Added MS ADPCM decoder from SDL2

This commit is contained in:
Robert Beckebans 2013-01-05 17:02:48 +01:00
parent 0b66e57359
commit 5bef3a327f
4 changed files with 603 additions and 39 deletions

View file

@ -4,6 +4,8 @@
Doom 3 BFG Edition GPL Source Code Doom 3 BFG Edition GPL Source Code
Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company. Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company.
Copyright (C) 2013 Robert Beckebans Copyright (C) 2013 Robert Beckebans
Copyright (C) 1997-2012 Sam Lantinga <slouken@libsdl.org> (MS ADPCM decoder)
Copyright (c) 2011 Chris Robinson <chris.kcat@gmail.com> (OpenAL helpers)
This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code"). This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").
@ -260,28 +262,8 @@ void idSoundSample_OpenAL::LoadResource()
} }
} }
// build OpenAL buffer // upload PCM data to OpenAL
alGetError(); CreateOpenALBuffer();
alGenBuffers( 1, &openalBuffer );
if( alGetError() != AL_NO_ERROR )
{
common->Error( "idSoundSample_OpenAL::MakeDefault: error generating OpenAL hardware buffer" );
}
if( alIsBuffer( openalBuffer ) )
{
alGetError();
// RB: TODO decode idWaveFile::FORMAT_ADPCM to idWaveFile::FORMAT_PCM
// and build one big OpenAL buffer using the alBufferSubData extension
alBufferData( openalBuffer, GetOpenALBufferFormat(), buffers[0].buffer, buffers[0].bufferSize, format.basic.samplesPerSec );
if( alGetError() != AL_NO_ERROR )
{
common->Error( "idSoundSample_OpenAL::MakeDefault: error loading data into OpenAL hardware buffer" );
}
}
return; return;
} }
@ -295,6 +277,88 @@ void idSoundSample_OpenAL::LoadResource()
return; return;
} }
void idSoundSample_OpenAL::CreateOpenALBuffer()
{
// build OpenAL buffer
alGetError();
alGenBuffers( 1, &openalBuffer );
if( alGetError() != AL_NO_ERROR )
{
common->Error( "idSoundSample_OpenAL::CreateOpenALBuffer: error generating OpenAL hardware buffer" );
}
if( alIsBuffer( openalBuffer ) )
{
alGetError();
// RB: TODO decode idWaveFile::FORMAT_ADPCM to idWaveFile::FORMAT_PCM
// and build one big OpenAL buffer using the alBufferSubData extension
void* buffer = NULL;
uint32 bufferSize = 0;
if( format.basic.formatTag == idWaveFile::FORMAT_ADPCM )
{
buffer = buffers[0].buffer;
bufferSize = buffers[0].bufferSize;
if( MS_ADPCM_decode( ( uint8** ) &buffer, &bufferSize ) < 0 )
{
common->Error( "idSoundSample_OpenAL::CreateOpenALBuffer: could not decode ADPCM '%s' to 16 bit format", GetName() );
}
buffers[0].buffer = buffer;
buffers[0].bufferSize = bufferSize;
totalBufferSize = bufferSize;
}
else if( format.basic.formatTag == idWaveFile::FORMAT_XMA2 )
{
common->Error( "idSoundSample_OpenAL::CreateOpenALBuffer: could not decode XMA2 '%s' to 16 bit format", GetName() );
}
else if( format.basic.formatTag == idWaveFile::FORMAT_EXTENSIBLE )
{
common->Error( "idSoundSample_OpenAL::CreateOpenALBuffer: could not decode extensible WAV format '%s' to 16 bit format", GetName() );
}
else
{
// TODO concatenate buffers
assert( buffers.Num() == 1 );
buffer = buffers[0].buffer;
bufferSize = buffers[0].bufferSize;
}
#if 0
if( alIsExtensionPresent( "AL_SOFT_buffer_samples" ) )
{
ALenum type = AL_SHORT_SOFT;
