How to use add_data_point method in SeleniumBase

Best Python code snippet using SeleniumBase

script.py

Source:script.py

...27pna.sweep()28pna.auto_scale()29trace = pna.fetch_data(polar=True)30tr2 = pna.data_f()31data.add_data_point(f_list, list(-5.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))32data.new_block()33spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = True)34qt.msleep(0.01)35curr_source_adwin.ramp_DAC_1(-4.75)36pna.reset_averaging()37pna.sweep()38pna.auto_scale()39trace = pna.fetch_data(polar=True)40tr2 = pna.data_f()41data.add_data_point(f_list, list(-4.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))42data.new_block()43spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)44qt.msleep(0.01)45curr_source_adwin.ramp_DAC_1(-4.5)46pna.reset_averaging()47pna.sweep()48pna.auto_scale()49trace = pna.fetch_data(polar=True)50tr2 = pna.data_f()51data.add_data_point(f_list, list(-4.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))52data.new_block()53spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)54qt.msleep(0.01)55curr_source_adwin.ramp_DAC_1(-4.25)56pna.reset_averaging()57pna.sweep()58pna.auto_scale()59trace = pna.fetch_data(polar=True)60tr2 = pna.data_f()61data.add_data_point(f_list, list(-4.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))62data.new_block()63spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)64qt.msleep(0.01)65curr_source_adwin.ramp_DAC_1(-4.0)66pna.reset_averaging()67pna.sweep()68pna.auto_scale()69trace = pna.fetch_data(polar=True)70tr2 = pna.data_f()71data.add_data_point(f_list, list(-4.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))72data.new_block()73spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)74qt.msleep(0.01)75curr_source_adwin.ramp_DAC_1(-3.75)76pna.reset_averaging()77pna.sweep()78pna.auto_scale()79trace = pna.fetch_data(polar=True)80tr2 = pna.data_f()81data.add_data_point(f_list, list(-3.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))82data.new_block()83spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)84qt.msleep(0.01)85curr_source_adwin.ramp_DAC_1(-3.5)86pna.reset_averaging()87pna.sweep()88pna.auto_scale()89trace = pna.fetch_data(polar=True)90tr2 = pna.data_f()91data.add_data_point(f_list, list(-3.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))92data.new_block()93spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)94qt.msleep(0.01)95curr_source_adwin.ramp_DAC_1(-3.25)96pna.reset_averaging()97pna.sweep()98pna.auto_scale()99trace = pna.fetch_data(polar=True)100tr2 = pna.data_f()101data.add_data_point(f_list, list(-3.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))102data.new_block()103spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)104qt.msleep(0.01)105curr_source_adwin.ramp_DAC_1(-3.0)106pna.reset_averaging()107pna.sweep()108pna.auto_scale()109trace = pna.fetch_data(polar=True)110tr2 = pna.data_f()111data.add_data_point(f_list, list(-3.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))112data.new_block()113spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)114qt.msleep(0.01)115curr_source_adwin.ramp_DAC_1(-2.75)116pna.reset_averaging()117pna.sweep()118pna.auto_scale()119trace = pna.fetch_data(polar=True)120tr2 = pna.data_f()121data.add_data_point(f_list, list(-2.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))122data.new_block()123spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)124qt.msleep(0.01)125curr_source_adwin.ramp_DAC_1(-2.5)126pna.reset_averaging()127pna.sweep()128pna.auto_scale()129trace = pna.fetch_data(polar=True)130tr2 = pna.data_f()131data.add_data_point(f_list, list(-2.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))132data.new_block()133spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)134qt.msleep(0.01)135curr_source_adwin.ramp_DAC_1(-2.25)136pna.reset_averaging()137pna.sweep()138pna.auto_scale()139trace = pna.fetch_data(polar=True)140tr2 = pna.data_f()141data.add_data_point(f_list, list(-2.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))142data.new_block()143spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)144qt.msleep(0.01)145curr_source_adwin.ramp_DAC_1(-2.0)146pna.reset_averaging()147pna.sweep()148pna.auto_scale()149trace = pna.fetch_data(polar=True)150tr2 = pna.data_f()151data.add_data_point(f_list, list(-2.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))152data.new_block()153spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)154qt.msleep(0.01)155curr_source_adwin.ramp_DAC_1(-1.75)156pna.reset_averaging()157pna.sweep()158pna.auto_scale()159trace = pna.fetch_data(polar=True)160tr2 = pna.data_f()161data.add_data_point(f_list, list(-1.