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videolan
vlc
Commits
e5f9d1a3
Commit
e5f9d1a3
authored
Jun 17, 2002
by
Sam Hocevar
Browse files
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Plain Diff
* ./plugins/filter/deinterlace.c: backported new deinterlacing routines.
parent
348eea48
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125 deletions
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-125
ChangeLog
ChangeLog
+3
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plugins/filter/deinterlace.c
plugins/filter/deinterlace.c
+285
-125
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ChangeLog
View file @
e5f9d1a3
...
...
@@ -4,6 +4,9 @@
HEAD
*
./
plugins
/
filter
/
deinterlace
.
c
:
backported
new
deinterlacing
routines
.
*
./
include
/
threads
.
h
,
./
include
/
threads_funcs
.
h
:
backported
the
new
Win32
cond_wait
implementation
from
MAIN
.
*
./
plugins
/
gtk
/
gnome_callbacks
.
c
:
fixed
a
crash
when
activating
preferences
from
the
popup
menu
.
...
...
plugins/filter/deinterlace.c
View file @
e5f9d1a3
...
...
@@ -2,7 +2,7 @@
* deinterlace.c : deinterlacer plugin for vlc
*****************************************************************************
* Copyright (C) 2000, 2001 VideoLAN
* $Id: deinterlace.c,v 1.12
2002/05/28 22:49:25
sam Exp $
* $Id: deinterlace.c,v 1.12
.2.1 2002/06/17 09:32:28
sam Exp $
*
* Authors: Samuel Hocevar <sam@zoy.org>
*
...
...
@@ -35,15 +35,23 @@
#include "filter_common.h"
#define DEINTERLACE_MODE_BOB 1
#define DEINTERLACE_MODE_BLEND 2
#define DEINTERLACE_DISCARD 1
#define DEINTERLACE_MEAN 2
#define DEINTERLACE_BLEND 3
#define DEINTERLACE_BOB 4
#define DEINTERLACE_LINEAR 5
/*****************************************************************************
* Capabilities defined in the other files.
*****************************************************************************/
static
void
vout_getfunctions
(
function_list_t
*
p_function_list
);
static
void
*
memblend
(
void
*
,
const
void
*
,
const
void
*
,
size_t
);
static
void
RenderBob
(
vout_thread_t
*
,
picture_t
*
,
picture_t
*
,
int
);
static
void
RenderMean
(
vout_thread_t
*
,
picture_t
*
,
picture_t
*
);
static
void
RenderBlend
(
vout_thread_t
*
,
picture_t
*
,
picture_t
*
);
static
void
RenderLinear
(
vout_thread_t
*
,
picture_t
*
,
picture_t
*
,
int
);
static
void
Merge
(
void
*
,
const
void
*
,
const
void
*
,
size_t
);
/*****************************************************************************
* Build configuration tree.
...
...
@@ -51,7 +59,7 @@ static void *memblend( void *, const void *, const void *, size_t );
MODULE_CONFIG_START
ADD_CATEGORY_HINT
(
N_
(
"Miscellaneous"
),
NULL
)
ADD_STRING
(
"deinterlace-mode"
,
"bob"
,
NULL
,
N_
(
"Deinterlace mode"
),
N_
(
"one of '
bob' and 'blend
'"
)
)
N_
(
"one of '
discard', 'blend', 'mean', 'bob' or 'linear
'"
)
)
MODULE_CONFIG_STOP
MODULE_INIT_START
...
...
@@ -77,9 +85,13 @@ MODULE_DEACTIVATE_STOP
*****************************************************************************/
typedef
struct
vout_sys_s
{
int
i_mode
;
struct
vout_thread_s
*
p_vout
;
mtime_t
last_date
;
int
i_mode
;
/* Deinterlace mode */
boolean_t
b_double_rate
;
/* Shall we double the framerate? */
mtime_t
last_date
;
mtime_t
next_date
;
vout_thread_t
*
p_vout
;
}
vout_sys_t
;
...
...
@@ -126,6 +138,10 @@ static int vout_Create( vout_thread_t *p_vout )
return
(
1
);
}
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_DISCARD
;
p_vout
->
p_sys
->
b_double_rate
=
0
;
p_vout
->
p_sys
->
last_date
=
0
;
/* Look what method was requested */
psz_method
=
config_GetPszVariable
(
"deinterlace-mode"
);
...
