media/module/libmediaformatshaper/CodecProperties.h - LeafOS-Project/android_frameworks_av - Gitiles

 /*
  * Copyright 2021, 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.
  */

 #ifndef _LIBMEDIAFORMATSHAPER_CODECPROPERTIES_H_
 #define _LIBMEDIAFORMATSHAPER_CODECPROPERTIES_H_

 #include <map>
 #include <mutex>
 #include <string>

 #include <inttypes.h>

 #include <utils/RefBase.h>

 namespace android {
 namespace mediaformatshaper {

 class CodecProperties {

   public:
     CodecProperties(std::string name, std::string mediaType);

     // seed the codec with some preconfigured values
     // (e.g. mediaType-granularity defaults)
     // runs from the constructor
     void Seed();
     void Finish();

     std::string getName();
     std::string getMediaType();

     // establish a mapping from standard 'key' to non-standard 'value' in the namespace 'kind'
     void setMapping(std::string kind, std::string key, std::string value);

     // translate from from standard key to non-standard key
     // return original standard key if there is no mapping
     std::string getMapping(std::string key, std::string kind);

     // returns an array of char *, which are paired "from" and "to" values
     // for mapping (or unmapping). it's always expressed as from->to
     // and 'reverse' describes which strings are to be on which side.
     const char **getMappings(std::string kind, bool reverse);

     // keep a map of all features and their parameters
     void setFeatureValue(std::string key, int32_t value);
     bool getFeatureValue(std::string key, int32_t *valuep);

     // keep a map of all tunings and their parameters
     void setTuningValue(std::string key, std::string value);
     bool getTuningValue(std::string key, std::string &value);

     // does the codec support the Android S minimum quality rules
     void setSupportedMinimumQuality(int vmaf);
     int supportedMinimumQuality();

     // qp max bound used to compensate when SupportedMinimumQuality == 0
     // 0 == let a system default handle it
     void setTargetQpMax(int qpmax);
     int targetQpMax(int32_t width, int32_t height);

     // target bits-per-pixel (per second) for encoding operations.
     // This is used to calculate a minimum bitrate for any particular resolution.
     // A 1080p (1920*1080 = 2073600 pixels) to be encoded at 5Mbps has a bpp == 2.41
     void setBpp(double bpp) { mBpp = bpp;}
     double getBpp(int32_t width, int32_t height);

     // Does this codec support QP bounding
     // The getMapping() methods provide any needed mapping to non-standard keys.
     void setSupportsQp(bool supported) { mSupportsQp = supported;}
     bool supportsQp() { return mSupportsQp;}

     // defines our range of operation -- multiplier on the floor bitrate
     double getPhaseOut() { return mPhaseOut; }
     void setPhaseOut(double overageMultiplier);

     // how much (0.20 = +20%) do we add if Qp is requested but unsupported
     double getMissingQpBoost() {return mMissingQpBoost; }
     void setMissingQpBoost(double boost);

     int  supportedApi();

     // a codec is not usable until it has been registered with its
     // name/mediaType.
     bool isRegistered() { return mIsRegistered;}
     void setRegistered(bool registered) { mIsRegistered = registered;}

   private:
     std::string mName;
     std::string mMediaType;
     int mApi = 0;
     int mMinimumQuality = 0;
     int mTargetQpMax = INT32_MAX;
     bool mSupportsQp = false;
     double mBpp = 0.0;

     // target bitrates above floor * mPhaseOut are left untouched
     double mPhaseOut = 1.75;
     // 20% bump if QP is configured but it is unavailable
     double mMissingQpBoost = 0.20;

     // allow different target bits-per-pixel based on resolution
     // similar to codec 'performance points'
     // uses 'next largest' (by pixel count) point as minimum bpp
     struct bpp_point {
         struct bpp_point *next;
         int32_t pixels;
         int32_t width, height;
         double bpp;
     };
     struct bpp_point *mBppPoints = nullptr;
     bool bppPoint(std::string resolution, std::string value);

     // same thing for qpmax -- allow different ones based on resolution
     // allow different target bits-per-pixel based on resolution
     // similar to codec 'performance points'
     // uses 'next largest' (by pixel count) point as minimum bpp
     struct qpmax_point {
         struct qpmax_point *next;
         int32_t pixels;
         int32_t width, height;
         int qpMax;
     };
     struct qpmax_point *mQpMaxPoints = nullptr;
     bool qpMaxPoint(std::string resolution, std::string value);

     std::mutex mMappingLock;
     // XXX figure out why I'm having problems getting compiler to like GUARDED_BY
     std::map<std::string, std::string> mMappings /*GUARDED_BY(mMappingLock)*/ ;

     std::map<std::string, int32_t> mFeatures /*GUARDED_BY(mMappingLock)*/ ;
     std::map<std::string, std::string> mTunings /*GUARDED_BY(mMappingLock)*/ ;

     // Seed() and Finish() use this as the underlying implementation
     void addMediaDefaults(bool overrideable);

     bool mIsRegistered = false;

     // debugging of what's in the mapping dictionary
     void showMappings();

     // DISALLOW_EVIL_CONSTRUCTORS(CodecProperties);
 };

 extern CodecProperties *findCodec(const char *codecName, const char *mediaType);
 extern CodecProperties *registerCodec(CodecProperties *codec, const char *codecName,
                                const char *mediaType);


