ddnet/src/engine/client/sound.cpp

// copyright (c) 2007 magnus auvinen, see licence.txt for more info
#include <base/system.h>
#include <engine/shared/config.h>

#include "SDL.h"

#include "sound.h"

extern "C" { // wavpack
	#include <engine/external/wavpack/wavpack.h>
}
#include <math.h>

enum
{
	NUM_SAMPLES = 512,
	NUM_VOICES = 64,
	NUM_CHANNELS = 16,
	
	MAX_FRAMES = 1024
};

struct CSample
{
	short *m_pData;
	int m_NumFrames;
	int m_Rate;
	int m_Channels;
	int m_LoopStart;
	int m_LoopEnd;
};

struct CChannel
{
	int m_Vol;
	int m_Pan;
} ;

struct CVoice
{
	CSample *m_pSample;
	CChannel *m_pChannel;
	int m_Tick;
	int m_Vol; // 0 - 255
	int m_Flags;
	int m_X, m_Y;
} ;

static CSample m_aSamples[NUM_SAMPLES] = { {0} };
static CVoice m_aVoices[NUM_VOICES] = { {0} };
static CChannel m_aChannels[NUM_CHANNELS] = { {255, 0} };

static LOCK m_SoundLock = 0;
static int m_SoundEnabled = 0;

static int m_CenterX = 0;
static int m_CenterY = 0;

static int m_MixingRate = 48000;
static volatile int m_SoundVolume = 100;

static int m_NextVoice = 0;


// TODO: there should be a faster way todo this
static short Int2Short(int i)
{
	if(i > 0x7fff)
		return 0x7fff;
	else if(i < -0x7fff)
		return -0x7fff;
	return i;
}

static int IntAbs(int i)
{
	if(i<0)
		return -i;
	return i;
}

static void Mix(short *pFinalOut, unsigned Frames)
{
	int aMixBuffer[MAX_FRAMES*2] = {0};
	int MasterVol;

	// aquire lock while we are mixing
	lock_wait(m_SoundLock);
	
	MasterVol = m_SoundVolume;
	
	for(unsigned i = 0; i < NUM_VOICES; i++)
	{
		if(m_aVoices[i].m_pSample)
		{
			// mix voice
			CVoice *v = &m_aVoices[i];
			int *pOut = aMixBuffer;

			int Step = v->m_pSample->m_Channels; // setup input sources
			short *pInL = &v->m_pSample->m_pData[v->m_Tick*Step];
			short *pInR = &v->m_pSample->m_pData[v->m_Tick*Step+1];
			
			unsigned End = v->m_pSample->m_NumFrames-v->m_Tick;

			int Rvol = v->m_pChannel->m_Vol;
			int Lvol = v->m_pChannel->m_Vol;

			// make sure that we don't go outside the sound data
			if(Frames < End)
				End = Frames;
			
			// check if we have a mono sound
			if(v->m_pSample->m_Channels == 1)
				pInR = pInL;

			// volume calculation
			if(v->m_Flags&ISound::FLAG_POS && v->m_pChannel->m_Pan)
			{
				// TODO: we should respect the channel panning value
				const int Range = 1500; // magic value, remove
				int dx = v->m_X - m_CenterX;
				int dy = v->m_Y - m_CenterY;
				int Dist = (int)sqrtf((float)dx*dx+dy*dy); // float here. nasty
				int p = IntAbs(dx);
				if(Dist < Range)
				{
					// panning
					if(dx > 0)
						Lvol = ((Range-p)*Lvol)/Range;
					else
						Rvol = ((Range-p)*Rvol)/Range;
					
					// falloff
					Lvol = (Lvol*(Range-Dist))/Range;
					Rvol = (Rvol*(Range-Dist))/Range;
				}
				else
				{
					Lvol = 0;
					Rvol = 0;
				}
			}

			// process all frames
			for(unsigned s = 0; s < End; s++)
			{
				*pOut++ += (*pInL)*Lvol;
				*pOut++ += (*pInR)*Rvol;
				pInL += Step;
				pInR += Step;
				v->m_Tick++;
			}
			
			// free voice if not used any more
			if(v->m_Tick == v->m_pSample->m_NumFrames)
				v->m_pSample = 0;
			
		}
	}
	
	
	// release the lock
	lock_release(m_SoundLock);

