Пример #1
0
        /* Processing of gains */
        internal static void silk_process_gains(
            SilkChannelEncoder psEnc,                   /* I/O  Encoder state                                                               */
            SilkEncoderControl psEncCtrl,               /* I/O  Encoder control                                                             */
            int condCoding                              /* I    The type of conditional coding to use                                       */
            )
        {
            SilkShapeState psShapeSt = psEnc.sShape;
            int            k;
            int            s_Q16, InvMaxSqrVal_Q16, gain, gain_squared, ResNrg, ResNrgPart, quant_offset_Q10;

            /* Gain reduction when LTP coding gain is high */
            if (psEnc.indices.signalType == SilkConstants.TYPE_VOICED)
            {
                /*s = -0.5f * silk_sigmoid( 0.25f * ( psEncCtrl.LTPredCodGain - 12.0f ) ); */
                s_Q16 = 0 - Sigmoid.silk_sigm_Q15(Inlines.silk_RSHIFT_ROUND(psEncCtrl.LTPredCodGain_Q7 - ((int)((12.0f) * ((long)1 << (7)) + 0.5)) /*Inlines.SILK_CONST(12.0f, 7)*/, 4));
                for (k = 0; k < psEnc.nb_subfr; k++)
                {
                    psEncCtrl.Gains_Q16[k] = Inlines.silk_SMLAWB(psEncCtrl.Gains_Q16[k], psEncCtrl.Gains_Q16[k], s_Q16);
                }
            }

            /* Limit the quantized signal */
            /* InvMaxSqrVal = pow( 2.0f, 0.33f * ( 21.0f - SNR_dB ) ) / subfr_length; */
            InvMaxSqrVal_Q16 = Inlines.silk_DIV32_16(Inlines.silk_log2lin(
                                                         Inlines.silk_SMULWB(((int)((21 + 16 / 0.33f) * ((long)1 << (7)) + 0.5)) /*Inlines.SILK_CONST(21 + 16 / 0.33f, 7)*/ - psEnc.SNR_dB_Q7, ((int)((0.33f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(0.33f, 16)*/)), psEnc.subfr_length);

            for (k = 0; k < psEnc.nb_subfr; k++)
            {
                /* Soft limit on ratio residual energy and squared gains */
                ResNrg     = psEncCtrl.ResNrg[k];
                ResNrgPart = Inlines.silk_SMULWW(ResNrg, InvMaxSqrVal_Q16);
                if (psEncCtrl.ResNrgQ[k] > 0)
                {
                    ResNrgPart = Inlines.silk_RSHIFT_ROUND(ResNrgPart, psEncCtrl.ResNrgQ[k]);
                }
                else
                {
                    if (ResNrgPart >= Inlines.silk_RSHIFT(int.MaxValue, -psEncCtrl.ResNrgQ[k]))
                    {
                        ResNrgPart = int.MaxValue;
                    }
                    else
                    {
                        ResNrgPart = Inlines.silk_LSHIFT(ResNrgPart, -psEncCtrl.ResNrgQ[k]);
                    }
                }
                gain         = psEncCtrl.Gains_Q16[k];
                gain_squared = Inlines.silk_ADD_SAT32(ResNrgPart, Inlines.silk_SMMUL(gain, gain));
                if (gain_squared < short.MaxValue)
                {
                    /* recalculate with higher precision */
                    gain_squared = Inlines.silk_SMLAWW(Inlines.silk_LSHIFT(ResNrgPart, 16), gain, gain);
                    Inlines.OpusAssert(gain_squared > 0);
                    gain = Inlines.silk_SQRT_APPROX(gain_squared);                 /* Q8   */
                    gain = Inlines.silk_min(gain, int.MaxValue >> 8);
                    psEncCtrl.Gains_Q16[k] = Inlines.silk_LSHIFT_SAT32(gain, 8);   /* Q16  */
                }
                else
                {
                    gain = Inlines.silk_SQRT_APPROX(gain_squared);                 /* Q0   */
                    gain = Inlines.silk_min(gain, int.MaxValue >> 16);
                    psEncCtrl.Gains_Q16[k] = Inlines.silk_LSHIFT_SAT32(gain, 16);  /* Q16  */
                }
            }

            /* Save unquantized gains and gain Index */
            Array.Copy(psEncCtrl.Gains_Q16, psEncCtrl.GainsUnq_Q16, psEnc.nb_subfr);
            psEncCtrl.lastGainIndexPrev = psShapeSt.LastGainIndex;

