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Original Path: trunk/xvidcore/src/quant/x86_asm/quantize4_xmm.asm
1 : | edgomez | 851 | ;/****************************************************************************** |
2 : | ; * * | ||
3 : | ; * This file is part of XviD, a free MPEG-4 video encoder/decoder * | ||
4 : | ; * * | ||
5 : | ; * XviD is an implementation of a part of one or more MPEG-4 Video tools * | ||
6 : | ; * as specified in ISO/IEC 14496-2 standard. Those intending to use this * | ||
7 : | ; * software module in hardware or software products are advised that its * | ||
8 : | ; * use may infringe existing patents or copyrights, and any such use * | ||
9 : | ; * would be at such party's own risk. The original developer of this * | ||
10 : | ; * software module and his/her company, and subsequent editors and their * | ||
11 : | ; * companies, will have no liability for use of this software or * | ||
12 : | ; * modifications or derivatives thereof. * | ||
13 : | ; * * | ||
14 : | ; * XviD is free software; you can redistribute it and/or modify it * | ||
15 : | ; * under the terms of the GNU General Public License as published by * | ||
16 : | ; * the Free Software Foundation; either version 2 of the License, or * | ||
17 : | ; * (at your option) any later version. * | ||
18 : | ; * * | ||
19 : | ; * XviD is distributed in the hope that it will be useful, but * | ||
20 : | ; * WITHOUT ANY WARRANTY; without even the implied warranty of * | ||
21 : | ; * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * | ||
22 : | ; * GNU General Public License for more details. * | ||
23 : | ; * * | ||
24 : | ; * You should have received a copy of the GNU General Public License * | ||
25 : | ; * along with this program; if not, write to the Free Software * | ||
26 : | ; * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * | ||
27 : | ; * * | ||
28 : | ; ******************************************************************************/ | ||
29 : | ; | ||
30 : | ;/****************************************************************************** | ||
31 : | ; * quant4 bugs have been fixed: (a) overflow bug for matrix elements * | ||
32 : | ; * equal to 1 or 2 is fixed by substituting pmulhw with pmulhuw (iSSE) * | ||
33 : | ; * and using multiplier 0ffffh instead of 10001h (for matrix element = 1; * | ||
34 : | ; * in that case, 1 is added before multiplying, that additional 1 comes * | ||
35 : | ; * from intra_matrix1; (b) rounding error for large coefficients and matrix * | ||
36 : | ; * elements is fixed by two-step approach: first approximation (rounded * | ||
37 : | ; * down) is found as usual; the result is multiplied by the matrix element * | ||
38 : | ; * and mismatch is used to calculate the correction. * | ||
39 : | ; ******************************************************************************/ | ||
40 : | ; | ||
41 : | ; _3dne functions are compatible with iSSE, but are optimized specifically for | ||
42 : | ; K7 pipelines | ||
43 : | ; | ||
44 : | ;------------------------------------------------------------------------------ | ||
45 : | ; 09.12.2002 Athlon optimizations contributed by Jaan Kalda | ||
46 : | ;------------------------------------------------------------------------------ | ||
47 : | |||
48 : | |||
49 : | ; data/text alignment | ||
50 : | %define ALIGN 8 | ||
51 : | %define SATURATE | ||
52 : | |||
53 : | bits 32 | ||
54 : | |||
55 : | %ifdef FORMAT_COFF | ||
56 : | SECTION .data data | ||
57 : | %else | ||
58 : | SECTION .data data align=8 | ||
59 : | %endif | ||
60 : | |||
61 : | %macro cglobal 1 | ||
62 : | %ifdef PREFIX | ||
63 : | global _%1 | ||
64 : | %define %1 _%1 | ||
65 : | %else | ||
66 : | global %1 | ||
67 : | %endif | ||
68 : | %endmacro | ||
69 : | |||
70 : | %macro cextern 1 | ||
71 : | %ifdef PREFIX | ||
