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/* encx265.c
Copyright (c) 2003-2015 HandBrake Team
This file is part of the HandBrake source code
Homepage: <http://handbrake.fr/>.
It may be used under the terms of the GNU General Public License v2.
For full terms see the file COPYING file or visit http://www.gnu.org/licenses/gpl-2.0.html
*/
#ifdef USE_X265
#include "hb.h"
#include "hb_dict.h"
#include "h265_common.h"
#include "x265.h"
int encx265Init (hb_work_object_t*, hb_job_t*);
int encx265Work (hb_work_object_t*, hb_buffer_t**, hb_buffer_t**);
void encx265Close(hb_work_object_t*);
hb_work_object_t hb_encx265 =
{
WORK_ENCX265,
"H.265/HEVC encoder (libx265)",
encx265Init,
encx265Work,
encx265Close,
};
#define FRAME_INFO_MAX2 (8) // 2^8 = 256; 90000/256 = 352 frames/sec
#define FRAME_INFO_MIN2 (17) // 2^17 = 128K; 90000/131072 = 1.4 frames/sec
#define FRAME_INFO_SIZE (1 << (FRAME_INFO_MIN2 - FRAME_INFO_MAX2 + 1))
#define FRAME_INFO_MASK (FRAME_INFO_SIZE - 1)
static const char * const hb_x265_encopt_synonyms[][2] =
{
{ "me", "motion", },
{ NULL, NULL, },
};
struct hb_work_private_s
{
hb_job_t *job;
x265_encoder *x265;
x265_param *param;
int64_t last_stop;
uint32_t frames_in;
hb_list_t *delayed_chapters;
int64_t next_chapter_pts;
struct
{
int64_t duration;
}
frame_info[FRAME_INFO_SIZE];
char csvfn[1024];
};
// used in delayed_chapters list
struct chapter_s
{
int index;
int64_t start;
};
static int param_parse(x265_param *param, const char *key, const char *value)
{
int ret = x265_param_parse(param, key, value);
// let x265 sanity check the options for us
switch (ret)
{
case X265_PARAM_BAD_NAME:
hb_log("encx265: unknown option '%s'", key);
break;
case X265_PARAM_BAD_VALUE:
hb_log("encx265: bad argument '%s=%s'", key, value ? value : "(null)");
break;
default:
break;
}
return ret;
}
/***********************************************************************
* hb_work_encx265_init
***********************************************************************
*
**********************************************************************/
int encx265Init(hb_work_object_t *w, hb_job_t *job)
{
hb_work_private_t *pv = calloc(1, sizeof(hb_work_private_t));
pv->next_chapter_pts = AV_NOPTS_VALUE;
pv->delayed_chapters = hb_list_init();
pv->job = job;
w->private_data = pv;
int ret;
hb_rational_t vrate;
x265_nal *nal;
uint32_t nnal;
x265_param *param = pv->param = x265_param_alloc();
if (x265_param_default_preset(param,
job->encoder_preset, job->encoder_tune) < 0)
{
hb_error("encx265: x265_param_default_preset failed. Preset (%s) Tune (%s)", job->encoder_preset, job->encoder_tune);
goto fail;
}
/* If the PSNR or SSIM tunes are in use, enable the relevant metric */
param->bEnablePsnr = param->bEnableSsim = 0;
if (job->encoder_tune != NULL && *job->encoder_tune)
{
char *tmp = strdup(job->encoder_tune);
char *tok = strtok(tmp, ",./-+");
do
{
if (!strncasecmp(tok, "psnr", 4))
{
param->bEnablePsnr = 1;
break;
}
if (!strncasecmp(tok, "ssim", 4))
{
param->bEnableSsim = 1;
break;
}
}
while ((tok = strtok(NULL, ",./-+")) != NULL);
free(tmp);
}
/*
* Some HandBrake-specific defaults; users can override them
* using the encoder_options string.
*/
hb_reduce(&vrate.num, &vrate.den, job->vrate.num, job->vrate.den);
param->fpsNum = vrate.num;
param->fpsDenom = vrate.den;
param->keyframeMin = (double)vrate.num / vrate.den + 0.5;
param->keyframeMax = param->keyframeMin * 10;
/*
* Video Signal Type (color description only).
*
* Use x265_param_parse (let x265 determine which bEnable
* flags, if any, should be set in the x265_param struct).
