/external/chromium_org/skia/ext/ |
opacity_draw_filter.cc | 12 : alpha_(SkScalarRoundToInt(opacity * 255)), 18 if (alpha_ < 255) 19 paint->setAlpha(alpha_);
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opacity_draw_filter.h | 26 int alpha_; member in class:skia::OpacityDrawFilter
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/external/chromium_org/ash/shelf/ |
background_animator.cc | 24 alpha_(min_alpha) { 53 if (alpha_ == alpha) 55 alpha_ = alpha; 56 delegate_->UpdateBackground(alpha_);
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background_animator.h | 48 int alpha() const { return alpha_; } 65 int alpha_; member in class:ash::BackgroundAnimator
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shelf_widget.cc | 79 alpha_ = alpha; 87 int get_dimming_alpha_for_test() { return alpha_; } 117 int alpha_; member in class:__anon6580::DimmerView 140 alpha_(kDimAlpha), 191 paint.setAlpha(alpha_); 385 int alpha_; member in class:ash::ShelfWidget::DelegateView 400 alpha_(0), 470 paint.setAlpha(alpha_); 595 alpha_ = alpha;
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/external/elfutils/0.153/backends/ |
alpha_auxv.c | 30 #define BACKEND alpha_
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alpha_corenote.c | 36 #define BACKEND alpha_
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alpha_init.c | 31 #define BACKEND alpha_
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alpha_regs.c | 33 #define BACKEND alpha_
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/external/ceres-solver/examples/ |
fields_of_experts.h | 81 explicit FieldsOfExpertsLoss(double alpha) : alpha_(alpha) { } 85 const double alpha_; member in class:ceres::examples::FieldsOfExpertsLoss 137 std::vector<double> alpha_; member in class:ceres::examples::FieldsOfExperts
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fields_of_experts.cc | 83 rho[0] = alpha_ * log(sum); 84 rho[1] = alpha_ * c * inv; 85 rho[2] = - alpha_ * c * c * inv * inv; 111 alpha_.resize(num_filters_); 113 foe_file >> alpha_[i]; local 147 return new FieldsOfExpertsLoss(alpha_[alpha_index]);
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/external/eigen/Eigen/src/Core/products/ |
GeneralMatrixMatrixTriangular_MKL.h | 89 MKLTYPE alpha_, beta_; \ 91 /* Set alpha_ & beta_ */ \ 92 assign_scalar_eig2mkl<MKLTYPE, EIGTYPE>(alpha_, alpha); \ 94 MKLFUNC(&uplo, &trans, &n, &k, &alpha_, lhs, &lda, &beta_, res, &ldc); \ 114 RTYPE alpha_, beta_; \ 117 /* Set alpha_ & beta_ */ \ 118 /* assign_scalar_eig2mkl<MKLTYPE, EIGTYPE>(alpha_, alpha); */\ 120 alpha_ = alpha.real(); \ 130 MKLFUNC(&uplo, &trans, &n, &k, &alpha_, (MKLTYPE*)a_ptr, &lda, &beta_, (MKLTYPE*)res, &ldc); \
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SelfadjointMatrixMatrix_MKL.h | 60 MKLTYPE alpha_, beta_; \ 69 /* Set alpha_ & beta_ */ \ 70 assign_scalar_eig2mkl(alpha_, alpha); \ 89 MKLPREFIX##symm(&side, &uplo, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (const MKLTYPE*)b, &ldb, &beta_, (MKLTYPE*)res, &ldc); \ 111 MKLTYPE alpha_, beta_; \ 121 /* Set alpha_ & beta_ */ \ 122 assign_scalar_eig2mkl(alpha_, alpha); \ 157 MKLPREFIX##hemm(&side, &uplo, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (const MKLTYPE*)b, &ldb, &beta_, (MKLTYPE*)res, &ldc); \ 187 MKLTYPE alpha_, beta_; \ 195 /* Set alpha_ & beta_ */ [all...] |
GeneralMatrixMatrix_MKL.h | 69 MKLTYPE alpha_, beta_; \ 82 /* Set alpha_ & beta_ */ \ 83 assign_scalar_eig2mkl(alpha_, alpha); \ 106 MKLPREFIX##gemm(&transa, &transb, &m, &n, &k, &alpha_, (const MKLTYPE*)a, &lda, (const MKLTYPE*)b, &ldb, &beta_, (MKLTYPE*)res, &ldc); \
