FesapiJavaExample.java

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package com.f2i.energisticsStandardsApi.example;

import java.util.UUID;
import com.f2i.energisticsStandardsApi.Grid2dRepresentationVector;
import com.f2i.energisticsStandardsApi.LocalDepth3dCrsVector;
import com.f2i.energisticsStandardsApi.SWIGTYPE_p_double;
import com.f2i.energisticsStandardsApi.SWIGTYPE_p_unsigned_int;
import com.f2i.energisticsStandardsApi.SWIGTYPE_p_unsigned_short;
import com.f2i.energisticsStandardsApi.WellVector;
import com.f2i.energisticsStandardsApi.WellboreGeometryVector;
import com.f2i.energisticsStandardsApi.WellboreTrajectoryRepresentationVector;
import com.f2i.energisticsStandardsApi.WellboreVector;
import com.f2i.energisticsStandardsApi.eml20__LengthUom;
import com.f2i.energisticsStandardsApi.eml21__LengthUom;
import com.f2i.energisticsStandardsApi.eml21__MassPerLengthUom;
import com.f2i.energisticsStandardsApi.eml21__WellStatus;
import com.f2i.energisticsStandardsApi.eml21__WellboreDatumReference;
import com.f2i.energisticsStandardsApi.fesapi;
import com.f2i.energisticsStandardsApi.resqml20__IndexableElements;
import com.f2i.energisticsStandardsApi.resqml20__MdReference;
import com.f2i.energisticsStandardsApi.resqml20__ResqmlPropertyKind;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_NS}.PropertySet;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_NS}.WellboreFrameRepresentation;
import com.f2i.energisticsStandardsApi.resqml20__ResqmlUom;
import com.f2i.energisticsStandardsApi.resqml20__TimeSetKind;
import com.f2i.energisticsStandardsApi.witsml20__ChannelStatus;
import com.f2i.energisticsStandardsApi.witsml20__HoleCasingType;
import com.f2i.energisticsStandardsApi.witsml20__WellboreShape;
import com.f2i.energisticsStandardsApi.witsml20__WellboreType;
import com.f2i.energisticsStandardsApi.common.AbstractHdfProxy;
import com.f2i.energisticsStandardsApi.common.DataObjectRepository;
import com.f2i.energisticsStandardsApi.common.EpcDocument;
import com.f2i.energisticsStandardsApi.common.PropertyKind;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_NS}.AbstractRepresentation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_NS}.AbstractValuesProperty;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_NS}.AbstractValuesProperty.hdfDatatypeEnum;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_NS}.MdDatum;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.AbstractIjkGridRepresentation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.ContinuousProperty;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.DiscreteProperty;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.EarthModelInterpretation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.GenericFeatureInterpretation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.Grid2dRepresentation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.Horizon;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.HorizonInterpretation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.IjkGridExplicitRepresentation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.LocalDepth3dCrs;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.OrganizationFeature;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.PolylineRepresentation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.SeismicLatticeFeature;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.SeismicLineFeature;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.SeismicLineSetFeature;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.TriangulatedSetRepresentation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.WellboreFeature;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.WellboreInterpretation;
import com.f2i.energisticsStandardsApi.${FESAPI_RESQML2_0_1_NS}.WellboreTrajectoryRepresentation;
import com.f2i.energisticsStandardsApi.${FESAPI_WITSML2_0_NS}.Well;
import com.f2i.energisticsStandardsApi.${FESAPI_WITSML2_0_NS}.Wellbore;
import com.f2i.energisticsStandardsApi.${FESAPI_WITSML2_0_NS}.WellboreGeometry;

public class FesapiJavaExample {
	private static Horizon horizon1;
	private static IjkGridExplicitRepresentation ijkgrid;
	private static PropertyKind cellIndexPropKind;

	/**
	 * Loading the FesapiCpp native library
	 */
	static {
		try {
			System.loadLibrary("${ASSEMBLY_NAME}");
		}
		catch (UnsatisfiedLinkError e) {
			System.out.println("UnsatisfiedLinkError : " + e.toString());
		}
	}

	private static void serializeWells(DataObjectRepository repo)
	{
		// WELL
		Well witsmlWell = repo.createWell("704a287c-5c24-4af3-a97b-bc6670f4e14f", "Well1");
		witsmlWell.setNameLegal("Legal Name");
		witsmlWell.setWaterDepth(0.0, eml21__LengthUom.eml21__LengthUom__0_x002e1_x0020ft);
		witsmlWell.setTimeZone(true, 0);
		witsmlWell.pushBackLocation("8cd3c8b2-face-4426-8aea-ae34870bd969", 275, 75, 0);
		witsmlWell.pushBackDatum("aa92fa8b-d6cc-459e-b456-27fec0c08b24", "well1 msl datum", eml21__WellboreDatumReference.eml21__WellboreDatumReference__kelly_x0020bushing, "Mean Sea Level", eml21__LengthUom.eml21__LengthUom__m, 0, 5100);
		witsmlWell.pushBackDatum("d3ac5401-d3e7-4474-b846-070673b210ae", "KB", eml21__WellboreDatumReference.eml21__WellboreDatumReference__kelly_x0020bushing, "Mean Sea Level", eml21__LengthUom.eml21__LengthUom__m, 15, 5100);
	