*/
char colorprim[11], transfer[11], colormatrix[11];
switch (job->color_matrix_code)
{
case 1: // ITU BT.601 DVD or SD TV content (NTSC)
strcpy(colorprim, "smpte170m");
strcpy(transfer, "bt709");
strcpy(colormatrix, "smpte170m");
break;
case 2: // ITU BT.601 DVD or SD TV content (PAL)
strcpy(colorprim, "bt470bg");
strcpy(transfer, "bt709");
strcpy(colormatrix, "smpte170m");
break;
case 3: // ITU BT.709 HD content
strcpy(colorprim, "bt709");
strcpy(transfer, "bt709");
strcpy(colormatrix, "bt709");
break;
case 4: // custom
snprintf(colorprim, sizeof(colorprim), "%d", job->color_prim);
snprintf(transfer, sizeof(transfer), "%d", job->color_transfer);
snprintf(colormatrix, sizeof(colormatrix), "%d", job->color_matrix);
break;
default: // detected during scan
snprintf(colorprim, sizeof(colorprim), "%d", job->title->color_prim);
snprintf(transfer, sizeof(transfer), "%d", job->title->color_transfer);
snprintf(colormatrix, sizeof(colormatrix), "%d", job->title->color_matrix);
break;
}
if (param_parse(param, "colorprim", colorprim) ||
param_parse(param, "transfer", transfer) ||
param_parse(param, "colormatrix", colormatrix))
{
goto fail;
}
/* iterate through x265_opts and parse the options */
hb_dict_t *x265_opts;
x265_opts = hb_encopts_to_dict(job->encoder_options, job->vcodec);
hb_dict_iter_t iter;
for (iter = hb_dict_iter_init(x265_opts);
iter != HB_DICT_ITER_DONE;
iter = hb_dict_iter_next(x265_opts, iter))
{
const char *key = hb_dict_iter_key(iter);
hb_value_t *value = hb_dict_iter_value(iter);
char *str = hb_value_get_string_xform(value);
// here's where the strings are passed to libx265 for parsing
// unknown options or bad values are non-fatal, see encx264.c
param_parse(param, key, str);
free(str);
}
hb_dict_free(&x265_opts);
/*
* Reload colorimetry settings in case custom
* values were set in the encoder_options string.
*/
job->color_matrix_code = 4;
job->color_prim = param->vui.colorPrimaries;
job->color_transfer = param->vui.transferCharacteristics;
job->color_matrix = param->vui.matrixCoeffs;
/*
* Settings which can't be overriden in the encodeer_options string
* (muxer-specific settings, resolution, ratecontrol, etc.).
*/
param->bRepeatHeaders = 0;
param->sourceWidth = job->width;
param->sourceHeight = job->height;
/*
* Let x265 determnine whether to use an aspect ratio
* index vs. the extended SAR index + SAR width/height.
*/
char sar[22];
snprintf(sar, sizeof(sar), "%d:%d", job->par.num, job->par.den);
if (param_parse(param, "sar", sar))
{
goto fail;
}
if (job->vquality > 0)
{
param->rc.rateControlMode = X265_RC_CRF;
param->rc.rfConstant = job->vquality;
}
else
{
param->rc.rateControlMode = X265_RC_ABR;
param->rc.bitrate = job->vbitrate;
if (job->pass_id == HB_PASS_ENCODE_1ST ||
job->pass_id == HB_PASS_ENCODE_2ND)
{
char stats_file[1024] = "";
char pass[2];
snprintf(pass, sizeof(pass), "%d", job->pass_id);
hb_get_tempory_filename(job->h, stats_file, "x265.log");
if (param_parse(param, "stats", stats_file) ||
param_parse(param, "pass", pass))
{
goto fail;
}
if (job->pass_id == HB_PASS_ENCODE_1ST && job->fastfirstpass == 0 &&
param_parse(param, "slow-firstpass", "1"))
{
goto fail;
}
}
}
/* statsfile (but not 2-pass) */
memset(pv->csvfn, 0, sizeof(pv->csvfn));
if (param->logLevel >= X265_LOG_DEBUG)
{
if (param->csvfn == NULL)
{
hb_get_tempory_filename(job->h, pv->csvfn, "x265.csv");
param->csvfn = pv->csvfn;
}
else
{
strncpy(pv->csvfn, param->csvfn, sizeof(pv->csvfn));
}
}
/* Apply profile and level settings last. */
if (job->encoder_profile != NULL &&
strcasecmp(job->encoder_profile, hb_h265_profile_names[0]) != 0 &&
x265_param_apply_profile(param, job->encoder_profile) < 0)
{
goto fail;
}
/* we should now know whether B-frames are enabled */
job->areBframes = (param->bframes > 0) + (param->bframes > 0 &&
param->bBPyramid > 0);
/* Reset global variables before opening a new encoder */
x265_cleanup();
pv->x265 = x265_encoder_open(param);
if (pv->x265 == NULL)
{
hb_error("encx265: x265_encoder_open failed.");
goto fail;
}
/*
* x265's output (headers and bitstream) are in Annex B format.
