av1/encoder/ratectrl_xiph.h - aom - Git at Google

 /*
  * Copyright (c) 2001-2017, Alliance for Open Media. All rights reserved
  *
  * This source code is subject to the terms of the BSD 2 Clause License and
  * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
  * was not distributed with this source code in the LICENSE file, you can
  * obtain it at www.aomedia.org/license/software. If the Alliance for Open
  * Media Patent License 1.0 was not distributed with this source code in the
  * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
  */

 #if !defined(_ratectrl_xiph_H)
 #define _ratectrl_xiph_H (1)

 #include "av1/encoder/ratectrl.h"
 #include "aom/internal/aom_codec_internal.h"

 /*Frame types.*/
 #define OD_I_FRAME (0)
 #define OD_P_FRAME (1)
 #define OD_GOLDEN_P_FRAME (2)
 #define OD_ALTREF_P_FRAME (3)

 #define OD_FRAME_NSUBTYPES (OD_ALTREF_P_FRAME + 1)

 /* Periodic boost (in between golden frames) strength - lower is more */
 #define OD_PERIODIC_BOOST_DIV (10)

 /* Constants for frame QP modulation <- tweak these
  * Adjusts how the rate control system decides the quantizers per frame
  * (sub)type */
 #define OD_MQP_I (0.98)
 #define OD_MQP_P (1.06)
 #define OD_MQP_GP (0.99)
 #define OD_MQP_AP (0.92)
 #define OD_DQP_I (-2)
 #define OD_DQP_P (0)
 #define OD_DQP_GP (-2)
 #define OD_DQP_AP (-2)

 /*Fractional_coded_quantizer ~=
    log2(quantizer / (1 << OD_COEFF_SHIFT))*6.307 + 6.235*/
 /*Base/scale factor for linear quantizer to fractional coded quantizer
    conversion (6.307 * 2^12) */
 #define OD_LOG_QUANTIZER_BASE_Q12 (0x0064EB)
 /*Inverse of above scale factor.*/
 #define OD_LOG_QUANTIZER_EXP_Q12 (0x000289)
 /*Offset for linear quantizer to fractional coded quantizer
    conversion (6.235 * 2^45) */
 #define OD_LOG_QUANTIZER_OFFSET_Q45 (0x0000C7851EB851ECLL)

 #define OD_RC_2PASS_MAGIC (0x53015641) /* [A, V, 1, S] in little endian */
 #define OD_RC_2PASS_SUMMARY_SZ (4 + 1 + (4 + 4 + 8) * OD_FRAME_NSUBTYPES)
 #define OD_RC_2PASS_PACKET_SZ (1 + 4)
 #define OD_RC_2PASS_MIN (OD_RC_2PASS_PACKET_SZ + OD_RC_2PASS_SUMMARY_SZ)
 #define OD_RC_2PASS_VERSION (1)

 /*A 2nd order low-pass Bessel follower.
   We use this for rate control because it has fast reaction time, but is
    critically damped.*/
 typedef struct od_iir_bessel2 {
   int32_t c[2];
   int64_t g;
   int32_t x[2];
   int32_t y[2];
 } od_iir_bessel2;

 /* The 2-pass metrics associated with a single frame. */
 typedef struct od_frame_metrics {
   /*The log base 2 of the scale factor for this frame in Q24 format.*/
   int64_t log_scale;
   /*The frame type from pass 1.*/
   unsigned frame_type : 1;
 } od_frame_metrics;

 /*Rate control setup and working state information.*/
 typedef struct od_rc_state {
   /* Image format */
   int frame_width;
   int frame_height;
   int bit_depth;

   /* Framerate */
   double framerate;
   /* Keyframe rate */
   int keyframe_rate;
   /* Golden frame period */
   int goldenframe_rate;
   /* Altref frame period */
   int altref_rate;
   /*The target bit-rate in bits per second.*/
   int64_t target_bitrate;
   /* Quality level for non-bitrate-targeting */
   int quality;
   /* Copied from oxcf->frame_periodic_boost */
   int periodic_boosts;
   /* Max Q */
   int maxq;
   /* Min Q */
   int minq;
   /* Quantizer to use for the first pass */
   int firstpass_quant;

