pulsecore/resampler/trivial.c

53a5a1b3Sopenharmony_ci/***
53a5a1b3Sopenharmony_ci  This file is part of PulseAudio.
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci  Copyright 2004-2006 Lennart Poettering
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci  PulseAudio is free software; you can redistribute it and/or modify
53a5a1b3Sopenharmony_ci  it under the terms of the GNU Lesser General Public License as published
53a5a1b3Sopenharmony_ci  by the Free Software Foundation; either version 2.1 of the License,
53a5a1b3Sopenharmony_ci  or (at your option) any later version.
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci  PulseAudio is distributed in the hope that it will be useful, but
53a5a1b3Sopenharmony_ci  WITHOUT ANY WARRANTY; without even the implied warranty of
53a5a1b3Sopenharmony_ci  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
53a5a1b3Sopenharmony_ci  General Public License for more details.
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci  You should have received a copy of the GNU Lesser General Public License
53a5a1b3Sopenharmony_ci  along with PulseAudio; if not, see <http://www.gnu.org/licenses/>.
53a5a1b3Sopenharmony_ci***/
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci#ifdef HAVE_CONFIG_H
53a5a1b3Sopenharmony_ci#include <config.h>
53a5a1b3Sopenharmony_ci#endif
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci#include <pulse/xmalloc.h>
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci#include <pulsecore/resampler.h>
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_cistruct trivial_data { /* data specific to the trivial resampler */
53a5a1b3Sopenharmony_ci    unsigned o_counter;
53a5a1b3Sopenharmony_ci    unsigned i_counter;
53a5a1b3Sopenharmony_ci};
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_cistatic unsigned trivial_resample(pa_resampler *r, const pa_memchunk *input, unsigned in_n_frames, pa_memchunk *output, unsigned *out_n_frames) {
53a5a1b3Sopenharmony_ci    unsigned i_index, o_index;
53a5a1b3Sopenharmony_ci    void *src, *dst;
53a5a1b3Sopenharmony_ci    struct trivial_data *trivial_data;
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    pa_assert(r);
53a5a1b3Sopenharmony_ci    pa_assert(input);
53a5a1b3Sopenharmony_ci    pa_assert(output);
53a5a1b3Sopenharmony_ci    pa_assert(out_n_frames);
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    trivial_data = r->impl.data;
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    src = pa_memblock_acquire_chunk(input);
53a5a1b3Sopenharmony_ci    dst = pa_memblock_acquire_chunk(output);
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    for (o_index = 0;; o_index++, trivial_data->o_counter++) {
53a5a1b3Sopenharmony_ci        i_index = ((uint64_t) trivial_data->o_counter * r->i_ss.rate) / r->o_ss.rate;
53a5a1b3Sopenharmony_ci        i_index = i_index > trivial_data->i_counter ? i_index - trivial_data->i_counter : 0;
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci        if (i_index >= in_n_frames)
53a5a1b3Sopenharmony_ci            break;
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci        pa_assert_fp(o_index * r->w_fz < pa_memblock_get_length(output->memblock));
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci        memcpy((uint8_t*) dst + r->w_fz * o_index, (uint8_t*) src + r->w_fz * i_index, (int) r->w_fz);
53a5a1b3Sopenharmony_ci    }
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    pa_memblock_release(input->memblock);
53a5a1b3Sopenharmony_ci    pa_memblock_release(output->memblock);
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    *out_n_frames = o_index;
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    trivial_data->i_counter += in_n_frames;
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    /* Normalize counters */
53a5a1b3Sopenharmony_ci    while (trivial_data->i_counter >= r->i_ss.rate) {
53a5a1b3Sopenharmony_ci        pa_assert(trivial_data->o_counter >= r->o_ss.rate);
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci        trivial_data->i_counter -= r->i_ss.rate;
53a5a1b3Sopenharmony_ci        trivial_data->o_counter -= r->o_ss.rate;
53a5a1b3Sopenharmony_ci    }
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    return 0;
53a5a1b3Sopenharmony_ci}
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_cistatic void trivial_update_rates_or_reset(pa_resampler *r) {
53a5a1b3Sopenharmony_ci    struct trivial_data *trivial_data;
53a5a1b3Sopenharmony_ci    pa_assert(r);
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    trivial_data = r->impl.data;
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    trivial_data->i_counter = 0;
53a5a1b3Sopenharmony_ci    trivial_data->o_counter = 0;
53a5a1b3Sopenharmony_ci}
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ciint pa_resampler_trivial_init(pa_resampler *r) {
53a5a1b3Sopenharmony_ci    struct trivial_data *trivial_data;
53a5a1b3Sopenharmony_ci    pa_assert(r);
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    trivial_data = pa_xnew0(struct trivial_data, 1);
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    r->impl.resample = trivial_resample;
53a5a1b3Sopenharmony_ci    r->impl.update_rates = trivial_update_rates_or_reset;
53a5a1b3Sopenharmony_ci    r->impl.reset = trivial_update_rates_or_reset;
53a5a1b3Sopenharmony_ci    r->impl.data = trivial_data;
53a5a1b3Sopenharmony_ci
53a5a1b3Sopenharmony_ci    return 0;
53a5a1b3Sopenharmony_ci}