use of cbit.vcell.biomodel.BioModel in project vcell by virtualcell.
the class FRAPOptData method runRefSimulation.
public KeyValue runRefSimulation(final ClientTaskStatusSupport progressListener) throws Exception {
BioModel bioModel = null;
if (progressListener != null) {
progressListener.setMessage("Running Reference Simulation...");
}
try {
FieldDataIdentifierSpec psfFieldFunc = FRAPStudy.getPSFFieldData(getLocalWorkspace());
bioModel = FRAPStudy.createNewRefBioModel(expFrapStudy, REFERENCE_DIFF_RATE_STR, getRefTimeStep(), LocalWorkspace.createNewKeyValue(), LocalWorkspace.getDefaultOwner(), psfFieldFunc, expFrapStudy.getStartingIndexForRecovery());
// change time bound and time step
Simulation sim = bioModel.getSimulations()[0];
ROIDataGenerator roiDataGenerator = getExpFrapStudy().getROIDataGenerator(getLocalWorkspace());
sim.getMathDescription().getPostProcessingBlock().addDataGenerator(roiDataGenerator);
System.out.println("run FRAP Reference Simulation...");
// run simulation
FRAPStudy.runFVSolverStandalone_ref(new File(getLocalWorkspace().getDefaultSimDataDirectory()), bioModel.getSimulation(0), getExpFrapStudy().getFrapDataExternalDataInfo().getExternalDataIdentifier(), getExpFrapStudy().getRoiExternalDataInfo().getExternalDataIdentifier(), psfFieldFunc.getExternalDataIdentifier(), progressListener, true);
KeyValue referenceSimKeyValue = sim.getVersion().getVersionKey();
return referenceSimKeyValue;
} catch (Exception e) {
e.printStackTrace(System.out);
if (bioModel != null && bioModel.getSimulations() != null) {
FRAPStudy.removeExternalDataAndSimulationFiles(bioModel.getSimulations()[0].getVersion().getVersionKey(), null, null, getLocalWorkspace());
}
throw e;
}
}
use of cbit.vcell.biomodel.BioModel in project vcell by virtualcell.
the class FRAPStudy method createNewRefBioModel.
public static BioModel createNewRefBioModel(FRAPStudy sourceFrapStudy, String baseDiffusionRate, TimeStep tStep, KeyValue simKey, User owner, FieldDataIdentifierSpec psfFDIS, int startingIndexForRecovery) throws Exception {
if (owner == null) {
throw new Exception("Owner is not defined");
}
ROI cellROI_2D = sourceFrapStudy.getFrapData().getRoi(FRAPData.VFRAP_ROI_ENUM.ROI_CELL.name());
Extent extent = sourceFrapStudy.getFrapData().getImageDataset().getExtent();
TimeBounds timeBounds = FRAPOptData.getEstimatedRefTimeBound(sourceFrapStudy);
double timeStepVal = FRAPOptData.REFERENCE_DIFF_DELTAT;
int numX = cellROI_2D.getRoiImages()[0].getNumX();
int numY = cellROI_2D.getRoiImages()[0].getNumY();
int numZ = cellROI_2D.getRoiImages().length;
short[] shortPixels = cellROI_2D.getRoiImages()[0].getPixels();
byte[] bytePixels = new byte[numX * numY * numZ];
final byte EXTRACELLULAR_PIXVAL = 0;
final byte CYTOSOL_PIXVAL = 1;
for (int i = 0; i < bytePixels.length; i++) {
if (shortPixels[i] != 0) {
bytePixels[i] = CYTOSOL_PIXVAL;
}
}
VCImage maskImage;
try {
maskImage = new VCImageUncompressed(null, bytePixels, extent, numX, numY, numZ);
} catch (ImageException e) {
e.printStackTrace();
throw new RuntimeException("failed to create mask image for geometry");
}
Geometry geometry = new Geometry("geometry", maskImage);
