4coder/code/custom/4coder_audio.cpp

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////////////////////////////////
// NOTE(allen): Default Mixer Helpers
// TODO(allen): intrinsics wrappers
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#if OS_LINUX
#include <immintrin.h>
#define _InterlockedExchangeAdd __sync_fetch_and_add
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#elif OS_MAC
#include <immintrin.h>
#define _InterlockedExchangeAdd __sync_fetch_and_add
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#else
#include <intrin.h>
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#endif
function u32
AtomicAddU32AndReturnOriginal(u32 volatile *Value, u32 Addend)
{
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// NOTE(casey): Returns the original value _prior_ to adding
u32 Result = _InterlockedExchangeAdd((long volatile*)Value, (long)Addend);
return(Result);
}
function void
def_audio_begin_ticket_mutex(Audio_System *Crunky)
{
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u32 Ticket = AtomicAddU32AndReturnOriginal(&Crunky->ticket, 1);
while(Ticket != Crunky->serving) {_mm_pause();}
}
function void
def_audio_end_ticket_mutex(Audio_System *Crunky)
{
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AtomicAddU32AndReturnOriginal(&Crunky->serving, 1);
}
////////////////////////////////
// NOTE(allen): Default Mixer
global Audio_System def_audio_system = {};
function void
def_audio_init(void){
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block_zero_struct(&def_audio_system);
system_set_source_mixer(&def_audio_system, def_audio_mix_sources);
system_set_destination_mixer(def_audio_mix_destination);
}
function void
def_audio_play_clip(Audio_Clip clip, Audio_Control *control){
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clip.control = control;
Audio_System *Crunky = &def_audio_system;
def_audio_begin_ticket_mutex(Crunky);
if (Crunky->pending_clip_count < ArrayCount(Crunky->pending_clips))
{
Crunky->pending_clips[Crunky->pending_clip_count++] = clip;
}
def_audio_end_ticket_mutex(Crunky);
}
internal b32
def_audio_is_playing(Audio_Control *control){
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Audio_System *Crunky = &def_audio_system;
b32 result = (Crunky->generation - control->generation < 2);
return(result);
}
internal void
def_audio_stop(Audio_Control *control){
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Audio_System *Crunky = &def_audio_system;
def_audio_begin_ticket_mutex(Crunky);
Audio_Clip *clip = Crunky->playing_clips;
for(u32 i = 0;
i < ArrayCount(Crunky->playing_clips);
i += 1, clip += 1){
if (clip->control == control){
clip->at_sample_index = clip->sample_count;
clip->control = 0;
}
}
control->loop = false;
def_audio_end_ticket_mutex(Crunky);
}
function void
def_audio_mix_sources(void *ctx, f32 *mix_buffer, u32 sample_count){
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Audio_System *Crunky = (Audio_System*)ctx;
def_audio_begin_ticket_mutex(Crunky);
// NOTE(casey): Move pending sounds into the playing list
{
Crunky->generation += 1;
u32 PendIndex = 0;
Audio_Clip *clip = Crunky->playing_clips;
for(u32 DestIndex = 0;
(DestIndex < ArrayCount(Crunky->playing_clips)) && (PendIndex < Crunky->pending_clip_count);
DestIndex += 1, clip += 1)
{
if (clip->at_sample_index == clip->sample_count)
{
Audio_Control *control = clip->control;
if (control == 0 || !control->loop){
*clip = Crunky->pending_clips[PendIndex++];
}
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}
}
Crunky->pending_clip_count = 0;
}
def_audio_end_ticket_mutex(Crunky);
// NOTE(casey): Mix all sounds into the output buffer
{
Audio_Clip *clip = Crunky->playing_clips;
for(u32 SoundIndex = 0;
SoundIndex < ArrayCount(Crunky->playing_clips);
SoundIndex += 1, clip += 1)
{
// NOTE(allen): Determine starting point
Audio_Control *control = clip->control;
if (control != 0 && control->loop && clip->at_sample_index == clip->sample_count){
clip->at_sample_index = 0;
}
u32 base_sample_index = clip->at_sample_index;
// NOTE(casey): Determine how many samples are left to play in this