72 : | extern _%1 | ||
73 : | %define %1 _%1 | ||
74 : | %else | ||
75 : | extern %1 | ||
76 : | %endif | ||
77 : | %endmacro | ||
78 : | align 8 | ||
79 : | mmzero dd 0,0 | ||
80 : | |||
81 : | mmx_one times 4 dw 1 | ||
82 : | |||
83 : | ;=========================================================================== | ||
84 : | ; | ||
85 : | ; divide by 2Q table | ||
86 : | ; | ||
87 : | ;=========================================================================== | ||
88 : | |||
89 : | align ALIGN | ||
90 : | mmx_divs ;i>2 | ||
91 : | %assign i 1 | ||
92 : | %rep 31 | ||
93 : | times 4 dw ((1 << 15) / i + 1) | ||
94 : | %assign i i+1 | ||
95 : | %endrep | ||
96 : | |||
97 : | align ALIGN | ||
98 : | mmx_div ;i>2 | ||
99 : | %assign i 1 | ||
100 : | %rep 31 | ||
101 : | times 4 dw ((1 << 16) / i + 1) | ||
102 : | %assign i i+1 | ||
103 : | %endrep | ||
104 : | |||
105 : | |||
106 : | ;=========================================================================== | ||
107 : | ; | ||
108 : | ; intra matrix | ||
109 : | ; | ||
110 : | ;=========================================================================== | ||
111 : | |||
112 : | %macro FIXX 1 | ||
113 : | dw (1 << 16) / (%1) + 1 | ||
114 : | %endmacro | ||
115 : | |||
116 : | cextern intra_matrix_fixl | ||
117 : | cextern intra_matrix_fix | ||
118 : | cextern intra_matrix1 | ||
119 : | cextern intra_matrix | ||
120 : | |||
121 : | ;=========================================================================== | ||
122 : | ; | ||
123 : | ; inter matrix | ||
124 : | ; | ||
125 : | ;=========================================================================== | ||
126 : | |||
127 : | cextern inter_matrix1 | ||
128 : | cextern inter_matrix | ||
129 : | cextern inter_matrix_fix | ||
130 : | cextern inter_matrix_fixl | ||
131 : | |||
132 : | |||
133 : | %define VM18P 3 | ||
134 : | %define VM18Q 4 | ||
135 : | %define nop4 DB 08Dh,074h,026h,0 | ||
136 : | %define nop3 add esp,byte 0 | ||
137 : | %define nop2 mov esp,esp | ||
138 : | %define nop7 db 08dh,02ch,02dh,0,0,0,0 | ||
139 : | %define nop6 add ebp,dword 0 | ||
140 : | ;=========================================================================== | ||
141 : | ; | ||
142 : | ; quantd table | ||
143 : | ; | ||
144 : | ;=========================================================================== | ||
145 : | |||
146 : | |||
147 : | quantd | ||
148 : | %assign i 1 | ||
149 : | %rep 31 | ||
150 : | times 4 dw (((VM18P*i) + (VM18Q/2)) / VM18Q) | ||
151 : | %assign i i+1 | ||
152 : | %endrep | ||
153 : | |||
154 : | ;=========================================================================== | ||
155 : | ; | ||
156 : | ; multiple by 2Q table | ||
157 : | ; | ||
158 : | ;=========================================================================== | ||
159 : | |||
160 : | |||
161 : | mmx_mul_quant | ||
162 : | %assign i 1 | ||
163 : | %rep 31 | ||
164 : | times 4 dw i | ||
165 : | %assign i i+1 | ||
166 : | %endrep | ||
167 : | |||
168 : | ;=========================================================================== | ||
169 : | ; | ||
170 : | ; saturation limits | ||
171 : | ; | ||
172 : | ;=========================================================================== | ||
173 : | |||
174 : | align 16 | ||
175 : | |||
176 : | mmx_32767_minus_2047 times 4 dw (32767-2047) | ||
177 : | mmx_32768_minus_2048 times 4 dw (32768-2048) | ||
178 : | mmx_2047 times 4 dw 2047 | ||
179 : | mmx_minus_2048 times 4 dw (-2048) | ||
180 : | zero times 4 dw 0 | ||
181 : | |||
182 : | int_div | ||
183 : | dd 0 | ||
184 : | %assign i 1 | ||
185 : | %rep 255 | ||
186 : | dd (1 << 17) / ( i) + 1 | ||
187 : | %assign i i+1 | ||
188 : | %endrep | ||
189 : | |||
190 : | section .text | ||
191 : | |||
192 : | ;=========================================================================== | ||
193 : | ; | ||
