public override void ExecuteSimple()
{
// TODO: Implement the workstep logic here.
SeismicCube cube = arguments.Cube;
SeismicCollection sc = cube.SeismicCollection;
SeismicProject proj = null;
SeismicRoot sroot;
sroot = SeismicRoot.Get(PetrelProject.PrimaryProject);
if (!sroot.HasSeismicProject)
{
return;
}
proj = sroot.SeismicProject;
using (ITransaction t = DataManager.NewTransaction()) {
t.Lock(proj);
InterpretationCollection aaa = proj.CreateInterpretationCollection("aaa");
HorizonInterpretation h = aaa.CreateHorizonInterpretation("surface", cube.Domain);
HorizonInterpretation3D h3d = h.CreateHorizonInterpretation3D(sc);
List <HorizonInterpretation3DSample> horizonsamples = new List <HorizonInterpretation3DSample>();
for (int i = 0; i < cube.NumSamplesIJK.I; i++)
{
for (int j = 0; j < cube.NumSamplesIJK.J; j++)
{
horizonsamples.Add(new HorizonInterpretation3DSample(i, j, -2000));
}
}
h3d.Samples = horizonsamples;
t.Commit();
}
}
public override void ExecuteSimple()
{
SeismicCube cube = arguments.Cube;
HorizonInterpretation hzInterp1 = arguments.HzInterpretation1;
HorizonInterpretation hzInterp2 = arguments.HzInterpretation2;
int interval = 3;
Hashtable ht2 = new Hashtable();
foreach (Point3 item in hzInterp2.GetPoints(cube.SeismicCollection))
{
IndexDouble3 ptIndexDbl = cube.IndexAtPosition(item);
Index3 seisIndex = ptIndexDbl.ToIndex3();
ht2.Add(seisIndex.I.ToString() + "-" + seisIndex.J.ToString(), ptIndexDbl.K);
//PetrelLogger.InfoOutputWindow(ptIndexDbl.I.ToString() + "-" + ptIndexDbl.J.ToString() + "-" + ptIndexDbl.K.ToString());
//PetrelLogger.InfoOutputWindow(seisIndex.I.ToString()+"-"+ seisIndex.J.ToString()+"-"+ seisIndex.K.ToString());
}
// Make sure we have input arguments
if (cube == null || hzInterp1 == null || hzInterp2 == null)
{
PetrelLogger.InfoOutputWindow("HelloSeismic: Arguments cannot be empty");
return;
}
// Make sure we have input arguments
if (cube.Domain != hzInterp1.Domain)
{
PetrelLogger.InfoOutputWindow("HelloSeismic: Cube and Horizon must be in the same domain");
return;
}
// Start a transaction
using (ITransaction t = DataManager.NewTransaction())
{
// Create an output horizon property if the user didn't supply one.
HorizonInterpretation3D hzInt3D = hzInterp1.GetHorizonInterpretation3D(cube.SeismicCollection);
t.Lock(hzInt3D);
// Create the property
// Template of the cube is the correct template
HorizonProperty3D horizonProp3D1 = hzInt3D.CreateProperty(cube.Template);
HorizonProperty3D horizonProp3D2 = hzInt3D.CreateProperty(cube.Template);
// cache cube indexes
Index3 cubeIndex = cube.NumSamplesIJK;
List <HorizonProperty3DSample> p1_1 = new List <HorizonProperty3DSample>();
List <HorizonProperty3DSample> p1_2 = new List <HorizonProperty3DSample>();
// Process the horizon property points.
foreach (PointPropertyRecord ppr in horizonProp3D1)
{
// do not need to initialize the output value, Petrel does this when the property is created initially
// ppr.Value = double.NaN;
// Get the location for the point
Point3 p = ppr.Geometry;
// Find the seismic sample at the point
IndexDouble3 ptIndexDbl = cube.IndexAtPosition(p);
Index3 seisIndex = ptIndexDbl.ToIndex3();
object obj = ht2[seisIndex.I.ToString() + "-" + seisIndex.J.ToString()];
if (obj == null)
{
continue;
}
double z2 = double.Parse(obj.ToString());
double z1_1 = double.NaN;
double z1_2 = double.NaN;
if (z2 != null)
{
z1_1 = ptIndexDbl.K - (ptIndexDbl.K - z2) / 3;
z1_2 = ptIndexDbl.K - 2 * (ptIndexDbl.K - z2) / 3;
}
// Get the trace containing the seismic sample
// SeismicCube.GetTrace(i, j) will throw an exception if the indices (i,j) is out of range.
