From 4b64cf486f5c999fd8167758cae27839f3b50848 Mon Sep 17 00:00:00 2001 From: Harpreet Date: Sat, 3 Sep 2016 00:34:27 +0530 Subject: Structure updated and intqpipopt files added --- .../thirdparty/linux/include/coin/CbcTree.hpp | 490 +++++++++++++++++++++ 1 file changed, 490 insertions(+) create mode 100644 newstructure/thirdparty/linux/include/coin/CbcTree.hpp (limited to 'newstructure/thirdparty/linux/include/coin/CbcTree.hpp') diff --git a/newstructure/thirdparty/linux/include/coin/CbcTree.hpp b/newstructure/thirdparty/linux/include/coin/CbcTree.hpp new file mode 100644 index 0000000..92ea2bf --- /dev/null +++ b/newstructure/thirdparty/linux/include/coin/CbcTree.hpp @@ -0,0 +1,490 @@ +/* $Id: CbcTree.hpp 1943 2013-07-21 09:05:45Z forrest $ */ +// Copyright (C) 2004, International Business Machines +// Corporation and others. All Rights Reserved. +// This code is licensed under the terms of the Eclipse Public License (EPL). + +#ifndef CbcTree_H +#define CbcTree_H + +#include +#include +#include + +#include "CoinHelperFunctions.hpp" +#include "CbcCompare.hpp" + +/*! \brief Using MS heap implementation + + It's unclear if this is needed any longer, or even if it should be allowed. + Cbc occasionally tries to do things to the tree (typically tweaking the + comparison predicate) that can cause a violation of the heap property (parent better + than either child). In a debug build, Microsoft's heap implementation does checks that + detect this and fail. This symbol switched to an alternate implementation of CbcTree, + and there are clearly differences, but no explanation as to why or what for. + + As of 100921, the code is cleaned up to make it through `cbc -unitTest' without + triggering `Invalid heap' in an MSVS debug build. The method validateHeap() can + be used for debugging if this turns up again. +*/ +//#define CBC_DUBIOUS_HEAP +#if defined(_MSC_VER) || defined(__MNO_CYGWIN) +//#define CBC_DUBIOUS_HEAP +#endif +#if 1 //ndef CBC_DUBIOUS_HEAP + +/*! \brief Controls search tree debugging + + In order to have validateHeap() available, set CBC_DEBUG_HEAP + to 1 or higher. + + - 1 calls validateHeap() after each change to the heap + - 2 will print a line for major operations (clean, set comparison, etc.) + - 3 will print information about each push and pop + +#define CBC_DEBUG_HEAP 1 +*/ + + +/*! \class CbcTree + \brief Implementation of the live set as a heap. + + This class is used to hold the set of live nodes in the search tree. +*/ +class CbcTree { + +public: + /*! \name Constructors and related */ +//@{ + /// Default Constructor + CbcTree (); + + /// Copy constructor + CbcTree (const CbcTree &rhs); + + /// = operator + CbcTree & operator=(const CbcTree &rhs); + + /// Destructor + virtual ~CbcTree(); + + /// Clone + virtual CbcTree * clone() const; + + /// Create C++ lines to get to current state + virtual void generateCpp(FILE *) {} +//@} + + /*! \name Heap access and maintenance methods */ +//@{ + /// Set comparison function and resort heap + void setComparison(CbcCompareBase &compare); + + /// Return the top node of the heap + virtual CbcNode * top() const; + + /// Add a node to the heap + virtual void push(CbcNode *x); + + /// Remove the top node from the heap + virtual void pop() ; + + /*! \brief Gets best node and takes off heap + + Before returning the node from the top of the heap, the node + is offered an opportunity to reevaluate itself. Callers should + be prepared to check that the node returned is suitable for use. + */ + virtual CbcNode * bestNode(double cutoff); + + /*! \brief Rebuild the heap */ + virtual void rebuild() ; +//@} + + /*! \name Direct node access methods */ +//@{ + /// Test for an empty tree + virtual bool empty() ; + + /// Return size + virtual int size() const { return static_cast(nodes_.size()); } + + /// Return a node pointer + inline CbcNode * operator [] (int i) const { return nodes_[i]; } + + /// Return a node pointer + inline CbcNode * nodePointer (int i) const { return nodes_[i]; } + void realpop(); + /** After changing data in the top node, fix the heap */ + void fixTop(); + void realpush(CbcNode * node); +//@} + + /*! \name Search tree maintenance */ +//@{ + /*! \brief Prune the tree using an objective function cutoff + + This routine removes all nodes with objective worse than the + specified cutoff value. It also sets bestPossibleObjective to + the best objective