/external/skqp/include/private/ |
SkEncodedInfo.h | 18 enum Alpha { 32 * This sometimes results in redundant Alpha and Color information. 70 static SkEncodedInfo Make(Color color, Alpha alpha, int bitsPerComponent) { 79 SkASSERT(kOpaque_Alpha == alpha); 82 SkASSERT(kOpaque_Alpha != alpha); 90 SkASSERT(kOpaque_Alpha == alpha); 96 SkASSERT(kOpaque_Alpha == alpha); 100 SkASSERT(kOpaque_Alpha != alpha); 105 SkASSERT(kOpaque_Alpha != alpha); 123 auto alpha = kOpaque_Alpha == fAlpha ? kOpaque_SkAlphaType local 129 Alpha alpha() const { return fAlpha; } function in struct:SkEncodedInfo [all...] |
/external/ImageMagick/MagickCore/ |
composite-private.h | 33 ImageMagick Alpha Composite Inline Methods (special export) 35 static inline double MagickOver_(const double p,const double alpha, 42 Sa=QuantumScale*alpha; 53 const double alpha,const Quantum *q,const double beta,Quantum *composite) 64 Compose pixel p over pixel q with the given alpha. 66 Sa=QuantumScale*alpha; 86 composite[i]=ClampToQuantum(gamma*MagickOver_((double) p->red,alpha, 92 composite[i]=ClampToQuantum(gamma*MagickOver_((double) p->green,alpha, 98 composite[i]=ClampToQuantum(gamma*MagickOver_((double) p->blue,alpha, 104 composite[i]=ClampToQuantum(gamma*MagickOver_((double) p->black,alpha, [all...] |
/external/mesa3d/src/gallium/drivers/llvmpipe/ |
lp_bld_alpha.c | 29 * Alpha testing to LLVM IR translation. 54 LLVMValueRef alpha, 64 * Alpha testing needs to be done in the color buffer precision. 67 * alpha testing after converting the output colors, but that's not very 77 alpha = lp_build_clamp(&bld, alpha, bld.zero, bld.one); 80 alpha = lp_build_clamped_float_to_unsigned_norm(gallivm, type, dst_width, alpha); 87 test = lp_build_cmp(&bld, func, alpha, ref);
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/external/skia/experimental/docs/ |
utilities.js | 1 function alpha(value, color) { function 14 return (code > 64 && code < 91) // upper alpha (A-Z) 15 || (code > 96 && code < 123); // lower alpha (a-z)
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/external/skqp/experimental/docs/ |
utilities.js | 1 function alpha(value, color) { function 14 return (code > 64 && code < 91) // upper alpha (A-Z) 15 || (code > 96 && code < 123); // lower alpha (a-z)
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/external/libcxx/test/std/numerics/rand/rand.dis/rand.dist.pois/rand.dist.pois.gamma/ |
ctor_double_double.pass.cpp | 15 // explicit gamma_distribution(result_type alpha = 0, result_type beta = 1); 25 assert(d.alpha() == 1); 31 assert(d.alpha() == 14.5); 37 assert(d.alpha() == 14.5);
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/external/skia/include/core/ |
SkUnPreMultiply.h | 22 // index this table with alpha [0..255] 27 static Scale GetScale(U8CPU alpha) { 28 SkASSERT(alpha <= 255); 29 return gTable[alpha];
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/external/skqp/include/core/ |
SkUnPreMultiply.h | 22 // index this table with alpha [0..255] 27 static Scale GetScale(U8CPU alpha) { 28 SkASSERT(alpha <= 255); 29 return gTable[alpha];
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/prebuilts/ndk/r16/sources/cxx-stl/llvm-libc++/test/std/numerics/rand/rand.dis/rand.dist.pois/rand.dist.pois.gamma/ |
ctor_double_double.pass.cpp | 15 // explicit gamma_distribution(result_type alpha = 0, result_type beta = 1); 25 assert(d.alpha() == 1); 31 assert(d.alpha() == 14.5); 37 assert(d.alpha() == 14.5);
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/external/apache-commons-math/src/main/java/org/apache/commons/math/distribution/ |
BetaDistributionImpl.java | 51 private double alpha; field in class:BetaDistributionImpl 57 * updated whenever alpha or beta are changed. 66 * @param alpha first shape parameter (must be positive) 72 public BetaDistributionImpl(double alpha, double beta, double inverseCumAccuracy) { 73 this.alpha = alpha; 81 * @param alpha first shape parameter (must be positive) 84 public BetaDistributionImpl(double alpha, double beta) { 85 this(alpha, beta, DEFAULT_INVERSE_ABSOLUTE_ACCURACY); 92 public void setAlpha(double alpha) { [all...] |
GammaDistributionImpl.java | 45 private double alpha; field in class:GammaDistributionImpl 54 * Create a new gamma distribution with the given alpha and beta values. 55 * @param alpha the shape parameter. 58 public GammaDistributionImpl(double alpha, double beta) { 59 this(alpha, beta, DEFAULT_INVERSE_ABSOLUTE_ACCURACY); 63 * Create a new gamma distribution with the given alpha and beta values. 64 * @param alpha the shape parameter. 70 public GammaDistributionImpl(double alpha, double beta, double inverseCumAccuracy) { 72 setAlphaInternal(alpha); 100 ret = Gamma.regularizedGammaP(alpha, x / beta) [all...] |
