media/libeffects/dynamicsproc/dsp/DPBase.cpp - third_party/android/platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 2018 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.
  */

 #define LOG_TAG "DPBase"
 //#define LOG_NDEBUG 0

 #include <log/log.h>
 #include "DPBase.h"
 #include "DPFrequency.h"

 namespace dp_fx {

 DPStage::DPStage() : mInUse(DP_DEFAULT_STAGE_INUSE),
         mEnabled(DP_DEFAULT_STAGE_ENABLED) {
 }

 void DPStage::init(bool inUse, bool enabled) {
     mInUse = inUse;
     mEnabled = enabled;
 }

 //----
 DPBandStage::DPBandStage() : mBandCount(0) {
 }

 void DPBandStage::init(bool inUse, bool enabled, int bandCount) {
     DPStage::init(inUse, enabled);
     mBandCount = inUse ? bandCount : 0;
 }

 //---
 DPBandBase::DPBandBase() {
     init(DP_DEFAULT_BAND_ENABLED,
             DP_DEFAULT_BAND_CUTOFF_FREQUENCY_HZ);
 }

 void DPBandBase::init(bool enabled, float cutoffFrequency){
     mEnabled = enabled;
     mCutoofFrequencyHz = cutoffFrequency;
 }

 //-----
 DPEqBand::DPEqBand() {
     init(DP_DEFAULT_BAND_ENABLED,
             DP_DEFAULT_BAND_CUTOFF_FREQUENCY_HZ,
             DP_DEFAULT_GAIN_DB);
 }

 void DPEqBand::init(bool enabled, float cutoffFrequency, float gain) {
     DPBandBase::init(enabled, cutoffFrequency);
     setGain(gain);
 }

 float DPEqBand::getGain() const{
     return mGainDb;
 }

 void DPEqBand::setGain(float gain) {
     mGainDb = gain;
 }

 //------
 DPMbcBand::DPMbcBand() {
     init(DP_DEFAULT_BAND_ENABLED,
             DP_DEFAULT_BAND_CUTOFF_FREQUENCY_HZ,
             DP_DEFAULT_ATTACK_TIME_MS,
             DP_DEFAULT_RELEASE_TIME_MS,
             DP_DEFAULT_RATIO,
             DP_DEFAULT_THRESHOLD_DB,
             DP_DEFAULT_KNEE_WIDTH_DB,
             DP_DEFAULT_NOISE_GATE_THRESHOLD_DB,
             DP_DEFAULT_EXPANDER_RATIO,
             DP_DEFAULT_GAIN_DB,
             DP_DEFAULT_GAIN_DB);
 }

 void DPMbcBand::init(bool enabled, float cutoffFrequency, float attackTime, float releaseTime,
         float ratio, float threshold, float kneeWidth, float noiseGateThreshold,
         float expanderRatio, float preGain, float postGain) {
     DPBandBase::init(enabled, cutoffFrequency);
     setAttackTime(attackTime);
     setReleaseTime(releaseTime);
     setRatio(ratio);
     setThreshold(threshold);
     setKneeWidth(kneeWidth);
     setNoiseGateThreshold(noiseGateThreshold);
     setExpanderRatio(expanderRatio);
     setPreGain(preGain);
     setPostGain(postGain);
 }

 //------
 DPEq::DPEq() {
 }

 void DPEq::init(bool inUse, bool enabled, uint32_t bandCount) {
     DPBandStage::init(inUse, enabled, bandCount);
     mBands.resize(getBandCount());
 }

 DPEqBand * DPEq::getBand(uint32_t band) {
     if (band < getBandCount()) {
         return &mBands[band];
     }
     return NULL;
 }

 void DPEq::setBand(uint32_t band, DPEqBand &src) {
     if (band < getBandCount()) {
         mBands[band] = src;
     }
 }

 //------
 DPMbc::DPMbc() {
 }

 void DPMbc::init(bool inUse, bool enabled, uint32_t bandCount) {
     DPBandStage::init(inUse, enabled, bandCount);
     if (isInUse()) {
         mBands.resize(bandCount);
     } else {
         mBands.resize(0);
     }
 }

 DPMbcBand * DPMbc::getBand(uint32_t band) {
     if (band < getBandCount()) {
         return &mBands[band];
     }
     return NULL;
 }

 void DPMbc::setBand(uint32_t band, DPMbcBand &src) {
     if (band < getBandCount()) {
         mBands[band] = src;
     }
 }