...
@@ -134,28 +150,43 @@ static int vout_Create( vout_thread_t *p_vout )
intf_ErrMsg
(
"vout error: configuration variable %s empty"
,
"deinterlace-mode"
);
intf_ErrMsg
(
"filter error: no valid deinterlace mode provided, "
"using deinterlace:bob"
);
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_MODE_BOB
;
"using deinterlace:discard"
);
}
else
{
if
(
!
strcmp
(
psz_method
,
"bob"
)
)
if
(
!
strcmp
(
psz_method
,
"discard"
)
)
{
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_DISCARD
;
}
else
if
(
!
strcmp
(
psz_method
,
"mean"
)
)
{
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_MEAN
;
}
else
if
(
!
strcmp
(
psz_method
,
"blend"
)
||
!
strcmp
(
psz_method
,
"average"
)
||
!
strcmp
(
psz_method
,
"combine-fields"
)
)
{
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_BLEND
;
}
else
if
(
!
strcmp
(
psz_method
,
"bob"
)
||
!
strcmp
(
psz_method
,
"progressive-scan"
)
)
{
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_MODE_BOB
;
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_BOB
;
p_vout
->
p_sys
->
b_double_rate
=
1
;
}
else
if
(
!
strcmp
(
psz_method
,
"
blend
"
)
)
else
if
(
!
strcmp
(
psz_method
,
"
linear
"
)
)
{
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_MODE_BLEND
;
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_LINEAR
;
p_vout
->
p_sys
->
b_double_rate
=
1
;
}
else
{
intf_ErrMsg
(
"filter error: no valid deinterlace mode provided, "
"using deinterlace:bob"
);
p_vout
->
p_sys
->
i_mode
=
DEINTERLACE_MODE_BOB
;
"using deinterlace:discard"
);
}
}
free
(
psz_method
);
free
(
psz_method
);
}
return
(
0
);
}
...
...
@@ -203,14 +234,17 @@ static int vout_Init( vout_thread_t *p_vout )
case
FOURCC_YV12
:
switch
(
p_vout
->
p_sys
->
i_mode
)
{
case
DEINTERLACE_MODE_BOB
:
case
DEINTERLACE_BOB
:
case
DEINTERLACE_MEAN
:
case
DEINTERLACE_DISCARD
:
p_vout
->
p_sys
->
p_vout
=
vout_CreateThread
(
NULL
,
p_vout
->
output
.
i_width
,
p_vout
->
output
.
i_height
/
2
,
p_vout
->
output
.
i_chroma
,
p_vout
->
output
.
i_aspect
);
break
;
case
DEINTERLACE_MODE_BLEND
:
case
DEINTERLACE_BLEND
:
case
DEINTERLACE_LINEAR
:
p_vout
->
p_sys
->
p_vout
=
vout_CreateThread
(
NULL
,
p_vout
->
output
.
i_width
,
p_vout
->
output
.
i_height
,
...
...
@@ -241,8 +275,6 @@ static int vout_Init( vout_thread_t *p_vout )
return
(
0
);
}
p_vout
->
p_sys
->
last_date
=
0
;
ALLOCATE_DIRECTBUFFERS
(
VOUT_MAX_PICTURES
);
return
(
0
);
...
...
@@ -295,148 +327,278 @@ static int vout_Manage( vout_thread_t *p_vout )
*****************************************************************************/
static
void
vout_Render
(
vout_thread_t
*
p_vout
,
picture_t
*
p_pic
)
{
picture_t
*
p_outpic
;
int
i_plane
,
i_field
;
/* 20ms is a bit arbitrary, but it's only for the first image we get */
mtime_t
new_date
=
p_vout
->
p_sys
->
last_date
?
