mcutils/xray
Marco Cammarata 69df940711 improved DataStorage to add key with the syntax a.data=3 2017-01-12 16:35:36 +01:00
..
README.md never mind ... the instructions were wrong. did not what what I wanted ... 2017-01-06 18:36:56 +01:00
__init__.py more functions: added 2d mask and filtering of 1d diffs... 2017-01-10 00:28:29 +01:00
azav.py more improvements (including some needed to work after background subtraction, see example on salen 2017-01-10 22:43:22 +01:00
dataReduction.py more improvements (including some needed to work after background subtraction, see example on salen 2017-01-10 22:43:22 +01:00
example_main_salen.py more improvements (including some needed to work after background subtraction, see example on salen 2017-01-10 22:43:22 +01:00
example_main_tiox.py more functions: added 2d mask and filtering of 1d diffs... 2017-01-10 00:28:29 +01:00
id9.py more improvements (including some needed to work after background subtraction, see example on salen 2017-01-10 22:43:22 +01:00
mask.py more improvements (including some needed to work after background subtraction, see example on salen 2017-01-10 22:43:22 +01:00
storage.py improved DataStorage to add key with the syntax a.data=3 2017-01-12 16:35:36 +01:00
utils.py more improvements (including some needed to work after background subtraction, see example on salen 2017-01-10 22:43:22 +01:00
xray.py lots of changes, now id9 and pyfai routines have their own wubmodule; worked on storage system (hdf5 or npz based) 2017-01-05 19:22:37 +01:00

README.md

xray

Different utilities to work with time resolved solution/powder scattering data They should be extended to absorption soon

The idea is an hierarchical structure of modules

user → beamline → workhorses

Workhorses

azav.py: uses pyFAI to convert images into 1d curves dataReduction.py: works on the normalization, referencing and averaging.

Both modules uses some common utilities in utils.py including file based storage for persistency and convenience (numpy or hdf5 based); Indeed the data_storage class wraps around dictionaries allowing accessing with .attribute syntax. In utils plotfuncitons are presents

beamline

this step is needed to read the diagnostic information (time delay, monitors, etc). An example for current id9 data collection macros is given (id9.py). Essentially it means creating a dictionary where each key will be added to the main data dictionary (that has keys like q, data, files, etc.)

user

at the user level, a rather simple macro like the one provided as an example (example_main_tiox.py) should be sufficient for most needs.