/external/eigen/doc/snippets/ |
MatrixBase_asDiagonal.cpp | 0 cout << Matrix3i(Vector3i(2,5,6).asDiagonal()) << endl;
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TopicStorageOrders_example.cpp | 5 cout << "The matrix A:" << endl; 6 cout << Acolmajor << endl << endl; 8 cout << "In memory (column-major):" << endl; 10 cout << *(Acolmajor.data() + i) << " "; 11 cout << endl << endl; 14 cout << "In memory (row-major):" << endl; 16 cout << *(Arowmajor.data() + i) << " "; 17 cout << endl;
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Tutorial_AdvancedInitialization_Zero.cpp | 1 std::cout << "A fixed-size array:\n"; member in class:std 3 std::cout << a1 << "\n\n"; 6 std::cout << "A one-dimensional dynamic-size array:\n"; member in class:std 8 std::cout << a2 << "\n\n"; 11 std::cout << "A two-dimensional dynamic-size array:\n"; member in class:std 13 std::cout << a3 << "\n";
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Vectorwise_reverse.cpp | 2 cout << "Here is the matrix m:" << endl << m << endl; 3 cout << "Here is the rowwise reverse of m:" << endl << m.rowwise().reverse() << endl; 4 cout << "Here is the colwise reverse of m:" << endl << m.colwise().reverse() << endl; 6 cout << "Here is the coefficient (1,0) in the rowise reverse of m:" << endl 8 cout << "Let us overwrite this coefficient with the value 4." << endl; 10 cout << "Now the matrix m is:" << endl << m << endl;
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LLT_example.cpp | 3 cout << "The matrix A is" << endl << A << endl; 9 cout << "The Cholesky factor L is" << endl << L << endl; 10 cout << "To check this, let us compute L * L.transpose()" << endl; 11 cout << L * L.transpose() << endl; 12 cout << "This should equal the matrix A" << endl;
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MatrixBase_reverse.cpp | 2 cout << "Here is the matrix m:" << endl << m << endl; 3 cout << "Here is the reverse of m:" << endl << m.reverse() << endl; 4 cout << "Here is the coefficient (1,0) in the reverse of m:" << endl 6 cout << "Let us overwrite this coefficient with the value 4." << endl; 8 cout << "Now the matrix m is:" << endl << m << endl;
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MatrixBase_transpose.cpp | 2 cout << "Here is the matrix m:" << endl << m << endl; 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 6 cout << "Let us overwrite this coefficient with the value 0." << endl; 8 cout << "Now the matrix m is:" << endl << m << endl;
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Matrix_resize_int_int.cpp | 3 cout << "here's the 2x3 matrix m:" << endl << m << endl; 4 cout << "let's resize m to 3x2. This is a conservative resizing because 2*3==3*2." << endl; 6 cout << "here's the 3x2 matrix m:" << endl << m << endl; 7 cout << "now let's resize m to size 2x2. This is NOT a conservative resizing, so it becomes uninitialized:" << endl; 9 cout << m << endl;
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SelfAdjointEigenSolver_operatorInverseSqrt.cpp | 3 cout << "Here is a random positive-definite matrix, A:" << endl << A << endl << endl; 6 cout << "The inverse square root of A is: " << endl; 7 cout << es.operatorInverseSqrt() << endl; 8 cout << "We can also compute it with operatorSqrt() and inverse(). That yields: " << endl; 9 cout << es.operatorSqrt().inverse() << endl;
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DirectionWise_replicate.cpp | 2 cout << "Here is the matrix m:" << endl << m << endl; 3 cout << "m.colwise().replicate<3>() = ..." << endl; 4 cout << m.colwise().replicate<3>() << endl;
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DirectionWise_replicate_int.cpp | 2 cout << "Here is the vector v:" << endl << v << endl; 3 cout << "v.rowwise().replicate(5) = ..." << endl; 4 cout << v.rowwise().replicate(5) << endl;
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FullPivLU_image.cpp | 5 cout << "Here is the matrix m:" << endl << m << endl; 6 cout << "Notice that the middle column is the sum of the two others, so the " 8 cout << "Here is a matrix whose columns have the same span but are linearly independent:"
