doom3-bfg/neo/sound/XAudio2/XA2_SoundHardware.cpp
2013-01-04 22:51:30 +01:00

662 lines
19 KiB
C++

/*
===========================================================================
Doom 3 BFG Edition GPL Source Code
Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company.
Copyright (C) 2013 Robert Beckebans
This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").
Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Doom 3 BFG Edition Source Code is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Doom 3 BFG Edition Source Code. If not, see <http://www.gnu.org/licenses/>.
In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code. If not, please request a copy in writing from id Software at the address below.
If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
===========================================================================
*/
#pragma hdrstop
#include "precompiled.h"
#include "../snd_local.h"
#include "../../../doomclassic/doom/i_sound.h"
idCVar s_showLevelMeter( "s_showLevelMeter", "0", CVAR_BOOL | CVAR_ARCHIVE, "Show VU meter" );
idCVar s_meterTopTime( "s_meterTopTime", "1000", CVAR_INTEGER | CVAR_ARCHIVE, "How long (in milliseconds) peaks are displayed on the VU meter" );
idCVar s_meterPosition( "s_meterPosition", "100 100 20 200", CVAR_ARCHIVE, "VU meter location (x y w h)" );
idCVar s_device( "s_device", "-1", CVAR_INTEGER | CVAR_ARCHIVE, "Which audio device to use (listDevices to list, -1 for default)" );
idCVar s_showPerfData( "s_showPerfData", "0", CVAR_BOOL, "Show XAudio2 Performance data" );
extern idCVar s_volume_dB;
/*
========================
idSoundHardware_XAudio2::idSoundHardware_XAudio2
========================
*/
idSoundHardware_XAudio2::idSoundHardware_XAudio2()
{
pXAudio2 = NULL;
pMasterVoice = NULL;
pSubmixVoice = NULL;
vuMeterRMS = NULL;
vuMeterPeak = NULL;
outputChannels = 0;
channelMask = 0;
voices.SetNum( 0 );
zombieVoices.SetNum( 0 );
freeVoices.SetNum( 0 );
lastResetTime = 0;
}
void listDevices_f( const idCmdArgs& args )
{
IXAudio2* pXAudio2 = soundSystemLocal.hardware.GetIXAudio2();
if( pXAudio2 == NULL )
{
idLib::Warning( "No xaudio object" );
return;
}
// RB: not available on Windows 8 SDK
#if defined(USE_WINRT) //(_WIN32_WINNT >= 0x0602 /*_WIN32_WINNT_WIN8*/)
// FIXME
idLib::Warning( "No audio devices found" );
return;
#else
UINT32 deviceCount = 0;
if( pXAudio2->GetDeviceCount( &deviceCount ) != S_OK || deviceCount == 0 )
{
idLib::Warning( "No audio devices found" );
return;
}
for( unsigned int i = 0; i < deviceCount; i++ )
{
XAUDIO2_DEVICE_DETAILS deviceDetails;
if( pXAudio2->GetDeviceDetails( i, &deviceDetails ) != S_OK )
{
continue;
}
idStaticList< const char*, 5 > roles;
if( deviceDetails.Role & DefaultConsoleDevice )
{
roles.Append( "Console Device" );
}
if( deviceDetails.Role & DefaultMultimediaDevice )
{
roles.Append( "Multimedia Device" );
}
if( deviceDetails.Role & DefaultCommunicationsDevice )
{
roles.Append( "Communications Device" );
}
if( deviceDetails.Role & DefaultGameDevice )
{
roles.Append( "Game Device" );
}
idStaticList< const char*, 11 > channelNames;
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_FRONT_LEFT )
{
channelNames.Append( "Front Left" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_FRONT_RIGHT )
{
channelNames.Append( "Front Right" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_FRONT_CENTER )
{
channelNames.Append( "Front Center" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_LOW_FREQUENCY )
{
channelNames.Append( "Low Frequency" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_BACK_LEFT )
{
channelNames.Append( "Back Left" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_BACK_RIGHT )
{
