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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
This program 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.
This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
//////////////////////////////////////////////////////////////////////
//
// pyAudioControl - a wrapper class all the audio control functions
//
//////////////////////////////////////////////////////////////////////
#include "pyAudioControl.h"
#include "../plAudio/plAudioSystem.h"
#include "../plAudio/plVoiceChat.h"
#include "../plAudio/plWinMicLevel.h"
#include "../plAudio/plAudioCaps.h"
// Sets the master volume of a given audio channel
void pyAudioControl::SetSoundFXVolume( hsScalar volume )
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kSoundFX;
// make sure the volume is within range
if( volume > 1.f )
volume = 1.f;
else if( volume < 0.f )
volume = 0.f;
plgAudioSys::SetChannelVolume( chan, volume );
}
void pyAudioControl::SetMusicVolume( hsScalar volume )
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kBgndMusic;
// make sure the volume is within range
if( volume > 1.f )
volume = 1.f;
else if( volume < 0.f )
volume = 0.f;
plgAudioSys::SetChannelVolume( chan, volume );
}
void pyAudioControl::SetVoiceVolume( hsScalar volume )
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kVoice;
// make sure the volume is within range
if( volume > 1.f )
volume = 1.f;
else if( volume < 0.f )
volume = 0.f;
plgAudioSys::SetChannelVolume( chan, volume );
}
void pyAudioControl::SetAmbienceVolume( hsScalar volume )
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kAmbience;
// make sure the volume is within range
if( volume > 1.f )
volume = 1.f;
else if( volume < 0.f )
volume = 0.f;
plgAudioSys::SetChannelVolume( chan, volume );
}
void pyAudioControl::SetGUIVolume( hsScalar volume )
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kGUI;
// make sure the volume is within range
if( volume > 1.f )
volume = 1.f;
else if( volume < 0.f )
volume = 0.f;
plgAudioSys::SetChannelVolume( chan, volume );
}
void pyAudioControl::SetNPCVoiceVolume( hsScalar volume )
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kNPCVoice;
// make sure the volume is within range
if( volume > 1.f )
volume = 1.f;
else if( volume < 0.f )
volume = 0.f;
plgAudioSys::SetChannelVolume( chan, volume );
}
hsScalar pyAudioControl::GetSoundFXVolume()
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kSoundFX;
return plgAudioSys::GetChannelVolume(chan);
}
hsScalar pyAudioControl::GetMusicVolume()
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kBgndMusic;
return plgAudioSys::GetChannelVolume(chan);
}
hsScalar pyAudioControl::GetVoiceVolume()
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kVoice;
return plgAudioSys::GetChannelVolume(chan);
}
hsScalar pyAudioControl::GetAmbienceVolume()
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kAmbience;
return plgAudioSys::GetChannelVolume(chan);
}
hsScalar pyAudioControl::GetGUIVolume()
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kGUI;
return plgAudioSys::GetChannelVolume(chan);
}
hsScalar pyAudioControl::GetNPCVoiceVolume()
{
plgAudioSys::ASChannel chan;
chan = plgAudioSys::kNPCVoice;
return plgAudioSys::GetChannelVolume(chan);
}
// Switch DirectX Audio on or off at runtime
void pyAudioControl::Enable()
{
plgAudioSys::Activate(true);
}
void pyAudioControl::Disable()
{
plgAudioSys::Activate(false);
}
hsBool pyAudioControl::IsEnabled()
{
return plgAudioSys::Active();
}
// Enable or disable load-on-demand for sounds
void pyAudioControl::SetLoadOnDemand( hsBool state )
{
plSound::SetLoadOnDemand(state);
}
// Enables or disables two-stage LOD, where sounds can be loaded into RAM but not into sound buffers.
// ...Less of a performance hit, harder on memory.
