cjpeg(1)


NAME

   cjpeg - compress an image file to a JPEG file

SYNOPSIS

   cjpeg [ options ] [ filename ]

DESCRIPTION

   cjpeg compresses the named image file, or the standard input if no file
   is named, and produces a JPEG/JFIF file on the  standard  output.   The
   currently supported input file formats are: PPM (PBMPLUS color format),
   PGM (PBMPLUS grayscale  format),  BMP,  Targa,  and  RLE  (Utah  Raster
   Toolkit  format).   (RLE  is  supported  only  if  the  URT  library is
   available.)

OPTIONS

   All switch names may be abbreviated; for  example,  -grayscale  may  be
   written  -gray or -gr.  Most of the "basic" switches can be abbreviated
   to as little as one letter.  Upper and lower case are equivalent  (thus
   -BMP  is the same as -bmp).  British spellings are also accepted (e.g.,
   -greyscale), though for brevity these are not mentioned below.

   The basic switches are:

   -quality N[,...]
          Scale quantization tables to adjust image quality.  Quality is 0
          (worst)  to  100  (best);  default  is  75.  (See below for more
          info.)

   -grayscale
          Create monochrome JPEG file from color input.  Be  sure  to  use
          this switch when compressing a grayscale BMP file, because cjpeg
          isn't bright enough to notice  whether  a  BMP  file  uses  only
          shades of gray.  By saying -grayscale, you'll get a smaller JPEG
          file that takes less time to process.

   -rgb   Create  RGB  JPEG  file.   Using  this  switch  suppresses   the
          conversion  from  RGB colorspace input to the default YCbCr JPEG
          colorspace.

   -optimize
          Perform optimization of entropy  encoding  parameters.   Without
          this,  default  encoding parameters are used.  -optimize usually
          makes the JPEG file a little smaller, but  cjpeg  runs  somewhat
          slower  and  needs much more memory.  Image quality and speed of
          decompression are unaffected by -optimize.

   -progressive
          Create progressive JPEG file (see below).

   -targa Input file  is  Targa  format.   Targa  files  that  contain  an
          "identification"  field  will not be automatically recognized by
          cjpeg; for such files you must  specify  -targa  to  make  cjpeg
          treat  the  input  as  Targa  format.  For most Targa files, you
          won't need this switch.

   The -quality switch lets you trade off  compressed  file  size  against
   quality of the reconstructed image: the higher the quality setting, the
   larger the JPEG file, and the closer the output image will  be  to  the
   original  input.   Normally  you want to use the lowest quality setting
   (smallest   file)   that   decompresses   into    something    visually
   indistinguishable  from  the  original  image.   For  this  purpose the
   quality setting should generally be between 50 and 95 (the  default  is
   75)  for  photographic images.  If you see defects at -quality 75, then
   go up 5 or 10 counts at a time until you  are  happy  with  the  output
   image.  (The optimal setting will vary from one image to another.)

   -quality  100 will generate a quantization table of all 1's, minimizing
   loss in the quantization step (but there is still information  loss  in
   subsampling, as well as roundoff error.)  For most images, specifying a
   quality value above about 95 will increase the size of  the  compressed
   file dramatically, and while the quality gain from these higher quality
   values is measurable (using metrics such as PSNR or SSIM), it is rarely
   perceivable by human vision.

   In the other direction, quality values below 50 will produce very small
   files of low image quality.  Settings around 5 to 10 might be useful in
   preparing an index of a large image library, for example.  Try -quality
   2 (or so) for some amusing Cubist effects.  (Note: quality values below
   about  25  generate  2-byte  quantization  tables, which are considered
   optional in the JPEG standard.  cjpeg emits a warning message when  you
   give  such  a  quality  value,  because some other JPEG programs may be
   unable to decode the resulting file.  Use  -baseline  if  you  need  to
   ensure compatibility at low quality values.)

   The  -quality  option  has  been  extended  in this version of cjpeg to
   support separate quality settings for luminance and chrominance (or, in
   general,  separate  settings  for  every quantization table slot.)  The
   principle is the same as chrominance subsampling:  since the human  eye
   is more sensitive to spatial changes in brightness than spatial changes
   in color, the chrominance components can be  quantized  more  than  the
   luminance  components without incurring any visible image quality loss.
   However, unlike subsampling, this feature reduces data in the frequency
   domain  instead  of  the  spatial  domain,  which allows for more fine-
   grained  control.   This  option   is   useful   in   quality-sensitive
   applications,  for  which the artifacts generated by subsampling may be
   unacceptable.