            /* Quantize gains */
            BoxedValueSbyte boxed_lastGainIndex = new BoxedValueSbyte(psShapeSt.LastGainIndex);

            GainQuantization.silk_gains_quant(psEnc.indices.GainsIndices, psEncCtrl.Gains_Q16,
                                              boxed_lastGainIndex, condCoding == SilkConstants.CODE_CONDITIONALLY ? 1 : 0, psEnc.nb_subfr);
            psShapeSt.LastGainIndex = boxed_lastGainIndex.Val;

            /* Set quantizer offset for voiced signals. Larger offset when LTP coding gain is low or tilt is high (ie low-pass) */
            if (psEnc.indices.signalType == SilkConstants.TYPE_VOICED)
            {
                if (psEncCtrl.LTPredCodGain_Q7 + Inlines.silk_RSHIFT(psEnc.input_tilt_Q15, 8) > ((int)((1.0f) * ((long)1 << (7)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 7)*/)
                {
                    psEnc.indices.quantOffsetType = 0;
                }
                else
                {
                    psEnc.indices.quantOffsetType = 1;
                }
            }

            /* Quantizer boundary adjustment */
            quant_offset_Q10     = Tables.silk_Quantization_Offsets_Q10[psEnc.indices.signalType >> 1][psEnc.indices.quantOffsetType];
            psEncCtrl.Lambda_Q10 = ((int)((TuningParameters.LAMBDA_OFFSET) * ((long)1 << (10)) + 0.5))/*Inlines.SILK_CONST(TuningParameters.LAMBDA_OFFSET, 10)*/
                                   + Inlines.silk_SMULBB(((int)((TuningParameters.LAMBDA_DELAYED_DECISIONS) * ((long)1 << (10)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LAMBDA_DELAYED_DECISIONS, 10)*/, psEnc.nStatesDelayedDecision)
                                   + Inlines.silk_SMULWB(((int)((TuningParameters.LAMBDA_SPEECH_ACT) * ((long)1 << (18)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LAMBDA_SPEECH_ACT, 18)*/, psEnc.speech_activity_Q8)
                                   + Inlines.silk_SMULWB(((int)((TuningParameters.LAMBDA_INPUT_QUALITY) * ((long)1 << (12)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LAMBDA_INPUT_QUALITY, 12)*/, psEncCtrl.input_quality_Q14)
                                   + Inlines.silk_SMULWB(((int)((TuningParameters.LAMBDA_CODING_QUALITY) * ((long)1 << (12)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LAMBDA_CODING_QUALITY, 12)*/, psEncCtrl.coding_quality_Q14)
                                   + Inlines.silk_SMULWB(((int)((TuningParameters.LAMBDA_QUANT_OFFSET) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LAMBDA_QUANT_OFFSET, 16)*/, quant_offset_Q10);

            Inlines.OpusAssert(psEncCtrl.Lambda_Q10 > 0);
            Inlines.OpusAssert(psEncCtrl.Lambda_Q10 < ((int)((2) * ((long)1 << (10)) + 0.5)) /*Inlines.SILK_CONST(2, 10)*/);
        }
Пример #2
0
        /**************************************************************/
        /* Compute noise shaping coefficients and initial gain values */
        /**************************************************************/
        internal static void silk_noise_shape_analysis(
            SilkChannelEncoder psEnc,                      /* I/O  Encoder state FIX                                                           */
            SilkEncoderControl psEncCtrl,                  /* I/O  Encoder control FIX                                                         */
            short[] pitch_res,                             /* I    LPC residual from pitch analysis                                            */
            int pitch_res_ptr,
            short[] x,                                     /* I    Input signal [ frame_length + la_shape ]                                    */
            int x_ptr
            )
        {
            SilkShapeState psShapeSt = psEnc.sShape;
            int            k, i, nSamples, Qnrg, b_Q14, warping_Q16, scale = 0;
            int            SNR_adj_dB_Q7, HarmBoost_Q16, HarmShapeGain_Q16, Tilt_Q16, tmp32;
            int            nrg, pre_nrg_Q30, log_energy_Q7, log_energy_prev_Q7, energy_variation_Q7;
            int            delta_Q16, BWExp1_Q16, BWExp2_Q16, gain_mult_Q16, gain_add_Q16, strength_Q16, b_Q8;

            int[]   auto_corr     = new int[SilkConstants.MAX_SHAPE_LPC_ORDER + 1];
            int[]   refl_coef_Q16 = new int[SilkConstants.MAX_SHAPE_LPC_ORDER];
            int[]   AR1_Q24       = new int[SilkConstants.MAX_SHAPE_LPC_ORDER];
            int[]   AR2_Q24       = new int[SilkConstants.MAX_SHAPE_LPC_ORDER];
            short[] x_windowed;
            int     pitch_res_ptr2;
            int     x_ptr2;

