townengine/src/audio.c

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#include "private/audio.h"
#include "audio.h"
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#include "config.h"
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#include "context.h"
#include "util.h"
#include <SDL2/SDL.h>
#include <stb_ds.h>
#include <physfs.h>
#define STB_VORBIS_HEADER_ONLY
#include <stb_vorbis.c>
#include <stdint.h>
#include <string.h>
/* TODO: default to float sampling format? */
static const char *audio_exts[audio_file_type_count] = {
".ogg", /* audio_file_type_ogg */
".xm", /* audio_file_type_xm */
};
/* TODO: count frames without use, free the memory when threshold is met */
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/* TODO: count repeated usages for sound effect cases with rendering to ram? */
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/* stores path to data hash, useful for sound effects */
static struct audio_file_cache {
char *key;
struct audio_file_cache_value {
unsigned char *data;
size_t len;
} value;
} *audio_file_cache;
static int64_t get_audio_data(const char *path, unsigned char **data) {
const struct audio_file_cache *cache = shgetp_null(audio_file_cache, path);
if (!cache) {
unsigned char *file;
int64_t len = file_to_bytes(path, &file);
if (len == -1) {
CRY("Audio error", "Error reading file");
return -1;
}
const struct audio_file_cache_value value = { file, (size_t)len };
shput(audio_file_cache, path, value);
*data = file;
return len;
}
*data = cache->value.data;
return (int64_t)cache->value.len;
}
void play_audio(const char *path, const char *channel) {
const struct audio_channel_pair *pair = shgetp_null(ctx.audio_channels, channel);
if (!pair)
play_audio_ex(path, channel, get_default_audio_args());
else
play_audio_ex(path, channel, pair->value.args);
}
static t_audio_file_type infer_audio_file_type(const char *path) {
size_t path_len = strlen(path);
for (int i = 0; i < audio_file_type_count; ++i) {
size_t ext_length = strlen(audio_exts[i]);
if (path_len <= ext_length)
continue;
if (strcmp(&path[path_len - ext_length], audio_exts[i]) == 0)
return (t_audio_file_type)i;
}
return audio_file_type_unknown;
}
/* TODO: error propagation and clearing of resources on partial success? */
/* or should we expect things to simply fail? */
static union audio_context init_audio_context(const char *path, t_audio_file_type type) {
switch (type) {
case audio_file_type_ogg: {
unsigned char *data;
int64_t len = get_audio_data(path, &data);
if (len == -1) {
CRY("Audio error", "Error reading file");
break;
}
int error = 0;
stb_vorbis* handle = stb_vorbis_open_memory(data, (int)len, &error, NULL);
if (error != 0) {
CRY("Audio error", "Error reading .ogg file");
break;
}
stb_vorbis_info info = stb_vorbis_get_info(handle);
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return (union audio_context) {
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.vorbis = {
.data = data,
.handle = handle,
.frequency = info.sample_rate,
.channel_count = (uint8_t)info.channels,
}
};
}
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case audio_file_type_xm: {
unsigned char *data;
int64_t len = get_audio_data(path, &data);
if (len == -1) {
CRY("Audio error", "Error reading file");
break;
}
xm_context_t *handle;
int response = xm_create_context_safe(&handle,
(const char *)data,
(size_t)len,
AUDIO_FREQUENCY);
if (response != 0) {
CRY("Audio error", "Error loading xm module");
break;
}
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xm_set_max_loop_count(handle, 1);
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return (union audio_context) {
.xm = { .handle = handle }
};
}
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default:
CRY("Audio error", "Unhandled audio format (in init)");
return (union audio_context){0};
}
return (union audio_context){0};
}
static void repeat_audio(struct audio_channel *channel) {
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switch (channel->file_type) {
case audio_file_type_ogg: {
stb_vorbis_seek_start(channel->context.vorbis.handle);
break;
}
case audio_file_type_xm: {
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xm_restart(channel->context.xm.handle);
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break;
}
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default:
CRY("Audio error", "Unhandled audio format (in repeat)");
break;
}
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}
void play_audio_ex(const char *path, const char *channel, t_play_audio_args args) {
struct audio_channel_pair *pair = shgetp_null(ctx.audio_channels, channel);
/* create a channel if it doesn't exist */
if (!pair) {
t_audio_file_type file_type = infer_audio_file_type(path);
struct audio_channel new_channel = {
.args = args,
.file_type = file_type,
.context = init_audio_context(path, file_type),
.path = path,
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.name = channel,
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};
shput(ctx.audio_channels, channel, new_channel);
pair = shgetp_null(ctx.audio_channels, channel);
}
/* TODO: destroy and create new context when channel is reused for different file */
/* works for both restarts and new audio */
if (strcmp(pair->value.path, path) == 0)
repeat_audio(&pair->value);
}
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t_play_audio_args *get_audio_args(const char *channel) {
struct audio_channel_pair *pair = shgetp_null(ctx.audio_channels, channel);