if (geometry.getGeometrySpec().getNumSubVolumes() != 2) {
throw new Exception("Cell ROI has no ExtraCellular.");
}
int subVolume0PixVal = ((ImageSubVolume) geometry.getGeometrySpec().getSubVolume(0)).getPixelValue();
geometry.getGeometrySpec().getSubVolume(0).setName((subVolume0PixVal == EXTRACELLULAR_PIXVAL ? EXTRACELLULAR_NAME : CYTOSOL_NAME));
int subVolume1PixVal = ((ImageSubVolume) geometry.getGeometrySpec().getSubVolume(1)).getPixelValue();
geometry.getGeometrySpec().getSubVolume(1).setName((subVolume1PixVal == CYTOSOL_PIXVAL ? CYTOSOL_NAME : EXTRACELLULAR_NAME));
geometry.getGeometrySurfaceDescription().updateAll();
BioModel bioModel = new BioModel(null);
bioModel.setName("unnamed");
Model model = new Model("model");
bioModel.setModel(model);
Feature extracellular = model.addFeature(EXTRACELLULAR_NAME);
Feature cytosol = model.addFeature(CYTOSOL_NAME);
Membrane plasmaMembrane = model.addMembrane(PLASMAMEMBRANE_NAME);
String roiDataName = FRAPStudy.ROI_EXTDATA_NAME;
final int ONE_DIFFUSION_SPECIES_COUNT = 1;
final int MOBILE_SPECIES_INDEX = 0;
Expression[] diffusionConstants = new Expression[ONE_DIFFUSION_SPECIES_COUNT];
Species[] species = new Species[ONE_DIFFUSION_SPECIES_COUNT];
SpeciesContext[] speciesContexts = new SpeciesContext[ONE_DIFFUSION_SPECIES_COUNT];
Expression[] initialConditions = new Expression[ONE_DIFFUSION_SPECIES_COUNT];
// Mobile Species
diffusionConstants[MOBILE_SPECIES_INDEX] = new Expression(baseDiffusionRate);
species[MOBILE_SPECIES_INDEX] = new Species(SPECIES_NAME_PREFIX_MOBILE, "Mobile bleachable species");
speciesContexts[MOBILE_SPECIES_INDEX] = new SpeciesContext(null, species[MOBILE_SPECIES_INDEX].getCommonName(), species[MOBILE_SPECIES_INDEX], cytosol);
FieldFunctionArguments postBleach_first = new FieldFunctionArguments(roiDataName, "postbleach_first", new Expression(0), VariableType.VOLUME);
FieldFunctionArguments prebleach_avg = new FieldFunctionArguments(roiDataName, "prebleach_avg", new Expression(0), VariableType.VOLUME);
Expression expPostBleach_first = new Expression(postBleach_first.infix());
Expression expPreBleach_avg = new Expression(prebleach_avg.infix());
initialConditions[MOBILE_SPECIES_INDEX] = Expression.div(expPostBleach_first, expPreBleach_avg);
SimulationContext simContext = new SimulationContext(bioModel.getModel(), geometry);
bioModel.addSimulationContext(simContext);
FeatureMapping cytosolFeatureMapping = (FeatureMapping) simContext.getGeometryContext().getStructureMapping(cytosol);
FeatureMapping extracellularFeatureMapping = (FeatureMapping) simContext.getGeometryContext().getStructureMapping(extracellular);
MembraneMapping plasmaMembraneMapping = (MembraneMapping) simContext.getGeometryContext().getStructureMapping(plasmaMembrane);
SubVolume cytSubVolume = geometry.getGeometrySpec().getSubVolume(CYTOSOL_NAME);
SubVolume exSubVolume = geometry.getGeometrySpec().getSubVolume(EXTRACELLULAR_NAME);
SurfaceClass pmSurfaceClass = geometry.getGeometrySurfaceDescription().getSurfaceClass(exSubVolume, cytSubVolume);
cytosolFeatureMapping.setGeometryClass(cytSubVolume);
extracellularFeatureMapping.setGeometryClass(exSubVolume);