194 : | ; void quant_intra4_xmm(int16_t * coeff, | ||
195 : | ; const int16_t const * data, | ||
196 : | ; const uint32_t quant, | ||
197 : | ; const uint32_t dcscalar); | ||
198 : | ; | ||
199 : | ;=========================================================================== | ||
200 : | |||
201 : | align ALIGN | ||
202 : | cglobal quant4_intra_xmm | ||
203 : | quant4_intra_xmm | ||
204 : | |||
205 : | mov eax, [esp + 8] ; data | ||
206 : | mov ecx, [esp + 12] ; quant | ||
207 : | mov edx, [esp + 4] ; coeff | ||
208 : | push esi | ||
209 : | push edi | ||
210 : | push ebx | ||
211 : | nop | ||
212 : | mov edi,mmzero | ||
213 : | mov esi,-14 | ||
214 : | pxor mm0,mm0 | ||
215 : | pxor mm3,mm3 | ||
216 : | cmp ecx,byte 1 | ||
217 : | je near .q1loop | ||
218 : | cmp ecx,byte 19 | ||
219 : | jg near .lloop | ||
220 : | nop6 | ||
221 : | |||
222 : | |||
223 : | align ALIGN | ||
224 : | .loop | ||
225 : | movq mm1, [eax + 8*esi+112] ; mm0 = [1st] | ||
226 : | psubw mm0,mm1 ;-mm1 | ||
227 : | movq mm4, [eax + 8*esi + 120] ; | ||
228 : | psubw mm3,mm4 ;-mm4 | ||
229 : | pmaxsw mm0,mm1 ;|src| | ||
230 : | pmaxsw mm3,mm4 | ||
231 : | nop2 | ||
232 : | psraw mm1,15 ;sign src | ||
233 : | psraw mm4,15 | ||
234 : | psllw mm0, 4 ; level << 4 | ||
235 : | psllw mm3, 4 ; | ||
236 : | paddw mm0, [intra_matrix1 + 8*esi+112] | ||
237 : | paddw mm3, [intra_matrix1 + 8*esi+120] | ||
238 : | movq mm5,[intra_matrix_fixl + 8*esi+112] | ||
239 : | movq mm7,[intra_matrix_fixl + 8*esi+120] | ||
240 : | pmulhuw mm5,mm0 | ||
241 : | pmulhuw mm7,mm3 | ||
242 : | mov esp,esp | ||
243 : | movq mm2,[intra_matrix + 8*esi+112] | ||
244 : | movq mm6,[intra_matrix + 8*esi+120] | ||
245 : | pmullw mm2,mm5 | ||
246 : | pmullw mm6,mm7 | ||
247 : | psubw mm0,mm2 | ||
248 : | psubw mm3,mm6 | ||
249 : | nop4 | ||
250 : | movq mm2,[quantd + ecx * 8 - 8] | ||
251 : | movq mm6,[mmx_divs + ecx * 8 - 8] | ||
252 : | paddw mm5,mm2 | ||
253 : | paddw mm7,mm2 | ||
254 : | mov esp,esp | ||
255 : | pmulhuw mm0,[intra_matrix_fix + 8*esi+112] | ||
256 : | pmulhuw mm3,[intra_matrix_fix + 8*esi+120] | ||
257 : | paddw mm5,mm0 | ||
258 : | paddw mm7,mm3 | ||
259 : | movq mm0,[edi] | ||
260 : | movq mm3,[edi] | ||
261 : | pmulhuw mm5, mm6 ; mm0 = (mm0 / 2Q) >> 16 | ||
262 : | pmulhuw mm7, mm6 ; (level + quantd) / quant (0<quant<32) | ||
263 : | pxor mm5, mm1 ; mm0 *= sign(mm0) | ||
264 : | pxor mm7, mm4 ; | ||
265 : | psubw mm5, mm1 ; undisplace | ||
266 : | psubw mm7, mm4 ; | ||
267 : | movq [edx + 8*esi+112], mm5 | ||
268 : | movq [edx + 8*esi +120], mm7 | ||
269 : | add esi,byte 2 | ||
270 : | jng near .loop | ||
271 : | .done | ||
272 : | ; caclulate data[0] // (int32_t)dcscalar) | ||
273 : | |||
274 : | |||
275 : | mov esi, [esp + 12 + 16] ; dcscalar | ||
276 : | movsx ecx, word [eax] | ||
277 : | mov edi,ecx | ||
278 : | mov edx,[esp + 12 + 16] | ||
279 : | shr edx, 1 ; ebx = dcscalar /2 | ||
280 : | sar edi,31 ;cdq is vectorpath | ||
281 : | xor edx,edi ; ebx = eax V -eax -1 | ||
282 : | sub ecx,edi | ||
283 : | add ecx,edx | ||
284 : | mov edx,[dword esp + 12 + 4] | ||
285 : | mov esi,[int_div+4*esi] | ||
286 : | imul ecx,esi | ||
287 : | sar ecx,17 | ||
288 : | ; idiv cx ; ecx = edi:ecx / dcscalar | ||
289 : | |||
290 : | mov ebx,[esp] | ||
291 : | mov edi,[esp+4] | ||
292 : | mov esi,[esp+8] | ||
293 : | add esp,byte 12 | ||
294 : | mov [edx], cx ; coeff[0] = ax | ||
295 : | |||
296 : | ret | ||
297 : | |||
298 : | align ALIGN | ||
299 : | .q1loop | ||
300 : | movq mm1, [eax + 8*esi+112] ; mm0 = [1st] | ||
301 : | psubw mm0,mm1 ;-mm1 | ||
302 : | movq mm4, [eax + 8*esi+120] ; | ||
303 : | psubw mm3,mm4 ;-mm4 | ||
304 : | pmaxsw mm0,mm1 ;|src| | ||
305 : | pmaxsw mm3,mm4 | ||
306 : | nop2 | ||
307 : | psraw mm1,15 ;sign src | ||
308 : | psraw mm4,15 | ||
309 : | psllw mm0, 4 ; level << 4 | ||
310 : | psllw mm3, 4 | ||
