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ac3enc: do not right-shift fixed-point coefficients in the final MDCT stage.
This increases the accuracy of coefficients, leading to improved quality. Rescaling of the coefficients to full 25-bit accuracy is done rather than offsetting the exponent values. This requires coefficient scaling to be done before determining the rematrixing strategy. Also, the rematrixing strategy calculation must use 64-bit math to prevent overflow due to the higher precision coefficients.
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@ -78,7 +78,7 @@ typedef struct AC3Block {
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int16_t **band_psd; ///< psd per critical band
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int16_t **mask; ///< masking curve
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uint16_t **qmant; ///< quantized mantissas
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int8_t exp_shift[AC3_MAX_CHANNELS]; ///< exponent shift values
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uint8_t coeff_shift[AC3_MAX_CHANNELS]; ///< fixed-point coefficient shift values
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uint8_t new_rematrixing_strategy; ///< send new rematrixing flags in this block
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uint8_t rematrixing_flags[4]; ///< rematrixing flags
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} AC3Block;
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@ -269,7 +269,7 @@ static void apply_mdct(AC3EncodeContext *s)
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apply_window(&s->dsp, s->windowed_samples, input_samples, s->mdct.window, AC3_WINDOW_SIZE);
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block->exp_shift[ch] = normalize_samples(s);
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block->coeff_shift[ch] = normalize_samples(s);
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mdct512(&s->mdct, block->mdct_coef[ch], s->windowed_samples);
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}
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@ -328,10 +328,10 @@ static void compute_rematrixing_strategy(AC3EncodeContext *s)
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CoefType rt = block->mdct_coef[1][i];
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CoefType md = lt + rt;
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CoefType sd = lt - rt;
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sum[0] += lt * lt;
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sum[1] += rt * rt;
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sum[2] += md * md;
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sum[3] += sd * sd;
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MAC_COEF(sum[0], lt, lt);
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MAC_COEF(sum[1], rt, rt);
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MAC_COEF(sum[2], md, md);
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MAC_COEF(sum[3], sd, sd);
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}
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/* compare sums to determine if rematrixing will be used for this band */
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@ -416,14 +416,13 @@ static void extract_exponents(AC3EncodeContext *s)
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AC3Block *block = &s->blocks[blk];
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uint8_t *exp = block->exp[ch];
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int32_t *coef = block->fixed_coef[ch];
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int exp_shift = block->exp_shift[ch];
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for (i = 0; i < AC3_MAX_COEFS; i++) {
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int e;
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int v = abs(coef[i]);
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if (v == 0)
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e = 24;
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else {
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e = 23 - av_log2(v) + exp_shift;
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e = 23 - av_log2(v);
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if (e >= 24) {
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e = 24;
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coef[i] = 0;
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@ -1139,7 +1138,7 @@ static inline int asym_quant(int c, int e, int qbits)
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* Quantize a set of mantissas for a single channel in a single block.
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*/
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static void quantize_mantissas_blk_ch(AC3EncodeContext *s, int32_t *fixed_coef,
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int8_t exp_shift, uint8_t *exp,
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uint8_t *exp,
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uint8_t *bap, uint16_t *qmant, int n)
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{
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int i;
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@ -1147,7 +1146,7 @@ static void quantize_mantissas_blk_ch(AC3EncodeContext *s, int32_t *fixed_coef,
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for (i = 0; i < n; i++) {
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int v;
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int c = fixed_coef[i];
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int e = exp[i] - exp_shift;
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int e = exp[i];
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int b = bap[i];
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switch (b) {
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case 0:
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@ -1243,7 +1242,7 @@ static void quantize_mantissas(AC3EncodeContext *s)
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s->qmant1_ptr = s->qmant2_ptr = s->qmant4_ptr = NULL;
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for (ch = 0; ch < s->channels; ch++) {
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quantize_mantissas_blk_ch(s, block->fixed_coef[ch], block->exp_shift[ch],
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quantize_mantissas_blk_ch(s, block->fixed_coef[ch],
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block->exp[ch], block->bap[ch],
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block->qmant[ch], s->nb_coefs[ch]);
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}
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@ -1507,10 +1506,10 @@ static int ac3_encode_frame(AVCodecContext *avctx, unsigned char *frame,
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apply_mdct(s);
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compute_rematrixing_strategy(s);
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scale_coefficients(s);
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compute_rematrixing_strategy(s);
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apply_rematrixing(s);
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process_exponents(s);
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@ -131,10 +131,10 @@ mdct_alloc_fail:
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/** Complex multiply */
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#define CMUL(pre, pim, are, aim, bre, bim) \