(
3
*
p_pic
->
date
-
p_vout
->
p_sys
->
last_date
)
/
2
:
p_pic
->
date
+
20000
;
picture_t
*
pp_outpic
[
2
];
/* Get a new picture */
while
(
(
pp_outpic
[
0
]
=
vout_CreatePicture
(
p_vout
->
p_sys
->
p_vout
,
0
,
0
,
0
)
)
==
NULL
)
{
if
(
p_vout
->
b_die
||
p_vout
->
b_error
)
{
return
;
}
msleep
(
VOUT_OUTMEM_SLEEP
);
}
p_vout
->
p_sys
->
last_date
=
p_pic
->
date
;
vout_DatePicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
0
],
p_pic
->
date
)
;
for
(
i_field
=
0
;
i_field
<
2
;
i_field
++
)
/* If we are using double rate, get an additional new picture */
if
(
p_vout
->
p_sys
->
b_double_rate
)
{
/* Get a structure from the video_output. */
while
(
(
p_outpic
=
vout_CreatePicture
(
p_vout
->
p_sys
->
p_vout
,
0
,
0
,
0
)
)
while
(
(
pp_outpic
[
1
]
=
vout_CreatePicture
(
p_vout
->
p_sys
->
p_vout
,
0
,
0
,
0
)
)
==
NULL
)
{
if
(
p_vout
->
b_die
||
p_vout
->
b_error
)
{
vout_DestroyPicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
0
]
);
return
;
}
msleep
(
VOUT_OUTMEM_SLEEP
);
}
vout_DatePicture
(
p_vout
->
p_sys
->
p_vout
,
p_outpic
,
p_pic
->
date
+
i_field
?
new_date
:
p_pic
->
date
);
}
/*
Copy image and skip lines
*/
for
(
i_plane
=
0
;
i_plane
<
p_pic
->
i_planes
;
i_plane
++
)
/*
20ms is a bit arbitrary, but it's only for the first image we get
*/
if
(
!
p_vout
->
p_sys
->
last_date
)
{
u8
*
p_in
,
*
p_out_end
,
*
p_out
;
int
i_increment
;
p_in
=
p_pic
->
p
[
i_plane
].
p_pixels
+
i_field
*
p_pic
->
p
[
i_plane
].
i_pitch
;
vout_DatePicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
1
],
p_pic
->
date
+
20000
);
}
else
{
vout_DatePicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
1
],
(
3
*
p_pic
->
date
-
p_vout
->
p_sys
->
last_date
)
/
2
);
}
p_vout
->
p_sys
->
last_date
=
p_pic
->
date
;
}
p_out
=
p_outpic
->
p
[
i_plane
].
p_pixels
;
p_out_end
=
p_out
+
p_outpic
->
p
[
i_plane
].
i_pitch
*
p_outpic
->
p
[
i_plane
].
i_lines
;
switch
(
p_vout
->
p_sys
->
i_mode
)
{
case
DEINTERLACE_DISCARD
:
RenderBob
(
p_vout
,
pp_outpic
[
0
],
p_pic
,
0
);
vout_DisplayPicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
0
]
);
break
;
case
DEINTERLACE_BOB
:
RenderBob
(
p_vout
,
pp_outpic
[
0
],
p_pic
,
0
);
vout_DisplayPicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
0
]
);
RenderBob
(
p_vout
,
pp_outpic
[
1
],
p_pic
,
1
);
vout_DisplayPicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
1
]
);
break
;
switch
(
p_vout
->
render
.
i_chroma
)
{
case
FOURCC_I420
:
case
FOURCC_IYUV
:
case
FOURCC_YV12
:
case
DEINTERLACE_LINEAR
:
RenderLinear
(
p_vout
,
pp_outpic
[
0
],
p_pic
,
0
);
vout_DisplayPicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
0
]
);
RenderLinear
(
p_vout
,
pp_outpic
[
1
],
p_pic
,
1
);
vout_DisplayPicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
1
]
);
break
;
switch
(
p_vout
->
p_sys
->
i_mode
)
{
case
DEINTERLACE_MODE_BOB
:
for
(
;
p_out
<
p_out_end
;
)
{
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
case
DEINTERLACE_MEAN
:
RenderMean
(
p_vout
,
pp_outpic
[
0
],
p_pic
);
vout_DisplayPicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
0
]
);
break
;
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
p_in
+=
2
*
p_pic
->
p
[
i_plane
].
i_pitch
;
}
break
;
case
DEINTERLACE_BLEND
:
RenderBlend
(
p_vout
,
pp_outpic
[
0
],
p_pic
);
vout_DisplayPicture
(
p_vout
->
p_sys
->
p_vout
,
pp_outpic
[
0
]
);
break
;
}
}
case
DEINTERLACE_MODE_BLEND
:
if
(
i_field
==
0
)
{
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_in
+=
2
*
p_pic
->
p
[
i_plane
].
i_pitch
;
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
}
/*****************************************************************************
* vout_Display: displays previously rendered output
*****************************************************************************
* This function send the currently rendered image to Invert image, waits
* until it is displayed and switch the two rendering buffers, preparing next
* frame.
