695 строки
24 KiB
C
695 строки
24 KiB
C
/*
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* Copyright (c) 2012 The WebM project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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/*
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* This is an example demonstrating how to implement a multi-layer VP8
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* encoding scheme based on temporal scalability for video applications
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* that benefit from a scalable bitstream.
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <stdarg.h>
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#include <string.h>
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#define VPX_CODEC_DISABLE_COMPAT 1
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#include "vpx/vpx_encoder.h"
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#include "vpx/vp8cx.h"
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#define interface (vpx_codec_vp8_cx())
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#define fourcc 0x30385056
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#define IVF_FILE_HDR_SZ (32)
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#define IVF_FRAME_HDR_SZ (12)
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static void mem_put_le16(char *mem, unsigned int val) {
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mem[0] = val;
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mem[1] = val>>8;
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}
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static void mem_put_le32(char *mem, unsigned int val) {
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mem[0] = val;
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mem[1] = val>>8;
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mem[2] = val>>16;
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mem[3] = val>>24;
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}
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static void die(const char *fmt, ...) {
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va_list ap;
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va_start(ap, fmt);
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vprintf(fmt, ap);
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if(fmt[strlen(fmt)-1] != '\n')
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printf("\n");
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exit(EXIT_FAILURE);
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}
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static void die_codec(vpx_codec_ctx_t *ctx, const char *s) {
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const char *detail = vpx_codec_error_detail(ctx);
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printf("%s: %s\n", s, vpx_codec_error(ctx));
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if(detail)
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printf(" %s\n",detail);
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exit(EXIT_FAILURE);
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}
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static int read_frame(FILE *f, vpx_image_t *img) {
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size_t nbytes, to_read;
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int res = 1;
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to_read = img->w*img->h*3/2;
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nbytes = fread(img->planes[0], 1, to_read, f);
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if(nbytes != to_read) {
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res = 0;
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if(nbytes > 0)
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printf("Warning: Read partial frame. Check your width & height!\n");
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}
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return res;
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}
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static void write_ivf_file_header(FILE *outfile,
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const vpx_codec_enc_cfg_t *cfg,
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int frame_cnt) {
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char header[32];
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if(cfg->g_pass != VPX_RC_ONE_PASS && cfg->g_pass != VPX_RC_LAST_PASS)
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return;
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header[0] = 'D';
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header[1] = 'K';
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header[2] = 'I';
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header[3] = 'F';
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mem_put_le16(header+4, 0); /* version */
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mem_put_le16(header+6, 32); /* headersize */
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mem_put_le32(header+8, fourcc); /* headersize */
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mem_put_le16(header+12, cfg->g_w); /* width */
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mem_put_le16(header+14, cfg->g_h); /* height */
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mem_put_le32(header+16, cfg->g_timebase.den); /* rate */
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mem_put_le32(header+20, cfg->g_timebase.num); /* scale */
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mem_put_le32(header+24, frame_cnt); /* length */
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mem_put_le32(header+28, 0); /* unused */
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(void) fwrite(header, 1, 32, outfile);
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}
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static void write_ivf_frame_header(FILE *outfile,
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const vpx_codec_cx_pkt_t *pkt)
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{
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char header[12];
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vpx_codec_pts_t pts;
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if(pkt->kind != VPX_CODEC_CX_FRAME_PKT)
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return;
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pts = pkt->data.frame.pts;
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mem_put_le32(header, pkt->data.frame.sz);
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mem_put_le32(header+4, pts&0xFFFFFFFF);
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mem_put_le32(header+8, pts >> 32);
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(void) fwrite(header, 1, 12, outfile);
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}
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static int mode_to_num_layers[12] = {1, 2, 2, 3, 3, 3, 3, 5, 2, 3, 3, 3};