plasmaMembraneMapping.setGeometryClass(pmSurfaceClass);
cytosolFeatureMapping.getUnitSizeParameter().setExpression(new Expression(1.0));
extracellularFeatureMapping.getUnitSizeParameter().setExpression(new Expression(1.0));
plasmaMembraneMapping.getUnitSizeParameter().setExpression(new Expression(1.0));
for (int i = 0; i < initialConditions.length; i++) {
model.addSpecies(species[i]);
model.addSpeciesContext(speciesContexts[i]);
}
for (int i = 0; i < speciesContexts.length; i++) {
SpeciesContextSpec scs = simContext.getReactionContext().getSpeciesContextSpec(speciesContexts[i]);
scs.getInitialConditionParameter().setExpression(initialConditions[i]);
scs.getDiffusionParameter().setExpression(diffusionConstants[i]);
}
MathMapping mathMapping = simContext.createNewMathMapping();
MathDescription mathDesc = mathMapping.getMathDescription();
// Add PSF function
mathDesc.addVariable(new Function(Simulation.PSF_FUNCTION_NAME, new Expression(psfFDIS.getFieldFuncArgs().infix()), null));
simContext.setMathDescription(mathDesc);
SimulationVersion simVersion = new SimulationVersion(simKey, "sim1", owner, new GroupAccessNone(), new KeyValue("0"), new BigDecimal(0), new Date(), VersionFlag.Current, "", null);
Simulation newSimulation = new Simulation(simVersion, simContext.getMathDescription());
newSimulation.getSolverTaskDescription().setSolverDescription(SolverDescription.FiniteVolumeStandalone);
simContext.addSimulation(newSimulation);
newSimulation.getSolverTaskDescription().setTimeBounds(timeBounds);
newSimulation.getSolverTaskDescription().setOutputTimeSpec(new UniformOutputTimeSpec(timeStepVal));
newSimulation.getMeshSpecification().setSamplingSize(cellROI_2D.getISize());
newSimulation.getSolverTaskDescription().setTimeStep(new TimeStep(timeStepVal, timeStepVal, timeStepVal));
return bioModel;
}
use of cbit.vcell.biomodel.BioModel in project vcell by virtualcell.
the class FRAPStudy method setBioModel.
public void setBioModel(BioModel argBioModel) {
BioModel oldValue = this.bioModel;
this.bioModel = argBioModel;
propertyChangeSupport.firePropertyChange("bioModel", oldValue, argBioModel);
}
use of cbit.vcell.biomodel.BioModel in project vcell by virtualcell.
the class TestingFrameworkWindowManager method addTestCases.
/**
* Insert the method's description here.
* Creation date: (4/10/2003 11:27:32 AM)
* @param testCase cbit.vcell.numericstestingframework.TestCase
*/
public String addTestCases(final TestSuiteInfoNew tsInfo, final TestCaseNew[] testCaseArray, int regrRefFlag, ClientTaskStatusSupport pp) {
if (tsInfo == null) {
throw new IllegalArgumentException("TestSuiteInfo cannot be null");
}
if (testCaseArray == null || testCaseArray.length == 0) {
throw new IllegalArgumentException("TestCases cannot be null / empty");
}
// make modifiable list
List<TestCaseNew> testCases = new ArrayList<>(Arrays.asList(testCaseArray));
StringBuffer errors = new StringBuffer();
// When a testCase (mathmodel/biomodel) is added to a testSuite, a new version of the mathModel/biomodel should be created.
// Also, the simulations in the original mathmodel/biomodel should be rid of their parent simulation reference.
