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NAME

       plimagefr - Plot a 2D matrix using cmap1

SYNOPSIS

       plimagefr(idata,  nx,  ny,  xmin,  xmax, ymin, ymax, zmin, zmax, valuemin, valuemax, pltr,
       pltr_data)

DESCRIPTION

       Plot a 2D matrix using cmap1.

       Redacted form: General: plimagefr(idata, xmin, xmax, ymin,  ymax,  zmin,  zmax,  valuemin,
       valuemax, pltr, pltr_data)

       This function is used in example 20.

ARGUMENTS

       idata (PLFLT_MATRIX(3plplot), input)
              A matrix of values (intensities) to plot.  Should have dimensions of nx by ny.

       nx, ny (PLINT(3plplot), input)
              Dimensions of idata

       xmin, xmax, ymin, ymax (PLFLT(3plplot), input)
              See  the  discussion  of  pltr below for how these arguments are used (only for the
              special case when the callback function pltr is not supplied).

       zmin, zmax (PLFLT(3plplot), input)
              Only data between zmin and zmax (inclusive) will be plotted.

       valuemin, valuemax (PLFLT(3plplot), input)
              The minimum and maximum data values to use for value to color  mappings.   A  datum
              equal  to or less than valuemin will be plotted with color 0.0, while a datum equal
              to or greater than valuemax will be plotted with color 1.0.  Data between  valuemin
              and valuemax map linearly to colors in the range (0.0-1.0).

       pltr (PLTRANSFORM_callback(3plplot), input)
              A  callback function that defines the transformation between the zero-based indices
              of the matrix idata and world coordinates. If pltr is not supplied (e.g., is set to
              NULL  in  the  C  case),  then  the x indices of idata are mapped to the range xmin
              through xmax and the y indices of idata  are  mapped  to  the  range  ymin  through
              ymax.For  the  C case, transformation functions are provided in the PLplot library:
              pltr0(3plplot) for the identity mapping, and pltr1(3plplot) and pltr2(3plplot)  for
              arbitrary  mappings  respectively  defined by vectors and matrices.  In addition, C
              callback routines for the transformation can be supplied by the user  such  as  the
              mypltr function in examples/c/x09c.c which provides a general linear transformation
              between index coordinates and world coordinates.For  languages  other  than  C  you
              should   consult   the   PLplot   documentation  for  the  details  concerning  how
              PLTRANSFORM_callback(3plplot) arguments are  interfaced.  However,  in  general,  a
              particular  pattern  of  callback-associated  arguments  such as a tr vector with 6
              elements; xg and yg vectors; or xg and yg matrices are respectively interfaced to a
              linear-transformation routine similar to the above mypltr function; pltr1(3plplot);
              and pltr2(3plplot). Furthermore, some of  our  more  sophisticated  bindings  (see,
              e.g.,  the  PLplot  documentation)  support  native language callbacks for handling
              index to world-coordinate transformations.  Examples of  these  various  approaches
              are       given      in      examples/<language>x09*,      examples/<language>x16*,
              examples/<language>x20*, examples/<language>x21*, and examples/<language>x22*,  for
              all our supported languages.

       pltr_data (PLPointer(3plplot), input)
              Extra  parameter  to  help  pass  information  to  pltr0(3plplot),  pltr1(3plplot),
              pltr2(3plplot), or whatever routine is externally supplied.

AUTHORS

       Many developers  (who  are  credited  at  http://plplot.sourceforge.net/credits.php)  have
       contributed to PLplot over its long history.

SEE ALSO

       PLplot documentation at http://plplot.sourceforge.net/documentation.php.

                                          November, 2017                       PLIMAGEFR(3plplot)