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int main(int argc, char **argv) {
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FILE *infile, *outfile[VPX_TS_MAX_LAYERS];
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vpx_codec_ctx_t codec;
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vpx_codec_enc_cfg_t cfg;
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int frame_cnt = 0;
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vpx_image_t raw;
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vpx_codec_err_t res;
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unsigned int width;
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unsigned int height;
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int frame_avail;
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int got_data;
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int flags = 0;
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int i;
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int pts = 0; /* PTS starts at 0 */
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int frame_duration = 1; /* 1 timebase tick per frame */
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int layering_mode = 0;
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int frames_in_layer[VPX_TS_MAX_LAYERS] = {0};
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int layer_flags[VPX_TS_MAX_PERIODICITY] = {0};
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int flag_periodicity;
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int max_intra_size_pct;
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/* Check usage and arguments */
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if (argc < 9)
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die("Usage: %s <infile> <outfile> <width> <height> <rate_num> "
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" <rate_den> <mode> <Rate_0> ... <Rate_nlayers-1>\n", argv[0]);
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width = strtol (argv[3], NULL, 0);
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height = strtol (argv[4], NULL, 0);
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if (width < 16 || width%2 || height <16 || height%2)
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die ("Invalid resolution: %d x %d", width, height);
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if (!sscanf(argv[7], "%d", &layering_mode))
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die ("Invalid mode %s", argv[7]);
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if (layering_mode<0 || layering_mode>11)
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die ("Invalid mode (0..11) %s", argv[7]);
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if (argc != 8+mode_to_num_layers[layering_mode])
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die ("Invalid number of arguments");
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if (!vpx_img_alloc (&raw, VPX_IMG_FMT_I420, width, height, 32))
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die ("Failed to allocate image", width, height);
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printf("Using %s\n",vpx_codec_iface_name(interface));
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/* Populate encoder configuration */
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res = vpx_codec_enc_config_default(interface, &cfg, 0);
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if(res) {
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printf("Failed to get config: %s\n", vpx_codec_err_to_string(res));
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return EXIT_FAILURE;
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}
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/* Update the default configuration with our settings */
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cfg.g_w = width;
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cfg.g_h = height;
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/* Timebase format e.g. 30fps: numerator=1, demoninator=30 */
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if (!sscanf (argv[5], "%d", &cfg.g_timebase.num ))
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die ("Invalid timebase numerator %s", argv[5]);
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if (!sscanf (argv[6], "%d", &cfg.g_timebase.den ))
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die ("Invalid timebase denominator %s", argv[6]);
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for (i=8; i<8+mode_to_num_layers[layering_mode]; i++)
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if (!sscanf(argv[i], "%ud", &cfg.ts_target_bitrate[i-8]))
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die ("Invalid data rate %s", argv[i]);
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/* Real time parameters */
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cfg.rc_dropframe_thresh = 0;
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cfg.rc_end_usage = VPX_CBR;
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cfg.rc_resize_allowed = 0;
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cfg.rc_min_quantizer = 2;
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cfg.rc_max_quantizer = 56;
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cfg.rc_undershoot_pct = 100;
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cfg.rc_overshoot_pct = 15;
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cfg.rc_buf_initial_sz = 500;
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cfg.rc_buf_optimal_sz = 600;
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cfg.rc_buf_sz = 1000;
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/* Enable error resilient mode */
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cfg.g_error_resilient = 1;
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cfg.g_lag_in_frames = 0;
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cfg.kf_mode = VPX_KF_DISABLED;
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/* Disable automatic keyframe placement */
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cfg.kf_min_dist = cfg.kf_max_dist = 3000;
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/* Default setting for bitrate: used in special case of 1 layer (case 0). */
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cfg.rc_target_bitrate = cfg.ts_target_bitrate[0];
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/* Temporal scaling parameters: */
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/* NOTE: The 3 prediction frames cannot be used interchangeably due to
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* differences in the way they are handled throughout the code. The
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* frames should be allocated to layers in the order LAST, GF, ARF.
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* Other combinations work, but may produce slightly inferior results.