channelNames.Append( "Back Right" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_FRONT_LEFT_OF_CENTER )
{
channelNames.Append( "Front Left of Center" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_FRONT_RIGHT_OF_CENTER )
{
channelNames.Append( "Front Right of Center" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_BACK_CENTER )
{
channelNames.Append( "Back Center" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_SIDE_LEFT )
{
channelNames.Append( "Side Left" );
}
if( deviceDetails.OutputFormat.dwChannelMask & SPEAKER_SIDE_RIGHT )
{
channelNames.Append( "Side Right" );
}
char mbcsDisplayName[ 256 ];
wcstombs( mbcsDisplayName, deviceDetails.DisplayName, sizeof( mbcsDisplayName ) );
idLib::Printf( "%3d: %s\n", i, mbcsDisplayName );
idLib::Printf( " %d channels, %d Hz\n", deviceDetails.OutputFormat.Format.nChannels, deviceDetails.OutputFormat.Format.nSamplesPerSec );
if( channelNames.Num() != deviceDetails.OutputFormat.Format.nChannels )
{
idLib::Printf( S_COLOR_YELLOW "WARNING: " S_COLOR_RED "Mismatch between # of channels and channel mask\n" );
}
if( channelNames.Num() == 1 )
{
idLib::Printf( " %s\n", channelNames[0] );
}
else if( channelNames.Num() == 2 )
{
idLib::Printf( " %s and %s\n", channelNames[0], channelNames[1] );
}
else if( channelNames.Num() > 2 )
{
idLib::Printf( " %s", channelNames[0] );
for( int i = 1; i < channelNames.Num() - 1; i++ )
{
idLib::Printf( ", %s", channelNames[i] );
}
idLib::Printf( ", and %s\n", channelNames[channelNames.Num() - 1] );
}
if( roles.Num() == 1 )
{
idLib::Printf( " Default %s\n", roles[0] );
}
else if( roles.Num() == 2 )
{
idLib::Printf( " Default %s and %s\n", roles[0], roles[1] );
}
else if( roles.Num() > 2 )
{
idLib::Printf( " Default %s", roles[0] );
for( int i = 1; i < roles.Num() - 1; i++ )
{
idLib::Printf( ", %s", roles[i] );
}
idLib::Printf( ", and %s\n", roles[roles.Num() - 1] );
}
}
#endif
// RB end
}
/*
========================
idSoundHardware_XAudio2::Init
========================
*/
void idSoundHardware_XAudio2::Init()
{
cmdSystem->AddCommand( "listDevices", listDevices_f, 0, "Lists the connected sound devices", NULL );
DWORD xAudioCreateFlags = 0;
// RB: not available on Windows 8 SDK
#if !defined(USE_WINRT) && defined(_DEBUG) // (_WIN32_WINNT < 0x0602 /*_WIN32_WINNT_WIN8*/) && defined(_DEBUG)
xAudioCreateFlags |= XAUDIO2_DEBUG_ENGINE;
#endif
// RB end
XAUDIO2_PROCESSOR xAudioProcessor = XAUDIO2_DEFAULT_PROCESSOR;
// RB: not available on Windows 8 SDK
if( FAILED( XAudio2Create( &pXAudio2, xAudioCreateFlags, xAudioProcessor ) ) )
{
#if !defined(USE_WINRT) && defined(_DEBUG) // (_WIN32_WINNT < 0x0602 /*_WIN32_WINNT_WIN8*/) && defined(_DEBUG)
if( xAudioCreateFlags & XAUDIO2_DEBUG_ENGINE )
{
// in case the debug engine isn't installed
xAudioCreateFlags &= ~XAUDIO2_DEBUG_ENGINE;
if( FAILED( XAudio2Create( &pXAudio2, xAudioCreateFlags, xAudioProcessor ) ) )
{
idLib::FatalError( "Failed to create XAudio2 engine. Try installing the latest DirectX." );
return;
}
}
else
#endif
// RB end
{
idLib::FatalError( "Failed to create XAudio2 engine. Try installing the latest DirectX." );
return;
}
}
#ifdef _DEBUG
XAUDIO2_DEBUG_CONFIGURATION debugConfiguration = { 0 };
debugConfiguration.TraceMask = XAUDIO2_LOG_WARNINGS;
debugConfiguration.BreakMask = XAUDIO2_LOG_ERRORS;
pXAudio2->SetDebugConfiguration( &debugConfiguration );
#endif
// Register the sound engine callback
pXAudio2->RegisterForCallbacks( &soundEngineCallback );
soundEngineCallback.hardware = this;
// RB: not available on Windows 8 SDK
#if defined(USE_WINRT) //(_WIN32_WINNT >= 0x0602 /*_WIN32_WINNT_WIN8*/)
// FIXME
idLib::Warning( "No audio devices found" );
pXAudio2->Release();
pXAudio2 = NULL;
return;
#else
UINT32 deviceCount = 0;
