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/*
* GStreamer
* Copyright ( C ) 2011 Robert Swain < robert . swain @ collabora . co . uk >
*
* Permission is hereby granted , free of charge , to any person obtaining a
* copy of this software and associated documentation files ( the " Software " ) ,
* to deal in the Software without restriction , including without limitation
* the rights to use , copy , modify , merge , publish , distribute , sublicense ,
* and / or sell copies of the Software , and to permit persons to whom the
* Software is furnished to do so , subject to the following conditions :
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software .
*
* THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
* IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
* LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING
* FROM , OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE .
*
* Alternatively , the contents of this file may be used under the
* GNU Lesser General Public License Version 2.1 ( the " LGPL " ) , in
* which case the following provisions apply instead of the ones
* mentioned above :
*
* This library is free software ; you can redistribute it and / or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation ; either
* version 2 of the License , or ( at your option ) any later version .
*
* This library is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the GNU
* Library General Public License for more details .
*
* You should have received a copy of the GNU Library General Public
* License along with this library ; if not , write to the
* Free Software Foundation , Inc . , 59 Temple Place - Suite 330 ,
* Boston , MA 02111 - 1307 , USA .
*/
/**
* SECTION : element - fieldanalysis
*
* Analyse fields from video buffers to identify whether the buffers are
* progressive / telecined / interlaced and , if telecined , the telecine pattern
* used .
*
* < refsect2 >
* < title > Example launch line < / title >
* | [
* gst - launch - v uridecodebin uri = / path / to / foo . bar ! fieldanalysis ! deinterlace ! ffmpegcolorspace ! autovideosink
* ] | This pipeline will analyse a video stream with default metrics and thresholds and output progressive frames .
* < / refsect2 >
*/
# ifdef HAVE_CONFIG_H
# include <config.h>
# endif
# include <gst/gst.h>
# include <gst/video/video.h>
# include <string.h>
# include <stdlib.h> /* for abs() */
# include "gstfieldanalysis.h"
# include "gstfieldanalysisorc.h"
GST_DEBUG_CATEGORY_STATIC ( gst_field_analysis_debug ) ;
# define GST_CAT_DEFAULT gst_field_analysis_debug
# define DEFAULT_FIELD_METRIC GST_FIELDANALYSIS_SSD
# define DEFAULT_FRAME_METRIC GST_FIELDANALYSIS_5_TAP
# define DEFAULT_NOISE_FLOOR 16
# define DEFAULT_FIELD_THRESH 0.08f
# define DEFAULT_FRAME_THRESH 0.002f
# define DEFAULT_COMB_METHOD METHOD_5_TAP
# define DEFAULT_SPATIAL_THRESH 9
# define DEFAULT_BLOCK_WIDTH 16
# define DEFAULT_BLOCK_HEIGHT 16
# define DEFAULT_BLOCK_THRESH 80
# define DEFAULT_IGNORED_LINES 2
enum
{
PROP_0 ,
PROP_FIELD_METRIC ,
PROP_FRAME_METRIC ,
PROP_NOISE_FLOOR ,
PROP_FIELD_THRESH ,
PROP_FRAME_THRESH ,
PROP_COMB_METHOD ,
PROP_SPATIAL_THRESH ,
PROP_BLOCK_WIDTH ,
PROP_BLOCK_HEIGHT ,
PROP_BLOCK_THRESH ,
PROP_IGNORED_LINES
} ;
static GstStaticPadTemplate sink_factory =
GST_STATIC_PAD_TEMPLATE ( " sink " , GST_PAD_SINK , GST_PAD_ALWAYS ,
GST_STATIC_CAPS ( GST_VIDEO_CAPS_YUV ( " {YUY2,UYVY,I420,YV12} " ) ) ) ;
static GstStaticPadTemplate src_factory =
GST_STATIC_PAD_TEMPLATE ( " src " , GST_PAD_SRC , GST_PAD_ALWAYS ,
GST_STATIC_CAPS ( GST_VIDEO_CAPS_YUV ( " {YUY2,UYVY,I420,YV12} " ) ) ) ;
GST_BOILERPLATE ( GstFieldAnalysis , gst_field_analysis , GstElement ,
GST_TYPE_ELEMENT ) ;
static void gst_field_analysis_set_property ( GObject * object , guint prop_id ,
const GValue * value , GParamSpec * pspec ) ;
static void gst_field_analysis_get_property ( GObject * object , guint prop_id ,
GValue * value , GParamSpec * pspec ) ;
static gboolean gst_field_analysis_set_caps ( GstPad * pad , GstCaps * caps ) ;
static gboolean gst_field_analysis_sink_event ( GstPad * pad , GstEvent * event ) ;
static GstFlowReturn gst_field_analysis_chain ( GstPad * pad , GstBuffer * buf ) ;
static GstStateChangeReturn gst_field_analysis_change_state ( GstElement *
element , GstStateChange transition ) ;
static void gst_field_analysis_finalize ( GObject * self ) ;
static GQueue * gst_field_analysis_flush_queue ( GstFieldAnalysis * filter ,
GQueue * queue ) ;
static void
gst_field_analysis_base_init ( gpointer gclass )
{
GstElementClass * element_class = GST_ELEMENT_CLASS ( gclass ) ;
gst_element_class_set_details_simple ( element_class ,
" Video field analysis " ,
" Filter/Analysis/Video " ,
" Analyse fields from video frames to identify if they are progressive/telecined/interlaced " ,
" Robert Swain <robert.swain@collabora.co.uk> " ) ;
gst_element_class_add_pad_template ( element_class ,
gst_static_pad_template_get ( & src_factory ) ) ;
gst_element_class_add_pad_template ( element_class ,
gst_static_pad_template_get ( & sink_factory ) ) ;
}
typedef enum
{
GST_FIELDANALYSIS_SAD ,
GST_FIELDANALYSIS_SSD ,
GST_FIELDANALYSIS_3_TAP
} GstFieldAnalysisFieldMetric ;
# define GST_TYPE_FIELDANALYSIS_FIELD_METRIC (gst_fieldanalysis_field_metric_get_type())
static GType
gst_fieldanalysis_field_metric_get_type ( void )
{
static GType fieldanalysis_field_metric_type = 0 ;
if ( ! fieldanalysis_field_metric_type ) {
static const GEnumValue fieldanalysis_field_metrics [ ] = {
{ GST_FIELDANALYSIS_SAD , " Sum of Absolute Differences " , " sad " } ,
{ GST_FIELDANALYSIS_SSD , " Sum of Squared Differences " , " ssd " } ,
{ GST_FIELDANALYSIS_3_TAP , " Difference of 3-tap [1,4,1] Horizontal Filter " ,
" 3-tap " } ,
{ 0 , NULL , NULL } ,
} ;
fieldanalysis_field_metric_type =
g_enum_register_static ( " GstFieldAnalysisFieldMetric " ,
fieldanalysis_field_metrics ) ;
}
return fieldanalysis_field_metric_type ;
}
typedef enum
{
GST_FIELDANALYSIS_5_TAP ,
GST_FIELDANALYSIS_WINDOWED_COMB
} GstFieldAnalysisFrameMetric ;
# define GST_TYPE_FIELDANALYSIS_FRAME_METRIC (gst_fieldanalysis_frame_metric_get_type())
static GType
gst_fieldanalysis_frame_metric_get_type ( void )
{
static GType fieldanalysis_frame_metric_type = 0 ;
if ( ! fieldanalysis_frame_metric_type ) {
static const GEnumValue fieldanalyis_frame_metrics [ ] = {
{ GST_FIELDANALYSIS_5_TAP , " 5-tap [1,-3,4,-3,1] Vertical Filter " , " 5-tap " } ,
{ GST_FIELDANALYSIS_WINDOWED_COMB ,
" Windowed Comb Detection (not optimised) " ,
" windowed-comb " } ,
{ 0 , NULL , NULL } ,
} ;
fieldanalysis_frame_metric_type =
g_enum_register_static ( " GstFieldAnalysisFrameMetric " ,
fieldanalyis_frame_metrics ) ;
}
return fieldanalysis_frame_metric_type ;
}
# define GST_TYPE_FIELDANALYSIS_COMB_METHOD (gst_fieldanalysis_comb_method_get_type())
static GType
gst_fieldanalysis_comb_method_get_type ( void )
{
static GType fieldanalysis_comb_method_type = 0 ;
if ( ! fieldanalysis_comb_method_type ) {
static const GEnumValue fieldanalyis_comb_methods [ ] = {
{ METHOD_32DETECT ,
" Difference to above sample in same field small and difference to sample in other field large " ,
" 32-detect " } ,
{ METHOD_IS_COMBED ,
" Differences between current sample and the above/below samples in other field multiplied together, larger than squared spatial threshold (from Tritical's isCombed) " ,
" isCombed " } ,
{ METHOD_5_TAP ,
" 5-tap [1,-3,4,-3,1] vertical filter result is larger than spatial threshold*6 " ,
" 5-tap " } ,
{ 0 , NULL , NULL } ,
} ;
fieldanalysis_comb_method_type =
g_enum_register_static ( " FieldAnalysisCombMethod " ,
fieldanalyis_comb_methods ) ;
}
return fieldanalysis_comb_method_type ;
}
static void