311 : | paddw mm0, [intra_matrix1 + 8*esi+112] ;mm0 is to be divided | ||
312 : | paddw mm3, [intra_matrix1 + 8*esi+120] ; intra1 contains fix for division by 1 | ||
313 : | movq mm5,[intra_matrix_fixl + 8*esi+112] ;with rounding down | ||
314 : | movq mm7,[intra_matrix_fixl + 8*esi+120] | ||
315 : | pmulhuw mm5,mm0 | ||
316 : | pmulhuw mm7,mm3 ;mm7: first approx of division | ||
317 : | mov esp,esp | ||
318 : | movq mm2,[intra_matrix + 8*esi+112] | ||
319 : | movq mm6,[intra_matrix + 8*esi+120] ; divs for q<=16 | ||
320 : | pmullw mm2,mm5 ;test value <= original | ||
321 : | pmullw mm6,mm7 | ||
322 : | psubw mm0,mm2 ;mismatch | ||
323 : | psubw mm3,mm6 | ||
324 : | nop4 | ||
325 : | movq mm2,[quantd + ecx * 8 - 8] | ||
326 : | paddw mm5,mm2 ;first approx with quantd | ||
327 : | paddw mm7,mm2 | ||
328 : | mov esp,esp | ||
329 : | pmulhuw mm0,[intra_matrix_fix + 8*esi+112] ;correction | ||
330 : | pmulhuw mm3,[intra_matrix_fix + 8*esi+120] | ||
331 : | paddw mm5,mm0 ;final result with quantd | ||
332 : | paddw mm7,mm3 | ||
333 : | movq mm0,[edi] | ||
334 : | movq mm3,[edi] | ||
335 : | mov esp,esp | ||
336 : | psrlw mm5, 1 ; (level + quantd) /2 (quant = 1) | ||
337 : | psrlw mm7, 1 | ||
338 : | pxor mm5, mm1 ; mm0 *= sign(mm0) | ||
339 : | pxor mm7, mm4 ; | ||
340 : | psubw mm5, mm1 ; undisplace | ||
341 : | psubw mm7, mm4 ; | ||
342 : | movq [edx + 8*esi+112], mm5 | ||
343 : | movq [edx + 8*esi +120], mm7 | ||
344 : | add esi,byte 2 | ||
345 : | jng near .q1loop | ||
346 : | jmp near .done | ||
347 : | |||
348 : | align 8 | ||
349 : | .lloop | ||
350 : | movq mm1, [eax + 8*esi+112] ; mm0 = [1st] | ||
351 : | psubw mm0,mm1 ;-mm1 | ||
352 : | movq mm4, [eax + 8*esi+120] ; | ||
353 : | psubw mm3,mm4 ;-mm4 | ||
354 : | pmaxsw mm0,mm1 ;|src| | ||
355 : | pmaxsw mm3,mm4 | ||
356 : | nop2 | ||
357 : | psraw mm1,15 ;sign src | ||
358 : | psraw mm4,15 | ||
359 : | psllw mm0, 4 ; level << 4 | ||
360 : | psllw mm3, 4 ; | ||
361 : | paddw mm0, [intra_matrix1 + 8*esi+112] ;mm0 is to be divided intra1 contains fix for division by 1 | ||
362 : | paddw mm3, [intra_matrix1 + 8*esi+120] | ||
363 : | movq mm5,[intra_matrix_fixl + 8*esi+112] | ||
364 : | movq mm7,[intra_matrix_fixl + 8*esi+120] | ||
365 : | pmulhuw mm5,mm0 | ||
366 : | pmulhuw mm7,mm3 ;mm7: first approx of division | ||
367 : | mov esp,esp | ||
368 : | movq mm2,[intra_matrix + 8*esi+112] | ||
369 : | movq mm6,[intra_matrix + 8*esi+120] | ||
370 : | pmullw mm2,mm5 ;test value <= original | ||
371 : | pmullw mm6,mm7 | ||
372 : | psubw mm0,mm2 ;mismatch | ||
373 : | psubw mm3,mm6 | ||
374 : | nop4 | ||
375 : | movq mm2,[quantd + ecx * 8 - 8] | ||
376 : | movq mm6,[mmx_div + ecx * 8 - 8] ; divs for q<=16 | ||
377 : | paddw mm5,mm2 ;first approx with quantd | ||
378 : | paddw mm7,mm2 | ||
379 : | mov esp,esp | ||
380 : | pmulhuw mm0,[intra_matrix_fix + 8*esi+112] ;correction | ||
381 : | pmulhuw mm3,[intra_matrix_fix + 8*esi+120] | ||
382 : | paddw mm5,mm0 ;final result with quantd | ||
383 : | paddw mm7,mm3 | ||
384 : | movq mm0,[edi] | ||
385 : | movq mm3,[edi] | ||
386 : | mov esp,esp | ||
387 : | pmulhuw mm5, mm6 ; mm0 = (mm0 / 2Q) >> 16 | ||
388 : | pmulhuw mm7, mm6 ; (level + quantd) / quant (0<quant<32) | ||
389 : | psrlw mm5, 1 ; (level + quantd) / (2*quant) | ||
390 : | psrlw mm7, 1 | ||
391 : | pxor mm5, mm1 ; mm0 *= sign(mm0) | ||
392 : | pxor mm7, mm4 ; | ||
393 : | psubw mm5, mm1 ; undisplace | ||
394 : | psubw mm7, mm4 ; | ||
395 : | movq [edx + 8*esi+112], mm5 | ||
396 : | movq [edx + 8*esi +120], mm7 | ||
397 : | add esi,byte 2 | ||
398 : | jng near .lloop | ||
399 : | jmp near .done | ||
400 : | |||
401 : | ;=========================================================================== | ||
402 : | ; | ||
403 : | ; uint32_t quant4_inter_xmm(int16_t * coeff, | ||
404 : | ; const int16_t const * data, | ||
