use of cbit.vcell.desktop.BioModelNode in project vcell by virtualcell.
the class MathModelEditor method treeSelectionChanged.
@Override
protected void treeSelectionChanged() {
try {
Object lastSelectedPathComponent = documentEditorTree.getLastSelectedPathComponent();
if (lastSelectedPathComponent == null || !(lastSelectedPathComponent instanceof BioModelNode)) {
return;
}
BioModelNode selectedNode = (BioModelNode) lastSelectedPathComponent;
Object selectedObject = selectedNode.getUserObject();
setRightTopPanel(selectedObject);
} catch (Exception ex) {
ex.printStackTrace(System.out);
}
}
use of cbit.vcell.desktop.BioModelNode in project vcell by virtualcell.
the class MathModelEditorTreeCellRenderer method getTreeCellRendererComponent.
// public void setMathModel(MathModel mm) {
// mathModel = mm;
// }
public Component getTreeCellRendererComponent(JTree tree, Object value, boolean sel, boolean expanded, boolean leaf, int row, boolean hasFocus) {
super.getTreeCellRendererComponent(tree, value, sel, expanded, leaf, row, hasFocus);
if (regularFont == null) {
regularFont = getFont();
boldFont = regularFont.deriveFont(Font.BOLD);
}
Font font = regularFont;
Icon icon = null;
String labelText = null;
String toolTipPrefix = "";
String toolTipSuffix = "";
if (value instanceof BioModelNode) {
BioModelNode node = (BioModelNode) value;
if (node.getChildCount() > 0) {
icon = getIcon();
}
Object userObj = node.getUserObject();
if (userObj instanceof MathModel) {
font = boldFont;
icon = VCellIcons.documentIcon;
labelText = ((MathModel) userObj).getName();
toolTipPrefix = "MathModel: ";
} else if (userObj instanceof DocumentEditorTreeFolderNode) {
// --- 1st level folders
DocumentEditorTreeFolderNode folder = (DocumentEditorTreeFolderNode) userObj;
labelText = folder.getName();
if (folder.isBold()) {
font = boldFont;
}
DocumentEditorTreeFolderClass folderClass = folder.getFolderClass();
switch(folderClass) {
case MATH_VCML_NODE:
icon = VCellIcons.textNotesIcon;
break;
case MATH_GEOMETRY_NODE:
icon = VCellIcons.geometryIcon;
break;
case MATH_SIMULATIONS_NODE:
icon = VCellIcons.simulationIcon;
break;
case MATH_OUTPUT_FUNCTIONS_NODE:
icon = VCellIcons.getOutputFunctionIcon();
break;
}
}
}
setIcon(icon);
setFont(font);
setText(labelText);
if (toolTipSuffix.length() == 0) {
toolTipSuffix = labelText;
}
setToolTipText(toolTipPrefix + toolTipSuffix);
return this;
}
use of cbit.vcell.desktop.BioModelNode in project vcell by virtualcell.
the class TestingFrameworkWindowPanel method testingFrameworkPanel_actionPerformed.
/**
* Comment
*/
private void testingFrameworkPanel_actionPerformed(final ActionEvent e) {
if (tfRefreshTreeTask == null) {
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager());
}
Hashtable<String, Object> hash = new Hashtable<String, Object>();
Vector<AsynchClientTask> tasksV = new Vector<AsynchClientTask>();
try {
final TreePath[] selectedTreePaths = gettestingFrameworkPanel().getSelectedTreePaths();
if (selectedTreePaths != null && selectedTreePaths.length > 1) {
Object refObj = ((BioModelNode) selectedTreePaths[0].getLastPathComponent()).getUserObject();
for (int i = 1; i < selectedTreePaths.length; i++) {
Object currentObj = ((BioModelNode) selectedTreePaths[i].getLastPathComponent()).getUserObject();
if ((refObj == null && currentObj == null) || ((refObj != null && currentObj != null) && (refObj.getClass().equals(currentObj.getClass()))) || (refObj instanceof TestCaseNew && currentObj instanceof TestCaseNew)) {
continue;
} else {
throw new IllegalArgumentException("Multiple selections must all be of same type");
}
}
}
final Object selectedObj = gettestingFrameworkPanel().getTreeSelection();
if (e.getActionCommand().equals(TestingFrameworkPanel.DELETE_XML_LOAD_TEST)) {
int result = DialogUtils.showComponentOKCancelDialog(this, new JLabel("Delete " + selectedTreePaths.length + " Load Tests?"), "Confirm Load Test Delete");
if (result != JOptionPane.OK_OPTION) {
return;
}
AsynchClientTask deleteLoadTestTask = new AsynchClientTask("Deleting Load Test...", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
@Override
public void run(Hashtable<String, Object> hashTable) throws Exception {
LoadTestInfoOP deleteLoadTestInfoOP = new LoadTestInfoOP(LoadTestOpFlag.delete, null, null);
LoadTestSoftwareVersionTimeStamp[] deleteTheseversTimestamps = new LoadTestSoftwareVersionTimeStamp[selectedTreePaths.length];
for (int i = 0; i < selectedTreePaths.length; i++) {
deleteTheseversTimestamps[i] = ((LoadTestTreeInfo) ((BioModelNode) selectedTreePaths[i].getLastPathComponent()).getUserObject()).loadTestSoftwareVersionTimeStamp;
}
deleteLoadTestInfoOP.setDeleteInfo(deleteTheseversTimestamps);
getTestingFrameworkWindowManager().getRequestManager().getDocumentManager().doTestSuiteOP(deleteLoadTestInfoOP);
final ActionEvent refreshAction = new ActionEvent(this, 0, TestingFrameworkPanel.REFRESH_XML_LOAD_TEST);
new Thread(new Runnable() {
public void run() {
testingFrameworkPanel_actionPerformed(refreshAction);
}
}).start();
}
};
tasksV.add(deleteLoadTestTask);
} else if (e.getActionCommand().equals(TestingFrameworkPanel.RUN_XML_LOAD_TEST_All) || e.getActionCommand().equals(TestingFrameworkPanel.RUN_XML_LOAD_TEST_MODELS) || e.getActionCommand().equals(TestingFrameworkPanel.RUN_XML_LOAD_TEST_USERS)) {
final Date[] beginDate = new Date[1];
final Date[] endDate = new Date[1];
final TreeSet<String> uniqueUserIDTreeSet = new TreeSet<String>();
final Vector<KeyValue> bioAndMathModelKeyValueV = new Vector<KeyValue>();
String typeMsg = "All";
if (!e.getActionCommand().equals(TestingFrameworkPanel.RUN_XML_LOAD_TEST_All)) {
if (selectedTreePaths != null && selectedTreePaths.length > 0) {
Object refObj = ((BioModelNode) selectedTreePaths[0].getLastPathComponent()).getUserObject();
if (refObj instanceof TestingFrmwkTreeModel.LoadTestTreeInfo) {
for (int i = 0; i < selectedTreePaths.length; i++) {
refObj = ((BioModelNode) selectedTreePaths[i].getLastPathComponent()).getUserObject();
uniqueUserIDTreeSet.add(((TestingFrmwkTreeModel.LoadTestTreeInfo) refObj).userid);
if (!e.getActionCommand().equals(TestingFrameworkPanel.RUN_XML_LOAD_TEST_USERS)) {
bioAndMathModelKeyValueV.add(((TestingFrmwkTreeModel.LoadTestTreeInfo) refObj).bioOrMathModelKey);
}
}
}
}
} else {
// TreeSet<VCDocumentInfo> dateRangeDocInfoTreeSet =
// new TreeSet<VCDocumentInfo>(new Comparator<VCDocumentInfo>() {
// public int compare(VCDocumentInfo o1, VCDocumentInfo o2) {
// return o1.getVersion().getDate().compareTo(o2.getVersion().getDate());
// }
// });
// BioModelInfo[] allBioModelInfos = getDocumentManager().getBioModelInfos();
// dateRangeDocInfoTreeSet.addAll(Arrays.asList(allBioModelInfos));
// MathModelInfo[] allMathModelInfos = getDocumentManager().getMathModelInfos();
// dateRangeDocInfoTreeSet.addAll(Arrays.asList(allMathModelInfos));
SimpleDateFormat simpleDateFormat = new SimpleDateFormat("yyyy-MM-dd");
// Date firstDate = simpleDateFormat.parse(simpleDateFormat.format(dateRangeDocInfoTreeSet.first().getVersion().getDate()));
