/****************************************************************************** Copyright (C) 2013 by Hugh Bailey This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . ******************************************************************************/ #pragma once #include "media-io-defs.h" #include "../util/c99defs.h" #include "../util/util_uint128.h" #ifdef __cplusplus extern "C" { #endif #define MAX_AUDIO_MIXES 4 #define MAX_AUDIO_CHANNELS 2 #define AUDIO_OUTPUT_FRAMES 1024 /* * Base audio output component. Use this to create an audio output track * for the media. */ struct audio_output; typedef struct audio_output audio_t; enum audio_format { AUDIO_FORMAT_UNKNOWN, AUDIO_FORMAT_U8BIT, AUDIO_FORMAT_16BIT, AUDIO_FORMAT_32BIT, AUDIO_FORMAT_FLOAT, AUDIO_FORMAT_U8BIT_PLANAR, AUDIO_FORMAT_16BIT_PLANAR, AUDIO_FORMAT_32BIT_PLANAR, AUDIO_FORMAT_FLOAT_PLANAR, }; enum speaker_layout { SPEAKERS_UNKNOWN, SPEAKERS_MONO, SPEAKERS_STEREO, SPEAKERS_2POINT1, SPEAKERS_QUAD, SPEAKERS_4POINT1, SPEAKERS_5POINT1, SPEAKERS_5POINT1_SURROUND, SPEAKERS_7POINT1, SPEAKERS_7POINT1_SURROUND, SPEAKERS_SURROUND, }; struct audio_data { uint8_t *data[MAX_AV_PLANES]; uint32_t frames; uint64_t timestamp; }; struct audio_output_data { float *data[MAX_AUDIO_CHANNELS]; }; typedef bool (*audio_input_callback_t)(void *param, uint64_t start_ts, uint64_t end_ts, uint64_t *new_ts, uint32_t active_mixers, struct audio_output_data *mixes); struct audio_output_info { const char *name; uint32_t samples_per_sec; enum audio_format format; enum speaker_layout speakers; audio_input_callback_t input_callback; void *input_param; }; struct audio_convert_info { uint32_t samples_per_sec; enum audio_format format; enum speaker_layout speakers; }; static inline uint32_t get_audio_channels(enum speaker_layout speakers) { switch (speakers) { case SPEAKERS_MONO: return 1; case SPEAKERS_STEREO: return 2; case SPEAKERS_2POINT1: return 3; case SPEAKERS_SURROUND: case SPEAKERS_QUAD: return 4; case SPEAKERS_4POINT1: return 5; case SPEAKERS_5POINT1: case SPEAKERS_5POINT1_SURROUND: return 6; case SPEAKERS_7POINT1: return 8; case SPEAKERS_7POINT1_SURROUND: return 8; case SPEAKERS_UNKNOWN: return 0; } return 0; } static inline size_t get_audio_bytes_per_channel(enum audio_format format) { switch (format) { case AUDIO_FORMAT_U8BIT: case AUDIO_FORMAT_U8BIT_PLANAR: return 1; case AUDIO_FORMAT_16BIT: case AUDIO_FORMAT_16BIT_PLANAR: return 2; case AUDIO_FORMAT_FLOAT: case AUDIO_FORMAT_FLOAT_PLANAR: case AUDIO_FORMAT_32BIT: case AUDIO_FORMAT_32BIT_PLANAR: return 4; case AUDIO_FORMAT_UNKNOWN: return 0; } return 0; } static inline bool is_audio_planar(enum audio_format format) { switch (format) { case AUDIO_FORMAT_U8BIT: case AUDIO_FORMAT_16BIT: case AUDIO_FORMAT_32BIT: case AUDIO_FORMAT_FLOAT: return false; case AUDIO_FORMAT_U8BIT_PLANAR: case AUDIO_FORMAT_FLOAT_PLANAR: case AUDIO_FORMAT_16BIT_PLANAR: case AUDIO_FORMAT_32BIT_PLANAR: return true; case AUDIO_FORMAT_UNKNOWN: return false; } return false; } static inline size_t get_audio_planes(enum audio_format format, enum speaker_layout speakers) { return (is_audio_planar(format) ? get_audio_channels(speakers) : 1); } static inline size_t get_audio_size(enum audio_format format, enum speaker_layout speakers, uint32_t frames) { bool planar = is_audio_planar(format); return (planar ? 1 : get_audio_channels(speakers)) * get_audio_bytes_per_channel(format) * frames; } static inline uint64_t audio_frames_to_ns(size_t sample_rate, uint64_t frames) { util_uint128_t val; val = util_mul64_64(frames, 1000000000ULL); val = util_div128_32(val, (uint32_t)sample_rate); return val.low; } static inline uint64_t ns_to_audio_frames(size_t sample_rate, uint64_t frames) { util_uint128_t val; val = util_mul64_64(frames, sample_rate); val = util_div128_32(val, 1000000000); return val.low; } #define AUDIO_OUTPUT_SUCCESS 0 #define AUDIO_OUTPUT_INVALIDPARAM -1 #define AUDIO_OUTPUT_FAIL -2 EXPORT int audio_output_open(audio_t **audio, struct audio_output_info *info); EXPORT void audio_output_close(audio_t *audio); typedef void (*audio_output_callback_t)(void *param, size_t mix_idx, struct audio_data *data); EXPORT bool audio_output_connect(audio_t *video, size_t mix_idx, const struct audio_convert_info *conversion, audio_output_callback_t callback, void *param); EXPORT void audio_output_disconnect(audio_t *video, size_t mix_idx, audio_output_callback_t callback, void *param); EXPORT bool audio_output_active(const audio_t *audio); EXPORT size_t audio_output_get_block_size(const audio_t *audio); EXPORT size_t audio_output_get_planes(const audio_t *audio); EXPORT size_t audio_output_get_channels(const audio_t *audio); EXPORT uint32_t audio_output_get_sample_rate(const audio_t *audio); EXPORT const struct audio_output_info *audio_output_get_info( const audio_t *audio); #ifdef __cplusplus } #endif