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           pnmgamma [-ungamma] [-cieramp|-srgbramp] [value [pnmfile]]
           pnmgamma  [-ungamma] [-cieramp|-srgbramp] redgamma greengamma bluegamma


           Performs gamma correction on pseudo-PNM images.
           The PPM format specification specify that certain sample  values  in  a
           file  represent  certain light intensities in an image.  In particular,
           they specify that the sample values are directly proportional to gamma-
           corrected  intensity  values.  The gamma correction they specify is CIE
           Rec. 709.
           However, people sometimes work with approximations of PPM and PGM where
           the  relationship  between  the image intensities and the sample values
           are something else.  For example, the sample value  might  be  directly
           proportional  to  the  intensity with no gamma correction (often called
           "linear intensity").  Or a different gamma  transfer  function  may  be
           pnmgamma  allows  you to manipulate the transfer function, thus working
           with and/or creating pseudo-PPM  files  that  are  useful  for  various
           For  example, if you feed a true PPM to pnmgamma -cieramp -ungamma, you
           get as output a file which is PPM in every respect except that the sam-
           ple  values  are  directly proportional to the light intensities in the
           image.  If you feed such a file to pnmgamma -cieramp,  you  get  out  a
           true PPM.
           The  situation  for  PGM  images is analogous.  And pnmgamma treats PBM
           images as PGM images.
           When you feed a linear PPM image to a display program  that  expects  a
           true  PPM,  the  display appears darker than it should, so pnmgamma has
           the effect of lightening the image.  When you feed a true PPM to a dis-
           play  program  that  expects linear sample values, and therefore does a
           gamma correction of its own on them, the display appears  lighter  than
           it  should,  so  pnmgamma  with a gamma value less than one (the multi-
           plicative inverse of whatever gamma value the display program uses) has
           the effect of darkening the image.


           The  only  parameters are the specification of the input image file and
           the gamma values.  Every gamma transfer function pnmgamma uses contains
           an exponent, which is the gamma value, and you can choose that value.
           Furthermore,  you can choose different values for each of the three RGB
                  Use  the  CIE Rec. 709 gamma transfer function.  Note that it is
                  true CIE Rec. 709 only if you use the default gamma value  (i.e.
                  don't  specify any gamma parameters).  This transfer function is
                  a power function modified with a linear ramp near black.
                  If you specify neither  -cieramp  nor  -srgbramp,  the  transfer
                  function defaults to a simple power function.
                  Use the Internation Electrotechnical Commission (IEC) SRGB gamma
                  transfer function (as specified in the standard IEC  61966-2-1).
                  Note  that  it  is  true  SRGB only if you use the default gamma
                  value (i.e. don't specify any gamma parameters).  This  transfer
                  function  is like the one selected by -cieramp, but with differ-
                  ent constants in it.
                  Note that SRGB is often spelled "sRGB".  In  this  document,  we
                  use standard English typography, though, which doesn't allow for
                  that kind of capitalization.
                  If you specify neither  -cieramp  nor  -srgbramp,  the  transfer
                  function defaults to a simple power function.


           A  good  explanation  of  gamma  is  in  Charles Poynton's GammaFAQ  at
           <>   and   ColorFAQ    at
           In  brief:  The simplest way to code an image is by using sample values
           that are directly proportional to the intensity  of  the  color  compo-
           nents.   But  that  wastes the sample space because the human eye can't
           discern differences between low-intensity colors  as  well  as  it  can
           between high-intensity colors.  So instead, we pass the light intensity
           values through a transfer function that makes it  so  that  changing  a
           sample  value by 1 causes the same level of perceived color change any-
           where in the sample range.  We store  those  resulting  values  in  the
           image  file.  That transfer function is called the gamma transfer func-
           tion and the transformation is called gamma correcting.
           Virtually all image formats, either specified or de facto,  use  gamma-
           corrected values for their sample values.
           What's  really  nice  about  gamma  is that by coincidence, the inverse
           function that you have to do to convert the gamma-corrected values back
           to  real  light  intensities  is  done automatically by CRTs.  You just
           apply a voltage to the CRT's electron gun that is proportional  to  the
           gamma-corrected sample value, and the intensity of light that comes out


           Copyright (C) 1991 by Bill Davidson and Jef Poskanzer.
                                     11 June 2001                      pnmgamma(1)

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