Example 1 with SymbolTableEntry
use of cbit.vcell.parser.SymbolTableEntry in project vcell by virtualcell.
the class ODETimePlotMultipleScansPanel method updateScanParamChoices.
/**
* Insert the method's description here.
* Creation date: (10/18/2005 12:44:06 AM)
*/
private void updateScanParamChoices() {
AsynchClientTask task1 = new AsynchClientTask("get ode results", AsynchClientTask.TASKTYPE_NONSWING_BLOCKING) {
@Override
public void run(Hashtable<String, Object> hashTable) throws Exception {
int[] jobIndexes = scanChoiceTable.getSelectedRows();
VCSimulationIdentifier vcSimulationIdentifier = simulation.getSimulationInfo().getAuthoritativeVCSimulationIdentifier();
int plotCount = jobIndexes.length * variableNames.length;
SymbolTableEntry[] symbolTableEntries = new SymbolTableEntry[plotCount];
double[][] dataValues = new double[plotCount + 1][];
PlotData[] plotDatas = new PlotData[plotCount];
String[] plotNames = new String[plotCount];
int plotIndex = 0;
dataValues[0] = null;
for (int ji = 0; ji < jobIndexes.length; ji++) {
int jobIndex = jobIndexes[ji];
final VCDataIdentifier vcdid = new VCSimulationDataIdentifier(vcSimulationIdentifier, jobIndex);
ODEDataManager odeDatamanager = ((ODEDataManager) dataManager).createNewODEDataManager(vcdid);
ODESolverResultSet odeSolverResultSet = odeDatamanager.getODESolverResultSet();
if (ji == 0) {
plotPane.setStepViewVisible(simulation.getSolverTaskDescription().getSolverDescription().isNonSpatialStochasticSolver(), odeSolverResultSet.isMultiTrialData());
hashTable.put("bMultiTrial", new Boolean(odeSolverResultSet.isMultiTrialData()));
}
double[] tdata = null;
if (!odeSolverResultSet.isMultiTrialData()) {
int tcol = odeSolverResultSet.findColumn(ReservedVariable.TIME.getName());
tdata = odeSolverResultSet.extractColumn(tcol);
if (dataValues[0] == null) {
dataValues[0] = tdata;
}
}
for (int v = 0; v < variableNames.length; v++) {
String varname = variableNames[v];
int varcol = odeSolverResultSet.findColumn(varname);
double[] vdata = odeSolverResultSet.extractColumn(varcol);
if (!odeSolverResultSet.isMultiTrialData()) {
dataValues[plotIndex + 1] = vdata;
// plotNames[plotIndex] = varname + " -- " + JOB_PLOT_NAME + " " + jobIndex;
plotDatas[plotIndex] = new PlotData(tdata, vdata);
// symbolTableEntries[plotIndex] = simulation.getMathDescription().getVariable(varname);
} else {
Point2D[] histogram = ODESolverPlotSpecificationPanel.generateHistogram(vdata);
double[] x = new double[histogram.length];
double[] y = new double[histogram.length];
for (int j = 0; j < histogram.length; j++) {
x[j] = histogram[j].getX();
y[j] = histogram[j].getY();
}
plotDatas[plotIndex] = new PlotData(x, y);
}
plotNames[plotIndex] = varname + " -- " + JOB_PLOT_NAME + " " + jobIndex;
symbolTableEntries[plotIndex] = simulation.getMathDescription().getVariable(varname);
plotIndex++;
}
}
hashTable.put("dataValues", dataValues);
hashTable.put("plotDatas", plotDatas);
hashTable.put("plotNames", plotNames);
hashTable.put("symbolTableEntries", symbolTableEntries);
}
};
AsynchClientTask task2 = new AsynchClientTask("show results", AsynchClientTask.TASKTYPE_SWING_BLOCKING) {
@Override
public void run(Hashtable<String, Object> hashTable) throws Exception {
double[][] dataValues = (double[][]) hashTable.get("dataValues");
PlotData[] plotDatas = (PlotData[]) hashTable.get("plotDatas");
String[] plotNames = (String[]) hashTable.get("plotNames");
SymbolTableEntry[] symbolTableEntries = (SymbolTableEntry[]) hashTable.get("symbolTableEntries");
if (plotDatas == null || plotDatas.length == 0 || (plotDatas.length == 1 && plotDatas[0] == null) || plotNames == null) {
plotPane.setPlot2D(null);
return;
}
Plot2D plot2D = null;
if (hashTable.get("bMultiTrial") instanceof Boolean && (Boolean) hashTable.get("bMultiTrial")) {
plot2D = new Plot2D(symbolTableEntries, null, plotNames, plotDatas, new String[] { "Probability Distribution of Species", "Number of Particles", "" });
} else if (simulation.getSolverTaskDescription().getOutputTimeSpec() instanceof DefaultOutputTimeSpec) {
plot2D = new Plot2D(symbolTableEntries, null, plotNames, plotDatas, new String[] { "Time Plot", ReservedVariable.TIME.getName(), "" });
} else {
plot2D = new SingleXPlot2D(symbolTableEntries, null, ReservedVariable.TIME.getName(), plotNames, dataValues);
}
plotPane.setPlot2D(plot2D);
}
};
ClientTaskDispatcher.dispatch(this, new Hashtable<String, Object>(), new AsynchClientTask[] { task1, task2 });
}
Also used :
AsynchClientTask(cbit.vcell.client.task.AsynchClientTask)
VCSimulationIdentifier(cbit.vcell.solver.VCSimulationIdentifier)
SymbolTableEntry(cbit.vcell.parser.SymbolTableEntry)
Point2D(java.awt.geom.Point2D)
ODESolverResultSet(cbit.vcell.solver.ode.ODESolverResultSet)
PlotData(cbit.plot.PlotData)
Hashtable(java.util.Hashtable)
VCSimulationDataIdentifier(cbit.vcell.solver.VCSimulationDataIdentifier)
SingleXPlot2D(cbit.plot.SingleXPlot2D)
ODEDataManager(cbit.vcell.simdata.ODEDataManager)
SingleXPlot2D(cbit.plot.SingleXPlot2D)
Plot2D(cbit.plot.Plot2D)
VCDataIdentifier(org.vcell.util.document.VCDataIdentifier)
DefaultOutputTimeSpec(cbit.vcell.solver.DefaultOutputTimeSpec)
Example 2 with SymbolTableEntry
use of cbit.vcell.parser.SymbolTableEntry in project vcell by virtualcell.
the class ParameterMappingPanel method jMenuItemPaste_ActionPerformed.
