Example 46 with SubDomain
use of cbit.vcell.math.SubDomain in project vcell by virtualcell.
the class SmoldynFileWriter method writeRuntimeCommands.
// uncomment for debug
/*private void writeGraphicsLegend() throws MathException{
try {
java.awt.image.BufferedImage cmapImage = new java.awt.image.BufferedImage(200, particleVariableList.size()*30,java.awt.image.BufferedImage.TYPE_INT_RGB);
Graphics g = cmapImage.getGraphics();
for (int i = 0; i < particleVariableList.size(); i ++) {
Color c = colors[i];
System.out.println("color for legend: " + "red--"+ c.getRed() + " green--" + c.getGreen() + " blue--" + c.getBlue());
String variableName = getVariableName(particleVariableList.get(i),null);
g.setColor(c);
g.drawString(variableName, 5, 30*i + 20);
g.fillRect(105, 30*i + 10, 20, 10);
}
g.dispose();
File tmpFile = File.createTempFile("legend", ".jpg");
FileOutputStream fios = null;
try {
printWriter.println("# legend file: " + tmpFile.getAbsolutePath());
fios = new FileOutputStream(tmpFile);
ImageIO.write(cmapImage,"jpg",fios);
} finally {
if(fios != null) {fios.close();}
}
} catch (Exception e) {
e.printStackTrace();
throw new MathException(e.getMessage());
}
}*/
private void writeRuntimeCommands() throws SolverException, DivideByZeroException, DataAccessException, IOException, MathException, ExpressionException {
printWriter.println("# " + SmoldynVCellMapper.SmoldynKeyword.killmolincmpt + " runtime command to kill molecules misplaced during initial condtions");
for (ParticleVariable pv : particleVariableList) {
CompartmentSubDomain varDomain = mathDesc.getCompartmentSubDomain(pv.getDomain().getName());
if (varDomain == null) {
continue;
}
boolean bkillMol = false;
ArrayList<ParticleInitialCondition> iniConditionList = varDomain.getParticleProperties(pv).getParticleInitialConditions();
for (ParticleInitialCondition iniCon : iniConditionList) {
if (iniCon instanceof ParticleInitialConditionConcentration) {
try {
subsituteFlattenToConstant(((ParticleInitialConditionConcentration) iniCon).getDistribution());
} catch (// can not be evaluated to a constant
Exception e) {
bkillMol = true;
break;
}
}
}
if (bkillMol) {
Enumeration<SubDomain> subDomainEnumeration = mathDesc.getSubDomains();
while (subDomainEnumeration.hasMoreElements()) {
SubDomain subDomain = subDomainEnumeration.nextElement();
if (subDomain instanceof CompartmentSubDomain && varDomain != subDomain) {
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.B + " " + SmoldynVCellMapper.SmoldynKeyword.killmolincmpt + " " + pv.getName() + "(" + SmoldynVCellMapper.SmoldynKeyword.all + ") " + subDomain.getName());
}
}
}
}
printWriter.println();
// write command to kill molecules on membrane for adsortption to nothing
printWriter.println("# kill membrane molecues that are absorbed (to nothing)");
for (String killMolCmd : killMolCommands) {
printWriter.println(killMolCmd);
}
printWriter.println();
printWriter.println("# runtime command");
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.E + " " + VCellSmoldynKeyword.vcellPrintProgress);
if (outputFile != null && cartesianMesh != null) {
OutputTimeSpec ots = simulation.getSolverTaskDescription().getOutputTimeSpec();
if (ots.isUniform()) {
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.output_files + " " + outputFile.getName());
ISize sampleSize = simulation.getMeshSpecification().getSamplingSize();
TimeStep timeStep = simulation.getSolverTaskDescription().getTimeStep();
int n = (int) Math.round(((UniformOutputTimeSpec) ots).getOutputTimeStep() / timeStep.getDefaultTimeStep());
if (simulation.getSolverTaskDescription().getSmoldynSimulationOptions().isSaveParticleLocations()) {
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.N + " " + n + " " + SmoldynVCellMapper.SmoldynKeyword.incrementfile + " " + outputFile.getName());
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.N + " " + n + " " + SmoldynVCellMapper.SmoldynKeyword.listmols + " " + outputFile.getName());
}
// DON'T CHANGE THE ORDER HERE.