 } // namespace mediaformatshaper
 } // namespace android

 #endif  //  _LIBMEDIAFORMATSHAPER_CODECPROPERTIES_H_
	/*
	* Copyright 2021, 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.
	*/

	#ifndef _LIBMEDIAFORMATSHAPER_CODECPROPERTIES_H_
	#define _LIBMEDIAFORMATSHAPER_CODECPROPERTIES_H_

	#include <map>
	#include <mutex>
	#include <string>

	#include <inttypes.h>

	#include <utils/RefBase.h>

	namespace android {
	namespace mediaformatshaper {

	class CodecProperties {

	public:
	CodecProperties(std::string name, std::string mediaType);

	// seed the codec with some preconfigured values
	// (e.g. mediaType-granularity defaults)
	// runs from the constructor
	void Seed();
	void Finish();

	std::string getName();
	std::string getMediaType();

	// establish a mapping from standard 'key' to non-standard 'value' in the namespace 'kind'
	void setMapping(std::string kind, std::string key, std::string value);

	// translate from from standard key to non-standard key
	// return original standard key if there is no mapping
	std::string getMapping(std::string key, std::string kind);

	// returns an array of char *, which are paired "from" and "to" values
	// for mapping (or unmapping). it's always expressed as from->to
	// and 'reverse' describes which strings are to be on which side.
	const char **getMappings(std::string kind, bool reverse);

	// keep a map of all features and their parameters
	void setFeatureValue(std::string key, int32_t value);
	bool getFeatureValue(std::string key, int32_t *valuep);

	// keep a map of all tunings and their parameters
	void setTuningValue(std::string key, std::string value);
	bool getTuningValue(std::string key, std::string &value);

	// does the codec support the Android S minimum quality rules
	void setSupportedMinimumQuality(int vmaf);
	int supportedMinimumQuality();

	// qp max bound used to compensate when SupportedMinimumQuality == 0
	// 0 == let a system default handle it
	void setTargetQpMax(int qpmax);
	int targetQpMax(int32_t width, int32_t height);

	// target bits-per-pixel (per second) for encoding operations.
	// This is used to calculate a minimum bitrate for any particular resolution.
	// A 1080p (1920*1080 = 2073600 pixels) to be encoded at 5Mbps has a bpp == 2.41
	void setBpp(double bpp) { mBpp = bpp;}
	double getBpp(int32_t width, int32_t height);

	// Does this codec support QP bounding
	// The getMapping() methods provide any needed mapping to non-standard keys.
	void setSupportsQp(bool supported) { mSupportsQp = supported;}
	bool supportsQp() { return mSupportsQp;}

	// defines our range of operation -- multiplier on the floor bitrate
	double getPhaseOut() { return mPhaseOut; }
	void setPhaseOut(double overageMultiplier);

	// how much (0.20 = +20%) do we add if Qp is requested but unsupported
	double getMissingQpBoost() {return mMissingQpBoost; }
	void setMissingQpBoost(double boost);

	int supportedApi();

	// a codec is not usable until it has been registered with its
	// name/mediaType.
	bool isRegistered() { return mIsRegistered;}
	void setRegistered(bool registered) { mIsRegistered = registered;}

	private:
	std::string mName;
	std::string mMediaType;
	int mApi = 0;
	int mMinimumQuality = 0;
	int mTargetQpMax = INT32_MAX;
	bool mSupportsQp = false;
	double mBpp = 0.0;

	// target bitrates above floor * mPhaseOut are left untouched
	double mPhaseOut = 1.75;
	// 20% bump if QP is configured but it is unavailable
	double mMissingQpBoost = 0.20;

	// allow different target bits-per-pixel based on resolution
	// similar to codec 'performance points'
	// uses 'next largest' (by pixel count) point as minimum bpp
	struct bpp_point {
	struct bpp_point *next;
	int32_t pixels;
	int32_t width, height;
	double bpp;
	};
	struct bpp_point *mBppPoints = nullptr;
	bool bppPoint(std::string resolution, std::string value);

	// same thing for qpmax -- allow different ones based on resolution
	// allow different target bits-per-pixel based on resolution
	// similar to codec 'performance points'
	// uses 'next largest' (by pixel count) point as minimum bpp
	struct qpmax_point {
	struct qpmax_point *next;
	int32_t pixels;
	int32_t width, height;
	int qpMax;
	};
	struct qpmax_point *mQpMaxPoints = nullptr;
	bool qpMaxPoint(std::string resolution, std::string value);

	std::mutex mMappingLock;
	// XXX figure out why I'm having problems getting compiler to like GUARDED_BY
	std::map<std::string, std::string> mMappings /GUARDED_BY(mMappingLock)/ ;

	std::map<std::string, int32_t> mFeatures /GUARDED_BY(mMappingLock)/ ;
	std::map<std::string, std::string> mTunings /GUARDED_BY(mMappingLock)/ ;

	// Seed() and Finish() use this as the underlying implementation
	void addMediaDefaults(bool overrideable);

	bool mIsRegistered = false;

	// debugging of what's in the mapping dictionary
	void showMappings();

	// DISALLOW_EVIL_CONSTRUCTORS(CodecProperties);
	};

	extern CodecProperties findCodec(const char codecName, const char *mediaType);
	extern CodecProperties registerCodec(CodecProperties codec, const char *codecName,
	const char *mediaType);


	} // namespace mediaformatshaper
	} // namespace android

	#endif // _LIBMEDIAFORMATSHAPER_CODECPROPERTIES_H_