if( format.basic.bitsPerSample != 16 )
{
//common->Error( "idSoundSample_OpenAL::LoadResource: '%s' not a 16 bit format", GetName() );
}
ALenum channels = NumChannels() == 1 ? AL_MONO_SOFT : AL_STEREO_SOFT;
ALenum alFormat = GetOpenALSoftFormat( channels, type );
alBufferSamplesSOFT( openalBuffer, format.basic.samplesPerSec, alFormat, BytesToFrames( bufferSize, channels, type ), channels, type, buffer );
}
else
#endif
{
alBufferData( openalBuffer, GetOpenALBufferFormat(), buffer, bufferSize, format.basic.samplesPerSec );
}
if( alGetError() != AL_NO_ERROR )
{
common->Error( "idSoundSample_OpenAL::CreateOpenALBuffer: error loading data into OpenAL hardware buffer" );
}
}
}
/* /*
======================== ========================
idSoundSample_OpenAL::LoadWav idSoundSample_OpenAL::LoadWav
@ -618,28 +682,498 @@ float idSoundSample_OpenAL::GetAmplitude( int timeMS ) const
} }
const char* idSoundSample_OpenAL::OpenALSoftChannelsName( ALenum chans ) const
{
switch( chans )
{
case AL_MONO_SOFT:
return "Mono";
case AL_STEREO_SOFT:
return "Stereo";
case AL_REAR_SOFT:
return "Rear";
case AL_QUAD_SOFT:
return "Quadraphonic";
case AL_5POINT1_SOFT:
return "5.1 Surround";
case AL_6POINT1_SOFT:
return "6.1 Surround";
case AL_7POINT1_SOFT:
return "7.1 Surround";
}
return "Unknown Channels";
}
const char* idSoundSample_OpenAL::OpenALSoftTypeName( ALenum type ) const
{
switch( type )
{
case AL_BYTE_SOFT:
return "S8";
case AL_UNSIGNED_BYTE_SOFT:
return "U8";
case AL_SHORT_SOFT:
return "S16";
case AL_UNSIGNED_SHORT_SOFT:
return "U16";
case AL_INT_SOFT:
return "S32";
case AL_UNSIGNED_INT_SOFT:
return "U32";
case AL_FLOAT_SOFT:
return "Float32";
case AL_DOUBLE_SOFT:
return "Float64";
}
return "Unknown Type";
}
ALsizei idSoundSample_OpenAL::FramesToBytes( ALsizei size, ALenum channels, ALenum type ) const
{
switch( channels )
{
case AL_MONO_SOFT:
size *= 1;
break;
case AL_STEREO_SOFT:
size *= 2;
break;
case AL_REAR_SOFT:
size *= 2;
break;
case AL_QUAD_SOFT:
size *= 4;
break;
case AL_5POINT1_SOFT:
size *= 6;
break;
case AL_6POINT1_SOFT:
size *= 7;
break;
case AL_7POINT1_SOFT:
size *= 8;
break;
}
switch( type )
{
case AL_BYTE_SOFT:
size *= sizeof( ALbyte );
break;
case AL_UNSIGNED_BYTE_SOFT:
size *= sizeof( ALubyte );
break;
case AL_SHORT_SOFT:
size *= sizeof( ALshort );
break;
case AL_UNSIGNED_SHORT_SOFT:
size *= sizeof( ALushort );
break;
case AL_INT_SOFT:
size *= sizeof( ALint );
break;
case AL_UNSIGNED_INT_SOFT:
size *= sizeof( ALuint );
break;
case AL_FLOAT_SOFT:
size *= sizeof( ALfloat );
break;
case AL_DOUBLE_SOFT:
size *= sizeof( ALdouble );
break;
}
return size;
}
ALsizei idSoundSample_OpenAL::BytesToFrames( ALsizei size, ALenum channels, ALenum type ) const
{
return size / FramesToBytes( 1, channels, type );
}
ALenum idSoundSample_OpenAL::GetOpenALSoftFormat( ALenum channels, ALenum type ) const
{
ALenum format = AL_NONE;
/* If using AL_SOFT_buffer_samples, try looking through its formats */
if( alIsExtensionPresent( "AL_SOFT_buffer_samples" ) )
{
/* AL_SOFT_buffer_samples is more lenient with matching formats. The
* specified sample type does not need to match the returned format,
* but it is nice to try to get something close. */
