vpx/vp9/vp9_cx_iface.c

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2010-05-18 17:58:33 +02:00
/*
* Copyright (c) 2010 The WebM project authors. All Rights Reserved.
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*
* 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.
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*/
#include <stdlib.h>
#include <string.h>
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#include "vpx/vpx_codec.h"
#include "vpx/internal/vpx_codec_internal.h"
#include "./vpx_version.h"
#include "vp9/encoder/vp9_onyx_int.h"
#include "vpx/vp8cx.h"
#include "vp9/encoder/vp9_firstpass.h"
#include "vp9/common/vp9_onyx.h"
#include "vp9/vp9_iface_common.h"
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struct vp9_extracfg {
struct vpx_codec_pkt_list *pkt_list;
int cpu_used; /* available cpu percentage in 1/16 */
unsigned int enable_auto_alt_ref;
unsigned int noise_sensitivity;
unsigned int Sharpness;
unsigned int static_thresh;
[WIP] Add column-based tiling. This patch adds column-based tiling. The idea is to make each tile independently decodable (after reading the common frame header) and also independendly encodable (minus within-frame cost adjustments in the RD loop) to speed-up hardware & software en/decoders if they used multi-threading. Column-based tiling has the added advantage (over other tiling methods) that it minimizes realtime use-case latency, since all threads can start encoding data as soon as the first SB-row worth of data is available to the encoder. There is some test code that does random tile ordering in the decoder, to confirm that each tile is indeed independently decodable from other tiles in the same frame. At tile edges, all contexts assume default values (i.e. 0, 0 motion vector, no coefficients, DC intra4x4 mode), and motion vector search and ordering do not cross tiles in the same frame. t log Tile independence is not maintained between frames ATM, i.e. tile 0 of frame 1 is free to use motion vectors that point into any tile of frame 0. We support 1 (i.e. no tiling), 2 or 4 column-tiles. The loopfilter crosses tile boundaries. I discussed this briefly with Aki and he says that's OK. An in-loop loopfilter would need to do some sync between tile threads, but that shouldn't be a big issue. Resuls: with tiling disabled, we go up slightly because of improved edge use in the intra4x4 prediction. With 2 tiles, we lose about ~1% on derf, ~0.35% on HD and ~0.55% on STD/HD. With 4 tiles, we lose another ~1.5% on derf ~0.77% on HD and ~0.85% on STD/HD. Most of this loss is concentrated in the low-bitrate end of clips, and most of it is because of the loss of edges at tile boundaries and the resulting loss of intra predictors. TODO: - more tiles (perhaps allow row-based tiling also, and max. 8 tiles)? - maybe optionally (for EC purposes), motion vectors themselves should not cross tile edges, or we should emulate such borders as if they were off-frame, to limit error propagation to within one tile only. This doesn't have to be the default behaviour but could be an optional bitstream flag. Change-Id: I5951c3a0742a767b20bc9fb5af685d9892c2c96f
2013-02-01 18:35:28 +01:00
unsigned int tile_columns;
unsigned int tile_rows;
unsigned int arnr_max_frames;
unsigned int arnr_strength;
unsigned int arnr_type;
unsigned int experimental;
vp8e_tuning tuning;
unsigned int cq_level; /* constrained quality level */
unsigned int rc_max_intra_bitrate_pct;
unsigned int lossless;
unsigned int frame_parallel_decoding_mode;
unsigned int aq_mode;
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};
struct extraconfig_map {
int usage;
struct vp9_extracfg cfg;
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};
static const struct extraconfig_map extracfg_map[] = {
{
0,
{ // NOLINT
NULL,
0, /* cpu_used */
1, /* enable_auto_alt_ref */
0, /* noise_sensitivity */
0, /* Sharpness */
0, /* static_thresh */
0, /* tile_columns */
0, /* tile_rows */
7, /* arnr_max_frames */
5, /* arnr_strength */
3, /* arnr_type*/
0, /* experimental mode */
0, /* tuning*/
10, /* cq_level */
0, /* rc_max_intra_bitrate_pct */
0, /* lossless */
0, /* frame_parallel_decoding_mode */
0, /* aq_mode */
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}
}
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};
struct vpx_codec_alg_priv {
vpx_codec_priv_t base;
vpx_codec_enc_cfg_t cfg;
struct vp9_extracfg vp8_cfg;
VP9_CONFIG oxcf;
VP9_PTR cpi;
unsigned char *cx_data;
unsigned int cx_data_sz;
unsigned char *pending_cx_data;
unsigned int pending_cx_data_sz;
int pending_frame_count;
uint32_t pending_frame_sizes[8];
uint32_t pending_frame_magnitude;
vpx_image_t preview_img;
vp8_postproc_cfg_t preview_ppcfg;
vpx_codec_pkt_list_decl(64) pkt_list;
unsigned int fixed_kf_cntr;
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};
static VP9_REFFRAME ref_frame_to_vp9_reframe(vpx_ref_frame_type_t frame) {
switch (frame) {
case VP8_LAST_FRAME:
return VP9_LAST_FLAG;
case VP8_GOLD_FRAME:
return VP9_GOLD_FLAG;
case VP8_ALTR_FRAME:
return VP9_ALT_FLAG;
}
assert(!"Invalid Reference Frame");
return VP9_LAST_FLAG;
}
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static vpx_codec_err_t
update_error_state(vpx_codec_alg_priv_t *ctx,
const struct vpx_internal_error_info *error) {
vpx_codec_err_t res;
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if ((res = error->error_code))
ctx->base.err_detail = error->has_detail
? error->detail
: NULL;
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return res;
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}
#undef ERROR
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#define ERROR(str) do {\
ctx->base.err_detail = str;\
return VPX_CODEC_INVALID_PARAM;\
} while (0)
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#define RANGE_CHECK(p, memb, lo, hi) do {\
if (!(((p)->memb == lo || (p)->memb > (lo)) && (p)->memb <= hi)) \
ERROR(#memb " out of range ["#lo".."#hi"]");\
} while (0)
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#define RANGE_CHECK_HI(p, memb, hi) do {\
if (!((p)->memb <= (hi))) \
ERROR(#memb " out of range [.."#hi"]");\
} while (0)
#define RANGE_CHECK_LO(p, memb, lo) do {\
if (!((p)->memb >= (lo))) \
ERROR(#memb " out of range ["#lo"..]");\
} while (0)
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#define RANGE_CHECK_BOOL(p, memb) do {\
if (!!((p)->memb) != (p)->memb) ERROR(#memb " expected boolean");\
} while (0)
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static vpx_codec_err_t validate_config(vpx_codec_alg_priv_t *ctx,
const vpx_codec_enc_cfg_t *cfg,
const struct vp9_extracfg *vp8_cfg) {
RANGE_CHECK(cfg, g_w, 1, 65535); /* 16 bits available */
RANGE_CHECK(cfg, g_h, 1, 65535); /* 16 bits available */
RANGE_CHECK(cfg, g_timebase.den, 1, 1000000000);
RANGE_CHECK(cfg, g_timebase.num, 1, cfg->g_timebase.den);
RANGE_CHECK_HI(cfg, g_profile, 3);
RANGE_CHECK_HI(cfg, rc_max_quantizer, 63);
RANGE_CHECK_HI(cfg, rc_min_quantizer, cfg->rc_max_quantizer);
RANGE_CHECK_BOOL(vp8_cfg, lossless);
if (vp8_cfg->lossless) {
RANGE_CHECK_HI(cfg, rc_max_quantizer, 0);
RANGE_CHECK_HI(cfg, rc_min_quantizer, 0);
}
RANGE_CHECK(vp8_cfg, aq_mode, 0, AQ_MODES_COUNT - 1);
RANGE_CHECK_HI(cfg, g_threads, 64);
RANGE_CHECK_HI(cfg, g_lag_in_frames, MAX_LAG_BUFFERS);
RANGE_CHECK(cfg, rc_end_usage, VPX_VBR, VPX_Q);
RANGE_CHECK_HI(cfg, rc_undershoot_pct, 1000);
RANGE_CHECK_HI(cfg, rc_overshoot_pct, 1000);
RANGE_CHECK_HI(cfg, rc_2pass_vbr_bias_pct, 100);
RANGE_CHECK(cfg, kf_mode, VPX_KF_DISABLED, VPX_KF_AUTO);
// RANGE_CHECK_BOOL(cfg, g_delete_firstpassfile);
RANGE_CHECK_BOOL(cfg, rc_resize_allowed);
RANGE_CHECK_HI(cfg, rc_dropframe_thresh, 100);
RANGE_CHECK_HI(cfg, rc_resize_up_thresh, 100);
RANGE_CHECK_HI(cfg, rc_resize_down_thresh, 100);
RANGE_CHECK(cfg, g_pass, VPX_RC_ONE_PASS, VPX_RC_LAST_PASS);
RANGE_CHECK(cfg, ss_number_layers, 1,
VPX_SS_MAX_LAYERS); /*Spatial layers max */
/* VP8 does not support a lower bound on the keyframe interval in
* automatic keyframe placement mode.
