357 lines
13 KiB
Python
357 lines
13 KiB
Python
from __future__ import print_function,division
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import os
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import collections
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# prepare logging
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import logging
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logfname = os.path.splitext(__file__)[0] + ".log"
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logging.basicConfig(level=logging.DEBUG,
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format='%(asctime)s %(name)-12s %(levelname)-8s %(message)s',
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datefmt='%y-%m-%d %H:%M:%S',
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filename=logfname,
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filemode='w')
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import numpy as np
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import pylab as plt
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import mcutils as mc
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import mcutils.xray as xray
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from mcutils.xray import id9
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#id9 = xray.id9
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# use npz files (they can handle more stuff (list of arrays,unicode) than h5py)
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g_default_ext = '.npz'
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id9.default_extension = g_default_ext
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g_default_mask = '../masks/fesalen1_run8_careful.edf'
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g_default_folder = "../fesalen/fesalen1/run%d"
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runsE = collections.OrderedDict()
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runsT = collections.OrderedDict()
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runsE[7] = 60; runsT[7] = 135
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runsE[8] = 60; runsT[8] = 135
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runsE[9] = 120; runsT[9] = 135
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runsE[10] = 240; runsT[10] = 135
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runsE[11] = 30; runsT[11] = 135
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runsE[12] = 45; runsT[12] = 135
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runsE[13] = 60; runsT[13] = 120
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runsE[14] = 120; runsT[14] = 120
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runsE[15] = 30; runsT[15] = 120
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runs135=(11,12,8,9,10)
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runs120=(15,13,14)
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def prepareLog():
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""" It allows printing to terminal on top of logfile """
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# define a Handler which writes INFO messages or higher to the sys.stderr
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console = logging.StreamHandler()
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console.setLevel(logging.INFO)
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# set a format which is simpler for console use
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formatter = logging.Formatter('%(message)s')
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# tell the handler to use this format
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console.setFormatter(formatter)
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# add the handler to the root logger (if needed)
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if len(logging.getLogger('').handlers)==1:
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logging.getLogger('').addHandler(console)
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prepareLog()
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def defineCalibrants(dmin=3):
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c120 = xray.cell.Triclinic(a=10.297,b=10.716,c=13.955,alpha=72.22,beta=70.45,gamma=74.13)
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p120,_ = c120.reflection_list()
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c300 = xray.cell.Triclinic(a=10.485,b=11.015,c=14.280,alpha=74.61,beta=69.29,gamma=75.29)
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p300,_ = c300.reflection_list()
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return xray.storage.DataStorage( p120=p120, c120=c120,p300=p300,c300=c300)
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def readCalculations(folder="../fesalen/cif",force=False,plot=False):
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npz = folder + "/fesalen_calc.npz"
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if not os.path.isfile(npz) or force:
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ret = dict()
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for T in ("120LS","200HS","300HS"):
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# calculated with lambda = 1 Ang
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theta,i = np.loadtxt( folder+"/fesalen_%s_fwhm0.1.tsv"%T,unpack=True )
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theta = theta/180*np.pi
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q = 4*np.pi/1*np.sin(theta/2)
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key = "T%s"%T
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ret[ key ] = dict( q = q, i = i )
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ret = xray.storage.DataStorage(ret)
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ret.save(folder + "/fesalen_calc.npz" )
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ret = xray.storage.read(npz)
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if plot:
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T = list(ret.keys())
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T.sort()
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for i,t in enumerate(T):
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plt.plot( ret[t].q,ret[t].i, label=t)#,color=plt.cm.Blues((0.3+0.7*i/2)) )
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plt.grid()
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plt.legend()
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plt.xlabel(r"q ($\AA^{-1}$)")
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return ret
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def findCenter(cen=(484,479.5),dist=0.251):
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files = xray.utils.getEdfFiles("../fesalen/fesalen1/run17/",nFiles=100)
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img = xray.azav.read(files).mean(axis=0) - 10.
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wavelength=12.398/18.*1e-10
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# 1,0,0 peak are the one close to azimuth 0 and are at 0.6596Ang-1 at 120K
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# and 0.65098 at 300K (run 17 is @ RT)
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xray.azav.find_center(img,dist=dist,psize=0.0001770834,center=cen,
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reference=0.65098,wavelength=wavelength)
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def removeBaseline(folder,qlims=(0.5,2.5),max_iter=30,force=False):
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if isinstance(folder,int): folder = g_default_folder%folder
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fname = folder + "/pyfai_1d_nobaseline"+g_default_ext
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if not os.path.isfile(fname) or force:
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logging.info("Calling azav with default parameters")
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data = azav(folder,withBaseline=True)
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# first peak (around 0.6) is weak and requires special care ...