/**
* Comment
*/
private void jMenuItemPaste_ActionPerformed(java.awt.event.ActionEvent actionEvent) {
java.util.Vector<String> pasteDescriptionsV = new java.util.Vector<String>();
java.util.Vector<Expression> newExpressionsV = new java.util.Vector<Expression>();
java.util.Vector<ParameterMappingSpec> changedParametersV = new java.util.Vector<ParameterMappingSpec>();
try {
if (actionEvent.getSource() == getJMenuItemPaste() || actionEvent.getSource() == getJMenuItemPasteAll()) {
Object pasteThis = VCellTransferable.getFromClipboard(VCellTransferable.OBJECT_FLAVOR);
SimulationContext sc = getParameterEstimationTask().getModelOptimizationSpec().getSimulationContext();
MathSymbolMapping msm = null;
Exception mathMappingException = null;
try {
MathMapping mm = sc.createNewMathMapping();
msm = mm.getMathSymbolMapping();
} catch (Exception e) {
mathMappingException = e;
e.printStackTrace(System.out);
}
// if(msm == null){
// try{
// getParameterEstimationTask().refreshMappings();
// msm = getParameterEstimationTask().getMathSymbolMapping();
// }catch(Exception e){
// e.printStackTrace();
// }
// }
int[] rows = null;
if (actionEvent.getSource() == getJMenuItemPasteAll()) {
rows = new int[getScrollPaneTable().getRowCount()];
for (int i = 0; i < rows.length; i += 1) {
rows[i] = i;
}
} else {
rows = getScrollPaneTable().getSelectedRows();
}
//
// Check paste
//
StringBuffer errors = null;
for (int i = 0; i < rows.length; i += 1) {
ParameterMappingSpec pms = parameterMappingTableModel.getValueAt(rows[i]);
try {
if (pasteThis instanceof VCellTransferable.ResolvedValuesSelection) {
VCellTransferable.ResolvedValuesSelection rvs = (VCellTransferable.ResolvedValuesSelection) pasteThis;
for (int j = 0; j < rvs.getPrimarySymbolTableEntries().length; j += 1) {
ParameterMappingSpec pasteDestination = null;
Parameter clipboardBiologicalParameter = null;
if (rvs.getPrimarySymbolTableEntries()[j] instanceof Parameter) {
clipboardBiologicalParameter = (Parameter) rvs.getPrimarySymbolTableEntries()[j];
} else if (rvs.getAlternateSymbolTableEntries() != null && rvs.getAlternateSymbolTableEntries()[j] instanceof Parameter) {
clipboardBiologicalParameter = (Parameter) rvs.getAlternateSymbolTableEntries()[j];
}
if (clipboardBiologicalParameter == null) {
Variable pastedMathVariable = null;
if (rvs.getPrimarySymbolTableEntries()[j] instanceof Variable) {
pastedMathVariable = (Variable) rvs.getPrimarySymbolTableEntries()[j];
} else if (rvs.getAlternateSymbolTableEntries() != null && rvs.getAlternateSymbolTableEntries()[j] instanceof Variable) {
pastedMathVariable = (Variable) rvs.getAlternateSymbolTableEntries()[j];
}
if (pastedMathVariable != null) {
if (msm == null) {
throw mathMappingException;
}
Variable localMathVariable = msm.findVariableByName(pastedMathVariable.getName());
if (localMathVariable != null) {
SymbolTableEntry[] localBiologicalSymbolArr = msm.getBiologicalSymbol(localMathVariable);
for (int k = 0; k < localBiologicalSymbolArr.length; k += 1) {
if (localBiologicalSymbolArr[k] == pms.getModelParameter()) {
pasteDestination = pms;
break;
}
}
}
}
} else {
if (pms.getModelParameter().getName().equals(clipboardBiologicalParameter.getName()) && pms.getModelParameter().getClass().equals(clipboardBiologicalParameter.getClass()) && pms.getModelParameter().getNameScope().getName().equals(clipboardBiologicalParameter.getNameScope().getName())) {
pasteDestination = pms;
}
}
if (pasteDestination != null) {
changedParametersV.add(pasteDestination);
newExpressionsV.add(rvs.getExpressionValues()[j]);
pasteDescriptionsV.add(VCellCopyPasteHelper.formatPasteList(pms.getModelParameter().getNameScope().getName(), pms.getModelParameter().getName(), pasteDestination.getCurrent() + "", rvs.getExpressionValues()[j].infix()));
}
}
}
} catch (Throwable e) {
if (errors == null) {
errors = new StringBuffer();
}
errors.append(pms.getModelParameter().getName() + " (" + e.getClass().getName() + ") " + e.getMessage() + "\n");
}
}
if (errors != null) {
throw new Exception(errors.toString());
}
}
} catch (Throwable e) {
PopupGenerator.showErrorDialog(this, "Paste failed during pre-check (no changes made).\n" + e.getMessage(), e);
return;
}
// Do paste
try {
if (pasteDescriptionsV.size() > 0) {
String[] pasteDescriptionArr = new String[pasteDescriptionsV.size()];
pasteDescriptionsV.copyInto(pasteDescriptionArr);
ParameterMappingSpec[] changedParametersArr = new ParameterMappingSpec[changedParametersV.size()];
changedParametersV.copyInto(changedParametersArr);
Expression[] newExpressionsArr = new Expression[newExpressionsV.size()];
newExpressionsV.copyInto(newExpressionsArr);
VCellCopyPasteHelper.chooseApplyPaste(this, pasteDescriptionArr, changedParametersArr, newExpressionsArr);
} else {
PopupGenerator.showInfoDialog(this, "No paste items match the destination (no changes made).");
}
} catch (Throwable e) {
PopupGenerator.showErrorDialog(this, "Paste Error\n" + e.getMessage(), e);
}
}
Also used :
Variable(cbit.vcell.math.Variable)
VCellTransferable(cbit.vcell.desktop.VCellTransferable)
SymbolTableEntry(cbit.vcell.parser.SymbolTableEntry)
ParameterMappingSpec(cbit.vcell.modelopt.ParameterMappingSpec)
SimulationContext(cbit.vcell.mapping.SimulationContext)
MathSymbolMapping(cbit.vcell.mapping.MathSymbolMapping)
Expression(cbit.vcell.parser.Expression)
MathMapping(cbit.vcell.mapping.MathMapping)
ModelParameter(cbit.vcell.model.Model.ModelParameter)
Parameter(cbit.vcell.model.Parameter)
UnresolvedParameter(cbit.vcell.model.Kinetics.UnresolvedParameter)
Example 3 with SymbolTableEntry
use of cbit.vcell.parser.SymbolTableEntry in project vcell by virtualcell.
the class SEDMLExporter method translateBioModelToSedML.
private void translateBioModelToSedML(String savePath) {
sbmlFilePathStrAbsoluteList.clear();
// models
try {
SimulationContext[] simContexts = vcBioModel.getSimulationContexts();
cbit.vcell.model.Model vcModel = vcBioModel.getModel();
// "urn:sedml:language:sbml";
String sbmlLanguageURN = SUPPORTED_LANGUAGE.SBML_GENERIC.getURN();
String bioModelName = TokenMangler.mangleToSName(vcBioModel.getName());
// String usrHomeDirPath = ResourceUtil.getUserHomeDir().getAbsolutePath();
// to get Xpath string for variables.
