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Example 16 with GeometryContext

use of cbit.vcell.mapping.GeometryContext in project vcell by virtualcell.

the class SBMLExporter method addGeometry.

private void addGeometry() throws SbmlException {
    SpatialModelPlugin mplugin = (SpatialModelPlugin) sbmlModel.getPlugin(SBMLUtils.SBML_SPATIAL_NS_PREFIX);
    // Creates a geometry object via SpatialModelPlugin object.
    org.sbml.jsbml.ext.spatial.Geometry sbmlGeometry = mplugin.createGeometry();
    sbmlGeometry.setCoordinateSystem(GeometryKind.cartesian);
    sbmlGeometry.setSpatialId("vcell");
    Geometry vcGeometry = getSelectedSimContext().getGeometry();
    Model vcModel = getSelectedSimContext().getModel();
    // 
    // list of CoordinateComponents : 1 if geometry is 1-d, 2 if geometry is 2-d, 3 if geometry is 3-d
    // 
    int dimension = vcGeometry.getDimension();
    Extent vcExtent = vcGeometry.getExtent();
    Origin vcOrigin = vcGeometry.getOrigin();
    // add x coordinate component
    CoordinateComponent xComp = sbmlGeometry.createCoordinateComponent();
    xComp.setSpatialId(vcModel.getX().getName());
    xComp.setType(CoordinateKind.cartesianX);
    final UnitDefinition sbmlUnitDef_length = getOrCreateSBMLUnit(vcModel.getUnitSystem().getLengthUnit());
    xComp.setUnits(sbmlUnitDef_length);
    Boundary minX = new Boundary();
    xComp.setBoundaryMinimum(minX);
    minX.setSpatialId("Xmin");
    minX.setValue(vcOrigin.getX());
    Boundary maxX = new Boundary();
    xComp.setBoundaryMaximum(maxX);
    maxX.setSpatialId("Xmax");
    maxX.setValue(vcOrigin.getX() + (vcExtent.getX()));
    org.sbml.jsbml.Parameter pX = sbmlModel.createParameter();
    pX.setId(vcModel.getX().getName());
    pX.setValue(0.0);
    pX.setConstant(false);
    pX.setUnits(sbmlUnitDef_length);
    SpatialParameterPlugin spPluginPx = (SpatialParameterPlugin) pX.getPlugin(SBMLUtils.SBML_SPATIAL_NS_PREFIX);
    SpatialSymbolReference spSymRefPx = new SpatialSymbolReference();
    spPluginPx.setParamType(spSymRefPx);
    spSymRefPx.setSpatialRef(xComp.getSpatialId());
    // add y coordinate component
    if (dimension == 2 || dimension == 3) {
        CoordinateComponent yComp = sbmlGeometry.createCoordinateComponent();
        yComp.setSpatialId(vcModel.getY().getName());
        yComp.setType(CoordinateKind.cartesianY);
        yComp.setUnits(sbmlUnitDef_length);
        Boundary minY = new Boundary();
        yComp.setBoundaryMinimum(minY);
        minY.setSpatialId("Ymin");
        minY.setValue(vcOrigin.getY());
        Boundary maxY = new Boundary();
        yComp.setBoundaryMaximum(maxY);
        maxY.setSpatialId("Ymax");
        maxY.setValue(vcOrigin.getY() + (vcExtent.getY()));
        org.sbml.jsbml.Parameter pY = sbmlModel.createParameter();
        pY.setId(vcModel.getY().getName());
        pY.setValue(0.0);
        pY.setConstant(false);
        pY.setUnits(sbmlUnitDef_length);
        SpatialParameterPlugin spPluginPy = (SpatialParameterPlugin) pY.getPlugin(SBMLUtils.SBML_SPATIAL_NS_PREFIX);
        SpatialSymbolReference spSymRefPy = new SpatialSymbolReference();
        spPluginPy.setParamType(spSymRefPy);
        spSymRefPy.setSpatialRef(yComp.getSpatialId());
    }
    // add z coordinate component
    if (dimension == 3) {
        CoordinateComponent zComp = sbmlGeometry.createCoordinateComponent();
        zComp.setSpatialId(vcModel.getZ().getName());
        zComp.setType(CoordinateKind.cartesianZ);
        zComp.setUnits(sbmlUnitDef_length);
        Boundary minZ = new Boundary();
        zComp.setBoundaryMinimum(minZ);
        minZ.setSpatialId("Zmin");
        minZ.setValue(vcOrigin.getZ());
        Boundary maxZ = new Boundary();
        zComp.setBoundaryMaximum(maxZ);
        maxZ.setSpatialId("Zmax");
        maxZ.setValue(vcOrigin.getZ() + (vcExtent.getZ()));
        org.sbml.jsbml.Parameter pZ = sbmlModel.createParameter();
        pZ.setId(vcModel.getZ().getName());
        pZ.setValue(0.0);
        pZ.setConstant(false);
        pZ.setUnits(sbmlUnitDef_length);
        SpatialParameterPlugin spPluginPz = (SpatialParameterPlugin) pZ.getPlugin(SBMLUtils.SBML_SPATIAL_NS_PREFIX);
        SpatialSymbolReference spSymRefPz = new SpatialSymbolReference();
        spPluginPz.setParamType(spSymRefPz);
