vba-linux: src/filters/interframe.cpp annotate

annotate src/filters/interframe.cpp @ 27:b970226568d2

brought in filters package

author	Robert McIntyre <rlm@mit.edu>
date	Sun, 04 Mar 2012 20:32:31 -0600
parents	f9f4f1b99eed
children

rev	line source
rlm@1	1 #include <cstdlib>
rlm@1	2 #include <cstring>
rlm@1	3 #include "../Port.h"
rlm@1	4
rlm@1	5 #ifdef MMX
rlm@1	6 extern "C" bool cpu_mmx;
rlm@1	7 #endif
rlm@1	8
rlm@1	9 /*
rlm@1	10 * Thanks to Kawaks' Mr. K for the code
rlm@1	11
rlm@1	12 Incorporated into vba by Anthony Di Franco
rlm@1	13 */
rlm@1	14
rlm@1	15 static u8 *frm1 = NULL;
rlm@1	16 static u8 *frm2 = NULL;
rlm@1	17 static u8 *frm3 = NULL;
rlm@1	18
rlm@1	19 extern u32 RGB_LOW_BITS_MASK;
rlm@1	20 extern u32 qRGB_COLOR_MASK[2];
rlm@1	21
rlm@1	22 static void Init()
rlm@1	23 {
rlm@1	24 frm1 = (u8 )calloc(322 242, 4);
rlm@1	25 // 1 frame ago
rlm@1	26 frm2 = (u8 )calloc(322 242, 4);
rlm@1	27 // 2 frames ago
rlm@1	28 frm3 = (u8 )calloc(322 242, 4);
rlm@1	29 // 3 frames ago
rlm@1	30 }
rlm@1	31
rlm@1	32 void InterframeCleanup()
rlm@1	33 {
rlm@1	34 if (frm1)
rlm@1	35 free(frm1);
rlm@1	36 if (frm2)
rlm@1	37 free(frm2);
rlm@1	38 if (frm3)
rlm@1	39 free(frm3);
rlm@1	40 frm1 = frm2 = frm3 = NULL;
rlm@1	41 }
rlm@1	42
rlm@1	43 #ifdef MMX
rlm@1	44 static void SmartIB_MMX(u8 *srcPtr, u32 srcPitch, int width, int height)
rlm@1	45 {
rlm@1	46 u16 src0 = (u16 )srcPtr;
rlm@1	47 u16 src1 = (u16 )frm1;
rlm@1	48 u16 src2 = (u16 )frm2;
rlm@1	49 u16 src3 = (u16 )frm3;
rlm@1	50
rlm@1	51 int count = width >> 2;
rlm@1	52
rlm@1	53 for (int i = 0; i < height; i++)
rlm@1	54 {
rlm@1	55 #ifdef __GNUC__
rlm@1	56 asm volatile (
rlm@1	57 "push %4\n"
rlm@1	58 "movq 0(%5), %%mm7\n" // colorMask
rlm@1	59 "0:\n"
rlm@1	60 "movq 0(%0), %%mm0\n" // src0
rlm@1	61 "movq 0(%1), %%mm1\n" // src1
rlm@1	62 "movq 0(%2), %%mm2\n" // src2
rlm@1	63 "movq 0(%3), %%mm3\n" // src3
rlm@1	64 "movq %%mm0, 0(%3)\n" // src3 = src0
rlm@1	65 "movq %%mm0, %%mm4\n"
rlm@1	66 "movq %%mm1, %%mm5\n"
rlm@1	67 "pcmpeqw %%mm2, %%mm5\n" // src1 == src2 (A)
rlm@1	68 "pcmpeqw %%mm3, %%mm4\n" // src3 == src0 (B)
rlm@1	69 "por %%mm5, %%mm4\n" // A \| B
rlm@1	70 "movq %%mm2, %%mm5\n"
rlm@1	71 "pcmpeqw %%mm0, %%mm5\n" // src0 == src2 (C)
rlm@1	72 "pcmpeqw %%mm1, %%mm3\n" // src1 == src3 (D)
rlm@1	73 "por %%mm3, %%mm5\n" // C\|D