	{
		// clamp accumulated values
		// TODO: this seams slow
		for(unsigned i = 0; i < Frames; i++)
		{
			int j = i<<1;
			int vl = ((aMixBuffer[j]*MasterVol)/101)>>8;
			int vr = ((aMixBuffer[j+1]*MasterVol)/101)>>8;

			pFinalOut[j] = Int2Short(vl);
			pFinalOut[j+1] = Int2Short(vr);
		}
	}

#if defined(CONF_ARCH_ENDIAN_BIG)
	swap_endian(pFinalOut, sizeof(short), Frames * 2);
#endif
}

static void SdlCallback(void *pUnused, Uint8 *pStream, int Len)
{
	(void)pUnused;
	Mix((short *)pStream, Len/2/2);
}


int CSound::Init()
{
	m_pGraphics = Kernel()->RequestInterface<IEngineGraphics>();
	m_pStorage = Kernel()->RequestInterface<IStorage>();
	
	SDL_AudioSpec Format;
	
	m_SoundLock = lock_create();
	
	if(!g_Config.m_SndEnable)
		return 0;
	
	m_MixingRate = g_Config.m_SndRate;

	// Set 16-bit stereo audio at 22Khz
	Format.freq = g_Config.m_SndRate; // ignore_convention
	Format.format = AUDIO_S16; // ignore_convention
	Format.channels = 2; // ignore_convention
	Format.samples = g_Config.m_SndBufferSize; // ignore_convention
	Format.callback = SdlCallback; // ignore_convention
	Format.userdata = NULL; // ignore_convention

	// Open the audio device and start playing sound!
	if(SDL_OpenAudio(&Format, NULL) < 0)
	{
		dbg_msg("client/sound", "unable to open audio: %s", SDL_GetError());
		return -1;
	}
	else
		dbg_msg("client/sound", "sound init successful");

	SDL_PauseAudio(0);
	
	m_SoundEnabled = 1;
	Update(); // update the volume
	return 0;
}

int CSound::Update()
{
	// update volume
	int WantedVolume = g_Config.m_SndVolume;
	
	if(!m_pGraphics->WindowActive() && g_Config.m_SndNonactiveMute)
		WantedVolume = 0;
	
	if(WantedVolume != m_SoundVolume)
	{
		lock_wait(m_SoundLock);
		m_SoundVolume = WantedVolume;
		lock_release(m_SoundLock);
	}
	
	return 0;
}

int CSound::Shutdown()
{
	SDL_CloseAudio();
	lock_destroy(m_SoundLock);
	return 0;
}

int CSound::AllocId()
{
	// TODO: linear search, get rid of it
	for(unsigned SampleId = 0; SampleId < NUM_SAMPLES; SampleId++)
	{
		if(m_aSamples[SampleId].m_pData == 0x0)
			return SampleId;
	}

	return -1;
}

void CSound::RateConvert(int SampleId)
{
	CSample *pSample = &m_aSamples[SampleId];
	int NumFrames = 0;
	short *pNewData = 0;
	
	// make sure that we need to convert this sound
	if(!pSample->m_pData || pSample->m_Rate == m_MixingRate)
		return;

	// allocate new data
	NumFrames = (int)((pSample->m_NumFrames/(float)pSample->m_Rate)*m_MixingRate);
	pNewData = (short *)mem_alloc(NumFrames*pSample->m_Channels*sizeof(short), 1);
	
	for(int i = 0; i < NumFrames; i++)
	{
		// resample TODO: this should be done better, like linear atleast
		float a = i/(float)NumFrames;
		int f = (int)(a*pSample->m_NumFrames);
		if(f >= pSample->m_NumFrames)
			f = pSample->m_NumFrames-1;
		
		// set new data
		if(pSample->m_Channels == 1)
			pNewData[i] = pSample->m_pData[f];
		else if(pSample->m_Channels == 2)
		{
			pNewData[i*2] = pSample->m_pData[f*2];
			pNewData[i*2+1] = pSample->m_pData[f*2+1];
		}
	}
	
	// free old data and apply new
	mem_free(pSample->m_pData);
	pSample->m_pData = pNewData;
	pSample->m_NumFrames = NumFrames;
}

int CSound::ReadData(void *pBuffer, int Size)
{
	return io_read(ms_File, pBuffer, Size);
}

int CSound::LoadWV(const char *pFilename)
{
	CSample *pSample;
	int SampleId = -1;
	char aError[100];
	WavpackContext *pContext;
	
	// don't waste memory on sound when we are stress testing
	if(g_Config.m_DbgStress)
		return -1;
		
	// no need to load sound when we are running with no sound
	if(!m_SoundEnabled)
		return 1;
		
	if(!m_pStorage)
		return -1;

	ms_File = m_pStorage->OpenFile(pFilename, IOFLAG_READ); // TODO: use system.h stuff for this
	if(!ms_File)
	{
		dbg_msg("sound/wv", "failed to open %s", pFilename);
		return -1;
	}

