Mercurial > hg > smallbox
view util/matlab_midi/midi2audio.m @ 162:88578ec2f94a danieleb
Updated grassmannian function and minor debugs
author | Daniele Barchiesi <daniele.barchiesi@eecs.qmul.ac.uk> |
---|---|
date | Wed, 31 Aug 2011 13:52:23 +0100 |
parents | a30e8bd6d948 |
children |
line wrap: on
line source
function [y,Fs]=midi2audio(input,Fs,synthtype) % y = midi2audio(input, Fs, synthtype) % y = midi2audio(input, Fs) % y = midi2audio(input) % % Convert midi structure to a digital waveform % % Inputs: % input - can be one of: % a structure: matlab midi structure (created by readmidi.m) % a string: a midi filename % other: a 'Notes' matrix (as ouput by midiInfo.m) % % synthtype - string to choose synthesis method % passed to synth function in synth.m % current choices are: 'fm', 'sine' or 'saw' % default='fm' % % Fs - sampling frequency in Hz (beware of aliasing!) % default = 44.1e3 % Copyright (c) 2009 Ken Schutte % more info at: http://www.kenschutte.com/midi if (nargin<2) Fs=44.1e3; end if (nargin<3) synthtype='fm'; end endtime = -1; if (isstruct(input)) [Notes,endtime] = midiInfo(input,0); elseif (ischar(input)) [Notes,endtime] = midiInfo(readmidi(input), 0); else Notes = input; end % t2 = 6th col if (endtime == -1) endtime = max(Notes(:,6)); end if (length(endtime)>1) endtime = max(endtime); end y = zeros(1,ceil(endtime*Fs)); for i=1:size(Notes,1) f = midi2freq(Notes(i,3)); dur = Notes(i,6) - Notes(i,5); amp = Notes(i,4)/127; yt = synth(f, dur, amp, Fs, synthtype); n1 = floor(Notes(i,5)*Fs)+1; N = length(yt); % ensure yt is [1,N]: y(n1:n1+N-1) = y(n1:n1+N-1) + reshape(yt,1,[]); end