 //------
 DPLimiter::DPLimiter() {
     init(DP_DEFAULT_STAGE_INUSE,
             DP_DEFAULT_STAGE_ENABLED,
             DP_DEFAULT_LINK_GROUP,
             DP_DEFAULT_ATTACK_TIME_MS,
             DP_DEFAULT_RELEASE_TIME_MS,
             DP_DEFAULT_RATIO,
             DP_DEFAULT_THRESHOLD_DB,
             DP_DEFAULT_GAIN_DB);
 }

 void DPLimiter::init(bool inUse, bool enabled, uint32_t linkGroup, float attackTime, float releaseTime,
         float ratio, float threshold, float postGain) {
     DPStage::init(inUse, enabled);
     setLinkGroup(linkGroup);
     setAttackTime(attackTime);
     setReleaseTime(releaseTime);
     setRatio(ratio);
     setThreshold(threshold);
     setPostGain(postGain);
 }

 //----
 DPChannel::DPChannel() : mInitialized(false), mInputGainDb(0), mOutputGainDb(0),
         mPreEqInUse(false), mMbcInUse(false), mPostEqInUse(false), mLimiterInUse(false) {
 }

 void DPChannel::init(float inputGain, bool preEqInUse, uint32_t preEqBandCount,
         bool mbcInUse, uint32_t mbcBandCount, bool postEqInUse, uint32_t postEqBandCount,
         bool limiterInUse) {
     setInputGain(inputGain);
     mPreEqInUse = preEqInUse;
     mMbcInUse = mbcInUse;
     mPostEqInUse = postEqInUse;
     mLimiterInUse = limiterInUse;

     mPreEq.init(mPreEqInUse, false, preEqBandCount);
     mMbc.init(mMbcInUse, false, mbcBandCount);
     mPostEq.init(mPostEqInUse, false, postEqBandCount);
     mLimiter.init(mLimiterInUse, false, 0, 50, 120, 2, -30, 0);
     mInitialized = true;
 }

 DPEq* DPChannel::getPreEq() {
     if (!mInitialized) {
         return NULL;
     }
     return &mPreEq;
 }

 DPMbc* DPChannel::getMbc() {
     if (!mInitialized) {
         return NULL;
     }
     return &mMbc;
 }

 DPEq* DPChannel::getPostEq() {
     if (!mInitialized) {
         return NULL;
     }
     return &mPostEq;
 }

 DPLimiter* DPChannel::getLimiter() {
     if (!mInitialized) {
         return NULL;
     }
     return &mLimiter;
 }

 void DPChannel::setLimiter(DPLimiter &limiter) {
     if (!mInitialized) {
         return;
     }
     mLimiter = limiter;
 }

 //----
 DPBase::DPBase() : mInitialized(false), mChannelCount(0), mPreEqInUse(false), mPreEqBandCount(0),
         mMbcInUse(false), mMbcBandCount(0), mPostEqInUse(false), mPostEqBandCount(0),
         mLimiterInUse(false) {
 }

 void DPBase::init(uint32_t channelCount, bool preEqInUse, uint32_t preEqBandCount,
         bool mbcInUse, uint32_t mbcBandCount, bool postEqInUse, uint32_t postEqBandCount,
         bool limiterInUse) {
     ALOGV("DPBase::init");
     mChannelCount = channelCount;
     mPreEqInUse = preEqInUse;
     mPreEqBandCount = preEqBandCount;
     mMbcInUse = mbcInUse;
     mMbcBandCount = mbcBandCount;
     mPostEqInUse = postEqInUse;
     mPostEqBandCount = postEqBandCount;
     mLimiterInUse = limiterInUse;
     mChannel.resize(mChannelCount);
     for (size_t ch = 0; ch < mChannelCount; ch++) {
         mChannel[ch].init(0, preEqInUse, preEqBandCount, mbcInUse, mbcBandCount,
                 postEqInUse, postEqBandCount, limiterInUse);
     }
     mInitialized = true;
 }

 DPChannel* DPBase::getChannel(uint32_t channelIndex) {
     if (!mInitialized || channelIndex < 0 || channelIndex >= mChannel.size()) {
         return NULL;
     }
     return & mChannel[channelIndex];
 }

