2 * This file is part of MPlayer.
4 * MPlayer is free software; you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation; either version 2 of the License, or
7 * (at your option) any later version.
9 * MPlayer is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
14 * You should have received a copy of the GNU General Public License along
15 * with MPlayer; if not, write to the Free Software Foundation, Inc.,
16 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
26 #include "cpudetect.h"
29 #include "img_format.h"
34 #include "libvo/fastmemcpy.h"
38 enum pu_field_type_t
{
48 /* This struct maps to a packed word 64-bit MMX register */
49 unsigned short int even
;
50 unsigned short int odd
;
51 unsigned short int noise
;
52 unsigned short int temp
;
53 } __attribute__ ((aligned (8)));
56 struct metrics tiny
, low
, high
, bigger
, twox
, max
;
57 struct { unsigned int even
, odd
, noise
, temp
; } sad
;
58 unsigned short interlaced_high
;
59 unsigned short interlaced_low
;
60 unsigned short num_blocks
;
64 unsigned long inframes
;
65 unsigned long outframes
;
66 enum pu_field_type_t prev_type
;
67 unsigned swapped
, chroma_swapped
;
71 unsigned long w
, h
, cw
, ch
, stride
, chroma_stride
, nplanes
;
72 unsigned long sad_thres
;
73 unsigned long dint_thres
;
74 unsigned char *memory_allocated
;
75 unsigned char *planes
[2*NUM_STORED
][4];
76 unsigned char **old_planes
;
77 unsigned long static_idx
;
78 unsigned long temp_idx
;
79 unsigned long crop_x
, crop_y
, crop_cx
, crop_cy
;
80 unsigned long export_count
, merge_count
;
81 unsigned long num_breaks
;
82 unsigned long num_copies
;
83 long in_inc
, out_dec
, iosync
;
88 unsigned small_bytes
[2];
90 struct frame_stats stats
[2];
93 double diff_time
, merge_time
, decode_time
, vo_time
, filter_time
;
94 struct vf_detc_pts_buf ptsbuf
;
97 #define PPZ { 2000, 2000, 0, 2000 }
98 #define PPR { 2000, 2000, 0, 2000 }
99 static const struct frame_stats ppzs
= {PPZ
,PPZ
,PPZ
,PPZ
,PPZ
,PPZ
,PPZ
,0,0,9999};
100 static const struct frame_stats pprs
= {PPR
,PPR
,PPR
,PPR
,PPR
,PPR
,PPR
,0,0,9999};
103 #define MIN(a,b) (((a)<(b))?(a):(b))
106 #define MAX(a,b) (((a)>(b))?(a):(b))
109 #define PDIFFUB(X,Y,T) "movq " #X "," #T "\n\t" \
110 "psubusb " #Y "," #T "\n\t" \
111 "psubusb " #X "," #Y "\n\t" \
112 "paddusb " #Y "," #T "\n\t"
114 #define PDIFFUBT(X,Y,T) "movq " #X "," #T "\n\t" \
115 "psubusb " #Y "," #T "\n\t" \
116 "psubusb " #X "," #Y "\n\t" \
117 "paddusb " #T "," #Y "\n\t"
119 #define PSUMBW(X,T,Z) "movq " #X "," #T "\n\t" \
120 "punpcklbw " #Z "," #X "\n\t" \
121 "punpckhbw " #Z "," #T "\n\t" \
122 "paddw " #T "," #X "\n\t" \
123 "movq " #X "," #T "\n\t" \
124 "psllq $32, " #T "\n\t" \
125 "paddw " #T "," #X "\n\t" \
126 "movq " #X "," #T "\n\t" \
127 "psllq $16, " #T "\n\t" \
128 "paddw " #T "," #X "\n\t" \
129 "psrlq $48, " #X "\n\t"
131 #define PSADBW(X,Y,T,Z) PDIFFUBT(X,Y,T) PSUMBW(Y,T,Z)
133 #define PMAXUB(X,Y) "psubusb " #X "," #Y "\n\tpaddusb " #X "," #Y "\n\t"
134 #define PMAXUW(X,Y) "psubusw " #X "," #Y "\n\tpaddusw " #X "," #Y "\n\t"
135 #define PMINUBT(X,Y,T) "movq " #Y "," #T "\n\t" \
136 "psubusb " #X "," #T "\n\t" \
137 "psubusb " #T "," #Y "\n\t"
138 #define PAVGB(X,Y) "pavgusb " #X "," #Y "\n\t"
141 get_metrics_c(unsigned char *a
, unsigned char *b
, int as
, int bs
, int lines
,
147 cmmx_t old_po
= *(cmmx_t
*)(a
);
148 cmmx_t po
= *(cmmx_t
*)(b
);
149 cmmx_t e
= *(cmmx_t
*)(b
+ bs
);
150 cmmx_t old_o
= *(cmmx_t
*)(a
+ 2*as
);
151 cmmx_t o
= *(cmmx_t
*)(b
+ 2*bs
);
152 cmmx_t ne
= *(cmmx_t
*)(b
+ 3*bs
);
153 cmmx_t old_no
= *(cmmx_t
*)(a
+ 4*as
);
154 cmmx_t no
= *(cmmx_t
*)(b
+ 4*bs
);
156 cmmx_t qup_old_odd
= p31avgb(old_o
, old_po
);
157 cmmx_t qup_odd
= p31avgb( o
, po
);
158 cmmx_t qdown_old_odd
= p31avgb(old_o
, old_no
);
159 cmmx_t qdown_odd
= p31avgb( o
, no
);
161 cmmx_t qup_even
= p31avgb(ne
, e
);
162 cmmx_t qdown_even
= p31avgb(e
, ne
);
164 cmmx_t temp_up_diff
= pdiffub(qdown_even
, qup_old_odd
);
165 cmmx_t noise_up_diff
= pdiffub(qdown_even
, qup_odd
);
166 cmmx_t temp_down_diff
= pdiffub(qup_even
, qdown_old_odd
);
167 cmmx_t noise_down_diff
= pdiffub(qup_even
, qdown_odd
);
169 cmmx_t odd_diff
= pdiffub(o
, old_o
);
170 m
->odd
+= psumbw(odd_diff
);
171 m
->even
+= psadbw(e
, *(cmmx_t
*)(a
+as
));
173 temp_up_diff
= pminub(temp_up_diff
, temp_down_diff
);
174 temp_up_diff
= pminub(temp_up_diff
, odd_diff
);
175 m
->temp
+= psumbw(temp_up_diff
);
176 noise_up_diff
= pminub(noise_up_diff
, odd_diff
);
177 noise_up_diff
= pminub(noise_up_diff
, noise_down_diff
);
179 m
->noise
+= psumbw(noise_up_diff
);
186 get_metrics_fast_c(unsigned char *a
, unsigned char *b
, int as
, int bs
,
187 int lines
, struct metrics
*m
)
192 cmmx_t old_po
= (*(cmmx_t
*)(a
) >> 1) & ~SIGN_BITS
;
193 cmmx_t po
= (*(cmmx_t
*)(b
) >> 1) & ~SIGN_BITS
;
194 cmmx_t old_e
= (*(cmmx_t
*)(a
+ as
) >> 1) & ~SIGN_BITS
;
195 cmmx_t e
= (*(cmmx_t
*)(b
+ bs
) >> 1) & ~SIGN_BITS
;
196 cmmx_t old_o
= (*(cmmx_t
*)(a
+ 2*as