        spSymRefPz.setSpatialRef(zComp.getSpatialId());
    }
    // 
    // list of compartmentMappings : VC structureMappings
    // 
    GeometryContext vcGeoContext = getSelectedSimContext().getGeometryContext();
    StructureMapping[] vcStrucMappings = vcGeoContext.getStructureMappings();
    for (int i = 0; i < vcStrucMappings.length; i++) {
        StructureMapping vcStructMapping = vcStrucMappings[i];
        String structName = vcStructMapping.getStructure().getName();
        Compartment comp = sbmlModel.getCompartment(TokenMangler.mangleToSName(structName));
        SpatialCompartmentPlugin cplugin = (SpatialCompartmentPlugin) comp.getPlugin(SBMLUtils.SBML_SPATIAL_NS_PREFIX);
        GeometryClass gc = vcStructMapping.getGeometryClass();
        if (!goodPointer(gc, GeometryClass.class, structName)) {
            continue;
        }
        CompartmentMapping compMapping = new CompartmentMapping();
        cplugin.setCompartmentMapping(compMapping);
        String geomClassName = gc.getName();
        String id = TokenMangler.mangleToSName(geomClassName + structName);
        compMapping.setSpatialId(id);
        compMapping.setDomainType(TokenMangler.mangleToSName(DOMAIN_TYPE_PREFIX + geomClassName));
        try {
            StructureMappingParameter usp = vcStructMapping.getUnitSizeParameter();
            Expression e = usp.getExpression();
            if (goodPointer(e, Expression.class, id)) {
                compMapping.setUnitSize(e.evaluateConstant());
            }
        } catch (ExpressionException e) {
            e.printStackTrace(System.out);
            throw new RuntimeException("Unable to create compartment mapping for structureMapping '" + compMapping.getId() + "' : " + e.getMessage());
        }
    }
    // 
    // list of domain types : subvolumes and surface classes from VC
    // 
    boolean bAnyAnalyticSubvolumes = false;
    boolean bAnyImageSubvolumes = false;
    boolean bAnyCSGSubvolumes = false;
    GeometryClass[] vcGeomClasses = vcGeometry.getGeometryClasses();
    int numSubVols = 0;
    for (int i = 0; i < vcGeomClasses.length; i++) {
        DomainType domainType = sbmlGeometry.createDomainType();
        domainType.setSpatialId(DOMAIN_TYPE_PREFIX + vcGeomClasses[i].getName());
        if (vcGeomClasses[i] instanceof SubVolume) {
            if (((SubVolume) vcGeomClasses[i]) instanceof AnalyticSubVolume) {
                bAnyAnalyticSubvolumes = true;
            } else if (((SubVolume) vcGeomClasses[i]) instanceof ImageSubVolume) {
                bAnyImageSubvolumes = true;
            } else if (((SubVolume) vcGeomClasses[i]) instanceof CSGObject) {
                bAnyCSGSubvolumes = true;
            }
            domainType.setSpatialDimensions(3);
            numSubVols++;
        } else if (vcGeomClasses[i] instanceof SurfaceClass) {
            domainType.setSpatialDimensions(2);
        }
    }
    // 
    // list of domains, adjacent domains : from VC geometricRegions
    // 
    GeometrySurfaceDescription vcGSD = vcGeometry.getGeometrySurfaceDescription();
    if (vcGSD.getRegionImage() == null) {
        try {
            vcGSD.updateAll();
        } catch (Exception e) {
            e.printStackTrace(System.out);
            throw new RuntimeException("Unable to generate region images for geometry");
        }
    }
    GeometricRegion[] vcGeometricRegions = vcGSD.getGeometricRegions();
    ISize sampleSize = vcGSD.getVolumeSampleSize();
    int numX = sampleSize.getX();
    int numY = sampleSize.getY();
    int numZ = sampleSize.getZ();
    double ox = vcOrigin.getX();
    double oy = vcOrigin.getY();
    double oz = vcOrigin.getZ();
    RegionInfo[] regionInfos = vcGSD.getRegionImage().getRegionInfos();
    for (int i = 0; i < vcGeometricRegions.length; i++) {
        // domains
        Domain domain = sbmlGeometry.createDomain();
        domain.setSpatialId(vcGeometricRegions[i].getName());
        if (vcGeometricRegions[i] instanceof VolumeGeometricRegion) {
            domain.setDomainType(DOMAIN_TYPE_PREFIX + ((VolumeGeometricRegion) vcGeometricRegions[i]).getSubVolume().getName());
            // 
            // get a list of interior points ... should probably use the distance map to find a point
            // furthest inside (or several points associated with the morphological skeleton).