 } //namespace dp_fx
	/*
	* Copyright (C) 2018 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.
	*/

	#define LOG_TAG "DPBase"
	//#define LOG_NDEBUG 0

	#include <log/log.h>
	#include "DPBase.h"
	#include "DPFrequency.h"

	namespace dp_fx {

	DPStage::DPStage() : mInUse(DP_DEFAULT_STAGE_INUSE),
	mEnabled(DP_DEFAULT_STAGE_ENABLED) {
	}

	void DPStage::init(bool inUse, bool enabled) {
	mInUse = inUse;
	mEnabled = enabled;
	}

	//----
	DPBandStage::DPBandStage() : mBandCount(0) {
	}

	void DPBandStage::init(bool inUse, bool enabled, int bandCount) {
	DPStage::init(inUse, enabled);
	mBandCount = inUse ? bandCount : 0;
	}

	//---
	DPBandBase::DPBandBase() {
	init(DP_DEFAULT_BAND_ENABLED,
	DP_DEFAULT_BAND_CUTOFF_FREQUENCY_HZ);
	}

	void DPBandBase::init(bool enabled, float cutoffFrequency){
	mEnabled = enabled;
	mCutoofFrequencyHz = cutoffFrequency;
	}

	//-----
	DPEqBand::DPEqBand() {
	init(DP_DEFAULT_BAND_ENABLED,
	DP_DEFAULT_BAND_CUTOFF_FREQUENCY_HZ,
	DP_DEFAULT_GAIN_DB);
	}

	void DPEqBand::init(bool enabled, float cutoffFrequency, float gain) {
	DPBandBase::init(enabled, cutoffFrequency);
	setGain(gain);
	}

	float DPEqBand::getGain() const{
	return mGainDb;
	}

	void DPEqBand::setGain(float gain) {
	mGainDb = gain;
	}

	//------
	DPMbcBand::DPMbcBand() {
	init(DP_DEFAULT_BAND_ENABLED,
	DP_DEFAULT_BAND_CUTOFF_FREQUENCY_HZ,
	DP_DEFAULT_ATTACK_TIME_MS,
	DP_DEFAULT_RELEASE_TIME_MS,
	DP_DEFAULT_RATIO,
	DP_DEFAULT_THRESHOLD_DB,
	DP_DEFAULT_KNEE_WIDTH_DB,
	DP_DEFAULT_NOISE_GATE_THRESHOLD_DB,
	DP_DEFAULT_EXPANDER_RATIO,
	DP_DEFAULT_GAIN_DB,
	DP_DEFAULT_GAIN_DB);
	}

	void DPMbcBand::init(bool enabled, float cutoffFrequency, float attackTime, float releaseTime,
	float ratio, float threshold, float kneeWidth, float noiseGateThreshold,
	float expanderRatio, float preGain, float postGain) {
	DPBandBase::init(enabled, cutoffFrequency);
	setAttackTime(attackTime);
	setReleaseTime(releaseTime);
	setRatio(ratio);
	setThreshold(threshold);
	setKneeWidth(kneeWidth);
	setNoiseGateThreshold(noiseGateThreshold);
	setExpanderRatio(expanderRatio);
	setPreGain(preGain);
	setPostGain(postGain);
	}

	//------
	DPEq::DPEq() {
	}

	void DPEq::init(bool inUse, bool enabled, uint32_t bandCount) {
	DPBandStage::init(inUse, enabled, bandCount);
	mBands.resize(getBandCount());
	}

	DPEqBand * DPEq::getBand(uint32_t band) {
	if (band < getBandCount()) {
	return &mBands[band];
	}
	return NULL;
	}

	void DPEq::setBand(uint32_t band, DPEqBand &src) {
	if (band < getBandCount()) {
	mBands[band] = src;
	}
	}

	//------
	DPMbc::DPMbc() {
	}

	void DPMbc::init(bool inUse, bool enabled, uint32_t bandCount) {
	DPBandStage::init(inUse, enabled, bandCount);
	if (isInUse()) {
	mBands.resize(bandCount);
	} else {
	mBands.resize(0);
	}
	}

	DPMbcBand * DPMbc::getBand(uint32_t band) {
	if (band < getBandCount()) {
	return &mBands[band];
	}
	return NULL;
	}

	void DPMbc::setBand(uint32_t band, DPMbcBand &src) {
	if (band < getBandCount()) {
	mBands[band] = src;
	}
	}