            /* Point to start of first LPC analysis block */
            x_ptr2 = x_ptr - psEnc.la_shape;

            /****************/
            /* GAIN CONTROL */
            /****************/
            SNR_adj_dB_Q7 = psEnc.SNR_dB_Q7;

            /* Input quality is the average of the quality in the lowest two VAD bands */
            psEncCtrl.input_quality_Q14 = (int)Inlines.silk_RSHIFT((int)psEnc.input_quality_bands_Q15[0]
                                                                   + psEnc.input_quality_bands_Q15[1], 2);

            /* Coding quality level, between 0.0_Q0 and 1.0_Q0, but in Q14 */
            psEncCtrl.coding_quality_Q14 = Inlines.silk_RSHIFT(Sigmoid.silk_sigm_Q15(Inlines.silk_RSHIFT_ROUND(SNR_adj_dB_Q7 -
                                                                                                               ((int)((20.0f) * ((long)1 << (7)) + 0.5)) /*Inlines.SILK_CONST(20.0f, 7)*/, 4)), 1);

            /* Reduce coding SNR during low speech activity */
            if (psEnc.useCBR == 0)
            {
                b_Q8          = ((int)((1.0f) * ((long)1 << (8)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 8)*/ - psEnc.speech_activity_Q8;
                b_Q8          = Inlines.silk_SMULWB(Inlines.silk_LSHIFT(b_Q8, 8), b_Q8);
                SNR_adj_dB_Q7 = Inlines.silk_SMLAWB(SNR_adj_dB_Q7,
                                                    Inlines.silk_SMULBB(((int)((0 - TuningParameters.BG_SNR_DECR_dB) * ((long)1 << (7)) + 0.5)) /*Inlines.SILK_CONST(0 - TuningParameters.BG_SNR_DECR_dB, 7)*/ >> (4 + 1), b_Q8), /* Q11*/
                                                    Inlines.silk_SMULWB(((int)((1.0f) * ((long)1 << (14)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 14)*/ + psEncCtrl.input_quality_Q14, psEncCtrl.coding_quality_Q14));                 /* Q12*/
            }

            if (psEnc.indices.signalType == SilkConstants.TYPE_VOICED)
            {
                /* Reduce gains for periodic signals */
                SNR_adj_dB_Q7 = Inlines.silk_SMLAWB(SNR_adj_dB_Q7, ((int)((TuningParameters.HARM_SNR_INCR_dB) * ((long)1 << (8)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.HARM_SNR_INCR_dB, 8)*/, psEnc.LTPCorr_Q15);
            }
            else
            {
                /* For unvoiced signals and low-quality input, adjust the quality slower than SNR_dB setting */
                SNR_adj_dB_Q7 = Inlines.silk_SMLAWB(SNR_adj_dB_Q7,
                                                    Inlines.silk_SMLAWB(((int)((6.0f) * ((long)1 << (9)) + 0.5)) /*Inlines.SILK_CONST(6.0f, 9)*/, -((int)((0.4f) * ((long)1 << (18)) + 0.5)) /*Inlines.SILK_CONST(0.4f, 18)*/, psEnc.SNR_dB_Q7),
                                                    ((int)((1.0f) * ((long)1 << (14)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 14)*/ - psEncCtrl.input_quality_Q14);
            }

            /*************************/
            /* SPARSENESS PROCESSING */
            /*************************/
            /* Set quantizer offset */
            if (psEnc.indices.signalType == SilkConstants.TYPE_VOICED)
            {
                /* Initially set to 0; may be overruled in process_gains(..) */
                psEnc.indices.quantOffsetType = 0;
                psEncCtrl.sparseness_Q8       = 0;
            }
            else
            {
                /* Sparseness measure, based on relative fluctuations of energy per 2 milliseconds */
                nSamples            = Inlines.silk_LSHIFT(psEnc.fs_kHz, 1);
                energy_variation_Q7 = 0;
                log_energy_prev_Q7  = 0;
                pitch_res_ptr2      = pitch_res_ptr;
                for (k = 0; k < Inlines.silk_SMULBB(SilkConstants.SUB_FRAME_LENGTH_MS, psEnc.nb_subfr) / 2; k++)
                {
                    SumSqrShift.silk_sum_sqr_shift(out nrg, out scale, pitch_res, pitch_res_ptr2, nSamples);
                    nrg += Inlines.silk_RSHIFT(nSamples, scale);           /* Q(-scale)*/

