int MDSmallReservoirCapacityDef () {
int optID = MFUnset;
const char *optStr, *optName = MDVarSmallResCapacity;
const char *options [] = { MDNoneStr, MDInputStr, MDCalculateStr, (char *) NULL };
if ((optStr = MFOptionGet (optName)) != (char *) NULL) optID = CMoptLookup (options, optStr, true);
if ((optID == MDnone) || (_MDOutSmallResCapacityID != MFUnset)) return (_MDOutSmallResCapacityID);
MFDefEntering("SmallReservoirCapacity");
if ((_MDInIrrGrossDemandID = MDIrrGrossDemandDef ()) != MFUnset) {
switch (optID) {
case MDinput:
if ((_MDOutSmallResCapacityID = MFVarGetID (MDVarSmallResCapacity, "mm", MFInput, MFState, MFBoundary)) == CMfailed)
return (CMfailed);
break;
case MDcalculate:
if ((_MDInIrrGrossDemandID == CMfailed) ||
((_MDInIrrAreaID = MDIrrigatedAreaDef ())== CMfailed) ||
((_MDInRainSurfRunoffID = MFVarGetID (MDVarRainSurfRunoff, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutRainSurfRunoffAccumulatedID = MFVarGetID ("__SurfaceROAccumulated", "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutIrrGrossDemandAccumulatedID = MFVarGetID ("__GrossDemandAccumulated", "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDInSmallResStorageFractionID = MFVarGetID (MDVarSmallReservoirStorageFrac, "-", MFInput,MFState,MFBoundary)) == CMfailed) ||
((_MDOutSmallResCapacityID = MFVarGetID (MDVarSmallResCapacity, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
(MFModelAddFunction (_MDSmallReservoirCapacity) == CMfailed)) return (CMfailed);
break;
default: MFOptionMessage (optName, optStr, options); return (CMfailed);
}
}
MFDefLeaving("SmallReservoirCapacity");
return (_MDOutSmallResCapacityID);
}
int MDBaseFlowDef () {
float par;
const char *optStr;
if (_MDOutBaseFlowID != MFUnset) return (_MDOutBaseFlowID);
MFDefEntering ("Base flow");
if (((optStr = MFOptionGet (MDParGroundWatBETA)) != (char *) NULL) && (sscanf (optStr,"%f",&par) == 1)) _MDGroundWatBETA = par;
if (((_MDInRechargeID = MDRainInfiltrationDef ()) == CMfailed) ||
((_MDInIrrGrossDemandID = MDIrrGrossDemandDef ()) == CMfailed)) return (CMfailed);
if ( _MDInIrrGrossDemandID != MFUnset) {
if (((_MDInSmallResReleaseID = MDSmallReservoirReleaseDef ()) == CMfailed) ||
((_MDInIrrAreaFracID = MDIrrigatedAreaDef ()) == CMfailed) ||
((_MDInIrrReturnFlowID = MFVarGetID (MDVarIrrReturnFlow, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutIrrUptakeExternalID = MFVarGetID (MDVarIrrUptakeExternal, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutIrrUptakeGrdWaterID = MDIrrUptakeGrdWaterDef ()) == CMfailed))
return CMfailed;
}
if (((_MDOutGrdWatID = MFVarGetID (MDVarGroundWater, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutGrdWatChgID = MFVarGetID (MDVarGroundWaterChange, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutGrdWatRechargeID = MFVarGetID (MDVarGroundWaterRecharge, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutGrdWatUptakeID = MFVarGetID (MDVarGroundWaterUptake, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutBaseFlowID = MFVarGetID (MDVarBaseFlow, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
