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|
/* hb.c
Copyright (c) 2003-2016 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
*/
#include "hb.h"
#include "opencl.h"
#include "hbffmpeg.h"
#include "encx264.h"
#include "libavfilter/avfilter.h"
#include <stdio.h>
#include <unistd.h>
#include <fcntl.h>
#ifdef USE_QSV
#include "qsv_common.h"
#endif
#if defined( SYS_MINGW )
#include <io.h>
#if defined(PTW32_VERSION)
#include <pthread.h>
#endif
#endif
struct hb_handle_s
{
int id;
/* This thread's only purpose is to check other threads'
states */
volatile int die;
hb_thread_t * main_thread;
int pid;
/* DVD/file scan thread */
hb_title_set_t title_set;
hb_thread_t * scan_thread;
/* The thread which processes the jobs. Others threads are launched
from this one (see work.c) */
int sequence_id;
hb_list_t * jobs;
hb_job_t * current_job;
volatile int work_die;
hb_error_code work_error;
hb_thread_t * work_thread;
hb_lock_t * state_lock;
hb_state_t state;
int paused;
hb_lock_t * pause_lock;
/* For MacGui active queue
increments each time the scan thread completes*/
int scanCount;
volatile int scan_die;
/* Stash of persistent data between jobs, for stuff
like correcting frame count and framerate estimates
on multi-pass encodes where frames get dropped. */
hb_interjob_t * interjob;
// power management opaque pointer
void * system_sleep_opaque;
};
hb_work_object_t * hb_objects = NULL;
int hb_instance_counter = 0;
static void thread_func( void * );
static int ff_lockmgr_cb(void **mutex, enum AVLockOp op)
{
switch ( op )
{
case AV_LOCK_CREATE:
{
*mutex = hb_lock_init();
} break;
case AV_LOCK_DESTROY:
{
hb_lock_close( (hb_lock_t**)mutex );
} break;
case AV_LOCK_OBTAIN:
{
hb_lock( (hb_lock_t*)*mutex );
} break;
case AV_LOCK_RELEASE:
{
hb_unlock( (hb_lock_t*)*mutex );
} break;
default:
break;
}
return 0;
}
void hb_avcodec_init()
{
av_lockmgr_register(ff_lockmgr_cb);
av_register_all();
avfilter_register_all();
#ifdef _WIN64
// avresample's assembly optimizations can cause crashes under Win x86_64
// (see http://bugzilla.libav.org/show_bug.cgi?id=496)
// disable AVX and FMA4 as a workaround
hb_deep_log(2, "hb_avcodec_init: Windows x86_64, disabling AVX and FMA4");
int cpu_flags = av_get_cpu_flags() & ~AV_CPU_FLAG_AVX & ~AV_CPU_FLAG_FMA4;
av_set_cpu_flags_mask(cpu_flags);
#endif
}
int hb_avcodec_open(AVCodecContext *avctx, AVCodec *codec,
AVDictionary **av_opts, int thread_count)
{
int ret;
if ((thread_count == HB_FFMPEG_THREADS_AUTO || thread_count > 0) &&
(codec->type == AVMEDIA_TYPE_VIDEO))
{
avctx->thread_count = (thread_count == HB_FFMPEG_THREADS_AUTO) ?
hb_get_cpu_count() / 2 + 1 : thread_count;
avctx->thread_type = FF_THREAD_FRAME|FF_THREAD_SLICE;
avctx->thread_safe_callbacks = 1;
}
else
{
avctx->thread_count = 1;
}
if (codec->capabilities & CODEC_CAP_EXPERIMENTAL)
{
// "experimental" encoders will not open without this
avctx->strict_std_compliance = FF_COMPLIANCE_EXPERIMENTAL;
}
ret = avcodec_open2(avctx, codec, av_opts);
return ret;
}
int hb_avcodec_close(AVCodecContext *avctx)
{
int ret;
ret = avcodec_close(avctx);
return ret;
}
int hb_picture_fill(uint8_t *data[], int stride[], hb_buffer_t *buf)
{
int ret, ii;
for (ii = 0; ii < 4; ii++)
stride[ii] = buf->plane[ii].stride;
ret = av_image_fill_pointers(data, buf->f.fmt,
buf->plane[0].height_stride,
buf->data, stride);
if (ret != buf->size)
{
hb_error("Internal error hb_picture_fill expected %d, got %d",
buf->size, ret);
}
return ret;
}
int hb_picture_crop(uint8_t *data[], int stride[], hb_buffer_t *buf,
int top, int left)
{
const AVPixFmtDescriptor *desc = av_pix_fmt_desc_get(buf->f.fmt);
int x_shift, y_shift;
if (desc == NULL)
return -1;
x_shift = desc->log2_chroma_w;
y_shift = desc->log2_chroma_h;
data[0] = buf->plane[0].data + top * buf->plane[0].stride + left;
data[1] = buf->plane[1].data + (top >> y_shift) * buf->plane[1].stride +
(left >> x_shift);
data[2] = buf->plane[2].data + (top >> y_shift) * buf->plane[2].stride +
(left >> x_shift);
stride[0] = buf->plane[0].stride;
stride[1] = buf->plane[1].stride;
stride[2] = buf->plane[2].stride;
return 0;
}
static int handle_jpeg(enum AVPixelFormat *format)
{
switch (*format)
{
case AV_PIX_FMT_YUVJ420P: *format = AV_PIX_FMT_YUV420P; return 1;
case AV_PIX_FMT_YUVJ422P: *format = AV_PIX_FMT_YUV422P; return 1;
case AV_PIX_FMT_YUVJ444P: *format = AV_PIX_FMT_YUV444P; return 1;
case AV_PIX_FMT_YUVJ440P: *format = AV_PIX_FMT_YUV440P; return 1;
default: return 0;
}
}
struct SwsContext*
hb_sws_get_context(int srcW, int srcH, enum AVPixelFormat srcFormat,
int dstW, int dstH, enum AVPixelFormat dstFormat,
int flags)
{
struct SwsContext * ctx;
ctx = sws_alloc_context();
if ( ctx )
{
int srcRange, dstRange;
srcRange = handle_jpeg(&srcFormat);
dstRange = handle_jpeg(&dstFormat);
/* enable this when implemented in Libav
flags |= SWS_FULL_CHR_H_INT | SWS_FULL_CHR_H_INP;
*/
av_opt_set_int(ctx, "srcw", srcW, 0);
av_opt_set_int(ctx, "srch", srcH, 0);
av_opt_set_int(ctx, "src_range", srcRange, 0);
av_opt_set_int(ctx, "src_format", srcFormat, 0);
av_opt_set_int(ctx, "dstw", dstW, 0);
av_opt_set_int(ctx, "dsth", dstH, 0);
av_opt_set_int(ctx, "dst_range", dstRange, 0);
av_opt_set_int(ctx, "dst_format", dstFormat, 0);
av_opt_set_int(ctx, "sws_flags", flags, 0);
sws_setColorspaceDetails( ctx,
sws_getCoefficients( SWS_CS_DEFAULT ), // src colorspace
srcRange, // src range 0 = MPG, 1 = JPG
sws_getCoefficients( SWS_CS_DEFAULT ), // dst colorspace
dstRange, // dst range 0 = MPG, 1 = JPG
0, // brightness
1 << 16, // contrast
1 << 16 ); // saturation
if (sws_init_context(ctx, NULL, NULL) < 0) {
hb_error("Cannot initialize resampling context");
sws_freeContext(ctx);
ctx = NULL;
}
}
return ctx;
}
uint64_t hb_ff_mixdown_xlat(int hb_mixdown, int *downmix_mode)
{
uint64_t ff_layout = 0;
int mode = AV_MATRIX_ENCODING_NONE;
switch (hb_mixdown)
{
// Passthru
case HB_AMIXDOWN_NONE:
break;
case HB_AMIXDOWN_MONO:
case HB_AMIXDOWN_LEFT:
case HB_AMIXDOWN_RIGHT:
ff_layout = AV_CH_LAYOUT_MONO;
break;
case HB_AMIXDOWN_DOLBY:
ff_layout = AV_CH_LAYOUT_STEREO;
mode = AV_MATRIX_ENCODING_DOLBY;
break;
case HB_AMIXDOWN_DOLBYPLII:
ff_layout = AV_CH_LAYOUT_STEREO;
mode = AV_MATRIX_ENCODING_DPLII;
break;
case HB_AMIXDOWN_STEREO:
ff_layout = AV_CH_LAYOUT_STEREO;
break;
case HB_AMIXDOWN_5POINT1:
ff_layout = AV_CH_LAYOUT_5POINT1;
break;
case HB_AMIXDOWN_6POINT1:
ff_layout = AV_CH_LAYOUT_6POINT1;
break;
case HB_AMIXDOWN_7POINT1:
ff_layout = AV_CH_LAYOUT_7POINT1;
break;
case HB_AMIXDOWN_5_2_LFE:
ff_layout = (AV_CH_LAYOUT_5POINT1_BACK|
AV_CH_FRONT_LEFT_OF_CENTER|
AV_CH_FRONT_RIGHT_OF_CENTER);
break;
default:
ff_layout = AV_CH_LAYOUT_STEREO;
hb_log("hb_ff_mixdown_xlat: unsupported mixdown %d", hb_mixdown);
break;
}
if (downmix_mode != NULL)
*downmix_mode = mode;
return ff_layout;
}
/*
* Set sample format to the request format if supported by the codec.