*/
if (cfg->kf_mode != VPX_KF_DISABLED && cfg->kf_min_dist != cfg->kf_max_dist
&& cfg->kf_min_dist > 0)
ERROR("kf_min_dist not supported in auto mode, use 0 "
"or kf_max_dist instead.");
RANGE_CHECK_BOOL(vp8_cfg, enable_auto_alt_ref);
RANGE_CHECK(vp8_cfg, cpu_used, -16, 16);
RANGE_CHECK_HI(vp8_cfg, noise_sensitivity, 6);
RANGE_CHECK(vp8_cfg, tile_columns, 0, 6);
RANGE_CHECK(vp8_cfg, tile_rows, 0, 2);
RANGE_CHECK_HI(vp8_cfg, Sharpness, 7);
RANGE_CHECK(vp8_cfg, arnr_max_frames, 0, 15);
RANGE_CHECK_HI(vp8_cfg, arnr_strength, 6);
RANGE_CHECK(vp8_cfg, arnr_type, 1, 3);
RANGE_CHECK(vp8_cfg, cq_level, 0, 63);
if (cfg->g_pass == VPX_RC_LAST_PASS) {
size_t packet_sz = sizeof(FIRSTPASS_STATS);
int n_packets = (int)(cfg->rc_twopass_stats_in.sz / packet_sz);
FIRSTPASS_STATS *stats;
if (!cfg->rc_twopass_stats_in.buf)
ERROR("rc_twopass_stats_in.buf not set.");
if (cfg->rc_twopass_stats_in.sz % packet_sz)
ERROR("rc_twopass_stats_in.sz indicates truncated packet.");
if (cfg->rc_twopass_stats_in.sz < 2 * packet_sz)
ERROR("rc_twopass_stats_in requires at least two packets.");
stats = (void *)((char *)cfg->rc_twopass_stats_in.buf
+ (n_packets - 1) * packet_sz);
if ((int)(stats->count + 0.5) != n_packets - 1)
ERROR("rc_twopass_stats_in missing EOS stats packet");
}
return VPX_CODEC_OK;
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}
static vpx_codec_err_t validate_img(vpx_codec_alg_priv_t *ctx,
const vpx_image_t *img) {
switch (img->fmt) {
case VPX_IMG_FMT_YV12:
case VPX_IMG_FMT_I420:
case VPX_IMG_FMT_I422:
case VPX_IMG_FMT_I444:
break;
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default:
ERROR("Invalid image format. Only YV12, I420, I422, I444 images are "
"supported.");
}
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if ((img->d_w != ctx->cfg.g_w) || (img->d_h != ctx->cfg.g_h))
ERROR("Image size must match encoder init configuration size");
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return VPX_CODEC_OK;
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}
static vpx_codec_err_t set_vp9e_config(VP9_CONFIG *oxcf,
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vpx_codec_enc_cfg_t cfg,
struct vp9_extracfg vp8_cfg) {
oxcf->version = cfg.g_profile | (vp8_cfg.experimental ? 0x4 : 0);
oxcf->width = cfg.g_w;
oxcf->height = cfg.g_h;
/* guess a frame rate if out of whack, use 30 */
oxcf->framerate = (double)(cfg.g_timebase.den)
/ (double)(cfg.g_timebase.num);
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if (oxcf->framerate > 180) {
oxcf->framerate = 30;
}
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switch (cfg.g_pass) {
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case VPX_RC_ONE_PASS:
oxcf->Mode = MODE_GOODQUALITY;
break;
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case VPX_RC_FIRST_PASS:
oxcf->Mode = MODE_FIRSTPASS;
break;
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case VPX_RC_LAST_PASS:
oxcf->Mode = MODE_SECONDPASS_BEST;
break;
}
if (cfg.g_pass == VPX_RC_FIRST_PASS) {
oxcf->allow_lag = 0;
oxcf->lag_in_frames = 0;
} else {
oxcf->allow_lag = (cfg.g_lag_in_frames) > 0;
oxcf->lag_in_frames = cfg.g_lag_in_frames;
}
// VBR only supported for now.
// CBR code has been deprectated for experimental phase.