                    log_energy_Q7 = Inlines.silk_lin2log(nrg);
                    if (k > 0)
                    {
                        energy_variation_Q7 += Inlines.silk_abs(log_energy_Q7 - log_energy_prev_Q7);
                    }
                    log_energy_prev_Q7 = log_energy_Q7;
                    pitch_res_ptr2    += nSamples;
                }

                psEncCtrl.sparseness_Q8 = Inlines.silk_RSHIFT(Sigmoid.silk_sigm_Q15(Inlines.silk_SMULWB(energy_variation_Q7 -
                                                                                                        ((int)((5.0f) * ((long)1 << (7)) + 0.5)) /*Inlines.SILK_CONST(5.0f, 7)*/, ((int)((0.1f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(0.1f, 16)*/)), 7);

                /* Set quantization offset depending on sparseness measure */
                if (psEncCtrl.sparseness_Q8 > ((int)((TuningParameters.SPARSENESS_THRESHOLD_QNT_OFFSET) * ((long)1 << (8)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.SPARSENESS_THRESHOLD_QNT_OFFSET, 8)*/)
                {
                    psEnc.indices.quantOffsetType = 0;
                }
                else
                {
                    psEnc.indices.quantOffsetType = 1;
                }

                /* Increase coding SNR for sparse signals */
                SNR_adj_dB_Q7 = Inlines.silk_SMLAWB(SNR_adj_dB_Q7, ((int)((TuningParameters.SPARSE_SNR_INCR_dB) * ((long)1 << (15)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.SPARSE_SNR_INCR_dB, 15)*/, psEncCtrl.sparseness_Q8 - ((int)((0.5f) * ((long)1 << (8)) + 0.5)) /*Inlines.SILK_CONST(0.5f, 8)*/);
            }

            /*******************************/
            /* Control bandwidth expansion */
            /*******************************/
            /* More BWE for signals with high prediction gain */
            strength_Q16 = Inlines.silk_SMULWB(psEncCtrl.predGain_Q16, ((int)((TuningParameters.FIND_PITCH_WHITE_NOISE_FRACTION) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.FIND_PITCH_WHITE_NOISE_FRACTION, 16)*/);
            BWExp1_Q16   = BWExp2_Q16 = Inlines.silk_DIV32_varQ(((int)((TuningParameters.BANDWIDTH_EXPANSION) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.BANDWIDTH_EXPANSION, 16)*/,
                                                                Inlines.silk_SMLAWW(((int)((1.0f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 16)*/, strength_Q16, strength_Q16), 16);
            delta_Q16 = Inlines.silk_SMULWB(((int)((1.0f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 16)*/ - Inlines.silk_SMULBB(3, psEncCtrl.coding_quality_Q14),
                                            ((int)((TuningParameters.LOW_RATE_BANDWIDTH_EXPANSION_DELTA) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LOW_RATE_BANDWIDTH_EXPANSION_DELTA, 16)*/);
            BWExp1_Q16 = Inlines.silk_SUB32(BWExp1_Q16, delta_Q16);
            BWExp2_Q16 = Inlines.silk_ADD32(BWExp2_Q16, delta_Q16);
            /* BWExp1 will be applied after BWExp2, so make it relative */
            BWExp1_Q16 = Inlines.silk_DIV32_16(Inlines.silk_LSHIFT(BWExp1_Q16, 14), Inlines.silk_RSHIFT(BWExp2_Q16, 2));

            if (psEnc.warping_Q16 > 0)
            {
                /* Slightly more warping in analysis will move quantization noise up in frequency, where it's better masked */
                warping_Q16 = Inlines.silk_SMLAWB(psEnc.warping_Q16, (int)psEncCtrl.coding_quality_Q14, ((int)((0.01f) * ((long)1 << (18)) + 0.5)) /*Inlines.SILK_CONST(0.01f, 18)*/);
            }
            else
            {
                warping_Q16 = 0;
            }

            /********************************************/
            /* Compute noise shaping AR coefs and gains */
            /********************************************/
            x_windowed = new short[psEnc.shapeWinLength];
            for (k = 0; k < psEnc.nb_subfr; k++)
            {
                /* Apply window: sine slope followed by flat part followed by cosine slope */
                int shift, slope_part, flat_part;
                flat_part  = psEnc.fs_kHz * 3;
                slope_part = Inlines.silk_RSHIFT(psEnc.shapeWinLength - flat_part, 1);