pp.setMessage("Getting testSuite");
pp.setProgress(1);
TestSuiteNew testSuite = null;
try {
testSuite = getRequestManager().getDocumentManager().getTestSuite(tsInfo.getTSKey());
} catch (Throwable e) {
throw new RuntimeException("couldn't get test suite " + tsInfo.getTSID() + "\n" + e.getClass().getName() + " mesg=" + e.getMessage() + "\n");
}
if (testSuite != null && testSuite.getTSInfoNew().isLocked()) {
throw new RuntimeException("Cannot addTestCases to locked table");
}
if (testSuite != null) {
// Saving BioModels
TestCaseNew[] existingTestCases = testSuite.getTestCases();
java.util.HashMap<KeyValue, BioModel> bioModelHashMap = new java.util.HashMap<KeyValue, BioModel>();
// if(existingTestCases != null){
// Find BioModels, Using the same BM reference for sibling Applications
int pcounter = 0;
// use iterator to allow removal of test case from collection if exception
Iterator<TestCaseNew> iter = testCases.iterator();
while (iter.hasNext()) {
TestCaseNew testCase = iter.next();
pp.setProgress(Math.max(1, ((int) ((pcounter++ / (double) (testCases.size() * 3)) * 100))));
pp.setMessage("Checking " + testCase.getVersion().getName());
try {
if (testCase instanceof TestCaseNewBioModel) {
TestCaseNewBioModel bioTestCase = (TestCaseNewBioModel) testCase;
//
if (bioModelHashMap.get(bioTestCase.getBioModelInfo().getVersion().getVersionKey()) == null) {
pp.setMessage("Getting BM " + testCase.getVersion().getName());
BioModel bioModel = getRequestManager().getDocumentManager().getBioModel(bioTestCase.getBioModelInfo().getVersion().getVersionKey());
if (!bioModel.getVersion().getOwner().equals(getRequestManager().getDocumentManager().getUser())) {
throw new Exception("BioModel does not belong to VCELLTESTACCOUNT, cannot proceed with test!");
}
//
// if biomodel already exists in same testsuite, then use this BioModel edition
//
BioModel newBioModel = null;
if (existingTestCases != null) {
for (int j = 0; newBioModel == null && j < existingTestCases.length; j++) {
if (existingTestCases[j] instanceof TestCaseNewBioModel) {
TestCaseNewBioModel existingTestCaseBioModel = (TestCaseNewBioModel) existingTestCases[j];
//
if (existingTestCaseBioModel.getBioModelInfo().getVersion().getBranchID().equals(bioTestCase.getBioModelInfo().getVersion().getBranchID())) {
//
if (existingTestCaseBioModel.getBioModelInfo().getVersion().getVersionKey().equals(bioTestCase.getBioModelInfo().getVersion().getVersionKey())) {
//
// same, store this "unchanged" in bioModelHashMap
//
newBioModel = bioModel;
} else {
//
throw new Exception("can't add new test case using (" + bioTestCase.getBioModelInfo().getVersion().getName() + " " + bioTestCase.getBioModelInfo().getVersion().getDate() + ")\n" + "a test case already exists with different edition of same BioModel dated " + existingTestCaseBioModel.getBioModelInfo().getVersion().getDate());
}
}
}
}
}
if (newBioModel == null) {
pp.setMessage("Saving BM " + testCase.getVersion().getName());
//
// some older models have membrane voltage variable names which are not unique
// (e.g. membranes 'pm' and 'nm' both have membrane voltage variables named 'Voltage_Membrane0')
//
// if this is the case, we will try to repair the conflict (for math testing purposes only) by renaming the voltage variables to their default values.
//
// Ordinarily, the conflict will be identified as an "Error" issue and the user will be prompted to repair before saving or math generation.
//
bioModel.refreshDependencies();
boolean bFoundIdentifierConflictUponLoading = hasDuplicateIdentifiers(bioModel);
if (bFoundIdentifierConflictUponLoading) {
//
// look for two MembraneVoltage instances with same variable name, rename all
//
HashSet<String> membraneVoltageVarNames = new HashSet<String>();
ArrayList<MembraneVoltage> membraneVoltageVars = new ArrayList<MembraneVoltage>();
for (Structure struct : bioModel.getModel().getStructures()) {
if (struct instanceof Membrane) {
MembraneVoltage membraneVoltage = ((Membrane) struct).getMembraneVoltage();
if (membraneVoltage != null) {
membraneVoltageVars.add(membraneVoltage);
membraneVoltageVarNames.add(membraneVoltage.getName());
}
}
}
if (membraneVoltageVars.size() != membraneVoltageVarNames.size()) {
// rename them all to the default names
for (MembraneVoltage memVoltage : membraneVoltageVars) {
memVoltage.setName(Membrane.getDefaultMembraneVoltageName(memVoltage.getMembrane().getName()));
}
}
}
SimulationContext[] simContexts = bioModel.getSimulationContexts();
for (int j = 0; j < simContexts.length; j++) {
simContexts[j].clearVersion();
GeometrySurfaceDescription gsd = simContexts[j].getGeometry().getGeometrySurfaceDescription();
if (gsd != null) {
GeometricRegion[] grArr = gsd.getGeometricRegions();
if (grArr == null) {
gsd.updateAll();
}
}
MathMapping mathMapping = simContexts[j].createNewMathMapping();
// for older models that do not have absolute compartment sizes set, but have relative sizes (SVR/VF); or if there is only one compartment with size not set,
// compute absolute compartment sizes using relative sizes and assuming a default value of '1' for one of the compartments.
