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libavcodec
vp56.h
Go to the documentation of this file.
1
/*
2
* Copyright (C) 2006 Aurelien Jacobs <aurel@gnuage.org>
3
*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or
7
* modify it under the terms of the GNU Lesser General Public
8
* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* FFmpeg is distributed in the hope that it will be useful,
12
* but WITHOUT ANY WARRANTY; without even the implied warranty of
13
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14
* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
17
* License along with FFmpeg; if not, write to the Free Software
18
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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21
/**
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* @file
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* VP5 and VP6 compatible video decoder (common features)
24
*/
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#ifndef AVCODEC_VP56_H
27
#define AVCODEC_VP56_H
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29
#include "
get_bits.h
"
30
#include "
hpeldsp.h
"
31
#include "
bytestream.h
"
32
#include "
h264chroma.h
"
33
#include "
videodsp.h
"
34
#include "
vp3dsp.h
"
35
#include "
vp56dsp.h
"
36
37
typedef
struct
vp56_context
VP56Context;
38
39
typedef
enum
{
40
VP56_FRAME_NONE
=-1,
41
VP56_FRAME_CURRENT
= 0,
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VP56_FRAME_PREVIOUS
= 1,
43
VP56_FRAME_GOLDEN
= 2,
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VP56_FRAME_GOLDEN2
= 3,
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}
VP56Frame
;
46
47
typedef
enum
{
48
VP56_MB_INTER_NOVEC_PF
= 0,
/**< Inter MB, no vector, from previous frame */
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VP56_MB_INTRA
= 1,
/**< Intra MB */
50
VP56_MB_INTER_DELTA_PF
= 2,
/**< Inter MB, above/left vector + delta, from previous frame */
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VP56_MB_INTER_V1_PF
= 3,
/**< Inter MB, first vector, from previous frame */
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VP56_MB_INTER_V2_PF
= 4,
/**< Inter MB, second vector, from previous frame */
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VP56_MB_INTER_NOVEC_GF
= 5,
/**< Inter MB, no vector, from golden frame */
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VP56_MB_INTER_DELTA_GF
= 6,
/**< Inter MB, above/left vector + delta, from golden frame */
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VP56_MB_INTER_4V
= 7,
/**< Inter MB, 4 vectors, from previous frame */
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VP56_MB_INTER_V1_GF
= 8,
/**< Inter MB, first vector, from golden frame */
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VP56_MB_INTER_V2_GF
= 9,
/**< Inter MB, second vector, from golden frame */
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}
VP56mb
;
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60
typedef
struct
VP56Tree
{
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int8_t
val
;
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int8_t
prob_idx
;
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}
VP56Tree
;
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typedef
struct
VP56mv
{
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DECLARE_ALIGNED
(4, int16_t,
x
);
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int16_t
y
;
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}
VP56mv
;
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#define VP56_SIZE_CHANGE 1
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typedef
void
(*
VP56ParseVectorAdjustment
)(VP56Context *
s
,
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VP56mv
*vect);
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typedef
void
(*
VP56Filter
)(VP56Context *
s
,
uint8_t
*dst,
uint8_t
*
src
,
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int
offset1,
int
offset2,
int
stride
,
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VP56mv