rlm@1	74 "pandn %%mm5, %%mm4\n" // (!(A\|B))&(C\|D)
rlm@1	75 "movq %%mm0, %%mm2\n"
rlm@1	76 "pand %%mm7, %%mm2\n" // color & colorMask
rlm@1	77 "pand %%mm7, %%mm1\n" // src1 & colorMask
rlm@1	78 "psrlw $1, %%mm2\n" // (color & colorMask) >> 1 (E)
rlm@1	79 "psrlw $1, %%mm1\n" // (src & colorMask) >> 1 (F)
rlm@1	80 "paddw %%mm2, %%mm1\n" // E+F
rlm@1	81 "pand %%mm4, %%mm1\n" // (E+F) & res
rlm@1	82 "pandn %%mm0, %%mm4\n" // color& !res
rlm@1	83
rlm@1	84 "por %%mm1, %%mm4\n"
rlm@1	85 "movq %%mm4, 0(%0)\n" // src0 = res
rlm@1	86
rlm@1	87 "addl $8, %0\n"
rlm@1	88 "addl $8, %1\n"
rlm@1	89 "addl $8, %2\n"
rlm@1	90 "addl $8, %3\n"
rlm@1	91
rlm@1	92 "decl %4\n"
rlm@1	93 "jnz 0b\n"
rlm@1	94 "pop %4\n"
rlm@1	95 "emms\n"
rlm@1	96 : "+r" (src0), "+r" (src1), "+r" (src2), "+r" (src3)
rlm@1	97 : "r" (count), "r" (qRGB_COLOR_MASK)
rlm@1	98 );
rlm@1	99 #else
rlm@1	100 __asm {
rlm@1	101 movq mm7, qword ptr [qRGB_COLOR_MASK];
rlm@1	102 mov eax, src0;
rlm@1	103 mov ebx, src1;
rlm@1	104 mov ecx, src2;
rlm@1	105 mov edx, src3;
rlm@1	106 mov edi, count;
rlm@1	107 label0:
rlm@1	108 movq mm0, qword ptr [eax]; // src0
rlm@1	109 movq mm1, qword ptr [ebx]; // src1
rlm@1	110 movq mm2, qword ptr [ecx]; // src2
rlm@1	111 movq mm3, qword ptr [edx]; // src3
rlm@1	112 movq qword ptr [edx], mm0; // src3 = src0
rlm@1	113 movq mm4, mm0;
rlm@1	114 movq mm5, mm1;
rlm@1	115 pcmpeqw mm5, mm2; // src1 == src2 (A)
rlm@1	116 pcmpeqw mm4, mm3; // src3 == src0 (B)
rlm@1	117 por mm4, mm5; // A \| B
rlm@1	118 movq mm5, mm2;
rlm@1	119 pcmpeqw mm5, mm0; // src0 == src2 (C)
rlm@1	120 pcmpeqw mm3, mm1; // src1 == src3 (D)
rlm@1	121 por mm5, mm3; // C\|D
rlm@1	122 pandn mm4, mm5; // (!(A\|B))&(C\|D)
rlm@1	123 movq mm2, mm0;
rlm@1	124 pand mm2, mm7; // color & colorMask
rlm@1	125 pand mm1, mm7; // src1 & colorMask
rlm@1	126 psrlw mm2, 1; // (color & colorMask) >> 1 (E)
rlm@1	127 psrlw mm1, 1; // (src & colorMask) >> 1 (F)
rlm@1	128 paddw mm1, mm2; // E+F
rlm@1	129 pand mm1, mm4; // (E+F) & res
rlm@1	130 pandn mm4, mm0; // color & !res
rlm@1	131
rlm@1	132 por mm4, mm1;
rlm@1	133 movq qword ptr [eax], mm4; // src0 = res
rlm@1	134
rlm@1	135 add eax, 8;
rlm@1	136 add ebx, 8;
rlm@1	137 add ecx, 8;
rlm@1	138 add edx, 8;
rlm@1	139
rlm@1	140 dec edi;
rlm@1	141 jnz label0;
rlm@1	142 mov src0, eax;