* The planar/packed variant of the requested format is the next best thing.
*/
void hb_ff_set_sample_fmt(AVCodecContext *context, AVCodec *codec,
enum AVSampleFormat request_sample_fmt)
{
if (context != NULL && codec != NULL &&
codec->type == AVMEDIA_TYPE_AUDIO && codec->sample_fmts != NULL)
{
const enum AVSampleFormat *fmt;
enum AVSampleFormat next_best_fmt;
next_best_fmt = (av_sample_fmt_is_planar(request_sample_fmt) ?
av_get_packed_sample_fmt(request_sample_fmt) :
av_get_planar_sample_fmt(request_sample_fmt));
context->request_sample_fmt = AV_SAMPLE_FMT_NONE;
for (fmt = codec->sample_fmts; *fmt != AV_SAMPLE_FMT_NONE; fmt++)
{
if (*fmt == request_sample_fmt)
{
context->request_sample_fmt = request_sample_fmt;
break;
}
else if (*fmt == next_best_fmt)
{
context->request_sample_fmt = next_best_fmt;
}
}
/*
* When encoding and AVCodec.sample_fmts exists, avcodec_open2()
* will error out if AVCodecContext.sample_fmt isn't set.
*/
if (context->request_sample_fmt == AV_SAMPLE_FMT_NONE)
{
context->request_sample_fmt = codec->sample_fmts[0];
}
context->sample_fmt = context->request_sample_fmt;
}
}
/**
* Registers work objects, by adding the work object to a liked list.
* @param w Handle to hb_work_object_t to register.
*/
void hb_register( hb_work_object_t * w )
{
w->next = hb_objects;
hb_objects = w;
}
void (*hb_log_callback)(const char* message);
static void redirect_thread_func(void *);
#if defined( SYS_MINGW )
#define pipe(phandles) _pipe (phandles, 4096, _O_BINARY)
#endif
/**
* Registers the given function as a logger. All logs will be passed to it.
* @param log_cb The function to register as a logger.
*/
void hb_register_logger( void (*log_cb)(const char* message) )
{
hb_log_callback = log_cb;
hb_thread_init("ioredirect", redirect_thread_func, NULL, HB_NORMAL_PRIORITY);
}
void hb_log_level_set(hb_handle_t *h, int level)
{
global_verbosity_level = level;
}
/**
* libhb initialization routine.
* @param verbose HB_DEBUG_NONE or HB_DEBUG_ALL.
* @param update_check signals libhb to check for updated version from HandBrake website.
* @return Handle to hb_handle_t for use on all subsequent calls to libhb.
*/
hb_handle_t * hb_init( int verbose )
{
hb_handle_t * h = calloc( sizeof( hb_handle_t ), 1 );
/* See hb_deep_log() and hb_log() in common.c */
hb_log_level_set(h, verbose);
h->id = hb_instance_counter++;
/* Initialize opaque for PowerManagement purposes */
h->system_sleep_opaque = hb_system_sleep_opaque_init();
h->title_set.list_title = hb_list_init();
h->jobs = hb_list_init();
h->state_lock = hb_lock_init();
h->state.state = HB_STATE_IDLE;
h->pause_lock = hb_lock_init();
h->interjob = calloc( sizeof( hb_interjob_t ), 1 );
/* Start library thread */
hb_log( "hb_init: starting libhb thread" );
h->die = 0;
h->main_thread = hb_thread_init( "libhb", thread_func, h,
HB_NORMAL_PRIORITY );
return h;
}
// Make sure these strings at least exist in the executable even though
// they may not all be visible in the frontend.
static const char* hb_title = HB_PROJECT_TITLE;
static const char* hb_name = HB_PROJECT_NAME;
static const char* hb_website = HB_PROJECT_URL_WEBSITE;
static const char* hb_community = HB_PROJECT_URL_COMMUNITY;
static const char* hb_irc = HB_PROJECT_URL_IRC;
static const char* hb_version = HB_PROJECT_VERSION;
static const int hb_build = HB_PROJECT_BUILD;
static const char* hb_repo_url = HB_PROJECT_REPO_URL;
static const char* hb_repo_tag = HB_PROJECT_REPO_TAG;
static const int hb_repo_rev = HB_PROJECT_REPO_REV;
static const char* hb_repo_hash = HB_PROJECT_REPO_HASH;
static const char* hb_repo_branch = HB_PROJECT_REPO_BRANCH;
static const char* hb_repo_remote = HB_PROJECT_REPO_REMOTE;
static const char* hb_repo_type = HB_PROJECT_REPO_TYPE;
const char * hb_get_full_description()
{
static char * desc = NULL;
if (desc == NULL)
{
desc = hb_strdup_printf("%s\n"
"\tWebsite: %s\n"
"\tForum: %s\n"
"\tIRC: %s\n"
"\tBuild Type: %s\n"
"\tRepository: %s\n"
"\tRelease Tag: %s\n"
"\tRevision: %d\n"
"\tCommit Hash: %s\n"
"\tBranch: %s\n"
"\tRemote: %s",
hb_title, hb_website, hb_community, hb_irc,
hb_repo_type, hb_repo_url, hb_repo_tag, hb_repo_rev,
hb_repo_hash, hb_repo_branch, hb_repo_remote);
}
return desc;
}
/**
* Returns current version of libhb.
