| /libcore/luni/src/main/java/java/util/concurrent/ |
| RecursiveAction.java | 26 * protected void compute() {
59 * protected void compute() {
109 * protected void compute() {
142 protected abstract void compute(); method in class:RecursiveAction
160 compute(); method
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| RecursiveTask.java | 18 * Integer compute() {
24 * return f2.compute() + f1.join();
28 * However, besides being a dumb way to compute Fibonacci functions
50 protected abstract V compute(); method in class:RecursiveTask
64 result = compute();
|
| /external/clang/test/Analysis/inlining/ |
| eager-reclamation-path-notes.c | 10 int compute() { function
21 use(p, compute());
33 use2(p, compute());
[all...] |
| /external/eigen/doc/snippets/ |
| ComplexSchur_compute.cpp | 3 schur.compute(A);
5 schur.compute(A.inverse());
|
| EigenSolver_compute.cpp | 3 es.compute(A, /* computeEigenvectors = */ false);
5 es.compute(A + MatrixXf::Identity(4,4), false); // re-use es to compute eigenvalues of A+I
|
| HessenbergDecomposition_compute.cpp | 3 hd.compute(A);
5 hd.compute(2*A); // re-use hd to compute and store decomposition of 2A
|
| RealSchur_compute.cpp | 3 schur.compute(A, /* computeU = */ false);
5 schur.compute(A.inverse(), /* computeU = */ false);
|
| SelfAdjointEigenSolver_SelfAdjointEigenSolver.cpp | 4 es.compute(A);
6 es.compute(A + Matrix4f::Identity(4,4)); // re-use es to compute eigenvalues of A+I
|
| SelfAdjointEigenSolver_compute_MatrixType.cpp | 4 es.compute(A);
6 es.compute(A + MatrixXf::Identity(4,4)); // re-use es to compute eigenvalues of A+I
|
| Tridiagonalization_compute.cpp | 4 tri.compute(A);
7 tri.compute(2*A); // re-use tri to compute eigenvalues of 2A
|
| GeneralizedEigenSolver.cpp | 4 ges.compute(A, B);
|
| SelfAdjointEigenSolver_compute_MatrixType2.cpp | 8 es.compute(B,A,false);
|
| /external/eigen/doc/examples/ |
| TutorialLinAlgComputeTwice.cpp | 16 llt.compute(A);
21 llt.compute(A);
|
| /external/javassist/src/main/javassist/compiler/ast/ |
| 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
|
| /frameworks/rs/tests/cppbasic/ |
| Android.mk | 9 compute.cpp
16 LOCAL_MODULE:= rstest-compute
|
| /frameworks/rs/tests/cppbasic-getpointer/ |
| Android.mk | 6 compute.cpp
12 LOCAL_MODULE:= rstest-compute-getpointer
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| /frameworks/rs/tests/cppbasic-shared/ |
| Android.mk | 6 compute.cpp
12 LOCAL_MODULE:= rstest-compute-shared
|
| /external/eigen/Eigen/src/Eigenvalues/ |
| 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 the Cholesky decompositio
164 compute(const MatrixType& matA, const MatrixType& matB, int options) function in class:Eigen::GeneralizedSelfAdjointEigenSolver
[all...] |
| /external/eigen/unsupported/test/ |
| svd_common.h | 161 svd.compute(a, 0);
169 svd.compute(a, ComputeThinU);
173 svd.compute(a, ComputeThinV);
180 VERIFY_RAISES_ASSERT(svd.compute(a, ComputeThinU))
181 VERIFY_RAISES_ASSERT(svd.compute(a, ComputeThinV))
203 svd.compute(MatrixType::Constant(10,10,some_inf), ComputeFullU | ComputeFullV);
207 svd.compute(MatrixType::Constant(10,10,some_nan), ComputeFullU | ComputeFullV);
211 svd.compute(m, ComputeFullU | ComputeFullV);
215 svd.compute(m, ComputeFullU | ComputeFullV);
229 svd.compute(m)
[all...] |
| /external/eigen/test/ |
| nomalloc.cpp | 130 Eigen::LLT<Matrix> LLT; LLT.compute(A);
133 Eigen::LDLT<Matrix> LDLT; LDLT.compute(A);
138 Eigen::HessenbergDecomposition<ComplexMatrix> hessDecomp; hessDecomp.compute(complexA);
139 Eigen::ComplexSchur<ComplexMatrix> cSchur(size); cSchur.compute(complexA);
140 Eigen::ComplexEigenSolver<ComplexMatrix> cEigSolver; cEigSolver.compute(complexA);
141 Eigen::EigenSolver<Matrix> eigSolver; eigSolver.compute(A);
142 Eigen::SelfAdjointEigenSolver<Matrix> saEigSolver(size); saEigSolver.compute(saA);
143 Eigen::Tridiagonalization<Matrix> tridiag; tridiag.compute(saA);
146 Eigen::PartialPivLU<Matrix> ppLU; ppLU.compute(A);
149 Eigen::FullPivLU<Matrix> fpLU; fpLU.compute(A)
[all...] |
| /external/chromium_org/third_party/mesa/src/src/gallium/tests/trivial/ |
| Makefile | 22 compute.c
|
| /external/mesa3d/src/gallium/tests/trivial/ |
| Makefile | 22 compute.c
|
| /external/deqp/framework/opengl/ |
| gluContextInfo.hpp | 41 CachedValue (ComputeValue compute = ComputeValue(), const T& defaultValue = T())
42 : m_compute (compute)
|
| /external/llvm/include/llvm/CodeGen/ |
| RegisterClassInfo.h | 66 // Compute all information about RC.
67 void compute(const TargetRegisterClass *RC) const;
73 compute(RC);
|
| /frameworks/rs/tests/cppallocation/ |
| Android.mk | 9 compute.cpp
|
