use of cbit.vcell.mapping.MicroscopeMeasurement in project vcell by virtualcell.
the class IssuePanel method invokeHyperlink.
private void invokeHyperlink(Issue issue) {
if (selectionManager != null) {
// followHyperlink is no-op if selectionManger null, so no point in proceeding if it is
IssueContext issueContext = issue.getIssueContext();
IssueSource object = issue.getSource();
if (object instanceof DecoratedIssueSource) {
DecoratedIssueSource dis = (DecoratedIssueSource) object;
dis.activateView(selectionManager);
} else if (object instanceof Parameter) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.BIOMODEL_PARAMETERS_NODE, ActiveViewID.parameters_functions), new Object[] { object });
} else if (object instanceof StructureMapping) {
StructureMapping structureMapping = (StructureMapping) object;
StructureMappingNameScope structureMappingNameScope = (StructureMappingNameScope) structureMapping.getNameScope();
SimulationContext simulationContext = ((SimulationContextNameScope) (structureMappingNameScope.getParent())).getSimulationContext();
followHyperlink(new ActiveView(simulationContext, DocumentEditorTreeFolderClass.GEOMETRY_NODE, ActiveViewID.structure_mapping), new Object[] { object });
} else if (object instanceof SpatialObject) {
SpatialObject spatialObject = (SpatialObject) object;
SimulationContext simulationContext = spatialObject.getSimulationContext();
followHyperlink(new ActiveView(simulationContext, DocumentEditorTreeFolderClass.GEOMETRY_NODE, ActiveViewID.spatial_objects), new Object[] { object });
} else if (object instanceof SpatialProcess) {
SpatialProcess spatialProcess = (SpatialProcess) object;
SimulationContext simulationContext = spatialProcess.getSimulationContext();
followHyperlink(new ActiveView(simulationContext, DocumentEditorTreeFolderClass.GEOMETRY_NODE, ActiveViewID.spatial_processes), new Object[] { object });
} else if (object instanceof GeometryContext.UnmappedGeometryClass) {
UnmappedGeometryClass unmappedGeometryClass = (UnmappedGeometryClass) object;
SimulationContext simulationContext = unmappedGeometryClass.getSimulationContext();
followHyperlink(new ActiveView(simulationContext, DocumentEditorTreeFolderClass.GEOMETRY_NODE, ActiveViewID.structure_mapping), new Object[] { object });
} else if (object instanceof MicroscopeMeasurement) {
SimulationContext simulationContext = ((MicroscopeMeasurement) object).getSimulationContext();
followHyperlink(new ActiveView(simulationContext, DocumentEditorTreeFolderClass.PROTOCOLS_NODE, ActiveViewID.microscope_measuremments), new Object[] { object });
} else if (object instanceof BioEvent) {
BioEvent be = (BioEvent) object;
SimulationContext simulationContext = be.getSimulationContext();
followHyperlink(new ActiveView(simulationContext, DocumentEditorTreeFolderClass.PROTOCOLS_NODE, ActiveViewID.events), new Object[] { object });
} else if (object instanceof OutputFunctionIssueSource) {
SimulationOwner simulationOwner = ((OutputFunctionIssueSource) object).getOutputFunctionContext().getSimulationOwner();
if (simulationOwner instanceof SimulationContext) {
SimulationContext simulationContext = (SimulationContext) simulationOwner;
followHyperlink(new ActiveView(simulationContext, DocumentEditorTreeFolderClass.SIMULATIONS_NODE, ActiveViewID.output_functions), new Object[] { ((OutputFunctionIssueSource) object).getAnnotatedFunction() });
} else if (simulationOwner instanceof MathModel) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.MATH_OUTPUT_FUNCTIONS_NODE, ActiveViewID.math_output_functions), new Object[] { ((OutputFunctionIssueSource) object).getAnnotatedFunction() });
}
} else if (object instanceof Simulation) {
Simulation simulation = (Simulation) object;
SimulationOwner simulationOwner = simulation.getSimulationOwner();
if (simulationOwner instanceof SimulationContext) {
SimulationContext simulationContext = (SimulationContext) simulationOwner;
followHyperlink(new ActiveView(simulationContext, DocumentEditorTreeFolderClass.SIMULATIONS_NODE, ActiveViewID.simulations), new Object[] { simulation });
} else if (simulationOwner instanceof MathModel) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.MATH_SIMULATIONS_NODE, ActiveViewID.math_simulations), new Object[] { simulation });
}
} else if (object instanceof GeometryContext) {
setActiveView(new ActiveView(((GeometryContext) object).getSimulationContext(), DocumentEditorTreeFolderClass.GEOMETRY_NODE, ActiveViewID.geometry_definition));
} else if (object instanceof Structure) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.STRUCTURES_NODE, ActiveViewID.structures), new Object[] { object });
} else if (object instanceof MolecularType) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.MOLECULAR_TYPES_NODE, ActiveViewID.structures), new Object[] { object });