mv
,
int
mask
,
int
select,
int
luma);
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typedef
void
(*
VP56ParseCoeff
)(VP56Context *
s
);
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typedef
void
(*
VP56DefaultModelsInit
)(VP56Context *
s
);
79
typedef
void
(*
VP56ParseVectorModels
)(VP56Context *
s
);
80
typedef
int (*
VP56ParseCoeffModels
)(VP56Context *
s
);
81
typedef
int (*
VP56ParseHeader
)(VP56Context *
s
,
const
uint8_t
*
buf
,
82
int
buf_size);
83
84
typedef
struct
VP56RangeCoder
{
85
int
high
;
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int
bits
;
/* stored negated (i.e. negative "bits" is a positive number of
87
bits left) in order to eliminate a negate in cache refilling */
88
const
uint8_t
*
buffer
;
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const
uint8_t
*
end
;
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unsigned
int
code_word
;
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}
VP56RangeCoder
;
92
93
typedef
struct
VP56RefDc
{
94
uint8_t
not_null_dc
;
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VP56Frame
ref_frame
;
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int16_t
dc_coeff
;
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}
VP56RefDc
;
98
99
typedef
struct
VP56Macroblock
{
100
uint8_t
type
;
101
VP56mv
mv
;
102
}
VP56Macroblock
;
103
104
typedef
struct
VP56Model
{
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uint8_t
coeff_reorder
[64];
/* used in vp6 only */
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uint8_t
coeff_index_to_pos
[64];
/* used in vp6 only */
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uint8_t
vector_sig
[2];
/* delta sign */
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uint8_t
vector_dct
[2];
/* delta coding types */
109
uint8_t
vector_pdi
[2][2];
/* predefined delta init */
110
uint8_t
vector_pdv
[2][7];
/* predefined delta values */
111
uint8_t
vector_fdv
[2][8];
/* 8 bit delta value definition */
112
uint8_t
coeff_dccv
[2][11];
/* DC coeff value */
113
uint8_t
coeff_ract
[2][3][6][11];
/* Run/AC coding type and AC coeff value */
114
uint8_t
coeff_acct
[2][3][3][6][5];
/* vp5 only AC coding type for coding group < 3 */
115
uint8_t
coeff_dcct
[2][36][5];
/* DC coeff coding type */
116
uint8_t
coeff_runv
[2][14];
/* run value (vp6 only) */
117
uint8_t
mb_type
[3][10][10];
/* model for decoding MB type */
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uint8_t
mb_types_stats
[3][10][2];
/* contextual, next MB type stats */
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}
VP56Model
;
120
121
struct
vp56_context
{
122
AVCodecContext
*
avctx
;
123
H264ChromaContext
h264chroma
;
124
HpelDSPContext
hdsp
;
125
VideoDSPContext
vdsp
;
126
VP3DSPContext
vp3dsp
;
127
VP56DSPContext
vp56dsp
;
128
uint8_t
idct_scantable
[64];
129
AVFrame
*
frames
[4];
130
uint8_t
*
edge_emu_buffer_alloc
;
131
uint8_t
*
edge_emu_buffer
;
132
VP56RangeCoder
c
;
133
VP56RangeCoder
cc
;
134
VP56RangeCoder
*
ccp
;
135
int
sub_version
;
136
137
/* frame info */
138
int
golden_frame
;
139
int
plane_width
[4];
140
int
plane_height
[4];
141
int
mb_width
;
/* number of horizontal MB */
142
int
mb_height
;
/* number of vertical MB */
143
int
block_offset
[6];
144
145
int
quantizer
;
146
uint16_t
dequant_dc
;
147
uint16_t
dequant_ac
;
148
149
/* DC predictors management */
150
VP56RefDc
*
above_blocks
;
151
VP56RefDc
left_block
[4];
152
int
above_block_idx
[6];
153
int16_t
prev_dc
[3][3];
/* [plan][ref_frame] */
154
155
/* blocks / macroblock */
156
VP56mb
mb_type
;
157
VP56Macroblock
*
macroblocks
;
158
DECLARE_ALIGNED
(16, int16_t,
block_coeff
)[6][64];
159
160
/* motion vectors */
161
VP56mv
mv
[6];
/* vectors for each block in MB */
162
VP56mv
vector_candidate
[2];
163
int
vector_candidate_pos
;
164
165
/* filtering hints */
166
int
filter_header
;
/* used in vp6 only */
167
int
deblock_filtering
;
168
int
filter_selection
;
169
int
filter_mode
;
170
int
max_vector_length
;
171
int
sample_variance_threshold
;
172
173
uint8_t