gst_field_analysis_class_init ( GstFieldAnalysisClass * klass )
{
GObjectClass * gobject_class ;
GstElementClass * gstelement_class ;
gobject_class = ( GObjectClass * ) klass ;
gstelement_class = ( GstElementClass * ) klass ;
gobject_class - > set_property = gst_field_analysis_set_property ;
gobject_class - > get_property = gst_field_analysis_get_property ;
gobject_class - > finalize = gst_field_analysis_finalize ;
g_object_class_install_property ( gobject_class , PROP_FIELD_METRIC ,
g_param_spec_enum ( " field-metric " , " Field Metric " ,
" Metric to be used for comparing same parity fields to decide if they are a repeated field for telecine " ,
GST_TYPE_FIELDANALYSIS_FIELD_METRIC , DEFAULT_FIELD_METRIC ,
G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_FRAME_METRIC ,
g_param_spec_enum ( " frame-metric " , " Frame Metric " ,
" Metric to be used for comparing opposite parity fields to decide if they are a progressive frame " ,
GST_TYPE_FIELDANALYSIS_FRAME_METRIC , DEFAULT_FRAME_METRIC ,
G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_NOISE_FLOOR ,
g_param_spec_uint ( " noise-floor " , " Noise Floor " ,
" Noise floor for appropriate metrics (per-pixel metric values with a score less than this will be ignored) " ,
0 , G_MAXUINT32 ,
DEFAULT_NOISE_FLOOR , G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_FIELD_THRESH ,
g_param_spec_float ( " field-threshold " , " Field Threshold " ,
" Threshold for field metric decisions " , 0.0f , G_MAXFLOAT ,
DEFAULT_FIELD_THRESH , G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_FRAME_THRESH ,
g_param_spec_float ( " frame-threshold " , " Frame Threshold " ,
" Threshold for frame metric decisions " , 0.0f , G_MAXFLOAT ,
DEFAULT_FRAME_THRESH , G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_COMB_METHOD ,
g_param_spec_enum ( " comb-method " , " Comb-detection Method " ,
" Metric to be used for identifying comb artifacts if using windowed comb detection " ,
GST_TYPE_FIELDANALYSIS_COMB_METHOD , DEFAULT_COMB_METHOD ,
G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_SPATIAL_THRESH ,
g_param_spec_int64 ( " spatial-threshold " , " Spatial Combing Threshold " ,
" Threshold for combing metric decisions " , 0 , G_MAXINT64 ,
DEFAULT_SPATIAL_THRESH , G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_BLOCK_WIDTH ,
g_param_spec_uint64 ( " block-width " , " Block width " ,
" Block width for windowed comb detection " , 0 , G_MAXUINT64 ,
DEFAULT_BLOCK_WIDTH , G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_BLOCK_HEIGHT ,
g_param_spec_uint64 ( " block-height " , " Block height " ,
" Block height for windowed comb detection " , 0 , G_MAXUINT64 ,
DEFAULT_BLOCK_HEIGHT , G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_BLOCK_THRESH ,
g_param_spec_uint64 ( " block-threshold " , " Block threshold " ,
" Block threshold for windowed comb detection " , 0 , G_MAXUINT64 ,
DEFAULT_BLOCK_THRESH , G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
g_object_class_install_property ( gobject_class , PROP_IGNORED_LINES ,
g_param_spec_uint64 ( " ignored-lines " , " Ignored lines " ,
" Ignore this many lines from the top and bottom for windowed comb detection " ,
2 , G_MAXUINT64 , DEFAULT_IGNORED_LINES ,
G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS ) ) ;
gstelement_class - > change_state =
GST_DEBUG_FUNCPTR ( gst_field_analysis_change_state ) ;
}
static gfloat same_parity_sad ( GstFieldAnalysis * filter ,
FieldAnalysisFields * fields ) ;
static gfloat same_parity_ssd ( GstFieldAnalysis * filter ,
FieldAnalysisFields * fields ) ;
static gfloat same_parity_3_tap ( GstFieldAnalysis * filter ,
FieldAnalysisFields * fields ) ;
static gfloat opposite_parity_5_tap ( GstFieldAnalysis * filter ,
FieldAnalysisFields * fields ) ;
static guint64 block_score_for_row_32detect ( GstFieldAnalysis * filter ,
guint8 * base_fj , guint8 * base_fjp1 ) ;
static guint64 block_score_for_row_iscombed ( GstFieldAnalysis * filter ,
guint8 * base_fj , guint8 * base_fjp1 ) ;
static guint64 block_score_for_row_5_tap ( GstFieldAnalysis * filter ,
guint8 * base_fj , guint8 * base_fjp1 ) ;
static gfloat opposite_parity_windowed_comb ( GstFieldAnalysis * filter ,
FieldAnalysisFields * fields ) ;
static void
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gst_field_analysis_empty_queue ( GstFieldAnalysis * filter )
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{
if ( filter - > frames ) {
guint length = g_queue_get_length ( filter - > frames ) ;
GST_DEBUG_OBJECT ( filter , " Clearing queue (size %u) " , length ) ;
while ( length ) {
/* each buffer in the queue should have a ref on it and so to clear the
* queue we must pop and unref each buffer here */
gst_buffer_unref ( g_queue_pop_head ( filter - > frames ) ) ;
length - - ;
}
}
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}
static void
gst_field_analysis_reset ( GstFieldAnalysis * filter )
{
gst_field_analysis_empty_queue ( filter ) ;
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GST_DEBUG_OBJECT ( filter , " Resetting context " ) ;
memset ( filter - > results , 0 , 2 * sizeof ( FieldAnalysis ) ) ;
filter - > is_telecine = FALSE ;
filter - > first_buffer = TRUE ;
filter - > width = 0 ;
g_free ( filter - > comb_mask ) ;
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filter - > comb_mask = NULL ;
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g_free ( filter - > block_scores ) ;
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filter - > block_scores = NULL ;
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}
static void
gst_field_analysis_init ( GstFieldAnalysis * filter ,
GstFieldAnalysisClass * gclass )
{
filter - > sinkpad = gst_pad_new_from_static_template ( & sink_factory , " sink " ) ;
gst_pad_set_setcaps_function ( filter - > sinkpad ,
GST_DEBUG_FUNCPTR ( gst_field_analysis_set_caps ) ) ;
gst_pad_set_getcaps_function ( filter - > sinkpad ,
GST_DEBUG_FUNCPTR ( gst_pad_proxy_getcaps ) ) ;
gst_pad_set_event_function ( filter - > sinkpad ,
GST_DEBUG_FUNCPTR ( gst_field_analysis_sink_event ) ) ;
gst_pad_set_chain_function ( filter - > sinkpad ,
GST_DEBUG_FUNCPTR ( gst_field_analysis_chain ) ) ;
filter - > srcpad = gst_pad_new_from_static_template ( & src_factory , " src " ) ;
gst_pad_set_getcaps_function ( filter - > srcpad ,
GST_DEBUG_FUNCPTR ( gst_pad_proxy_getcaps ) ) ;
gst_element_add_pad ( GST_ELEMENT ( filter ) , filter - > sinkpad ) ;
gst_element_add_pad ( GST_ELEMENT ( filter ) , filter - > srcpad ) ;
filter - > frames = g_queue_new ( ) ;
gst_field_analysis_reset ( filter ) ;
filter - > same_field = & same_parity_ssd ;
filter - > field_thresh = DEFAULT_FIELD_THRESH ;
filter - > same_frame = & opposite_parity_5_tap ;
filter - > frame_thresh = DEFAULT_FRAME_THRESH ;
filter - > noise_floor = DEFAULT_NOISE_FLOOR ;
filter - > block_score_for_row = & block_score_for_row_5_tap ;
filter - > spatial_thresh = DEFAULT_SPATIAL_THRESH ;
filter - > block_width = DEFAULT_BLOCK_WIDTH ;
filter - > block_height = DEFAULT_BLOCK_HEIGHT ;
filter - > block_thresh = DEFAULT_BLOCK_THRESH ;
filter - > ignored_lines = DEFAULT_IGNORED_LINES ;
}
static void
gst_field_analysis_set_property ( GObject * object , guint prop_id ,
const GValue * value , GParamSpec * pspec )
{
GstFieldAnalysis * filter = GST_FIELDANALYSIS ( object ) ;
switch ( prop_id ) {
case PROP_FIELD_METRIC :
switch ( g_value_get_enum ( value ) ) {
case GST_FIELDANALYSIS_SAD :
filter - > same_field = & same_parity_sad ;
break ;
case GST_FIELDANALYSIS_SSD :
filter - > same_field = & same_parity_ssd ;
break ;
case GST_FIELDANALYSIS_3_TAP :
filter - > same_field = & same_parity_3_tap ;
break ;
default :
break ;
}
break ;
case PROP_FRAME_METRIC :