// Date lastDate = simpleDateFormat.parse(simpleDateFormat.format(dateRangeDocInfoTreeSet.last().getVersion().getDate()));
Date firstDate = simpleDateFormat.parse("2000-01-01");
Date lastDate = simpleDateFormat.parse(simpleDateFormat.format(Calendar.getInstance().getTime()));
String allDateRangeString = simpleDateFormat.format(firstDate) + "," + simpleDateFormat.format(lastDate);
while (beginDate[0] == null || endDate[0] == null) {
try {
String dateRangeString = DialogUtils.showInputDialog0(this, "Enter Date Range (begin,end) to include (e.g. '" + allDateRangeString + "')", allDateRangeString);
beginDate[0] = simpleDateFormat.parse(dateRangeString.substring(0, dateRangeString.indexOf(",")));
endDate[0] = simpleDateFormat.parse(dateRangeString.substring(dateRangeString.indexOf(",") + 1));
// if(beginDate.compareTo(firstDate) != 0 ||
// endDate.compareTo(lastDate) != 0){
// Iterator<VCDocumentInfo> vcDocIter = dateRangeDocInfoTreeSet.iterator();
// while(vcDocIter.hasNext()){
// VCDocumentInfo vcDocInfo = vcDocIter.next();
// Date docDate = simpleDateFormat.parse(simpleDateFormat.format(vcDocInfo.getVersion().getDate()));
// if(docDate.compareTo(beginDate) < 0 ||
// docDate.compareTo(endDate) > 0){
// continue;
// }
// uniqueUserIDTreeSet.add(vcDocInfo.getVersion().getOwner().getName());
// bioAndMathModelKeyValueV.add(vcDocInfo.getVersion().getVersionKey());
// }
// }
} catch (UtilCancelException uce) {
return;
} catch (Exception e2) {
DialogUtils.showErrorDialog(this, e2.getMessage());
}
}
if (beginDate[0].compareTo(firstDate) == 0 && endDate[0].compareTo(lastDate) == 0) {
beginDate[0] = null;
endDate[0] = null;
} else {
typeMsg = "between " + simpleDateFormat.format(beginDate[0]) + "," + simpleDateFormat.format(endDate[0]);
}
}
if (e.getActionCommand().equals(TestingFrameworkPanel.RUN_XML_LOAD_TEST_MODELS)) {
typeMsg = "Models (" + bioAndMathModelKeyValueV.size() + ")";
} else if (e.getActionCommand().equals(TestingFrameworkPanel.RUN_XML_LOAD_TEST_USERS)) {
typeMsg = "Users (" + uniqueUserIDTreeSet.size() + ")";
}
int result = DialogUtils.showComponentOKCancelDialog(TestingFrameworkWindowPanel.this, new JLabel("Run " + typeMsg + " Load Tests?"), "Confirm Load Test Run");
if (result != JOptionPane.OK_OPTION) {
return;
}
result = DialogUtils.showComponentOKCancelDialog(this, enterDBAndSoftwareVersPanel, "Enter Software Version running load test");
if (result != JOptionPane.OK_OPTION) {
return;
}
AsynchClientTask runXMLLoadTestTask = new AsynchClientTask("Running XML Load Test...", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
@Override
public void run(Hashtable<String, Object> hashTable) throws Exception {
String[] uniqueUserIDArr = null;
KeyValue[] bioAndMathModelKeyValueArr = null;
if (beginDate[0] != null && endDate[0] != null) {
LoadTestInfoOpResults loadTestInfoOpResults = getTestingFrameworkWindowManager().getLoadTestInfoBetweenDates(beginDate[0], endDate[0]);
uniqueUserIDArr = loadTestInfoOpResults.getUniqueUserIDsBetweenDates();
bioAndMathModelKeyValueArr = loadTestInfoOpResults.getKeyValuesBetweenDates();
} else {
uniqueUserIDArr = (uniqueUserIDTreeSet.size() == 0 ? null : uniqueUserIDTreeSet.toArray(new String[0]));
bioAndMathModelKeyValueArr = (bioAndMathModelKeyValueV.size() == 0 ? null : bioAndMathModelKeyValueV.toArray(new KeyValue[0]));
}
throw new RuntimeException(TestingFrameworkWindowPanel.class.getSimpleName() + ".runXMLLoadTestTask(): Run Load Test disabled, directly dependend on MathVerifier.runLoadTest(), should move to standalone admin tool.");
// MathVerifier mathVerifier = MathVerifier.createMathVerifier(
// enterDBAndSoftwareVersPanel.getDBHost(),
// enterDBAndSoftwareVersPanel.getDBName(),
// enterDBAndSoftwareVersPanel.getDBSchema(),
// enterDBAndSoftwareVersPanel.getDBPassword());
// mathVerifier.runLoadTest(
// uniqueUserIDArr,
// bioAndMathModelKeyValueArr,
// enterDBAndSoftwareVersPanel.getSoftwareVersion(),
// (enterDBAndSoftwareVersPanel.getSoftwareVersion().length()==0?false:true),
// (enterDBAndSoftwareVersPanel.getSoftwareVersion().length()==0?Compare.DEFAULT_COMPARE_LOGGER:null));
}
};
tasksV.add(runXMLLoadTestTask);
} else if (e.getActionCommand().equals(TestingFrameworkPanel.REFRESH_XML_LOAD_TEST)) /*||
e.getActionCommand().equals(TestingFrameworkPanel.REFRESH_INCLUDE_SLOW_XML_LOAD_TEST)*/
{
final String LOADTESTDETAILS_KEY = "LOADTESTDETAILS_KEY";
AsynchClientTask getFailedLoadTest = new AsynchClientTask("Getting FailedLoadTests...", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
@Override
public void run(Hashtable<String, Object> hashTable) throws Exception {
/* Integer slowLoadThreshold = null;
if(e.getActionCommand().equals(TestingFrameworkPanel.REFRESH_INCLUDE_SLOW_XML_LOAD_TEST)){
String result = DialogUtils.showInputDialog0(TestingFrameworkWindowPanel.this, "Enter load time threshold (millseconds)","10000");
slowLoadThreshold = new Integer(result);
}
*/
if (gettestingFrameworkPanel().getSlowLoadThreshold() != null && gettestingFrameworkPanel().getLoadTestSQLCondition() != null) {
throw new IllegalArgumentException("SlowLoadThreshold and 'SQL Condition' cannot both be non-null at the same time.");
}
hashTable.put(LOADTESTDETAILS_KEY, getTestingFrameworkWindowManager().getLoadTestDetails(gettestingFrameworkPanel().getSlowLoadThreshold(), gettestingFrameworkPanel().getLoadTestSQLCondition()));
}
};
AsynchClientTask refreshFailedLoadTest = new AsynchClientTask("Refreshing FailedLoadTests...", AsynchClientTask.TASKTYPE_SWING_BLOCKING) {
@Override
public void run(Hashtable<String, Object> hashTable) throws Exception {
getTestingFrameworkWindowManager().refreshLoadTest((LoadTestInfoOpResults) hashTable.get(LOADTESTDETAILS_KEY));
}
};
tasksV.add(getFailedLoadTest);
tasksV.add(refreshFailedLoadTest);
} else if (e.getActionCommand().equals(TestingFrameworkPanel.QUERY_TCRITVAR_CROSSREF)) {
if (selectedObj instanceof TestingFrmwkTreeModel.TestCriteriaVarUserObj && selectedTreePaths.length == 1) {
final TestingFrmwkTreeModel.TestCriteriaVarUserObj tcritVaruserObj = (TestingFrmwkTreeModel.TestCriteriaVarUserObj) selectedObj;
final TestSuiteInfoNew tsInfoNew = gettestingFrameworkPanel().getTestSuiteInfoOfTreePath(selectedTreePaths[0]);
AsynchClientTask queryTCritCrossRef = new AsynchClientTask("Query TCrit Var Cross Ref", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
getTestingFrameworkWindowManager().queryTCritCrossRef(tsInfoNew, tcritVaruserObj.getTestCriteria(), tcritVaruserObj.getVariableComparisonSummary().getName());
}
};
tasksV.add(queryTCritCrossRef);
} else {
throw new Exception("Selected Object is not a TestCriteria Variable! Failed to Query Var Cross Ref.");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.QUERY_TCRIT_CROSSREF)) {
if (selectedObj instanceof TestCriteriaNew) {
final TestCriteriaNew tcritNew = (TestCriteriaNew) selectedObj;
final TestSuiteInfoNew tsInfoNew = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCriteria();
AsynchClientTask queryTCritCrossRef = new AsynchClientTask("Query TCrit Cross Ref", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
