modules/video_coding/codecs/vp9/include/vp9_globals.h - src - Git at Google

 /*
  *  Copyright (c) 2016 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.
  */

 // This file contains codec dependent definitions that are needed in
 // order to compile the WebRTC codebase, even if this codec is not used.

 #ifndef MODULES_VIDEO_CODING_CODECS_VP9_INCLUDE_VP9_GLOBALS_H_
 #define MODULES_VIDEO_CODING_CODECS_VP9_INCLUDE_VP9_GLOBALS_H_

 #include <assert.h>
 #include <stdint.h>

 #include "modules/video_coding/codecs/interface/common_constants.h"

 namespace webrtc {

 const int16_t kMaxOneBytePictureId = 0x7F;    // 7 bits
 const int16_t kMaxTwoBytePictureId = 0x7FFF;  // 15 bits
 const uint8_t kNoSpatialIdx = 0xFF;
 const uint8_t kNoGofIdx = 0xFF;
 const uint8_t kNumVp9Buffers = 8;
 const size_t kMaxVp9RefPics = 3;
 const size_t kMaxVp9FramesInGof = 0xFF;  // 8 bits
 const size_t kMaxVp9NumberOfSpatialLayers = 8;

 const size_t kMinVp9SpatialLayerWidth = 320;
 const size_t kMinVp9SpatialLayerHeight = 180;

 enum TemporalStructureMode {
   kTemporalStructureMode1,  // 1 temporal layer structure - i.e., IPPP...
   kTemporalStructureMode2,  // 2 temporal layers 01...
   kTemporalStructureMode3,  // 3 temporal layers 0212...
   kTemporalStructureMode4   // 3 temporal layers 02120212...
 };

 struct GofInfoVP9 {
   void SetGofInfoVP9(TemporalStructureMode tm) {
     switch (tm) {
       case kTemporalStructureMode1:
         num_frames_in_gof = 1;
         temporal_idx[0] = 0;
         temporal_up_switch[0] = false;
         num_ref_pics[0] = 1;
         pid_diff[0][0] = 1;
         break;
       case kTemporalStructureMode2:
         num_frames_in_gof = 2;
         temporal_idx[0] = 0;
         temporal_up_switch[0] = false;
         num_ref_pics[0] = 1;
         pid_diff[0][0] = 2;

         temporal_idx[1] = 1;
         temporal_up_switch[1] = true;
         num_ref_pics[1] = 1;
         pid_diff[1][0] = 1;
         break;
       case kTemporalStructureMode3:
         num_frames_in_gof = 4;
         temporal_idx[0] = 0;
         temporal_up_switch[0] = false;
         num_ref_pics[0] = 1;
         pid_diff[0][0] = 4;

         temporal_idx[1] = 2;
         temporal_up_switch[1] = true;
         num_ref_pics[1] = 1;
         pid_diff[1][0] = 1;

         temporal_idx[2] = 1;
         temporal_up_switch[2] = true;
         num_ref_pics[2] = 1;
         pid_diff[2][0] = 2;

         temporal_idx[3] = 2;
         temporal_up_switch[3] = true;
         num_ref_pics[3] = 1;
         pid_diff[3][0] = 1;
         break;
       case kTemporalStructureMode4:
         num_frames_in_gof = 8;
         temporal_idx[0] = 0;
         temporal_up_switch[0] = false;
         num_ref_pics[0] = 1;
         pid_diff[0][0] = 4;

         temporal_idx[1] = 2;
         temporal_up_switch[1] = true;
         num_ref_pics[1] = 1;
         pid_diff[1][0] = 1;

         temporal_idx[2] = 1;
         temporal_up_switch[2] = true;
         num_ref_pics[2] = 1;
         pid_diff[2][0] = 2;

         temporal_idx[3] = 2;
         temporal_up_switch[3] = false;
         num_ref_pics[3] = 2;
         pid_diff[3][0] = 1;
         pid_diff[3][1] = 2;

         temporal_idx[4] = 0;
         temporal_up_switch[4] = false;
         num_ref_pics[4] = 1;
         pid_diff[4][0] = 4;

         temporal_idx[5] = 2;
         temporal_up_switch[5] = false;
         num_ref_pics[5] = 2;
         pid_diff[5][0] = 1;
         pid_diff[5][1] = 2;