if( pXAudio2->GetDeviceCount( &deviceCount ) != S_OK || deviceCount == 0 )
{
idLib::Warning( "No audio devices found" );
pXAudio2->Release();
pXAudio2 = NULL;
return;
}
idCmdArgs args;
listDevices_f( args );
int preferredDevice = s_device.GetInteger();
if( preferredDevice < 0 || preferredDevice >= ( int )deviceCount )
{
int preferredChannels = 0;
for( unsigned int i = 0; i < deviceCount; i++ )
{
XAUDIO2_DEVICE_DETAILS deviceDetails;
if( pXAudio2->GetDeviceDetails( i, &deviceDetails ) != S_OK )
{
continue;
}
if( deviceDetails.Role & DefaultGameDevice )
{
// if we find a device the user marked as their preferred 'game' device, then always use that
preferredDevice = i;
preferredChannels = deviceDetails.OutputFormat.Format.nChannels;
break;
}
if( deviceDetails.OutputFormat.Format.nChannels > preferredChannels )
{
preferredDevice = i;
preferredChannels = deviceDetails.OutputFormat.Format.nChannels;
}
}
}
idLib::Printf( "Using device %d\n", preferredDevice );
XAUDIO2_DEVICE_DETAILS deviceDetails;
if( pXAudio2->GetDeviceDetails( preferredDevice, &deviceDetails ) != S_OK )
{
// One way this could happen is if a device is removed between the loop and this line of code
// Highly unlikely but possible
idLib::Warning( "Failed to get device details" );
pXAudio2->Release();
pXAudio2 = NULL;
return;
}
DWORD outputSampleRate = 44100; // Max( (DWORD)XAUDIO2FX_REVERB_MIN_FRAMERATE, Min( (DWORD)XAUDIO2FX_REVERB_MAX_FRAMERATE, deviceDetails.OutputFormat.Format.nSamplesPerSec ) );
if( FAILED( pXAudio2->CreateMasteringVoice( &pMasterVoice, XAUDIO2_DEFAULT_CHANNELS, outputSampleRate, 0, preferredDevice, NULL ) ) )
{
idLib::Warning( "Failed to create master voice" );
pXAudio2->Release();
pXAudio2 = NULL;
return;
}
pMasterVoice->SetVolume( DBtoLinear( s_volume_dB.GetFloat() ) );
outputChannels = deviceDetails.OutputFormat.Format.nChannels;
channelMask = deviceDetails.OutputFormat.dwChannelMask;
idSoundVoice::InitSurround( outputChannels, channelMask );
// ---------------------
// Initialize the Doom classic sound system.
// ---------------------
I_InitSoundHardware( outputChannels, channelMask );
// ---------------------
// Create VU Meter Effect
// ---------------------
IUnknown* vuMeter = NULL;
XAudio2CreateVolumeMeter( &vuMeter, 0 );
XAUDIO2_EFFECT_DESCRIPTOR descriptor;
descriptor.InitialState = true;
descriptor.OutputChannels = outputChannels;
descriptor.pEffect = vuMeter;
XAUDIO2_EFFECT_CHAIN chain;
chain.EffectCount = 1;
chain.pEffectDescriptors = &descriptor;
pMasterVoice->SetEffectChain( &chain );
vuMeter->Release();
// ---------------------
// Create VU Meter Graph
// ---------------------
vuMeterRMS = console->CreateGraph( outputChannels );
vuMeterPeak = console->CreateGraph( outputChannels );
vuMeterRMS->Enable( false );
vuMeterPeak->Enable( false );
memset( vuMeterPeakTimes, 0, sizeof( vuMeterPeakTimes ) );
vuMeterPeak->SetFillMode( idDebugGraph::GRAPH_LINE );
vuMeterPeak->SetBackgroundColor( idVec4( 0.0f, 0.0f, 0.0f, 0.0f ) );
vuMeterRMS->AddGridLine( 0.500f, idVec4( 0.5f, 0.5f, 0.5f, 1.0f ) );
vuMeterRMS->AddGridLine( 0.250f, idVec4( 0.5f, 0.5f, 0.5f, 1.0f ) );
vuMeterRMS->AddGridLine( 0.125f, idVec4( 0.5f, 0.5f, 0.5f, 1.0f ) );
const char* channelNames[] = { "L", "R", "C", "S", "Lb", "Rb", "Lf", "Rf", "Cb", "Ls", "Rs" };
for( int i = 0, ci = 0; ci < sizeof( channelNames ) / sizeof( channelNames[0] ); ci++ )
{
if( ( channelMask & BIT( ci ) ) == 0 )
{
continue;
}
vuMeterRMS->SetLabel( i, channelNames[ ci ] );
i++;
}
// ---------------------
// Create submix buffer
// ---------------------
if( FAILED( pXAudio2->CreateSubmixVoice( &pSubmixVoice, 1, outputSampleRate, 0, 0, NULL, NULL ) ) )
{
idLib::FatalError( "Failed to create submix voice" );
}
// XAudio doesn't really impose a maximum number of voices