// CQ mode not yet tested
oxcf->end_usage = USAGE_LOCAL_FILE_PLAYBACK;
if (cfg.rc_end_usage == VPX_CQ)
oxcf->end_usage = USAGE_CONSTRAINED_QUALITY;
else if (cfg.rc_end_usage == VPX_Q)
oxcf->end_usage = USAGE_CONSTANT_QUALITY;
else if (cfg.rc_end_usage == VPX_CBR)
oxcf->end_usage = USAGE_STREAM_FROM_SERVER;
oxcf->target_bandwidth = cfg.rc_target_bitrate;
oxcf->rc_max_intra_bitrate_pct = vp8_cfg.rc_max_intra_bitrate_pct;
oxcf->best_allowed_q = cfg.rc_min_quantizer;
oxcf->worst_allowed_q = cfg.rc_max_quantizer;
oxcf->cq_level = vp8_cfg.cq_level;
oxcf->fixed_q = -1;
oxcf->under_shoot_pct = cfg.rc_undershoot_pct;
oxcf->over_shoot_pct = cfg.rc_overshoot_pct;
oxcf->maximum_buffer_size = cfg.rc_buf_sz;
oxcf->starting_buffer_level = cfg.rc_buf_initial_sz;
oxcf->optimal_buffer_level = cfg.rc_buf_optimal_sz;
oxcf->two_pass_vbrbias = cfg.rc_2pass_vbr_bias_pct;
oxcf->two_pass_vbrmin_section = cfg.rc_2pass_vbr_minsection_pct;
oxcf->two_pass_vbrmax_section = cfg.rc_2pass_vbr_maxsection_pct;
oxcf->auto_key = cfg.kf_mode == VPX_KF_AUTO
&& cfg.kf_min_dist != cfg.kf_max_dist;
// oxcf->kf_min_dist = cfg.kf_min_dis;
oxcf->key_freq = cfg.kf_max_dist;
// oxcf->delete_first_pass_file = cfg.g_delete_firstpassfile;
// strcpy(oxcf->first_pass_file, cfg.g_firstpass_file);
oxcf->cpu_used = vp8_cfg.cpu_used;
oxcf->encode_breakout = vp8_cfg.static_thresh;
oxcf->play_alternate = vp8_cfg.enable_auto_alt_ref;
oxcf->noise_sensitivity = vp8_cfg.noise_sensitivity;
oxcf->Sharpness = vp8_cfg.Sharpness;
oxcf->two_pass_stats_in = cfg.rc_twopass_stats_in;
oxcf->output_pkt_list = vp8_cfg.pkt_list;
oxcf->arnr_max_frames = vp8_cfg.arnr_max_frames;
oxcf->arnr_strength = vp8_cfg.arnr_strength;
oxcf->arnr_type = vp8_cfg.arnr_type;
oxcf->tuning = vp8_cfg.tuning;
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[WIP] Add column-based tiling. This patch adds column-based tiling. The idea is to make each tile independently decodable (after reading the common frame header) and also independendly encodable (minus within-frame cost adjustments in the RD loop) to speed-up hardware & software en/decoders if they used multi-threading. Column-based tiling has the added advantage (over other tiling methods) that it minimizes realtime use-case latency, since all threads can start encoding data as soon as the first SB-row worth of data is available to the encoder. There is some test code that does random tile ordering in the decoder, to confirm that each tile is indeed independently decodable from other tiles in the same frame. At tile edges, all contexts assume default values (i.e. 0, 0 motion vector, no coefficients, DC intra4x4 mode), and motion vector search and ordering do not cross tiles in the same frame. t log Tile independence is not maintained between frames ATM, i.e. tile 0 of frame 1 is free to use motion vectors that point into any tile of frame 0. We support 1 (i.e. no tiling), 2 or 4 column-tiles. The loopfilter crosses tile boundaries. I discussed this briefly with Aki and he says that's OK. An in-loop loopfilter would need to do some sync between tile threads, but that shouldn't be a big issue. Resuls: with tiling disabled, we go up slightly because of improved edge use in the intra4x4 prediction. With 2 tiles, we lose about ~1% on derf, ~0.35% on HD and ~0.55% on STD/HD. With 4 tiles, we lose another ~1.5% on derf ~0.77% on HD and ~0.85% on STD/HD. Most of this loss is concentrated in the low-bitrate end of clips, and most of it is because of the loss of edges at tile boundaries and the resulting loss of intra predictors. TODO: - more tiles (perhaps allow row-based tiling also, and max. 8 tiles)? - maybe optionally (for EC purposes), motion vectors themselves should not cross tile edges, or we should emulate such borders as if they were off-frame, to limit error propagation to within one tile only. This doesn't have to be the default behaviour but could be an optional bitstream flag. Change-Id: I5951c3a0742a767b20bc9fb5af685d9892c2c96f
2013-02-01 18:35:28 +01:00
oxcf->tile_columns = vp8_cfg.tile_columns;
oxcf->tile_rows = vp8_cfg.tile_rows;
[WIP] Add column-based tiling. This patch adds column-based tiling. The idea is to make each tile independently decodable (after reading the common frame header) and also independendly encodable (minus within-frame cost adjustments in the RD loop) to speed-up hardware & software en/decoders if they used multi-threading. Column-based tiling has the added advantage (over other tiling methods) that it minimizes realtime use-case latency, since all threads can start encoding data as soon as the first SB-row worth of data is available to the encoder. There is some test code that does random tile ordering in the decoder, to confirm that each tile is indeed independently decodable from other tiles in the same frame. At tile edges, all contexts assume default values (i.e. 0, 0 motion vector, no coefficients, DC intra4x4 mode), and motion vector search and ordering do not cross tiles in the same frame. t log Tile independence is not maintained between frames ATM, i.e. tile 0 of frame 1 is free to use motion vectors that point into any tile of frame 0. We support 1 (i.e. no tiling), 2 or 4 column-tiles. The loopfilter crosses tile boundaries. I discussed this briefly with Aki and he says that's OK. An in-loop loopfilter would need to do some sync between tile threads, but that shouldn't be a big issue. Resuls: with tiling disabled, we go up slightly because of improved edge use in the intra4x4 prediction. With 2 tiles, we lose about ~1% on derf, ~0.35% on HD and ~0.55% on STD/HD. With 4 tiles, we lose another ~1.5% on derf ~0.77% on HD and ~0.85% on STD/HD. Most of this loss is concentrated in the low-bitrate end of clips, and most of it is because of the loss of edges at tile boundaries and the resulting loss of intra predictors. TODO: - more tiles (perhaps allow row-based tiling also, and max. 8 tiles)? - maybe optionally (for EC purposes), motion vectors themselves should not cross tile edges, or we should emulate such borders as if they were off-frame, to limit error propagation to within one tile only. This doesn't have to be the default behaviour but could be an optional bitstream flag. Change-Id: I5951c3a0742a767b20bc9fb5af685d9892c2c96f
2013-02-01 18:35:28 +01:00
oxcf->lossless = vp8_cfg.lossless;
Add lossless compression mode. This commit adds lossless compression capability to the experimental branch. The lossless experiment can be enabled using --enable-lossless in configure. When the experiment is enabled, the encoder will use lossless compression mode by command line option --lossless, and the decoder automatically recognizes a losslessly encoded clip and decodes accordingly. To achieve the lossless coding, this commit has changed the following: 1. To encode at lossless mode, encoder forces the use of unit quantizer, i.e, Q 0, where effective quantization is 1. Encoder also disables the usage of 8x8 transform and allows only 4x4 transform; 2. At Q 0, the first order 4x4 DCT/IDCT have been switched over to a pair of forward and inverse Walsh-Hadamard Transform (http://goo.gl/EIsfy), with proper scaling applied to match the range of the original 4x4 DCT/IDCT pair; 3. At Q 0, the second order remains to use the previous walsh-hadamard transform pair. However, to maintain the reversibility in second order transform at Q 0, scaling down is applied to first order DC coefficients prior to forward transform, and scaling up is applied to the second order output prior to quantization. Symmetric upscaling and downscaling are added around inverse second order transform; 4. At lossless mode, encoder also disables a number of minor features to ensure no loss is introduced, these features includes: a. Trellis quantization optimization b. Loop filtering c. Aggressive zero-binning, rounding and zero-bin boosting d. Mode based zero-bin boosting Lossless coding test was performed on all clips within the derf set, to verify that the commit has achieved lossless compression for all clips. The average compression ratio is around 2.57 to 1. (http://goo.gl/dEShs) Change-Id: Ia3aba7dd09df40dd590f93b9aba134defbc64e34
2012-06-14 04:03:31 +02:00
oxcf->error_resilient_mode = cfg.g_error_resilient;
oxcf->frame_parallel_decoding_mode = vp8_cfg.frame_parallel_decoding_mode;
oxcf->aq_mode = vp8_cfg.aq_mode;
oxcf->ss_number_layers = cfg.ss_number_layers;
/*
printf("Current VP9 Settings: \n");
printf("target_bandwidth: %d\n", oxcf->target_bandwidth);
printf("noise_sensitivity: %d\n", oxcf->noise_sensitivity);
printf("Sharpness: %d\n", oxcf->Sharpness);
printf("cpu_used: %d\n", oxcf->cpu_used);
printf("Mode: %d\n", oxcf->Mode);
// printf("delete_first_pass_file: %d\n", oxcf->delete_first_pass_file);
printf("auto_key: %d\n", oxcf->auto_key);
printf("key_freq: %d\n", oxcf->key_freq);
printf("end_usage: %d\n", oxcf->end_usage);
printf("under_shoot_pct: %d\n", oxcf->under_shoot_pct);
printf("over_shoot_pct: %d\n", oxcf->over_shoot_pct);
printf("starting_buffer_level: %d\n", oxcf->starting_buffer_level);
printf("optimal_buffer_level: %d\n", oxcf->optimal_buffer_level);
printf("maximum_buffer_size: %d\n", oxcf->maximum_buffer_size);
printf("fixed_q: %d\n", oxcf->fixed_q);
printf("worst_allowed_q: %d\n", oxcf->worst_allowed_q);
printf("best_allowed_q: %d\n", oxcf->best_allowed_q);
printf("two_pass_vbrbias: %d\n", oxcf->two_pass_vbrbias);
printf("two_pass_vbrmin_section: %d\n", oxcf->two_pass_vbrmin_section);
printf("two_pass_vbrmax_section: %d\n", oxcf->two_pass_vbrmax_section);
printf("allow_lag: %d\n", oxcf->allow_lag);
printf("lag_in_frames: %d\n", oxcf->lag_in_frames);
printf("play_alternate: %d\n", oxcf->play_alternate);
printf("Version: %d\n", oxcf->Version);
printf("encode_breakout: %d\n", oxcf->encode_breakout);
printf("error resilient: %d\n", oxcf->error_resilient_mode);
printf("frame parallel detokenization: %d\n",
oxcf->frame_parallel_decoding_mode);
*/
return VPX_CODEC_OK;
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}
static vpx_codec_err_t vp9e_set_config(vpx_codec_alg_priv_t *ctx,
const vpx_codec_enc_cfg_t *cfg) {
vpx_codec_err_t res;
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if ((cfg->g_w != ctx->cfg.g_w) || (cfg->g_h != ctx->cfg.g_h))
ERROR("Cannot change width or height after initialization");
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/* Prevent increasing lag_in_frames. This check is stricter than it needs
* to be -- the limit is not increasing past the first lag_in_frames
* value, but we don't track the initial config, only the last successful
* config.
