/external/webrtc/webrtc/modules/audio_coding/codecs/isac/fix/source/ |
pitch_filter_mips.c | 19 const int16_t* coefficient, 40 "lwl %[coef1], 3(%[coefficient]) \n\t" 41 "lwl %[coef2], 7(%[coefficient]) \n\t" 42 "lwl %[coef3], 11(%[coefficient]) \n\t" 43 "lwl %[coef4], 15(%[coefficient]) \n\t" 44 "lwr %[coef1], 0(%[coefficient]) \n\t" 45 "lwr %[coef2], 4(%[coefficient]) \n\t" 46 "lwr %[coef3], 8(%[coefficient]) \n\t" 47 "lwr %[coef4], 12(%[coefficient]) \n\t" 48 "lhu %[coef5], 16(%[coefficient]) \n\t [all...] |
filterbank_internal.h | 23 * coefficient: Input. 28 const int16_t* coefficient, 34 const int16_t* coefficient, 40 const int16_t* coefficient,
|
pitch_filter_c.c | 25 const int16_t* coefficient, 38 tmpW32 += ubufQQpos2[*index2 + j] * coefficient[j];
|
filterbanks.c | 94 const int16_t *coefficient, 125 :[coeff]"r"(coefficient), 132 a1 = WEBRTC_SPL_MUL_16_32_RSFT16(coefficient[5], state0) + 133 (WEBRTC_SPL_MUL_16_32_RSFT16(coefficient[4], state0) >> 16); 134 b1 = WEBRTC_SPL_MUL_16_32_RSFT16(coefficient[7], state1) + 135 (WEBRTC_SPL_MUL_16_32_RSFT16(coefficient[6], state1) >> 16); 138 a2 = WEBRTC_SPL_MUL_16_32_RSFT16(coefficient[1], state0) + 139 (WEBRTC_SPL_MUL_16_32_RSFT16(coefficient[0], state0) >> 16); 140 b2 = WEBRTC_SPL_MUL_16_32_RSFT16(coefficient[3], state1) + 141 (WEBRTC_SPL_MUL_16_32_RSFT16(coefficient[2], state1) >> 16) [all...] |
pitch_estimator.h | 46 const int16_t* coefficient,
|
filterbanks_mips.c | 108 const int16_t* coefficient, 140 : [coeff_ptr] "r" (coefficient), [state0] "r" (state0),
|
pitch_filter_armv6.S | 28 @ const int16_t* coefficient, 56 ldr r9, [sp, #48] @ coefficient 66 @ r9: &coefficient[] 74 ldr r4, [r9], #4 @ coefficient[0, 1] 86 ldrh r4, [r9], #-16 @ r9 back to &coefficient[0].
|
/external/bouncycastle/bcprov/src/main/java/org/bouncycastle/asn1/pkcs/ |
RSAPrivateKey.java | 25 private BigInteger coefficient; field in class:RSAPrivateKey 59 BigInteger coefficient) 69 this.coefficient = coefficient; 91 coefficient = ((ASN1Integer)e.nextElement()).getValue(); 141 return coefficient; 156 * coefficient INTEGER, -- (inverse of q) mod p
|
RSAPrivateKeyStructure.java | 28 private BigInteger coefficient; field in class:RSAPrivateKeyStructure 61 BigInteger coefficient) 71 this.coefficient = coefficient; 93 coefficient = ((ASN1Integer)e.nextElement()).getValue(); 143 return coefficient; 158 * coefficient INTEGER, -- (inverse of q) mod p
|
/external/deqp/modules/glshared/ |
glsCalibration.hpp | 42 float coefficient; member in struct:deqp::gls::LineParameters 44 LineParameters (float offset_, float coefficient_) : offset(offset_), coefficient(coefficient_) {} 57 float coefficient; member in struct:deqp::gls::LineParametersWithConfidence
|
glsCalibration.cpp | 84 // \note If there are no data point pairs with differing x values, the coefficient variable will stay zero as initialized. 86 result.coefficient = destructiveMedian(pairwiseCoefficients); 88 // Compute the offsets corresponding to the median coefficient, for all data points. 90 pointwiseOffsets.push_back(dataPoints[i].y() - result.coefficient*dataPoints[i].x()); 156 result.coefficient = linearSample(medianSlopes, 0.5f); 158 // Compute the offsets corresponding to the median coefficient, for all data points. 160 pointwiseOffsets.push_back(dataPoints[i].y() - result.coefficient*dataPoints[i].x()); 363 const float coeffEpsilon = 0.001f; // Coefficient must be large enough (and positive) to be considered sensible. 373 if (estimatorLine.coefficient < coeffEpsilon) // Coefficient not good for sensible estimation; increase call count enough to get a reasonably different value [all...] |
/external/autotest/client/deps/glbench/src/ |