// Otherwise, the math generation will fail, since for the relaxed topology (VCell 5.3 and later) absolute compartment sizes are required.
GeometryContext gc = simContexts[j].getGeometryContext();
if (simContexts[j].getGeometry().getDimension() == 0 && ((gc.isAllSizeSpecifiedNull() && !gc.isAllVolFracAndSurfVolSpecifiedNull()) || (gc.getModel().getStructures().length == 1 && gc.isAllSizeSpecifiedNull()))) {
// choose the first structure in model and set its size to '1'.
Structure struct = simContexts[j].getModel().getStructure(0);
double structSize = 1.0;
StructureSizeSolver.updateAbsoluteStructureSizes(simContexts[j], struct, structSize, struct.getStructureSize().getUnitDefinition());
}
simContexts[j].setMathDescription(mathMapping.getMathDescription());
}
Simulation[] sims = bioModel.getSimulations();
String[] simNames = new String[sims.length];
for (int j = 0; j < sims.length; j++) {
// prevents parent simulation (from the original mathmodel) reference connection
// Otherwise it will refer to data from previous (parent) simulation.
sims[j].clearVersion();
simNames[j] = sims[j].getName();
// if(sims[j].getSolverTaskDescription().getSolverDescription().equals(SolverDescription.FiniteVolume)){
// sims[j].getSolverTaskDescription().setSolverDescription(SolverDescription.FiniteVolumeStandalone);
// }
}
newBioModel = getRequestManager().getDocumentManager().save(bioModel, simNames);
}
bioModelHashMap.put(bioTestCase.getBioModelInfo().getVersion().getVersionKey(), newBioModel);
}
}
} catch (Throwable e) {
String identifier = testCase.getVersion() != null ? "Name=" + testCase.getVersion().getName() : "TCKey=" + testCase.getTCKey();
if (lg.isInfoEnabled()) {
lg.info(identifier, e);
}
errors.append("Error collecting BioModel for TestCase " + identifier + '\n' + e.getClass().getName() + " " + e.getMessage() + '\n');
// remove to avoid further processing attempts
iter.remove();
}
}
// }
// then process each BioModelTestCase individually
// if(bioModelHashMap != null){
pcounter = 0;
for (TestCaseNew testCase : testCases) {
pp.setProgress(Math.max(1, ((int) ((pcounter++ / (double) (testCases.size() * 3)) * 100))));
pp.setMessage("Checking " + testCase.getVersion().getName());
try {
AddTestCasesOP testCaseOP = null;
if (testCase instanceof TestCaseNewBioModel) {
pp.setMessage("Processing BM " + testCase.getVersion().getName());
TestCaseNewBioModel bioTestCase = (TestCaseNewBioModel) testCase;
BioModel newBioModel = (BioModel) bioModelHashMap.get(bioTestCase.getBioModelInfo().getVersion().getVersionKey());
if (newBioModel == null) {
throw new Exception("BioModel not found");
}
SimulationContext simContext = null;
for (int j = 0; j < newBioModel.getSimulationContexts().length; j++) {
if (newBioModel.getSimulationContext(j).getName().equals(bioTestCase.getSimContextName())) {
simContext = newBioModel.getSimulationContext(j);
}
}
Simulation[] newSimulations = simContext.getSimulations();
AddTestCriteriaOPBioModel[] testCriteriaOPs = new AddTestCriteriaOPBioModel[newSimulations.length];
for (int j = 0; j < newSimulations.length; j++) {
TestCriteriaNewBioModel tcritOrigForSimName = null;
for (int k = 0; bioTestCase.getTestCriterias() != null && k < bioTestCase.getTestCriterias().length; k += 1) {
if (bioTestCase.getTestCriterias()[k].getSimInfo().getName().equals(newSimulations[j].getName())) {
