Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Jaroslav Kysela | 207 | 79.92% | 2 | 18.18% |
Linus Torvalds (pre-git) | 31 | 11.97% | 3 | 27.27% |
Adrian Bunk | 10 | 3.86% | 1 | 9.09% |
Takashi Iwai | 6 | 2.32% | 3 | 27.27% |
Paul Gortmaker | 3 | 1.16% | 1 | 9.09% |
Thomas Gleixner | 2 | 0.77% | 1 | 9.09% |
Total | 259 | 11 |
// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (c) by Jaroslav Kysela <perex@perex.cz> */ #include <linux/time.h> #include <linux/export.h> #include <sound/core.h> #include <sound/gus.h> #define __GUS_TABLES_ALLOC__ #include "gus_tables.h" EXPORT_SYMBOL(snd_gf1_atten_table); /* for snd-gus-synth module */ unsigned short snd_gf1_lvol_to_gvol_raw(unsigned int vol) { unsigned short e, m, tmp; if (vol > 65535) vol = 65535; tmp = vol; e = 7; if (tmp < 128) { while (e > 0 && tmp < (1 << e)) e--; } else { while (tmp > 255) { tmp >>= 1; e++; } } m = vol - (1 << e); if (m > 0) { if (e > 8) m >>= e - 8; else if (e < 8) m <<= 8 - e; m &= 255; } return (e << 8) | m; } #if 0 unsigned int snd_gf1_gvol_to_lvol_raw(unsigned short gf1_vol) { unsigned int rvol; unsigned short e, m; if (!gf1_vol) return 0; e = gf1_vol >> 8; m = (unsigned char) gf1_vol; rvol = 1 << e; if (e > 8) return rvol | (m << (e - 8)); return rvol | (m >> (8 - e)); } unsigned int snd_gf1_calc_ramp_rate(struct snd_gus_card * gus, unsigned short start, unsigned short end, unsigned int us) { static const unsigned char vol_rates[19] = { 23, 24, 26, 28, 29, 31, 32, 34, 36, 37, 39, 40, 42, 44, 45, 47, 49, 50, 52 }; unsigned short range, increment, value, i; start >>= 4; end >>= 4; if (start < end) us /= end - start; else us /= start - end; range = 4; value = gus->gf1.enh_mode ? vol_rates[0] : vol_rates[gus->gf1.active_voices - 14]; for (i = 0; i < 3; i++) { if (us < value) { range = i; break; } else value <<= 3; } if (range == 4) { range = 3; increment = 1; } else increment = (value + (value >> 1)) / us; return (range << 6) | (increment & 0x3f); } #endif /* 0 */ unsigned short snd_gf1_translate_freq(struct snd_gus_card * gus, unsigned int freq16) { freq16 >>= 3; if (freq16 < 50) freq16 = 50; if (freq16 & 0xf8000000) { freq16 = ~0xf8000000; snd_printk(KERN_ERR "snd_gf1_translate_freq: overflow - freq = 0x%x\n", freq16); } return ((freq16 << 9) + (gus->gf1.playback_freq >> 1)) / gus->gf1.playback_freq; } #if 0 short snd_gf1_compute_vibrato(short cents, unsigned short fc_register) { static const short vibrato_table[] = { 0, 0, 32, 592, 61, 1175, 93, 1808, 124, 2433, 152, 3007, 182, 3632, 213, 4290, 241, 4834, 255, 5200 }; long depth; const short *vi1, *vi2; short pcents, v1; pcents = cents < 0 ? -cents : cents; for (vi1 = vibrato_table, vi2 = vi1 + 2; pcents > *vi2; vi1 = vi2, vi2 += 2); v1 = *(vi1 + 1); /* The FC table above is a list of pairs. The first number in the pair */ /* is the cents index from 0-255 cents, and the second number in the */ /* pair is the FC adjustment needed to change the pitch by the indexed */ /* number of cents. The table was created for an FC of 32768. */ /* The following expression does a linear interpolation against the */ /* approximated log curve in the table above, and then scales the number */ /* by the FC before the LFO. This calculation also adjusts the output */ /* value to produce the appropriate depth for the hardware. The depth */ /* is 2 * desired FC + 1. */ depth = (((int) (*(vi2 + 1) - *vi1) * (pcents - *vi1) / (*vi2 - *vi1)) + v1) * fc_register >> 14; if (depth) depth++; if (depth > 255) depth = 255; return cents < 0 ? -(short) depth : (short) depth; } unsigned short snd_gf1_compute_pitchbend(unsigned short pitchbend, unsigned short sens) { static const long log_table[] = {1024, 1085, 1149, 1218, 1290, 1367, 1448, 1534, 1625, 1722, 1825, 1933}; int wheel, sensitivity; unsigned int mantissa, f1, f2; unsigned short semitones, f1_index, f2_index, f1_power, f2_power; char bend_down = 0; int bend; if (!sens) return 1024; wheel = (int) pitchbend - 8192; sensitivity = ((int) sens * wheel) / 128; if (sensitivity < 0) { bend_down = 1; sensitivity = -sensitivity; } semitones = (unsigned int) (sensitivity >> 13); mantissa = sensitivity % 8192; f1_index = semitones % 12; f2_index = (semitones + 1) % 12; f1_power = semitones / 12; f2_power = (semitones + 1) / 12; f1 = log_table[f1_index] << f1_power; f2 = log_table[f2_index] << f2_power; bend = (int) ((((f2 - f1) * mantissa) >> 13) + f1); if (bend_down) bend = 1048576L / bend; return bend; } unsigned short snd_gf1_compute_freq(unsigned int freq, unsigned int rate, unsigned short mix_rate) { unsigned int fc; int scale = 0; while (freq >= 4194304L) { scale++; freq >>= 1; } fc = (freq << 10) / rate; if (fc > 97391L) { fc = 97391; snd_printk(KERN_ERR "patch: (1) fc frequency overflow - %u\n", fc); } fc = (fc * 44100UL) / mix_rate; while (scale--) fc <<= 1; if (fc > 65535L) { fc = 65535; snd_printk(KERN_ERR "patch: (2) fc frequency overflow - %u\n", fc); } return (unsigned short) fc; } #endif /* 0 */
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