src/itf/IEffectSend.cpp - platform/frameworks/wilhelm - Git at Google

 /*
  * Copyright (C) 2010 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 /* EffectSend implementation */

 #include "sles_allinclusive.h"


 /** \brief Maps AUX index to OutputMix interface index */

 static const unsigned char AUX_to_MPH[AUX_MAX] = {
     MPH_ENVIRONMENTALREVERB,
     MPH_PRESETREVERB
 };


 /** \brief This is a private function that validates the effect interface specified by the
  *  application when it calls EnableEffectSend, IsEnabled, SetSendLevel, or GetSendLevel.
  *  For the interface to be valid, it has to satisfy these requirements:
  *   - object is an audio player (MIDI player is not supported yet)
  *   - audio sink is an output mix
  *   - interface was exposed at object creation time or by DynamicInterface::AddInterface
  *   - interface was "gotten" with Object::GetInterface
  */

 static struct EnableLevel *getEnableLevel(IEffectSend *thiz, const void *pAuxEffect)
 {
     // Make sure this effect send is on an audio player, not a MIDI player
     CAudioPlayer *audioPlayer = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
         (CAudioPlayer *) thiz->mThis : NULL;
     if (NULL == audioPlayer) {
         return NULL;
     }
     // Get the output mix for this player
     COutputMix *outputMix = CAudioPlayer_GetOutputMix(audioPlayer);
     unsigned aux;
     if (pAuxEffect == &outputMix->mEnvironmentalReverb.mItf) {
         aux = AUX_ENVIRONMENTALREVERB;
     } else if (pAuxEffect == &outputMix->mPresetReverb.mItf) {
         aux = AUX_PRESETREVERB;
     } else {
         SL_LOGE("EffectSend on unknown aux effect %p", pAuxEffect);
         return NULL;
     }
     assert(aux < AUX_MAX);
     // Validate that the application has a valid interface for the effect.  The interface must have
     // been exposed at object creation time or by DynamicInterface::AddInterface, and it also must
     // have been "gotten" with Object::GetInterface.
     unsigned MPH = AUX_to_MPH[aux];
     int index = MPH_to_OutputMix[MPH];
     if (0 > index) {
         SL_LOGE("EffectSend aux=%u MPH=%u", aux, MPH);
         return NULL;
     }
     unsigned mask = 1 << index;
     object_lock_shared(&outputMix->mObject);
     SLuint32 state = outputMix->mObject.mInterfaceStates[index];
     mask &= outputMix->mObject.mGottenMask;
     object_unlock_shared(&outputMix->mObject);
     switch (state) {
     case INTERFACE_EXPOSED:
     case INTERFACE_ADDED:
     case INTERFACE_SUSPENDED:
     case INTERFACE_SUSPENDING:
     case INTERFACE_RESUMING_1:
     case INTERFACE_RESUMING_2:
         if (mask) {
             return &thiz->mEnableLevels[aux];
         }
         SL_LOGE("EffectSend no GetInterface yet");
         break;
     default:
         SL_LOGE("EffectSend invalid interface state %u", state);
         break;
     }
     return NULL;
 }

 #if defined(ANDROID)
 /** \brief This is a private function that translates an Android effect framework status code
  *  to the SL ES result code used in the EnableEffectSend() function of the SLEffectSendItf
  *  interface.
  */
 static SLresult translateEnableFxSendError(android::status_t status) {
     switch (status) {
     case android::NO_ERROR:
         return SL_RESULT_SUCCESS;
     case android::INVALID_OPERATION:
     case android::BAD_VALUE:
     default:
         SL_LOGE("EffectSend status %u", status);
         return SL_RESULT_RESOURCE_ERROR;
     }
 }
 #endif


 static SLresult IEffectSend_EnableEffectSend(SLEffectSendItf self,
     const void *pAuxEffect, SLboolean enable, SLmillibel initialLevel)
 {
     SL_ENTER_INTERFACE

