| /external/clang/test/CXX/expr/expr.prim/expr.prim.lambda/ |
| H A D | p20.cpp | 10 auto lambda = []{}; local
11 destroy(&lambda);
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| H A D | p3.cpp | 4 auto lambda = [i]() -> void {}; // expected-note 3{{candidate constructor}} local
5 decltype(lambda) foo = { 1 }; // expected-error{{no matching constructor}}
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| H A D | p6.cpp | 7 const auto lambda = [](int x) { }; local
8 void (*fp3)(int) = lambda;
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| H A D | p23.cpp | 54 auto lambda = [](Args... inner_args) { return g(inner_args...); }; local
55 lambda(args...);
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| H A D | templates.cpp | 5 auto nrl = []() [[noreturn]] {}; // expected-error{{lambda declared 'noreturn' should not return}}
19 auto lambda = [=, &y] () -> T { local
24 return lambda();
39 auto lambda = [=](bool b) { return x + y; }; local
40 return lambda(true); // expected-error{{no viable conversion from 'X' to 'int'}}
46 // Make sure that lambda's operator() can be used from templates.
80 = typeid([=,&r] () -> R& { // expected-error{{lambda expression in an unevaluated operand}}
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| /external/eigen/doc/snippets/ |
| H A D | ComplexEigenSolver_compute.cpp | 9 complex<float> lambda = ces.eigenvalues()[0]; variable
10 cout << "Consider the first eigenvalue, lambda = " << lambda << endl;
12 cout << "If v is the corresponding eigenvector, then lambda * v = " << endl << lambda * v << endl;
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| H A D | EigenSolver_EigenSolver_MatrixType.cpp | 8 complex<double> lambda = es.eigenvalues()[0]; variable
9 cout << "Consider the first eigenvalue, lambda = " << lambda << endl;
11 cout << "If v is the corresponding eigenvector, then lambda * v = " << endl << lambda * v << endl;
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| H A D | SelfAdjointEigenSolver_SelfAdjointEigenSolver_MatrixType.cpp | 9 double lambda = es.eigenvalues()[0]; variable
10 cout << "Consider the first eigenvalue, lambda = " << lambda << endl;
12 cout << "If v is the corresponding eigenvector, then lambda * v = " << endl << lambda * v << endl;
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| H A D | SelfAdjointEigenSolver_SelfAdjointEigenSolver_MatrixType2.cpp | 12 double lambda = es.eigenvalues()[0]; variable
13 cout << "Consider the first eigenvalue, lambda = " << lambda << endl;
16 cout << "... and lambda * B * v = " << endl << lambda * B * v << endl << endl;
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| /external/clang/test/Index/ |
| H A D | cxx11-lambdas.cpp | 7 auto lambda = [&localA, localB] (Integer x) -> Integer { local
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| /external/bouncycastle/bcprov/src/main/java/org/bouncycastle/math/ec/ |
| H A D | WTauNafMultiplier.java | 42 * by an element <code>λ</code> of <code><b>Z</b>[τ]</code> using
45 * @param lambda The element <code>λ</code> of
48 * @return <code>p</code> multiplied by <code>λ</code>.
50 private ECPoint.F2m multiplyWTnaf(ECPoint.F2m p, ZTauElement lambda, argument
66 byte[]u = Tnaf.tauAdicWNaf(mu, lambda, Tnaf.WIDTH,
74 * by an element <code>λ</code> of <code><b>Z</b>[τ]</code>
76 * WTNAF of <code>λ</code>.
78 * @param u The the WTNAF of <code>λ</code>..
79 * @return <code>λ *
[all...] |
| H A D | Tnaf.java | 75 * Computes the norm of an element <code>λ</code> of
78 * @param lambda The element <code>λ</code> of
80 * @return The norm of <code>λ</code>.
82 public static BigInteger norm(final byte mu, ZTauElement lambda) argument
87 BigInteger s1 = lambda.u.multiply(lambda.u);
90 BigInteger s2 = lambda.u.multiply(lambda.v);
93 BigInteger s3 = lambda
314 tauAdicNaf(byte mu, ZTauElement lambda) argument
670 multiplyTnaf(ECPoint.F2m p, ZTauElement lambda) argument
723 tauAdicWNaf(byte mu, ZTauElement lambda, byte width, BigInteger pow2w, BigInteger tw, ZTauElement[] alpha) argument
[all...] |
| /external/jmonkeyengine/engine/src/core/com/jme3/shadow/ |
| H A D | PssmShadowUtil.java | 57 public static void updateFrustumSplits(float[] splits, float near, float far, float lambda) { argument
62 splits[i] = log * lambda + uniform * (1.0f - lambda);
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| H A D | PssmShadowRenderer.java | 118 private float lambda = 0.65f; field in class:PssmShadowRenderer
359 PssmShadowUtil.updateFrustumSplits(splitsArray, frustumNear, zFar, lambda);
461 * see {@link setLambda(float lambda)}
462 * @return lambda
465 return lambda;
474 * @param lambda the lambda value.