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SelfadjointMatrixVector_MKL.h | 89 MKLTYPE alpha_, beta_; \ 92 assign_scalar_eig2mkl(alpha_, alpha); \ 101 MKLFUNC(&uplo, &n, &alpha_, (const MKLTYPE*)lhs, &lda, (const MKLTYPE*)x_ptr, &incx, &beta_, (MKLTYPE*)res, &incy); \
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TriangularMatrixVector_MKL.h | 110 MKLTYPE alpha_, beta_; \ 111 assign_scalar_eig2mkl<MKLTYPE, EIGTYPE>(alpha_, alpha); \ 129 MKLPREFIX##axpy(&n, &alpha_,(const MKLTYPE*)x, &incx, (MKLTYPE*)_res, &incy); \ 148 MKLPREFIX##gemv(&trans, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (const MKLTYPE*)x, &incx, &beta_, (MKLTYPE*)y, &incy); \ 195 MKLTYPE alpha_, beta_; \ 196 assign_scalar_eig2mkl<MKLTYPE, EIGTYPE>(alpha_, alpha); \ 214 MKLPREFIX##axpy(&n, &alpha_,(const MKLTYPE*)x, &incx, (MKLTYPE*)_res, &incy); \ 233 MKLPREFIX##gemv(&trans, &n, &m, &alpha_, (const MKLTYPE*)a, &lda, (const MKLTYPE*)x, &incx, &beta_, (MKLTYPE*)y, &incy); \
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GeneralMatrixVector_MKL.h | 102 MKLTYPE alpha_, beta_; \ 109 assign_scalar_eig2mkl(alpha_, alpha); \ 118 MKLPREFIX##gemv(&trans, &m, &n, &alpha_, (const MKLTYPE*)lhs, &lda, (const MKLTYPE*)x_ptr, &incx, &beta_, (MKLTYPE*)res, &incy); \
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TriangularMatrixMatrix_MKL.h | 137 MKLTYPE alpha_; \ 139 /* Set alpha_*/ \ 140 assign_scalar_eig2mkl<MKLTYPE, EIGTYPE>(alpha_, alpha); \ 178 MKLPREFIX##trmm(&side, &uplo, &transa, &diag, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (MKLTYPE*)b, &ldb); \ 251 MKLTYPE alpha_; \ 253 /* Set alpha_*/ \ 254 assign_scalar_eig2mkl<MKLTYPE, EIGTYPE>(alpha_, alpha); \ 292 MKLPREFIX##trmm(&side, &uplo, &transa, &diag, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (MKLTYPE*)b, &ldb); \
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/external/ceres-solver/internal/ceres/ |
suitesparse.h | 129 double alpha_[2] = {alpha, 0}; local 131 cholmod_sdmult(A, 0, alpha_, beta_, x, y, &cc_);
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dogleg_strategy.h | 126 double alpha_; member in class:ceres::internal::DoglegStrategy
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/external/chromium_org/third_party/libwebp/enc/ |
histogram.h | 38 uint32_t alpha_[NUM_LITERAL_CODES]; member in struct:__anon16895
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analysis.c | 70 // set segment susceptibility alpha_ / beta_ 94 enc->dqm_[n].alpha_ = clip(alpha, -127, 127); 211 const int alpha = mb->alpha_; 213 mb->alpha_ = centers[map[alpha]]; // for the record. 229 // Number of modes to inspect for alpha_ evaluation. We don't need to test all 349 it->mb_->alpha_ = best_alpha; // for later remapping. 361 mb->alpha_ = 0; 380 enc->dqm_[0].alpha_ = 0; 382 // Note: we can't compute this alpha_ / uv_alpha_ -> set to default value. 383 enc->alpha_ = 0 [all...] |
/external/webp/src/enc/ |
histogram.h | 38 uint32_t alpha_[NUM_LITERAL_CODES]; member in struct:__anon37064
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/external/chromium_org/third_party/libwebp/dsp/ |
lossless_mips32.c | 379 ADD_VECTOR(a->alpha_, b->alpha_, out->alpha_, NUM_LITERAL_CODES, 0); 386 ADD_VECTOR_EQ(a->alpha_, out->alpha_, NUM_LITERAL_CODES, 0);
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/external/webp/src/dsp/ |
lossless_mips32.c | 379 ADD_VECTOR(a->alpha_, b->alpha_, out->alpha_, NUM_LITERAL_CODES, 0); 386 ADD_VECTOR_EQ(a->alpha_, out->alpha_, NUM_LITERAL_CODES, 0);
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