405 : | ; const uint32_t quant); | ||
406 : | ; | ||
407 : | ;=========================================================================== | ||
408 : | |||
409 : | align ALIGN | ||
410 : | cglobal quant4_inter_xmm | ||
411 : | quant4_inter_xmm | ||
412 : | |||
413 : | mov eax, [esp + 8] ; data | ||
414 : | mov ecx, [esp + 12] ; quant | ||
415 : | mov edx, [esp + 4] ; coeff | ||
416 : | push esi | ||
417 : | push edi | ||
418 : | push ebx | ||
419 : | nop | ||
420 : | mov edi,mmzero | ||
421 : | mov esi,-14 | ||
422 : | mov ebx,esp | ||
423 : | sub esp,byte 24 | ||
424 : | lea ebx,[esp+8] | ||
425 : | and ebx,byte -8 ;align 8 | ||
426 : | pxor mm0,mm0 | ||
427 : | pxor mm3,mm3 | ||
428 : | movq [byte ebx],mm0 | ||
429 : | db 0Fh, 7Fh, 44h, 23h, 8 ;movq [ebx+8],mm0 | ||
430 : | cmp ecx,byte 1 | ||
431 : | je near .q1loop | ||
432 : | cmp ecx,byte 19 | ||
433 : | jg near .lloop | ||
434 : | nop | ||
435 : | |||
436 : | |||
437 : | align ALIGN | ||
438 : | .loop | ||
439 : | movq mm1, [eax + 8*esi+112] ; mm0 = [1st] | ||
440 : | psubw mm0,mm1 ;-mm1 | ||
441 : | movq mm4, [eax + 8*esi + 120] ; | ||
442 : | psubw mm3,mm4 ;-mm4 | ||
443 : | pmaxsw mm0,mm1 ;|src| | ||
444 : | pmaxsw mm3,mm4 | ||
445 : | nop2 | ||
446 : | psraw mm1,15 ;sign src | ||
447 : | psraw mm4,15 | ||
448 : | psllw mm0, 4 ; level << 4 | ||
449 : | psllw mm3, 4 ; | ||
450 : | paddw mm0, [inter_matrix1 + 8*esi+112] | ||
451 : | paddw mm3, [inter_matrix1 + 8*esi+120] | ||
452 : | movq mm5,[inter_matrix_fixl + 8*esi+112] | ||
453 : | movq mm7,[inter_matrix_fixl + 8*esi+120] | ||
454 : | pmulhuw mm5,mm0 | ||
455 : | pmulhuw mm7,mm3 | ||
456 : | mov esp,esp | ||
457 : | movq mm2,[inter_matrix + 8*esi+112] | ||
458 : | movq mm6,[inter_matrix + 8*esi+120] | ||
459 : | pmullw mm2,mm5 | ||
460 : | pmullw mm6,mm7 | ||
461 : | psubw mm0,mm2 | ||
462 : | psubw mm3,mm6 | ||
463 : | movq mm2,[byte ebx] | ||
464 : | movq mm6,[mmx_divs + ecx * 8 - 8] | ||
465 : | pmulhuw mm0,[inter_matrix_fix + 8*esi+112] | ||
466 : | pmulhuw mm3,[inter_matrix_fix + 8*esi+120] | ||
467 : | paddw mm2,[ebx+8] ;sum | ||
468 : | paddw mm5,mm0 | ||
469 : | paddw mm7,mm3 | ||
470 : | movq mm0,[edi] | ||
471 : | movq mm3,[edi] | ||
472 : | pmulhuw mm5, mm6 ; mm0 = (mm0 / 2Q) >> 16 | ||
473 : | pmulhuw mm7, mm6 ; (level ) / quant (0<quant<32) | ||
474 : | add esi,byte 2 | ||
475 : | paddw mm2,mm5 ;sum += x1 | ||
476 : | movq [ebx],mm7 ;store x2 | ||
477 : | pxor mm5, mm1 ; mm0 *= sign(mm0) | ||
478 : | pxor mm7, mm4 ; | ||
479 : | psubw mm5, mm1 ; undisplace | ||
480 : | psubw mm7, mm4 ; | ||
481 : | db 0Fh, 7Fh, 54h, 23h, 08 ;movq [ebx+8],mm2 ;store sum | ||
482 : | movq [edx + 8*esi+112-16], mm5 | ||
483 : | movq [edx + 8*esi +120-16], mm7 | ||
484 : | jng near .loop | ||
485 : | .done | ||
486 : | ; caclulate data[0] // (int32_t)dcscalar) | ||
487 : | |||
488 : | paddw mm2,[ebx] | ||
489 : | mov ebx,[esp+24] | ||
490 : | mov edi,[esp+4+24] | ||
491 : | mov esi,[esp+8+24] | ||
492 : | add esp,byte 12+24 | ||
493 : | pmaddwd mm2, [mmx_one] | ||
494 : | punpckldq mm0,mm2 ;get low dw to mm0:high | ||
495 : | paddd mm0,mm2 | ||
496 : | punpckhdq mm0,mm0 ;get result to low | ||
497 : | movd eax, mm0 | ||
498 : | ret | ||
499 : | |||
500 : | align ALIGN | ||
501 : | .q1loop | ||
502 : | movq mm1, [eax + 8*esi+112] ; mm0 = [1st] | ||
503 : | psubw mm0,mm1 ;-mm1 | ||
504 : | movq mm4, [eax + 8*esi+120] ; | ||
505 : | psubw mm3,mm4 ;-mm4 | ||
506 : | pmaxsw mm0,mm1 ;|src| | ||
507 : | pmaxsw mm3,mm4 | ||
508 : | nop2 | ||
509 : | psraw mm1,15 ;sign src | ||
510 : | psraw mm4,15 | ||
511 : | psllw mm0, 4 ; level << 4 | ||
512 : | psllw mm3, 4 | ||
513 : | paddw mm0, [inter_matrix1 + 8*esi+112] ;mm0 is to be divided | ||
514 : | paddw mm3, [inter_matrix1 + 8*esi+120] ; inter1 contains fix for division by 1 | ||