tcritOrigForSimName = (TestCriteriaNewBioModel) bioTestCase.getTestCriterias()[k];
break;
}
}
KeyValue regressionBioModelKey = null;
KeyValue regressionBioModelSimKey = null;
if (bioTestCase.getType().equals(TestCaseNew.REGRESSION)) {
if (regrRefFlag == TestingFrameworkWindowManager.COPY_REGRREF) {
regressionBioModelKey = (tcritOrigForSimName != null && tcritOrigForSimName.getRegressionBioModelInfo() != null ? tcritOrigForSimName.getRegressionBioModelInfo().getVersion().getVersionKey() : null);
regressionBioModelSimKey = (tcritOrigForSimName != null && tcritOrigForSimName.getRegressionSimInfo() != null ? tcritOrigForSimName.getRegressionSimInfo().getVersion().getVersionKey() : null);
} else if (regrRefFlag == TestingFrameworkWindowManager.ASSIGNORIGINAL_REGRREF) {
regressionBioModelKey = (tcritOrigForSimName != null ? bioTestCase.getBioModelInfo().getVersion().getVersionKey() : null);
regressionBioModelSimKey = (tcritOrigForSimName != null ? tcritOrigForSimName.getSimInfo().getVersion().getVersionKey() : null);
} else if (regrRefFlag == TestingFrameworkWindowManager.ASSIGNNEW_REGRREF) {
regressionBioModelKey = newBioModel.getVersion().getVersionKey();
regressionBioModelSimKey = newSimulations[j].getVersion().getVersionKey();
} else {
throw new IllegalArgumentException(this.getClass().getName() + ".addTestCases(...) BIOMODEL Unknown Regression Operation Flag");
}
}
testCriteriaOPs[j] = new AddTestCriteriaOPBioModel(testCase.getTCKey(), newSimulations[j].getVersion().getVersionKey(), regressionBioModelKey, regressionBioModelSimKey, (tcritOrigForSimName != null ? tcritOrigForSimName.getMaxAbsError() : new Double(1e-16)), (tcritOrigForSimName != null ? tcritOrigForSimName.getMaxRelError() : new Double(1e-9)), null);
}
testCaseOP = new AddTestCasesOPBioModel(new BigDecimal(tsInfo.getTSKey().toString()), newBioModel.getVersion().getVersionKey(), simContext.getKey(), bioTestCase.getType(), bioTestCase.getAnnotation(), testCriteriaOPs);
getRequestManager().getDocumentManager().doTestSuiteOP(testCaseOP);
}
} catch (Throwable e) {
errors.append("Error processing Biomodel for TestCase " + (testCase.getVersion() != null ? "Name=" + testCase.getVersion().getName() : "TCKey=" + testCase.getTCKey()) + "\n" + e.getClass().getName() + " " + e.getMessage() + "\n");
}
}
// }
// Process MathModels
pcounter = 0;
for (TestCaseNew testCase : testCases) {
pp.setProgress(Math.max(1, ((int) ((pcounter++ / (double) (testCases.size() * 3)) * 100))));
pp.setMessage("Checking " + testCase.getVersion().getName());
try {
AddTestCasesOP testCaseOP = null;
if (testCase instanceof TestCaseNewMathModel) {
TestCaseNewMathModel mathTestCase = (TestCaseNewMathModel) testCase;
pp.setMessage("Getting MathModel " + testCase.getVersion().getName());
MathModel mathModel = getRequestManager().getDocumentManager().getMathModel(mathTestCase.getMathModelInfo().getVersion().getVersionKey());
if (!mathModel.getVersion().getOwner().equals(getRequestManager().getDocumentManager().getUser())) {
throw new Exception("MathModel does not belong to VCELLTESTACCOUNT, cannot proceed with test!");
}
Simulation[] sims = mathModel.getSimulations();
String[] simNames = new String[sims.length];
for (int j = 0; j < sims.length; j++) {
// prevents parent simulation (from the original mathmodel) reference connection
// Otherwise it will refer to data from previous (parent) simulation.
