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CfgUSBLoader/source/gcmodplay.c
Nitraiolo bb3f6c5c68 Initial clean Cfg USB Loader MOD r78 import
2015-01-17 10:11:08 +00:00

377 lines
7.7 KiB
C
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// Modified by Francisco Mu<4D>oz 'Hermes' MAY 2008
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <gccore.h>
#include <asndlib.h>
#include "gcmodplay.h"
//#define _GCMOD_DEBUG
#define STACKSIZE 8192
#define SNDBUFFERSIZE (3840<<2) //that's the maximum buffer size for one VBlank we need.
static BOOL thr_running = FALSE;
static BOOL sndPlaying = FALSE;
static MODSNDBUF sndBuffer;
static s32 have_samples = 0;
static s32 mod_freq = 48000;
static u32 shiftVal = 0;
static vu32 curr_audio = 0;
static u32 curr_datalen[2] = {0,0};
static u8 audioBuf[2][SNDBUFFERSIZE] ATTRIBUTE_ALIGN(32);
static lwpq_t player_queue;
static lwp_t hplayer;
static u8 player_stack[STACKSIZE];
static void* player(void *);
#ifdef _GCMOD_DEBUG
extern long long gettime();
extern u32 diff_usec(unsigned long long start,unsigned long long end);
extern u32 diff_msec(unsigned long long start,unsigned long long end);
#endif
static void* player(void *arg)
{
#ifdef _GCMOD_DEBUG
long long start,end;
#endif
thr_running = TRUE;
while(sndPlaying==TRUE) {
LWP_ThreadSleep(player_queue);
if(curr_datalen[curr_audio]>0 && sndPlaying==TRUE) {
#ifdef _GCMOD_DEBUG
printf("player(run callback)\n\n");
start = gettime();
#endif
sndBuffer.callback(sndBuffer.usr_data,((u8*)audioBuf[curr_audio]),curr_datalen[curr_audio]);
have_samples = 2;
#ifdef _GCMOD_DEBUG
end = gettime();
printf("player(end callback,%d - %d us)\n\n",curr_audio,diff_usec(start,end));
#endif
}
}
thr_running = FALSE;
#ifdef _GCMOD_DEBUG
printf("player stopped %d\n",thr_running);
#endif
return 0;
}
static void dmaCallback()
{
#ifndef __SNDLIB_H__
MODPlay *mp = (MODPlay*)sndBuffer.usr_data;
MOD *mod = &mp->mod;
#endif
#ifdef _GCMOD_DEBUG
static long long start = 0,end = 0;
end = gettime();
if(start) printf("dmaCallback(%p,%d,%d - after %d ms)\n",(void*)audioBuf[curr_audio],curr_datalen,curr_audio,diff_msec(start,end));
#endif
#ifndef __SNDLIB_H__
AUDIO_StopDMA();
AUDIO_InitDMA((u32)audioBuf[curr_audio],curr_datalen[curr_audio]);
AUDIO_StartDMA();
curr_audio ^= 1;
curr_datalen[curr_audio] = (mod->samplespertick<<shiftVal);
LWP_ThreadSignal(player_queue);
#else
if(have_samples==0) {
have_samples = 1;
LWP_ThreadSignal(player_queue);
return;
}
if(have_samples==1) return;
if(have_samples==2) {
if(SND_AddVoice(0,audioBuf[curr_audio], curr_datalen[curr_audio])!=0) return; // Sorry I am busy: try again
curr_datalen[curr_audio]=0;
have_samples=0;
curr_audio ^= 1;
curr_datalen[curr_audio]=SNDBUFFERSIZE;
}
#endif
#ifdef _GCMOD_DEBUG
start = gettime();
printf("dmaCallback(%p,%d,%d,%d us) leave\n",(void*)audioBuf[curr_audio],curr_datalen,curr_audio,diff_usec(end,start));
#endif
}
static void mixCallback(void *usrdata,u8 *stream,u32 len)
{
u32 i;
MODPlay *mp = (MODPlay*)usrdata;
MOD *mod = &mp->mod;
#ifdef _GCMOD_DEBUG
printf("mixCallback(%p,%p,%d) enter\n",stream,usrdata,len);
#endif
if(mp->manual_polling)
mod->notify = &mp->paused;
else
mod->notify = NULL;
mod->mixingbuf = stream;
mod->mixingbuflen = len;
if(mp->paused) {
for(i=0;i<(len>>1);i++)
((u16*)stream)[i] = 0;
} else
MOD_Player(mod);
DCFlushRange(stream,len);
#ifdef _GCMOD_DEBUG
printf("mixCallback(%p,%p,%d,%d) leave\n",stream,usrdata,len,mp->paused);
#endif
}
static s32 SndBufStart(MODSNDBUF *sndbuf)
{
if(sndPlaying) return -1;
#ifdef _GCMOD_DEBUG
printf("SndBufStart(%p) enter\n",sndbuf);
#endif
memcpy(&sndBuffer,sndbuf,sizeof(MODSNDBUF));
shiftVal = 0;
if(sndBuffer.chans==2)
shiftVal++;
if(sndBuffer.fmt==16)
shiftVal++;
memset(audioBuf[0],0,SNDBUFFERSIZE);
memset(audioBuf[1],0,SNDBUFFERSIZE);
DCFlushRange(audioBuf[0],SNDBUFFERSIZE);
DCFlushRange(audioBuf[1],SNDBUFFERSIZE);
while(thr_running);
curr_audio = 0;
sndPlaying = TRUE;