(MFModelAddFunction (_MDBaseFlow) == CMfailed)) return (CMfailed);
MFDefLeaving ("Base flow ");
return (_MDOutBaseFlowID);
}
int MDBaseFlowDef () {
float par;
const char *optStr;
// Test if the percolation pathway is active (if its not - PercolationBETA should not be in the Options)
if ((optStr = MFOptionGet(MDParSoilPercolationBETA)) != (char *) NULL) {
if ((_MDInSoilPercolationID = MFVarGetID (MDVarSoilPercolation, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) return (CMfailed); // SZ 10212014
}
int optID = MFUnset; // RJS 060214
const char *optName = MDVarRunoff; // RJS 060214
const char *options [] = { "spatially", MDCalculateStr, MDPnETStr, (char *) NULL }; // RJS 060214
if (_MDOutBaseFlowID != MFUnset) return (_MDOutBaseFlowID);
MFDefEntering ("Base flow");
if ((optStr = MFOptionGet (optName)) != (char *) NULL) optID = CMoptLookup (options, optStr, true); // RJS 060214
switch (optID) {
case MDspatial:
if ((_MDInGroundWatBETAID = MFVarGetID(MDParGroundWatBETA, "1/d", MFInput, MFState, MFBoundary)) == CMfailed) return (CMfailed);
case MDcalculate:
if (_MDInGroundWatBETAID == MFUnset) {
if (((optStr = MFOptionGet (MDParGroundWatBETA)) != (char *) NULL) && (sscanf (optStr,"%f",&par) == 1)) _MDGroundWatBETA = par;
}
if (((_MDInRechargeID = MDRainInfiltrationDef ()) == CMfailed) ||
((_MDInIrrGrossDemandID = MDIrrGrossDemandDef ()) == CMfailed)) return (CMfailed);
if ( _MDInIrrGrossDemandID != MFUnset) {
if (((_MDInSmallResReleaseID = MDSmallReservoirReleaseDef ()) == CMfailed) ||
((_MDInIrrAreaFracID = MDIrrigatedAreaDef ()) == CMfailed) ||
((_MDInIrrReturnFlowID = MFVarGetID (MDVarIrrReturnFlow, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutIrrUptakeExternalID = MFVarGetID (MDVarIrrUptakeExternal, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutIrrUptakeGrdWaterID = MDIrrUptakeGrdWaterDef ()) == CMfailed))
return CMfailed;
}
if (((_MDOutGrdWatID = MFVarGetID (MDVarGroundWater, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutGrdWatChgID = MFVarGetID (MDVarGroundWaterChange, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutGrdWatRechargeID = MFVarGetID (MDVarGroundWaterRecharge, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutGrdWatUptakeID = MFVarGetID (MDVarGroundWaterUptake, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutBaseFlowID = MFVarGetID (MDVarBaseFlow, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
(MFModelAddFunction (_MDBaseFlow) == CMfailed)) return (CMfailed);
break;
case MDPnET:
if (_MDInGroundWatBETAID == MFUnset) {
if (((optStr = MFOptionGet (MDParGroundWatBETA)) != (char *) NULL) && (sscanf (optStr,"%f",&par) == 1)) _MDGroundWatBETA = par;
}
if (((_MDInRechargeID = MDRainInfiltrationDef ()) == CMfailed) ||
((_MDOutGrdWatID = MFVarGetID (MDVarGroundWater, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutGrdWatChgID = MFVarGetID (MDVarGroundWaterChange, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutGrdWatRechargeID = MFVarGetID (MDVarGroundWaterRecharge, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutGrdWatUptakeID = MFVarGetID (MDVarGroundWaterUptake, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutBaseFlowID = MFVarGetID (MDVarBaseFlow, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