SBMLSupport sbmlSupport = new SBMLSupport();
// for model count, task subcount
int simContextCnt = 0;
// for dtaGenerator count.
int varCount = 0;
boolean bSpeciesAddedAsDataGens = false;
String sedmlNotesStr = "";
for (SimulationContext simContext : simContexts) {
String simContextName = simContext.getName();
// export all applications that are not spatial stochastic
if (!(simContext.getGeometry().getDimension() > 0 && simContext.isStoch())) {
// to compute and set the sizes of the remaining structures.
if (!simContext.getGeometryContext().isAllSizeSpecifiedPositive()) {
Structure structure = simContext.getModel().getStructure(0);
double structureSize = 1.0;
StructureMapping structMapping = simContext.getGeometryContext().getStructureMapping(structure);
StructureSizeSolver.updateAbsoluteStructureSizes(simContext, structure, structureSize, structMapping.getSizeParameter().getUnitDefinition());
}
// Export the application itself to SBML, with default overrides
String sbmlString = null;
int level = 2;
int version = 4;
boolean isSpatial = simContext.getGeometry().getDimension() > 0 ? true : false;
SimulationJob simJob = null;
// if (simContext.getGeometry().getDimension() > 0) {
// sbmlString = XmlHelper.exportSBML(vcBioModel, 2, 4, 0, true, simContext, null);
// } else {
// sbmlString = XmlHelper.exportSBML(vcBioModel, 2, 4, 0, false, simContext, null);
// }
//
// TODO: we need to salvage from the SBMLExporter info about the fate of local parameters
// some of them may stay as locals, some others may become globals
// Any of these, if used in a repeated task or change or whatever, needs to be used in a consistent way,
// that is, if a param becomes a global in SBML, we need to refer at it in SEDML as the same global
//
// We'll use:
// Map<Pair <String reaction, String param>, String global> - if local converted to global
// Set<Pair <String reaction, String param>> (if needed?) - if local stays local
//
// local to global translation map
Map<Pair<String, String>, String> l2gMap = null;
if (vcBioModel instanceof BioModel) {
try {
// check if model to be exported to SBML has units compatible with SBML default units (default units in SBML can be assumed only until SBML Level2)
ModelUnitSystem forcedModelUnitSystem = simContext.getModel().getUnitSystem();
if (level < 3 && !ModelUnitSystem.isCompatibleWithDefaultSBMLLevel2Units(forcedModelUnitSystem)) {
forcedModelUnitSystem = ModelUnitSystem.createDefaultSBMLLevel2Units();
}
// create new Biomodel with new (SBML compatible) unit system
BioModel modifiedBiomodel = ModelUnitConverter.createBioModelWithNewUnitSystem(simContext.getBioModel(), forcedModelUnitSystem);
// extract the simContext from new Biomodel. Apply overrides to *this* modified simContext
SimulationContext simContextFromModifiedBioModel = modifiedBiomodel.getSimulationContext(simContext.getName());
SBMLExporter sbmlExporter = new SBMLExporter(modifiedBiomodel, level, version, isSpatial);
sbmlExporter.setSelectedSimContext(simContextFromModifiedBioModel);
// no sim job
sbmlExporter.setSelectedSimulationJob(null);
sbmlString = sbmlExporter.getSBMLFile();
l2gMap = sbmlExporter.getLocalToGlobalTranslationMap();
} catch (ExpressionException | SbmlException e) {
e.printStackTrace(System.out);
throw new XmlParseException(e);
}
} else {
throw new RuntimeException("unsupported Document Type " + vcBioModel.getClass().getName() + " for SBML export");
}
String sbmlFilePathStrAbsolute = savePath + FileUtils.WINDOWS_SEPARATOR + bioModelName + "_" + simContextName + ".xml";
String sbmlFilePathStrRelative = bioModelName + "_" + simContextName + ".xml";
XmlUtil.writeXMLStringToFile(sbmlString, sbmlFilePathStrAbsolute, true);
sbmlFilePathStrAbsoluteList.add(sbmlFilePathStrRelative);
String simContextId = TokenMangler.mangleToSName(simContextName);
sedmlModel.addModel(new Model(simContextId, simContextName, sbmlLanguageURN, sbmlFilePathStrRelative));
// required for mathOverrides, if any
MathMapping mathMapping = simContext.createNewMathMapping();
MathSymbolMapping mathSymbolMapping = mathMapping.getMathSymbolMapping();
// create sedml simulation objects and tasks (mapping each sim with current simContext)
int simCount = 0;
String taskRef = null;
int overrideCount = 0;
for (Simulation vcSimulation : simContext.getSimulations()) {
List<DataGenerator> dataGeneratorsOfSim = new ArrayList<DataGenerator>();
// if simContext is non-spatial stochastic, check if sim is histogram
SolverTaskDescription simTaskDesc = vcSimulation.getSolverTaskDescription();
if (simContext.getGeometry().getDimension() == 0 && simContext.isStoch()) {
long numOfTrials = simTaskDesc.getStochOpt().getNumOfTrials();
if (numOfTrials > 1) {
String msg = "\n\t" + simContextName + " ( " + vcSimulation.getName() + " ) : export of non-spatial stochastic simulation with histogram option to SEDML not supported at this time.";
sedmlNotesStr += msg;
continue;
}
}
// create Algorithm and sedmlSimulation (UniformtimeCourse)
SolverDescription vcSolverDesc = simTaskDesc.getSolverDescription();
// String kiSAOIdStr = getKiSAOIdFromSimulation(vcSolverDesc); // old way of doing it, going directly to the web site
String kiSAOIdStr = vcSolverDesc.getKisao();
Algorithm sedmlAlgorithm = new Algorithm(kiSAOIdStr);
TimeBounds vcSimTimeBounds = simTaskDesc.getTimeBounds();
double startingTime = vcSimTimeBounds.getStartingTime();
String simName = vcSimulation.getName();
UniformTimeCourse utcSim = new UniformTimeCourse(TokenMangler.mangleToSName(simName), simName, startingTime, startingTime, vcSimTimeBounds.getEndingTime(), (int) simTaskDesc.getExpectedNumTimePoints(), sedmlAlgorithm);
// if solver is not CVODE, add a note to utcSim to indicate actual solver name
if (!vcSolverDesc.equals(SolverDescription.CVODE)) {
String simNotesStr = "Actual Solver Name : '" + vcSolverDesc.getDisplayLabel() + "'.";
utcSim.addNote(createNotesElement(simNotesStr));
}
sedmlModel.addSimulation(utcSim);
// add SEDML tasks (map simulation to model:simContext)
// repeated tasks
MathOverrides mathOverrides = vcSimulation.getMathOverrides();
if (mathOverrides != null && mathOverrides.hasOverrides()) {
String[] overridenConstantNames = mathOverrides.getOverridenConstantNames();
String[] scannedConstantsNames = mathOverrides.getScannedConstantNames();
HashMap<String, String> scannedParamHash = new HashMap<String, String>();
HashMap<String, String> unscannedParamHash = new HashMap<String, String>();
for (String name : scannedConstantsNames) {
scannedParamHash.put(name, name);
}
for (String name : overridenConstantNames) {
if (!scannedParamHash.containsKey(name)) {
unscannedParamHash.put(name, name);
}
}
if (!unscannedParamHash.isEmpty() && scannedParamHash.isEmpty()) {
// only parameters with simple overrides (numeric/expression) no scans
// create new model with change for each parameter that has override; add simple task
String overriddenSimContextId = simContextId + "_" + overrideCount;
String overriddenSimContextName = simContextName + " modified";
Model sedModel = new Model(overriddenSimContextId, overriddenSimContextName, sbmlLanguageURN, simContextId);
overrideCount++;
for (String unscannedParamName : unscannedParamHash.values()) {
SymbolTableEntry ste = getSymbolTableEntryForModelEntity(mathSymbolMapping, unscannedParamName);
Expression unscannedParamExpr = mathOverrides.getActualExpression(unscannedParamName, 0);
if (unscannedParamExpr.isNumeric()) {
// if expression is numeric, add ChangeAttribute to model created above
XPathTarget targetXpath = getTargetAttributeXPath(ste, l2gMap);
ChangeAttribute changeAttribute = new ChangeAttribute(targetXpath, unscannedParamExpr.infix());
sedModel.addChange(changeAttribute);
} else {
// non-numeric expression : add 'computeChange' to modified model
ASTNode math = Libsedml.parseFormulaString(unscannedParamExpr.infix());
XPathTarget targetXpath = getTargetXPath(ste, l2gMap);
ComputeChange computeChange = new ComputeChange(targetXpath, math);
String[] exprSymbols = unscannedParamExpr.getSymbols();
for (String symbol : exprSymbols) {
String symbolName = TokenMangler.mangleToSName(symbol);
SymbolTableEntry ste1 = vcModel.getEntry(symbol);
if (ste != null) {
if (ste1 instanceof SpeciesContext || ste1 instanceof Structure || ste1 instanceof ModelParameter) {
XPathTarget ste1_XPath = getTargetXPath(ste1, l2gMap);
org.jlibsedml.Variable sedmlVar = new org.jlibsedml.Variable(symbolName, symbolName, taskRef, ste1_XPath.getTargetAsString());
computeChange.addVariable(sedmlVar);
} else {
double doubleValue = 0.0;
if (ste1 instanceof ReservedSymbol) {
doubleValue = getReservedSymbolValue(ste1);
}
Parameter sedmlParameter = new Parameter(symbolName, symbolName, doubleValue);
computeChange.addParameter(sedmlParameter);
}
} else {
throw new RuntimeException("Symbol '" + symbol + "' used in expression for '" + unscannedParamName + "' not found in model.");
}
}
sedModel.addChange(computeChange);
}
}
sedmlModel.addModel(sedModel);
String taskId = "tsk_" + simContextCnt + "_" + simCount;
Task sedmlTask = new Task(taskId, taskId, sedModel.getId(), utcSim.getId());
sedmlModel.addTask(sedmlTask);
// to be used later to add dataGenerators : one set of DGs per model (simContext).
