Provided by: netpbm_11.07.00-2_amd64 bug

NAME

       pamflip - flip or rotate a PAM or PNM image

SYNOPSIS

       pamflip  { -leftright | -lr | -topbottom | -tb | -transpose | -xy | -rotate90 | -r90 | -cw
       | -rotate270 | -r270 | -ccw |  -rotate180  |  -r180  -null  |  -xform=xform1,xform2...   }
       [-memsize=mebibytes] [-pagesize=bytes] [pamfile]

       All  options  can be abbreviated to their shortest unique prefix.  You may use two hyphens
       instead of one to designate an option.  You may use either white space or an  equals  sign
       between an option name and its value.

DESCRIPTION

       This program is part of Netpbm(1).

       pamflip  flips  a  PAM  or  PNM  image  top for bottom or left for right, or transposes it
       horizontal for vertical, or rotates it 1, 2, or 3 quarter turns.

       To rotate at other angles, use pnmrotate.  It is much slower, though.

       The input image is pamfile, or Standard Input if pamfile is not specified.

       To flip/rotate a JFIF (JPEG) image losslessly, use jpegtran.   jpegtran  is  part  of  the
       Independent  Jpeg  Group's  compression  library  package, not part of Netpbm.  The normal
       Netpbm way to flip a JFIF file would be to convert it to PNM,  use  pamflip,  and  convert
       back  to  JFIF.   But since JPEG compression is lossy, the resulting image would have less
       quality than  the  original.   jpegtran,  on  the  other  hand,  can  do  this  particular
       transformation directly on the compressed data without loss.

OPTIONS

       In addition to the options common to all programs based on libnetpbm (most notably -quiet,
       see
        Common Options ⟨index.html#commonoptions⟩ ), pamflip  recognizes  the  following  command
       line options:

   Specifying the Transformation
       You must supply exactly one of the following options:

       pamflip's  predecessor  (before Netpbm 10.7 - August 2002) pnmflip did not have the -xform
       option and instead allowed you to specify any number of the other options, including zero.
       It applied all the indicated transformations, in the order given, just like with pamflip's
       -xform option.  (Reason for  the  change:  this  kind  of  interpretation  of  options  is
       inconsistent  with  the  rest  of  Netpbm  and  most  of  the Unix world, and thus hard to
       understand and to implement).

       -leftright

       -lr    Flip left for right.

       -topbottom

       -tb    Flip top for bottom.

       -transpose

       -xy    Transpose horizontal for vertical.  I.e. make the pixel at (x,y) be at (y,x).

       -rotate90

       -r90

       -ccw   Rotate counterclockwise 90 degrees.

       -rotate180

       -r180  Rotate 180 degrees.

       -rotate270

       -r270

       -cw    Rotate counterclockwise 270 degrees (clockwise 90 degrees)

       -null  No change.  (The purpose of this option is the convenience of programs that  invoke
              pamflip after computing the kind of transformation desired, including none at all).

              This option was new in Netpbm 10.13 (December 2002).

       -xform=xform1,xform2...
              Apply all the transforms listed, in order.  The valid values for the transforms are
              as follows and have the same meanings as the identically named options above.

       •      leftright

       •      topbottom

       •      transpose

              This option was new in Netpbm 10.13 (December 2002).

   Memory Management
       The following options help pamflip use memory efficiently.  Some  flipping  operations  on
       very  large  images can cause pamflip to have a very large working set, which means if you
       don't have enough real memory, the program  can  page  thrash,  which  means  it  takes  a
       ridiculous amount time to run.  If your entire image fits in real memory, you don't have a
       problem.  If you're just flipping top for bottom or left  for  right,  you  don't  have  a
       problem.   Otherwise, pay attention.  If you're interested in the details of the thrashing
       problem and how pamflip approaches it, you're invited to read a  complete  explanation  in
       comments in the source code.

