/external/skia/src/core/ |
SkBlitMask_D32.cpp | 113 int srcB = SkColorGetB(color); 141 SkAlphaBlend(srcB, dstB, maskB)); 151 int srcB = SkColorGetB(color); 185 SkAlphaBlend(srcB, dstB, maskB)); 408 int srcB = SkGetPackedB32(s); 432 src_alpha_blend(srcB, dstB, srcA, maskB)); 450 int srcB = SkGetPackedB32(s); 473 SkBlend32(srcB, dstB, maskB)); 490 int srcB = SkGetPackedB32(s); 514 src_alpha_blend(srcB, dstB, srcA, maskB)) [all...] |
/external/opencv/cv/src/ |
cvoptflowbm.cpp | 555 // srcA, srcB - source image 572 CvMat stubB, *srcB = (CvMat*)srcarrB; 577 CV_CALL( srcB = cvGetMat( srcB, &stubB )); 582 if( !CV_ARE_TYPES_EQ( srcA, srcB )) 588 if( !CV_ARE_SIZES_EQ( srcA, srcB ) || 599 if( srcA->step != srcB->step || velx->step != vely->step ) 602 IPPI_CALL( icvCalcOpticalFlowBM_8u32fR( (uchar*)srcA->data.ptr, (uchar*)srcB->data.ptr,
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cvoptflowhs.cpp | 483 // srcA, srcB - source image 499 CvMat stubB, *srcB = (CvMat*)srcarrB; 504 CV_CALL( srcB = cvGetMat( srcB, &stubB )); 509 if( !CV_ARE_TYPES_EQ( srcA, srcB )) 515 if( !CV_ARE_SIZES_EQ( srcA, srcB ) || 525 if( srcA->step != srcB->step || velx->step != vely->step ) 528 IPPI_CALL( icvCalcOpticalFlowHS_8u32fR( (uchar*)srcA->data.ptr, (uchar*)srcB->data.ptr,
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cvoptflowlk.cpp | 560 // srcA, srcB - source image 575 CvMat stubB, *srcB = (CvMat*)srcarrB; 580 CV_CALL( srcB = cvGetMat( srcB, &stubB )); 585 if( !CV_ARE_TYPES_EQ( srcA, srcB )) 591 if( !CV_ARE_SIZES_EQ( srcA, srcB ) || 601 if( srcA->step != srcB->step || velx->step != vely->step ) 604 IPPI_CALL( icvCalcOpticalFlowLK_8u32fR( (uchar*)srcA->data.ptr, (uchar*)srcB->data.ptr,
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/external/skia/src/opts/ |
SkBlitRow_opts_SSE2.cpp | 619 int srcB = SkColorGetB(color); 626 *dst = SkBlendLCD16(srcA, srcR, srcG, srcB, *dst, *src); 633 __m128i srci = _mm_set1_epi32(SkPackARGB32(0xFF, srcR, srcG, srcB)); 669 *dst = SkBlendLCD16(srcA, srcR, srcG, srcB, *dst, *src); 684 int srcB = SkColorGetB(color); 689 *dst = SkBlendLCD16Opaque(srcR, srcG, srcB, *dst, *src, opaqueDst); 696 __m128i srci = _mm_set1_epi32(SkPackARGB32(0xFF, srcR, srcG, srcB)); 731 *dst = SkBlendLCD16Opaque(srcR, srcG, srcB, *dst, *src, opaqueDst);
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/external/webkit/Source/JavaScriptCore/dfg/ |
DFGJITCodeGenerator.h | 451 void setupTwoStubArgs(GPRReg srcA, GPRReg srcB) 453 // Assuming that srcA != srcB, there are 7 interesting states the registers may be in: 459 // (6) srcB in in its correct reg. 460 // (7) srcB in in the incorrect reg. 462 // The trivial approach is to simply emit two moves, to put srcA in place then srcB in 464 // cases 1, 3, 4, 5, 6, and in cases where srcA==srcB. The two problem cases are 2 465 // (requires a swap) and 7 (must move srcB first, to avoid trampling.) 467 if (srcB != destA) { 470 m_jit.move(JITCompiler::gprToRegisterID(srcB), JITCompiler::gprToRegisterID(destB)); 472 // Handle the non-swap case - just put srcB in place first [all...] |
/external/skia/include/core/ |
SkColorPriv.h | 731 static inline SkPMColor SkBlendLCD16(int srcA, int srcR, int srcG, int srcB, 763 SkBlend32(srcB, dstB, maskB)); 766 static inline SkPMColor SkBlendLCD16Opaque(int srcR, int srcG, int srcB, 798 SkBlend32(srcB, dstB, maskB)); 806 int srcB = SkColorGetB(color); 811 dst[i] = SkBlendLCD16(srcA, srcR, srcG, srcB, dst[i], src[i]); 820 int srcB = SkColorGetB(color); 823 dst[i] = SkBlendLCD16Opaque(srcR, srcG, srcB, dst[i], src[i],
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/external/opencv/cxcore/src/ |
cxmatrix.cpp | [all...] |
cxmatmul.cpp | [all...] |
cxarithm.cpp | [all...] |
cxdxt.cpp | [all...] |
/external/qemu/distrib/sdl-1.2.15/src/video/ |
SDL_blit_N.c | [all...] |