taskRef = taskId;
} else if (!scannedParamHash.isEmpty() && unscannedParamHash.isEmpty()) {
// only parameters with scans : only add 1 Task and 1 RepeatedTask
String taskId = "tsk_" + simContextCnt + "_" + simCount;
Task sedmlTask = new Task(taskId, taskId, simContextId, utcSim.getId());
sedmlModel.addTask(sedmlTask);
String repeatedTaskId = "repTsk_" + simContextCnt + "_" + simCount;
// TODO: temporary solution - we use as range here the first range
String scn = scannedConstantsNames[0];
String rId = "range_" + simContextCnt + "_" + simCount + "_" + scn;
RepeatedTask rt = new RepeatedTask(repeatedTaskId, repeatedTaskId, true, rId);
// to be used later to add dataGenerators - in our case it has to be the repeated task
taskRef = repeatedTaskId;
SubTask subTask = new SubTask("0", taskId);
rt.addSubtask(subTask);
for (String scannedConstName : scannedConstantsNames) {
ConstantArraySpec constantArraySpec = mathOverrides.getConstantArraySpec(scannedConstName);
String rangeId = "range_" + simContextCnt + "_" + simCount + "_" + scannedConstName;
// list of Ranges, if sim is parameter scan.
if (constantArraySpec != null) {
Range r = null;
System.out.println(" " + constantArraySpec.toString());
if (constantArraySpec.getType() == ConstantArraySpec.TYPE_INTERVAL) {
// ------ Uniform Range
r = new UniformRange(rangeId, constantArraySpec.getMinValue(), constantArraySpec.getMaxValue(), constantArraySpec.getNumValues());
rt.addRange(r);
} else {
// ----- Vector Range
cbit.vcell.math.Constant[] cs = constantArraySpec.getConstants();
ArrayList<Double> values = new ArrayList<Double>();
for (int i = 0; i < cs.length; i++) {
String value = cs[i].getExpression().infix();
values.add(Double.parseDouble(value));
}
r = new VectorRange(rangeId, values);
rt.addRange(r);
}
// list of Changes
SymbolTableEntry ste = getSymbolTableEntryForModelEntity(mathSymbolMapping, scannedConstName);
XPathTarget target = getTargetXPath(ste, l2gMap);
// ASTNode math1 = new ASTCi(r.getId()); // was scannedConstName
ASTNode math1 = Libsedml.parseFormulaString(r.getId());
SetValue setValue = new SetValue(target, r.getId(), simContextId);
setValue.setMath(math1);
rt.addChange(setValue);
} else {
throw new RuntimeException("No scan ranges found for scanned parameter : '" + scannedConstName + "'.");
}
}
sedmlModel.addTask(rt);
} else {
// both scanned and simple parameters : create new model with change for each simple override; add RepeatedTask
// create new model with change for each unscanned parameter that has override
String overriddenSimContextId = simContextId + "_" + overrideCount;
String overriddenSimContextName = simContextName + " modified";
Model sedModel = new Model(overriddenSimContextId, overriddenSimContextName, sbmlLanguageURN, simContextId);
overrideCount++;
String taskId = "tsk_" + simContextCnt + "_" + simCount;
Task sedmlTask = new Task(taskId, taskId, overriddenSimContextId, utcSim.getId());
sedmlModel.addTask(sedmlTask);
// scanned parameters
String repeatedTaskId = "repTsk_" + simContextCnt + "_" + simCount;
// TODO: temporary solution - we use as range here the first range
String scn = scannedConstantsNames[0];
String rId = "range_" + simContextCnt + "_" + simCount + "_" + scn;
RepeatedTask rt = new RepeatedTask(repeatedTaskId, repeatedTaskId, true, rId);
// to be used later to add dataGenerators - in our case it has to be the repeated task
taskRef = repeatedTaskId;
SubTask subTask = new SubTask("0", taskId);
rt.addSubtask(subTask);
for (String scannedConstName : scannedConstantsNames) {
ConstantArraySpec constantArraySpec = mathOverrides.getConstantArraySpec(scannedConstName);
String rangeId = "range_" + simContextCnt + "_" + simCount + "_" + scannedConstName;
// list of Ranges, if sim is parameter scan.
if (constantArraySpec != null) {
Range r = null;
System.out.println(" " + constantArraySpec.toString());
if (constantArraySpec.getType() == ConstantArraySpec.TYPE_INTERVAL) {
// ------ Uniform Range
r = new UniformRange(rangeId, constantArraySpec.getMinValue(), constantArraySpec.getMaxValue(), constantArraySpec.getNumValues());
rt.addRange(r);
} else {
// ----- Vector Range
cbit.vcell.math.Constant[] cs = constantArraySpec.getConstants();
ArrayList<Double> values = new ArrayList<Double>();
for (int i = 0; i < cs.length; i++) {
String value = cs[i].getExpression().infix() + ", ";
values.add(Double.parseDouble(value));
}
r = new VectorRange(rangeId, values);
rt.addRange(r);
}
// use scannedParamHash to store rangeId for that param, since it might be needed if unscanned param has a scanned param in expr.
