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I/O library for images produced by 2D X-ray detector

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FabIO
=====
FabIO is an I/O library for images produced by 2D X-ray detectors and written in python.
FabIO support images detectors from a dozen of companies (including Mar, Dectris, ADSC, Hamamatsu, Oxford, ...),
for a total of 20 different file formats (like CBF, EDF, TIFF, ...) and offers an unified interface to their
headers (as a python dictionary) and datasets (as a numpy ndarray of integers or floats)

Citation:
---------
The general philosophy of the library is described in:
FabIO: easy access to two-dimensional X-ray detector images in Python
E. B. Knudsen, H. O. Sørensen, J. P. Wright, G. Goret and J. Kieffer
Journal of Applied Crystallography, Volume 46, Part 2, pages 537-539.
http://dx.doi.org/10.1107/S0021889813000150

Transparent handling of compressed files
----------------------------------------
Fabio is expected to handle gzip and bzip2 compressed files transparently.
Following a query about the performance of reading compressed data, some
benchmarking details have been collected at fabio_compressed_speed.
This means that when your python was configured and built you needed the
bzip and gzip modules to be present (eg libbz2-dev package for ubuntu)
Using fabio in your own python programs
Example:

>>> import fabio
>>> obj = fabio.edfimage("mydata0000.edf")
>>> obj.data.shape
(2048, 2048)
>>> obj.header["Omega"]
23.5


Design Specifications
---------------------
Name: Fabio = Fable Input/Output

Idea:
.....
Have a base class for all our 2D diffraction greyscale images. This consists of a 2D array (numpy ndarray)
and a python dictionary of header information in (string key, string value) pairs.

Class fabioimage
................
Needs a name which will not to be confused with an RGB color image.

Class attributes:
* data   					-> 2D array
* header 					-> dictionary
* rows, columns, dim1, dim2 -> data.shape
* header_keys               -> header.keys() used to retain the order of the header when writing an image to disk
* bytecode                 	-> data.typecode()
* m, minval, maxval, stddev	-> image statistics, could add others, eg roi[slice]

Class methods (functions):
..........................
integrate_area()      -> return sum(self.data) within slice
rebin(fact)           -> rebins data, adjusts dims
toPIL16()             -> returns a PILimage
getheader()           -> returns self.header
resetvals()           -> resets the statistics
getmean()             -> (computes) returns self.m
getmin()              -> (computes) returns self.minval
getmax()              -> (computes) returns self.maxval
getstddev()           -> (computes) returns self.stddev
read()        		  -> read image from file [or stream, or shared memory]
write()       		  -> write image to file  [or stream, or shared memory]
readheader()          -> read only the header [much faster for scanning files]

Each individual file format would then inherit all the functionality of this class and just make new read and write methods.
There are also fileseries related methods (next(), previous(), ...) which return a fabioimage instance of the next/previous frame in a fileserie

Other feature:
    * possibility for using on-the-fly external compression - i.e. if files are stored as something as .gz, .bz2 etc could decompress them, using an external compression mechanism (if available). This is present in fabian but requires that images are edfs.


Known file formats
------------------
* Bruker
  o brukerimage
  o bruker100image
  o kcdimage: Nonius KappaCCD diffractometer
* Mar Research
  o marccd (fileformat derived from Tiff)
  o mar345 imaging plate with PCK compression
* Dectris
  o cbfimage (implements a fast byte offset decompression scheme in python/cython)
  o pilatusimage (fileformat derived from Tiff)
* ESRF
  o edfimage: The ESRF data Format
  o xsdimage: XML serialized image from EDNA
  o fit2dmaskimage: Fit2d Mask format
  o fit2dspreadsheetimage: Fit2d ascii tables (spread-sheet)
* ADSC
  o adscimage
* GE detector at APS
  o GEimage
* PNM
  o pnmimage
* Tiff
  o tifimage
* D3M
  o d3mimage
* Hamamatsu
  o HiPiCimage
* Oxford Diffraction Sapphire 3
  o OXDimage
* Nonius
 o KappaCCD
* Raw Binary without compression

Installation
------------

Please see doc/source/INSTALL.rst

Changelog
---------

Please see doc/source/Changelog.rst

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I/O library for images produced by 2D X-ray detector

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