switch ( g_value_get_enum ( value ) ) {
case GST_FIELDANALYSIS_5_TAP :
filter - > same_frame = & opposite_parity_5_tap ;
break ;
case GST_FIELDANALYSIS_WINDOWED_COMB :
filter - > same_frame = & opposite_parity_windowed_comb ;
break ;
default :
break ;
}
break ;
case PROP_NOISE_FLOOR :
filter - > noise_floor = g_value_get_uint ( value ) ;
break ;
case PROP_FIELD_THRESH :
filter - > field_thresh = g_value_get_float ( value ) ;
break ;
case PROP_FRAME_THRESH :
filter - > frame_thresh = g_value_get_float ( value ) ;
break ;
case PROP_COMB_METHOD :
switch ( g_value_get_enum ( value ) ) {
case METHOD_32DETECT :
filter - > block_score_for_row = & block_score_for_row_32detect ;
break ;
case METHOD_IS_COMBED :
filter - > block_score_for_row = & block_score_for_row_iscombed ;
break ;
case METHOD_5_TAP :
filter - > block_score_for_row = & block_score_for_row_5_tap ;
break ;
default :
break ;
}
break ;
case PROP_SPATIAL_THRESH :
filter - > spatial_thresh = g_value_get_int64 ( value ) ;
break ;
case PROP_BLOCK_WIDTH :
filter - > block_width = g_value_get_uint64 ( value ) ;
if ( filter - > width ) {
if ( filter - > block_scores ) {
gsize nbytes = ( filter - > width / filter - > block_width ) * sizeof ( guint ) ;
filter - > block_scores = g_realloc ( filter - > block_scores , nbytes ) ;
memset ( filter - > block_scores , 0 , nbytes ) ;
} else {
filter - > block_scores =
g_malloc0 ( ( filter - > width / filter - > block_width ) *
sizeof ( guint ) ) ;
}
}
break ;
case PROP_BLOCK_HEIGHT :
filter - > block_height = g_value_get_uint64 ( value ) ;
break ;
case PROP_BLOCK_THRESH :
filter - > block_thresh = g_value_get_uint64 ( value ) ;
break ;
case PROP_IGNORED_LINES :
filter - > ignored_lines = g_value_get_uint64 ( value ) ;
break ;
default :
G_OBJECT_WARN_INVALID_PROPERTY_ID ( object , prop_id , pspec ) ;
break ;
}
}
static void
gst_field_analysis_get_property ( GObject * object , guint prop_id ,
GValue * value , GParamSpec * pspec )
{
GstFieldAnalysis * filter = GST_FIELDANALYSIS ( object ) ;
switch ( prop_id ) {
case PROP_FIELD_METRIC :
{
GstFieldAnalysisFieldMetric metric = DEFAULT_FIELD_METRIC ;
if ( filter - > same_field = = & same_parity_sad ) {
metric = GST_FIELDANALYSIS_SAD ;
} else if ( filter - > same_field = = & same_parity_ssd ) {
metric = GST_FIELDANALYSIS_SSD ;
} else if ( filter - > same_field = = & same_parity_3_tap ) {
metric = GST_FIELDANALYSIS_3_TAP ;
}
g_value_set_enum ( value , metric ) ;
break ;
}
case PROP_FRAME_METRIC :
{
GstFieldAnalysisFrameMetric metric = DEFAULT_FRAME_METRIC ;
if ( filter - > same_frame = = & opposite_parity_5_tap ) {
metric = GST_FIELDANALYSIS_5_TAP ;
} else if ( filter - > same_frame = = & opposite_parity_windowed_comb ) {
metric = GST_FIELDANALYSIS_WINDOWED_COMB ;
}
g_value_set_enum ( value , metric ) ;
break ;
}
case PROP_NOISE_FLOOR :
g_value_set_uint ( value , filter - > noise_floor ) ;
break ;
case PROP_FIELD_THRESH :
g_value_set_float ( value , filter - > field_thresh ) ;
break ;
case PROP_FRAME_THRESH :
g_value_set_float ( value , filter - > frame_thresh ) ;
break ;
case PROP_COMB_METHOD :
{
FieldAnalysisCombMethod method = DEFAULT_COMB_METHOD ;
if ( filter - > block_score_for_row = = & block_score_for_row_32detect ) {
method = METHOD_32DETECT ;
} else if ( filter - > block_score_for_row = = & block_score_for_row_iscombed ) {
method = METHOD_IS_COMBED ;
} else if ( filter - > block_score_for_row = = & block_score_for_row_5_tap ) {
method = METHOD_5_TAP ;
}
g_value_set_enum ( value , method ) ;
break ;
}
case PROP_SPATIAL_THRESH :
g_value_set_int64 ( value , filter - > spatial_thresh ) ;
break ;
case PROP_BLOCK_WIDTH :
g_value_set_uint64 ( value , filter - > block_width ) ;
break ;
case PROP_BLOCK_HEIGHT :
g_value_set_uint64 ( value , filter - > block_height ) ;
break ;
case PROP_BLOCK_THRESH :
g_value_set_uint64 ( value , filter - > block_thresh ) ;
break ;
case PROP_IGNORED_LINES :
g_value_set_uint64 ( value , filter - > ignored_lines ) ;
break ;
default :
G_OBJECT_WARN_INVALID_PROPERTY_ID ( object , prop_id , pspec ) ;
break ;
}
}
static void
gst_field_analysis_update_format ( GstFieldAnalysis * filter , GstCaps * caps )
{
GstStructure * struc ;
guint32 fourcc ;
GstVideoFormat vformat ;
gint width , height , data_offset , sample_incr , line_stride ;
GQueue * outbufs ;
struc = gst_caps_get_structure ( caps , 0 ) ;
gst_structure_get_fourcc ( struc , " format " , & fourcc ) ;
vformat = gst_video_format_from_fourcc ( fourcc ) ;
gst_structure_get_int ( struc , " width " , & width ) ;
gst_structure_get_int ( struc , " height " , & height ) ;
data_offset =
gst_video_format_get_component_offset ( vformat , 0 , width , height ) ;
sample_incr = gst_video_format_get_pixel_stride ( vformat , 0 ) ;
line_stride = gst_video_format_get_row_stride ( vformat , 0 , width ) ;
/* if format is unchanged in our eyes, don't update the context */
if ( ( filter - > width = = width ) & & ( filter - > height = = height )
& & ( filter - > data_offset = = data_offset )
& & ( filter - > sample_incr = = sample_incr )
& & ( filter - > line_stride = = line_stride ) )
return ;
/* format changed - process and push buffers before updating context */
GST_OBJECT_LOCK ( filter ) ;
filter - > flushing = TRUE ;
outbufs = gst_field_analysis_flush_queue ( filter , filter - > frames ) ;
GST_OBJECT_UNLOCK ( filter ) ;
if ( outbufs ) {
while ( g_queue_get_length ( outbufs ) )
gst_pad_push ( filter - > srcpad , g_queue_pop_head ( outbufs ) ) ;
}
GST_OBJECT_LOCK ( filter ) ;
filter - > flushing = FALSE ;
filter - > width = width ;
filter - > height = height ;
filter - > data_offset = data_offset ;
filter - > sample_incr = sample_incr ;
filter - > line_stride = line_stride ;
/* update allocations for metric scores */
if ( filter - > comb_mask ) {
filter - > comb_mask = g_realloc ( filter - > comb_mask , width ) ;
} else {
filter - > comb_mask = g_malloc ( width ) ;
}
if ( filter - > block_scores ) {
gsize nbytes = ( width / filter - > block_width ) * sizeof ( guint ) ;
filter - > block_scores = g_realloc ( filter - > block_scores , nbytes ) ;
memset ( filter - > block_scores , 0 , nbytes ) ;
} else {
filter - > block_scores =
g_malloc0 ( ( width / filter - > block_width ) * sizeof ( guint ) ) ;
}
GST_OBJECT_UNLOCK ( filter ) ;
return ;
}
static gboolean
gst_field_analysis_set_caps ( GstPad * pad , GstCaps * caps )
{
gboolean ret = TRUE ;
GstFieldAnalysis * filter = GST_FIELDANALYSIS ( gst_pad_get_parent ( pad ) ) ;
gst_field_analysis_update_format ( filter , caps ) ;
ret = gst_pad_set_caps ( filter - > srcpad , caps ) ;
gst_object_unref ( filter ) ;
return ret ;
}
# define FIELD_ANALYSIS_TOP_BOTTOM (1 << 0)
# define FIELD_ANALYSIS_BOTTOM_TOP (1 << 1)
# define FIELD_ANALYSIS_TOP_MATCH (1 << 2)
# define FIELD_ANALYSIS_BOTTOM_MATCH (1 << 3)
/* decorate removes a buffer from the internal queue, on which we have a ref,
* then makes its metadata writable ( could be the same buffer , could be a new
* buffer , but either way we have a ref on it ) , decorates this buffer and
* returns it */
static GstBuffer *
gst_field_analysis_decorate ( GstFieldAnalysis * filter , gboolean tff ,
2011-04-06 13:58:07 +00:00
gboolean onefield , FieldAnalysisConclusion conclusion , gboolean drop )
2010-09-15 15:32:09 +00:00
{
GstBuffer * buf = NULL ;
GstCaps * caps ;
caps = gst_caps_copy ( GST_PAD_CAPS ( filter - > srcpad ) ) ;
/* deal with incoming buffer */
if ( conclusion > FIELD_ANALYSIS_PROGRESSIVE | | filter - > is_telecine = = TRUE ) {
gst_caps_set_simple ( caps , " interlaced " , G_TYPE_BOOLEAN , TRUE , NULL ) ;
filter - > is_telecine = conclusion ! = FIELD_ANALYSIS_INTERLACED ;
if ( conclusion > = FIELD_ANALYSIS_TELECINE_PROGRESSIVE
