/* #define DEBUG */
/* subspic.c, Frame buffer substitution routines */
/* Copyright (C) 1996, MPEG Software Simulation Group. All Rights Reserved. */
/*
* Disclaimer of Warranty
*
* These software programs are available to the user without any license fee or
* royalty on an "as is" basis. The MPEG Software Simulation Group disclaims
* any and all warranties, whether express, implied, or statuary, including any
* implied warranties or merchantability or of fitness for a particular
* purpose. In no event shall the copyright-holder be liable for any
* incidental, punitive, or consequential damages of any kind whatsoever
* arising from the use of these programs.
*
* This disclaimer of warranty extends to the user of these programs and user's
* customers, employees, agents, transferees, successors, and assigns.
*
* The MPEG Software Simulation Group does not represent or warrant that the
* programs furnished hereunder are free of infringement of any third-party
* patents.
*
* Commercial implementations of MPEG-1 and MPEG-2 video, including shareware,
* are subject to royalty fees to patent holders. Many of these patents are
* general enough such that they are unavoidable regardless of implementation
* design.
*
*/
#include <stdlib.h>
#include "config.h"
#include "global.h"
/* private prototypes*/
static void Read_Frame _ANSI_ARGS_
((char *filename
,
unsigned char *frame_buffer
[], int framenum
));
static void Copy_Frame _ANSI_ARGS_
((unsigned char *src
, unsigned char *dst
,
int width
, int height
, int parity
, int incr
));
static int Read_Components _ANSI_ARGS_
((char *filename
,
unsigned char *frame
[3], int framenum
));
static int Read_Component _ANSI_ARGS_
((char *fname
, unsigned char *frame
,
int width
, int height
));
static int Extract_Components _ANSI_ARGS_
((char *filename
,
unsigned char *frame
[3], int framenum
));
extern int read
(int Infile
, void *Rdbfr
, int rdsize
);
/* substitute frame buffer routine */
void Substitute_Frame_Buffer
(bitstream_framenum
, sequence_framenum
)
int bitstream_framenum
;
int sequence_framenum
;
{
/* static tracking variables */
static int previous_temporal_reference
;
static int previous_bitstream_framenum
;
static int previous_anchor_temporal_reference
;
static int previous_anchor_bitstream_framenum
;
static int previous_picture_coding_type
;
static int bgate
;
/* local temporary variables */
int substitute_display_framenum
;
#ifdef DEBUG
cprintf
("SUB: seq fn(%d) bitfn(%d) tempref(%d) picstr(%d) type(%d)\n",
sequence_framenum
, bitstream_framenum
, temporal_reference
,
picture_structure
, picture_coding_type
);
#endif
/* we don't substitute at the first picture of a sequence */
if((sequence_framenum
!=0)||(Second_Field
))
{
/* only at the start of the frame */
if ((picture_structure
==FRAME_PICTURE
)||(!Second_Field
))
{
if(picture_coding_type
==P_TYPE
)
{
/* the most recently decoded reference frame needs substituting */
substitute_display_framenum
= bitstream_framenum
- 1;
Read_Frame
(Substitute_Picture_Filename
, forward_reference_frame
,
substitute_display_framenum
);
}
/* only the first B frame in a consequitve set of B pictures
loads a substitute backward_reference_frame since all subsequent
B frames predict from the same reference pictures */
else if((picture_coding_type
==B_TYPE
)&&(bgate
!=1))
{
substitute_display_framenum
=
(previous_temporal_reference
- temporal_reference
)
+ bitstream_framenum
- 1;
Read_Frame
(Substitute_Picture_Filename
, backward_reference_frame
,
substitute_display_framenum
);
}
} /* P fields can predict from the two most recently decoded fields, even
from the first field of the same frame being decoded */
else if(Second_Field
&& (picture_coding_type
==P_TYPE
))
{
/* our favourite case: the IP field picture pair */
if((previous_picture_coding_type
==I_TYPE
)&&(picture_coding_type
==P_TYPE
))
{
substitute_display_framenum
= bitstream_framenum
;
}
else /* our more generic P field picture pair */
{
substitute_display_framenum
=
(temporal_reference
- previous_anchor_temporal_reference
)
+ bitstream_framenum
- 1;
}
Read_Frame
(Substitute_Picture_Filename
, current_frame
, substitute_display_framenum
);
}
#ifdef DEBUG
else if((picture_coding_type
!=B_TYPE
)||(picture_coding_type
!=D_TYPE
))
{
cprintf
("NO SUBS FOR THIS PICTURE\n");
}
#endif
}
/* set b gate so we don't redundantly load next time around */
if(picture_coding_type
==B_TYPE
)
bgate
= 1;
else
bgate
= 0;
/* update general tracking variables */
if((picture_structure
==FRAME_PICTURE
)||(!Second_Field
))
{
previous_temporal_reference
= temporal_reference
;
previous_bitstream_framenum
= bitstream_framenum
;
}
/* update reference frame tracking variables */
if((picture_coding_type
!=B_TYPE
) &&
((picture_structure
==FRAME_PICTURE
)||Second_Field
))
{
previous_anchor_temporal_reference
= temporal_reference
;
previous_anchor_bitstream_framenum
= bitstream_framenum
;
}
previous_picture_coding_type
= picture_coding_type
;
}
