/// <summary>
/// For each point in the list, get the sub grid and extract productionData at the station/offset i.e pointOfInterest
/// This could be optimized to get any poi from each sub grid before disposal
/// </summary>
private StationOffsetReportRequestResponse_ClusterCompute GetProductionData()
{
var result = new StationOffsetReportRequestResponse_ClusterCompute {
ResultStatus = RequestErrorStatus.Unknown
};
IDesignWrapper cutFillDesignWrapper = null;
if (requestArgument.ReferenceDesign != null && requestArgument.ReferenceDesign.DesignID != Guid.Empty)
{
var cutFillDesign = siteModel.Designs.Locate(requestArgument.ReferenceDesign.DesignID);
if (cutFillDesign == null)
{
throw new ArgumentException($"Design {requestArgument.ReferenceDesign.DesignID} not a recognized design in project {requestArgument.ProjectID}");
}
cutFillDesignWrapper = new DesignWrapper(requestArgument.ReferenceDesign, cutFillDesign);
}
var existenceMap = siteModel.ExistenceMap;
var utilities = DIContext.Obtain <IRequestorUtilities>();
var requestors = utilities.ConstructRequestors(null, siteModel, requestArgument.Overrides, requestArgument.LiftParams,
utilities.ConstructRequestorIntermediaries(siteModel, requestArgument.Filters, true, GridDataType.CellProfile),
AreaControlSet.CreateAreaControlSet(), existenceMap);
// Obtain the primary partition map to allow this request to determine the elements it needs to process
bool[] primaryPartitionMap = ImmutableSpatialAffinityPartitionMap.Instance().PrimaryPartitions();
SubGridTreeBitmapSubGridBits cellOverrideMask = new SubGridTreeBitmapSubGridBits(SubGridBitsCreationOptions.Unfilled);
foreach (var point in requestArgument.Points)
{
// Determine the on-the-ground cell
siteModel.Grid.CalculateIndexOfCellContainingPosition(point.Easting, point.Northing, out int OTGCellX, out int OTGCellY);
var thisSubGridOrigin = new SubGridCellAddress(OTGCellX, OTGCellY);
if (!primaryPartitionMap[thisSubGridOrigin.ToSpatialPartitionDescriptor()])
{
continue;
}
// Get the sub grid relative cell location
int cellX = OTGCellX & SubGridTreeConsts.SubGridLocalKeyMask;
int cellY = OTGCellY & SubGridTreeConsts.SubGridLocalKeyMask;
// Reach into the sub-grid request layer and retrieve an appropriate sub-grid
cellOverrideMask.Clear();
cellOverrideMask.SetBit(cellX, cellY);
requestors[0].CellOverrideMask = cellOverrideMask;
// using the cell address get the index of cell in clientGrid
var requestSubGridInternalResult = requestors[0].RequestSubGridInternal(
thisSubGridOrigin, true, true);
if (requestSubGridInternalResult.requestResult != ServerRequestResult.NoError)
{
Log.LogError($"Request for sub grid {thisSubGridOrigin} request failed with code {result}");
result.StationOffsetRows.Add(new StationOffsetRow(point.Station, point.Offset, point.Northing, point.Easting));
continue;
}
var hydratedPoint = ExtractRequiredValues(cutFillDesignWrapper, point, requestSubGridInternalResult.clientGrid as ClientCellProfileLeafSubgrid, cellX, cellY);
result.StationOffsetRows.Add(hydratedPoint);
}
result.ResultStatus = RequestErrorStatus.OK;
return(result);
}
/// <summary>
/// Constructs a vector of cells in profileCells along the path of the profile geometry containing in nEECoords
/// </summary>
public bool Build(XYZ[] nEECoords, List <T> profileCells)
{
NEECoords = nEECoords;
ProfileCells = profileCells;
CellSize = SiteModel.CellSize;
CurrStationPos = 0;
CurrentSubgridOrigin = new SubGridCellAddress(int.MaxValue, int.MaxValue);
ReturnDesignElevation = CutFillDesignWrapper?.Design != null;
DesignElevations = null;
// Obtain the primary partition map to allow this request to determine the elements it needs to process
