-
-0, --offsetx0
-
-1 <fldname> , --field1Name=<fldname>
-
-1, --inSign
-
-1, --offsetx1
-
-2 <fldname> , --field2Name=<fldname>
-
-2, --outSign
-
-A <A>, --addRemoveFlag=<A>
-
-a <offset>, --positionOffset=<offset>
-
-a, --axis
-
-A1 <LOWERANGLE>, --lowerAngle=<LOWERANGLE>
-
-A2 <UPPERANGLE>, --upperAngle=<UPPERANGLE>
-
-b <bd>, --beginDump=<bd>
-
-B <beta>, --beta=<beta>
-
-b <inmag>, --inSlabB=<inmag>
-
-b <inslabB>, --inSlabB=<inslabB>
-
-B <outmag>, --outSlabB=<outmag>
-
-B <outslabB>, --outSlabB=<outslabB>
-
-b <time>, --beginTime=<time>
-
-c <center>, --center=<center>
-
-c <centerOpt>, --centering=<centerOpt>
-
-C <comp>, --component=<comp>
-
-c <comp>, --component=<comp>
-
-c <cut>, --cutoff=<cut>
-
-c <step>, --dt=<step>
-
-c, --construct
-
-d <dir>, --inDirection=<dir>
-
-D <dir>, --outDirection=<dir>
-
-D <direction>, --fluxDir=<direction>
-
-d <dr>, --dumpRange=<dr>
-
-d <gapwidth>, --gapWidth=<gapwidth>
-
-d <num>, --dumpNum=<num>
-
-D <suffix>, --outputFileSuffix=<suffix>
-
-D <targetFld>, --targetField=<targetFld>
-
-d, --density
-
-D, --normalizeModes
-
-dn <dnr>, --dumpNr=<dnr>
-
-dt <dt>, --dt=<dt>
-
-e <ed>, --endDump=<ed>
-
-e <inelec>, --inSlabE=<inelec>
-
-e <inslabE>, --inSlabE=<inslabE>
-
-E <N>, --nElements=<N>
-
-e <N>, --numTheta=<N>
-
-E <outelec>, --outSlabE=<outelec>
-
-E <outslabE>, --outSlabE=<outslabE>
-
-e <pts>, --nPoints=<pts>
-
-e <time>, --endTime=<time>
-
-E1 <LOWERENERGY>, --lowerEnergy=<LOWERENERGY>
-
-E2 <UPPERENERGY>, --upperEnergy=<UPPERENERGY>
-
-f <ANGULARFREQUENCY>, --angularFrequency=<ANGULARFREQUENCY>
-
-F <F>, --secondFieldFactor=<F>
-
-F <field>, --writeFieldProfile=<field>
-
-f <first>, --firstStep=<first>
-
-f <firstin>, --firstStepInSlab=<firstin>
-
-F <firstout>, --firstStepOutSlab=<firstout>
-
-f <fl>, --flipLimits=<fl>
-
-f <fld>, --field=<fld>
-
-F <fldname>, --fieldName=<fldname>
-
-f <fldname>, --fieldName=<fldname>
-
-f <freq>, --freq=<freq>
-
-f <freq>, --frequency=<freq>
-
-F <max>, --maxFreq=<max>
-
-F <refFldName>, --fieldName=<refFldName>
-
-F <refFName>, --fileName=<refFName>
-
-f <size>, --fourierTransSize=<size>
-
-f, --FieldName
-
-f, --fieldName
-
-f, --frequency
-
-g <FC>, --getFourierComponent=<FC>
-
-G <geometry>, --geometryName=<geometry>
-
-g <geometry>, --geometryName=<geometry>
-
-g, --normalize
-
-H <histname> , --historyName=<histname>
-
-H <histname>, --history1Name=<histname>
-
-H <histname>, --historyName=<histname>
-
-H <HISTORYNAME>, --historyName=<HISTORYNAME>
-
-H, --historyName
-
-I <histname>, --history2Name=<histname>
-
-I <I>, --imagFields=<I>
-
-i <I>, --iterateAvg=<I>
-
-I, --integrate
-
-i, --simpsonIntegration
-
-j <curdenfield>, --jName=<curdenfield>
-
-l <fldlabel>, --fieldLabel=<fldlabel>
-
-l <last>, --lastStep=<last>
-
-l <lb>, --lowerBounds=<lb>
-
-L <maxl>, --maxWavelength=<maxl>
-
-L <steps>, --numSteps=<steps>
-
-L <vacwave>, --vacWavelength=<vacwave>
-
-M <M>, --maxNumModes=<M>
-
-m <M>, --multiplier=<M>
-
-m <mass>, --mass=<mass>
-
