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  /external/skia/include/core/
SkPostConfig.h 50 #ifdef SK_A32_SHIFT
119 # ifndef SK_A32_SHIFT
120 # define SK_A32_SHIFT 24
160 #ifndef SK_A32_SHIFT
165 # define SK_A32_SHIFT 0
170 # define SK_A32_SHIFT 24
180 (SK_A32_SHIFT == 24 && SK_R32_SHIFT == 16 && SK_G32_SHIFT == 8 && SK_B32_SHIFT == 0)
SkColorPriv.h 48 * This is specified by 4 defines SK_A32_SHIFT, SK_R32_SHIFT, ... for G and B.
70 #define SkGetPackedA32(packed) ((uint32_t)((packed) << (24 - SK_A32_SHIFT)) >> 24)
90 return (a << SK_A32_SHIFT) | (r << SK_R32_SHIFT) |
99 return (a << SK_A32_SHIFT) | (r << SK_R32_SHIFT) |
  /external/skqp/include/core/
SkPostConfig.h 50 #ifdef SK_A32_SHIFT
119 # ifndef SK_A32_SHIFT
120 # define SK_A32_SHIFT 24
160 #ifndef SK_A32_SHIFT
165 # define SK_A32_SHIFT 0
170 # define SK_A32_SHIFT 24
180 (SK_A32_SHIFT == 24 && SK_R32_SHIFT == 16 && SK_G32_SHIFT == 8 && SK_B32_SHIFT == 0)
SkColorPriv.h 48 * This is specified by 4 defines SK_A32_SHIFT, SK_R32_SHIFT, ... for G and B.
70 #define SkGetPackedA32(packed) ((uint32_t)((packed) << (24 - SK_A32_SHIFT)) >> 24)
90 return (a << SK_A32_SHIFT) | (r << SK_R32_SHIFT) |
99 return (a << SK_A32_SHIFT) | (r << SK_R32_SHIFT) |
  /external/skia/src/opts/
Sk4px_none.h 72 static_assert(SK_A32_SHIFT == 24, "This method assumes little-endian.");
94 static_assert(SK_A32_SHIFT == 24, "This method assumes little-endian.");
102 static_assert(SK_A32_SHIFT == 24, "This method assumes little-endian.");
Sk4px_SSE2.h 62 static_assert(SK_A32_SHIFT == 24, "Intel's always little-endian.");
74 static_assert(SK_A32_SHIFT == 24, "Intel's always little-endian.");
96 return Sk16b(_mm_and_si128(_mm_set1_epi32(0xFF << SK_A32_SHIFT), this->fVec));
101 return Sk16b(_mm_andnot_si128(_mm_set1_epi32(0xFF << SK_A32_SHIFT), this->fVec));
Sk4px_NEON.h 67 auto as = vshrq_n_u32((uint32x4_t)fVec, SK_A32_SHIFT); // ___3 ___2 ___1 ___0
90 return Sk16b(vandq_u8(this->fVec, (uint8x16_t)vdupq_n_u32(0xFF << SK_A32_SHIFT)));
95 return Sk16b(vbicq_u8(this->fVec, (uint8x16_t)vdupq_n_u32(0xFF << SK_A32_SHIFT)));
SkColor_opts_SSE2.h 116 #if SK_A32_SHIFT == 24 // It's very common (universal?) that alpha is the top byte.
119 __m128i a = _mm_slli_epi32(src, (24 - SK_A32_SHIFT));
161 __m128i da = _mm_slli_epi32(a, SK_A32_SHIFT);
SkColor_opts_neon.h 16 #define NEON_A (SK_A32_SHIFT / 8)
SkXfermode_opts.h 121 static_assert(SK_A32_SHIFT == 24, "");
125 return f[SK_A32_SHIFT/8];
SkBlitMask_opts.h 124 *device = (aa << SK_A32_SHIFT)
  /external/skqp/src/opts/
Sk4px_none.h 72 static_assert(SK_A32_SHIFT == 24, "This method assumes little-endian.");
94 static_assert(SK_A32_SHIFT == 24, "This method assumes little-endian.");
102 static_assert(SK_A32_SHIFT == 24, "This method assumes little-endian.");
Sk4px_SSE2.h 62 static_assert(SK_A32_SHIFT == 24, "Intel's always little-endian.");
74 static_assert(SK_A32_SHIFT == 24, "Intel's always little-endian.");
96 return Sk16b(_mm_and_si128(_mm_set1_epi32(0xFF << SK_A32_SHIFT), this->fVec));
101 return Sk16b(_mm_andnot_si128(_mm_set1_epi32(0xFF << SK_A32_SHIFT), this->fVec));
Sk4px_NEON.h 67 auto as = vshrq_n_u32((uint32x4_t)fVec, SK_A32_SHIFT); // ___3 ___2 ___1 ___0
90 return Sk16b(vandq_u8(this->fVec, (uint8x16_t)vdupq_n_u32(0xFF << SK_A32_SHIFT)));
95 return Sk16b(vbicq_u8(this->fVec, (uint8x16_t)vdupq_n_u32(0xFF << SK_A32_SHIFT)));
SkColor_opts_SSE2.h 116 #if SK_A32_SHIFT == 24 // It's very common (universal?) that alpha is the top byte.