sims[j].clearVersion();
simNames[j] = sims[j].getName();
// if(sims[j].getSolverTaskDescription().getSolverDescription().equals(SolverDescription.FiniteVolume)){
// sims[j].getSolverTaskDescription().setSolverDescription(SolverDescription.FiniteVolumeStandalone);
// }
}
pp.setMessage("Saving MathModel " + testCase.getVersion().getName());
MathModel newMathModel = getRequestManager().getDocumentManager().save(mathModel, simNames);
Simulation[] newSimulations = newMathModel.getSimulations();
AddTestCriteriaOPMathModel[] testCriteriaOPs = new AddTestCriteriaOPMathModel[newSimulations.length];
for (int j = 0; j < newSimulations.length; j++) {
TestCriteriaNewMathModel tcritOrigForSimName = null;
for (int k = 0; mathTestCase.getTestCriterias() != null && k < mathTestCase.getTestCriterias().length; k += 1) {
if (mathTestCase.getTestCriterias()[k].getSimInfo().getName().equals(newSimulations[j].getName())) {
tcritOrigForSimName = (TestCriteriaNewMathModel) mathTestCase.getTestCriterias()[k];
break;
}
}
KeyValue regressionMathModelKey = null;
KeyValue regressionMathModelSimKey = null;
if (mathTestCase.getType().equals(TestCaseNew.REGRESSION)) {
if (regrRefFlag == TestingFrameworkWindowManager.COPY_REGRREF) {
regressionMathModelKey = (tcritOrigForSimName != null && tcritOrigForSimName.getRegressionMathModelInfo() != null ? tcritOrigForSimName.getRegressionMathModelInfo().getVersion().getVersionKey() : null);
regressionMathModelSimKey = (tcritOrigForSimName != null && tcritOrigForSimName.getRegressionSimInfo() != null ? tcritOrigForSimName.getRegressionSimInfo().getVersion().getVersionKey() : null);
} else if (regrRefFlag == TestingFrameworkWindowManager.ASSIGNORIGINAL_REGRREF) {
regressionMathModelKey = (tcritOrigForSimName != null ? mathTestCase.getMathModelInfo().getVersion().getVersionKey() : null);
regressionMathModelSimKey = (tcritOrigForSimName != null ? tcritOrigForSimName.getSimInfo().getVersion().getVersionKey() : null);
} else if (regrRefFlag == TestingFrameworkWindowManager.ASSIGNNEW_REGRREF) {
regressionMathModelKey = newMathModel.getVersion().getVersionKey();
regressionMathModelSimKey = newSimulations[j].getVersion().getVersionKey();
} else {
throw new IllegalArgumentException(this.getClass().getName() + ".addTestCases(...) MATHMODEL Unknown Regression Operation Flag");
}
}
testCriteriaOPs[j] = new AddTestCriteriaOPMathModel(testCase.getTCKey(), newSimulations[j].getVersion().getVersionKey(), regressionMathModelKey, regressionMathModelSimKey, (tcritOrigForSimName != null ? tcritOrigForSimName.getMaxAbsError() : new Double(1e-16)), (tcritOrigForSimName != null ? tcritOrigForSimName.getMaxRelError() : new Double(1e-9)), null);
}
testCaseOP = new AddTestCasesOPMathModel(new BigDecimal(tsInfo.getTSKey().toString()), newMathModel.getVersion().getVersionKey(), mathTestCase.getType(), mathTestCase.getAnnotation(), testCriteriaOPs);
getRequestManager().getDocumentManager().doTestSuiteOP(testCaseOP);
}
} catch (Throwable e) {
errors.append("Error processing MathModel for TestCase " + (testCase.getVersion() != null ? "Name=" + testCase.getVersion().getName() : "TCKey=" + testCase.getTCKey()) + "\n" + e.getClass().getName() + " " + e.getMessage() + "\n");
}
}
}
if (errors.length() > 0) {
return errors.toString();
}
return null;
}
use of cbit.vcell.biomodel.BioModel in project vcell by virtualcell.
the class FRAPStudyPanel method runSimulationForSelectedModel.