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data.q,data.data = xray.utils.removeBackground(data.q,data.data,
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xlims=qlims,max_iter=max_iter,background_regions=[ (0,0.58) ])
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data.save(fname)
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else:
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data = xray.storage.read(fname)
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return data
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def azav(folder,nQ=3000,force=False,saveChi=True,mask=g_default_mask,
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withBaseline=True):
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if isinstance(folder,int): folder = g_default_folder%folder
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if withBaseline:
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data = id9.doFolder_azav(folder,nQ=nQ,force=force,mask=mask,
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saveChi=saveChi)
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else:
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data=removeBaseline(folder)
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return data
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def datared(folder,monitor=(0.5,4),showPlot=True,errMask=5,chi2Mask=1.5,
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qlims=(0.5,3),withBaseline=False,forceDatared=False,
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select=slice(None),**kw):
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if isinstance(folder,int): folder = g_default_folder%folder
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data = azav(folder,withBaseline=withBaseline)
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if withBaseline:
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diffFile = folder + "/diffs" + g_default_ext
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else:
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diffFile = folder + "/diffs_nobaseline" + g_default_ext
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if not os.path.isfile(diffFile) or forceDatared:
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data,diffs = id9.doFolder_dataRed(data,monitor=monitor,
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errMask=errMask,chi2Mask=chi2Mask,qlims=qlims,
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outStorageFile=diffFile)
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else:
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diffs = xray.storage.read(diffFile)
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if showPlot:
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xray.utils.plotdiffs(diffs.q,diffs.data,t=diffs.scan,select=select,
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absSignal=diffs.dataAbsAvNeg,absSignalScale=10)
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plt.title(folder + " norm %s" % str(monitor))
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plt.figure()
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xray.utils.plotdiffs(diffs.q,diffs.dataAsAbs,t=diffs.scan,
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select=select)
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plt.title(folder + " norm %s" % str(monitor))
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return data,diffs
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def doall(folder,force=False,removeBaseline=True):
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azav(folder,force=force)
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return datared(folder)
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def _getAmplitudeFromSVD(i,comp=0):
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u,s,v = np.linalg.svd(i)
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return u[:,comp]*s[comp]
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def _getAmplitudeFromLinFit(i,ref=1):
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amp = [mc.linFit(i[ref],ii) for ii in i]
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return np.asarray(amp)
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def _getAmplitudeFromAbs(i,e):
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amp = np.abs(i).mean(axis=1)
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baseline = np.median(e)
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return amp-baseline
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def _getAmplitudeFromPeak(i):
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""" get max-min (to be less sensitive to baseline change """
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amp = np.max(i,axis=1)-np.min(i,axis=1)
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return amp
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def anaAmplitue(run=12,plot=False,scaleWithE=False,withBaseline=False):
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folder = g_default_folder % run
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pars = dict( chi2Mask=1.5,errMask=3,monitor=(0.4,2.5),showPlot=False )
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data,diffs=datared(folder,**pars,withBaseline=withBaseline)
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ranges = ( (0.66,0.72), (0.74,0.8), (0.82,0.88) ) #, (0.96,1.02 ) )
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nPlot = len(ranges)
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if plot: fig,ax = plt.subplots(nPlot,1,sharex=True)
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amp = collections.OrderedDict()
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for num,r in enumerate(ranges):
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idx = (diffs.q>r[0]) & (diffs.q<r[1])
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#amplitude = _getAmplitudeFromLinFit( diffs.data[:,idx] )
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amplitude = _getAmplitudeFromAbs( diffs.data[:,idx],diffs.err[:,idx] )
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if scaleWithE: amplitude = amplitude/runsE[run]
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#amplitude = _getAmplitudeFromPeak( diffs.data[:,idx] )
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amp[r] = amplitude
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if plot:
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ax[num].plot(diffs.scan,amplitude,'-o')
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ax[num].set_title("Range %s"%(str(r)))
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return diffs.scan,amp
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def _getPeakPos(x,y,e=1):
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if y.ndim == 1: y = (y,)