	SampleId = AllocId();
	if(SampleId < 0)
		return -1;
	pSample = &m_aSamples[SampleId];

	pContext = WavpackOpenFileInput(ReadData, aError);
	if (pContext)
	{
		int m_aSamples = WavpackGetNumSamples(pContext);
		int BitsPerSample = WavpackGetBitsPerSample(pContext);
		unsigned int SampleRate = WavpackGetSampleRate(pContext);
		int m_aChannels = WavpackGetNumChannels(pContext);
		int *pData;
		int *pSrc;
		short *pDst;
		int i;

		pSample->m_Channels = m_aChannels;
		pSample->m_Rate = SampleRate;

		if(pSample->m_Channels > 2)
		{
			dbg_msg("sound/wv", "file is not mono or stereo. filename='%s'", pFilename);
			return -1;
		}

		/*
		if(snd->rate != 44100)
		{
			dbg_msg("sound/wv", "file is %d Hz, not 44100 Hz. filename='%s'", snd->rate, filename);
			return -1;
		}*/
		
		if(BitsPerSample != 16)
		{
			dbg_msg("sound/wv", "bps is %d, not 16, filname='%s'", BitsPerSample, pFilename);
			return -1;
		}

		pData = (int *)mem_alloc(4*m_aSamples*m_aChannels, 1);
		WavpackUnpackSamples(pContext, pData, m_aSamples); // TODO: check return value
		pSrc = pData;
		
		pSample->m_pData = (short *)mem_alloc(2*m_aSamples*m_aChannels, 1);
		pDst = pSample->m_pData;

		for (i = 0; i < m_aSamples*m_aChannels; i++)
			*pDst++ = (short)*pSrc++;

		mem_free(pData);

		pSample->m_NumFrames = m_aSamples;
		pSample->m_LoopStart = -1;
		pSample->m_LoopEnd = -1;
	}
	else
	{
		dbg_msg("sound/wv", "failed to open %s: %s", pFilename, aError);
	}

	io_close(ms_File);
	ms_File = NULL;

	if(g_Config.m_Debug)
		dbg_msg("sound/wv", "loaded %s", pFilename);

	RateConvert(SampleId);
	return SampleId;
}

void CSound::SetListenerPos(float x, float y)
{
	m_CenterX = (int)x;
	m_CenterY = (int)y;
}
	

void CSound::SetChannel(int ChannelId, float Vol, float Pan)
{
	m_aChannels[ChannelId].m_Vol = (int)(Vol*255.0f);
	m_aChannels[ChannelId].m_Pan = (int)(Pan*255.0f); // TODO: this is only on and off right now
}

int CSound::Play(int ChannelId, int SampleId, int Flags, float x, float y)
{
	int VoiceId = -1;
	int i;
	
	lock_wait(m_SoundLock);
	
	// search for voice
	for(i = 0; i < NUM_VOICES; i++)
	{
		int id = (m_NextVoice + i) % NUM_VOICES;
		if(!m_aVoices[id].m_pSample)
		{
			VoiceId = id;
			m_NextVoice = id+1;
			break;
		}
	}
	
	// voice found, use it
	if(VoiceId != -1)
	{
		m_aVoices[VoiceId].m_pSample = &m_aSamples[SampleId];
		m_aVoices[VoiceId].m_pChannel = &m_aChannels[ChannelId];
		m_aVoices[VoiceId].m_Tick = 0;
		m_aVoices[VoiceId].m_Vol = 255;
		m_aVoices[VoiceId].m_Flags = Flags;
		m_aVoices[VoiceId].m_X = (int)x;
		m_aVoices[VoiceId].m_Y = (int)y;
	}
	
	lock_release(m_SoundLock);
	return VoiceId;
}

int CSound::PlayAt(int ChannelId, int SampleId, int Flags, float x, float y)
{
	return Play(ChannelId, SampleId, Flags|ISound::FLAG_POS, x, y);
}

int CSound::Play(int ChannelId, int SampleId, int Flags)
{
	return Play(ChannelId, SampleId, Flags, 0, 0);
}

void CSound::Stop(int VoiceId)
{
	// TODO: a nice fade out
	lock_wait(m_SoundLock);
	m_aVoices[VoiceId].m_pSample = 0;
	lock_release(m_SoundLock);
}

void CSound::StopAll()
{
	// TODO: a nice fade out
	lock_wait(m_SoundLock);
	for(int i = 0; i < NUM_VOICES; i++)
	{
		m_aVoices[i].m_pSample = 0;
	}
	lock_release(m_SoundLock);
}

IOHANDLE CSound::ms_File = 0;

IEngineSound *CreateEngineSound() { return new CSound; }