     //if (!((SL_MILLIBEL_MIN <= initialLevel) && (initialLevel <= 0))) {
     // comparison (SL_MILLIBEL_MIN <= initialLevel) is always true due to range of SLmillibel
     if (!(initialLevel <= 0)) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         IEffectSend *thiz = (IEffectSend *) self;
         struct EnableLevel *enableLevel = getEnableLevel(thiz, pAuxEffect);
         if (NULL == enableLevel) {
             result = SL_RESULT_PARAMETER_INVALID;
         } else {
             interface_lock_exclusive(thiz);
             enableLevel->mEnable = SL_BOOLEAN_FALSE != enable; // normalize
             enableLevel->mSendLevel = initialLevel;
 #if !defined(ANDROID)
             result = SL_RESULT_SUCCESS;
 #else
             // TODO do not repeat querying of CAudioPlayer, done inside getEnableLevel()
             CAudioPlayer *ap = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
                     (CAudioPlayer *) thiz->mThis : NULL;
             // note that if this was a MIDI player, getEnableLevel would have returned NULL
             assert(NULL != ap);
             // check which effect the send is attached to, attach and set level
             COutputMix *outputMix = CAudioPlayer_GetOutputMix(ap);
             // the initial send level set here is the total energy on the aux bus,
             //  so it must take into account the player volume level
             if (pAuxEffect == &outputMix->mPresetReverb.mItf) {
                 result = translateEnableFxSendError(android_fxSend_attach(ap, (bool) enable,
                     outputMix->mPresetReverb.mPresetReverbEffect,
                     initialLevel + ap->mVolume.mLevel));
             } else if (pAuxEffect == &outputMix->mEnvironmentalReverb.mItf) {
                 result = translateEnableFxSendError(android_fxSend_attach(ap, (bool) enable,
                     outputMix->mEnvironmentalReverb.mEnvironmentalReverbEffect,
                     initialLevel + ap->mVolume.mLevel));
             } else {
                 SL_LOGE("EffectSend unknown aux effect %p", pAuxEffect);
                 result = SL_RESULT_PARAMETER_INVALID;
             }
 #endif
             interface_unlock_exclusive(thiz);
         }
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult IEffectSend_IsEnabled(SLEffectSendItf self,
     const void *pAuxEffect, SLboolean *pEnable)
 {
     SL_ENTER_INTERFACE

     if (NULL == pEnable) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         IEffectSend *thiz = (IEffectSend *) self;
         struct EnableLevel *enableLevel = getEnableLevel(thiz, pAuxEffect);
         if (NULL == enableLevel) {
             *pEnable = SL_BOOLEAN_FALSE;
             result = SL_RESULT_PARAMETER_INVALID;
         } else {
             interface_lock_shared(thiz);
             SLboolean enable = enableLevel->mEnable;
             interface_unlock_shared(thiz);
             *pEnable = enable;
             result = SL_RESULT_SUCCESS;
         }
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult IEffectSend_SetDirectLevel(SLEffectSendItf self, SLmillibel directLevel)
 {
     SL_ENTER_INTERFACE

     //if (!((SL_MILLIBEL_MIN <= directLevel) && (directLevel <= 0))) {
     // comparison (SL_MILLIBEL_MIN <= directLevel) is always true due to range of SLmillibel
     if (!(directLevel <= 0)) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         IEffectSend *thiz = (IEffectSend *) self;
         interface_lock_exclusive(thiz);
         CAudioPlayer *ap = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
                 (CAudioPlayer *) thiz->mThis : NULL;
         if (NULL != ap) {
             SLmillibel oldDirectLevel = ap->mDirectLevel;
             if (oldDirectLevel != directLevel) {
                 ap->mDirectLevel = directLevel;
 #if defined(ANDROID)
                 ap->mAmplFromDirectLevel = sles_to_android_amplification(directLevel);
                 interface_unlock_exclusive_attributes(thiz, ATTR_GAIN);
 #else
                 interface_unlock_exclusive(thiz);
 #endif
             } else {
                 interface_unlock_exclusive(thiz);
             }
         } else {
             // MIDI player is silently not supported
             interface_unlock_exclusive(thiz);
         }
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult IEffectSend_GetDirectLevel(SLEffectSendItf self, SLmillibel *pDirectLevel)
 {
     SL_ENTER_INTERFACE

     if (NULL == pDirectLevel) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         IEffectSend *thiz = (IEffectSend *) self;
         interface_lock_shared(thiz);
         CAudioPlayer *ap = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
                 (CAudioPlayer *) thiz->mThis : NULL;
         if (NULL != ap) {
             *pDirectLevel = ap->mDirectLevel;
         } else {
             // MIDI player is silently not supported
             *pDirectLevel = 0;
         }
         interface_unlock_shared(thiz);
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult IEffectSend_SetSendLevel(SLEffectSendItf self, const void *pAuxEffect,
     SLmillibel sendLevel)
 {
     SL_ENTER_INTERFACE