                ApplySineWindow.silk_apply_sine_window(x_windowed, 0, x, x_ptr2, 1, slope_part);
                shift = slope_part;
                Array.Copy(x, x_ptr2 + shift, x_windowed, shift, flat_part);
                shift += flat_part;
                ApplySineWindow.silk_apply_sine_window(x_windowed, shift, x, x_ptr2 + shift, 2, slope_part);

                /* Update pointer: next LPC analysis block */
                x_ptr2 += psEnc.subfr_length;
                BoxedValueInt scale_boxed = new BoxedValueInt(scale);
                if (psEnc.warping_Q16 > 0)
                {
                    /* Calculate warped auto correlation */
                    Autocorrelation.silk_warped_autocorrelation(auto_corr, scale_boxed, x_windowed, warping_Q16, psEnc.shapeWinLength, psEnc.shapingLPCOrder);
                }
                else
                {
                    /* Calculate regular auto correlation */
                    Autocorrelation.silk_autocorr(auto_corr, scale_boxed, x_windowed, psEnc.shapeWinLength, psEnc.shapingLPCOrder + 1);
                }
                scale = scale_boxed.Val;

                /* Add white noise, as a fraction of energy */
                auto_corr[0] = Inlines.silk_ADD32(auto_corr[0], Inlines.silk_max_32(Inlines.silk_SMULWB(Inlines.silk_RSHIFT(auto_corr[0], 4),
                                                                                                        ((int)((TuningParameters.SHAPE_WHITE_NOISE_FRACTION) * ((long)1 << (20)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.SHAPE_WHITE_NOISE_FRACTION, 20)*/), 1));

                /* Calculate the reflection coefficients using schur */
                nrg = Schur.silk_schur64(refl_coef_Q16, auto_corr, psEnc.shapingLPCOrder);
                Inlines.OpusAssert(nrg >= 0);

                /* Convert reflection coefficients to prediction coefficients */
                K2A.silk_k2a_Q16(AR2_Q24, refl_coef_Q16, psEnc.shapingLPCOrder);

                Qnrg = -scale;          /* range: -12...30*/
                Inlines.OpusAssert(Qnrg >= -12);
                Inlines.OpusAssert(Qnrg <= 30);

                /* Make sure that Qnrg is an even number */
                if ((Qnrg & 1) != 0)
                {
                    Qnrg -= 1;
                    nrg >>= 1;
                }

                tmp32  = Inlines.silk_SQRT_APPROX(nrg);
                Qnrg >>= 1;             /* range: -6...15*/

                psEncCtrl.Gains_Q16[k] = Inlines.silk_LSHIFT_SAT32(tmp32, 16 - Qnrg);

                if (psEnc.warping_Q16 > 0)
                {
                    /* Adjust gain for warping */
                    gain_mult_Q16 = warped_gain(AR2_Q24, warping_Q16, psEnc.shapingLPCOrder);
                    Inlines.OpusAssert(psEncCtrl.Gains_Q16[k] >= 0);
                    if (Inlines.silk_SMULWW(Inlines.silk_RSHIFT_ROUND(psEncCtrl.Gains_Q16[k], 1), gain_mult_Q16) >= (int.MaxValue >> 1))
                    {
                        psEncCtrl.Gains_Q16[k] = int.MaxValue;
                    }
                    else
                    {
                        psEncCtrl.Gains_Q16[k] = Inlines.silk_SMULWW(psEncCtrl.Gains_Q16[k], gain_mult_Q16);
                    }
                }

                /* Bandwidth expansion for synthesis filter shaping */
                BWExpander.silk_bwexpander_32(AR2_Q24, psEnc.shapingLPCOrder, BWExp2_Q16);

                /* Compute noise shaping filter coefficients */
                Array.Copy(AR2_Q24, AR1_Q24, psEnc.shapingLPCOrder);

                /* Bandwidth expansion for analysis filter shaping */
                Inlines.OpusAssert(BWExp1_Q16 <= ((int)((1.0f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 16)*/);
                BWExpander.silk_bwexpander_32(AR1_Q24, psEnc.shapingLPCOrder, BWExp1_Q16);