if( type == AL_UNSIGNED_BYTE_SOFT || type == AL_BYTE_SOFT )
{
if( channels == AL_MONO_SOFT ) format = AL_MONO8_SOFT;
else if( channels == AL_STEREO_SOFT ) format = AL_STEREO8_SOFT;
else if( channels == AL_QUAD_SOFT ) format = AL_QUAD8_SOFT;
else if( channels == AL_5POINT1_SOFT ) format = AL_5POINT1_8_SOFT;
else if( channels == AL_6POINT1_SOFT ) format = AL_6POINT1_8_SOFT;
else if( channels == AL_7POINT1_SOFT ) format = AL_7POINT1_8_SOFT;
}
else if( type == AL_UNSIGNED_SHORT_SOFT || type == AL_SHORT_SOFT )
{
if( channels == AL_MONO_SOFT ) format = AL_MONO16_SOFT;
else if( channels == AL_STEREO_SOFT ) format = AL_STEREO16_SOFT;
else if( channels == AL_QUAD_SOFT ) format = AL_QUAD16_SOFT;
else if( channels == AL_5POINT1_SOFT ) format = AL_5POINT1_16_SOFT;
else if( channels == AL_6POINT1_SOFT ) format = AL_6POINT1_16_SOFT;
else if( channels == AL_7POINT1_SOFT ) format = AL_7POINT1_16_SOFT;
}
else if( type == AL_UNSIGNED_BYTE3_SOFT || type == AL_BYTE3_SOFT ||
type == AL_UNSIGNED_INT_SOFT || type == AL_INT_SOFT ||
type == AL_FLOAT_SOFT || type == AL_DOUBLE_SOFT )
{
if( channels == AL_MONO_SOFT ) format = AL_MONO32F_SOFT;
else if( channels == AL_STEREO_SOFT ) format = AL_STEREO32F_SOFT;
else if( channels == AL_QUAD_SOFT ) format = AL_QUAD32F_SOFT;
else if( channels == AL_5POINT1_SOFT ) format = AL_5POINT1_32F_SOFT;
else if( channels == AL_6POINT1_SOFT ) format = AL_6POINT1_32F_SOFT;
else if( channels == AL_7POINT1_SOFT ) format = AL_7POINT1_32F_SOFT;
}
if( format != AL_NONE && !alIsBufferFormatSupportedSOFT( format ) )
format = AL_NONE;
/* A matching format was not found or supported. Try 32-bit float. */
if( format == AL_NONE )
{
if( channels == AL_MONO_SOFT ) format = AL_MONO32F_SOFT;
else if( channels == AL_STEREO_SOFT ) format = AL_STEREO32F_SOFT;
else if( channels == AL_QUAD_SOFT ) format = AL_QUAD32F_SOFT;
else if( channels == AL_5POINT1_SOFT ) format = AL_5POINT1_32F_SOFT;
else if( channels == AL_6POINT1_SOFT ) format = AL_6POINT1_32F_SOFT;
else if( channels == AL_7POINT1_SOFT ) format = AL_7POINT1_32F_SOFT;
if( format != AL_NONE && !alIsBufferFormatSupportedSOFT( format ) )
format = AL_NONE;
}
/* 32-bit float not supported. Try 16-bit int. */
if( format == AL_NONE )
{
if( channels == AL_MONO_SOFT ) format = AL_MONO16_SOFT;
else if( channels == AL_STEREO_SOFT ) format = AL_STEREO16_SOFT;
else if( channels == AL_QUAD_SOFT ) format = AL_QUAD16_SOFT;
else if( channels == AL_5POINT1_SOFT ) format = AL_5POINT1_16_SOFT;
else if( channels == AL_6POINT1_SOFT ) format = AL_6POINT1_16_SOFT;
else if( channels == AL_7POINT1_SOFT ) format = AL_7POINT1_16_SOFT;
if( format != AL_NONE && !alIsBufferFormatSupportedSOFT( format ) )
format = AL_NONE;
}
/* 16-bit int not supported. Try 8-bit int. */
if( format == AL_NONE )
{
if( channels == AL_MONO_SOFT ) format = AL_MONO8_SOFT;
else if( channels == AL_STEREO_SOFT ) format = AL_STEREO8_SOFT;
else if( channels == AL_QUAD_SOFT ) format = AL_QUAD8_SOFT;
else if( channels == AL_5POINT1_SOFT ) format = AL_5POINT1_8_SOFT;
else if( channels == AL_6POINT1_SOFT ) format = AL_6POINT1_8_SOFT;
else if( channels == AL_7POINT1_SOFT ) format = AL_7POINT1_8_SOFT;