rlm@1	143 mov src1, ebx;
rlm@1	144 mov src2, ecx;
rlm@1	145 mov src3, edx;
rlm@1	146 emms;
rlm@1	147 }
rlm@1	148 #endif
rlm@1	149 src0 += 2;
rlm@1	150 src1 += 2;
rlm@1	151 src2 += 2;
rlm@1	152 src3 += 2;
rlm@1	153 }
rlm@1	154
rlm@1	155 /* Swap buffers around */
rlm@1	156 u8 *temp = frm1;
rlm@1	157 frm1 = frm3;
rlm@1	158 frm3 = frm2;
rlm@1	159 frm2 = temp;
rlm@1	160 }
rlm@1	161
rlm@1	162 #endif
rlm@1	163
rlm@1	164 void SmartIB(u8 *srcPtr, u32 srcPitch, int width, int height)
rlm@1	165 {
rlm@1	166 if (frm1 == NULL)
rlm@1	167 {
rlm@1	168 Init();
rlm@1	169 }
rlm@1	170 #ifdef MMX
rlm@1	171 if (cpu_mmx)
rlm@1	172 {
rlm@1	173 SmartIB_MMX(srcPtr, srcPitch, width, height);
rlm@1	174 return;
rlm@1	175 }
rlm@1	176 #endif
rlm@1	177
rlm@1	178 u16 colorMask = ~RGB_LOW_BITS_MASK;
rlm@1	179
rlm@1	180 u16 src0 = (u16 )srcPtr;
rlm@1	181 u16 src1 = (u16 )frm1;
rlm@1	182 u16 src2 = (u16 )frm2;
rlm@1	183 u16 src3 = (u16 )frm3;
rlm@1	184
rlm@1	185 int sPitch = srcPitch >> 1;
rlm@1	186
rlm@1	187 int pos = 0;
rlm@1	188 for (int j = 0; j < height; j++)
rlm@1	189 for (int i = 0; i < sPitch; i++)
rlm@1	190 {
rlm@1	191 u16 color = src0[pos];
rlm@1	192 src0[pos] =
rlm@1	193 (src1[pos] != src2[pos]) &&
rlm@1	194 (src3[pos] != color) &&
rlm@1	195 ((color == src2[pos]) \|\| (src1[pos] == src3[pos]))
rlm@1	196 ? (((color & colorMask) >> 1) + ((src1[pos] & colorMask) >> 1)) :
rlm@1	197 color;
rlm@1	198 src3[pos] = color; /* oldest buffer now holds newest frame */
rlm@1	199 pos++;
rlm@1	200 }
rlm@1	201
rlm@1	202 /* Swap buffers around */
rlm@1	203 u8 *temp = frm1;
rlm@1	204 frm1 = frm3;
rlm@1	205 frm3 = frm2;
rlm@1	206 frm2 = temp;
rlm@1	207 }
rlm@1	208
rlm@1	209 #ifdef MMX
rlm@1	210 static void SmartIB32_MMX(u8 *srcPtr, u32 srcPitch, int width, int height)
rlm@1	211 {
rlm@1	212 u32 src0 = (u32 )srcPtr;
rlm@1	213 u32 src1 = (u32 )frm1;
rlm@1	214 u32 src2 = (u32 )frm2;
rlm@1	215 u32 src3 = (u32 )frm3;
rlm@1	216
rlm@1	217 int count = width >> 1;
rlm@1	218
rlm@1	219 for (int i = 0; i < height; i++)
rlm@1	220 {
rlm@1	221 #ifdef __GNUC__
rlm@1	222 asm volatile (
rlm@1	223 "push %4\n"
rlm@1	224 "movq 0(%5), %%mm7\n" // colorMask
rlm@1	225 "0:\n"
rlm@1	226 "movq 0(%0), %%mm0\n" // src0
rlm@1	227 "movq 0(%1), %%mm1\n" // src1
rlm@1	228 "movq 0(%2), %%mm2\n" // src2
rlm@1	229 "movq 0(%3), %%mm3\n" // src3