/* Note: fields are only read to serve as the same-frame reference for
a second field */
static void Read_Frame
(fname
,frame
,framenum
)
char *fname
;
unsigned char *frame
[];
int framenum
;
{
int parity
;
int rerr
= 0;
int field_mode
;
if(framenum
<0)
cprintf
("ERROR: framenum (%d) is less than zero\n", framenum
);
if(Big_Picture_Flag
)
rerr
= Extract_Components
(fname
, substitute_frame
, framenum
);
else
rerr
= Read_Components
(fname
, substitute_frame
, framenum
);
if(rerr
!=0)
{
cprintf
("was unable to substitute frame\n");
}
/* now copy to the appropriate buffer */
/* first field (which we are attempting to substitute) must be
of opposite field parity to the current one */
if((Second_Field
)&&(picture_coding_type
==P_TYPE
))
{
parity
= (picture_structure
==TOP_FIELD
? 1:0);
field_mode
= (picture_structure
==FRAME_PICTURE
? 0:1);
}
else
{
/* Like frame structued pictures, B pictures only substitute an entire frame
since both fields always predict from the same frame (with respect
to forward/backwards directions) */
parity
= 0;
field_mode
= 0;
}
Copy_Frame
(substitute_frame
[0], frame
[0], Coded_Picture_Width
,
Coded_Picture_Height
, parity
, field_mode
);
Copy_Frame
(substitute_frame
[1], frame
[1], Chroma_Width
, Chroma_Height
,
parity
, field_mode
);
Copy_Frame
(substitute_frame
[2], frame
[2], Chroma_Width
, Chroma_Height
,
parity
, field_mode
);
#ifdef VERBOSE
if(Verbose_Flag
> NO_LAYER
)
cprintf
("substituted %s %d\n",
(field_mode
? (parity
?"bottom field":"bottom field"):"frame"), framenum
);
#endif
}
static int Read_Components
(filename
, frame
, framenum
)
char *filename
;
unsigned char *frame
[3];
int framenum
;
{
int err
= 0;
char outname
[FILENAME_LENGTH
];
char name
[FILENAME_LENGTH
];
sprintf(outname
,filename
,framenum
);
sprintf(name
,"%s.Y",outname
);
err
+= Read_Component
(name
, frame
[0], Coded_Picture_Width
,
Coded_Picture_Height
);
sprintf(name
,"%s.U",outname
);
err
+= Read_Component
(name
, frame
[1], Chroma_Width
, Chroma_Height
);
sprintf(name
,"%s.V",outname
);
err
+= Read_Component
(name
, frame
[2], Chroma_Width
, Chroma_Height
);
return(err
);
}
static int Read_Component
(Filename
, Frame
, Width
, Height
)
char *Filename
;
unsigned char *Frame
;
int Width
;
int Height
;
{
int Size
;
int Bytes_Read
;
int Infile
;
Size
= Width
*Height
;
#ifdef DEBUG
cprintf
("SUBS: reading %s\n", filename
);
#endif
if(!(Infile
=1)<0)
{
cprintf
("ERROR: unable to open reference filename (%s)\n", Filename
);
return(-1);
}
Bytes_Read
= read
(Infile
, Frame
, Size
);
if(Bytes_Read
!=Size
)
{
cprintf
("was able to read only %d bytes of %d of file %s\n",
Bytes_Read
, Size
, Filename
);
}
return(0);
}
/* optimization: do not open the big file each time. Open once at start
of decoder, and close at the very last frame */
/* Note: "big" files were used in E-mail exchanges almost exclusively by the
MPEG Committee's syntax validation and conformance ad-hoc groups from
the year 1993 until 1995 */
static int Extract_Components
(filename
, frame
, framenum
)
char *filename
;
unsigned char *frame
[3];
int framenum
;
{
/* int err = 0; */
int line
;
int size
, offset
;
cprintf
("Extract_Components\n");
/* compute size of each frame (in bytes) */
size
= (Coded_Picture_Width
*Coded_Picture_Height
);
if(chroma_format
==CHROMA444
)
size
= (size
* 3);
else if(chroma_format
==CHROMA422
)
size
= (size
* 2);
else if(chroma_format
==CHROMA420
)
size
= ((size
*3)>>1);
else
cprintf
("ERROR: chroma_format (%d) not recognized\n", chroma_format
);
/* compute distance into "big" file */
offset
= size
*framenum
;
#ifdef DEBUG
printf("EXTRACTING: frame(%d) offset(%d), size (%d) from %s\n",
framenum
, offset
, size
, filename
);
#endif
/* seek to location in big file where desired frame begins */
/* note: this offset cannot exceed a few billion bytes due to the */
/* obvious limitations of 32-bit integers */
//fseek(fd, offset, 0);
/* Y */
for (line
=0; line
<Coded_Picture_Height
; line
++)
{
//fread(frame[0]+(line*Coded_Picture_Width),1,Coded_Picture_Width,fd);
}
/* Cb */
for (line
=0; line
<Chroma_Height
; line
++)
{
//fread(frame[1]+(line*Chroma_Width),1,Chroma_Width,fd);
}
/* Cr */
for (line
=0; line
<Chroma_Height
; line
++)
{
//fread(frame[2]+(line*Chroma_Width),1,Chroma_Width,fd);
}
//fclose(fd);
return(0);
}
static void Copy_Frame
(src
, dst
, width
, height
, parity
, field_mode
)
unsigned char *src
;
unsigned char *dst
;
int width
;
int height
;
int parity
; /* field parity (top or bottom) to overwrite */
int field_mode
; /* 0 = frame, 1 = field */
{
int row
, col
;
int s
, d
;
int incr
;
s
= d
= 0;
#ifdef DEBUG
cprintf
("COPYING (w=%d, h=%d, parity=%d, field_mode=%d)\n",
width
,height
,parity
,field_mode
);
#endif /* DEBUG */
if(field_mode
)
{
incr
= 2;
if(parity
==0)
s
+= width
;
}
else
{
incr
= 1;
}
for(row
=0; row
<height
; row
+=incr
)
{
for(col
=0; col
<width
; col
++)
{
dst
[d
+col
] = src
[s
+col
];
}
d
+= (width
*incr
);
s
+= (width
*incr
);
}
}