if (scannedParamHash.get(scannedConstName).equals(scannedConstName)) {
// the hash was originally populated as <scannedParamName, scannedParamName>. Replace 'value' with rangeId for scannedParam
scannedParamHash.put(scannedConstName, r.getId());
}
// create setValue for scannedConstName
SymbolTableEntry ste2 = getSymbolTableEntryForModelEntity(mathSymbolMapping, scannedConstName);
XPathTarget target1 = getTargetXPath(ste2, l2gMap);
ASTNode math1 = new ASTCi(scannedConstName);
SetValue setValue1 = new SetValue(target1, r.getId(), sedModel.getId());
setValue1.setMath(math1);
rt.addChange(setValue1);
} else {
throw new RuntimeException("No scan ranges found for scanned parameter : '" + scannedConstName + "'.");
}
}
// for unscanned parameter overrides
for (String unscannedParamName : unscannedParamHash.values()) {
SymbolTableEntry ste = getSymbolTableEntryForModelEntity(mathSymbolMapping, unscannedParamName);
Expression unscannedParamExpr = mathOverrides.getActualExpression(unscannedParamName, 0);
if (unscannedParamExpr.isNumeric()) {
// if expression is numeric, add ChangeAttribute to model created above
XPathTarget targetXpath = getTargetAttributeXPath(ste, l2gMap);
ChangeAttribute changeAttribute = new ChangeAttribute(targetXpath, unscannedParamExpr.infix());
sedModel.addChange(changeAttribute);
} else {
// check for any scanned parameter in unscanned parameter expression
ASTNode math = Libsedml.parseFormulaString(unscannedParamExpr.infix());
String[] exprSymbols = unscannedParamExpr.getSymbols();
boolean bHasScannedParameter = false;
String scannedParamNameInUnscannedParamExp = null;
for (String symbol : exprSymbols) {
if (scannedParamHash.get(symbol) != null) {
bHasScannedParameter = true;
scannedParamNameInUnscannedParamExp = new String(symbol);
// @TODO check for multiple scannedParameters in expression.
break;
}
}
// (scanned parameter in expr) ? (add setValue for unscanned param in repeatedTask) : (add computeChange to modifiedModel)
if (bHasScannedParameter && scannedParamNameInUnscannedParamExp != null) {
// create setValue for unscannedParamName (which contains a scanned param in its expression)
SymbolTableEntry entry = getSymbolTableEntryForModelEntity(mathSymbolMapping, unscannedParamName);
XPathTarget target = getTargetXPath(entry, l2gMap);
String rangeId = scannedParamHash.get(scannedParamNameInUnscannedParamExp);
// @TODO: we have no range??
SetValue setValue = new SetValue(target, rangeId, sedModel.getId());
setValue.setMath(math);
rt.addChange(setValue);
} else {
// non-numeric expression : add 'computeChange' to modified model
XPathTarget targetXpath = getTargetXPath(ste, l2gMap);
ComputeChange computeChange = new ComputeChange(targetXpath, math);
for (String symbol : exprSymbols) {
String symbolName = TokenMangler.mangleToSName(symbol);
SymbolTableEntry ste1 = vcModel.getEntry(symbol);
// ste1 could be a math parameter, hence the above could return null
if (ste1 == null) {
ste1 = simContext.getMathDescription().getEntry(symbol);
}
if (ste1 != null) {
if (ste1 instanceof SpeciesContext || ste1 instanceof Structure || ste1 instanceof ModelParameter) {
XPathTarget ste1_XPath = getTargetXPath(ste1, l2gMap);
org.jlibsedml.Variable sedmlVar = new org.jlibsedml.Variable(symbolName, symbolName, taskRef, ste1_XPath.getTargetAsString());
computeChange.addVariable(sedmlVar);
} else {
double doubleValue = 0.0;
if (ste1 instanceof ReservedSymbol) {
doubleValue = getReservedSymbolValue(ste1);
} else if (ste instanceof Function) {
try {
doubleValue = ste.getExpression().evaluateConstant();
} catch (Exception e) {
e.printStackTrace(System.out);
throw new RuntimeException("Unable to evaluate function '" + ste.getName() + "' used in '" + unscannedParamName + "' expression : ", e);
}
} else {
doubleValue = ste.getConstantValue();
}
// TODO: shouldn't be s1_init_uM which is a math symbol, should be s0 (so use the ste-something from above)
// TODO: revert to Variable, not Parameter
Parameter sedmlParameter = new Parameter(symbolName, symbolName, doubleValue);
computeChange.addParameter(sedmlParameter);
}
} else {
throw new RuntimeException("Symbol '" + symbol + "' used in expression for '" + unscannedParamName + "' not found in model.");
}
}
sedModel.addChange(computeChange);
}
}
}
sedmlModel.addModel(sedModel);
sedmlModel.addTask(rt);
}
} else {
// no math overrides, add basic task.
String taskId = "tsk_" + simContextCnt + "_" + simCount;
Task sedmlTask = new Task(taskId, taskId, simContextId, utcSim.getId());
sedmlModel.addTask(sedmlTask);
// to be used later to add dataGenerators : one set of DGs per model (simContext).
taskRef = taskId;
}
// add one dataGenerator for 'time' for entire SEDML model.
// (using the id of the first task in model for 'taskRef' field of var since
String timeDataGenPrefix = DATAGENERATOR_TIME_NAME + "_" + taskRef;
DataGenerator timeDataGen = sedmlModel.getDataGeneratorWithId(timeDataGenPrefix);
if (timeDataGen == null) {
// org.jlibsedml.Variable timeVar = new org.jlibsedml.Variable(DATAGENERATOR_TIME_SYMBOL, DATAGENERATOR_TIME_SYMBOL, sedmlModel.getTasks().get(0).getId(), VariableSymbol.TIME);
org.jlibsedml.Variable timeVar = new org.jlibsedml.Variable(DATAGENERATOR_TIME_SYMBOL, DATAGENERATOR_TIME_SYMBOL, taskRef, VariableSymbol.TIME);
ASTNode math = Libsedml.parseFormulaString(DATAGENERATOR_TIME_SYMBOL);
timeDataGen = new DataGenerator(timeDataGenPrefix, timeDataGenPrefix, math);
timeDataGen.addVariable(timeVar);
sedmlModel.addDataGenerator(timeDataGen);
dataGeneratorsOfSim.add(timeDataGen);
}
// add dataGenerators for species
// get species list from SBML model.
