| /external/webrtc/webrtc/base/ |
| D | exp_filter.cc | 20 alpha_ = alpha; in Reset()
29 filtered_ = alpha_ * filtered_ + (1 - alpha_) * sample; in Apply()
31 float alpha = pow(alpha_, exp); in Apply()
41 alpha_ = alpha; in UpdateBase()
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| /external/ceres-solver/examples/ |
| D | fields_of_experts.cc | 83 rho[0] = alpha_ * log(sum); in Evaluate()
84 rho[1] = alpha_ * c * inv; in Evaluate()
85 rho[2] = - alpha_ * c * c * inv * inv; in Evaluate()
111 alpha_.resize(num_filters_); in LoadFromFile()
113 foe_file >> alpha_[i]; in LoadFromFile()
147 return new FieldsOfExpertsLoss(alpha_[alpha_index]); in NewLossFunction()
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| D | fields_of_experts.h | 81 explicit FieldsOfExpertsLoss(double alpha) : alpha_(alpha) { } in FieldsOfExpertsLoss()
85 const double alpha_;
137 std::vector<double> alpha_; variable
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| /external/eigen/Eigen/src/Core/products/ |
| D | SelfadjointMatrixMatrix_MKL.h | 60 MKLTYPE alpha_, beta_; \
70 assign_scalar_eig2mkl(alpha_, alpha); \
89 …MKLPREFIX##symm(&side, &uplo, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (const MKLTYPE*)b, &ldb, &…
111 MKLTYPE alpha_, beta_; \
122 assign_scalar_eig2mkl(alpha_, alpha); \
157 …MKLPREFIX##hemm(&side, &uplo, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (const MKLTYPE*)b, &ldb, &…
187 MKLTYPE alpha_, beta_; \
196 assign_scalar_eig2mkl(alpha_, alpha); \
215 …MKLPREFIX##symm(&side, &uplo, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (const MKLTYPE*)b, &ldb, &…
237 MKLTYPE alpha_, beta_; \
[all …]
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| D | GeneralMatrixMatrixTriangular_MKL.h | 89 MKLTYPE 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_; \
120 alpha_ = alpha.real(); \
130 MKLFUNC(&uplo, &trans, &n, &k, &alpha_, (MKLTYPE*)a_ptr, &lda, &beta_, (MKLTYPE*)res, &ldc); \
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| D | 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_…
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_…
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| D | GeneralMatrixMatrix_MKL.h | 69 MKLTYPE alpha_, beta_; \
83 assign_scalar_eig2mkl(alpha_, alpha); \
106 …MKLPREFIX##gemm(&transa, &transb, &m, &n, &k, &alpha_, (const MKLTYPE*)a, &lda, (const MKLTYPE*)b,…
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| D | 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_, (MKLT…
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| D | TriangularMatrixMatrix_MKL.h | 137 MKLTYPE alpha_; \
140 assign_scalar_eig2mkl<MKLTYPE, EIGTYPE>(alpha_, alpha); \
178 …MKLPREFIX##trmm(&side, &uplo, &transa, &diag, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (MKLTYPE*)…
251 MKLTYPE alpha_; \
254 assign_scalar_eig2mkl<MKLTYPE, EIGTYPE>(alpha_, alpha); \
292 …MKLPREFIX##trmm(&side, &uplo, &transa, &diag, &m, &n, &alpha_, (const MKLTYPE*)a, &lda, (MKLTYPE*)…
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| D | 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, …
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| /external/ImageMagick/Magick++/lib/ |
| D | Color.cpp | 95 const Quantum blue_, const Quantum alpha_) in Color() argument
103 quantumAlpha(alpha_); in Color()
108 if (alpha_ != OpaqueAlpha) in Color()
113 const Quantum yellow_,const Quantum black_,const Quantum alpha_) in Color() argument