*/
if ((cfg->g_lag_in_frames > ctx->cfg.g_lag_in_frames))
ERROR("Cannot increase lag_in_frames");
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res = validate_config(ctx, cfg, &ctx->vp8_cfg);
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if (!res) {
ctx->cfg = *cfg;
set_vp9e_config(&ctx->oxcf, ctx->cfg, ctx->vp8_cfg);
vp9_change_config(ctx->cpi, &ctx->oxcf);
}
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return res;
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}
int vp9_reverse_trans(int q);
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static vpx_codec_err_t get_param(vpx_codec_alg_priv_t *ctx,
int ctrl_id,
va_list args) {
void *arg = va_arg(args, void *);
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#define MAP(id, var) case id: *(RECAST(id, arg)) = var; break
if (!arg)
return VPX_CODEC_INVALID_PARAM;
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switch (ctrl_id) {
MAP(VP8E_GET_LAST_QUANTIZER, vp9_get_quantizer(ctx->cpi));
MAP(VP8E_GET_LAST_QUANTIZER_64,
vp9_reverse_trans(vp9_get_quantizer(ctx->cpi)));
}
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return VPX_CODEC_OK;
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#undef MAP
}
static vpx_codec_err_t set_param(vpx_codec_alg_priv_t *ctx,
int ctrl_id,
va_list args) {
vpx_codec_err_t res = VPX_CODEC_OK;
struct vp9_extracfg xcfg = ctx->vp8_cfg;
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#define MAP(id, var) case id: var = CAST(id, args); break;
switch (ctrl_id) {
MAP(VP8E_SET_CPUUSED, xcfg.cpu_used);
MAP(VP8E_SET_ENABLEAUTOALTREF, xcfg.enable_auto_alt_ref);
MAP(VP8E_SET_NOISE_SENSITIVITY, xcfg.noise_sensitivity);
MAP(VP8E_SET_SHARPNESS, xcfg.Sharpness);
MAP(VP8E_SET_STATIC_THRESHOLD, xcfg.static_thresh);
MAP(VP9E_SET_TILE_COLUMNS, xcfg.tile_columns);
MAP(VP9E_SET_TILE_ROWS, xcfg.tile_rows);
MAP(VP8E_SET_ARNR_MAXFRAMES, xcfg.arnr_max_frames);
MAP(VP8E_SET_ARNR_STRENGTH, xcfg.arnr_strength);
MAP(VP8E_SET_ARNR_TYPE, xcfg.arnr_type);
MAP(VP8E_SET_TUNING, xcfg.tuning);
MAP(VP8E_SET_CQ_LEVEL, xcfg.cq_level);
MAP(VP8E_SET_MAX_INTRA_BITRATE_PCT, xcfg.rc_max_intra_bitrate_pct);
MAP(VP9E_SET_LOSSLESS, xcfg.lossless);
MAP(VP9E_SET_FRAME_PARALLEL_DECODING, xcfg.frame_parallel_decoding_mode);
MAP(VP9E_SET_AQ_MODE, xcfg.aq_mode);
}
res = validate_config(ctx, &ctx->cfg, &xcfg);
if (!res) {
ctx->vp8_cfg = xcfg;
set_vp9e_config(&ctx->oxcf, ctx->cfg, ctx->vp8_cfg);
vp9_change_config(ctx->cpi, &ctx->oxcf);
}
return res;
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#undef MAP
}
static vpx_codec_err_t vp9e_common_init(vpx_codec_ctx_t *ctx,
int experimental) {
vpx_codec_err_t res = VPX_CODEC_OK;
struct vpx_codec_alg_priv *priv;
vpx_codec_enc_cfg_t *cfg;
unsigned int i;
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VP9_PTR optr;
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if (!ctx->priv) {
priv = calloc(1, sizeof(struct vpx_codec_alg_priv));
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if (!priv) {
return VPX_CODEC_MEM_ERROR;
}
ctx->priv = &priv->base;
ctx->priv->sz = sizeof(*ctx->priv);
ctx->priv->iface = ctx->iface;
ctx->priv->alg_priv = priv;
ctx->priv->init_flags = ctx->init_flags;
ctx->priv->enc.total_encoders = 1;
if (ctx->config.enc) {
/* Update the reference to the config structure to an
* internal copy.
*/
ctx->priv->alg_priv->cfg = *ctx->config.enc;
ctx->config.enc = &ctx->priv->alg_priv->cfg;
}
cfg = &ctx->priv->alg_priv->cfg;
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/* Select the extra vp6 configuration table based on the current
* usage value. If the current usage value isn't found, use the
* values for usage case 0.