(MFModelAddFunction (_MDBaseFlow2) == CMfailed)) return (CMfailed); // RJS 061312
break;
}
MFDefLeaving ("Base flow ");
return (_MDOutBaseFlowID);
}
int MDIrrReturnFlowDef() {
int ret;
if (_MDOutIrrReturnFlowID != MFUnset) return (_MDOutIrrReturnFlowID);
if ((ret = MDIrrGrossDemandDef ()) == CMfailed) return (CMfailed);
if (ret == MFUnset) return (MFUnset);
_MDOutIrrReturnFlowID = MFVarGetID (MDVarIrrReturnFlow, "mm", MFInput, MFFlux, MFBoundary);
return (_MDOutIrrReturnFlowID);
}
int MDIrrSoilMoistChgDef() {
int optID = MFUnset, ret;
const char *optStr, *optName = MDOptIrrigation;
const char *options [] = { MDNoneStr, MDInputStr, MDCalculateStr, (char *) NULL };
if ((optStr = MFOptionGet (optName)) != (char *) NULL) optID = CMoptLookup (options, optStr, true);
if ((optID == MDnone) || (optID == MDinput) || (_MDOutIrrSoilMoistChgID != MFUnset)) return (_MDOutIrrSoilMoistChgID);
if ((ret = MDIrrGrossDemandDef ()) == CMfailed) return (CMfailed);
if (ret == MFUnset) return (MFUnset);
_MDOutIrrSoilMoistChgID = MFVarGetID (MDVarIrrSoilMoistChange, "mm", MFInput, MFFlux, MFBoundary);
return (_MDOutIrrSoilMoistChgID);
}
int MDRainSMoistChgDef () {
int ret = 0;
float par;
const char *optStr;
if (_MDOutSMoistChgID != MFUnset) return (_MDOutSMoistChgID);
const char *soilTemperatureOptions [] = { "none", "calculate", (char *) NULL };
int soilTemperatureID;
if (((optStr = MFOptionGet (MDOptSoilTemperature)) == (char *) NULL) ||
((soilTemperatureID = CMoptLookup (soilTemperatureOptions, optStr, true)) == CMfailed)) {
CMmsgPrint(CMmsgUsrError," Soil TemperatureOption not specifed! Options = 'none' or 'calculate'\n");
return CMfailed;
}
if (((optStr = MFOptionGet (MDParSoilMoistALPHA)) != (char *) NULL) && (sscanf (optStr,"%f",&par) == 1)) _MDSoilMoistALPHA = par;
MFDefEntering ("Rainfed Soil Moisture");
if (soilTemperatureID == MFcalculate ) {
if (((ret = MDPermafrostDef()) == CMfailed) ||
((_MDInRelativeIceContent = MFVarGetID ("SoilIceContent_01", "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
((_MDOutLiquidSoilMoistureID = MFVarGetID (MDVarLiquidSoilMoisture, "-", MFOutput, MFState, MFBoundary)) == CMfailed)) return CMfailed;
}
if ((ret = MDIrrGrossDemandDef ()) == CMfailed) return (CMfailed);
if ((ret != MFUnset) && ((_MDInIrrAreaFracID = MDIrrigatedAreaDef ())== CMfailed) ) return (CMfailed);
if (((_MDInPrecipID = MDPrecipitationDef ()) == CMfailed) ||
((_MDInSPackChgID = MDSPackChgDef ()) == CMfailed) ||
((_MDInPotETID = MDRainPotETDef ()) == CMfailed) ||
((_MDInInterceptID = MDRainInterceptDef ()) == CMfailed) ||
((_MDInSoilAvailWaterCapID = MDSoilAvailWaterCapDef ()) == CMfailed) ||
((_MDInAirTMeanID = MFVarGetID (MDVarAirTemperature, "degC", MFInput, MFState, MFBoundary)) == CMfailed) ||
((_MDOutEvaptrsID = MFVarGetID (MDVarRainEvapotranspiration, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutSoilMoistCellID = MFVarGetID (MDVarRainSoilMoistureCell, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutSoilMoistID = MFVarGetID (MDVarRainSoilMoisture, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