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*/
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switch (layering_mode)
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{
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case 0:
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{
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/* 1-layer */
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int ids[1] = {0};
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cfg.ts_number_layers = 1;
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cfg.ts_periodicity = 1;
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cfg.ts_rate_decimator[0] = 1;
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memcpy(cfg.ts_layer_id, ids, sizeof(ids));
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flag_periodicity = cfg.ts_periodicity;
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// Update L only.
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layer_flags[0] = VPX_EFLAG_FORCE_KF |
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VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF;
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break;
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}
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case 1:
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{
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/* 2-layers, 2-frame period */
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int ids[2] = {0,1};
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cfg.ts_number_layers = 2;
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cfg.ts_periodicity = 2;
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cfg.ts_rate_decimator[0] = 2;
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cfg.ts_rate_decimator[1] = 1;
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memcpy(cfg.ts_layer_id, ids, sizeof(ids));
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flag_periodicity = cfg.ts_periodicity;
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#if 1
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/* 0=L, 1=GF, Intra-layer prediction enabled */
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layer_flags[0] = VPX_EFLAG_FORCE_KF |
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VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF |
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VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF;
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layer_flags[1] = VP8_EFLAG_NO_UPD_ARF | VP8_EFLAG_NO_UPD_LAST |
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VP8_EFLAG_NO_REF_ARF;
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#else
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/* 0=L, 1=GF, Intra-layer prediction disabled */
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layer_flags[0] = VPX_EFLAG_FORCE_KF |
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VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF |
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VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF;
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layer_flags[1] = VP8_EFLAG_NO_UPD_ARF | VP8_EFLAG_NO_UPD_LAST |
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VP8_EFLAG_NO_REF_ARF | VP8_EFLAG_NO_REF_LAST;
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#endif
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break;
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}
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case 2:
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{
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/* 2-layers, 3-frame period */
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int ids[3] = {0,1,1};
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cfg.ts_number_layers = 2;
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cfg.ts_periodicity = 3;
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cfg.ts_rate_decimator[0] = 3;
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cfg.ts_rate_decimator[1] = 1;
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memcpy(cfg.ts_layer_id, ids, sizeof(ids));
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flag_periodicity = cfg.ts_periodicity;
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/* 0=L, 1=GF, Intra-layer prediction enabled */
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layer_flags[0] = VPX_EFLAG_FORCE_KF |
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VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF;
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layer_flags[1] =
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layer_flags[2] = VP8_EFLAG_NO_REF_GF |
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VP8_EFLAG_NO_REF_ARF | VP8_EFLAG_NO_UPD_ARF |
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VP8_EFLAG_NO_UPD_LAST;
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break;
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}
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case 3:
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{
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/* 3-layers, 6-frame period */
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int ids[6] = {0,2,2,1,2,2};
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cfg.ts_number_layers = 3;
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cfg.ts_periodicity = 6;
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cfg.ts_rate_decimator[0] = 6;
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cfg.ts_rate_decimator[1] = 3;
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cfg.ts_rate_decimator[2] = 1;
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memcpy(cfg.ts_layer_id, ids, sizeof(ids));
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flag_periodicity = cfg.ts_periodicity;
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/* 0=L, 1=GF, 2=ARF, Intra-layer prediction enabled */
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layer_flags[0] = VPX_EFLAG_FORCE_KF |
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VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF;
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layer_flags[3] = VP8_EFLAG_NO_REF_ARF | VP8_EFLAG_NO_UPD_ARF |
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VP8_EFLAG_NO_UPD_LAST;
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layer_flags[1] =
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layer_flags[2] =
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layer_flags[4] =
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layer_flags[5] = VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_LAST;
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break;
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}
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case 4:
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{
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/* 3-layers, 4-frame period */
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int ids[4] = {0,2,1,2};
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cfg.ts_number_layers = 3;
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cfg.ts_periodicity = 4;
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cfg.ts_rate_decimator[0] = 4;
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cfg.ts_rate_decimator[1] = 2;
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cfg.ts_rate_decimator[2] = 1;
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memcpy(cfg.ts_layer_id, ids, sizeof(ids));
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flag_periodicity = cfg.ts_periodicity;
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/* 0=L, 1=GF, 2=ARF, Intra-layer prediction disabled */
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layer_flags[0] = VPX_EFLAG_FORCE_KF |