private void runSimulationForSelectedModel() {
AsynchClientTask prepareRunBindingReactionTask = new AsynchClientTask("Preparing to run simulation ...", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
FRAPStudy fStudy = getFrapWorkspace().getWorkingFrapStudy();
boolean bExtDataOK = FRAPWorkspace.areExternalDataOK(getLocalWorkspace(), fStudy.getFrapDataExternalDataInfo(), fStudy.getRoiExternalDataInfo());
if (!bExtDataOK) {
// refresh rois
refreshROIs();
// if external files are missing/currupt or ROIs are changed, create keys and save them
fStudy.setFrapDataExternalDataInfo(FRAPStudy.createNewExternalDataInfo(getLocalWorkspace(), FRAPStudy.IMAGE_EXTDATA_NAME));
fStudy.setRoiExternalDataInfo(FRAPStudy.createNewExternalDataInfo(getLocalWorkspace(), FRAPStudy.ROI_EXTDATA_NAME));
try {
fStudy.saveROIsAsExternalData(getLocalWorkspace(), fStudy.getRoiExternalDataInfo().getExternalDataIdentifier(), fStudy.getStartingIndexForRecovery());
fStudy.saveImageDatasetAsExternalData(getLocalWorkspace(), fStudy.getFrapDataExternalDataInfo().getExternalDataIdentifier(), fStudy.getStartingIndexForRecovery());
} catch (Exception e) {
e.printStackTrace(System.out);
(getAnalysisResultsPanel()).setResultsButtonEnabled(false);
throw e;
}
}
}
};
// -------------------------------------------------------------------------
AsynchClientTask runReactionBindingTask = new AsynchClientTask("Running simulation ...", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
FRAPStudy fStudy = getFrapWorkspace().getWorkingFrapStudy();
Parameter[] bestParams = fStudy.getModels()[fStudy.getBestModelIndex().intValue()].getModelParameters();
if (bestParams.length < 3) {
return;
} else {
if (fStudy != null && fStudy.getBioModel() != null && fStudy.getBioModel().getSimulations() != null && fStudy.getBioModel().getSimulations().length > 0 && fStudy.getBioModel().getSimulations()[0].getVersion() != null && fStudy.getBioModel().getSimulations()[0].getVersion().getVersionKey() != null) {
fStudy.getBioModel().getSimulations()[0].getVersion().getVersionKey();
}
BioModel bioModel = null;
try {
bioModel = FRAPStudy.createNewSimBioModel(fStudy, bestParams, null, LocalWorkspace.createNewKeyValue(), LocalWorkspace.getDefaultOwner(), fStudy.getStartingIndexForRecovery());
// run simulation
FRAPStudy.runFVSolverStandalone(new File(getLocalWorkspace().getDefaultSimDataDirectory()), bioModel.getSimulation(0), fStudy.getFrapDataExternalDataInfo().getExternalDataIdentifier(), fStudy.getRoiExternalDataInfo().getExternalDataIdentifier(), this.getClientTaskStatusSupport(), false);
fStudy.setBioModel(bioModel);
} catch (Exception e) {
if (bioModel != null && bioModel.getSimulations() != null) {
FRAPStudy.removeExternalDataAndSimulationFiles(bioModel.getSimulations()[0].getVersion().getVersionKey(), null, null, getLocalWorkspace());
(getAnalysisResultsPanel()).setResultsButtonEnabled(false);
}
throw e;
}
}
}
};
AsynchClientTask updateUITask = new AsynchClientTask("Simulation Done.", AsynchClientTask.TASKTYPE_SWING_BLOCKING) {
public void run(Hashtable<String, Object> hashTable) throws Exception {
VirtualFrapMainFrame.updateStatus("Simulation Done. Click on \'View Spatial Results\' to see simulation results.");
(getAnalysisResultsPanel()).setResultsButtonEnabled(true);
}
};
// dispatch
ClientTaskDispatcher.dispatch(this, new Hashtable<String, Object>(), new AsynchClientTask[] { prepareRunBindingReactionTask, runReactionBindingTask, updateUITask }, true, true, true, null, true);
}
Aggregations