Provided by: libncarg-dev_6.4.0-9_amd64 bug

NAME

       HAFTON - draws a half-tone picture from data stored in a rectangular array with the
       intensity in the picture proportional to the data value.

UTILITY

       This routine is part of the Halftone utility in NCAR Graphics. To see the overview man
       page for this utility, type "man halftone".

STATUS

       HAFTON is obsolete.  It has been replaced by the CPCICA entry of the Conpack contouring
       package.

       HAFTON continues to be provided for compatibility of early NCAR Graphics codes.  If you
       are writing new code, we suggest that you use CPCICA.

SYNOPSIS

       CALL HAFTON (Z,L,M,N,FLO,HI,NLEV,NOPT,NPRM,ISPV,SPVAL)

DESCRIPTION

       Z           (an input array of type REAL) defining a two-dimensional field to be half-tone
                   plotted. A subset of Z of extent M by N can be plotted.

       L           (an input parameter of type INTEGER) which is the first dimension of the Z
                   array.

       M           (an input parameter of type INTEGER) which is the extent of the first
                   dimension of array Z to be plotted.  This allows for a sub-array of Z to be
                   plotted.  M must be less than or equal to L.

       N           (an input parameter of type INTEGER) which is the extent of the second
                   dimension of array Z to be plotted.  This allows for a sub-array of Z to be
                   plotted.  N must be less than or equal to the second dimension of Z.

       FLO         (an input parameter of type REAL) defining a lowest level for plotting.  If
                   FLO = HI = 0., the minimum value of Z will be generated by HAFTON.

       HI          (an input parameter of type REAL) defining a highest level for plotting.  If
                   HI = FLO = 0., the maximum value of Z will be generated by HAFTON.

       NLEL        (an input parameter of type INTEGER) specifying the number of intensity levels
                   desired.  16 maximum.  If NLEV = 0 or 1, 16 levels are used.

       NOPT        (an input parameter of type INTEGER) used to control the mapping of Z onto the
                   intensities.  The sign of NOPT controls the directness or inverseness of the
                   mapping.

                   NOPT positive yields direct mapping.  The largest value of Z produces the most
                   dense dots.  On mechanical plotters, large values of Z will produce a dark
                   area on the paper.  With the film development methods used at NCAR, large
                   values of Z will produce many (white) dots on the film, also resulting in a
                   dark area on reader-printer paper.

                   NOPT negative yields inverse mapping.  The smallest values of Z produce the
                   most dense dots resulting in dark areas on the paper.

                   The absolute value of NOPT determines the mapping of Z onto the intensities.
                   For IABS(NOPT)

                   = 0  The mapping is linear.  For
                        each intensity there is an equal
                        range in Z value.

                   = 1  The mapping is linear.  For
                        each intensity there is an equal
                        range in Z value.

                   = 2  The mapping is exponential.  For
                        larger values of Z, there is a
                        larger difference in intensity for
                        relatively close values of Z.  Details
                        in the larger values of Z are displayed
                        at the expense of the smaller values
                        of Z.

                   = 3  The mapping is logarithmic, so
                        details of smaller values of Z are show
                        at the expense of larger values of Z.

                   = 4  Sinusoidal mapping, so mid-range values
                        of Z show details at the expense of
                        extreme values of Z.

                   = 5  Arcsine mapping, so extreme values of
                        Z are shown at the expense of mid-range

       NPRM        (an input parameter of type INTEGER) used to control the drawing of a
                   perimeter around the half-tone picture.

                   NPRM=0:  The perimeter is drawn with ticks pointing at data locations.  (Side
                   lengths are proportional to number of data values.)

                   NPRM positive:  No perimeter is drawn.  The picture fills the frame.

                   NPRM negative:  The picture is within the confines of the user's current
                   viewport setting.

       ISPV        (an input parameter of type INTEGER) used to tell if the special value feature
                   is being used.  The special value feature is used to mark areas where the data
                   is not known or holes are wanted in the picture.

                   ISPV = 0:  Special value feature not in use.  SPVAL is ignored.

                   ISPV non-zero:  Special value feature in use.  SPVAL defines the special
                   value.  Where Z contains the special value, no half-tone is drawn.  If ISPV

                   = 0  Special value feature not in use.
                        SPVAL is ignored.

                   = 1  Nothing is drawn in special value
                        area.

                   = 2  Contiguous special value areas are
                        surrounded by a polygonal line.

                   = 3  Special value areas are filled
                        with X(s).

                   = 4  Special value areas are filled in
                        with the highest intensity.

       SPVAL       (an iput parameter of type REAL) used to denote missing values in the Z array.
                   This argument is ignored if ISPV = 0.

ACCESS

       To use HAFTON, load the NCAR Graphics libraries ncarg, ncarg_gks, and ncarg_c, preferably
       in that order.

SEE ALSO

       Online: halftone, ezhftn, halftone_params, conpack, conpack_params, cpcica

       Hardcopy: NCAR Graphics Contouring and Mapping Tutorial; NCAR Graphics Fundamentals, UNIX
       Version; User's Guide for NCAR GKS-0A Graphics

COPYRIGHT

       Copyright (C) 1987-2009
       University Corporation for Atmospheric Research
       The use of this Software is governed by a License Agreement.