staging: echo: Fixed camel-case variable names
Fixed camel-case variable names in echo.c and echo.h. Signed-off-by: Lisa Nguyen <lisa@xenapiadmin.com> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
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@ -267,13 +267,13 @@ struct oslec_state *oslec_create(int len, int adaption_mode)
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goto error_snap;
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ec->cond_met = 0;
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ec->Pstates = 0;
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ec->Ltxacc = ec->Lrxacc = ec->Lcleanacc = ec->Lclean_bgacc = 0;
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ec->Ltx = ec->Lrx = ec->Lclean = ec->Lclean_bg = 0;
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ec->pstates = 0;
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ec->ltxacc = ec->lrxacc = ec->lcleanacc = ec->lclean_bgacc = 0;
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ec->ltx = ec->lrx = ec->lclean = ec->lclean_bg = 0;
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ec->tx_1 = ec->tx_2 = ec->rx_1 = ec->rx_2 = 0;
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ec->Lbgn = ec->Lbgn_acc = 0;
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ec->Lbgn_upper = 200;
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ec->Lbgn_upper_acc = ec->Lbgn_upper << 13;
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ec->lbgn = ec->lbgn_acc = 0;
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ec->lbgn_upper = 200;
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ec->lbgn_upper_acc = ec->lbgn_upper << 13;
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return ec;
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@ -314,13 +314,13 @@ void oslec_flush(struct oslec_state *ec)
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{
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int i;
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ec->Ltxacc = ec->Lrxacc = ec->Lcleanacc = ec->Lclean_bgacc = 0;
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ec->Ltx = ec->Lrx = ec->Lclean = ec->Lclean_bg = 0;
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ec->ltxacc = ec->lrxacc = ec->lcleanacc = ec->lclean_bgacc = 0;
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ec->ltx = ec->lrx = ec->lclean = ec->lclean_bg = 0;
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ec->tx_1 = ec->tx_2 = ec->rx_1 = ec->rx_2 = 0;
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ec->Lbgn = ec->Lbgn_acc = 0;
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ec->Lbgn_upper = 200;
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ec->Lbgn_upper_acc = ec->Lbgn_upper << 13;
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ec->lbgn = ec->lbgn_acc = 0;
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ec->lbgn_upper = 200;
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ec->lbgn_upper_acc = ec->lbgn_upper << 13;
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ec->nonupdate_dwell = 0;
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@ -332,7 +332,7 @@ void oslec_flush(struct oslec_state *ec)
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memset(ec->fir_taps16[i], 0, ec->taps * sizeof(int16_t));
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ec->curr_pos = ec->taps - 1;
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ec->Pstates = 0;
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ec->pstates = 0;
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}
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EXPORT_SYMBOL_GPL(oslec_flush);
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@ -418,33 +418,33 @@ int16_t oslec_update(struct oslec_state *ec, int16_t tx, int16_t rx)
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new = (int)tx * (int)tx;
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old = (int)ec->fir_state.history[ec->fir_state.curr_pos] *
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(int)ec->fir_state.history[ec->fir_state.curr_pos];
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ec->Pstates +=
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ec->pstates +=
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((new - old) + (1 << (ec->log2taps - 1))) >> ec->log2taps;
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if (ec->Pstates < 0)
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ec->Pstates = 0;
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if (ec->pstates < 0)
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ec->pstates = 0;
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}
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/* Calculate short term average levels using simple single pole IIRs */
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ec->Ltxacc += abs(tx) - ec->Ltx;
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ec->Ltx = (ec->Ltxacc + (1 << 4)) >> 5;
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ec->Lrxacc += abs(rx) - ec->Lrx;
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ec->Lrx = (ec->Lrxacc + (1 << 4)) >> 5;
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ec->ltxacc += abs(tx) - ec->ltx;
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ec->ltx = (ec->ltxacc + (1 << 4)) >> 5;
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ec->lrxacc += abs(rx) - ec->lrx;
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ec->lrx = (ec->lrxacc + (1 << 4)) >> 5;
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/* Foreground filter */
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ec->fir_state.coeffs = ec->fir_taps16[0];
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echo_value = fir16(&ec->fir_state, tx);
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ec->clean = rx - echo_value;
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ec->Lcleanacc += abs(ec->clean) - ec->Lclean;
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ec->Lclean = (ec->Lcleanacc + (1 << 4)) >> 5;
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ec->lcleanacc += abs(ec->clean) - ec->lclean;
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ec->lclean = (ec->lcleanacc + (1 << 4)) >> 5;
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/* Background filter */
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echo_value = fir16(&ec->fir_state_bg, tx);
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clean_bg = rx - echo_value;
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ec->Lclean_bgacc += abs(clean_bg) - ec->Lclean_bg;
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ec->Lclean_bg = (ec->Lclean_bgacc + (1 << 4)) >> 5;
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ec->lclean_bgacc += abs(clean_bg) - ec->lclean_bg;
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ec->lclean_bg = (ec->lclean_bgacc + (1 << 4)) >> 5;
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/* Background Filter adaption */
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@ -455,7 +455,7 @@ int16_t oslec_update(struct oslec_state *ec, int16_t tx, int16_t rx)
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ec->factor = 0;
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ec->shift = 0;
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if ((ec->nonupdate_dwell == 0)) {
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int P, logP, shift;
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int p, logp, shift;
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/* Determine:
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@ -490,9 +490,9 @@ int16_t oslec_update(struct oslec_state *ec, int16_t tx, int16_t rx)
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for a divide versus a top_bit() implementation.