* @param h Handle to hb_handle_t.
* @return character array of version number.
*/
const char * hb_get_version( hb_handle_t * h )
{
// Silence compiler warnings for unused variables
((void)(hb_title));
((void)(hb_name));
((void)(hb_website));
((void)(hb_community));
((void)(hb_irc));
((void)(hb_version));
((void)(hb_repo_url));
((void)(hb_repo_tag));
((void)(hb_repo_rev));
((void)(hb_repo_hash));
((void)(hb_repo_branch));
((void)(hb_repo_remote));
((void)(hb_repo_type));
return hb_version;
}
/**
* Returns current build of libhb.
* @param h Handle to hb_handle_t.
* @return character array of build number.
*/
int hb_get_build( hb_handle_t * h )
{
return hb_build;
}
/**
* Deletes current previews associated with titles
* @param h Handle to hb_handle_t
*/
void hb_remove_previews( hb_handle_t * h )
{
char filename[1024];
char dirname[1024];
hb_title_t * title;
int i, count, len;
DIR * dir;
struct dirent * entry;
memset( dirname, 0, 1024 );
hb_get_temporary_directory( dirname );
dir = opendir( dirname );
if (dir == NULL) return;
count = hb_list_count( h->title_set.list_title );
while( ( entry = readdir( dir ) ) )
{
if( entry->d_name[0] == '.' )
{
continue;
}
for( i = 0; i < count; i++ )
{
title = hb_list_item( h->title_set.list_title, i );
len = snprintf( filename, 1024, "%d_%d", h->id, title->index );
if (strncmp(entry->d_name, filename, len) == 0)
{
snprintf( filename, 1024, "%s/%s", dirname, entry->d_name );
unlink( filename );
break;
}
}
}
closedir( dir );
}
/**
* Initializes a scan of the by calling hb_scan_init
* @param h Handle to hb_handle_t
* @param path location of VIDEO_TS folder.
* @param title_index Desired title to scan. 0 for all titles.
* @param preview_count Number of preview images to generate.
* @param store_previews Whether or not to write previews to disk.
*/
void hb_scan( hb_handle_t * h, const char * path, int title_index,
int preview_count, int store_previews, uint64_t min_duration )
{
hb_title_t * title;
// Check if scanning is necessary.
if (!strcmp(h->title_set.path, path))
{
// Current title_set path matches requested path.
// Check if the requested title has already been scanned.
int ii;
for (ii = 0; ii < hb_list_count(h->title_set.list_title); ii++)
{
title = hb_list_item(h->title_set.list_title, ii);
if (title->index == title_index)
{
// In some cases, we don't care what the preview count is.
// E.g. when rescanning at the start of a job. In these
// cases, the caller can set preview_count to -1 to tell
// us to use the same count as the previous scan, if known.
if (preview_count < 0)
{
preview_count = title->preview_count;
}
if (preview_count == title->preview_count)
{
// Title has already been scanned.
hb_lock( h->state_lock );
h->state.state = HB_STATE_SCANDONE;
hb_unlock( h->state_lock );
return;
}
}
}
}
if (preview_count < 0)
{
preview_count = 10;
}
h->scan_die = 0;
/* Clean up from previous scan */
hb_remove_previews( h );
while( ( title = hb_list_item( h->title_set.list_title, 0 ) ) )
{
hb_list_rem( h->title_set.list_title, title );
hb_title_close( &title );
}
/* Print CPU info here so that it's in all scan and encode logs */
const char *cpu_name = hb_get_cpu_name();
const char *cpu_type = hb_get_cpu_platform_name();
hb_log("CPU: %s", cpu_name != NULL ? cpu_name : "");
if (cpu_type != NULL)
{
hb_log(" - %s", cpu_type);
}
hb_log(" - logical processor count: %d", hb_get_cpu_count());
/* Print OpenCL info here so that it's in all scan and encode logs */
hb_opencl_info_print();
#ifdef USE_QSV
/* Print QSV info here so that it's in all scan and encode logs */
hb_qsv_info_print();
#endif
hb_log( "hb_scan: path=%s, title_index=%d", path, title_index );
h->scan_thread = hb_scan_init( h, &h->scan_die, path, title_index,
&h->title_set, preview_count,
store_previews, min_duration );
}
/**
* Returns the list of titles found.
* @param h Handle to hb_handle_t
* @return Handle to hb_list_t of the title list.
*/
hb_list_t * hb_get_titles( hb_handle_t * h )
{
return h->title_set.list_title;
}
hb_title_set_t * hb_get_title_set( hb_handle_t * h )
{
return &h->title_set;
}
int hb_save_preview( hb_handle_t * h, int title, int preview, hb_buffer_t *buf )
{
FILE * file;
char filename[1024];
hb_get_tempory_filename( h, filename, "%d_%d_%d",
hb_get_instance_id(h), title, preview );
file = hb_fopen(filename, "wb");
if( !file )
{
hb_error( "hb_save_preview: fopen failed (%s)", filename );
return -1;
}
int pp, hh;
for( pp = 0; pp < 3; pp++ )
{
uint8_t *data = buf->plane[pp].data;
int stride = buf->plane[pp].stride;
int w = buf->plane[pp].width;
int h = buf->plane[pp].height;
for( hh = 0; hh < h; hh++ )
{
fwrite( data, w, 1, file );
data += stride;
}
}
fclose( file );
return 0;
}
hb_buffer_t * hb_read_preview(hb_handle_t * h, hb_title_t *title, int preview)
{
FILE * file;
char filename[1024];
hb_get_tempory_filename(h, filename, "%d_%d_%d",
hb_get_instance_id(h), title->index, preview);
file = hb_fopen(filename, "rb");
if (!file)
{
hb_error( "hb_read_preview: fopen failed (%s)", filename );
return NULL;
}
hb_buffer_t * buf;
buf = hb_frame_buffer_init(AV_PIX_FMT_YUV420P,
title->geometry.width, title->geometry.height);
int pp, hh;
for (pp = 0; pp < 3; pp++)
{
uint8_t *data = buf->plane[pp].data;
int stride = buf->plane[pp].stride;
int w = buf->plane[pp].width;
int h = buf->plane[pp].height;
for (hh = 0; hh < h; hh++)
{
if (fread(data, w, 1, file) < w)
{
hb_error( "hb_read_preview: Failed to read line %d from %s" , hh, filename );
hb_buffer_close(&buf);
break;
}
data += stride;
}
}
fclose(file);
return buf;
}
hb_image_t* hb_get_preview2(hb_handle_t * h, int title_idx, int picture,
hb_geometry_settings_t *geo, int deinterlace)
{
char filename[1024];
hb_buffer_t * in_buf = NULL, * deint_buf = NULL;
hb_buffer_t * preview_buf = NULL;
uint32_t swsflags;
uint8_t * preview_data[4], * crop_data[4];
int preview_stride[4], crop_stride[4];
struct SwsContext * context;
int width = geo->geometry.width *
geo->geometry.par.num / geo->geometry.par.den;
int height = geo->geometry.height;
// Set min/max dimensions to prevent failure to initialize
// sws context and absurd sizes.
