| /external/clang/test/Analysis/inlining/ |
| H A D | eager-reclamation-path-notes.c | 10 int compute() { function
21 use(p, compute());
33 use2(p, compute());
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| /external/eigen/Eigen/src/Eigenvalues/ |
| H A D | GeneralizedSelfAdjointEigenSolver.h | 35 * Call the function compute() to compute the eigenvalues and eigenvectors of
59 * perform decompositions via compute(). This constructor
71 * intends to perform decompositions via compute(). The \p size
75 * \sa compute() for an example
90 * This constructor calls compute(const MatrixType&, const MatrixType&, int)
91 * to compute the eigenvalues and (if requested) the eigenvectors of the
105 * \sa compute(const MatrixType&, const MatrixType&, int)
111 compute(matA, matB, options);
139 * The implementation uses LLT to compute th
164 compute(const MatrixType& matA, const MatrixType& matB, int options) function in class:Eigen::GeneralizedSelfAdjointEigenSolver
[all...] |
| H A D | ComplexEigenSolver.h | 38 * The main function in this class is compute(), which computes the
90 * perform decompositions via compute().
123 * This constructor calls compute() to compute the eigendecomposition.
133 compute(matrix, computeEigenvectors);
142 * function compute(const MatrixType& matrix, bool) has been called before
143 * to compute the eigendecomposition of a matrix, and
169 * function compute(const MatrixType& matrix, bool) has been called before
170 * to compute the eigendecomposition of a matrix.
202 * compute th
238 ComplexEigenSolver<MatrixType>& ComplexEigenSolver<MatrixType>::compute(const MatrixType& matrix, bool computeEigenvectors) function in class:Eigen::ComplexEigenSolver
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| H A D | ComplexSchur.h | 40 * Call the function compute() to compute the Schur decomposition of
88 * intends to perform decompositions via compute(). The \p size
92 * \sa compute() for an example.
107 * This constructor calls compute() to compute the Schur decomposition.
118 compute(matrix, computeU);
127 * member function compute(const MatrixType& matrix, bool computeU)
128 * has been called before to compute the Schur decomposition of a
148 * member function compute(cons
271 ComplexSchur<MatrixType>& ComplexSchur<MatrixType>::compute(const MatrixType& matrix, bool computeU) function in class:Eigen::ComplexSchur
[all...] |
| H A D | EigenSolver.h | 46 * Call the function compute() to compute the eigenvalues and eigenvectors of
109 * perform decompositions via EigenSolver::compute(const MatrixType&, bool).
111 * \sa compute() for an example.
138 * This constructor calls compute() to compute the eigenvalues
144 * \sa compute()
155 compute(matrix, computeEigenvectors);
164 * compute(const MatrixType&, bool) has been called before, and
186 * compute(cons
351 EigenSolver<MatrixType>& EigenSolver<MatrixType>::compute(const MatrixType& matrix, bool computeEigenvectors) function in class:Eigen::EigenSolver
[all...] |
| H A D | HessenbergDecomposition.h | 45 * Call the function compute() to compute the Hessenberg decomposition of a
94 * perform decompositions via compute(). The \p size parameter is only
98 * \sa compute() for an example.
113 * This constructor calls compute() to compute the Hessenberg
150 HessenbergDecomposition& compute(const MatrixType& matrix) function in class:Eigen::HessenbergDecomposition
169 * or the member function compute(const MatrixType&) has been called
170 * before to compute the Hessenberg decomposition of a matrix.
189 * or the member function compute(cons
[all...] |
| H A D | RealSchur.h | 36 * A, and thus the real Schur decomposition is used in EigenSolver to compute
39 * Call the function compute() to compute the real Schur decomposition of a
77 * perform decompositions via compute(). The \p size parameter is only
81 * \sa compute() for an example.
97 * This constructor calls compute() to compute the Schur decomposition.
110 compute(matrix, computeU);
118 * member function compute(const MatrixType&, bool) has been called before
119 * to compute th
204 RealSchur<MatrixType>& RealSchur<MatrixType>::compute(const MatrixType& matrix, bool computeU) function in class:Eigen::RealSchur
[all...] |
| H A D | Tridiagonalization.h | 46 * decomposition. This class is used in SelfAdjointEigenSolver to compute the
49 * Call the function compute() to compute the tridiagonal decomposition of a
107 * perform decompositions via compute(). The \p size parameter is only
111 * \sa compute() for an example.
124 * This constructor calls compute() to compute the tridiagonal decomposition.
