def main_test_2x1() : w = CSPadPixCoordsWODB() w.make_maps_of_2x1_pix_coordinates() w.print_maps_2x1() for i,arr2d in enumerate([w.x_map2x1,w.y_map2x1]) : range = (arr2d.min(), arr2d.max()) gg.plotImage(arr2d, range, figsize=(10,5)) gg.move(200*i,100*i) gg.show()
def main_calib() : print 'Start test in main_calib()' #calp.calibpars.setCalibPars( run = 9, # calibdir = '/reg/d/psdm/CXI/cxi35711/calib', # group = 'CsPad::CalibV1', # source = 'CxiDs1.0:Cspad.0' ) runnum=0 #path_calib = '/reg/neh/home/dubrovin/LCLS/CSPadAlignment-v01/calib-cxi37411-r0039-Dsd/' #path_calib = '/reg/neh/home/dubrovin/LCLS/CSPadAlignment-v01/calib-cxi37411-r0080-Ds1' #path_calib = '/reg/neh/home/dubrovin/LCLS/CSPadAlignment-v01/calib-cxi35711-r0009-det' #path_calib = '/reg/d/psdm/CXI/cxi37411/calib/CsPad::CalibV1/CxiDs1.0:Cspad.0' #path_calib = '/reg/d/psdm/CXI/cxi35711/calib/CsPad::CalibV1/CxiDs1.0:Cspad.0' #path_calib = '/reg/d/psdm/CXI/cxi37411/calib/CsPad::CalibV1/CxiDsd.0:Cspad.0' path_calib = '/reg/d/psdm/xpp/xpp47712/calib/CsPad::CalibV1/XppGon.0:Cspad.0' #fname = '/reg/d/psdm/CXI/cxi35711/hdf5/cxi35711-r0009.h5' #fname = '/reg/d/psdm/CXI/cxi37411/hdf5/cxi37411-r0080.h5' #fname = '/reg/d/psdm/CXI/cxi37411/hdf5/cxi37411-r0039.h5' #fname = '/reg/d/psdm/XPP/xpp47712/hdf5/xpp47712-r0043.h5' #fname = '/reg/d/psdm/CXI/cxi80410/hdf5/cxi80410-r0628.h5' fname, runnum = '/reg/d/psdm/XPP/xppcom10/hdf5/xppcom10-r1437.h5', 1437 #dsname = '/Configure:0000/Run:0000/CalibCycle:0000/CsPad::ElementV2/CxiDs1.0:Cspad.0/data' #dsname = '/Configure:0000/Run:0000/CalibCycle:0000/CsPad::ElementV2/CxiDsd.0:Cspad.0/data' dsname = '/Configure:0000/Run:0000/CalibCycle:0000/CsPad::ElementV2/XppGon.0:Cspad.0/data' event = 0 print 'Load calibration parameters from', path_calib calp.calibpars.setCalibParsForPath ( run=runnum, path=path_calib ) print 'Get raw CSPad event %d from file %s \ndataset %s' % (event, fname, dsname) ds1ev = hm.getOneCSPadEventForTest( fname, dsname, event ) print 'ds1ev.shape = ',ds1ev.shape print 'Make the CSPad image from raw array' #cspadimg = CSPadImageProducer(rotation=3, tiltIsOn=False, mirror=False) cspadimg = CSPadImageProducer(rotation=0, tiltIsOn=False, mirror=False) cspadimg.printInputPars() cspadimg.printGeometryPars() #arr = cspadimg.getImageArrayForPair( ds1ev, pairNum=3 ) #arr = cspadimg.getImageArrayForQuad( ds1ev, quadNum=2 ) #arr = cspadimg.getImageArrayForCSPadElement( ds1ev ) arr = cspadimg.getCSPadImage( ds1ev ) #print 'arr = \n',arr AmpRange = (1700,2000) #AmpRange = (0, 100) print 'Plot CSPad image' gg.plotImage(arr,range=AmpRange,figsize=(11.6,10)) gg.move(200,100) #gg.plotImageAndSpectrum(arr,range=(1,2001)) gg.plotSpectrum(arr,range=AmpRange) gg.move(50,50) print 'To EXIT the test click on "x" in the top-right corner of each plot window.' gg.show()