# returns St with event id and timestamp. #sequence2; load("data.mat") t=[1:size(data)(1)]'; [x,y] = find(data); S=[]; S(x)=y-1; St=[S' t]; graphics_toolkit gnuplot figure('visible','off'); colormap('hot'); tone_step = 1.0095; # The first time index: 0 # The last time index: size(data)(1) # Scaling to minutes: minutes = 20; sample_s = 0.4; last_time_index = size(data)(1) sound = zeros(44100*(minutes*60 + sample_s + 1),1); timestep = (minutes*60)/last_time_index for ind = 1:length(St) note = St(ind,1); time = St(ind,2); sample_len = floor(44100*sample_s); tone = sin((1:sample_len)./44100 .* 2 .* pi .* (440*(tone_step^note))) .* \ (1 - (1/sample_len) .* (1:sample_len)); place = floor((timestep*time * 44100)) + 1; sound_sample = sound(place:(place+sample_len-1)); mixed_sound = (sound_sample + tone'); sound(place:(place+sample_len - 1)) = mixed_sound; endfor sound = sound./max(abs(sound)); wavwrite(sound, 44100, 'sequence.wav'); side = ceil(sqrt(size(data)(2))) grid = zeros(side); nextEvent = 1; # One video frame for each 1/10 s. for t = [0:4410:length(sound)] grid = grid .* 0.9; note = St(ind,1); time = St(ind,2); # While the next event timestamp is smaller than equal to this time. while nextEvent <= last_time_index && St(nextEvent,2)*timestep <= t/44100 event = St(nextEvent,1); y = mod(event, side) + 1; x = floor(event / side) + 1; grid(x,y) = 1.0; nextEvent++; endwhile imagesc(grid, [0 1]); filename=sprintf('output/%05d.png',floor(t/4410)); print(filename, '-dpng'); endfor # soundsc(sound, 44100);