155 Tridiagonalization& compute(const MatrixType& matrix) function in class:Eigen::Tridiagonalization
169 * the member function compute(const MatrixType&) has been called before
170 * to compute th
[all...] |
| /external/javassist/src/main/javassist/compiler/ast/ |
| H A D | DoubleConst.java | 44 public ASTree compute(int op, ASTree right) { method in class:DoubleConst
61 return compute(op, this.value, right.value, newType);
65 return compute(op, this.value, (double)right.value, this.type);
68 private static DoubleConst compute(int op, double value1, double value2, method in class:DoubleConst
|
| H A D | IntConst.java | 44 public ASTree compute(int op, ASTree right) { method in class:IntConst
|
| /external/jmonkeyengine/engine/src/blender/com/jme3/scene/plugins/blender/textures/ |
| H A D | TextureGeneratorMagic.java | 54 public void compute(float[] xyz, float turbulence) {
60 public void compute(float[] xyz, float turbulence) {
66 public void compute(float[] xyz, float turbulence) {
72 public void compute(float[] xyz, float turbulence) {
78 public void compute(float[] xyz, float turbulence) {
84 public void compute(float[] xyz, float turbulence) {
90 public void compute(float[] xyz, float turbulence) {
96 public void compute(float[] xyz, float turbulence) {
102 public void compute(float[] xyz, float turbulence) {
108 public void compute(floa
189 void compute(float[] xyz, float turbulence); method in interface:TextureGeneratorMagic.NoiseDepthFunction
[all...] |
| /external/eigen/Eigen/src/IterativeLinearSolvers/ |
| H A D | BasicPreconditioners.h | 48 compute(mat);
78 DiagonalPreconditioner& compute(const MatType& mat) function in class:Eigen::DiagonalPreconditioner
141 IdentityPreconditioner& compute(const MatrixType& ) { return *this; } function in class:Eigen::IdentityPreconditioner
|
| H A D | IterativeSolverBase.h | 45 * by a call to compute().
49 * this class becomes invalid. Call compute() to update it with the new
55 compute(A);
80 * this class becomes invalid. Call compute() to update it with the new
95 * Currently, this function mostly initialized/compute the preconditioner. In the future
100 * this class becomes invalid. Call compute() to update it with the new
103 Derived& compute(const MatrixType& A) function in class:Eigen::IterativeSolverBase
106 m_preconditioner.compute(A);
164 * \sa compute()
177 * \sa compute()
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| /external/eigen/unsupported/Eigen/src/IterativeSolvers/ |
| H A D | IncompleteLU.h | 31 compute(mat);
38 IncompleteLU& compute(const MatrixType& mat) function in class:Eigen::IncompleteLU
|
| H A D | Scaling.h | 60 compute(matrix);
72 void compute (const MatrixType& mat) function in class:Scaling
139 * \sa compute()
143 compute (mat);
|
| /external/llvm/lib/CodeGen/ |
| H A D | RegisterClassInfo.cpp | 75 /// compute - Compute the preferred allocation order for RC with reserved
78 void RegisterClassInfo::compute(const TargetRegisterClass *RC) const { function in class:RegisterClassInfo
167 // For efficiency, only compute the set order for the largest set.
174 compute(RC);
|
| /external/eigen/Eigen/src/SVD/ |
| H A D | UpperBidiagonalization.h | 51 * perform decompositions via Bidiagonalization::compute(const MatrixType&).
60 compute(matrix);
63 UpperBidiagonalization& compute(const MatrixType& matrix);
89 UpperBidiagonalization<_MatrixType>& UpperBidiagonalization<_MatrixType>::compute(const _MatrixType& matrix) function in class:Eigen::internal::UpperBidiagonalization
|
| /external/eigen/unsupported/Eigen/src/MatrixFunctions/ |
| H A D | MatrixFunctionAtomic.h | 35 * \param[in] f matrix function to compute.
43 MatrixType compute(const MatrixType& A);
71 MatrixType MatrixFunctionAtomic<MatrixType>::compute(const MatrixType& A) function in class:Eigen::MatrixFunctionAtomic
|
| /external/eigen/unsupported/Eigen/src/Polynomials/ |
| H A D | PolynomialSolver.h | 319 * Currently a QR algorithm is used to compute the eigenvalues of the companion matrix of
320 * the polynomial to compute its roots.
342 void compute( const OtherPolynomial& poly ) function in class:Eigen::PolynomialSolver
347 m_eigenSolver.compute( companion.denseMatrix() );
354 compute( poly ); }
374 void compute( const OtherPolynomial& poly ) function in class:Eigen::PolynomialSolver
|
| /external/guava/guava-gwt/src-super/com/google/common/collect/super/com/google/common/collect/ |
| H A D | MapMaker.java | 138 result = compute(key);
143 private V compute(K key) { method in class:MapMaker.ExpiringComputingMap
|
| /external/javassist/src/main/javassist/bytecode/stackmap/ |
| H A D | Liveness.java | 29 * To correctly compute a stack map table, all the arguments must
34 public void compute(CodeIterator ci, TypedBlock[] blocks, int maxLocals, method in class:Liveness
|
| /external/skia/bench/ |
| H A D | bench_util.py | 108 def compute(self): member in class:_ListAlgorithm
140 _ListAlgorithm(iters, representation).compute())
|
| /external/srtp/crypto/include/ |
| H A D | auth.h | 81 (((a)->type)->compute((a)->state, (buf), (len), (a)->out_len, (res)))
125 auth_compute_func compute; member in struct:auth_type_t
|
| /external/chromium_org/third_party/WebKit/PerformanceTests/Dromaeo/resources/dromaeo/web/ |
| H A D | webrunner.js | 135 var data = compute( times, numTests );
151 function compute(times, runs){
|
| /external/eigen/Eigen/src/Eigen2Support/ |
| H A D | SVD.h | 58 compute(matrix);
68 void compute(const MatrixType& matrix);
94 void SVD<MatrixType>::compute(const MatrixType& matrix) function in class:Eigen::SVD
|