// DataProcess must be before vcellWriteOutput
writeDataProcessor();
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.N + " " + n + " " + VCellSmoldynKeyword.vcellWriteOutput + " begin");
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.N + " " + n + " " + VCellSmoldynKeyword.vcellWriteOutput + " " + VCellSmoldynKeyword.dimension + " " + dimension);
printWriter.print(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.N + " " + n + " " + VCellSmoldynKeyword.vcellWriteOutput + " " + VCellSmoldynKeyword.sampleSize + " " + sampleSize.getX());
if (dimension > 1) {
printWriter.print(" " + sampleSize.getY());
if (dimension > 2) {
printWriter.print(" " + sampleSize.getZ());
}
}
printWriter.println();
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.N + " " + n + " " + VCellSmoldynKeyword.vcellWriteOutput + " " + VCellSmoldynKeyword.numMembraneElements + " " + cartesianMesh.getNumMembraneElements());
for (ParticleVariable pv : particleVariableList) {
String type = pv instanceof MembraneParticleVariable ? VCellSmoldynKeyword.membrane.name() : VCellSmoldynKeyword.volume.name();
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.N + " " + n + " " + VCellSmoldynKeyword.vcellWriteOutput + " " + VCellSmoldynKeyword.variable + " " + pv.getName() + " " + type + " " + pv.getDomain().getName());
}
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.cmd + " " + SmoldynVCellMapper.SmoldynKeyword.N + " " + n + " " + VCellSmoldynKeyword.vcellWriteOutput + " end");
} else {
throw new SolverException(SolverDescription.Smoldyn.getDisplayLabel() + " only supports uniform output.");
}
}
printWriter.println();
}
Also used :
ParticleInitialConditionConcentration(cbit.vcell.math.ParticleProperties.ParticleInitialConditionConcentration)
VolumeParticleVariable(cbit.vcell.math.VolumeParticleVariable)
MembraneParticleVariable(cbit.vcell.math.MembraneParticleVariable)
ParticleVariable(cbit.vcell.math.ParticleVariable)
ISize(org.vcell.util.ISize)
ProgrammingException(org.vcell.util.ProgrammingException)
GeometryException(cbit.vcell.geometry.GeometryException)
IOException(java.io.IOException)
DataAccessException(org.vcell.util.DataAccessException)
PropertyVetoException(java.beans.PropertyVetoException)
DivideByZeroException(cbit.vcell.parser.DivideByZeroException)
ImageException(cbit.image.ImageException)
ExpressionBindingException(cbit.vcell.parser.ExpressionBindingException)
SolverException(cbit.vcell.solver.SolverException)
ExpressionException(cbit.vcell.parser.ExpressionException)
MathException(cbit.vcell.math.MathException)
CompartmentSubDomain(cbit.vcell.math.CompartmentSubDomain)
SubDomain(cbit.vcell.math.SubDomain)
MembraneSubDomain(cbit.vcell.math.MembraneSubDomain)
TimeStep(cbit.vcell.solver.TimeStep)
OutputTimeSpec(cbit.vcell.solver.OutputTimeSpec)
UniformOutputTimeSpec(cbit.vcell.solver.UniformOutputTimeSpec)
MembraneParticleVariable(cbit.vcell.math.MembraneParticleVariable)
CompartmentSubDomain(cbit.vcell.math.CompartmentSubDomain)
ParticleInitialCondition(cbit.vcell.math.ParticleProperties.ParticleInitialCondition)
SolverException(cbit.vcell.solver.SolverException)
Example 47 with SubDomain
use of cbit.vcell.math.SubDomain in project vcell by virtualcell.
the class SmoldynFileWriter method writeWallSurfaces.
private void writeWallSurfaces() throws SolverException {
GeometrySurfaceDescription geometrySurfaceDescription = resampledGeometry.getGeometrySurfaceDescription();
GeometrySpec geometrySpec = resampledGeometry.getGeometrySpec();
SubVolume[] subVolumes = geometrySpec.getSubVolumes();
printWriter.println("# boundaries");
Origin origin = geometrySpec.getOrigin();
Extent extent = geometrySpec.getExtent();
Coordinate lowWall = new Coordinate(origin.getX(), origin.getY(), origin.getZ());
Coordinate highWall = new Coordinate(origin.getX() + extent.getX(), origin.getY() + extent.getY(), origin.getZ() + extent.getZ());
// potential artifact.