) >> 1) & ~SIGN_BITS
;
197 cmmx_t o
= (*(cmmx_t
*)(b
+ 2*bs
) >> 1) & ~SIGN_BITS
;
198 cmmx_t ne
= (*(cmmx_t
*)(b
+ 3*bs
) >> 1) & ~SIGN_BITS
;
199 cmmx_t old_no
= (*(cmmx_t
*)(a
+ 4*as
) >> 1) & ~SIGN_BITS
;
200 cmmx_t no
= (*(cmmx_t
*)(b
+ 4*bs
) >> 1) & ~SIGN_BITS
;
202 cmmx_t qup_old_odd
= p31avgb_s(old_o
, old_po
);
203 cmmx_t qup_odd
= p31avgb_s( o
, po
);
204 cmmx_t qdown_old_odd
= p31avgb_s(old_o
, old_no
);
205 cmmx_t qdown_odd
= p31avgb_s( o
, no
);
207 cmmx_t qup_even
= p31avgb_s(ne
, e
);
208 cmmx_t qdown_even
= p31avgb_s(e
, ne
);
210 cmmx_t temp_up_diff
= pdiffub_s(qdown_even
, qup_old_odd
);
211 cmmx_t noise_up_diff
= pdiffub_s(qdown_even
, qup_odd
);
212 cmmx_t temp_down_diff
= pdiffub_s(qup_even
, qdown_old_odd
);
213 cmmx_t noise_down_diff
= pdiffub_s(qup_even
, qdown_odd
);
215 cmmx_t odd_diff
= pdiffub_s(o
, old_o
);
216 m
->odd
+= psumbw_s(odd_diff
) << 1;
217 m
->even
+= psadbw_s(e
, old_e
) << 1;
219 temp_up_diff
= pminub_s(temp_up_diff
, temp_down_diff
);
220 temp_up_diff
= pminub_s(temp_up_diff
, odd_diff
);
221 m
->temp
+= psumbw_s(temp_up_diff
) << 1;
222 noise_up_diff
= pminub_s(noise_up_diff
, odd_diff
);
223 noise_up_diff
= pminub_s(noise_up_diff
, noise_down_diff
);
225 m
->noise
+= psumbw_s(noise_up_diff
) << 1;
232 get_metrics_faster_c(unsigned char *a
, unsigned char *b
, int as
, int bs
,
233 int lines
, struct metrics
*m
)
238 cmmx_t old_po
= (*(cmmx_t
*)(a
)>>1) & ~SIGN_BITS
;
239 cmmx_t po
= (*(cmmx_t
*)(b
)>>1) & ~SIGN_BITS
;
240 cmmx_t old_e
= (*(cmmx_t
*)(a
+ as
)>>1) & ~SIGN_BITS
;
241 cmmx_t e
= (*(cmmx_t
*)(b
+ bs
)>>1) & ~SIGN_BITS
;
242 cmmx_t old_o
= (*(cmmx_t
*)(a
+ 2*as
)>>1) & ~SIGN_BITS
;
243 cmmx_t o
= (*(cmmx_t
*)(b
+ 2*bs
)>>1) & ~SIGN_BITS
;
244 cmmx_t ne
= (*(cmmx_t
*)(b
+ 3*bs
)>>1) & ~SIGN_BITS
;
246 cmmx_t down_even
= p31avgb_s(e
, ne
);
247 cmmx_t up_odd
= p31avgb_s(o
, po
);
248 cmmx_t up_old_odd
= p31avgb_s(old_o
, old_po
);
250 cmmx_t odd_diff
= pdiffub_s(o
, old_o
);
251 cmmx_t temp_diff
= pdiffub_s(down_even
, up_old_odd
);
252 cmmx_t noise_diff
= pdiffub_s(down_even
, up_odd
);
254 m
->even
+= psadbw_s(e
, old_e
) << 1;
255 m
->odd
+= psumbw_s(odd_diff
) << 1;
257 temp_diff
= pminub_s(temp_diff
, odd_diff
);
258 noise_diff
= pminub_s(noise_diff
, odd_diff
);
260 m
->noise
+= psumbw_s(noise_diff
) << 1;
261 m
->temp
+= psumbw_s(temp_diff
) << 1;
269 get_block_stats(struct metrics
*m
, struct vf_priv_s
*p
, struct frame_stats
*s
)
271 unsigned two_e
= m
->even
+ MAX(m
->even
, p
->thres
.even
);
272 unsigned two_o
= m
->odd
+ MAX(m
->odd
, p
->thres
.odd
);
273 unsigned two_n
= m
->noise
+ MAX(m
->noise
, p
->thres
.noise
);
274 unsigned two_t
= m
->temp
+ MAX(m
->temp
, p
->thres
.temp
);
276 unsigned e_big
= m
->even
>= (m
->odd
+ two_o
+ 1)/2;
277 unsigned o_big
= m
->odd
>= (m
->even
+ two_e
+ 1)/2;
278 unsigned n_big
= m
->noise
>= (m
->temp
+ two_t
+ 1)/2;
279 unsigned t_big
= m
->temp
>= (m
->noise
+ two_n
+ 1)/2;
281 unsigned e2x
= m
->even
>= two_o
;
282 unsigned o2x
= m
->odd
>= two_e
;
283 unsigned n2x
= m
->noise
>= two_t
;
284 unsigned t2x
= m
->temp
>= two_n
;
286 unsigned ntiny_e
= m
->even
> p
->thres
.even
;
287 unsigned ntiny_o
= m
->odd
> p
->thres
.odd
;
288 unsigned ntiny_n
= m
->noise
> p
->thres
.noise
;
289 unsigned ntiny_t
= m
->temp
> p
->thres
.temp
;
291 unsigned nlow_e
= m
->even
> 2*p
->thres
.even
;
292 unsigned nlow_o
= m
->odd
> 2*p
->thres
.odd
;
293 unsigned nlow_n
= m
->noise
> 2*p
->thres
.noise
;
294 unsigned nlow_t
= m
->temp
> 2*p
->thres
.temp
;
296 unsigned high_e
= m
->even
> 4*p
->thres
.even
;
297 unsigned high_o
= m
->odd
> 4*p
->thres
.odd
;
298 unsigned high_n
= m
->noise
> 4*p
->thres
.noise
;
299 unsigned high_t
= m
->temp
> 4*p
->thres
.temp
;
301 unsigned low_il
= !n_big
&& !t_big
&& ntiny_n
&& ntiny_t
;
302 unsigned high_il
= !n_big
&& !t_big
&& nlow_n
&& nlow_t
;
304 if (low_il
| high_il
) {
305 s
->interlaced_low
+= low_il
;
306 s
->interlaced_high
+= high_il
;
308 s
->tiny
.even
+= ntiny_e
;
309 s
->tiny
.odd
+= ntiny_o
;
310 s
->tiny
.noise
+= ntiny_n
;
311 s
->tiny
.temp
+= ntiny_t
;
313 s
->low
.even
+= nlow_e
;
314 s
->low
.odd
+= nlow_o
;
315 s
->low
.noise
+= nlow_n
;
316 s
->low
.temp
+= nlow_t
;
318 s
->high
.even
+= high_e
;
319 s
->high
.odd
+= high_o
;
320 s
->high
.noise
+= high_n
;
321 s
->high
.temp
+= high_t
;
323 if (m
->even
>= p
->sad_thres
) s
->sad
.even
+= m
->even
;
324 if (m
->odd
>= p
->sad_thres
) s
->sad
.odd
+= m
->odd
;
325 if (m
->noise
>= p
->sad_thres
) s
->sad
.noise
+= m
->noise
;
326 if (m
->temp
>= p
->sad_thres
) s
->sad
.temp
+= m
->temp
;
329 s
->max
.even
= MAX(s
->max
.even
, m
->even
);
330 s
->max
.odd
= MAX(s
->max
.odd
, m
->odd
);
331 s
->max
.noise
= MAX(s
->max
.noise
, m
->noise
);
332 s
->max
.temp
= MAX(s
->max
.temp
, m
->temp
);
334 s
->bigger
.even
+= e_big
;
335 s
->bigger
.odd
+= o_big
;
336 s
->bigger
.noise
+= n_big
;
337 s
->bigger
.temp
+= t_big
;
339 s
->twox
.even
+= e2x
;
341 s
->twox
.noise