//
// This means output image size may not match requested image size!
int ww = width, hh = height;
width = MIN(MAX(width, HB_MIN_WIDTH), HB_MAX_WIDTH);
height = MIN(MAX(height * width / ww, HB_MIN_HEIGHT), HB_MAX_HEIGHT);
width = MIN(MAX(width * height / hh, HB_MIN_WIDTH), HB_MAX_WIDTH);
swsflags = SWS_LANCZOS | SWS_ACCURATE_RND;
preview_buf = hb_frame_buffer_init(AV_PIX_FMT_RGB32, width, height);
// fill in AVPicture
hb_picture_fill( preview_data, preview_stride, preview_buf );
memset( filename, 0, 1024 );
hb_title_t * title;
title = hb_find_title_by_index(h, title_idx);
if (title == NULL)
{
hb_error( "hb_get_preview2: invalid title (%d)", title_idx );
goto fail;
}
in_buf = hb_read_preview( h, title, picture );
if ( in_buf == NULL )
{
goto fail;
}
if (deinterlace)
{
// Deinterlace and crop
deint_buf = hb_frame_buffer_init( AV_PIX_FMT_YUV420P,
title->geometry.width, title->geometry.height );
hb_deinterlace(deint_buf, in_buf);
hb_picture_crop(crop_data, crop_stride, deint_buf,
geo->crop[0], geo->crop[2] );
}
else
{
// Crop
hb_picture_crop(crop_data, crop_stride, in_buf,
geo->crop[0], geo->crop[2] );
}
// Get scaling context
context = hb_sws_get_context(
title->geometry.width - (geo->crop[2] + geo->crop[3]),
title->geometry.height - (geo->crop[0] + geo->crop[1]),
AV_PIX_FMT_YUV420P, width, height, AV_PIX_FMT_RGB32, swsflags);
if (context == NULL)
{
// if by chance hb_sws_get_context fails, don't crash in sws_scale
goto fail;
}
// Scale
sws_scale(context,
(const uint8_t * const *)crop_data, crop_stride,
0, title->geometry.height - (geo->crop[0] + geo->crop[1]),
preview_data, preview_stride);
// Free context
sws_freeContext( context );
hb_image_t *image = hb_buffer_to_image(preview_buf);
// Clean up
hb_buffer_close( &in_buf );
hb_buffer_close( &deint_buf );
hb_buffer_close( &preview_buf );
return image;
fail:
hb_buffer_close( &in_buf );
hb_buffer_close( &deint_buf );
hb_buffer_close( &preview_buf );
image = hb_image_init(AV_PIX_FMT_RGB32, width, height);
return image;
}
/**
* Analyzes a frame to detect interlacing artifacts
* and returns true if interlacing (combing) is found.
*
* Code taken from Thomas Oestreich's 32detect filter
* in the Transcode project, with minor formatting changes.
*
* @param buf An hb_buffer structure holding valid frame data
* @param width The frame's width in pixels
* @param height The frame's height in pixels
* @param color_equal Sensitivity for detecting similar colors
* @param color_diff Sensitivity for detecting different colors
* @param threshold Sensitivity for flagging planes as combed
* @param prog_equal Sensitivity for detecting similar colors on progressive frames
* @param prog_diff Sensitivity for detecting different colors on progressive frames
* @param prog_threshold Sensitivity for flagging progressive frames as combed
*/
int hb_detect_comb( hb_buffer_t * buf, int color_equal, int color_diff, int threshold, int prog_equal, int prog_diff, int prog_threshold )
{
int j, k, n, off, cc_1, cc_2, cc[3];
// int flag[3] ; // debugging flag
uint16_t s1, s2, s3, s4;
cc_1 = 0; cc_2 = 0;
if ( buf->s.flags & 16 )
{
/* Frame is progressive, be more discerning. */
color_diff = prog_diff;
color_equal = prog_equal;
threshold = prog_threshold;
}
/* One pas for Y, one pass for Cb, one pass for Cr */
for( k = 0; k < 3; k++ )
{
uint8_t * data = buf->plane[k].data;
int width = buf->plane[k].width;
int stride = buf->plane[k].stride;
int height = buf->plane[k].height;
for( j = 0; j < width; ++j )
{
off = 0;
for( n = 0; n < ( height - 4 ); n = n + 2 )
{
/* Look at groups of 4 sequential horizontal lines */
s1 = ( ( data )[ off + j ] & 0xff );
s2 = ( ( data )[ off + j + stride ] & 0xff );
s3 = ( ( data )[ off + j + 2 * stride ] & 0xff );
s4 = ( ( data )[ off + j + 3 * stride ] & 0xff );
/* Note if the 1st and 2nd lines are more different in
color than the 1st and 3rd lines are similar in color.*/
if ( ( abs( s1 - s3 ) < color_equal ) &&
( abs( s1 - s2 ) > color_diff ) )
++cc_1;
/* Note if the 2nd and 3rd lines are more different in
color than the 2nd and 4th lines are similar in color.*/
if ( ( abs( s2 - s4 ) < color_equal ) &&
( abs( s2 - s3 ) > color_diff) )
++cc_2;
/* Now move down 2 horizontal lines before starting over.*/
off += 2 * stride;
}
}
// compare results
/* The final cc score for a plane is the percentage of combed pixels it contains.
Because sensitivity goes down to hundreths of a percent, multiply by 1000
so it will be easy to compare against the threhold value which is an integer. */
cc[k] = (int)( ( cc_1 + cc_2 ) * 1000.0 / ( width * height ) );
}
/* HandBrake is all yuv420, so weight the average percentage of all 3 planes accordingly.*/
int average_cc = ( 2 * cc[0] + ( cc[1] / 2 ) + ( cc[2] / 2 ) ) / 3;
/* Now see if that average percentage of combed pixels surpasses the threshold percentage given by the user.*/
if( average_cc > threshold )
{
#if 0
hb_log("Average %i combed (Threshold %i) %i/%i/%i | PTS: %"PRId64" (%fs) %s", average_cc, threshold, cc[0], cc[1], cc[2], buf->start, (float)buf->start / 90000, (buf->flags & 16) ? "Film" : "Video" );
#endif
return 1;
}
#if 0
hb_log("SKIPPED Average %i combed (Threshold %i) %i/%i/%i | PTS: %"PRId64" (%fs) %s", average_cc, threshold, cc[0], cc[1], cc[2], buf->start, (float)buf->start / 90000, (buf->flags & 16) ? "Film" : "Video" );
#endif
/* Reaching this point means no combing detected. */
return 0;
}
/**
* Calculates destination width and height for anamorphic content
*
* Returns calculated geometry
* @param source_geometry - Pointer to source geometry info
* @param geometry - Pointer to requested destination parameters
*/
void hb_set_anamorphic_size2(hb_geometry_t *src_geo,
hb_geometry_settings_t *geo,
hb_geometry_t *result)
{
hb_rational_t in_par, out_par;
int keep_display_aspect = !!(geo->keep & HB_KEEP_DISPLAY_ASPECT);
int keep_height = !!(geo->keep & HB_KEEP_HEIGHT);
/* Set up some variables to make the math easier to follow. */
int cropped_width = src_geo->width - geo->crop[2] - geo->crop[3];
int cropped_height = src_geo->height - geo->crop[0] - geo->crop[1];
double storage_aspect = (double)cropped_width / cropped_height;
int mod = geo->modulus ? EVEN(geo->modulus) : 2;
// Sanitize PAR
if (geo->geometry.par.num == 0 || geo->geometry.par.den == 0)
{
geo->geometry.par.num = geo->geometry.par.den = 1;
}
if (src_geo->par.num == 0 || src_geo->par.den == 0)
{
src_geo->par.num = src_geo->par.den = 1;
}
// Use 64 bits to avoid overflow till the final hb_reduce() call
hb_reduce(&in_par.num, &in_par.den,
geo->geometry.par.num, geo->geometry.par.den);
int64_t dst_par_num = in_par.num;
int64_t dst_par_den = in_par.den;
hb_rational_t src_par = src_geo->par;
/* If a source was really NTSC or PAL and the user specified ITU PAR
values, replace the standard PAR values with the ITU broadcast ones. */
if (src_geo->width == 720 && geo->itu_par)
{
// convert aspect to a scaled integer so we can test for 16:9 & 4:3
// aspect ratios ignoring insignificant differences in the LSBs of
// the floating point representation.
