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FesapiJavaExample.java
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FesapiJavaExample.java
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/*-----------------------------------------------------------------------
Licensed to the Apache Software Foundation (ASF) under one
or more contributor license agreements. See the NOTICE file
distributed with this work for additional information
regarding copyright ownership. The ASF licenses this file
to you under the Apache License, Version 2.0 (the
"License"; you may not use this file except in compliance
with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing,
software distributed under the License is distributed on an
"AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, either express or implied. See the License for the
specific language governing permissions and limitations
under the License.
-----------------------------------------------------------------------*/
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();
}
}