1 | from aubio.task.task import task |
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2 | from aubio.task.utils import * |
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3 | from aubio.aubioclass import * |
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4 | |
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5 | class taskonset(task): |
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6 | def __init__(self,input,output=None,params=None): |
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7 | """ open the input file and initialize arguments |
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8 | parameters should be set *before* calling this method. |
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9 | """ |
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10 | task.__init__(self,input,params=params) |
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11 | self.opick = onsetpick(self.params.bufsize, |
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12 | self.params.hopsize, |
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13 | self.channels, |
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14 | self.myvec, |
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15 | self.params.threshold, |
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16 | mode=get_onset_mode(self.params.onsetmode), |
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17 | dcthreshold=self.params.dcthreshold, |
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18 | derivate=self.params.derivate) |
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19 | self.olist = [] |
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20 | self.ofunc = [] |
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21 | self.maxofunc = 0 |
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22 | self.last = 0 |
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23 | if self.params.localmin: |
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24 | self.ovalist = [0., 0., 0., 0., 0.] |
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25 | |
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26 | def __call__(self): |
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27 | task.__call__(self) |
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28 | isonset,val = self.opick.do(self.myvec) |
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29 | if (aubio_silence_detection(self.myvec(),self.params.silence)): |
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30 | isonset=0 |
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31 | if self.params.storefunc: |
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32 | self.ofunc.append(val) |
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33 | if self.params.localmin: |
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34 | if val > 0: self.ovalist.append(val) |
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35 | else: self.ovalist.append(0) |
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36 | self.ovalist.pop(0) |
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37 | if (isonset == 1): |
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38 | if self.params.localmin: |
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39 | # find local minima before peak |
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40 | i=len(self.ovalist)-1 |
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41 | while self.ovalist[i-1] < self.ovalist[i] and i > 0: |
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42 | i -= 1 |
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43 | now = (self.frameread+1-i) |
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44 | else: |
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45 | now = self.frameread |
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46 | # take back delay |
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47 | if self.params.delay != 0.: now -= self.params.delay |
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48 | if now < 0 : |
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49 | now = 0 |
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50 | if self.params.mintol: |
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51 | # prune doubled |
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52 | if (now - self.last) > self.params.mintol: |
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53 | self.last = now |
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54 | return now, val |
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55 | else: |
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56 | return now, val |
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57 | |
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58 | |
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59 | def fprint(self,foo): |
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60 | print self.params.step*foo[0] |
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61 | |
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62 | def eval(self,inputdata,ftru,mode='roc',vmode=''): |
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63 | from txtfile import read_datafile |
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64 | from onsetcompare import onset_roc, onset_diffs, onset_rocloc |
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65 | ltru = read_datafile(ftru,depth=0) |
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66 | lres = [] |
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67 | for i in range(len(inputdata)): lres.append(inputdata[i][0]*self.params.step) |
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68 | if vmode=='verbose': |
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69 | print "Running with mode %s" % self.params.onsetmode, |
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70 | print " and threshold %f" % self.params.threshold, |
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71 | print " on file", self.input |
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72 | #print ltru; print lres |
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73 | if mode == 'local': |
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74 | l = onset_diffs(ltru,lres,self.params.tol) |
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75 | mean = 0 |
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76 | for i in l: mean += i |
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77 | if len(l): mean = "%.3f" % (mean/len(l)) |
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78 | else: mean = "?0" |
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79 | return l, mean |
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80 | elif mode == 'roc': |
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81 | self.orig, self.missed, self.merged, \ |
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82 | self.expc, self.bad, self.doubled = \ |
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83 | onset_roc(ltru,lres,self.params.tol) |
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84 | elif mode == 'rocloc': |
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85 | self.v = {} |
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86 | self.v['orig'], self.v['missed'], self.v['Tm'], \ |
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87 | self.v['expc'], self.v['bad'], self.v['Td'], \ |
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88 | self.v['l'], self.v['labs'] = \ |
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89 | onset_rocloc(ltru,lres,self.params.tol) |
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90 | |
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91 | def plot(self,onsets,ofunc,wplot,oplots,nplot=False): |
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92 | import Gnuplot, Gnuplot.funcutils |