            // 
            InteriorPoint interiorPt = domain.createInteriorPoint();
            int regionID = ((VolumeGeometricRegion) vcGeometricRegions[i]).getRegionID();
            boolean bFound = false;
            int regInfoIndx = 0;
            for (int j = 0; j < regionInfos.length; j++) {
                regInfoIndx = j;
                if (regionInfos[j].getRegionIndex() == regionID) {
                    int volIndx = 0;
                    for (int z = 0; z < numZ && !bFound; z++) {
                        for (int y = 0; y < numY && !bFound; y++) {
                            for (int x = 0; x < numX && !bFound; x++) {
                                if (regionInfos[j].isIndexInRegion(volIndx)) {
                                    bFound = true;
                                    double unit_z = (numZ > 1) ? ((double) z) / (numZ - 1) : 0.5;
                                    double coordZ = oz + vcExtent.getZ() * unit_z;
                                    double unit_y = (numY > 1) ? ((double) y) / (numY - 1) : 0.5;
                                    double coordY = oy + vcExtent.getY() * unit_y;
                                    double unit_x = (numX > 1) ? ((double) x) / (numX - 1) : 0.5;
                                    double coordX = ox + vcExtent.getX() * unit_x;
                                    interiorPt.setCoord1(coordX);
                                    interiorPt.setCoord2(coordY);
                                    interiorPt.setCoord3(coordZ);
                                }
                                volIndx++;
                            }
                        // end - for x
                        }
                    // end - for y
                    }
                // end - for z
                }
            // end if
            }
            // end for regionInfos
            if (!bFound) {
                throw new RuntimeException("Unable to find interior point for region '" + regionInfos[regInfoIndx].toString());
            }
        } else if (vcGeometricRegions[i] instanceof SurfaceGeometricRegion) {
            SurfaceGeometricRegion vcSurfaceGeomReg = (SurfaceGeometricRegion) vcGeometricRegions[i];
            GeometricRegion geomRegion0 = vcSurfaceGeomReg.getAdjacentGeometricRegions()[0];
            GeometricRegion geomRegion1 = vcSurfaceGeomReg.getAdjacentGeometricRegions()[1];
            SurfaceClass surfaceClass = vcGSD.getSurfaceClass(((VolumeGeometricRegion) geomRegion0).getSubVolume(), ((VolumeGeometricRegion) geomRegion1).getSubVolume());
            domain.setDomainType(DOMAIN_TYPE_PREFIX + surfaceClass.getName());
            // adjacent domains : 2 adjacent domain objects for each surfaceClass in VC.
