#include #include using namespace Eigen; // [functor] template class indexing_functor { const ArgType &m_arg; const RowIndexType &m_rowIndices; const ColIndexType &m_colIndices; public: typedef Matrix MatrixType; indexing_functor(const ArgType& arg, const RowIndexType& row_indices, const ColIndexType& col_indices) : m_arg(arg), m_rowIndices(row_indices), m_colIndices(col_indices) {} const typename ArgType::Scalar& operator() (Index row, Index col) const { return m_arg(m_rowIndices[row], m_colIndices[col]); } }; // [functor] // [function] template CwiseNullaryOp, typename indexing_functor::MatrixType> mat_indexing(const Eigen::MatrixBase& arg, const RowIndexType& row_indices, const ColIndexType& col_indices) { typedef indexing_functor Func; typedef typename Func::MatrixType MatrixType; return MatrixType::NullaryExpr(row_indices.size(), col_indices.size(), Func(arg.derived(), row_indices, col_indices)); } // [function] int main() { std::cout << "[main1]\n"; Eigen::MatrixXi A = Eigen::MatrixXi::Random(4,4); Array3i ri(1,2,1); ArrayXi ci(6); ci << 3,2,1,0,0,2; Eigen::MatrixXi B = mat_indexing(A, ri, ci); std::cout << "A =" << std::endl; std::cout << A << std::endl << std::endl; std::cout << "A([" << ri.transpose() << "], [" << ci.transpose() << "]) =" << std::endl; std::cout << B << std::endl; std::cout << "[main1]\n"; std::cout << "[main2]\n"; B = mat_indexing(A, ri+1, ci); std::cout << "A(ri+1,ci) =" << std::endl; std::cout << B << std::endl << std::endl; #if EIGEN_COMP_CXXVER >= 11 B = mat_indexing(A, ArrayXi::LinSpaced(13,0,12).unaryExpr([](int x){return x%4;}), ArrayXi::LinSpaced(4,0,3)); std::cout << "A(ArrayXi::LinSpaced(13,0,12).unaryExpr([](int x){return x%4;}), ArrayXi::LinSpaced(4,0,3)) =" << std::endl; std::cout << B << std::endl << std::endl; #endif std::cout << "[main2]\n"; }