/**
* Set commands that do not require a circuit.
*
* <p>This is for setting global options that do not require an active circuit.
*/
public static boolean doSetCmd_NoCircuit() {
boolean success = true;
Parser parser = Parser.getInstance();
// Continue parsing command line
int paramPointer = -1;
String paramName = parser.getNextParam();
String param = parser.stringValue();
while (param.length() > 0) {
if (paramName.length() == 0) {
paramPointer += 1;
} else {
paramPointer = optionList.getCommand(paramName);
}
switch (paramPointer) {
case -1:
DSS.doSimpleMsg("Unknown parameter \"" + paramName + "\" for set command ", 130);
break;
case 14:
DSS.defaultEditor = param; // 'editor='
break;
case 56:
DSS.setDataPath(param); // set a legal data path
break;
case 66:
Executive.getInstance().setRecorderOn(Util.interpretYesNo(param));
break;
case 72:
DSS.defaultBaseFreq = parser.doubleValue();
break;
default:
DSS.doSimpleMsg(
"You must create a circuit to execute this \"set\" command: " + parser.getCommand(),
301);
success = false; // indicate that we could not process all set command
break;
}
paramName = parser.getNextParam();
param = parser.stringValue();
}
return success;
}
/**
* Set DSS options.
*
* <p>Solve command is re-routed here first to set options before solving.
*/
public static int doSetCmd(int solveOption) {
LoadShapeObj testLoadShapeObj;
int[] numRegs;
Parser parser = Parser.getInstance();
Circuit ckt = DSS.activeCircuit;
int ret = 0;
// continue parsing command line
int paramPointer = -1;
String paramName = parser.getNextParam();
String param = parser.stringValue();
while (param.length() > 0) {
if (paramName.length() == 0) {
paramPointer += 1;
} else {
paramPointer = optionList.getCommand(paramName);
}
switch (paramPointer) {
case -1:
DSS.doSimpleMsg("Unknown parameter \"" + paramName + "\" for set command ", 130);
break;
case 0:
case 11:
DSSClassDefs.setObjectClass(param);
break;
case 1:
case 12:
DSS.setObject(param);
break;
case 2:
ckt.getSolution().setIntHour(parser.integerValue());
break;
case 3:
ckt.getSolution().getDynaVars().t = parser.doubleValue();
break;
case 4:
ckt.getSolution().setYear(parser.integerValue());
ckt.setDefaultGrowthFactor(
Math.pow(ckt.getDefaultGrowthRate(), ckt.getSolution().getYear() - 1));
break;
case 5:
ckt.getSolution().setFrequency(parser.doubleValue());
break;
case 6:
ckt.getSolution().getDynaVars().h = Util.interpretTimeStepSize(param);
break;
case 17:
ckt.getSolution().getDynaVars().h = Util.interpretTimeStepSize(param);
break;
case 7:
ckt.getSolution().setMode(Util.interpretSolveMode(param)); // see DSSGlobals
break;
case 8:
ckt.getSolution().setRandomType(Util.interpretRandom(param));
break;
case 9:
ckt.getSolution().setNumberOfTimes(parser.integerValue());
break;
case 10:
ExecHelper.setTime();
break;
case 13:
ExecHelper.setActiveCircuit(param);
break;
case 14:
DSS.defaultEditor = param; // 'Editor='
break;
case 15:
ckt.getSolution().setConvergenceTolerance(parser.doubleValue());
break;
case 16:
ckt.getSolution().setMaxIterations(parser.integerValue());
break;
case 18:
ckt.getSolution()
.setDefaultLoadModel(
Util.interpretLoadModel(param)); // for reverting to last on specified
ckt.getSolution().setLoadModel(ckt.getSolution().getDefaultLoadModel());
break;
case 19:
ckt.setLoadMultiplier(parser.doubleValue()); // set using loadMultiplier property