         temporal_idx[6] = 1;
         temporal_up_switch[6] = false;
         num_ref_pics[6] = 2;
         pid_diff[6][0] = 2;
         pid_diff[6][1] = 4;

         temporal_idx[7] = 2;
         temporal_up_switch[7] = false;
         num_ref_pics[7] = 2;
         pid_diff[7][0] = 1;
         pid_diff[7][1] = 2;
         break;
       default:
         assert(false);
     }
   }

   void CopyGofInfoVP9(const GofInfoVP9& src) {
     num_frames_in_gof = src.num_frames_in_gof;
     for (size_t i = 0; i < num_frames_in_gof; ++i) {
       temporal_idx[i] = src.temporal_idx[i];
       temporal_up_switch[i] = src.temporal_up_switch[i];
       num_ref_pics[i] = src.num_ref_pics[i];
       for (uint8_t r = 0; r < num_ref_pics[i]; ++r) {
         pid_diff[i][r] = src.pid_diff[i][r];
       }
     }
   }

   size_t num_frames_in_gof;
   uint8_t temporal_idx[kMaxVp9FramesInGof];
   bool temporal_up_switch[kMaxVp9FramesInGof];
   uint8_t num_ref_pics[kMaxVp9FramesInGof];
   uint8_t pid_diff[kMaxVp9FramesInGof][kMaxVp9RefPics];
   uint16_t pid_start;
 };

 struct RTPVideoHeaderVP9 {
   void InitRTPVideoHeaderVP9() {
     inter_pic_predicted = false;
     flexible_mode = false;
     beginning_of_frame = false;
     end_of_frame = false;
     ss_data_available = false;
     non_ref_for_inter_layer_pred = false;
     picture_id = kNoPictureId;
     max_picture_id = kMaxTwoBytePictureId;
     tl0_pic_idx = kNoTl0PicIdx;
     temporal_idx = kNoTemporalIdx;
     spatial_idx = kNoSpatialIdx;
     temporal_up_switch = false;
     inter_layer_predicted = false;
     gof_idx = kNoGofIdx;
     num_ref_pics = 0;
     num_spatial_layers = 1;
     end_of_picture = true;
   }

   bool inter_pic_predicted;  // This layer frame is dependent on previously
                              // coded frame(s).
   bool flexible_mode;        // This frame is in flexible mode.
   bool beginning_of_frame;   // True if this packet is the first in a VP9 layer
                              // frame.
   bool end_of_frame;  // True if this packet is the last in a VP9 layer frame.
   bool ss_data_available;  // True if SS data is available in this payload
                            // descriptor.
   bool non_ref_for_inter_layer_pred;  // True for frame which is not used as
                                       // reference for inter-layer prediction.
   int16_t picture_id;                 // PictureID index, 15 bits;
                        // kNoPictureId if PictureID does not exist.
   int16_t max_picture_id;   // Maximum picture ID index; either 0x7F or 0x7FFF;
   int16_t tl0_pic_idx;      // TL0PIC_IDX, 8 bits;
                             // kNoTl0PicIdx means no value provided.
   uint8_t temporal_idx;     // Temporal layer index, or kNoTemporalIdx.
   uint8_t spatial_idx;      // Spatial layer index, or kNoSpatialIdx.
   bool temporal_up_switch;  // True if upswitch to higher frame rate is possible
                             // starting from this frame.
   bool inter_layer_predicted;  // Frame is dependent on directly lower spatial
                                // layer frame.

   uint8_t gof_idx;  // Index to predefined temporal frame info in SS data.

   uint8_t num_ref_pics;  // Number of reference pictures used by this layer
                          // frame.
   uint8_t pid_diff[kMaxVp9RefPics];  // P_DIFF signaled to derive the PictureID
                                      // of the reference pictures.
   int16_t ref_picture_id[kMaxVp9RefPics];  // PictureID of reference pictures.

   // SS data.
   size_t num_spatial_layers;  // Always populated.
   bool spatial_layer_resolution_present;
   uint16_t width[kMaxVp9NumberOfSpatialLayers];
   uint16_t height[kMaxVp9NumberOfSpatialLayers];
   GofInfoVP9 gof;

   bool end_of_picture;  // This frame is the last frame in picture.
 };

 }  // namespace webrtc

 #endif  // MODULES_VIDEO_CODING_CODECS_VP9_INCLUDE_VP9_GLOBALS_H_
	/*
	* Copyright (c) 2016 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.
	*/

	// This file contains codec dependent definitions that are needed in
	// order to compile the WebRTC codebase, even if this codec is not used.