		// WELLBORE
		Wellbore witsmlWellbore = repo.createWellbore(witsmlWell, "3bd60188-5688-43df-89bb-935fe86a813f", "Wellbore1");
		witsmlWellbore.setNumber("Wb1");
		witsmlWellbore.setStatusWellbore(eml21__WellStatus.eml21__WellStatus__completed);
		witsmlWellbore.setIsActive(false);
		witsmlWellbore.setTypeWellbore(witsml20__WellboreType.witsml20__WellboreType__initial);
		witsmlWellbore.setShape(witsml20__WellboreShape.witsml20__WellboreShape__vertical);
		witsmlWellbore.setAchievedTD(true);
		witsmlWellbore.setMd(1000, eml21__LengthUom.eml21__LengthUom__m, "d3ac5401-d3e7-4474-b846-070673b210ae");
		witsmlWellbore.setMdPlanned(1000, eml21__LengthUom.eml21__LengthUom__m, "d3ac5401-d3e7-4474-b846-070673b210ae");

		// Geometry
		WellboreGeometry witsmlWbGeom = repo.createWellboreGeometry(witsmlWellbore, "c9dc03e9-722c-478b-b0ae-b2dd9da67c11", "My wellbore geometry", witsml20__ChannelStatus.witsml20__ChannelStatus__closed);
		witsmlWbGeom.setMdBase(0, eml21__LengthUom.eml21__LengthUom__m, "d3ac5401-d3e7-4474-b846-070673b210ae");
		witsmlWbGeom.pushBackSection();
		witsmlWbGeom.setWellboreGeometrySectionTypeHoleCasing(0, witsml20__HoleCasingType.witsml20__HoleCasingType__casing);
		witsmlWbGeom.setWellboreGeometrySectionOdSection(0, 30, eml21__LengthUom.eml21__LengthUom__in);
		witsmlWbGeom.setWellboreGeometrySectionMdInterval(0, 0, 250, "d3ac5401-d3e7-4474-b846-070673b210ae", eml21__LengthUom.eml21__LengthUom__m);
		witsmlWbGeom.setWellboreGeometrySectionTvdInterval(0, 0, 250, "d3ac5401-d3e7-4474-b846-070673b210ae", eml21__LengthUom.eml21__LengthUom__m);
		witsmlWbGeom.pushBackSection();
		witsmlWbGeom.setWellboreGeometrySectionTypeHoleCasing(1, witsml20__HoleCasingType.witsml20__HoleCasingType__casing);
		witsmlWbGeom.setWellboreGeometrySectionCurveConductor(1, false);
		witsmlWbGeom.setWellboreGeometrySectionDiaDrift(1, 17.5, eml21__LengthUom.eml21__LengthUom__in);
		witsmlWbGeom.setWellboreGeometrySectionFactFric(1, 0.25);
		witsmlWbGeom.setWellboreGeometrySectionGrade(1, "L80");
		witsmlWbGeom.setWellboreGeometrySectionIdSection(1, 18, eml21__LengthUom.eml21__LengthUom__in);
		witsmlWbGeom.setWellboreGeometrySectionOdSection(1, 20, eml21__LengthUom.eml21__LengthUom__in);
		witsmlWbGeom.setWellboreGeometrySectionWtPerLen(1, 123, eml21__MassPerLengthUom.eml21__MassPerLengthUom__lbm_x002fft);
		witsmlWbGeom.setWellboreGeometrySectionTvdInterval(1, 0, 990, "d3ac5401-d3e7-4474-b846-070673b210ae", eml21__LengthUom.eml21__LengthUom__m);
		
		// Features
		WellboreFeature wellbore1 = repo.createWellboreFeature("22d5b48f-f789-46e7-a454-6d8bd05afd0b", "Wellbore1");
		
		// Interpretations
		WellboreInterpretation wellbore1Interp1 = repo.createWellboreInterpretation(wellbore1, "dc7840fe-e5a3-4b53-a1df-18040bc4d0c0", "Wellbore1 Interp1", false);

		// Representation
		MdDatum mdInfo = repo.createMdDatum("36e91de5-7833-4b6d-90d0-1d643c0adece", "md Info", repo.getDefaultCrs(), resqml20__MdReference.resqml20__MdReference__mean_x0020sea_x0020level, 275, 75, 0);