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))162data.new_block()163spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)164qt.msleep(0.01)165curr_source_adwin.ramp_DAC_1(-1.5)166pna.reset_averaging()167pna.sweep()168pna.auto_scale()169trace = pna.fetch_data(polar=True)170tr2 = pna.data_f()171data.add_data_point(f_list, list(-1.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))172data.new_block()173spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)174qt.msleep(0.01)175curr_source_adwin.ramp_DAC_1(-1.25)176pna.reset_averaging()177pna.sweep()178pna.auto_scale()179trace = pna.fetch_data(polar=True)180tr2 = pna.data_f()181data.add_data_point(f_list, list(-1.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))182data.new_block()183spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)184qt.msleep(0.01)185curr_source_adwin.ramp_DAC_1(-1.0)186pna.reset_averaging()187pna.sweep()188pna.auto_scale()189trace = pna.fetch_data(polar=True)190tr2 = pna.data_f()191data.add_data_point(f_list, list(-1.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))192data.new_block()193spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)194qt.msleep(0.01)195curr_source_adwin.ramp_DAC_1(-0.75)196pna.reset_averaging()197pna.sweep()198pna.auto_scale()199trace = pna.fetch_data(polar=True)200tr2 = pna.data_f()201data.add_data_point(f_list, list(-0.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))202data.new_block()203spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)204qt.msleep(0.01)205curr_source_adwin.ramp_DAC_1(-0.5)206pna.reset_averaging()207pna.sweep()208pna.auto_scale()209trace = pna.fetch_data(polar=True)210tr2 = pna.data_f()211data.add_data_point(f_list, list(-0.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))212data.new_block()213spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)214qt.msleep(0.01)215curr_source_adwin.ramp_DAC_1(-0.25)216pna.reset_averaging()217pna.sweep()218pna.auto_scale()219trace = pna.fetch_data(polar=True)220tr2 = pna.data_f()221data.add_data_point(f_list, list(-0.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))222data.new_block()223spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)224qt.msleep(0.01)225curr_source_adwin.ramp_DAC_1(0.0)226pna.reset_averaging()227pna.sweep()228pna.auto_scale()229trace = pna.fetch_data(polar=True)230tr2 = pna.data_f()231data.add_data_point(f_list, list(0.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))232data.new_block()233spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)234qt.msleep(0.01)235curr_source_adwin.ramp_DAC_1(0.25)236pna.reset_averaging()237pna.sweep()238pna.auto_scale()239trace = pna.fetch_data(polar=True)240tr2 = pna.data_f()241data.add_data_point(f_list, list(0.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))242data.new_block()243spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)244qt.msleep(0.01)245curr_source_adwin.ramp_DAC_1(0.5)246pna.reset_averaging()247pna.sweep()248pna.auto_scale()249trace = pna.fetch_data(polar=True)250tr2 = pna.data_f()251data.add_data_point(f_list, list(0.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))252data.new_block()253spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)254qt.msleep(0.01)255curr_source_adwin.ramp_DAC_1(0.75)256pna.reset_averaging()257pna.sweep()258pna.auto_scale()259trace = pna.fetch_data(polar=True)260tr2 = pna.data_f()261data.add_data_point(f_list, list(0.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))262data.new_block()263spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)264qt.msleep(0.01)265curr_source_adwin.ramp_DAC_1(1.0)266pna.reset_averaging()267pna.sweep()268pna.auto_scale()269trace = pna.fetch_data(polar=True)270tr2 = pna.data_f()271data.add_data_point(f_list, list(1.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))272data.new_block()273spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)274qt.msleep(0.01)275curr_source_adwin.ramp_DAC_1(1.25)276pna.reset_averaging()277pna.sweep()278pna.auto_scale()279trace = pna.fetch_data(polar=True)280tr2 = pna.data_f()281data.add_data_point(f_list, list(1.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))282data.new_block()283spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)284qt.msleep(0.01)285curr_source_adwin.ramp_DAC_1(1.5)286pna.reset_averaging()287pna.sweep()288pna.auto_scale()289trace = pna.fetch_data(polar=True)290tr2 = pna.data_f()291data.add_data_point(f_list, list(1.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))292data.new_block()293spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)294qt.msleep(0.01)295curr_source_adwin.ramp_DAC_1(1.75)296pna.reset_averaging()297pna.sweep()298pna.auto_scale()299trace = pna.fetch_data(polar=True)300tr2 = pna.data_f()301data.add_data_point(f_list, list(1.