rlm@1	230 "movq %%mm0, 0(%3)\n" // src3 = src0
rlm@1	231 "movq %%mm0, %%mm4\n"
rlm@1	232 "movq %%mm1, %%mm5\n"
rlm@1	233 "pcmpeqd %%mm2, %%mm5\n" // src1 == src2 (A)
rlm@1	234 "pcmpeqd %%mm3, %%mm4\n" // src3 == src0 (B)
rlm@1	235 "por %%mm5, %%mm4\n" // A \| B
rlm@1	236 "movq %%mm2, %%mm5\n"
rlm@1	237 "pcmpeqd %%mm0, %%mm5\n" // src0 == src2 (C)
rlm@1	238 "pcmpeqd %%mm1, %%mm3\n" // src1 == src3 (D)
rlm@1	239 "por %%mm3, %%mm5\n" // C\|D
rlm@1	240 "pandn %%mm5, %%mm4\n" // (!(A\|B))&(C\|D)
rlm@1	241 "movq %%mm0, %%mm2\n"
rlm@1	242 "pand %%mm7, %%mm2\n" // color & colorMask
rlm@1	243 "pand %%mm7, %%mm1\n" // src1 & colorMask
rlm@1	244 "psrld $1, %%mm2\n" // (color & colorMask) >> 1 (E)
rlm@1	245 "psrld $1, %%mm1\n" // (src & colorMask) >> 1 (F)
rlm@1	246 "paddd %%mm2, %%mm1\n" // E+F
rlm@1	247 "pand %%mm4, %%mm1\n" // (E+F) & res
rlm@1	248 "pandn %%mm0, %%mm4\n" // color& !res
rlm@1	249
rlm@1	250 "por %%mm1, %%mm4\n"
rlm@1	251 "movq %%mm4, 0(%0)\n" // src0 = res
rlm@1	252
rlm@1	253 "addl $8, %0\n"
rlm@1	254 "addl $8, %1\n"
rlm@1	255 "addl $8, %2\n"
rlm@1	256 "addl $8, %3\n"
rlm@1	257
rlm@1	258 "decl %4\n"
rlm@1	259 "jnz 0b\n"
rlm@1	260 "pop %4\n"
rlm@1	261 "emms\n"
rlm@1	262 : "+r" (src0), "+r" (src1), "+r" (src2), "+r" (src3)
rlm@1	263 : "r" (count), "r" (qRGB_COLOR_MASK)
rlm@1	264 );
rlm@1	265 #else
rlm@1	266 __asm {
rlm@1	267 movq mm7, qword ptr [qRGB_COLOR_MASK];
rlm@1	268 mov eax, src0;
rlm@1	269 mov ebx, src1;
rlm@1	270 mov ecx, src2;
rlm@1	271 mov edx, src3;
rlm@1	272 mov edi, count;
rlm@1	273 label0:
rlm@1	274 movq mm0, qword ptr [eax]; // src0
rlm@1	275 movq mm1, qword ptr [ebx]; // src1
rlm@1	276 movq mm2, qword ptr [ecx]; // src2
rlm@1	277 movq mm3, qword ptr [edx]; // src3
rlm@1	278 movq qword ptr [edx], mm0; // src3 = src0
rlm@1	279 movq mm4, mm0;
rlm@1	280 movq mm5, mm1;
rlm@1	281 pcmpeqd mm5, mm2; // src1 == src2 (A)
rlm@1	282 pcmpeqd mm4, mm3; // src3 == src0 (B)
rlm@1	283 por mm4, mm5; // A \| B
rlm@1	284 movq mm5, mm2;
rlm@1	285 pcmpeqd mm5, mm0; // src0 == src2 (C)
rlm@1	286 pcmpeqd mm3, mm1; // src1 == src3 (D)
rlm@1	287 por mm5, mm3; // C\|D
rlm@1	288 pandn mm4, mm5; // (!(A\|B))&(C\|D)
rlm@1	289 movq mm2, mm0;
rlm@1	290 pand mm2, mm7; // color & colorMask
rlm@1	291 pand mm1, mm7; // src1 & colorMask
rlm@1	292 psrld mm2, 1; // (color & colorMask) >> 1 (E)