            // adjacent domain 1
            GeometricRegion adjGeomRegion0 = vcSurfaceGeomReg.getAdjacentGeometricRegions()[0];
            GeometricRegion adjGeomRegion1 = vcSurfaceGeomReg.getAdjacentGeometricRegions()[1];
            AdjacentDomains adjDomain = new AdjacentDomains();
            adjDomain.setSpatialId(TokenMangler.mangleToSName(vcSurfaceGeomReg.getName() + "_" + adjGeomRegion0.getName()));
            adjDomain.setDomain1(vcSurfaceGeomReg.getName());
            adjDomain.setDomain2(adjGeomRegion0.getName());
            sbmlGeometry.addAdjacentDomain(adjDomain);
            // adj domain 2
            adjDomain = new AdjacentDomains();
            adjDomain.setSpatialId(TokenMangler.mangleToSName(vcSurfaceGeomReg.getName() + "_" + adjGeomRegion1.getName()));
            adjDomain.setDomain1(vcSurfaceGeomReg.getName());
            adjDomain.setDomain2(adjGeomRegion1.getName());
            sbmlGeometry.addAdjacentDomain(adjDomain);
        }
    }
    // 
    if (bAnyAnalyticSubvolumes && !bAnyImageSubvolumes && !bAnyCSGSubvolumes) {
        AnalyticGeometry sbmlAnalyticGeomDefinition = sbmlGeometry.createAnalyticGeometry();
        sbmlAnalyticGeomDefinition.setSpatialId(TokenMangler.mangleToSName("Analytic_" + vcGeometry.getName()));
        sbmlAnalyticGeomDefinition.setIsActive(true);
        for (int i = 0; i < vcGeomClasses.length; i++) {
            if (vcGeomClasses[i] instanceof AnalyticSubVolume) {
                AnalyticVolume analyticVol = sbmlAnalyticGeomDefinition.createAnalyticVolume();
                analyticVol.setSpatialId(vcGeomClasses[i].getName());
                analyticVol.setDomainType(DOMAIN_TYPE_PREFIX + vcGeomClasses[i].getName());
                analyticVol.setFunctionType(FunctionKind.layered);
                analyticVol.setOrdinal(numSubVols - (i + 1));
                Expression expr = ((AnalyticSubVolume) vcGeomClasses[i]).getExpression();
                try {
                    String mathMLStr = ExpressionMathMLPrinter.getMathML(expr, true, MathType.BOOLEAN);
                    ASTNode mathMLNode = ASTNode.readMathMLFromString(mathMLStr);
                    analyticVol.setMath(mathMLNode);
                } catch (Exception e) {
                    e.printStackTrace(System.out);
                    throw new RuntimeException("Error converting VC subvolume expression to mathML" + e.getMessage());
                }
            }
        }
    }
    // 
    if (!bAnyAnalyticSubvolumes && !bAnyImageSubvolumes && bAnyCSGSubvolumes) {
        CSGeometry sbmlCSGeomDefinition = new CSGeometry();
        sbmlGeometry.addGeometryDefinition(sbmlCSGeomDefinition);
        sbmlCSGeomDefinition.setSpatialId(TokenMangler.mangleToSName("CSG_" + vcGeometry.getName()));
        for (int i = 0; i < vcGeomClasses.length; i++) {
            if (vcGeomClasses[i] instanceof CSGObject) {
                CSGObject vcellCSGObject = (CSGObject) vcGeomClasses[i];
                org.sbml.jsbml.ext.spatial.CSGObject sbmlCSGObject = new org.sbml.jsbml.ext.spatial.CSGObject();
                sbmlCSGeomDefinition.addCSGObject(sbmlCSGObject);
                sbmlCSGObject.setSpatialId(vcellCSGObject.getName());
                sbmlCSGObject.setDomainType(DOMAIN_TYPE_PREFIX + vcellCSGObject.getName());
                // the ordinal should the the least for the default/background subVolume
                sbmlCSGObject.setOrdinal(numSubVols - (i + 1));
                org.sbml.jsbml.ext.spatial.CSGNode sbmlcsgNode = getSBMLCSGNode(vcellCSGObject.getRoot());
                sbmlCSGObject.setCSGNode(sbmlcsgNode);
            }
        }
    }
    // 
    // add "Segmented" and "DistanceMap" SampledField Geometries
    // 
    final boolean bVCGeometryIsImage = bAnyImageSubvolumes && !bAnyAnalyticSubvolumes && !bAnyCSGSubvolumes;
    // 55if (bAnyAnalyticSubvolumes || bAnyImageSubvolumes || bAnyCSGSubvolumes){
    if (bVCGeometryIsImage) {
        // 
        // add "Segmented" SampledFieldGeometry
        // 
        SampledFieldGeometry segmentedImageSampledFieldGeometry = sbmlGeometry.createSampledFieldGeometry();
        segmentedImageSampledFieldGeometry.setSpatialId(TokenMangler.mangleToSName("SegmentedImage_" + vcGeometry.getName()));
        segmentedImageSampledFieldGeometry.setIsActive(true);
        // 55boolean bVCGeometryIsImage = bAnyImageSubvolumes && !bAnyAnalyticSubvolumes && !bAnyCSGSubvolumes;
        Geometry vcImageGeometry = null;
        {
            if (bVCGeometryIsImage) {
                // make a resampled image;
                if (dimension == 3) {
                    try {
                        ISize imageSize = vcGeometry.getGeometrySpec().getDefaultSampledImageSize();
                        vcGeometry.precomputeAll(new GeometryThumbnailImageFactoryAWT());
                        vcImageGeometry = RayCaster.resampleGeometry(new GeometryThumbnailImageFactoryAWT(), vcGeometry, imageSize);
                    } catch (Throwable e) {
                        e.printStackTrace(System.out);
                        throw new RuntimeException("Unable to convert the original analytic or constructed solid geometry to image-based geometry : " + e.getMessage());
                    }
                } else {
                    try {
                        vcGeometry.precomputeAll(new GeometryThumbnailImageFactoryAWT(), true, false);
                        GeometrySpec origGeometrySpec = vcGeometry.getGeometrySpec();
                        VCImage newVCImage = origGeometrySpec.getSampledImage().getCurrentValue();
                        // 
                        // construct the new geometry with the sampled VCImage.