| | filter - > is_telecine = = TRUE ) {
gst_caps_set_simple ( caps , " interlacing-method " , G_TYPE_STRING ,
" telecine " , NULL ) ;
} else {
gst_caps_set_simple ( caps , " interlacing-method " , G_TYPE_STRING , " unknown " ,
NULL ) ;
}
} else {
gst_structure_remove_field ( gst_caps_get_structure ( caps , 0 ) ,
" interlacing-method " ) ;
gst_caps_set_simple ( caps , " interlaced " , G_TYPE_BOOLEAN , FALSE , NULL ) ;
}
/* get buffer from queue
* this takes our ref on the buf that was in the queue and gives us a buf
* on which we have a refi ( could be the same buffer , but need not be ) */
buf = gst_buffer_make_metadata_writable ( g_queue_pop_head ( filter - > frames ) ) ;
/* set buffer flags */
if ( ! tff ) {
GST_BUFFER_FLAG_UNSET ( buf , GST_VIDEO_BUFFER_TFF ) ;
} else if ( tff = = 1 | | ( tff = = - 1
& & GST_BUFFER_FLAG_IS_SET ( buf , GST_VIDEO_BUFFER_TFF ) ) ) {
GST_BUFFER_FLAG_SET ( buf , GST_VIDEO_BUFFER_TFF ) ;
}
if ( onefield ) {
GST_BUFFER_FLAG_SET ( buf , GST_VIDEO_BUFFER_ONEFIELD ) ;
} else {
GST_BUFFER_FLAG_UNSET ( buf , GST_VIDEO_BUFFER_ONEFIELD ) ;
}
2011-04-06 13:58:07 +00:00
if ( drop ) {
GST_BUFFER_FLAG_SET ( buf , GST_VIDEO_BUFFER_RFF ) ;
} else {
GST_BUFFER_FLAG_UNSET ( buf , GST_VIDEO_BUFFER_RFF ) ;
}
2010-09-15 15:32:09 +00:00
if ( conclusion = = FIELD_ANALYSIS_TELECINE_PROGRESSIVE | | ( filter - > is_telecine
& & conclusion = = FIELD_ANALYSIS_PROGRESSIVE ) )
GST_BUFFER_FLAG_SET ( buf , GST_VIDEO_BUFFER_PROGRESSIVE ) ;
/* set the caps on the src pad and buffer before pushing */
if ( gst_caps_is_equal ( caps , GST_PAD_CAPS ( filter - > srcpad ) ) ) {
gst_buffer_set_caps ( buf , GST_PAD_CAPS ( filter - > srcpad ) ) ;
} else {
gboolean ret = TRUE ;
GST_OBJECT_UNLOCK ( filter ) ;
ret = gst_pad_set_caps ( filter - > srcpad , caps ) ;
GST_OBJECT_LOCK ( filter ) ;
if ( ! ret ) {
GST_ERROR_OBJECT ( filter , " Could not set pad caps " ) ;
gst_buffer_unref ( buf ) ;
return NULL ;
}
gst_buffer_set_caps ( buf , caps ) ;
}
/* drop our ref to the caps as the buffer and pad have their own */
gst_caps_unref ( caps ) ;
GST_DEBUG_OBJECT ( filter ,
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" Pushing buffer with flags: %p (%p), p %d, tff %d, 1f %d, drop %d; conc %d " ,
2010-09-15 15:32:09 +00:00
GST_BUFFER_DATA ( buf ) , buf ,
GST_BUFFER_FLAG_IS_SET ( buf , GST_VIDEO_BUFFER_PROGRESSIVE ) ,
GST_BUFFER_FLAG_IS_SET ( buf , GST_VIDEO_BUFFER_TFF ) ,
GST_BUFFER_FLAG_IS_SET ( buf , GST_VIDEO_BUFFER_ONEFIELD ) ,
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GST_BUFFER_FLAG_IS_SET ( buf , GST_VIDEO_BUFFER_RFF ) , conclusion ) ;
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return buf ;
}
/* _flush_one does not touch the buffer ref counts directly but _decorate ()
* has some influence on ref counts - see its annotation for details */
static GstBuffer *
gst_field_analysis_flush_one ( GstFieldAnalysis * filter , GQueue * outbufs )
{
GstBuffer * buf = NULL ;
guint n_queued = g_queue_get_length ( filter - > frames ) ;
guint idx = n_queued - 1 ;
if ( ! n_queued | | n_queued > 2 )
return buf ;
GST_DEBUG_OBJECT ( filter , " Flushing last buffer (queue length %d) " , n_queued ) ;
if ( filter - > results [ idx ] . holding = = 1 + TOP_FIELD
| | filter - > results [ idx ] . holding = = 1 + BOTTOM_FIELD ) {
/* should be only one field needed */
buf =
gst_field_analysis_decorate ( filter ,
filter - > results [ idx ] . holding = = 1 + TOP_FIELD , TRUE ,
filter - > results [ idx ] . conclusion , FALSE ) ;
} else {
/* possibility that both fields are needed */
buf =
gst_field_analysis_decorate ( filter , - 1 , FALSE ,
filter - > results [ idx ] . conclusion , ! filter - > results [ idx ] . holding ) ;
}
if ( buf ) {
if ( outbufs )
g_queue_push_tail ( outbufs , buf ) ;
} else {
GST_DEBUG_OBJECT ( filter , " Error occurred during decoration " ) ;
}
return buf ;
}
/* _flush_queue () has no direct influence on refcounts and nor does _flush_one,
* but _decorate ( ) does and so this function does indirectly */
static GQueue *
gst_field_analysis_flush_queue ( GstFieldAnalysis * filter , GQueue * queue )
{
GQueue * outbufs ;
guint length = 0 ;
if ( queue )
length = g_queue_get_length ( queue ) ;
if ( length < 2 )
return NULL ;
outbufs = g_queue_new ( ) ;
while ( length ) {
gst_field_analysis_flush_one ( filter , outbufs ) ;
length - - ;
}
return outbufs ;
}
static gboolean
gst_field_analysis_sink_event ( GstPad * pad , GstEvent * event )
{
GstFieldAnalysis * filter = GST_FIELDANALYSIS ( gst_pad_get_parent ( pad ) ) ;
GST_LOG_OBJECT ( pad , " received %s event: % " GST_PTR_FORMAT ,
GST_EVENT_TYPE_NAME ( event ) , event ) ;
switch ( GST_EVENT_TYPE ( event ) ) {
case GST_EVENT_NEWSEGMENT :
case GST_EVENT_EOS :
{
/* for both NEWSEGMENT and EOS it is safest to process and push queued
* buffers */
GQueue * outbufs ;
GST_OBJECT_LOCK ( filter ) ;
filter - > flushing = TRUE ;
outbufs = gst_field_analysis_flush_queue ( filter , filter - > frames ) ;
GST_OBJECT_UNLOCK ( filter ) ;
if ( outbufs ) {
while ( g_queue_get_length ( outbufs ) )
gst_pad_push ( filter - > srcpad , g_queue_pop_head ( outbufs ) ) ;
}
GST_OBJECT_LOCK ( filter ) ;
filter - > flushing = FALSE ;
GST_OBJECT_UNLOCK ( filter ) ;
break ;
}
case GST_EVENT_FLUSH_STOP :
/* if we have any buffers left in the queue, unref them until the queue
* is empty */
GST_OBJECT_LOCK ( filter ) ;
gst_field_analysis_reset ( filter ) ;
GST_OBJECT_UNLOCK ( filter ) ;
break ;
default :
break ;
}
/* NOTE: we always forward the event currently, change this as necessary */
return gst_pad_push_event ( filter - > srcpad , event ) ;
}
static gfloat
same_parity_sad ( GstFieldAnalysis * filter , FieldAnalysisFields * fields )
{
gint j ;
gfloat sum ;
guint8 * f1j , * f2j ;
const gint y_offset = filter - > data_offset ;
const gint stride = filter - > line_stride ;
const gint stridex2 = stride < < 1 ;
const guint32 noise_floor = filter - > noise_floor ;
f1j = GST_BUFFER_DATA ( fields [ 0 ] . buf ) + y_offset + fields [ 0 ] . parity * stride ;
f2j = GST_BUFFER_DATA ( fields [ 1 ] . buf ) + y_offset + fields [ 1 ] . parity * stride ;
sum = 0.0f ;
for ( j = 0 ; j < ( filter - > height > > 1 ) ; j + + ) {
guint32 tempsum = 0 ;
orc_same_parity_sad_planar_yuv ( & tempsum , f1j , f2j , noise_floor ,
filter - > width ) ;
sum + = tempsum ;
f1j + = stridex2 ;
f2j + = stridex2 ;
}
return sum / ( 0.5f * filter - > width * filter - > height ) ;
}
static gfloat
same_parity_ssd ( GstFieldAnalysis * filter , FieldAnalysisFields * fields )
{
gint j ;
gfloat sum ;
guint8 * f1j , * f2j ;
const gint y_offset = filter - > data_offset ;
const gint stride = filter - > line_stride ;
const gint stridex2 = stride < < 1 ;
/* noise floor needs to be squared for SSD */
const guint32 noise_floor = filter - > noise_floor * filter - > noise_floor ;
f1j = GST_BUFFER_DATA ( fields [ 0 ] . buf ) + y_offset + fields [ 0 ] . parity * stride ;
f2j = GST_BUFFER_DATA ( fields [ 1 ] . buf ) + y_offset + fields [ 1 ] . parity * stride ;
sum = 0.0f ;
for ( j = 0 ; j < ( filter - > height > > 1 ) ; j + + ) {
guint32 tempsum = 0 ;
orc_same_parity_ssd_planar_yuv ( & tempsum , f1j , f2j , noise_floor ,
filter - > width ) ;
sum + = tempsum ;
f1j + = stridex2 ;
f2j + = stridex2 ;
}
return sum / ( 0.5f * filter - > width * filter - > height ) ; /* field is half height */
}
/* horizontal [1,4,1] diff between fields - is this a good idea or should the
* current sample be emphasised more or less ? */
static gfloat
same_parity_3_tap ( GstFieldAnalysis * filter , FieldAnalysisFields * fields )
{
gint i , j ;
gfloat sum ;
guint8 * f1j , * f2j ;
const gint y_offset = filter - > data_offset ;
const gint stride = filter - > line_stride ;
const gint stridex2 = stride < < 1 ;
