[13c3fba] | 1 | from aubio.aubioclass import * |
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| 2 | from onset import taskonset |
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| 3 | |
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| 4 | class taskbeat(taskonset): |
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| 5 | def __init__(self,input,params=None,output=None): |
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| 6 | """ open the input file and initialize arguments |
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| 7 | parameters should be set *before* calling this method. |
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| 8 | """ |
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| 9 | taskonset.__init__(self,input,output=None,params=params) |
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| 10 | self.btwinlen = 512**2/self.params.hopsize |
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| 11 | self.btstep = self.btwinlen/4 |
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| 12 | self.btoutput = fvec(self.btstep,self.channels) |
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| 13 | self.dfframe = fvec(self.btwinlen,self.channels) |
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| 14 | self.bt = beattracking(self.btwinlen,self.channels) |
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| 15 | self.pos2 = 0 |
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[9bec8fe] | 16 | self.old = -1000 |
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[13c3fba] | 17 | |
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| 18 | def __call__(self): |
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| 19 | taskonset.__call__(self) |
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[ba11e53] | 20 | #results = taskonset.__call__(self) |
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[13c3fba] | 21 | # write to current file |
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| 22 | if self.pos2 == self.btstep - 1 : |
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| 23 | self.bt.do(self.dfframe,self.btoutput) |
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| 24 | for i in range (self.btwinlen - self.btstep): |
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| 25 | self.dfframe.set(self.dfframe.get(i+self.btstep,0),i,0) |
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| 26 | for i in range(self.btwinlen - self.btstep, self.btwinlen): |
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| 27 | self.dfframe.set(0,i,0) |
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| 28 | self.pos2 = -1; |
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| 29 | self.pos2 += 1 |
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| 30 | val = self.opick.pp.getval() |
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[ba11e53] | 31 | #if not results: val = 0 |
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| 32 | #else: val = results[1] |
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[13c3fba] | 33 | self.dfframe.set(val,self.btwinlen - self.btstep + self.pos2,0) |
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| 34 | i=0 |
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| 35 | for i in range(1,int( self.btoutput.get(0,0) ) ): |
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| 36 | if self.pos2 == self.btoutput.get(i,0) and \ |
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| 37 | aubio_silence_detection(self.myvec(), |
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| 38 | self.params.silence)!=1: |
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[9bec8fe] | 39 | now = self.frameread-0 |
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| 40 | period = (60 * self.params.samplerate) / ((now - self.old) * self.params.hopsize) |
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| 41 | self.old = now |
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[b9f5dbf] | 42 | return now,period |
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[c2f3981] | 43 | |
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[9bec8fe] | 44 | def eval(self,results,tol=0.20,tolcontext=0.25): |
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| 45 | obeats = self.gettruth() |
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| 46 | etime = [result[0] for result in results] |
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| 47 | otime = [obeat[0] for obeat in obeats] |
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| 48 | CML_tot, CML_max, CML_start, CML_end = 0,0,0,0 |
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| 49 | AML_tot, AML_max, AML_start, AML_end = 0,0,0,0 |
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| 50 | AMLd_tot, AMLd_max, AMLd_start, AMLd_end = 0,0,0,0 |
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| 51 | AMLh_tot, AMLh_max, AMLh_start, AMLh_end = 0,0,0,0 |
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| 52 | AMLo_tot, AMLo_max, AMLo_start, AMLo_end = 0,0,0,0 |
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| 53 | # results iteration |
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| 54 | j = 1 |
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| 55 | # for each annotation |
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| 56 | for i in range(2,len(otime)-2): |
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| 57 | if j+1 >= len(etime): break |
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| 58 | count = 0 |
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| 59 | # look for next matching beat |
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| 60 | while otime[i] > etime[j] - (otime[i] - otime[i+1])*tol: |
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| 61 | if count > 0: |
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| 62 | #print "spurious etime" |
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| 63 | if CML_end - CML_start > CML_max: |
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| 64 | CML_max = CML_end - CML_start |
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| 65 | CML_start, CML_end = j, j |
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| 66 | if AMLh_end - AMLh_start > AMLh_max: |
