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NAME

       eiger2cbf  -  Portable  image  converter  based  on  FabIO  library to export Eiger frames
       (including te one from LIMA) to CBF and mimic the header from Dectris Pilatus.

DESCRIPTION

       usage: eiger2cbf [-h] [-V] [-v] [--debug] [-o OUTPUT] [-m MASK] [-O OFFSET]

              [-D DUMMY] [--pilatus] [--dry-run] [-e ENERGY] [-w WAVELENGTH]  [-d  DISTANCE]  [-b
              BEAM  BEAM] [--alpha ALPHA] [--kappa KAPPA] [--chi CHI] [--phi PHI] [--omega OMEGA]
              [--rotation ROTATION] [--transpose] [--flip-ud] [--flip-lr] [IMAGE ...]

       Portable image converter based on FabIO library to export Eiger frames (including  te  one
       from LIMA) to CBF and mimic the header from Dectris Pilatus.

   positional arguments:
       IMAGE  File with input images

   options:
       -h, --help
              show this help message and exit

       -V, --version
              output version and exit

       -v, --verbose
              show information for each conversions

       --debug
              show debug information

   main arguments:
       -o OUTPUT, --output OUTPUT
              output directory and filename template: eiger2cbf/frame_{index:04d}.cbf

       -m MASK, --mask MASK
              Read masked pixel from this file

       -O OFFSET, --offset OFFSET
              index offset, CrysalisPro likes indexes to start at 1, Python starts at 0

       -D DUMMY, --dummy DUMMY
              Set masked values to this dummy value

       --pilatus
              Select an image shape similar to Pilatus detectors for compatibiliy with Crysalis

   optional behaviour arguments:
       --dry-run
              do everything except modifying the file system

   Experimental setup options:
       -e ENERGY, --energy ENERGY
              Energy of the incident beam in keV

       -w WAVELENGTH, --wavelength WAVELENGTH
              Wavelength of the incident beam in ??

       -d DISTANCE, --distance DISTANCE
              Detector distance in meters

       -b BEAM BEAM, --beam BEAM BEAM
              Direct beam in pixels x, y

   Goniometer setup:
       --alpha ALPHA
              Goniometer angle alpha value in deg.

       --kappa KAPPA
              Goniometer angle kappa value in deg.

       --chi CHI
              Goniometer angle chi value in deg. or formula f(index)

       --phi PHI
              Goniometer angle phi value in deg. or formula f(index)

       --omega OMEGA
              Goniometer angle omega value in deg. or formula f(index) like '-180+index*0.1

   Image preprocessing (Important: applied in this order!):
       --rotation ROTATION
              Rotate the initial image by this value in degrees.  Must be a multiple of 90??.

       --transpose
              Flip the x/y axis

       --flip-ud
              Flip the image upside-down

       --flip-lr
              Flip the image left-right

       return  codes: 0 means a success. 1 means the conversion contains a failure, 2 means there
       was an error in the arguments