String dataGenIdPrefix = "dataGen_" + taskRef;
String[] varNamesList = SimSpec.fromSBML(sbmlString).getVarsList();
for (String varName : varNamesList) {
org.jlibsedml.Variable sedmlVar = new org.jlibsedml.Variable(varName, varName, taskRef, sbmlSupport.getXPathForSpecies(varName));
ASTNode varMath = Libsedml.parseFormulaString(varName);
// "dataGen_" + varCount; - old code
String dataGenId = dataGenIdPrefix + "_" + TokenMangler.mangleToSName(varName);
DataGenerator dataGen = new DataGenerator(dataGenId, dataGenId, varMath);
dataGen.addVariable(sedmlVar);
sedmlModel.addDataGenerator(dataGen);
dataGeneratorsOfSim.add(dataGen);
varCount++;
}
// add DataGenerators for output functions here
ArrayList<AnnotatedFunction> outputFunctions = simContext.getOutputFunctionContext().getOutputFunctionsList();
for (AnnotatedFunction annotatedFunction : outputFunctions) {
Expression functionExpr = annotatedFunction.getExpression();
ASTNode funcMath = Libsedml.parseFormulaString(functionExpr.infix());
// "dataGen_" + varCount; - old code
String dataGenId = dataGenIdPrefix + "_" + TokenMangler.mangleToSName(annotatedFunction.getName());
DataGenerator dataGen = new DataGenerator(dataGenId, dataGenId, funcMath);
String[] functionSymbols = functionExpr.getSymbols();
for (String symbol : functionSymbols) {
String symbolName = TokenMangler.mangleToSName(symbol);
// try to get symbol from model, if null, try simContext.mathDesc
SymbolTableEntry ste = vcModel.getEntry(symbol);
if (ste == null) {
ste = simContext.getMathDescription().getEntry(symbol);
}
if (ste instanceof SpeciesContext || ste instanceof Structure || ste instanceof ModelParameter) {
XPathTarget targetXPath = getTargetXPath(ste, l2gMap);
org.jlibsedml.Variable sedmlVar = new org.jlibsedml.Variable(symbolName, symbolName, taskRef, targetXPath.getTargetAsString());
dataGen.addVariable(sedmlVar);
} else {
double value = 0.0;
if (ste instanceof Function) {
try {
value = ste.getExpression().evaluateConstant();
} catch (Exception e) {
e.printStackTrace(System.out);
throw new RuntimeException("Unable to evaluate function '" + ste.getName() + "' for output function '" + annotatedFunction.getName() + "'.", e);
}
} else {
value = ste.getConstantValue();
}
Parameter sedmlParameter = new Parameter(symbolName, symbolName, value);
dataGen.addParameter(sedmlParameter);
}
}
sedmlModel.addDataGenerator(dataGen);
dataGeneratorsOfSim.add(dataGen);
varCount++;
}
simCount++;
// ignoring output for spatial deterministic (spatial stochastic is not exported to SEDML) and non-spatial stochastic applications with histogram
if (!(simContext.getGeometry().getDimension() > 0)) {
// ignore Output (Plot2d) for non-spatial stochastic simulation with histogram.
boolean bSimHasHistogram = false;
if (simContext.isStoch()) {
long numOfTrials = simTaskDesc.getStochOpt().getNumOfTrials();
if (numOfTrials > 1) {
// not histogram {
bSimHasHistogram = true;
}
}
if (!bSimHasHistogram) {
String plot2dId = "plot2d_" + TokenMangler.mangleToSName(vcSimulation.getName());
Plot2D sedmlPlot2d = new Plot2D(plot2dId, simContext.getName() + "plots");
sedmlPlot2d.addNote(createNotesElement("Plot of all variables and output functions from application '" + simContext.getName() + "' ; simulation '" + vcSimulation.getName() + "' in VCell model"));
List<DataGenerator> dataGenerators = sedmlModel.getDataGenerators();
String xDataRef = sedmlModel.getDataGeneratorWithId(DATAGENERATOR_TIME_NAME + "_" + taskRef).getId();
// add a curve for each dataGenerator in SEDML model
int curveCnt = 0;
for (DataGenerator dataGenerator : dataGeneratorsOfSim) {
// no curve for time, since time is xDateReference
if (dataGenerator.getId().equals(xDataRef)) {
continue;
}
String curveId = "curve_" + curveCnt++;
Curve curve = new Curve(curveId, curveId, false, false, xDataRef, dataGenerator.getId());
sedmlPlot2d.addCurve(curve);
}
sedmlModel.addOutput(sedmlPlot2d);
}
}
}
// end - for 'sims'
} else {
// end if (!(simContext.getGeometry().getDimension() > 0 && simContext.isStoch()))
String msg = "\n\t" + simContextName + " : export of spatial stochastic (Smoldyn solver) applications to SEDML not supported at this time.";
sedmlNotesStr += msg;
}
// end : if-else simContext is not spatial stochastic
simContextCnt++;
}
// if sedmlNotesStr is not null, there were some applications that could not be exported to SEDML (eg., spatial stochastic). Create a notes element and add it to sedml Model.
if (sedmlNotesStr.length() > 0) {
sedmlNotesStr = "\n\tThe following applications in the VCell model were not exported to VCell : " + sedmlNotesStr;
sedmlModel.addNote(createNotesElement(sedmlNotesStr));
}
// error check : if there are no non-spatial deterministic applications (=> no models in SEDML document), complain.
if (sedmlModel.getModels().isEmpty()) {
throw new RuntimeException("No applications in biomodel to export to Sedml.");
}
} catch (Exception e) {
e.printStackTrace(System.out);
throw new RuntimeException("Error adding model to SEDML document : " + e.getMessage());
}
}
Also used :
Task(org.jlibsedml.Task)
SubTask(org.jlibsedml.SubTask)
RepeatedTask(org.jlibsedml.RepeatedTask)
HashMap(java.util.HashMap)
ArrayList(java.util.ArrayList)
SpeciesContext(cbit.vcell.model.SpeciesContext)
ConstantArraySpec(cbit.vcell.solver.ConstantArraySpec)
ExpressionException(cbit.vcell.parser.ExpressionException)
ChangeAttribute(org.jlibsedml.ChangeAttribute)
ComputeChange(org.jlibsedml.ComputeChange)
SolverTaskDescription(cbit.vcell.solver.SolverTaskDescription)
SubTask(org.jlibsedml.SubTask)
AnnotatedFunction(cbit.vcell.solver.AnnotatedFunction)
Curve(org.jlibsedml.Curve)
SBMLExporter(org.vcell.sbml.vcell.SBMLExporter)
XmlParseException(cbit.vcell.xml.XmlParseException)
VectorRange(org.jlibsedml.VectorRange)
UniformRange(org.jlibsedml.UniformRange)
Range(org.jlibsedml.Range)
Algorithm(org.jlibsedml.Algorithm)
MathOverrides(cbit.vcell.solver.MathOverrides)
ModelParameter(cbit.vcell.model.Model.ModelParameter)
DataGenerator(org.jlibsedml.DataGenerator)
MathMapping(cbit.vcell.mapping.MathMapping)
UniformTimeCourse(org.jlibsedml.UniformTimeCourse)
Plot2D(org.jlibsedml.Plot2D)
SbmlException(org.vcell.sbml.SbmlException)
VectorRange(org.jlibsedml.VectorRange)
SolverDescription(cbit.vcell.solver.SolverDescription)
ReservedSymbol(cbit.vcell.model.Model.ReservedSymbol)
StructureMapping(cbit.vcell.mapping.StructureMapping)
TimeBounds(cbit.vcell.solver.TimeBounds)
AnnotatedFunction(cbit.vcell.solver.AnnotatedFunction)
Function(cbit.vcell.math.Function)
SymbolTableEntry(cbit.vcell.parser.SymbolTableEntry)
ASTCi(org.jmathml.ASTCi)
RepeatedTask(org.jlibsedml.RepeatedTask)
ASTNode(org.jmathml.ASTNode)
Structure(cbit.vcell.model.Structure)
SimulationJob(cbit.vcell.solver.SimulationJob)
Pair(org.vcell.util.Pair)
ModelUnitSystem(cbit.vcell.model.ModelUnitSystem)
SimulationContext(cbit.vcell.mapping.SimulationContext)
MathSymbolMapping(cbit.vcell.mapping.MathSymbolMapping)
SbmlException(org.vcell.sbml.SbmlException)
TransformerException(javax.xml.transform.TransformerException)
XmlParseException(cbit.vcell.xml.XmlParseException)
IOException(java.io.IOException)
ExpressionException(cbit.vcell.parser.ExpressionException)
ParserConfigurationException(javax.xml.parsers.ParserConfigurationException)
SBMLSupport(org.jlibsedml.modelsupport.SBMLSupport)
Simulation(cbit.vcell.solver.Simulation)
Expression(cbit.vcell.parser.Expression)
BioModel(cbit.vcell.biomodel.BioModel)
UniformRange(org.jlibsedml.UniformRange)
BioModel(cbit.vcell.biomodel.BioModel)
Model(org.jlibsedml.Model)
StructureMappingParameter(cbit.vcell.mapping.StructureMapping.StructureMappingParameter)
KineticsParameter(cbit.vcell.model.Kinetics.KineticsParameter)
ModelParameter(cbit.vcell.model.Model.ModelParameter)
SpeciesContextSpecParameter(cbit.vcell.mapping.SpeciesContextSpec.SpeciesContextSpecParameter)
ProxyParameter(cbit.vcell.model.ProxyParameter)
Parameter(org.jlibsedml.Parameter)
XPathTarget(org.jlibsedml.XPathTarget)
SetValue(org.jlibsedml.SetValue)
Example 4 with SymbolTableEntry
use of cbit.vcell.parser.SymbolTableEntry in project vcell by virtualcell.
