mirror of
https://github.com/alsa-project/alsa-utils
synced 2024-12-23 05:56:30 +01:00
e1b7a5f376
Add function generate_sine_wave_raw_mono(). It serves as a single channel sine wave generator, to provide data for calculation (e.g. for noise analysis). The function is similar to generate_sine_wave(), but a lite revision. It has no dependency on bat channels and target frequency, no malloc inside, no data conversion from float to integer samples, and supports one channel only. Signed-off-by: Lu, Han <han.lu@intel.com> Signed-off-by: Takashi Iwai <tiwai@suse.de>
203 lines
5 KiB
C
203 lines
5 KiB
C
/*
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* Copyright (C) 2015 Caleb Crome
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* Copyright (C) 2013-2015 Intel Corporation
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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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*/
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/*
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* This is a general purpose sine wave generator that will stay stable
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* for a long time, and with a little renormalization, could stay stay
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* stable indefinitely
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*/
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#include <stdio.h>
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#include <stddef.h>
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#include <stdlib.h>
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#include <string.h>
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#include <math.h>
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#include <stdint.h>
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#include <stdbool.h>
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#include <errno.h>
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#include "gettext.h"
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#include "common.h"
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#include "signal.h"
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/*
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* Initialize the sine wave generator.
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* sin_generator: gets initialized by this call.
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* frequency: the frequency for the sine wave. must be < 0.5*sample_rate
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* sample_rate: the sample rate...
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* returns 0 on success, -1 on error.
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*/
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int sin_generator_init(struct sin_generator *sg, float magnitude,
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float frequency, float sample_rate)
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{
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/* angular frequency: cycles/sec / (samp/sec) * rad/cycle = rad/samp */
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float w = frequency / sample_rate * 2 * M_PI;
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if (frequency >= sample_rate / 2)
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return -1;
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sg->phasor_real = cos(w);
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sg->phasor_imag = sin(w);
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sg->magnitude = magnitude;
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sg->state_real = 0.0;
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sg->state_imag = magnitude;
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sg->frequency = frequency;
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sg->sample_rate = sample_rate;
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return 0;
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}
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/*
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* Generates the next sample in the sine wave.
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* should be much faster than calling a sin function
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* if it's inlined and optimized.
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*
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* returns the next value. no possibility of error.
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*/
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float sin_generator_next_sample(struct sin_generator *sg)
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{
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/* get shorthand to pointers */
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const double pr = sg->phasor_real;
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const double pi = sg->phasor_imag;
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const double sr = sg->state_real;
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const double si = sg->state_imag;
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/* step the phasor -- complex multiply */
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sg->state_real = sr * pr - si * pi;
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sg->state_imag = sr * pi + pr * si;
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/* return the input value so sine wave starts at exactly 0.0 */
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return (float)sr;
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}
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/* fills a vector with a sine wave */
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void sin_generator_vfill(struct sin_generator *sg, float *buf, int n)
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{
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int i;
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for (i = 0; i < n; i++)
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*buf++ = sin_generator_next_sample(sg);
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}
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static int reorder(struct bat *bat, float *val, int frames)
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{
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float *new_buf = NULL;
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int i, c, bytes;
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bytes = frames * bat->channels * sizeof(float);
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new_buf = (float *) malloc(bytes);
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if (new_buf == NULL) {
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fprintf(bat->err, _("Not enough memory.\n"));
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return -ENOMEM;
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}
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memcpy(new_buf, val, bytes);
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for (i = 0; i < frames; i++)
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for (c = 0; c < bat->channels; c++)
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val[i * bat->channels + c] =
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new_buf[c * frames + i];
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free(new_buf);
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return 0;
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}
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static int adjust_waveform(struct bat *bat, float *val, int frames,
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int channels)
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{
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int i, nsamples, max;
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float factor, offset = 0.0;
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switch (bat->format) {
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case BAT_PCM_FORMAT_U8:
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max = INT8_MAX;
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offset = max; /* shift for unsigned format */
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break;
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case BAT_PCM_FORMAT_S16_LE:
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max = INT16_MAX;
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break;
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case BAT_PCM_FORMAT_S24_3LE:
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max = (1 << 23) - 1;
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break;
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case BAT_PCM_FORMAT_S32_LE:
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max = INT32_MAX;
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break;
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default:
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fprintf(bat->err, _("Invalid PCM format: %d\n"), bat->format);
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return -EINVAL;
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}
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factor = max * RANGE_FACTOR;
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nsamples = channels * frames;
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for (i = 0; i < nsamples; i++)
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val[i] = val[i] * factor + offset;
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return 0;
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}
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int generate_sine_wave(struct bat *bat, int frames, void *buf)
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{
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int err = 0;
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int c, nsamples;
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float *sinus_f = NULL;
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static struct sin_generator sg[MAX_CHANNELS];
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nsamples = bat->channels * frames;
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sinus_f = (float *) malloc(nsamples * sizeof(float));
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if (sinus_f == NULL) {
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fprintf(bat->err, _("Not enough memory.\n"));
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return -ENOMEM;
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}
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for (c = 0; c < bat->channels; c++) {
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/* initialize static struct at the first time */
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if (sg[c].frequency != bat->target_freq[c])
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sin_generator_init(&sg[c], 1.0, bat->target_freq[c],
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bat->rate);
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/* fill buffer for each channel */
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sin_generator_vfill(&sg[c], sinus_f + c * frames, frames);
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}
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/* reorder samples to interleaved mode */
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err = reorder(bat, sinus_f, frames);
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if (err != 0)
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goto exit;
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/* adjust amplitude and offset of waveform */
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err = adjust_waveform(bat, sinus_f, frames, bat->channels);
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if (err != 0)
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goto exit;
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bat->convert_float_to_sample(sinus_f, buf, frames, bat->channels);
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exit:
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free(sinus_f);
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return err;
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}
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/* generate single channel sine waveform without sample conversion */
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int generate_sine_wave_raw_mono(struct bat *bat, float *buf,
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float freq, int nsamples)
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{
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int err = 0;
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struct sin_generator sg;
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err = sin_generator_init(&sg, 1.0, freq, bat->rate);
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if (err < 0)
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return err;
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sin_generator_vfill(&sg, buf, nsamples);
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/* adjust amplitude and offset of waveform */
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err = adjust_waveform(bat, buf, nsamples, 1);
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return err;
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}
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