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1 function reconstructed=SMALL_midiGenerate(V, Problem)
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2 %%% Reconstraction of midi file from representation in the given dictionary
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3 %
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4 % Centre for Digital Music, Queen Mary, University of London.
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5 % This file copyright 2009 Ivan Damnjanovic.
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6 %
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7 % This program is free software; you can redistribute it and/or
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8 % modify it under the terms of the GNU General Public License as
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9 % published by the Free Software Foundation; either version 2 of the
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10 % License, or (at your option) any later version. See the file
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11 % COPYING included with this distribution for more information.
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12 %
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13 % SMALL_midiGenerate is a part of SMALLbox and can be use to reconstruct
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14 % a midi file given representation of the training set (V) in the
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15 % dictionary Problem.A.
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16 % Output is reconstructed structure with two fields:
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17 % - reconstructed.notes - matrix with transcribed notes
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18 % - reconstructed.midi - midi representation of transcription
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19
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20 %%
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21 U=Problem.A; % Dictionary used for representation
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22 fs=Problem.fs; % Sampling rate
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23 f=Problem.f; % vector of frequencies at wihch spectrogram is computed
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24
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25 ts=(Problem.windowSize*Problem.overlap)/fs; %size of an analysis frame in seconds
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26
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27 %%
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28 % Components pitch estimation using modified SWIPE algorithm by Arthuro
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29 % Camacho
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30 %
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31 % Columns of matrix U are spectrograms of the notes learned from the
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32 % training set. We are estimating pitches of these notes by also
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33 % restricting pitch values to the one of the 88 piano notes.
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34
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35 pitch=zeros(size(U,2),1);
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36
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37 for i=1:size(U,2)
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38
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39 pitch(i) = SMALL_swipe(U(:,i),fs, f, [27.50 8192], 1/12);
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40
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41 end
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42
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43 %%
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44 % If some of columns of U have the same pitch, their contribution to the
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45 % score (matrix V) is summed.
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46
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47 [Ps,idx]=sort(pitch);
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48 ndp=1;
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49 Pd(ndp)=Ps(1);
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50 Vnew(ndp,:)=V(idx(1),:);
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51 for i=2:88
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52 if Ps(i)> Ps(i-1)
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53
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54 ndp=ndp+1;
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55 Vnew(ndp,:)=V(idx(i),:);
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56 Pd(ndp)=Ps(i);
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57
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58 else
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59 Vnew(ndp,:)=Vnew(ndp,:)+V(idx(i),:);
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60 end
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61 end
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62 %%
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63 % Generate midi matrix
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64
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65 midx=0;
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66 for i=1:ndp
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67
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68 % Threshold for finding onsets and offsets of notes
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69
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70 thr=mean(Vnew(i,:));%+std(Vnew(i,:));
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71
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72 if(Pd(i)~=0)
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73 for j=1:size(Vnew,2)
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74 if Vnew(i,j)<thr
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75 Vnew(i,j)=0;
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76 if(j>1)
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77 if (Vnew(i,j-1)==1)
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78 try
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79 M(midx,6)=(j-1)*ts;
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80 if (M(midx,6)-M(midx,5))<2*ts
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81 midx=midx-1;
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82 end
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83 catch
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84 pause;
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85 end
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86 end
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87 end
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88 else
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89 Vnew(i,j)=1;
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90 if(j>1)
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91 if (Vnew(i,j-1)==0)
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92 midx=midx+1;
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93 M(midx,1)=1;
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94 M(midx,2)=1;
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95 M(midx,3)=69 +round( 12 *log2(Pd(i)/440));
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96 M(midx,4)=80;
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97 M(midx,5)=(j-1)*ts;
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98 end
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99 else
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100 midx=midx+1;
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101 M(midx,1)=1;
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102 M(midx,2)=1;
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103 M(midx,3)=69 + round(12 *log2(Pd(i)/440));
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104 M(midx,4)=80;
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105 M(midx,5)=0;
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106 end
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107 end
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108 end
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109 if M(midx,6)==0
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110 M(midx,6)=(j-1)*ts;
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111 end
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112 end
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113 end
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114
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115 M=sortrows(M,5);
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116 reconstructed.notes=M;
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117 reconstructed.midi = matrix2midi(M); |