// sound (possible none)
u32 SamplesToMix = clamp_top((clip->sample_count - clip->at_sample_index), sample_count);
clip->at_sample_index += SamplesToMix;
// NOTE(casey): Load the volume out of the control if there is one,
// and if there is, update the generation and sample index so
// external controllers can take action
f32 LeftVol = clip->channel_volume[0];
f32 RightVol = clip->channel_volume[1];
if(SamplesToMix && control != 0)
{
LeftVol *= control->channel_volume[0];
RightVol *= control->channel_volume[1];
control->generation = Crunky->generation;
control->last_played_sample_index = clip->at_sample_index;
}
// NOTE(casey): Mix samples
for(u32 SampleIndex = 0;
SampleIndex < SamplesToMix;
++SampleIndex)
{
u32 src_index = 2*(base_sample_index + SampleIndex);
f32 Left = LeftVol *(f32)clip->samples[src_index + 0];
f32 Right = RightVol*(f32)clip->samples[src_index + 1];
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u32 dst_index = 2*SampleIndex;
mix_buffer[dst_index + 0] += Left;
mix_buffer[dst_index + 1] += Right;
}
}
}
}
function void
def_audio_mix_destination(i16 *dst, f32 *src, u32 sample_count){
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u32 opl = sample_count*2;
for(u32 i = 0; i < opl; i += 1){
f32 sample = src[i];
f32 sat_sample = clamp(-32768.f, sample, 32767.f);
dst[i] = (i16)sat_sample;
}
}
////////////////////////////////
// NOTE(allen): Loading Clip
#if !defined(FCODER_SKIP_WAV)
#define FCODER_SKIP_WAV
#pragma pack(push, 1)
struct wave_fmt_data
{
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u16 wFormatTag;
u16 wChannels;
u32 dwSamplesPerSec;
u32 dwAvgBytesPerSec;
u16 wBlockAlign;
u16 wBitsPerSample;
};
struct riff_header
{
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u32 ID;
u32 DataSize;
};
#pragma pack(pop)
#endif
function Audio_Clip
audio_clip_from_wav_data(String_Const_u8 data){
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Audio_Clip Result = {};
if (data.size >= 4 && *(u32 *)data.str == *(u32 *)"RIFF"){
// NOTE(casey): This ROM is in WAV format
riff_header *RootHeader = (riff_header *)data.str;
wave_fmt_data *Format = 0;
u32 SampleDataSize = 0;
i16 *Samples = 0;
u32 At = sizeof(riff_header);
u32 LastAt = At + ((RootHeader->DataSize + 1) & ~1);
if ((*(u32 *)(data.str + At) == *(u32 *)"WAVE") &&
(LastAt <= data.size)){
At += sizeof(u32);
while (At < LastAt){
riff_header *Header = (riff_header *)(data.str + At);
u32 DataAt = At + sizeof(riff_header);
u32 EndAt = DataAt + ((Header->DataSize + 1) & ~1);
if(EndAt <= data.size)
{
void *Data = (data.str + DataAt);
if(Header->ID == *(u32 *)"fmt ")
{
Format = (wave_fmt_data *)Data;
}
else if(Header->ID == *(u32 *)"data")
{
SampleDataSize = Header->DataSize;
Samples = (i16 *)Data;
}
}
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At = EndAt;
}
}
if (Format &&
Samples &&
(Format->wFormatTag == 1) &&
(Format->wChannels == 2) &&
(Format->wBitsPerSample == 16) &&
(Format->dwSamplesPerSec == 48000)){
for (u32 i = 0; i < 2; i += 1){
Result.channel_volume[i] = 1.f;
}
Result.sample_count = SampleDataSize / (Format->wChannels*Format->wBitsPerSample/8);
Result.samples = (i16 *)Samples;
}
else{
// TODO(casey): This is where you would output an error - to 4coder somehow?
}
}
else{
// TODO(casey): This is where you would output an error - to 4coder somehow?
}
return(Result);
}
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function Audio_Clip
audio_clip_from_wav_FILE(Arena *arena, FILE *file){
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String_Const_u8 data = data_from_file(arena, file);
Audio_Clip result = audio_clip_from_wav_data(data);
return(result);
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}
function Audio_Clip
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audio_clip_from_wav_file_name(Arena *arena, char *file_name){
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Audio_Clip result = {};
String_Const_u8 data = {};
FILE *file = fopen(file_name, "rb");
if (file != 0){
result = audio_clip_from_wav_FILE(arena, file);
fclose(file);
}
return(result);
}