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  /external/eigen/doc/snippets/
MatrixBase_cwiseMin.cpp 2 cout << v.cwiseMin(w) << endl;
MatrixBase_cwiseQuotient.cpp 2 cout << v.cwiseQuotient(w) << endl;
MatrixBase_hnormalized.cpp 3 cout << "v = " << v.transpose() << "]^T" << endl;
4 cout << "v.hnormalized() = " << v.hnormalized().transpose() << "]^T" << endl;
5 cout << "P*v = " << (P*v).transpose() << "]^T" << endl;
6 cout << "(P*v).hnormalized() = " << (P*v).hnormalized().transpose() << "]^T" << endl
MatrixBase_isDiagonal.cpp 3 cout << "Here's the matrix m:" << endl << m << endl; variable
4 cout << "m.isDiagonal() returns: " << m.isDiagonal() << endl;
5 cout << "m.isDiagonal(1e-3) returns: " << m.isDiagonal(1e-3) << endl;
MatrixBase_isIdentity.cpp 3 cout << "Here's the matrix m:" << endl << m << endl; variable
4 cout << "m.isIdentity() returns: " << m.isIdentity() << endl;
5 cout << "m.isIdentity(1e-3) returns: " << m.isIdentity(1e-3) << endl;
MatrixBase_isOnes.cpp 3 cout << "Here's the matrix m:" << endl << m << endl; variable
4 cout << "m.isOnes() returns: " << m.isOnes() << endl;
5 cout << "m.isOnes(1e-3) returns: " << m.isOnes(1e-3) << endl;
MatrixBase_isUnitary.cpp 3 cout << "Here's the matrix m:" << endl << m << endl; variable
4 cout << "m.isUnitary() returns: " << m.isUnitary() << endl;
5 cout << "m.isUnitary(1e-3) returns: " << m.isUnitary(1e-3) << endl;
MatrixBase_isZero.cpp 3 cout << "Here's the matrix m:" << endl << m << endl; variable
4 cout << "m.isZero() returns: " << m.isZero() << endl;
5 cout << "m.isZero(1e-3) returns: " << m.isZero(1e-3) << endl;
MatrixBase_setOnes.cpp 3 cout << m << endl; variable
MatrixBase_setRandom.cpp 3 cout << m << endl; variable
MatrixBase_setZero.cpp 3 cout << m << endl; variable
Matrix_setConstant_int_int.cpp 3 cout << m << endl; variable
PartialRedux_count.cpp 2 cout << "Here is the matrix m:" << endl << m << endl; variable
4 cout << "Here is the count of elements larger or equal than 0.5 of each row:" << endl; variable
5 cout << res << endl; variable
RealSchur_compute.cpp 4 cout << "The matrix T in the decomposition of A is:" << endl << schur.matrixT() << endl;
6 cout << "The matrix T in the decomposition of A^(-1) is:" << endl << schur.matrixT() << endl;
Tridiagonalization_householderCoefficients.cpp 3 cout << "Here is a random symmetric 4x4 matrix:" << endl << A << endl; variable
6 cout << "The vector of Householder coefficients is:" << endl << hc << endl; variable
Tutorial_ReshapeMat2Vec.cpp 7 cout << "v1:" << endl << v1 << endl; variable
11 cout << "v2:" << endl << v2 << endl variable
tut_arithmetic_transpose_conjugate.cpp 2 cout << "Here is the matrix a\n" << a << endl; variable
4 cout << "Here is the matrix a^T\n" << a.transpose() << endl;
7 cout << "Here is the conjugate of a\n" << a.conjugate() << endl;
10 cout << "Here is the matrix a^*\n" << a.adjoint() << endl;
FullPivLU_solve.cpp 3 cout << "Here is the matrix m:" << endl << m << endl; variable
4 cout << "Here is the matrix y:" << endl << y << endl; variable
8 cout << "Here is a solution x to the equation mx=y:" << endl << x << endl; variable
11 cout << "The equation mx=y does not have any solution." << endl; variable
LLT_example.cpp 3 cout << "The matrix A is" << endl << A << endl; variable
9 cout << "The Cholesky factor L is" << endl << L << endl; variable
10 cout << "To check this, let us compute L * L.transpose()" << endl; variable
11 cout << L * L.transpose() << endl;
12 cout << "This should equal the matrix A" << endl; variable
Matrix_resize_int_int.cpp 3 cout << "here's the 2x3 matrix m:" << endl << m << endl; variable
4 cout << "let's resize m to 3x2. This is a conservative resizing because 2*3==3*2." << endl; variable
6 cout << "here's the 3x2 matrix m:" << endl << m << endl; variable
7 cout << "now let's resize m to size 2x2. This is NOT a conservative resizing, so it becomes uninitialized:" << endl; variable
9 cout << m << endl; variable
class_FullPivLU.cpp 4 cout << "Here is the matrix m:" << endl << m << endl; variable
7 << endl << lu.matrixLU() << endl;
8 cout << "Here is the L part:" << endl; variable
11 cout << l << endl; variable
12 cout << "Here is the U part:" << endl; variable
14 cout << u << endl; variable
15 cout << "Let us now reconstruct the original matrix m:" << endl; variable
16 cout << lu.permutationP().inverse() * l * u * lu.permutationQ().inverse() << endl;
    [all...]
FullPivLU_image.cpp 5 cout << "Here is the matrix m:" << endl << m << endl; variable
7 << "columns are linearly dependent." << endl; variable
9 << endl << m.fullPivLu().image(m) << endl;
  /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; local
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;
Tutorial_ArrayClass_addition.cpp 19 cout << "a + b = " << endl << a + b << endl << endl; local
22 cout << "a - 2 = " << endl << a - 2 << endl;
  /external/zlib/src/contrib/iostream2/
zstream_test.cpp 17 cout << x << endl << y << endl << z << endl;
20 out << setw(50) << setfill('#') << setprecision(20) << x << endl << y << endl << z << endl;
21 out << z << endl << y << endl << x << endl;
22 out << 1.1234567890123456789 << endl;
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