if (!pair)
return NULL;
return &pair->value.args;
}
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t_play_audio_args get_default_audio_args(void) {
return (t_play_audio_args){
.repeat = false,
.crossfade = false,
.volume = 1.0f,
.panning = 0.0f,
};
}
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/* this assumes int16_t based streams */
static void audio_mixin_streams(const struct audio_channel *channel,
uint8_t *restrict a,
uint8_t *restrict b,
size_t frames)
{
int16_t *const sa = (int16_t *)a;
int16_t *const sb = (int16_t *)b;
const float left_panning = fminf(fabsf(channel->args.panning - 1.0f), 1.0f);
const float right_panning = fminf(fabsf(channel->args.panning + 1.0f), 1.0f);
#if AUDIO_N_CHANNELS == 2
for (size_t s = 0; s < frames; s += 2) {
/* left channel */
sa[s] += (int16_t)(sb[s] * channel->args.volume * left_panning);
/* right channel */
sa[s + 1] += (int16_t)(sb[s + 1] * channel->args.volume * right_panning);
}
#else
#error "Unimplemented channel count"
#endif
}
/* remember: sample is data for all channels where frame is a part of it */
static void audio_sample_and_mixin_channel(const struct audio_channel *channel,
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uint8_t *stream,
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int len)
{
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static uint8_t buffer[16384];
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const int int16_buffer_frames = sizeof (buffer) / sizeof (int16_t);
const int float_buffer_frames = sizeof (buffer) / sizeof (float);
const int stream_frames = len / sizeof (int16_t);
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switch (channel->file_type) {
case audio_file_type_ogg: {
/* feed stream for needed conversions */
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for (int i = 0; i < stream_frames; ) {
const int n_frames = (stream_frames - i) > int16_buffer_frames ?
int16_buffer_frames : stream_frames - i;
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const int samples_per_channel = stb_vorbis_get_samples_short_interleaved(
channel->context.vorbis.handle,
channel->context.vorbis.channel_count,
(int16_t *)buffer,
n_frames);
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/* handle end of file */
if (samples_per_channel == 0) {
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if (channel->args.repeat) {
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/* seek to start and try sampling some more */
stb_vorbis_seek_start(channel->context.vorbis.handle);
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continue;
} else
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/* leave silence */
break;
}
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/* panning and mixing */
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audio_mixin_streams(channel,
&stream[i * sizeof(int16_t)], buffer,
samples_per_channel * 2);
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i += samples_per_channel * 2;
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}
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break;
}
case audio_file_type_xm: {
for (int i = 0; i < stream_frames; ) {
const int n_frames = (stream_frames - i) > float_buffer_frames ?
float_buffer_frames : stream_frames - i;
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const int samples_per_channel = xm_generate_samples(channel->context.xm.handle,
(float *)buffer,
n_frames / 2);
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/* handle end of file */
if (samples_per_channel == 0) {
if (channel->args.repeat) {
/* seek to start and try sampling some more */
xm_restart(channel->context.xm.handle);
continue;
} else
/* leave silence */
break;
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}
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/* convert floats to int16_t */
for (int p = 0; p < samples_per_channel * 2; ++p)
((int16_t *)buffer)[p] = (int16_t)(((float *)buffer)[p] * 32768.0f);
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/* panning and mixing */
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audio_mixin_streams(channel,
&stream[i * sizeof(int16_t)],
buffer,
samples_per_channel * 2);
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i += samples_per_channel * 2;
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}
break;
}
default:
CRY("Audio error", "Unhandled audio format (in sampling)");
break;
}
}
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static void sanity_check_channel(const struct audio_channel *channel) {
if (channel->args.volume < 0.0f || channel->args.volume > 1.0f)
log_warn("Volume argument is out of range for channel (%s)", channel->name);
if (channel->args.panning < -1.0f || channel->args.panning > 1.0f)
log_warn("panning argument is out of range for channel (%s)", channel->name);
}
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void audio_callback(void *userdata, uint8_t *stream, int len) {
(void)userdata;
/* prepare for mixing */
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SDL_memset(stream, 0, len);
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for (int i = 0; i < shlen(ctx.audio_channels); ++i) {
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sanity_check_channel(&ctx.audio_channels[i].value);
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audio_sample_and_mixin_channel(&ctx.audio_channels[i].value, stream, len);
}
}