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LNXSDK/Kha/Kinc/Sources/kinc/audio1/sound.c.h
Onek8 a36294b518 Update Files
2025-01-22 16:18:30 +01:00

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#include "sound.h"
#define STB_VORBIS_HEADER_ONLY
#include <kinc/libs/stb_vorbis.c>
#include <kinc/audio2/audio.h>
#include <kinc/error.h>
#include <kinc/io/filereader.h>
#include <assert.h>
#include <string.h>
struct WaveData {
uint16_t audioFormat;
uint16_t numChannels;
uint32_t sampleRate;
uint32_t bytesPerSecond;
uint16_t bitsPerSample;
uint32_t dataSize;
uint8_t *data;
};
static void checkFOURCC(uint8_t **data, const char *fourcc) {
for (int i = 0; i < 4; ++i) {
kinc_affirm(**data == fourcc[i]);
++*data;
}
}
static void readFOURCC(uint8_t **data, char *fourcc) {
for (int i = 0; i < 4; ++i) {
fourcc[i] = **data;
++*data;
}
fourcc[4] = 0;
}
static void readChunk(uint8_t **data, struct WaveData *wave) {
char fourcc[5];
readFOURCC(data, fourcc);
uint32_t chunksize = kinc_read_u32le(*data);
*data += 4;
if (strcmp(fourcc, "fmt ") == 0) {
wave->audioFormat = kinc_read_u16le(*data + 0);
wave->numChannels = kinc_read_u16le(*data + 2);
wave->sampleRate = kinc_read_u32le(*data + 4);
wave->bytesPerSecond = kinc_read_u32le(*data + 8);
wave->bitsPerSample = kinc_read_u16le(*data + 14);
*data += chunksize;
}
else if (strcmp(fourcc, "data") == 0) {
wave->dataSize = chunksize;
wave->data = (uint8_t *)malloc(chunksize * sizeof(uint8_t));
kinc_affirm(wave->data != NULL);
memcpy(wave->data, *data, chunksize);
*data += chunksize;
}
else {
*data += chunksize;
}
}
static int16_t convert8to16(uint8_t sample) {
return (sample - 127) << 8;
}
static void splitStereo8(uint8_t *data, int size, int16_t *left, int16_t *right) {
for (int i = 0; i < size; ++i) {
left[i] = convert8to16(data[i * 2 + 0]);
right[i] = convert8to16(data[i * 2 + 1]);
}
}
static void splitStereo16(int16_t *data, int size, int16_t *left, int16_t *right) {
for (int i = 0; i < size; ++i) {
left[i] = data[i * 2 + 0];
right[i] = data[i * 2 + 1];
}
}
static void splitMono8(uint8_t *data, int size, int16_t *left, int16_t *right) {
for (int i = 0; i < size; ++i) {
left[i] = convert8to16(data[i]);
right[i] = convert8to16(data[i]);
}
}
static void splitMono16(int16_t *data, int size, int16_t *left, int16_t *right) {
for (int i = 0; i < size; ++i) {
left[i] = data[i];
right[i] = data[i];
}
}
#define MAXIMUM_SOUNDS 4096
static kinc_a1_sound_t sounds[MAXIMUM_SOUNDS] = {0};
static kinc_a1_sound_t *find_sound(void) {
for (int i = 0; i < MAXIMUM_SOUNDS; ++i) {
if (!sounds[i].in_use) {
return &sounds[i];
}
}
return NULL;
}
kinc_a1_sound_t *kinc_a1_sound_create(const char *filename) {
kinc_a1_sound_t *sound = find_sound();
assert(sound != NULL);
sound->in_use = true;
sound->volume = 1.0f;
sound->size = 0;
sound->left = NULL;
sound->right = NULL;
size_t filenameLength = strlen(filename);
uint8_t *data = NULL;
if (strncmp(&filename[filenameLength - 4], ".ogg", 4) == 0) {
kinc_file_reader_t file;
if (!kinc_file_reader_open(&file, filename, KINC_FILE_TYPE_ASSET)) {
sound->in_use = false;
return NULL;
}
uint8_t *filedata = (uint8_t *)malloc(kinc_file_reader_size(&file));
kinc_file_reader_read(&file, filedata, kinc_file_reader_size(&file));
kinc_file_reader_close(&file);
int channels, sample_rate;
int samples = stb_vorbis_decode_memory(filedata, (int)kinc_file_reader_size(&file), &channels, &sample_rate, (short **)&data);
sound->channel_count = (uint8_t)channels;
sound->samples_per_second = (uint32_t)sample_rate;
sound->size = samples * 2 * sound->channel_count;
sound->bits_per_sample = 16;
free(filedata);
}
else if (strncmp(&filename[filenameLength - 4], ".wav", 4) == 0) {
struct WaveData wave = {0};
{
kinc_file_reader_t file;
if (!kinc_file_reader_open(&file, filename, KINC_FILE_TYPE_ASSET)) {
sound->in_use = false;
return NULL;
}
uint8_t *filedata = (uint8_t *)malloc(kinc_file_reader_size(&file));
kinc_file_reader_read(&file, filedata, kinc_file_reader_size(&file));
kinc_file_reader_close(&file);
uint8_t *data = filedata;
checkFOURCC(&data, "RIFF");
uint32_t filesize = kinc_read_u32le(data);
data += 4;
checkFOURCC(&data, "WAVE");
while (data + 8 - filedata < (intptr_t)filesize) {
readChunk(&data, &wave);
}
free(filedata);
}
sound->bits_per_sample = (uint8_t)wave.bitsPerSample;
sound->channel_count = (uint8_t)wave.numChannels;
sound->samples_per_second = wave.sampleRate;
data = wave.data;
sound->size = wave.dataSize;
}
else {
assert(false);
}
if (sound->channel_count == 1) {
if (sound->bits_per_sample == 8) {
sound->left = (int16_t *)malloc(sound->size * sizeof(int16_t));
sound->right = (int16_t *)malloc(sound->size * sizeof(int16_t));
splitMono8(data, sound->size, sound->left, sound->right);
}
else if (sound->bits_per_sample == 16) {
sound->size /= 2;
sound->left = (int16_t *)malloc(sound->size * sizeof(int16_t));
sound->right = (int16_t *)malloc(sound->size * sizeof(int16_t));
splitMono16((int16_t *)data, sound->size, sound->left, sound->right);
}
else {
kinc_affirm(false);
}
}
else {
// Left and right channel are in s16 audio stream, alternating.
if (sound->bits_per_sample == 8) {
sound->size /= 2;
sound->left = (int16_t *)malloc(sound->size * sizeof(int16_t));
sound->right = (int16_t *)malloc(sound->size * sizeof(int16_t));
splitStereo8(data, sound->size, sound->left, sound->right);
}
else if (sound->bits_per_sample == 16) {
sound->size /= 4;
sound->left = (int16_t *)malloc(sound->size * sizeof(int16_t));
sound->right = (int16_t *)malloc(sound->size * sizeof(int16_t));
splitStereo16((int16_t *)data, sound->size, sound->left, sound->right);
}
else {
kinc_affirm(false);
}
}
sound->sample_rate_pos = 44100 / (float)sound->samples_per_second;
free(data);
return sound;
}
void kinc_a1_sound_destroy(kinc_a1_sound_t *sound) {
free(sound->left);
free(sound->right);
sound->left = NULL;
sound->right = NULL;
sound->in_use = false;
}
float kinc_a1_sound_volume(kinc_a1_sound_t *sound) {
return sound->volume;
}
void kinc_a1_sound_set_volume(kinc_a1_sound_t *sound, float value) {
sound->volume = value;
}
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