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VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF;
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layer_flags[2] = VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_ARF |
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VP8_EFLAG_NO_UPD_LAST;
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layer_flags[1] =
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layer_flags[3] = VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_GF |
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VP8_EFLAG_NO_UPD_ARF;
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break;
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}
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case 5:
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{
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/* 3-layers, 4-frame period */
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int ids[4] = {0,2,1,2};
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cfg.ts_number_layers = 3;
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cfg.ts_periodicity = 4;
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cfg.ts_rate_decimator[0] = 4;
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cfg.ts_rate_decimator[1] = 2;
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cfg.ts_rate_decimator[2] = 1;
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memcpy(cfg.ts_layer_id, ids, sizeof(ids));
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flag_periodicity = cfg.ts_periodicity;
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/* 0=L, 1=GF, 2=ARF, Intra-layer prediction enabled in layer 1,
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* disabled in layer 2
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*/
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layer_flags[0] = VPX_EFLAG_FORCE_KF |
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VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF;
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layer_flags[2] = VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_ARF;
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layer_flags[1] =
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layer_flags[3] = VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_GF |
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VP8_EFLAG_NO_UPD_ARF;
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break;
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}
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case 6:
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{
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/* 3-layers, 4-frame period */
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int ids[4] = {0,2,1,2};
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cfg.ts_number_layers = 3;
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cfg.ts_periodicity = 4;
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cfg.ts_rate_decimator[0] = 4;
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cfg.ts_rate_decimator[1] = 2;
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cfg.ts_rate_decimator[2] = 1;
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memcpy(cfg.ts_layer_id, ids, sizeof(ids));
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flag_periodicity = cfg.ts_periodicity;
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/* 0=L, 1=GF, 2=ARF, Intra-layer prediction enabled */
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layer_flags[0] = VPX_EFLAG_FORCE_KF |
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VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF;
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layer_flags[2] = VP8_EFLAG_NO_REF_ARF |
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VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_ARF;
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layer_flags[1] =
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layer_flags[3] = VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_GF;
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break;
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}
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case 7:
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{
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/* NOTE: Probably of academic interest only */
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/* 5-layers, 16-frame period */
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int ids[16] = {0,4,3,4,2,4,3,4,1,4,3,4,2,4,3,4};
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cfg.ts_number_layers = 5;
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cfg.ts_periodicity = 16;
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cfg.ts_rate_decimator[0] = 16;
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cfg.ts_rate_decimator[1] = 8;
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cfg.ts_rate_decimator[2] = 4;
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cfg.ts_rate_decimator[3] = 2;
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cfg.ts_rate_decimator[4] = 1;
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memcpy(cfg.ts_layer_id, ids, sizeof(ids));
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flag_periodicity = cfg.ts_periodicity;
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layer_flags[0] = VPX_EFLAG_FORCE_KF;
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layer_flags[1] =
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layer_flags[3] =
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layer_flags[5] =
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layer_flags[7] =
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layer_flags[9] =
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layer_flags[11] =
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layer_flags[13] =
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layer_flags[15] = VP8_EFLAG_NO_UPD_LAST |
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VP8_EFLAG_NO_UPD_GF |
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VP8_EFLAG_NO_UPD_ARF;
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layer_flags[2] =
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layer_flags[6] =
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layer_flags[10] =
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layer_flags[14] = VP8_EFLAG_NO_UPD_ARF | VP8_EFLAG_NO_UPD_GF;
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layer_flags[4] =
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layer_flags[12] = VP8_EFLAG_NO_REF_LAST |
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VP8_EFLAG_NO_UPD_ARF;
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layer_flags[8] = VP8_EFLAG_NO_REF_LAST | VP8_EFLAG_NO_REF_GF;
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break;
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}
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case 8:
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{
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/* 2-layers, with sync point at first frame of layer 1. */
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int ids[2] = {0,1};
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cfg.ts_number_layers = 2;
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cfg.ts_periodicity = 2;
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cfg.ts_rate_decimator[0] = 2;
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cfg.ts_rate_decimator[1] = 1;
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memcpy(cfg.ts_layer_id, ids, sizeof(ids));
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flag_periodicity = 8;
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/* 0=L, 1=GF */
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// ARF is used as predictor for all frames, and is only updated on
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// key frame. Sync point every 8 frames.