over remaining nodes. + */ + virtual void cleanTree(CbcModel * model, double cutoff, double & bestPossibleObjective); + + /// Get best on list using alternate method + CbcNode * bestAlternate(); + + /// We may have got an intelligent tree so give it one more chance + virtual void endSearch() {} + + /// Get best possible objective function in the tree + virtual double getBestPossibleObjective(); + + /// Reset maximum node number + inline void resetNodeNumbers() { maximumNodeNumber_ = 0; } + + /// Get maximum node number + inline int maximumNodeNumber() const { return maximumNodeNumber_; } + + /// Set number of branches + inline void setNumberBranching(int value) { numberBranching_ = value; } + + /// Get number of branches + inline int getNumberBranching() const { return numberBranching_; } + + /// Set maximum branches + inline void setMaximumBranching(int value) { maximumBranching_ = value; } + + /// Get maximum branches + inline int getMaximumBranching() const { return maximumBranching_; } + + /// Get branched variables + inline unsigned int * branched() const { return branched_; } + + /// Get bounds + inline int * newBounds() const { return newBound_; } + + /// Last objective in branch-and-cut search tree + inline double lastObjective() const { + return lastObjective_; + } + /// Last depth in branch-and-cut search tree + inline int lastDepth() const { + return lastDepth_; + } + /// Last number of objects unsatisfied + inline int lastUnsatisfied() const { + return lastUnsatisfied_; + } + /// Adds branching information to complete state + void addBranchingInformation(const CbcModel * model, const CbcNodeInfo * nodeInfo, + const double * currentLower, + const double * currentUpper); + /// Increase space for data + void increaseSpace(); +//@} + +# if CBC_DEBUG_HEAP > 0 + /*! \name Debugging methods */ + //@{ + /*! \brief Check that the heap property is satisfied. */ + void validateHeap() ; + //@} +# endif + +protected: + /// Storage vector for the heap + std::vector nodes_; + /// Sort predicate for heap ordering. + CbcCompare comparison_; + /// Maximum "node" number so far to split ties + int maximumNodeNumber_; + /// Size of variable list + int numberBranching_; + /// Maximum size of variable list + int maximumBranching_; + /// Objective of last node pushed on tree + double lastObjective_; + /// Depth of last node pushed on tree + int lastDepth_; + /// Number unsatisfied of last node pushed on tree + int lastUnsatisfied_; + /** Integer variables branched or bounded + top bit set if new upper bound + next bit set if a branch + */ + unsigned int * branched_; + /// New bound + int * newBound_; +}; + +#ifdef JJF_ZERO // not used +/*! \brief Implementation of live set as a managed array. + + This class is used to hold the set of live nodes in the search tree. +*/ +class CbcTreeArray : public CbcTree { + +public: + + // Default Constructor + CbcTreeArray (); + + // Copy constructor + CbcTreeArray ( const CbcTreeArray & rhs); + // = operator + CbcTreeArray & operator=(const CbcTreeArray & rhs); + + virtual ~CbcTreeArray(); + + /// Clone + virtual CbcTree * clone() const; + /// Create C++ lines to get to current state + virtual void generateCpp( FILE * ) {} + + /*! \name Heap access and maintenance methods */ +//@{ + + /// Set comparison function and resort heap + void setComparison(CbcCompareBase &compare); + + /// Add a node to the heap + virtual void push(CbcNode * x); + + /// Gets best node and takes off heap + virtual CbcNode * bestNode(double cutoff); + +//@} + /*! \name vector methods */ +//@{ + + /// Test if empty *** note may be overridden + virtual bool empty() ; + +//@} + + /*! \name Search tree maintenance */ +//@{ + + /*! \brief Prune the tree using an objective function cutoff + + This routine removes all nodes with objective worst than the + specified cutoff value. + It also sets bestPossibleObjective to best + of all on tree before deleting. + */ + + void cleanTree(CbcModel * model, double cutoff, double & bestPossibleObjective); + /// Get best possible objective function in the tree + virtual double getBestPossibleObjective(); +//@} +protected: + /// Returns + /// Last node + CbcNode * lastNode_; + /// Last node popped + CbcNode * lastNodePopped_; + /// Not used yet + int switches_; + +}; + +/// New style +#include "CoinSearchTree.hpp" +/*! \class tree + \brief Implementation of live set as a