const gint incr = filter - > sample_incr ;
/* noise floor needs to be squared for [1,4,1] */
const guint32 noise_floor = filter - > noise_floor * 6 ;
f1j = GST_BUFFER_DATA ( fields [ 0 ] . buf ) + y_offset + fields [ 0 ] . parity * stride ;
f2j = GST_BUFFER_DATA ( fields [ 1 ] . buf ) + y_offset + fields [ 1 ] . parity * stride ;
sum = 0.0f ;
for ( j = 0 ; j < ( filter - > height > > 1 ) ; j + + ) {
guint32 tempsum = 0 ;
guint32 diff ;
/* unroll first as it is a special case */
diff = abs ( ( ( f1j [ 0 ] < < 2 ) + ( f1j [ incr ] < < 1 ) )
- ( ( f2j [ 0 ] < < 2 ) + ( f2j [ incr ] < < 1 ) ) ) ;
if ( diff > noise_floor )
sum + = diff ;
orc_same_parity_3_tap_planar_yuv ( & tempsum , f1j , & f1j [ incr ] ,
& f1j [ incr < < 1 ] , f2j , & f2j [ incr ] , & f2j [ incr < < 1 ] , noise_floor ,
filter - > width - 1 ) ;
sum + = tempsum ;
/* unroll last as it is a special case */
i = filter - > width - 1 ;
diff = abs ( ( ( f1j [ i - incr ] < < 1 ) + ( f1j [ i ] < < 2 ) )
- ( ( f2j [ i - incr ] < < 1 ) + ( f2j [ i ] < < 2 ) ) ) ;
if ( diff > noise_floor )
sum + = diff ;
f1j + = stridex2 ;
f2j + = stridex2 ;
}
return sum / ( ( 6.0f / 2.0f ) * filter - > width * filter - > height ) ; /* 1 + 4 + 1 = 6; field is half height */
}
/* vertical [1,-3,4,-3,1] - same as is used in FieldDiff from TIVTC,
* tritical ' s AVISynth IVTC filter */
/* 0th field's parity defines operation */
static gfloat
opposite_parity_5_tap ( GstFieldAnalysis * filter , FieldAnalysisFields * fields )
{
gint j ;
gfloat sum ;
guint8 * fjm2 , * fjm1 , * fj , * fjp1 , * fjp2 ;
guint32 tempsum ;
const gint y_offset = filter - > data_offset ;
const gint stride = filter - > line_stride ;
const gint stridex2 = stride < < 1 ;
/* noise floor needs to be *6 for [1,-3,4,-3,1] */
const guint32 noise_floor = filter - > noise_floor * 6 ;
sum = 0.0f ;
/* fj is line j of the combined frame made from the top field even lines of
* field 0 and the bottom field odd lines from field 1
* fjp1 is one line down from fj
* fjm2 is two lines up from fj
* fj with j = = 0 is the 0 th line of the top field
* fj with j = = 1 is the 0 th line of the bottom field or the 1 st field of
* the frame */
/* unroll first line as it is a special case */
if ( fields [ 0 ] . parity = = TOP_FIELD ) {
fj = GST_BUFFER_DATA ( fields [ 0 ] . buf ) + y_offset ;
fjp1 = GST_BUFFER_DATA ( fields [ 1 ] . buf ) + y_offset + stride ;
} else {
fj = GST_BUFFER_DATA ( fields [ 1 ] . buf ) + y_offset ;
fjp1 = GST_BUFFER_DATA ( fields [ 0 ] . buf ) + y_offset + stride ;
}
fjp2 = fj + stridex2 ;
tempsum = 0 ;
orc_opposite_parity_5_tap_planar_yuv ( & tempsum , fjp2 , fjp1 , fj , fjp1 , fjp2 ,
noise_floor , filter - > width ) ;
sum + = tempsum ;
for ( j = 1 ; j < ( filter - > height > > 1 ) - 1 ; j + + ) {
/* shift everything down a line in the field of interest (means += stridex2) */
fjm2 = fj ;
fjm1 = fjp1 ;
fj = fjp2 ;
fjp1 + = stridex2 ;
fjp2 + = stridex2 ;
tempsum = 0 ;
orc_opposite_parity_5_tap_planar_yuv ( & tempsum , fjm2 , fjm1 , fj , fjp1 , fjp2 ,
noise_floor , filter - > width ) ;
sum + = tempsum ;
}
/* unroll the last line as it is a special case */
/* shift everything down a line in the field of interest (means += stridex2) */
fjm2 = fj ;
fjm1 = fjp1 ;
fj = fjp2 ;
tempsum = 0 ;
orc_opposite_parity_5_tap_planar_yuv ( & tempsum , fjm2 , fjm1 , fj , fjm1 , fjm2 ,
noise_floor , filter - > width ) ;
sum + = tempsum ;
return sum / ( ( 6.0f / 2.0f ) * filter - > width * filter - > height ) ; /* 1 + 4 + 1 == 3 + 3 == 6; field is half height */
}
/* this metric was sourced from HandBrake but originally from transcode
* the return value is the highest block score for the row of blocks */
static inline guint64
block_score_for_row_32detect ( GstFieldAnalysis * filter , guint8 * base_fj ,
guint8 * base_fjp1 )
{
guint64 i , j ;
guint8 * comb_mask = filter - > comb_mask ;
guint * block_scores = filter - > block_scores ;
guint64 block_score ;
guint8 * fjm2 , * fjm1 , * fj , * fjp1 ;
const gint incr = filter - > sample_incr ;
const gint stridex2 = filter - > line_stride < < 1 ;
const guint64 block_width = filter - > block_width ;
const guint64 block_height = filter - > block_height ;
const gint64 spatial_thresh = filter - > spatial_thresh ;
const gint width = filter - > width - ( filter - > width % block_width ) ;
fjm2 = base_fj - stridex2 ;
fjm1 = base_fjp1 - stridex2 ;
fj = base_fj ;
fjp1 = base_fjp1 ;
for ( j = 0 ; j < block_height ; j + + ) {
/* we have to work one result ahead of ourselves which results in some small
* peculiarities below */
gint diff1 , diff2 ;
diff1 = fj [ 0 ] - fjm1 [ 0 ] ;
diff2 = fj [ 0 ] - fjp1 [ 0 ] ;
/* change in the same direction */
if ( ( diff1 > spatial_thresh & & diff2 > spatial_thresh )
| | ( diff1 < - spatial_thresh & & diff2 < - spatial_thresh ) ) {
comb_mask [ 0 ] = abs ( fj [ 0 ] - fjm2 [ 0 ] ) < 10 & & abs ( fj [ 0 ] - fjm1 [ 0 ] ) > 15 ;
} else {
comb_mask [ 0 ] = FALSE ;
}
for ( i = 1 ; i < width ; i + + ) {
const guint64 idx = i * incr ;
const guint64 res_idx = ( i - 1 ) / block_width ;
diff1 = fj [ idx ] - fjm1 [ idx ] ;
diff2 = fj [ idx ] - fjp1 [ idx ] ;
if ( ( diff1 > spatial_thresh & & diff2 > spatial_thresh )
| | ( diff1 < - spatial_thresh & & diff2 < - spatial_thresh ) ) {
comb_mask [ i ] = abs ( fj [ idx ] - fjm2 [ idx ] ) < 10
& & abs ( fj [ idx ] - fjm1 [ idx ] ) > 15 ;
} else {
comb_mask [ i ] = FALSE ;
}
if ( i = = 1 & & comb_mask [ i - 1 ] & & comb_mask [ i ] ) {
/* left edge */
block_scores [ res_idx ] + + ;
} else if ( i = = width - 1 ) {
/* right edge */
if ( comb_mask [ i - 2 ] & & comb_mask [ i - 1 ] & & comb_mask [ i ] )
block_scores [ res_idx ] + + ;
if ( comb_mask [ i - 1 ] & & comb_mask [ i ] )
block_scores [ i / block_width ] + + ;
} else if ( comb_mask [ i - 2 ] & & comb_mask [ i - 1 ] & & comb_mask [ i ] ) {
block_scores [ res_idx ] + + ;
}
}
/* advance down a line */
fjm2 = fjm1 ;
fjm1 = fj ;
fj = fjp1 ;
fjp1 = fjm1 + stridex2 ;
}
block_score = 0 ;
for ( i = 0 ; i < width / block_width ; i + + ) {
if ( block_scores [ i ] > block_score )
block_score = block_scores [ i ] ;
}
g_free ( block_scores ) ;
g_free ( comb_mask ) ;
return block_score ;
}
/* this metric was sourced from HandBrake but originally from
* tritical ' s isCombedT Avisynth function
* the return value is the highest block score for the row of blocks */
static inline guint64
block_score_for_row_iscombed ( GstFieldAnalysis * filter , guint8 * base_fj ,
guint8 * base_fjp1 )
{
guint64 i , j ;
guint8 * comb_mask = filter - > comb_mask ;
guint * block_scores = filter - > block_scores ;
guint64 block_score ;
guint8 * fjm1 , * fj , * fjp1 ;
const gint incr = filter - > sample_incr ;
const gint stridex2 = filter - > line_stride < < 1 ;
const guint64 block_width = filter - > block_width ;
const guint64 block_height = filter - > block_height ;
const gint64 spatial_thresh = filter - > spatial_thresh ;
const gint64 spatial_thresh_squared = spatial_thresh * spatial_thresh ;
const gint width = filter - > width - ( filter - > width % block_width ) ;
fjm1 = base_fjp1 - stridex2 ;
fj = base_fj ;
fjp1 = base_fjp1 ;
for ( j = 0 ; j < block_height ; j + + ) {
/* we have to work one result ahead of ourselves which results in some small
* peculiarities below */
gint diff1 , diff2 ;
diff1 = fj [ 0 ] - fjm1 [ 0 ] ;
diff2 = fj [ 0 ] - fjp1 [ 0 ] ;
/* change in the same direction */
if ( ( diff1 > spatial_thresh & & diff2 > spatial_thresh )
| | ( diff1 < - spatial_thresh & & diff2 < - spatial_thresh ) ) {
comb_mask [ 0 ] =
( fjm1 [ 0 ] - fj [ 0 ] ) * ( fjp1 [ 0 ] - fj [ 0 ] ) > spatial_thresh_squared ;
} else {
comb_mask [ 0 ] = FALSE ;
}
for ( i = 1 ; i < width ; i + + ) {
const guint64 idx = i * incr ;
const guint64 res_idx = ( i - 1 ) / block_width ;