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#define CMUL(pre, pim, are, aim, bre, bim, rshift) \
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{ \
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pre = (MUL16(are, bre) - MUL16(aim, bim)) >> 15; \
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pim = (MUL16(are, bim) + MUL16(bre, aim)) >> 15; \
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pre = (MUL16(are, bre) - MUL16(aim, bim)) >> rshift; \
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pim = (MUL16(are, bim) + MUL16(bre, aim)) >> rshift; \
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}
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@ -195,7 +195,7 @@ static void fft(AC3MDCTContext *mdct, IComplex *z, int ln)
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p++;
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q++;
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for(l = nblocks; l < np2; l += nblocks) {
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CMUL(tmp_re, tmp_im, mdct->costab[l], -mdct->sintab[l], q->re, q->im);
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CMUL(tmp_re, tmp_im, mdct->costab[l], -mdct->sintab[l], q->re, q->im, 15);
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BF(p->re, p->im, q->re, q->im,
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p->re, p->im, tmp_re, tmp_im);
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p++;
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@ -234,7 +234,7 @@ static void mdct512(AC3MDCTContext *mdct, int32_t *out, int16_t *in)
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for (i = 0; i < n4; i++) {
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re = ((int)rot[ 2*i] - (int)rot[ n-1-2*i]) >> 1;
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im = -((int)rot[n2+2*i] - (int)rot[n2-1-2*i]) >> 1;
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CMUL(x[i].re, x[i].im, re, im, -mdct->xcos1[i], mdct->xsin1[i]);
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CMUL(x[i].re, x[i].im, re, im, -mdct->xcos1[i], mdct->xsin1[i], 15);
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}
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fft(mdct, x, mdct->nbits - 2);
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@ -243,7 +243,7 @@ static void mdct512(AC3MDCTContext *mdct, int32_t *out, int16_t *in)
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for (i = 0; i < n4; i++) {
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re = x[i].re;
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im = x[i].im;
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CMUL(out[n2-1-2*i], out[2*i], re, im, mdct->xsin1[i], mdct->xcos1[i]);
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CMUL(out[n2-1-2*i], out[2*i], re, im, mdct->xsin1[i], mdct->xcos1[i], 0);
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}
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}
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@ -294,10 +294,26 @@ static void lshift_tab(int16_t *tab, int n, unsigned int lshift)
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}
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/**
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* Right-shift each value in an array of int32_t by a specified amount.
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* @param src input array
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* @param len number of values in the array
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* @param shift right shift amount
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*/
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static void ac3_rshift_int32_c(int32_t *src, unsigned int len, unsigned int shift)
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{
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int i;
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if (shift > 0) {
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for (i = 0; i < len; i++)
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src[i] >>= shift;
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}
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}
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/**
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* Normalize the input samples to use the maximum available precision.
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* This assumes signed 16-bit input samples. Exponents are reduced by 9 to
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* match the 24-bit internal precision for MDCT coefficients.
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* This assumes signed 16-bit input samples.
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*
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* @return exponent shift
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*/
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@ -305,18 +321,25 @@ static int normalize_samples(AC3EncodeContext *s)
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{
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int v = 14 - log2_tab(s, s->windowed_samples, AC3_WINDOW_SIZE);
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lshift_tab(s->windowed_samples, AC3_WINDOW_SIZE, v);
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return v - 9;
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/* +6 to right-shift from 31-bit to 25-bit */
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return v + 6;
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}
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/**
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* Scale MDCT coefficients from float to fixed-point.
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* Scale MDCT coefficients to 25-bit signed fixed-point.
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*/
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static void scale_coefficients(AC3EncodeContext *s)
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{
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/* scaling/conversion is obviously not needed for the fixed-point encoder
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since the coefficients are already fixed-point. */
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return;
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int blk, ch;
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for (blk = 0; blk < AC3_MAX_BLOCKS; blk++) {
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AC3Block *block = &s->blocks[blk];
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for (ch = 0; ch < s->channels; ch++) {
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ac3_rshift_int32_c(block->mdct_coef[ch], AC3_MAX_COEFS,
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block->coeff_shift[ch]);
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}
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}
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}
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@ -36,6 +36,8 @@ typedef int16_t SampleType;
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typedef int32_t CoefType;
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typedef int64_t CoefSumType;
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#define MAC_COEF(d,a,b) MAC64(d,a,b)
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/**
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* Compex number.