getTestingFrameworkWindowManager().queryTCritCrossRef(tsInfoNew, tcritNew, null);
}
};
tasksV.add(queryTCritCrossRef);
} else {
throw new Exception("Selected Object is not a TestCriteria! Failed to Query Cross Ref.");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.LOCK_TESTSUITE)) {
if (selectedObj instanceof TestSuiteInfoNew) {
final TestSuiteInfoNew tsInfoNew = (TestSuiteInfoNew) selectedObj;
AsynchClientTask lockTestSuiteTask = new AsynchClientTask("Lock TestSuite", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
getTestingFrameworkWindowManager().lockTestSuite(tsInfoNew);
}
};
tasksV.add(lockTestSuiteTask);
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfoNew);
tasksV.add(tfRefreshTreeTask);
} else {
throw new Exception("Selected Object is not a TestSuite! Failed to Lock TestSuite.");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.EDIT_ANNOT_TESTSUITE)) {
if (selectedObj instanceof TestSuiteInfoNew) {
final TestSuiteInfoNew tsInfoNew = (TestSuiteInfoNew) selectedObj;
String newAnnotation;
// initialize fields
String oldAnnotation = tsInfoNew.getTSAnnotation();
// show the editor
newAnnotation = org.vcell.util.gui.DialogUtils.showAnnotationDialog(this, oldAnnotation);
final String finalAnnotation = newAnnotation;
AsynchClientTask editTestSuiteAnnotation = new AsynchClientTask("Edit TestSuite Annotation", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
getTestingFrameworkWindowManager().updateTestSuiteAnnotation(tsInfoNew, finalAnnotation);
}
};
tasksV.add(editTestSuiteAnnotation);
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfoNew);
tasksV.add(tfRefreshTreeTask);
} else {
throw new Exception("Selected Object is not a TestSuite! Failed to Edit TestSuite Annotation.");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.EDIT_ANNOT_TESTCASE)) {
if (selectedObj instanceof TestCaseNew) {
final TestCaseNew tcNew = (TestCaseNew) selectedObj;
String newAnnotation;
// initialize fields
String oldAnnotation = tcNew.getAnnotation();
// show the editor
newAnnotation = org.vcell.util.gui.DialogUtils.showAnnotationDialog(this, oldAnnotation);
final String finalAnnotation = newAnnotation;
AsynchClientTask editTestCaseAnnotation = new AsynchClientTask("Edit TestCase Annotation", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
getTestingFrameworkWindowManager().updateTestCaseAnnotation(tcNew, finalAnnotation);
}
};
tasksV.add(editTestCaseAnnotation);
TestSuiteInfoNew tsInfo = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCase();
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksV.add(tfRefreshTreeTask);
} else {
throw new Exception("Selected Object is not a TestCase! Failed to Edit TestCase Annotation.");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.TOGGLE_STEADYSTATE)) {
if (selectedObj instanceof TestCaseNew) {
final TestCaseNew testCase = (TestCaseNew) selectedObj;
String okString = "Ok";
String confirm = PopupGenerator.showWarningDialog(this, "Toggle TestCase '" + testCase.getVersion().getName() + "'\nfrom " + testCase.getType() + " to " + (testCase.getType().equals(TestCaseNew.EXACT) ? TestCaseNew.EXACT_STEADY : TestCaseNew.EXACT), new String[] { okString, "Cancel" }, okString);
if (confirm.equals(okString)) {
AsynchClientTask toggleSteadyState = new AsynchClientTask("Toggle Steady State", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
getTestingFrameworkWindowManager().toggleTestCaseSteadyState(new TestCaseNew[] { testCase });
}
};
tasksV.add(toggleSteadyState);
TestSuiteInfoNew tsInfo = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCase();
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksV.add(tfRefreshTreeTask);
} else {
throw UserCancelException.CANCEL_GENERIC;
}
} else {
throw new Exception("Selected Object is not a TestCase! Cannot Toggle SteadyState");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.ADD_TESTSUITE)) {
TestingFrameworkWindowManager.NewTestSuiteUserInformation newTestSuiteUserInfo = getTestingFrameworkWindowManager().getNewTestSuiteInfoFromUser(null, null);
tasksV.add(new TFAddTestSuite(getTestingFrameworkWindowManager(), newTestSuiteUserInfo.testSuiteInfoNew));
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), newTestSuiteUserInfo.testSuiteInfoNew);
tasksV.add(tfRefreshTreeTask);
} else if (e.getActionCommand().equals(TestingFrameworkPanel.REFRESH_TESTSUITE)) {
TestSuiteInfoNew tsin = null;
if (selectedObj instanceof TestSuiteInfoNew) {
tsin = (TestSuiteInfoNew) selectedObj;
} else if (selectedObj instanceof TestCaseNew) {
tsin = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCase();
} else if (selectedObj instanceof TestCriteriaNew) {
tsin = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCriteria();
}
if (tsin == null) {
throw new IllegalArgumentException("Refresh error: Unexpected tree selection type=" + selectedObj.getClass().getName());
}
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsin);
tasksV.add(new TFUpdateRunningStatus(getTestingFrameworkWindowManager(), tsin));
tasksV.add(tfRefreshTreeTask);
// getTestingFrameworkWindowManager().updateSimRunningStatus();
} else if (e.getActionCommand().equals(TestingFrameworkPanel.ADD_TESTCASE)) {
if (selectedObj instanceof TestSuiteInfoNew) {
TestSuiteInfoNew tsInfo = (TestSuiteInfoNew) selectedObj;
TestCaseNew[] tcnArr = getTestingFrameworkWindowManager().getNewTestCaseArr();
tasksV.add(new cbit.vcell.client.task.TFAddTestCases(getTestingFrameworkWindowManager(), tsInfo, tcnArr));
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksV.add(tfRefreshTreeTask);
} else {
throw new Exception("Selected Object is not a test suite! Cannot add a test case");
}
} else if (e.getActionCommand().equals("Run All")) {
if (selectedTreePaths == null || selectedTreePaths.length != 1) {
throw new IllegalArgumentException("Command '" + e.getActionCommand() + "' Single Selection Only!");
}
if (selectedObj instanceof TestSuiteInfoNew) {
TestSuiteInfoNew tsInfo = (TestSuiteInfoNew) selectedObj;
String okString = "Ok";
String confirm = PopupGenerator.showWarningDialog(this, "Run All Sims for TestSuite '" + tsInfo.getTSID() + "'?", new String[] { okString, "Cancel" }, okString);
if (confirm.equals(okString)) {
tasksV.add(new TFRunSims(getTestingFrameworkWindowManager(), tsInfo));
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksV.add(tfRefreshTreeTask);
}
} else {
throw new Exception("Selected Object is not a test suite!");
}
} else if (e.getActionCommand().equals("Run Simulations")) {
if (selectedTreePaths == null || selectedTreePaths.length != 1) {
throw new IllegalArgumentException("Command '" + e.getActionCommand() + "' Single Selection Only!");
}
if (selectedObj instanceof TestCaseNew) {
TestCaseNew testCase = (TestCaseNew) selectedObj;
String okString = "Ok";
String confirm = PopupGenerator.showWarningDialog(this, "Run All Sims for TestCase '" + testCase.getVersion().getName() + "'?", new String[] { okString, "Cancel" }, okString);
if (confirm.equals(okString)) {