+= n2x
;
342 s
->twox
.temp
+= t2x
;
346 static inline struct metrics
347 block_metrics_c(unsigned char *a
, unsigned char *b
, int as
, int bs
,
348 int lines
, struct vf_priv_s
*p
, struct frame_stats
*s
)
351 tm
.even
= tm
.odd
= tm
.noise
= tm
.temp
= 0;
352 get_metrics_c(a
, b
, as
, bs
, lines
, &tm
);
353 if (sizeof(cmmx_t
) < 8)
354 get_metrics_c(a
+4, b
+4, as
, bs
, lines
, &tm
);
355 get_block_stats(&tm
, p
, s
);
359 static inline struct metrics
360 block_metrics_fast_c(unsigned char *a
, unsigned char *b
, int as
, int bs
,
361 int lines
, struct vf_priv_s
*p
, struct frame_stats
*s
)
364 tm
.even
= tm
.odd
= tm
.noise
= tm
.temp
= 0;
365 get_metrics_fast_c(a
, b
, as
, bs
, lines
, &tm
);
366 if (sizeof(cmmx_t
) < 8)
367 get_metrics_fast_c(a
+4, b
+4, as
, bs
, lines
, &tm
);
368 get_block_stats(&tm
, p
, s
);
372 static inline struct metrics
373 block_metrics_faster_c(unsigned char *a
, unsigned char *b
, int as
, int bs
,
374 int lines
, struct vf_priv_s
*p
, struct frame_stats
*s
)
377 tm
.even
= tm
.odd
= tm
.noise
= tm
.temp
= 0;
378 get_metrics_faster_c(a
, b
, as
, bs
, lines
, &tm
);
379 if (sizeof(cmmx_t
) < 8)
380 get_metrics_faster_c(a
+4, b
+4, as
, bs
, lines
, &tm
);
381 get_block_stats(&tm
, p
, s
);
385 #define MEQ(X,Y) ((X).even == (Y).even && (X).odd == (Y).odd && (X).temp == (Y).temp && (X).noise == (Y).noise)
387 #define BLOCK_METRICS_TEMPLATE() \
388 __asm__ volatile("pxor %mm7, %mm7\n\t" /* The result is colleted in mm7 */ \
389 "pxor %mm6, %mm6\n\t" /* Temp to stay at 0 */ \
395 "movq (%0,%2), %%mm0\n\t" \
396 "movq (%1,%3), %%mm1\n\t" /* mm1 = even */ \
397 PSADBW(%%mm1, %%mm0, %%mm4, %%mm6) \
398 "paddusw %%mm0, %%mm7\n\t" /* even diff */ \
399 "movq (%0,%2,2), %%mm0\n\t" /* mm0 = old odd */ \
400 "movq (%1,%3,2), %%mm2\n\t" /* mm2 = odd */ \
401 "movq (%0), %%mm3\n\t" \
402 "psubusb %4, %%mm3\n\t" \
403 PAVGB(%%mm0, %%mm3) \
404 PAVGB(%%mm0, %%mm3) /* mm3 = qup old odd */ \
405 "movq %%mm0, %%mm5\n\t" \
406 PSADBW(%%mm2, %%mm0, %%mm4, %%mm6) \
407 "psllq $16, %%mm0\n\t" \
408 "paddusw %%mm0, %%mm7\n\t" \
409 "movq (%1), %%mm4\n\t" \
410 "lea (%0,%2,2), %0\n\t" \
411 "lea (%1,%3,2), %1\n\t" \
412 "psubusb %4, %%mm4\n\t" \
413 PAVGB(%%mm2, %%mm4) \
414 PAVGB(%%mm2, %%mm4) /* mm4 = qup odd */ \
415 PDIFFUBT(%%mm5, %%mm2, %%mm0) /* mm2 =abs(oldodd-odd) */ \
416 "movq (%1,%3), %%mm5\n\t" \
417 "psubusb %4, %%mm5\n\t" \
418 PAVGB(%%mm1, %%mm5) \
419 PAVGB(%%mm5, %%mm1) /* mm1 = qdown even */ \
420 PAVGB((%1,%3), %%mm5) /* mm5 = qup next even */ \
421 PDIFFUBT(%%mm1, %%mm3, %%mm0) /* mm3 = abs(qupoldo-qde) */ \
422 PDIFFUBT(%%mm1, %%mm4, %%mm0) /* mm4 = abs(qupodd-qde) */ \
423 PMINUBT(%%mm2, %%mm3, %%mm0) /* limit temp to odd diff */ \
424 PMINUBT(%%mm2, %%mm4, %%mm0) /* limit noise to odd diff */ \
425 "movq (%1,%3,2), %%mm2\n\t" \
426 "psubusb %4, %%mm2\n\t" \
428 PAVGB((%1), %%mm2) /* mm2 = qdown odd */ \
429 "movq (%0,%2,2), %%mm1\n\t" \
430 "psubusb %4, %%mm1\n\t" \
432 PAVGB((%0), %%mm1) /* mm1 = qdown old odd */ \
433 PDIFFUBT(%%mm5, %%mm2, %%mm0) /* mm2 = abs(qdo-qune) */ \
434 PDIFFUBT(%%mm5, %%mm1, %%mm0) /* mm1 = abs(qdoo-qune) */ \
435 PMINUBT(%%mm4, %%mm2, %%mm0) /* current */ \
436 PMINUBT(%%mm3, %%mm1, %%mm0) /* old */ \
437 PSUMBW(%%mm2, %%mm0, %%mm6) \
438 PSUMBW(%%mm1, %%mm0, %%mm6) \
439 "psllq $32, %%mm2\n\t" \
440 "psllq $48, %%mm1\n\t" \
441 "paddusw %%mm2, %%mm7\n\t" \
442 "paddusw %%mm1, %%mm7\n\t" \
443 : "=r" (a), "=r" (b) \
444 : "r"((x86_reg)as), "r"((x86_reg)bs), "m" (ones), "0"(a), "1"(b), "X"(*a), "X"(*b) \
448 static inline struct metrics
449 block_metrics_3dnow(unsigned char *a
, unsigned char *b
, int as
, int bs
,
450 int lines
, struct vf_priv_s
*p
, struct frame_stats
*s
)
454 mp_msg(MSGT_VFILTER
, MSGL_FATAL
, "block_metrics_3dnow: internal error\n");
456 static const unsigned long long ones
= 0x0101010101010101ull
;
458 BLOCK_METRICS_TEMPLATE();
459 __asm__
volatile("movq %%mm7, %0\n\temms" : "=m" (tm
));
460 get_block_stats(&tm
, p
, s
);
471 #define PSUMBW(X,T,Z) "psadbw " #Z "," #X "\n\t"
472 #define PSADBW(X,Y,T,Z) "psadbw " #X "," #Y "\n\t"
473 #define PMAXUB(X,Y) "pmaxub " #X "," #Y "\n\t"
474 #define PMINUBT(X,Y,T) "pminub " #X "," #Y "\n\t"
475 #define PAVGB(X,Y) "pavgb " #X "," #Y "\n\t"
477 static inline struct metrics
478 block_metrics_mmx2(unsigned char *a
, unsigned char *b
, int as
, int bs
,
479 int lines
, struct vf_priv_s
*p
, struct frame_stats
*s
)
483 mp_msg(MSGT_VFILTER
, MSGL_FATAL
, "block_metrics_mmx2: internal error\n");
485 static const unsigned long long ones
= 0x0101010101010101ull
;
487 x86_reg prefetch_line
= (((long)a
>>3) & 7) + 10;
489 struct frame_stats ts
= *s
;
491 __asm__
volatile("prefetcht0 (%0,%2)\n\t"
492 "prefetcht0 (%1,%3)\n\t" :
494 "r" (prefetch_line
* as
), "r" (prefetch_line
* bs
));
496 BLOCK_METRICS_TEMPLATE();
501 "movq %%mm7, %%mm1\n\t"
502 "psubusw %%mm0, %%mm1\n\t"
503 "movq %%mm1, %%mm2\n\t"
504 "paddusw %%mm0, %%mm2\n\t"
505 "paddusw %%mm7, %%mm2\n\t"
