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/**
* @file windows_volume_catcher.cpp
* @brief A Windows implementation of volume level control of all audio channels opened by a process.
*
* @cond
* $LicenseInfo:firstyear=2010&license=viewergpl$
*
* Copyright (c) 2010, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlife.com/developers/opensource/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at http://secondlife.com/developers/opensource/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
* $/LicenseInfo$
* @endcond
*/
#include "volume_catcher.h"
#include <windows.h>
//
// Abstracts a Win32 mixer line and associated state
// for muting and changing volume on a given output
//
class Mixer
{
public:
static Mixer* create(U32 index);
~Mixer();
void setMute(bool mute);
void setVolume(F32 volume_left, F32 volume_right);
private:
// use create(index) to create a Mixer
Mixer(HMIXER handle, U32 mute_control_id, U32 volume_control_id, U32 min_volume, U32 max_volume);
HMIXER mHandle;
U32 mMuteControlID; // handle to mixer controller for muting
U32 mVolumeControlID; // handle to mixer controller for changing volume
U32 mMinVolume; // value that specifies minimum volume as reported by mixer
U32 mMaxVolume; // value that specifies maximum volume as reported by mixer
};
// factory function that attempts to create a Mixer object associated with a given mixer line index
// returns NULL if creation failed
// static
Mixer* Mixer::create(U32 index)
{
// get handle to mixer object
HMIXER mixer_handle;
MMRESULT result = mixerOpen( &mixer_handle,
index,
0, // HWND to call when state changes - not used
0, // user data for callback - not used
MIXER_OBJECTF_MIXER );
if (result == MMSYSERR_NOERROR)
{
MIXERLINE mixer_line;
mixer_line.cbStruct = sizeof( MIXERLINE );
// try speakers first
mixer_line.dwComponentType = MIXERLINE_COMPONENTTYPE_DST_SPEAKERS;
MMRESULT result = mixerGetLineInfo( reinterpret_cast< HMIXEROBJ >( mixer_handle ),
&mixer_line,
MIXER_OBJECTF_HMIXER | MIXER_GETLINEINFOF_COMPONENTTYPE );
if (result != MMSYSERR_NOERROR)
{ // failed - try headphones next
mixer_line.dwComponentType = MIXERLINE_COMPONENTTYPE_DST_HEADPHONES;
result = mixerGetLineInfo( reinterpret_cast< HMIXEROBJ >( mixer_handle ),
&mixer_line,
MIXER_OBJECTF_HMIXER | MIXER_GETLINEINFOF_COMPONENTTYPE );
}
if (result == MMSYSERR_NOERROR)
{ // successfully found mixer line object, now use it to get volume and mute controls
// reuse these objects to query for both volume and mute controls
MIXERCONTROL mixer_control;
MIXERLINECONTROLS mixer_line_controls;
mixer_line_controls.cbStruct = sizeof( MIXERLINECONTROLS );
mixer_line_controls.dwLineID = mixer_line.dwLineID;
mixer_line_controls.cControls = 1;
mixer_line_controls.cbmxctrl = sizeof( MIXERCONTROL );
mixer_line_controls.pamxctrl = &mixer_control;
// first, query for mute
mixer_line_controls.dwControlType = MIXERCONTROL_CONTROLTYPE_MUTE;
// get control id for mute controls
result = mixerGetLineControls( reinterpret_cast< HMIXEROBJ >( mixer_handle ),
&mixer_line_controls,
MIXER_OBJECTF_HMIXER | MIXER_GETLINECONTROLSF_ONEBYTYPE );
if (result == MMSYSERR_NOERROR )
{ // we have a mute controls. Remember the mute control id and then query for
// volume controls using the same struct, but different dwControlType
U32 mute_control_id = mixer_control.dwControlID;
mixer_line_controls.dwControlType = MIXERCONTROL_CONTROLTYPE_VOLUME;
result = mixerGetLineControls( reinterpret_cast< HMIXEROBJ >( mixer_handle ),
&mixer_line_controls,
MIXER_OBJECTF_HMIXER | MIXER_GETLINECONTROLSF_ONEBYTYPE );
if (result == MMSYSERR_NOERROR)
{ // we have both mute and volume controls for this mixer, so we're keeping it
return new Mixer(mixer_handle,
mute_control_id,
mixer_control.dwControlID,
mixer_control.Bounds.dwMinimum,
mixer_control.Bounds.dwMaximum);
}
}
}
}
// if we got here, we didn't successfully create a Mixer object
mixerClose(mixer_handle);
return NULL;
}
Mixer::Mixer(HMIXER handle, U32 mute_control_id, U32 volume_control_id, U32 min_volume, U32 max_volume)
: mHandle(handle),
mMuteControlID(mute_control_id),
mVolumeControlID(volume_control_id),
mMinVolume(min_volume),
mMaxVolume(max_volume)
{}
Mixer::~Mixer()
{}
// toggle mute for this mixer
// if mute is set, then volume level will be ignored
void Mixer::setMute(bool mute)
{
MIXERCONTROLDETAILS_BOOLEAN mixer_control_details_bool = { mute };
MIXERCONTROLDETAILS mixer_control_details;