if( format != AL_NONE && !alIsBufferFormatSupportedSOFT( format ) )
format = AL_NONE;
}
return format;
}
/* We use the AL_EXT_MCFORMATS extension to provide output of Quad, 5.1,
* and 7.1 channel configs, AL_EXT_FLOAT32 for 32-bit float samples, and
* AL_EXT_DOUBLE for 64-bit float samples. */
if( type == AL_UNSIGNED_BYTE_SOFT )
{
if( channels == AL_MONO_SOFT )
format = AL_FORMAT_MONO8;
else if( channels == AL_STEREO_SOFT )
format = AL_FORMAT_STEREO8;
else if( alIsExtensionPresent( "AL_EXT_MCFORMATS" ) )
{
if( channels == AL_QUAD_SOFT )
format = alGetEnumValue( "AL_FORMAT_QUAD8" );
else if( channels == AL_5POINT1_SOFT )
format = alGetEnumValue( "AL_FORMAT_51CHN8" );
else if( channels == AL_6POINT1_SOFT )
format = alGetEnumValue( "AL_FORMAT_61CHN8" );
else if( channels == AL_7POINT1_SOFT )
format = alGetEnumValue( "AL_FORMAT_71CHN8" );
}
}
else if( type == AL_SHORT_SOFT )
{
if( channels == AL_MONO_SOFT )
format = AL_FORMAT_MONO16;
else if( channels == AL_STEREO_SOFT )
format = AL_FORMAT_STEREO16;
else if( alIsExtensionPresent( "AL_EXT_MCFORMATS" ) )
{
if( channels == AL_QUAD_SOFT )
format = alGetEnumValue( "AL_FORMAT_QUAD16" );
else if( channels == AL_5POINT1_SOFT )
format = alGetEnumValue( "AL_FORMAT_51CHN16" );
else if( channels == AL_6POINT1_SOFT )
format = alGetEnumValue( "AL_FORMAT_61CHN16" );
else if( channels == AL_7POINT1_SOFT )
format = alGetEnumValue( "AL_FORMAT_71CHN16" );
}
}
else if( type == AL_FLOAT_SOFT && alIsExtensionPresent( "AL_EXT_FLOAT32" ) )
{
if( channels == AL_MONO_SOFT )
format = alGetEnumValue( "AL_FORMAT_MONO_FLOAT32" );
else if( channels == AL_STEREO_SOFT )
format = alGetEnumValue( "AL_FORMAT_STEREO_FLOAT32" );
else if( alIsExtensionPresent( "AL_EXT_MCFORMATS" ) )
{
if( channels == AL_QUAD_SOFT )
format = alGetEnumValue( "AL_FORMAT_QUAD32" );
else if( channels == AL_5POINT1_SOFT )
format = alGetEnumValue( "AL_FORMAT_51CHN32" );
else if( channels == AL_6POINT1_SOFT )
format = alGetEnumValue( "AL_FORMAT_61CHN32" );
else if( channels == AL_7POINT1_SOFT )
format = alGetEnumValue( "AL_FORMAT_71CHN32" );
}
}
else if( type == AL_DOUBLE_SOFT && alIsExtensionPresent( "AL_EXT_DOUBLE" ) )
{
if( channels == AL_MONO_SOFT )
format = alGetEnumValue( "AL_FORMAT_MONO_DOUBLE" );
else if( channels == AL_STEREO_SOFT )
format = alGetEnumValue( "AL_FORMAT_STEREO_DOUBLE" );
}
/* NOTE: It seems OSX returns -1 from alGetEnumValue for unknown enums, as
* opposed to 0. Correct it. */
if( format == -1 )
format = 0;
return format;
}
ALenum idSoundSample_OpenAL::GetOpenALBufferFormat() const ALenum idSoundSample_OpenAL::GetOpenALBufferFormat() const
{ {
ALenum alFormat; ALenum alFormat;
if( format.basic.formatTag == idWaveFile::FORMAT_PCM ) #if 0
if( alIsExtensionPresent( "AL_SOFT_buffer_samples" ) )
{ {
alFormat = NumChannels() == 1 ? AL_FORMAT_MONO16 : AL_FORMAT_STEREO16; if( format.basic.formatTag == idWaveFile::FORMAT_PCM )
} {
else if( format.basic.formatTag == idWaveFile::FORMAT_ADPCM ) alFormat = NumChannels() == 1 ? AL_MONO16_SOFT : AL_STEREO16_SOFT;
{ }
alFormat = NumChannels() == 1 ? AL_FORMAT_MONO16 : AL_FORMAT_STEREO16; else if( format.basic.formatTag == idWaveFile::FORMAT_ADPCM )