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ret = dict()
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for yy,ee in zip(y,e):
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res = xray.peaks.fitPeak(x,yy,err=ee)
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#plt.figure(); res.plot_fit(); input("ok")
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pars = res.params.keys()
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for p in pars:
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if not p in ret: ret[p] = dict( value = [], err = [] )
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ret[p]['value'].append( res.params[p].value )
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ret[p]['err'].append( res.params[p].stderr )
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for p in pars:
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ret[p]['value'] = np.asarray(ret[p]['value'])
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ret[p]['err'] = np.asarray(ret[p]['err'])
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return xray.storage.DataStorage(ret)
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def anaPeakPos(run=12,plot=False,withBaseline=False):
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folder = g_default_folder % run
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pars = dict( chi2Mask=1.5,errMask=3,monitor=(0.4,2.5),showPlot=False )
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data,diffs=datared(folder,**pars,withBaseline=withBaseline)
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ranges = ( (0.66,0.72), (0.74,0.8), (0.82,0.88) ) #, (0.96,1.02 ) )
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nPlot = len(ranges)
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if plot: fig,ax = plt.subplots(nPlot,1,sharex=True)
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pars = collections.OrderedDict()
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for num,r in enumerate(ranges):
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idx = (diffs.q>r[0]) & (diffs.q<r[1])
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#amplitude = _getAmplitudeFromLinFit( diffs.data[:,idx] )
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pars[r] = _getPeakPos( data.q[idx],diffs.dataAsAbs[:,idx],diffs.err[:,idx])
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if plot:
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ax[num].axhline( pars[r].center.value[0] )
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ax[num].plot(diffs.scan,pars[r].center.value,'-o')
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ax[num].set_title("Range %s"%(str(r)))
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return diffs.scan,pars
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#### PLOTS #####
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def compareT():
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fig,ax = plt.subplots(2,1,sharex=True)
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plt.sca( ax[0] )
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readCalculations(plot=True)
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plt.sca( ax[1] )
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t120 = removeBaseline("../fesalen/fesalen1/run16")
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t300 = removeBaseline("../fesalen/fesalen1/run17")
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plt.plot(t120.q,t120.data.mean(0),label="Data 120K")
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plt.plot( [0,.01],[0,.01] ) # just to have a matching color
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plt.plot(t300.q,t300.data.mean(0),label="Data 300K")
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def showBaseline(N=2):
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data_bs = azav("../fesalen/fesalen1/run17")
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data = removeBaseline("../fesalen/fesalen1/run17")
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idx1 = np.argwhere( data.q[0] == data_bs.q )[0][0]
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idx2 = np.argwhere( data.q[-1] == data_bs.q )[0][0]
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bs = data_bs.data[:,idx1:idx2+1]-data.data
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fig,ax=plt.subplots(2,N,sharex=True,sharey='row',squeeze=False)
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ax = ax.T
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for i,a in enumerate(ax):
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a[0].plot(data_bs.q,data_bs.data[i])
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a[0].plot(data.q,bs[i])
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a[1].plot(data.q,data.data[i])
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def showBaselineStability(N=100):
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# has to be done with cryo on
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data_bs = azav("../fesalen/fesalen1/run15",withBaseline=True)
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data = azav("../fesalen/fesalen1/run15",withBaseline=False)
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fig,ax=plt.subplots(2,2,sharey=True)
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i = np.arange(data.data.shape[0])
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ax[0,0].pcolormesh(i,data_bs.q,data_bs.data.T)
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ax[0,0].set_title("Without baseline subtraction")
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ax[0,0].set_ylabel(r"q ($\AA^{-1}$)")
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for x in range(N):
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ax[0,1].plot(data_bs.data[x],data_bs.q,lw=0.5,color="0.5",alpha=0.1)
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ax[1,0].pcolormesh(i,data.q,data.data.T)
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ax[1,0].set_xlabel("Image number")
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ax[1,0].set_title("With baseline subtraction")
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ax[1,0].set_ylabel(r"q ($\AA^{-1}$)")
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for x in range(N):
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ax[1,1].plot(data.data[x],data.q,lw=0.5,color="0.5",alpha=0.1)
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ax[0,1].set_xlim(0,400)
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ax[1,1].set_xlim(0,180)
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ax[1,1].set_xlabel("Intensity")
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[a.set_xlim(0,400) for a in ax[:,0]]
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plt.ylim(0.4,3)