the class SBMLExporter method addEvents.
/**
* Export events
*/
protected void addEvents() {
BioEvent[] vcBioevents = getSelectedSimContext().getBioEvents();
if (vcBioevents != null) {
for (BioEvent vcEvent : vcBioevents) {
Event sbmlEvent = sbmlModel.createEvent();
sbmlEvent.setId(vcEvent.getName());
// create trigger
Trigger trigger = sbmlEvent.createTrigger();
try {
Expression triggerExpr = vcEvent.generateTriggerExpression();
ASTNode math = getFormulaFromExpression(triggerExpr, MathType.BOOLEAN);
trigger.setMath(math);
} catch (ExpressionException e) {
e.printStackTrace(System.out);
throw new RuntimeException("failed to generate trigger expression for event " + vcEvent.getName() + ": " + e.getMessage());
}
// create delay
LocalParameter delayParam = vcEvent.getParameter(BioEventParameterType.TriggerDelay);
if (delayParam != null && delayParam.getExpression() != null && !delayParam.getExpression().isZero()) {
Delay delay = sbmlEvent.createDelay();
Expression delayExpr = delayParam.getExpression();
ASTNode math = getFormulaFromExpression(delayExpr);
delay.setMath(math);
sbmlEvent.setUseValuesFromTriggerTime(vcEvent.getUseValuesFromTriggerTime());
}
// create eventAssignments
ArrayList<EventAssignment> vcEventAssgns = vcEvent.getEventAssignments();
for (int j = 0; j < vcEventAssgns.size(); j++) {
org.sbml.jsbml.EventAssignment sbmlEA = sbmlEvent.createEventAssignment();
SymbolTableEntry target = vcEventAssgns.get(j).getTarget();
sbmlEA.setVariable(target.getName());
Expression eventAssgnExpr = new Expression(vcEventAssgns.get(j).getAssignmentExpression());
ASTNode eaMath = getFormulaFromExpression(eventAssgnExpr);
sbmlEA.setMath(eaMath);
}
}
}
}
Also used :
EventAssignment(cbit.vcell.mapping.BioEvent.EventAssignment)
ExpressionException(cbit.vcell.parser.ExpressionException)
Delay(org.sbml.jsbml.Delay)
InteriorPoint(org.sbml.jsbml.ext.spatial.InteriorPoint)
LocalParameter(cbit.vcell.mapping.ParameterContext.LocalParameter)
SymbolTableEntry(cbit.vcell.parser.SymbolTableEntry)
Trigger(org.sbml.jsbml.Trigger)
Expression(cbit.vcell.parser.Expression)
ASTNode(org.sbml.jsbml.ASTNode)
Event(org.sbml.jsbml.Event)
BioEvent(cbit.vcell.mapping.BioEvent)
BioEvent(cbit.vcell.mapping.BioEvent)
Example 5 with SymbolTableEntry
use of cbit.vcell.parser.SymbolTableEntry in project vcell by virtualcell.
the class XmlReader method getBioEvents.
public BioEvent[] getBioEvents(SimulationContext simContext, Element bioEventsElement) throws XmlParseException {
Iterator<Element> bioEventsIterator = bioEventsElement.getChildren(XMLTags.BioEventTag, vcNamespace).iterator();
Vector<BioEvent> bioEventsVector = new Vector<BioEvent>();
while (bioEventsIterator.hasNext()) {
Element bEventElement = (Element) bioEventsIterator.next();
BioEvent newBioEvent = null;
String name = unMangle(bEventElement.getAttributeValue(XMLTags.NameAttrTag));
Element triggerElement = bEventElement.getChild(XMLTags.TriggerTag, vcNamespace);
if (triggerElement != null && triggerElement.getText().length() > 0) {
//
// read legacy VCell 5.3 style trigger and delay elements
//
// <Trigger>(t>3.0)</Trigger>
// <Delay UseValuesFromTriggerTime="true">3.0</Delay> [optional]
//
Expression triggerExpression = unMangleExpression(triggerElement.getText());
// read <Delay>
Expression delayDurationExpression = null;
boolean useValuesFromTriggerTime = true;
Element delayElement = bEventElement.getChild(XMLTags.DelayTag, vcNamespace);
if (delayElement != null) {
useValuesFromTriggerTime = Boolean.valueOf(delayElement.getAttributeValue(XMLTags.UseValuesFromTriggerTimeAttrTag)).booleanValue();
delayDurationExpression = unMangleExpression((delayElement.getText()));
}
newBioEvent = new BioEvent(name, TriggerType.GeneralTrigger, useValuesFromTriggerTime, simContext);
try {
newBioEvent.setParameterValue(BioEventParameterType.GeneralTriggerFunction, triggerExpression);
if (delayDurationExpression != null) {
newBioEvent.setParameterValue(BioEventParameterType.TriggerDelay, delayDurationExpression);
}
} catch (ExpressionBindingException | PropertyVetoException e) {
e.printStackTrace();
throw new XmlParseException("failed to read trigger or delay expressions in bioEvent " + name + ": " + e.getMessage(), e);
}
} else if (triggerElement != null && triggerElement.getText().length() == 0) {
//
// read legacy first-pass VCell 5.4 style trigger and delay elements
//
// <Trigger>
// <TriggerParameters triggerClass="TriggerGeneral">
// (t > 500.0)
// </TriggerParameters>
// </Trigger>
// <Delay UseValuesFromTriggerTime="true">3.0</Delay> [optional]
//
final String TriggerParametersTag = "TriggerParameters";
final String TriggerClassAttrTag = "triggerClass";
final String TriggerClassAttrValue_TriggerGeneral = "TriggerGeneral";
Element triggerParametersElement = triggerElement.getChild(TriggerParametersTag, vcNamespace);
Expression triggerExpression = null;
String triggerClass = triggerParametersElement.getAttributeValue(TriggerClassAttrTag);
if (triggerClass.equals(TriggerClassAttrValue_TriggerGeneral)) {
triggerExpression = unMangleExpression(triggerParametersElement.getText());
} else {
// not general trigger (just make it never happen, user will have to edit "t > -1")
triggerExpression = Expression.relational(">", new Expression(simContext.getModel().getTIME(), simContext.getModel().getNameScope()), new Expression(-1.0));
}
// read <Delay>
Expression delayDurationExpression = null;
boolean useValuesFromTriggerTime = true;
Element delayElement = bEventElement.getChild(XMLTags.DelayTag, vcNamespace);
if (delayElement != null) {
useValuesFromTriggerTime = Boolean.valueOf(delayElement.getAttributeValue(XMLTags.UseValuesFromTriggerTimeAttrTag)).booleanValue();
