From 938fef4a37a7b7c61b4b6ff74cb4cfd2f100c427 Mon Sep 17 00:00:00 2001 From: Georgey Date: Wed, 5 Jul 2017 11:40:43 +0530 Subject: Added linux shared libraries and header files for int and ecos functions --- thirdparty/linux/include/coin1/IpSymTMatrix.hpp | 253 ++++++++++++++++++++++++ 1 file changed, 253 insertions(+) create mode 100644 thirdparty/linux/include/coin1/IpSymTMatrix.hpp (limited to 'thirdparty/linux/include/coin1/IpSymTMatrix.hpp') diff --git a/thirdparty/linux/include/coin1/IpSymTMatrix.hpp b/thirdparty/linux/include/coin1/IpSymTMatrix.hpp new file mode 100644 index 0000000..ead2d85 --- /dev/null +++ b/thirdparty/linux/include/coin1/IpSymTMatrix.hpp @@ -0,0 +1,253 @@ +// Copyright (C) 2004, 2006 International Business Machines and others. +// All Rights Reserved. +// This code is published under the Eclipse Public License. +// +// $Id: IpSymTMatrix.hpp 2269 2013-05-05 11:32:40Z stefan $ +// +// Authors: Carl Laird, Andreas Waechter IBM 2004-08-13 + +#ifndef __IPSYMTMATRIX_HPP__ +#define __IPSYMTMATRIX_HPP__ + +#include "IpUtils.hpp" +#include "IpSymMatrix.hpp" + +namespace Ipopt +{ + + /* forward declarations */ + class SymTMatrixSpace; + + /** Class for symmetric matrices stored in triplet format. In the + * triplet format, the nonzeros elements of a symmetric matrix is + * stored in three arrays, Irn, Jcn, and Values, all of length + * Nonzeros. The first two arrays indicate the location of a + * non-zero element (as the row and column indices), and the last + * array stores the value at that location. Off-diagonal elements + * need to be stored only once since the matrix is symmetric. For + * example, the element \f$a_{1,2}=a_{2,1}\f$ would be stored only + * once, either with Irn[i]=1 and Jcn[i]=2, or with Irn[i]=2 and + * Jcn[i]=1. Both representations are identical. If nonzero + * elements (or their symmetric counter part) are listed more than + * once, their values are added. + * + * The structure of the nonzeros (i.e. the arrays Irn and Jcn) + * cannot be changed after the matrix can been initialized. Only + * the values of the nonzero elements can be modified. + * + * Note that the first row and column of a matrix has index 1, not + * 0. + * + */ + class SymTMatrix : public SymMatrix + { + public: + + /**@name Constructors / Destructors */ + //@{ + + /** Constructor, taking the corresponding matrix space. + */ + SymTMatrix(const SymTMatrixSpace* owner_space); + + /** Destructor */ + ~SymTMatrix(); + //@} + + /**@name Changing the Values.*/ + //@{ + /** Set values of nonzero elements. The values of the nonzero + * elements is copied from the incoming Number array. Important: + * It is assume that the order of the values in Values + * corresponds to the one of Irn and Jcn given to the matrix + * space. */ + void SetValues(const Number* Values); + //@} + + /** @name Accessor Methods */ + //@{ + /** Number of nonzero entries */ + Index Nonzeros() const; + + /** Obtain pointer to the internal Index array irn_ without the + * intention to change the matrix data (USE WITH CARE!). This + * does not produce a copy, and lifetime is not guaranteed! + */ + const Index* Irows() const; + + /** Obtain pointer to the internal Index array jcn_ without the + * intention to change the matrix data (USE WITH CARE!). This + * does not produce a copy, and lifetime is not guaranteed! + */ + const Index* Jcols() const; + + /** Obtain pointer to the internal Number array values_ with the + * intention to change the matrix data (USE WITH CARE!). This + * does not produce a copy, and lifetime is not guaranteed! + */ + Number* Values(); + /** Obtain pointer to the internal Number array values_ without the + * intention to change the matrix data (USE WITH CARE!). This + * does not produce a copy, and lifetime is not guaranteed! + */ + const Number* Values() const; + //@} + + /**@name