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| 67 | AMLh_max = AMLh_end - AMLh_start |
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| 68 | AMLh_start, AMLh_end = j, j |
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| 69 | if AMLd_end - AMLd_start > AMLd_max: |
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| 70 | AMLd_max = AMLd_end - AMLd_start |
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| 71 | AMLd_start, AMLd_end = j, j |
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| 72 | if AMLo_end - AMLo_start > AMLo_max: |
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| 73 | AMLo_max = AMLo_end - AMLo_start |
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| 74 | AMLo_start, AMLo_end = j, j |
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| 75 | j += 1 |
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| 76 | count += 1 |
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| 77 | if j+1 >= len(etime): break |
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| 78 | #print otime[i-1],etime[j-1]," ",otime[i],etime[j]," ",otime[i+1],etime[j+1] |
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| 79 | prevtempo = (otime[i] - otime[i-1]) |
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| 80 | nexttempo = (otime[i+1] - otime[i]) |
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[13c3fba] | 81 | |
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[9bec8fe] | 82 | current0 = (etime[j] > otime[i] - prevtempo*tol) |
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| 83 | current1 = (etime[j] < otime[i] + prevtempo*tol) |
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| 84 | |
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| 85 | # check correct tempo |
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| 86 | prev0 = (etime[j-1] > otime[i-1] - prevtempo*tolcontext) |
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| 87 | prev1 = (etime[j-1] < otime[i-1] + prevtempo*tolcontext) |
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| 88 | next0 = (etime[j+1] > otime[i+1] - nexttempo*tolcontext) |
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| 89 | next1 = (etime[j+1] < otime[i+1] + nexttempo*tolcontext) |
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| 90 | |
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| 91 | # check for off beat |
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| 92 | prevoffb0 = (etime[j-1] > otime[i-1] - prevtempo/2 - prevtempo*tolcontext) |
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| 93 | prevoffb1 = (etime[j-1] < otime[i-1] - prevtempo/2 + prevtempo*tolcontext) |
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| 94 | nextoffb0 = (etime[j+1] > otime[i+1] - nexttempo/2 - nexttempo*tolcontext) |
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| 95 | nextoffb1 = (etime[j+1] < otime[i+1] - nexttempo/2 + nexttempo*tolcontext) |
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| 96 | |
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| 97 | # check half tempo |
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| 98 | prevhalf0 = (etime[j-1] > otime[i-1] + prevtempo - prevtempo/2*tolcontext) |
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| 99 | prevhalf1 = (etime[j-1] < otime[i-1] + prevtempo + prevtempo/2*tolcontext) |
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| 100 | nexthalf0 = (etime[j+1] > otime[i+1] - nexttempo - nexttempo/2*tolcontext) |
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| 101 | nexthalf1 = (etime[j+1] < otime[i+1] - nexttempo + nexttempo/2*tolcontext) |
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| 102 | |
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| 103 | # check double tempo |
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| 104 | prevdoub0 = (etime[j-1] > otime[i-1] - prevtempo - prevtempo*2*tolcontext) |
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| 105 | prevdoub1 = (etime[j-1] < otime[i-1] - prevtempo + prevtempo*2*tolcontext) |
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| 106 | nextdoub0 = (etime[j+1] > otime[i+1] + nexttempo - nexttempo*2*tolcontext) |
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| 107 | nextdoub1 = (etime[j+1] < otime[i+1] + nexttempo + nexttempo*2*tolcontext) |
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| 108 | |
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| 109 | if current0 and current1 and prev0 and prev1 and next0 and next1: |
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| 110 | #print "YES!" |
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| 111 | CML_end = j |
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| 112 | CML_tot += 1 |
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| 113 | else: |
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| 114 | if CML_end - CML_start > CML_max: |
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| 115 | CML_max = CML_end - CML_start |
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| 116 | CML_start, CML_end = j, j |
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| 117 | if current0 and current1 and prevhalf0 and prevhalf1 and nexthalf0 and nexthalf1: |
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| 118 | AMLh_end = j |
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| 119 | AMLh_tot += 1 |
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| 120 | else: |
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| 121 | if AMLh_end - AMLh_start > AMLh_max: |
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| 122 | AMLh_max = AMLh_end - AMLh_start |
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| 123 | AMLh_start, AMLh_end = j, j |
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| 124 | if current0 and current1 and prevdoub0 and prevdoub1 and nextdoub0 and nextdoub1: |
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| 125 | AMLd_end = j |
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| 126 | AMLd_tot += 1 |
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| 127 | else: |
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| 128 | if AMLd_end - AMLd_start > AMLd_max: |