506 "pshufw $0xb1, %%mm2, %%mm3\n\t"
507 "pavgw %%mm7, %%mm2\n\t"
508 "pshufw $0xb1, %%mm2, %%mm2\n\t"
509 "psubusw %%mm7, %%mm2\n\t"
510 "pcmpeqw %%mm6, %%mm2\n\t" /* 1 if >= 1.5x */
511 "psubusw %%mm7, %%mm3\n\t"
512 "pcmpeqw %%mm6, %%mm3\n\t" /* 1 if >= 2x */
515 "psubw %%mm2, %%mm4\n\t"
516 "psubw %%mm3, %%mm5\n\t"
519 "pxor %%mm4, %%mm4\n\t"
520 "pcmpeqw %%mm1, %%mm4\n\t" /* 1 if <= t */
521 "psubusw %%mm0, %%mm1\n\t"
522 "pxor %%mm5, %%mm5\n\t"
523 "pcmpeqw %%mm1, %%mm5\n\t" /* 1 if <= 2t */
524 "psubusw %%mm0, %%mm1\n\t"
525 "psubusw %%mm0, %%mm1\n\t"
526 "pcmpeqw %%mm6, %%mm1\n\t" /* 1 if <= 4t */
527 "pshufw $0xb1, %%mm2, %%mm0\n\t"
528 "por %%mm2, %%mm0\n\t" /* 1 if not close */
529 "punpckhdq %%mm0, %%mm0\n\t"
530 "movq %%mm4, %%mm2\n\t" /* tttt */
531 "punpckhdq %%mm5, %%mm2\n\t" /* ttll */
532 "por %%mm2, %%mm0\n\t"
533 "pcmpeqd %%mm6, %%mm0\n\t" /* close && big */
534 "psrlq $16, %%mm0\n\t"
535 "psrlw $15, %%mm0\n\t"
537 : "=r" (interlaced
), "=m" (s
->bigger
), "=m" (s
->twox
)
542 s
->interlaced_high
+= interlaced
>> 16;
543 s
->interlaced_low
+= interlaced
;
546 "pcmpeqw %%mm0, %%mm0\n\t" /* -1 */
547 "psubw %%mm0, %%mm4\n\t"
548 "psubw %%mm0, %%mm5\n\t"
549 "psubw %%mm0, %%mm1\n\t"
550 "paddw %0, %%mm4\n\t"
551 "paddw %1, %%mm5\n\t"
552 "paddw %2, %%mm1\n\t"
556 : "=m" (s
->tiny
), "=m" (s
->low
), "=m" (s
->high
)
560 "pshufw $0, %2, %%mm0\n\t"
561 "psubusw %%mm7, %%mm0\n\t"
562 "pcmpeqw %%mm6, %%mm0\n\t" /* 0 if below sad_thres */
563 "pand %%mm7, %%mm0\n\t"
564 "movq %%mm0, %%mm1\n\t"
565 "punpcklwd %%mm6, %%mm0\n\t" /* sad even, odd */
566 "punpckhwd %%mm6, %%mm1\n\t" /* sad noise, temp */
567 "paddd %0, %%mm0\n\t"
568 "paddd %1, %%mm1\n\t"
571 : "=m" (s
->sad
.even
), "=m" (s
->sad
.noise
)
577 "movq %%mm7, (%1)\n\t"
579 "movq %%mm7, (%0)\n\t"
581 : : "r" (&s
->max
), "r" (&tm
), "X" (s
->max
)
589 cm
= block_metrics_c(a
, b
, as
, bs
, 4, p
, &ts
);
591 mp_msg(MSGT_VFILTER
, MSGL_WARN
, "Bad metrics\n");
593 # define CHECK(X) if (!MEQ(s->X, ts.X)) \
594 mp_msg(MSGT_VFILTER, MSGL_WARN, "Bad " #X "\n");
608 dint_copy_line_mmx2(unsigned char *dst
, unsigned char *a
, long bos
,
609 long cos
, int ds
, int ss
, int w
, int t
)
612 mp_msg(MSGT_VFILTER
, MSGL_FATAL
, "dint_copy_line_mmx2: internal error\n");
615 unsigned long len
= (w
+7) >> 3;
618 "pxor %%mm6, %%mm6 \n\t" /* deinterlaced pixel counter */
619 "movd %0, %%mm7 \n\t"
620 "punpcklbw %%mm7, %%mm7 \n\t"
621 "punpcklwd %%mm7, %%mm7 \n\t"
622 "punpckldq %%mm7, %%mm7 \n\t" /* mm7 = threshold */
628 "movq (%0), %%mm0\n\t"
629 "movq (%0,%3,2), %%mm1\n\t"
630 "movq %%mm0, (%2)\n\t"
631 "pmaxub %%mm1, %%mm0\n\t"
632 "pavgb (%0), %%mm1\n\t"
633 "psubusb %%mm1, %%mm0\n\t"
634 "paddusb %%mm7, %%mm0\n\t" /* mm0 = max-avg+thr */
635 "movq (%0,%1), %%mm2\n\t"
636 "movq (%0,%5), %%mm3\n\t"
637 "movq %%mm2, %%mm4\n\t"
638 PDIFFUBT(%%mm1
, %%mm2
, %%mm5
)
639 PDIFFUBT(%%mm1
, %%mm3
, %%mm5
)
640 "pminub %%mm2, %%mm3\n\t"
641 "pcmpeqb %%mm3, %%mm2\n\t" /* b = min */
642 "pand %%mm2, %%mm4\n\t"
643 "pandn (%0,%5), %%mm2\n\t"
644 "por %%mm4, %%mm2\n\t"
645 "pminub %%mm0, %%mm3\n\t"
646 "pcmpeqb %%mm0, %%mm3\n\t" /* set to 1s if >= threshold */
647 "psubb %%mm3, %%mm6\n\t" /* count pixels above thr. */
648 "pand %%mm3, %%mm1 \n\t"
649 "pandn %%mm2, %%mm3 \n\t"
650 "por %%mm3, %%mm1 \n\t" /* avg if >= threshold */
651 "movq %%mm1, (%2,%4) \n\t"
653 : "r" (a
), "r" ((x86_reg
)bos
), "r" ((x86_reg
)dst
), "r" ((x86_reg
)ss
), "r" ((x86_reg
)ds
), "r" ((x86_reg
)cos
)
659 __asm__
volatile ("pxor %%mm7, %%mm7 \n\t"
660 "psadbw %%mm6, %%mm7 \n\t"
661 "movd %%mm7, %0 \n\t"
670 dint_copy_line(unsigned char *dst
, unsigned char *a
, long bos
,
671 long cos
, int ds
, int ss
, int w
, int t
)
673 unsigned long len
= ((unsigned long)w
+sizeof(cmmx_t
)-1) / sizeof(cmmx_t
);
674 cmmx_t dint_count
= 0;
678 if (sizeof(cmmx_t
) > 4)
679 thr
|= thr
<< (sizeof(cmmx_t
)*4);
681 cmmx_t e
= *(cmmx_t
*)a
;
682 cmmx_t ne
= *(cmmx_t
*)(a
+2*ss
);
683 cmmx_t o
= *(cmmx_t
*)(a
+bos
);
684 cmmx_t oo
= *(cmmx_t
*)(a
+cos
);
685 cmmx_t maxe
= pmaxub(e
, ne
);
686 cmmx_t avge
= pavgb(e
, ne
);
687 cmmx_t max_diff
= maxe
- avge
+ thr
; /* 0<=max-avg<128, thr<128 */
688 cmmx_t diffo
= pdiffub(avge
, o
);
689 cmmx_t diffoo
= pdiffub(avge
, oo
);
690 cmmx_t diffcmp
= pcmpgtub(diffo
, diffoo
);
691 cmmx_t bo
= ((oo
^ o
) & diffcmp
) ^ o
;
692 cmmx_t diffbo
= ((diffoo
^ diffo
) & diffcmp
) ^ diffo
;
693 cmmx_t above_thr
= ~pcmpgtub(max_diff
, diffbo
);
694 cmmx_t bo_or_avg
= ((avge
^ bo
) & above_thr
) ^ bo
;
695 dint_count
+= above_thr
& ONE_BYTES
;
697 *(cmmx_t
*)(dst
+ds
) = bo_or_avg
;
699 dst
+= sizeof(cmmx_t
);
701 return psumbw(dint_count
);
705 dint_copy_plane(unsigned char *d
, unsigned char *a
, unsigned char *b
,
706 unsigned char *c
, unsigned long w
, unsigned long h
,
707 unsigned long ds
, unsigned long ss
, unsigned long threshold
,
708 long field
, long mmx2
)
710 unsigned long ret
= 0;
714 fast_memcpy(d
, b
, w
);
722 if (threshold