Methods for providing copy of the matrix data */ + //@{ + /** Copy the nonzero structure into provided space */ + void FillStruct(ipfint* Irn, ipfint* Jcn) const; + + /** Copy the value data into provided space */ + void FillValues(Number* Values) const; + //@} + + protected: + /**@name Methods overloaded from matrix */ + //@{ + virtual void MultVectorImpl(Number alpha, const Vector& x, Number beta, + Vector& y) const; + + /** Method for determining if all stored numbers are valid (i.e., + * no Inf or Nan). */ + virtual bool HasValidNumbersImpl() const; + + virtual void ComputeRowAMaxImpl(Vector& rows_norms, bool init) const; + + virtual void PrintImpl(const Journalist& jnlst, + EJournalLevel level, + EJournalCategory category, + const std::string& name, + Index indent, + const std::string& prefix) const; + //@} + + private: + /**@name Default Compiler Generated Methods + * (Hidden to avoid implicit creation/calling). + * These methods are not implemented and + * we do not want the compiler to implement + * them for us, so we declare them private + * and do not define them. This ensures that + * they will not be implicitly created/called. */ + //@{ + /** Default Constructor */ + SymTMatrix(); + + /** Copy Constructor */ + SymTMatrix(const SymTMatrix&); + + /** Overloaded Equals Operator */ + void operator=(const SymTMatrix&); + //@} + + /** Copy of the owner_space ptr as a SymTMatrixSpace insteaqd + * of a MatrixSpace + */ + const SymTMatrixSpace* owner_space_; + + /** Values of nonzeros */ + Number* values_; + + /** Flag for Initialization */ + bool initialized_; + + }; + + /** This is the matrix space for a SymTMatrix with fixed sparsity + * structure. The sparsity structure is stored here in the matrix + * space. + */ + class SymTMatrixSpace : public SymMatrixSpace + { + public: + /** @name Constructors / Destructors */ + //@{ + /** Constructor, given the number of rows and columns (both as + * dim), as well as the number of nonzeros and the position of + * the nonzero elements. Note that the counting of the nonzeros + * starts a 1, i.e., iRows[i]==1 and jCols[i]==1 refers to the + * first element in the first row. This is in accordance with + * the HSL data structure. Off-diagonal elements are stored only + * once. + */ + SymTMatrixSpace(Index dim, Index nonZeros, const Index* iRows, + const Index* jCols); + + /** Destructor */ + ~SymTMatrixSpace(); + //@} + + /** Overloaded MakeNew method for the sYMMatrixSpace base class. + */ + virtual SymMatrix* MakeNewSymMatrix() const + { + return MakeNewSymTMatrix(); + } + + /** Method for creating a new matrix of this specific type. */ + SymTMatrix* MakeNewSymTMatrix() const + { + return new SymTMatrix(this); + } + + /**@name Methods describing Matrix structure */ + //@{ + /** Number of non-zeros in the sparse matrix */ + Index Nonzeros() const + { + return nonZeros_; + } + + /** Row index of each non-zero element */ + const Index* Irows() const + { + return iRows_; + } + + /** Column index of each non-zero element */ + const Index* Jcols() const + { + return jCols_; + } + //@} + + private: + /**@name Methods called by SymTMatrix for memory management */ + //@{ + /** Allocate internal storage for the SymTMatrix values */ + Number* AllocateInternalStorage() const; + + /** Deallocate internal storage for the SymTMatrix values */ + void FreeInternalStorage(Number* values) const; + //@} + + const Index nonZeros_; + Index* iRows_; + Index* jCols_; + + friend class SymTMatrix; + }; + + /* Inline Methods */ + inline + Index SymTMatrix::Nonzeros() const + { + return owner_space_->Nonzeros(); + } + + inline + const Index* SymTMatrix::Irows() const + { + return owner_space_->Irows(); + } + + inline + const Index* SymTMatrix::Jcols() const + { + return owner_space_->Jcols(); + } + + +} // namespace Ipopt +#endif -- cgit