void pyAudioControl::SetTwoStageLOD( hsBool state )
{
// For two-stage LOD, we want to disable LoadFromDiskOnDemand, so that we'll load into RAM at startup but not
// into sound buffers until demanded to do so. Enabling LoadFromDiskOnDemand basically conserves as much memory
// as possible
plSound::SetLoadFromDiskOnDemand( !state );
}
// Enable audio hardware acceleration
void pyAudioControl::UseHardwareAcceleration( hsBool state )
{
plgAudioSys::SetUseHardware(state);
}
hsBool pyAudioControl::IsHardwareAccelerated()
{
return plgAudioSys::Hardware();
}
// Enable EAX sound acceleration (requires hardware acceleration)
void pyAudioControl::UseEAXAcceleration( hsBool state )
{
plgAudioSys::EnableEAX(state);
}
hsBool pyAudioControl::IsUsingEAXAcceleration()
{
return plgAudioSys::UsingEAX();
}
// Mute or unmute all sounds
void pyAudioControl::MuteAll()
{
plgAudioSys::SetMuted(true);
}
void pyAudioControl::UnmuteAll()
{
plgAudioSys::SetMuted(false);
}
hsBool pyAudioControl::IsMuted()
{
return plgAudioSys::IsMuted();
}
hsBool pyAudioControl::SupportEAX(const char *deviceName)
{
return plgAudioSys::SupportsEAX(deviceName);
}
//------------------------
// Voice Settings
// Sets the microphone volume, in the range of 0 to 1
hsBool pyAudioControl::CanSetMicLevel()
{
return plWinMicLevel::CanSetLevel();
}
void pyAudioControl::SetMicLevel( hsScalar level )
{
// make sure the volume is within range
if( level > 1.f )
level = 1.f;
else if( level < 0.f )
level = 0.f;
if( CanSetMicLevel() )
plWinMicLevel::SetLevel( level );
}
hsScalar pyAudioControl::GetMicLevel()
{
return plWinMicLevel::GetLevel();
}
// turn voice recording on or off
void pyAudioControl::EnableVoiceRecording( hsBool state )
{
plVoiceRecorder::EnableRecording(state);
}
hsBool pyAudioControl::IsVoiceRecordingEnabled()
{
return plVoiceRecorder::RecordingEnabled();
}
// turn voice compression on and off
void pyAudioControl::EnableVoiceCompression( hsBool state )
{
}
hsBool pyAudioControl::IsVoiceCompressionEnabled()
{
return true;
}
// turn voice-over-net on and off
void pyAudioControl::EnableVoiceNetBroadcast( hsBool state )
{
//plWinRecorder::EnableNetVoice(state);
}
hsBool pyAudioControl::IsVoiceNetBroadcastEnabled()
{
return true;
}
void pyAudioControl::EnableVoiceChat(hsBool enable)
{
plVoicePlayer::Enable(enable);
}
// turn voice recording icons on and off
void pyAudioControl::ShowIcons()
{
plVoiceRecorder::EnableIcons(true);
}
void pyAudioControl::HideIcons()
{
plVoiceRecorder::EnableIcons(false);
}
// turn push-to-talk on or off
void pyAudioControl::PushToTalk( hsBool state )
{
plVoiceRecorder::EnablePushToTalk(state);
}
// Set the squelch level
void pyAudioControl::SquelchLevel( hsScalar level )
{
plVoiceRecorder::SetSquelch(level);
}
// Adjust voice packet frame size
void pyAudioControl::RecordFrame( Int32 size )
{
}
// Set the sample rate for recording
void pyAudioControl::RecordSampleRate( Int32 sample_rate )
{
}
UInt8 pyAudioControl::GetPriorityCutoff( void )
{
return plgAudioSys::GetPriorityCutoff();
}
void pyAudioControl::SetPriorityCutoff( UInt8 cut )
{
plgAudioSys::SetPriorityCutoff( cut );
}
void pyAudioControl::SetAudioSystemMode(int mode)
{
switch (mode)
{
case plgAudioSys::kDisabled:
plgAudioSys::SetAudioMode(plgAudioSys::kDisabled);
break;
case plgAudioSys::kSoftware:
plgAudioSys::SetAudioMode(plgAudioSys::kSoftware);
break;
case plgAudioSys::kHardware:
plgAudioSys::SetAudioMode(plgAudioSys::kHardware);
break;
case plgAudioSys::kHardwarePlusEAX:
plgAudioSys::SetAudioMode(plgAudioSys::kHardwarePlusEAX);
break;
default:
break;
}
}
int pyAudioControl::GetAudioSystemMode()
{
return plgAudioSys::GetAudioMode();
}
int pyAudioControl::GetHighestAudioMode()
{
int highestMode = plgAudioSys::kDisabled;
plAudioCaps caps = plAudioCapsDetector::Detect();
if ( caps.IsEAXAvailable() )
{
highestMode = plgAudioSys::kHardwarePlusEAX;
}
else
{
if ( 1 ) // This is taken care of in the audio system
{
highestMode = plgAudioSys::kHardware;
}
else
{
if ( caps.IsAvailable() )
{
highestMode = plgAudioSys::kSoftware;
}
}
}
return highestMode;
}
int pyAudioControl::GetNumAudioDevices()
{
return plgAudioSys::GetNumAudioDevices();
}
const char *pyAudioControl::GetAudioDeviceName(int index)
{
return plgAudioSys::GetAudioDeviceName(index);
}
void pyAudioControl::SetDeviceName(const char *device, bool restart)
{
plgAudioSys::SetDeviceName(device, restart);
}
const char * pyAudioControl::GetDeviceName()
{
return plgAudioSys::GetDeviceName();
}