DBInt RGlibPointSTNCoordinates(DBObjData *dbData, DBObjTableField *field) { DBInt pointID, ret = DBFault; DBCoordinate coord; DBPosition pos; DBObjData *linkedData = dbData->LinkedData(); DBVPointIF *pntIF; DBNetworkIF *netIF; DBObjRecord *pntRec, *cellRec; if (linkedData == (DBObjData *) NULL) return (DBFault); pntIF = new DBVPointIF(dbData); netIF = new DBNetworkIF(linkedData); for (pointID = 0; pointID < pntIF->ItemNum(); ++pointID) { pntRec = pntIF->Item(pointID); if (DBPause(pointID * 100 / pntIF->ItemNum())) goto Stop; if ((pntRec->Flags () & DBObjectFlagIdle) == DBObjectFlagIdle) continue; coord = pntIF->Coordinate(pntRec); if (netIF->Coord2Pos(coord, pos) == DBFault) continue; netIF->Pos2Coord(pos, coord); if ((field != (DBObjTableField *) NULL) && (!CMmathEqualValues(field->Float(pntRec), field->FloatNoData())) && ((cellRec = netIF->Cell(coord, field->Float(pntRec))) != (DBObjRecord *) NULL)) coord = netIF->Center(cellRec); pntIF->Coordinate(pntRec, coord); } ret = DBSuccess; Stop: delete netIF; delete pntIF; return (ret); }
static DBInt _RGlibSubbasinCategories(void *io, DBObjRecord *cellRec) { DBObjRecord *grdRec; DBNetworkIF *netIF = (DBNetworkIF *) io; if (cellRec == (DBObjRecord *) NULL) return (false); grdRec = _RGlibPointGrdIF->GridItem(_RGlibPointGrdLayerRec, netIF->Center(cellRec)); if (grdRec == (DBObjRecord *) NULL) return (true); _RGlibHistogram[grdRec->RowID()].cellNum++; _RGlibHistogram[grdRec->RowID()].area += netIF->CellArea(cellRec); return (true); }
static DBInt _RGlibSubbasinStatistics(void *io, DBObjRecord *cellRec) { DBFloat value; DBNetworkIF *netIF = (DBNetworkIF *) io; if (cellRec == (DBObjRecord *) NULL) return (false); if (_RGlibPointGrdIF->Value(_RGlibPointGrdLayerRec, netIF->Center(cellRec), &value) == false) return (true); _RGlibSubbasinArea = _RGlibSubbasinArea + netIF->CellArea(cellRec); _RGlibSubbasinMean = _RGlibSubbasinMean + value * netIF->CellArea(cellRec); _RGlibSubbasinMin = _RGlibSubbasinMin < value ? _RGlibSubbasinMin : value; _RGlibSubbasinMax = _RGlibSubbasinMax > value ? _RGlibSubbasinMax : value; _RGlibSubbasinStdDev = _RGlibSubbasinStdDev + value * value * netIF->CellArea(cellRec); return (true); }
DBInt RGlibPointSubbasinCenter(DBObjData *pntData, DBObjData *netData) { DBCoordinate massCoord; DBVPointIF *pntIF = new DBVPointIF(pntData); DBObjTable *pointTable = pntData->Table(DBrNItems); DBObjTableField *massCoordXFLD = pointTable->Field(RGlibMassCoordX); DBObjTableField *massCoordYFLD = pointTable->Field(RGlibMassCoordY); DBNetworkIF *netIF = new DBNetworkIF(netData); DBObjRecord *pointRec, *cellRec; if (massCoordXFLD == NULL) { massCoordXFLD = new DBObjTableField(RGlibMassCoordX, DBTableFieldFloat, "%10.3f", sizeof(DBFloat4)); pointTable->AddField(massCoordXFLD); } if (massCoordYFLD == NULL) { massCoordYFLD = new DBObjTableField(RGlibMassCoordY, DBTableFieldFloat, "%10.3f", sizeof(DBFloat4)); pointTable->AddField(massCoordYFLD); } for (pointRec = pntIF->FirstItem(); pointRec != (DBObjRecord *) NULL; pointRec = pntIF->NextItem()) { if ((pointRec->Flags() & DBObjectFlagIdle) == DBObjectFlagIdle) { massCoordXFLD->Float(pointRec, massCoordXFLD->FloatNoData()); massCoordYFLD->Float(pointRec, massCoordYFLD->FloatNoData()); continue; } if (DBPause(pointRec->RowID() * 100 / pntIF->ItemNum())) goto Stop; if ((cellRec = netIF->Cell(pntIF->Coordinate(pointRec))) == (DBObjRecord *) NULL) massCoord = pntIF->Coordinate(pointRec); else { if (netIF->CellBasinCells(cellRec) > 1) { massCoord.X = 0.0; massCoord.Y = 0.0; netIF->UpStreamSearch(cellRec, (DBNetworkACTION) _RGlibSubbasinCenterAction, &massCoord); massCoord.X = massCoord.X / (DBFloat) netIF->CellBasinCells(cellRec); massCoord.Y = massCoord.Y / (DBFloat) netIF->CellBasinCells(cellRec); } else massCoord = netIF->Center(cellRec); } massCoordXFLD->Float(pointRec, massCoord.X); massCoordYFLD->Float(pointRec, massCoord.Y); } Stop: if (pointRec != (DBObjRecord *) NULL) { pointTable->DeleteField(massCoordXFLD); pointTable->DeleteField(massCoordYFLD); return (DBFault); } return (DBSuccess); }
DBRegion DBObjData::Extent(DBObjRecord *record) { DBRegion extent; DBCoordinate coord; DBFloat delta; DBObjTable *items; DBObjTableField *field; if (record == (DBObjRecord *) NULL) return (Extent()); switch (Type()) { case DBTypeVectorPoint: delta = pow((double) 10.0, (double) Precision()); items = TablesPTR->Item(DBrNItems); field = items->Field(DBrNCoord); coord = field->Coordinate(record); extent.Expand(coord + delta); extent.Expand(coord - delta); return (extent); case DBTypeVectorLine: case DBTypeVectorPolygon: items = TablesPTR->Item(DBrNItems); field = items->Field(DBrNRegion); return (field->Region(record)); case DBTypeGridDiscrete: case DBTypeGridContinuous: return (Extent()); case DBTypeNetwork: { DBInt cellID, cellNum; DBObjRecord *cellRec; DBNetworkIF *netIF = new DBNetworkIF(this); cellRec = netIF->MouthCell(record); cellNum = netIF->CellBasinCells(cellRec) + cellRec->RowID(); for (cellID = cellRec->RowID(); cellID < cellNum; ++cellID) { cellRec = netIF->Cell(cellID); extent.Expand(netIF->Center(cellRec) + (netIF->CellSize() / 2.0)); extent.Expand(netIF->Center(cellRec) - (netIF->CellSize() / 2.0)); } delete netIF; } return (extent); case DBTypeTable: default: return (extent); } }
void RGISEditNetAddBasinXYCBK (Widget widget, RGISWorkspace *workspace,XmAnyCallbackStruct *callData) { DBInt basinID; DBDataset *dataset = UIDataset (); DBObjData *dbData =dataset->Data (); DBNetworkIF *netIF = new DBNetworkIF (dbData); DBObjTable *itemTable = dbData->Table (DBrNItems); DBObjTableField *xCoordFLD = itemTable->Field (RGISNetMouthXCoord); DBObjTableField *yCoordFLD = itemTable->Field (RGISNetMouthYCoord); DBCoordinate coord; DBObjRecord *basinRec; UITable *tableCLS = (UITable *) dbData->Display (UITableName (dbData,itemTable)); UIPauseDialogOpen ((char *) "Adding XY Coordinates"); if (xCoordFLD == NULL) { xCoordFLD = new DBObjTableField (RGISNetMouthXCoord,DBTableFieldFloat,(char *) "%10.3f",sizeof (DBFloat4)); itemTable->AddField (xCoordFLD); if (tableCLS != (UITable *) NULL) tableCLS->AddField (xCoordFLD); UIPause (40); } if (yCoordFLD == NULL) { yCoordFLD = new DBObjTableField (RGISNetMouthYCoord,DBTableFieldFloat,(char *) "%10.3f",sizeof (DBFloat4)); itemTable->AddField (yCoordFLD); if (tableCLS != (UITable *) NULL) tableCLS->AddField (yCoordFLD); UIPause (80); } for (basinID = 0;basinID < netIF->BasinNum ();++basinID) { basinRec = netIF->Basin (basinID); if (UIPause (80 + basinID * 20 / netIF->BasinNum ())) goto Stop; coord = netIF->Center (netIF->MouthCell (basinRec)); xCoordFLD->Float (basinRec,coord.X); yCoordFLD->Float (basinRec,coord.Y); } Stop: UIPauseDialogClose (); if (tableCLS != (UITable *) NULL) tableCLS->Draw (); }