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| 129 | AMLd_max = AMLd_end - AMLd_start |
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| 130 | AMLd_start, AMLd_end = j, j |
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| 131 | if current0 and current1 and prevoffb0 and prevoffb1 and nextoffb0 and nextoffb1: |
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| 132 | AMLo_end = j |
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| 133 | AMLo_tot += 1 |
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| 134 | else: |
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| 135 | if AMLo_end - AMLo_start > AMLo_max: |
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| 136 | AMLo_max = AMLo_end - AMLo_start |
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| 137 | AMLo_start, AMLo_end = j, j |
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| 138 | # look for next matching beat |
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| 139 | count = 0 |
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| 140 | while otime[i] > etime[j] - (otime[i] - otime[i+1])*tolcontext: |
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| 141 | j += 1 |
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| 142 | if count > 0: |
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| 143 | #print "spurious etime" |
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| 144 | start = j |
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| 145 | count += 1 |
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| 146 | total = float(len(otime)) |
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| 147 | CML_tot /= total |
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| 148 | AMLh_tot /= total |
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| 149 | AMLd_tot /= total |
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| 150 | AMLo_tot /= total |
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| 151 | CML_cont = CML_max/total |
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| 152 | AMLh_cont = AMLh_max/total |
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| 153 | AMLd_cont = AMLd_max/total |
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| 154 | AMLo_cont = AMLo_max/total |
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| 155 | return CML_cont, CML_tot, AMLh_cont, AMLh_tot, AMLd_cont, AMLd_tot, AMLo_cont, AMLo_tot |
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| 156 | |
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| 157 | # for i in allfreq: |
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| 158 | # freq.append(float(i) / 2. / N * samplerate ) |
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| 159 | # while freq[i]>freqs[j]: |
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| 160 | # j += 1 |
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| 161 | # a0 = weight[j-1] |
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| 162 | # a1 = weight[j] |
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| 163 | # f0 = freqs[j-1] |
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| 164 | # f1 = freqs[j] |
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| 165 | # if f0!=0: |
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| 166 | # iweight.append((a1-a0)/(f1-f0)*freq[i] + (a0 - (a1 - a0)/(f1/f0 -1.))) |
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| 167 | # else: |
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| 168 | # iweight.append((a1-a0)/(f1-f0)*freq[i] + a0) |
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| 169 | # while freq[i]>freqs[j]: |
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| 170 | # j += 1 |
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| 171 | |
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[c2f3981] | 172 | def eval2(self,results,tol=0.2): |
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| 173 | truth = self.gettruth() |
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| 174 | obeats = [i[0] for i in truth] |
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| 175 | ebeats = [i[0]*self.params.step for i in results] |
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| 176 | NP = max(len(obeats), len(ebeats)) |
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| 177 | N = int(round(max(max(obeats), max(ebeats))*100.)+100) |
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| 178 | W = int(round(tol*100.*60./median([i[1] for i in truth], len(truth)/2))) |
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| 179 | ofunc = [0 for i in range(N+W)] |
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| 180 | efunc = [0 for i in range(N+W)] |
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| 181 | for i in obeats: ofunc[int(round(i*100.)+W)] = 1 |
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| 182 | for i in ebeats: efunc[int(round(i*100.)+W)] = 1 |
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| 183 | assert len(obeats) == sum(ofunc) |
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| 184 | autocor = 0; m =0 |
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| 185 | for m in range (-W, W): |
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| 186 | for i in range(W,N): |
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| 187 | autocor += ofunc[i] * efunc[i-m] |
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| 188 | autocor /= float(NP) |
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| 189 | return autocor |
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[9bec8fe] | 190 | |
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[c2f3981] | 191 | def evaluation(self,results,tol=0.2,start=5.): |
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| 192 | |
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| 193 | """ beat tracking evaluation function |
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| 194 | |
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| 195 | computes P-score of experimental results (ebeats) |
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| 196 | against ground truth annotations (obeats) """ |
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| 197 | |