diff1 = fj [ idx ] - fjm1 [ idx ] ;
diff2 = fj [ idx ] - fjp1 [ idx ] ;
if ( ( diff1 > spatial_thresh & & diff2 > spatial_thresh )
| | ( diff1 < - spatial_thresh & & diff2 < - spatial_thresh ) ) {
comb_mask [ i ] =
( fjm1 [ idx ] - fj [ idx ] ) * ( fjp1 [ idx ] - fj [ idx ] ) >
spatial_thresh_squared ;
} else {
comb_mask [ i ] = FALSE ;
}
if ( i = = 1 & & comb_mask [ i - 1 ] & & comb_mask [ i ] ) {
/* left edge */
block_scores [ res_idx ] + + ;
} else if ( i = = width - 1 ) {
/* right edge */
if ( comb_mask [ i - 2 ] & & comb_mask [ i - 1 ] & & comb_mask [ i ] )
block_scores [ res_idx ] + + ;
if ( comb_mask [ i - 1 ] & & comb_mask [ i ] )
block_scores [ i / block_width ] + + ;
} else if ( comb_mask [ i - 2 ] & & comb_mask [ i - 1 ] & & comb_mask [ i ] ) {
block_scores [ res_idx ] + + ;
}
}
/* advance down a line */
fjm1 = fj ;
fj = fjp1 ;
fjp1 = fjm1 + stridex2 ;
}
block_score = 0 ;
for ( i = 0 ; i < width / block_width ; i + + ) {
if ( block_scores [ i ] > block_score )
block_score = block_scores [ i ] ;
}
g_free ( block_scores ) ;
g_free ( comb_mask ) ;
return block_score ;
}
/* this metric was sourced from HandBrake but originally from
* tritical ' s isCombedT Avisynth function
* the return value is the highest block score for the row of blocks */
static inline guint64
block_score_for_row_5_tap ( GstFieldAnalysis * filter , guint8 * base_fj ,
guint8 * base_fjp1 )
{
guint64 i , j ;
guint8 * comb_mask = filter - > comb_mask ;
guint * block_scores = filter - > block_scores ;
guint64 block_score ;
guint8 * fjm2 , * fjm1 , * fj , * fjp1 , * fjp2 ;
const gint incr = filter - > sample_incr ;
const gint stridex2 = filter - > line_stride < < 1 ;
const guint64 block_width = filter - > block_width ;
const guint64 block_height = filter - > block_height ;
const gint64 spatial_thresh = filter - > spatial_thresh ;
const gint64 spatial_threshx6 = 6 * spatial_thresh ;
const gint width = filter - > width - ( filter - > width % block_width ) ;
fjm2 = base_fj - stridex2 ;
fjm1 = base_fjp1 - stridex2 ;
fj = base_fj ;
fjp1 = base_fjp1 ;
fjp2 = fj + stridex2 ;
for ( j = 0 ; j < block_height ; j + + ) {
/* we have to work one result ahead of ourselves which results in some small
* peculiarities below */
gint diff1 , diff2 ;
diff1 = fj [ 0 ] - fjm1 [ 0 ] ;
diff2 = fj [ 0 ] - fjp1 [ 0 ] ;
/* change in the same direction */
if ( ( diff1 > spatial_thresh & & diff2 > spatial_thresh )
| | ( diff1 < - spatial_thresh & & diff2 < - spatial_thresh ) ) {
comb_mask [ 0 ] =
abs ( fjm2 [ 0 ] + ( fj [ 0 ] < < 2 ) + fjp2 [ 0 ] - 3 * ( fjm1 [ 0 ] + fjp1 [ 0 ] ) ) >
spatial_threshx6 ;
/* motion detection that needs previous and next frames
this isn ' t really necessary , but acts as an optimisation if the
additional delay isn ' t a problem
if ( motion_detection ) {
if ( abs ( fpj [ idx ] - fj [ idx ] ) > motion_thresh & &
abs ( fjm1 [ idx ] - fnjm1 [ idx ] ) > motion_thresh & &
abs ( fjp1 [ idx ] - fnjp1 [ idx ] ) > motion_thresh )
motion + + ;
if ( abs ( fj [ idx ] - fnj [ idx ] ) > motion_thresh & &
abs ( fpjm1 [ idx ] - fjm1 [ idx ] ) > motion_thresh & &
abs ( fpjp1 [ idx ] - fjp1 [ idx ] ) > motion_thresh )
motion + + ;
} else {
motion = 1 ;
}
*/
} else {
comb_mask [ 0 ] = FALSE ;
}
for ( i = 1 ; i < width ; i + + ) {
const guint64 idx = i * incr ;
const guint64 res_idx = ( i - 1 ) / block_width ;
diff1 = fj [ idx ] - fjm1 [ idx ] ;
diff2 = fj [ idx ] - fjp1 [ idx ] ;
if ( ( diff1 > spatial_thresh & & diff2 > spatial_thresh )
| | ( diff1 < - spatial_thresh & & diff2 < - spatial_thresh ) ) {
comb_mask [ i ] =
abs ( fjm2 [ idx ] + ( fj [ idx ] < < 2 ) + fjp2 [ idx ] - 3 * ( fjm1 [ idx ] +
fjp1 [ idx ] ) ) > spatial_threshx6 ;
} else {
comb_mask [ i ] = FALSE ;
}
if ( i = = 1 & & comb_mask [ i - 1 ] & & comb_mask [ i ] ) {
/* left edge */
block_scores [ res_idx ] + + ;
} else if ( i = = width - 1 ) {
/* right edge */
if ( comb_mask [ i - 2 ] & & comb_mask [ i - 1 ] & & comb_mask [ i ] )
block_scores [ res_idx ] + + ;
if ( comb_mask [ i - 1 ] & & comb_mask [ i ] )
block_scores [ i / block_width ] + + ;
} else if ( comb_mask [ i - 2 ] & & comb_mask [ i - 1 ] & & comb_mask [ i ] ) {
block_scores [ res_idx ] + + ;
}
}
/* advance down a line */
fjm2 = fjm1 ;
fjm1 = fj ;
fj = fjp1 ;
fjp1 = fjp2 ;
fjp2 = fj + stridex2 ;
}
block_score = 0 ;
for ( i = 0 ; i < width / block_width ; i + + ) {
if ( block_scores [ i ] > block_score )
block_score = block_scores [ i ] ;
}
g_free ( block_scores ) ;
g_free ( comb_mask ) ;
return block_score ;
}
/* a pass is made over the field using one of three comb-detection metrics
and the results are then analysed block - wise . if the samples to the left
and right are combed , they contribute to the block score . if the block
score is above the given threshold , the frame is combed . if the block
score is between half the threshold and the threshold , the block is
slightly combed . if when analysis is complete , slight combing is detected
that is returned . if any results are observed that are above the threshold ,
the function returns immediately */
/* 0th field's parity defines operation */
static gfloat
opposite_parity_windowed_comb ( GstFieldAnalysis * filter ,
FieldAnalysisFields * fields )
{
gint j ;
gboolean slightly_combed ;
const gint y_offset = filter - > data_offset ;
const gint stride = filter - > line_stride ;
const guint64 block_thresh = filter - > block_thresh ;
const guint64 block_height = filter - > block_height ;
guint8 * base_fj , * base_fjp1 ;
if ( fields [ 0 ] . parity = = TOP_FIELD ) {
base_fj = GST_BUFFER_DATA ( fields [ 0 ] . buf ) + y_offset ;
base_fjp1 = GST_BUFFER_DATA ( fields [ 1 ] . buf ) + y_offset + stride ;
} else {
base_fj = GST_BUFFER_DATA ( fields [ 1 ] . buf ) + y_offset ;
base_fjp1 = GST_BUFFER_DATA ( fields [ 0 ] . buf ) + y_offset + stride ;
}
/* we operate on a row of blocks of height block_height through each iteration */
slightly_combed = FALSE ;
for ( j = 0 ; j < = filter - > height - filter - > ignored_lines - block_height ;
j + = block_height ) {
guint64 line_offset = ( filter - > ignored_lines + j ) * stride ;
guint block_score =
filter - > block_score_for_row ( filter , base_fj + line_offset ,
base_fjp1 + line_offset ) ;
if ( block_score > ( block_thresh > > 1 )
& & block_score < = block_thresh ) {
/* blend if nothing more combed comes along */
slightly_combed = TRUE ;
} else if ( block_score > block_thresh ) {
GstCaps * caps = GST_BUFFER_CAPS ( fields [ 0 ] . buf ) ;
GstStructure * struc = gst_caps_get_structure ( caps , 0 ) ;
gboolean interlaced ;
if ( gst_structure_get_boolean ( struc , " interlaced " , & interlaced )
& & interlaced = = TRUE ) {
return 1.0f ; /* blend */
} else {
return 2.0f ; /* deinterlace */
}
}
}
return ( gfloat ) slightly_combed ; /* TRUE means blend, else don't */
}
/* this is where the magic happens
*
* the buffer incoming to the chain function ( buf_to_queue ) is added to the
* internal queue and then should no longer be used until it is popped from the
* queue .
*
* analysis is performed on the incoming buffer ( peeked from the queue ) and the
* previous buffer using two classes of metrics making up five individual
* scores .
*
* there are two same - parity comparisons : top of current with top of previous
* and bottom of current with bottom of previous
*
* there are three opposing parity comparisons : top of current with bottom of
* _current_ , top of current with bottom of previous and bottom of current with
* top of previous .
*
* from the results of these comparisons we can use some rather complex logic to
* identify the state of the previous buffer , decorate and return it and
* identify some preliminary state of the current buffer .