                        // 
                        vcImageGeometry = new Geometry(vcGeometry.getName() + "_asImage", newVCImage);
                        vcImageGeometry.getGeometrySpec().setExtent(vcGeometry.getExtent());
                        vcImageGeometry.getGeometrySpec().setOrigin(vcGeometry.getOrigin());
                        vcImageGeometry.setDescription(vcGeometry.getDescription());
                        vcImageGeometry.getGeometrySurfaceDescription().setFilterCutoffFrequency(vcGeometry.getGeometrySurfaceDescription().getFilterCutoffFrequency());
                        vcImageGeometry.precomputeAll(new GeometryThumbnailImageFactoryAWT(), true, true);
                    } catch (Exception e) {
                        e.printStackTrace(System.out);
                        throw new RuntimeException("Unable to convert the original analytic or constructed solid geometry to image-based geometry : " + e.getMessage());
                    }
                }
                GeometryClass[] vcImageGeomClasses = vcImageGeometry.getGeometryClasses();
                for (int j = 0; j < vcImageGeomClasses.length; j++) {
                    if (vcImageGeomClasses[j] instanceof ImageSubVolume) {
                        SampledVolume sampledVol = segmentedImageSampledFieldGeometry.createSampledVolume();
                        sampledVol.setSpatialId(vcGeomClasses[j].getName());
                        sampledVol.setDomainType(DOMAIN_TYPE_PREFIX + vcGeomClasses[j].getName());
                        sampledVol.setSampledValue(((ImageSubVolume) vcImageGeomClasses[j]).getPixelValue());
                    }
                }
                // add sampledField to sampledFieldGeometry
                SampledField segmentedImageSampledField = sbmlGeometry.createSampledField();
                VCImage vcImage = vcImageGeometry.getGeometrySpec().getImage();
                segmentedImageSampledField.setSpatialId("SegmentedImageSampledField");
                segmentedImageSampledField.setNumSamples1(vcImage.getNumX());
                segmentedImageSampledField.setNumSamples2(vcImage.getNumY());
                segmentedImageSampledField.setNumSamples3(vcImage.getNumZ());
                segmentedImageSampledField.setInterpolationType(InterpolationKind.nearestneighbor);
                segmentedImageSampledField.setCompression(CompressionKind.uncompressed);
                segmentedImageSampledField.setDataType(DataKind.UINT8);
                segmentedImageSampledFieldGeometry.setSampledField(segmentedImageSampledField.getId());
                try {
                    byte[] vcImagePixelsBytes = vcImage.getPixels();
                    // imageData.setCompression("");
                    StringBuffer sb = new StringBuffer();
                    for (int i = 0; i < vcImagePixelsBytes.length; i++) {
                        int uint8_sample = ((int) vcImagePixelsBytes[i]) & 0xff;
                        sb.append(uint8_sample + " ");
                    }
                    segmentedImageSampledField.setSamplesLength(vcImage.getNumXYZ());
                    segmentedImageSampledField.setSamples(sb.toString().trim());
                } catch (ImageException e) {
                    e.printStackTrace(System.out);
                    throw new RuntimeException("Unable to export image from VCell to SBML : " + e.getMessage());
                }
            }
        }
    /*		
		//
		// add "DistanceMap" SampledFieldGeometry if there are exactly two subvolumes (else need more fields) and geometry is 3d.
		//
		if (numSubVols==2 && dimension == 3){
			SignedDistanceMap[] distanceMaps = null;
			try {
				distanceMaps = DistanceMapGenerator.computeDistanceMaps(vcImageGeometry, vcImageGeometry.getGeometrySpec().getImage(), false, false);
			} catch (ImageException e) {
				e.printStackTrace(System.out);
				System.err.println("Unable to export distance map sampled field from VCell to SBML : " + e.getMessage());
				// throw new RuntimeException("Unable to export distance map sampled field from VCell to SBML : " + e.getMessage());
				
				// don't want to throw an exception and stop export because distance map geometry couldn't be exported. 
				// just 'return' from method (since this is the last thing that is being done in this method).
				return;
			}
			//
			// the two distanceMaps should be redundant (one is negation of the other) ... so choose first one for field.