if (seisIndex.I >= 0 && seisIndex.J >= 0 &&
seisIndex.I < cubeIndex.I && seisIndex.J < cubeIndex.J)
{
ITrace trace = cube.GetTrace(seisIndex.I, seisIndex.J);
p1_1.Add(new HorizonProperty3DSample(seisIndex.I, seisIndex.J, trace[Convert.ToInt32(z1_1)]));
p1_2.Add(new HorizonProperty3DSample(seisIndex.I, seisIndex.J, trace[Convert.ToInt32(z1_2)]));
}
}
horizonProp3D1.Samples = p1_1;
horizonProp3D2.Samples = p1_2;
// Commit the changes to the data.
t.Commit();
}
return;
}
public override void ExecuteSimple()
{
#region main exercise
SeismicCube cube = arguments.Cube;
HorizonInterpretation hzInterp = arguments.HzInterpretation;
HorizonProperty3D horizonProp3D = arguments.HorizonProp3D;
// Make sure we have input arguments
if (cube == null || hzInterp == null)
{
PetrelLogger.InfoOutputWindow("HelloSeismic: Arguments cannot be empty");
return;
}
// Make sure we have input arguments
if (cube.Domain != hzInterp.Domain)
{
PetrelLogger.InfoOutputWindow("HelloSeismic: Cube and Horizon must be in the same domain");
return;
}
// Start a transaction
using (ITransaction t = DataManager.NewTransaction())
{
// Create an output horizon property if the user didn't supply one.
if (horizonProp3D == null)
{
// get 3D part of the interpretation corresponding to cube's seismic collection
HorizonInterpretation3D hzInt3D = hzInterp.GetHorizonInterpretation3D(cube.SeismicCollection);
if (hzInt3D == null)
{
PetrelLogger.InfoOutputWindow("HelloSeismic: Unable to get Horizon Interpretation 3D from HzInt");
return;
}
t.Lock(hzInt3D);
// Create the property
// Template of the cube is the correct template
horizonProp3D = hzInt3D.CreateProperty(cube.Template);
}
else
{
// Lock the property so we can update it
t.Lock(horizonProp3D);
}
// cache cube indexes
Index3 cubeIndex = cube.NumSamplesIJK;
// Process the horizon property points.
foreach (PointPropertyRecord ppr in horizonProp3D)
{
// do not need to initialize the output value, Petrel does this when the property is created initially
// ppr.Value = double.NaN;
// Get the location for the point
Point3 p = ppr.Geometry;
// Find the seismic sample at the point
IndexDouble3 ptIndexDbl = cube.IndexAtPosition(p);
Index3 seisIndex = ptIndexDbl.ToIndex3();
// Get the trace containing the seismic sample
// SeismicCube.GetTrace(i, j) will throw an exception if the indices (i,j) is out of range.
if (seisIndex.I >= 0 && seisIndex.J >= 0 &&
seisIndex.I < cubeIndex.I && seisIndex.J < cubeIndex.J)
{
ITrace trace = cube.GetTrace(seisIndex.I, seisIndex.J);
// trace[k] will throw an exception if the index k is out of range.
// Set the property value to the corresponding trace sample value.
if (seisIndex.K >= 0 && seisIndex.K < cubeIndex.K)
{
ppr.Value = trace[seisIndex.K];
}
}
}
// Commit the changes to the data.
t.Commit();
// Set up the output argument value
arguments.HorizonProp3D = horizonProp3D;
}
#endregion
#region Challenging part, body
//
// Compute an attribute for all fault's interpretations under the SeismicProject
//
// Navigate to SeismicProject and loop through all collections
SeismicRoot sr = SeismicRoot.Get(PetrelProject.PrimaryProject);
SeismicProject sp = sr.SeismicProject;
// First part of lab checked for a cube, so project exists at this point,
// else something like: if (sp == SeismicProject.NullObject) return;
// some object can be transaction locked inside, need to commit before exit
using (ITransaction tr = DataManager.NewTransaction())
{
foreach (InterpretationCollection ic in sp.InterpretationCollections)
{
loopIC(ic, cube, tr);
}
tr.Commit();
}
#endregion
return;
}