int iaspect = src_geo->width * src_par.num * 9. /
(src_geo->height * src_par.den);
/* Handle ITU PARs */
if (src_geo->height == 480)
{
/* It's NTSC */
if (iaspect == 16)
{
/* It's widescreen */
dst_par_num = 40;
dst_par_den = 33;
}
else if (iaspect == 12)
{
/* It's 4:3 */
dst_par_num = 10;
dst_par_den = 11;
}
}
else if (src_geo->height == 576)
{
/* It's PAL */
if (iaspect == 16)
{
/* It's widescreen */
dst_par_num = 16;
dst_par_den = 11;
}
else if (iaspect == 12)
{
/* It's 4:3 */
dst_par_num = 12;
dst_par_den = 11;
}
}
}
/*
3 different ways of deciding output dimensions:
- 1: Strict anamorphic, preserve source dimensions
- 2: Loose anamorphic, round to mod16 and preserve storage aspect ratio
- 3: Power user anamorphic, specify everything
*/
int width, height;
int maxWidth, maxHeight;
if (geo->maxWidth > 0)
{
maxWidth = MIN(MAX(MULTIPLE_MOD_DOWN(geo->maxWidth, mod),
HB_MIN_WIDTH), HB_MAX_WIDTH);
}
else
{
maxWidth = HB_MAX_WIDTH;
}
if (geo->maxHeight > 0)
{
maxHeight = MIN(MAX(MULTIPLE_MOD_DOWN(geo->maxHeight, mod),
HB_MIN_HEIGHT), HB_MAX_HEIGHT);
}
else
{
maxHeight = HB_MAX_HEIGHT;
}
switch (geo->mode)
{
case HB_ANAMORPHIC_NONE:
{
double par, cropped_sar, dar;
par = (double)src_geo->par.num / src_geo->par.den;
cropped_sar = (double)cropped_width / cropped_height;
dar = par * cropped_sar;
/* "None" anamorphic. a.k.a. non-anamorphic
* - Uses mod-compliant dimensions, set by user
* - Allows users to set the either width *or* height
*/
if (keep_display_aspect)
{
if (!keep_height)
{
width = MULTIPLE_MOD_UP(geo->geometry.width, mod);
height = MULTIPLE_MOD(width / dar, mod);
}
else
{
height = MULTIPLE_MOD_UP(geo->geometry.height, mod);
width = MULTIPLE_MOD(height * dar, mod);
}
}
else
{
width = MULTIPLE_MOD_UP(geo->geometry.width, mod);
height = MULTIPLE_MOD_UP(geo->geometry.height, mod);
}
// Limit to min/max dimensions
if (width < HB_MIN_WIDTH)
{
width = HB_MIN_WIDTH;
if (keep_display_aspect)
{
height = MULTIPLE_MOD(width / dar, mod);
}
}
if (height < HB_MIN_HEIGHT)
{
height = HB_MIN_HEIGHT;
if (keep_display_aspect)
{
width = MULTIPLE_MOD(height * dar, mod);
}
}
if (width > maxWidth)
{
width = maxWidth;
if (keep_display_aspect)
{
height = MULTIPLE_MOD(width / dar, mod);
}
}
if (height > maxHeight)
{
height = maxHeight;
if (keep_display_aspect)
{
width = MULTIPLE_MOD(height * dar, mod);
}
}
dst_par_num = dst_par_den = 1;
} break;
default:
case HB_ANAMORPHIC_STRICT:
{
/* "Strict" anamorphic.
* - Uses mod2-compliant dimensions,
* - Forces title - crop dimensions
*/
width = MULTIPLE_MOD_UP(cropped_width, 2);
height = MULTIPLE_MOD_UP(cropped_height, 2);
/* Adjust the output PAR for new width/height
* Film AR is the source display width / cropped source height.
* Output display width is the output height * film AR.
* Output PAR is the output display width / output storage width.
*
* i.e.
* source_display_width = cropped_width * source PAR
* AR = source_display_width / cropped_height;
* output_display_width = height * AR;
* par = output_display_width / width;
*
* When these terms are reduced, you get the following...
*/
dst_par_num = (int64_t)height * cropped_width * src_par.num;
dst_par_den = (int64_t)width * cropped_height * src_par.den;
} break;
case HB_ANAMORPHIC_LOOSE:
{
/* "Loose" anamorphic.
* - Uses mod-compliant dimensions, set by user
* - Allows users to set the either width *or* height
*/
if (!keep_height)
{
width = MULTIPLE_MOD_UP(geo->geometry.width, mod);
height = MULTIPLE_MOD_UP(width / storage_aspect + 0.5, mod);
}
else
{
height = MULTIPLE_MOD_UP(geo->geometry.height, mod);
width = MULTIPLE_MOD_UP(height * storage_aspect + 0.5, mod);
}
// Limit to min/max dimensions
if (width < HB_MIN_WIDTH)
{
width = HB_MIN_WIDTH;
height = MULTIPLE_MOD(width / storage_aspect + 0.5, mod);
}
if (height < HB_MIN_HEIGHT)
{
height = HB_MIN_HEIGHT;
width = MULTIPLE_MOD(height * storage_aspect + 0.5, mod);
}
if (width > maxWidth)
{
width = maxWidth;
height = MULTIPLE_MOD(width / storage_aspect + 0.5, mod);
}
if (height > maxHeight)
{
height = maxHeight;
width = MULTIPLE_MOD(height * storage_aspect + 0.5, mod);
}
/* Adjust the output PAR for new width/height
See comment in HB_ANAMORPHIC_STRICT */
dst_par_num = (int64_t)height * cropped_width * src_par.num;
dst_par_den = (int64_t)width * cropped_height * src_par.den;
} break;
case HB_ANAMORPHIC_CUSTOM:
{
/* Anamorphic 3: Power User Jamboree
- Set everything based on specified values */
/* Time to get picture dimensions that divide cleanly.*/
width = MULTIPLE_MOD_UP(geo->geometry.width, mod);
height = MULTIPLE_MOD_UP(geo->geometry.height, mod);
// Limit to min/max dimensions
if (width < HB_MIN_WIDTH)
{
width = HB_MIN_WIDTH;
}
if (height < HB_MIN_HEIGHT)
{
height = HB_MIN_HEIGHT;
}
if (width > maxWidth)
{
width = maxWidth;
}
if (height > maxHeight)
{
height = maxHeight;
}
if (keep_display_aspect)
{
/* We can ignore the possibility of a PAR change
* Adjust the output PAR for new width/height
* See comment in HB_ANAMORPHIC_STRICT
*/
dst_par_num = (int64_t)height * cropped_width *
src_par.num;
dst_par_den = (int64_t)width * cropped_height *
src_par.den;
}
} break;
}
if (width < HB_MIN_WIDTH || height < HB_MIN_HEIGHT ||
width > maxWidth || height > maxHeight)
{
// All limits set above also attempted to keep PAR and DAR.