	#ifndef MODULES_VIDEO_CODING_CODECS_VP9_INCLUDE_VP9_GLOBALS_H_
	#define MODULES_VIDEO_CODING_CODECS_VP9_INCLUDE_VP9_GLOBALS_H_

	#include <assert.h>
	#include <stdint.h>

	#include "modules/video_coding/codecs/interface/common_constants.h"

	namespace webrtc {

	const int16_t kMaxOneBytePictureId = 0x7F; // 7 bits
	const int16_t kMaxTwoBytePictureId = 0x7FFF; // 15 bits
	const uint8_t kNoSpatialIdx = 0xFF;
	const uint8_t kNoGofIdx = 0xFF;
	const uint8_t kNumVp9Buffers = 8;
	const size_t kMaxVp9RefPics = 3;
	const size_t kMaxVp9FramesInGof = 0xFF; // 8 bits
	const size_t kMaxVp9NumberOfSpatialLayers = 8;

	const size_t kMinVp9SpatialLayerWidth = 320;
	const size_t kMinVp9SpatialLayerHeight = 180;

	enum TemporalStructureMode {
	kTemporalStructureMode1, // 1 temporal layer structure - i.e., IPPP...
	kTemporalStructureMode2, // 2 temporal layers 01...
	kTemporalStructureMode3, // 3 temporal layers 0212...
	kTemporalStructureMode4 // 3 temporal layers 02120212...
	};

	struct GofInfoVP9 {
	void SetGofInfoVP9(TemporalStructureMode tm) {
	switch (tm) {
	case kTemporalStructureMode1:
	num_frames_in_gof = 1;
	temporal_idx[0] = 0;
	temporal_up_switch[0] = false;
	num_ref_pics[0] = 1;
	pid_diff[0][0] = 1;
	break;
	case kTemporalStructureMode2:
	num_frames_in_gof = 2;
	temporal_idx[0] = 0;
	temporal_up_switch[0] = false;
	num_ref_pics[0] = 1;
	pid_diff[0][0] = 2;

	temporal_idx[1] = 1;
	temporal_up_switch[1] = true;
	num_ref_pics[1] = 1;
	pid_diff[1][0] = 1;
	break;
	case kTemporalStructureMode3:
	num_frames_in_gof = 4;
	temporal_idx[0] = 0;
	temporal_up_switch[0] = false;
	num_ref_pics[0] = 1;
	pid_diff[0][0] = 4;

	temporal_idx[1] = 2;
	temporal_up_switch[1] = true;
	num_ref_pics[1] = 1;
	pid_diff[1][0] = 1;

	temporal_idx[2] = 1;
	temporal_up_switch[2] = true;
	num_ref_pics[2] = 1;
	pid_diff[2][0] = 2;

	temporal_idx[3] = 2;
	temporal_up_switch[3] = true;
	num_ref_pics[3] = 1;
	pid_diff[3][0] = 1;
	break;
	case kTemporalStructureMode4:
	num_frames_in_gof = 8;
	temporal_idx[0] = 0;
	temporal_up_switch[0] = false;
	num_ref_pics[0] = 1;
	pid_diff[0][0] = 4;

	temporal_idx[1] = 2;
	temporal_up_switch[1] = true;
	num_ref_pics[1] = 1;
	pid_diff[1][0] = 1;

	temporal_idx[2] = 1;
	temporal_up_switch[2] = true;
	num_ref_pics[2] = 1;
	pid_diff[2][0] = 2;

	temporal_idx[3] = 2;
	temporal_up_switch[3] = false;
	num_ref_pics[3] = 2;
	pid_diff[3][0] = 1;
	pid_diff[3][1] = 2;

	temporal_idx[4] = 0;
	temporal_up_switch[4] = false;
	num_ref_pics[4] = 1;
	pid_diff[4][0] = 4;

	temporal_idx[5] = 2;
	temporal_up_switch[5] = false;
	num_ref_pics[5] = 2;
	pid_diff[5][0] = 1;
	pid_diff[5][1] = 2;

