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/*
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 *  Copyright (c) by Jaroslav Kysela <[email protected]>
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 *
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 *
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 *   This program is free software; you can redistribute it and/or modify
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 *   it under the terms of the GNU General Public License as published by
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 *   the Free Software Foundation; either version 2 of the License, or
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 *   (at your option) any later version.
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 *
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 *   This program is distributed in the hope that it will be useful,
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 *   but WITHOUT ANY WARRANTY; without even the implied warranty of
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 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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 *   GNU General Public License for more details.
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 *
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 *   You should have received a copy of the GNU General Public License
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 *   along with this program; if not, write to the Free Software
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 *   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307 USA
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 *
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 */
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#include <linux/time.h>
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#include <sound/core.h>
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#include <sound/gus.h>
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#define __GUS_TABLES_ALLOC__
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#include "gus_tables.h"
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EXPORT_SYMBOL(snd_gf1_atten_table); /* for snd-gus-synth module */
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unsigned short snd_gf1_lvol_to_gvol_raw(unsigned int vol)
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{
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	unsigned short e, m, tmp;
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	if (vol > 65535)
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		vol = 65535;
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	tmp = vol;
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	e = 7;
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	if (tmp < 128) {
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		while (e > 0 && tmp < (1 << e))
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			e--;
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	} else {
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		while (tmp > 255) {
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			tmp >>= 1;
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			e++;
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		}
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	}
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	m = vol - (1 << e);
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	if (m > 0) {
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		if (e > 8)
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			m >>= e - 8;
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		else if (e < 8)
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			m <<= 8 - e;
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		m &= 255;
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	}
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	return (e << 8) | m;
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}
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#if 0
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unsigned int snd_gf1_gvol_to_lvol_raw(unsigned short gf1_vol)
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{
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	unsigned int rvol;
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	unsigned short e, m;
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	if (!gf1_vol)
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		return 0;
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	e = gf1_vol >> 8;
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	m = (unsigned char) gf1_vol;
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	rvol = 1 << e;
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	if (e > 8)
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		return rvol | (m << (e - 8));
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	return rvol | (m >> (8 - e));
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}
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unsigned int snd_gf1_calc_ramp_rate(struct snd_gus_card * gus,
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				    unsigned short start,
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				    unsigned short end,
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				    unsigned int us)
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{
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	static unsigned char vol_rates[19] =
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	{
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		23, 24, 26, 28, 29, 31, 32, 34,
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		36, 37, 39, 40, 42, 44, 45, 47,
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		49, 50, 52
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	};
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	unsigned short range, increment, value, i;
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	start >>= 4;
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	end >>= 4;
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	if (start < end)
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		us /= end - start;
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	else
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		us /= start - end;
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	range = 4;
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	value = gus->gf1.enh_mode ?
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	    vol_rates[0] :
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	    vol_rates[gus->gf1.active_voices - 14];
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	for (i = 0; i < 3; i++) {
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		if (us < value) {
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			range = i;
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			break;
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		} else
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			value <<= 3;
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	}
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	if (range == 4) {
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		range = 3;
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		increment = 1;
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	} else
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		increment = (value + (value >> 1)) / us;
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	return (range << 6) | (increment & 0x3f);
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}
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#endif  /*  0  */
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unsigned short snd_gf1_translate_freq(struct snd_gus_card * gus, unsigned int freq16)
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{
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	freq16 >>= 3;
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	if (freq16 < 50)
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		freq16 = 50;
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	if (freq16 & 0xf8000000) {
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		freq16 = ~0xf8000000;
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		snd_printk(KERN_ERR "snd_gf1_translate_freq: overflow - freq = 0x%x\n", freq16);
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	}
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	return ((freq16 << 9) + (gus->gf1.playback_freq >> 1)) / gus->gf1.playback_freq;
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}
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#if 0
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short snd_gf1_compute_vibrato(short cents, unsigned short fc_register)
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{
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	static short vibrato_table[] =
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	{
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		0, 0, 32, 592, 61, 1175, 93, 1808,
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		124, 2433, 152, 3007, 182, 3632, 213, 4290,
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		241, 4834, 255, 5200
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	};
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	long depth;
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	short *vi1, *vi2, pcents, v1;
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	pcents = cents < 0 ? -cents : cents;
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	for (vi1 = vibrato_table, vi2 = vi1 + 2; pcents > *vi2; vi1 = vi2, vi2 += 2);
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	v1 = *(vi1 + 1);
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	/* The FC table above is a list of pairs. The first number in the pair     */
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	/* is the cents index from 0-255 cents, and the second number in the       */
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	/* pair is the FC adjustment needed to change the pitch by the indexed     */
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	/* number of cents. The table was created for an FC of 32768.              */
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	/* The following expression does a linear interpolation against the        */
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	/* approximated log curve in the table above, and then scales the number   */
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	/* by the FC before the LFO. This calculation also adjusts the output      */
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	/* value to produce the appropriate depth for the hardware. The depth      */
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	/* is 2 * desired FC + 1.                                                  */
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	depth = (((int) (*(vi2 + 1) - *vi1) * (pcents - *vi1) / (*vi2 - *vi1)) + v1) * fc_register >> 14;
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	if (depth)
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		depth++;
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	if (depth > 255)
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		depth = 255;
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	return cents < 0 ? -(short) depth : (short) depth;
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}
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unsigned short snd_gf1_compute_pitchbend(unsigned short pitchbend, unsigned short sens)
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{
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	static long log_table[] = {1024, 1085, 1149, 1218, 1290, 1367, 1448, 1534, 1625, 1722, 1825, 1933};
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	int wheel, sensitivity;
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	unsigned int mantissa, f1, f2;
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	unsigned short semitones, f1_index, f2_index, f1_power, f2_power;
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	char bend_down = 0;
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	int bend;
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	if (!sens)
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		return 1024;
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	wheel = (int) pitchbend - 8192;
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	sensitivity = ((int) sens * wheel) / 128;
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	if (sensitivity < 0) {
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		bend_down = 1;
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		sensitivity = -sensitivity;
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	}
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	semitones = (unsigned int) (sensitivity >> 13);
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	mantissa = sensitivity % 8192;
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	f1_index = semitones % 12;
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	f2_index = (semitones + 1) % 12;
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	f1_power = semitones / 12;
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	f2_power = (semitones + 1) / 12;
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	f1 = log_table[f1_index] << f1_power;
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	f2 = log_table[f2_index] << f2_power;
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	bend = (int) ((((f2 - f1) * mantissa) >> 13) + f1);
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	if (bend_down)
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		bend = 1048576L / bend;
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	return bend;
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}
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unsigned short snd_gf1_compute_freq(unsigned int freq,
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				    unsigned int rate,
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				    unsigned short mix_rate)
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{
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	unsigned int fc;
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	int scale = 0;
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	while (freq >= 4194304L) {
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		scale++;
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		freq >>= 1;
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	}
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	fc = (freq << 10) / rate;
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	if (fc > 97391L) {
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		fc = 97391;
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		snd_printk(KERN_ERR "patch: (1) fc frequency overflow - %u\n", fc);
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	}
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	fc = (fc * 44100UL) / mix_rate;
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	while (scale--)
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		fc <<= 1;
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	if (fc > 65535L) {
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		fc = 65535;
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		snd_printk(KERN_ERR "patch: (2) fc frequency overflow - %u\n", fc);
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	}
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	return (unsigned short) fc;
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}
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#endif  /*  0  */
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