// This file is part of Eigen, a lightweight C++ template library // for linear algebra. // // Copyright (C) 2017 Gael Guennebaud // // This Source Code Form is subject to the terms of the Mozilla // Public License v. 2.0. If a copy of the MPL was not distributed // with this file, You can obtain one at http://mozilla.org/MPL/2.0/. #ifndef EIGEN_INDEXED_VIEW_HELPER_H #define EIGEN_INDEXED_VIEW_HELPER_H namespace Eigen { namespace internal { struct symbolic_last_tag {}; } /** \var last * \ingroup Core_Module * * Can be used as a parameter to Eigen::seq and Eigen::seqN functions to symbolically reference the last element/row/columns * of the underlying vector or matrix once passed to DenseBase::operator()(const RowIndices&, const ColIndices&). * * This symbolic placeholder supports standard arithmetic operations. * * A typical usage example would be: * \code * using namespace Eigen; * using Eigen::last; * VectorXd v(n); * v(seq(2,last-2)).setOnes(); * \endcode * * \sa end */ static const symbolic::SymbolExpr last; // PLEASE use Eigen::last instead of Eigen::placeholders::last /** \var lastp1 * \ingroup Core_Module * * Can be used as a parameter to Eigen::seq and Eigen::seqN functions to symbolically * reference the last+1 element/row/columns of the underlying vector or matrix once * passed to DenseBase::operator()(const RowIndices&, const ColIndices&). * * This symbolic placeholder supports standard arithmetic operations. * It is essentially an alias to last+fix<1>. * * \sa last */ #ifdef EIGEN_PARSED_BY_DOXYGEN static const auto lastp1 = last+fix<1>; #else // Using a FixedExpr<1> expression is important here to make sure the compiler // can fully optimize the computation starting indices with zero overhead. static const symbolic::AddExpr,symbolic::ValueExpr > > lastp1(last+fix<1>()); #endif namespace internal { // Replace symbolic last/end "keywords" by their true runtime value inline Index eval_expr_given_size(Index x, Index /* size */) { return x; } template FixedInt eval_expr_given_size(FixedInt x, Index /*size*/) { return x; } template Index eval_expr_given_size(const symbolic::BaseExpr &x, Index size) { return x.derived().eval(last=size-1); } // Extract increment/step at compile time template struct get_compile_time_incr { enum { value = UndefinedIncr }; }; // Analogue of std::get<0>(x), but tailored for our needs. template EIGEN_CONSTEXPR Index first(const T& x) EIGEN_NOEXCEPT { return x.first(); } // IndexedViewCompatibleType/makeIndexedViewCompatible turn an arbitrary object of type T into something usable by MatrixSlice // The generic implementation is a no-op template struct IndexedViewCompatibleType { typedef T type; }; template const T& makeIndexedViewCompatible(const T& x, Index /*size*/, Q) { return x; } //-------------------------------------------------------------------------------- // Handling of a single Index //-------------------------------------------------------------------------------- struct SingleRange { enum { SizeAtCompileTime = 1 }; SingleRange(Index val) : m_value(val) {} Index operator[](Index) const { return m_value; } static EIGEN_CONSTEXPR Index size() EIGEN_NOEXCEPT { return 1; } Index first() const EIGEN_NOEXCEPT { return m_value; } Index m_value; }; template<> struct get_compile_time_incr { enum { value = 1 }; // 1 or 0 ?? }; // Turn a single index into something that looks like an array (i.e., that exposes a .size(), and operator[](int) methods) template struct IndexedViewCompatibleType::value>::type> { // Here we could simply use Array, but maybe it's less work for the compiler to use // a simpler wrapper as SingleRange //typedef Eigen::Array type; typedef SingleRange type; }; template struct IndexedViewCompatibleType::value>::type> { typedef SingleRange type; }; template typename enable_if::value,SingleRange>::type makeIndexedViewCompatible(const T& id, Index size, SpecializedType) { return eval_expr_given_size(id,size); } //-------------------------------------------------------------------------------- // Handling of all //-------------------------------------------------------------------------------- struct all_t { all_t() {} }; // Convert a symbolic 'all' into a usable range type template struct AllRange { enum { SizeAtCompileTime = XprSize }; AllRange(Index size = XprSize) : m_size(size) {} EIGEN_CONSTEXPR Index operator[](Index i) const EIGEN_NOEXCEPT { return i; } EIGEN_CONSTEXPR Index size() const EIGEN_NOEXCEPT { return m_size.value(); } EIGEN_CONSTEXPR Index first() const EIGEN_NOEXCEPT { return 0; } variable_if_dynamic m_size; }; template struct IndexedViewCompatibleType { typedef AllRange type; }; template inline AllRange::value> makeIndexedViewCompatible(all_t , XprSizeType size, SpecializedType) { return AllRange::value>(size); } template struct get_compile_time_incr > { enum { value = 1 }; }; } // end namespace internal /** \var all * \ingroup Core_Module * Can be used as a parameter to DenseBase::operator()(const RowIndices&, const ColIndices&) to index all rows or columns */ static const Eigen::internal::all_t all; // PLEASE use Eigen::all instead of Eigen::placeholders::all namespace placeholders { typedef symbolic::SymbolExpr last_t; typedef symbolic::AddExpr,symbolic::ValueExpr > > end_t; typedef Eigen::internal::all_t all_t; EIGEN_DEPRECATED static const all_t all = Eigen::all; // PLEASE use Eigen::all instead of Eigen::placeholders::all EIGEN_DEPRECATED static const last_t last = Eigen::last; // PLEASE use Eigen::last instead of Eigen::placeholders::last EIGEN_DEPRECATED static const end_t end = Eigen::lastp1; // PLEASE use Eigen::lastp1 instead of Eigen::placeholders::end } } // end namespace Eigen #endif // EIGEN_INDEXED_VIEW_HELPER_H