if (bHasNoSurface) {
SubDomain subDomain0 = mathDesc.getSubDomains().nextElement();
CompartmentSubDomain compartSubDomain0 = null;
compartSubDomain0 = (CompartmentSubDomain) subDomain0;
// x
if (compartSubDomain0.getBoundaryConditionXm().isPERIODIC()) {
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.boundaries + " 0 " + lowWall.getX() + " " + highWall.getX() + " " + SmoldynVCellMapper.SmoldynKeyword.p);
} else {
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.low_wall + " 0 " + lowWall.getX() + " " + (compartSubDomain0.getBoundaryConditionXm().isNEUMANN() ? SmoldynVCellMapper.SmoldynKeyword.r : SmoldynVCellMapper.SmoldynKeyword.a));
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.high_wall + " 0 " + highWall.getX() + " " + (compartSubDomain0.getBoundaryConditionXp().isNEUMANN() ? SmoldynVCellMapper.SmoldynKeyword.r : SmoldynVCellMapper.SmoldynKeyword.a));
}
if (dimension > 1) {
// y
if (compartSubDomain0.getBoundaryConditionYm().isPERIODIC()) {
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.boundaries + " 1 " + lowWall.getY() + " " + highWall.getY() + " " + SmoldynVCellMapper.SmoldynKeyword.p);
} else {
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.low_wall + " 1 " + lowWall.getY() + " " + (compartSubDomain0.getBoundaryConditionYm().isNEUMANN() ? SmoldynVCellMapper.SmoldynKeyword.r : SmoldynVCellMapper.SmoldynKeyword.a));
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.high_wall + " 1 " + highWall.getY() + " " + (compartSubDomain0.getBoundaryConditionYp().isNEUMANN() ? SmoldynVCellMapper.SmoldynKeyword.r : SmoldynVCellMapper.SmoldynKeyword.a));
}
if (dimension > 2) {
// z
if (compartSubDomain0.getBoundaryConditionZm().isPERIODIC()) {
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.boundaries + " 2 " + lowWall.getZ() + " " + highWall.getZ() + " " + SmoldynVCellMapper.SmoldynKeyword.p);
} else {
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.low_wall + " 2 " + lowWall.getZ() + " " + (compartSubDomain0.getBoundaryConditionZm().isNEUMANN() ? SmoldynVCellMapper.SmoldynKeyword.r : SmoldynVCellMapper.SmoldynKeyword.a));
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.high_wall + " 2 " + highWall.getZ() + " " + (compartSubDomain0.getBoundaryConditionZp().isNEUMANN() ? SmoldynVCellMapper.SmoldynKeyword.r : SmoldynVCellMapper.SmoldynKeyword.a));
}
}
}
printWriter.println();
} else {
// x
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.boundaries + " 0 " + lowWall.getX() + " " + highWall.getX());
if (dimension > 1) {
// y
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.boundaries + " 1 " + lowWall.getY() + " " + highWall.getY());
if (dimension > 2) {
// z
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.boundaries + " 2 " + lowWall.getZ() + " " + highWall.getZ());
}
}
printWriter.println();
// bounding walls as surfaces
// have to find boundary condition type
ISize sampleSize = simulation.getMeshSpecification().getSamplingSize();
int numX = sampleSize.getX();
int numY = dimension < 2 ? 1 : sampleSize.getY();
int numZ = dimension < 3 ? 1 : sampleSize.getZ();
if (dimension > 2) {
int[] k_wall = new int[] { 0, numZ - 1 };
for (int k = 0; k < k_wall.length; k++) {
for (int j = 0; j < numY; j++) {
for (int i = 0; i < numX; i++) {
int volIndex = k_wall[k] * numX * numY + j * numX + i;
for (SubVolume sv : subVolumes) {
// gather all the points in all the regions
GeometricRegion[] geometricRegions = geometrySurfaceDescription.getGeometricRegions(sv);
RegionInfo[] regionInfos = geometrySurfaceDescription.getRegionImage().getRegionInfos();
for (GeometricRegion gr : geometricRegions) {
VolumeGeometricRegion vgr = (VolumeGeometricRegion) gr;
for (RegionInfo ri : regionInfos) {
if (ri.getRegionIndex() == vgr.getRegionID() && ri.isIndexInRegion(volIndex)) {
