Mercurial > hg > smallbox
view util/matlab_midi/matrix2midi.m @ 119:5356a6e13a25 sup_163_ssim_IMG_T_dependeny
New version of ssim index - IMP toolbox dependencies removed
author | Ivan Damnjanovic lnx <ivan.damnjanovic@eecs.qmul.ac.uk> |
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date | Tue, 24 May 2011 16:16:36 +0100 |
parents | a30e8bd6d948 |
children |
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function midi=matrix2midi(M,ticks_per_quarter_note,timesig) % midi=matrix2midi(M,ticks_per_quarter_note) % % generates a midi matlab structure from a matrix % specifying a list of notes. The structure output % can then be used by writemidi.m % % M: input matrix: % 1 2 3 4 5 6 % [track chan nn vel t1 t2] (any more cols ignored...) % % optional arguments: % - ticks_per_quarter_note: integer (default 300) % - timesig: a vector of len 4 (default [4,2,24,8]) % % Copyright (c) 2009 Ken Schutte % more info at: http://www.kenschutte.com/midi % TODO options: % - note-off vs vel=0 % - tempo, ticks, etc if nargin < 2 ticks_per_quarter_note = 300; end if nargin < 3 timesig = [4,2,24,8]; end tracks = unique(M(:,1)); Ntracks = length(tracks); % start building 'midi' struct if (Ntracks==1) midi.format = 0; else midi.format = 1; end midi.ticks_per_quarter_note = ticks_per_quarter_note; tempo = 500000; % could be set by user, etc... % (microsec per quarter note) for i=1:Ntracks trM = M(i==M(:,1),:); note_events_onoff = []; note_events_n = []; note_events_ticktime = []; % gather all the notes: for j=1:size(trM,1) % note on event: note_events_onoff(end+1) = 1; note_events_n(end+1) = j; note_events_ticktime(end+1) = 1e6 * trM(j,5) * ticks_per_quarter_note / tempo; % note off event: note_events_onoff(end+1) = 0; note_events_n(end+1) = j; note_events_ticktime(end+1) = 1e6 * trM(j,6) * ticks_per_quarter_note / tempo; end msgCtr = 1; % set tempo... midi.track(i).messages(msgCtr).deltatime = 0; midi.track(i).messages(msgCtr).type = 81; midi.track(i).messages(msgCtr).midimeta = 0; midi.track(i).messages(msgCtr).data = encode_int(tempo,3); midi.track(i).messages(msgCtr).chan = []; msgCtr = msgCtr + 1; % set time sig... midi.track(i).messages(msgCtr).deltatime = 0; midi.track(i).messages(msgCtr).type = 88; midi.track(i).messages(msgCtr).midimeta = 0; midi.track(i).messages(msgCtr).data = timesig(:); midi.track(i).messages(msgCtr).chan = []; msgCtr = msgCtr + 1; [junk,ord] = sort(note_events_ticktime); prevtick = 0; for j=1:length(ord) n = note_events_n(ord(j)); cumticks = note_events_ticktime(ord(j)); midi.track(i).messages(msgCtr).deltatime = cumticks - prevtick; midi.track(i).messages(msgCtr).midimeta = 1; midi.track(i).messages(msgCtr).chan = trM(n,2); midi.track(i).messages(msgCtr).used_running_mode = 0; if (note_events_onoff(ord(j))==1) % note on: midi.track(i).messages(msgCtr).type = 144; midi.track(i).messages(msgCtr).data = [trM(n,3); trM(n,4)]; else %-- note off msg: %midi.track(i).messages(msgCtr).type = 128; %midi.track(i).messages(msgCtr).data = [trM(n,3); trM(n,4)]; %-- note on vel=0: midi.track(i).messages(msgCtr).type = 144; midi.track(i).messages(msgCtr).data = [trM(n,3); 0]; end msgCtr = msgCtr + 1; prevtick = cumticks; end % end of track: midi.track(i).messages(msgCtr).deltatime = 0; midi.track(i).messages(msgCtr).type = 47; midi.track(i).messages(msgCtr).midimeta = 0; midi.track(i).messages(msgCtr).data = []; midi.track(i).messages(msgCtr).chan = []; msgCtr = msgCtr + 1; end % return a _column_ vector % (copied from writemidi.m) function A=encode_int(val,Nbytes) A = zeros(Nbytes,1); %ensure col vector (diff from writemidi.m...) for i=1:Nbytes A(i) = bitand(bitshift(val, -8*(Nbytes-i)), 255); end