119 __m128i a = _mm_slli_epi32(src, (24 - SK_A32_SHIFT));
161 __m128i da = _mm_slli_epi32(a, SK_A32_SHIFT);
SkColor_opts_neon.h 16 #define NEON_A (SK_A32_SHIFT / 8)
SkXfermode_opts.h 121 static_assert(SK_A32_SHIFT == 24, "");
125 return f[SK_A32_SHIFT/8];
  /external/pdfium/skia/config/
SkUserConfig.h 155 #define SK_A32_SHIFT 24
  /external/skia/tools/
picture_utils.cpp 32 *bitmap.getAddr32(x, y) |= (SK_A32_MASK << SK_A32_SHIFT);
  /external/skqp/tools/
picture_utils.cpp 32 *bitmap.getAddr32(x, y) |= (SK_A32_MASK << SK_A32_SHIFT);
  /external/skia/src/core/
SkColorData.h 25 * This is specified by 4 defines SK_A32_SHIFT, SK_R32_SHIFT, ... for G and B.
52 (SK_A32_SHIFT == SK_RGBA_A32_SHIFT && \
58 (SK_A32_SHIFT == SK_BGRA_A32_SHIFT && \
64 #define SK_A_INDEX (SK_A32_SHIFT/8)
762 uint32_t d = (SkGetPackedA4444(c) << SK_A32_SHIFT) |
770 return (((c >> (SK_A32_SHIFT + 4)) & 0xF) << SK_A4444_SHIFT) |
806 (((c >> SK_A32_SHIFT) & 0xFF) << 0);
816 (((c >> 0) & 0xFF) << SK_A32_SHIFT);
827 (((c >> (SK_A32_SHIFT + 4)) & 0xF) << 0);
    [all...]
SkBlitter_ARGB32.cpp 274 SkPMColor black = (SkPMColor)(SK_A32_MASK << SK_A32_SHIFT);
287 SkPMColor src = aa << SK_A32_SHIFT;
306 device[0] = (a0 << SK_A32_SHIFT) + SkAlphaMulQ(device[0], 256 - a0);
307 device[1] = (a1 << SK_A32_SHIFT) + SkAlphaMulQ(device[1], 256 - a1);
314 device[0] = (a0 << SK_A32_SHIFT) + SkAlphaMulQ(device[0], 256 - a0);
316 device[0] = (a1 << SK_A32_SHIFT) + SkAlphaMulQ(device[0], 256 - a1);
  /external/skqp/src/core/
SkColorData.h 25 * This is specified by 4 defines SK_A32_SHIFT, SK_R32_SHIFT, ... for G and B.
52 (SK_A32_SHIFT == SK_RGBA_A32_SHIFT && \
58 (SK_A32_SHIFT == SK_BGRA_A32_SHIFT && \
64 #define SK_A_INDEX (SK_A32_SHIFT/8)
762 uint32_t d = (SkGetPackedA4444(c) << SK_A32_SHIFT) |
770 return (((c >> (SK_A32_SHIFT + 4)) & 0xF) << SK_A4444_SHIFT) |
806 (((c >> SK_A32_SHIFT) & 0xFF) << 0);
816 (((c >> 0) & 0xFF) << SK_A32_SHIFT);
827 (((c >> (SK_A32_SHIFT + 4)) & 0xF) << 0);
    [all...]
SkBlitter_ARGB32.cpp 274 SkPMColor black = (SkPMColor)(SK_A32_MASK << SK_A32_SHIFT);
287 SkPMColor src = aa << SK_A32_SHIFT;
306 device[0] = (a0 << SK_A32_SHIFT) + SkAlphaMulQ(device[0], 256 - a0);
307 device[1] = (a1 << SK_A32_SHIFT) + SkAlphaMulQ(device[1], 256 - a1);
314 device[0] = (a0 << SK_A32_SHIFT) + SkAlphaMulQ(device[0], 256 - a0);
316 device[0] = (a1 << SK_A32_SHIFT) + SkAlphaMulQ(device[0], 256 - a1);
  /external/skia/samplecode/
SampleClip.cpp 29 paint.setColor((SK_A32_MASK << SK_A32_SHIFT) | rand.nextU());

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