     //if (!((SL_MILLIBEL_MIN <= sendLevel) && (sendLevel <= 0))) {
     // comparison (SL_MILLIBEL_MIN <= sendLevel) is always true due to range of SLmillibel
     if (!(sendLevel <= 0)) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         IEffectSend *thiz = (IEffectSend *) self;
         struct EnableLevel *enableLevel = getEnableLevel(thiz, pAuxEffect);
         if (NULL == enableLevel) {
             result = SL_RESULT_PARAMETER_INVALID;
         } else {
             result = SL_RESULT_SUCCESS;
             // EnableEffectSend is exclusive, so this has to be also
             interface_lock_exclusive(thiz);
             enableLevel->mSendLevel = sendLevel;
 #if defined(ANDROID)
             CAudioPlayer *ap = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
                     (CAudioPlayer *) thiz->mThis : NULL;
             if (NULL != ap) {
                 // the send level set here is the total energy on the aux bus, so it must take
                 // into account the player volume level
                 result = android_fxSend_setSendLevel(ap, sendLevel + ap->mVolume.mLevel);
             }
 #endif
             interface_unlock_exclusive(thiz);

         }
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult IEffectSend_GetSendLevel(SLEffectSendItf self, const void *pAuxEffect,
     SLmillibel *pSendLevel)
 {
     SL_ENTER_INTERFACE

     if (NULL == pSendLevel) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         IEffectSend *thiz = (IEffectSend *) self;
         struct EnableLevel *enableLevel = getEnableLevel(thiz, pAuxEffect);
         if (NULL == enableLevel) {
             result = SL_RESULT_PARAMETER_INVALID;
         } else {
             interface_lock_shared(thiz);
             SLmillibel sendLevel = enableLevel->mSendLevel;
             interface_unlock_shared(thiz);
             *pSendLevel = sendLevel;
             result = SL_RESULT_SUCCESS;
         }
     }

     SL_LEAVE_INTERFACE
 }


 static const struct SLEffectSendItf_ IEffectSend_Itf = {
     IEffectSend_EnableEffectSend,
     IEffectSend_IsEnabled,
     IEffectSend_SetDirectLevel,
     IEffectSend_GetDirectLevel,
     IEffectSend_SetSendLevel,
     IEffectSend_GetSendLevel
 };

 void IEffectSend_init(void *self)
 {
     IEffectSend *thiz = (IEffectSend *) self;
     thiz->mItf = &IEffectSend_Itf;
     struct EnableLevel *enableLevel = thiz->mEnableLevels;
     unsigned aux;
     for (aux = 0; aux < AUX_MAX; ++aux, ++enableLevel) {
         enableLevel->mEnable = SL_BOOLEAN_FALSE;
         enableLevel->mSendLevel = SL_MILLIBEL_MIN;
     }
 }
	/*
	* Copyright (C) 2010 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	/* EffectSend implementation */

	#include "sles_allinclusive.h"


	/** \brief Maps AUX index to OutputMix interface index */

	static const unsigned char AUX_to_MPH[AUX_MAX] = {
	MPH_ENVIRONMENTALREVERB,
	MPH_PRESETREVERB
	};


	/** \brief This is a private function that validates the effect interface specified by the
	* application when it calls EnableEffectSend, IsEnabled, SetSendLevel, or GetSendLevel.
	* For the interface to be valid, it has to satisfy these requirements:
	* - object is an audio player (MIDI player is not supported yet)
	* - audio sink is an output mix
	* - interface was exposed at object creation time or by DynamicInterface::AddInterface
	* - interface was "gotten" with Object::GetInterface
	*/

	static struct EnableLevel getEnableLevel(IEffectSend thiz, const void *pAuxEffect)
	{
	// Make sure this effect send is on an audio player, not a MIDI player
	CAudioPlayer *audioPlayer = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
	(CAudioPlayer *) thiz->mThis : NULL;
	if (NULL == audioPlayer) {
	return NULL;
	}
	// Get the output mix for this player
	COutputMix *outputMix = CAudioPlayer_GetOutputMix(audioPlayer);
	unsigned aux;
	if (pAuxEffect == &outputMix->mEnvironmentalReverb.mItf) {
	aux = AUX_ENVIRONMENTALREVERB;
	} else if (pAuxEffect == &outputMix->mPresetReverb.mItf) {
	aux = AUX_PRESETREVERB;
	} else {
	SL_LOGE("EffectSend on unknown aux effect %p", pAuxEffect);
	return NULL;
	}
	assert(aux < AUX_MAX);
	// Validate that the application has a valid interface for the effect. The interface must have
	// been exposed at object creation time or by DynamicInterface::AddInterface, and it also must
	// have been "gotten" with Object::GetInterface.
	unsigned MPH = AUX_to_MPH[aux];
	int index = MPH_to_OutputMix[MPH];
	if (0 > index) {
	SL_LOGE("EffectSend aux=%u MPH=%u", aux, MPH);
	return NULL;
	}
	unsigned mask = 1 << index;
	object_lock_shared(&outputMix->mObject);
	SLuint32 state = outputMix->mObject.mInterfaceStates[index];
	mask &= outputMix->mObject.mGottenMask;
	object_unlock_shared(&outputMix->mObject);
	switch (state) {
	case INTERFACE_EXPOSED:
	case INTERFACE_ADDED:
	case INTERFACE_SUSPENDED:
	case INTERFACE_SUSPENDING:
	case INTERFACE_RESUMING_1:
	case INTERFACE_RESUMING_2:
	if (mask) {
	return &thiz->mEnableLevels[aux];
	}
	SL_LOGE("EffectSend no GetInterface yet");
	break;
	default:
	SL_LOGE("EffectSend invalid interface state %u", state);
	break;
	}
	return NULL;
	}

