def add_timestamps(filename=None): data_obj = red.load(filename) folder = os.path.dirname(filename) end_times = simplejson.load(open(os.path.join(folder, 'end_times.json'), 'r')) basename = os.path.basename()[-12:] #new_file = open('T'+filename, 'w') end_time = end_times[basename] print end_time
def load(seqlist, base='jul04'): return [ reflred.load(os.path.join(PATH, "%s%03d.ng7" % (base, seq))) for seq in seqlist ]
""" Sample data from NCNR-AND/R. This is area detector data with all frames preserved. from reflectometry.model1d.examples.cg1area import data TODO: Document contents of this data file. """ import numpy, os import reflectometry.reduction as reflred PATH = os.path.dirname(os.path.realpath(__file__)) data = reflred.load(os.path.join(PATH, 'psdca022.cg1.gz')) #data = reflred.load(os.path.join(PATH,'Ipsdca022.cg1')) #data = reflred.load(os.path.join(PATH,'small.cg1')) if __name__ == "__main__": import pylab print "shape=", data.detector.counts.shape pylab.imshow(numpy.log(data.detector.counts[1] + 1).T) #pylab.pcolor(numpy.log(data.detector.counts+1)) pylab.show() pass
""" Sample data from NCNR-AND/R. This is area detector data with all frames preserved. from reflectometry.model1d.examples.cg1area import data TODO: Document contents of this data file. """ import numpy, os import reflectometry.reduction as reflred PATH = os.path.dirname(os.path.realpath(__file__)) data = reflred.load(os.path.join(PATH, "psdca022.cg1.gz")) # data = reflred.load(os.path.join(PATH,'Ipsdca022.cg1')) # data = reflred.load(os.path.join(PATH,'small.cg1')) if __name__ == "__main__": import pylab print "shape=", data.detector.counts.shape pylab.imshow(numpy.log(data.detector.counts[1] + 1).T) # pylab.pcolor(numpy.log(data.detector.counts+1)) pylab.show() pass
def load(seqlist,base='jul04'): return [reflred.load(os.path.join(PATH,"%s%03d.ng7"%(base,seq))) for seq in seqlist]