*****************************************************************************/
static
void
vout_Display
(
vout_thread_t
*
p_vout
,
picture_t
*
p_pic
)
{
;
}
p_out_end
-=
p_outpic
->
p
[
i_plane
].
i_pitch
;
/*****************************************************************************
* RenderBob: renders a bob picture
*****************************************************************************/
static
void
RenderBob
(
vout_thread_t
*
p_vout
,
picture_t
*
p_outpic
,
picture_t
*
p_pic
,
int
i_field
)
{
int
i_plane
;
for
(
;
p_out
<
p_out_end
;
)
{
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
/* Copy image and skip lines */
for
(
i_plane
=
0
;
i_plane
<
p_pic
->
i_planes
;
i_plane
++
)
{
u8
*
p_in
,
*
p_out_end
,
*
p_out
;
int
i_increment
;
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
p_in
=
p_pic
->
p
[
i_plane
].
p_pixels
+
i_field
*
p_pic
->
p
[
i_plane
].
i_pitch
;
memblend
(
p_out
,
p_in
,
p_in
+
2
*
p_pic
->
p
[
i_plane
].
i_pitch
,
p_pic
->
p
[
i_plane
].
i_pitch
)
;
p_out
=
p_outpic
->
p
[
i_plane
].
p_pixels
;
p_out_end
=
p_out
+
p_outpic
->
p
[
i_plane
].
i_pitch
*
p_outpic
->
p
[
i_plane
].
i_lines
;
p_in
+=
2
*
p_pic
->
p
[
i_plane
].
i_pitch
;
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
}
switch
(
p_vout
->
render
.
i_chroma
)
{
case
FOURCC_I420
:
case
FOURCC_IYUV
:
case
FOURCC_YV12
:
#if 0
if( i_field == 0 )
{
p_in -= 2 * p_pic->p[i_plane].i_pitch;
FAST_MEMCPY( p_out, p_in, p_pic->p[i_plane].i_pitch );
}
#endif
for
(
;
p_out
<
p_out_end
;
)
{
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
break
;
}
break
;
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
p_in
+=
2
*
p_pic
->
p
[
i_plane
].
i_pitch
;
}
break
;
case
FOURCC_I422
:
case
FOURCC_I422
:
i_increment
=
2
*
p_pic
->
p
[
i_plane
].
i_pitch
;
i_increment
=
2
*
p_pic
->
p
[
i_plane
].
i_pitch
;
if
(
i_plane
==
Y_PLANE
)
if
(
i_plane
==
Y_PLANE
)
{
for
(
;
p_out
<
p_out_end
;
)
{
for
(
;
p_out
<
p_out_end
;
)
{
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
p_in
+=
i_increment
;
}
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
p_in
+=
i_increment
;
}
else
}
else
{
for
(
;
p_out
<
p_out_end
;
)
{
for
(
;
p_out
<
p_out_end
;
)
{
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
p_in
+=
i_increment
;
}
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
p_in
+=
i_increment
;
}
break
;
default:
break
;
}
}
break
;
vout_DisplayPicture
(
p_vout
->
p_sys
->
p_vout
,
p_outpic
);
default:
break
;
}
}
}
/*****************************************************************************
* vout_Display: displays previously rendered output
*****************************************************************************
* This function send the currently rendered image to Invert image, waits
* until it is displayed and switch the two rendering buffers, preparing next
* frame.