		//Geometry	
		WellboreTrajectoryRepresentation w1i1TrajRep = repo.createWellboreTrajectoryRepresentation(wellbore1Interp1, "acd2cdcf-bb5d-48da-bd0e-9aeff3e52180", "Wellbore1 Interp1 TrajRep", mdInfo);
		SWIGTYPE_p_double controlPoints = fesapi.new_DoubleArray(12);
		SWIGTYPE_p_double trajectoryTangentVectors = fesapi.new_DoubleArray(12);
		SWIGTYPE_p_double trajectoryMds = fesapi.new_DoubleArray(4);
		try {
			fesapi.DoubleArray_setitem(controlPoints, 0, 275);
			fesapi.DoubleArray_setitem(controlPoints, 1, 75);
			fesapi.DoubleArray_setitem(controlPoints, 2, 0);
			fesapi.DoubleArray_setitem(controlPoints, 3, 275);
			fesapi.DoubleArray_setitem(controlPoints, 4, 75);
			fesapi.DoubleArray_setitem(controlPoints, 5, 325);
			fesapi.DoubleArray_setitem(controlPoints, 6, 275);
			fesapi.DoubleArray_setitem(controlPoints, 7, 75);
			fesapi.DoubleArray_setitem(controlPoints, 8, 500);
			fesapi.DoubleArray_setitem(controlPoints, 9, 275);
			fesapi.DoubleArray_setitem(controlPoints, 10, 75);
			fesapi.DoubleArray_setitem(controlPoints, 11, 1000);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 0, 0);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 1, 0);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 2, 1);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 3, 0);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 4, 0);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 5, 1);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 6, 0);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 7, 0);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 8, 1);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 9, 0);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 10, 0);
			fesapi.DoubleArray_setitem(trajectoryTangentVectors, 11, 1);
			fesapi.DoubleArray_setitem(trajectoryMds, 0, 0);
			fesapi.DoubleArray_setitem(trajectoryMds, 1, 325);
			fesapi.DoubleArray_setitem(trajectoryMds, 2, 500);
			fesapi.DoubleArray_setitem(trajectoryMds, 3, 1000);
			w1i1TrajRep.setGeometry(controlPoints, trajectoryTangentVectors, trajectoryMds, 4, 0, repo.getDefaultHdfProxy());			
		}
		finally {
			fesapi.delete_DoubleArray(controlPoints);
			fesapi.delete_DoubleArray(trajectoryTangentVectors);
			fesapi.delete_DoubleArray(trajectoryMds);
		}
		
		// WellboreFeature frame
		WellboreFrameRepresentation w1i1FrameRep = repo.createWellboreFrameRepresentation(wellbore1Interp1, "d873e243-d893-41ab-9a3e-d20b851c099f", "Wellbore1 Interp1 FrameRep", w1i1TrajRep);
		SWIGTYPE_p_double logMds = fesapi.new_DoubleArray(5);
		try {
			fesapi.DoubleArray_setitem(logMds, 0, 0);
			fesapi.DoubleArray_setitem(logMds, 1, 250);
			fesapi.DoubleArray_setitem(logMds, 2, 500);
			fesapi.DoubleArray_setitem(logMds, 3, 750);
			fesapi.DoubleArray_setitem(logMds, 4, 1000);
			w1i1FrameRep.setMdValues(logMds, 5, repo.getDefaultHdfProxy());					
		}
		finally {
			fesapi.delete_DoubleArray(logMds);
		}
	
		WellboreFrameRepresentation w1i1RegularFrameRep = repo.createWellboreFrameRepresentation(wellbore1Interp1, "a54b8399-d3ba-4d4b-b215-8d4f8f537e66", "Wellbore1 Interp1 Regular FrameRep", w1i1TrajRep);
		w1i1RegularFrameRep.setMdValues(0, 200, 6);
	}

	private static void serializeBoundaries(DataObjectRepository repo, AbstractHdfProxy hdfProxy) {
		// Seismic Lattice
		SeismicLatticeFeature seismicLattice = repo.createSeismicLattice("eb6a5e97-4d86-4809-b136-051f34cfcb51", "Seismic lattice", 2, 2, 150, 152, 4, 2);
		GenericFeatureInterpretation seismicLatticeInterp = repo.createGenericFeatureInterpretation(seismicLattice, "97816427-6ef6-4776-b21c-5b93c8a6310a", "Seismic lattice Interp");
		Grid2dRepresentation seismicLatticeRep = repo.createGrid2dRepresentation(seismicLatticeInterp, "aa5b90f1-2eab-4fa6-8720-69dd4fd51a4d", "Seismic lattice Rep");
		seismicLatticeRep.setGeometryAsArray2dOfLatticePoints3d(4, 2, 0, 0, 0, 1, 0, 2, 0, 1, 3, 250, 200);

		// Seismic Line Set
		SeismicLineSetFeature seismicLineSet = repo.createSeismicLineSet("53c6a0be-c901-4bb6-845b-fba79745da02", "Seismic line Set");