   /* 2-pass metrics */
   od_frame_metrics cur_metrics;

   /* 2-pass state */
   int64_t scale_sum[OD_FRAME_NSUBTYPES];
   int nframes[OD_FRAME_NSUBTYPES];

   /* 2-pass bytestream reader/writer context */
   uint8_t *twopass_buffer;
   int twopass_buffer_bytes;

   /* Pass 1 stats packet storage */
   uint8_t firstpass_buffer[OD_RC_2PASS_SUMMARY_SZ];

   /* Every state packet from the first pass in a single buffer */
   uint8_t *twopass_allframes_buf;
   size_t twopass_allframes_buf_size;

   /* Actual returned quantizer */
   int target_quantizer;
   /*The full-precision, unmodulated quantizer upon which
     our modulated quantizers are based.*/
   int base_quantizer;

   /* Increments by 1 for each frame. */
   int64_t cur_frame;

   /* End of input flag */
   int end_of_input;
   /* Closed GOP flag */
   int closed_gop;
   /*The number of frames over which to distribute the reservoir usage.*/
   int reservoir_frame_delay;
   /*Will we drop frames to meet bitrate target?*/
   unsigned char drop_frames;
   /*Do we respect the maximum reservoir fullness?*/
   unsigned char cap_overflow;
   /*Can the reservoir go negative?*/
   unsigned char cap_underflow;
   /*Two-pass mode state.
     0 => 1-pass encoding.
     1 => 1st pass of 2-pass encoding.
     2 => 2nd pass of 2-pass encoding.*/
   int twopass_state;
   /*The log of the number of pixels in a frame in Q57 format.*/
   int64_t log_npixels;
   /*The target average bits per frame.*/
   int64_t bits_per_frame;
   /*The current bit reservoir fullness (bits available to be used).*/
   int64_t reservoir_fullness;
   /*The target buffer fullness.
     This is where we'd like to be by the last keyframe the appears in the next
      buf_delay frames.*/
   int64_t reservoir_target;
   /*The maximum buffer fullness (total size of the buffer).*/
   int64_t reservoir_max;
   /*The log of estimated scale factor for the rate model in Q57 format.*/
   int64_t log_scale[OD_FRAME_NSUBTYPES];
   /*The exponent used in the rate model in Q8 format.*/
   unsigned exp[OD_FRAME_NSUBTYPES];
   /*The log of an estimated scale factor used to obtain the real framerate, for
      VFR sources or, e.g., 12 fps content doubled to 24 fps, etc.*/
   int64_t log_drop_scale[OD_FRAME_NSUBTYPES];
   /*The total drop count from the previous frame.*/
   uint32_t prev_drop_count[OD_FRAME_NSUBTYPES];
   /*Second-order lowpass filters to track scale and VFR/drops.*/
   od_iir_bessel2 scalefilter[OD_FRAME_NSUBTYPES];
   od_iir_bessel2 vfrfilter[OD_FRAME_NSUBTYPES];
   int frame_count[OD_FRAME_NSUBTYPES];
   int inter_p_delay;
   int inter_delay_target;
   /*The total accumulated estimation bias.*/
   int64_t rate_bias;
 } od_rc_state;

 int od_enc_rc_init(od_rc_state *rc, int64_t bitrate, int delay_ms);

 int od_enc_rc_select_quantizers_and_lambdas(od_rc_state *rc,
                                             int is_golden_frame,
                                             int is_altref_frame, int frame_type,
                                             int *bottom_idx, int *top_idx);

 /* Returns 1 if the frame should be dropped */
 int od_enc_rc_update_state(od_rc_state *rc, int64_t bits, int is_golden_frame,
                            int is_altref_frame, int frame_type, int droppable);

 int od_frame_type(od_rc_state *rc, int64_t coding_frame_count, int *is_golden,
                   int *is_altref, int64_t *ip_count);

 int od_enc_rc_resize(od_rc_state *rc);

 int od_enc_rc_2pass_out(od_rc_state *rc, struct aom_codec_pkt_list *pkt_list,
                         int summary);

 int od_enc_rc_2pass_in(od_rc_state *rc);