boundaryZSubVolumes.add(sv);
}
}
}
}
}
}
}
}
if (dimension > 1) {
int[] j_wall = new int[] { 0, numY - 1 };
for (int k = 0; k < numZ; k++) {
for (int j = 0; j < j_wall.length; j++) {
for (int i = 0; i < numX; i++) {
int volIndex = k * numX * numY + j_wall[j] * numX + i;
for (SubVolume sv : subVolumes) {
// gather all the points in all the regions
GeometricRegion[] geometricRegions = geometrySurfaceDescription.getGeometricRegions(sv);
RegionInfo[] regionInfos = geometrySurfaceDescription.getRegionImage().getRegionInfos();
for (GeometricRegion gr : geometricRegions) {
VolumeGeometricRegion vgr = (VolumeGeometricRegion) gr;
for (RegionInfo ri : regionInfos) {
if (ri.getRegionIndex() == vgr.getRegionID() && ri.isIndexInRegion(volIndex)) {
boundaryYSubVolumes.add(sv);
}
}
}
}
}
}
}
}
int[] i_wall = new int[] { 0, numX - 1 };
for (int k = 0; k < numZ; k++) {
for (int j = 0; j < numY; j++) {
for (int i = 0; i < i_wall.length; i++) {
int volIndex = k * numX * numY + j * numX + i_wall[i];
for (SubVolume sv : subVolumes) {
// gather all the points in all the regions
GeometricRegion[] geometricRegions = geometrySurfaceDescription.getGeometricRegions(sv);
RegionInfo[] regionInfos = geometrySurfaceDescription.getRegionImage().getRegionInfos();
for (GeometricRegion gr : geometricRegions) {
VolumeGeometricRegion vgr = (VolumeGeometricRegion) gr;
for (RegionInfo ri : regionInfos) {
if (ri.getRegionIndex() == vgr.getRegionID() && ri.isIndexInRegion(volIndex)) {
boundaryXSubVolumes.add(sv);
}
}
}
}
}
}
}
Set<SubVolume> boundarySubVolumes = new HashSet<SubVolume>();
boundarySubVolumes.addAll(boundaryXSubVolumes);
boundarySubVolumes.addAll(boundaryYSubVolumes);
boundarySubVolumes.addAll(boundaryZSubVolumes);
BoundaryConditionType[] computedBct = new BoundaryConditionType[dimension * 2];
String[] smoldynBct = new String[dimension * 2];
String[] wallNames = new String[] { "Xm", "Xp", "Ym", "Yp", "Zm", "Zp" };
if (boundarySubVolumes.size() >= 1) {
for (SubVolume sv : boundarySubVolumes) {
CompartmentSubDomain csd = (CompartmentSubDomain) mathDesc.getSubDomain(sv.getName());
BoundaryConditionType[] bct = new BoundaryConditionType[] { csd.getBoundaryConditionXm(), csd.getBoundaryConditionXp(), csd.getBoundaryConditionYm(), csd.getBoundaryConditionYp(), csd.getBoundaryConditionZm(), csd.getBoundaryConditionZp() };
if (computedBct[0] == null) {
System.arraycopy(bct, 0, computedBct, 0, dimension * 2);
for (int i = 0; i < dimension * 2; i++) {
if (computedBct[i].isPERIODIC()) {
throw new SolverException("Models with both surfaces and periodic boundary conditions are not supported yet.");
}
smoldynBct[i] = computedBct[i].isDIRICHLET() ? SmoldynVCellMapper.SmoldynKeyword.absorb.name() : SmoldynVCellMapper.SmoldynKeyword.reflect.name();
}
} else {
for (int i = 0; i < dimension * 2; i++) {
if (!computedBct[i].compareEqual(bct[i])) {
throw new SolverException(wallNames[i] + " wall has different boundary conditions");
}
}
}
}
}
printWriter.println("# bounding wall surface");
// X walls
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.start_surface + " " + VCellSmoldynKeyword.bounding_wall_surface_X);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.action + " " + SmoldynVCellMapper.SmoldynKeyword.all + "(" + SmoldynVCellMapper.SmoldynKeyword.up + ") " + SmoldynVCellMapper.SmoldynKeyword.both + " " + SmoldynVCellMapper.SmoldynKeyword.reflect);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.action + " " + SmoldynVCellMapper.SmoldynKeyword.all + " " + SmoldynVCellMapper.SmoldynKeyword.front + " " + smoldynBct[0]);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.action + " " + SmoldynVCellMapper.SmoldynKeyword.all + " " + SmoldynVCellMapper.SmoldynKeyword.back + " " + smoldynBct[1]);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.color + " " + SmoldynVCellMapper.SmoldynKeyword.both + " 1 1 1");