>= 128) {
723 fast_memcpy(d
, a
, w
);
724 fast_memcpy(d
+ds
, a
+bos
, w
);
725 } else if (mmx2
== 1) {
726 ret
+= dint_copy_line_mmx2(d
, a
, bos
, cos
, ds
, ss
, w
, threshold
);
728 ret
+= dint_copy_line(d
, a
, bos
, cos
, ds
, ss
, w
, threshold
);
733 fast_memcpy(d
, a
, w
);
735 fast_memcpy(d
+ds
, a
+bos
, w
);
740 copy_merge_fields(struct vf_priv_s
*p
, mp_image_t
*dmpi
,
741 unsigned char **old
, unsigned char **new, unsigned long show
)
743 unsigned long threshold
= 256;
744 unsigned long field
= p
->swapped
;
745 unsigned long dint_pixels
= 0;
746 unsigned char **other
= old
;
747 if (show
>= 12 || !(show
& 3))
748 show
>>= 2, other
= new, new = old
;
749 if (show
<= 2) { /* Single field: de-interlace */
750 threshold
= p
->dint_thres
;
753 } else if (show
== 3)
757 dint_pixels
+=dint_copy_plane(dmpi
->planes
[0], old
[0], new[0],
758 other
[0], p
->w
, p
->h
, dmpi
->stride
[0],
759 p
->stride
, threshold
, field
, p
->mmx2
);
760 if (dmpi
->flags
& MP_IMGFLAG_PLANAR
) {
762 old
= new, other
= new;
764 threshold
= threshold
/2 + 1;
765 field
^= p
->chroma_swapped
;
766 dint_copy_plane(dmpi
->planes
[1], old
[1], new[1],
767 other
[1], p
->cw
, p
->ch
, dmpi
->stride
[1],
768 p
->chroma_stride
, threshold
, field
, p
->mmx2
);
769 dint_copy_plane(dmpi
->planes
[2], old
[2], new[2],
770 other
[2], p
->cw
, p
->ch
, dmpi
->stride
[2],
771 p
->chroma_stride
, threshold
, field
, p
->mmx2
);
773 if (dint_pixels
> 0 && p
->verbose
)
774 mp_msg(MSGT_VFILTER
,MSGL_INFO
,"Deinterlaced %lu pixels\n",dint_pixels
);
777 static void diff_planes(struct vf_priv_s
*p
, struct frame_stats
*s
,
778 unsigned char *of
, unsigned char *nf
,
779 int w
, int h
, int os
, int ns
, int swapped
)
782 int align
= -(long)nf
& 7;
794 memset(s
, 0, sizeof(*s
));
796 for (y
= (h
-8) >> 3; y
; y
--) {
798 for (i
= 0; i
< w
; i
+= 8)
799 block_metrics_mmx2(of
+i
, nf
+i
, os
, ns
, 4, p
, s
);
800 } else if (p
->mmx2
== 2) {
801 for (i
= 0; i
< w
; i
+= 8)
802 block_metrics_3dnow(of
+i
, nf
+i
, os
, ns
, 4, p
, s
);
803 } else if (p
->fast
> 3) {
804 for (i
= 0; i
< w
; i
+= 8)
805 block_metrics_faster_c(of
+i
, nf
+i
, os
, ns
, 4, p
, s
);
806 } else if (p
->fast
> 1) {
807 for (i
= 0; i
< w
; i
+= 8)
808 block_metrics_fast_c(of
+i
, nf
+i
, os
, ns
, 4, p
, s
);
810 for (i
= 0; i
< w
; i
+= 8)
811 block_metrics_c(of
+i
, nf
+i
, os
, ns
, 4, p
, s
);
818 #define METRICS(X) (X).even, (X).odd, (X).noise, (X).temp
820 static void diff_fields(struct vf_priv_s
*p
, struct frame_stats
*s
,
821 unsigned char **old
, unsigned char **new)
823 diff_planes(p
, s
, old
[0], new[0], p
->w
, p
->h
,
824 p
->stride
, p
->stride
, p
->swapped
);
825 s
->sad
.even
= (s
->sad
.even
* 16ul) / s
->num_blocks
;
826 s
->sad
.odd
= (s
->sad
.odd
* 16ul) / s
->num_blocks
;
827 s
->sad
.noise
= (s
->sad
.noise
* 16ul) / s
->num_blocks
;
828 s
->sad
.temp
= (s
->sad
.temp
* 16ul) / s
->num_blocks
;
830 mp_msg(MSGT_VFILTER
, MSGL_INFO
, "%lu%c M:%d/%d/%d/%d - %d, "
831 "t:%d/%d/%d/%d, l:%d/%d/%d/%d, h:%d/%d/%d/%d, bg:%d/%d/%d/%d, "
832 "2x:%d/%d/%d/%d, sad:%d/%d/%d/%d, lil:%d, hil:%d, ios:%.1f\n",
833 p
->inframes
, p
->chflag
, METRICS(s
->max
), s
->num_blocks
,
834 METRICS(s
->tiny
), METRICS(s
->low
), METRICS(s
->high
),
835 METRICS(s
->bigger
), METRICS(s
->twox
), METRICS(s
->sad
),
836 s
->interlaced_low
, s
->interlaced_high
,
837 p
->iosync
/ (double) p
->in_inc
);
840 static const char *parse_args(struct vf_priv_s
*p
, const char *args
)
843 while (args
&& *++args
&&
844 (sscanf(args
, "io=%lu:%lu", &p
->out_dec
, &p
->in_inc
) == 2 ||
845 sscanf(args
, "diff_thres=%hu", &p
->thres
.even
) == 1 ||
846 sscanf(args
, "comb_thres=%hu", &p
->thres
.noise
) == 1 ||
847 sscanf(args
, "sad_thres=%lu", &p
->sad_thres
) == 1 ||
848 sscanf(args
, "dint_thres=%lu", &p
->dint_thres
) == 1 ||
849 sscanf(args
, "fast=%u", &p
->fast
) == 1 ||
850 sscanf(args
, "mmx2=%lu", &p
->mmx2
) == 1 ||
851 sscanf(args
, "luma_only=%u", &p
->luma_only
) == 1 ||
852 sscanf(args
, "verbose=%u", &p
->verbose
) == 1 ||
853 sscanf(args
, "crop=%lu:%lu:%lu:%lu", &p
->w
,
854 &p
->h
, &p
->crop_x
, &p
->crop_y
) == 4))
855 args
= strchr(args
, '/');
859 static unsigned long gcd(unsigned long x
, unsigned long y
)
873 static void init(struct vf_priv_s
*p
, mp_image_t
*mpi
)
876 unsigned long plane_size
, chroma_plane_size
;
877 unsigned char *plane
;
878 unsigned long cos
, los
;
879 p
->crop_cx
= p
->crop_x
>> mpi
->chroma_x_shift
;
880 p
->crop_cy
= p
->crop_y
>> mpi
->chroma_y_shift
;
881 if (mpi
->flags
& MP_IMGFLAG_ACCEPT_STRIDE
) {
882 p
->stride
= (mpi
->w
+ 15) & ~15;
883 p
->chroma_stride
= p
->stride
>> mpi
->chroma_x_shift
;
885 p
->stride
= mpi
->width
;
886 p
->chroma_stride
= mpi
->chroma_width
;
888 p
->cw
= p
->w
>> mpi
->chroma_x_shift
;
889 p
->ch
= p
->h
>> mpi
->chroma_y_shift
;
893 p
->old_planes
= p
->planes
[0];
894 plane_size
= mpi
->h
* p
->stride
;
895 chroma_plane_size
= mpi
->flags
& MP_IMGFLAG_PLANAR
?