*
* Write the header as is, and let the muxer reformat
* the extradata and output bitstream properly for us.
*/
ret = x265_encoder_headers(pv->x265, &nal, &nnal);
if (ret < 0)
{
hb_error("encx265: x265_encoder_headers failed (%d)", ret);
goto fail;
}
if (ret > sizeof(w->config->h265.headers))
{
hb_error("encx265: bitstream headers too large (%d)", ret);
goto fail;
}
memcpy(w->config->h265.headers, nal->payload, ret);
w->config->h265.headers_length = ret;
return 0;
fail:
w->private_data = NULL;
free(pv);
return 1;
}
void encx265Close(hb_work_object_t *w)
{
hb_work_private_t *pv = w->private_data;
if (pv->delayed_chapters != NULL)
{
struct chapter_s *item;
while ((item = hb_list_item(pv->delayed_chapters, 0)) != NULL)
{
hb_list_rem(pv->delayed_chapters, item);
free(item);
}
hb_list_close(&pv->delayed_chapters);
}
x265_param_free(pv->param);
x265_encoder_close(pv->x265);
free(pv);
w->private_data = NULL;
}
/*
* see comments in definition of 'frame_info' in pv struct for description
* of what these routines are doing.
*/
static void save_frame_info(hb_work_private_t *pv, hb_buffer_t *in)
{
int i = (in->s.start >> FRAME_INFO_MAX2) & FRAME_INFO_MASK;
pv->frame_info[i].duration = in->s.stop - in->s.start;
}
static int64_t get_frame_duration(hb_work_private_t * pv, int64_t pts)
{
int i = (pts >> FRAME_INFO_MAX2) & FRAME_INFO_MASK;
return pv->frame_info[i].duration;
}
static hb_buffer_t* nal_encode(hb_work_object_t *w,
x265_picture *pic_out,
x265_nal *nal, uint32_t nnal)
{
hb_work_private_t *pv = w->private_data;
hb_job_t *job = pv->job;
hb_buffer_t *buf = NULL;
int i;
if (nnal <= 0)
{
return NULL;
}
buf = hb_video_buffer_init(job->width, job->height);
if (buf == NULL)
{
return NULL;
}
buf->size = 0;
// copy the bitstream data
for (i = 0; i < nnal; i++)
{
memcpy(buf->data + buf->size, nal[i].payload, nal[i].sizeBytes);
buf->size += nal[i].sizeBytes;
}
// use the pts to get the original frame's duration.