	temporal_idx[6] = 1;
	temporal_up_switch[6] = false;
	num_ref_pics[6] = 2;
	pid_diff[6][0] = 2;
	pid_diff[6][1] = 4;

	temporal_idx[7] = 2;
	temporal_up_switch[7] = false;
	num_ref_pics[7] = 2;
	pid_diff[7][0] = 1;
	pid_diff[7][1] = 2;
	break;
	default:
	assert(false);
	}
	}

	void CopyGofInfoVP9(const GofInfoVP9& src) {
	num_frames_in_gof = src.num_frames_in_gof;
	for (size_t i = 0; i < num_frames_in_gof; ++i) {
	temporal_idx[i] = src.temporal_idx[i];
	temporal_up_switch[i] = src.temporal_up_switch[i];
	num_ref_pics[i] = src.num_ref_pics[i];
	for (uint8_t r = 0; r < num_ref_pics[i]; ++r) {
	pid_diff[i][r] = src.pid_diff[i][r];
	}
	}
	}

	size_t num_frames_in_gof;
	uint8_t temporal_idx[kMaxVp9FramesInGof];
	bool temporal_up_switch[kMaxVp9FramesInGof];
	uint8_t num_ref_pics[kMaxVp9FramesInGof];
	uint8_t pid_diff[kMaxVp9FramesInGof][kMaxVp9RefPics];
	uint16_t pid_start;
	};

	struct RTPVideoHeaderVP9 {
	void InitRTPVideoHeaderVP9() {
	inter_pic_predicted = false;
	flexible_mode = false;
	beginning_of_frame = false;
	end_of_frame = false;
	ss_data_available = false;
	non_ref_for_inter_layer_pred = false;
	picture_id = kNoPictureId;
	max_picture_id = kMaxTwoBytePictureId;
	tl0_pic_idx = kNoTl0PicIdx;
	temporal_idx = kNoTemporalIdx;
	spatial_idx = kNoSpatialIdx;
	temporal_up_switch = false;
	inter_layer_predicted = false;
	gof_idx = kNoGofIdx;
	num_ref_pics = 0;
	num_spatial_layers = 1;
	end_of_picture = true;
	}

	bool inter_pic_predicted; // This layer frame is dependent on previously
	// coded frame(s).
	bool flexible_mode; // This frame is in flexible mode.
	bool beginning_of_frame; // True if this packet is the first in a VP9 layer
	// frame.
	bool end_of_frame; // True if this packet is the last in a VP9 layer frame.
	bool ss_data_available; // True if SS data is available in this payload
	// descriptor.
	bool non_ref_for_inter_layer_pred; // True for frame which is not used as
	// reference for inter-layer prediction.
	int16_t picture_id; // PictureID index, 15 bits;
	// kNoPictureId if PictureID does not exist.
	int16_t max_picture_id; // Maximum picture ID index; either 0x7F or 0x7FFF;
	int16_t tl0_pic_idx; // TL0PIC_IDX, 8 bits;
	// kNoTl0PicIdx means no value provided.
	uint8_t temporal_idx; // Temporal layer index, or kNoTemporalIdx.
	uint8_t spatial_idx; // Spatial layer index, or kNoSpatialIdx.
	bool temporal_up_switch; // True if upswitch to higher frame rate is possible
	// starting from this frame.
	bool inter_layer_predicted; // Frame is dependent on directly lower spatial
	// layer frame.

	uint8_t gof_idx; // Index to predefined temporal frame info in SS data.

	uint8_t num_ref_pics; // Number of reference pictures used by this layer
	// frame.
	uint8_t pid_diff[kMaxVp9RefPics]; // P_DIFF signaled to derive the PictureID
	// of the reference pictures.
	int16_t ref_picture_id[kMaxVp9RefPics]; // PictureID of reference pictures.

	// SS data.
	size_t num_spatial_layers; // Always populated.
	bool spatial_layer_resolution_present;
	uint16_t width[kMaxVp9NumberOfSpatialLayers];
	uint16_t height[kMaxVp9NumberOfSpatialLayers];
	GofInfoVP9 gof;

	bool end_of_picture; // This frame is the last frame in picture.
	};

	} // namespace webrtc

	#endif // MODULES_VIDEO_CODING_CODECS_VP9_INCLUDE_VP9_GLOBALS_H_