rlm@1	293 psrld mm1, 1; // (src & colorMask) >> 1 (F)
rlm@1	294 paddd mm1, mm2; // E+F
rlm@1	295 pand mm1, mm4; // (E+F) & res
rlm@1	296 pandn mm4, mm0; // color & !res
rlm@1	297
rlm@1	298 por mm4, mm1;
rlm@1	299 movq qword ptr [eax], mm4; // src0 = res
rlm@1	300
rlm@1	301 add eax, 8;
rlm@1	302 add ebx, 8;
rlm@1	303 add ecx, 8;
rlm@1	304 add edx, 8;
rlm@1	305
rlm@1	306 dec edi;
rlm@1	307 jnz label0;
rlm@1	308 mov src0, eax;
rlm@1	309 mov src1, ebx;
rlm@1	310 mov src2, ecx;
rlm@1	311 mov src3, edx;
rlm@1	312 emms;
rlm@1	313 }
rlm@1	314 #endif
rlm@1	315
rlm@1	316 src0++;
rlm@1	317 src1++;
rlm@1	318 src2++;
rlm@1	319 src3++;
rlm@1	320 }
rlm@1	321 /* Swap buffers around */
rlm@1	322 u8 *temp = frm1;
rlm@1	323 frm1 = frm3;
rlm@1	324 frm3 = frm2;
rlm@1	325 frm2 = temp;
rlm@1	326 }
rlm@1	327
rlm@1	328 #endif
rlm@1	329
rlm@1	330 void SmartIB32(u8 *srcPtr, u32 srcPitch, int width, int height)
rlm@1	331 {
rlm@1	332 if (frm1 == NULL)
rlm@1	333 {
rlm@1	334 Init();
rlm@1	335 }
rlm@1	336 #ifdef MMX
rlm@1	337 if (cpu_mmx)
rlm@1	338 {
rlm@1	339 SmartIB32_MMX(srcPtr, srcPitch, width, height);
rlm@1	340 return;
rlm@1	341 }
rlm@1	342 #endif
rlm@1	343
rlm@1	344 u32 src0 = (u32 )srcPtr;
rlm@1	345 u32 src1 = (u32 )frm1;
rlm@1	346 u32 src2 = (u32 )frm2;
rlm@1	347 u32 src3 = (u32 )frm3;
rlm@1	348
rlm@1	349 u32 colorMask = 0xfefefe;
rlm@1	350
rlm@1	351 int sPitch = srcPitch >> 2;
rlm@1	352 int pos = 0;
rlm@1	353
rlm@1	354 for (int j = 0; j < height; j++)
rlm@1	355 for (int i = 0; i < sPitch; i++)
rlm@1	356 {
rlm@1	357 u32 color = src0[pos];
rlm@1	358 src0[pos] =
rlm@1	359 (src1[pos] != src2[pos]) &&
rlm@1	360 (src3[pos] != color) &&
rlm@1	361 ((color == src2[pos]) \|\| (src1[pos] == src3[pos]))
rlm@1	362 ? (((color & colorMask) >> 1) + ((src1[pos] & colorMask) >> 1)) :
rlm@1	363 color;
rlm@1	364 src3[pos] = color; /* oldest buffer now holds newest frame */
rlm@1	365 pos++;
rlm@1	366 }
rlm@1	367
rlm@1	368 /* Swap buffers around */
rlm@1	369 u8 *temp = frm1;
rlm@1	370 frm1 = frm3;
rlm@1	371 frm3 = frm2;
rlm@1	372 frm2 = temp;
rlm@1	373 }
rlm@1	374
rlm@1	375 #ifdef MMX
rlm@1	376 static void MotionBlurIB_MMX(u8 *srcPtr, u32 srcPitch, int width, int height)
rlm@1	377 {
rlm@1	378 u16 src0 = (u16 )srcPtr;
rlm@1	379 u16 src1 = (u16 )frm1;
rlm@1	380
