api/video_codecs/video_codec.h - src - Git at Google

 /*
  *  Copyright (c) 2018 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #ifndef API_VIDEO_CODECS_VIDEO_CODEC_H_
 #define API_VIDEO_CODECS_VIDEO_CODEC_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <string>

 #include "absl/strings/string_view.h"
 #include "api/video/video_bitrate_allocation.h"
 #include "api/video/video_codec_type.h"
 #include "api/video_codecs/scalability_mode.h"
 #include "api/video_codecs/simulcast_stream.h"
 #include "api/video_codecs/spatial_layer.h"
 #include "rtc_base/system/rtc_export.h"

 namespace webrtc {

 // The VideoCodec class represents an old defacto-apis, which we're migrating
 // away from slowly.

 // Video codec
 enum class VideoCodecComplexity {
   kComplexityLow = -1,
   kComplexityNormal = 0,
   kComplexityHigh = 1,
   kComplexityHigher = 2,
   kComplexityMax = 3
 };

 // VP8 specific
 struct VideoCodecVP8 {
   bool operator==(const VideoCodecVP8& other) const;
   bool operator!=(const VideoCodecVP8& other) const {
     return !(*this == other);
   }
   // Temporary utility method for transition deleting numberOfTemporalLayers
   // setting (replaced by ScalabilityMode).
   void SetNumberOfTemporalLayers(unsigned char n) {
     numberOfTemporalLayers = n;
   }
   unsigned char numberOfTemporalLayers;
   bool denoisingOn;
   bool automaticResizeOn;
   int keyFrameInterval;
 };

 enum class InterLayerPredMode : int {
   kOff = 0,      // Inter-layer prediction is disabled.
   kOn = 1,       // Inter-layer prediction is enabled.
   kOnKeyPic = 2  // Inter-layer prediction is enabled but limited to key frames.
 };

 // VP9 specific.
 struct VideoCodecVP9 {
   bool operator==(const VideoCodecVP9& other) const;
   bool operator!=(const VideoCodecVP9& other) const {
     return !(*this == other);
   }
   // Temporary utility method for transition deleting numberOfTemporalLayers
   // setting (replaced by ScalabilityMode).
   void SetNumberOfTemporalLayers(unsigned char n) {
     numberOfTemporalLayers = n;
   }
   unsigned char numberOfTemporalLayers;
   bool denoisingOn;
   int keyFrameInterval;
   bool adaptiveQpMode;
   bool automaticResizeOn;
   unsigned char numberOfSpatialLayers;
   bool flexibleMode;
   InterLayerPredMode interLayerPred;
 };

 // H264 specific.
 struct VideoCodecH264 {
   bool operator==(const VideoCodecH264& other) const;
   bool operator!=(const VideoCodecH264& other) const {
     return !(*this == other);
   }
   // Temporary utility method for transition deleting numberOfTemporalLayers
   // setting (replaced by ScalabilityMode).
   void SetNumberOfTemporalLayers(unsigned char n) {
     numberOfTemporalLayers = n;
   }
   int keyFrameInterval;
   uint8_t numberOfTemporalLayers;
 };

 // Translates from name of codec to codec type and vice versa.
 RTC_EXPORT const char* CodecTypeToPayloadString(VideoCodecType type);
 RTC_EXPORT VideoCodecType PayloadStringToCodecType(const std::string& name);

 union VideoCodecUnion {
   VideoCodecVP8 VP8;
   VideoCodecVP9 VP9;
   VideoCodecH264 H264;
 };

 enum class VideoCodecMode { kRealtimeVideo, kScreensharing };

 // Common video codec properties
 class RTC_EXPORT VideoCodec {
  public:
   VideoCodec();

   // Scalability mode as described in
   // https://www.w3.org/TR/webrtc-svc/#scalabilitymodes*
   absl::optional<ScalabilityMode> GetScalabilityMode() const {
     return scalability_mode_;
   }
   void SetScalabilityMode(ScalabilityMode scalability_mode) {
     scalability_mode_ = scalability_mode;
   }
   void UnsetScalabilityMode() { scalability_mode_ = absl::nullopt; }

   VideoCodecComplexity GetVideoEncoderComplexity() const;
   void SetVideoEncoderComplexity(VideoCodecComplexity complexity_setting);

   bool GetFrameDropEnabled() const;
   void SetFrameDropEnabled(bool enabled);

   // Public variables. TODO(hta): Make them private with accessors.
   VideoCodecType codecType;

   // TODO(nisse): Change to int, for consistency.
   uint16_t width;
   uint16_t height;

   unsigned int startBitrate;  // kilobits/sec.
   unsigned int maxBitrate;    // kilobits/sec.
   unsigned int minBitrate;    // kilobits/sec.