voices.SetNum( voices.Max() );
freeVoices.SetNum( voices.Max() );
zombieVoices.SetNum( 0 );
for( int i = 0; i < voices.Num(); i++ )
{
freeVoices[i] = &voices[i];
}
#endif // #if (_WIN32_WINNT < 0x0602 /*_WIN32_WINNT_WIN8*/)
// RB end
}
/*
========================
idSoundHardware_XAudio2::Shutdown
========================
*/
void idSoundHardware_XAudio2::Shutdown()
{
for( int i = 0; i < voices.Num(); i++ )
{
voices[ i ].DestroyInternal();
}
voices.Clear();
freeVoices.Clear();
zombieVoices.Clear();
// ---------------------
// Shutdown the Doom classic sound system.
// ---------------------
I_ShutdownSoundHardware();
if( pXAudio2 != NULL )
{
// Unregister the sound engine callback
pXAudio2->UnregisterForCallbacks( &soundEngineCallback );
}
if( pSubmixVoice != NULL )
{
pSubmixVoice->DestroyVoice();
pSubmixVoice = NULL;
}
if( pMasterVoice != NULL )
{
// release the vu meter effect
pMasterVoice->SetEffectChain( NULL );
pMasterVoice->DestroyVoice();
pMasterVoice = NULL;
}
if( pXAudio2 != NULL )
{
XAUDIO2_PERFORMANCE_DATA perfData;
pXAudio2->GetPerformanceData( &perfData );
idLib::Printf( "Final pXAudio2 performanceData: Voices: %d/%d CPU: %.2f%% Mem: %dkb\n", perfData.ActiveSourceVoiceCount, perfData.TotalSourceVoiceCount, perfData.AudioCyclesSinceLastQuery / ( float )perfData.TotalCyclesSinceLastQuery, perfData.MemoryUsageInBytes / 1024 );
pXAudio2->Release();
pXAudio2 = NULL;
}
if( vuMeterRMS != NULL )
{
console->DestroyGraph( vuMeterRMS );
vuMeterRMS = NULL;
}
if( vuMeterPeak != NULL )
{
console->DestroyGraph( vuMeterPeak );
vuMeterPeak = NULL;
}
}
/*
========================
idSoundHardware_XAudio2::AllocateVoice
========================
*/
idSoundVoice* idSoundHardware_XAudio2::AllocateVoice( const idSoundSample* leadinSample, const idSoundSample* loopingSample )
{
if( leadinSample == NULL )
{
return NULL;
}
if( loopingSample != NULL )
{
if( ( leadinSample->format.basic.formatTag != loopingSample->format.basic.formatTag ) || ( leadinSample->format.basic.numChannels != loopingSample->format.basic.numChannels ) )
{
idLib::Warning( "Leadin/looping format mismatch: %s & %s", leadinSample->GetName(), loopingSample->GetName() );
loopingSample = NULL;
}
}
// Try to find a free voice that matches the format
// But fallback to the last free voice if none match the format
idSoundVoice* voice = NULL;
for( int i = 0; i < freeVoices.Num(); i++ )
{
if( freeVoices[i]->IsPlaying() )
{
continue;
}
voice = ( idSoundVoice* )freeVoices[i];
if( voice->CompatibleFormat( ( idSoundSample_XAudio2* )leadinSample ) )
{
break;
}
}
if( voice != NULL )
{
voice->Create( leadinSample, loopingSample );
freeVoices.Remove( voice );
return voice;
}
return NULL;
}
/*
========================
idSoundHardware_XAudio2::FreeVoice
========================
*/
void idSoundHardware_XAudio2::FreeVoice( idSoundVoice* voice )
{
voice->Stop();
// Stop() is asyncronous, so we won't flush bufferes until the
// voice on the zombie channel actually returns !IsPlaying()
zombieVoices.Append( voice );
}
/*
========================
idSoundHardware_XAudio2::Update
========================
*/
void idSoundHardware_XAudio2::Update()
{
if( pXAudio2 == NULL )
{
int nowTime = Sys_Milliseconds();
if( lastResetTime + 1000 < nowTime )
{
lastResetTime = nowTime;
Init();
}
return;
}
if( soundSystem->IsMuted() )
{
pMasterVoice->SetVolume( 0.0f, OPERATION_SET );
}
else
{
pMasterVoice->SetVolume( DBtoLinear( s_volume_dB.GetFloat() ), OPERATION_SET );
}
pXAudio2->CommitChanges( XAUDIO2_COMMIT_ALL );
// IXAudio2SourceVoice::Stop() has been called for every sound on the
// zombie list, but it is documented as asyncronous, so we have to wait
// until it actually reports that it is no longer playing.