rlm@1	381 int count = width >> 2;
rlm@1	382
rlm@1	383 for (int i = 0; i < height; i++)
rlm@1	384 {
rlm@1	385 #ifdef __GNUC__
rlm@1	386 asm volatile (
rlm@1	387 "push %2\n"
rlm@1	388 "movq 0(%3), %%mm7\n" // colorMask
rlm@1	389 "0:\n"
rlm@1	390 "movq 0(%0), %%mm0\n" // src0
rlm@1	391 "movq 0(%1), %%mm1\n" // src1
rlm@1	392 "movq %%mm0, 0(%1)\n" // src1 = src0
rlm@1	393 "pand %%mm7, %%mm0\n" // color & colorMask
rlm@1	394 "pand %%mm7, %%mm1\n" // src1 & colorMask
rlm@1	395 "psrlw $1, %%mm0\n" // (color & colorMask) >> 1 (E)
rlm@1	396 "psrlw $1, %%mm1\n" // (src & colorMask) >> 1 (F)
rlm@1	397 "paddw %%mm1, %%mm0\n" // E+F
rlm@1	398
rlm@1	399 "movq %%mm0, 0(%0)\n" // src0 = res
rlm@1	400
rlm@1	401 "addl $8, %0\n"
rlm@1	402 "addl $8, %1\n"
rlm@1	403
rlm@1	404 "decl %2\n"
rlm@1	405 "jnz 0b\n"
rlm@1	406 "pop %2\n"
rlm@1	407 "emms\n"
rlm@1	408 : "+r" (src0), "+r" (src1)
rlm@1	409 : "r" (count), "r" (qRGB_COLOR_MASK)
rlm@1	410 );
rlm@1	411 #else
rlm@1	412 __asm {
rlm@1	413 movq mm7, qword ptr [qRGB_COLOR_MASK];
rlm@1	414 mov eax, src0;
rlm@1	415 mov ebx, src1;
rlm@1	416 mov edi, count;
rlm@1	417 label0:
rlm@1	418 movq mm0, qword ptr [eax]; // src0
rlm@1	419 movq mm1, qword ptr [ebx]; // src1
rlm@1	420 movq qword ptr [ebx], mm0; // src1 = src0
rlm@1	421 pand mm0, mm7; // color & colorMask
rlm@1	422 pand mm1, mm7; // src1 & colorMask
rlm@1	423 psrlw mm0, 1; // (color & colorMask) >> 1 (E)
rlm@1	424 psrlw mm1, 1; // (src & colorMask) >> 1 (F)
rlm@1	425 paddw mm0, mm1; // E+F
rlm@1	426
rlm@1	427 movq qword ptr [eax], mm0; // src0 = res
rlm@1	428
rlm@1	429 add eax, 8;
rlm@1	430 add ebx, 8;
rlm@1	431
rlm@1	432 dec edi;
rlm@1	433 jnz label0;
rlm@1	434 mov src0, eax;
rlm@1	435 mov src1, ebx;
rlm@1	436 emms;
rlm@1	437 }
rlm@1	438 #endif
rlm@1	439 src0 += 2;
rlm@1	440 src1 += 2;
rlm@1	441 }
rlm@1	442 }
rlm@1	443
rlm@1	444 #endif
rlm@1	445
rlm@1	446 void MotionBlurIB(u8 *srcPtr, u32 srcPitch, int width, int height)
rlm@1	447 {
rlm@1	448 if (frm1 == NULL)
rlm@1	449 {
rlm@1	450 Init();
rlm@1	451 }
rlm@1	452
rlm@1	453 #ifdef MMX
rlm@1	454 if (cpu_mmx)
rlm@1	455 {
rlm@1	456 MotionBlurIB_MMX(srcPtr, srcPitch, width, height);
rlm@1	457 return;
rlm@1	458 }
rlm@1	459 #endif
rlm@1	460
rlm@1	461 u16 colorMask = ~RGB_LOW_BITS_MASK;
rlm@1	462
rlm@1	463 u16 src0 = (u16 )srcPtr;