		// Seismic Line
		SeismicLineFeature seismicLine = repo.createSeismicLine("117f9bf6-6bb0-49f2-9cee-46912300bff6", "Seismic line", 1, 0, 5);
		seismicLine.setSeismicLineSet(seismicLineSet);
		GenericFeatureInterpretation seismicLineInterp = repo.createGenericFeatureInterpretation(seismicLine, "", "Seismic line Interp");
		PolylineRepresentation seismicLineRep = repo.createPolylineRepresentation(seismicLineInterp, "", "Seismic line Rep");
		SWIGTYPE_p_double seismicLinePoints = fesapi.new_DoubleArray(15);
		try {
			fesapi.DoubleArray_setitem(seismicLinePoints, 0, 0);
			fesapi.DoubleArray_setitem(seismicLinePoints, 1, 100);
			fesapi.DoubleArray_setitem(seismicLinePoints, 2, 0);
			fesapi.DoubleArray_setitem(seismicLinePoints, 3, 150);
			fesapi.DoubleArray_setitem(seismicLinePoints, 4, 110);
			fesapi.DoubleArray_setitem(seismicLinePoints, 5, 0);
			fesapi.DoubleArray_setitem(seismicLinePoints, 6, 300);
			fesapi.DoubleArray_setitem(seismicLinePoints, 7, 120);
			fesapi.DoubleArray_setitem(seismicLinePoints, 8, 0);
			fesapi.DoubleArray_setitem(seismicLinePoints, 9, 450);
			fesapi.DoubleArray_setitem(seismicLinePoints, 10, 130);
			fesapi.DoubleArray_setitem(seismicLinePoints, 11, 0);
			fesapi.DoubleArray_setitem(seismicLinePoints, 12, 600);
			fesapi.DoubleArray_setitem(seismicLinePoints, 13, 140);
			fesapi.DoubleArray_setitem(seismicLinePoints, 14, 0);
			seismicLineRep.setGeometry(seismicLinePoints, 5, hdfProxy);
		}
		finally {
			fesapi.delete_DoubleArray(seismicLinePoints);
		}

		// Features
		horizon1 = repo.createHorizon("35d7b57e-e5ff-4062-95af-ba2d7c4ce347", "Horizon1");
		horizon1.setAge(300000000);

		// Interpretations
		HorizonInterpretation horizon1Interp1 = repo.createHorizonInterpretation(horizon1, "ac12dc12-4951-459b-b585-90f48aa88a5a", "Horizon1 Interp1");

		// Horizon Representations
		PolylineRepresentation h1i1SinglePolylineRep = repo.createPolylineRepresentation(horizon1Interp1, "", "Horizon1 Interp1 SinglePolylineRep");

		SWIGTYPE_p_double h1i1SinglePolylineRepPoints = fesapi.new_DoubleArray(12);
		try {
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 0, 0);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 1, 100);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 2, 300);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 3, 150);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 4, 110);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 5, 300);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 6, 450);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 7, 130);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 8, 350);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 9, 600);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 10, 140);
			fesapi.DoubleArray_setitem(h1i1SinglePolylineRepPoints, 11, 350);
			h1i1SinglePolylineRep.setGeometry(h1i1SinglePolylineRepPoints, 4, hdfProxy);
		}
		finally {
			fesapi.delete_DoubleArray(h1i1SinglePolylineRepPoints);
		}

		SWIGTYPE_p_double seismicLineAbscissa = fesapi.new_DoubleArray(4);
		try {
			fesapi.DoubleArray_setitem(seismicLineAbscissa, 0, 0.0);
			fesapi.DoubleArray_setitem(seismicLineAbscissa, 1, 1.0);
			fesapi.DoubleArray_setitem(seismicLineAbscissa, 2, 3.0);
			fesapi.DoubleArray_setitem(seismicLineAbscissa, 3, 4.0);
			h1i1SinglePolylineRep.addSeismic2dCoordinatesToPatch(0, seismicLineAbscissa, seismicLineRep, hdfProxy);
		}
		finally {
			fesapi.delete_DoubleArray(seismicLineAbscissa);
		}

		Grid2dRepresentation h1i1SingleGrid2dRep = repo.createGrid2dRepresentation(horizon1Interp1, "7281e7b0-ca21-477d-b118-e9b7200e2809", "Horizon1 Interp1 Grid2dRep");
		SWIGTYPE_p_double zValues = fesapi.new_DoubleArray(8);
		try {
			fesapi.DoubleArray_setitem(zValues, 0, 300.0);
			fesapi.DoubleArray_setitem(zValues, 1, 300.0);
			fesapi.DoubleArray_setitem(zValues, 2, 350.0);
			fesapi.DoubleArray_setitem(zValues, 3, 350.0);
			fesapi.DoubleArray_setitem(zValues, 4, 300.0);
			fesapi.DoubleArray_setitem(zValues, 5, 300.0);
			fesapi.DoubleArray_setitem(zValues, 6, 350.0);
			fesapi.DoubleArray_setitem(zValues, 7, 350.0);
			h1i1SingleGrid2dRep.setGeometryAsArray2dOfExplicitZ(zValues, 4, 2, hdfProxy, seismicLatticeRep);
		}
		finally {
			fesapi.delete_DoubleArray(zValues);
		}

		// Horizon 1 triangulated representation
		TriangulatedSetRepresentation h1i1triRep = repo.createTriangulatedSetRepresentation(horizon1Interp1,
				"0c49b40a-632a-457a-b519-a178f40a397d",
				"Horizon1 Interp1 TriRep");
		// Patch 0
		SWIGTYPE_p_double explicitPointsHor1Patch0 = fesapi.new_DoubleArray(15);
		SWIGTYPE_p_unsigned_int triangleNodeIndexHorPatch0 = fesapi.new_UIntArray(9);
		try {
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 0, 0);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 1, 100);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 2, 0);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 3, 150);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 4, 110);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 5, 0);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 6, 300);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 7, 120);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 8, 0);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 9, 450);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 10, 130);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 11, 0);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 12, 600);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 13, 140);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 14, 0);

