/external/eigen/doc/snippets/ |
H A D | TopicAliasing_mult2.cpp | 1 MatrixXf matA(2,2), matB(2,2); 5 matB = matA * matA; 6 cout << matB << endl << endl; 9 matB.noalias() = matA * matA; 10 cout << matB; variable
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/external/eigen/Eigen/src/Eigenvalues/ |
H A D | GeneralizedSelfAdjointEigenSolver.h | 85 * \param[in] matB Positive-definite matrix in matrix pencil. 93 * selfadjoint matrix \f$ A \f$ and \a matB the positive definite matrix 107 GeneralizedSelfAdjointEigenSolver(const MatrixType& matA, const MatrixType& matB, argument 111 compute(matA, matB, options); 118 * \param[in] matB Positive-definite matrix in matrix pencil. 130 * with \a matA the selfadjoint matrix \f$ A \f$ and \a matB the positive definite 154 GeneralizedSelfAdjointEigenSolver& compute(const MatrixType& matA, const MatrixType& matB, 164 compute(const MatrixType& matA, const MatrixType& matB, int options) argument 166 eigen_assert(matA.cols()==matA.rows() && matB.rows()==matA.rows() && matB [all...] |
H A D | SelfAdjointEigenSolver.h | 333 SelfAdjointEigenSolver(const MatrixType& matA, const MatrixType& matB, bool computeEigenvectors = true) argument 339 static_cast<GeneralizedSelfAdjointEigenSolver<MatrixType>*>(this)->compute(matA, matB, computeEigenvectors ? ComputeEigenvectors : EigenvaluesOnly); 347 void compute(const MatrixType& matA, const MatrixType& matB, bool computeEigenvectors = true) argument 349 compute(matA, matB, computeEigenvectors ? ComputeEigenvectors : EigenvaluesOnly);
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/external/eigen/test/eigen2/ |
H A D | eigen2_cholesky.cpp | 34 MatrixType matB = MatrixType::Random(rows,cols), matX(rows,cols); local 75 ldlt.solve(matB, &matX); 76 VERIFY_IS_APPROX(symm * matX, matB); 85 chol.solve(matB, &matX); 86 VERIFY_IS_APPROX(symm * matX, matB);
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/external/chromium_org/third_party/skia/src/effects/ |
H A D | SkColorMatrix.cpp | 73 const SkColorMatrix& matB) { 77 if (&matA == this || &matB == this) { 82 const SkScalar* b = matB.fMat; 72 setConcat(const SkColorMatrix& matA, const SkColorMatrix& matB) argument
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/external/eigen/test/ |
H A D | cholesky.cpp | 77 MatrixType matB = MatrixType::Random(rows,cols), matX(rows,cols); local 98 matX = chollo.solve(matB); 99 VERIFY_IS_APPROX(symm * matX, matB); 106 matX = cholup.solve(matB); 107 VERIFY_IS_APPROX(symm * matX, matB); 121 m2 += symmLo.template selfadjointView<Lower>().llt().solve(matB); 122 VERIFY_IS_APPROX(m2, m1 + symmLo.template selfadjointView<Lower>().llt().solve(matB)); 124 m2 -= symmLo.template selfadjointView<Lower>().llt().solve(matB); 125 VERIFY_IS_APPROX(m2, m1 - symmLo.template selfadjointView<Lower>().llt().solve(matB)); 127 m2.noalias() += symmLo.template selfadjointView<Lower>().llt().solve(matB); 260 MatrixType matB = MatrixType::Random(rows,cols), matX(rows,cols); local [all...] |
/external/skia/src/effects/ |
H A D | SkColorMatrix.cpp | 73 const SkColorMatrix& matB) { 77 if (&matA == this || &matB == this) { 82 const SkScalar* b = matB.fMat; 72 setConcat(const SkColorMatrix& matA, const SkColorMatrix& matB) argument
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/external/deqp/framework/common/ |
H A D | tcuMatrix.hpp | 252 const Matrix<T, 2, 1> matB = Matrix<T, 2, 1>(areaB); local 256 const T schurComplement = T(1.0f) / (matD - matC*invA*matB)(0,0); 259 const Matrix<T, 2, 2> blockA = invA + invA*matB*schurComplement*matC*invA; 260 const Matrix<T, 2, 1> blockB = (zeroMat-invA)*matB*schurComplement; 303 const Matrix<T, 2, 2> matB = Matrix<T, 2, 2>(areaB); local 307 const Matrix<T, 2, 2> schurComplement = inverse(matD - matC*invA*matB); 310 const Matrix<T, 2, 2> blockA = invA + invA*matB*schurComplement*matC*invA; 311 const Matrix<T, 2, 2> blockB = (zeroMat-invA)*matB*schurComplement;
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/external/deqp/modules/gles3/functional/ |
H A D | es3fShaderMatrixTests.cpp | 767 const tcu::Matrix<float, 2, 1> matB = tcu::Matrix<float, 2, 1>(areaB); local 771 const float schurComplement = 1.0f / (matD - matC*invA*matB)(0,0); 774 const tcu::Matrix<float, 2, 2> blockA = invA + invA*matB*schurComplement*matC*invA; 775 const tcu::Matrix<float, 2, 1> blockB = (zeroMat-invA)*matB*schurComplement; 819 const tcu::Matrix<float, 2, 2> matB = Mat2(areaB); local 823 const tcu::Matrix<float, 2, 2> schurComplement = inverse(matD - matC*invA*matB); 826 const tcu::Matrix<float, 2, 2> blockA = invA + invA*matB*schurComplement*matC*invA; 827 const tcu::Matrix<float, 2, 2> blockB = (zeroMat-invA)*matB*schurComplement;
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/external/opencv/cvaux/src/ |
H A D | cvepilines.cpp | 2427 CvMat matB = cvMat( 8, 1, CV_64F, b ); local 2431 CV_CALL( cvMatMulAdd( &matInvA, &matB, 0, &matX )); 2567 CvMat matB = cvMat( 8, 1, CV_64F, b ); 2571 CV_CALL( cvMatMulAdd( &matInvA, &matB, 0, &matX ));
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/external/deqp/modules/glshared/ |
H A D | glsBuiltinPrecisionTests.cpp | 3571 ExprP<Vec2> matB = bindExpression("matB", ctx, vec2(mat[2][0], mat[2][1])); local 3577 (matD - dot(matC * invA, matB))); 3579 ExprP<Vec2> t1 = invA * matB; 3586 (invA * matB) * -schur); 3610 ExprP<Mat2> matB = bindExpression("matB", ctx, local 3620 inverse(matD + -(matC * invA * matB))); 3622 invA + (invA * matB * schur * matC * invA)); 3624 (-invA) * matB * schu [all...] |
/external/chromium_org/third_party/libaddressinput/src/java/ |
H A D | android.jar | META-INF/ META-INF/MANIFEST.MF AndroidManifest.xml android/ android/Manifest$permission.class ... |
/external/robolectric/lib/main/ |
H A D | android.jar | META-INF/ META-INF/MANIFEST.MF com/ com/android/ com/android/internal/ com/android/internal/util/ ... |
/external/chromium_org/third_party/android_platform/webview/ |
H A D | frameworks.jar | META-INF/ META-INF/MANIFEST.MF android/ android/location/ android/location/Address$1.class ... |