use of cbit.vcell.client.task.RunBioNetGen in project vcell by virtualcell.
the class BNGWindowManager method runBioNetGen.
/**
* Gets the bngOutputPanel property (cbit.vcell.client.bionetgen.BNGOutputPanel) value.
* @return The bngOutputPanel property value.
*/
public void runBioNetGen(BNGInput bngInput) {
// Create a hash and put in the details required to run the ClientTaskDispatcher
Hashtable<String, Object> hash = new Hashtable<String, Object>();
hash.put(BNG_OUTPUT_PANEL, getBngOutputPanel());
final BNGExecutorService bngService = BNGExecutorService.getInstance(bngInput, NetworkGenerationRequirements.NoTimeoutMS);
// Create the AsynchClientTasks : in this case, running the BioNetGen (non-swing) and then displaying the output (swing) tasks.
AsynchClientTask[] tasksArray = new AsynchClientTask[2];
tasksArray[0] = new RunBioNetGen(bngService);
tasksArray[1] = new DisplayBNGOutput();
// Dispatch the tasks using the ClientTaskDispatcher.
ClientTaskDispatcher.dispatch(getBngOutputPanel(), hash, tasksArray, false, true, new ProgressDialogListener() {
public void cancelButton_actionPerformed(EventObject newEvent) {
try {
bngService.stopBNG();
} catch (Exception e) {
e.printStackTrace();
}
}
});
}
use of cbit.vcell.client.task.RunBioNetGen in project vcell by virtualcell.
the class NetworkConstraintsPanel method runBioNetGen.
private void runBioNetGen() {
EditConstraintsPanel panel = new EditConstraintsPanel(this);
ChildWindowManager childWindowManager = ChildWindowManager.findChildWindowManager(this);
ChildWindow childWindow = childWindowManager.addChildWindow(panel, panel, "Edit / Test Constraints");
Dimension dim = new Dimension(360, 160);
childWindow.pack();
panel.setChildWindow(childWindow);
childWindow.setPreferredSize(dim);
childWindow.showModal();
int maxIterations;
int maxMolecules;
if (panel.getButtonPushed() == ActionButtons.Run) {
maxIterations = new Integer(panel.maxIterationTextField.getText());
maxMolecules = new Integer(panel.maxMolTextField.getText());
fieldSimulationContext.getNetworkConstraints().setTestConstraints(maxIterations, maxMolecules);
} else if (panel.getButtonPushed() == ActionButtons.Apply) {
activateConsole();
maxIterations = new Integer(panel.maxIterationTextField.getText());
maxMolecules = new Integer(panel.maxMolTextField.getText());
fieldSimulationContext.getNetworkConstraints().setTestConstraints(maxIterations, maxMolecules);
fieldSimulationContext.getNetworkConstraints().updateConstraintsFromTest();
// apply will invalidate everything: generated species, reactions, console, cache, etc
updateBioNetGenOutput(null);
refreshInterface();
TaskCallbackMessage tcm = new TaskCallbackMessage(TaskCallbackStatus.Clean, "");
fieldSimulationContext.appendToConsole(tcm);
String message = "Warning: The current Constraints are not tested / validated.";
tcm = new TaskCallbackMessage(TaskCallbackStatus.Warning, message);
fieldSimulationContext.appendToConsole(tcm);
message = "The Network generation may take a very long time or the generated network may be incomplete. " + "We recommend testing this set of constraints.";
tcm = new TaskCallbackMessage(TaskCallbackStatus.Notification, message);
fieldSimulationContext.appendToConsole(tcm);
return;
} else {
return;
}
// TODO: do not delete the commented code below
// uncomment the next 6 lines to keep the data in the dialogs synchronized with the most recent reaction network
// if(viewSpeciesDialog != null) {
// viewSpeciesDialog.dispose();
// }
// if(viewReactionsDialog != null) {
// viewReactionsDialog.dispose();
// }
activateConsole();
// previousIterationSpecies = 0;
synchronized (this) {
fieldSimulationContext.setMd5hash(null);
fieldSimulationContext.setMostRecentlyCreatedOutputSpec(null);
}
refreshInterface();
if (!checkBnglRequirements()) {
return;
}
NetworkTransformer transformer = new NetworkTransformer();
MathMappingCallback dummyCallback = new MathMappingCallback() {
public void setProgressFraction(float percentDone) {
}
public void setMessage(String message) {
}
public boolean isInterrupted() {
return false;
}
};
// we alter the input string to use the test values for max iterations and max molecules per species
String input = transformer.convertToBngl(fieldSimulationContext, true, dummyCallback, NetworkGenerationRequirements.ComputeFullNoTimeout);
// get rid of the default generate network command...
input = input.substring(0, input.indexOf("generate_network({"));
// ... and replace it with the "fake" one
StringWriter bnglStringWriter = new StringWriter();
PrintWriter pw = new PrintWriter(bnglStringWriter);
RbmNetworkGenerator.generateNetworkEx(maxIterations, maxMolecules, pw, fieldSimulationContext.getModel().getRbmModelContainer(), fieldSimulationContext, NetworkGenerationRequirements.ComputeFullNoTimeout);
String genNetStr = bnglStringWriter.toString();
pw.close();
input += genNetStr;
BNGInput bngInput = new BNGInput(input);
final BNGExecutorService bngService = BNGExecutorService.getInstance(bngInput, NetworkGenerationRequirements.NoTimeoutMS);
bngService.registerBngUpdaterCallback(this);
Hashtable<String, Object> hash = new Hashtable<String, Object>();
AsynchClientTask[] tasksArray = new AsynchClientTask[3];
TaskCallbackMessage message = new TaskCallbackMessage(TaskCallbackStatus.Clean, "");
fieldSimulationContext.appendToConsole(message);
tasksArray[0] = new RunBioNetGen(bngService);
tasksArray[1] = new CreateBNGOutputSpec(bngService);
tasksArray[2] = new ReturnBNGOutput(bngService, fieldSimulationContext, this);
ClientTaskDispatcher.dispatch(this, hash, tasksArray, false, true, new ProgressDialogListener() {
@Override
public void cancelButton_actionPerformed(EventObject newEvent) {
try {
bngService.stopBNG();
String s = "...user cancelled.";
TaskCallbackMessage tcm = new TaskCallbackMessage(TaskCallbackStatus.TaskStopped, s);
// message will be processed in TaskCallbackProcessor::case TaskStopped
setNewCallbackMessage(tcm);
} catch (Exception e) {
e.printStackTrace();
}
}
});
}
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