mixer_control_details.cbStruct = sizeof( MIXERCONTROLDETAILS );
mixer_control_details.dwControlID = mMuteControlID;
mixer_control_details.cChannels = 1;
mixer_control_details.cMultipleItems = 0;
mixer_control_details.cbDetails = sizeof( MIXERCONTROLDETAILS_BOOLEAN );
mixer_control_details.paDetails = &mixer_control_details_bool;
mixerSetControlDetails( reinterpret_cast< HMIXEROBJ >( mHandle ),
&mixer_control_details,
MIXER_OBJECTF_HMIXER | MIXER_SETCONTROLDETAILSF_VALUE );
}
// set individual volume levels for left and right channels
// if mute is set, then these values will apply once mute is unset
void Mixer::setVolume(F32 volume_left, F32 volume_right)
{
// assuming pan is in range [-1, 1] set volume levels accordingly
// if pan == -1 then volume_left_mixer = volume_left && volume_right_mixer = 0
// if pan == 0 then volume_left_mixer = volume_left && volume_right_mixer = volume_right
// if pan == 1 then volume_left_mixer = 0 && volume_right_mixer = volume_right
U32 volume_left_mixer = (U32)
((F32)mMinVolume
+ (volume_left * ((F32)mMaxVolume - (F32)mMinVolume)));
U32 volume_right_mixer = (U32)
((F32)mMinVolume
+ (volume_right * ((F32)mMaxVolume - (F32)mMinVolume)));
// pass volume levels on to mixer
MIXERCONTROLDETAILS_UNSIGNED mixer_control_details_unsigned[ 2 ] = { volume_left_mixer, volume_right_mixer };
MIXERCONTROLDETAILS mixer_control_details;
mixer_control_details.cbStruct = sizeof( MIXERCONTROLDETAILS );
mixer_control_details.dwControlID = mVolumeControlID;
mixer_control_details.cChannels = 2;
mixer_control_details.cMultipleItems = 0;
mixer_control_details.cbDetails = sizeof( MIXERCONTROLDETAILS_UNSIGNED );
mixer_control_details.paDetails = &mixer_control_details_unsigned;
mixerSetControlDetails( reinterpret_cast< HMIXEROBJ >( mHandle ),
&mixer_control_details,
MIXER_OBJECTF_HMIXER | MIXER_SETCONTROLDETAILSF_VALUE );
}
class VolumeCatcherImpl
{
public:
void setVolume(F32 volume);
void setPan(F32 pan);
static VolumeCatcherImpl *getInstance();
private:
// This is a singleton class -- both callers and the component implementation should use getInstance() to find the instance.
VolumeCatcherImpl();
~VolumeCatcherImpl();
static VolumeCatcherImpl *sInstance;
F32 mVolume;
F32 mPan;
typedef std::vector<Mixer*> mixer_vector_t;
mixer_vector_t mMixers;
};
VolumeCatcherImpl *VolumeCatcherImpl::sInstance = NULL;
VolumeCatcherImpl *VolumeCatcherImpl::getInstance()
{
if(!sInstance)
{
sInstance = new VolumeCatcherImpl;
}
return sInstance;
}
VolumeCatcherImpl::VolumeCatcherImpl()
: mVolume(1.0f), // default volume is max
mPan(0.f) // default pan is centered
{
OSVERSIONINFOEX V = {sizeof(OSVERSIONINFOEX)}; //EX for NT 5.0 and later
::GetVersionEx((POSVERSIONINFO)&V);
// disable volume on XP and below
if (V.dwPlatformId == VER_PLATFORM_WIN32_NT && V.dwMajorVersion >= 6)
{
// for each reported mixer "device", create a proxy object and add to list
U32 num_mixers = mixerGetNumDevs();
for (U32 mixer_index = 0; mixer_index < num_mixers; ++mixer_index)
{
Mixer* mixerp = Mixer::create(mixer_index);
if (mixerp)
{
mMixers.push_back(mixerp);
}
}
}
}
VolumeCatcherImpl::~VolumeCatcherImpl()
{
for(mixer_vector_t::iterator it = mMixers.begin(), end_it = mMixers.end();
it != end_it;
++it)
{
delete *it;
*it = NULL;
}
}
void VolumeCatcherImpl::setVolume(F32 volume)
{
F32 left_volume = volume * min(1.f, 1.f - mPan);
F32 right_volume = volume * max(0.f, 1.f + mPan);
for(mixer_vector_t::iterator it = mMixers.begin(), end_it = mMixers.end();
it != end_it;
++it)
{ // set volume levels and mute for each mixer
// note that a muted mixer will ignore this volume level
(*it)->setVolume(left_volume, right_volume);
if (volume == 0.f && mVolume != 0.f)
{
(*it)->setMute(true);
}
else if (mVolume == 0.f && volume != 0.f)
{
(*it)->setMute(false);
}
}
mVolume = volume;
}
void VolumeCatcherImpl::setPan(F32 pan)
{ // remember pan for calculating individual channel levels later
mPan = pan;
}
/////////////////////////////////////////////////////
VolumeCatcher::VolumeCatcher()
{
pimpl = VolumeCatcherImpl::getInstance();
}
VolumeCatcher::~VolumeCatcher()
{
// Let the instance persist until exit.
}
void VolumeCatcher::setVolume(F32 volume)
{
pimpl->setVolume(volume);
}
void VolumeCatcher::setPan(F32 pan)
{
pimpl->setPan(pan);
}
void VolumeCatcher::pump()
{
// No periodic tasks are necessary for this implementation.
}
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