src/opts/SkXfermode_opts_SSE2.cpp - Issue 202903004: Xfermode: SSE2 implementation of multiply_modeproc

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Issue 202903004: Xfermode: SSE2 implementation of multiply_modeproc (Closed) Base URL: https://skia.googlesource.com/skia.git@xfermode

Patch Set: add SkGetPacked(A/R/G/B)32_SSE2 function Created 6 years, 9 months ago

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	1 #include "SkColorPriv.h"

	2 #include "SkColor_opts_SSE2.h"

	3 #include "SkMathPriv.h"

	4 #include "SkXfermode.h"

	5 #include "SkXfermode_opts_SSE2.h"

	6 #include "SkXfermode_proccoeff.h"

	7

	8 ////////////////////////////////////////////////////////////////////////////////

	9 // 4 pixels SSE2 version functions

	10 ////////////////////////////////////////////////////////////////////////////////

	11

	12 static inline __m128i SkDiv255Round_SSE2(__m128i prod) {

	13 prod = _mm_add_epi32(prod, _mm_set1_epi32(128)); // prod += 128;
	mtklein 2014/03/27 14:55:17 These little translate-back-to-C++ comments are ve These little translate-back-to-C++ comments are very helpful. You don't need to do them, but I want to let you know I really appreciate them. It's going to make it a lot easier to get people understanding our SSE code. qiankun 2014/03/28 07:52:57 I am glad to hear that:) Show quoted text On 2014/03/27 14:55:17, mtklein wrote: > These little translate-back-to-C++ comments are very helpful. You don't need to > do them, but I want to let you know I really appreciate them. It's going to > make it a lot easier to get people understanding our SSE code. I am glad to hear that:)
	14 prod = _mm_add_epi32(prod, _mm_srli_epi32(prod, 8)); // prod + (prod >> 8)

	15 prod = _mm_srli_epi32(prod, 8); // >> 8

	16

	17 return prod;

	18 }

	19

	20 static inline __m128i clamp_div255round_SSE2(__m128i prod) {

	21 // test if > 0

	22 __m128i cmp1 = _mm_cmpgt_epi32(prod, _mm_setzero_si128());

	23 // test if < 255*255

	24 __m128i cmp2 = _mm_cmplt_epi32(prod, _mm_set1_epi32(255*255));

	25

	26 __m128i ret = _mm_setzero_si128();

	27

	28 // if value >= 255*255, value = 255

	29 ret = _mm_andnot_si128(cmp2, _mm_set1_epi32(255));

	30

	31 __m128i div = SkDiv255Round_SSE2(prod);

	32

	33 // test if > 0 && < 255*255

	34 __m128i cmp = _mm_and_si128(cmp1, cmp2);

	35

	36 ret = _mm_or_si128(_mm_and_si128(cmp, div), _mm_andnot_si128(cmp, ret));

	37

	38 return ret;

	39 }

	40

	41 static inline __m128i srcover_byte_SSE2(__m128i a, __m128i b) {

	42 // a + b - SkAlphaMulAlpha(a, b);

	43 return _mm_sub_epi32(_mm_add_epi32(a, b), SkAlphaMulAlpha_SSE2(a, b));

	44

	45 }

	46

	47 static inline __m128i blendfunc_multiply_byte_SSE2(__m128i sc, __m128i dc,

	48 __m128i sa, __m128i da) {

	49 // sc * (255 - da)

	50 __m128i ret1 = _mm_sub_epi32(_mm_set1_epi32(255), da);

	51 ret1 = _mm_mullo_epi16(sc, ret1);

	52

	53 // dc * (255 - sa)

	54 __m128i ret2 = _mm_sub_epi32(_mm_set1_epi32(255), sa);

	55 ret2 = _mm_mullo_epi16(dc, ret2);

	56

	57 // sc * dc

	58 __m128i ret3 = _mm_mullo_epi16(sc, dc);

	59

	60 __m128i ret = _mm_add_epi32(ret1, ret2);