|
|
|
|
// Layer 0: predict from L and ARF, update L and G.
|
|
layer_flags[0] = VPX_EFLAG_FORCE_KF |
|
|
VP8_EFLAG_NO_REF_GF |
|
|
VP8_EFLAG_NO_UPD_ARF;
|
|
|
|
// Layer 1: sync point: predict from L and ARF, and update G.
|
|
layer_flags[1] = VP8_EFLAG_NO_REF_GF |
|
|
VP8_EFLAG_NO_UPD_LAST |
|
|
VP8_EFLAG_NO_UPD_ARF;
|
|
|
|
// Layer 0, predict from L and ARF, update L.
|
|
layer_flags[2] = VP8_EFLAG_NO_REF_GF |
|
|
VP8_EFLAG_NO_UPD_GF |
|
|
VP8_EFLAG_NO_UPD_ARF;
|
|
|
|
// Layer 1: predict from L, G and ARF, and update G.
|
|
layer_flags[3] = VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST |
|
|
VP8_EFLAG_NO_UPD_ENTROPY;
|
|
|
|
// Layer 0
|
|
layer_flags[4] = layer_flags[2];
|
|
|
|
// Layer 1
|
|
layer_flags[5] = layer_flags[3];
|
|
|
|
// Layer 0
|
|
layer_flags[6] = layer_flags[4];
|
|
|
|
// Layer 1
|
|
layer_flags[7] = layer_flags[5];
|
|
break;
|
|
}
|
|
|
|
case 9:
|
|
{
|
|
/* 3-layers */
|
|
// Sync points for layer 1 and 2 every 8 frames.
|
|
|
|
int ids[4] = {0,2,1,2};
|
|
cfg.ts_number_layers = 3;
|
|
cfg.ts_periodicity = 4;
|
|
cfg.ts_rate_decimator[0] = 4;
|
|
cfg.ts_rate_decimator[1] = 2;
|
|
cfg.ts_rate_decimator[2] = 1;
|
|
memcpy(cfg.ts_layer_id, ids, sizeof(ids));
|
|
|
|
flag_periodicity = 8;
|
|
|
|
/* 0=L, 1=GF, 2=ARF */
|
|
layer_flags[0] = VPX_EFLAG_FORCE_KF |
|
|
VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
|
|
VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF;
|
|
layer_flags[1] = VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_GF;
|
|
layer_flags[2] = VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_ARF;
|
|
layer_flags[3] =
|
|
layer_flags[5] = VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_GF;
|
|
layer_flags[4] = VP8_EFLAG_NO_REF_GF | VP8_EFLAG_NO_REF_ARF |
|
|
VP8_EFLAG_NO_UPD_GF | VP8_EFLAG_NO_UPD_ARF;
|
|
layer_flags[6] = VP8_EFLAG_NO_REF_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_ARF;
|
|
layer_flags[7] = VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_GF |
|
|
VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_UPD_ENTROPY;
|
|
break;
|
|
}
|
|
case 10:
|
|
{
|
|
// 3-layers structure where ARF is used as predictor for all frames,
|
|
// and is only updated on key frame.
|
|
// Sync points for layer 1 and 2 every 8 frames.