                /* Ratio of prediction gains, in energy domain */
                pre_nrg_Q30 = LPCInversePredGain.silk_LPC_inverse_pred_gain_Q24(AR2_Q24, psEnc.shapingLPCOrder);
                nrg         = LPCInversePredGain.silk_LPC_inverse_pred_gain_Q24(AR1_Q24, psEnc.shapingLPCOrder);

                /*psEncCtrl.GainsPre[ k ] = 1.0f - 0.7f * ( 1.0f - pre_nrg / nrg ) = 0.3f + 0.7f * pre_nrg / nrg;*/
                pre_nrg_Q30 = Inlines.silk_LSHIFT32(Inlines.silk_SMULWB(pre_nrg_Q30, ((int)((0.7f) * ((long)1 << (15)) + 0.5)) /*Inlines.SILK_CONST(0.7f, 15)*/), 1);
                psEncCtrl.GainsPre_Q14[k] = (int)((int)((0.3f) * ((long)1 << (14)) + 0.5)) /*Inlines.SILK_CONST(0.3f, 14)*/ + Inlines.silk_DIV32_varQ(pre_nrg_Q30, nrg, 14);

                /* Convert to monic warped prediction coefficients and limit absolute values */
                limit_warped_coefs(AR2_Q24, AR1_Q24, warping_Q16, ((int)((3.999f) * ((long)1 << (24)) + 0.5)) /*Inlines.SILK_CONST(3.999f, 24)*/, psEnc.shapingLPCOrder);

                /* Convert from Q24 to Q13 and store in int16 */
                for (i = 0; i < psEnc.shapingLPCOrder; i++)
                {
                    psEncCtrl.AR1_Q13[k * SilkConstants.MAX_SHAPE_LPC_ORDER + i] = (short)Inlines.silk_SAT16(Inlines.silk_RSHIFT_ROUND(AR1_Q24[i], 11));
                    psEncCtrl.AR2_Q13[k * SilkConstants.MAX_SHAPE_LPC_ORDER + i] = (short)Inlines.silk_SAT16(Inlines.silk_RSHIFT_ROUND(AR2_Q24[i], 11));
                }
            }

            /*****************/
            /* Gain tweaking */
            /*****************/
            /* Increase gains during low speech activity and put lower limit on gains */
            gain_mult_Q16 = Inlines.silk_log2lin(-Inlines.silk_SMLAWB(-((int)((16.0f) * ((long)1 << (7)) + 0.5)) /*Inlines.SILK_CONST(16.0f, 7)*/, SNR_adj_dB_Q7, ((int)((0.16f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(0.16f, 16)*/));
            gain_add_Q16  = Inlines.silk_log2lin(Inlines.silk_SMLAWB(((int)((16.0f) * ((long)1 << (7)) + 0.5)) /*Inlines.SILK_CONST(16.0f, 7)*/, ((int)((SilkConstants.MIN_QGAIN_DB) * ((long)1 << (7)) + 0.5)) /*Inlines.SILK_CONST(SilkConstants.MIN_QGAIN_DB, 7)*/, ((int)((0.16f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(0.16f, 16)*/));
            Inlines.OpusAssert(gain_mult_Q16 > 0);
            for (k = 0; k < psEnc.nb_subfr; k++)
            {
                psEncCtrl.Gains_Q16[k] = Inlines.silk_SMULWW(psEncCtrl.Gains_Q16[k], gain_mult_Q16);
                Inlines.OpusAssert(psEncCtrl.Gains_Q16[k] >= 0);
                psEncCtrl.Gains_Q16[k] = Inlines.silk_ADD_POS_SAT32(psEncCtrl.Gains_Q16[k], gain_add_Q16);
            }

            gain_mult_Q16 = ((int)((1.0f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 16)*/ + Inlines.silk_RSHIFT_ROUND(Inlines.silk_MLA(((int)((TuningParameters.INPUT_TILT) * ((long)1 << (26)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.INPUT_TILT, 26)*/,
                                                                                                                                                    psEncCtrl.coding_quality_Q14, ((int)((TuningParameters.HIGH_RATE_INPUT_TILT) * ((long)1 << (12)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.HIGH_RATE_INPUT_TILT, 12)*/), 10);
            for (k = 0; k < psEnc.nb_subfr; k++)
            {
                psEncCtrl.GainsPre_Q14[k] = Inlines.silk_SMULWB(gain_mult_Q16, psEncCtrl.GainsPre_Q14[k]);
            }