tasksV.add(new TFRunSims(getTestingFrameworkWindowManager(), testCase));
TestSuiteInfoNew tsInfo = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCase();
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksV.add(tfRefreshTreeTask);
}
} else {
throw new Exception("Selected Object is not a TestCase! Cannot run simulations");
}
} else if (e.getActionCommand().equals("Run")) {
if (selectedTreePaths != null && selectedTreePaths.length > 0 && selectedTreePaths[0].getLastPathComponent() instanceof BioModelNode && ((BioModelNode) selectedTreePaths[0].getLastPathComponent()).getUserObject() instanceof TestCriteriaNew) {
for (int i = 0; i < selectedTreePaths.length; i += 1) {
TestCriteriaNew tCriteria = (TestCriteriaNew) ((BioModelNode) selectedTreePaths[i].getLastPathComponent()).getUserObject();
tasksV.add(new TFRunSims(getTestingFrameworkWindowManager(), tCriteria));
}
TestSuiteInfoNew tsInfo = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCriteria();
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksV.add(tfRefreshTreeTask);
} else {
throw new Exception("Selected Object is not a TestCriteria!");
}
} else if (e.getActionCommand().equals("View Results")) {
if (selectedObj instanceof cbit.vcell.numericstest.TestCriteriaNew) {
TestCriteriaNew tCriteria = (TestCriteriaNew) selectedObj;
getTestingFrameworkWindowManager().viewResults(tCriteria);
} else {
PopupGenerator.showErrorDialog(TestingFrameworkWindowPanel.this, "Selected Object is not a TestCriteria!");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.COMPARERREGR_INTERNALREF_TESTCRITERIA) || e.getActionCommand().equals(TestingFrameworkPanel.COMPARERREGR_USERDEFREF_TESTCRITERIA)) {
if (selectedObj instanceof cbit.vcell.numericstest.TestCriteriaNew) {
TestCriteriaNew tCriteria = (TestCriteriaNew) selectedObj;
SimulationStatus simStatus = getTestingFrameworkWindowManager().getRequestManager().getServerSimulationStatus(tCriteria.getSimInfo());
if (simStatus.isRunning()) {
PopupGenerator.showErrorDialog(TestingFrameworkWindowPanel.this, "Selected simulation is still running!");
return;
}
SimulationInfo simulationInfo = tCriteria.getRegressionSimInfo();
if (e.getActionCommand().equals(TestingFrameworkPanel.COMPARERREGR_USERDEFREF_TESTCRITERIA)) {
try {
simulationInfo = getUserSelectedSimulationInfo().getSimInfo();
} catch (UserCancelException e2) {
return;
}
}
if (simulationInfo == null) {
PopupGenerator.showErrorDialog(TestingFrameworkWindowPanel.this, "Either the selected simulation does not belong to a REGRESSION test or the regression simInfo is not set!");
return;
}
getTestingFrameworkWindowManager().compare(tCriteria, simulationInfo);
} else {
PopupGenerator.showErrorDialog(TestingFrameworkWindowPanel.this, "Selected Object is not a TestCriteria!");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.DUPLICATE_TESTSUITE)) {
if (selectedObj instanceof TestSuiteInfoNew) {
TestSuiteInfoNew tsInfoOriginal = (TestSuiteInfoNew) selectedObj;
TestingFrameworkWindowManager.NewTestSuiteUserInformation newTestSuiteUserInfo = getTestingFrameworkWindowManager().getNewTestSuiteInfoFromUser(tsInfoOriginal.getTSAnnotation(), tsInfoOriginal.getTSID());
tasksV.add(new TFDuplicateTestSuite(getTestingFrameworkWindowManager(), tsInfoOriginal, newTestSuiteUserInfo.testSuiteInfoNew, newTestSuiteUserInfo.regrRefFlag));
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), newTestSuiteUserInfo.testSuiteInfoNew);
tasksV.add(tfRefreshTreeTask);
// getTestingFrameworkWindowManager().duplicateTestSuite(tsInfo);
} else {
throw new Exception("Selected Object is not a test suite! Cannot duplicate");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.REMOVE_TESTCASE)) {
if (selectedObj instanceof TestCaseNew) {
String[][] rowData = new String[selectedTreePaths.length][3];
TestSuiteInfoNew tsInfo = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCase();
for (int i = 0; i < selectedTreePaths.length; i += 1) {
TestCaseNew tCase = (TestCaseNew) ((BioModelNode) selectedTreePaths[i].getLastPathComponent()).getUserObject();
rowData[i][0] = tsInfo.getTSID();
tasksV.add(new TFRemove(getTestingFrameworkWindowManager(), tCase));
if (tCase instanceof TestCaseNewBioModel) {
rowData[i][1] = "BM " + tCase.getVersion().getName();
rowData[i][2] = ((TestCaseNewBioModel) tCase).getSimContextName();
} else {
rowData[i][1] = "MM " + tCase.getVersion().getName();
rowData[i][2] = "N/A";
}
}
DialogUtils.showComponentOKCancelTableList(this, "Confirm Remove TestCase(s)", new String[] { "Test Suite", "Test Case", "App" }, rowData, null);
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksV.add(tfRefreshTreeTask);
} else {
throw new Exception("Selected Object is not a TestCase, cannot remove selection!");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.REMOVE_TESTSUITE)) {
if (selectedObj instanceof TestSuiteInfoNew) {
TestSuiteInfoNew tsInfo = (TestSuiteInfoNew) selectedObj;
String confirm = PopupGenerator.showWarningDialog(this, UserMessage.warn_deleteDocument.getMessage(tsInfo.getTSID()), UserMessage.warn_deleteDocument.getOptions(), UserMessage.warn_deleteDocument.getDefaultSelection());
if (confirm.equals(UserMessage.OPTION_DELETE)) {
tasksV.add(new TFRemove(getTestingFrameworkWindowManager(), tsInfo));
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksV.add(tfRefreshTreeTask);
} else {
throw UserCancelException.CANCEL_GENERIC;
}
// getTestingFrameworkWindowManager().removeTestSuite(tsInfo);
} else {
throw new Exception("Selected Object is not a test suite! Cannot add a test case");
}
} else if (e.getActionCommand().equals("Generate TestSuite Report")) {
final TreePath[] selectedTreePathsLocal = selectedTreePaths;
new Thread(new Runnable() {
public void run() {
try {
for (int i = 0; selectedTreePathsLocal != null && i < selectedTreePathsLocal.length; i += 1) {
Object selTreeNode = ((BioModelNode) selectedTreePathsLocal[i].getLastPathComponent()).getUserObject();
if (selTreeNode instanceof TestSuiteInfoNew) {
Vector<AsynchClientTask> tasksVLocal = new java.util.Vector<AsynchClientTask>();
TestSuiteInfoNew tsInfo = (TestSuiteInfoNew) selTreeNode;
tasksVLocal.add(new cbit.vcell.client.task.TFUpdateRunningStatus(getTestingFrameworkWindowManager(), tsInfo));
tasksVLocal.add(new TFGenerateReport(getTestingFrameworkWindowManager(), tsInfo));
final String END_NOTIFIER = "END NOTIFIER";
tasksVLocal.add(new AsynchClientTask(END_NOTIFIER, AsynchClientTask.TASKTYPE_NONSWING_BLOCKING, false, false) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
hashTable.put(END_NOTIFIER, END_NOTIFIER);
}
});
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksVLocal.add(tfRefreshTreeTask);
AsynchClientTask[] tasksArr = new AsynchClientTask[tasksVLocal.size()];
tasksVLocal.copyInto(tasksArr);
Hashtable<String, Object> hashLocal = new Hashtable<String, Object>();
ClientTaskDispatcher.dispatch(TestingFrameworkWindowPanel.this, hashLocal, tasksArr, true);
// Wait for each report to complete before going on to next because report methods are not thread safe?