	61 ret = _mm_add_epi32(ret, ret3);

	62

	63 return clamp_div255round_SSE2(ret);

	64 }

	65

	66 static __m128i multiply_modeproc_SSE2(__m128i src, __m128i dst) {

	67 __m128i sa = SkGetPackedA32_SSE2(src);

	68 __m128i da = SkGetPackedA32_SSE2(dst);

	69 __m128i a = srcover_byte_SSE2(sa, da);

	70

	71 __m128i sr = SkGetPackedR32_SSE2(src);

	72 __m128i dr = SkGetPackedR32_SSE2(dst);

	73 __m128i r = blendfunc_multiply_byte_SSE2(sr, dr, sa, da);

	74

	75 __m128i sg = SkGetPackedG32_SSE2(src);

	76 __m128i dg = SkGetPackedG32_SSE2(dst);

	77 __m128i g = blendfunc_multiply_byte_SSE2(sg, dg, sa, da);

	78

	79

	80 __m128i sb = SkGetPackedB32_SSE2(src);

	81 __m128i db = SkGetPackedB32_SSE2(dst);

	82 __m128i b = blendfunc_multiply_byte_SSE2(sb, db, sa, da);

	83

	84 return SkPackARGB32_SSE2(a, r, g, b);

	85 }

	86

	87 ////////////////////////////////////////////////////////////////////////////////

	88

	89 typedef __m128i (*SkXfermodeProcSIMD)(__m128i src, __m128i dst);

	90

	91 extern SkXfermodeProcSIMD gSSE2XfermodeProcs[];

	92

	93 SkSSE2ProcCoeffXfermode::SkSSE2ProcCoeffXfermode(SkReadBuffer& buffer)

	94 : INHERITED(buffer) {

	95 fProcSIMD = reinterpret_cast<void*>(gSSE2XfermodeProcs[this->getMode()]);

	96 }

	97

	98 void SkSSE2ProcCoeffXfermode::xfer32(SkPMColor dst[], const SkPMColor src[],

	99 int count, const SkAlpha aa[]) const {

	100 SkASSERT(dst && src && count >= 0);

	101

	102 SkXfermodeProc proc = this->getProc();

	103 SkXfermodeProcSIMD procSIMD = reinterpret_cast<SkXfermodeProcSIMD>(fProcSIMD );

	104 SkASSERT(procSIMD != NULL);

	105

	106 if (NULL == aa) {

	107 if (count >= 4) {

	108 while (((size_t)dst & 0x0F) != 0) {

	109 dst = proc(src, *dst);

	110 dst++;

	111 src++;

	112 count--;

	113 }

	114

	115 const __m128i* s = reinterpret_cast<const __m128i*>(src);

	116 __m128i* d = reinterpret_cast<__m128i*>(dst);

	117

	118 while (count >= 4) {

	119 __m128i src_pixel = _mm_loadu_si128(s++);

	120 __m128i dst_pixel = _mm_load_si128(d);

	121

	122 dst_pixel = procSIMD(src_pixel, dst_pixel);

	123 _mm_store_si128(d++, dst_pixel);

	124 count -= 4;

	125 }

	126

	127 src = reinterpret_cast<const SkPMColor*>(s);

	128 dst = reinterpret_cast<SkPMColor*>(d);

	129 }

	130

	131 if (count > 0) {
	mtklein 2014/03/27 14:55:17 I'm sure it doesn't hurt, but isn't this outer if I'm sure it doesn't hurt, but isn't this outer if {} superfluous? qiankun 2014/03/28 07:52:57 Thanks for pointing out this. I removed the superf Show quoted text On 2014/03/27 14:55:17, mtklein wrote: > I'm sure it doesn't hurt, but isn't this outer if {} superfluous? Thanks for pointing out this. I removed the superfluous if {} in both xfer32() and xfer16.
	132 for (int i = count - 1; i >= 0; --i) {

	133 dst = proc(src, *dst);

	134 dst++;

	135 src++;