curr_datalen[0] = SNDBUFFERSIZE;
curr_datalen[1] = SNDBUFFERSIZE;
if(LWP_CreateThread(&hplayer,player,NULL,player_stack,STACKSIZE,80)!=-1) {
#ifndef __SNDLIB_H__
AUDIO_RegisterDMACallback(dmaCallback);
AUDIO_InitDMA((u32)audioBuf[curr_audio],curr_datalen[curr_audio]);
AUDIO_StartDMA();
curr_audio ^= 1;
#else
SND_SetVoice(0, VOICE_STEREO_16BIT, mod_freq,0, audioBuf[curr_audio], curr_datalen[curr_audio], 255, 255, dmaCallback);
have_samples=0;
curr_audio ^= 1;
SND_Pause(0);
#endif
return 1;
}
sndPlaying = FALSE;
return -1;
}
static void SndBufStop()
{
if(!sndPlaying) return;
#ifndef __SNDLIB_H__
AUDIO_StopDMA();
AUDIO_RegisterDMACallback(NULL);
#else
SND_StopVoice(0);
#endif
curr_audio = 0;
sndPlaying = FALSE;
curr_datalen[0] = 0;
curr_datalen[1] = 0;
LWP_ThreadSignal(player_queue);
LWP_JoinThread(hplayer,NULL);
}
static s32 updateWaveFormat(MODPlay *mod)
{
BOOL p = mod->playing;
if(p)
SndBufStop();
if(mod->stereo) {
mod->soundBuf.chans = 2;
mod->mod.channels = 2;
} else {
mod->soundBuf.chans = 1;
mod->mod.channels = 1;
}
mod->soundBuf.freq = mod->playfreq;
mod->mod.freq = mod->playfreq;
mod->mod.bits = 16;
if(p) {
mod->mod.samplescounter = 0;
mod->mod.samplespertick = mod->mod.bpmtab[mod->mod.bpm-32];
}
mod->soundBuf.fmt = 16;
mod->soundBuf.usr_data = mod;
mod->soundBuf.callback = mixCallback;
mod->soundBuf.samples = (f32)mod->playfreq/50.0F;
if(p)
SndBufStart(&mod->soundBuf);
return 0;
}
void MODPlay_Init(MODPlay *mod)
{
memset(mod,0,sizeof(MODPlay));
#ifndef __SNDLIB_H__
AUDIO_Init(NULL);
#else
SND_Pause(0);
SND_StopVoice(0);
#endif
MODPlay_SetFrequency(mod,48000);
MODPlay_SetStereo(mod,TRUE);
LWP_InitQueue(&player_queue);
sndPlaying = FALSE;
thr_running = FALSE;
mod->paused = FALSE;
mod->bits = TRUE;
mod->numSFXChans = 0;
mod->manual_polling = FALSE;
}
s32 MODPlay_SetFrequency(MODPlay *mod,u32 freq)
{
if(freq==mod->playfreq) return 0;
if(freq==32000 || freq==48000) {
#ifndef __SNDLIB_H__
if(freq==32000)
AUDIO_SetDSPSampleRate(AI_SAMPLERATE_32KHZ);
else
AUDIO_SetDSPSampleRate(AI_SAMPLERATE_48KHZ);
#else
mod_freq = 48000;
#endif
mod->playfreq = freq;
updateWaveFormat(mod);
return 0;
}
return -1;
}
void MODPlay_SetStereo(MODPlay *mod,BOOL stereo)
{
if(stereo==mod->stereo) return;
mod->stereo = stereo;
updateWaveFormat(mod);
}
void MODPlay_Unload(MODPlay *mod)
{
MODPlay_Stop(mod);
MOD_Free(&mod->mod);
}
s32 MODPlay_SetMOD(MODPlay *mod,const void *mem)
{
MODPlay_Unload(mod);
if(MOD_SetMOD(&mod->mod,(u8*)mem)==0) {
MODPlay_AllocSFXChannels(mod,mod->numSFXChans);
return 0;
}
return -1;
}
s32 MODPlay_Start(MODPlay *mod)
{
if(mod->playing) return -1;
if(mod->mod.modraw==NULL) return -1;
updateWaveFormat(mod);
MOD_Start(&mod->mod);
if(SndBufStart(&mod->soundBuf)<0) return -1;
mod->playing = TRUE;
return 0;
}
s32 MODPlay_Stop(MODPlay *mod)
{
if(!mod->playing) return -1;
SndBufStop();
mod->playing = FALSE;
return 0;
}
s32 MODPlay_AllocSFXChannels(MODPlay *mod,u32 sfxchans)
{
if(mod->mod.modraw==NULL) return -1;
if(MOD_AllocSFXChannels(&mod->mod,sfxchans)==0) {
mod->numSFXChans = sfxchans;
return 0;
}
return -1;
}
s32 MODPlay_Pause(MODPlay *mod,BOOL pause)
{
if(!mod->playing) return -1;
mod->paused = pause;
return 0;
}
s32 MODPlay_TriggerNote(MODPlay *mod,u32 chan,u8 inst,u16 freq,u8 vol)
{
if(mod->mod.modraw==0) return -1;
return MOD_TriggerNote(&mod->mod,chan,inst,freq,vol);
}
// add by Hermes
/* void MODPlay_SetVolume(MODPlay *mod, s32 musicvolume, s32 sfxvolume)
Set the volume levels for the MOD music (call it after MODPlay_SetMOD())
mod: the MODPlay pointer
musicvolume: in range 0 to 64
sfxvolume: in range 0 to 64
*/
void MODPlay_SetVolume(MODPlay *mod, s32 musicvolume, s32 sfxvolume)
{
if(musicvolume<0) musicvolume=0;
if(musicvolume>64) musicvolume=64;
if(sfxvolume<0) sfxvolume=0;
if(sfxvolume>64) sfxvolume=64;
mod->mod.musicvolume= musicvolume;
mod->mod.sfxvolume = sfxvolume;
}
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