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))302data.new_block()303spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)304qt.msleep(0.01)305curr_source_adwin.ramp_DAC_1(2.0)306pna.reset_averaging()307pna.sweep()308pna.auto_scale()309trace = pna.fetch_data(polar=True)310tr2 = pna.data_f()311data.add_data_point(f_list, list(2.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))312data.new_block()313spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)314qt.msleep(0.01)315curr_source_adwin.ramp_DAC_1(2.25)316pna.reset_averaging()317pna.sweep()318pna.auto_scale()319trace = pna.fetch_data(polar=True)320tr2 = pna.data_f()321data.add_data_point(f_list, list(2.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))322data.new_block()323spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)324qt.msleep(0.01)325curr_source_adwin.ramp_DAC_1(2.5)326pna.reset_averaging()327pna.sweep()328pna.auto_scale()329trace = pna.fetch_data(polar=True)330tr2 = pna.data_f()331data.add_data_point(f_list, list(2.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))332data.new_block()333spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)334qt.msleep(0.01)335curr_source_adwin.ramp_DAC_1(2.75)336pna.reset_averaging()337pna.sweep()338pna.auto_scale()339trace = pna.fetch_data(polar=True)340tr2 = pna.data_f()341data.add_data_point(f_list, list(2.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))342data.new_block()343spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)344qt.msleep(0.01)345curr_source_adwin.ramp_DAC_1(3.0)346pna.reset_averaging()347pna.sweep()348pna.auto_scale()349trace = pna.fetch_data(polar=True)350tr2 = pna.data_f()351data.add_data_point(f_list, list(3.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))352data.new_block()353spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)354qt.msleep(0.01)355curr_source_adwin.ramp_DAC_1(3.25)356pna.reset_averaging()357pna.sweep()358pna.auto_scale()359trace = pna.fetch_data(polar=True)360tr2 = pna.data_f()361data.add_data_point(f_list, list(3.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))362data.new_block()363spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)364qt.msleep(0.01)365curr_source_adwin.ramp_DAC_1(3.5)366pna.reset_averaging()367pna.sweep()368pna.auto_scale()369trace = pna.fetch_data(polar=True)370tr2 = pna.data_f()371data.add_data_point(f_list, list(3.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))372data.new_block()373spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)374qt.msleep(0.01)375curr_source_adwin.ramp_DAC_1(3.75)376pna.reset_averaging()377pna.sweep()378pna.auto_scale()379trace = pna.fetch_data(polar=True)380tr2 = pna.data_f()381data.add_data_point(f_list, list(3.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))382data.new_block()383spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)384qt.msleep(0.01)385curr_source_adwin.ramp_DAC_1(4.0)386pna.reset_averaging()387pna.sweep()388pna.auto_scale()389trace = pna.fetch_data(polar=True)390tr2 = pna.data_f()391data.add_data_point(f_list, list(4.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))392data.new_block()393spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)394qt.msleep(0.01)395curr_source_adwin.ramp_DAC_1(4.25)396pna.reset_averaging()397pna.sweep()398pna.auto_scale()399trace = pna.fetch_data(polar=True)400tr2 = pna.data_f()401data.add_data_point(f_list, list(4.25*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))402data.new_block()403spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)404qt.msleep(0.01)405curr_source_adwin.ramp_DAC_1(4.5)406pna.reset_averaging()407pna.sweep()408pna.auto_scale()409trace = pna.fetch_data(polar=True)410tr2 = pna.data_f()411data.add_data_point(f_list, list(4.5*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))412data.new_block()413spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)414qt.msleep(0.01)415curr_source_adwin.ramp_DAC_1(4.75)416pna.reset_averaging()417pna.sweep()418pna.auto_scale()419trace = pna.fetch_data(polar=True)420tr2 = pna.data_f()421data.add_data_point(f_list, list(4.75*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))422data.new_block()423spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)424qt.msleep(0.01)425curr_source_adwin.ramp_DAC_1(5.0)426pna.reset_averaging()427pna.sweep()428pna.auto_scale()429trace = pna.fetch_data(polar=True)430tr2 = pna.data_f()431data.add_data_point(f_list, list(5.0*ones(len(f_list))), list(0.0*ones(len(f_list))), trace[0], tr2, np.unwrap(trace[1]))432data.new_block()433spyview_process_3D(data,4000000000.0,4400000000.0,5,-5,0.0,newoutermostblockval = False)434qt.msleep(0.01)435data.close_file()436qt.mend()437pna.set_power(-10)438var_att.set_var_att(70)439var_att.remove()440curr_source_adwin.remove()
...