 #endif
	/*
	* Copyright (c) 2001-2017, Alliance for Open Media. All rights reserved
	*
	* This source code is subject to the terms of the BSD 2 Clause License and
	* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
	* was not distributed with this source code in the LICENSE file, you can
	* obtain it at www.aomedia.org/license/software. If the Alliance for Open
	* Media Patent License 1.0 was not distributed with this source code in the
	* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
	*/

	#if !defined(_ratectrl_xiph_H)
	#define _ratectrl_xiph_H (1)

	#include "av1/encoder/ratectrl.h"
	#include "aom/internal/aom_codec_internal.h"

	/Frame types./
	#define OD_I_FRAME (0)
	#define OD_P_FRAME (1)
	#define OD_GOLDEN_P_FRAME (2)
	#define OD_ALTREF_P_FRAME (3)

	#define OD_FRAME_NSUBTYPES (OD_ALTREF_P_FRAME + 1)

	/* Periodic boost (in between golden frames) strength - lower is more */
	#define OD_PERIODIC_BOOST_DIV (10)

	/* Constants for frame QP modulation <- tweak these
	* Adjusts how the rate control system decides the quantizers per frame
	* (sub)type */
	#define OD_MQP_I (0.98)
	#define OD_MQP_P (1.06)
	#define OD_MQP_GP (0.99)
	#define OD_MQP_AP (0.92)
	#define OD_DQP_I (-2)
	#define OD_DQP_P (0)
	#define OD_DQP_GP (-2)
	#define OD_DQP_AP (-2)

	/*Fractional_coded_quantizer ~=
	log2(quantizer / (1 << OD_COEFF_SHIFT))6.307 + 6.235/
	/*Base/scale factor for linear quantizer to fractional coded quantizer
	conversion (6.307 * 2^12) */
	#define OD_LOG_QUANTIZER_BASE_Q12 (0x0064EB)
	/Inverse of above scale factor./
	#define OD_LOG_QUANTIZER_EXP_Q12 (0x000289)
	/*Offset for linear quantizer to fractional coded quantizer
	conversion (6.235 * 2^45) */
	#define OD_LOG_QUANTIZER_OFFSET_Q45 (0x0000C7851EB851ECLL)

	#define OD_RC_2PASS_MAGIC (0x53015641) /* [A, V, 1, S] in little endian */
	#define OD_RC_2PASS_SUMMARY_SZ (4 + 1 + (4 + 4 + 8) * OD_FRAME_NSUBTYPES)
	#define OD_RC_2PASS_PACKET_SZ (1 + 4)
	#define OD_RC_2PASS_MIN (OD_RC_2PASS_PACKET_SZ + OD_RC_2PASS_SUMMARY_SZ)
	#define OD_RC_2PASS_VERSION (1)

	/*A 2nd order low-pass Bessel follower.
	We use this for rate control because it has fast reaction time, but is
	critically damped.*/
	typedef struct od_iir_bessel2 {
	int32_t c[2];
	int64_t g;
	int32_t x[2];
	int32_t y[2];
	} od_iir_bessel2;

	/* The 2-pass metrics associated with a single frame. */
	typedef struct od_frame_metrics {
	/The log base 2 of the scale factor for this frame in Q24 format./
	int64_t log_scale;
	/The frame type from pass 1./
	unsigned frame_type : 1;
	} od_frame_metrics;

	/Rate control setup and working state information./
	typedef struct od_rc_state {
	/* Image format */
	int frame_width;
	int frame_height;
	int bit_depth;

	/* Framerate */
	double framerate;
	/* Keyframe rate */
	int keyframe_rate;
	/* Golden frame period */
	int goldenframe_rate;
	/* Altref frame period */
	int altref_rate;
	/The target bit-rate in bits per second./
	int64_t target_bitrate;
	/* Quality level for non-bitrate-targeting */
	int quality;
	/* Copied from oxcf->frame_periodic_boost */
	int periodic_boosts;
	/* Max Q */
	int maxq;
	/* Min Q */
	int minq;
	/* Quantizer to use for the first pass */
	int firstpass_quant;