rlm@1	464 u16 src1 = (u16 )frm1;
rlm@1	465
rlm@1	466 int sPitch = srcPitch >> 1;
rlm@1	467
rlm@1	468 int pos = 0;
rlm@1	469 for (int j = 0; j < height; j++)
rlm@1	470 for (int i = 0; i < sPitch; i++)
rlm@1	471 {
rlm@1	472 u16 color = src0[pos];
rlm@1	473 src0[pos] =
rlm@1	474 (((color & colorMask) >> 1) + ((src1[pos] & colorMask) >> 1));
rlm@1	475 src1[pos] = color;
rlm@1	476 pos++;
rlm@1	477 }
rlm@1	478 }
rlm@1	479
rlm@1	480 #ifdef MMX
rlm@1	481 static void MotionBlurIB32_MMX(u8 *srcPtr, u32 srcPitch, int width, int height)
rlm@1	482 {
rlm@1	483 u32 src0 = (u32 )srcPtr;
rlm@1	484 u32 src1 = (u32 )frm1;
rlm@1	485
rlm@1	486 int count = width >> 1;
rlm@1	487
rlm@1	488 for (int i = 0; i < height; i++)
rlm@1	489 {
rlm@1	490 #ifdef __GNUC__
rlm@1	491 asm volatile (
rlm@1	492 "push %2\n"
rlm@1	493 "movq 0(%3), %%mm7\n" // colorMask
rlm@1	494 "0:\n"
rlm@1	495 "movq 0(%0), %%mm0\n" // src0
rlm@1	496 "movq 0(%1), %%mm1\n" // src1
rlm@1	497 "movq %%mm0, 0(%1)\n" // src1 = src0
rlm@1	498 "pand %%mm7, %%mm0\n" // color & colorMask
rlm@1	499 "pand %%mm7, %%mm1\n" // src1 & colorMask
rlm@1	500 "psrld $1, %%mm0\n" // (color & colorMask) >> 1 (E)
rlm@1	501 "psrld $1, %%mm1\n" // (src & colorMask) >> 1 (F)
rlm@1	502 "paddd %%mm1, %%mm0\n" // E+F
rlm@1	503
rlm@1	504 "movq %%mm0, 0(%0)\n" // src0 = res
rlm@1	505
rlm@1	506 "addl $8, %0\n"
rlm@1	507 "addl $8, %1\n"
rlm@1	508
rlm@1	509 "decl %2\n"
rlm@1	510 "jnz 0b\n"
rlm@1	511 "pop %2\n"
rlm@1	512 "emms\n"
rlm@1	513 : "+r" (src0), "+r" (src1)
rlm@1	514 : "r" (count), "r" (qRGB_COLOR_MASK)
rlm@1	515 );
rlm@1	516 #else
rlm@1	517 __asm {
rlm@1	518 movq mm7, qword ptr [qRGB_COLOR_MASK];
rlm@1	519 mov eax, src0;
rlm@1	520 mov ebx, src1;
rlm@1	521 mov edi, count;
rlm@1	522 label0:
rlm@1	523 movq mm0, qword ptr [eax]; // src0
rlm@1	524 movq mm1, qword ptr [ebx]; // src1
rlm@1	525 movq qword ptr [ebx], mm0; // src1 = src0
rlm@1	526 pand mm0, mm7; // color & colorMask
rlm@1	527 pand mm1, mm7; // src1 & colorMask
rlm@1	528 psrld mm0, 1; // (color & colorMask) >> 1 (E)
rlm@1	529 psrld mm1, 1; // (src & colorMask) >> 1 (F)
rlm@1	530 paddd mm0, mm1; // E+F
rlm@1	531
rlm@1	532 movq qword ptr [eax], mm0; // src0 = res
rlm@1	533
rlm@1	534 add eax, 8;
rlm@1	535 add ebx, 8;
rlm@1	536
rlm@1	537 dec edi;
rlm@1	538 jnz label0;
rlm@1	539 mov src0, eax;