break;
case 20:
ckt.setNormalMinVolts(parser.doubleValue());
break;
case 21:
ckt.setNormalMaxVolts(parser.doubleValue());
break;
case 22:
ckt.setEmergMinVolts(parser.doubleValue());
break;
case 23:
ckt.setEmergMaxVolts(parser.doubleValue());
break;
case 24:
ckt.getDefaultDailyShapeObj().setMean(parser.doubleValue() / 100.0);
break;
case 25:
ckt.getDefaultDailyShapeObj().setStdDev(parser.doubleValue() / 100.0);
break;
case 26:
ckt.setLoadDurCurve(param);
ckt.setLoadDurCurveObj((LoadShapeObj) DSS.loadShapeClass.find(param));
if (ckt.getLoadDurCurveObj() == null)
DSS.doSimpleMsg("Load-duration curve not found.", 131);
break;
case 27:
ckt.setDefaultGrowthRate(1.0 + parser.doubleValue() / 100.0);
ckt.setDefaultGrowthFactor(
Math.pow(ckt.getDefaultGrowthRate(), ckt.getSolution().getYear() - 1));
break;
case 28:
ckt.getAutoAddObj().setGenKW(parser.doubleValue());
break;
case 29:
ckt.getAutoAddObj().setGenPF(parser.doubleValue());
break;
case 30:
ckt.getAutoAddObj().setCapKVAr(parser.doubleValue());
break;
case 31:
ckt.getAutoAddObj().setAddType(Util.interpretAddType(param));
break;
case 32:
ckt.setDuplicatesAllowed(Util.interpretYesNo(param));
break;
case 33:
ckt.setZonesLocked(Util.interpretYesNo(param));
break;
case 34:
ckt.setUEWeight(parser.doubleValue());
break;
case 35:
ckt.setLossWeight(parser.doubleValue());
break;
case 36:
numRegs = new int[1];
ckt.setUERegs(Util.parseIntArray(ckt.getUERegs(), numRegs, param));
ckt.setNumUERegs(numRegs[0]);
break;
case 37:
numRegs = new int[1];
ckt.setLossRegs(Util.parseIntArray(ckt.getLossRegs(), numRegs, param));
ckt.setNumLossRegs(numRegs[0]);
break;
case 38:
ExecHelper.doLegalVoltageBases();
break;
case 39:
ckt.getSolution().setAlgorithm(Util.interpretSolveAlg(param));
break;
case 40:
ckt.setTrapezoidalIntegration(Util.interpretYesNo(param));
break;
case 41:
ExecHelper.doAutoAddBusList(param);
break;
case 42:
ckt.getSolution().setControlMode(Util.interpretControlMode(param));
ckt.getSolution()
.setDefaultControlMode(
ckt.getSolution()
.getControlMode()); // always revert to last one specified in a script
break;
case 43:
ckt.getControlQueue().setTrace(Util.interpretYesNo(param));
break;
case 44:
ckt.setGenMultiplier(parser.doubleValue());
break;
case 45:
testLoadShapeObj = (LoadShapeObj) DSS.loadShapeClass.find(param);
if (testLoadShapeObj != null) ckt.setDefaultDailyShapeObj(testLoadShapeObj);
break;
case 46:
testLoadShapeObj = (LoadShapeObj) DSS.loadShapeClass.find(param);
if (testLoadShapeObj != null) ckt.setDefaultYearlyShapeObj(testLoadShapeObj);
break;
case 47:
ExecHelper.doSetAllocationFactors(parser.doubleValue());
break;
case 48:
ckt.setPositiveSequence(Util.interpretCktModel(param));
break;
case 49:
ckt.setPriceSignal(parser.doubleValue());
break;
case 50:
ckt.setPriceCurve(param);
ckt.setPriceCurveObj((PriceShapeObj) DSS.loadShapeClass.find(param));
if (ckt.getPriceCurveObj() == null)
DSS.doSimpleMsg("PriceShape: \"" + param + "\" not found.", 132);
break;
case 51:
if (ckt.getActiveCktElement() != null) {
CktElement elem = ckt.getActiveCktElement();
elem.setActiveTerminalIdx(parser.integerValue());
DSS.setActiveBus(
Util.stripExtension(
elem.getBus(elem.getActiveTerminalIdx()))); // bus connected to terminal
}
break;
case 52:
ckt.setFundamental(
parser.doubleValue()); // set base frequency for system (used henceforth)