*/
for (i = 0;
extracfg_map[i].usage && extracfg_map[i].usage != cfg->g_usage;
i++) {}
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priv->vp8_cfg = extracfg_map[i].cfg;
priv->vp8_cfg.pkt_list = &priv->pkt_list.head;
priv->vp8_cfg.experimental = experimental;
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// TODO(agrange) Check the limits set on this buffer, or the check that is
// applied in vp9e_encode.
priv->cx_data_sz = priv->cfg.g_w * priv->cfg.g_h * 3 / 2 * 8;
// priv->cx_data_sz = priv->cfg.g_w * priv->cfg.g_h * 3 / 2 * 2;
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if (priv->cx_data_sz < 4096) priv->cx_data_sz = 4096;
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priv->cx_data = malloc(priv->cx_data_sz);
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if (!priv->cx_data) {
return VPX_CODEC_MEM_ERROR;
}
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vp9_initialize_enc();
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res = validate_config(priv, &priv->cfg, &priv->vp8_cfg);
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if (!res) {
set_vp9e_config(&ctx->priv->alg_priv->oxcf,
ctx->priv->alg_priv->cfg,
ctx->priv->alg_priv->vp8_cfg);
optr = vp9_create_compressor(&ctx->priv->alg_priv->oxcf);
if (!optr)
res = VPX_CODEC_MEM_ERROR;
else
ctx->priv->alg_priv->cpi = optr;
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}
}
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return res;
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}
static vpx_codec_err_t vp9e_init(vpx_codec_ctx_t *ctx,
vpx_codec_priv_enc_mr_cfg_t *data) {
return vp9e_common_init(ctx, 0);
}
#if CONFIG_EXPERIMENTAL
static vpx_codec_err_t vp9e_exp_init(vpx_codec_ctx_t *ctx,
vpx_codec_priv_enc_mr_cfg_t *data) {
return vp9e_common_init(ctx, 1);
}
#endif
static vpx_codec_err_t vp9e_destroy(vpx_codec_alg_priv_t *ctx) {
free(ctx->cx_data);
vp9_remove_compressor(&ctx->cpi);
free(ctx);
return VPX_CODEC_OK;
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}
static void pick_quickcompress_mode(vpx_codec_alg_priv_t *ctx,
unsigned long duration,
unsigned long deadline) {
unsigned int new_qc;
/* Use best quality mode if no deadline is given. */
if (deadline)
new_qc = MODE_GOODQUALITY;
else
new_qc = MODE_BESTQUALITY;
if (ctx->cfg.g_pass == VPX_RC_FIRST_PASS)
new_qc = MODE_FIRSTPASS;
else if (ctx->cfg.g_pass == VPX_RC_LAST_PASS)
new_qc = (new_qc == MODE_BESTQUALITY)
? MODE_SECONDPASS_BEST
: MODE_SECONDPASS;
if (ctx->oxcf.Mode != new_qc) {
ctx->oxcf.Mode = new_qc;
vp9_change_config(ctx->cpi, &ctx->oxcf);
}
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}
static int write_superframe_index(vpx_codec_alg_priv_t *ctx) {
uint8_t marker = 0xc0;
unsigned int mask;
int mag, index_sz;
assert(ctx->pending_frame_count);
assert(ctx->pending_frame_count <= 8);
/* Add the number of frames to the marker byte */
marker |= ctx->pending_frame_count - 1;
/* Choose the magnitude */
for (mag = 0, mask = 0xff; mag < 4; mag++) {
if (ctx->pending_frame_magnitude < mask)
break;
mask <<= 8;
mask |= 0xff;
}
marker |= mag << 3;
/* Write the index */
index_sz = 2 + (mag + 1) * ctx->pending_frame_count;
if (ctx->pending_cx_data_sz + index_sz < ctx->cx_data_sz) {
uint8_t *x = ctx->pending_cx_data + ctx->pending_cx_data_sz;
int i, j;
*x++ = marker;
for (i = 0; i < ctx->pending_frame_count; i++) {
int this_sz = ctx->pending_frame_sizes[i];
for (j = 0; j <= mag; j++) {
*x++ = this_sz & 0xff;
this_sz >>= 8;
}
}
*x++ = marker;
ctx->pending_cx_data_sz += index_sz;
}
return index_sz;
}
static vpx_codec_err_t vp9e_encode(vpx_codec_alg_priv_t *ctx,
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const vpx_image_t *img,
vpx_codec_pts_t pts,
unsigned long duration,
vpx_enc_frame_flags_t flags,
unsigned long deadline) {
vpx_codec_err_t res = VPX_CODEC_OK;
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if (img)
res = validate_img(ctx, img);
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pick_quickcompress_mode(ctx, duration, deadline);
vpx_codec_pkt_list_init(&ctx->pkt_list);
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/* Handle Flags */
if (((flags & VP8_EFLAG_NO_UPD_GF) && (flags & VP8_EFLAG_FORCE_GF))
|| ((flags & VP8_EFLAG_NO_UPD_ARF) && (flags & VP8_EFLAG_FORCE_ARF))) {
ctx->base.err_detail = "Conflicting flags.";
return VPX_CODEC_INVALID_PARAM;
}
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if (flags & (VP8_EFLAG_NO_REF_LAST | VP8_EFLAG_NO_REF_GF
| VP8_EFLAG_NO_REF_ARF)) {
int ref = 7;
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if (flags & VP8_EFLAG_NO_REF_LAST)
ref ^= VP9_LAST_FLAG;
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if (flags & VP8_EFLAG_NO_REF_GF)
ref ^= VP9_GOLD_FLAG;
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if (flags & VP8_EFLAG_NO_REF_ARF)
ref ^= VP9_ALT_FLAG;
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vp9_use_as_reference(ctx->cpi, ref);
}
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if (flags & (VP8_EFLAG_NO_UPD_LAST | VP8_EFLAG_NO_UPD_GF
| VP8_EFLAG_NO_UPD_ARF | VP8_EFLAG_FORCE_GF
| VP8_EFLAG_FORCE_ARF)) {
int upd = 7;
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if (flags & VP8_EFLAG_NO_UPD_LAST)
upd ^= VP9_LAST_FLAG;
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if (flags & VP8_EFLAG_NO_UPD_GF)
upd ^= VP9_GOLD_FLAG;
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if (flags & VP8_EFLAG_NO_UPD_ARF)
upd ^= VP9_ALT_FLAG;
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vp9_update_reference(ctx->cpi, upd);
}
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if (flags & VP8_EFLAG_NO_UPD_ENTROPY) {
vp9_update_entropy(ctx->cpi, 0);
}
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/* Handle fixed keyframe intervals */
if (ctx->cfg.kf_mode == VPX_KF_AUTO
&& ctx->cfg.kf_min_dist == ctx->cfg.kf_max_dist) {
if (++ctx->fixed_kf_cntr > ctx->cfg.kf_min_dist) {
flags |= VPX_EFLAG_FORCE_KF;
ctx->fixed_kf_cntr = 1;
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}
}
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/* Initialize the encoder instance on the first frame*/
if (!res && ctx->cpi) {
unsigned int lib_flags;
YV12_BUFFER_CONFIG sd;
int64_t dst_time_stamp, dst_end_time_stamp;
unsigned long size, cx_data_sz;
unsigned char *cx_data;
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/* Set up internal flags */
if (ctx->base.init_flags & VPX_CODEC_USE_PSNR)
((VP9_COMP *)ctx->cpi)->b_calculate_psnr = 1;
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// if (ctx->base.init_flags & VPX_CODEC_USE_OUTPUT_PARTITION)
// ((VP9_COMP *)ctx->cpi)->output_partition = 1;
New ways of passing encoded data between encoder and decoder. With this commit frames can be received partition-by-partition from the encoder and passed partition-by-partition to the decoder. At the encoder-side this makes it easier to split encoded frames at partition boundaries, useful when packetizing frames. When VPX_CODEC_USE_OUTPUT_PARTITION is enabled, several VPX_CODEC_CX_FRAME_PKT packets will be returned from vpx_codec_get_cx_data(), containing one partition each. The partition_id (starting at 0) specifies the decoding order of the partitions. All partitions but the last has the VPX_FRAME_IS_FRAGMENT flag set. At the decoder this opens up the possibility of decoding partition N even though partition N-1 was lost (given that independent partitioning has been enabled in the encoder) if more info about the missing parts of the stream is available through external signaling. Each partition is passed to the decoder through the vpx_codec_decode() function, with the data pointer pointing to the start of the partition, and with data_sz equal to the size of the partition. Missing partitions can be signaled to the decoder by setting data != NULL and data_sz = 0. When all partitions have been given to the decoder "end of data" should be signaled by calling vpx_codec_decode() with data = NULL and data_sz = 0. The first partition is the first partition according to the VP8 bitstream + the uncompressed data chunk + DCT address offsets if multiple residual partitions are used. Change-Id: I5bc0682b9e4112e0db77904755c694c3c7ac6e74
2011-06-13 16:42:27 +02:00
/* Convert API flags to internal codec lib flags */
lib_flags = (flags & VPX_EFLAG_FORCE_KF) ? FRAMEFLAGS_KEY : 0;
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/* vp8 use 10,000,000 ticks/second as time stamp */
dst_time_stamp = pts * 10000000 * ctx->cfg.g_timebase.num
/ ctx->cfg.g_timebase.den;
dst_end_time_stamp = (pts + duration) * 10000000 * ctx->cfg.g_timebase.num /
ctx->cfg.g_timebase.den;
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if (img != NULL) {
res = image2yuvconfig(img, &sd);
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if (vp9_receive_raw_frame(ctx->cpi, lib_flags,
&sd, dst_time_stamp, dst_end_time_stamp)) {
VP9_COMP *cpi = (VP9_COMP *)ctx->cpi;
res = update_error_state(ctx, &cpi->common.error);
}
}
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cx_data = ctx->cx_data;
cx_data_sz = ctx->cx_data_sz;
lib_flags = 0;
/* Any pending invisible frames? */
if (ctx->pending_cx_data) {
memmove(cx_data, ctx->pending_cx_data, ctx->pending_cx_data_sz);
ctx->pending_cx_data = cx_data;
cx_data += ctx->pending_cx_data_sz;
cx_data_sz -= ctx->pending_cx_data_sz;
/* TODO: this is a minimal check, the underlying codec doesn't respect
* the buffer size anyway.