delayDurationExpression = unMangleExpression((delayElement.getText()));
}
newBioEvent = new BioEvent(name, TriggerType.GeneralTrigger, useValuesFromTriggerTime, simContext);
try {
newBioEvent.setParameterValue(BioEventParameterType.GeneralTriggerFunction, triggerExpression);
if (delayDurationExpression != null) {
newBioEvent.setParameterValue(BioEventParameterType.TriggerDelay, delayDurationExpression);
}
} catch (ExpressionBindingException | PropertyVetoException e) {
e.printStackTrace();
throw new XmlParseException("failed to read trigger or delay expressions in bioEvent " + name + ": " + e.getMessage(), e);
}
} else {
//
// VCell 5.4 style bioevent parameters
//
//
TriggerType triggerType = TriggerType.fromXmlName(bEventElement.getAttributeValue(XMLTags.BioEventTriggerTypeAttrTag));
boolean bUseValuesFromTriggerTime = Boolean.parseBoolean(bEventElement.getAttributeValue(XMLTags.UseValuesFromTriggerTimeAttrTag));
newBioEvent = new BioEvent(name, triggerType, bUseValuesFromTriggerTime, simContext);
Iterator<Element> paramElementIter = bEventElement.getChildren(XMLTags.ParameterTag, vcNamespace).iterator();
ArrayList<LocalParameter> parameters = new ArrayList<LocalParameter>();
boolean bHasGeneralTriggerParam = false;
while (paramElementIter.hasNext()) {
Element paramElement = paramElementIter.next();
// Get parameter attributes
String paramName = paramElement.getAttributeValue(XMLTags.NameAttrTag);
Expression exp = unMangleExpression(paramElement.getText());
String roleStr = paramElement.getAttributeValue(XMLTags.ParamRoleAttrTag);
BioEventParameterType parameterType = BioEventParameterType.fromRoleXmlName(roleStr);
if (parameterType == BioEventParameterType.GeneralTriggerFunction) {
bHasGeneralTriggerParam = true;
}
VCUnitDefinition unit = simContext.getModel().getUnitSystem().getInstance_TBD();
String unitSymbol = paramElement.getAttributeValue(XMLTags.VCUnitDefinitionAttrTag);
if (unitSymbol != null) {
unit = simContext.getModel().getUnitSystem().getInstance(unitSymbol);
}
parameters.add(newBioEvent.createNewParameter(paramName, parameterType, exp, unit));
}
if (!bHasGeneralTriggerParam) {
parameters.add(newBioEvent.createNewParameter(BioEventParameterType.GeneralTriggerFunction.getDefaultName(), BioEventParameterType.GeneralTriggerFunction, // computed as needed
null, simContext.getModel().getUnitSystem().getInstance_DIMENSIONLESS()));
}
try {
newBioEvent.setParameters(parameters.toArray(new LocalParameter[0]));
} catch (PropertyVetoException | ExpressionBindingException e) {
e.printStackTrace();
throw new XmlParseException("failed to read parameters in bioEvent " + name + ": " + e.getMessage(), e);
}
}
ArrayList<BioEvent.EventAssignment> eventAssignmentList = new ArrayList<BioEvent.EventAssignment>();
Iterator<Element> iter = bEventElement.getChildren(XMLTags.EventAssignmentTag, vcNamespace).iterator();
while (iter.hasNext()) {
Element eventAssignmentElement = iter.next();
try {
String varname = eventAssignmentElement.getAttributeValue(XMLTags.EventAssignmentVariableAttrTag);
Expression assignExp = unMangleExpression(eventAssignmentElement.getText());
SymbolTableEntry target = simContext.getEntry(varname);
BioEvent.EventAssignment eventAssignment = newBioEvent.new EventAssignment(target, assignExp);
eventAssignmentList.add(eventAssignment);
} catch (ExpressionException e) {
e.printStackTrace(System.out);
throw new XmlParseException(e);
}
}
try {
newBioEvent.setEventAssignmentsList(eventAssignmentList);
} catch (PropertyVetoException e1) {
e1.printStackTrace(System.out);
throw new XmlParseException(e1);
}
try {
newBioEvent.bind();
} catch (ExpressionBindingException e) {
e.printStackTrace(System.out);
throw new XmlParseException(e);
}
bioEventsVector.add(newBioEvent);
}
return ((BioEvent[]) BeanUtils.getArray(bioEventsVector, BioEvent.class));
}
Also used :
TriggerType(cbit.vcell.mapping.BioEvent.TriggerType)
EventAssignment(cbit.vcell.math.Event.EventAssignment)
Element(org.jdom.Element)
ArrayList(java.util.ArrayList)
ExpressionBindingException(cbit.vcell.parser.ExpressionBindingException)
ExpressionException(cbit.vcell.parser.ExpressionException)
PropertyVetoException(java.beans.PropertyVetoException)
LocalParameter(cbit.vcell.mapping.ParameterContext.LocalParameter)
VCUnitDefinition(cbit.vcell.units.VCUnitDefinition)
SymbolTableEntry(cbit.vcell.parser.SymbolTableEntry)
Expression(cbit.vcell.parser.Expression)
BioEventParameterType(cbit.vcell.mapping.BioEvent.BioEventParameterType)
Iterator(java.util.Iterator)
BioEvent(cbit.vcell.mapping.BioEvent)
Vector(java.util.Vector)
Aggregations
SymbolTableEntry (cbit.vcell.parser.SymbolTableEntry)115
Expression (cbit.vcell.parser.Expression)50
ExpressionException (cbit.vcell.parser.ExpressionException)20
Vector (java.util.Vector)20
ArrayList (java.util.ArrayList)19
SpeciesContext (cbit.vcell.model.SpeciesContext)18
ModelParameter (cbit.vcell.model.Model.ModelParameter)14
PropertyVetoException (java.beans.PropertyVetoException)14
VCUnitDefinition (cbit.vcell.units.VCUnitDefinition)13
Model (cbit.vcell.model.Model)12
KineticsParameter (cbit.vcell.model.Kinetics.KineticsParameter)11
HashMap (java.util.HashMap)11
SimulationContext (cbit.vcell.mapping.SimulationContext)10
Variable (cbit.vcell.math.Variable)10
LocalParameter (cbit.vcell.mapping.ParameterContext.LocalParameter)9
SpeciesContextSpec (cbit.vcell.mapping.SpeciesContextSpec)9
Parameter (cbit.vcell.model.Parameter)9
SingleXPlot2D (cbit.plot.SingleXPlot2D)8
MathException (cbit.vcell.math.MathException)8
ReservedVariable (cbit.vcell.math.ReservedVariable)8