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| 198 | from aubio.median import short_find as median |
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| 199 | truth = self.gettruth() |
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| 200 | ebeats = [i[0]*self.params.step for i in results] |
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| 201 | obeats = [i[0] for i in truth] |
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| 202 | |
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| 203 | # trim anything found before start |
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| 204 | while obeats[0] < start: obeats.pop(0) |
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| 205 | while ebeats[0] < start: ebeats.pop(0) |
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| 206 | # maximum number of beats found |
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| 207 | NP = max(len(obeats), len(ebeats)) |
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| 208 | # length of ofunc and efunc vector |
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| 209 | N = int(round(max(max(obeats), max(ebeats))*100.)+100) |
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| 210 | # compute W median of ground truth tempi |
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| 211 | tempi = [] |
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| 212 | for i in range(1,len(obeats)): tempi.append(obeats[i]-obeats[i-1]) |
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| 213 | W = int(round(tol*100.*median(tempi,len(tempi)/2))) |
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| 214 | # build ofunc and efunc functions, starting with W zeros |
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| 215 | ofunc = [0 for i in range(N+W)] |
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| 216 | efunc = [0 for i in range(N+W)] |
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| 217 | for i in obeats: ofunc[int(round(i*100.)+W)] = 1 |
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| 218 | for i in ebeats: efunc[int(round(i*100.)+W)] = 1 |
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| 219 | # optional: make sure we didn't miss any beats |
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| 220 | assert len(obeats) == sum(ofunc) |
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| 221 | assert len(ebeats) == sum(efunc) |
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| 222 | # compute auto correlation |
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| 223 | autocor = 0; m =0 |
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| 224 | for m in range (-W, W): |
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| 225 | for i in range(W,N): |
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| 226 | autocor += ofunc[i] * efunc[i-m] |
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| 227 | autocor /= float(NP) |
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| 228 | return autocor |
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| 229 | |
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[9bec8fe] | 230 | def gettruth(self): |
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| 231 | import os.path |
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| 232 | from aubio.txtfile import read_datafile |
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| 233 | datafile = self.input.replace('.wav','.txt') |
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| 234 | if not os.path.isfile(datafile): |
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| 235 | print "no ground truth " |
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| 236 | return False,False |
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| 237 | else: |
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| 238 | values = read_datafile(datafile,depth=0) |
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| 239 | old = -1000 |
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| 240 | for i in range(len(values)): |
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| 241 | now = values[i] |
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| 242 | period = 60 / (now - old) |
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| 243 | old = now |
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| 244 | values[i] = [now,period] |
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| 245 | return values |
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| 246 | |
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| 247 | |
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| 248 | def plot(self,oplots,results): |
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| 249 | import Gnuplot |
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| 250 | oplots.append(Gnuplot.Data(results,with='linespoints',title="auto")) |
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| 251 | |
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[14aae81] | 252 | def plotplot(self,wplot,oplots,outplot=None,extension=None,xsize=1.,ysize=1.,spectro=False): |
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[9bec8fe] | 253 | import Gnuplot |
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[14aae81] | 254 | from aubio.gnuplot import gnuplot_create, audio_to_array, make_audio_plot |
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[9bec8fe] | 255 | import re |
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| 256 | # audio data |
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| 257 | #time,data = audio_to_array(self.input) |
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| 258 | #f = make_audio_plot(time,data) |
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| 259 | |
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[14aae81] | 260 | g = gnuplot_create(outplot=outplot, extension=extension) |
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[9bec8fe] | 261 | oplots = [Gnuplot.Data(self.gettruth(),with='linespoints',title="orig")] + oplots |
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| 262 | g.plot(*oplots) |
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