Mercurial > hg > nimfks
comparison src/matlab/rot_kernel.m @ 0:c52bc3e8d3ad tip
user: boblsturm
branch 'default'
added README.md
added assets/.DS_Store
added assets/playButton.jpg
added assets/stopButton.png
added assets/swapButton.jpg
added data/.DS_Store
added data/fiveoctaves.mp3
added data/glock2.wav
added data/sinScale.mp3
added data/speech_female.mp3
added data/sweep.wav
added nimfks.m.lnk
added src/.DS_Store
added src/matlab/.DS_Store
added src/matlab/AnalysisCache.m
added src/matlab/CSS.m
added src/matlab/DataHash.m
added src/matlab/ExistsInCache.m
added src/matlab/KLDivCost.m
added src/matlab/LoadFromCache.m
added src/matlab/SA_B_NMF.m
added src/matlab/SaveInCache.m
added src/matlab/Sound.m
added src/matlab/SynthesisCache.m
added src/matlab/chromagram_E.m
added src/matlab/chromagram_IF.m
added src/matlab/chromagram_P.m
added src/matlab/chromsynth.m
added src/matlab/computeSTFTFeat.m
added src/matlab/controller.m
added src/matlab/decibelSliderReleaseCallback.m
added src/matlab/drawClickCallBack.m
added src/matlab/fft2chromamx.m
added src/matlab/hz2octs.m
added src/matlab/ifgram.m
added src/matlab/ifptrack.m
added src/matlab/istft.m
added src/matlab/nimfks.fig
added src/matlab/nimfks.m
added src/matlab/nmfFn.m
added src/matlab/nmf_beta.m
added src/matlab/nmf_divergence.m
added src/matlab/nmf_euclidean.m
added src/matlab/prune_corpus.m
added src/matlab/rot_kernel.m
added src/matlab/templateAdditionResynth.m
added src/matlab/templateDelCb.m
added src/matlab/templateScrollCb.m
| author | boblsturm |
|---|---|
| date | Sun, 18 Jun 2017 06:26:13 -0400 |
| parents | |
| children |
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| -1:000000000000 | 0:c52bc3e8d3ad |
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| 1 function [Y] = rot_kernel(kernel, deg) | |
| 2 | |
| 3 N = size( kernel, 1 ); | |
| 4 max_rots = 4*(N-1); | |
| 5 deg_per_rot = 360 / max_rots; | |
| 6 | |
| 7 % deg = deg - mod( deg, deg_per_rot ); | |
| 8 deg = deg_per_rot * ( round( deg / deg_per_rot ) ); | |
| 9 num_of_rots = ceil( deg / deg_per_rot ); | |
| 10 | |
| 11 if num_of_rots < 1 | |
| 12 Y = kernel; | |
| 13 return | |
| 14 else | |
| 15 for r = 1:num_of_rots | |
| 16 if mod( r, 2 ) == 0 | |
| 17 kernel = rot_outer_layer( kernel ); | |
| 18 else | |
| 19 kernel = rot_inner_layer( kernel ); | |
| 20 end | |
| 21 end | |
| 22 end | |
| 23 | |
| 24 Y = kernel; | |
| 25 | |
| 26 end | |
| 27 | |
| 28 function [Y] = rot_outer_layer( A ) | |
| 29 dim = size( A, 1 ); | |
| 30 top = A( 1, : ); | |
| 31 right = A( 2:dim, dim )'; | |
| 32 bottom = fliplr( A( dim, 1:dim - 1 ) ); | |
| 33 left = fliplr( A( 2:dim - 1, 1 )' ); | |
| 34 shifted_layers = wshift('1D',[top,right,bottom,left],-1); | |
| 35 | |
| 36 top = shifted_layers( 1:length(top)); | |
| 37 last_ind = length( top ); | |
| 38 | |
| 39 right = shifted_layers( last_ind + 1 : last_ind + length(right)); | |
| 40 last_ind = last_ind + length( right ); | |
| 41 | |
| 42 bottom = shifted_layers( last_ind + 1 : last_ind + length(bottom)); | |
| 43 last_ind = last_ind + length( bottom ); | |
| 44 | |
| 45 left = shifted_layers( last_ind + 1 : end ); | |
| 46 | |
| 47 A( 1, : ) = top; | |
| 48 A( 2:dim, dim ) = right'; | |
| 49 A( dim, 1:dim - 1 ) = fliplr( bottom ); | |
| 50 A( 2:dim - 1, 1 ) = fliplr( left' ); | |
| 51 | |
| 52 Y = A; | |
| 53 end | |
| 54 | |
| 55 function [Y] = rot_inner_layer( kernel ) | |
| 56 % dim = size( kernel, 1 ); | |
| 57 % if dim < 2 | |
| 58 % Y = rot_outer_layer( kernel ) | |
| 59 % return; | |
| 60 % else | |
| 61 % Y = rot_inner_layer( kernel( 2:dim - 1, 2:dim - 1 ) ) | |
| 62 % end | |
| 63 dim = size( kernel, 1 ); | |
| 64 | |
| 65 if mod( dim / 2, 2 ) == 0 | |
| 66 max_rots = dim / 2 - 1; | |
| 67 else | |
| 68 max_rots = dim / 2 - 0.5; | |
| 69 end | |
| 70 | |
| 71 low = 2; | |
| 72 high = dim - 1; | |
| 73 for i = 1:max_rots | |
| 74 kernel( low:high, low:high ) = rot_outer_layer( kernel( low:high, low:high ) ); | |
| 75 low = low + 1; | |
| 76 high = high - 1; | |
| 77 end | |
| 78 | |
| 79 Y = kernel; | |
| 80 end |