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MatrixBase_block_int_int.cpp | 2 cout << "Here is the matrix m:" << endl << m << endl; 3 cout << "Here is m.block<2,2>(1,1):" << endl << m.block<2,2>(1,1) << endl; 5 cout << "Now the matrix m is:" << endl << m << endl;
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MatrixBase_block_int_int_int_int.cpp | 2 cout << "Here is the matrix m:" << endl << m << endl; 3 cout << "Here is m.block(1, 1, 2, 2):" << endl << m.block(1, 1, 2, 2) << endl; 5 cout << "Now the matrix m is:" << endl << m << endl;
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MatrixBase_cwiseEqual.cpp | 4 cout << "Comparing m with identity matrix:" << endl; 5 cout << m.cwiseEqual(MatrixXi::Identity(2,2)) << endl; 7 cout << "Number of coefficients that are equal: " << count << endl;
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MatrixBase_cwiseNotEqual.cpp | 4 cout << "Comparing m with identity matrix:" << endl; 5 cout << m.cwiseNotEqual(MatrixXi::Identity(2,2)) << endl; 7 cout << "Number of coefficients that are not equal: " << count << endl;
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MatrixBase_end_int.cpp | 2 cout << "Here is the vector v:" << endl << v << endl; 3 cout << "Here is v.tail(2):" << endl << v.tail(2) << endl; 5 cout << "Now the vector v is:" << endl << v << endl;
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MatrixBase_isDiagonal.cpp | 3 cout << "Here's the matrix m:" << endl << m << endl; 4 cout << "m.isDiagonal() returns: " << m.isDiagonal() << endl; 5 cout << "m.isDiagonal(1e-3) returns: " << m.isDiagonal(1e-3) << endl;
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MatrixBase_isIdentity.cpp | 3 cout << "Here's the matrix m:" << endl << m << endl; 4 cout << "m.isIdentity() returns: " << m.isIdentity() << endl; 5 cout << "m.isIdentity(1e-3) returns: " << m.isIdentity(1e-3) << endl;
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MatrixBase_isOnes.cpp | 3 cout << "Here's the matrix m:" << endl << m << endl; 4 cout << "m.isOnes() returns: " << m.isOnes() << endl; 5 cout << "m.isOnes(1e-3) returns: " << m.isOnes(1e-3) << endl;
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MatrixBase_isUnitary.cpp | 3 cout << "Here's the matrix m:" << endl << m << endl; 4 cout << "m.isUnitary() returns: " << m.isUnitary() << endl; 5 cout << "m.isUnitary(1e-3) returns: " << m.isUnitary(1e-3) << endl;
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/external/stlport/test/eh/ |
locale.cpp | 17 cout.imbue(sys); 19 cout<<"Locale name is: "<<sys.name().c_str()<<'\n'; 21 cout<<"Enter real number:"; 24 cout<<value<<'\n'; 31 const numpunct<char>& num_punct=use_facet<numpunct<char> >(cout.getloc()); 32 cout << num_punct.decimal_point() << '\n'; 34 use_facet<time_put<char, ostreambuf_iterator<char, char_traits<char> > > >(cout.getloc()); 35 time_fac.put(cout, cout, NULL, cur_time, 'x'); cout<<'\n' [all...] |
/external/eigen/doc/examples/ |
Tutorial_ReductionsVisitorsBroadcasting_reductions_bool.cpp | 14 cout << "(a > 0).all() = " << (a > 0).all() << endl; 15 cout << "(a > 0).any() = " << (a > 0).any() << endl; 16 cout << "(a > 0).count() = " << (a > 0).count() << endl; 17 cout << endl; 18 cout << "(a > 2).all() = " << (a > 2).all() << endl; 19 cout << "(a > 2).any() = " << (a > 2).any() << endl; 20 cout << "(a > 2).count() = " << (a > 2).count() << endl;
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Tutorial_ReductionsVisitorsBroadcasting_reductions_norm.cpp | 18 cout << "v.squaredNorm() = " << v.squaredNorm() << endl; 19 cout << "v.norm() = " << v.norm() << endl; 20 cout << "v.lpNorm<1>() = " << v.lpNorm<1>() << endl; 21 cout << "v.lpNorm<Infinity>() = " << v.lpNorm<Infinity>() << endl; 23 cout << endl; 24 cout << "m.squaredNorm() = " << m.squaredNorm() << endl; 25 cout << "m.norm() = " << m.norm() << endl; 26 cout << "m.lpNorm<1>() = " << m.lpNorm<1>() << endl; 27 cout << "m.lpNorm<Infinity>() = " << m.lpNorm<Infinity>() << endl;
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TutorialLinAlgInverseDeterminant.cpp | 13 cout << "Here is the matrix A:\n" << A << endl; 14 cout << "The determinant of A is " << A.determinant() << endl; 15 cout << "The inverse of A is:\n" << A.inverse() << endl;
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