int main(int argc, char *argv[]) { int argPos, argNum = argc, ret, verbose = false; DBInt recID; DBObjData *data; char *tableName = (char *) NULL; char *fieldIDName = (char *) NULL; char *fieldXName = (char *) NULL; char *fieldYName = (char *) NULL; DBObjTable *table; DBObjTableField *fieldID, *fieldX, *fieldY; DBObjRecord *record; DBNetworkIF *netIF; DBCoordinate coord; for (argPos = 1; argPos < argNum;) { if (CMargTest (argv[argPos], "-a", "--table")) { if ((argNum = CMargShiftLeft(argPos, argv, argNum)) <= argPos) { CMmsgPrint(CMmsgUsrError, "Missing table name!"); return (CMfailed); } tableName = argv[argPos]; if ((argNum = CMargShiftLeft(argPos, argv, argNum)) <= argPos) break; continue; } if (CMargTest (argv[argPos], "-f", "--IDfield")) { if ((argNum = CMargShiftLeft(argPos, argv, argNum)) <= argPos) { CMmsgPrint(CMmsgUsrError, "Missing field name!"); return (CMfailed); } fieldIDName = argv[argPos]; if ((argNum = CMargShiftLeft(argPos, argv, argNum)) <= argPos) break; continue; } if (CMargTest (argv[argPos], "-x", "--Xfield")) { if ((argNum = CMargShiftLeft(argPos, argv, argNum)) <= argPos) { CMmsgPrint(CMmsgUsrError, "Missing field name!"); return (CMfailed); } fieldXName = argv[argPos]; if ((argNum = CMargShiftLeft(argPos, argv, argNum)) <= argPos) break; continue; } if (CMargTest (argv[argPos], "-y", "--Yfield")) { if ((argNum = CMargShiftLeft(argPos, argv, argNum)) <= argPos) { CMmsgPrint(CMmsgUsrError, "Missing field name!"); return (CMfailed); } fieldYName = argv[argPos]; if ((argNum = CMargShiftLeft(argPos, argv, argNum)) <= argPos) break; continue; } if (CMargTest (argv[argPos], "-V", "--verbose")) { verbose = true; if ((argNum = CMargShiftLeft(argPos, argv, argNum)) <= argPos) break; continue; } if (CMargTest (argv[argPos], "-h", "--help")) { CMmsgPrint(CMmsgInfo, "%s [options] <input file> <output file>", CMfileName(argv[0])); CMmsgPrint(CMmsgInfo, " -a, --table [ [DBCells] | DBItems ]"); CMmsgPrint(CMmsgInfo, " -f, --IDfield [ [CellID] | BasinID ]"); CMmsgPrint(CMmsgInfo, " -x, --Xfield [ [CellXCoord] | MouthXCoord ]"); CMmsgPrint(CMmsgInfo, " -y, --Yfield [ [CellYCoord] | MouthYCoord ]"); CMmsgPrint(CMmsgInfo, " -V, --verbose"); CMmsgPrint(CMmsgInfo, " -h, --help"); return (DBSuccess); } if ((argv[argPos][0] == '-') && (strlen(argv[argPos]) > 1)) { CMmsgPrint(CMmsgUsrError, "Unknown option: %s!", argv[argPos]); return (CMfailed); } argPos++; } if (argNum > 3) { CMmsgPrint(CMmsgUsrError, "Extra arguments!"); return (CMfailed); } if (verbose) RGlibPauseOpen(argv[0]); if (tableName == (char *) NULL) tableName = (char *) "DBCells"; if (fieldIDName == (char *) NULL) fieldIDName = (char *) "CellID"; if (fieldXName == (char *) NULL) fieldXName = (char *) "CellXCoord"; if (fieldYName == (char *) NULL) fieldYName = (char *) "CellYCoord"; data = new DBObjData(); if (((argNum > 1) && (strcmp(argv[1], "-") != 0) ? data->Read(argv[1]) : data->Read(stdin)) == DBFault) { delete data; return (CMfailed); } if ((table = data->Table(tableName)) == (DBObjTable *) NULL) { CMmsgPrint(CMmsgUsrError, "Invalid table: %s!", tableName); delete data; return (CMfailed); } netIF = new DBNetworkIF(data); fieldID = new DBObjTableField(fieldIDName, DBTableFieldInt, (char *) "%8d", sizeof (DBInt)); fieldX = new DBObjTableField (fieldXName, DBTableFieldFloat, (char *) "%10.3f", sizeof (DBFloat4)); fieldY = new DBObjTableField (fieldYName, DBTableFieldFloat, (char *) "%10.3f", sizeof (DBFloat4)); table->AddField(fieldID); table->AddField(fieldX); table->AddField(fieldY); if (strcmp(fieldIDName, "CellID") == 0) { for (recID = 0; recID < table->ItemNum(); ++recID) { record = netIF->Cell(recID); coord = netIF->Center(record); fieldID->Int(record, recID+1); fieldX->Float(record, coord.X); fieldY->Float(record, coord.Y); } } else if (strcmp(fieldIDName, "BasinID") == 0) { for (recID = 0; recID < netIF->BasinNum(); ++recID) { record = netIF->Basin(recID); coord = netIF->Center(netIF->MouthCell(record)); fieldID->Int(record, recID+1); fieldX->Float(record,coord.X); fieldY->Float(record,coord.Y); } } else { CMmsgPrint(CMmsgUsrError, "Invalid field name: %s!", fieldIDName); delete data; return (CMfailed); } ret = (argNum > 2) && (strcmp(argv[2], "-") != 0) ? data->Write(argv[2]) : data->Write(stdout); delete data; if (verbose) RGlibPauseClose(); return (ret); }
void RGISAnNetworkStreamLinesCBK (Widget widget,RGISWorkspace *workspace,XmAnyCallbackStruct *callData) { char *selection; DBDataset *dataset = UIDataset (); DBObjData *netData = dataset->Data (); DBObjTable *cellTable = netData->Table (DBrNCells); DBObjData *arcData = new DBObjData ("",DBTypeVectorLine); DBNetworkIF *netIF = new DBNetworkIF (netData); static Widget fieldSelect = (Widget) NULL; widget = widget; callData = callData; if (fieldSelect == (Widget) NULL) fieldSelect = UISelectionCreate ((char *) "Select Field"); if ((selection = UISelectObject (fieldSelect,(DBObjectLIST<DBObject> *) cellTable->Fields (),DBTableFieldIsInteger)) == (char *) NULL) return; if ((_RGISAnNetOrderField = cellTable->Field (selection)) == (DBObjTableField *) NULL) { CMmsgPrint (CMmsgAppError, "Field Selection Error in: %s %d",__FILE__,__LINE__); return; } arcData->Document (DBDocGeoDomain,netData->Document (DBDocGeoDomain)); arcData->Document (DBDocSubject,"Stream Lines"); if (UIDataHeaderForm (arcData)) { DBInt cellID; char objName [DBStringLength]; DBVLineIF *lineIF = new DBVLineIF (arcData); DBObjTable *cellTable = netData->Table (DBrNCells); DBObjTable *lineTable = arcData->Table (DBrNItems); DBObjTableField *basinFLD = new DBObjTableField (DBrNBasin,DBTableFieldInt,"%8d",sizeof (DBInt)); DBObjTableField *fieldFLD = new DBObjTableField (_RGISAnNetOrderField->Name (), _RGISAnNetOrderField->Type (), _RGISAnNetOrderField->Format (), _RGISAnNetOrderField->Length ()); DBObjTableField *lengthFLD = new DBObjTableField (RGISNetStreamLength,DBTableFieldFloat,"%10.1f",sizeof (DBFloat4)); DBObjTableField *areaFLD = new DBObjTableField (RGISNetStreamArea,DBTableFieldFloat,"%10.1f",sizeof (DBFloat4)); DBObjTableField *basinAreaFLD = new DBObjTableField (RGISNetBasinArea,DBTableFieldFloat,"%10.1f",sizeof (DBFloat4)); DBObjTableField *nextFLD = new DBObjTableField (RGISNetStreamNext,DBTableFieldInt,"%6d",sizeof (DBInt)); DBObjRecord *cellRec, *toCellRec, *lineRec; arcData->Projection (netData->Projection ()); arcData->Precision (netData->Precision ()); arcData->MaxScale (netData->MaxScale ()); arcData->MinScale (netData->MinScale ()); lineTable->AddField (basinFLD); lineTable->AddField (fieldFLD); lineTable->AddField (lengthFLD); lineTable->AddField (areaFLD); lineTable->AddField (basinAreaFLD); lineTable->AddField (nextFLD); cellTable->AddField (_RGISAnNetStreamIDFLD = new DBObjTableField ("StreamID",DBTableFieldInt,"%8d",sizeof (DBInt))); _RGISAnNetStreamID = 0; UIPauseDialogOpen ((char *) "Creating Stream Lines"); cellID = netIF->CellNum () - 1; cellRec = netIF->Cell (cellID); if (lineIF->NewSymbol ("Default Symbol") == (DBObjRecord *) NULL) { CMmsgPrint (CMmsgAppError, "Symbol Creation Error in: %s %d",__FILE__,__LINE__); return; } for (;cellID >= 0;--cellID) { cellRec = netIF->Cell (cellID); if (((toCellRec = netIF->ToCell (cellRec)) == (DBObjRecord *) NULL) || (_RGISAnNetOrderField->Int (cellRec) != _RGISAnNetOrderField->Int (toCellRec)) || (netIF->CellOrder (cellRec) != netIF->CellOrder (toCellRec))) { if (UIPause ((netIF->CellNum () - cellRec->RowID ()) * 100 / netIF->CellNum ())) goto Stop; sprintf (objName,"Line: %5d",_RGISAnNetStreamID + 1); if ((lineRec = lineIF->NewItem (objName)) == (DBObjRecord *) NULL) { CMmsgPrint (CMmsgAppError, "Line Insertion Error in: %s %d",__FILE__,__LINE__); return; } nextFLD->Int (lineRec,toCellRec == (DBObjRecord *) NULL ? 0 : _RGISAnNetStreamIDFLD->Int (toCellRec) + 1); basinFLD->Int (lineRec,netIF->CellBasinID (cellRec)); fieldFLD->Int (lineRec,_RGISAnNetOrderField->Int (cellRec)); _RGISAnNetVertex = 0; netIF->UpStreamSearch (_RGISAnNetworkCellRec = cellRec,(DBNetworkACTION) _RGISAnNetworkUpStreamAction); lineIF->FromNode (lineRec,lineIF->Node (netIF->Center (_RGISAnNetworkCellRec),true)); lineIF->ToNode (lineRec,lineIF->Node (netIF->Center (cellRec) + netIF->Delta (cellRec),true)); _RGISAnNetArea = netIF->CellArea (_RGISAnNetworkCellRec); if (_RGISAnNetVertex > 1) { if (_RGISAnNetVertexNum < _RGISAnNetVertex - 1) { _RGISAnNetCoord = (DBCoordinate *) realloc (_RGISAnNetCoord,(_RGISAnNetVertex - 1) * sizeof (DBCoordinate)); if (_RGISAnNetCoord == (DBCoordinate *) NULL) { CMmsgPrint (CMmsgSysError, "Memory Allocation Error in: %s %d",__FILE__,__LINE__); return; } } _RGISAnNetVertex = 0; netIF->DownStreamSearch (netIF->ToCell (_RGISAnNetworkCellRec),(DBNetworkACTION) _RGISAnNetworkDownStreamAction); } else _RGISAnNetVertex = 0; lineIF->Vertexes (lineRec,_RGISAnNetCoord,_RGISAnNetVertex); lineIF->ItemSymbol (lineRec,lineIF->Symbol (0)); lengthFLD->Float (lineRec,netIF->CellBasinLength (cellRec)); areaFLD->Float (lineRec,_RGISAnNetArea); basinAreaFLD->Float (lineRec,netIF->CellBasinArea (cellRec)); _RGISAnNetStreamID += 1; } } Stop: UIPauseDialogClose (); if (_RGISAnNetCoord != (DBCoordinate *) NULL) free (_RGISAnNetCoord); delete lineIF; if (cellID >= 0) delete arcData; else workspace->CurrentData (arcData); } else delete arcData; delete netIF; }
int _CMDnetErosion(DBObjData *netData, DBObjData *inData, DBObjData *weightData, DBObjData *outData, DBFloat coeff, DBInt areaMult) { DBInt ret = DBSuccess, layerID, cellID, progress, maxProgress; DBFloat inValue, weight, outValue, *sumWeights; DBPosition pos; DBNetworkIF *netIF = new DBNetworkIF(netData); DBGridIF *inIF = new DBGridIF(inData); DBGridIF *outIF = new DBGridIF(outData); DBGridIF *weightIF = weightData != (DBObjData *) NULL ? new DBGridIF(weightData) : (DBGridIF *) NULL; DBObjRecord *inLayerRec, *outLayerRec, *weightLayerRec, *cellRec, *toCell; if ((sumWeights = (DBFloat *) calloc(netIF->CellNum(), sizeof(DBFloat))) == (DBFloat *) NULL) { CMmsgPrint(CMmsgSysError, "Memory allocation error in: %s %d", __FILE__, __LINE__); ret = DBFault; goto Stop; } layerID = 0; inLayerRec = inIF->Layer(layerID); outLayerRec = outIF->Layer(layerID); outIF->RenameLayer(outLayerRec, inLayerRec->Name()); outValue = outIF->MissingValue(outLayerRec); for (pos.Row = 0; pos.Row < outIF->RowNum(); pos.Row++) for (pos.Col = 0; pos.Col < outIF->ColNum(); pos.Col++) outIF->Value(outLayerRec, pos, outValue); for (layerID = 1; layerID < inIF->LayerNum(); ++layerID) { inLayerRec = inIF->Layer(layerID); if ((outLayerRec = outIF->AddLayer(inLayerRec->Name())) == (DBObjRecord *) NULL) { ret = DBFault; goto Stop; } for (pos.Row = 0; pos.Row < outIF->RowNum(); pos.Row++) for (pos.Col = 0; pos.Col < outIF->ColNum(); pos.Col++) outIF->Value(outLayerRec, pos, outValue); } maxProgress = inIF->LayerNum() * netIF->CellNum(); for (layerID = 0; layerID < inIF->LayerNum(); ++layerID) { inLayerRec = inIF->Layer(layerID); outLayerRec = outIF->Layer(layerID); if (weightIF != (DBGridIF *) NULL) weightLayerRec = weightIF->Layer(layerID % weightIF->LayerNum()); for (cellID = 0; cellID < netIF->CellNum(); cellID++) { sumWeights[cellID] = 0.0; cellRec = netIF->Cell(cellID); if (inIF->Value(inLayerRec, netIF->Center(cellRec), &inValue) == false) outIF->Value(outLayerRec, netIF->CellPosition(cellRec), 0.0); else { if (weightIF != (DBGridIF *) NULL) weight = weightIF->Value(weightLayerRec, netIF->Center(cellRec), &weight) == false ? 0.0 : weight * coeff; else weight = coeff; if (areaMult) weight = weight * netIF->CellArea(cellRec); sumWeights[cellID] = weight; outIF->Value(outLayerRec, netIF->CellPosition(cellRec), inValue * weight); } } for (cellID = netIF->CellNum() - 1; cellID >= 0; --cellID) { progress = layerID * netIF->CellNum() + (netIF->CellNum() - cellID); if (DBPause(progress * 100 / maxProgress)) goto Stop; cellRec = netIF->Cell(cellID); if ((toCell = netIF->ToCell(cellRec)) == (DBObjRecord *) NULL) continue; if (outIF->Value(outLayerRec, netIF->CellPosition(cellRec), &inValue) == false) continue; if (outIF->Value(outLayerRec, netIF->CellPosition(toCell), &outValue) == false) continue; sumWeights[toCell->RowID()] = sumWeights[toCell->RowID()] + weight; outIF->Value(outLayerRec, netIF->CellPosition(toCell), outValue + inValue); } outIF->RecalcStats(outLayerRec); } free(sumWeights); Stop: delete netIF; delete inIF; delete outIF; if (weightIF != (DBGridIF *) NULL) delete weightIF; return (ret); }