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*/
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P = MIN_TX_POWER_FOR_ADAPTION + ec->Pstates;
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logP = top_bit(P) + ec->log2taps;
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shift = 30 - 2 - logP;
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p = MIN_TX_POWER_FOR_ADAPTION + ec->pstates;
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logp = top_bit(p) + ec->log2taps;
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shift = 30 - 2 - logp;
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ec->shift = shift;
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lms_adapt_bg(ec, clean_bg, shift);
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@ -502,7 +502,7 @@ int16_t oslec_update(struct oslec_state *ec, int16_t tx, int16_t rx)
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near end speech */
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ec->adapt = 0;
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if ((ec->Lrx > MIN_RX_POWER_FOR_ADAPTION) && (ec->Lrx > ec->Ltx))
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if ((ec->lrx > MIN_RX_POWER_FOR_ADAPTION) && (ec->lrx > ec->ltx))
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ec->nonupdate_dwell = DTD_HANGOVER;
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if (ec->nonupdate_dwell)
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ec->nonupdate_dwell--;
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@ -515,9 +515,9 @@ int16_t oslec_update(struct oslec_state *ec, int16_t tx, int16_t rx)
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if ((ec->adaption_mode & ECHO_CAN_USE_ADAPTION) &&
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(ec->nonupdate_dwell == 0) &&
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/* (ec->Lclean_bg < 0.875*ec->Lclean) */
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(8 * ec->Lclean_bg < 7 * ec->Lclean) &&
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(8 * ec->lclean_bg < 7 * ec->lclean) &&
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/* (ec->Lclean_bg < 0.125*ec->Ltx) */
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(8 * ec->Lclean_bg < ec->Ltx)) {
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(8 * ec->lclean_bg < ec->ltx)) {
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if (ec->cond_met == 6) {
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/*
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* BG filter has had better results for 6 consecutive
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@ -541,14 +541,14 @@ int16_t oslec_update(struct oslec_state *ec, int16_t tx, int16_t rx)
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* non-linearity in the channel.".
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*/
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if ((16 * ec->Lclean < ec->Ltx)) {
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if ((16 * ec->lclean < ec->ltx)) {
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/*
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* Our e/c has improved echo by at least 24 dB (each
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* factor of 2 is 6dB, so 2*2*2*2=16 is the same as
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* 6+6+6+6=24dB)
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*/
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if (ec->adaption_mode & ECHO_CAN_USE_CNG) {
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ec->cng_level = ec->Lbgn;
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ec->cng_level = ec->lbgn;
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/*
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* Very elementary comfort noise generation.
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@ -571,10 +571,10 @@ int16_t oslec_update(struct oslec_state *ec, int16_t tx, int16_t rx)
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} else if (ec->adaption_mode & ECHO_CAN_USE_CLIP) {
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/* This sounds much better than CNG */
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if (ec->clean_nlp > ec->Lbgn)
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ec->clean_nlp = ec->Lbgn;
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if (ec->clean_nlp < -ec->Lbgn)
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ec->clean_nlp = -ec->Lbgn;
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if (ec->clean_nlp > ec->lbgn)
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ec->clean_nlp = ec->lbgn;
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if (ec->clean_nlp < -ec->lbgn)
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ec->clean_nlp = -ec->lbgn;
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} else {
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/*
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* just mute the residual, doesn't sound very
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@ -593,9 +593,9 @@ int16_t oslec_update(struct oslec_state *ec, int16_t tx, int16_t rx)
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* level signals like near end speech. When combined
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* with CNG or especially CLIP seems to work OK.
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*/
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if (ec->Lclean < 40) {
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ec->Lbgn_acc += abs(ec->clean) - ec->Lbgn;
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ec->Lbgn = (ec->Lbgn_acc + (1 << 11)) >> 12;
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if (ec->lclean < 40) {
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ec->lbgn_acc += abs(ec->clean) - ec->lbgn;
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ec->lbgn = (ec->lbgn_acc + (1 << 11)) >> 12;
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}
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}
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}
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@ -139,24 +139,24 @@ struct oslec_state {
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int adaption_mode;
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int cond_met;
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int32_t Pstates;
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int32_t pstates;
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int16_t adapt;
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int32_t factor;
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int16_t shift;
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/* Average levels and averaging filter states */
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int Ltxacc;
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int Lrxacc;
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int Lcleanacc;
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int Lclean_bgacc;
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int Ltx;
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int Lrx;
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int Lclean;
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int Lclean_bg;
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int Lbgn;
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int Lbgn_acc;
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int Lbgn_upper;
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int Lbgn_upper_acc;
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int ltxacc;
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int lrxacc;
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int lcleanacc;
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int lclean_bgacc;
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int ltx;
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int lrx;
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int lclean;
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int lclean_bg;
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int lbgn;
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int lbgn_acc;
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int lbgn_upper;
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int lbgn_upper_acc;
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/* foreground and background filter states */
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struct fir16_state_t fir_state;
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