I may be missing something but
signal = sum(arrayfun(fSquare, square_multiples));
seems to do it
Can I write this in a more compact way?
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Hi!
Is there a way to write to following statements (the for loop) in a more compact way?
The function
signalSources.generateSineWave
returns a
(ts*fs)x1 double
array. I tried using arrayfun(), but this returns a cell array.
signal = 0;
square_multiples = 1:2:9;
fSquare = @(x)1/x*signalSources.generateSineWave(pitch*x,ts,fs,pi);
for n = square_multiples
signal = signal + fSquare(n);
end
Thank you very much
Timo
7 Kommentare
Guillaume
am 16 Dez. 2018
For the record, the way to do it with arrayfun would be:
signal = sum(cell2mat(arrayfun(fsquare, square_multiples.', 'UniformOutput', false)), 1);
since fsquare returns a vector, you're forced to store the outputs into a cell array. The cell array is then converted into a 2D matrix (for that the input array to arrayfun must be a column vector, hence the .'), then the matrix is summed across the rows. Note that the conversion from cell array to matrix involves data copy that you don't have with the explicit loop, so it's likely that cellfun is going to be slower.
Bruno is correct, the proper way to speed up the code is to change the original function so that it creates that 2D matrix directly, without going through a cell array.
Akzeptierte Antwort
Bruno Luong
am 16 Dez. 2018
Bearbeitet: Bruno Luong
am 16 Dez. 2018
Cellfun/arrayfun is just disguished for-loop. They are more compact in syntax, less flexible and often slower.
Then the proper way is to vectorize your function as well wrt pitchHz, that returns a 2d array of signal, with the second dimension corresponds to pitchHz then just sum it.
%% Signal parameters
pitch = 440; % Tone pitch
fs = 44100; % Samplerate in Hz
ts = 2; % Duration in seconds
phi = 0; % phase offset
square_multiples = 1:2:9;
harmonic_signal = signalSources.generateSineWave(pitch*square_multiples,ts,fs,pi) ./ square_multiples;
signal = sum( harmonic_signal, 2);
function sine = generateSineWave(pitchHz,tSeconds,fs,phi)
%generateSineWave returns sinusoidal curve with given parameters
% pitchHz frequency in hertz
% tSeconds duration in seconds
% fs sampling rate in hertz
% phi phase offset
l = tSeconds*fs; % length
n = 0:l-1; % normalized time
w = (2*pi/fs)*pitchHz(:); % reshape in column
sine = sin((w.*n)+phi)'; % auto-expansion, use bsxfun for R2016a or prior
end
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