heap. + + This class is used to hold the set of live nodes in the search tree. +*/ + +class CbcNewTree : public CbcTree, public CoinSearchTreeManager { + +public: + + // Default Constructor + CbcNewTree (); + + // Copy constructor + CbcNewTree ( const CbcNewTree & rhs); + // = operator + CbcNewTree & operator=(const CbcNewTree & rhs); + + virtual ~CbcNewTree(); + + /// Clone + virtual CbcNewTree * clone() const; + /// Create C++ lines to get to current state + virtual void generateCpp( FILE * ) {} + + /*! \name Heap access and maintenance methods */ +//@{ + + /// Set comparison function and resort heap + void setComparison(CbcCompareBase &compare); + + /// Return the top node of the heap + virtual CbcNode * top() const; + + /// Add a node to the heap + virtual void push(CbcNode * x); + + /// Remove the top node from the heap + virtual void pop() ; + /// Gets best node and takes off heap + virtual CbcNode * bestNode(double cutoff); + +//@} + /*! \name vector methods */ +//@{ + + /// Test if empty *** note may be overridden + virtual bool empty() ; + + /// Return size + inline int size() const { + return nodes_.size(); + } + + /// [] operator + inline CbcNode * operator [] (int i) const { + return nodes_[i]; + } + + /// Return a node pointer + inline CbcNode * nodePointer (int i) const { + return nodes_[i]; + } + +//@} + + /*! \name Search tree maintenance */ +//@{ + + /*! \brief Prune the tree using an objective function cutoff + + This routine removes all nodes with objective worst than the + specified cutoff value. + It also sets bestPossibleObjective to best + of all on tree before deleting. + */ + + void cleanTree(CbcModel * model, double cutoff, double & bestPossibleObjective); + + /// Get best on list using alternate method + CbcNode * bestAlternate(); + + /// We may have got an intelligent tree so give it one more chance + virtual void endSearch() {} +//@} +protected: + + +}; +#endif +#else +/* CBC_DUBIOUS_HEAP is defined + + See note at top of file. This code is highly suspect. + -- lh, 100921 -- +*/ +class CbcTree { + +public: + + // Default Constructor + CbcTree (); + + // Copy constructor + CbcTree ( const CbcTree & rhs); + // = operator + CbcTree & operator=(const CbcTree & rhs); + + virtual ~CbcTree(); + + /// Clone + virtual CbcTree * clone() const; + /// Create C++ lines to get to current state + virtual void generateCpp( FILE * fp) {} + + /*! \name Heap access and maintenance methods */ +//@{ + + /// Set comparison function and resort heap + void setComparison(CbcCompareBase &compare); + + /// Return the top node of the heap + virtual CbcNode * top() const; + + /// Add a node to the heap + virtual void push(CbcNode * x); + + /// Remove the top node from the heap + virtual void pop() ; + /// Gets best node and takes off heap + virtual CbcNode * bestNode(double cutoff); + +//@} + /*! \name vector methods */ +//@{ + + /// Test if empty *** note may be overridden + //virtual bool empty() ; + + /// Return size + inline int size() const { + return nodes_.size(); + } + + /// [] operator + inline CbcNode * operator [] (int i) const { + return nodes_[i]; + } + + /// Return a node pointer + inline CbcNode * nodePointer (int i) const { + return nodes_[i]; + } + + virtual bool empty(); + //inline int size() const { return size_; } + void realpop(); + /** After changing data in the top node, fix the heap */ + void fixTop(); + void realpush(CbcNode * node); +//@} + + /*! \name Search tree maintenance */ +//@{ + + /*! \brief Prune the tree using an objective function cutoff + + This routine removes all nodes with objective worst than the + specified cutoff value. + It also sets bestPossibleObjective to best + of all on tree before deleting. + */ + + void cleanTree(CbcModel * model, double cutoff, double & bestPossibleObjective); + + /// Get best on list using alternate method + CbcNode * bestAlternate(); + + /// We may have got an intelligent tree so give it one more chance + virtual void endSearch() {} + /// Reset maximum node number + inline void resetNodeNumbers() { + maximumNodeNumber_ = 0; + } + + /// Get maximum node number + inline int maximumNodeNumber() const { return maximumNodeNumber_; } +//@} +protected: + std::vector nodes_; + CbcCompare comparison_; ///> Sort function for heap ordering. + /// Maximum "node" number so far to split ties + int maximumNodeNumber_; + + +}; +#endif +#endif + -- cgit