void _RGISUserFuncionNetwork (DBObjData *data,UI2DView *view,XEvent *event) { DBInt sX, sY, redraw = false; DBNetworkIF *netIF; DBCoordinate coord; DBObjRecord *cellRec, *basinRec; void _RGISUserFuncionQuery (DBObjData *,UI2DView *,XEvent *); if ((data->Flags () & DBDataFlagUserModeFlags) == DBDataFlagUserModeQuery) { _RGISUserFuncionQuery (data,view,event); return; } if (event->type != ButtonPress) return; if (DBTypeNetwork != data->Type ()) { CMmsgPrint (CMmsgAppError, "Invalid data Type in: %s %d",__FILE__,__LINE__); } sX = event->xbutton.x; sY = event->xbutton.y; view->Window2Map (sX,sY, &coord.X, &coord.Y); netIF = new DBNetworkIF (data); switch (data->Flags () & DBDataFlagUserModeFlags) { case DBDataFlagUserModeSelect: { DBInt basinID, cellID; DBRegion extent; UITable *tableView; if ((cellRec = netIF->Cell (coord)) == (DBObjRecord *) NULL) { UIMessage ((char *) "Cell Does not Exists!"); return; } for (basinID = 0;basinID < netIF->BasinNum ();++basinID) { basinRec = netIF->Basin (basinID); if ((basinRec->Flags () & DBObjectFlagSelected) == DBObjectFlagSelected) { data->SelectObject (basinRec,DBClear); extent.Expand (data->Extent (basinRec)); } } for (cellID = 0;cellID < netIF->CellNum ();++cellID) { cellRec = netIF->Cell (cellID); if ((cellRec->Flags () & DBObjectFlagSelected) == DBObjectFlagSelected) { extent.Expand (netIF->Center (cellRec) + (netIF->CellSize () / 2.0)); extent.Expand (netIF->Center (cellRec) - (netIF->CellSize () / 2.0)); cellRec->Flags (DBObjectFlagSelected,DBClear); } } if ((tableView = (UITable *) data->Display (UITableName (data,data->Table (DBrNItems)))) != (UITable *) NULL) tableView->Draw (); if ((tableView = (UITable *) data->Display (UITableName (data,data->Table (DBrNCells)))) != (UITable *) NULL) tableView->Draw (); UI2DViewRedrawAll (extent); cellRec = netIF->Cell (coord); switch (data->Flags () & DBDataFlagSelectMode) { case DBDataFlagSelectMode: netIF->DownStreamSearch (cellRec, DBNetworkSelect); break; default: netIF->UpStreamSearch (cellRec, DBNetworkSelect); break; } extent.Initialize (); for (cellID = 0;cellID < netIF->CellNum ();++cellID) { cellRec = netIF->Cell (cellID); if ((cellRec->Flags () & DBObjectFlagSelected) == DBObjectFlagSelected) { extent.Expand (netIF->Center (cellRec) + (netIF->CellSize () / 2.0)); extent.Expand (netIF->Center (cellRec) - (netIF->CellSize () / 2.0)); } } UI2DViewRedrawAll (extent); if ((tableView = (UITable *) data->Display (UITableName (data,data->Table (DBrNCells)))) != (UITable *) NULL) tableView->Draw (); } break; case DBDataFlagUserModeAdd: if (netIF->CellAdd (coord) == (DBObjRecord *) NULL) UIMessage ((char *) "Cell Creation Error"); else redraw = true; break; case DBDataFlagUserModeDelete: if (netIF->CellDelete (coord) == DBFault) UIMessage ((char *) "Cell Does not Exists!"); else redraw = true; break; case DBDataFlagUserModeRotate: { DBObjRecord *cellRec = netIF->Cell (coord); if (cellRec != (DBObjRecord *) NULL) { switch (netIF->CellDirection (cellRec)) { case DBNull: netIF->CellDirection (cellRec,DBNetDirN); break; case DBNetDirNW: netIF->CellDirection (cellRec,DBNull); break; default: netIF->CellRotate (cellRec,DBForward); break; } redraw = true; } } break; default: printf ("Unknown Mode %lX",data->Flags () & DBDataFlagUserModeFlags); break; } if (redraw) { DBPosition pos; if (netIF->Coord2Pos (coord,pos) == DBSuccess) { DBRegion extent; DBCoordinate delta (netIF->CellWidth () * 1.25, netIF->CellHeight () * 1.25); netIF->Pos2Coord (pos,coord); coord = coord + delta; extent.Expand (coord); netIF->Pos2Coord (pos,coord); coord = coord - delta; extent.Expand (coord); UI2DViewRedrawAll (extent); } } delete netIF; }
DBInt RGlibRGIS2DataStream(DBObjData *grdData, DBObjData *tmplData, char *fieldName, FILE *outFile) { DBInt layerID, ret = DBSuccess, itemSize, itemID; DBInt intValue; DBFloat floatValue; void *data; MFVarHeader_t varHeader; DBObjRecord *layerRec, *gridRec; DBObjTableField *fieldPTR = (DBObjTableField *) NULL; DBGridIF *gridIF; DBVPointIF *tmplPntIF = (DBVPointIF *) NULL; DBGridIF *tmplGrdIF = (DBGridIF *) NULL; DBNetworkIF *tmplNetIF = (DBNetworkIF *) NULL; gridIF = new DBGridIF(grdData); varHeader.Swap = 1; if (grdData->Type() == DBTypeGridDiscrete) { DBObjTable *itemTable = grdData->Table(DBrNItems); if (fieldName == (char *) NULL) fieldName = DBrNGridValue; if ((fieldPTR = itemTable->Field(fieldName)) == (DBObjTableField *) NULL) { CMmsgPrint(CMmsgAppError, "Error: Invalid field [%s] in: %s %d", fieldName, __FILE__, __LINE__); return (DBFault); } itemSize = fieldPTR->Length(); switch (fieldPTR->Type()) { case DBTableFieldInt: switch (itemSize) { default: case sizeof(DBByte): varHeader.DataType = MFByte; break; case sizeof(DBShort): varHeader.DataType = MFShort; break; case sizeof(DBInt): varHeader.DataType = MFInt; break; } varHeader.Missing.Int = fieldPTR->IntNoData(); break; case DBTableFieldFloat: switch (itemSize) { default: case sizeof(DBFloat4): varHeader.DataType = MFFloat; break; case sizeof(DBFloat): varHeader.DataType = MFDouble; break; } varHeader.Missing.Float = fieldPTR->FloatNoData(); break; } } else { if (fieldName != (char *) NULL) CMmsgPrint(CMmsgUsrError, "Warning: Fieldname ignored for continuous grid!"); itemSize = gridIF->ValueSize(); switch (gridIF->ValueType()) { case DBVariableInt: switch (itemSize) { case 1: varHeader.DataType = MFByte; break; case 2: varHeader.DataType = MFShort; break; case 4: varHeader.DataType = MFInt; break; } varHeader.Missing.Int = (int) gridIF->MissingValue(); break; case DBVariableFloat: switch (itemSize) { case 4: varHeader.DataType = MFFloat; break; case 8: varHeader.DataType = MFDouble; break; } varHeader.Missing.Float = gridIF->MissingValue(); break; } } if (tmplData == (DBObjData *) NULL) { tmplGrdIF = gridIF; varHeader.ItemNum = gridIF->RowNum() * gridIF->ColNum(); } else { switch (tmplData->Type()) { case DBTypeVectorPoint: tmplPntIF = new DBVPointIF(tmplData); varHeader.ItemNum = tmplPntIF->ItemNum(); break; case DBTypeGridContinuous: case DBTypeGridDiscrete: tmplGrdIF = new DBGridIF(tmplData); varHeader.ItemNum = gridIF->RowNum() * gridIF->ColNum(); break; case DBTypeNetwork: tmplNetIF = new DBNetworkIF(tmplData); varHeader.ItemNum = tmplNetIF->CellNum(); break; default: delete gridIF; return (DBFault); } } if ((data = (void *) calloc(varHeader.ItemNum, itemSize)) == (void *) NULL) { CMmsgPrint(CMmsgSysError, "Error! Allocating %d items of %d size in: %s %d", varHeader.ItemNum, itemSize, __FILE__, __LINE__); return (DBFault); } /************************************************************** * * * Point template * * * **************************************************************/ if (tmplPntIF != (DBVPointIF *) NULL) { DBObjRecord *pntRec; if (fieldPTR == (DBObjTableField *) NULL) { for (layerID = 0; layerID < gridIF->LayerNum(); ++layerID) { layerRec = gridIF->Layer(layerID); strncpy(varHeader.Date, layerRec->Name(), MFDateStringLength - 1); for (itemID = 0; itemID < varHeader.ItemNum; ++itemID) { pntRec = tmplPntIF->Item(itemID); if ((varHeader.DataType == MFByte) || (varHeader.DataType == MFShort) || (varHeader.DataType == MFInt)) { if (gridIF->Value(layerRec, tmplPntIF->Coordinate(pntRec), &intValue) == false) intValue = varHeader.Missing.Int; switch (varHeader.DataType) { case MFByte: ((char *) data)[itemID] = (char) intValue; break; case MFShort: ((short *) data)[itemID] = (short) intValue; break; case MFInt: ((int *) data)[itemID] = (short) intValue; break; } } else { if (gridIF->Value(layerRec, tmplPntIF->Coordinate(pntRec), &floatValue) == false) floatValue = varHeader.Missing.Float; switch (varHeader.DataType) { case MFFloat: ((float *) data)[itemID] = (float) floatValue; break; case MFDouble: ((double *) data)[itemID] = (double) floatValue; break; } } } if ((DBInt) fwrite(&varHeader, sizeof(MFVarHeader_t), 1, outFile) != 1) { CMmsgPrint(CMmsgSysError, "Error: Writing record header in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } if ((DBInt) fwrite(data, itemSize, varHeader.ItemNum, outFile) != varHeader.ItemNum) { CMmsgPrint(CMmsgSysError, "Error: Writing data in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } } } else { for (layerID = 0; layerID < gridIF->LayerNum(); ++layerID) { layerRec = gridIF->Layer(layerID); strncpy(varHeader.Date, layerRec->Name(), MFDateStringLength - 1); for (itemID = 0; itemID < varHeader.ItemNum; ++itemID) { pntRec = tmplPntIF->Item(itemID); gridRec = gridIF->GridItem(layerRec, tmplPntIF->Coordinate(pntRec)); switch (varHeader.DataType) { case MFByte: ((char *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->IntNoData(); break; case MFShort: ((short *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->IntNoData(); break; case MFInt: ((int *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->IntNoData(); break; case MFFloat: ((float *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->FloatNoData(); break; case MFDouble: ((double *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->FloatNoData(); break; } } if ((DBInt) fwrite(&varHeader, sizeof(MFVarHeader_t), 1, outFile) != 1) { CMmsgPrint(CMmsgSysError, "Error: Writing record header in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } if ((DBInt) fwrite(data, itemSize, varHeader.ItemNum, outFile) != varHeader.ItemNum) { CMmsgPrint(CMmsgSysError, "Error: Writing data in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } } } delete tmplPntIF; } /************************************************************** * * * Grid Template (default when no template coverage is given. * * * **************************************************************/ else if (tmplGrdIF != (DBGridIF *) NULL) { DBPosition pos; DBCoordinate coord; if (fieldPTR == (DBObjTableField *) NULL) { for (layerID = 0; layerID < gridIF->LayerNum(); ++layerID) { layerRec = gridIF->Layer(layerID); strncpy(varHeader.Date, layerRec->Name(), MFDateStringLength - 1); for (pos.Row = 0; pos.Row < tmplGrdIF->RowNum(); ++pos.Row) for (pos.Col = 0; pos.Col < tmplGrdIF->ColNum(); ++pos.Col) { itemID = pos.Row * tmplGrdIF->ColNum() + pos.Col; if ((varHeader.DataType == MFByte) || (varHeader.DataType == MFShort) || (varHeader.DataType == MFInt)) { if (tmplGrdIF != gridIF) { tmplGrdIF->Pos2Coord(pos, coord); if (gridIF->Value(layerRec, coord, &intValue) == false) intValue = varHeader.Missing.Int; } else { if (gridIF->Value(layerRec, pos, &intValue) == false) intValue = varHeader.Missing.Int; } switch (varHeader.DataType) { case MFByte: ((char *) data)[itemID] = (char) intValue; break; case MFShort: ((short *) data)[itemID] = (short) intValue; break; case MFInt: ((int *) data)[itemID] = (short) intValue; break; } } else { if (tmplGrdIF != gridIF) { tmplGrdIF->Pos2Coord(pos, coord); if (gridIF->Value(layerRec, coord, &floatValue) == false) floatValue = varHeader.Missing.Float; } else { if (gridIF->Value(layerRec, pos, &floatValue) == false) floatValue = varHeader.Missing.Float; } switch (varHeader.DataType) { case MFFloat: ((float *) data)[itemID] = (float) floatValue; break; case MFDouble: ((double *) data)[itemID] = (double) floatValue; break; } } } if ((DBInt) fwrite(&varHeader, sizeof(MFVarHeader_t), 1, outFile) != 1) { CMmsgPrint(CMmsgSysError, "Error: Writing record header in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } if ((DBInt) fwrite(data, itemSize, varHeader.ItemNum, outFile) != varHeader.ItemNum) { CMmsgPrint(CMmsgSysError, "Error: Writing data in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } } } else { for (layerID = 0; layerID < gridIF->LayerNum(); ++layerID) { layerRec = gridIF->Layer(layerID); strncpy(varHeader.Date, layerRec->Name(), MFDateStringLength - 1); for (pos.Row = 0; pos.Row < tmplGrdIF->RowNum(); ++pos.Row) for (pos.Col = 0; pos.Col < tmplGrdIF->ColNum(); ++pos.Col) { itemID = pos.Row * tmplGrdIF->ColNum() + pos.Col; if (tmplGrdIF != gridIF) { tmplGrdIF->Pos2Coord(pos, coord); gridRec = gridIF->GridItem(layerRec, coord); } else gridRec = gridIF->GridItem(layerRec, pos); switch (varHeader.DataType) { case MFByte: ((char *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->IntNoData(); break; case MFShort: ((short *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->IntNoData(); break; case MFInt: ((int *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->IntNoData(); break; case MFFloat: ((float *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->FloatNoData(); break; case MFDouble: ((double *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->FloatNoData(); break; } } if ((DBInt) fwrite(&varHeader, sizeof(MFVarHeader_t), 1, outFile) != 1) { CMmsgPrint(CMmsgSysError, "Error: Writing record header in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } if ((DBInt) fwrite(data, itemSize, varHeader.ItemNum, outFile) != varHeader.ItemNum) { CMmsgPrint(CMmsgSysError, "Error: Writing data in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } } } if (tmplGrdIF != gridIF) delete tmplGrdIF; } /************************************************************** * * * Network Template * * * **************************************************************/ else if (tmplNetIF != (DBNetworkIF *) NULL) { DBObjRecord *cellRec; if (fieldPTR == (DBObjTableField *) NULL) { for (layerID = 0; layerID < gridIF->LayerNum(); ++layerID) { layerRec = gridIF->Layer(layerID); strncpy(varHeader.Date, layerRec->Name(), MFDateStringLength - 1); for (itemID = 0; itemID < varHeader.ItemNum; ++itemID) { cellRec = tmplNetIF->Cell(itemID); if ((varHeader.DataType == MFByte) || (varHeader.DataType == MFShort) || (varHeader.DataType == MFInt)) { if (gridIF->Value(layerRec, tmplNetIF->Center(cellRec), &intValue) == false) intValue = varHeader.Missing.Int; switch (varHeader.DataType) { case MFByte: ((char *) data)[itemID] = (char) intValue; break; case MFShort: ((short *) data)[itemID] = (short) intValue; break; case MFInt: ((int *) data)[itemID] = (short) intValue; break; } } else { if (gridIF->Value(layerRec, tmplNetIF->Center(cellRec), &floatValue) == false) floatValue = varHeader.Missing.Float; switch (varHeader.DataType) { case MFFloat: ((float *) data)[itemID] = (float) floatValue; break; case MFDouble: ((double *) data)[itemID] = (double) floatValue; break; } } } if ((DBInt) fwrite(&varHeader, sizeof(MFVarHeader_t), 1, outFile) != 1) { CMmsgPrint(CMmsgSysError, "Error: Writing record header in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } if ((DBInt) fwrite(data, itemSize, varHeader.ItemNum, outFile) != varHeader.ItemNum) { CMmsgPrint(CMmsgSysError, "Error: Writing data in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } } } else { for (layerID = 0; layerID < gridIF->LayerNum(); ++layerID) { layerRec = gridIF->Layer(layerID); strncpy(varHeader.Date, layerRec->Name(), MFDateStringLength - 1); for (itemID = 0; itemID < varHeader.ItemNum; ++itemID) { cellRec = tmplNetIF->Cell(itemID); gridRec = gridIF->GridItem(layerRec, tmplNetIF->Center(cellRec)); switch (varHeader.DataType) { case MFByte: ((char *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->IntNoData(); break; case MFShort: ((short *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->IntNoData(); break; case MFInt: ((int *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Int(gridRec) : fieldPTR->IntNoData(); break; case MFFloat: ((float *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Float(gridRec) : fieldPTR->FloatNoData(); break; case MFDouble: ((double *) data)[itemID] = gridRec != (DBObjRecord *) NULL ? fieldPTR->Float(gridRec) : fieldPTR->FloatNoData(); break; } } if ((DBInt) fwrite(&varHeader, sizeof(MFVarHeader_t), 1, outFile) != 1) { CMmsgPrint(CMmsgSysError, "Error: Writing record header in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } if ((DBInt) fwrite(data, itemSize, varHeader.ItemNum, outFile) != varHeader.ItemNum) { CMmsgPrint(CMmsgSysError, "Error: Writing data in: %s %d", __FILE__, __LINE__); ret = DBFault; break; } } } delete tmplNetIF; } free(data); delete gridIF; return (ret); }
static void _RGISToolsNetBasinMouthCBK (Widget widget,RGISWorkspace *workspace,XmAnyCallbackStruct *callData) { DBDataset *dataset = UIDataset (); DBObjData *netData = dataset->Data (), *pntData; DBNetworkIF *netIF; widget = widget; callData = callData; if (netData == (DBObjData *) NULL) { CMmsgPrint (CMmsgAppError, "Null Data in: %s %d",__FILE__,__LINE__); return; } netIF = new DBNetworkIF (netData); if (UIDataHeaderForm (pntData = new DBObjData ("",DBTypeVectorPoint))) { char symName [DBStringLength]; DBInt basinID, order; DBCoordinate coord; DBObjTable *items = pntData->Table (DBrNItems); DBObjTable *symbols = pntData->Table (DBrNSymbols); DBObjTableField *coordField = items->Field (DBrNCoord); DBObjTableField *symbolFLD = items->Field (DBrNSymbol); DBObjTableField *orderFLD = new DBObjTableField (DBrNOrder,DBTableFieldInt,"%3d",sizeof (DBByte)); DBObjTableField *subbasinLengthFLD = new DBObjTableField (DBrNSubbasinLength,DBTableFieldFloat,"%10.1f",sizeof (float)); DBObjTableField *subbasinAreaFLD = new DBObjTableField (DBrNSubbasinArea,DBTableFieldFloat,"%10.1f",sizeof (float)); DBObjTableField *foregroundFLD = symbols->Field (DBrNForeground); DBObjTableField *backgroundFLD = symbols->Field (DBrNBackground); DBObjTableField *styleFLD = symbols->Field (DBrNStyle); DBObjRecord *pntRec, *symRec, *cellRec, *basinRec; DBRegion dataExtent; items->AddField (orderFLD); items->AddField (subbasinLengthFLD); items->AddField (subbasinAreaFLD); cellRec = netIF->Cell ((DBInt) 0); for (order = 0;order <= netIF->CellOrder (cellRec);++order) { sprintf (symName,"Strahler Order:%2d",order); symRec = symbols->Add (symName); styleFLD->Int (symRec,0); foregroundFLD->Int (symRec,1); backgroundFLD->Int (symRec,0); } UIPauseDialogOpen ((char *) "Creating Basin Mouth"); for (basinID = 0;basinID < netIF->BasinNum ();++basinID) { basinRec = netIF->Basin (basinID); if (UIPause (basinID * 100 / netIF->BasinNum ())) goto Stop; symRec = symbols->Item (netIF->CellOrder (cellRec)); cellRec = netIF->MouthCell (basinRec); pntRec = items->Add (basinRec->Name ()); coord = netIF->Center (cellRec); coordField->Coordinate (pntRec,coord); symbolFLD->Record (pntRec,symRec); orderFLD->Int (pntRec,netIF->CellOrder (cellRec)); subbasinLengthFLD->Float (pntRec,netIF->CellBasinLength (cellRec)); subbasinAreaFLD->Float (pntRec,netIF->CellBasinArea (cellRec)); dataExtent.Expand (coord); } Stop: UIPauseDialogClose (); pntData->Extent (dataExtent); workspace->CurrentData (pntData); } else delete pntData; delete netIF; }
static void _RGISToolsExportNetworkCBK (Widget widget,RGISWorkspace *workspace,XmAnyCallbackStruct *callData) { char *selection; FILE *outFILE; DBInt cellID, fieldID, fieldNum = 0; DBCoordinate coord; DBObjRecord *cellRec,*toCellRec, *basinRec; DBDataset *dataset = UIDataset (); DBObjData *netData = dataset->Data (); DBNetworkIF *netIF = new DBNetworkIF (netData); DBObjTable *cellTable = netData->Table (DBrNCells); DBObjTableField *field, **fields = (DBObjTableField **) NULL; static Widget dirSelect = NULL; widget = widget; workspace = workspace; callData = callData; if (dirSelect == NULL) { if ((dirSelect = UIFileSelectionCreate ((char *) "Network File",NULL,(char *) "*.txt",XmFILE_REGULAR)) == NULL) return; } if ((selection = UIFileSelection (dirSelect,False)) == NULL) return; if ((outFILE = fopen (selection,"w")) == (FILE *) NULL) { CMmsgPrint (CMmsgSysError, "File Opening Error in: %s %d",__FILE__,__LINE__); return; } fprintf (outFILE,"\"CellID\"\t\"XCoord\"\t\"YCoord\"\t\"BasinID\"\t\"ToCell\"\t\"CellArea\"\t\"CellLength\""); for (fieldID = 0;fieldID < cellTable->FieldNum (); fieldID++) { if ((field = cellTable->Field (fieldID)) == (DBObjTableField *) NULL) { if (fields != (DBObjTableField **) NULL) free (fields); CMmsgPrint (CMmsgSysError, "Invalid field in: %s %d",__FILE__,__LINE__); return; } if (field->Required ()) continue; if ((fields = (DBObjTableField **) realloc (fields,(fieldNum + 1) * sizeof (DBObjTableField *))) == (DBObjTableField **) NULL) { CMmsgPrint (CMmsgSysError, "Memory allocation error in: %s %d",__FILE__,__LINE__); return; } fields [fieldNum] = field; fprintf (outFILE,"\t\"%s\"",field->Name ()); fieldNum++; } fprintf (outFILE,"\n"); for (cellID = 0;cellID < netIF->CellNum (); cellID++) { cellRec = netIF->Cell (cellID); coord = netIF->Center (cellRec); basinRec = netIF->Basin (cellRec); toCellRec = netIF->ToCell (cellRec); fprintf (outFILE,"%d\t%f\t%f\t%d\t%d\t%f\t%f",cellRec->RowID () + 1, coord.X, coord.Y, basinRec->RowID () + 1, toCellRec == (DBObjRecord *) NULL ? DBFault : toCellRec->RowID () + 1, netIF->CellArea (cellRec), netIF->CellLength (cellRec)); for (fieldID = 0;fieldID < fieldNum; fieldID++) switch (fields [fieldID]->Type ()) { default: case DBTableFieldString: fprintf (outFILE,"%c\"%s\"",DBASCIISeparator,fields [fieldID]->String (cellRec)); break; case DBTableFieldInt: if (fields [fieldID]->Int (cellRec) == fields [fieldID]->IntNoData ()) fprintf (outFILE,"%c",DBASCIISeparator); else fprintf (outFILE,"%c%d",DBASCIISeparator,fields [fieldID]->Int (cellRec)); break; case DBTableFieldFloat: if (CMmathEqualValues (fields [fieldID]->Float (cellRec),fields [fieldID]->FloatNoData ())) fprintf (outFILE,"%c",DBASCIISeparator); else fprintf (outFILE,"%c%f",DBASCIISeparator,fields [fieldID]->Float (cellRec)); break; case DBTableFieldDate: fprintf (outFILE,"%c\"%s\"",DBASCIISeparator,fields [fieldID]->String(cellRec)); break; } fprintf (outFILE,"\n"); } fclose (outFILE); }