rlm@1	540 mov src1, ebx;
rlm@1	541 emms;
rlm@1	542 }
rlm@1	543 #endif
rlm@1	544 src0++;
rlm@1	545 src1++;
rlm@1	546 }
rlm@1	547 }
rlm@1	548
rlm@1	549 #endif
rlm@1	550
rlm@1	551 void MotionBlurIB32(u8 *srcPtr, u32 srcPitch, int width, int height)
rlm@1	552 {
rlm@1	553 if (frm1 == NULL)
rlm@1	554 {
rlm@1	555 Init();
rlm@1	556 }
rlm@1	557
rlm@1	558 #ifdef MMX
rlm@1	559 if (cpu_mmx)
rlm@1	560 {
rlm@1	561 MotionBlurIB32_MMX(srcPtr, srcPitch, width, height);
rlm@1	562 return;
rlm@1	563 }
rlm@1	564 #endif
rlm@1	565
rlm@1	566 u32 src0 = (u32 )srcPtr;
rlm@1	567 u32 src1 = (u32 )frm1;
rlm@1	568
rlm@1	569 u32 colorMask = 0xfefefe;
rlm@1	570
rlm@1	571 int sPitch = srcPitch >> 2;
rlm@1	572 int pos = 0;
rlm@1	573
rlm@1	574 for (int j = 0; j < height; j++)
rlm@1	575 for (int i = 0; i < sPitch; i++)
rlm@1	576 {
rlm@1	577 u32 color = src0[pos];
rlm@1	578 src0[pos] = (((color & colorMask) >> 1) +
rlm@1	579 ((src1[pos] & colorMask) >> 1));
rlm@1	580 src1[pos] = color;
rlm@1	581 pos++;
rlm@1	582 }
rlm@1	583 }
rlm@1	584
rlm@1	585 static int count = 0;
rlm@1	586
rlm@1	587 void InterlaceIB(u8 *srcPtr, u32 srcPitch, int width, int height)
rlm@1	588 {
rlm@1	589 if (frm1 == NULL)
rlm@1	590 {
rlm@1	591 Init();
rlm@1	592 }
rlm@1	593
rlm@1	594 u16 colorMask = ~RGB_LOW_BITS_MASK;
rlm@1	595
rlm@1	596 u16 src0 = (u16 )srcPtr;
rlm@1	597 u16 src1 = (u16 )frm1;
rlm@1	598
rlm@1	599 int sPitch = srcPitch >> 1;
rlm@1	600
rlm@1	601 int pos = 0;
rlm@1	602 for (int j = 0; j < height; j++)
rlm@1	603 {
rlm@1	604 bool render = count ? (j & 1) != 0 : (j & 1) == 0;
rlm@1	605 if (render)
rlm@1	606 {
rlm@1	607 for (int i = 0; i < sPitch; i++)
rlm@1	608 {
rlm@1	609 u16 color = src0[pos];
rlm@1	610 src0[pos] =
rlm@1	611 (((color & colorMask) >> 1) + ((((src1[pos] & colorMask) >> 1) & colorMask) >> 1));
rlm@1	612 src1[pos] = color;
rlm@1	613 pos++;
rlm@1	614 }
rlm@1	615 }
rlm@1	616 else
rlm@1	617 {
rlm@1	618 for (int i = 0; i < sPitch; i++)
rlm@1	619 {
rlm@1	620 u16 color = src0[pos];
rlm@1	621 src0[pos] =
rlm@1	622 (((((color & colorMask) >> 1) & colorMask) >> 1) + ((src1[pos] & colorMask) >> 1));
rlm@1	623 src1[pos] = color;
rlm@1	624 pos++;
rlm@1	625 }
rlm@1	626 }
rlm@1	627 }
rlm@1	628 count = count ^ 1;
rlm@1	629 }
rlm@1	630

Mercurial > vba-linux

annotate src/filters/interframe.cpp @ 27:b970226568d2