896 mpi
->chroma_height
* p
->chroma_stride
: 0;
897 p
->memory_allocated
=
898 malloc(NUM_STORED
* (plane_size
+2*chroma_plane_size
) +
899 8*p
->chroma_stride
+ 4096);
900 /* align to page boundary */
901 plane
= p
->memory_allocated
+ (-(long)p
->memory_allocated
& 4095);
902 memset(plane
, 0, NUM_STORED
* plane_size
);
903 los
= p
->crop_x
+ p
->crop_y
* p
->stride
;
904 cos
= p
->crop_cx
+ p
->crop_cy
* p
->chroma_stride
;
905 for (i
= 0; i
!= NUM_STORED
; i
++, plane
+= plane_size
) {
906 p
->planes
[i
][0] = plane
;
907 p
->planes
[NUM_STORED
+ i
][0] = plane
+ los
;
909 if (mpi
->flags
& MP_IMGFLAG_PLANAR
) {
911 memset(plane
, 0x80, NUM_STORED
* 2 * chroma_plane_size
);
912 for (i
= 0; i
!= NUM_STORED
; i
++) {
913 p
->planes
[i
][1] = plane
;
914 p
->planes
[NUM_STORED
+ i
][1] = plane
+ cos
;
915 plane
+= chroma_plane_size
;
916 p
->planes
[i
][2] = plane
;
917 p
->planes
[NUM_STORED
+ i
][2] = plane
+ cos
;
918 plane
+= chroma_plane_size
;
922 i
= gcd(p
->in_inc
, p
->out_dec
);
929 static inline double get_time(void)
932 gettimeofday(&tv
, 0);
933 return tv
.tv_sec
+ tv
.tv_usec
* 1e-6;
936 static void get_image(struct vf_instance
*vf
, mp_image_t
*mpi
)
938 struct vf_priv_s
*p
= vf
->priv
;
939 static unsigned char **planes
, planes_idx
;
941 if (mpi
->type
== MP_IMGTYPE_STATIC
) return;
943 if (!p
->planes
[0][0]) init(p
, mpi
);
945 if (mpi
->type
== MP_IMGTYPE_TEMP
||
946 (mpi
->type
== MP_IMGTYPE_IPB
&& !(mpi
->flags
& MP_IMGFLAG_READABLE
)))
947 planes_idx
= NUM_STORED
/2 + (++p
->temp_idx
% (NUM_STORED
/2));
949 planes_idx
= ++p
->static_idx
% (NUM_STORED
/2);
950 planes
= p
->planes
[planes_idx
];
951 mpi
->priv
= p
->planes
[NUM_STORED
+ planes_idx
];
952 if (mpi
->priv
== p
->old_planes
) {
953 unsigned char **old_planes
=
954 p
->planes
[NUM_STORED
+ 2 + (++p
->temp_idx
& 1)];
955 my_memcpy_pic(old_planes
[0], p
->old_planes
[0],
956 p
->w
, p
->h
, p
->stride
, p
->stride
);
957 if (mpi
->flags
& MP_IMGFLAG_PLANAR
) {
958 my_memcpy_pic(old_planes
[1], p
->old_planes
[1],
959 p
->cw
, p
->ch
, p
->chroma_stride
, p
->chroma_stride
);
960 my_memcpy_pic(old_planes
[2], p
->old_planes
[2],
961 p
->cw
, p
->ch
, p
->chroma_stride
, p
->chroma_stride
);
963 p
->old_planes
= old_planes
;
966 mpi
->planes
[0] = planes
[0];
967 mpi
->stride
[0] = p
->stride
;
968 if (mpi
->flags
& MP_IMGFLAG_PLANAR
) {
969 mpi
->planes
[1] = planes
[1];
970 mpi
->planes
[2] = planes
[2];
971 mpi
->stride
[1] = mpi
->stride
[2] = p
->chroma_stride
;
973 mpi
->width
= p
->stride
;
975 mpi
->flags
|= MP_IMGFLAG_DIRECT
;
976 mpi
->flags
&= ~MP_IMGFLAG_DRAW_CALLBACK
;
980 cmpe(unsigned long x
, unsigned long y
, unsigned long err
, unsigned long e
)
983 long unit
= ((x
+y
+err
) >> e
);
984 long ret
= (diff
> unit
) - (diff
< -unit
);
986 return ret
+ (diff
> unit
) - (diff
< -unit
);
990 find_breaks(struct vf_priv_s
*p
, struct frame_stats
*s
)
992 struct frame_stats
*ps
= &p
->stats
[(p
->inframes
-1) & 1];
993 long notfilm
= 5*p
->in_inc
- p
->out_dec
;
994 unsigned long n
= s
->num_blocks
>> 8;
995 unsigned long sad_comb_cmp
= cmpe(s
->sad
.temp
, s
->sad
.noise
, 512, 1);
996 unsigned long ret
= 8;
998 if (cmpe(s
->sad
.temp
, s
->sad
.even
, 512, 1) > 0)
999 mp_msg(MSGT_VFILTER
, MSGL_WARN
,
1000 "@@@@@@@@ Bottom-first field??? @@@@@@@@\n");
1001 if (s
->sad
.temp
> 1000 && s
->sad
.noise
> 1000)
1003 if (s
->interlaced_high
>= 2*n
&& s
->sad
.temp
> 256 && s
->sad
.noise
> 256)
1005 if (s
->high
.noise
> s
->num_blocks
/4 && s
->sad
.noise
> 10000 &&
1006 s
->sad
.noise
> 2*s
->sad
.even
&& s
->sad
.noise
> 2*ps
->sad
.odd
) {
1007 // Mid-frame scene change
1008 if (s
->tiny
.temp
+ s
->interlaced_low
< n
||
1009 s
->low
.temp
+ s
->interlaced_high
< n
/4 ||
1010 s
->high
.temp
+ s
->interlaced_high
< n
/8 ||
1015 if (s
->high
.temp
> s
->num_blocks
/4 && s
->sad
.temp
> 10000 &&
1016 s
->sad
.temp
> 2*ps
->sad
.odd
&& s
->sad
.temp
> 2*ps
->sad
.even
) {
1017 // Start frame scene change
1018 if (s
->tiny
.noise
+ s
->interlaced_low
< n
||
1019 s
->low
.noise
+ s
->interlaced_high
< n
/4 ||
1020 s
->high
.noise
+ s
->interlaced_high
< n
/8 ||
1025 if (sad_comb_cmp
== 2)
1027 if (sad_comb_cmp
== -2)
1030 if (s
->tiny
.odd
> 3*MAX(n
,s
->tiny
.even
) + s
->interlaced_low
)
1032 if (s
->tiny
.even
> 3*MAX(n
,s
->tiny
.odd
)+s
->interlaced_low
&&
1033 (!sad_comb_cmp
|| (s
->low
.noise
<= n
/4 && s
->low
.temp
<= n
/4)))
1036 if (s
->sad
.noise
< 64 && s
->sad
.temp
< 64 &&
1037 s
->low
.noise
<= n
/2 && s
->high
.noise
<= n
/4 &&
1038 s
->low
.temp
<= n
/2 && s
->high
.temp
<= n
/4)
1041 if (s
->tiny
.temp
> 3*MAX(n
,s
->tiny
.noise
) + s
->interlaced_low
)
1043 if (s
->tiny
.noise
> 3*MAX(n
,s
->tiny
.temp
) + s
->interlaced_low
)
1046 if (s
->low
.odd
> 3*MAX(n
/4,s
->low
.even
) + s
->interlaced_high
)
1048 if (s
->low
.even
> 3*MAX(n
/4,s
->low
.odd
)+s
->interlaced_high
&&
1049 s
->sad
.even
> 2*s
->sad
.odd
&&
1050 (!sad_comb_cmp
|| (s
->low
.noise
<= n
/4 && s
->low
.temp
<= n
/4)))
1053 if (s
->low
.temp
> 3*MAX(n
/4,s
->low
.noise
) + s
->interlaced_high
)
1055 if (s
->low
.noise
> 3*MAX(n
/4,s
->low