	/* 2-pass metrics */
	od_frame_metrics cur_metrics;

	/* 2-pass state */
	int64_t scale_sum[OD_FRAME_NSUBTYPES];
	int nframes[OD_FRAME_NSUBTYPES];

	/* 2-pass bytestream reader/writer context */
	uint8_t *twopass_buffer;
	int twopass_buffer_bytes;

	/* Pass 1 stats packet storage */
	uint8_t firstpass_buffer[OD_RC_2PASS_SUMMARY_SZ];

	/* Every state packet from the first pass in a single buffer */
	uint8_t *twopass_allframes_buf;
	size_t twopass_allframes_buf_size;

	/* Actual returned quantizer */
	int target_quantizer;
	/*The full-precision, unmodulated quantizer upon which
	our modulated quantizers are based.*/
	int base_quantizer;

	/* Increments by 1 for each frame. */
	int64_t cur_frame;

	/* End of input flag */
	int end_of_input;
	/* Closed GOP flag */
	int closed_gop;
	/The number of frames over which to distribute the reservoir usage./
	int reservoir_frame_delay;
	/Will we drop frames to meet bitrate target?/
	unsigned char drop_frames;
	/Do we respect the maximum reservoir fullness?/
	unsigned char cap_overflow;
	/Can the reservoir go negative?/
	unsigned char cap_underflow;
	/*Two-pass mode state.
	0 => 1-pass encoding.
	1 => 1st pass of 2-pass encoding.
	2 => 2nd pass of 2-pass encoding.*/
	int twopass_state;
	/The log of the number of pixels in a frame in Q57 format./
	int64_t log_npixels;
	/The target average bits per frame./
	int64_t bits_per_frame;
	/The current bit reservoir fullness (bits available to be used)./
	int64_t reservoir_fullness;
	/*The target buffer fullness.
	This is where we'd like to be by the last keyframe the appears in the next
	buf_delay frames.*/
	int64_t reservoir_target;
	/The maximum buffer fullness (total size of the buffer)./
	int64_t reservoir_max;
	/The log of estimated scale factor for the rate model in Q57 format./
	int64_t log_scale[OD_FRAME_NSUBTYPES];
	/The exponent used in the rate model in Q8 format./
	unsigned exp[OD_FRAME_NSUBTYPES];
	/*The log of an estimated scale factor used to obtain the real framerate, for
	VFR sources or, e.g., 12 fps content doubled to 24 fps, etc.*/
	int64_t log_drop_scale[OD_FRAME_NSUBTYPES];
	/The total drop count from the previous frame./
	uint32_t prev_drop_count[OD_FRAME_NSUBTYPES];
	/Second-order lowpass filters to track scale and VFR/drops./
	od_iir_bessel2 scalefilter[OD_FRAME_NSUBTYPES];
	od_iir_bessel2 vfrfilter[OD_FRAME_NSUBTYPES];
	int frame_count[OD_FRAME_NSUBTYPES];
	int inter_p_delay;
	int inter_delay_target;
	/The total accumulated estimation bias./
	int64_t rate_bias;
	} od_rc_state;

	int od_enc_rc_init(od_rc_state *rc, int64_t bitrate, int delay_ms);

	int od_enc_rc_select_quantizers_and_lambdas(od_rc_state *rc,
	int is_golden_frame,
	int is_altref_frame, int frame_type,
	int bottom_idx, int top_idx);

	/* Returns 1 if the frame should be dropped */
	int od_enc_rc_update_state(od_rc_state *rc, int64_t bits, int is_golden_frame,
	int is_altref_frame, int frame_type, int droppable);

	int od_frame_type(od_rc_state rc, int64_t coding_frame_count, int is_golden,
	int is_altref, int64_t ip_count);

	int od_enc_rc_resize(od_rc_state *rc);

	int od_enc_rc_2pass_out(od_rc_state rc, struct aom_codec_pkt_list pkt_list,
	int summary);

	int od_enc_rc_2pass_in(od_rc_state *rc);

	#endif