*
* the returned buffer has a ref on it ( it has come from _make_metadata_writable
* that was called on an incoming buffer that was queued and then popped ) */
static GstBuffer *
gst_field_analysis_process_buffer ( GstFieldAnalysis * filter ,
GstBuffer * * buf_to_queue )
{
GQueue * queue ;
guint n_queued ;
/* res0/1 correspond to f0/1 */
FieldAnalysis * res0 , * res1 ;
FieldAnalysisFields fields [ 2 ] ;
GstBuffer * outbuf = NULL ;
queue = filter - > frames ;
/* move previous result to res1 */
filter - > results [ 1 ] = filter - > results [ 0 ] ;
res0 = & filter - > results [ 0 ] ; /* results for current frame */
res1 = & filter - > results [ 1 ] ; /* results for previous frame */
/* we have a ref on buf_to_queue when it is added to the queue */
g_queue_push_tail ( queue , ( gpointer ) * buf_to_queue ) ;
/* WARNING: buf_to_queue must not be used again!!! */
* buf_to_queue = NULL ;
n_queued = g_queue_get_length ( queue ) ;
/* we do it like this because the first frame has no predecessor so this is
* the only result we can get for it */
if ( n_queued > = 1 ) {
/* compare the fields within the buffer, if the buffer exhibits combing it
* could be interlaced or a mixed telecine frame */
fields [ 0 ] . buf = fields [ 1 ] . buf = g_queue_peek_tail ( queue ) ;
fields [ 0 ] . parity = TOP_FIELD ;
fields [ 1 ] . parity = BOTTOM_FIELD ;
res0 - > f = filter - > same_frame ( filter , fields ) ;
res0 - > t = res0 - > b = res0 - > t_b = res0 - > b_t = G_MAXINT64 ;
if ( n_queued = = 1 )
GST_DEBUG_OBJECT ( filter , " Scores: f %f, t , b , t_b , b_t " , res0 - > f ) ;
if ( res0 - > f < = filter - > frame_thresh ) {
res0 - > conclusion = FIELD_ANALYSIS_PROGRESSIVE ;
} else {
res0 - > conclusion = FIELD_ANALYSIS_INTERLACED ;
}
res0 - > holding = - 1 ; /* needed fields unknown */
2011-04-06 13:58:07 +00:00
res0 - > drop = FALSE ;
2010-09-15 15:32:09 +00:00
}
if ( n_queued > = 2 ) {
guint telecine_matches ;
gboolean first_buffer = filter - > first_buffer ;
filter - > first_buffer = FALSE ;
fields [ 1 ] . buf = g_queue_peek_nth ( queue , n_queued - 2 ) ;
/* compare the top and bottom fields to the previous frame */
fields [ 0 ] . parity = TOP_FIELD ;
fields [ 1 ] . parity = TOP_FIELD ;
res0 - > t = filter - > same_field ( filter , fields ) ;
fields [ 0 ] . parity = BOTTOM_FIELD ;
fields [ 1 ] . parity = BOTTOM_FIELD ;
res0 - > b = filter - > same_field ( filter , fields ) ;
/* compare the top field from this frame to the bottom of the previous for
* for combing ( and vice versa ) */
fields [ 0 ] . parity = TOP_FIELD ;
fields [ 1 ] . parity = BOTTOM_FIELD ;
res0 - > t_b = filter - > same_frame ( filter , fields ) ;
fields [ 0 ] . parity = BOTTOM_FIELD ;
fields [ 1 ] . parity = TOP_FIELD ;
res0 - > b_t = filter - > same_frame ( filter , fields ) ;
GST_DEBUG_OBJECT ( filter ,
" Scores: f %f, t %f, b %f, t_b %f, b_t %f " , res0 - > f ,
res0 - > t , res0 - > b , res0 - > t_b , res0 - > b_t ) ;
/* analysis */
telecine_matches = 0 ;
if ( res0 - > t_b < = filter - > frame_thresh )
telecine_matches | = FIELD_ANALYSIS_TOP_BOTTOM ;
if ( res0 - > b_t < = filter - > frame_thresh )
telecine_matches | = FIELD_ANALYSIS_BOTTOM_TOP ;
/* normally if there is a top or bottom field match, it is significantly
* smaller than the other match - try 10 % */
if ( res0 - > t < = filter - > field_thresh | | res0 - > t * ( 100 / 10 ) < res0 - > b )
telecine_matches | = FIELD_ANALYSIS_TOP_MATCH ;
if ( res0 - > b < = filter - > field_thresh | | res0 - > b * ( 100 / 10 ) < res0 - > t )
telecine_matches | = FIELD_ANALYSIS_BOTTOM_MATCH ;
if ( telecine_matches & ( FIELD_ANALYSIS_TOP_MATCH |
FIELD_ANALYSIS_BOTTOM_MATCH ) ) {
/* we have a repeated field => some kind of telecine */
if ( res1 - > f < = filter - > frame_thresh ) {
/* prev P */
if ( ( telecine_matches & FIELD_ANALYSIS_TOP_MATCH )
& & ( telecine_matches & FIELD_ANALYSIS_BOTTOM_MATCH ) ) {
/* prev P, cur repeated => cur P */
res0 - > conclusion = FIELD_ANALYSIS_TELECINE_PROGRESSIVE ;
res0 - > holding = 1 + BOTH_FIELDS ;
2011-04-06 13:58:07 +00:00
/* push prev P, RFF */
res1 - > drop = TRUE ;
2010-09-15 15:32:09 +00:00
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else {
/* prev P, cur t xor b matches => cur TCM */
res0 - > conclusion = FIELD_ANALYSIS_TELECINE_MIXED ;
/* hold non-repeated: if bottom match, hold top = 1 + 0 */
res0 - > holding = 1 + ! ( telecine_matches & FIELD_ANALYSIS_BOTTOM_MATCH ) ;
/* push prev P */
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
}
} else {
/* prev !P */
gboolean b , t ;
if ( res0 - > f < = filter - > frame_thresh ) {
/* cur P */
res0 - > conclusion = FIELD_ANALYSIS_TELECINE_PROGRESSIVE ;
res0 - > holding = 1 + BOTH_FIELDS ;
} else {
/* cur !P */
res0 - > conclusion = FIELD_ANALYSIS_TELECINE_MIXED ;
if ( telecine_matches & FIELD_ANALYSIS_TOP_MATCH
& & telecine_matches & FIELD_ANALYSIS_BOTTOM_MATCH ) {
/* cur t && b */
res0 - > holding = 0 ;
} else {
/* cur t xor b; hold non-repeated */
res0 - > holding =
1 + ! ( telecine_matches & FIELD_ANALYSIS_BOTTOM_MATCH ) ;
}
}
if ( res1 - > holding = = - 1 ) {
b = t = TRUE ;
} else {
b = res1 - > holding = = 1 + BOTTOM_FIELD ;
t = res1 - > holding = = 1 + TOP_FIELD ;
}
if ( ( t & & telecine_matches & FIELD_ANALYSIS_BOTTOM_MATCH ) | | ( b
& & telecine_matches & FIELD_ANALYSIS_TOP_MATCH ) ) {
if ( t & & telecine_matches & FIELD_ANALYSIS_BOTTOM_MATCH ) {
res1 - > holding = 1 + TOP_FIELD ;
} else if ( b & & telecine_matches & FIELD_ANALYSIS_TOP_MATCH ) {
res1 - > holding = 1 + BOTTOM_FIELD ;
}
/* push 1F held field */
outbuf =
gst_field_analysis_decorate ( filter , ! ( res1 - > holding - 1 ) , TRUE ,
2011-04-06 13:58:07 +00:00
res1 - > conclusion , res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else if ( res0 - > f > filter - > frame_thresh & & ( ( t
& & telecine_matches & FIELD_ANALYSIS_BOTTOM_TOP ) | | ( b
& & telecine_matches & FIELD_ANALYSIS_TOP_BOTTOM ) ) ) {
if ( t & & telecine_matches & FIELD_ANALYSIS_BOTTOM_TOP ) {
res1 - > holding = 1 + TOP_FIELD ;
} else if ( b & & telecine_matches & FIELD_ANALYSIS_TOP_BOTTOM ) {
res1 - > holding = 1 + BOTTOM_FIELD ;
}
res0 - > conclusion = FIELD_ANALYSIS_TELECINE_MIXED ;
/* hold the opposite field to the one held in the last frame */
res0 - > holding = 1 + ( res1 - > holding = = 1 + TOP_FIELD ) ;
/* push 1F held field */
outbuf =
gst_field_analysis_decorate ( filter , ! ( res1 - > holding - 1 ) , TRUE ,
2011-04-06 13:58:07 +00:00
res1 - > conclusion , res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else if ( first_buffer & & ( telecine_matches & FIELD_ANALYSIS_BOTTOM_TOP
| | telecine_matches & FIELD_ANALYSIS_TOP_BOTTOM ) ) {
/* non-matched field is an orphan in the first buffer - push orphan as 1F */
res1 - > conclusion = FIELD_ANALYSIS_TELECINE_MIXED ;
/* if prev b matched, prev t is orphan */
res1 - > holding = 1 + ! ( telecine_matches & FIELD_ANALYSIS_TOP_BOTTOM ) ;
/* push 1F held field */
outbuf =
gst_field_analysis_decorate ( filter , ! ( res1 - > holding - 1 ) , TRUE ,
2011-04-06 13:58:07 +00:00
res1 - > conclusion , res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else if ( res1 - > holding = = 1 + BOTH_FIELDS | | res1 - > holding = = - 1 ) {
/* holding both fields, push prev as is */
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else {
2011-04-06 13:58:07 +00:00
/* push prev as is with RFF */
res1 - > drop = TRUE ;
2010-09-15 15:32:09 +00:00
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
}
}
} else if ( res0 - > f < = filter - > frame_thresh ) {
/* cur P */
res0 - > conclusion = FIELD_ANALYSIS_PROGRESSIVE ;
res0 - > holding = 1 + BOTH_FIELDS ;
if ( res1 - > holding = = 1 + BOTH_FIELDS | | res1 - > holding = = - 1 ) {
/* holding both fields, push prev as is */