*/
if (cx_data_sz < ctx->cx_data_sz / 2) {
ctx->base.err_detail = "Compressed data buffer too small";
return VPX_CODEC_ERROR;
}
}
while (cx_data_sz >= ctx->cx_data_sz / 2 &&
-1 != vp9_get_compressed_data(ctx->cpi, &lib_flags, &size,
cx_data, &dst_time_stamp,
&dst_end_time_stamp, !img)) {
if (size) {
vpx_codec_pts_t round, delta;
vpx_codec_cx_pkt_t pkt;
VP9_COMP *cpi = (VP9_COMP *)ctx->cpi;
/* Pack invisible frames with the next visible frame */
if (!cpi->common.show_frame) {
if (!ctx->pending_cx_data)
ctx->pending_cx_data = cx_data;
ctx->pending_cx_data_sz += size;
ctx->pending_frame_sizes[ctx->pending_frame_count++] = size;
ctx->pending_frame_magnitude |= size;
cx_data += size;
cx_data_sz -= size;
continue;
}
/* Add the frame packet to the list of returned packets. */
round = (vpx_codec_pts_t)1000000 * ctx->cfg.g_timebase.num / 2 - 1;
delta = (dst_end_time_stamp - dst_time_stamp);
pkt.kind = VPX_CODEC_CX_FRAME_PKT;
pkt.data.frame.pts =
(dst_time_stamp * ctx->cfg.g_timebase.den + round)
/ ctx->cfg.g_timebase.num / 10000000;
pkt.data.frame.duration = (unsigned long)
((delta * ctx->cfg.g_timebase.den + round)
/ ctx->cfg.g_timebase.num / 10000000);
pkt.data.frame.flags = lib_flags << 16;
if (lib_flags & FRAMEFLAGS_KEY)
pkt.data.frame.flags |= VPX_FRAME_IS_KEY;
if (!cpi->common.show_frame) {
pkt.data.frame.flags |= VPX_FRAME_IS_INVISIBLE;
// This timestamp should be as close as possible to the
// prior PTS so that if a decoder uses pts to schedule when
// to do this, we start right after last frame was decoded.
// Invisible frames have no duration.
pkt.data.frame.pts = ((cpi->last_time_stamp_seen
* ctx->cfg.g_timebase.den + round)
/ ctx->cfg.g_timebase.num / 10000000) + 1;
pkt.data.frame.duration = 0;
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}
if (cpi->droppable)
pkt.data.frame.flags |= VPX_FRAME_IS_DROPPABLE;
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/*if (cpi->output_partition)
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{
int i;
const int num_partitions = 1;
pkt.data.frame.flags |= VPX_FRAME_IS_FRAGMENT;
for (i = 0; i < num_partitions; ++i)
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{
pkt.data.frame.buf = cx_data;
pkt.data.frame.sz = cpi->partition_sz[i];
pkt.data.frame.partition_id = i;
// don't set the fragment bit for the last partition
if (i == (num_partitions - 1))
pkt.data.frame.flags &= ~VPX_FRAME_IS_FRAGMENT;
vpx_codec_pkt_list_add(&ctx->pkt_list.head, &pkt);
cx_data += cpi->partition_sz[i];
cx_data_sz -= cpi->partition_sz[i];
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}
}
else*/
{
if (ctx->pending_cx_data) {
ctx->pending_frame_sizes[ctx->pending_frame_count++] = size;
ctx->pending_frame_magnitude |= size;
ctx->pending_cx_data_sz += size;
size += write_superframe_index(ctx);
pkt.data.frame.buf = ctx->pending_cx_data;
pkt.data.frame.sz = ctx->pending_cx_data_sz;
ctx->pending_cx_data = NULL;
ctx->pending_cx_data_sz = 0;
ctx->pending_frame_count = 0;
ctx->pending_frame_magnitude = 0;
} else {
pkt.data.frame.buf = cx_data;
pkt.data.frame.sz = size;
}
pkt.data.frame.partition_id = -1;
vpx_codec_pkt_list_add(&ctx->pkt_list.head, &pkt);
cx_data += size;
cx_data_sz -= size;
}
}
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}
}
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return res;
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}
static const vpx_codec_cx_pkt_t *vp9e_get_cxdata(vpx_codec_alg_priv_t *ctx,
vpx_codec_iter_t *iter) {
return vpx_codec_pkt_list_get(&ctx->pkt_list.head, iter);
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}
static vpx_codec_err_t vp9e_set_reference(vpx_codec_alg_priv_t *ctx,
int ctr_id,
va_list args) {
vpx_ref_frame_t *data = va_arg(args, vpx_ref_frame_t *);
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if (data) {
vpx_ref_frame_t *frame = (vpx_ref_frame_t *)data;
YV12_BUFFER_CONFIG sd;
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image2yuvconfig(&frame->img, &sd);
vp9_set_reference_enc(ctx->cpi, ref_frame_to_vp9_reframe(frame->frame_type),
&sd);
return VPX_CODEC_OK;
} else {
return VPX_CODEC_INVALID_PARAM;
}
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}
static vpx_codec_err_t vp9e_copy_reference(vpx_codec_alg_priv_t *ctx,
int ctr_id,
va_list args) {
vpx_ref_frame_t *data = va_arg(args, vpx_ref_frame_t *);
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if (data) {
vpx_ref_frame_t *frame = (vpx_ref_frame_t *)data;
YV12_BUFFER_CONFIG sd;
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image2yuvconfig(&frame->img, &sd);
vp9_copy_reference_enc(ctx->cpi,
ref_frame_to_vp9_reframe(frame->frame_type), &sd);
return VPX_CODEC_OK;
} else {
return VPX_CODEC_INVALID_PARAM;
}
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}
static vpx_codec_err_t get_reference(vpx_codec_alg_priv_t *ctx,
int ctr_id,
va_list args) {
vp9_ref_frame_t *data = va_arg(args, vp9_ref_frame_t *);
if (data) {
YV12_BUFFER_CONFIG* fb;
vp9_get_reference_enc(ctx->cpi, data->idx, &fb);
yuvconfig2image(&data->img, fb, NULL);
return VPX_CODEC_OK;
} else {
return VPX_CODEC_INVALID_PARAM;
}
}
static vpx_codec_err_t vp9e_set_previewpp(vpx_codec_alg_priv_t *ctx,
int ctr_id,
va_list args) {
#if CONFIG_VP9_POSTPROC
vp8_postproc_cfg_t *data = va_arg(args, vp8_postproc_cfg_t *);
(void)ctr_id;
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if (data) {
ctx->preview_ppcfg = *((vp8_postproc_cfg_t *)data);
return VPX_CODEC_OK;
} else {
return VPX_CODEC_INVALID_PARAM;
}
#else
(void)ctx;
(void)ctr_id;
(void)args;
return VPX_CODEC_INCAPABLE;
#endif
