Uses now UTCDateTime.timestamp as this is more efficient and shorter.
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@ -13,6 +13,7 @@ import matplotlib.pyplot as plt
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from obspy.core import Stream, UTCDateTime
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import warnings
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def earllatepicker(X, nfac, TSNR, Pick1, iplot=None):
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'''
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Function to derive earliest and latest possible pick after Diehl & Kissling (2009)
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@ -65,8 +66,8 @@ def earllatepicker(X, nfac, TSNR, Pick1, iplot=None):
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#get earliest possible pick
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#determine all zero crossings in signal window (demeaned)
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zc = crossings_nonzero_all(x[isignal] - x[isignal].mean())
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#determine all zero crossings in signal window
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zc = crossings_nonzero_all(x[isignal])
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#calculate mean half period T0 of signal as the average of the
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T0 = np.mean(np.diff(zc)) * X[0].stats.delta #this is half wave length!
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#T0/4 is assumed as time difference between most likely and earliest possible pick!
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@ -385,8 +386,8 @@ def getsignalwin(t, t1, tsignal):
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def wadaticheck(pickdic, dttolerance, iplot):
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'''
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Function to calculate Wadati-diagram from given P and S onsets in order
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to detect S pick outliers. If a certain S-P time deviates from regression
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of S-P time the S pick is marked and down graded.
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to detect S pick outliers. If a certain S-P time deviates by dttolerance
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from regression of S-P time the S pick is marked and down graded.
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: param: pickdic, dictionary containing picks and quality parameters
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: type: dictionary
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@ -405,7 +406,6 @@ def wadaticheck(pickdic, dttolerance, iplot):
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Ppicks = []
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Spicks = []
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SPtimes = []
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vpvs = []
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for key in pickdic:
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if pickdic[key]['P']['weight'] < 4 and pickdic[key]['S']['weight'] < 4:
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# calculate S-P time
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@ -413,12 +413,11 @@ def wadaticheck(pickdic, dttolerance, iplot):
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# add S-P time to dictionary
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pickdic[key]['SPt'] = spt
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# add P onsets and corresponding S-P times to list
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UTCPpick = UTCDateTime(pickdic[key]['P']['mpp']) - UTCDateTime(1970,1,1,0,0,0)
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UTCSpick = UTCDateTime(pickdic[key]['S']['mpp']) - UTCDateTime(1970,1,1,0,0,0)
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Ppicks.append(UTCPpick)
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Spicks.append(UTCSpick)
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UTCPpick = UTCDateTime(pickdic[key]['P']['mpp'])
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UTCSpick = UTCDateTime(pickdic[key]['S']['mpp'])
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Ppicks.append(UTCPpick.timestamp)
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Spicks.append(UTCSpick.timestamp)
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SPtimes.append(spt)
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vpvs.append(UTCPpick/UTCSpick)
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if len(SPtimes) >= 3:
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@ -427,14 +426,13 @@ def wadaticheck(pickdic, dttolerance, iplot):
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wdfit = np.polyval(p1, Ppicks)
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wfitflag = 0
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# calculate average vp/vs ratio before check
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# calculate vp/vs ratio before check
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vpvsr = p1[0] + 1
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print 'wadaticheck: Average Vp/Vs ratio before check:', vpvsr
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checkedPpicks = []
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checkedSpicks = []
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checkedSPtimes = []
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checkedvpvs = []
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# calculate deviations from Wadati regression
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for key in pickdic:
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if pickdic[key].has_key('SPt'):
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@ -449,15 +447,12 @@ def wadaticheck(pickdic, dttolerance, iplot):
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pickdic[key]['S']['weight'] = 9
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else:
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marker = 'goodWadatiCheck'
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checkedPpick = UTCDateTime(pickdic[key]['P']['mpp']) - \
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UTCDateTime(1970,1,1,0,0,0)
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checkedPpicks.append(checkedPpick)
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checkedSpick = UTCDateTime(pickdic[key]['S']['mpp']) - \
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UTCDateTime(1970,1,1,0,0,0)
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checkedSpicks.append(checkedSpick)
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checkedPpick = UTCDateTime(pickdic[key]['P']['mpp'])
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checkedPpicks.append(checkedPpick.timestamp)
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checkedSpick = UTCDateTime(pickdic[key]['S']['mpp'])
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checkedSpicks.append(checkedSpick.timestamp)
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checkedSPtime = pickdic[key]['S']['mpp'] - pickdic[key]['P']['mpp']
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checkedSPtimes.append(checkedSPtime)
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checkedvpvs.append(checkedPpick/checkedSpick)
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pickdic[key]['S']['marked'] = marker
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@ -466,7 +461,7 @@ def wadaticheck(pickdic, dttolerance, iplot):
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p2 = np.polyfit(checkedPpicks, checkedSPtimes, 1)
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wdfit2 = np.polyval(p2, checkedPpicks)
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# calculate average vp/vs ratio after check
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# calculate vp/vs ratio after check
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cvpvsr = p2[0] + 1
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print 'wadaticheck: Average Vp/Vs ratio after check:', cvpvsr
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@ -487,7 +482,7 @@ def wadaticheck(pickdic, dttolerance, iplot):
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f4, = plt.plot(checkedPpicks, wdfit2, 'g')
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plt.ylabel('S-P Times [s]')
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plt.xlabel('P Times [s]')
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plt.title('Wadati-Diagram, %d S-P Times, Vp/Vs(old)=%5.2f, Vp/Vs(checked)=%5.2f' \
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plt.title('Wadati-Diagram, %d S-P Times, Vp/Vs(raw)=%5.2f, Vp/Vs(checked)=%5.2f' \
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% (len(SPtimes), vpvsr, cvpvsr))
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plt.legend([f1, f2, f3, f4], ['Skipped S-Picks', 'Wadati 1', 'Reliable S-Picks', \
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'Wadati 2'], loc='best')
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