515 : | movq mm5,[inter_matrix_fixl + 8*esi+112] ;with rounding down | ||
516 : | movq mm7,[inter_matrix_fixl + 8*esi+120] | ||
517 : | pmulhuw mm5,mm0 | ||
518 : | pmulhuw mm7,mm3 ;mm7: first approx of division | ||
519 : | mov esp,esp | ||
520 : | movq mm2,[inter_matrix + 8*esi+112] | ||
521 : | movq mm6,[inter_matrix + 8*esi+120] ; divs for q<=16 | ||
522 : | pmullw mm2,mm5 ;test value <= original | ||
523 : | pmullw mm6,mm7 | ||
524 : | psubw mm0,mm2 ;mismatch | ||
525 : | psubw mm3,mm6 | ||
526 : | movq mm2,[byte ebx] | ||
527 : | pmulhuw mm0,[inter_matrix_fix + 8*esi+112] ;correction | ||
528 : | pmulhuw mm3,[inter_matrix_fix + 8*esi+120] | ||
529 : | paddw mm2,[ebx+8] ;sum | ||
530 : | paddw mm5,mm0 ;final result | ||
531 : | paddw mm7,mm3 | ||
532 : | movq mm0,[edi] | ||
533 : | movq mm3,[edi] | ||
534 : | psrlw mm5, 1 ; (level ) /2 (quant = 1) | ||
535 : | psrlw mm7, 1 | ||
536 : | add esi,byte 2 | ||
537 : | paddw mm2,mm5 ;sum += x1 | ||
538 : | movq [ebx],mm7 ;store x2 | ||
539 : | pxor mm5, mm1 ; mm0 *= sign(mm0) | ||
540 : | pxor mm7, mm4 ; | ||
541 : | psubw mm5, mm1 ; undisplace | ||
542 : | psubw mm7, mm4 ; | ||
543 : | movq [ebx+8],mm2 ;store sum | ||
544 : | movq [edx + 8*esi+112-16], mm5 | ||
545 : | movq [edx + 8*esi +120-16], mm7 | ||
546 : | jng near .q1loop | ||
547 : | jmp near .done | ||
548 : | |||
549 : | align 8 | ||
550 : | .lloop | ||
551 : | movq mm1, [eax + 8*esi+112] ; mm0 = [1st] | ||
552 : | psubw mm0,mm1 ;-mm1 | ||
553 : | movq mm4, [eax + 8*esi+120] ; | ||
554 : | psubw mm3,mm4 ;-mm4 | ||
555 : | pmaxsw mm0,mm1 ;|src| | ||
556 : | pmaxsw mm3,mm4 | ||
557 : | nop2 | ||
558 : | psraw mm1,15 ;sign src | ||
559 : | psraw mm4,15 | ||
560 : | psllw mm0, 4 ; level << 4 | ||
561 : | psllw mm3, 4 ; | ||
562 : | paddw mm0, [inter_matrix1 + 8*esi+112] ;mm0 is to be divided inter1 contains fix for division by 1 | ||
563 : | paddw mm3, [inter_matrix1 + 8*esi+120] | ||
564 : | movq mm5,[inter_matrix_fixl + 8*esi+112] | ||
565 : | movq mm7,[inter_matrix_fixl + 8*esi+120] | ||
566 : | pmulhuw mm5,mm0 | ||
567 : | pmulhuw mm7,mm3 ;mm7: first approx of division | ||
568 : | mov esp,esp | ||
569 : | movq mm2,[inter_matrix + 8*esi+112] | ||
570 : | movq mm6,[inter_matrix + 8*esi+120] | ||
571 : | pmullw mm2,mm5 ;test value <= original | ||
572 : | pmullw mm6,mm7 | ||
573 : | psubw mm0,mm2 ;mismatch | ||
574 : | psubw mm3,mm6 | ||
575 : | movq mm2,[byte ebx] | ||
576 : | movq mm6,[mmx_div + ecx * 8 - 8] ; divs for q<=16 | ||
577 : | pmulhuw mm0,[inter_matrix_fix + 8*esi+112] ;correction | ||
578 : | pmulhuw mm3,[inter_matrix_fix + 8*esi+120] | ||
579 : | paddw mm2,[ebx+8] ;sum | ||
580 : | paddw mm5,mm0 ;final result | ||
581 : | paddw mm7,mm3 | ||
582 : | movq mm0,[edi] | ||
583 : | movq mm3,[edi] | ||
584 : | pmulhuw mm5, mm6 ; mm0 = (mm0 / 2Q) >> 16 | ||
585 : | pmulhuw mm7, mm6 ; (level ) / quant (0<quant<32) | ||
586 : | add esi,byte 2 | ||
587 : | psrlw mm5, 1 ; (level ) / (2*quant) | ||
588 : | paddw mm2,mm5 ;sum += x1 | ||
589 : | psrlw mm7, 1 | ||
590 : | movq [ebx],mm7 ;store x2 | ||
591 : | pxor mm5, mm1 ; mm0 *= sign(mm0) | ||
592 : | pxor mm7, mm4 ; | ||
593 : | psubw mm5, mm1 ; undisplace | ||
594 : | psubw mm7, mm4 ; | ||
595 : | db 0Fh, 7Fh, 54h, 23h, 08 ;movq [ebx+8],mm2 ;store sum | ||
596 : | movq [edx + 8*esi+112-16], mm5 | ||
597 : | movq [edx + 8*esi +120-16], mm7 | ||
598 : | jng near .lloop | ||
599 : | jmp near .done | ||
600 : | |||
601 : | |||
602 : | ;=========================================================================== | ||
603 : | ; | ||
604 : | ; void dequant4_intra_mmx(int16_t *data, | ||
605 : | ; const int16_t const *coeff, | ||
606 : | ; const uint32_t quant, | ||
607 : | ; const uint32_t dcscalar); | ||
608 : | ; | ||
609 : | ;=========================================================================== | ||
610 : | |||