buf->s.duration = get_frame_duration(pv, pic_out->pts);
buf->s.stop = pic_out->pts + buf->s.duration;
buf->s.start = pic_out->pts;
buf->s.renderOffset = pic_out->dts;
if (w->config->h264.init_delay == 0 && pic_out->dts < 0)
{
w->config->h264.init_delay -= pic_out->dts;
}
switch (pic_out->sliceType)
{
case X265_TYPE_IDR:
buf->s.frametype = HB_FRAME_IDR;
break;
case X265_TYPE_I:
buf->s.frametype = HB_FRAME_I;
break;
case X265_TYPE_P:
buf->s.frametype = HB_FRAME_P;
break;
case X265_TYPE_B:
buf->s.frametype = HB_FRAME_B;
break;
case X265_TYPE_BREF:
buf->s.frametype = HB_FRAME_BREF;
break;
default:
buf->s.frametype = 0;
break;
}
if (pv->next_chapter_pts != AV_NOPTS_VALUE &&
pv->next_chapter_pts <= pic_out->pts &&
pic_out->sliceType == X265_TYPE_IDR)
{
// we're no longer looking for this chapter
pv->next_chapter_pts = AV_NOPTS_VALUE;
// get the chapter index from the list
struct chapter_s *item = hb_list_item(pv->delayed_chapters, 0);
if (item != NULL)
{
// we're done with this chapter
hb_list_rem(pv->delayed_chapters, item);
buf->s.new_chap = item->index;
free(item);
// we may still have another pending chapter
item = hb_list_item(pv->delayed_chapters, 0);
if (item != NULL)
{
// we're looking for this one now
// we still need it, don't remove it
pv->next_chapter_pts = item->start;
}
}
}
// discard empty buffers (no video)
if (buf->size <= 0)
{
hb_buffer_close(&buf);
}
return buf;
}
static hb_buffer_t* x265_encode(hb_work_object_t *w, hb_buffer_t *in)
{
hb_work_private_t *pv = w->private_data;
hb_job_t *job = pv->job;
x265_picture pic_in, pic_out;
x265_nal *nal;
uint32_t nnal;
x265_picture_init(pv->param, &pic_in);
pic_in.stride[0] = in->plane[0].stride;
pic_in.stride[1] = in->plane[1].stride;
pic_in.stride[2] = in->plane[2].stride;
pic_in.planes[0] = in->plane[0].data;
pic_in.planes[1] = in->plane[1].data;
pic_in.planes[2] = in->plane[2].data;
pic_in.poc = pv->frames_in++;
pic_in.pts = in->s.start;
pic_in.bitDepth = 8;
if (in->s.new_chap && job->chapter_markers)
{
if (pv->next_chapter_pts == AV_NOPTS_VALUE)
{
pv->next_chapter_pts = in->s.start;
}
/*
* Chapter markers are sometimes so close we can get a new one before
* the previous marker has been through the encoding queue.
*
* Dropping markers can cause weird side-effects downstream, including
* but not limited to missing chapters in the output, so we need to save
* it somehow.
*/
struct chapter_s *item = malloc(sizeof(struct chapter_s));
if (item != NULL)
{
item->start = in->s.start;
item->index = in->s.new_chap;
hb_list_add(pv->delayed_chapters, item);
}
/* don't let 'work_loop' put a chapter mark on the wrong buffer */
in->s.new_chap = 0;
/*
* Chapters have to start with an IDR frame so request that this frame be
* coded as IDR. Since there may be up to 16 frames currently buffered in
* the encoder, remember the timestamp so when this frame finally pops out
* of the encoder we'll mark its buffer as the start of a chapter.
*/
pic_in.sliceType = X265_TYPE_IDR;
}
else
{
pic_in.sliceType = X265_TYPE_AUTO;
}
if (pv->last_stop != in->s.start)
{
hb_log("encx265 input continuity err: last stop %"PRId64" start %"PRId64,
pv->last_stop, in->s.start);
}
pv->last_stop = in->s.stop;
save_frame_info(pv, in);
if (x265_encoder_encode(pv->x265, &nal, &nnal, &pic_in, &pic_out) > 0)
{
return nal_encode(w, &pic_out, nal, nnal);
}
return NULL;
}
int encx265Work(hb_work_object_t *w, hb_buffer_t **buf_in, hb_buffer_t **buf_out)
{
hb_work_private_t *pv = w->private_data;
hb_buffer_t *in = *buf_in;
if (in->s.flags & HB_BUF_FLAG_EOF)
{
uint32_t nnal;
x265_nal *nal;
x265_picture pic_out;
hb_buffer_list_t list;
hb_buffer_list_clear(&list);
// flush delayed frames
while (x265_encoder_encode(pv->x265, &nal, &nnal, NULL, &pic_out) > 0)
{
hb_buffer_t *buf = nal_encode(w, &pic_out, nal, nnal);
hb_buffer_list_append(&list, buf);
}
// add the EOF to the end of the chain
hb_buffer_list_append(&list, in);
*buf_out = hb_buffer_list_clear(&list);
*buf_in = NULL;
return HB_WORK_DONE;
}
*buf_out = x265_encode(w, in);
return HB_WORK_OK;
}
const char* hb_x265_encopt_name(const char *name)
{
int i;
for (i = 0; hb_x265_encopt_synonyms[i][0] != NULL; i++)
if (!strcmp(name, hb_x265_encopt_synonyms[i][1]))
return hb_x265_encopt_synonyms[i][0];
return name;
}
#endif
|