// If we are still outside limits, enforce them and modify
// PAR to keep DAR
if (width < HB_MIN_WIDTH)
{
width = HB_MIN_WIDTH;
}
if (height < HB_MIN_HEIGHT)
{
height = HB_MIN_HEIGHT;
}
if (width > maxWidth)
{
width = maxWidth;
}
if (height > maxHeight)
{
height = maxHeight;
}
if (keep_display_aspect && geo->mode != HB_ANAMORPHIC_NONE)
{
dst_par_num = (int64_t)height * cropped_width * src_par.num;
dst_par_den = (int64_t)width * cropped_height * src_par.den;
}
}
/* Pass the results back to the caller */
result->width = width;
result->height = height;
/* While x264 is smart enough to reduce fractions on its own, libavcodec
* needs some help with the math, so lose superfluous factors. */
hb_limit_rational64(&dst_par_num, &dst_par_den,
dst_par_num, dst_par_den, 65535);
// If the user is directling updating PAR, don't override his values.
// I.e. don't even reduce the values.
hb_reduce(&out_par.num, &out_par.den, dst_par_num, dst_par_den);
if (geo->mode == HB_ANAMORPHIC_CUSTOM && !keep_display_aspect &&
out_par.num == in_par.num && out_par.den == in_par.den)
{
result->par.num = geo->geometry.par.num;
result->par.den = geo->geometry.par.den;
}
else
{
hb_reduce(&result->par.num, &result->par.den, dst_par_num, dst_par_den);
}
}
/**
* Add a filter to a jobs filter list
*
* @param job Handle to hb_job_t
* @param settings to give the filter
*/
void hb_add_filter2( hb_value_array_t * list, hb_dict_t * filter_dict )
{
int new_id = hb_dict_get_int(filter_dict, "ID");
hb_filter_object_t * filter = hb_filter_get(new_id);
if (filter == NULL)
{
hb_error("hb_add_filter2: Invalid filter ID %d", new_id);
hb_value_free(&filter_dict);
return;
}
if (filter->enforce_order)
{
// Find the position in the filter chain this filter belongs in
int ii, len;
len = hb_value_array_len(list);
for( ii = 0; ii < len; ii++ )
{
hb_value_t * f = hb_value_array_get(list, ii);
int id = hb_dict_get_int(f, "ID");
if (id > new_id)
{
hb_value_array_insert(list, ii, filter_dict);
return;
}
else if ( id == new_id )
{
// Don't allow the same filter to be added twice
hb_value_free(&filter_dict);
return;
}
}
}
// No position found or order not enforced for this filter
hb_value_array_append(list, filter_dict);
}
/**
* Add a filter to a jobs filter list
*
* @param job Handle to hb_job_t
* @param settings to give the filter
*/
void hb_add_filter_dict( hb_job_t * job, hb_filter_object_t * filter,
const hb_dict_t * settings_in )
{
hb_dict_t * settings;
// Always set filter->settings to a valid hb_dict_t
if (settings_in == NULL)
{
settings = hb_dict_init();
}
else
{
settings = hb_value_dup(settings_in);
}
filter->settings = settings;
if( filter->enforce_order )
{
// Find the position in the filter chain this filter belongs in
int i;
for( i = 0; i < hb_list_count( job->list_filter ); i++ )
{
hb_filter_object_t * f = hb_list_item( job->list_filter, i );
if( f->id > filter->id )
{
hb_list_insert( job->list_filter, i, filter );
return;
}
else if( f->id == filter->id )
{
// Don't allow the same filter to be added twice
hb_filter_close( &filter );
return;
}
}
}
// No position found or order not enforced for this filter
hb_list_add( job->list_filter, filter );
}
/**
* Add a filter to a jobs filter list
*
* @param job Handle to hb_job_t
* @param settings to give the filter
*/
void hb_add_filter( hb_job_t * job, hb_filter_object_t * filter,
const char * settings_in )
{
hb_dict_t * settings = hb_parse_filter_settings(settings_in);
if (settings_in != NULL && settings == NULL)
{
hb_log("hb_add_filter: failed to parse filter settings!");
return;
}
hb_add_filter_dict(job, filter, settings);
hb_value_free(&settings);
}
/**
* Returns the number of jobs in the queue.
* @param h Handle to hb_handle_t.
* @return Number of jobs.
*/
int hb_count( hb_handle_t * h )
{
return hb_list_count( h->jobs );
}
/**
* Returns handle to job at index i within the job list.
* @param h Handle to hb_handle_t.
* @param i Index of job.
* @returns Handle to hb_job_t of desired job.
*/
hb_job_t * hb_job( hb_handle_t * h, int i )
{
return hb_list_item( h->jobs, i );
}
hb_job_t * hb_current_job( hb_handle_t * h )
{
return( h->current_job );
}
/**
* Adds a job to the job list.
* @param h Handle to hb_handle_t.
* @param job Handle to hb_job_t.
*/
static void hb_add_internal( hb_handle_t * h, hb_job_t * job, hb_list_t *list_pass )
{
hb_job_t * job_copy;
hb_audio_t * audio;
hb_subtitle_t * subtitle;
int i;
char audio_lang[4];
/* Copy the job */
job_copy = calloc( sizeof( hb_job_t ), 1 );
memcpy(job_copy, job, sizeof(hb_job_t));
job_copy->json = NULL;
job_copy->encoder_preset = NULL;
job_copy->encoder_tune = NULL;
job_copy->encoder_profile = NULL;
job_copy->encoder_level = NULL;
job_copy->encoder_options = NULL;
job_copy->file = NULL;
job_copy->list_chapter = NULL;
job_copy->list_audio = NULL;
job_copy->list_subtitle = NULL;
job_copy->list_filter = NULL;
job_copy->list_attachment = NULL;
job_copy->metadata = NULL;
/* If we're doing Foreign Audio Search, copy all subtitles matching the
* first audio track language we find in the audio list.
*
* Otherwise, copy all subtitles found in the input job (which can be
* manually selected by the user, or added after the Foreign Audio
* Search pass). */
memset( audio_lang, 0, sizeof( audio_lang ) );
if( job->indepth_scan )
{
/* Find the first audio language that is being encoded, then add all the
* matching subtitles for that language. */
for( i = 0; i < hb_list_count( job->list_audio ); i++ )
{
if( ( audio = hb_list_item( job->list_audio, i ) ) )
{
strncpy( audio_lang, audio->config.lang.iso639_2, sizeof( audio_lang ) );
break;
}
}
/*
* If doing a subtitle scan then add all the matching subtitles for this
* language.
*/
job_copy->list_subtitle = hb_list_init();
for( i = 0; i < hb_list_count( job->title->list_subtitle ); i++ )
{
subtitle = hb_list_item( job->title->list_subtitle, i );
if( strcmp( subtitle->iso639_2, audio_lang ) == 0 &&
hb_subtitle_can_force( subtitle->source ) )
{
/* Matched subtitle language with audio language, so add this to
* our list to scan.