//alFormat = NumChannels() == 1 ? AL_FORMAT_IMA_ADPCM_MONO16_EXT : AL_FORMAT_IMA_ADPCM_STEREO16_EXT; {
} alFormat = NumChannels() == 1 ? AL_MONO8_SOFT : AL_STEREO8_SOFT;
else if( format.basic.formatTag == idWaveFile::FORMAT_XMA2 ) //alFormat = NumChannels() == 1 ? AL_MONO16_SOFT : AL_STEREO16_SOFT;
{ }
alFormat = NumChannels() == 1 ? AL_FORMAT_MONO16 : AL_FORMAT_STEREO16; else if( format.basic.formatTag == idWaveFile::FORMAT_XMA2 )
{
alFormat = NumChannels() == 1 ? AL_MONO16_SOFT : AL_STEREO16_SOFT;
}
else
{
alFormat = NumChannels() == 1 ? AL_MONO16_SOFT : AL_STEREO16_SOFT;
}
if( !alIsBufferFormatSupportedSOFT( alFormat ) )
{
alFormat = NumChannels() == 1 ? AL_FORMAT_MONO16 : AL_FORMAT_STEREO16;
}
} }
else else
#endif
{ {
alFormat = NumChannels() == 1 ? AL_FORMAT_MONO16 : AL_FORMAT_STEREO16; if( format.basic.formatTag == idWaveFile::FORMAT_PCM )
{
alFormat = NumChannels() == 1 ? AL_FORMAT_MONO16 : AL_FORMAT_STEREO16;
}
else if( format.basic.formatTag == idWaveFile::FORMAT_ADPCM )
{
//alFormat = NumChannels() == 1 ? AL_FORMAT_MONO8 : AL_FORMAT_STEREO8;
alFormat = NumChannels() == 1 ? AL_FORMAT_MONO16 : AL_FORMAT_STEREO16;
//alFormat = NumChannels() == 1 ? AL_FORMAT_MONO_IMA4 : AL_FORMAT_STEREO_IMA4;
}
else if( format.basic.formatTag == idWaveFile::FORMAT_XMA2 )
{
alFormat = NumChannels() == 1 ? AL_FORMAT_MONO16 : AL_FORMAT_STEREO16;
}
else
{
alFormat = NumChannels() == 1 ? AL_FORMAT_MONO16 : AL_FORMAT_STEREO16;
}
} }
return alFormat; return alFormat;
} }
int32 idSoundSample_OpenAL::MS_ADPCM_nibble( MS_ADPCM_decodeState_t* state, int8 nybble, int16* coeff )
{
const int32 max_audioval = ( ( 1 << ( 16 - 1 ) ) - 1 );
const int32 min_audioval = -( 1 << ( 16 - 1 ) );
const int32 adaptive[] =
{
230, 230, 230, 230, 307, 409, 512, 614,
768, 614, 512, 409, 307, 230, 230, 230
};
int32 new_sample, delta;
new_sample = ( ( state->iSamp1 * coeff[0] ) +
( state->iSamp2 * coeff[1] ) ) / 256;
if( nybble & 0x08 )
{
new_sample += state->iDelta * ( nybble - 0x10 );
}
else
{
new_sample += state->iDelta * nybble;
}
if( new_sample < min_audioval )
{
new_sample = min_audioval;
}
else if( new_sample > max_audioval )
{
new_sample = max_audioval;
}
delta = ( ( int32 ) state->iDelta * adaptive[nybble] ) / 256;
if( delta < 16 )
{
delta = 16;
}
state->iDelta = ( uint16 ) delta;
state->iSamp2 = state->iSamp1;
state->iSamp1 = ( int16 ) new_sample;
return ( new_sample );
}
int idSoundSample_OpenAL::MS_ADPCM_decode( uint8** audio_buf, uint32* audio_len )
{
static MS_ADPCM_decodeState_t state[2];
uint8* freeable, *encoded, *decoded;
int32 encoded_len, samplesleft;
int8 nybble;
bool stereo;
int16* coeff[2];
int32 new_sample;
// Allocate the proper sized output buffer
encoded_len = *audio_len;
encoded = *audio_buf;
freeable = *audio_buf;
/*
*audio_len = ( encoded_len / MS_ADPCM_state.wavefmt.blockalign ) *
MS_ADPCM_state.wSamplesPerBlock *
MS_ADPCM_state.wavefmt.channels * sizeof( int16 );
*/
*audio_len = ( encoded_len / format.basic.blockSize ) * format.extra.adpcm.samplesPerBlock * format.basic.numChannels * sizeof( int16 );
*audio_buf = ( uint8* ) Mem_Alloc( *audio_len, TAG_AUDIO );
if( *audio_buf == NULL )
{
//SDL_Error( SDL_ENOMEM );
return ( -1 );
}
decoded = *audio_buf;
// Get ready... Go!