} else if (object instanceof ReactionStep) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.REACTIONS_NODE, ActiveViewID.reactions), new Object[] { object });
} else if (object instanceof ReactionRule) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.REACTIONS_NODE, ActiveViewID.reactions), new Object[] { object });
} else if (object instanceof SpeciesContextSpec) {
SpeciesContextSpec scs = (SpeciesContextSpec) object;
ActiveView av = new ActiveView(scs.getSimulationContext(), DocumentEditorTreeFolderClass.SPECIFICATIONS_NODE, ActiveViewID.species_settings);
followHyperlink(av, new Object[] { object });
} else if (object instanceof ReactionCombo) {
ReactionCombo rc = (ReactionCombo) object;
followHyperlink(new ActiveView(rc.getReactionContext().getSimulationContext(), DocumentEditorTreeFolderClass.SPECIFICATIONS_NODE, ActiveViewID.reaction_setting), new Object[] { ((ReactionCombo) object).getReactionSpec() });
} else if (object instanceof SpeciesContext) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.SPECIES_NODE, ActiveViewID.species), new Object[] { object });
} else if (object instanceof RbmObservable) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.OBSERVABLES_NODE, ActiveViewID.observables), new Object[] { object });
} else if (object instanceof MathDescription) {
// followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.MATH_SIMULATIONS_NODE, ActiveViewID.generated_math), new Object[] {object});
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.GEOMETRY_NODE, ActiveViewID.structure_mapping), new Object[] { object });
} else if (object instanceof SpeciesPattern) {
// if (issue.getIssueContext().hasContextType(ContextType.SpeciesContext)){
// SpeciesContext thing = (SpeciesContext)issue.getIssueContext().getContextObject(ContextType.SpeciesContext);
// followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.SPECIES_NODE, ActiveViewID.species), new Object[] {thing});
// }else if(issue.getIssueContext().hasContextType(ContextType.ReactionRule)) {
// ReactionRule thing = (ReactionRule)issue.getIssueContext().getContextObject(ContextType.ReactionRule);
// followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.REACTIONS_NODE, ActiveViewID.reactions), new Object[] {thing});
// }else if(issue.getIssueContext().hasContextType(ContextType.RbmObservable)) {
// RbmObservable thing = (RbmObservable)issue.getIssueContext().getContextObject(ContextType.RbmObservable);
// followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.OBSERVABLES_NODE, ActiveViewID.observables), new Object[] {thing});
// } else {
System.err.println("SpeciesPattern object missing a proper issue context.");
// }
} else if (object instanceof SimulationContext) {
SimulationContext sc = (SimulationContext) object;
IssueCategory ic = issue.getCategory();
switch(ic) {
case RbmNetworkConstraintsBad:
NetworkConstraints nc = sc.getNetworkConstraints();
if (issue.getMessage() == SimulationContext.IssueInsufficientMolecules) {
NetworkConstraintsEntity nce = new NetworkConstraintsEntity(NetworkConstraintsTableModel.sMaxMoleculesName, NetworkConstraintsTableModel.sValueType, nc.getMaxMoleculesPerSpecies() + "");
followHyperlink(new ActiveView(sc, DocumentEditorTreeFolderClass.SPECIFICATIONS_NODE, ActiveViewID.network_setting), new Object[] { nce });
} else {
NetworkConstraintsEntity nce = new NetworkConstraintsEntity(NetworkConstraintsTableModel.sMaxIterationName, NetworkConstraintsTableModel.sValueType, nc.getMaxIteration() + "");
followHyperlink(new ActiveView(sc, DocumentEditorTreeFolderClass.SPECIFICATIONS_NODE, ActiveViewID.network_setting), new Object[] { nce });
}
break;
default:
followHyperlink(new ActiveView(sc, DocumentEditorTreeFolderClass.SPECIFICATIONS_NODE, ActiveViewID.network_setting), new Object[] { object });
break;
}
} else if (object instanceof Geometry) {
if (issueContext.hasContextType(ContextType.SimContext)) {
SimulationContext simContext = (SimulationContext) issueContext.getContextObject(ContextType.SimContext);
followHyperlink(new ActiveView(simContext, DocumentEditorTreeFolderClass.GEOMETRY_NODE, ActiveViewID.geometry_definition), new Object[] { object });
} else if (issueContext.hasContextType(ContextType.MathModel)) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.MATH_GEOMETRY_NODE, ActiveViewID.math_geometry), new Object[] { object });
} else if (issueContext.hasContextType(ContextType.MathDescription)) {
followHyperlink(new ActiveView(null, DocumentEditorTreeFolderClass.GEOMETRY_NODE, ActiveViewID.geometry_definition), new Object[] { object });
}
} else {
System.err.println("unknown object type in IssuePanel.invokeHyperlink(): " + object.getClass() + ", context type: " + issueContext.getContextType());
}
}
}
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