|
|
|
|
int ids[4] = {0,2,1,2};
|
|
cfg.ts_number_layers = 3;
|
|
cfg.ts_periodicity = 4;
|
|
cfg.ts_rate_decimator[0] = 4;
|
|
cfg.ts_rate_decimator[1] = 2;
|
|
cfg.ts_rate_decimator[2] = 1;
|
|
memcpy(cfg.ts_layer_id, ids, sizeof(ids));
|
|
|
|
flag_periodicity = 8;
|
|
|
|
/* 0=L, 1=GF, 2=ARF */
|
|
|
|
// Layer 0: predict from L and ARF; update L and G.
|
|
layer_flags[0] = VPX_EFLAG_FORCE_KF |
|
|
VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_REF_GF;
|
|
|
|
// Layer 2: sync point: predict from L and ARF; update none.
|
|
layer_flags[1] = VP8_EFLAG_NO_REF_GF |
|
|
VP8_EFLAG_NO_UPD_GF |
|
|
VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST |
|
|
VP8_EFLAG_NO_UPD_ENTROPY;
|
|
|
|
// Layer 1: sync point: predict from L and ARF; update G.
|
|
layer_flags[2] = VP8_EFLAG_NO_REF_GF |
|
|
VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST;
|
|
|
|
// Layer 2: predict from L, G, ARF; update none.
|
|
layer_flags[3] = VP8_EFLAG_NO_UPD_GF |
|
|
VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST |
|
|
VP8_EFLAG_NO_UPD_ENTROPY;
|
|
|
|
// Layer 0: predict from L and ARF; update L.
|
|
layer_flags[4] = VP8_EFLAG_NO_UPD_GF |
|
|
VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_REF_GF;
|
|
|
|
// Layer 2: predict from L, G, ARF; update none.
|
|
layer_flags[5] = layer_flags[3];
|
|
|
|
// Layer 1: predict from L, G, ARF; update G.
|
|
layer_flags[6] = VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST;
|
|
|
|
// Layer 2: predict from L, G, ARF; update none.
|
|
layer_flags[7] = layer_flags[3];
|
|
break;
|
|
}
|
|
case 11:
|
|
default:
|
|
{
|
|
// 3-layers structure as in case 10, but no sync/refresh points for
|
|
// layer 1 and 2.
|
|
|
|
int ids[4] = {0,2,1,2};
|
|
cfg.ts_number_layers = 3;
|
|
cfg.ts_periodicity = 4;
|
|
cfg.ts_rate_decimator[0] = 4;
|
|
cfg.ts_rate_decimator[1] = 2;
|
|
cfg.ts_rate_decimator[2] = 1;
|
|
memcpy(cfg.ts_layer_id, ids, sizeof(ids));
|
|
|
|
flag_periodicity = 8;
|
|
|
|
/* 0=L, 1=GF, 2=ARF */
|
|
|
|
// Layer 0: predict from L and ARF; update L.
|
|
layer_flags[0] = VP8_EFLAG_NO_UPD_GF |
|
|
VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_REF_GF;
|
|
layer_flags[4] = layer_flags[0];
|
|
|
|
// Layer 1: predict from L, G, ARF; update G.
|
|
layer_flags[2] = VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST;
|
|
layer_flags[6] = layer_flags[2];
|
|
|
|
// Layer 2: predict from L, G, ARF; update none.
