relation").addContent("exists")).addContent(new Element("value").addContent("1")));
// create a JDOM tree with just some elements
Element root = new Element("decoder-config");
Document doc = new Document(root);
doc.setDocType(new DocType("decoder-config", "decoder-config.dtd"));
root.addContent(// the sites information here lists all relevant
new Element("decoder").addContent(new Element("variables").addContent(e)));
// test Exists
processModifierElements(e, v2);
Assert.assertFalse(v2.getAvailable());
}
use of com.google.firestore.v1.Document in project JMRI by JMRI.
the class QualifierCombinerTest method setUp.
// The minimal setup for log4J
@Before
public void setUp() {
apps.tests.Log4JFixture.setUp();
p = new ProgDebugger();
cvtable = new CvTableModel(new JLabel(""), p);
model = new VariableTableModel(new JLabel(""), new String[] { "Name", "Value" }, cvtable, new IndexedCvTableModel(new JLabel(""), p));
// create a JDOM tree with just some elements
Element root = new Element("decoder-config");
Document doc = new Document(root);
doc.setDocType(new DocType("decoder-config", "decoder-config.dtd"));
// add some elements
Element el1, el2, el3;
root.addContent(// the sites information here lists all relevant
new Element("decoder").addContent(new Element("variables").addContent(el1 = new Element("variable").setAttribute("CV", "1").setAttribute("item", "one").addContent(new Element("decVal").setAttribute("max", "31").setAttribute("min", "1"))).addContent(el2 = new Element("variable").setAttribute("CV", "2").setAttribute("item", "two").addContent(new Element("decVal").setAttribute("max", "31").setAttribute("min", "1"))).addContent(el3 = new Element("variable").setAttribute("CV", "3").setAttribute("item", "three").addContent(new Element("decVal").setAttribute("max", "31").setAttribute("min", "1")))));
// end of adding contents
// and test reading this
model.setRow(0, el1);
model.setRow(1, el2);
model.setRow(1, el3);
v1 = model.findVar("one");
v2 = model.findVar("two");
v3 = model.findVar("three");
}
use of com.google.firestore.v1.Document in project JMRI by JMRI.
the class CdiPanelDemo method getRootFromFile.
Element getRootFromFile(String name) {
Element root = null;
try {
// argument controls validation
SAXBuilder builder = new SAXBuilder("org.apache.xerces.parsers.SAXParser", false);
Document doc = builder.build(new BufferedInputStream(new FileInputStream(new File(name))));
root = doc.getRootElement();
} catch (Exception e) {
System.out.println("While reading file: " + e);
}
return root;
}
use of com.google.firestore.v1.Document in project JMRI by JMRI.
the class SampleFactory method main.
// Main entry point for standalone run
public static void main(String[] args) {
// dump a document to stdout
Element root = getBasicSample();
Document doc = new Document(root);
try {
org.jdom2.output.XMLOutputter fmt = new org.jdom2.output.XMLOutputter();
fmt.setFormat(org.jdom2.output.Format.getPrettyFormat());
fmt.output(doc, System.out);
} catch (Exception e) {
System.err.println("Exception writing file: " + e);
}
}
use of com.google.firestore.v1.Document in project JMRI by JMRI.
the class DefaultCatalogTreeManagerXml method writeCatalogTrees.
/*
* Writes out tree values to a file in the user's preferences directory
*/
public void writeCatalogTrees() throws java.io.IOException {
if (log.isDebugEnabled()) {
log.debug("entered writeCatalogTreeValues");
}
CatalogTreeManager manager = InstanceManager.getDefault(jmri.CatalogTreeManager.class);
List<String> trees = manager.getSystemNameList();
boolean found = false;
Iterator<String> iter = manager.getSystemNameList().iterator();
while (iter.hasNext()) {
String sname = iter.next();
CatalogTree tree = manager.getBySystemName(sname);
if (log.isDebugEnabled()) {
log.debug("Tree: sysName= " + sname + ", userName= " + tree.getUserName());
CatalogTreeNode root = tree.getRoot();
log.debug("enumerateTree called for root= " + root.toString() + ", has " + root.getChildCount() + " children");
// root.depthFirstEnumeration isn't fully typed in JDOM2
@SuppressWarnings("unchecked") Enumeration<CatalogTreeNode> e = root.depthFirstEnumeration();
while (e.hasMoreElements()) {
CatalogTreeNode n = e.nextElement();
log.debug("nodeName= " + n.getUserObject() + " has " + n.getLeaves().size() + " leaves and " + n.getChildCount() + " subnodes.");
}
}
if (sname != null && sname.charAt(1) == CatalogTree.XML) {
found = true;
break;
}
}
if (found) {
// there are trees defined, create root element
Element root = new Element("catalogTrees");
Document doc = newDocument(root, dtdLocation + "catalogTree.dtd");
// add XSLT processing instruction
// <?xml-stylesheet type="text/xsl" href="XSLT/tree-values.xsl"?>
java.util.Map<String, String> m = new java.util.HashMap<>();
m.put("type", "text/xsl");
m.put("href", xsltLocation + "panelfile.xsl");
org.jdom2.ProcessingInstruction p = new org.jdom2.ProcessingInstruction("xml-stylesheet", m);
doc.addContent(0, p);
store(root, trees);
try {
if (!checkFile(DEFAULT_FILE_NAME)) {
// file does not exist, create it
File file = new File(DEFAULT_FILE_NAME);
if (!file.createNewFile()) {
log.error("createNewFile failed");
}
}
// write content to file
writeXML(findFile(DEFAULT_FILE_NAME), doc);
// memory consistent with file
jmri.jmrit.catalog.ImageIndexEditor.indexChanged(false);
} catch (java.io.IOException ioe) {
log.error("IO Exception " + ioe);
throw (ioe);
}
}
}
Aggregations