611 : | ; Note: in order to saturate 'easily', we pre-shift the quantifier | ||
612 : | ; by 4. Then, the high-word of (coeff[]*matrix[i]*quant) are used to | ||
613 : | ; build a saturating mask. It is non-zero only when an overflow occured. | ||
614 : | ; We thus avoid packing/unpacking toward double-word. | ||
615 : | ; Moreover, we perform the mult (matrix[i]*quant) first, instead of, e.g., | ||
616 : | ; (coeff[i]*matrix[i]). This is less prone to overflow if coeff[] are not | ||
617 : | ; checked. Input ranges are: coeff in [-127,127], inter_matrix in [1..255],a | ||
618 : | ; and quant in [1..31]. | ||
619 : | ; | ||
620 : | ;******************************************************************** | ||
621 : | %macro DEQUANT4INTRAMMX 1 | ||
622 : | movq mm1, [byte ecx+ 16 * %1] ; mm0 = c = coeff[i] | ||
623 : | movq mm4, [ecx+ 16 * %1 +8]; mm3 = c' = coeff[i+1] | ||
624 : | psubw mm0,mm1 | ||
625 : | psubw mm3,mm4 | ||
626 : | pmaxsw mm0,mm1 | ||
627 : | pmaxsw mm3,mm4 | ||
628 : | psraw mm1,15 | ||
629 : | psraw mm4,15 | ||
630 : | %if %1 | ||
631 : | movq mm2,[eax+8] ;preshifted quant | ||
632 : | movq mm7,[eax+8] | ||
633 : | %endif | ||
634 : | pmullw mm2, [intra_matrix + 16 * %1 ] ; matrix[i]*quant | ||
635 : | pmullw mm7, [intra_matrix + 16 * %1 +8] ; matrix[i+1]*quant | ||
636 : | movq mm5,mm0 | ||
637 : | movq mm6,mm3 | ||
638 : | pmulhw mm0, mm2 ; high of coeff*(matrix*quant) | ||
639 : | pmulhw mm3, mm7 ; high of coeff*(matrix*quant) | ||
640 : | pmullw mm2, mm5 ; low of coeff*(matrix*quant) | ||
641 : | pmullw mm7, mm6 ; low of coeff*(matrix*quant) | ||
642 : | pcmpgtw mm0, [eax] | ||
643 : | pcmpgtw mm3, [eax] | ||
644 : | paddusw mm2, mm0 | ||
645 : | paddusw mm7, mm3 | ||
646 : | psrlw mm2, 5 | ||
647 : | psrlw mm7, 5 | ||
648 : | pxor mm2, mm1 ; start negating back | ||
649 : | pxor mm7, mm4 ; start negating back | ||
650 : | psubusw mm1, mm0 | ||
651 : | psubusw mm4, mm3 | ||
652 : | movq mm0,[eax] ;zero | ||
653 : | movq mm3,[eax] ;zero | ||
654 : | psubw mm2, mm1 ; finish negating back | ||
655 : | psubw mm7, mm4 ; finish negating back | ||
656 : | movq [byte edx + 16 * %1], mm2 ; data[i] | ||
657 : | movq [edx + 16 * %1 +8], mm7 ; data[i+1] | ||
658 : | %endmacro | ||
659 : | |||
660 : | align 16 | ||
661 : | cglobal dequant4_intra_3dne | ||
662 : | dequant4_intra_3dne: | ||
663 : | |||
664 : | mov eax, [esp+12] ; quant | ||
665 : | mov ecx, [esp+8] ; coeff | ||
666 : | movq mm7, [mmx_mul_quant + eax*8 - 8] | ||
667 : | psllw mm7, 2 ; << 2. See comment. | ||
668 : | mov edx, [esp+4] ; data | ||
669 : | push ebx | ||
670 : | movsx ebx,word [ecx] | ||
671 : | pxor mm0, mm0 | ||
672 : | pxor mm3, mm3 | ||
673 : | push esi | ||
674 : | lea eax,[esp-28] | ||
675 : | sub esp,byte 32 | ||
676 : | and eax,byte -8 ;points to qword aligned space on stack | ||
677 : | movq [eax],mm0 | ||
678 : | movq [eax+8],mm7 | ||
679 : | imul ebx,[esp+16+8+32] ; dcscalar | ||
680 : | movq mm2,mm7 | ||
681 : | |||
682 : | |||
683 : | align 4 | ||
684 : | DEQUANT4INTRAMMX 0 | ||
685 : | mov esi,-2048 | ||
686 : | nop | ||
687 : | cmp ebx,esi | ||
688 : | DEQUANT4INTRAMMX 1 | ||
689 : | cmovl ebx,esi | ||
690 : | neg esi | ||
691 : | sub esi,byte 1 ;2047 | ||
692 : | DEQUANT4INTRAMMX 2 | ||
693 : | cmp ebx,esi | ||
694 : | cmovg ebx,esi | ||
695 : | lea ebp,[byte ebp] | ||
696 : | DEQUANT4INTRAMMX 3 | ||
697 : | mov esi,[esp+32] | ||
698 : | mov [byte edx], bx | ||
699 : | mov ebx,[esp+32+4] | ||
700 : | DEQUANT4INTRAMMX 4 | ||
701 : | DEQUANT4INTRAMMX 5 | ||
702 : | DEQUANT4INTRAMMX 6 | ||
703 : | DEQUANT4INTRAMMX 7 | ||
704 : | add esp,byte 32+8 | ||
705 : | |||
706 : | ret | ||
707 : | |||
708 : | ;=========================================================================== | ||
709 : | ; | ||
710 : | ; void dequant4_inter_3dne(int16_t * data, | ||
711 : | ; const int16_t * const coeff, | ||