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}
static vpx_image_t *vp9e_get_preview(vpx_codec_alg_priv_t *ctx) {
YV12_BUFFER_CONFIG sd;
vp9_ppflags_t flags = {0};
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if (ctx->preview_ppcfg.post_proc_flag) {
flags.post_proc_flag = ctx->preview_ppcfg.post_proc_flag;
flags.deblocking_level = ctx->preview_ppcfg.deblocking_level;
flags.noise_level = ctx->preview_ppcfg.noise_level;
}
if (0 == vp9_get_preview_raw_frame(ctx->cpi, &sd, &flags)) {
yuvconfig2image(&ctx->preview_img, &sd, NULL);
return &ctx->preview_img;
} else {
return NULL;
}
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}
static vpx_codec_err_t vp9e_update_entropy(vpx_codec_alg_priv_t *ctx,
int ctr_id,
va_list args) {
int update = va_arg(args, int);
vp9_update_entropy(ctx->cpi, update);
return VPX_CODEC_OK;
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}
static vpx_codec_err_t vp9e_update_reference(vpx_codec_alg_priv_t *ctx,
int ctr_id,
va_list args) {
int update = va_arg(args, int);
vp9_update_reference(ctx->cpi, update);
return VPX_CODEC_OK;
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}
static vpx_codec_err_t vp9e_use_reference(vpx_codec_alg_priv_t *ctx,
int ctr_id,
va_list args) {
int reference_flag = va_arg(args, int);
vp9_use_as_reference(ctx->cpi, reference_flag);
return VPX_CODEC_OK;
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}
static vpx_codec_err_t vp9e_set_roi_map(vpx_codec_alg_priv_t *ctx,
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int ctr_id,
va_list args) {
// TODO(yaowu): Need to re-implement and test for VP9.
return VPX_CODEC_INVALID_PARAM;
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}
static vpx_codec_err_t vp9e_set_activemap(vpx_codec_alg_priv_t *ctx,
int ctr_id,
va_list args) {
// TODO(yaowu): Need to re-implement and test for VP9.
return VPX_CODEC_INVALID_PARAM;
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}
static vpx_codec_err_t vp9e_set_scalemode(vpx_codec_alg_priv_t *ctx,
int ctr_id,
va_list args) {
vpx_scaling_mode_t *data = va_arg(args, vpx_scaling_mode_t *);
if (data) {
int res;
vpx_scaling_mode_t scalemode = *(vpx_scaling_mode_t *)data;
res = vp9_set_internal_size(ctx->cpi,
(VPX_SCALING)scalemode.h_scaling_mode,
(VPX_SCALING)scalemode.v_scaling_mode);
if (!res) {
return VPX_CODEC_OK;
} else {
return VPX_CODEC_INVALID_PARAM;
}
} else {
return VPX_CODEC_INVALID_PARAM;
}
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}
static vpx_codec_err_t vp9e_set_svc(vpx_codec_alg_priv_t *ctx, int ctr_id,
va_list args) {
int data = va_arg(args, int);
vp9_set_svc(ctx->cpi, data);
return VPX_CODEC_OK;
}
static vpx_codec_err_t vp9e_set_svc_parameters(vpx_codec_alg_priv_t *ctx,
int ctr_id, va_list args) {
vpx_svc_parameters_t *data = va_arg(args, vpx_svc_parameters_t *);
VP9_COMP *cpi = (VP9_COMP *)ctx->cpi;
vpx_svc_parameters_t params;
if (data == NULL) {
return VPX_CODEC_INVALID_PARAM;
}
params = *(vpx_svc_parameters_t *)data;
cpi->current_layer = params.layer;
cpi->lst_fb_idx = params.lst_fb_idx;
cpi->gld_fb_idx = params.gld_fb_idx;
cpi->alt_fb_idx = params.alt_fb_idx;
if (vp9_set_size_literal(ctx->cpi, params.width, params.height) != 0) {
return VPX_CODEC_INVALID_PARAM;
}
ctx->cfg.rc_max_quantizer = params.max_quantizer;
ctx->cfg.rc_min_quantizer = params.min_quantizer;
set_vp9e_config(&ctx->oxcf, ctx->cfg, ctx->vp8_cfg);
vp9_change_config(ctx->cpi, &ctx->oxcf);
return VPX_CODEC_OK;
}
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static vpx_codec_ctrl_fn_map_t vp9e_ctf_maps[] = {
{VP8_SET_REFERENCE, vp9e_set_reference},
{VP8_COPY_REFERENCE, vp9e_copy_reference},
{VP8_SET_POSTPROC, vp9e_set_previewpp},
{VP8E_UPD_ENTROPY, vp9e_update_entropy},
{VP8E_UPD_REFERENCE, vp9e_update_reference},
{VP8E_USE_REFERENCE, vp9e_use_reference},
{VP8E_SET_ROI_MAP, vp9e_set_roi_map},
{VP8E_SET_ACTIVEMAP, vp9e_set_activemap},
{VP8E_SET_SCALEMODE, vp9e_set_scalemode},
{VP8E_SET_CPUUSED, set_param},
{VP8E_SET_NOISE_SENSITIVITY, set_param},
{VP8E_SET_ENABLEAUTOALTREF, set_param},
{VP8E_SET_SHARPNESS, set_param},
{VP8E_SET_STATIC_THRESHOLD, set_param},
[WIP] Add column-based tiling. This patch adds column-based tiling. The idea is to make each tile independently decodable (after reading the common frame header) and also independendly encodable (minus within-frame cost adjustments in the RD loop) to speed-up hardware & software en/decoders if they used multi-threading. Column-based tiling has the added advantage (over other tiling methods) that it minimizes realtime use-case latency, since all threads can start encoding data as soon as the first SB-row worth of data is available to the encoder. There is some test code that does random tile ordering in the decoder, to confirm that each tile is indeed independently decodable from other tiles in the same frame. At tile edges, all contexts assume default values (i.e. 0, 0 motion vector, no coefficients, DC intra4x4 mode), and motion vector search and ordering do not cross tiles in the same frame. t log Tile independence is not maintained between frames ATM, i.e. tile 0 of frame 1 is free to use motion vectors that point into any tile of frame 0. We support 1 (i.e. no tiling), 2 or 4 column-tiles. The loopfilter crosses tile boundaries. I discussed this briefly with Aki and he says that's OK. An in-loop loopfilter would need to do some sync between tile threads, but that shouldn't be a big issue. Resuls: with tiling disabled, we go up slightly because of improved edge use in the intra4x4 prediction. With 2 tiles, we lose about ~1% on derf, ~0.35% on HD and ~0.55% on STD/HD. With 4 tiles, we lose another ~1.5% on derf ~0.77% on HD and ~0.85% on STD/HD. Most of this loss is concentrated in the low-bitrate end of clips, and most of it is because of the loss of edges at tile boundaries and the resulting loss of intra predictors. TODO: - more tiles (perhaps allow row-based tiling also, and max. 8 tiles)? - maybe optionally (for EC purposes), motion vectors themselves should not cross tile edges, or we should emulate such borders as if they were off-frame, to limit error propagation to within one tile only. This doesn't have to be the default behaviour but could be an optional bitstream flag. Change-Id: I5951c3a0742a767b20bc9fb5af685d9892c2c96f