.temp
) + s
->interlaced_high
)
1058 if (sad_comb_cmp
== 1 && s
->sad
.noise
< 64)
1060 if (sad_comb_cmp
== -1 && s
->sad
.temp
< 64)
1063 if (s
->tiny
.odd
<= n
|| (s
->tiny
.noise
<= n
/2 && s
->tiny
.temp
<= n
/2)) {
1064 if (s
->interlaced_low
<= n
) {
1065 if (p
->num_fields
== 1)
1067 if (s
->tiny
.even
<= n
|| ps
->tiny
.noise
<= n
/2)
1070 if (s
->bigger
.even
>= 2*MAX(n
,s
->bigger
.odd
) + s
->interlaced_low
)
1072 if (s
->low
.even
>= 2*n
+ s
->interlaced_low
)
1077 if (s
->low
.odd
<= n
/4) {
1078 if (s
->interlaced_high
<= n
/4) {
1079 if (p
->num_fields
== 1)
1081 if (s
->low
.even
<= n
/4)
1084 if (s
->bigger
.even
>= 2*MAX(n
/4,s
->bigger
.odd
)+s
->interlaced_high
)
1086 if (s
->low
.even
>= n
/2 + s
->interlaced_high
)
1091 if (s
->bigger
.temp
> 2*MAX(n
,s
->bigger
.noise
) + s
->interlaced_low
)
1093 if (s
->bigger
.noise
> 2*MAX(n
,s
->bigger
.temp
) + s
->interlaced_low
)
1095 if (s
->bigger
.temp
> 2*MAX(n
,s
->bigger
.noise
) + s
->interlaced_high
)
1097 if (s
->bigger
.noise
> 2*MAX(n
,s
->bigger
.temp
) + s
->interlaced_high
)
1099 if (s
->twox
.temp
> 2*MAX(n
,s
->twox
.noise
) + s
->interlaced_high
)
1101 if (s
->twox
.noise
> 2*MAX(n
,s
->twox
.temp
) + s
->interlaced_high
)
1103 if (s
->bigger
.even
> 2*MAX(n
,s
->bigger
.odd
) + s
->interlaced_low
&&
1104 s
->bigger
.temp
< n
&& s
->bigger
.noise
< n
)
1106 if (s
->interlaced_low
> MIN(2*n
, s
->tiny
.odd
))
1108 ret
= 8 + (1 << (s
->sad
.temp
> s
->sad
.noise
));
1110 if (p
->num_fields
== 1 && p
->prev_fields
== 3 && notfilm
>= 0 &&
1111 (s
->tiny
.temp
<= s
->tiny
.noise
|| s
->sad
.temp
< s
->sad
.noise
+16))
1113 if (p
->notout
< p
->num_fields
&& p
->iosync
> 2*p
->in_inc
&& notfilm
< 0)
1115 if (p
->num_fields
< 2 ||
1116 (p
->num_fields
== 2 && p
->prev_fields
== 2 && notfilm
< 0))
1118 if (!notfilm
&& (p
->prev_fields
&~1) == 2) {
1119 if (p
->prev_fields
+ p
->num_fields
== 5) {
1120 if (s
->tiny
.noise
<= s
->tiny
.temp
||
1121 s
->low
.noise
== 0 || s
->low
.noise
< s
->low
.temp
||
1122 s
->sad
.noise
< s
->sad
.temp
+16)
1125 if (p
->prev_fields
+ p
->num_fields
== 4) {
1126 if (s
->tiny
.temp
<= s
->tiny
.noise
||
1127 s
->low
.temp
== 0 || s
->low
.temp
< s
->low
.noise
||
1128 s
->sad
.temp
< s
->sad
.noise
+16)
1132 if (p
->num_fields
> 2 &&
1133 ps
->sad
.noise
> s
->sad
.noise
&& ps
->sad
.noise
> s
->sad
.temp
)
1135 return 2 >> (s
->sad
.noise
> s
->sad
.temp
);
1138 #define ITOC(X) (!(X) ? ' ' : (X) + ((X)>9 ? 'a'-10 : '0'))
1140 static int put_image(struct vf_instance
*vf
, mp_image_t
*mpi
, double pts
)
1142 mp_image_t
*dmpi
= NULL
;
1143 struct vf_priv_s
*p
= vf
->priv
;
1144 unsigned char **planes
, **old_planes
;
1145 struct frame_stats
*s
= &p
->stats
[p
->inframes
& 1];
1146 struct frame_stats
*ps
= &p
->stats
[(p
->inframes
-1) & 1];
1148 const int flags
= mpi
->fields
;
1150 int show_fields
= 0;
1151 int dropped_fields
= 0;
1152 double start_time
, diff_time
;
1153 char prev_chflag
= p
->chflag
;
1156 if (!p
->planes
[0][0]) init(p
, mpi
);
1158 old_planes
= p
->old_planes
;
1160 if ((mpi
->flags
& MP_IMGFLAG_DIRECT
) && mpi
->priv
) {
1164 planes
= p
->planes
[2 + (++p
->temp_idx
& 1)];
1165 my_memcpy_pic(planes
[0],
1166 mpi
->planes
[0] + p
->crop_x
+ p
->crop_y
* mpi
->stride
[0],
1167 p
->w
, p
->h
, p
->stride
, mpi
->stride
[0]);
1168 if (mpi
->flags
& MP_IMGFLAG_PLANAR
) {
1169 my_memcpy_pic(planes
[1],
1170 mpi
->planes
[1] + p
->crop_cx
+ p
->crop_cy
* mpi
->stride
[1],
1171 p
->cw
, p
->ch
, p
->chroma_stride
, mpi
->stride
[1]);
1172 my_memcpy_pic(planes
[2],
1173 mpi
->planes
[2] + p
->crop_cx
+ p
->crop_cy
* mpi
->stride
[2],
1174 p
->cw
, p
->ch
, p
->chroma_stride
, mpi
->stride
[2]);
1179 p
->old_planes
= planes
;
1181 if (flags
& MP_IMGFIELD_ORDERED
) {
1182 swapped
= !(flags
& MP_IMGFIELD_TOP_FIRST
);
1183 p
->chflag
= (flags
& MP_IMGFIELD_REPEAT_FIRST
? '|' :
1184 flags
& MP_IMGFIELD_TOP_FIRST
? ':' : '.');
1186 p
->swapped
= swapped
;
1188 start_time
= get_time();
1189 if (p
->chflag
== '|') {
1191 p
->iosync
+= p
->in_inc
;
1192 } else if ((p
->fast
& 1) && prev_chflag
== '|')
1195 diff_fields(p
, s
, old_planes
, planes
);
1196 diff_time
= get_time();
1197 p
->diff_time
+= diff_time
- start_time
;
1198 breaks
= p
->inframes
? find_breaks(p
, s
) : 2;
1200 keep_rate
= 4*p
->in_inc
== p
->out_dec
;
1207 if (!keep_rate
&& p
->notout
< p
->num_fields
&& p
->iosync
< 2*p
->in_inc
)
1209 if (p
->notout
< p
->num_fields
)
1210 dropped_fields
= -2;
1212 if (keep_rate
|| p
->iosync
>= -2*p
->in_inc
)
1213 show_fields
= (4<<p
->num_fields
)-1;
1218 else if (p
->iosync
> 0) {
1219 if (p
->notout
>= p
->num_fields
&& p
->iosync
> 2*p
->in_inc
) {
1220 show_fields
= 4; /* prev odd only */
1221 if (p
->num_fields
> 1)
1222 show_fields
|= 8; /* + prev even */
1224 show_fields
= 2; /* even only */
1225 if (p
->notout
>= p
->num_fields
)
1226 dropped_fields
+= p
->num_fields
;
1231 if (p
->iosync
<= -3*p
->in_inc
) {
1232 if (p
->notout
>= p
->num_fields
)
1233 dropped_fields
= p
->num_fields
;
1236 if (p
->num_fields
== 1) {
1237 int prevbreak
= ps
->sad
.noise
>= 128;
1238 if (p
->iosync