/external/skia/tests/ |
SrcOverTest.cpp | 12 static int test_srcover0(unsigned dst, unsigned alpha) { 13 return alpha + SkAlphaMul(dst, SkAlpha255To256(255 - alpha)); 17 static int test_srcover1(unsigned dst, unsigned alpha) { 18 return alpha + SkAlphaMul(dst, 256 - alpha); 22 static int test_srcover2(unsigned dst, unsigned alpha) { 23 return alpha + SkMulDiv255Round(dst, 255 - alpha);
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PDFOpaqueSrcModeToSrcOverTest.cpp | 12 static void run_test(SkWStream* out, SkBlendMode mode, U8CPU alpha) { 18 background.setAlpha(alpha); 33 U8CPU alpha = SK_AlphaOPAQUE; local 34 run_test(&srcMode, SkBlendMode::kSrc, alpha); 35 run_test(&srcOverMode, SkBlendMode::kSrcOver, alpha); 37 // The two PDFs should be equal because they have an opaque alpha. 42 alpha = 0x80; 43 run_test(&srcMode, SkBlendMode::kSrc, alpha); 44 run_test(&srcOverMode, SkBlendMode::kSrcOver, alpha); 46 // The two PDFs should not be equal because they have a non-opaque alpha [all...] |
/external/skqp/tests/ |
SrcOverTest.cpp | 12 static int test_srcover0(unsigned dst, unsigned alpha) { 13 return alpha + SkAlphaMul(dst, SkAlpha255To256(255 - alpha)); 17 static int test_srcover1(unsigned dst, unsigned alpha) { 18 return alpha + SkAlphaMul(dst, 256 - alpha); 22 static int test_srcover2(unsigned dst, unsigned alpha) { 23 return alpha + SkMulDiv255Round(dst, 255 - alpha);
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PDFOpaqueSrcModeToSrcOverTest.cpp | 12 static void run_test(SkWStream* out, SkBlendMode mode, U8CPU alpha) { 18 background.setAlpha(alpha); 33 U8CPU alpha = SK_AlphaOPAQUE; local 34 run_test(&srcMode, SkBlendMode::kSrc, alpha); 35 run_test(&srcOverMode, SkBlendMode::kSrcOver, alpha); 37 // The two PDFs should be equal because they have an opaque alpha. 42 alpha = 0x80; 43 run_test(&srcMode, SkBlendMode::kSrc, alpha); 44 run_test(&srcOverMode, SkBlendMode::kSrcOver, alpha); 46 // The two PDFs should not be equal because they have a non-opaque alpha [all...] |
/external/swiftshader/third_party/LLVM/lib/Target/Alpha/TargetInfo/ |
AlphaTargetInfo.cpp | 1 //===-- AlphaTargetInfo.cpp - Alpha Target Implementation -----------------===// 10 #include "Alpha.h" 18 RegisterTarget<Triple::alpha, /*HasJIT=*/true> 19 X(TheAlphaTarget, "alpha", "Alpha [experimental]");
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/frameworks/base/libs/hwui/ |
Layer.h | 66 inline void setAlpha(int alpha) { this->alpha = alpha; } 68 inline void setAlpha(int alpha, SkBlendMode mode) { 69 this->alpha = alpha; 73 inline int getAlpha() const { return alpha; } 98 Layer(RenderState& renderState, Api api, sk_sp<SkColorFilter>, int alpha, 131 int alpha; member in class:android::uirenderer::Layer
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/toolchain/binutils/binutils-2.27/gas/testsuite/gas/cfi/ |
cfi-alpha-2.d | 2 #name: CFI on alpha, 2 4 .*: file format elf64-alpha.*
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/external/cblas/src/ |
cblas_caxpy.c | 11 void cblas_caxpy( const int N, const void *alpha, const void *X, 21 F77_caxpy( &F77_N, alpha, X, &F77_incX, Y, &F77_incY);
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cblas_daxpy.c | 11 void cblas_daxpy( const int N, const double alpha, const double *X, 21 F77_daxpy( &F77_N, &alpha, X, &F77_incX, Y, &F77_incY);
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cblas_saxpy.c | 12 void cblas_saxpy( const int N, const float alpha, const float *X, 22 F77_saxpy( &F77_N, &alpha, X, &F77_incX, Y, &F77_incY);
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cblas_sdsdot.c | 12 float cblas_sdsdot( const int N, const float alpha, const float *X, 23 dot = F77_sdsdot( &F77_N, &alpha, X, &F77_incX, Y, &F77_incY);
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cblas_zaxpy.c | 11 void cblas_zaxpy( const int N, const void *alpha, const void *X, 21 F77_zaxpy( &F77_N, alpha, X, &F77_incX, Y, &F77_incY);
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/external/eigen/blas/ |
single.cpp | 21 float BLASFUNC(sdsdot)(int* n, float* alpha, float* x, int* incx, float* y, int* incy) 22 { return double(*alpha) + BLASFUNC(dsdot)(n, x, incx, y, incy); }
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/external/strace/tests/ |
umount.test | 8 alpha) syscall=oldumount ;;
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