((_MDOutSMoistChgID = MFVarGetID (MDVarRainSoilMoistChange, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
(MFModelAddFunction (_MDRainSMoistChg) == CMfailed)) return (CMfailed);
MFDefLeaving ("Rainfed Soil Moisture");
return (_MDOutSMoistChgID);
}
int MDWaterBalanceDef() {
MFDefEntering ("WaterBalance");
if (( MDAccumBalanceDef () == CMfailed) ||
((_MDInPrecipID = MDPrecipitationDef ()) == CMfailed) ||
((_MDInDischargeID = MDDischargeDef ()) == CMfailed) ||
((_MDInSnowPackChgID = MDSPackChgDef ()) == CMfailed) ||
((_MDInSoilMoistChgID = MDSoilMoistChgDef ()) == CMfailed) ||
((_MDInRunoffID = MDRunoffDef ()) == CMfailed) ||
((_MDInEvaptrsID = MFVarGetID (MDVarEvapotranspiration, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDInGrdWatChgID = MFVarGetID (MDVarGroundWaterChange, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDInRunoffPoolChgID = MFVarGetID (MDVarRunoffPoolChg, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutWaterBalanceID = MFVarGetID (MDVarWaterBalance, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
(MFModelAddFunction(_MDWaterBalance) == CMfailed))
return (CMfailed);
if ((_MDInIrrGrossDemandID = MDIrrGrossDemandDef ()) != MFUnset) {
if ((_MDInIrrGrossDemandID == CMfailed) ||
((_MDInIrrUptakeRiverID = MDIrrUptakeRiverDef ()) == CMfailed) ||
((_MDInIrrUptakeGrdWaterID = MDIrrUptakeGrdWaterDef ()) == CMfailed) ||
((_MDInIrrSoilMoistChgID = MDIrrSoilMoistChgDef ()) == CMfailed) ||
((_MDInIrrAreaFracID = MDIrrigatedAreaDef ())== CMfailed) ||
((_MDInIrrEvapotranspID = MFVarGetID (MDVarIrrEvapotranspiration, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDInIrrReturnFlowID = MFVarGetID (MDVarIrrReturnFlow, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDInIrrUptakeExcessID = MFVarGetID (MDVarIrrUptakeExcess, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutIrrUptakeBalanceID = MFVarGetID (MDVarIrrUptakeBalance, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutIrrWaterBalanceID = MFVarGetID (MDVarIrrWaterBalance, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed))
return (CMfailed);
if ((_MDInSmallResReleaseID = MDSmallReservoirReleaseDef ()) != MFUnset) {
if (( _MDInSmallResReleaseID == CMfailed) ||
((_MDInSmallResEvapoID = MFVarGetID (MDVarSmallResEvaporation, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDInSmallResStorageChgID = MFVarGetID (MDVarSmallResStorageChange, "mm", MFInput, MFState, MFInitial)) == CMfailed))
return (CMfailed);
}
}
MFDefLeaving ("WaterBalance");
return (_MDOutWaterBalanceID);
}
int MDSmallReservoirReleaseDef () {
if (_MDOutSmallResReleaseID != MFUnset) return (_MDOutSmallResReleaseID);
if ((_MDInIrrGrossDemandID = MDIrrGrossDemandDef ()) == CMfailed) return (CMfailed);
if (_MDInIrrGrossDemandID == MFUnset) return (MFUnset);
if ((_MDInSmallResCapacityID = MDSmallReservoirCapacityDef ()) == CMfailed) return (CMfailed);
if (_MDInSmallResCapacityID == MFUnset) return (MFUnset);