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.polygon + " " + SmoldynVCellMapper.SmoldynKeyword.both + " " + SmoldynVCellMapper.SmoldynKeyword.edge);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.max_panels + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " 2");
// yz walls
switch(dimension) {
case 1:
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " +0 " + lowWall.getX());
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " -0 " + highWall.getX());
break;
case 2:
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " +0 " + lowWall.getX() + " " + lowWall.getY() + " " + extent.getY());
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " -0 " + highWall.getX() + " " + lowWall.getY() + " " + extent.getY());
break;
case 3:
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " +0 " + lowWall.getX() + " " + lowWall.getY() + " " + lowWall.getZ() + " " + extent.getY() + " " + extent.getZ());
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " -0 " + highWall.getX() + " " + lowWall.getY() + " " + lowWall.getZ() + " " + extent.getY() + " " + extent.getZ());
break;
}
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.end_surface);
printWriter.println();
if (dimension > 1) {
// Y walls
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.start_surface + " " + VCellSmoldynKeyword.bounding_wall_surface_Y);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.action + " " + SmoldynVCellMapper.SmoldynKeyword.all + "(" + SmoldynVCellMapper.SmoldynKeyword.up + ") " + SmoldynVCellMapper.SmoldynKeyword.both + " " + SmoldynVCellMapper.SmoldynKeyword.reflect);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.action + " " + SmoldynVCellMapper.SmoldynKeyword.all + " " + SmoldynVCellMapper.SmoldynKeyword.front + " " + smoldynBct[2]);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.action + " " + SmoldynVCellMapper.SmoldynKeyword.all + " " + SmoldynVCellMapper.SmoldynKeyword.back + " " + smoldynBct[3]);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.color + " " + SmoldynVCellMapper.SmoldynKeyword.both + " 1 1 1");
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.polygon + " " + SmoldynVCellMapper.SmoldynKeyword.both + " " + SmoldynVCellMapper.SmoldynKeyword.edge);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.max_panels + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " 2");
// xz walls
switch(dimension) {
case 2:
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " +1 " + lowWall.getX() + " " + lowWall.getY() + " " + extent.getX());
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " -1 " + lowWall.getX() + " " + highWall.getY() + " " + extent.getX());
break;
case 3:
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " +1 " + lowWall.getX() + " " + lowWall.getY() + " " + lowWall.getZ() + " " + extent.getX() + " " + extent.getZ());
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " -1 " + lowWall.getX() + " " + highWall.getY() + " " + lowWall.getZ() + " " + extent.getX() + " " + extent.getZ());
break;
}
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.end_surface);
printWriter.println();
if (dimension > 2) {
// Z walls
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.start_surface + " " + VCellSmoldynKeyword.bounding_wall_surface_Z);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.action + " " + SmoldynVCellMapper.SmoldynKeyword.all + "(" + SmoldynVCellMapper.SmoldynKeyword.up + ") " + SmoldynVCellMapper.SmoldynKeyword.both + " " + SmoldynVCellMapper.SmoldynKeyword.reflect);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.action + " " + SmoldynVCellMapper.SmoldynKeyword.all + " " + SmoldynVCellMapper.SmoldynKeyword.front + " " + smoldynBct[4]);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.action + " " + SmoldynVCellMapper.SmoldynKeyword.all + " " + SmoldynVCellMapper.SmoldynKeyword.back + " " + smoldynBct[5]);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.color + " " + SmoldynVCellMapper.SmoldynKeyword.both + " 1 1 1");