	#if defined(ANDROID)
	/** \brief This is a private function that translates an Android effect framework status code
	* to the SL ES result code used in the EnableEffectSend() function of the SLEffectSendItf
	* interface.
	*/
	static SLresult translateEnableFxSendError(android::status_t status) {
	switch (status) {
	case android::NO_ERROR:
	return SL_RESULT_SUCCESS;
	case android::INVALID_OPERATION:
	case android::BAD_VALUE:
	default:
	SL_LOGE("EffectSend status %u", status);
	return SL_RESULT_RESOURCE_ERROR;
	}
	}
	#endif


	static SLresult IEffectSend_EnableEffectSend(SLEffectSendItf self,
	const void *pAuxEffect, SLboolean enable, SLmillibel initialLevel)
	{
	SL_ENTER_INTERFACE

	//if (!((SL_MILLIBEL_MIN <= initialLevel) && (initialLevel <= 0))) {
	// comparison (SL_MILLIBEL_MIN <= initialLevel) is always true due to range of SLmillibel
	if (!(initialLevel <= 0)) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	IEffectSend thiz = (IEffectSend ) self;
	struct EnableLevel *enableLevel = getEnableLevel(thiz, pAuxEffect);
	if (NULL == enableLevel) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	interface_lock_exclusive(thiz);
	enableLevel->mEnable = SL_BOOLEAN_FALSE != enable; // normalize
	enableLevel->mSendLevel = initialLevel;
	#if !defined(ANDROID)
	result = SL_RESULT_SUCCESS;
	#else
	// TODO do not repeat querying of CAudioPlayer, done inside getEnableLevel()
	CAudioPlayer *ap = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
	(CAudioPlayer *) thiz->mThis : NULL;
	// note that if this was a MIDI player, getEnableLevel would have returned NULL
	assert(NULL != ap);
	// check which effect the send is attached to, attach and set level
	COutputMix *outputMix = CAudioPlayer_GetOutputMix(ap);
	// the initial send level set here is the total energy on the aux bus,
	// so it must take into account the player volume level
	if (pAuxEffect == &outputMix->mPresetReverb.mItf) {
	result = translateEnableFxSendError(android_fxSend_attach(ap, (bool) enable,
	outputMix->mPresetReverb.mPresetReverbEffect,
	initialLevel + ap->mVolume.mLevel));
	} else if (pAuxEffect == &outputMix->mEnvironmentalReverb.mItf) {
	result = translateEnableFxSendError(android_fxSend_attach(ap, (bool) enable,
	outputMix->mEnvironmentalReverb.mEnvironmentalReverbEffect,
	initialLevel + ap->mVolume.mLevel));
	} else {
	SL_LOGE("EffectSend unknown aux effect %p", pAuxEffect);
	result = SL_RESULT_PARAMETER_INVALID;
	}
	#endif
	interface_unlock_exclusive(thiz);
	}
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult IEffectSend_IsEnabled(SLEffectSendItf self,
	const void pAuxEffect, SLboolean pEnable)
	{
	SL_ENTER_INTERFACE

	if (NULL == pEnable) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	IEffectSend thiz = (IEffectSend ) self;
	struct EnableLevel *enableLevel = getEnableLevel(thiz, pAuxEffect);
	if (NULL == enableLevel) {
	*pEnable = SL_BOOLEAN_FALSE;
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	interface_lock_shared(thiz);
	SLboolean enable = enableLevel->mEnable;
	interface_unlock_shared(thiz);
	*pEnable = enable;
	result = SL_RESULT_SUCCESS;
	}
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult IEffectSend_SetDirectLevel(SLEffectSendItf self, SLmillibel directLevel)
	{
	SL_ENTER_INTERFACE