			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 0, 0);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 1, 1);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 2, 3);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 3, 1);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 4, 4);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 5, 3);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 6, 1);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 7, 2);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 8, 4);

			h1i1triRep.pushBackTrianglePatch(5, explicitPointsHor1Patch0, 3, triangleNodeIndexHorPatch0, hdfProxy);
		}
		finally {
			fesapi.delete_DoubleArray(explicitPointsHor1Patch0);
			fesapi.delete_UIntArray(triangleNodeIndexHorPatch0);
		}
		// Patch 1
		SWIGTYPE_p_double explicitPointsHor1Patch1 = fesapi.new_DoubleArray(15);
		SWIGTYPE_p_unsigned_int triangleNodeIndexHorPatch1 = fesapi.new_UIntArray(9);
		try {
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 0, 300);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 1, 0);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 2, 350);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 3, 300);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 4, 100);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 5, 350);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 6, 300);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 7, 200);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 8, 350);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 9, 700);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 10, 0);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 11, 350);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 12, 700);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 13, 200);
			fesapi.DoubleArray_setitem(explicitPointsHor1Patch0, 14, 350);

			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 0, 5);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 1, 6);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 2, 8);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 3, 6);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 4, 9);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 5, 8);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 6, 6);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 7, 7);
			fesapi.UIntArray_setitem(triangleNodeIndexHorPatch0, 8, 9);

			h1i1triRep.pushBackTrianglePatch(5, explicitPointsHor1Patch1, 3, triangleNodeIndexHorPatch1, hdfProxy);
		}
		finally {
			fesapi.delete_DoubleArray(explicitPointsHor1Patch1);
			fesapi.delete_UIntArray(triangleNodeIndexHorPatch1);
		}

		//
		// Properties
		//
		PropertyKind  propType1 = repo.createPropertyKind("f7ad7cf5-f2e7-4daa-8b13-7b3df4edba3b", "propType1", "urn:resqml:f2i.com:testingAPI", resqml20__ResqmlUom.resqml20__ResqmlUom__Euc, resqml20__ResqmlPropertyKind.resqml20__ResqmlPropertyKind__continuous);
		ContinuousProperty contProp1 = repo.createContinuousProperty(h1i1SingleGrid2dRep, "fcaccfc7-10cb-4f73-800e-a381642478cb", "Horizon1 Interp1 Grid2dRep Prop1", 2,
				resqml20__IndexableElements.resqml20__IndexableElements__nodes, resqml20__ResqmlUom.resqml20__ResqmlUom__m, propType1);
		SWIGTYPE_p_double prop1Values = fesapi.new_DoubleArray(16);
		try {
			fesapi.DoubleArray_setitem(prop1Values, 0, 301);
			fesapi.DoubleArray_setitem(prop1Values, 1, 302);
			fesapi.DoubleArray_setitem(prop1Values, 2, 301);
			fesapi.DoubleArray_setitem(prop1Values, 3, 302);
			fesapi.DoubleArray_setitem(prop1Values, 4, 351);
			fesapi.DoubleArray_setitem(prop1Values, 5, 352);
			fesapi.DoubleArray_setitem(prop1Values, 6, 351);
			fesapi.DoubleArray_setitem(prop1Values, 7, 352);
			fesapi.DoubleArray_setitem(prop1Values, 8, 301);
			fesapi.DoubleArray_setitem(prop1Values, 9, 302);
			fesapi.DoubleArray_setitem(prop1Values, 10, 301);
			fesapi.DoubleArray_setitem(prop1Values, 11, 302);
			fesapi.DoubleArray_setitem(prop1Values, 12, 351);
			fesapi.DoubleArray_setitem(prop1Values, 13, 352);
			fesapi.DoubleArray_setitem(prop1Values, 14, 351);
			fesapi.DoubleArray_setitem(prop1Values, 15, 352);

			contProp1.pushBackDoubleHdf5Array2dOfValues(prop1Values, 2, 8, hdfProxy);
		}
		finally {
			fesapi.delete_DoubleArray(prop1Values);
		}
	}
	
	private static void serializeIjkGrid(DataObjectRepository repo, AbstractHdfProxy hdfProxy)
	{
		cellIndexPropKind = repo.createPropertyKind("0a5f4400-fa3e-11e5-80a4-0002a5d5c51b", "cellIndex", "urn:resqml:f2i-consulting.com", resqml20__ResqmlUom.resqml20__ResqmlUom__Euc, resqml20__ResqmlPropertyKind.resqml20__ResqmlPropertyKind__discrete);
		OrganizationFeature earthModel = repo.createEarthModel("f2060ce0-fa3d-11e5-8620-0002a5d5c51b", "Grid");
		EarthModelInterpretation earthModelInterp = repo.createEarthModelInterpretation(earthModel, "f5cd7520-fa3d-11e5-b65b-0002a5d5c51b", "Grid interp");
		ijkgrid = repo.createIjkGridExplicitRepresentation(earthModelInterp, "df2103a0-fa3d-11e5-b8d4-0002a5d5c51b", "Two faulted sugar cubes (explicit geometry)", 2, 1, 1);
		DiscreteProperty discreteProp1 = repo.createDiscreteProperty(ijkgrid, "ee0857fe-23ad-4dd9-8300-21fa2e9fb572", "Two faulted sugar cubes cellIndex", 1,
				resqml20__IndexableElements.resqml20__IndexableElements__cells, cellIndexPropKind);