while (!hashLocal.contains(END_NOTIFIER)) {
Thread.sleep(100);
}
} else {
throw new Exception("Error GenerateTestSuiteReport\nSelected Object is not a TestSuite");
}
}
} catch (Exception e) {
e.printStackTrace();
PopupGenerator.showErrorDialog(TestingFrameworkWindowPanel.this, "Error GenerateTestSuiteReport\n" + e.getMessage(), e);
return;
}
}
}).start();
return;
} else if (e.getActionCommand().equals("Generate TestCase Report")) {
Vector<TestSuiteInfoNew> tsinV = new Vector<TestSuiteInfoNew>();
for (int i = 0; selectedTreePaths != null && i < selectedTreePaths.length; i += 1) {
Object selTreeNode = ((BioModelNode) selectedTreePaths[i].getLastPathComponent()).getUserObject();
if (selTreeNode instanceof TestCaseNew) {
TestSuiteInfoNew tsInfo = gettestingFrameworkPanel().getTestSuiteInfoOfTreePath(selectedTreePaths[i]);
if (!tsinV.contains(tsInfo)) {
tsinV.add(tsInfo);
tasksV.add(new cbit.vcell.client.task.TFUpdateRunningStatus(getTestingFrameworkWindowManager(), tsInfo));
}
tasksV.add(new TFGenerateReport(getTestingFrameworkWindowManager(), (TestCaseNew) selTreeNode));
} else {
throw new Exception("Selected Object is not a TestCase");
}
}
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), (tsinV.size() == 1 ? tsinV.elementAt(0) : null));
tasksV.add(tfRefreshTreeTask);
} else if (e.getActionCommand().equals(TestingFrameworkPanel.GENTCRITREPORT_INTERNALREF_TESTCRITERIA) || e.getActionCommand().equals(TestingFrameworkPanel.GENTCRITREPORT_USERDEFREF_TESTCRITERIA)) {
TFGenerateReport.VCDocumentAndSimInfo userDefinedRegrRef = null;
if (e.getActionCommand().equals(TestingFrameworkPanel.GENTCRITREPORT_USERDEFREF_TESTCRITERIA)) {
try {
userDefinedRegrRef = getUserSelectedSimulationInfo();
} catch (UserCancelException e2) {
return;
}
}
Vector<TestSuiteInfoNew> tsinV = new Vector<TestSuiteInfoNew>();
for (int i = 0; selectedTreePaths != null && i < selectedTreePaths.length; i += 1) {
Object selTreeNode = ((BioModelNode) selectedTreePaths[i].getLastPathComponent()).getUserObject();
if (selTreeNode instanceof TestCriteriaNew) {
TestSuiteInfoNew tsInfo = gettestingFrameworkPanel().getTestSuiteInfoOfTreePath(selectedTreePaths[i]);
if (!tsinV.contains(tsInfo)) {
tsinV.add(tsInfo);
tasksV.add(new cbit.vcell.client.task.TFUpdateRunningStatus(getTestingFrameworkWindowManager(), tsInfo));
}
tasksV.add(new TFGenerateReport(getTestingFrameworkWindowManager(), (TestCaseNew) ((BioModelNode) selectedTreePaths[i].getParentPath().getLastPathComponent()).getUserObject(), (TestCriteriaNew) selTreeNode, userDefinedRegrRef));
} else {
throw new Exception("Selected Object is not a TestCriteria");
}
}
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), (tsinV.size() == 1 ? tsinV.elementAt(0) : null));
tasksV.add(tfRefreshTreeTask);
} else if (e.getActionCommand().equals(TestingFrameworkPanel.REMOVE_DIFF_TESTCRITERIA)) {
final int OLDER = 0;
final int NEWER = 1;
final TestSuiteInfoNew[] testSuiteInfoHolder = new TestSuiteInfoNew[2];
if (selectedTreePaths.length == 2 && ((BioModelNode) selectedTreePaths[0].getLastPathComponent()).getUserObject() instanceof TestSuiteInfoNew && ((BioModelNode) selectedTreePaths[1].getLastPathComponent()).getUserObject() instanceof TestSuiteInfoNew) {
// do outside task because its quick
TestSuiteInfoNew testSuiteInfoOlder = (TestSuiteInfoNew) ((BioModelNode) selectedTreePaths[0].getLastPathComponent()).getUserObject();
TestSuiteInfoNew testSuiteInfoNewer = (TestSuiteInfoNew) ((BioModelNode) selectedTreePaths[1].getLastPathComponent()).getUserObject();
if (testSuiteInfoOlder.getTSDate().compareTo(testSuiteInfoNewer.getTSDate()) > 0) {
TestSuiteInfoNew temp = testSuiteInfoOlder;
testSuiteInfoOlder = testSuiteInfoNewer;
testSuiteInfoNewer = temp;
}
testSuiteInfoHolder[OLDER] = testSuiteInfoOlder;
testSuiteInfoHolder[NEWER] = testSuiteInfoNewer;
AsynchClientTask showDiffTask = new AsynchClientTask("Show Differential TestCriteria...", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
ArrayList<TestSuiteNew> bothTestSuites = new ArrayList<TestSuiteNew>();
if (getClientTaskStatusSupport() != null) {
getClientTaskStatusSupport().setProgress(25);
getClientTaskStatusSupport().setMessage("Getting TestSuiteInfo '" + testSuiteInfoHolder[OLDER].getTSID() + "'");
}
bothTestSuites.add(getDocumentManager().getTestSuite(testSuiteInfoHolder[OLDER].getTSKey()));
if (getClientTaskStatusSupport() != null) {
getClientTaskStatusSupport().setProgress(50);
getClientTaskStatusSupport().setMessage("Getting TestSuiteInfo '" + testSuiteInfoHolder[NEWER].getTSID() + "'");
}
bothTestSuites.add(getDocumentManager().getTestSuite(testSuiteInfoHolder[NEWER].getTSKey()));
HashMap<String, TestCriteriaNew> olderTestCritHashMap = new HashMap<String, TestCriteriaNew>();
ArrayList<String> olderTestCaseBaseNames = new ArrayList<String>();
TreeMap<String, TestCriteriaNew> newDiffTestCriteria = new TreeMap<String, TestCriteriaNew>();
int excludedCount = 0;
for (TestSuiteNew currentTestSuite : bothTestSuites) {
BigDecimal currentTestSuiteKey = currentTestSuite.getTSInfoNew().getTSKey();
for (TestCaseNew tcn : currentTestSuite.getTestCases()) {
String prefixInfo = "TS='" + currentTestSuite.getTSInfoNew().getTSID() + "' Type='" + tcn.getType() + "' ";
String baseName = (tcn instanceof TestCaseNewBioModel ? "BioModel='" + ((TestCaseNewBioModel) tcn).getBioModelInfo().getVersion().getName() + "' App='" + ((TestCaseNewBioModel) tcn).getSimContextName() + "'" : "MathModel='" + ((TestCaseNewMathModel) tcn).getMathModelInfo().getVersion().getName()) + "'";
if (currentTestSuite.getTSInfoNew().getTSKey().equals(testSuiteInfoHolder[OLDER].getTSKey())) {
if (!olderTestCaseBaseNames.contains(baseName)) {
olderTestCaseBaseNames.add(baseName);
} else {
throw new Exception("Old testcase names duplicated.");
}
}
for (TestCriteriaNew tcrit : tcn.getTestCriterias()) {
String name = baseName + " Sim='" + tcrit.getSimInfo().getName() + "'";
if (olderTestCritHashMap.containsKey(name)) {
if (currentTestSuiteKey.equals(testSuiteInfoHolder[OLDER].getTSKey())) {