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.polygon + " " + SmoldynVCellMapper.SmoldynKeyword.both + " " + SmoldynVCellMapper.SmoldynKeyword.edge);
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.max_panels + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " 2");
// xy walls
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " +2 " + lowWall.getX() + " " + lowWall.getY() + " " + lowWall.getZ() + " " + extent.getX() + " " + extent.getY());
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.panel + " " + SmoldynVCellMapper.SmoldynKeyword.rect + " -2 " + lowWall.getX() + " " + lowWall.getY() + " " + highWall.getZ() + " " + extent.getX() + " " + extent.getY());
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.end_surface);
printWriter.println();
}
}
}
}
Also used :
Origin(org.vcell.util.Origin)
GeometrySurfaceDescription(cbit.vcell.geometry.surface.GeometrySurfaceDescription)
Extent(org.vcell.util.Extent)
ISize(org.vcell.util.ISize)
RegionInfo(cbit.vcell.geometry.RegionImage.RegionInfo)
BoundaryConditionType(cbit.vcell.math.BoundaryConditionType)
VolumeGeometricRegion(cbit.vcell.geometry.surface.VolumeGeometricRegion)
SurfaceGeometricRegion(cbit.vcell.geometry.surface.SurfaceGeometricRegion)
VolumeGeometricRegion(cbit.vcell.geometry.surface.VolumeGeometricRegion)
GeometricRegion(cbit.vcell.geometry.surface.GeometricRegion)
GeometrySpec(cbit.vcell.geometry.GeometrySpec)
CompartmentSubDomain(cbit.vcell.math.CompartmentSubDomain)
SubDomain(cbit.vcell.math.SubDomain)
MembraneSubDomain(cbit.vcell.math.MembraneSubDomain)
Coordinate(org.vcell.util.Coordinate)
SubVolume(cbit.vcell.geometry.SubVolume)
CompartmentSubDomain(cbit.vcell.math.CompartmentSubDomain)
SolverException(cbit.vcell.solver.SolverException)
HashSet(java.util.HashSet)
Example 48 with SubDomain
use of cbit.vcell.math.SubDomain in project vcell by virtualcell.
the class SmoldynFileWriter method writeDiffusions.
private void writeDiffusions() throws ExpressionBindingException, ExpressionException, MathException {
// writer diffusion properties
printWriter.println("# diffusion properties");
Enumeration<SubDomain> subDomainEnumeration = mathDesc.getSubDomains();
while (subDomainEnumeration.hasMoreElements()) {
SubDomain subDomain = subDomainEnumeration.nextElement();
List<ParticleProperties> particlePropertiesList = subDomain.getParticleProperties();
for (ParticleProperties pp : particlePropertiesList) {
String variableName = null;
if (subDomain instanceof MembraneSubDomain) {
variableName = getVariableName(pp.getVariable(), subDomain);
} else {
variableName = getVariableName(pp.getVariable(), null);
}
try {
double diffConstant = subsituteFlattenToConstant(pp.getDiffusion());
printWriter.println(SmoldynVCellMapper.SmoldynKeyword.difc + " " + variableName + " " + diffConstant);
} catch (NotAConstantException ex) {
throw new ExpressionException("diffusion coefficient for variable " + variableName + " is not a constant. Constants are required for all diffusion coefficients");
}
}
}
printWriter.println();
}
Also used :
CompartmentSubDomain(cbit.vcell.math.CompartmentSubDomain)
SubDomain(cbit.vcell.math.SubDomain)
MembraneSubDomain(cbit.vcell.math.MembraneSubDomain)
MembraneSubDomain(cbit.vcell.math.MembraneSubDomain)
ParticleProperties(cbit.vcell.math.ParticleProperties)
ExpressionException(cbit.vcell.parser.ExpressionException)
Example 49 with SubDomain
use of cbit.vcell.math.SubDomain in project vcell by virtualcell.
the class SubdomainInfo method write.