MFDefEntering("Small Reservoirs");
if (((_MDInRainSurfRunoffID = MDRainSurfRunoffDef ()) == CMfailed) ||
((_MDInIrrAreaFracID = MDIrrigatedAreaDef ()) == CMfailed) ||
((_MDInPotEvapotransID = MDIrrRefEvapotransDef ()) == CMfailed) ||
((_MDInSmallResStorageFracID = MFVarGetID (MDVarSmallReservoirStorageFrac, "-", MFInput, MFState, MFBoundary)) == CMfailed) ||
((_MDOutSmallResUptakeID = MFVarGetID (MDVarSmallResUptake, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutSmallResReleaseID = MFVarGetID (MDVarSmallResRelease, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutSmallResStorageID = MFVarGetID (MDVarSmallResStorage, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutSmallResStorageID = MFVarGetID (MDVarSmallResStorage, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutSmallResEvapoID = MFVarGetID (MDVarSmallResEvaporation, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutSmallResStorageChgID = MFVarGetID (MDVarSmallResStorageChange, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
((MFModelAddFunction (_MDSmallReservoirRelease) == CMfailed))) return (CMfailed);
MFDefLeaving("Small Reservoirs");
return (_MDOutSmallResReleaseID);
}
int MDRainSMoistChgLayeredSoilDef () {
int ret = 0;
float par;
int i;
char soilLiquidName [16];
char soilSiltFractionName[22];
char soilClayFractionName[22];
char soilSandFractionName[22];
char soilRelativeSoilMoistName[30];
char soilIceName[20];
char soilDepthName[20];
const char *optStr;
const char *soilTemperatureOptions [] = { "none", "calculate", (char *) NULL };
if (_MDOutSMoistChgID != MFUnset) return (_MDOutSMoistChgID);
if (((optStr = MFOptionGet (MDOptSoilTemperature)) == (char *) NULL) || ((soilTemperatureID = CMoptLookup (soilTemperatureOptions, optStr, true)) == CMfailed)) {
CMmsgPrint(CMmsgUsrError," Soil TemperatureOption not specifed! Options = 'none' or 'calculate'\n");
return CMfailed;
}
MFDefEntering ("Rainfed Layered Soil Moisture");
if (soilTemperatureID ==1){
// printf ("SoilTemp is on before\n");
if ((ret = MDPermafrostDef ()) == CMfailed) return (CMfailed);
// printf ("SoilTemp is on fater \n");
// if ((_MDActiveLayerDepthID= MFVarGetID (MDVarActiveLayerDepth, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) return CMfailed;
if ((_MDActiveLayerDepthID = MFVarGetID (MDVarActiveLayerDepth, "m", MFOutput, MFState, MFBoundary)) == CMfailed)return CMfailed;
}
if (((optStr = MFOptionGet (MDParSoilMoistALPHA)) != (char *) NULL) && (sscanf (optStr,"%f",&par) == 1)) _MDSoilMoistALPHA = par;
if (((optStr = MFOptionGet ("SoilMoistureTimeSteps")) != (char *) NULL) && (sscanf (optStr,"%f",&par) == 1)) _MDTimeSteps = par;
if (((optStr = MFOptionGet ("SoilMoistureTimeSteps")) != (char *) NULL) && (sscanf (optStr,"%f",&par) == 1)) _MDTimeSteps = par;
if ((ret = MDIrrGrossDemandDef ()) == CMfailed) return (CMfailed);
if ((ret != MFUnset) &&
((_MDInIrrAreaFracID = MDIrrigatedAreaDef ())== CMfailed) )
return (CMfailed);
for (i = 0; i < _MDNumberOfSoilMoistureLayers; i++) {
_MDInSoilDepthIDs = (int *) realloc (_MDInSoilDepthIDs, (i + 1) * sizeof (int));