stereo = ( format.basic.numChannels == 2 );
//state[0] = &MS_ADPCM_state.state[0];
//state[1] = &MS_ADPCM_state.state[stereo];
while( encoded_len >= format.basic.blockSize )
{
// Grab the initial information for this block
state[0].hPredictor = *encoded++;
if( stereo )
{
state[1].hPredictor = *encoded++;
}
state[0].iDelta = ( ( encoded[1] << 8 ) | encoded[0] );
encoded += sizeof( int16 );
if( stereo )
{
state[1].iDelta = ( ( encoded[1] << 8 ) | encoded[0] );
encoded += sizeof( int16 );
}
state[0].iSamp1 = ( ( encoded[1] << 8 ) | encoded[0] );
encoded += sizeof( int16 );
if( stereo )
{
state[1].iSamp1 = ( ( encoded[1] << 8 ) | encoded[0] );
encoded += sizeof( int16 );
}
state[0].iSamp2 = ( ( encoded[1] << 8 ) | encoded[0] );
encoded += sizeof( int16 );
if( stereo )
{
state[1].iSamp2 = ( ( encoded[1] << 8 ) | encoded[0] );
encoded += sizeof( int16 );
}
assert( state[0].hPredictor < format.extra.adpcm.numCoef );
assert( state[1].hPredictor < format.extra.adpcm.numCoef );
coeff[0] = &format.extra.adpcm.aCoef[state[0].hPredictor].coef1;
coeff[1] = &format.extra.adpcm.aCoef[state[1].hPredictor].coef2;
// Store the two initial samples we start with
decoded[0] = state[0].iSamp2 & 0xFF;
decoded[1] = state[0].iSamp2 >> 8;
decoded += 2;
if( stereo )
{
decoded[0] = state[1].iSamp2 & 0xFF;
decoded[1] = state[1].iSamp2 >> 8;
decoded += 2;
}
decoded[0] = state[0].iSamp1 & 0xFF;
decoded[1] = state[0].iSamp1 >> 8;
decoded += 2;
if( stereo )
{
decoded[0] = state[1].iSamp1 & 0xFF;
decoded[1] = state[1].iSamp1 >> 8;
decoded += 2;
}
// Decode and store the other samples in this block
samplesleft = ( format.extra.adpcm.samplesPerBlock - 2 ) * format.basic.numChannels;
while( samplesleft > 0 )
{
nybble = ( *encoded ) >> 4;
new_sample = MS_ADPCM_nibble( &state[0], nybble, coeff[0] );
decoded[0] = new_sample & 0xFF;
new_sample >>= 8;
decoded[1] = new_sample & 0xFF;
decoded += 2;
nybble = ( *encoded ) & 0x0F;
new_sample = MS_ADPCM_nibble( &state[1], nybble, coeff[1] );
decoded[0] = new_sample & 0xFF;
new_sample >>= 8;
decoded[1] = new_sample & 0xFF;
decoded += 2;
++encoded;
samplesleft -= 2;
}
encoded_len -= format.basic.blockSize;
}
Mem_Free( freeable );
return 0;
}

View file

@ -130,8 +130,24 @@ public:
float GetAmplitude( int timeMS ) const; float GetAmplitude( int timeMS ) const;
const char* OpenALSoftChannelsName( ALenum chans ) const;
const char* OpenALSoftTypeName( ALenum type ) const;
ALsizei FramesToBytes( ALsizei size, ALenum channels, ALenum type ) const;
ALsizei BytesToFrames( ALsizei size, ALenum channels, ALenum type ) const;
/* Retrieves a compatible buffer format given the channel configuration and
* sample type. If an alIsBufferFormatSupportedSOFT-compatible function is
* provided, it will be called to find the closest-matching format from
* AL_SOFT_buffer_samples. Returns AL_NONE (0) if no supported format can be
* found. */