       -memsize=mebibytes
              mebibytes is the size in mebibytes (aka megabytes) of memory available for pamflip.
              It is the lesser of the amount of real or virtual memory available.

              pamflip does nothing special to allocate real memory or control it's allocation  --
              it  gets  whatever  it  gets just by referencing virtual memory normally.  The real
              memory figure in question is the maximum amount that pamflip can be expected to end
              up  with  by doing that.  This is just about impossible for you to know, of course,
              but you can estimate.  The total real memory in  your  system  should  be  a  major
              factor in your estimate.

              If pamflip cannot fit the entire image in the amount of memory you specify, it does
              the transformation in chunks, using temporary files for intermediate results.

              In strict horizontal transformations (left for right) or the  null  transformation,
              pamflip  never  keeps more than one row in memory, so the memory size is irrelevant
              and pamflip doesn't use temporary files.

              In strict vertical transformations (top for bottom), even when  you  allow  pamflip
              enough  memory  to  keep  the  entire  image in virtual memory, it accesses it in a
              single pass, which does not cause any thrashing; the chunks in temporary files thus
              don't help.

              The  real  memory  is important when you do a column for row type of transformation
              (e.g. -rotate90).  In that case, even if  pamflip  can  fit  the  entire  image  in
              virtual  memory  at  once, if it does not also fit in real memory, the program will
              thrash like crazy because of the order in which pamflip accesses  the  pixels,  and
              that  means  it  will  take  a  ridiculously  long  time to run.  A proper -memsize
              drastically reduces the paging.

              If you specify -memsize too large, pamflip may attempt to get more  virtual  memory
              than the system allows it and fail.  If it can get the virtual memory, but -memsize
              is  larger  than  the  amount  of  real  memory  the  system  allows  it  and   the
              transformation is row for column, it will page thrash and run very slowly.  A value
              even slightly too high is the same as infinity.

              If you specify -memsize too small,  the  program  will  run  slightly  more  slowly
              because  of  extra  overhead  in  manipulating  temporary  files.   Also,  if  your
              environment isn't set up to make temporary files possible, pamflip will fail.

              Doing the entire transformation "in memory" doesn't speed things up as much as  you
              might  think,  because even with the temporary files, the data is just as likely to
              be in memory.  Virtual memory gets paged to disk  and  disk  files  get  cached  in
              memory.   In  fact, the pixels fit much more compactly into memory when stored in a
              temporary file than when stored "in memory" because pamflip uses a  more  efficient
              format.  So you're likely to have less disk I/O when you allow pamflip less memory.

              If you do not specify -memsize, pamflip assumes infinity.

              This option did not exist before Netpbm 10.7 (August 2002).

              Before Netpbm 10.42 (March 2008), this option applied only to real memory.  pamflip
              would always keep the entire image in virtual memory and if it could not get enough
              virtual  memory,  it  failed.   pamflip accessed the pixels in an order designed to
              keep real memory use within the specified amount.

       -pagesize=bytes
              bytes is the size in bytes of a paging unit -- the amount of memory that gets paged
              in or out as an indivisible unit -- in your system.  The default is 4KiB.

              This option has no effect.

              Before  Netpbm  10.42  (March  2008),  pamflip  used  it to control its use of real
              memory.

              This option did not exist before Netpbm 10.7 (August 2002).

   Miscellaneous
       -verbose
              This option causes pamflip to issue messages to Standard Error about its progress.

SEE ALSO

       pnmrotate(1), pnm(1), pam(1), jpegtran manual

HISTORY

       pamflip replaced pnmflip in Netpbm 10.13 (December 2002).  pamflip is backward compatible,
       but also works on PAM images.

AUTHOR

       Copyright (C) 1989 by Jef Poskanzer.

DOCUMENT SOURCE

       This  manual page was generated by the Netpbm tool 'makeman' from HTML source.  The master
       documentation is at

              http://netpbm.sourceforge.net/doc/pamflip.html