< 4*p
->in_inc
) {
1240 dropped_fields
= prevbreak
;
1242 show_fields
= 4 | (!prevbreak
<< 3);
1243 if (p
->notout
< 1 + p
->prev_fields
)
1244 dropped_fields
= -!prevbreak
;
1250 show_fields
= 3 << (breaks
& 1);
1251 else if (p
->notout
>= p
->num_fields
&&
1252 p
->iosync
>= (breaks
== 1 ? -p
->in_inc
:
1253 p
->in_inc
<< (p
->num_fields
== 1))) {
1254 show_fields
= (1 << (2 + p
->num_fields
)) - (1<<breaks
);
1256 if (p
->notout
>= p
->num_fields
)
1257 dropped_fields
+= p
->num_fields
+ 2 - breaks
;
1259 if (p
->iosync
>= 4*p
->in_inc
)
1261 } else if (p
->iosync
> -3*p
->in_inc
)
1262 show_fields
= 3; /* odd+even */
1268 prev
= p
->prev_fields
;
1270 if (p
->num_fields
== 1)
1275 p
->prev_fields
= p
->num_fields
= 1;
1277 p
->prev_fields
= p
->num_fields
+ (breaks
==1) - (breaks
==4);
1278 p
->num_fields
= breaks
- (breaks
== 4) + (p
->chflag
== '|');
1284 p
->iosync
+= 4 * p
->in_inc
;
1285 if (p
->chflag
== '|')
1286 p
->iosync
+= p
->in_inc
;
1289 p
->iosync
-= p
->out_dec
;
1290 p
->notout
= !(show_fields
& 1) + !(show_fields
& 3);
1291 if (((show_fields
& 3) == 3 &&
1292 (s
->low
.noise
+ s
->interlaced_low
< (s
->num_blocks
>>8) ||
1293 s
->sad
.noise
< 160)) ||
1294 ((show_fields
& 12) == 12 &&
1295 (ps
->low
.noise
+ ps
->interlaced_low
< (s
->num_blocks
>>8) ||
1296 ps
->sad
.noise
< 160))) {
1298 dmpi
= vf_get_image(vf
->next
, mpi
->imgfmt
, MP_IMGTYPE_EXPORT
,
1299 MP_IMGFLAG_PRESERVE
|MP_IMGFLAG_READABLE
,
1301 if ((show_fields
& 3) != 3) planes
= old_planes
;
1302 dmpi
->planes
[0] = planes
[0];
1303 dmpi
->stride
[0] = p
->stride
;
1304 dmpi
->width
= mpi
->width
;
1305 if (mpi
->flags
& MP_IMGFLAG_PLANAR
) {
1306 dmpi
->planes
[1] = planes
[1];
1307 dmpi
->planes
[2] = planes
[2];
1308 dmpi
->stride
[1] = p
->chroma_stride
;
1309 dmpi
->stride
[2] = p
->chroma_stride
;
1313 dmpi
= vf_get_image(vf
->next
, mpi
->imgfmt
,
1314 MP_IMGTYPE_TEMP
, MP_IMGFLAG_ACCEPT_STRIDE
,
1316 copy_merge_fields(p
, dmpi
, old_planes
, planes
, show_fields
);
1323 mp_msg(MSGT_VFILTER
, MSGL_INFO
, "%lu %lu: %x %c %c %lu%s%s%c%s\n",
1324 p
->inframes
, p
->outframes
,
1325 breaks
, breaks
<8 && breaks
>0 ? (int) p
->prev_fields
+'0' : ' ',
1327 p
->num_breaks
, 5*p
->in_inc
== p
->out_dec
&& breaks
<8 &&
1328 breaks
>0 && ((prev
&~1)!=2 || prev
+p
->prev_fields
!=5) ?
1329 " ######## bad telecine ########" : "",
1330 dropped_fields
? " ======== dropped ":"", ITOC(dropped_fields
),
1331 !show_fields
|| (show_fields
& (show_fields
-1)) ?
1332 "" : " @@@@@@@@@@@@@@@@@");
1334 p
->merge_time
+= get_time() - diff_time
;
1335 pts
= vf_detc_adjust_pts(&p
->ptsbuf
, pts
, 0, !show_fields
);
1336 return show_fields
? vf_next_put_image(vf
, dmpi
, pts
) : 0;
1339 static int query_format(struct vf_instance
*vf
, unsigned int fmt
)
1341 /* FIXME - support more formats */
1349 return vf_next_query_format(vf
, fmt
);
1354 static int config(struct vf_instance
*vf
,
1355 int width
, int height
, int d_width
, int d_height
,
1356 unsigned int flags
, unsigned int outfmt
)
1358 struct MPOpts
*opts
= vf
->opts
;
1359 unsigned long cxm
= 0;
1360 unsigned long cym
= 0;
1361 struct vf_priv_s
*p
= vf
->priv
;
1362 vf_detc_init_pts_buf(&p
->ptsbuf
);
1364 if(!IMGFMT_IS_RGB(outfmt
) && !IMGFMT_IS_BGR(outfmt
)){
1384 p
->chroma_swapped
= !!(p
->crop_y
& (cym
+1));
1385 if (p
->w
) p
->w
+= p
->crop_x
& cxm
;
1386 if (p
->h
) p
->h
+= p
->crop_y
& cym
;
1389 if (!p
->w
|| p
->w
> width
) p
->w
= width
;
1390 if (!p
->h
|| p
->h
> height
) p
->h
= height
;
1391 if (p
->crop_x
+ p
->w
> width
) p
->crop_x
= 0;
1392 if (p
->crop_y
+ p
->h
> height
) p
->crop_y
= 0;
1394 if(!opts
->screen_size_x
&& !opts
->screen_size_y
){
1395 d_width
= d_width
* p
->w
/width
;
1396 d_height
= d_height
* p
->h
/height
;
1398 return vf_next_config(vf
, p
->w
, p
->h
, d_width
, d_height
, flags
, outfmt
);
1401 static void uninit(struct vf_instance
*vf
)
1403 struct vf_priv_s
*p
= vf
->priv
;
1404 mp_msg(MSGT_VFILTER
, MSGL_INFO
, "diff_time: %.3f, merge_time: %.3f, "
1405 "export: %lu, merge: %lu, copy: %lu\n", p
->diff_time
, p
->merge_time
,
1406 p
->export_count
, p
->merge_count
, p
->num_copies
);
1407 free(p
->memory_allocated
);
1411 static int vf_open(vf_instance_t
*vf
, char *args
)
1413 struct vf_priv_s
*p
;
1414 vf
->get_image
= get_image
;
1415 vf
->put_image
= put_image
;
1416 vf
->config
= config
;
1417 vf
->query_format
= query_format
;
1418 vf
->uninit
= uninit
;
1419 vf
->default_reqs
= VFCAP_ACCEPT_STRIDE
;
1420 vf
->priv
= p
= calloc(1, sizeof(struct vf_priv_s
));
1423 p
->thres
.noise
= 128;
1424 p
->thres
.even
= 128;
1429 p
->mmx2
= gCpuCaps
.hasMMX2
? 1 : gCpuCaps
.has3DNow
? 2 : 0;
1431 const char *args_remain
= parse_args(p
, args
);
1433 mp_msg(MSGT_VFILTER
, MSGL_FATAL
,
1434 "filmdint: unknown suboption: %s\n", args_remain
);
1437 if (p
->out_dec
< p
->in_inc
) {
1438 mp_msg(MSGT_VFILTER
, MSGL_FATAL
,
1439 "filmdint: increasing the frame rate is not supported\n");
1451 p
->thres
.odd
= p
->thres
.even
;
1452 p
->thres
.temp
= p
->thres
.noise
;
1458 const vf_info_t vf_info_filmdint
= {
1459 "Advanced inverse telecine filer",