ckt.getSolution().setFrequency(parser.doubleValue());
break;
case 53:
ExecHelper.doHarmonicsList(param);
break;
case 54:
ckt.getSolution().setMaxControlIterations(parser.integerValue());
break;
case 55:
ret = DSS.setActiveBus(param); // see DSS globals
break;
case 56:
DSS.setDataPath(param); // set a legal data path
break;
case 57:
ExecHelper.doKeeperBusList(param);
break;
case 58:
ExecHelper.doSetReduceStrategy(param);
break;
case 59:
DSS.energyMeterClass.setSaveDemandInterval(Util.interpretYesNo(param));
break;
case 60:
ckt.setPctNormalFactor(parser.doubleValue());
ExecHelper.doSetNormal(ckt.getPctNormalFactor());
break;
case 61:
DSS.energyMeterClass.setDIVerbose(Util.interpretYesNo(param));
break;
case 62:
ckt.setCaseName(parser.stringValue());
break;
case 63:
ckt.setNodeMarkerCode(parser.integerValue());
break;
case 64:
ckt.setNodeMarkerWidth(parser.integerValue());
break;
case 65:
ckt.setLogEvents(Util.interpretYesNo(param));
break;
case 66:
Executive.getInstance().setRecorderOn(Util.interpretYesNo(param));
break;
case 67:
DSS.energyMeterClass.setDoOverloadReport(Util.interpretYesNo(param));
break;
case 68:
DSS.energyMeterClass.setDoVoltageExceptionReport(Util.interpretYesNo(param));
break;
case 69:
ExecHelper.doSetCFactors(parser.doubleValue());
break;
case 70:
DSS.autoShowExport = Util.interpretYesNo(param);
break;
case 71:
DSS.maxAllocationIterations = parser.integerValue();
break;
case 72:
DSS.defaultBaseFreq = parser.doubleValue();
ckt.setFundamental(
parser.doubleValue()); // set base frequency for system (used henceforth)
ckt.getSolution().setFrequency(parser.doubleValue());
break;
case 73:
ckt.setMarkSwitches(Util.interpretYesNo(param));
break;
case 74:
ckt.setSwitchMarkerCode(parser.integerValue());
break;
case 75:
DSS.daisySize = parser.doubleValue();
break;
case 76:
ckt.setMarkTransformers(Util.interpretYesNo(param));
break;
case 77:
ckt.setTransMarkerCode(parser.integerValue());
break;
case 78:
ckt.setTransMarkerSize(parser.integerValue());
break;
case 79:
ckt.setActiveLoadShapeClass(Util.interpretLoadShapeClass(param));
break;
case 80:
DSS.defaultEarthModel = Util.interpretEarthModel(param);
break;
case 81:
DSS.logQueries = Util.interpretYesNo(param);
if (DSS.logQueries) DSS.resetQueryLogFile();
default:
// ignore excess parameters
break;
}
switch (paramPointer) {
case 3:
ckt.getSolution().updateDblHour();
break;
case 4:
ckt.getSolution().updateDblHour();
break;
}
paramName = parser.getNextParam();
param = parser.stringValue();
}
if (solveOption == 1) ExecHelper.doSolveCmd();
return ret;
}
@Override
public int edit() {
Parser parser = Parser.getInstance();
// continue parsing with contents of parser
activeEnergyMeterObj = (EnergyMeterObj) elementList.getActive();
DSS.activeCircuit.setActiveCktElement(activeEnergyMeterObj);
boolean doRecalc = false;
EnergyMeterObj elem = activeEnergyMeterObj;
elem.setMeteredElementChanged(false);
int paramPointer = -1;
String paramName = parser.getNextParam();
String param = parser.stringValue();
while (param.length() > 0) {
if (paramName.length() == 0) {
paramPointer += 1;
} else {
paramPointer = commandList.getCommand(paramName);
}
if (paramPointer >= 0 && paramPointer < numProperties)
elem.setPropertyValue(paramPointer, param);
switch (paramPointer) {
case -1:
DSS.doSimpleMsg(
"Unknown parameter \""
+ paramName
+ "\" for object \""
+ getClassName()
+ "."