testbase.h | 27 // coefficient is multiplied (if inverse is false) or divided (if inverse is 31 // coefficient = width * height (measured in pixels), inverse = true 34 // coefficient = 1, inverse = false 38 double coefficient,
|
/frameworks/av/media/libstagefright/codecs/on2/h264dec/omxdl/arm11/vc/m4p2/src/ |
omxVCM4P2_PredictReconCoefIntra_s.s | 27 ; * Contains module for DC/AC coefficient prediction 33 ; * Performs adaptive DC/AC coefficient prediction for an intra block. Prior 40 ; * [in] pSrcDst pointer to the coefficient buffer which contains the 41 ; * quantized coefficient residuals (PQF) of the current 45 ; * [in] pPredBufRow pointer to the coefficient row buffer; must be aligned 47 ; * [in] pPredBufCol pointer to the coefficient column buffer; must be 62 ; * [out] pSrcDst pointer to the coefficient buffer which contains 65 ; * [out] pPredBufRow pointer to the updated coefficient row buffer 66 ; * [out] pPredBufCol pointer to the updated coefficient column buffer
|
/external/pdfium/xfa/src/fxbarcode/common/reedsolomon/ |
BC_ReedSolomonGF256.cpp | 80 int32_t coefficient,
86 if (coefficient == 0) {
93 coefficients[0] = coefficient;
|
BC_ReedSolomonGF256.h | 21 int32_t coefficient,
|
BC_ReedSolomonGF256Poly.h | 26 int32_t coefficient,
|
/external/pdfium/xfa/src/fxbarcode/pdf417/ |
BC_PDF417ECModulusGF.cpp | 68 int32_t coefficient,
75 if (coefficient == 0) {
83 coefficients[0] = coefficient;
|
BC_PDF417ECModulusPoly.cpp | 80 int32_t coefficient = m_coefficients.GetAt(l);
local 81 result = m_field->add(result, coefficient);
216 int32_t coefficient,
223 if (coefficient == 0) {
233 product[i] = m_field->multiply(m_coefficients[i], coefficient);
307 int32_t coefficient = getCoefficient(degree);
local 308 if (coefficient != 0) {
309 if (coefficient < 0) {
311 coefficient = -coefficient;
[all...] |
BC_PDF417ECModulusGF.h | 20 int32_t coefficient,
|
BC_PDF417ECModulusPoly.h | 28 int32_t coefficient,
|
/frameworks/av/media/libstagefright/codecs/on2/h264dec/omxdl/arm_neon/vc/m4p2/src/ |
omxVCM4P2_PredictReconCoefIntra_s.s | 27 ; * Contains module for DC/AC coefficient prediction 33 ; * Performs adaptive DC/AC coefficient prediction for an intra block. Prior 40 ; * [in] pSrcDst pointer to the coefficient buffer which contains the 41 ; * quantized coefficient residuals (PQF) of the current 45 ; * [in] pPredBufRow pointer to the coefficient row buffer; must be aligned 47 ; * [in] pPredBufCol pointer to the coefficient column buffer; must be 62 ; * [out] pSrcDst pointer to the coefficient buffer which contains 65 ; * [out] pPredBufRow pointer to the updated coefficient row buffer 66 ; * [out] pPredBufCol pointer to the updated coefficient column buffer
|
/frameworks/av/media/libstagefright/codecs/on2/h264dec/omxdl/arm11/vc/m4p10/src/ |
armVCM4P10_UnpackBlock4x4_s.s | 61 ; Firstly, fill all the coefficient values on the <pDst> buffer by zero
|
/frameworks/av/media/libstagefright/codecs/on2/h264dec/omxdl/arm_neon/vc/m4p10/src/ |
armVCM4P10_UnpackBlock4x4_s.s | 61 ; Firstly, fill all the coefficient values on the <pDst> buffer by zero
|
/external/ceres-solver/examples/ |
denoising.cc | 95 const double coefficient = 1 / (2.0 * FLAGS_sigma * FLAGS_sigma); local 98 new QuadraticCostFunction(coefficient,
|
/external/ImageMagick/MagickCore/ |
resize.c | 100 coefficient[7]; /* cubic coefficents for BC-cubic filters */ 243 return(resize_filter->coefficient[0]+x*(x* 244 (resize_filter->coefficient[1]+x*resize_filter->coefficient[2]))); 246 return(resize_filter->coefficient[3]+x*(resize_filter->coefficient[4]+x* 247 (resize_filter->coefficient[5]+x*resize_filter->coefficient[6]))); 283 return(exp((double)(-resize_filter->coefficient[1]*x*x))); 342 return(resize_filter->coefficient[1]*I0(resize_filter->coefficient[0] 98 coefficient[7]; \/* cubic coefficents for BC-cubic filters *\/ member in struct:_ResizeFilter [all...] |