		SWIGTYPE_p_unsigned_short propValues = fesapi.new_UShortArray(2);
		try {
			fesapi.UShortArray_setitem(propValues, 0, 0);
			fesapi.UShortArray_setitem(propValues, 1, 1);
			discreteProp1.pushBackUShortHdf5Array3dOfValues(propValues, 2, 1, 1, hdfProxy, 1111);
		}
		finally {
			fesapi.delete_UShortArray(propValues);
		}
		
		DiscreteProperty discreteProp2 = repo.createDiscreteProperty(ijkgrid, "", "Two faulted sugar cubes other cellIndex", 1,
				resqml20__IndexableElements.resqml20__IndexableElements__cells, cellIndexPropKind);

		propValues = fesapi.new_UShortArray(2);
		try {
			fesapi.UShortArray_setitem(propValues, 0, 10);
			fesapi.UShortArray_setitem(propValues, 1, 11);
			discreteProp2.pushBackUShortHdf5Array3dOfValues(propValues, 2, 1, 1, hdfProxy, 1111);
		}
		finally {
			fesapi.delete_UShortArray(propValues);
		}
		
		PropertySet propSet = repo.createPropertySet("", "Testing property set", false, true, resqml20__TimeSetKind.resqml20__TimeSetKind__not_x0020a_x0020time_x0020set);
		propSet.pushBackProperty(discreteProp1);
		propSet.pushBackProperty(discreteProp2);
	}

	private static void serialize()
	{
		EpcDocument pck = new EpcDocument("testingPackageJava.epc");
		DataObjectRepository repo = new DataObjectRepository();
		
		try {
			LocalDepth3dCrs crs = repo.createLocalDepth3dCrs(UUID.randomUUID().toString(), "UTF8 Crs title", 0.0, 0.0, 0.0, 0.0, eml20__LengthUom.eml20__LengthUom__m, 5215, eml20__LengthUom.eml20__LengthUom__m, "Unknown", false);
			repo.setDefaultCrs(crs);
			AbstractHdfProxy hdfProxy = repo.createHdfProxy("", "Hdf Proxy", pck.getStorageDirectory(), pck.getName() + ".h5", DataObjectRepository.openingMode.OVERWRITE);
			repo.setDefaultHdfProxy(hdfProxy);
			
			// WITSML
			serializeWells(repo);

			// RESQML
			serializeBoundaries(repo, hdfProxy);			
			serializeIjkGrid(repo, hdfProxy);

			pck.serializeFrom(repo);
		}
		finally {
			pck.close();
			repo.clear();
		}
	}

	private static void deserialize()
	{
		EpcDocument pck = new EpcDocument("testingPackageJava.epc");
		DataObjectRepository repo = new DataObjectRepository();

		try {
			String status = pck.deserializeInto(repo);
			if (!status.isEmpty()) {
				System.out.println("Status : " + status);
			}

			LocalDepth3dCrsVector crs_set = repo.getLocalDepth3dCrsSet();
			System.out.println("CRS title is " + crs_set.get(0).getTitle());

			Grid2dRepresentationVector horizonGrid2dSet = repo.getHorizonGrid2dRepSet();
			System.out.println("HORIZONS GRID 2D REP");
			for (int i = 0; i < horizonGrid2dSet.size(); i++) {
				Grid2dRepresentation horizonGrid2d = horizonGrid2dSet.get(i);

				System.out.println("X origin " + horizonGrid2d.getXOriginInGlobalCrs());
				System.out.println("Y origin " + horizonGrid2d.getYOriginInGlobalCrs());