   uint32_t maxFramerate;

   // This enables/disables encoding and sending when there aren't multiple
   // simulcast streams,by allocating 0 bitrate if inactive.
   bool active;

   unsigned int qpMax;
   unsigned char numberOfSimulcastStreams;
   SimulcastStream simulcastStream[kMaxSimulcastStreams];
   SpatialLayer spatialLayers[kMaxSpatialLayers];

   VideoCodecMode mode;
   bool expect_encode_from_texture;

   // Timing frames configuration. There is delay of delay_ms between two
   // consequent timing frames, excluding outliers. Frame is always made a
   // timing frame if it's at least outlier_ratio in percent of "ideal" average
   // frame given bitrate and framerate, i.e. if it's bigger than
   // |outlier_ratio / 100.0 * bitrate_bps / fps| in bits. This way, timing
   // frames will not be sent too often usually. Yet large frames will always
   // have timing information for debug purposes because they are more likely to
   // cause extra delays.
   struct TimingFrameTriggerThresholds {
     int64_t delay_ms;
     uint16_t outlier_ratio_percent;
   } timing_frame_thresholds;

   // Legacy Google conference mode flag for simulcast screenshare
   bool legacy_conference_mode;

   bool operator==(const VideoCodec& other) const = delete;
   bool operator!=(const VideoCodec& other) const = delete;

   // Accessors for codec specific information.
   // There is a const version of each that returns a reference,
   // and a non-const version that returns a pointer, in order
   // to allow modification of the parameters.
   VideoCodecVP8* VP8();
   const VideoCodecVP8& VP8() const;
   VideoCodecVP9* VP9();
   const VideoCodecVP9& VP9() const;
   VideoCodecH264* H264();
   const VideoCodecH264& H264() const;

  private:
   // TODO(hta): Consider replacing the union with a pointer type.
   // This will allow removing the VideoCodec* types from this file.
   VideoCodecUnion codec_specific_;
   absl::optional<ScalabilityMode> scalability_mode_;
   // 'complexity_' indicates the CPU capability of the client. It's used to
   // determine encoder CPU complexity (e.g., cpu_used for VP8, VP9. and AV1).
   VideoCodecComplexity complexity_;
   bool frame_drop_enabled_ = false;
 };

 }  // namespace webrtc
 #endif  // API_VIDEO_CODECS_VIDEO_CODEC_H_
	/*
	* Copyright (c) 2018 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#ifndef API_VIDEO_CODECS_VIDEO_CODEC_H_
	#define API_VIDEO_CODECS_VIDEO_CODEC_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <string>

	#include "absl/strings/string_view.h"
	#include "api/video/video_bitrate_allocation.h"
	#include "api/video/video_codec_type.h"
	#include "api/video_codecs/scalability_mode.h"
	#include "api/video_codecs/simulcast_stream.h"
	#include "api/video_codecs/spatial_layer.h"
	#include "rtc_base/system/rtc_export.h"

	namespace webrtc {

	// The VideoCodec class represents an old defacto-apis, which we're migrating
	// away from slowly.

	// Video codec
	enum class VideoCodecComplexity {
	kComplexityLow = -1,
	kComplexityNormal = 0,
	kComplexityHigh = 1,
	kComplexityHigher = 2,
	kComplexityMax = 3
	};

	// VP8 specific
	struct VideoCodecVP8 {
	bool operator==(const VideoCodecVP8& other) const;
	bool operator!=(const VideoCodecVP8& other) const {
	return !(*this == other);
	}
	// Temporary utility method for transition deleting numberOfTemporalLayers
	// setting (replaced by ScalabilityMode).
	void SetNumberOfTemporalLayers(unsigned char n) {
	numberOfTemporalLayers = n;
	}
	unsigned char numberOfTemporalLayers;
	bool denoisingOn;
	bool automaticResizeOn;
	int keyFrameInterval;
	};

	enum class InterLayerPredMode : int {
	kOff = 0, // Inter-layer prediction is disabled.
	kOn = 1, // Inter-layer prediction is enabled.
	kOnKeyPic = 2 // Inter-layer prediction is enabled but limited to key frames.
	};

	// VP9 specific.
	struct VideoCodecVP9 {
	bool operator==(const VideoCodecVP9& other) const;
	bool operator!=(const VideoCodecVP9& other) const {
	return !(*this == other);
	}
	// Temporary utility method for transition deleting numberOfTemporalLayers
	// setting (replaced by ScalabilityMode).
	void SetNumberOfTemporalLayers(unsigned char n) {
	numberOfTemporalLayers = n;
	}
	unsigned char numberOfTemporalLayers;
	bool denoisingOn;
	int keyFrameInterval;
	bool adaptiveQpMode;
	bool automaticResizeOn;
	unsigned char numberOfSpatialLayers;
	bool flexibleMode;
	InterLayerPredMode interLayerPred;
	};