	//if (!((SL_MILLIBEL_MIN <= directLevel) && (directLevel <= 0))) {
	// comparison (SL_MILLIBEL_MIN <= directLevel) is always true due to range of SLmillibel
	if (!(directLevel <= 0)) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	IEffectSend thiz = (IEffectSend ) self;
	interface_lock_exclusive(thiz);
	CAudioPlayer *ap = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
	(CAudioPlayer *) thiz->mThis : NULL;
	if (NULL != ap) {
	SLmillibel oldDirectLevel = ap->mDirectLevel;
	if (oldDirectLevel != directLevel) {
	ap->mDirectLevel = directLevel;
	#if defined(ANDROID)
	ap->mAmplFromDirectLevel = sles_to_android_amplification(directLevel);
	interface_unlock_exclusive_attributes(thiz, ATTR_GAIN);
	#else
	interface_unlock_exclusive(thiz);
	#endif
	} else {
	interface_unlock_exclusive(thiz);
	}
	} else {
	// MIDI player is silently not supported
	interface_unlock_exclusive(thiz);
	}
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult IEffectSend_GetDirectLevel(SLEffectSendItf self, SLmillibel *pDirectLevel)
	{
	SL_ENTER_INTERFACE

	if (NULL == pDirectLevel) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	IEffectSend thiz = (IEffectSend ) self;
	interface_lock_shared(thiz);
	CAudioPlayer *ap = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
	(CAudioPlayer *) thiz->mThis : NULL;
	if (NULL != ap) {
	*pDirectLevel = ap->mDirectLevel;
	} else {
	// MIDI player is silently not supported
	*pDirectLevel = 0;
	}
	interface_unlock_shared(thiz);
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult IEffectSend_SetSendLevel(SLEffectSendItf self, const void *pAuxEffect,
	SLmillibel sendLevel)
	{
	SL_ENTER_INTERFACE

	//if (!((SL_MILLIBEL_MIN <= sendLevel) && (sendLevel <= 0))) {
	// comparison (SL_MILLIBEL_MIN <= sendLevel) is always true due to range of SLmillibel
	if (!(sendLevel <= 0)) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	IEffectSend thiz = (IEffectSend ) self;
	struct EnableLevel *enableLevel = getEnableLevel(thiz, pAuxEffect);
	if (NULL == enableLevel) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	result = SL_RESULT_SUCCESS;
	// EnableEffectSend is exclusive, so this has to be also
	interface_lock_exclusive(thiz);
	enableLevel->mSendLevel = sendLevel;
	#if defined(ANDROID)
	CAudioPlayer *ap = (SL_OBJECTID_AUDIOPLAYER == InterfaceToObjectID(thiz)) ?
	(CAudioPlayer *) thiz->mThis : NULL;
	if (NULL != ap) {
	// the send level set here is the total energy on the aux bus, so it must take
	// into account the player volume level
	result = android_fxSend_setSendLevel(ap, sendLevel + ap->mVolume.mLevel);
	}
	#endif
	interface_unlock_exclusive(thiz);

	}
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult IEffectSend_GetSendLevel(SLEffectSendItf self, const void *pAuxEffect,
	SLmillibel *pSendLevel)
	{
	SL_ENTER_INTERFACE

	if (NULL == pSendLevel) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	IEffectSend thiz = (IEffectSend ) self;
	struct EnableLevel *enableLevel = getEnableLevel(thiz, pAuxEffect);
	if (NULL == enableLevel) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	interface_lock_shared(thiz);
	SLmillibel sendLevel = enableLevel->mSendLevel;
	interface_unlock_shared(thiz);
	*pSendLevel = sendLevel;
	result = SL_RESULT_SUCCESS;
	}
	}

	SL_LEAVE_INTERFACE
	}


	static const struct SLEffectSendItf_ IEffectSend_Itf = {
	IEffectSend_EnableEffectSend,
	IEffectSend_IsEnabled,
	IEffectSend_SetDirectLevel,
	IEffectSend_GetDirectLevel,
	IEffectSend_SetSendLevel,
	IEffectSend_GetSendLevel
	};

	void IEffectSend_init(void *self)
	{
	IEffectSend thiz = (IEffectSend ) self;
	thiz->mItf = &IEffectSend_Itf;
	struct EnableLevel *enableLevel = thiz->mEnableLevels;
	unsigned aux;
	for (aux = 0; aux < AUX_MAX; ++aux, ++enableLevel) {
	enableLevel->mEnable = SL_BOOLEAN_FALSE;
	enableLevel->mSendLevel = SL_MILLIBEL_MIN;
	}
	}