	//------
	DPLimiter::DPLimiter() {
	init(DP_DEFAULT_STAGE_INUSE,
	DP_DEFAULT_STAGE_ENABLED,
	DP_DEFAULT_LINK_GROUP,
	DP_DEFAULT_ATTACK_TIME_MS,
	DP_DEFAULT_RELEASE_TIME_MS,
	DP_DEFAULT_RATIO,
	DP_DEFAULT_THRESHOLD_DB,
	DP_DEFAULT_GAIN_DB);
	}

	void DPLimiter::init(bool inUse, bool enabled, uint32_t linkGroup, float attackTime, float releaseTime,
	float ratio, float threshold, float postGain) {
	DPStage::init(inUse, enabled);
	setLinkGroup(linkGroup);
	setAttackTime(attackTime);
	setReleaseTime(releaseTime);
	setRatio(ratio);
	setThreshold(threshold);
	setPostGain(postGain);
	}

	//----
	DPChannel::DPChannel() : mInitialized(false), mInputGainDb(0), mOutputGainDb(0),
	mPreEqInUse(false), mMbcInUse(false), mPostEqInUse(false), mLimiterInUse(false) {
	}

	void DPChannel::init(float inputGain, bool preEqInUse, uint32_t preEqBandCount,
	bool mbcInUse, uint32_t mbcBandCount, bool postEqInUse, uint32_t postEqBandCount,
	bool limiterInUse) {
	setInputGain(inputGain);
	mPreEqInUse = preEqInUse;
	mMbcInUse = mbcInUse;
	mPostEqInUse = postEqInUse;
	mLimiterInUse = limiterInUse;

	mPreEq.init(mPreEqInUse, false, preEqBandCount);
	mMbc.init(mMbcInUse, false, mbcBandCount);
	mPostEq.init(mPostEqInUse, false, postEqBandCount);
	mLimiter.init(mLimiterInUse, false, 0, 50, 120, 2, -30, 0);
	mInitialized = true;
	}

	DPEq* DPChannel::getPreEq() {
	if (!mInitialized) {
	return NULL;
	}
	return &mPreEq;
	}

	DPMbc* DPChannel::getMbc() {
	if (!mInitialized) {
	return NULL;
	}
	return &mMbc;
	}

	DPEq* DPChannel::getPostEq() {
	if (!mInitialized) {
	return NULL;
	}
	return &mPostEq;
	}

	DPLimiter* DPChannel::getLimiter() {
	if (!mInitialized) {
	return NULL;
	}
	return &mLimiter;
	}

	void DPChannel::setLimiter(DPLimiter &limiter) {
	if (!mInitialized) {
	return;
	}
	mLimiter = limiter;
	}

	//----
	DPBase::DPBase() : mInitialized(false), mChannelCount(0), mPreEqInUse(false), mPreEqBandCount(0),
	mMbcInUse(false), mMbcBandCount(0), mPostEqInUse(false), mPostEqBandCount(0),
	mLimiterInUse(false) {
	}

	void DPBase::init(uint32_t channelCount, bool preEqInUse, uint32_t preEqBandCount,
	bool mbcInUse, uint32_t mbcBandCount, bool postEqInUse, uint32_t postEqBandCount,
	bool limiterInUse) {
	ALOGV("DPBase::init");
	mChannelCount = channelCount;
	mPreEqInUse = preEqInUse;
	mPreEqBandCount = preEqBandCount;
	mMbcInUse = mbcInUse;
	mMbcBandCount = mbcBandCount;
	mPostEqInUse = postEqInUse;
	mPostEqBandCount = postEqBandCount;
	mLimiterInUse = limiterInUse;
	mChannel.resize(mChannelCount);
	for (size_t ch = 0; ch < mChannelCount; ch++) {
	mChannel[ch].init(0, preEqInUse, preEqBandCount, mbcInUse, mbcBandCount,
	postEqInUse, postEqBandCount, limiterInUse);
	}
	mInitialized = true;
	}

	DPChannel* DPBase::getChannel(uint32_t channelIndex) {
	if (!mInitialized \|\| channelIndex < 0 \|\| channelIndex >= mChannel.size()) {
	return NULL;
	}
	return & mChannel[channelIndex];
	}

	} //namespace dp_fx