				System.out.println("I Node Count " + horizonGrid2d.getNodeCountAlongIAxis());
				System.out.println("J Node Count " + horizonGrid2d.getNodeCountAlongJAxis());
				SWIGTYPE_p_double zValues = fesapi.new_DoubleArray(horizonGrid2d.getNodeCountAlongIAxis() * horizonGrid2d.getNodeCountAlongJAxis());
				try {
					horizonGrid2d.getZValuesInGlobalCrs(zValues);
					System.out.println("First zValue is : " + fesapi.DoubleArray_getitem(zValues, 0));
					System.out.println("Second zValue is : " + fesapi.DoubleArray_getitem(zValues, 1));
					System.out.println("Third zValue is : " + fesapi.DoubleArray_getitem(zValues, 2));
					System.out.println("Fourth zValue is : " + fesapi.DoubleArray_getitem(zValues, 3));
					System.out.println("Fifth zValue is : " + fesapi.DoubleArray_getitem(zValues, 4));
				}
				finally {
					fesapi.delete_DoubleArray(zValues);
				}
				System.out.println("XIOffset : " + horizonGrid2d.getXIOffsetInGlobalCrs());
				System.out.println("YIOffset : " + horizonGrid2d.getYIOffsetInGlobalCrs());
				System.out.println("XJOffset : " + horizonGrid2d.getXJOffsetInGlobalCrs());
				System.out.println("YJOffset : " + horizonGrid2d.getYJOffsetInGlobalCrs());
				if (horizonGrid2d.isISpacingConstant()) {
					System.out.println("Spacing in I is constant : " + horizonGrid2d.getISpacing());
				}
				else {
					System.out.println("Spacing in I is not constant.");
				}
				if (horizonGrid2d.isJSpacingConstant()) {
					System.out.println("Spacing in J is constant : " + horizonGrid2d.getJSpacing());
				}
				else {
					System.out.println("Spacing in J is not constant.");
				}
			}

			deserializeWell(repo);
			
			deserializeIjkGrid(repo);	
		}
		finally {
			pck.close();
			repo.clear();
		}
	}
	
	private static void showAllProperties(AbstractRepresentation rep)
	{
		long propCount = rep.getValuesPropertyCount();
		if (propCount > 0) {
			System.out.println("PROPERTIES");
		}
		for (long propIndex = 0; propIndex < propCount; ++propIndex) {
			AbstractValuesProperty propVal = rep.getValuesProperty(propIndex);
			System.out.println("\tProperty : " + propVal.getTitle());

			long propSetCount = propVal.getPropertySetCount();
			for (long propSetIndex = 0; propSetIndex < propSetCount; ++propSetIndex) {
				PropertySet propSet = propVal.getPropertySet(propSetIndex);
				System.out.println("\tContained in property set : " + propSet.getTitle());
			}
		}
	}

	private static void deserializeWell(DataObjectRepository repo) {
		WellVector witsmlWells = repo.getWells();
		for (int wellIdx = 0; wellIdx < witsmlWells.size(); ++wellIdx) {
			Well witsmlWell = witsmlWells.get(wellIdx);
			System.out.println("witsml Well: " + witsmlWell.getTitle() + " (" + witsmlWell.getUuid() + ")");
			System.out.println("Location projected X : " + witsmlWell.getLocationProjectedX(0));
			System.out.println("Location projected Y : " + witsmlWell.getLocationProjectedY(0));
			System.out.println("\tnameLegal : " + witsmlWell.getNameLegal());
			System.out.println("\twaterDepth : " + witsmlWell.getWaterDepthValue() + " (" + witsmlWell.getWaterDepthUom() + ")");
			if (witsmlWell.hasTimeZone())
			{
				System.out.println("\ttimeZone : " + witsmlWell.getTimeZoneHours() + " hours");
			}
			WellboreVector witsmlWellbores = witsmlWell.getWellbores();
			for (int wellboreIdx = 0; wellboreIdx < witsmlWellbores.size(); ++wellboreIdx) {
				Wellbore witsmlWellbore = witsmlWellbores.get(wellboreIdx);
				System.out.println("witsml wellbore: " + witsmlWellbore.getTitle() + " (" + witsmlWellbore.getUuid() + ")");
				WellboreGeometryVector wbGeoms = witsmlWellbore.getWellboreGeometries();
				for (int wbGeomIdx = 0; wbGeomIdx < wbGeoms.size(); ++wbGeomIdx) {
					WellboreGeometry wbGeom = wbGeoms.get(wbGeomIdx);
					System.out.println("witsml wellbore geom: " + wbGeom.getTitle() + " (" + wbGeom.getUuid() + ")");
					if (wbGeom.hasDepthWaterMean()) { System.out.println("DepthWaterMean: " + wbGeom.getDepthWaterMeanValue() + " " + wbGeom.getDepthWaterMeanUom()); }
					if (wbGeom.hasGapAir()) { System.out.println("GapAir: " + wbGeom.getGapAirValue() + " " + wbGeom.getGapAirUom()); }
					if (wbGeom.hasMdBase()) { System.out.println("MdBase: " + wbGeom.getMdBaseValue() + " " + wbGeom.getMdBaseUom() + " datum=" + wbGeom.getMdBaseDatum()); }
					for (int sectionIdx = 0; sectionIdx < wbGeom.getSectionCount(); ++sectionIdx) {
						System.out.println("Section " + sectionIdx);
						if (wbGeom.hasWellboreGeometrySectionCurveConductor(sectionIdx)) { System.out.println("CurveConductor: " + wbGeom.getWellboreGeometrySectionCurveConductor(sectionIdx)); }
						if (wbGeom.hasWellboreGeometrySectionDiaDrift(sectionIdx)) { System.out.println("DiaDrift: " + wbGeom.getWellboreGeometrySectionDiaDriftValue(sectionIdx) + " " + wbGeom.getWellboreGeometrySectionDiaDriftUom(sectionIdx)); }
						if (wbGeom.hasWellboreGeometrySectionFactFric(sectionIdx)) { System.out.println("FactFric: " + wbGeom.getWellboreGeometrySectionFactFric(sectionIdx)); }
						if (wbGeom.hasWellboreGeometrySectionGrade(sectionIdx)) { System.out.println("Grade: " + wbGeom.getWellboreGeometrySectionGrade(sectionIdx)); }
						if (wbGeom.hasWellboreGeometrySectionIdSection(sectionIdx)) { System.out.println("IdSection: " + wbGeom.getWellboreGeometrySectionIdSectionValue(sectionIdx) + " " + wbGeom.getWellboreGeometrySectionIdSectionUom(sectionIdx)); }
						if (wbGeom.hasWellboreGeometrySectionOdSection(sectionIdx)) { System.out.println("OdSection: " + wbGeom.getWellboreGeometrySectionOdSectionValue(sectionIdx) + " " + wbGeom.getWellboreGeometrySectionOdSectionUom(sectionIdx)); }
						if (wbGeom.hasWellboreGeometrySectionTypeHoleCasing(sectionIdx)) { System.out.println("TypeHoleCasing: " + wbGeom.getWellboreGeometrySectionTypeHoleCasing(sectionIdx)); }
						if (wbGeom.hasWellboreGeometrySectionMdInterval(sectionIdx)) {
							System.out.println("Base md: " + wbGeom.getWellboreGeometrySectionMdIntervalBase(sectionIdx) + " " + wbGeom.getWellboreGeometrySectionMdIntervalBaseUom(sectionIdx));
							System.out.println("Top md: " + wbGeom.getWellboreGeometrySectionMdIntervalTop(sectionIdx) + " " + wbGeom.getWellboreGeometrySectionMdIntervalTopUom(sectionIdx));
							System.out.println("datum: " + wbGeom.getWellboreGeometrySectionMdIntervaldatum(sectionIdx));
						}
						if (wbGeom.hasWellboreGeometrySectionTvdInterval(sectionIdx)) {
							System.out.println("Base Tvd: " + wbGeom.getWellboreGeometrySectionTvdIntervalBase(sectionIdx) + " " + wbGeom.getWellboreGeometrySectionTvdIntervalBaseUom(sectionIdx));
							System.out.println("Top Tvd: " + wbGeom.getWellboreGeometrySectionTvdIntervalTop(sectionIdx) + " " + wbGeom.getWellboreGeometrySectionTvdIntervalTopUom(sectionIdx));
							System.out.println("datum: " + wbGeom.getWellboreGeometrySectionTvdIntervaldatum(sectionIdx));
						}
					}
				}
			}
		}
		