public static void write(File file, MathDescription mathDesc) throws IOException, MathException {
PrintWriter pw = null;
try {
pw = new PrintWriter(new FileWriter(file));
pw.println("# " + VCML.CompartmentSubDomain + " name, handle");
pw.println("# " + VCML.MembraneSubDomain + " name, inside compartment name, handle, outside compartment name, handle");
Enumeration<SubDomain> subdomains = mathDesc.getSubDomains();
while (subdomains.hasMoreElements()) {
SubDomain sd = subdomains.nextElement();
if (sd instanceof CompartmentSubDomain) {
CompartmentSubDomain csd = (CompartmentSubDomain) sd;
pw.println(VCML.CompartmentSubDomain + ", " + csd.getName() + ", " + mathDesc.getHandle(csd));
} else if (sd instanceof MembraneSubDomain) {
MembraneSubDomain msd = (MembraneSubDomain) sd;
CompartmentSubDomain insideCompartment = msd.getInsideCompartment();
CompartmentSubDomain outsideCompartment = msd.getOutsideCompartment();
pw.println(VCML.MembraneSubDomain + ", " + msd.getName() + ", " + insideCompartment.getName() + ", " + mathDesc.getHandle(insideCompartment) + ", " + outsideCompartment.getName() + ", " + mathDesc.getHandle(outsideCompartment));
}
}
pw.close();
} finally {
if (pw != null) {
pw.close();
}
}
}
Also used :
CompartmentSubDomain(cbit.vcell.math.CompartmentSubDomain)
SubDomain(cbit.vcell.math.SubDomain)
MembraneSubDomain(cbit.vcell.math.MembraneSubDomain)
MembraneSubDomain(cbit.vcell.math.MembraneSubDomain)
CompartmentSubDomain(cbit.vcell.math.CompartmentSubDomain)
FileWriter(java.io.FileWriter)
PrintWriter(java.io.PrintWriter)
Example 50 with SubDomain
use of cbit.vcell.math.SubDomain in project vcell by virtualcell.
the class MembraneParticleDiffusionVisitor method hasMembraneDiffusion.
private boolean hasMembraneDiffusion(MathDescription mathDesc) throws ExpressionException {
//
for (SubDomain subDomain : Collections.list(mathDesc.getSubDomains())) {
if (subDomain instanceof MembraneSubDomain) {
MembraneSubDomain membraneSubDomain = (MembraneSubDomain) subDomain;
for (ParticleProperties particleProperties : membraneSubDomain.getParticleProperties()) {
Expression diffusionCoef = particleProperties.getDiffusion();
diffusionCoef = MathUtilities.substituteFunctions(diffusionCoef, mathDesc);
diffusionCoef = diffusionCoef.flatten();
if (!diffusionCoef.isZero()) {
return true;
}
}
}
}
return false;
}
Also used :
SubDomain(cbit.vcell.math.SubDomain)
MembraneSubDomain(cbit.vcell.math.MembraneSubDomain)
MembraneSubDomain(cbit.vcell.math.MembraneSubDomain)
Expression(cbit.vcell.parser.Expression)
ParticleProperties(cbit.vcell.math.ParticleProperties)
Aggregations
SubDomain (cbit.vcell.math.SubDomain)50
MembraneSubDomain (cbit.vcell.math.MembraneSubDomain)35
CompartmentSubDomain (cbit.vcell.math.CompartmentSubDomain)34
Expression (cbit.vcell.parser.Expression)27
Variable (cbit.vcell.math.Variable)20
MathDescription (cbit.vcell.math.MathDescription)19
Equation (cbit.vcell.math.Equation)17
PdeEquation (cbit.vcell.math.PdeEquation)15
ExpressionException (cbit.vcell.parser.ExpressionException)15
ArrayList (java.util.ArrayList)15
OdeEquation (cbit.vcell.math.OdeEquation)14
Constant (cbit.vcell.math.Constant)13
VolVariable (cbit.vcell.math.VolVariable)13
Vector (java.util.Vector)12
SubVolume (cbit.vcell.geometry.SubVolume)11
Function (cbit.vcell.math.Function)11
MathException (cbit.vcell.math.MathException)11
Simulation (cbit.vcell.solver.Simulation)11
MemVariable (cbit.vcell.math.MemVariable)10
MembraneRegionVariable (cbit.vcell.math.MembraneRegionVariable)9