   The -quality option accepts a comma-separated list of parameters, which
   respectively refer to the quality levels that should be assigned to the
   quantization table  slots.   If  there  are  more  q-table  slots  than
   parameters,  then  the last parameter is replicated.  Thus, if only one
   quality parameter is  given,  this  is  used  for  both  luminance  and
   chrominance  (slots  0  and  1,  respectively),  preserving  the legacy
   behavior of cjpeg v6b and prior.   More  (or  customized)  quantization
   tables  can  be set with the -qtables option and assigned to components
   with the -qslots option (see the "wizard" switches below.)

   JPEG files generated with separate luminance  and  chrominance  quality
   are fully compliant with standard JPEG decoders.

   CAUTION:  For this setting to be useful, be sure to pass an argument of
   -sample 1x1 to cjpeg to disable  chrominance  subsampling.   Otherwise,
   the default subsampling level (2x2, AKA "4:2:0") will be used.

   The  -progressive  switch  creates  a "progressive JPEG" file.  In this
   type of JPEG file, the data is stored in multiple scans  of  increasing
   quality.   If  the file is being transmitted over a slow communications
   link, the decoder can use the first scan to display a low-quality image
   very  quickly,  and  can  then improve the display with each subsequent
   scan.  The final image is exactly equivalent to a standard JPEG file of
   the same quality setting, and the total file size is about the same ---
   often a little smaller.

   Switches for advanced users:

   -arithmetic
          Use arithmetic coding.  Caution: arithmetic coded  JPEG  is  not
          yet  widely implemented, so many decoders will be unable to view
          an arithmetic coded JPEG file at all.

   -dct int
          Use integer DCT method (default).

   -dct fast
          Use fast integer DCT (less  accurate).   In  libjpeg-turbo,  the
          fast  method is generally about 5-15% faster than the int method
          when using the x86/x86-64 SIMD extensions (results may vary with
          other  SIMD implementations, or when using libjpeg-turbo without
          SIMD extensions.)  For quality levels of  90  and  below,  there
          should  be  little  or no perceptible difference between the two
          algorithms.   For  quality  levels  above   90,   however,   the
          difference  between  the  fast  and the int methods becomes more
          pronounced.  With quality=97,  for  instance,  the  fast  method
          incurs  generally  about a 1-3 dB loss (in PSNR) relative to the
          int method, but this can be larger for some images.  Do not  use
          the  fast  method  with  quality levels above 97.  The algorithm
          often degenerates at  quality=98  and  above  and  can  actually
          produce a more lossy image than if lower quality levels had been
          used.  Also, in libjpeg-turbo, the  fast  method  is  not  fully
          accelerated  for  quality  levels above 97, so it will be slower
          than the int method.

   -dct float
          Use floating-point DCT method.  The float  method  is  mainly  a
          legacy feature.  It does not produce significantly more accurate
          results than the int method, and it is much slower.   The  float
          method may also give different results on different machines due
          to varying roundoff behavior, whereas the integer methods should
          give the same results on all machines.

   -restart N
          Emit  a  JPEG  restart  marker  every N MCU rows, or every N MCU
          blocks if "B" is  attached  to  the  number.   -restart  0  (the
          default) means no restart markers.

   -smooth N
          Smooth the input image to eliminate dithering noise.  N, ranging
          from 1 to 100, indicates the  strength  of  smoothing.   0  (the
          default) means no smoothing.

   -maxmemory N
          Set  limit  for  amount  of  memory  to  use in processing large
          images.  Value is in thousands of bytes, or millions of bytes if
          "M"  is  attached  to  the number.  For example, -max 4m selects
          4000000 bytes.  If more space is needed, temporary files will be
          used.

   -outfile name
          Send output image to the named file, not to standard output.

   -memdst
          Compress  to  memory  instead  of  a  file.   This  feature  was
          implemented mainly as a way of testing the in-memory destination
          manager   (jpeg_mem_dest()),   but   it   is   also  useful  for
          benchmarking, since it reduces the I/O overhead.

   -verbose
          Enable debug printout.   More  -v's  give  more  output.   Also,
          version information is printed at startup.

   -debug Same as -verbose.

   -version
          Print version information and exit.