121 quantumAlpha(alpha_); in Color()
126 if (alpha_ != OpaqueAlpha) in Color()
307 void Magick::Color::quantumAlpha(const Magick::Quantum alpha_) in quantumAlpha() argument
309 _pixel->alpha=alpha_; in quantumAlpha()
310 if (alpha_ == QuantumRange) in quantumAlpha()
458 const double yellow_,const double black_,const double alpha_) in ColorCMYK() argument
[all …]
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| /external/ImageMagick/Magick++/lib/Magick++/ |
| D | Color.h | 75 const Quantum alpha_);
79 const Quantum black_,const Quantum alpha_);
126 void quantumAlpha(const Quantum alpha_);
201 const double black_,const double alpha_);
210 void alpha(const double alpha_);
360 const double alpha_);
369 void alpha(const double alpha_);
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| /external/opencv3/3rdparty/libwebp/enc/ |
| D | histogram.c | 28 memset(p->alpha_, 0, sizeof(p->alpha_)); in HistogramClear()
85 ++histo->alpha_[PixOrCopyLiteral(v, 3)]; in VP8LHistogramAddSinglePixOrCopy()
207 + PopulationCost(p->alpha_, 256) in VP8LHistogramEstimateBits()
217 + BitsEntropy(p->alpha_, 256) in VP8LHistogramEstimateBitsBulk()
239 out->alpha_[i] += in->alpha_[i]; in HistogramAdd()
286 for (i = 0; i < 256; ++i) out->alpha_[i] = a->alpha_[i] + b->alpha_[i]; in HistogramAddEval()
287 cost += PopulationCost(out->alpha_, 256); in HistogramAddEval()
327 for (i = 0; i < 256; ++i) tmp[i] = a->alpha_[i] + b->alpha_[i]; in HistogramAddThresh()
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| D | analysis.c | 97 enc->dqm_[n].alpha_ = clip(alpha, -127, 127); in SetSegmentAlphas()
210 const int alpha = mb->alpha_; in AssignSegments()
212 mb->alpha_ = centers[map[alpha]]; // for the record. in AssignSegments()
354 it->mb_->alpha_ = best_alpha; // for later remapping. in MBAnalyze()
366 mb->alpha_ = 0; in DefaultMBInfo()
385 enc->dqm_[0].alpha_ = 0; in ResetAllMBInfo()
397 enc->alpha_ = 0; in VP8EncAnalyze()
406 MBAnalyze(&it, alphas, &enc->alpha_, &enc->uv_alpha_); in VP8EncAnalyze()
410 enc->alpha_ /= enc->mb_w_ * enc->mb_h_; in VP8EncAnalyze()
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| /external/opencv3/modules/cudaoptflow/src/ |
| D | brox.cpp | 61 alpha_(alpha), gamma_(gamma), scale_factor_(scale_factor), in BroxOpticalFlowImpl()
69 virtual double getFlowSmoothness() const { return alpha_; } in getFlowSmoothness()
70 virtual void setFlowSmoothness(double alpha) { alpha_ = static_cast<float>(alpha); } in setFlowSmoothness()
92 float alpha_; member in __anond274396c0111::BroxOpticalFlowImpl
142 desc.alpha = alpha_; in calc()
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| /external/webp/src/enc/ |
| D | analysis.c | 94 enc->dqm_[n].alpha_ = clip(alpha, -127, 127); in SetSegmentAlphas()
215 const int alpha = mb->alpha_; in AssignSegments()
217 mb->alpha_ = centers[map[alpha]]; // for the record. in AssignSegments()
356 it->mb_->alpha_ = best_alpha; // for later remapping. in MBAnalyze()
368 mb->alpha_ = 0; in DefaultMBInfo()
387 enc->dqm_[0].alpha_ = 0; in ResetAllMBInfo()
390 enc->alpha_ = 0; in ResetAllMBInfo()
492 enc->alpha_ = main_job.alpha / total_mb; in VP8EncAnalyze()
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| /external/webp/src/dsp/ |
| D | lossless_enc_mips32.c | 348 ADD_VECTOR(a->alpha_, b->alpha_, out->alpha_, NUM_LITERAL_CODES, 0); in HistogramAdd()