coeff_ctx
[4][64];
/* used in vp5 only */
174
uint8_t
coeff_ctx_last
[4];
/* used in vp5 only */
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176
int
has_alpha
;
177
178
/* upside-down flipping hints */
179
int
flip
;
/* are we flipping ? */
180
int
frbi
;
/* first row block index in MB */
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int
srbi
;
/* second row block index in MB */
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int
stride
[4];
/* stride for each plan */
183
184
const
uint8_t
*
vp56_coord_div
;
185
VP56ParseVectorAdjustment
parse_vector_adjustment
;
186
VP56Filter
filter
;
187
VP56ParseCoeff
parse_coeff
;
188
VP56DefaultModelsInit
default_models_init
;
189
VP56ParseVectorModels
parse_vector_models
;
190
VP56ParseCoeffModels
parse_coeff_models
;
191
VP56ParseHeader
parse_header
;
192
193
/* for "slice" parallelism between YUV and A */
194
VP56Context *
alpha_context
;
195
196
VP56Model
*
modelp
;
197
VP56Model
model
;
198
199
/* huffman decoding */
200
int
use_huffman
;
201
GetBitContext
gb
;
202
VLC
dccv_vlc
[2];
203
VLC
runv_vlc
[2];
204
VLC
ract_vlc
[2][3][6];
205
unsigned
int
nb_null
[2][2];
/* number of consecutive NULL DC/AC */
206
};
207
208
209
int
ff_vp56_init
(
AVCodecContext
*avctx,
int
flip
,
int
has_alpha);
210
int
ff_vp56_init_context
(
AVCodecContext
*avctx, VP56Context *
s
,
211
int
flip
,
int
has_alpha);
212
int
ff_vp56_free
(
AVCodecContext
*avctx);
213
int
ff_vp56_free_context
(VP56Context *
s
);
214
void
ff_vp56_init_dequant
(VP56Context *
s
,
int
quantizer);
215
int
ff_vp56_decode_frame
(
AVCodecContext
*avctx,
void
*
data
,
int
*got_frame,
216
AVPacket
*avpkt);
217
218
219
/**
220
* vp56 specific range coder implementation
221
*/
222
223
extern
const
uint8_t
ff_vp56_norm_shift
[256];
224
void
ff_vp56_init_range_decoder
(
VP56RangeCoder
*
c
,
const
uint8_t
*
buf
,
int
buf_size);
225
226
static
av_always_inline
unsigned
int
vp56_rac_renorm
(
VP56RangeCoder
*
c
)
227
{
228
int
shift
=
ff_vp56_norm_shift
[c->
high
];
229
int
bits
= c->
bits
;
230
unsigned
int
code_word = c->
code_word
;
231
232
c->
high
<<=
shift
;
233
code_word <<=
shift
;
234
bits +=
shift
;
235
if
(bits >= 0 && c->
buffer
< c->
end
) {
236
code_word |= bytestream_get_be16(&c->
buffer
) <<
bits
;
237
bits -= 16;
238
}
239
c->
bits
=
bits
;
240
return
code_word;
241
}
242
243
#if ARCH_ARM
244
#include "
arm/vp56_arith.h
"
245
#elif ARCH_X86
246
#include "
x86/vp56_arith.h
"
247
#endif
248
249
#ifndef vp56_rac_get_prob
250
#define vp56_rac_get_prob vp56_rac_get_prob
251
static
av_always_inline
int
vp56_rac_get_prob
(
VP56RangeCoder
*
c
,
uint8_t
prob)
252
{
253
unsigned
int
code_word =
vp56_rac_renorm
(c);
254
unsigned
int
low = 1 + (((c->
high
- 1) * prob) >> 8);
255
unsigned
int
low_shift = low << 16;
256
int
bit = code_word >= low_shift;
257
258
c->
high
= bit ? c->
high
- low : low;
259
c->
code_word
= bit ? code_word - low_shift : code_word;
260
261
return
bit;
262
}
263
#endif
264
265
#ifndef vp56_rac_get_prob_branchy
266
// branchy variant, to be used where there's a branch based on the bit decoded
267
static
av_always_inline
int
vp56_rac_get_prob_branchy
(
VP56RangeCoder
*
c
,
int
prob)
268
{
269
unsigned
long
code_word =
vp56_rac_renorm
(c);
270
unsigned
low = 1 + (((c->
high
- 1) * prob) >> 8);
271
unsigned
low_shift = low << 16;
272
273
if
(code_word >= low_shift) {
274
c->
high
-= low;
275
c->
code_word
= code_word - low_shift;
276
return
1;
277
}
278
279
c->
high
= low;
280
c->
code_word
= code_word;
281
return
0;
282
}
283
#endif
284
285
static
av_always_inline
int
vp56_rac_get
(
VP56RangeCoder
*
c
)
286
{
287
unsigned
int
code_word =
vp56_rac_renorm
(c);
288
/* equiprobable */
289
int
low = (c->
high
+ 1) >> 1;
290
unsigned
int
low_shift = low << 16;
291
int
bit = code_word >= low_shift;
292
if
(bit) {
293
c->
high
-= low;
294
code_word -= low_shift;
295
}
else
{
296
c->
high
= low;
297
}
298
299
c->
code_word
= code_word;
300
return
bit;
301
}
302
303
// rounding is different than vp56_rac_get, is vp56_rac_get wrong?