_MDOutSMLiquidIDs = (int *) realloc (_MDOutSMLiquidIDs, (i + 1) * sizeof (int));
_MDOutSMIceDs = (int *) realloc (_MDOutSMIceDs, (i + 1) * sizeof (int));
_MDInSoilpctClayIDs = (int *) realloc (_MDInSoilpctClayIDs, (i + 1) * sizeof (int));
_MDInSoilpctSandIDs = (int *) realloc (_MDInSoilpctSandIDs, (i + 1) * sizeof (int));
_MDInSoilpctSiltIDs = (int *) realloc (_MDInSoilpctSiltIDs, (i + 1) * sizeof (int));
_MDSoilRelativeSoilMoistIDs = (int *) realloc (_MDSoilRelativeSoilMoistIDs, (i + 1) * sizeof (int));
// printf ("Reading Layer = %i of %i\n",i, _MDNumberOfSoilMoistureLayers);
sprintf (soilDepthName, "SoilDepth_%02d", i + 1); //
sprintf (soilLiquidName, "SoilLiquid_%02d", i + 1); //
sprintf (soilIceName, "SoilIce_%02d", i + 1); //
sprintf (soilSiltFractionName, "SoilSiltPercentage_%02d", i + 1); //
sprintf (soilSandFractionName, "SoilSandPercentage_%02d", i + 1); //
sprintf (soilClayFractionName, "SoilClayPercentage_%02d", i + 1); //
sprintf (soilRelativeSoilMoistName, "SoilRelativeSoilMoisture_%02d", i + 1); //
//printf ("SDepth = %s\n", soilLiquidName);
//printf ("ID = %i\n",_MDInSoilDepthIDs [i]);
if ((_MDInSoilDepthIDs [i] = MFVarGetID (soilDepthName, "mm", MFInput, MFState, MFBoundary)) == CMfailed) {
printf("CMfailed in MDInSoilInputDataID \n");
CMmsgPrint (CMmsgUsrError, "CMfailed in MDInSoilDepth \n");
return CMfailed;
}
if ((_MDOutSMLiquidIDs [i] = MFVarGetID (soilLiquidName, "mm", MFOutput, MFState, MFInitial)) == CMfailed) {
printf("CMfailed in MDInSoilInputDataID \n");
CMmsgPrint (CMmsgUsrError, "CMfailed in MDInSoilDepth \n");
return CMfailed;
}
if ((_MDOutSMIceDs [i] = MFVarGetID (soilIceName, "mm", MFOutput, MFState, MFInitial)) == CMfailed) {
printf("CMfailed in MDInSoilInputDataID \n");
CMmsgPrint (CMmsgUsrError, "CMfailed in MDInSoilDepth \n");
return CMfailed;
}
if ((_MDInSoilpctSiltIDs [i] = MFVarGetID (soilSiltFractionName, "mm", MFInput, MFState, MFBoundary)) == CMfailed) {
printf("CMfailed in MDInSoilInputDataID \n");
CMmsgPrint (CMmsgUsrError, "CMfailed in MDInSoilDepth \n");
return CMfailed;
}
if ((_MDInSoilpctSandIDs [i] = MFVarGetID (soilSandFractionName, "mm", MFInput, MFState, MFBoundary)) == CMfailed) {
printf("CMfailed in MDInSoilInputDataID \n");
CMmsgPrint (CMmsgUsrError, "CMfailed in MDInSoilDepth \n");
return CMfailed;
}
if ((_MDInSoilpctClayIDs [i] = MFVarGetID (soilClayFractionName, "mm", MFInput, MFState, MFBoundary)) == CMfailed) {
printf("CMfailed in MDInSoilInputDataID \n");
CMmsgPrint (CMmsgUsrError, "CMfailed in MDInSoilDepth \n");
return CMfailed;
}
if ((_MDSoilRelativeSoilMoistIDs [i] = MFVarGetID (soilRelativeSoilMoistName, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) {
printf("CMfailed in MDInSoilInputDataID \n");
CMmsgPrint (CMmsgUsrError, "CMfailed in MDInSoilDepth \n");
return CMfailed;
}
}
if ((_MDOutRainInfiltrationID= MFVarGetID (MDVarRainInfiltration, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) return CMfailed;
if ((_MDOutSatExcessFlowID= MFVarGetID (MDVarSaturationExcessflow, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) return CMfailed;