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def comparisonTRbaseline(folder="../fesalen/fesalen1/run9",select=slice(None)):
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pars = dict( chi2Mask=1.5,errMask=3,monitor=(0.4,2.5),showPlot=False )
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data,diffs_bs=datared(folder,**pars,withBaseline=True)
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data,diffs=datared(folder,**pars,withBaseline=False)
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fig,ax=plt.subplots(2,1,sharex=True)
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plt.sca(ax[0])
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xray.utils.plotdiffs(diffs.q,diffs.data,t=diffs.scan,
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absSignal=diffs.dataAbsAvAll,absSignalScale=10,select=select)
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plt.title(folder + " norm %s" % str(pars['monitor']))
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plt.sca(ax[1])
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xray.utils.plotdiffs(diffs_bs.q,diffs_bs.data,t=diffs_bs.scan,
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absSignal=diffs_bs.dataAbsAvAll,absSignalScale=30,select=select)
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def compareAmplitudes(runs=(11,12,8,9,10),scaleWithE=True,withBaseline=False):
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runs=list(runs)
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nRuns = len(runs)
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fig,ax=plt.subplots(nRuns,3,sharex=True,sharey='col',figsize=[12,8])
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subplots_kw = dict( hspace=0,wspace=0 )
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plt.subplots_adjust( **subplots_kw )
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plt.rcParams['font.size']=14
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for run,arow in zip(runs,ax):
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t,amp = anaAmplitue(run,plot=False,scaleWithE=scaleWithE,withBaseline=withBaseline)
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for k,a in zip(amp.keys(),arow):
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a.axhline(0,ls='--')
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a.plot(t,amp[k],'o')
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for r,a in zip(runs,ax[:,0]):
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label = "run %d (%.0f K)\n%.0f uJ"%(r,runsT[r],runsE[r])
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a.set_ylabel(label)
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for interval,a in zip(amp.keys(),ax[0,:]): a.set_title("range %s"%(str(interval)))
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def compareAmplitudes2(runs=(11,12,8,9,10),scaleWithE=False,withBaseline=False):
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runs=list(runs)
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nRuns = len(runs)
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fig,ax=plt.subplots(1,3,sharex=True,figsize=[12,8])
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subplots_kw = dict( hspace=0,wspace=0 )
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plt.subplots_adjust( **subplots_kw )
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plt.rcParams['font.size']=14
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for a in ax: a.axhline(0,ls='--')
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for run in runs:
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t,amp = anaAmplitue(run,plot=False,scaleWithE=scaleWithE,withBaseline=withBaseline)
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for k,a in zip(amp.keys(),ax):
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label = "run %d %.0f uJ"%(run,runsE[run])
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a.plot(t,amp[k],'-o',label=label)
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# for r,a in zip(runs,ax[:,0]):
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# a.set_ylabel(label)
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for interval,a in zip(amp.keys(),ax): a.set_title("range %s"%(str(interval)))
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def comparePosition2(runs=(11,12,8,9,10),withBaseline=False,useRatio=True,scaleWithE=False):
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runs=list(runs)
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nRuns = len(runs)
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fig,ax=plt.subplots(1,3,sharex=True,figsize=[12,8],sharey=useRatio)
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subplots_kw = dict( hspace=0,wspace=0 )
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plt.subplots_adjust( **subplots_kw )
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plt.rcParams['font.size']=14
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if scaleWithE and not ratio:
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logging.warn("scaleWithE requires useRatio, setting scaleWithE to False")
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scaleWithE = Fale
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for run in runs:
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t,pars = anaPeakPos(run,plot=False,withBaseline=withBaseline)
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for k,a in zip(pars.keys(),ax):
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label = "run %d %.0f uJ"%(run,runsE[run])
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if useRatio:
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ratio = pars[k].center.value[1:]/pars[k].center.value[0]
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err = pars[k].center.err[1:]/pars[k].center.value[0]
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if scaleWithE: ratio = (ratio-1)/runsE[run]+1
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line = a.errorbar(t[1:],ratio,err,fmt='-o',label=label)[0]
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else:
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line = a.plot(t[1:],pars[k].center.value[1:],'-o',label=label)[0]
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a.axhline(pars[k].center.value[0],color=line.get_color())
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for interval,a in zip(pars.keys(),ax): a.set_title("range %s"%(str(interval)))
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if useRatio:
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ax[0].set_ylabel("Peak Position / Peak Position(t=-5ns)")
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else:
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ax[0].set_ylabel("Peak Position ($\AA^{-1}$)")
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