			//
			double[] signedDistances = distanceMaps[0].getSignedDistances();
			SampledFieldGeometry distanceMapSampledFieldGeometry = sbmlGeometry.createSampledFieldGeometry();
			distanceMapSampledFieldGeometry.setSpatialId(TokenMangler.mangleToSName("DistanceMap_"+vcGeometry.getName()));
			SampledField distanceMapSampledField = distanceMapSampledFieldGeometry.createSampledField();
			distanceMapSampledField.setSpatialId("DistanceMapSampledField");
			distanceMapSampledField.setNumSamples1(distanceMaps[0].getSamplesX().length);
			distanceMapSampledField.setNumSamples2(distanceMaps[0].getSamplesY().length);
			distanceMapSampledField.setNumSamples3(distanceMaps[0].getSamplesZ().length);
			distanceMapSampledField.setDataType("real");
System.err.println("do we need distanceMapSampleField.setDataType()?");
			distanceMapSampledField.setInterpolationType("linear");
			ImageData distanceMapImageData = distanceMapSampledField.createImageData();
			distanceMapImageData.setDataType("int16");
System.err.println("should be:\n  distanceMapImageData.setDataType(\"float32\")");
//					distanceMapImageData.setCompression("");

			double maxAbsValue = 0;
			for (int i = 0; i < signedDistances.length; i++) {
				maxAbsValue = Math.max(maxAbsValue,Math.abs(signedDistances[i]));
			}
			if (maxAbsValue==0.0){
				throw new RuntimeException("computed distance map all zeros");
			}
			double scale = (Short.MAX_VALUE-1)/maxAbsValue;
			int[] scaledIntegerDistanceMap = new int[signedDistances.length];
			for (int i = 0; i < signedDistances.length; i++) {
				scaledIntegerDistanceMap[i] = (int)(scale * signedDistances[i]);
			}
			distanceMapImageData.setSamples(scaledIntegerDistanceMap, signedDistances.length);
System.err.println("should be:\n  distanceMapImageData.setSamples((float[])signedDistances,signedDistances.length)");
			SampledVolume sampledVol = distanceMapSampledFieldGeometry.createSampledVolume();
			sampledVol.setSpatialId(distanceMaps[0].getInsideSubvolumeName());
			sampledVol.setDomainType(DOMAIN_TYPE_PREFIX+distanceMaps[0].getInsideSubvolumeName());
			sampledVol.setSampledValue(255);
			sampledVol = distanceMapSampledFieldGeometry.createSampledVolume();
			sampledVol.setSpatialId(distanceMaps[1].getInsideSubvolumeName());
			sampledVol.setDomainType(DOMAIN_TYPE_PREFIX+distanceMaps[1].getInsideSubvolumeName());
			sampledVol.setSampledValue(1);
		}
*/
    }
// 
// add "SurfaceMesh" ParametricGeometry
// 
// if (bAnyAnalyticSubvolumes || bAnyImageSubvolumes || bAnyCSGSubvolumes){
// ParametricGeometry sbmlParametricGeomDefinition = sbmlGeometry.createParametricGeometry();
// sbmlParametricGeomDefinition.setSpatialId(TokenMangler.mangleToSName("SurfaceMesh_"+vcGeometry.getName()));
// xxxx
// }
}
