/external/eigen/doc/snippets/ |
DenseBase_LinSpaced.cpp | 1 cout << VectorXi::LinSpaced(4,7,10).transpose() << endl; 2 cout << VectorXd::LinSpaced(5,0.0,1.0).transpose() << endl;
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DenseBase_LinSpaced_seq.cpp | 1 cout << VectorXi::LinSpaced(Sequential,4,7,10).transpose() << endl; 2 cout << VectorXd::LinSpaced(Sequential,5,0.0,1.0).transpose() << endl;
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DenseBase_setLinSpaced.cpp | 2 v.setLinSpaced(5,0.5f,1.5f).transpose();
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MatrixBase_transpose.cpp | 3 cout << "Here is the transpose of m:" << endl << m.transpose() << endl; 4 cout << "Here is the coefficient (1,0) in the transpose of m:" << endl 5 << m.transpose()(1,0) << endl; 7 m.transpose()(1,0) = 0;
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SelfAdjointEigenSolver_SelfAdjointEigenSolver.cpp | 3 Matrix4f A = X + X.transpose(); 5 cout << "The eigenvalues of A are: " << es.eigenvalues().transpose() << endl; 7 cout << "The eigenvalues of A+I are: " << es.eigenvalues().transpose() << endl;
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SelfAdjointEigenSolver_compute_MatrixType.cpp | 3 MatrixXf A = X + X.transpose(); 5 cout << "The eigenvalues of A are: " << es.eigenvalues().transpose() << endl; 7 cout << "The eigenvalues of A+I are: " << es.eigenvalues().transpose() << endl;
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MatrixBase_diagonal_int.cpp | 4 << m.diagonal(1).transpose() << endl 5 << m.diagonal(-2).transpose() << endl;
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MatrixBase_diagonal_template_int.cpp | 4 << m.diagonal<1>().transpose() << endl 5 << m.diagonal<-2>().transpose() << endl;
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tut_arithmetic_transpose_aliasing.cpp | 4 a = a.transpose(); // !!! do NOT do this !!!
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EigenSolver_compute.cpp | 4 cout << "The eigenvalues of A are: " << es.eigenvalues().transpose() << endl; 6 cout << "The eigenvalues of A+I are: " << es.eigenvalues().transpose() << endl;
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SelfAdjointEigenSolver_compute_MatrixType2.cpp | 2 MatrixXd A = X * X.transpose(); 4 MatrixXd B = X * X.transpose();
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Tridiagonalization_Tridiagonalization_MatrixType.cpp | 2 MatrixXd A = X + X.transpose(); 9 cout << "Q * T * Q^T = " << endl << Q * T * Q.transpose() << endl;
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LLT_example.cpp | 10 cout << "To check this, let us compute L * L.transpose()" << endl; 11 cout << L * L.transpose() << endl;
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/external/eigen/failtest/ |
const_qualified_transpose_method_retval.cpp | 12 Transpose<Matrix3d> b(m.transpose());
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transpose_nonconst_ctor_on_const_xpr.cpp | 12 Transpose<Matrix3d> t(m);
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transpose_on_const_type_actually_const.cpp | 13 Transpose<CV_QUALIFIER MatrixXf>(m).coeffRef(0, 0) = 1.0f;
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/external/guava/guava-tests/test/com/google/common/collect/ |
TransposedTableTest.java | 22 * Test cases for {@link Tables#transpose}. 32 Table<String, Integer, Character> table = Tables.transpose(original); 40 assertSame(original, Tables.transpose(Tables.transpose(original))); 45 Table<String, Integer, Character> transpose = Tables.transpose(original); local 47 assertEquals((Character) 'a', transpose.get("foo", 1)); 52 Table<String, Integer, Character> transpose = Tables.transpose(original); local 53 transpose.put("foo", 1, 'a') 59 Table<String, Integer, Character> transpose = Tables.transpose(original); local [all...] |