throw new Exception("---Problem--- Older names not unique");
}
continue;
} else if (currentTestSuiteKey.equals(testSuiteInfoHolder[NEWER].getTSKey())) {
if (!olderTestCaseBaseNames.contains(baseName)) {
// this happens when new TestSuite has added TestCase after duplication
excludedCount += 1;
} else if (newDiffTestCriteria.put(prefixInfo + name, tcrit) != null) {
throw new Exception("---Problem--- Newer added names not unique");
}
continue;
}
olderTestCritHashMap.put(name, tcrit);
}
}
}
if (newDiffTestCriteria.size() > 0) {
if (getClientTaskStatusSupport() != null) {
getClientTaskStatusSupport().setMessage("Showing Differential list...");
}
String[][] rowData = new String[newDiffTestCriteria.size()][1];
String[] addedNamesArr = newDiffTestCriteria.keySet().toArray(new String[0]);
for (int i = 0; i < addedNamesArr.length; i++) {
rowData[i][0] = addedNamesArr[i];
}
final String DELETE = "Delete";
TableListResult result = DialogUtils.showComponentOptionsTableList(gettestingFrameworkPanel(), "Remove TestCriteria in TS='" + testSuiteInfoHolder[NEWER].getTSID() + "' that were not in TS='" + testSuiteInfoHolder[OLDER].getTSID() + "' (count=" + rowData.length + " of " + olderTestCritHashMap.size() + ", excluded=" + excludedCount + ")", new String[] { "Diff TestCriteria" }, rowData, ListSelectionModel.MULTIPLE_INTERVAL_SELECTION, null, new String[] { DELETE, "Cancel" }, DELETE, null);
if (result != null && result.selectedOption != null && result.selectedOption.equals(DELETE) && result.selectedTableRows != null && result.selectedTableRows.length > 0) {
TestCriteriaNew[] allNewDiffTeestCritArr = newDiffTestCriteria.values().toArray(new TestCriteriaNew[0]);
TestCriteriaNew[] selTestCritsArr = new TestCriteriaNew[result.selectedTableRows.length];
for (int i = 0; i < result.selectedTableRows.length; i++) {
selTestCritsArr[i] = allNewDiffTeestCritArr[result.selectedTableRows[i]];
// System.out.println("Selected= "+rowData[result.selectedTableRows[i]][0]+" -- SimName="+selTestCritsArrHolder[0][i].getSimInfo().getVersion().getName());
}
hashTable.put(TFRemoveTestCriteria.REMOVE_THESE_TESTCRITERIAS, selTestCritsArr);
} else {
throw UserCancelException.CANCEL_GENERIC;
}
} else {
throw new Exception("No differential TestCriteria found");
}
}
};
AsynchClientTask shouldRefreshTask = new // Prevent annoying refresh if cancel
AsynchClientTask(// Prevent annoying refresh if cancel
"", // Prevent annoying refresh if cancel
AsynchClientTask.TASKTYPE_SWING_NONBLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
new TFRefresh(getTestingFrameworkWindowManager(), testSuiteInfoHolder[NEWER]).run(hashTable);
}
};
tasksV.add(showDiffTask);
tasksV.add(new TFRemoveTestCriteria(getTestingFrameworkWindowManager()));
tasksV.add(shouldRefreshTask);
// tasksV.add(new TFRefresh(getTestingFrameworkWindowManager(),testSuiteInfoHolder[NEWER]));
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.REMOVE_TESTCRITERIA)) {
if (selectedObj instanceof TestCriteriaNew) {
ArrayList<TestCriteriaNew> selTestCritsArr = new ArrayList<TestCriteriaNew>();
for (int i = 0; selectedTreePaths != null && i < selectedTreePaths.length; i += 1) {
Object selTreeNode = ((BioModelNode) selectedTreePaths[i].getLastPathComponent()).getUserObject();
if (selTreeNode instanceof TestCriteriaNew) {
selTestCritsArr.add(((TestCriteriaNew) selTreeNode));
}
}
final String DELETE = "Delete";
String response = DialogUtils.showWarningDialog(gettestingFrameworkPanel(), "Delete " + selTestCritsArr.size() + " TestCriterias?", new String[] { DELETE, "Cancel" }, DELETE);
if (response != null && response.equals(DELETE)) {
tasksV.add(new TFRemoveTestCriteria(getTestingFrameworkWindowManager(), selTestCritsArr.toArray(new TestCriteriaNew[0])));
TestSuiteInfoNew tsInfo = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCriteria();
tasksV.add(new TFRefresh(getTestingFrameworkWindowManager(), tsInfo));
} else {
throw UserCancelException.CANCEL_GENERIC;
}
} else {
throw new Exception("Selected Object is not a TestCriteria! Cannot remove test criteria.");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.EDIT_TESTCRITERIA)) {
if (selectedObj instanceof TestCriteriaNew) {
TestCriteriaNew tCriteria = (TestCriteriaNew) selectedObj;
TestCaseNew testCase = gettestingFrameworkPanel().getTestCaseOfSelectedCriteria();
TestCriteriaNew tcritNew = getTestingFrameworkWindowManager().getNewTestCriteriaFromUser(testCase.getType(), tCriteria);
tasksV.add(new TFUpdateTestCriteria(getTestingFrameworkWindowManager(), tCriteria, tcritNew));
TestSuiteInfoNew tsInfo = gettestingFrameworkPanel().getTestSuiteInfoOfSelectedTestCriteria();
tfRefreshTreeTask = new TFRefresh(getTestingFrameworkWindowManager(), tsInfo);
tasksV.add(tfRefreshTreeTask);
} else {
throw new Exception("Selected Object is not a TestCriteria! Cannot edit test criteria.");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.COPY_TCRIT_SIMID)) {
if (selectedObj instanceof TestCriteriaNew) {
TestCriteriaNew tCriteria = (TestCriteriaNew) selectedObj;
KeyValue testCritSimID = tCriteria.getSimInfo().getVersion().getVersionKey();
VCellTransferable.sendToClipboard(testCritSimID.toString());
return;
} else {
throw new Exception("Selected Object is not a TestCriteria! Copy simid failed.");
}
} else if (e.getActionCommand().equals(TestingFrameworkPanel.LOAD_MODEL)) {
final String LOAD_THIS_MODEL = "LOAD_THIS_MODEL";
AsynchClientTask modelInfoTask = new AsynchClientTask("Finding Model Info...", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
@Override
public void run(Hashtable<String, Object> hashTable) throws Exception {
VCDocumentInfo vcDocumentInfo = null;
if (selectedObj instanceof TestCaseNew) {
TestCaseNew testCase = (TestCaseNew) selectedObj;
if (testCase instanceof TestCaseNewMathModel) {
vcDocumentInfo = ((TestCaseNewMathModel) testCase).getMathModelInfo();
} else if (testCase instanceof TestCaseNewBioModel) {
vcDocumentInfo = ((TestCaseNewBioModel) testCase).getBioModelInfo();