*
* We will update the subtitle list on the next pass later, after
* the subtitle scan pass has completed. */
hb_list_add( job_copy->list_subtitle,
hb_subtitle_copy( subtitle ) );
}
}
int count = hb_list_count(job_copy->list_subtitle);
if (count == 0 ||
(count == 1 && !job_copy->select_subtitle_config.force))
{
hb_log("Skipping subtitle scan. No suitable subtitle tracks.");
hb_job_close(&job_copy);
return;
}
}
else
{
/* Copy all subtitles from the input job to title_copy/job_copy. */
job_copy->list_subtitle = hb_subtitle_list_copy( job->list_subtitle );
}
job_copy->list_chapter = hb_chapter_list_copy( job->list_chapter );
job_copy->list_audio = hb_audio_list_copy( job->list_audio );
job_copy->list_attachment = hb_attachment_list_copy( job->list_attachment );
job_copy->metadata = hb_metadata_copy( job->metadata );
if (job->encoder_preset != NULL)
job_copy->encoder_preset = strdup(job->encoder_preset);
if (job->encoder_tune != NULL)
job_copy->encoder_tune = strdup(job->encoder_tune);
if (job->encoder_options != NULL)
job_copy->encoder_options = strdup(job->encoder_options);
if (job->encoder_profile != NULL)
job_copy->encoder_profile = strdup(job->encoder_profile);
if (job->encoder_level != NULL)
job_copy->encoder_level = strdup(job->encoder_level);
if (job->file != NULL)
job_copy->file = strdup(job->file);
job_copy->h = h;
/* Copy the job filter list */
job_copy->list_filter = hb_filter_list_copy( job->list_filter );
/* Add the job to the list */
hb_list_add( list_pass, job_copy );
}
hb_job_t* hb_job_copy(hb_job_t * job)
{
hb_job_t * job_copy;
/* Copy the job */
job_copy = calloc( sizeof( hb_job_t ), 1 );
if (job_copy == NULL)
return NULL;
if (job->json != NULL)
{
// JSON jobs should only have the json string set.
job_copy->json = strdup(job->json);
return job_copy;
}
memcpy( job_copy, job, sizeof( hb_job_t ) );
job_copy->list_subtitle = hb_subtitle_list_copy( job->list_subtitle );
job_copy->list_chapter = hb_chapter_list_copy( job->list_chapter );
job_copy->list_audio = hb_audio_list_copy( job->list_audio );
job_copy->list_attachment = hb_attachment_list_copy( job->list_attachment );
job_copy->metadata = hb_metadata_copy( job->metadata );
if (job->encoder_preset != NULL)
job_copy->encoder_preset = strdup(job->encoder_preset);
if (job->encoder_tune != NULL)
job_copy->encoder_tune = strdup(job->encoder_tune);
if (job->encoder_options != NULL)
job_copy->encoder_options = strdup(job->encoder_options);
if (job->encoder_profile != NULL)
job_copy->encoder_profile = strdup(job->encoder_profile);
if (job->encoder_level != NULL)
job_copy->encoder_level = strdup(job->encoder_level);
if (job->file != NULL)
job_copy->file = strdup(job->file);
job_copy->list_filter = hb_filter_list_copy( job->list_filter );
return job_copy;
}
int hb_add( hb_handle_t * h, hb_job_t * job )
{
hb_job_t *job_copy = hb_job_copy(job);
job_copy->h = h;
job_copy->sequence_id = ++h->sequence_id;
hb_list_add(h->jobs, job_copy);
return job_copy->sequence_id;
}
void hb_job_setup_passes(hb_handle_t * h, hb_job_t * job, hb_list_t * list_pass)
{
if (job->vquality > HB_INVALID_VIDEO_QUALITY)
{
job->twopass = 0;
}
if (job->indepth_scan)
{
hb_deep_log(2, "Adding subtitle scan pass");
job->pass_id = HB_PASS_SUBTITLE;
hb_add_internal(h, job, list_pass);
job->indepth_scan = 0;
}
if (job->twopass)
{
hb_deep_log(2, "Adding two-pass encode");
job->pass_id = HB_PASS_ENCODE_1ST;
hb_add_internal(h, job, list_pass);
job->pass_id = HB_PASS_ENCODE_2ND;
hb_add_internal(h, job, list_pass);
}
else
{
job->pass_id = HB_PASS_ENCODE;
hb_add_internal(h, job, list_pass);
}
}
/**
* Removes a job from the job list.
* @param h Handle to hb_handle_t.
* @param job Handle to hb_job_t.
*/
void hb_rem( hb_handle_t * h, hb_job_t * job )
{
hb_list_rem( h->jobs, job );
}
/**
* Starts the conversion process.
* Sets state to HB_STATE_WORKING.
* calls hb_work_init, to launch work thread. Stores handle to work thread.
* @param h Handle to hb_handle_t.
*/
void hb_start( hb_handle_t * h )
{
hb_lock( h->state_lock );
h->state.state = HB_STATE_WORKING;
#define p h->state.param.working
p.progress = 0.0;
p.rate_cur = 0.0;
p.rate_avg = 0.0;
p.hours = -1;
p.minutes = -1;
p.seconds = -1;
p.sequence_id = 0;
#undef p
hb_unlock( h->state_lock );
h->paused = 0;
h->work_die = 0;
h->work_error = HB_ERROR_NONE;
h->work_thread = hb_work_init( h->jobs, &h->work_die, &h->work_error, &h->current_job );
}
/**
* Pauses the conversion process.
* @param h Handle to hb_handle_t.
*/
void hb_pause( hb_handle_t * h )
{
if( !h->paused )
{
hb_lock( h->pause_lock );
h->paused = 1;
hb_current_job( h )->st_pause_date = hb_get_date();
hb_lock( h->state_lock );
h->state.state = HB_STATE_PAUSED;
hb_unlock( h->state_lock );
}
}
/**
* Resumes the conversion process.
* @param h Handle to hb_handle_t.
*/
void hb_resume( hb_handle_t * h )
{
if( h->paused )
{
#define job hb_current_job( h )
if( job->st_pause_date != -1 )
{
job->st_paused += hb_get_date() - job->st_pause_date;
}
#undef job
hb_unlock( h->pause_lock );
h->paused = 0;
}
}
/**
* Stops the conversion process.
* @param h Handle to hb_handle_t.
*/
void hb_stop( hb_handle_t * h )
{
h->work_die = 1;
hb_resume( h );
}
/**
* Stops the conversion process.
* @param h Handle to hb_handle_t.
*/
void hb_scan_stop( hb_handle_t * h )
{
h->scan_die = 1;
hb_resume( h );
}
/**
* Returns the state of the conversion process.
* @param h Handle to hb_handle_t.
* @param s Handle to hb_state_t which to copy the state data.
*/
void hb_get_state( hb_handle_t * h, hb_state_t * s )
{
hb_lock( h->state_lock );
memcpy( s, &h->state, sizeof( hb_state_t ) );
if ( h->state.state == HB_STATE_SCANDONE || h->state.state == HB_STATE_WORKDONE )
h->state.state = HB_STATE_IDLE;
hb_unlock( h->state_lock );
}
void hb_get_state2( hb_handle_t * h, hb_state_t * s )
{
hb_lock( h->state_lock );
memcpy( s, &h->state, sizeof( hb_state_t ) );
hb_unlock( h->state_lock );
}
/**
* Closes access to libhb by freeing the hb_handle_t handle ontained in hb_init.
* @param _h Pointer to handle to hb_handle_t.