if ((_MDOutSoilDebugID = MFVarGetID(MDVarOutSoilDebug,"mm", MFOutput, MFState, MFBoundary)) == CMfailed) return CMfailed;
if (((_MDInPrecipID = MDPrecipitationDef ()) == CMfailed) ||
((_MDInSPackChgID = MDSPackChgDef ()) == CMfailed) ||
((_MDInPotETID = MDRainPotETDef ()) == CMfailed) ||
((_MDInInterceptID = MDRainInterceptDef ()) == CMfailed) ||
((_MDOutWaterTableDepthID = MFVarGetID (MDVarWaterTableDepth, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
((_MDInSoilOrganicLayerID = MFVarGetID (MDVarSoilOrganicLayer, "kg/m3", MFInput, MFState, MFBoundary)) == CMfailed) ||
// ((_MDInSoilAvailWaterCapID = MDSoilAvailWaterCapDef ()) == CMfailed) ||
((_MDOutEvaptrsID = MFVarGetID (MDVarRainEvapotranspiration, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDInSoilRootingDepthID = MFVarGetID (MDVarSoilRootingDepth, "mm", MFInput, MFState, MFBoundary)) == CMfailed) ||
((_MDInIsInitialID = MFVarGetID (MDVarSoilMoistureIsInitial, "m", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutSoilMoistCellID = MFVarGetID (MDVarRainSoilMoistureCell, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutSoilMoistID = MFVarGetID (MDVarRainSoilMoisture, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
((_MDOutSMoistChgID = MFVarGetID (MDVarRainSoilMoistChange, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
(MFModelAddFunction (_MDRainSMoistChg) == CMfailed)) return (CMfailed);
MFDefLeaving ("Rainfed Layered Soil Moisture");
return (_MDOutSMoistChgID);
}
int MDRainSMoistChgDef () {
int ret = 0;
float par;
const char *optStr;
/*
// Test if the percolation pathway is active (if its not - PercolationBETA should not be in the Options)
if ((optStr = MFOptionGet(MDParSoilPercolationBETA)) != (char *) NULL) {
if ((_MDOutPercolationID = MFVarGetID (MDVarSoilPercolation, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) return (CMfailed); // SZ 10212014
}
*/
if (_MDOutSMoistChgID != MFUnset) return (_MDOutSMoistChgID);
const char *soilTemperatureOptions [] = { "none", "calculate", (char *) NULL };
int soilTemperatureID;
if (((optStr = MFOptionGet (MDOptSoilTemperature)) == (char *) NULL) ||
((soilTemperatureID = CMoptLookup (soilTemperatureOptions, optStr, true)) == CMfailed)) {
CMmsgPrint(CMmsgUsrError," Soil TemperatureOption not specifed! Options = 'none' or 'calculate'\n");
return CMfailed;
}
if (((optStr = MFOptionGet (MDParSoilMoistALPHA)) != (char *) NULL) && (sscanf (optStr,"%f",&par) == 1)) _MDSoilMoistALPHA = par;
if (((optStr = MFOptionGet (MDParSoilPercolationBETA)) != (char *) NULL) && (sscanf (optStr,"%f",&par) ==1)) _MDparPercolation = par;
MFDefEntering ("Rainfed Soil Moisture");
if (soilTemperatureID == MFcalculate ) {
if (((ret = MDPermafrostDef()) == CMfailed) ||
((_MDInRelativeIceContent = MFVarGetID ("SoilIceContent_01", "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
((_MDOutLiquidSoilMoistureID = MFVarGetID (MDVarLiquidSoilMoisture, "-", MFOutput, MFState, MFBoundary)) == CMfailed)) return CMfailed;
}
if ((ret = MDIrrGrossDemandDef ()) == CMfailed) return (CMfailed);