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else if ( res1 - > holding > 0 ) {
/* holding one field, push prev 1F held */
outbuf =
gst_field_analysis_decorate ( filter , ! ( res1 - > holding - 1 ) , TRUE ,
2011-04-06 13:58:07 +00:00
res1 - > conclusion , res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else {
2011-04-06 13:58:07 +00:00
/* unknown or no fields held, push prev as is with RFF */
/* this will push unknown as drop - should be pushed as not drop? */
res1 - > drop = TRUE ;
2010-09-15 15:32:09 +00:00
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
}
} else {
/* cur !P */
if ( telecine_matches & ( FIELD_ANALYSIS_TOP_BOTTOM |
FIELD_ANALYSIS_BOTTOM_TOP ) ) {
/* cross-parity match => TCM */
gboolean b , t ;
if ( res1 - > holding = = - 1 ) {
b = t = TRUE ;
} else {
b = res1 - > holding = = 1 + BOTTOM_FIELD ;
t = res1 - > holding = = 1 + TOP_FIELD ;
}
res0 - > conclusion = FIELD_ANALYSIS_TELECINE_MIXED ;
/* leave holding as unknown */
if ( res1 - > holding = = 1 + BOTH_FIELDS ) {
/* prev P/TCP/I [or TCM repeated (weird case)] */
/* push prev as is */
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else if ( ( t & & telecine_matches & FIELD_ANALYSIS_TOP_BOTTOM ) | | ( b
& & telecine_matches & FIELD_ANALYSIS_BOTTOM_TOP ) ) {
/* held is opposite to matched => need both field from prev */
/* if t_b, hold bottom from prev and top from current, else vice-versa */
res1 - > holding = 1 + ! ! ( telecine_matches & FIELD_ANALYSIS_TOP_BOTTOM ) ;
res0 - > holding = 1 + ! ( telecine_matches & FIELD_ANALYSIS_TOP_BOTTOM ) ;
/* push prev TCM */
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else if ( ( res1 - > holding > 0 & & res1 - > holding ! = 1 + BOTH_FIELDS ) | | ( t
& & telecine_matches & FIELD_ANALYSIS_BOTTOM_TOP ) | | ( b
& & telecine_matches & FIELD_ANALYSIS_TOP_BOTTOM ) ) {
/* held field is needed, push prev 1F held */
outbuf =
gst_field_analysis_decorate ( filter , ! ( res1 - > holding - 1 ) , TRUE ,
2011-04-06 13:58:07 +00:00
res1 - > conclusion , res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else {
/* holding none or unknown */
2011-04-06 13:58:07 +00:00
/* push prev as is with RFF */
res1 - > drop = TRUE ;
2010-09-15 15:32:09 +00:00
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
}
} else {
/* cur I */
res0 - > conclusion = FIELD_ANALYSIS_INTERLACED ;
res0 - > holding = 1 + BOTH_FIELDS ;
/* push prev appropriately */
2011-04-06 13:58:07 +00:00
res1 - > drop = res1 - > holding < = 0 ;
2010-09-15 15:32:09 +00:00
if ( res1 - > holding ! = 0 ) {
2011-04-06 13:58:07 +00:00
res1 - > drop = FALSE ;
2010-09-15 15:32:09 +00:00
if ( res1 - > holding = = 1 + BOTH_FIELDS | | res1 - > holding = = - 1 ) {
/* push prev as is */
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE ,
2011-04-06 13:58:07 +00:00
res1 - > conclusion , res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
} else {
/* push prev 1F held */
outbuf =
gst_field_analysis_decorate ( filter , ! ( res1 - > holding - 1 ) , TRUE ,
2011-04-06 13:58:07 +00:00
res1 - > conclusion , res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
}
} else {
2011-04-06 13:58:07 +00:00
/* push prev as is with RFF */
res1 - > drop = TRUE ;
2010-09-15 15:32:09 +00:00
outbuf =
gst_field_analysis_decorate ( filter , - 1 , FALSE , res1 - > conclusion ,
2011-04-06 13:58:07 +00:00
res1 - > drop ) ;
2010-09-15 15:32:09 +00:00
}
}
}
}
switch ( res0 - > conclusion ) {
case FIELD_ANALYSIS_PROGRESSIVE :
GST_DEBUG_OBJECT ( filter , " Conclusion: PROGRESSIVE " ) ;
break ;
case FIELD_ANALYSIS_INTERLACED :
GST_DEBUG_OBJECT ( filter , " Conclusion: INTERLACED " ) ;
break ;
case FIELD_ANALYSIS_TELECINE_PROGRESSIVE :
GST_DEBUG_OBJECT ( filter , " Conclusion: TC PROGRESSIVE " ) ;
break ;
case FIELD_ANALYSIS_TELECINE_MIXED :
GST_DEBUG_OBJECT ( filter , " Conclusion: TC MIXED %s " ,
res0 - > holding = =
1 + BOTH_FIELDS ? " top and bottom " : res0 - > holding = =
1 + BOTTOM_FIELD ? " bottom " : " top " ) ;
break ;
default :
GST_DEBUG_OBJECT ( filter , " Invalid conclusion! This is a bug! " ) ;
break ;
}
GST_DEBUG_OBJECT ( filter , " Items remaining in the queue: %d " ,
g_queue_get_length ( queue ) ) ;
return outbuf ;
}
/* we have a ref on buf when it comes into chain */
static GstFlowReturn
gst_field_analysis_chain ( GstPad * pad , GstBuffer * buf )
{
GstFlowReturn ret = GST_FLOW_OK ;
GstFieldAnalysis * filter ;
GstBuffer * outbuf = NULL ;
filter = GST_FIELDANALYSIS ( GST_OBJECT_PARENT ( pad ) ) ;
GST_OBJECT_LOCK ( filter ) ;
if ( filter - > flushing ) {
GST_DEBUG_OBJECT ( filter , " We are flushing. " ) ;
/* we have a ref on buf so it must be unreffed */
goto unref_unlock_ret ;
}
if ( GST_BUFFER_FLAG_IS_SET ( buf , GST_BUFFER_FLAG_DISCONT ) ) {
GST_DEBUG_OBJECT ( filter , " Discont: flushing " ) ;
/* we should have a ref on outbuf, either because we had one when it entered
* the queue and _make_metadata_writable ( ) inside _decorate ( ) returned
* the same buffer or because it returned a new buffer on which we have one
* ref */
outbuf = gst_field_analysis_flush_one ( filter , NULL ) ;
if ( outbuf ) {
/* we give away our ref on outbuf here */
GST_OBJECT_UNLOCK ( filter ) ;
ret = gst_pad_push ( filter - > srcpad , outbuf ) ;
GST_OBJECT_LOCK ( filter ) ;
if ( filter - > flushing ) {
GST_DEBUG_OBJECT ( filter , " We are flushing. outbuf already pushed. " ) ;
/* we have a ref on buf so it must be unreffed */
goto unref_unlock_ret ;
}
}
2011-10-28 09:10:06 +00:00
gst_field_analysis_empty_queue ( filter ) ;
2010-09-15 15:32:09 +00:00
if ( ret ! = GST_FLOW_OK ) {
GST_DEBUG_OBJECT ( filter ,
" Pushing of flushed buffer failed with return %d " , ret ) ;
/* we have a ref on buf so it must be unreffed */
goto unref_unlock_ret ;
} else {
outbuf = NULL ;
}
}
/* after this function, buf has been pushed to the internal queue and its ref
* retained there and we have a ref on outbuf */
outbuf = gst_field_analysis_process_buffer ( filter , & buf ) ;
GST_OBJECT_UNLOCK ( filter ) ;
/* here we give up our ref on outbuf */
if ( outbuf )
ret = gst_pad_push ( filter - > srcpad , outbuf ) ;
return ret ;
unref_unlock_ret :
/* we must unref the input buffer here */
gst_buffer_unref ( buf ) ;
GST_OBJECT_UNLOCK ( filter ) ;
return ret ;
}
static GstStateChangeReturn
gst_field_analysis_change_state ( GstElement * element ,
GstStateChange transition )
{
GstStateChangeReturn ret ;
GstFieldAnalysis * filter = GST_FIELDANALYSIS ( element ) ;
switch ( transition ) {
case GST_STATE_CHANGE_NULL_TO_READY :
break ;
case GST_STATE_CHANGE_READY_TO_PAUSED :
break ;
case GST_STATE_CHANGE_PAUSED_TO_PLAYING :
break ;
default :
break ;
}
ret = GST_ELEMENT_CLASS ( parent_class ) - > change_state ( element , transition ) ;
if ( ret ! = GST_STATE_CHANGE_SUCCESS )
return ret ;
switch ( transition ) {
case GST_STATE_CHANGE_PLAYING_TO_PAUSED :
break ;
case GST_STATE_CHANGE_PAUSED_TO_READY :
gst_field_analysis_reset ( filter ) ;
break ;
case GST_STATE_CHANGE_READY_TO_NULL :
default :
break ;
}
return ret ;
}
static void
gst_field_analysis_finalize ( GObject * object )
{
GstFieldAnalysis * filter = GST_FIELDANALYSIS ( object ) ;
gst_field_analysis_reset ( filter ) ;
g_queue_free ( filter - > frames ) ;
G_OBJECT_CLASS ( parent_class ) - > finalize ( object ) ;
}
static gboolean
fieldanalysis_init ( GstPlugin * fieldanalysis )
{
GST_DEBUG_CATEGORY_INIT ( gst_field_analysis_debug , " fieldanalysis " ,
0 , " Video field analysis " ) ;
gst_fieldanalysis_orc_init ( ) ;
return gst_element_register ( fieldanalysis , " fieldanalysis " , GST_RANK_NONE ,
GST_TYPE_FIELDANALYSIS ) ;
}
GST_PLUGIN_DEFINE ( GST_VERSION_MAJOR ,
GST_VERSION_MINOR ,
" fieldanalysis " ,
" Video field analysis " ,
fieldanalysis_init , VERSION , " LGPL " , " GStreamer " , " http://gstreamer.net/ " )