712 : | ; const uint32_t quant); | ||
713 : | ; | ||
714 : | ;=========================================================================== | ||
715 : | |||
716 : | ; Note: We use (2*c + sgn(c) - sgn(-c)) as multiplier | ||
717 : | ; so we handle the 3 cases: c<0, c==0, and c>0 in one shot. | ||
718 : | ; sgn(x) is the result of 'pcmpgtw 0,x': 0 if x>=0, -1 if x<0. | ||
719 : | ; It's mixed with the extraction of the absolute value. | ||
720 : | |||
721 : | align 16 | ||
722 : | cglobal dequant4_inter_3dne | ||
723 : | dequant4_inter_3dne: | ||
724 : | |||
725 : | mov edx, [esp+ 4] ; data | ||
726 : | mov ecx, [esp+ 8] ; coeff | ||
727 : | mov eax, [esp+12] ; quant | ||
728 : | movq mm7, [mmx_mul_quant + eax*8 - 8] | ||
729 : | mov eax, -14 | ||
730 : | paddw mm7, mm7 ; << 1 | ||
731 : | pxor mm6, mm6 ; mismatch sum | ||
732 : | push esi | ||
733 : | mov esi,mmzero | ||
734 : | pxor mm1,mm1 | ||
735 : | pxor mm3,mm3 | ||
736 : | nop | ||
737 : | nop4 | ||
738 : | |||
739 : | align 16 | ||
740 : | .loop | ||
741 : | movq mm0, [ecx+8*eax + 7*16 ] ; mm0 = coeff[i] | ||
742 : | pcmpgtw mm1, mm0 ; mm1 = sgn(c) (preserved) | ||
743 : | movq mm2, [ecx+8*eax + 7*16 +8] ; mm2 = coeff[i+1] | ||
744 : | pcmpgtw mm3, mm2 ; mm3 = sgn(c') (preserved) | ||
745 : | paddsw mm0, mm1 ; c += sgn(c) | ||
746 : | paddsw mm2, mm3 ; c += sgn(c') | ||
747 : | paddw mm0, mm0 ; c *= 2 | ||
748 : | paddw mm2, mm2 ; c'*= 2 | ||
749 : | |||
750 : | movq mm4, [esi] | ||
751 : | movq mm5, [esi] | ||
752 : | psubw mm4, mm0 ; -c | ||
753 : | psubw mm5, mm2 ; -c' | ||
754 : | |||
755 : | psraw mm4, 16 ; mm4 = sgn(-c) | ||
756 : | psraw mm5, 16 ; mm5 = sgn(-c') | ||
757 : | psubsw mm0, mm4 ; c -= sgn(-c) | ||
758 : | psubsw mm2, mm5 ; c' -= sgn(-c') | ||
759 : | pxor mm0, mm1 ; finish changing sign if needed | ||
760 : | pxor mm2, mm3 ; finish changing sign if needed | ||
761 : | |||
762 : | ; we're short on register, here. Poor pairing... | ||
763 : | |||
764 : | movq mm4, mm7 ; (matrix*quant) | ||
765 : | nop | ||
766 : | pmullw mm4, [inter_matrix + 8*eax + 7*16] | ||
767 : | movq mm5, mm4 | ||
768 : | pmulhw mm5, mm0 ; high of c*(matrix*quant) | ||
769 : | pmullw mm0, mm4 ; low of c*(matrix*quant) | ||
770 : | |||
771 : | movq mm4, mm7 ; (matrix*quant) | ||
772 : | pmullw mm4, [inter_matrix + 8*eax + 7*16 + 8] | ||
773 : | add eax,byte 2 | ||
774 : | |||
775 : | pcmpgtw mm5, [esi] | ||
776 : | paddusw mm0, mm5 | ||
777 : | psrlw mm0, 5 | ||
778 : | pxor mm0, mm1 ; start restoring sign | ||
779 : | psubusw mm1, mm5 | ||
780 : | |||
781 : | movq mm5, mm4 | ||
782 : | pmulhw mm5, mm2 ; high of c*(matrix*quant) | ||
783 : | pmullw mm2, mm4 ; low of c*(matrix*quant) | ||
784 : | psubw mm0, mm1 ; finish restoring sign | ||
785 : | |||
786 : | pcmpgtw mm5, [esi] | ||
787 : | paddusw mm2, mm5 | ||
788 : | psrlw mm2, 5 | ||
789 : | pxor mm2, mm3 ; start restoring sign | ||
790 : | psubusw mm3, mm5 | ||
791 : | psubw mm2, mm3 ; finish restoring sign | ||
792 : | movq mm1, [esi] | ||
793 : | movq mm3, [byte esi] | ||
794 : | pxor mm6, mm0 ; mismatch control | ||
795 : | movq [edx + 8*eax + 7*16 -2*8 ], mm0 ; data[i] | ||
796 : | pxor mm6, mm2 ; mismatch control | ||
797 : | movq [edx + 8*eax + 7*16 -2*8 +8], mm2 ; data[i+1] | ||
798 : | |||
799 : | jng .loop | ||
800 : | nop | ||
801 : | |||
802 : | ; mismatch control | ||
803 : | |||
804 : | pshufw mm0,mm6,01010101b | ||
805 : | pshufw mm1,mm6,10101010b | ||
806 : | pshufw mm2,mm6,11111111b | ||
807 : | pxor mm6, mm0 | ||
808 : | pxor mm1, mm2 | ||
809 : | pxor mm6, mm1 | ||
810 : | movd eax, mm6 | ||
811 : | and eax,byte 1 | ||
812 : | xor eax,byte 1 | ||
813 : | mov esi,[esp] | ||
814 : | add esp,byte 4 | ||
815 : | xor word [edx + 2*63], ax | ||
816 : | |||
817 : | ret | ||
818 : |
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