Also used : Origin(org.vcell.util.Origin) CompartmentMapping(org.sbml.jsbml.ext.spatial.CompartmentMapping) Compartment(org.sbml.jsbml.Compartment) SpatialParameterPlugin(org.sbml.jsbml.ext.spatial.SpatialParameterPlugin) StructureMappingParameter(cbit.vcell.mapping.StructureMapping.StructureMappingParameter) AnalyticGeometry(org.sbml.jsbml.ext.spatial.AnalyticGeometry) ExpressionException(cbit.vcell.parser.ExpressionException) Boundary(org.sbml.jsbml.ext.spatial.Boundary) GeometrySpec(cbit.vcell.geometry.GeometrySpec) DomainType(org.sbml.jsbml.ext.spatial.DomainType) SampledVolume(org.sbml.jsbml.ext.spatial.SampledVolume) SubVolume(cbit.vcell.geometry.SubVolume) ImageSubVolume(cbit.vcell.geometry.ImageSubVolume) AnalyticSubVolume(cbit.vcell.geometry.AnalyticSubVolume) GeometryContext(cbit.vcell.mapping.GeometryContext) SpatialCompartmentPlugin(org.sbml.jsbml.ext.spatial.SpatialCompartmentPlugin) CoordinateComponent(org.sbml.jsbml.ext.spatial.CoordinateComponent) SimulationContext(cbit.vcell.mapping.SimulationContext) SpeciesContext(cbit.vcell.model.SpeciesContext) GeometryContext(cbit.vcell.mapping.GeometryContext) VolumeGeometricRegion(cbit.vcell.geometry.surface.VolumeGeometricRegion) SurfaceGeometricRegion(cbit.vcell.geometry.surface.SurfaceGeometricRegion) VolumeGeometricRegion(cbit.vcell.geometry.surface.VolumeGeometricRegion) GeometricRegion(cbit.vcell.geometry.surface.GeometricRegion) SpatialSymbolReference(org.sbml.jsbml.ext.spatial.SpatialSymbolReference) AnalyticVolume(org.sbml.jsbml.ext.spatial.AnalyticVolume) InteriorPoint(org.sbml.jsbml.ext.spatial.InteriorPoint) SampledField(org.sbml.jsbml.ext.spatial.SampledField) Domain(org.sbml.jsbml.ext.spatial.Domain) AnalyticSubVolume(cbit.vcell.geometry.AnalyticSubVolume) GeometryClass(cbit.vcell.geometry.GeometryClass) ImageException(cbit.image.ImageException) GeometrySurfaceDescription(cbit.vcell.geometry.surface.GeometrySurfaceDescription) Extent(org.vcell.util.Extent) SurfaceClass(cbit.vcell.geometry.SurfaceClass) ISize(org.vcell.util.ISize) CSGeometry(org.sbml.jsbml.ext.spatial.CSGeometry) RegionInfo(cbit.vcell.geometry.RegionImage.RegionInfo) VCImage(cbit.image.VCImage) StructureMapping(cbit.vcell.mapping.StructureMapping) GeometryThumbnailImageFactoryAWT(cbit.vcell.geometry.GeometryThumbnailImageFactoryAWT) ASTNode(org.sbml.jsbml.ASTNode) CSGObject(cbit.vcell.geometry.CSGObject) VCUnitDefinition(cbit.vcell.units.VCUnitDefinition) UnitDefinition(org.sbml.jsbml.UnitDefinition) ImageSubVolume(cbit.vcell.geometry.ImageSubVolume) SurfaceGeometricRegion(cbit.vcell.geometry.surface.SurfaceGeometricRegion) SampledFieldGeometry(org.sbml.jsbml.ext.spatial.SampledFieldGeometry) SpatialModelPlugin(org.sbml.jsbml.ext.spatial.SpatialModelPlugin) InteriorPoint(org.sbml.jsbml.ext.spatial.InteriorPoint) XMLStreamException(javax.xml.stream.XMLStreamException) SbmlException(org.vcell.sbml.SbmlException) ImageException(cbit.image.ImageException) SBMLException(org.sbml.jsbml.SBMLException) ExpressionException(cbit.vcell.parser.ExpressionException) AdjacentDomains(org.sbml.jsbml.ext.spatial.AdjacentDomains) Geometry(cbit.vcell.geometry.Geometry) SampledFieldGeometry(org.sbml.jsbml.ext.spatial.SampledFieldGeometry) AnalyticGeometry(org.sbml.jsbml.ext.spatial.AnalyticGeometry) CSGeometry(org.sbml.jsbml.ext.spatial.CSGeometry) Expression(cbit.vcell.parser.Expression) Model(cbit.vcell.model.Model) BioModel(cbit.vcell.biomodel.BioModel)

Example 17 with GeometryContext

use of cbit.vcell.mapping.GeometryContext in project vcell by virtualcell.

the class BioModelTest method getExampleWithImage.

/**
 * Insert the method's description here.