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93 | import aubio.txtfile |
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94 | import os.path |
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95 | import numarray |
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96 | from aubio.onsetcompare import onset_roc |
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97 | |
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98 | x1,y1,y1p = [],[],[] |
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99 | oplot = [] |
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100 | if self.params.onsetmode in ('mkl','kl'): ofunc[0:10] = [0] * 10 |
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101 | |
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102 | self.lenofunc = len(ofunc) |
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103 | self.maxofunc = max(ofunc) |
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104 | # onset detection function |
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105 | downtime = numarray.arange(len(ofunc))*self.params.step |
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106 | oplot.append(Gnuplot.Data(downtime,ofunc,with='lines',title=self.params.onsetmode)) |
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107 | |
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108 | # detected onsets |
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109 | if not nplot: |
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110 | for i in onsets: |
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111 | x1.append(i[0]*self.params.step) |
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112 | y1.append(self.maxofunc) |
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113 | y1p.append(-self.maxofunc) |
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114 | #x1 = numarray.array(onsets)*self.params.step |
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115 | #y1 = self.maxofunc*numarray.ones(len(onsets)) |
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116 | if x1: |
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117 | oplot.append(Gnuplot.Data(x1,y1,with='impulses')) |
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118 | wplot.append(Gnuplot.Data(x1,y1p,with='impulses')) |
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119 | |
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120 | oplots.append(oplot) |
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121 | |
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122 | # check if ground truth datafile exists |
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123 | datafile = self.input.replace('.wav','.txt') |
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124 | if datafile == self.input: datafile = "" |
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125 | if not os.path.isfile(datafile): |
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126 | self.title = "" #"(no ground truth)" |
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127 | else: |
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128 | t_onsets = aubio.txtfile.read_datafile(datafile) |
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129 | x2 = numarray.array(t_onsets).resize(len(t_onsets)) |
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130 | y2 = self.maxofunc*numarray.ones(len(t_onsets)) |
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131 | wplot.append(Gnuplot.Data(x2,y2,with='impulses')) |
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132 | |
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133 | tol = 0.050 |
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134 | |
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135 | orig, missed, merged, expc, bad, doubled = \ |
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136 | onset_roc(x2,x1,tol) |
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137 | self.title = "GD %2.3f%% FP %2.3f%%" % \ |
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138 | ((100*float(orig-missed-merged)/(orig)), |
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139 | (100*float(bad+doubled)/(orig))) |
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140 | |
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141 | |
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142 | def plotplot(self,wplot,oplots,outplot=None): |
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143 | from aubio.gnuplot import gnuplot_init, audio_to_array, make_audio_plot |
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144 | import re |
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145 | # audio data |
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146 | time,data = audio_to_array(self.input) |
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147 | wplot = [make_audio_plot(time,data)] + wplot |
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148 | self.title = self.input |
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149 | # prepare the plot |
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150 | g = gnuplot_init(outplot) |
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151 | |
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152 | g('set multiplot') |
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153 | |
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154 | # hack to align left axis |
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155 | g('set lmargin 6') |
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156 | g('set tmargin 0') |
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157 | g('set format x ""') |
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158 | g('set format y ""') |
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159 | g('set noytics') |
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160 | |
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161 | for i in range(len(oplots)): |
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162 | # plot onset detection functions |
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163 | g('set size 1,%f' % (0.7/(len(oplots)))) |
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164 | g('set origin 0,%f' % (float(i)*0.7/(len(oplots)))) |
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165 | g('set xrange [0:%f]' % (self.lenofunc*self.params.step)) |
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166 | g.plot(*oplots[i]) |
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167 | |
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168 | g('set tmargin 3.0') |
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169 | g('set xlabel "time (s)" 1,0') |
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170 | g('set format x "%1.1f"') |
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171 | |
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172 | g('set title \'%s %s\'' % (re.sub('.*/','',self.input),self.title)) |
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173 | |
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174 | # plot waveform and onsets |
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175 | g('set size 1,0.3') |
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176 | g('set origin 0,0.7') |
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177 | g('set xrange [0:%f]' % max(time)) |
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178 | g('set yrange [-1:1]') |
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179 | g.ylabel('amplitude') |
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180 | g.plot(*wplot) |
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181 | |
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182 | g('unset multiplot') |
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183 | |
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184 | |
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