		System.out.println("WellboreFrameRepresentation");
		WellboreTrajectoryRepresentationVector wellboreCubicTrajSet = repo.getWellboreTrajectoryRepresentationSet();
		for (int trajIndex = 0; trajIndex < wellboreCubicTrajSet.size(); trajIndex++) {
			System.out.println("wbf count = " + wellboreCubicTrajSet.get(trajIndex).getWellboreFrameRepresentationCount());
			for (int wbfIndex = 0; wbfIndex < wellboreCubicTrajSet.get(trajIndex).getWellboreFrameRepresentationCount(); wbfIndex++) {
				WellboreFrameRepresentation wbf = wellboreCubicTrajSet.get(trajIndex).getWellboreFrameRepresentation(wbfIndex);
				
				System.out.println("WellboreFrameRepresentation title : " + wbf.getTitle());
				System.out.println("WellboreFrameRepresentation uuid : " + wbf.getUuid());
				
				System.out.println("Value Count : " + wbf.getMdValuesCount());
				if (wbf.areMdValuesRegularlySpaced())
				{
					System.out.println("Regularly spaced");
					System.out.println("First Value : " + wbf.getMdFirstValue());
					System.out.println("Increment : " + wbf.getMdConstantIncrementValue());
				}
				else
				{
					System.out.println("Iregularly spaced");
				}
				if (wbf.getMdHdfDatatype() == hdfDatatypeEnum.DOUBLE)
					System.out.println("Hdf datatype is NATIVE DOUBLE");
				else if (wbf.getMdHdfDatatype() == hdfDatatypeEnum.FLOAT)
					System.out.println("Hdf datatype is NATIVE FLOAT");
				else if (wbf.getMdHdfDatatype() == hdfDatatypeEnum.UNKNOWN)
					System.out.println("Hdf datatype is UNKNOWN");
			}
		}
	}
	
	private static void deserializeIjkGrid(DataObjectRepository repo) {
		System.out.println("IJK GRID REP");
		long ijkGridCount = repo.getIjkGridRepresentationCount();
		for (long ijkGridIdx = 0; ijkGridIdx < ijkGridCount; ++ijkGridIdx)
		{
			AbstractIjkGridRepresentation ijkGrid = repo.getIjkGridRepresentation(ijkGridIdx);
			System.out.println("\tIjk Grid : " + ijkGrid.getTitle());
			showAllProperties(ijkGrid);
		}
	}

	public static void main(String[] args) {
		serialize();
		deserialize();
	}
}