            /************************************************/
            /* Control low-frequency shaping and noise tilt */
            /************************************************/
            /* Less low frequency shaping for noisy inputs */
            strength_Q16 = Inlines.silk_MUL(((int)((TuningParameters.LOW_FREQ_SHAPING) * ((long)1 << (4)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LOW_FREQ_SHAPING, 4)*/, Inlines.silk_SMLAWB(((int)((1.0f) * ((long)1 << (12)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 12)*/,
                                                                                                                                                                                                    ((int)((TuningParameters.LOW_QUALITY_LOW_FREQ_SHAPING_DECR) * ((long)1 << (13)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LOW_QUALITY_LOW_FREQ_SHAPING_DECR, 13)*/, psEnc.input_quality_bands_Q15[0] - ((int)((1.0f) * ((long)1 << (15)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 15)*/));
            strength_Q16 = Inlines.silk_RSHIFT(Inlines.silk_MUL(strength_Q16, psEnc.speech_activity_Q8), 8);
            if (psEnc.indices.signalType == SilkConstants.TYPE_VOICED)
            {
                /* Reduce low frequencies quantization noise for periodic signals, depending on pitch lag */
                /*f = 400; freqz([1, -0.98 + 2e-4 * f], [1, -0.97 + 7e-4 * f], 2^12, Fs); axis([0, 1000, -10, 1])*/
                int fs_kHz_inv = Inlines.silk_DIV32_16(((int)((0.2f) * ((long)1 << (14)) + 0.5)) /*Inlines.SILK_CONST(0.2f, 14)*/, psEnc.fs_kHz);
                for (k = 0; k < psEnc.nb_subfr; k++)
                {
                    b_Q14 = fs_kHz_inv + Inlines.silk_DIV32_16(((int)((3.0f) * ((long)1 << (14)) + 0.5)) /*Inlines.SILK_CONST(3.0f, 14)*/, psEncCtrl.pitchL[k]);
                    /* Pack two coefficients in one int32 */
                    psEncCtrl.LF_shp_Q14[k]  = Inlines.silk_LSHIFT(((int)((1.0f) * ((long)1 << (14)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 14)*/ - b_Q14 - Inlines.silk_SMULWB(strength_Q16, b_Q14), 16);
                    psEncCtrl.LF_shp_Q14[k] |= (b_Q14 - ((int)((1.0f) * ((long)1 << (14)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 14)*/) & 0xFFFF;                                                                                                              // opus bug: again, cast to ushort was done here where bitwise masking was intended
                }
                Inlines.OpusAssert(((int)((TuningParameters.HARM_HP_NOISE_COEF) * ((long)1 << (24)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.HARM_HP_NOISE_COEF, 24)*/ < ((int)((0.5f) * ((long)1 << (24)) + 0.5)) /*Inlines.SILK_CONST(0.5f, 24)*/); /* Guarantees that second argument to SMULWB() is within range of an short*/
                Tilt_Q16 = -((int)((TuningParameters.HP_NOISE_COEF) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.HP_NOISE_COEF, 16)*/ -
                           Inlines.silk_SMULWB(((int)((1.0f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 16)*/ - ((int)((TuningParameters.HP_NOISE_COEF) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.HP_NOISE_COEF, 16)*/,
                                               Inlines.silk_SMULWB(((int)((TuningParameters.HARM_HP_NOISE_COEF) * ((long)1 << (24)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.HARM_HP_NOISE_COEF, 24)*/, psEnc.speech_activity_Q8));
            }
            else
            {
                b_Q14 = Inlines.silk_DIV32_16(21299, psEnc.fs_kHz); /* 1.3_Q0 = 21299_Q14*/
                /* Pack two coefficients in one int32 */
                psEncCtrl.LF_shp_Q14[0] = Inlines.silk_LSHIFT(((int)((1.0f) * ((long)1 << (14)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 14)*/ - b_Q14 -
                                                              Inlines.silk_SMULWB(strength_Q16, Inlines.silk_SMULWB(((int)((0.6f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(0.6f, 16)*/, b_Q14)), 16);
                psEncCtrl.LF_shp_Q14[0] |= (b_Q14 - ((int)((1.0f) * ((long)1 << (14)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 14)*/) & 0xFFFF; // opus bug: cast to ushort is better expressed as a bitwise operator, otherwise runtime analysis might flag it as an overflow error
                for (k = 1; k < psEnc.nb_subfr; k++)
                {
                    psEncCtrl.LF_shp_Q14[k] = psEncCtrl.LF_shp_Q14[0];
                }
                Tilt_Q16 = -((int)((TuningParameters.HP_NOISE_COEF) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.HP_NOISE_COEF, 16)*/;
            }