   The  -restart option inserts extra markers that allow a JPEG decoder to
   resynchronize after a transmission error.  Without restart markers, any
   damage  to a compressed file will usually ruin the image from the point
   of the error to the end of the image; with restart markers, the  damage
   is  usually confined to the portion of the image up to the next restart
   marker.  Of  course,  the  restart  markers  occupy  extra  space.   We
   recommend  -restart  1  for  images  that  will  be  transmitted across
   unreliable networks such as Usenet.

   The -smooth option filters the input  to  eliminate  fine-scale  noise.
   This  is  often  useful  when  converting  dithered  images  to JPEG: a
   moderate smoothing factor of 10 to 50 gets rid of dithering patterns in
   the  input  file, resulting in a smaller JPEG file and a better-looking
   image.  Too large a smoothing  factor  will  visibly  blur  the  image,
   however.

   Switches for wizards:

   -baseline
          Force  baseline-compatible  quantization tables to be generated.
          This clamps quantization values to 8 bits even  at  low  quality
          settings.   (This  switch  is  poorly  named,  since it does not
          ensure that the output is actually baseline JPEG.  For  example,
          you can use -baseline and -progressive together.)

   -qtables file
          Use the quantization tables given in the specified text file.

   -qslots N[,...]
          Select which quantization table to use for each color component.

   -sample HxV[,...]
          Set JPEG sampling factors for each color component.

   -scans file
          Use the scan script given in the specified text file.

   The  "wizard"  switches are intended for experimentation with JPEG.  If
   you don't know what you are doing, don't use them.  These switches  are
   documented further in the file wizard.txt.

EXAMPLES

   This  example  compresses the PPM file foo.ppm with a quality factor of
   60 and saves the output as foo.jpg:

          cjpeg -quality 60 foo.ppm > foo.jpg

HINTS

   Color GIF files are not the  ideal  input  for  JPEG;  JPEG  is  really
   intended  for  compressing  full-color (24-bit) images.  In particular,
   don't try to convert cartoons, line drawings,  and  other  images  that
   have  only  a few distinct colors.  GIF works great on these, JPEG does
   not.  If you want to convert a GIF to JPEG, you should experiment  with
   cjpeg's  -quality and -smooth options to get a satisfactory conversion.
   -smooth 10 or so is often helpful.

   Avoid    running    an    image    through    a    series    of    JPEG
   compression/decompression  cycles.  Image quality loss will accumulate;
   after ten or so cycles the image may be noticeably worse  than  it  was
   after one cycle.  It's best to use a lossless format while manipulating
   an image, then convert to JPEG format when you are ready  to  file  the
   image away.

   The  -optimize  option  to  cjpeg  is worth using when you are making a
   "final" version for posting or archiving.  It's also a win when you are
   using  low  quality  settings  to  make  very  small  JPEG  files;  the
   percentage improvement is often a lot more than it is on larger  files.
   (At   present,  -optimize  mode  is  always  selected  when  generating
   progressive JPEG files.)

ENVIRONMENT

   JPEGMEM
          If this environment variable is set, its value  is  the  default
          memory  limit.   The  value  is  specified  as described for the
          -maxmemory  switch.   JPEGMEM  overrides   the   default   value
          specified   when   the  program  was  compiled,  and  itself  is
          overridden by an explicit -maxmemory.

SEE ALSO

   djpeg(1), jpegtran(1), rdjpgcom(1), wrjpgcom(1)
   ppm(5), pgm(5)
   Wallace, Gregory K.  "The JPEG  Still  Picture  Compression  Standard",
   Communications of the ACM, April 1991 (vol. 34, no. 4), pp. 30-44.

AUTHOR

   Independent JPEG Group

   This  file  was  modified  by The libjpeg-turbo Project to include only
   information relevant to libjpeg-turbo, to wordsmith  certain  sections,
   and to describe features not present in libjpeg.

ISSUES

   Support  for  GIF  input files was removed in cjpeg v6b due to concerns
   over the Unisys LZW patent.  Although  this  patent  expired  in  2006,
   cjpeg   still   lacks   GIF  support,  for  these  historical  reasons.
   (Conversion of GIF files to JPEG is usually a bad  idea  anyway,  since
   GIF is a 256-color format.)

   Not all variants of BMP and Targa file formats are supported.

   The  -targa switch is not a bug, it's a feature.  (It would be a bug if
   the Targa format designers had not been clueless.)

                           17 February 2016                       CJPEG(1)





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