*/
void hb_close( hb_handle_t ** _h )
{
hb_handle_t * h = *_h;
hb_title_t * title;
h->die = 1;
hb_thread_close( &h->main_thread );
while( ( title = hb_list_item( h->title_set.list_title, 0 ) ) )
{
hb_list_rem( h->title_set.list_title, title );
hb_title_close( &title );
}
hb_list_close( &h->title_set.list_title );
hb_list_close( &h->jobs );
hb_lock_close( &h->state_lock );
hb_lock_close( &h->pause_lock );
hb_system_sleep_opaque_close(&h->system_sleep_opaque);
free( h->interjob );
free( h );
*_h = NULL;
}
int hb_global_init()
{
int result = 0;
result = hb_platform_init();
if (result < 0)
{
hb_error("Platform specific initialization failed!");
return -1;
}
#ifdef USE_QSV
result = hb_qsv_info_init();
if (result < 0)
{
hb_error("hb_qsv_info_init failed!");
return -1;
}
hb_param_configure_qsv();
#endif
/* libavcodec */
hb_avcodec_init();
/* HB work objects */
hb_register(&hb_muxer);
hb_register(&hb_reader);
hb_register(&hb_sync_video);
hb_register(&hb_sync_audio);
hb_register(&hb_sync_subtitle);
hb_register(&hb_decavcodecv);
hb_register(&hb_decavcodeca);
hb_register(&hb_declpcm);
hb_register(&hb_deccc608);
hb_register(&hb_decpgssub);
hb_register(&hb_decsrtsub);
hb_register(&hb_decssasub);
hb_register(&hb_dectx3gsub);
hb_register(&hb_decutf8sub);
hb_register(&hb_decvobsub);
hb_register(&hb_encvobsub);
hb_register(&hb_encavcodec);
hb_register(&hb_encavcodeca);
#ifdef __APPLE__
hb_register(&hb_encca_aac);
hb_register(&hb_encca_haac);
#endif
hb_register(&hb_enctheora);
hb_register(&hb_encvorbis);
hb_register(&hb_encx264);
#ifdef USE_X265
hb_register(&hb_encx265);
#endif
#ifdef USE_QSV
hb_register(&hb_encqsv);
#endif
hb_x264_global_init();
hb_common_global_init();
/*
* Initialise buffer pool
*/
hb_buffer_pool_init();
// Initialize the builtin presets hb_dict_t
hb_presets_builtin_init();
return result;
}
/**
* Cleans up libhb at a process level. Call before the app closes. Removes preview directory.
*/
void hb_global_close()
{
char dirname[1024];
DIR * dir;
struct dirent * entry;
hb_presets_free();
/* OpenCL library (dynamically loaded) */
hb_ocl_close();
/* Find and remove temp folder */
memset( dirname, 0, 1024 );
hb_get_temporary_directory( dirname );
dir = opendir( dirname );
if (dir)
{
while( ( entry = readdir( dir ) ) )
{
char filename[1024];
if( entry->d_name[0] == '.' )
{
continue;
}
memset( filename, 0, 1024 );
snprintf( filename, 1023, "%s/%s", dirname, entry->d_name );
unlink( filename );
}
closedir( dir );
rmdir( dirname );
}
}
/**
* Monitors the state of the update, scan, and work threads.
* Sets scan done state when scan thread exits.
* Sets work done state when work thread exits.
* @param _h Handle to hb_handle_t
*/
static void thread_func( void * _h )
{
hb_handle_t * h = (hb_handle_t *) _h;
char dirname[1024];
h->pid = getpid();
/* Create folder for temporary files */
memset( dirname, 0, 1024 );
hb_get_temporary_directory( dirname );
hb_mkdir( dirname );
while( !h->die )
{
/* Check if the scan thread is done */
if( h->scan_thread &&
hb_thread_has_exited( h->scan_thread ) )
{
hb_thread_close( &h->scan_thread );
if ( h->scan_die )
{
hb_title_t * title;
hb_remove_previews( h );
while( ( title = hb_list_item( h->title_set.list_title, 0 ) ) )
{
hb_list_rem( h->title_set.list_title, title );
hb_title_close( &title );
}
hb_log( "hb_scan: canceled" );
}
else
{
hb_log( "libhb: scan thread found %d valid title(s)",
hb_list_count( h->title_set.list_title ) );
}
hb_lock( h->state_lock );
h->state.state = HB_STATE_SCANDONE; //originally state.state
hb_unlock( h->state_lock );
/*we increment this sessions scan count by one for the MacGui
to trigger a new source being set */
h->scanCount++;
}
/* Check if the work thread is done */
if( h->work_thread &&
hb_thread_has_exited( h->work_thread ) )
{
hb_thread_close( &h->work_thread );
hb_log( "libhb: work result = %d",
h->work_error );
hb_lock( h->state_lock );
h->state.state = HB_STATE_WORKDONE;
h->state.param.workdone.error = h->work_error;
hb_unlock( h->state_lock );
}
hb_snooze( 50 );
}
if( h->scan_thread )
{
hb_scan_stop( h );
hb_thread_close( &h->scan_thread );
}
if( h->work_thread )
{
hb_stop( h );
hb_thread_close( &h->work_thread );
}
hb_remove_previews( h );
}
/**
* Redirects stderr to the registered callback
* function.
* @param _data Unused.
*/
static void redirect_thread_func(void * _data)
{
int pfd[2];
if (pipe(pfd))
return;
#if defined( SYS_MINGW )
// dup2 doesn't work on windows for some stupid reason
stderr->_file = pfd[1];
#else
dup2(pfd[1], /*stderr*/ 2);
#endif
FILE * log_f = fdopen(pfd[0], "rb");
char line_buffer[500];
while(fgets(line_buffer, 500, log_f) != NULL)
{
hb_log_callback(line_buffer);
}
}
/**
* Returns the PID.
* @param h Handle to hb_handle_t
*/
int hb_get_pid( hb_handle_t * h )
{
return h->pid;
}
/**
* Returns the id for the given instance.
* @param h Handle to hb_handle_t
* @returns The ID for the given instance
*/
int hb_get_instance_id( hb_handle_t * h )
{
return h->id;
}
/**
* Sets the current state.
* @param h Handle to hb_handle_t
* @param s Handle to new hb_state_t
*/
void hb_set_state( hb_handle_t * h, hb_state_t * s )
{
hb_lock( h->pause_lock );
hb_lock( h->state_lock );
memcpy( &h->state, s, sizeof( hb_state_t ) );
if( h->state.state == HB_STATE_WORKING ||
h->state.state == HB_STATE_SEARCHING )
{
// Set which job is being worked on
if (h->current_job)
h->state.param.working.sequence_id = h->current_job->sequence_id;
else
h->state.param.working.sequence_id = 0;
}
hb_unlock( h->state_lock );
hb_unlock( h->pause_lock );
}
void hb_set_work_error( hb_handle_t * h, hb_error_code err )
{
h->work_error = err;
}
void hb_system_sleep_allow(hb_handle_t *h)
{
hb_system_sleep_private_enable(h->system_sleep_opaque);
}
void hb_system_sleep_prevent(hb_handle_t *h)
{
hb_system_sleep_private_disable(h->system_sleep_opaque);
}
/* Passes a pointer to persistent data */
hb_interjob_t * hb_interjob_get( hb_handle_t * h )
{
return h->interjob;
}
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