 * Creation date: (11/14/00 5:56:41 PM)
 * @return cbit.vcell.biomodel.BioModel
 */
public static BioModel getExampleWithImage() throws Exception {
    BioModel bioModel = new BioModel(null);
    bioModel.setName("bioModel_" + Integer.toHexString(((new Random()).nextInt())));
    // 
    // add SimulationContexts
    // 
    SimulationContext sc1 = cbit.vcell.mapping.SimulationContextTest.getExample(2);
    sc1.setName("simContext1_" + Integer.toHexString(((new Random()).nextInt())));
    bioModel.setModel(sc1.getModel());
    Model model = bioModel.getModel();
    model.setName("physiology_" + Integer.toHexString(((new Random()).nextInt())));
    Geometry geo = GeometryTest.getImageExample2D();
    geo.setName("Image_Geometry_" + Integer.toHexString(((new Random()).nextInt())));
    geo.precomputeAll(new GeometryThumbnailImageFactoryAWT(), true, false);
    SimulationContext sc2 = new SimulationContext(model, geo);
    GeometryContext geoContext = sc2.getGeometryContext();
    Structure structure_ec = model.getStructure("extracellular");
    SubVolume subVolume_cytosol = geo.getGeometrySpec().getSubVolume("cytosol");
    geoContext.assignStructure(structure_ec, subVolume_cytosol);
    geoContext.getStructureMapping(structure_ec).getUnitSizeParameter().setExpression(new Expression(1.0));
    Structure structure_cyt = model.getStructure("cytosol");
    SubVolume subVolume_er = geo.getGeometrySpec().getSubVolume("er");
    geoContext.assignStructure(structure_cyt, subVolume_er);
    geoContext.getStructureMapping(structure_cyt).getUnitSizeParameter().setExpression(new Expression(0.5));
    Structure structure_er = model.getStructure("er");
    geoContext.assignStructure(structure_er, subVolume_er);
    geoContext.getStructureMapping(structure_er).getUnitSizeParameter().setExpression(new Expression(0.5));
    Structure structure_pm = model.getStructure("plasmaMembrane");
    SurfaceClass surfaceClass_erMem = geoContext.getGeometry().getGeometrySurfaceDescription().getSurfaceClass(subVolume_cytosol, subVolume_er);
    geoContext.assignStructure(structure_pm, surfaceClass_erMem);
    geoContext.getStructureMapping(structure_pm).getUnitSizeParameter().setExpression(new Expression(1.0));
    Structure structure_erMem = model.getStructure("erMembrane");
    geoContext.assignStructure(structure_erMem, subVolume_er);
    geoContext.getStructureMapping(structure_erMem).getUnitSizeParameter().setExpression(new Expression(2.4));
    bioModel.setSimulationContexts(new SimulationContext[] { /*sc1,*/
    sc2 });
    sc2.setName("simContext2_" + Integer.toHexString(((new Random()).nextInt())));
    // sc1.setMathDescription(sc1.createNewMathMapping().getMathDescription());
    sc2.setMathDescription(sc2.createNewMathMapping().getMathDescription());
    // 
    // add simulations (must be after
    // 
    Simulation sim1 = new Simulation(sc2.getMathDescription());
    sim1.setName("sim1_" + Integer.toHexString(((new Random()).nextInt())));
    Simulation sim2 = new Simulation(sc2.getMathDescription());
    sim2.setName("sim2_" + Integer.toHexString(((new Random()).nextInt())));
    bioModel.setSimulations(new Simulation[] { sim1, sim2 });
    return bioModel;
}
Also used : Geometry(cbit.vcell.geometry.Geometry) GeometryThumbnailImageFactoryAWT(cbit.vcell.geometry.GeometryThumbnailImageFactoryAWT) Random(java.util.Random) Simulation(cbit.vcell.solver.Simulation) Expression(cbit.vcell.parser.Expression) SurfaceClass(cbit.vcell.geometry.SurfaceClass) SubVolume(cbit.vcell.geometry.SubVolume) Model(cbit.vcell.model.Model) GeometryContext(cbit.vcell.mapping.GeometryContext) SimulationContext(cbit.vcell.mapping.SimulationContext) Structure(cbit.vcell.model.Structure)

Aggregations

GeometryContext (cbit.vcell.mapping.GeometryContext)17 StructureMapping (cbit.vcell.mapping.StructureMapping)10 SimulationContext (cbit.vcell.mapping.SimulationContext)8 Geometry (cbit.vcell.geometry.Geometry)6 Structure (cbit.vcell.model.Structure)6 Simulation (cbit.vcell.solver.Simulation)6 BioModel (cbit.vcell.biomodel.BioModel)5 SpeciesContextSpec (cbit.vcell.mapping.SpeciesContextSpec)5 ReactionStep (cbit.vcell.model.ReactionStep)5 SpeciesContext (cbit.vcell.model.SpeciesContext)5 SubVolume (cbit.vcell.geometry.SubVolume)4 Model (cbit.vcell.model.Model)4 Expression (cbit.vcell.parser.Expression)4 BioEvent (cbit.vcell.mapping.BioEvent)3 FeatureMapping (cbit.vcell.mapping.FeatureMapping)3 UnmappedGeometryClass (cbit.vcell.mapping.GeometryContext.UnmappedGeometryClass)3 MembraneMapping (cbit.vcell.mapping.MembraneMapping)3 MicroscopeMeasurement (cbit.vcell.mapping.MicroscopeMeasurement)3 SpatialObject (cbit.vcell.mapping.spatial.SpatialObject)3 SpatialProcess (cbit.vcell.mapping.spatial.processes.SpatialProcess)3