	136 }

	137 }

	138 } else {

	139 for (int i = count - 1; i >= 0; --i) {

	140 unsigned a = aa[i];

	141 if (0 != a) {

	142 SkPMColor dstC = dst[i];

	143 SkPMColor C = proc(src[i], dstC);

	144 if (a != 0xFF) {

	145 C = SkFourByteInterp(C, dstC, a);

	146 }

	147 dst[i] = C;

	148 }

	149 }

	150 }

	151 }

	152

	153 void SkSSE2ProcCoeffXfermode::xfer16(uint16_t* SK_RESTRICT dst,

	154 const SkPMColor* SK_RESTRICT src, int count ,

	155 const SkAlpha* SK_RESTRICT aa) const {

	156 SkASSERT(dst && src && count >= 0);

	157

	158 SkXfermodeProc proc = this->getProc();

	159 SkXfermodeProcSIMD procSIMD = reinterpret_cast<SkXfermodeProcSIMD>(fProcSIMD );

	160 SkASSERT(procSIMD != NULL);

	161

	162 if (NULL == aa) {

	163 if (count >= 8) {

	164 while (((size_t)dst & 0x0F) != 0) {

	165 SkPMColor dstC = SkPixel16ToPixel32(*dst);

	166 dst = SkPixel32ToPixel16_ToU16(proc(src, dstC));

	167 dst++;

	168 src++;

	169 count--;

	170 }

	171

	172 const __m128i* s = reinterpret_cast<const __m128i*>(src);

	173 __m128i* d = reinterpret_cast<__m128i*>(dst);

	174

	175 while (count >= 8) {

	176 __m128i src_pixel1 = _mm_loadu_si128(s++);

	177 __m128i src_pixel2 = _mm_loadu_si128(s++);

	178 __m128i dst_pixel = _mm_load_si128(d);

	179

	180 __m128i dst_pixel1 = _mm_unpacklo_epi16(dst_pixel, _mm_setzero_s i128());

	181 __m128i dst_pixel2 = _mm_unpackhi_epi16(dst_pixel, _mm_setzero_s i128());

	182

	183 __m128i dstC1 = SkPixel16ToPixel32_SSE2(dst_pixel1);

	184 __m128i dstC2 = SkPixel16ToPixel32_SSE2(dst_pixel2);

	185

	186 dst_pixel1 = procSIMD(src_pixel1, dstC1);

	187 dst_pixel2 = procSIMD(src_pixel2, dstC2);

	188 dst_pixel = SkPixel32ToPixel16_ToU16_SSE2(dst_pixel1, dst_pixel2 );

	189

	190 _mm_store_si128(d++, dst_pixel);

	191 count -= 8;

	192 }

	193

	194 src = reinterpret_cast<const SkPMColor*>(s);

	195 dst = reinterpret_cast<uint16_t*>(d);

	196 }

	197

	198 if (count > 0) {

	199 for (int i = count - 1; i >= 0; --i) {

	200 SkPMColor dstC = SkPixel16ToPixel32(*dst);

	201 dst = SkPixel32ToPixel16_ToU16(proc(src, dstC));

	202 dst++;

	203 src++;

	204 }

	205 }

	206 } else {

	207 for (int i = count - 1; i >= 0; --i) {

	208 unsigned a = aa[i];

	209 if (0 != a) {

	210 SkPMColor dstC = SkPixel16ToPixel32(dst[i]);

	211 SkPMColor C = proc(src[i], dstC);

	212 if (0xFF != a) {

	213 C = SkFourByteInterp(C, dstC, a);

	214 }

	215 dst[i] = SkPixel32ToPixel16_ToU16(C);

	216 }

	217 }

	218 }

	219 }

	220

	221 #ifdef SK_DEVELOPER

	222 void SkSSE2ProcCoeffXfermode::toString(SkString* str) const {

	223 this->INHERITED::toString(str);

	224 }

	225 #endif

	226

	227 ////////////////////////////////////////////////////////////////////////////////