} else {
throw new IllegalArgumentException("Unexpected TestCase type=" + testCase.getClass().getName());
}
hashTable.put(LOAD_THIS_MODEL, vcDocumentInfo);
} else if (selectedObj instanceof LoadTestTreeInfo) {
throw new Exception("Not yet implemented for LoadTest.");
// LoadTestTreeInfo loadTestTreeInfo = (LoadTestTreeInfo)selectedObj;
// if(loadTestTreeInfo.modelType.equals(LoadTestInfoOpResults.MODELTYPE_BIO)){
// vcDocumentInfo = getDocumentManager().getBioModelInfo(loadTestTreeInfo.bioOrMathModelKey);
// }else if(loadTestTreeInfo.modelType.equals(LoadTestInfoOpResults.MODELTYPE_MATH)){
// vcDocumentInfo = getDocumentManager().getMathModelInfo(loadTestTreeInfo.bioOrMathModelKey);
// }else{
// throw new IllegalArgumentException("Unexpected LoadTestTreeInfo type="+loadTestTreeInfo.modelType);
// }
// hashTable.put(LOAD_THIS_MODEL, vcDocumentInfo);
}
}
};
AsynchClientTask openModelTask = new AsynchClientTask("Opening model...", AsynchClientTask.TASKTYPE_SWING_BLOCKING) {
@Override
public void run(Hashtable<String, Object> hashTable) throws Exception {
if (selectedObj instanceof TestCaseNew) {
getTestingFrameworkWindowManager().loadModel((VCDocumentInfo) hashTable.get(LOAD_THIS_MODEL));
} else if (selectedObj instanceof LoadTestTreeInfo) {
throw new Exception("Not yet implemented for LoadTest.");
} else {
throw new Exception("Load Model expecting TestCaseNew or LoadTestTreeInfo but got " + selectedObj.getClass().getName());
}
}
};
tasksV.add(modelInfoTask);
tasksV.add(openModelTask);
}
// tasksV.add(tfRefreshTreeTask);
AsynchClientTask[] tasksArr = new AsynchClientTask[tasksV.size()];
tasksV.copyInto(tasksArr);
ClientTaskDispatcher.dispatch(this, hash, tasksArr, true);
} catch (Throwable exc) {
if (!(exc instanceof UserCancelException) && !(exc instanceof UtilCancelException)) {
exc.printStackTrace(System.out);
PopupGenerator.showErrorDialog(TestingFrameworkWindowPanel.this, exc.getMessage(), exc);
}
}
}
use of cbit.vcell.desktop.BioModelNode in project vcell by virtualcell.
the class MathDescPanel method refreshEquations.
/**
* This method was created by a SmartGuide.
*/
private void refreshEquations() throws ExpressionException {
TreePath selectionPath = getselectionModel1().getSelectionPath();
if (selectionPath != null) {
BioModelNode node = (BioModelNode) selectionPath.getLastPathComponent();
Object[] objectPath = node.getUserObjectPath();
Object lastPathObject = objectPath[objectPath.length - 1];
// for non-stochastic
Expression[] expArray = null;
// for stochastic
String[] expString = null;
getExpressionCanvas1().setStrings(null);
getExpressionCanvas1().setExpressions(null);
if (lastPathObject instanceof Function) {
Function function = (Function) lastPathObject;
Expression exp = function.getExpression();
if (getJRadioButtonValue().isSelected()) {
exp.bindExpression(getMathDescription());
} else {
exp.bindExpression(null);
}
exp = exp.flatten();
// stochastic variable initial value must be an int, therefore we must make it here.
if (getMathDescription().isNonSpatialStoch() && function.getName().startsWith(DiffEquMathMapping.MATH_FUNC_SUFFIX_SPECIES_INIT_CONC_UNIT_PREFIX)) {
try {
double value = exp.evaluateConstant();
expString = new String[] { function.getName() + " = " + Math.round(value) };
getExpressionCanvas1().setStrings(expString);
} catch (Exception e) {
expArray = new Expression[] { Expression.assign(new Expression(function.getName()), exp) };
getExpressionCanvas1().setExpressions(expArray);
}
} else {
expArray = new Expression[] { Expression.assign(new Expression(function.getName()), exp) };
getExpressionCanvas1().setExpressions(expArray);
}
} else if (lastPathObject instanceof Constant) {
Constant constant = (Constant) lastPathObject;
Expression exp = constant.getExpression();
if (getJRadioButtonValue().isSelected()) {
exp.bindExpression(getMathDescription());
} else {
exp.bindExpression(null);
}
exp = exp.flatten();
// stochastic variable initial value must be an int, therefore we must make it here.
if (getMathDescription().isNonSpatialStoch() && constant.getName().startsWith(DiffEquMathMapping.MATH_FUNC_SUFFIX_SPECIES_INIT_CONC_UNIT_PREFIX)) {
try {
double value = exp.evaluateConstant();
expString = new String[] { constant.getName() + " = " + Math.round(value) };
getExpressionCanvas1().setStrings(expString);
} catch (Exception e) {
expArray = new Expression[] { Expression.assign(new Expression(constant.getName()), exp) };
getExpressionCanvas1().setExpressions(expArray);
}
} else {
expArray = new Expression[] { Expression.assign(new Expression(constant.getName()), exp) };
getExpressionCanvas1().setExpressions(expArray);
}
} else if (lastPathObject instanceof Equation) {
Equation equ = (Equation) lastPathObject;
Enumeration<Expression> enum_equ = equ.getTotalExpressions();
Vector<Expression> expList = new Vector<Expression>();
while (enum_equ.hasMoreElements()) {
Expression exp = new Expression(enum_equ.nextElement());
if (getJRadioButtonValue().isSelected()) {
exp.bindExpression(getMathDescription());
} else {
exp.bindExpression(null);
}
expList.addElement(exp.flatten());
}
expArray = new Expression[expList.size()];
expList.copyInto(expArray);
getExpressionCanvas1().setExpressions(expArray);
} else if (// added Sept 29, 2006
lastPathObject instanceof VarIniCondition) {
VarIniCondition varIni = (VarIniCondition) lastPathObject;
expString = new String[] { varIni.toString() };
getExpressionCanvas1().setStrings(expString);
} else if (// added Sept 29, 2006
lastPathObject instanceof Action) {
Action action = (Action) lastPathObject;
expString = new String[] { action.toString() };
getExpressionCanvas1().setStrings(expString);
} else if (// added Sept 29, 2006
lastPathObject instanceof String) {
// to check if the string is the probability string
int index1 = ((String) lastPathObject).indexOf("probability_rate");
int index2 = ((String) lastPathObject).indexOf("=");
if (// has probability eqution,but don't calculate prob string, since it is not a constant value.