for( int i = 0; i < zombieVoices.Num(); i++ )
{
zombieVoices[i]->FlushSourceBuffers();
if( !zombieVoices[i]->IsPlaying() )
{
freeVoices.Append( zombieVoices[i] );
zombieVoices.RemoveIndexFast( i );
i--;
}
else
{
static int playingZombies;
playingZombies++;
}
}
if( s_showPerfData.GetBool() )
{
XAUDIO2_PERFORMANCE_DATA perfData;
pXAudio2->GetPerformanceData( &perfData );
idLib::Printf( "Voices: %d/%d CPU: %.2f%% Mem: %dkb\n", perfData.ActiveSourceVoiceCount, perfData.TotalSourceVoiceCount, perfData.AudioCyclesSinceLastQuery / ( float )perfData.TotalCyclesSinceLastQuery, perfData.MemoryUsageInBytes / 1024 );
}
if( vuMeterRMS == NULL )
{
// Init probably hasn't been called yet
return;
}
vuMeterRMS->Enable( s_showLevelMeter.GetBool() );
vuMeterPeak->Enable( s_showLevelMeter.GetBool() );
if( !s_showLevelMeter.GetBool() )
{
pMasterVoice->DisableEffect( 0 );
return;
}
else
{
pMasterVoice->EnableEffect( 0 );
}
float peakLevels[ 8 ];
float rmsLevels[ 8 ];
XAUDIO2FX_VOLUMEMETER_LEVELS levels;
levels.ChannelCount = outputChannels;
levels.pPeakLevels = peakLevels;
levels.pRMSLevels = rmsLevels;
if( levels.ChannelCount > 8 )
{
levels.ChannelCount = 8;
}
pMasterVoice->GetEffectParameters( 0, &levels, sizeof( levels ) );
int currentTime = Sys_Milliseconds();
for( int i = 0; i < outputChannels; i++ )
{
if( vuMeterPeakTimes[i] < currentTime )
{
vuMeterPeak->SetValue( i, vuMeterPeak->GetValue( i ) * 0.9f, colorRed );
}
}
float width = 20.0f;
float height = 200.0f;
float left = 100.0f;
float top = 100.0f;
sscanf( s_meterPosition.GetString(), "%f %f %f %f", &left, &top, &width, &height );
vuMeterRMS->SetPosition( left, top, width * levels.ChannelCount, height );
vuMeterPeak->SetPosition( left, top, width * levels.ChannelCount, height );
for( uint32 i = 0; i < levels.ChannelCount; i++ )
{
vuMeterRMS->SetValue( i, rmsLevels[ i ], idVec4( 0.5f, 1.0f, 0.0f, 1.00f ) );
if( peakLevels[ i ] >= vuMeterPeak->GetValue( i ) )
{
vuMeterPeak->SetValue( i, peakLevels[ i ], colorRed );
vuMeterPeakTimes[i] = currentTime + s_meterTopTime.GetInteger();
}
}
}
/*
================================================
idSoundEngineCallback
================================================
*/
/*
========================
idSoundEngineCallback::OnCriticalError
========================
*/
void idSoundEngineCallback::OnCriticalError( HRESULT Error )
{
soundSystemLocal.SetNeedsRestart();
}