355 ADD_VECTOR_EQ(a->alpha_, out->alpha_, NUM_LITERAL_CODES, 0); in HistogramAdd()
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| D | lossless_enc_sse2.c | 238 AddVector(a->alpha_, b->alpha_, out->alpha_, NUM_LITERAL_CODES); in HistogramAdd()
243 AddVectorEq(a->alpha_, out->alpha_, NUM_LITERAL_CODES); in HistogramAdd()
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| /external/opencv3/modules/core/src/ |
| D | downhill_simplex.cpp | 419 double tryNewPoint( Mat& p, Mat& coord_sum, int ihi, double alpha_, Mat& ptry, int& fcount ) in tryNewPoint() argument
423 double alpha = (1.0 - alpha_)/ndim; in tryNewPoint()
424 double beta = alpha - alpha_; in tryNewPoint()
436 void replacePoint( Mat& p, Mat& coord_sum, Mat& y, int ihi, double alpha_, double ytry ) in replacePoint() argument
440 double alpha = (1.0 - alpha_)/ndim; in replacePoint()
441 double beta = alpha - alpha_; in replacePoint()
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| /external/opencv3/3rdparty/libwebp/mux/ |
| D | muxread.c | 118 if (wpi->alpha_ != NULL) goto Fail; // Consecutive ALPH chunks. in MuxImageParse()
119 if (ChunkSetNth(&subchunk, &wpi->alpha_, 1) != WEBP_MUX_OK) goto Fail; in MuxImageParse()
215 if (wpi->alpha_ != NULL) goto Err; // Consecutive ALPH chunks. in WebPMuxCreateInternal()
216 if (ChunkSetNth(&chunk, &wpi->alpha_, 1) != WEBP_MUX_OK) goto Err; in WebPMuxCreateInternal()
314 const int need_vp8x = (wpi->alpha_ != NULL); in SynthesizeBitstream()
316 const size_t alpha_size = need_vp8x ? ChunkDiskSize(wpi->alpha_) : 0; in SynthesizeBitstream()
336 dst = ChunkListEmit(wpi->alpha_, dst); // ALPH. in SynthesizeBitstream()
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| D | muxinternal.c | 236 ChunkDelete(wpi->alpha_); in MuxImageRelease()
360 if (wpi->alpha_ != NULL) size += ChunkDiskSize(wpi->alpha_); in MuxImageDiskSize()
400 if (wpi->alpha_ != NULL) dst = ChunkEmit(wpi->alpha_, dst); in MuxImageEmit()
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| /external/ceres-solver/internal/ceres/ |
| D | dogleg_strategy.cc | 190 alpha_ = gradient_.squaredNorm() / Jg.squaredNorm(); in ComputeCauchyPoint()
217 if (gradient_norm * alpha_ >= radius_) { in ComputeTraditionalDoglegStep()
233 const double b_dot_a = -alpha_ * gradient_.dot(gauss_newton_step_); in ComputeTraditionalDoglegStep()
234 const double a_squared_norm = pow(alpha_ * gradient_norm, 2.0); in ComputeTraditionalDoglegStep()
248 dogleg_step = (-alpha_ * (1.0 - beta)) * gradient_ in ComputeTraditionalDoglegStep()
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| D | suitesparse.h | 129 double alpha_[2] = {alpha, 0}; in SparseDenseMultiply() local
131 cholmod_sdmult(A, 0, alpha_, beta_, x, y, &cc_); in SparseDenseMultiply()
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| /external/opencv3/modules/superres/src/ |
| D | btv_l1_cuda.cpp | 225 CV_IMPL_PROPERTY(double, Alpha, alpha_)
237 double alpha_; member in __anon62806e260111::BTVL1_CUDA_Base
277 alpha_ = 0.7; in BTVL1_CUDA_Base()
304 CV_Assert( alpha_ > 0.0 ); in process()
321 if (btvWeights_.empty() || btvKernelSize_ != curBtvKernelSize_ || alpha_ != curAlpha_) in process()
323 calcBtvWeights(btvKernelSize_, alpha_, btvWeights_); in process()
325 curAlpha_ = alpha_; in process()
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| /external/elfutils/backends/ |
| D | alpha_auxv.c | 33 #define BACKEND alpha_
|