(index1 == 0) && ((index2 + 2) < ((String) lastPathObject).length())) {
expString = new String[] { (String) lastPathObject };
getExpressionCanvas1().setStrings(expString);
}
}
} else {
getExpressionCanvas1().setExpressions(null);
getExpressionCanvas1().setStrings(null);
getExpressionCanvas1().repaint();
}
// Variable var = getMathDescription().getVariable(varName);
// SubDomain subDomain = getMathDescription().getSubDomain(subDomainName);
// Equation equ = null;
// if (var != null && subDomain != null){
// equ = subDomain.getEquation(var);
// }
// if (equ == null){
// if (subDomain instanceof MembraneSubDomain && var instanceof VolVariable){
// equ = ((MembraneSubDomain)subDomain).getJumpCondition((VolVariable)var);
// }
// }
// if (equ == null){
// Expression exp = null;
// String title = "hello";
// if (var instanceof Constant || var instanceof Function){
// exp = var.getExpression();
// title = "Expression for "+var.getName();
// }
// if (getJRadioButtonValue().isSelected()){
// exp.bindExpression(getMathDescription());
// }else{
// exp.bindExpression(null);
// }
// getExpressionCanvas1().setExpression(exp.flatten());
// getEquationTitleLabel().setText(title);
// }else{
// Enumeration enum_equ = equ.getTotalExpressions();
// Vector expList = new Vector();
// while (enum_equ.hasMoreElements()){
// Expression exp = new Expression((Expression)enum_equ.nextElement());
// if (getJRadioButtonValue().isSelected()){
// exp.bindExpression(getMathDescription());
// }else{
// exp.bindExpression(null);
// }
// expList.addElement(exp.flatten());
// }
// Expression expArray[] = new Expression[expList.size()];
// expList.copyInto(expArray);
// getExpressionCanvas1().setExpressions(expArray);
// getEquationTitleLabel().setText("Equations for "+var.getName()+" within "+subDomain.getName());
// }
// } catch (java.lang.Throwable ivjExc) {
// handleException(ivjExc);
// getEquationTitleLabel().setText("Equations for "+varName+" within "+subDomainName+" *** "+ivjExc.getMessage());
// }
// }
// }else{
// getEquationTitleLabel().setText("no variable selected");
// getExpressionCanvas1().setExpression((Expression)null);
// }
}
use of cbit.vcell.desktop.BioModelNode in project vcell by virtualcell.
the class MathDescriptionCellRenderer method getTreeCellRendererComponent.
/**
* Insert the method's description here.
* Creation date: (7/27/2000 6:41:57 PM)
* @return java.awt.Component
*/
public java.awt.Component getTreeCellRendererComponent(JTree tree, Object value, boolean sel, boolean expanded, boolean leaf, int row, boolean hasFocus) {
JLabel component = (JLabel) super.getTreeCellRendererComponent(tree, value, sel, expanded, leaf, row, hasFocus);
boolean bLoaded = false;
//
try {
if (value instanceof BioModelNode) {
BioModelNode node = (BioModelNode) value;
if (node.getUserObject() instanceof PdeEquation) {
PdeEquation pdeEquation = (PdeEquation) node.getUserObject();
Variable var = pdeEquation.getVariable();
component.setToolTipText("PDE Equation");
// \u2207 = nabla ... del operator
// \u2219 = dot
String DEL = "\u2207";
// "\u2202"; // '\u2202' is partial differentiation 'd' is regular diff
String PARTIAL_DIFF = "d";
String Super2 = "\u00b2";
String DOT = "\u2219";
// String diffusionTerm = DEL+" "+DOT+" "+"("+pdeEquation.getDiffusionExpression()+" "+DEL+" "+var.getName()+")";
String diffusionTerm = "";
if (pdeEquation.getVelocityX() != null || pdeEquation.getVelocityY() != null || pdeEquation.getVelocityZ() != null) {
if (pdeEquation.getDiffusionExpression().isZero()) {
// reaction/advection
diffusionTerm = "- " + DEL + " " + DOT + "( velocity " + var.getName() + " )";
} else {
// reaction/diffusion/advection
diffusionTerm = DEL + " " + DOT + " (" + pdeEquation.getDiffusionExpression().infix() + " " + DEL + " " + var.getName() + " - velocity " + var.getName() + ")";
}
} else {
diffusionTerm = "(" + pdeEquation.getDiffusionExpression().infix() + ") " + DEL + Super2 + " " + var.getName();
}
String gradTerm = "";
if (pdeEquation.getGradientX() != null && !pdeEquation.getGradientX().isZero()) {
gradTerm += " + " + PARTIAL_DIFF + "[" + pdeEquation.getGradientX().infix() + "]/" + PARTIAL_DIFF + "x";
}
if (pdeEquation.getGradientY() != null && !pdeEquation.getGradientY().isZero()) {
gradTerm += " + " + PARTIAL_DIFF + "[" + pdeEquation.getGradientY().infix() + "]/" + PARTIAL_DIFF + "y";
}
if (pdeEquation.getGradientZ() != null && !pdeEquation.getGradientZ().isZero()) {
gradTerm += " + " + PARTIAL_DIFF + "[" + pdeEquation.getGradientZ().infix() + "]/" + PARTIAL_DIFF + "z";
}
String sourceTerm = pdeEquation.getRateExpression().infix();
if (!sourceTerm.equals("0.0")) {
component.setText(PARTIAL_DIFF + "[" + var.getName() + "]/" + PARTIAL_DIFF + "t = " + diffusionTerm + gradTerm + " + " + sourceTerm);
} else {
component.setText(PARTIAL_DIFF + "[" + var.getName() + "]/" + PARTIAL_DIFF + "t = " + diffusionTerm + gradTerm);
}
} else if (node.getUserObject() instanceof OdeEquation) {
OdeEquation odeEquation = (OdeEquation) node.getUserObject();
Variable var = odeEquation.getVariable();
component.setToolTipText("ODE Equation");
component.setText("d[" + var.getName() + "]/dt = " + odeEquation.getRateExpression().infix());
} else if (node.getUserObject() instanceof MembraneRegionEquation) {
MembraneRegionEquation membraneRegionEquation = (MembraneRegionEquation) node.getUserObject();
Variable var = membraneRegionEquation.getVariable();
component.setToolTipText("Membrane Region Equation");
component.setText("Membrane Region Equation for " + var.getName());
} else if (node.getUserObject() instanceof JumpCondition) {
JumpCondition jumpCondition = (JumpCondition) node.getUserObject();
Variable var = jumpCondition.getVariable();
component.setToolTipText("Jump Condition");
component.setText("Flux for " + var.getName());
} else if (node.getUserObject() instanceof Constant) {
Constant constant = (Constant) node.getUserObject();
component.setToolTipText("Constant");
component.setText(constant.getName() + " = " + constant.getExpression().infix());
} else if (node.getUserObject() instanceof Function) {
Function function = (Function) node.getUserObject();
component.setToolTipText("Function");
component.setText(function.getName() + " = " + function.getExpression().infix());
} else if (node.getUserObject() instanceof SubDomain) {
SubDomain subDomain = (SubDomain) node.getUserObject();
component.setToolTipText("SubDomain");
component.setText(subDomain.getName());
} else if (node.getUserObject() instanceof FastSystem) {
component.setToolTipText("Fast System");
component.setText("Fast System");
} else if (node.getUserObject() instanceof FastInvariant) {
FastInvariant fi = (FastInvariant) node.getUserObject();
component.setToolTipText("Fast Invariant");
component.setText("fast invariant: " + fi.getFunction().infix());
} else if (node.getUserObject() instanceof FastRate) {
FastRate fr = (FastRate) node.getUserObject();
component.setToolTipText("Fast Rate");
component.setText("fast rate: " + fr.getFunction().infix());
} else if (node.getUserObject() instanceof Annotation) {
Annotation annotation = (Annotation) node.getUserObject();
component.setToolTipText("Annotation");
component.setText("\"" + annotation + "\"");
} else {
}
if (selectedFont == null && component.getFont() != null) {
selectedFont = component.getFont().deriveFont(Font.BOLD);
}
if (unselectedFont == null && component.getFont() != null) {
unselectedFont = component.getFont().deriveFont(Font.PLAIN);
}
if (bLoaded) {
component.setFont(selectedFont);
} else {
component.setFont(unselectedFont);
}
}
} catch (Throwable e) {
e.printStackTrace(System.out);
}
//
return component;
}
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