	// H264 specific.
	struct VideoCodecH264 {
	bool operator==(const VideoCodecH264& other) const;
	bool operator!=(const VideoCodecH264& other) const {
	return !(*this == other);
	}
	// Temporary utility method for transition deleting numberOfTemporalLayers
	// setting (replaced by ScalabilityMode).
	void SetNumberOfTemporalLayers(unsigned char n) {
	numberOfTemporalLayers = n;
	}
	int keyFrameInterval;
	uint8_t numberOfTemporalLayers;
	};

	// Translates from name of codec to codec type and vice versa.
	RTC_EXPORT const char* CodecTypeToPayloadString(VideoCodecType type);
	RTC_EXPORT VideoCodecType PayloadStringToCodecType(const std::string& name);

	union VideoCodecUnion {
	VideoCodecVP8 VP8;
	VideoCodecVP9 VP9;
	VideoCodecH264 H264;
	};

	enum class VideoCodecMode { kRealtimeVideo, kScreensharing };

	// Common video codec properties
	class RTC_EXPORT VideoCodec {
	public:
	VideoCodec();

	// Scalability mode as described in
	// https://www.w3.org/TR/webrtc-svc/#scalabilitymodes*
	absl::optional<ScalabilityMode> GetScalabilityMode() const {
	return scalability_mode_;
	}
	void SetScalabilityMode(ScalabilityMode scalability_mode) {
	scalability_mode_ = scalability_mode;
	}
	void UnsetScalabilityMode() { scalability_mode_ = absl::nullopt; }

	VideoCodecComplexity GetVideoEncoderComplexity() const;
	void SetVideoEncoderComplexity(VideoCodecComplexity complexity_setting);

	bool GetFrameDropEnabled() const;
	void SetFrameDropEnabled(bool enabled);

	// Public variables. TODO(hta): Make them private with accessors.
	VideoCodecType codecType;

	// TODO(nisse): Change to int, for consistency.
	uint16_t width;
	uint16_t height;

	unsigned int startBitrate; // kilobits/sec.
	unsigned int maxBitrate; // kilobits/sec.
	unsigned int minBitrate; // kilobits/sec.

	uint32_t maxFramerate;

	// This enables/disables encoding and sending when there aren't multiple
	// simulcast streams,by allocating 0 bitrate if inactive.
	bool active;

	unsigned int qpMax;
	unsigned char numberOfSimulcastStreams;
	SimulcastStream simulcastStream[kMaxSimulcastStreams];
	SpatialLayer spatialLayers[kMaxSpatialLayers];

	VideoCodecMode mode;
	bool expect_encode_from_texture;

	// Timing frames configuration. There is delay of delay_ms between two
	// consequent timing frames, excluding outliers. Frame is always made a
	// timing frame if it's at least outlier_ratio in percent of "ideal" average
	// frame given bitrate and framerate, i.e. if it's bigger than
	// \|outlier_ratio / 100.0 * bitrate_bps / fps\| in bits. This way, timing
	// frames will not be sent too often usually. Yet large frames will always
	// have timing information for debug purposes because they are more likely to
	// cause extra delays.
	struct TimingFrameTriggerThresholds {
	int64_t delay_ms;
	uint16_t outlier_ratio_percent;
	} timing_frame_thresholds;

	// Legacy Google conference mode flag for simulcast screenshare
	bool legacy_conference_mode;

	bool operator==(const VideoCodec& other) const = delete;
	bool operator!=(const VideoCodec& other) const = delete;

	// Accessors for codec specific information.
	// There is a const version of each that returns a reference,
	// and a non-const version that returns a pointer, in order
	// to allow modification of the parameters.
	VideoCodecVP8* VP8();
	const VideoCodecVP8& VP8() const;
	VideoCodecVP9* VP9();
	const VideoCodecVP9& VP9() const;
	VideoCodecH264* H264();
	const VideoCodecH264& H264() const;

	private:
	// TODO(hta): Consider replacing the union with a pointer type.
	// This will allow removing the VideoCodec* types from this file.
	VideoCodecUnion codec_specific_;
	absl::optional<ScalabilityMode> scalability_mode_;
	// 'complexity_' indicates the CPU capability of the client. It's used to
	// determine encoder CPU complexity (e.g., cpu_used for VP8, VP9. and AV1).
	VideoCodecComplexity complexity_;
	bool frame_drop_enabled_ = false;
	};

	} // namespace webrtc
	#endif // API_VIDEO_CODECS_VIDEO_CODEC_H_