if ((ret != MFUnset) && ((_MDInIrrAreaFracID = MDIrrigatedAreaDef ())== CMfailed) ) return (CMfailed);
if (((_MDInPrecipID = MDPrecipitationDef ()) == CMfailed) ||
((_MDInSPackChgID = MDSPackChgDef ()) == CMfailed) ||
((_MDInPotETID = MDRainPotETDef ()) == CMfailed) ||
((_MDInInterceptID = MDRainInterceptDef ()) == CMfailed) ||
((_MDInSoilAvailWaterCapID = MDSoilAvailWaterCapDef ()) == CMfailed) ||
((_MDInAirTMeanID = MFVarGetID (MDVarAirTemperature, "degC", MFInput, MFState, MFBoundary)) == CMfailed) ||
((_MDInRunoffToPervID = MDStormRunoffDef ()) == CMfailed) || // RJS 082812
// ((_MDInH2OFractionID = MFVarGetID (MDVarH2OFracSpatial, "mm", MFInput, MFState, MFBoundary)) == CMfailed) || // RJS 082812
((_MDInStormRunoffTotalID = MFVarGetID (MDVarStormRunoffTotal, "mm", MFInput, MFFlux, MFBoundary)) == CMfailed) || // RJS 082812
((_MDInImpFractionID = MFVarGetID (MDVarImpFracSpatial, "-", MFInput, MFState, MFBoundary)) == CMfailed) || // RJS 082812
((_MDInH2OFractionID = MFVarGetID (MDVarH2OFracSpatial, "-", MFInput, MFState, MFBoundary)) == CMfailed) || // RJS 082812
((_MDOutEvaptrsID = MFVarGetID (MDVarRainEvapotranspiration, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) ||
((_MDOutExcessID = MFVarGetID (MDVarExcess, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) || // RJS 091813
((_MDOutExcessNotScaledID = MFVarGetID (MDVarExcessNotScaled, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) || // RJS 091813
((_MDOutEvaptrsNotScaledID = MFVarGetID (MDVarRainETnotScaled, "mm", MFOutput, MFFlux, MFBoundary)) == CMfailed) || // RJS 082812
((_MDOutSoilMoistNotScaledID = MFVarGetID (MDVarRainSoilMoistureNotScaled, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutSoilMoistID = MFVarGetID (MDVarRainSoilMoisture, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
((_MDOutSMoistChgNotScaledID = MFVarGetID (MDVarRainSoilMoistureChangeNotScaled, "mm", MFOutput, MFState, MFInitial)) == CMfailed) ||
((_MDOutSMoistChgID = MFVarGetID (MDVarRainSoilMoistChange, "mm", MFOutput, MFState, MFBoundary)) == CMfailed) ||
(MFModelAddFunction (_MDRainSMoistChg) == CMfailed)) return (CMfailed);
const char *snowImpervMeltOptions [] = { MDNoneStr, MDCalculateStr,(char *) NULL };
int impervSnowMeltCalcID;
if ((optStr = MFOptionGet (MDOptImperviousMeltCalc) ) == (char *) NULL) {
optStr = MDNoneStr;
//CMmsgPrint(CMmsgWarning," Impervious Snow Fall runoff method not specified - defaulting to none (RainSMoistChgDef).\n");
}
if ((impervSnowMeltCalcID = CMoptLookup (snowImpervMeltOptions,optStr,true)) == CMfailed) {
CMmsgPrint(CMmsgUsrError," Impervious Snow Fall runoff method incorrectly specified. Options are 'none' or 'calculate'.\n");
return (CMfailed);
}
switch (impervSnowMeltCalcID) {
case MFnone:
// Nothing to be done
break;
case MFcalculate:
if (((_MDInImpSnowFallROID = MFVarGetID ( MDVarImpSnowFallRunoff,"mm", MFInput, MFFlux, MFBoundary)) == CMfailed)
) return (CMfailed);
break;
default: MFOptionMessage (MDOptImperviousMeltCalc, optStr, snowImpervMeltOptions); return (CMfailed);
}
MFDefLeaving ("Rainfed Soil Moisture");
return (_MDOutSMoistChgID);
}