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@ -36,6 +36,8 @@ typedef float SampleType;
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typedef float CoefType;
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typedef float CoefSumType;
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#define MAC_COEF(d,a,b) ((d)+=(a)*(b))
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typedef struct AC3MDCTContext {
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const float *window; ///< MDCT window function
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@ -1,2 +1,2 @@
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07bd593823ebd721b3a32ef298bdfc20 *./tests/data/acodec/ac3.rm
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b3a8f0a8809a58b2ece90744f06fff96 *./tests/data/acodec/ac3.rm
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98751 ./tests/data/acodec/ac3.rm
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@ -1,2 +1,2 @@
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d149fc272dfd21fb8908ee21d7b1651b *./tests/data/lavf/lavf.rm
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7da378131db880bcf2e58305d54418ec *./tests/data/lavf/lavf.rm
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346706 ./tests/data/lavf/lavf.rm
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@ -4,28 +4,29 @@ ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret: 0 st:-1 flags:1 ts: 1.894167
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret: 0 st: 0 flags:0 ts: 0.788000
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ret: 0 st: 0 flags:1 dts:4160806.587000 pts:4160806.587000 pos: 3883 size: 116
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ret: 0 st: 0 flags:1 dts:12581.487000 pts:12581.487000 pos: 5822 size: 916
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ret: 0 st: 0 flags:1 ts:-0.317000
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret: 0 st:-1 flags:0 ts: 2.576668
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ret: 0 st: 0 flags:1 dts:4160806.587000 pts:4160806.587000 pos: 3883 size: 116
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ret: 0 st: 0 flags:1 dts:524.800000 pts:524.800000 pos: 6155 size: 244
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ret:-1 st:-1 flags:1 ts: 1.470835
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ret: 0 st: 0 flags:0 ts: 0.365000
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ret: 0 st: 0 flags:1 dts:4160806.587000 pts:4160806.587000 pos: 3883 size: 116
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ret: 0 st: 0 flags:1 dts:12581.487000 pts:12581.487000 pos: 5822 size: 916
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ret: 0 st: 0 flags:1 ts:-0.741000
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret:-1 st:-1 flags:0 ts: 2.153336
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ret:-1 st:-1 flags:1 ts: 1.047503
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ret: 0 st:-1 flags:1 ts: 1.047503
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret: 0 st: 0 flags:0 ts:-0.058000
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret:-1 st: 0 flags:1 ts: 2.836000
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ret: 0 st: 0 flags:1 ts: 2.836000
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ret: 0 st: 0 flags:1 dts: 2.681000 pts: 2.681000 pos: 44105 size: 558
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ret:-1 st:-1 flags:0 ts: 1.730004
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ret: 0 st:-1 flags:1 ts: 0.624171
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret: 0 st: 0 flags:0 ts:-0.482000
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret: 0 st: 0 flags:1 ts: 2.413000
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ret: 0 st: 0 flags:1 dts: 2.229000 pts: 2.229000 pos: 36705 size: 556
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ret:-1 st: 0 flags:1 ts: 2.413000
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ret:-1 st:-1 flags:0 ts: 1.306672
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ret: 0 st:-1 flags:1 ts: 0.200839
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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@ -33,13 +34,12 @@ ret: 0 st: 0 flags:0 ts:-0.905000
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret:-1 st: 0 flags:1 ts: 1.989000
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ret: 0 st:-1 flags:0 ts: 0.883340
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ret: 0 st: 0 flags:1 dts:4160806.587000 pts:4160806.587000 pos: 3883 size: 116
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ret: 0 st: 0 flags:1 dts:12581.487000 pts:12581.487000 pos: 5822 size: 916
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ret: 0 st:-1 flags:1 ts:-0.222493
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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ret: 0 st: 0 flags:0 ts: 2.672000
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ret: 0 st: 0 flags:1 dts:6354.691000 pts:6354.691000 pos: 10783 size: 304
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ret:-1 st: 0 flags:0 ts: 2.672000
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ret:-1 st: 0 flags:1 ts: 1.566000
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ret: 0 st:-1 flags:0 ts: 0.460008
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ret: 0 st: 0 flags:1 dts:4160806.587000 pts:4160806.587000 pos: 3883 size: 116
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ret: 0 st: 0 flags:1 dts:12581.487000 pts:12581.487000 pos: 5822 size: 916
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ret: 0 st:-1 flags:1 ts:-0.645825
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ret: 0 st: 0 flags:1 dts: 0.000000 pts: 0.000000 pos: 271 size: 556
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