-M <max>, --maxDumpNum=<max>
-
-M <maxlength>, --maxWavelength=<maxlength>
-
-m <maxnodes>, --nModes=<maxnodes>
-
-m <min>, --minDumpNum=<min>
-
-m <minlength>, --minWavelength=<minlength>
-
-m <nummodes>, --nModes=<nummodes>
-
-m, --magnitude
-
-m,--move RESERVED for future use
-
-N <avg>, --avgNxN=<avg>
-
-N <files>, --numOutFiles=<files>
-
-N <N>, --initialModeNumber=<N>
-
-n <nlambda>, --nlambda=<nlambda>
-
-n <num>, --numBins=<num>
-
-n <outname>, --outputFileName=<outname>
-
-n <overlap>, --noOverlap=<overlap>
-
-n <S>, --numSlices=<S>
-
-n <stepstride>, --timeStepStride=<stepstride>
-
-n <Z>, --nZeros=<Z>
|
-
-n, --SLL
-
-Nang <NUMANGLEBINS>, --numAngleBins=<NUMANGLEBINS>
-
-ndim <NDIM>, --NDIM=<NDIM>
-
-Neng <NUMENGERYBINS>, --numEnergyBins=<NUMENERGYBINS>
-
-o <histname>, --newhistoryName=<histname>
-
-O <newhistname>, --newHistoryName=<newhistname>
-
-o <newhistname>, --newHistoryName=<newhistname>
-
-O <offset>, --stepOffset=<offset>
-
-o <op>, --operator=<op>
-
-o <outbasename>, --outputBaseName=<outbasename>
-
-o <outfield>, --outputField=<outfield>
-
-o <outFld>, --outputField=<outFld>
-
-o <outfldname>, --outputFieldName=<outfldname>
-
-o <outhistname>, --outputHistoryName=<outhistname>
-
-O <outname>, --outputFieldName=<outname>
-
-O <outname>, --outputFileName=<outname>
-
-o <outname>, --outputHistoryName=<outname>
-
-O <outname>, --outputSimName=<outname>
-
-o <outspname>, --outputSpeciesName=<outspname>
-
-p <histpat>, --historyPATCH=<histpat>
-
-p <N>, --numPhi=<N>
-
-p <num>, --numPhi=<num>
-
-P <PERPDIR>, --perpDir=<PERPDIR>
-
-P, --applyPeriod
-
-p, --ptclIndex
-
-P1 <LOWERPOS>, --lowerPos=<LOWERPOS>
-
-P2 <UPPERPOS>, --upperPos=<UPPERPOS>
-
-r <maxranks>, --maxRanksToReport=<maxranks>
-
-r <R>, --farFieldRadius=<R>
-
-R <R>, --realFields=<R>
-
-r <ranpts>, --numberRandomPts=<ranpts>
-
-R, --randomizePtcls
-
-S <cs>, --cellSamples=<cs>
-
-S <minl>, --minWavelength=<minl>
-
-s <simname>, --simulationName=<simname>
-
-S <species>, --speciesName=<species>
-
-S <SPECIESNAME>, --SpeciesName=<SPECIESNAME>
-
-S <spname>, --speciesName=<spname>
-
-t <histcal>, --historyCAL=<histcal>
-
-T <N> , --threshold=<N>
-
-t <num>, --numTheta=<num>
-
-t <num>, --numTime=<num>
-
-t <samptype>, --sampleType=<samptype>
-
-T <slice>, --transverseSlice=<slice>
-
-T <thresh>, --threshold=<thresh>
-
-t <time>, --startTime=<time>
-
-T <timeint>, --timeInterval=<timeint>
-
-t, --testing
-
-T1 <STARTTIME>, --startTime=<STARTTIME>
-
-T2 <ENDTIME>, --endTime=<ENDTIME>
-
-u <ub>, --upperBounds=<ub>
-
-u <unipts>, --numberUniformPts=<unipts>
-
-v, --varyingRadiusMesh
-
-W <windowfunc>, --windowType=<windowfunc>
-
-w, --overwrite
-
-x <a/s/m/d> , --operation=<a/s/m/d>
-
-x <dir>, --zeroPhiDirection=<dir>
-
-x <multiplier>, --positionMultiplier=<multiplier>
-
-x <N1>, --x1plane=<N1>
-
-X <N2>, --x2plane=<N2>
-
-x <outsufx>, --outputSuffix=<outsufx>
-
-x, --outputXcomponent
-
-y, --outputYcomponent
-
-z <dir>, --zeroThetaDirection=<dir>
-
-z, --outputZcomponent
|