|
|
layer_flags[1] = VP8_EFLAG_NO_UPD_GF |
|
|
VP8_EFLAG_NO_UPD_ARF |
|
|
VP8_EFLAG_NO_UPD_LAST |
|
|
VP8_EFLAG_NO_UPD_ENTROPY;
|
|
layer_flags[3] = layer_flags[1];
|
|
layer_flags[5] = layer_flags[1];
|
|
layer_flags[7] = layer_flags[1];
|
|
break;
|
|
}
|
|
}
|
|
|
|
/* Open input file */
|
|
if(!(infile = fopen(argv[1], "rb")))
|
|
die("Failed to open %s for reading", argv[1]);
|
|
|
|
/* Open an output file for each stream */
|
|
for (i=0; i<cfg.ts_number_layers; i++)
|
|
{
|
|
char file_name[512];
|
|
sprintf (file_name, "%s_%d.ivf", argv[2], i);
|
|
if (!(outfile[i] = fopen(file_name, "wb")))
|
|
die("Failed to open %s for writing", file_name);
|
|
write_ivf_file_header(outfile[i], &cfg, 0);
|
|
}
|
|
|
|
/* Initialize codec */
|
|
if (vpx_codec_enc_init (&codec, interface, &cfg, 0))
|
|
die_codec (&codec, "Failed to initialize encoder");
|
|
|
|
/* Cap CPU & first I-frame size */
|
|
vpx_codec_control (&codec, VP8E_SET_CPUUSED, -6);
|
|
vpx_codec_control (&codec, VP8E_SET_STATIC_THRESHOLD, 1);
|
|
vpx_codec_control (&codec, VP8E_SET_NOISE_SENSITIVITY, 1);
|
|
vpx_codec_control(&codec, VP8E_SET_TOKEN_PARTITIONS, 1);
|
|
|
|
max_intra_size_pct = (int) (((double)cfg.rc_buf_optimal_sz * 0.5)
|
|
* ((double) cfg.g_timebase.den / cfg.g_timebase.num)
|
|
/ 10.0);
|
|
/* printf ("max_intra_size_pct=%d\n", max_intra_size_pct); */
|
|
|
|
vpx_codec_control(&codec, VP8E_SET_MAX_INTRA_BITRATE_PCT,
|
|
max_intra_size_pct);
|
|
|
|
frame_avail = 1;
|
|
while (frame_avail || got_data) {
|
|
vpx_codec_iter_t iter = NULL;
|
|
const vpx_codec_cx_pkt_t *pkt;
|
|
|
|
flags = layer_flags[frame_cnt % flag_periodicity];
|
|
|
|
frame_avail = read_frame(infile, &raw);
|
|
if (vpx_codec_encode(&codec, frame_avail? &raw : NULL, pts,
|
|
1, flags, VPX_DL_REALTIME))
|
|
die_codec(&codec, "Failed to encode frame");
|
|
|
|
/* Reset KF flag */
|
|
if (layering_mode != 7)
|
|
layer_flags[0] &= ~VPX_EFLAG_FORCE_KF;
|
|
|
|
got_data = 0;
|
|
while ( (pkt = vpx_codec_get_cx_data(&codec, &iter)) ) {
|
|
got_data = 1;
|
|
switch (pkt->kind) {
|
|
case VPX_CODEC_CX_FRAME_PKT:
|
|
for (i=cfg.ts_layer_id[frame_cnt % cfg.ts_periodicity];
|
|
i<cfg.ts_number_layers; i++)
|
|
{
|
|
write_ivf_frame_header(outfile[i], pkt);
|
|
(void) fwrite(pkt->data.frame.buf, 1, pkt->data.frame.sz,
|
|
outfile[i]);
|
|
frames_in_layer[i]++;
|
|
}
|
|
break;
|
|
default:
|
|
break;
|
|
}
|
|
}
|
|
frame_cnt++;
|
|
pts += frame_duration;
|
|
}
|
|
fclose (infile);
|
|
|
|
printf ("Processed %d frames.\n",frame_cnt-1);
|
|
if (vpx_codec_destroy(&codec))
|
|
die_codec (&codec, "Failed to destroy codec");
|
|
|
|
/* Try to rewrite the output file headers with the actual frame count */
|
|
for (i=0; i<cfg.ts_number_layers; i++)
|
|
{
|
|
if (!fseek(outfile[i], 0, SEEK_SET))
|
|
write_ivf_file_header (outfile[i], &cfg, frames_in_layer[i]);
|
|
fclose (outfile[i]);
|
|
}
|
|
|
|
return EXIT_SUCCESS;
|
|
}
|