476 public void setLambda(float lambda) { argument
477 this.lambda = lambda;
[all...] |
| /external/eigen/unsupported/Eigen/src/IterativeSolvers/ |
| H A D | ConstrainedConjGrad.h | 114 Scalar rho = 1.0, rho_1, lambda, gamma; local
170 lambda = rho / q.dot(p);
177 lambda = (std::min)(lambda, (f.coeff(i)-C.row(i).dot(x)) / bb);
180 x += lambda * p;
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| /external/libgsm/src/ |
| H A D | long_term.c | 59 register int k, lambda; local
97 for (lambda = 40; lambda <= 120; lambda++) {
98 L_result = (longword)wt_k * dp[best_k - lambda];
100 Nc = lambda;
163 register int k, lambda; local
203 for (lambda = 40; lambda <= 120; lambda
301 register int k, lambda; local
478 register int k, lambda; local
646 register int k, lambda; local
719 register int k, lambda; local
[all...] |
| /external/opencv/cv/src/ |
| H A D | cvoptflowhs.cpp | 52 float alpha; /* alpha = 1 / ( 1/lambda + xx + yy ) */
69 // lambda - Lagrangian multiplier
94 float lambda,
115 float Ilambda = 1 / lambda;
492 double lambda, CvTermCriteria criteria )
531 velx->step, (float)lambda, criteria ));
86 icvCalcOpticalFlowHS_8u32fR( uchar* imgA, uchar* imgB, int imgStep, CvSize imgSize, int usePrevious, float* velocityX, float* velocityY, int velStep, float lambda, CvTermCriteria criteria ) argument
490 cvCalcOpticalFlowHS( const void* srcarrA, const void* srcarrB, int usePrevious, void* velarrx, void* velarry, double lambda, CvTermCriteria criteria ) argument
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| H A D | cvcalibration.cpp | 259 double lambda = exp(lambdaLg10*LOG10); local
273 cvSetIdentity( JtJN, cvRealScalar(lambda) );
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| H A D | cvfundam.cpp | 724 // f1, f2 is a basis => lambda*f1 + mu*f2 is an arbitrary f. matrix.
725 // as it is determined up to a scale, normalize lambda & mu (lambda + mu = 1),
726 // so f ~ lambda*f1 + (1 - lambda)*f2.
727 // use the additional constraint det(f) = det(lambda*f1 + (1-lambda)*f2) to find lambda.
770 double lambda = r[k], mu = 1.; local
777 lambda *
[all...] |
| H A D | cvstereogc.cpp | 77 int lambda, lambda1, lambda2, K; member in struct:CvStereoGCState2
383 state->K = state->lambda = state->lambda1 = state->lambda2 = -1.f;
908 state2.lambda = cvRound(state->lambda*DENOMINATOR);
920 if( state2.lambda < 0 && (state2.K < 0 || state2.lambda1 < 0 || state2.lambda2 < 0) )
923 state2.lambda = cvRound(L*DENOMINATOR);
927 state2.K = state2.lambda*5;
929 state2.lambda1 = state2.lambda*3;
931 state2.lambda2 = state2.lambda;
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| /external/webp/src/enc/ |
| H A D | quant.c | 409 static WEBP_INLINE void SetRDScore(int lambda, VP8ModeScore* const rd) { argument
411 rd->score = rd->R * lambda + 256 * (rd->D + rd->SD);
414 static WEBP_INLINE score_t RDScoreTrellis(int lambda, score_t rate, argument
416 return rate * lambda + 256 * distortion;
423 int lambda) {
454 best_score = RDScoreTrellis(lambda, cost, max_error);
522 score = RDScoreTrellis(lambda, cost, total_error);
534 score = RDScoreTrellis(lambda, cost, total_error);
705 const int lambda = dqm->lambda_i16_; local
727 SetRDScore(lambda,
419 TrellisQuantizeBlock(const VP8EncIterator* const it, int16_t in[16], int16_t out[16], int ctx0, int coeff_type, const VP8Matrix* const mtx, int lambda) argument
756 const int lambda = dqm->lambda_i4_; local
832 const int lambda = dqm->lambda_uv_; local
[all...] |
| /external/webrtc/src/modules/audio_processing/aec/ |
| H A D | aec_core.c | 112 static void GetHighbandGain(const float *lambda, float *nlpGainHband);
117 const float *noisePow, const float *lambda);
1194 static void GetHighbandGain(const float *lambda, float *nlpGainHband) argument
1200 nlpGainHband[0] += lambda[i];
1206 complex_t *comfortNoiseHband, const float *noisePow, const float *lambda)
1236 tmp = sqrtf(WEBRTC_SPL_MAX(1 - lambda[i] * lambda[i], 0));
1237 //tmp = 1 - lambda[i];
1264 tmpAvg += sqrtf(WEBRTC_SPL_MAX(1 - lambda[i] * lambda[
1205 ComfortNoise(aec_t *aec, float efw[2][PART_LEN1], complex_t *comfortNoiseHband, const float *noisePow, const float *lambda) argument
[all...] |
| /external/opencv/cv/include/ |
| H A D | cv.h | 476 double lambda, CvTermCriteria criteria );
1437 float K, lambda, lambda1, lambda2; member in struct:CvStereoGCState
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| /external/webrtc/src/modules/audio_processing/aecm/ |
| H A D | aecm_core.c | 203 const WebRtc_Word16* lambda);
1915 // \param[in] lambda Suppression gain with which to scale the noise level (Q14).
1920 const WebRtc_Word16* lambda)
2020 tmp16 = ONE_Q14 - lambda[i];
1917 ComfortNoise(AecmCore_t* aecm, const WebRtc_UWord16* dfa, complex16_t* out, const WebRtc_Word16* lambda) argument
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| /external/clang/lib/CodeGen/ |
| H A D | CGClass.cpp | 1757 void CodeGenFunction::EmitForwardingCallToLambda(const CXXRecordDecl *lambda, argument
1763 cast<CXXMethodDecl>(*lambda->lookup(operatorName).first);
1821 CGM.ErrorUnsupported(CurFuncDecl, "lambda conversion to variadic function");
1852 CGM.ErrorUnsupported(MD, "lambda conversion to variadic function");
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