+ elem.getName()
+ "\"",
520);
break;
case 0:
elem.setElementName(param.toLowerCase());
break;
case 1:
elem.setMeteredTerminalIdx(parser.integerValue() - 1);
break;
case 2: /* Actions */
switch (param.toLowerCase().charAt(0)) {
case 'a':
elem.allocateLoad();
break;
case 'c':
elem.resetRegisters();
break;
case 'r':
elem.reduceZone();
break;
case 's':
elem.saveRegisters();
break;
case 't':
elem.takeSample();
break;
case 'z':
elem.zoneDump();
break;
}
break;
case 3:
processOptions(param);
break;
case 4:
elem.setMaxZoneKVANorm(parser.doubleValue());
break;
case 5:
elem.setMaxZoneKVAEmerg(parser.doubleValue());
break;
case 6:
parser.parseAsVector(elem.getNumPhases(), elem.getSensorCurrent()); // inits to zero
break;
case 7:
Util.interpretAndAllocStrArray(
param, elem.getDefinedZoneListSize(), elem.getDefinedZoneList());
break;
case 8:
elem.setLocalOnly(Util.interpretYesNo(param));
break;
case 9:
interpretRegisterMaskArray(elem.getTotalsMask());
break;
case 10:
elem.setLosses(Util.interpretYesNo(param));
break;
case 11:
elem.setLineLosses(Util.interpretYesNo(param));
break;
case 12:
elem.setXfmrLosses(Util.interpretYesNo(param));
break;
case 13:
elem.setSeqLosses(Util.interpretYesNo(param));
break;
case 14:
elem.setThreePhaseLosses(Util.interpretYesNo(param));
break;
case 15:
elem.setVBaseLosses(Util.interpretYesNo(param));
break;
case 16:
elem.setPhaseVoltageReport(Util.interpretYesNo(param));
break;
/* case 10: aem.setHasFeeder(Utilities.interpretYesNo(Param)); break;*/
default:
classEdit(activeEnergyMeterObj, paramPointer - EnergyMeter.NumPropsThisClass);
break;
}
switch (paramPointer) {
case 0:
elem.setMeteredElementChanged(true);
doRecalc = true;
break;
case 1:
elem.setMeteredElementChanged(true);
doRecalc = true;
break;
case 10:
if (elem.hasFeeder()) {
doRecalc = true;
} else {
elem.removeFeederObj();
}
break;
}
paramName = parser.getNextParam();
param = parser.stringValue();
}
if (doRecalc) elem.recalcElementData(); // when some basic data have changed
return 0;
}
@Override
public int edit() {
Parser parser = Parser.getInstance();
// continue parsing with contents of parser
activeLineSpacingObj = (LineSpacingObj) elementList.getActive();
DSS.activeDSSObject = activeLineSpacingObj;
LineSpacingObj elem = activeLineSpacingObj;
int paramPointer = -1;
String paramName = parser.getNextParam();
String param = parser.stringValue();
while (param.length() > 0) {
if (paramName.length() == 0) {
paramPointer += 1;
} else {
paramPointer = commandList.getCommand(paramName);
}
if (paramPointer >= 0 && paramPointer < numProperties)
elem.setPropertyValue(paramPointer, param);
switch (paramPointer) {
case -1:
DSS.doSimpleMsg(
"Unknown parameter \""
+ paramName
+ "\" for object \""
+ getClassName()
+ "."
+ elem.getName()
+ "\"",
10101);
break;
case 0:
elem.setNWires(parser.integerValue()); // forces reallocations
break;
case 1:
elem.setNPhases(parser.integerValue());
break;
case 2:
interpretArray(param, SpcParmChoice.X);
break;
case 3:
interpretArray(param, SpcParmChoice.H);
break;
case 4:
elem.setUnits(LineUnits.interpretUnitsCode(param));
break;
default:
// inherited parameters
classEdit(activeLineSpacingObj, paramPointer - LineSpacing.NumPropsThisClass);
break;
}
switch (paramPointer) {
case 0:
case 1:
case 2:
case 3:
case 4:
elem.setDataChanged(true);
break;
}
paramName = parser.getNextParam();
param = parser.stringValue();
}
return 0;
}