int main (int argc,char *argv []) { FILE *outFile; DBInt argPos, argNum = argc, ret; int objID, size; DBFloat lCorrection = 1.0; MFDomain_t *domain = (MFDomain_t *) NULL; DBCoordinate coord; DBObjRecord *objRec; DBObjData *data; for (argPos = 1;argPos < argNum; ) { if (CMargTest (argv [argPos],"-l","--lengthcorrection")) { if ((argNum = CMargShiftLeft (argPos,argv,argNum)) <= argPos) { CMmsgPrint (CMmsgUsrError,"Missing length correction!"); return (CMfailed); } if (sscanf (argv [argPos],"%lf", &lCorrection) != 1) { CMmsgPrint (CMmsgUsrError, "Invalid length correction!"); return (CMfailed); } if ((argNum = CMargShiftLeft (argPos,argv,argNum)) <= argPos) break; continue; } if (CMargTest (argv [argPos],"-h","--help")) { CMmsgPrint (CMmsgInfo,"%s [options] <input rgisdata> <output domain>",CMprgName(argv[0])); CMmsgPrint (CMmsgInfo," -l,--lengthcorrection"); CMmsgPrint (CMmsgInfo," -h,--help"); return (DBSuccess); } if ((argv [argPos][0] == '-') && (strlen (argv [argPos]) > 1)) { CMmsgPrint (CMmsgUsrError,"Unknown option: %s!",argv [argPos]); return (CMfailed); } argPos++; } if (argNum > 3) { CMmsgPrint (CMmsgUsrError,"Extra arguments!"); return (CMfailed); } outFile = (argNum > 2) && (strcmp (argv [2],"-") != 0) ? fopen (argv [2],"w") : stdout; if (outFile == (FILE *) NULL) { CMmsgPrint (CMmsgUsrError,"Output file Opening error in: %s",CMprgName(argv[0])); exit (DBFault); } data = new DBObjData (); ret = (argNum > 1) && (strcmp (argv [1],"-") != 0) ? data->Read (argv [1]) : data->Read (stdin); if ((domain = (MFDomain_t *) calloc (1,sizeof (MFDomain_t))) != (MFDomain_t *) NULL) { domain->Objects = (MFObject_t *) NULL; switch (data->Type ()) { case DBTypeVectorPoint: { DBVPointIF *pntIF = new DBVPointIF (data); domain->ObjNum = pntIF->ItemNum (); if ((domain->Objects = (MFObject_t *) calloc (domain->ObjNum,sizeof (MFObject_t))) == (MFObject_t *) NULL) { CMmsgPrint (CMmsgSysError, "Memory Allocation Error in: %s %d",__FILE__,__LINE__); MFDomainFree (domain); goto Stop; } for (objID = 0;objID < domain->ObjNum;++objID) { objRec = pntIF->Item (objID); coord = pntIF->Coordinate (objRec); domain->Objects [objID].ID = objRec->RowID (); domain->Objects [objID].DLinkNum = 0; domain->Objects [objID].ULinkNum = 0; domain->Objects [objID].DLinks = (size_t *) NULL; domain->Objects [objID].ULinks = (size_t *) NULL; domain->Objects [objID].XCoord = domain->Objects [objID].Lon = coord.X; domain->Objects [objID].YCoord = domain->Objects [objID].Lat = coord.Y; domain->Objects [objID].Area = 0.0; domain->Objects [objID].Length = 0.0; } } break; case DBTypeGridContinuous: case DBTypeGridDiscrete: { } break; case DBTypeNetwork: { DBInt dir; DBObjRecord *nextCell; DBNetworkIF *netIF = new DBNetworkIF (data); domain->ObjNum = netIF->CellNum (); if ((domain->Objects = (MFObject_t *) calloc (domain->ObjNum,sizeof (MFObject_t))) == (MFObject_t *) NULL) { CMmsgPrint (CMmsgSysError, "Memory Allocation Error in: %s %d",__FILE__,__LINE__); MFDomainFree (domain); goto Stop; } for (objID = 0;objID < domain->ObjNum;++objID) { domain->Objects [objID].DLinks = (size_t *) NULL; domain->Objects [objID].ULinks = (size_t *) NULL; } for (objID = 0;objID < domain->ObjNum;++objID) { objRec = netIF->Cell (objID); coord = netIF->Center (objRec); domain->Objects [objID].ID = objRec->RowID (); domain->Objects [objID].DLinkNum = 0; domain->Objects [objID].ULinkNum = 0; domain->Objects [objID].XCoord = domain->Objects [objID].Lon = coord.X; domain->Objects [objID].YCoord = domain->Objects [objID].Lat = coord.Y; domain->Objects [objID].Area = netIF->CellArea (objRec); domain->Objects [objID].Length = netIF->CellLength (objRec) *lCorrection; if ((nextCell = netIF->ToCell (objRec)) != (DBObjRecord *) NULL) { size = (domain->Objects [objID].DLinkNum + 1) * sizeof (size_t); if ((domain->Objects [objID].DLinks = (size_t *) realloc (domain->Objects [objID].DLinks,size)) == (size_t *) NULL) { CMmsgPrint (CMmsgSysError, "Memory Allocation Error in: %s %d",__FILE__,__LINE__); MFDomainFree (domain); goto Stop; } domain->Objects [objID].DLinks [domain->Objects [objID].DLinkNum] = nextCell->RowID (); domain->Objects [objID].DLinkNum++; } for (dir = 0;dir < 8;++dir) if ((nextCell = netIF->FromCell (objRec,0x01 << dir)) != (DBObjRecord *) NULL) { size = (domain->Objects [objID].ULinkNum + 1) * sizeof (size_t); if ((domain->Objects [objID].ULinks = (size_t *) realloc (domain->Objects [objID].ULinks,size)) == (size_t *) NULL) { CMmsgPrint (CMmsgSysError, "Memory Allocation Error in: %s %d",__FILE__,__LINE__); MFDomainFree (domain);goto Stop; } domain->Objects [objID].ULinks [domain->Objects [objID].ULinkNum] = nextCell->RowID (); domain->Objects [objID].ULinkNum++; } } } break; } ret = MFDomainWrite (domain,outFile); } Stop: if (outFile != stdout) fclose (outFile); return (ret); }
int _CMDnetTransfer(DBObjData *netData, DBObjData *inData, DBObjData *weightData, DBObjData *outData, DBFloat coeff, DBObjData *coeffData, DBObjData *QData, DBObjData *HLData, DBFloat umax, DBFloat ksat, DBInt areaMult) { DBInt ret = DBSuccess, layerID, cellID, progress, maxProgress; DBFloat inValue, weight, outValue, *sumWeights, kCoeff, q, hl, Conc, Uptake, Vf; DBPosition pos; DBNetworkIF *netIF = new DBNetworkIF(netData); DBGridIF *inIF = new DBGridIF(inData); DBGridIF *outIF = new DBGridIF(outData); DBGridIF *weightIF = weightData != (DBObjData *) NULL ? new DBGridIF(weightData) : (DBGridIF *) NULL; DBGridIF *coeffIF = coeffData != (DBObjData *) NULL ? new DBGridIF(coeffData) : (DBGridIF *) NULL; DBGridIF *Q_IF = QData != (DBObjData *) NULL ? new DBGridIF(QData) : (DBGridIF *) NULL; DBGridIF *HL_IF = HLData != (DBObjData *) NULL ? new DBGridIF(HLData) : (DBGridIF *) NULL; DBObjRecord *inLayerRec, *outLayerRec, *weightLayerRec, *coeffLayerRec, *Q_LayerRec, *HL_LayerRec, *cellRec, *toCell; DBCoordinate coord; if ((sumWeights = (DBFloat *) calloc(netIF->CellNum(), sizeof(DBFloat))) == (DBFloat *) NULL) { CMmsgPrint(CMmsgSysError, "Memory allocation error in: %s %d", __FILE__, __LINE__); ret = DBFault; goto Stop; } layerID = 0; inLayerRec = inIF->Layer(layerID); outLayerRec = outIF->Layer(layerID); outIF->RenameLayer(outLayerRec, inLayerRec->Name()); outValue = outIF->MissingValue(outLayerRec); for (pos.Row = 0; pos.Row < outIF->RowNum(); pos.Row++) for (pos.Col = 0; pos.Col < outIF->ColNum(); pos.Col++) outIF->Value(outLayerRec, pos, outValue); for (layerID = 1; layerID < inIF->LayerNum(); ++layerID) { inLayerRec = inIF->Layer(layerID); if ((outLayerRec = outIF->AddLayer(inLayerRec->Name())) == (DBObjRecord *) NULL) { ret = DBFault; goto Stop; } for (pos.Row = 0; pos.Row < outIF->RowNum(); pos.Row++) for (pos.Col = 0; pos.Col < outIF->ColNum(); pos.Col++) outIF->Value(outLayerRec, pos, outValue); } maxProgress = inIF->LayerNum() * netIF->CellNum(); for (layerID = 0; layerID < inIF->LayerNum(); ++layerID) { inLayerRec = inIF->Layer(layerID); outLayerRec = outIF->Layer(layerID); if (weightIF != (DBGridIF *) NULL) weightLayerRec = weightIF->Layer(layerID % weightIF->LayerNum()); if (coeffIF != (DBGridIF *) NULL) coeffLayerRec = coeffIF->Layer(layerID % coeffIF->LayerNum()); if (Q_IF != (DBGridIF *) NULL) Q_LayerRec = Q_IF->Layer(layerID % Q_IF->LayerNum()); if (HL_IF != (DBGridIF *) NULL) HL_LayerRec = HL_IF->Layer(layerID % HL_IF->LayerNum()); for (cellID = 0; cellID < netIF->CellNum(); cellID++) { sumWeights[cellID] = 0.0; cellRec = netIF->Cell(cellID); coord = netIF->Center(cellRec); if (inIF->Value(inLayerRec, coord, &inValue) == false) outIF->Value(outLayerRec, netIF->CellPosition(cellRec), 0.0); else { if (weightIF != (DBGridIF *) NULL) weight = weightIF->Value(weightLayerRec, coord, &weight) == false ? 0.0 : weight * coeff; else weight = coeff; if (areaMult) weight = weight * netIF->CellArea(cellRec); sumWeights[cellID] = weight; outIF->Value(outLayerRec, netIF->CellPosition(cellRec), inValue * weight); } } for (cellID = netIF->CellNum() - 1; cellID >= 0; --cellID) { progress = layerID * netIF->CellNum() + (netIF->CellNum() - cellID); if (DBPause(progress * 100 / maxProgress)) goto Stop; cellRec = netIF->Cell(cellID); coord = netIF->Center(cellRec); if ((toCell = netIF->ToCell(cellRec)) == (DBObjRecord *) NULL) continue; if (outIF->Value(outLayerRec, netIF->CellPosition(cellRec), &inValue) == false) continue; if (outIF->Value(outLayerRec, netIF->CellPosition(toCell), &outValue) == false) continue; sumWeights[toCell->RowID()] = sumWeights[toCell->RowID()] + weight; if (coeffIF != (DBGridIF *) NULL) { if (coeffIF->Value(coeffLayerRec, netIF->Center(cellRec), &kCoeff) == false) kCoeff = 1.0; } else { if (((Q_IF == (DBGridIF *) NULL) || (Q_IF->Value(Q_LayerRec, netIF->Center(cellRec), &q) == false)) || ((HL_IF == (DBGridIF *) NULL) || (HL_IF->Value(HL_LayerRec, netIF->Center(cellRec), &hl) == false)) || (umax == 0) || (ksat == 0)) kCoeff = 1.0; else { if ((q > 0) && (hl > 0)) { Conc = ((inValue / (q * 86400 * 365)) * 1000 * 1000); /* mg/m3 - assume input = kg/yr, Q is m3/s convert to m3/yr kg to mg */ Uptake = (umax * 24 * 365 * Conc) / (ksat * 1000 + Conc); /* mg/m2/yr - umax and ksat/Conc are in mg/m2/hr, mg/m3 */ if (Uptake > 0) { Vf = Uptake / Conc; /* Vf in m/yr */ } else Vf = 0; kCoeff = pow(2.71828, (-1.0 * Vf / hl)); /* HL in m/yr */ /* if ((cellID == 5390) || (cellID == 5015) || (cellID == 4905) || (cellID == 4857)) printf("%i, %f, %f, %f, %f, %f, %f, %f, %f, %f, %f \n", cellID, outValue, inValue, q, hl, umax, ksat, Conc, Uptake, Vf, kCoeff); */ } else kCoeff = 0; } } /* if ((cellID == 5390) || (cellID == 5015) || (cellID == 4905) || (cellID == 4857)) printf("%i, %f \n", cellID, inValue); */ inValue = kCoeff * inValue; outIF->Value(outLayerRec, netIF->CellPosition(toCell), outValue + inValue); } outIF->RecalcStats(outLayerRec); } free(sumWeights); Stop: delete netIF; delete inIF; delete outIF; if (weightIF != (DBGridIF *) NULL) delete weightIF; return (ret); return (DBSuccess); }
void RGISEditGridNetFilterCBK (Widget widget, RGISWorkspace *workspace,XmAnyCallbackStruct *callData) { DBInt layerID, cellID, count, ret, kernel, kernelSize, maxProgress, dir; DBFloat elev, cellElev, prevElev, upElev [5], meanElev, minElev, dElev; DBDataset *dataset = UIDataset (); DBObjData *grdData = dataset->Data (); DBObjData *netData = grdData->LinkedData (); DBGridIF *gridIF = new DBGridIF (grdData); DBNetworkIF *netIF = new DBNetworkIF (netData); DBObjRecord *cellRec, *fromCell, *nextCell, *layerRec; UIPauseDialogOpen ((char *) "Network Filtering"); maxProgress = netIF->CellNum () * gridIF->LayerNum (); for (layerID = 0;layerID < gridIF->LayerNum (); ++layerID) { layerRec = gridIF->Layer (layerID); for (cellID = 0;cellID < netIF->CellNum (); ++cellID) { if (UIPause (((layerID + 1) * netIF->CellNum () - cellID) * 100 / maxProgress)) goto Stop; fromCell = netIF->Cell (cellID); if (netIF->FromCell (fromCell) != (DBObjRecord *) NULL) continue; while (gridIF->Value (layerRec,netIF->Center (fromCell),&prevElev) == (DBInt) false) if ((fromCell = netIF->ToCell (fromCell)) == (DBObjRecord *) NULL) break; if (fromCell == (DBObjRecord *) NULL) continue; kernelSize = 0; for (cellRec = netIF->ToCell (fromCell); (cellRec != (DBObjRecord *) NULL) && (netIF->FromCell (cellRec) == fromCell); cellRec = netIF->ToCell (cellRec)) { dElev = netIF->CellLength (fromCell) * RGlibMinSLOPE; if ((ret = gridIF->Value (layerRec,netIF->Center (cellRec),&cellElev)) == false) { count = 0; meanElev = 0.0; } else { count = 1, meanElev = cellElev; } if (kernelSize + 1 < (int) (sizeof (upElev) / sizeof (upElev [0]))) kernelSize++; for (kernel = kernelSize - 1;kernel > 0;--kernel) upElev [kernel] = upElev [kernel - 1]; upElev [0] = prevElev; for (kernel = 0;kernel < kernelSize;++kernel) { meanElev += upElev [kernel]; count++; } minElev = prevElev; for (dir = 0; dir < 8;++dir) if (((fromCell = netIF->FromCell (cellRec,0x01 << dir,true)) != (DBObjRecord *) NULL) && (gridIF->Value (layerRec,netIF->Center (fromCell),&elev) == true) && (minElev > elev)) { minElev = elev; dElev = netIF->CellLength (fromCell) * RGlibMinSLOPE; } nextCell = netIF->ToCell (cellRec); for (kernel = 0;(kernel < kernelSize) && (nextCell != (DBObjRecord *) NULL);++kernel) { if(gridIF->Value (layerRec,netIF->Center (nextCell),&elev) != (DBInt) false) { meanElev += elev; count++; } nextCell = netIF->ToCell (nextCell); } if (count > 0) { meanElev = meanElev / count; if (meanElev > minElev - dElev) meanElev = minElev - dElev; gridIF->Value (layerRec,netIF->Center (cellRec),meanElev); prevElev = meanElev; } else gridIF->Value (layerRec,netIF->Center (cellRec),gridIF->MissingValue ()); fromCell = cellRec; } } gridIF->RecalcStats (layerRec); } Stop: UIPauseDialogClose (); delete gridIF; delete netIF; }