* RenderLinear: displays previously rendered output
*****************************************************************************/
static
void
vout_Display
(
vout_thread_t
*
p_vout
,
picture_t
*
p_pic
)
static
void
RenderLinear
(
vout_thread_t
*
p_vout
,
picture_t
*
p_outpic
,
picture_t
*
p_pic
,
int
i_field
)
{
;
int
i_plane
;
/* Copy image and skip lines */
for
(
i_plane
=
0
;
i_plane
<
p_pic
->
i_planes
;
i_plane
++
)
{
u8
*
p_in
,
*
p_out_end
,
*
p_out
;
p_in
=
p_pic
->
p
[
i_plane
].
p_pixels
+
i_field
*
p_pic
->
p
[
i_plane
].
i_pitch
;
p_out
=
p_outpic
->
p
[
i_plane
].
p_pixels
;
p_out_end
=
p_out
+
p_outpic
->
p
[
i_plane
].
i_pitch
*
p_outpic
->
p
[
i_plane
].
i_lines
;
if
(
i_field
==
0
)
{
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_in
+=
2
*
p_pic
->
p
[
i_plane
].
i_pitch
;
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
}
p_out_end
-=
2
*
p_outpic
->
p
[
i_plane
].
i_pitch
;
for
(
;
p_out
<
p_out_end
;
)
{
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
Merge
(
p_out
,
p_in
,
p_in
+
2
*
p_pic
->
p
[
i_plane
].
i_pitch
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_in
+=
2
*
p_pic
->
p
[
i_plane
].
i_pitch
;
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
}
#if 0
if( i_field == 0 )
{
p_in -= 2 * p_pic->p[i_plane].i_pitch;
FAST_MEMCPY( p_out, p_in, p_pic->p[i_plane].i_pitch );
}
#endif
}
}
static
void
*
memblend
(
void
*
p_dest
,
const
void
*
p_s1
,
const
void
*
p_s2
,
size_t
i_bytes
)
static
void
RenderMean
(
vout_thread_t
*
p_vout
,
picture_t
*
p_outpic
,
picture_t
*
p_pic
)
{
int
i_plane
;
/* Copy image and skip lines */
for
(
i_plane
=
0
;
i_plane
<
p_pic
->
i_planes
;
i_plane
++
)
{
u8
*
p_in
,
*
p_out_end
,
*
p_out
;
p_in
=
p_pic
->
p
[
i_plane
].
p_pixels
;
p_out
=
p_outpic
->
p
[
i_plane
].
p_pixels
;
p_out_end
=
p_out
+
p_outpic
->
p
[
i_plane
].
i_pitch
*
p_outpic
->
p
[
i_plane
].
i_lines
;
/* All lines: mean value */
for
(
;
p_out
<
p_out_end
;
)
{
Merge
(
p_out
,
p_in
,
p_in
+
p_pic
->
p
[
i_plane
].
i_pitch
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
p_in
+=
2
*
p_pic
->
p
[
i_plane
].
i_pitch
;
}
}
}
static
void
RenderBlend
(
vout_thread_t
*
p_vout
,
picture_t
*
p_outpic
,
picture_t
*
p_pic
)
{
int
i_plane
;
/* Copy image and skip lines */
for
(
i_plane
=
0
;
i_plane
<
p_pic
->
i_planes
;
i_plane
++
)
{
u8
*
p_in
,
*
p_out_end
,
*
p_out
;
p_in
=
p_pic
->
p
[
i_plane
].
p_pixels
;
p_out
=
p_outpic
->
p
[
i_plane
].
p_pixels
;
p_out_end
=
p_out
+
p_outpic
->
p
[
i_plane
].
i_pitch
*
p_outpic
->
p
[
i_plane
].
i_lines
;
/* First line: simple copy */
FAST_MEMCPY
(
p_out
,
p_in
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
/* Remaining lines: mean value */
for
(
;
p_out
<
p_out_end
;
)
{
Merge
(
p_out
,
p_in
,
p_in
+
p_pic
->
p
[
i_plane
].
i_pitch
,
p_pic
->
p
[
i_plane
].
i_pitch
);
p_out
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
p_in
+=
p_pic
->
p
[
i_plane
].
i_pitch
;
}
}
}
static
void
Merge
(
void
*
p_dest
,
const
void
*
p_s1
,
const
void
*
p_s2
,
size_t
i_bytes
)
{
u8
*
p_end
=
(
u8
*
)
p_dest
+
i_bytes
-
8
;
...
...
@@ -458,7 +620,5 @@ static void *memblend( void *p_dest, const void *p_s1,
{
*
(
u8
*
)
p_dest
++
=
(
(
u16
)(
*
(
u8
*
)
p_s1
++
)
+
(
u16
)(
*
(
u8
*
)
p_s2
++
)
)
>>
1
;
}
return
p_dest
;
}
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