304
static
av_always_inline
int
vp8_rac_get
(
VP56RangeCoder
*
c
)
305
{
306
return
vp56_rac_get_prob
(c, 128);
307
}
308
309
static
int
vp56_rac_gets
(
VP56RangeCoder
*
c
,
int
bits
)
310
{
311
int
value
= 0;
312
313
while
(bits--) {
314
value = (value << 1) |
vp56_rac_get
(c);
315
}
316
317
return
value
;
318
}
319
320
static
int
vp8_rac_get_uint
(
VP56RangeCoder
*
c
,
int
bits
)
321
{
322
int
value
= 0;
323
324
while
(bits--) {
325
value = (value << 1) |
vp8_rac_get
(c);
326
}
327
328
return
value
;
329
}
330
331
// fixme: add 1 bit to all the calls to this?
332
static
av_unused
int
vp8_rac_get_sint
(
VP56RangeCoder
*
c
,
int
bits
)
333
{
334
int
v
;
335
336
if
(!
vp8_rac_get
(c))
337
return
0;
338
339
v =
vp8_rac_get_uint
(c, bits);
340
341
if
(
vp8_rac_get
(c))
342
v = -
v
;
343
344
return
v
;
345
}
346
347
// P(7)
348
static
av_unused
int
vp56_rac_gets_nn
(
VP56RangeCoder
*
c
,
int
bits
)
349
{
350
int
v
=
vp56_rac_gets
(c, 7) << 1;
351
return
v + !
v
;
352
}
353
354
static
av_unused
int
vp8_rac_get_nn
(
VP56RangeCoder
*
c
)
355
{
356
int
v
=
vp8_rac_get_uint
(c, 7) << 1;
357
return
v + !
v
;
358
}
359
360
static
av_always_inline
361
int
vp56_rac_get_tree
(
VP56RangeCoder
*
c
,
362
const
VP56Tree
*tree,
363
const
uint8_t
*probs)
364
{
365
while
(tree->
val
> 0) {
366
if
(
vp56_rac_get_prob_branchy
(c, probs[tree->
prob_idx
]))
367
tree += tree->
val
;
368
else
369
tree++;
370
}
371
return
-tree->
val
;
372
}
373
374
// how probabilities are associated with decisions is different I think
375
// well, the new scheme fits in the old but this way has one fewer branches per decision
376
static
av_always_inline
int
vp8_rac_get_tree
(
VP56RangeCoder
*
c
,
const
int8_t (*tree)[2],
377
const
uint8_t
*probs)
378
{
379
int
i = 0;
380
381
do
{
382
i = tree[i][
vp56_rac_get_prob
(c, probs[i])];
383
}
while
(i > 0);
384
385
return
-i;
386
}
387
388
// DCTextra
389
static
av_always_inline
int
vp8_rac_get_coeff
(
VP56RangeCoder
*c,
const
uint8_t
*prob)
390
{
391
int
v
= 0;
392
393
do
{
394
v = (v<<1) +
vp56_rac_get_prob
(c, *prob++);
395
}
while
(*prob);
396
397
return
v
;
398
}
399
400
#endif
/* AVCODEC_VP56_H */
Generated on Sun Sep 14 2014 18:56:06 for FFmpeg by
1.8.2