bool[] primaryPartitionMap = ImmutableSpatialAffinityPartitionMap.Instance().PrimaryPartitions();
for (int loopBound = NEECoords.Length - 1, I = 0; I < loopBound; I++)
{
StartX = NEECoords[I].X;
StartY = NEECoords[I].Y;
StartStation = NEECoords[I].Z;
EndX = NEECoords[I + 1].X;
EndY = NEECoords[I + 1].Y;
EndStation = NEECoords[I + 1].Z;
if (I == 0) // Add start point of profile line to intercept list
{
CurrStationPos = SlicerToolUsed ? 0 : NEECoords[I].Z; // alignment profiles pass in station for more accuracy
VtHzIntercepts.AddPoint(StartX, StartY, CurrStationPos);
}
Distance = SlicerToolUsed
? MathUtilities.Hypot(EndX - StartX, EndY - StartY) // station is not passed so compute
: EndStation - StartStation; // use precise station passed
if (Distance == 0) // if we have two points the same
{
continue;
}
// Get all intercepts between profile line and cell boundaries for this segment
CalculateHorizontalIntercepts(CurrStationPos); // pass the distance down alignment this segment starts
CalculateVerticalIntercepts(CurrStationPos);
CurrStationPos += Distance; // add distance to current station
}
// Merge vertical and horizontal cell boundary/profile line intercepts
VtHzIntercepts.MergeInterceptLists(VtIntercepts, HzIntercepts);
// Add end point of profile line to intercept list
VtHzIntercepts.AddPoint(EndX, EndY, CurrStationPos);
// Update each intercept with it's midpoint and intercept length
// i.e. the midpoint on the line between one intercept and the next one
// and the length between those intercepts
VtHzIntercepts.UpdateMergedListInterceptMidPoints();
if (VtHzIntercepts.Count > ProfileCells.Capacity)
{
ProfileCells.Capacity = VtHzIntercepts.Count;
}
// Iterate over all intercepts calculating the results for each cell that lies in
// a subgrid handled by this node
for (int i = 0; i < VtHzIntercepts.Count; i++)
{
if (Aborted)
{
return(false);
}
// Determine the on-the-ground cell underneath the midpoint of each intercept line
SiteModel.Grid.CalculateIndexOfCellContainingPosition(VtHzIntercepts.Items[i].MidPointX,
VtHzIntercepts.Items[i].MidPointY, out OTGCellX, out OTGCellY);
ThisSubgridOrigin = new SubGridCellAddress(OTGCellX & ~SubGridTreeConsts.SubGridLocalKeyMask, OTGCellY & ~SubGridTreeConsts.SubGridLocalKeyMask);
if (!CurrentSubgridOrigin.Equals(ThisSubgridOrigin))
{
if (!primaryPartitionMap[ThisSubgridOrigin.ToSpatialPartitionDescriptor()])
{
continue;
}
CurrentSubgridOrigin = ThisSubgridOrigin;
if (!ProfileFilterMask.ConstructSubGridCellFilterMask(SiteModel, CurrentSubgridOrigin, VtHzIntercepts, i, FilterMask, CellFilter,
SurfaceDesignMaskDesign))
{
continue;
}
if (ReturnDesignElevation && CutFillDesignWrapper?.Design != null) // cut fill profile request then get elevation at same spot along design
{
var getDesignHeightsResult = CutFillDesignWrapper.Design.GetDesignHeightsViaLocalCompute(SiteModel, CutFillDesignWrapper.Offset, new SubGridCellAddress(OTGCellX, OTGCellY), CellSize);
DesignElevations = getDesignHeightsResult.designHeights;
DesignResult = getDesignHeightsResult.errorCode;
if (DesignResult != DesignProfilerRequestResult.OK &&
DesignResult != DesignProfilerRequestResult.NoElevationsInRequestedPatch)
{
continue;
}
if (DesignResult == DesignProfilerRequestResult.NoElevationsInRequestedPatch)
{
DesignElevations = null; // force a null height to be written
}
}
}
if (FilterMask.BitSet(OTGCellX & SubGridTreeConsts.SubGridLocalKeyMask, OTGCellY & SubGridTreeConsts.SubGridLocalKeyMask))
{
AddCellPassesDataToList(OTGCellX, OTGCellY, VtHzIntercepts.Items[i].ProfileItemIndex, VtHzIntercepts.Items[i].InterceptLength);
}
}
Log.LogInformation($"CellProfileBuilder constructed a vector of {VtHzIntercepts.Count} vertices");
return(true);
}