test_elbo_mapdata.py

Source:test_elbo_mapdata.py

...20    # known precision of observation noise21    lam = torch.tensor([6.0, 4.0])22    data = []23    sum_data = torch.zeros(2)24    def add_data_point(x, y):25        data.append(torch.tensor([x, y]))26        sum_data.data.add_(data[-1].data)27    add_data_point(0.1, 0.21)28    add_data_point(0.16, 0.11)29    add_data_point(0.06, 0.31)30    add_data_point(-0.01, 0.07)31    add_data_point(0.23, 0.25)32    add_data_point(0.19, 0.18)33    add_data_point(0.09, 0.41)34    add_data_point(-0.04, 0.17)35    data = torch.stack(data)36    n_data = torch.tensor([float(len(data))])37    analytic_lam_n = lam0 + n_data.expand_as(lam) * lam38    analytic_log_sig_n = -0.5 * torch.log(analytic_lam_n)39    analytic_loc_n = sum_data * (lam / analytic_lam_n) +\40        loc0 * (lam0 / analytic_lam_n)41    n_steps = 700042    logger.debug("DOING ELBO TEST [bs = {}, map_type = {}]".format(batch_size, map_type))43    pyro.clear_param_store()44    def model():45        loc_latent = pyro.sample("loc_latent",46                                 dist.Normal(loc0, torch.pow(lam0, -0.5)).to_event(1))47        if map_type == "iplate":48            for i in pyro.plate("aaa", len(data), batch_size):...

test_multi_series.py

Source:test_multi_series.py

...4        self.create_presentation(theme="league")5        self.create_line_chart(6            title="Fruit Sold Last Week", data_name="Apples", unit="Count"7        )8        self.add_data_point("Sun", 33)9        self.add_data_point("Mon", 16)10        self.add_data_point("Tue", 19)11        self.add_data_point("Wed", 28)12        self.add_data_point("Thu", 20)13        self.add_data_point("Fri", 30)14        self.add_data_point("Sat", 36)15        self.add_series_to_chart(data_name="Oranges")16        self.add_data_point("Sun", 22)17        self.add_data_point("Mon", 27)18        self.add_data_point("Tue", 23)19        self.add_data_point("Wed", 21)20        self.add_data_point("Thu", 26)21        self.add_data_point("Fri", 17)22        self.add_data_point("Sat", 25)23        self.add_series_to_chart(data_name="Strawberries")24        self.add_data_point("Sun", 41)25        self.add_data_point("Mon", 32)26        self.add_data_point("Tue", 38)27        self.add_data_point("Wed", 33)28        self.add_data_point("Thu", 31)29        self.add_data_point("Fri", 42)30        self.add_data_point("Sat", 40)31        self.add_series_to_chart(data_name="Cherries")32        self.add_data_point("Sun", 28)33        self.add_data_point("Mon", 37)34        self.add_data_point("Tue", 29)35        self.add_data_point("Wed", 24)36        self.add_data_point("Thu", 34)37        self.add_data_point("Fri", 26)38        self.add_data_point("Sat", 31)39        self.add_slide("<p>Multi-Series Line Chart</p>" + self.extract_chart())...

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