2013-02-01 18:35:28 +01:00
{VP9E_SET_TILE_COLUMNS, set_param},
{VP9E_SET_TILE_ROWS, set_param},
{VP8E_GET_LAST_QUANTIZER, get_param},
{VP8E_GET_LAST_QUANTIZER_64, get_param},
{VP8E_SET_ARNR_MAXFRAMES, set_param},
{VP8E_SET_ARNR_STRENGTH, set_param},
{VP8E_SET_ARNR_TYPE, set_param},
{VP8E_SET_TUNING, set_param},
{VP8E_SET_CQ_LEVEL, set_param},
{VP8E_SET_MAX_INTRA_BITRATE_PCT, set_param},
{VP9E_SET_LOSSLESS, set_param},
{VP9E_SET_FRAME_PARALLEL_DECODING, set_param},
{VP9E_SET_AQ_MODE, set_param},
{VP9_GET_REFERENCE, get_reference},
{VP9E_SET_SVC, vp9e_set_svc},
{VP9E_SET_SVC_PARAMETERS, vp9e_set_svc_parameters},
{ -1, NULL},
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};
static vpx_codec_enc_cfg_map_t vp9e_usage_cfg_map[] = {
{
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0,
{ // NOLINT
0, /* g_usage */
0, /* g_threads */
0, /* g_profile */
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320, /* g_width */
240, /* g_height */
{1, 30}, /* g_timebase */
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0, /* g_error_resilient */
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VPX_RC_ONE_PASS, /* g_pass */
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25, /* g_lag_in_frames */
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0, /* rc_dropframe_thresh */
0, /* rc_resize_allowed */
60, /* rc_resize_down_thresold */
30, /* rc_resize_up_thresold */
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VPX_VBR, /* rc_end_usage */
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#if VPX_ENCODER_ABI_VERSION > (1 + VPX_CODEC_ABI_VERSION)
{0}, /* rc_twopass_stats_in */
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#endif
256, /* rc_target_bandwidth */
0, /* rc_min_quantizer */
63, /* rc_max_quantizer */
100, /* rc_undershoot_pct */
100, /* rc_overshoot_pct */
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6000, /* rc_max_buffer_size */
4000, /* rc_buffer_initial_size; */
5000, /* rc_buffer_optimal_size; */
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50, /* rc_two_pass_vbrbias */
0, /* rc_two_pass_vbrmin_section */
2000, /* rc_two_pass_vbrmax_section */
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/* keyframing settings (kf) */
VPX_KF_AUTO, /* g_kfmode*/
0, /* kf_min_dist */
9999, /* kf_max_dist */
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VPX_SS_DEFAULT_LAYERS, /* ss_number_layers */
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#if VPX_ENCODER_ABI_VERSION == (1 + VPX_CODEC_ABI_VERSION)
1, /* g_delete_first_pass_file */
"vp8.fpf" /* first pass filename */
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#endif
}
},
{ -1, {NOT_IMPLEMENTED}}
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};
#ifndef VERSION_STRING
#define VERSION_STRING
#endif
CODEC_INTERFACE(vpx_codec_vp9_cx) = {
"WebM Project VP9 Encoder" VERSION_STRING,
VPX_CODEC_INTERNAL_ABI_VERSION,
VPX_CODEC_CAP_ENCODER | VPX_CODEC_CAP_PSNR |
VPX_CODEC_CAP_OUTPUT_PARTITION,
/* vpx_codec_caps_t caps; */
vp9e_init, /* vpx_codec_init_fn_t init; */
vp9e_destroy, /* vpx_codec_destroy_fn_t destroy; */
vp9e_ctf_maps, /* vpx_codec_ctrl_fn_map_t *ctrl_maps; */
NOT_IMPLEMENTED, /* vpx_codec_get_mmap_fn_t get_mmap; */
NOT_IMPLEMENTED, /* vpx_codec_set_mmap_fn_t set_mmap; */
{ // NOLINT
NOT_IMPLEMENTED, /* vpx_codec_peek_si_fn_t peek_si; */
NOT_IMPLEMENTED, /* vpx_codec_get_si_fn_t get_si; */
NOT_IMPLEMENTED, /* vpx_codec_decode_fn_t decode; */
NOT_IMPLEMENTED, /* vpx_codec_frame_get_fn_t frame_get; */
},
{ // NOLINT
vp9e_usage_cfg_map, /* vpx_codec_enc_cfg_map_t peek_si; */
vp9e_encode, /* vpx_codec_encode_fn_t encode; */
vp9e_get_cxdata, /* vpx_codec_get_cx_data_fn_t frame_get; */
vp9e_set_config,
NOT_IMPLEMENTED,
vp9e_get_preview,
} /* encoder functions */
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};
#if CONFIG_EXPERIMENTAL
CODEC_INTERFACE(vpx_codec_vp9x_cx) = {
"VP8 Experimental Encoder" VERSION_STRING,
VPX_CODEC_INTERNAL_ABI_VERSION,
VPX_CODEC_CAP_ENCODER | VPX_CODEC_CAP_PSNR,
/* vpx_codec_caps_t caps; */
vp9e_exp_init, /* vpx_codec_init_fn_t init; */
vp9e_destroy, /* vpx_codec_destroy_fn_t destroy; */
vp9e_ctf_maps, /* vpx_codec_ctrl_fn_map_t *ctrl_maps; */
NOT_IMPLEMENTED, /* vpx_codec_get_mmap_fn_t get_mmap; */
NOT_IMPLEMENTED, /* vpx_codec_set_mmap_fn_t set_mmap; */
{ // NOLINT
NOT_IMPLEMENTED, /* vpx_codec_peek_si_fn_t peek_si; */
NOT_IMPLEMENTED, /* vpx_codec_get_si_fn_t get_si; */
NOT_IMPLEMENTED, /* vpx_codec_decode_fn_t decode; */
NOT_IMPLEMENTED, /* vpx_codec_frame_get_fn_t frame_get; */
},
{ // NOLINT
vp9e_usage_cfg_map, /* vpx_codec_enc_cfg_map_t peek_si; */
vp9e_encode, /* vpx_codec_encode_fn_t encode; */
vp9e_get_cxdata, /* vpx_codec_get_cx_data_fn_t frame_get; */
vp9e_set_config,
NOT_IMPLEMENTED,
vp9e_get_preview,
} /* encoder functions */
};
#endif