ALenum GetOpenALSoftFormat( ALenum channels, ALenum type ) const;
ALenum GetOpenALBufferFormat() const; ALenum GetOpenALBufferFormat() const;
void CreateOpenALBuffer();
protected: protected:
friend class idSoundHardware_OpenAL; friend class idSoundHardware_OpenAL;
friend class idSoundVoice_OpenAL; friend class idSoundVoice_OpenAL;
@ -144,6 +160,17 @@ protected:
bool LoadGeneratedSample( const idStr& name ); bool LoadGeneratedSample( const idStr& name );
void WriteGeneratedSample( idFile* fileOut ); void WriteGeneratedSample( idFile* fileOut );
struct MS_ADPCM_decodeState_t
{
uint8 hPredictor;
uint16 iDelta;
int16 iSamp1;
int16 iSamp2;
};
int32 MS_ADPCM_nibble( MS_ADPCM_decodeState_t* state, int8 nybble, int16* coeff );
int MS_ADPCM_decode( uint8** audio_buf, uint32* audio_len );
struct sampleBuffer_t struct sampleBuffer_t
{ {
void* buffer; void* buffer;

View file

@ -31,7 +31,7 @@ If you have questions concerning this license or the applicable additional terms
#include "../snd_local.h" #include "../snd_local.h"
idCVar s_skipHardwareSets( "s_skipHardwareSets", "0", CVAR_BOOL, "Do all calculation, but skip XA2 calls" ); idCVar s_skipHardwareSets( "s_skipHardwareSets", "0", CVAR_BOOL, "Do all calculation, but skip XA2 calls" );
idCVar s_debugHardware( "s_debugHardware", "1", CVAR_BOOL, "Print a message any time a hardware voice changes" ); idCVar s_debugHardware( "s_debugHardware", "0", CVAR_BOOL, "Print a message any time a hardware voice changes" );
// The whole system runs at this sample rate // The whole system runs at this sample rate
static int SYSTEM_SAMPLE_RATE = 44100; static int SYSTEM_SAMPLE_RATE = 44100;
@ -170,10 +170,11 @@ void idSoundVoice_OpenAL::Create( const idSoundSample* leadinSample_, const idSo
*/ */
} }
else else
{
//if( triggered )
// handle streaming sounds (decode on the fly) both single shot AND looping // handle streaming sounds (decode on the fly) both single shot AND looping
//if( triggered )
{
alSourcei( openalSource, AL_BUFFER, 0 ); alSourcei( openalSource, AL_BUFFER, 0 );
alDeleteBuffers( 3, &lastopenalStreamingBuffer[0] ); alDeleteBuffers( 3, &lastopenalStreamingBuffer[0] );
lastopenalStreamingBuffer[0] = openalStreamingBuffer[0]; lastopenalStreamingBuffer[0] = openalStreamingBuffer[0];
@ -213,7 +214,7 @@ void idSoundVoice_OpenAL::Create( const idSoundSample* leadinSample_, const idSo
alSource3f( openalSource, AL_POSITION, 0.0f, 0.0f, 0.0f ); alSource3f( openalSource, AL_POSITION, 0.0f, 0.0f, 0.0f );
// RB: FIXME 0.0f ? // RB: FIXME 0.0f ?
alSourcef( openalSource, AL_GAIN, 0.0f ); alSourcef( openalSource, AL_GAIN, 1.0f );
//OnBufferStart( leadinSample, 0 ); //OnBufferStart( leadinSample, 0 );
} }

View file

@ -95,6 +95,8 @@ typedef enum
#if defined(USE_OPENAL) #if defined(USE_OPENAL)
#define AL_ALEXT_PROTOTYPES
#include <AL/al.h> #include <AL/al.h>
#include <AL/alc.h> #include <AL/alc.h>
#include <AL/alext.h> #include <AL/alext.h>