	228

	229 // 4 pixels modeprocs with SSE2

	230 SkXfermodeProcSIMD gSSE2XfermodeProcs[] = {

	231 NULL, // kClear_Mode

	232 NULL, // kSrc_Mode

	233 NULL, // kDst_Mode

	234 NULL, // kSrcOver_Mode

	235 NULL, // kDstOver_Mode

	236 NULL, // kSrcIn_Mode

	237 NULL, // kDstIn_Mode

	238 NULL, // kSrcOut_Mode

	239 NULL, // kDstOut_Mode

	240 NULL, // kSrcATop_Mode

	241 NULL, // kDstATop_Mode

	242 NULL, // kXor_Mode

	243 NULL, // kPlus_Mode

	244 NULL, // kModulate_Mode

	245 NULL, // kScreen_Mode

	246

	247 NULL, // kOverlay_Mode

	248 NULL, // kDarken_Mode

	249 NULL, // kLighten_Mode

	250 NULL, // kColorDodge_Mode

	251 NULL, // kColorBurn_Mode

	252 NULL, // kHardLight_Mode

	253 NULL, // kSoftLight_Mode

	254 NULL, // kDifference_Mode

	255 NULL, // kExclusion_Mode

	256 multiply_modeproc_SSE2,

	257

	258 NULL, // kHue_Mode

	259 NULL, // kSaturation_Mode

	260 NULL, // kColor_Mode

	261 NULL, // kLuminosity_Mode

	262 };

	263

	264 // 1 pixel modeprocs with SSE2

	265 SkXfermodeProc gSSE2XfermodeProcs1[] = {
	mtklein 2014/03/27 14:55:17 Think SSE2XfermodeProcs1 can wait until we have at Think SSE2XfermodeProcs1 can wait until we have at least one? qiankun 2014/03/28 07:52:57 That's fine. Show quoted text On 2014/03/27 14:55:17, mtklein wrote: > Think SSE2XfermodeProcs1 can wait until we have at least one? That's fine.
	266 NULL, // kClear_Mode

	267 NULL, // kSrc_Mode

	268 NULL, // kDst_Mode

	269 NULL, // kSrcOver_Mode

	270 NULL, // kDstOver_Mode

	271 NULL, // kSrcIn_Mode

	272 NULL, // kDstIn_Mode

	273 NULL, // kSrcOut_Mode

	274 NULL, // kDstOut_Mode

	275 NULL, // kSrcATop_Mode

	276 NULL, // kDstATop_Mode

	277 NULL, // kXor_Mode

	278 NULL, // kPlus_Mode

	279 NULL, // kModulate_Mode

	280 NULL, // kScreen_Mode

	281

	282 NULL, // kOverlay_Mode

	283 NULL, // kDarken_Mode

	284 NULL, // kLighten_Mode

	285 NULL, // kColorDodge_Mode

	286 NULL, // kColorBurn_Mode

	287 NULL, // kHardLight_Mode

	288 NULL, // kSoftLight_Mode

	289 NULL, // kDifference_Mode

	290 NULL, // kExclusion_Mode

	291 NULL, // kMultiply_Mode

	292

	293 NULL, // kHue_Mode

	294 NULL, // kSaturation_Mode

	295 NULL, // kColor_Mode

	296 NULL, // kLuminosity_Mode

	297 };

	298

	299 SkProcCoeffXfermode* SkPlatformXfermodeFactory_impl_SSE2(const ProcCoeff& rec,

	300 SkXfermode::Mode mode) {

	301 void* procSIMD = reinterpret_cast<void*>(gSSE2XfermodeProcs[mode]);

	302

	303 if (procSIMD != NULL) {

	304 return SkNEW_ARGS(SkSSE2ProcCoeffXfermode, (rec, mode, procSIMD));

	305 }

	306 return NULL;

	307 }

	308

	309 SkXfermodeProc SkPlatformXfermodeProcFactory_impl_SSE2(SkXfermode::Mode mode) {

	310 return gSSE2XfermodeProcs1[mode];

	311 }

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