ltlg2mrc

Usage

Usage: ltlg2mrc
Options:
    [-i[nput]            In                  (NULL      ).as(inFile              ) ] :Optional  :InputDataFile
    [-o[utput]           Out                 (NULL      ).as(outFile             ) ] :Optional  :OutputDataFile
    [-c[onfig]           configFile          (NULL      ).as(inFile              ) ] :Optional  :ConfigurationFile
    [-t[itle]            Title               (NULL      ).as(String              ) ] :Optional  :Title
    [-d[elta]            delta               (2.5       ).as(Real                ) ] :Optional  :delta[A]
    [-C                  RepeatDistance      (2.5       ).as(Real                ) ] :Optional  :RepeatDistance[A]
    [-r[Max]             rMax                (2.5       ).as(Real                ) ] :Optional  :rMax[A]
    [-p[hiStart]         phiStart            (0         ).as(Real                ) ] :Optional  :phiStart[degree]
    [-zmi[n]             zMin                (0.0       ).as(Real                ) ] :Optional  :zMin
    [-zma[x]             zMax                (55.0      ).as(Real                ) ] :Optional  :zMax
    [-zde[lta]           deltaz              (2.5       ).as(Real                ) ] :Optional  :deltaz
    [-w[eight]           WeightOf0thLayer    (0.5       ).as(Real                ) ] :Optional  :WeightOf0thLayer
    [-l[Weight]          Layer               (NULL      ).as(inFile              ) ] :Optional  :Layer WeightOfEachLayer
    [-f9[9]                                                                        ] :Optional  :IF(NN(LL)!=NL(LL)) WT(LL) = 0.0
    [-O[ffset]           CUT                 (0.5       ).as(Real                ) ] :Optional  :CUT
    [-a[mean]            Mean                (0.0       ).as(Real                ) ] :Optional  :Mean
    [-s[igma]            Sigma               (0.0       ).as(Real                ) ] :Optional  :Sigma
    [-I[nverse]                                                                    ] :Optional  :Nega-Posi Reverse
    [-n[otInteractive]                                                             ] :Optional  :not Intaracitve
    [-AntiPole                                                                     ] :Optional  :Anti Pole: zmax -> zmin:  Else zmin->zmax
    [-m[ode]             mode                (0         ).as(Integer             ) ] :Optional  :
				0: Normarize
				1: Not Normarize bu edge average is zero.
				2: Not Normarize
				defalt: 0
Mode:


If control file is used, control file fora filename to output

InputFileName(char[72])A])
Title(char[60])A])
Y|N(char[1])                              : No use
deltaX[A](if Y)||deltaY[A](if N)(F10.5)   : You need not care for deltaX or deltaY in this tool because deltaX = deltaY. You had better care for that for compatibility.
C[A]rMax[A](2F7.0)                        : C[A]: Spacing of the 1st layer line in real space ; rMax: Maximum of radial elements.
phiStart[degree](F7.0)                    : phi at Z = 0
zMin[A],zMax[A],deltaz[A](3F7.0)          : z-section parameters for(z=zMin; zDensity[x][y]) Density[x][y]= 0.0
Mean,Sigma(2F7.0)                         : Mean : Mean of hrzData?; Sigma : Standard Deviation of hrzData?
OutputFile                                : hrz-data filename to output

#### Attention ####
 In using this tool, you need not keep promises about format(F7.0 etc.).
Instead, you need separate numbers with more space than one.
Usually compatible but you need care when numbers have a line with no space.