Lines Matching refs:SCHAR
146 SCHAR nrgRef_e[MAX_FREQ_COEFFS];
147 SCHAR nrgEst_e[MAX_FREQ_COEFFS];
148 SCHAR nrgGain_e[MAX_FREQ_COEFFS];
149 SCHAR noiseLevel_e[MAX_FREQ_COEFFS];
150 SCHAR nrgSine_e[MAX_FREQ_COEFFS];
155 SCHAR *filtBuffer_e,
157 SCHAR *NrgGain_e,
164 SCHAR frameExp,
166 SCHAR *nrgEst_e );
173 SCHAR input_e,
175 SCHAR *nrg_est_e );
177 /*static*/ void calcSubbandGain(FIXP_DBL nrgRef, SCHAR nrgRef_e, ENV_CALC_NRGS* nrgs, int c,
178 FIXP_DBL tmpNoise, SCHAR tmpNoise_e,
187 SCHAR *sumRef_e,
189 SCHAR *ptrAvgGain_e);
232 SCHAR *sineMapped) /*!< Resulting vector of sine start positions for each QMF band */
297 SCHAR* nrgGain_e = nrgs->nrgGain_e; /*!< subband gains to be modified (exponents) */
299 SCHAR* nrgEst_e = nrgs->nrgEst_e; /*!< subband energy before amplification (exponents) */
337 SCHAR nrgOrig_e = 0;
339 SCHAR nrgAmp_e = 0;
341 SCHAR nrgMod_e = 0;
343 SCHAR groupGain_e;
345 SCHAR compensation_e;
354 SCHAR tmp_e = nrgEst_e[k];
372 SCHAR tmp_e;
494 SCHAR* nrgRef_e = nrgRef_m + MAX_FREQ_COEFFS;
496 SCHAR* nrgEst_e = nrgEst_m + MAX_FREQ_COEFFS;
529 SCHAR sineMapped[MAX_FREQ_COEFFS];
530 SCHAR ov_adj_e = SCALE2EXP(sbrScaleFactor->ov_hb_scale);
531 SCHAR adj_e = 0;
532 SCHAR output_e;
533 SCHAR final_e = 0;
535 SCHAR maxGainLimit_e = (frameErrorFlag) ? MAX_GAIN_CONCEAL_EXP : MAX_GAIN_EXP;
606 SCHAR noise_e, input_e = SCALE2EXP(sbrScaleFactor->hb_scale);
673 SCHAR tmpNoise_e = (UCHAR)((LONG)(*pNoiseLevels++) & MASK_E) - NOISE_EXP_OFFSET;
680 SCHAR refNrg_e = (SCHAR)((LONG)(*pIenv) & MASK_E) - NRG_EXP_OFFSET;
694 tmpNoise_e = (SCHAR)((LONG)(*pNoiseLevels++) & MASK_E) - NOISE_EXP_OFFSET;
729 SCHAR sumRef_e, boostGain_e, maxGain_e, accu_e = 0;
744 SCHAR charTemp = CountLeadingBits(maxGain);
761 SCHAR noiseAmp_e;
781 SCHAR tmp_e = pNrgs->nrgGain_e[k] + pNrgs->nrgEst_e[k];
870 FDKmemcpy(h_sbr_cal_env->filtBuffer_e, pNrgs->nrgGain_e, noSubbands*sizeof(SCHAR));
1028 FDKmemcpy(h_sbr_cal_env->filtBuffer_e, pNrgs->nrgGain_e, noSubbands*sizeof(SCHAR));
1180 SCHAR *filtBuffer_e, /*!< exponents of bufferd gains */
1182 SCHAR *nrgGain_e, /*!< exponents of gains for current envelope */
1340 SCHAR frameExp, /*!< Common exponent for all input samples */
1342 SCHAR *nrgEst_e ) /*!< Exponent of resulting Energy */
1345 SCHAR preShift;
1346 SCHAR shift;
1461 SCHAR input_e, /*!< Common exponent for all input samples */
1463 SCHAR *nrgEst_e ) /*!< Exponent of resulting Energy */
1467 SCHAR preShift;
1468 SCHAR shift, sum_e;
1589 SCHAR nrgRef_e, /*!< Reference Energy according to envelope data (exponent) */
1593 SCHAR tmpNoise_e, /*!< Relative noise level (exponent) */
1599 SCHAR nrgEst_e = nrgs->nrgEst_e[i]; /*!< Energy in transposed signal (exponent) */
1601 SCHAR *ptrNrgGain_e = &nrgs->nrgGain_e[i]; /*!< Resulting energy gain (exponent) */
1603 SCHAR *ptrNoiseLevel_e = &nrgs->noiseLevel_e[i]; /*!< Resulting absolute noise energy (exponent) */
1605 SCHAR *ptrNrgSine_e = &nrgs->nrgSine_e[i]; /*!< Additional sine energy (exponent) */
1608 SCHAR a_e, b_e, c_e;
1696 SCHAR *ptrSumRef_e,
1698 SCHAR *ptrAvgGain_e) /*!< Resulting overall gain (exponent) */
1701 SCHAR *nrgRef_e = nrgs->nrgRef_e; /*!< Reference Energy according to envelope data (exponent) */
1703 SCHAR *nrgEst_e = nrgs->nrgEst_e; /*!< Energy in transposed signal (exponent) */
1707 SCHAR sumRef_e = -FRACT_BITS;
1708 SCHAR sumEst_e = -FRACT_BITS;