            /****************************/
            /* HARMONIC SHAPING CONTROL */
            /****************************/
            /* Control boosting of harmonic frequencies */
            HarmBoost_Q16 = Inlines.silk_SMULWB(Inlines.silk_SMULWB(((int)((1.0f) * ((long)1 << (17)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 17)*/ - Inlines.silk_LSHIFT(psEncCtrl.coding_quality_Q14, 3),
                                                                    psEnc.LTPCorr_Q15), ((int)((TuningParameters.LOW_RATE_HARMONIC_BOOST) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LOW_RATE_HARMONIC_BOOST, 16)*/);

            /* More harmonic boost for noisy input signals */
            HarmBoost_Q16 = Inlines.silk_SMLAWB(HarmBoost_Q16,
                                                ((int)((1.0f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 16)*/ - Inlines.silk_LSHIFT(psEncCtrl.input_quality_Q14, 2), ((int)((TuningParameters.LOW_INPUT_QUALITY_HARMONIC_BOOST) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.LOW_INPUT_QUALITY_HARMONIC_BOOST, 16)*/);

            if (SilkConstants.USE_HARM_SHAPING != 0 && psEnc.indices.signalType == SilkConstants.TYPE_VOICED)
            {
                /* More harmonic noise shaping for high bitrates or noisy input */
                HarmShapeGain_Q16 = Inlines.silk_SMLAWB(((int)((TuningParameters.HARMONIC_SHAPING) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.HARMONIC_SHAPING, 16)*/,
                                                        ((int)((1.0f) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 16)*/ - Inlines.silk_SMULWB(((int)((1.0f) * ((long)1 << (18)) + 0.5)) /*Inlines.SILK_CONST(1.0f, 18)*/ - Inlines.silk_LSHIFT(psEncCtrl.coding_quality_Q14, 4),
                                                                                                                                                         psEncCtrl.input_quality_Q14), ((int)((TuningParameters.HIGH_RATE_OR_LOW_QUALITY_HARMONIC_SHAPING) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.HIGH_RATE_OR_LOW_QUALITY_HARMONIC_SHAPING, 16)*/);

                /* Less harmonic noise shaping for less periodic signals */
                HarmShapeGain_Q16 = Inlines.silk_SMULWB(Inlines.silk_LSHIFT(HarmShapeGain_Q16, 1),
                                                        Inlines.silk_SQRT_APPROX(Inlines.silk_LSHIFT(psEnc.LTPCorr_Q15, 15)));
            }
            else
            {
                HarmShapeGain_Q16 = 0;
            }

            /*************************/
            /* Smooth over subframes */
            /*************************/
            for (k = 0; k < SilkConstants.MAX_NB_SUBFR; k++)
            {
                psShapeSt.HarmBoost_smth_Q16 =
                    Inlines.silk_SMLAWB(psShapeSt.HarmBoost_smth_Q16, HarmBoost_Q16 - psShapeSt.HarmBoost_smth_Q16, ((int)((TuningParameters.SUBFR_SMTH_COEF) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.SUBFR_SMTH_COEF, 16)*/);
                psShapeSt.HarmShapeGain_smth_Q16 =
                    Inlines.silk_SMLAWB(psShapeSt.HarmShapeGain_smth_Q16, HarmShapeGain_Q16 - psShapeSt.HarmShapeGain_smth_Q16, ((int)((TuningParameters.SUBFR_SMTH_COEF) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.SUBFR_SMTH_COEF, 16)*/);
                psShapeSt.Tilt_smth_Q16 =
                    Inlines.silk_SMLAWB(psShapeSt.Tilt_smth_Q16, Tilt_Q16 - psShapeSt.Tilt_smth_Q16, ((int)((TuningParameters.SUBFR_SMTH_COEF) * ((long)1 << (16)) + 0.5)) /*Inlines.SILK_CONST(TuningParameters.SUBFR_SMTH_COEF, 16)*/);

                psEncCtrl.HarmBoost_Q14[k]     = (int)Inlines.silk_RSHIFT_ROUND(psShapeSt.HarmBoost_smth_Q16, 2);
                psEncCtrl.HarmShapeGain_Q14[k] = (int)Inlines.silk_RSHIFT_ROUND(psShapeSt.HarmShapeGain_smth_Q16, 2);
                psEncCtrl.Tilt_Q14[k]          = (int)Inlines.silk_RSHIFT_ROUND(psShapeSt.Tilt_smth_Q16, 2);
            }
        }