doc/opus_compare.m - platform/external/libopus - Gitiles

 %% Tests bit-stream compliance for the Opus codec
 %% x: Signal from the Opus reference implementation (float or fixed)
 %% y: Signal from the decoder under test
 %% stereo: 0 for mono, 1 for stereo
 function [err, NMR] = opus_compare(x, y, stereo)

 % Bands on which we compute the pseudo-NMR (Bark-derived CELT bands)
 b = 2*[0,1,2,3,4,5,6,7,8,10,12,14,16,20,24,28,34,40,48,60,78,100];
 d = diff(b);

 % Per-band SNR threshold
 T = 50-.7*[1:21];

 % Noise floor
 N = 10 .^ ((10-0.6*[1:21])/10);

 % Error signal
 e=x-y;

 %Add a +/- 1 dead zone on the error
 e = e - min(1, max(-1, e));

 % Compute spectrum of original and error
 if (stereo)
   X=(abs(specgram(x(1:2:end),480))+abs(specgram(x(2:2:end),480)))/2;
   E=(abs(specgram(e(1:2:end),480))+abs(specgram(e(2:2:end),480)))/2;
 else
   X=abs(specgram(x,480));
   E=abs(specgram(e,480));
 endif

 % Group energy per band
 for k=1:21
    Xb(k,:) = sum(X(b(k)+1:b(k+1),:).^2)/d(k)+1;
    Eb(k,:) = sum(E(b(k)+1:b(k+1),:).^2)/d(k)+1;
 end

 % Frequency masking (low to high) with 10 dB/Bark slope
 Xb = filter(1, [1, -.1], Xb);
 % Frequency masking (high to low) with 15 dB/Bark slope
 Xb(end:-1:1,:) = filter(1, [1, -.03], Xb(end:-1:1,:));

 % Temporal masking with 5 dB/5 ms slope
 Xb = filter(1, [1, -.3], Xb')';

 % NMR threshold
 T0 = ones(length(Eb), 1)*(10.^((T)/10));

 % Time-frequency SNR
 NMR = (Xb./Eb)';

 %Picking only errors in the 90th percentile
 tmp = Eb(:);
 thresh = sort(tmp)(round(.90*length(tmp)));
 weight = Eb'>thresh;

 printf("Average pseudo-NMR: %3.2f dB\n", mean(mean(10*log10(NMR))));

 if (sum(sum(weight))<1)
    printf("Mismatch level: below noise floor\n");
    err = -100;
 else
    M = (T0./NMR) .* weight;

    err = 10*log10(sum(sum(M)) / sum(sum(weight)));

    printf("Weighted mismatch: %3.2f dB\n", err);
 endif

 printf("\n");

 if (err < 0)
    printf("**Decoder PASSES test (mismatch < 0 dB)\n");
 else
    printf("**Decoder FAILS test (mismatch >= 0 dB)\n");
 endif
	%% Tests bit-stream compliance for the Opus codec
	%% x: Signal from the Opus reference implementation (float or fixed)
	%% y: Signal from the decoder under test
	%% stereo: 0 for mono, 1 for stereo
	function [err, NMR] = opus_compare(x, y, stereo)

	% Bands on which we compute the pseudo-NMR (Bark-derived CELT bands)
	b = 2*[0,1,2,3,4,5,6,7,8,10,12,14,16,20,24,28,34,40,48,60,78,100];
	d = diff(b);

	% Per-band SNR threshold
	T = 50-.7*[1:21];

	% Noise floor
	N = 10 .^ ((10-0.6*[1:21])/10);

	% Error signal
	e=x-y;

	%Add a +/- 1 dead zone on the error
	e = e - min(1, max(-1, e));

	% Compute spectrum of original and error
	if (stereo)
	X=(abs(specgram(x(1:2:end),480))+abs(specgram(x(2:2:end),480)))/2;
	E=(abs(specgram(e(1:2:end),480))+abs(specgram(e(2:2:end),480)))/2;
	else
	X=abs(specgram(x,480));
	E=abs(specgram(e,480));
	endif

	% Group energy per band
	for k=1:21
	Xb(k,:) = sum(X(b(k)+1:b(k+1),:).^2)/d(k)+1;
	Eb(k,:) = sum(E(b(k)+1:b(k+1),:).^2)/d(k)+1;
	end

	% Frequency masking (low to high) with 10 dB/Bark slope
	Xb = filter(1, [1, -.1], Xb);
	% Frequency masking (high to low) with 15 dB/Bark slope
	Xb(end:-1:1,:) = filter(1, [1, -.03], Xb(end:-1:1,:));

	% Temporal masking with 5 dB/5 ms slope
	Xb = filter(1, [1, -.3], Xb')';

	% NMR threshold
	T0 = ones(length(Eb), 1)*(10.^((T)/10));

	% Time-frequency SNR
	NMR = (Xb./Eb)';

	%Picking only errors in the 90th percentile
	tmp = Eb(:);
	thresh = sort(tmp)(round(.90*length(tmp)));
	weight = Eb'>thresh;

	printf("Average pseudo-NMR: %3.2f dB\n", mean(mean(10*log10(NMR))));

	if (sum(sum(weight))<1)
	printf("Mismatch level: below noise floor\n");
	err = -100;
	else
	M = (T0./NMR) .* weight;

	err = 10*log10(sum(sum(M)) / sum(sum(weight)));

	printf("Weighted mismatch: %3.2f dB\n", err);
	endif

	printf("\n");

	if (err < 0)
	printf("**Decoder PASSES test (mismatch < 0 dB)\n");
	else
	printf("**Decoder FAILS test (mismatch >= 0 dB)\n");
	endif