/external/eigen/test/ |
product.h | 61 // (we use Transpose.h but this doesn't count as a test for it) 62 VERIFY_IS_APPROX((m1*m1.transpose())*m2, m1*(m1.transpose()*m2)); 64 m3 *= m1.transpose() * m2; 65 VERIFY_IS_APPROX(m3, m1 * (m1.transpose()*m2)); 66 VERIFY_IS_APPROX(m3, m1 * (m1.transpose()*m2)); 78 VERIFY_IS_APPROX(v1.transpose(), v1.transpose() * identity); 89 VERIFY(areNotApprox(m1.transpose()*m2,m2.transpose()*m1)) [all...] |
sparse_product.cpp | 18 VERIFY_IS_APPROX(m4=m2.col(c)*refMat2.col(c1).transpose(), refMat4=refMat2.col(c)*refMat2.col(c1).transpose()); 19 VERIFY_IS_APPROX(m4=refMat2.col(c1)*m2.col(c).transpose(), refMat4=refMat2.col(c1)*refMat2.col(c).transpose()); 27 VERIFY_IS_APPROX(m4=m2.row(r).transpose()*refMat2.col(c1).transpose(), refMat4=refMat2.row(r).transpose()*refMat2.col(c1).transpose()); 33 // VERIFY_IS_APPROX(m4=m2.innerVector(c)*dv1.transpose(), refMat4=refMat2.colVector(c)*dv1.transpose()); [all...] |
vectorwiseop.cpp | 41 VERIFY_RAISES_ASSERT(m2.colwise() += colvec.transpose()); 42 VERIFY_RAISES_ASSERT(m1.colwise() + colvec.transpose()); 49 VERIFY_RAISES_ASSERT(m2.rowwise() += rowvec.transpose()); 50 VERIFY_RAISES_ASSERT(m1.rowwise() + rowvec.transpose()); 59 VERIFY_RAISES_ASSERT(m2.colwise() -= colvec.transpose()); 60 VERIFY_RAISES_ASSERT(m1.colwise() - colvec.transpose()); 67 VERIFY_RAISES_ASSERT(m2.rowwise() -= rowvec.transpose()); 68 VERIFY_RAISES_ASSERT(m1.rowwise() - rowvec.transpose()); 77 VERIFY_RAISES_ASSERT(m2.colwise() *= colvec.transpose()); 78 VERIFY_RAISES_ASSERT(m1.colwise() * colvec.transpose()); [all...] |
adjoint.cpp | 17 Transpose.h Conjugate.h Dot.h 40 // check basic compatibility of adjoint, transpose, conjugate 41 VERIFY_IS_APPROX(m1.transpose().conjugate().adjoint(), m1); 42 VERIFY_IS_APPROX(m1.adjoint().conjugate().transpose(), m1); 86 // check inplace transpose 89 VERIFY_IS_APPROX(m3,m1.transpose()); 123 VERIFY_RAISES_ASSERT(a = a.transpose()); 124 VERIFY_RAISES_ASSERT(a = a.transpose() + b); 125 VERIFY_RAISES_ASSERT(a = b + a.transpose()); 126 VERIFY_RAISES_ASSERT(a = a.conjugate().transpose()); [all...] |
nesting_ops.cpp | 29 VERIFY_IS_APPROX( (m.transpose() * m).diagonal().sum(), (m.transpose() * m).diagonal().sum() ); 30 VERIFY_IS_APPROX( (m.transpose() * m).diagonal().array().abs().sum(), (m.transpose() * m).diagonal().array().abs().sum() ); 32 VERIFY_IS_APPROX( (m.transpose() * m).array().abs().sum(), (m.transpose() * m).array().abs().sum() );
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/external/eigen/test/eigen2/ |
eigen2_sparse_product.cpp | 36 VERIFY_IS_APPROX(m4=m2.transpose()*m3, refMat4=refMat2.transpose()*refMat3); 37 VERIFY_IS_APPROX(m4=m2.transpose()*m3.transpose(), refMat4=refMat2.transpose()*refMat3.transpose()); 38 VERIFY_IS_APPROX(m4=m2*m3.transpose(), refMat4=refMat2*refMat3.transpose()); 42 VERIFY_IS_APPROX(dm4=m2*refMat3.transpose(), refMat4=refMat2*refMat3.transpose()); [all...] |
product.h | 64 // (we use Transpose.h but this doesn't count as a test for it) 66 VERIFY_IS_APPROX((m1*m1.transpose())*m2, m1*(m1.transpose()*m2)); 68 m3 *= m1.transpose() * m2; 69 VERIFY_IS_APPROX(m3, m1 * (m1.transpose()*m2)); 70 VERIFY_IS_APPROX(m3, m1.lazy() * (m1.transpose()*m2)); 85 VERIFY_IS_APPROX(v1.transpose(), v1.transpose() * identity); 96 VERIFY(areNotApprox(m1.transpose()*m2,m2.transpose()*m1)) [all...] |
/external/eigen/doc/examples/ |
tut_arithmetic_matrix_mul.cpp | 13 std::cout << "Here is u^T*mat:\n" << u.transpose()*mat << std::endl; 14 std::cout << "Here is u^T*v:\n" << u.transpose()*v << std::endl; 15 std::cout << "Here is u*v^T:\n" << u*v.transpose() << std::endl;
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