/* * Project: MoleCuilder * Description: creates and alters molecular systems * Copyright (C) 2010-2012 University of Bonn. All rights reserved. * * * This file is part of MoleCuilder. * * MoleCuilder is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * MoleCuilder is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with MoleCuilder. If not, see . */ /* * BondsPerShortestPath.cpp * * Created on: Oct 18, 2011 * Author: heber */ // include config.h #ifdef HAVE_CONFIG_H #include #endif #include "CodePatterns/MemDebug.hpp" #include "BondsPerShortestPath.hpp" #include #include "CodePatterns/Log.hpp" #include "Atom/atom.hpp" #include "Bond/bond.hpp" #include "Element/element.hpp" #include "Fragmentation/KeySet.hpp" BondsPerShortestPath::BondsPerShortestPath(int _Order) : Order(_Order) { InitialiseSPList(); } BondsPerShortestPath::~BondsPerShortestPath() { // free Order-dependent entries of UniqueFragments structure for next loop cycle FreeSPList(); } /** Allocates memory for BondsPerShortestPath::BondsPerSPList. * \sa BondsPerShortestPath::FreeSPList() */ void BondsPerShortestPath::InitialiseSPList() { BondsPerSPList.resize(Order); BondsPerSPCount = new int[Order]; for (int i=Order;i--;) { BondsPerSPCount[i] = 0; } }; /** Free's memory for for BondsPerShortestPath::BondsPerSPList. * \sa BondsPerShortestPath::InitialiseSPList() */ void BondsPerShortestPath::FreeSPList() { delete[](BondsPerSPCount); }; /** Sets FragmenSearch to initial value. * Sets BondsPerShortestPath::ShortestPathList entries to zero, BondsPerShortestPath::BondsPerSPCount to zero (except zero level to 1) and * adds initial bond BondsPerShortestPath::Root to BondsPerShortestPath::Root to BondsPerShortestPath::BondsPerSPList * \param *_Root root node, self loop becomes first bond * \sa BondsPerShortestPath::FreeSPList() */ void BondsPerShortestPath::SetSPList(atom *_Root) { // prepare root level (SP = 0) and a loop bond denoting Root for (int i=Order;i--;) BondsPerSPCount[i] = 0; BondsPerSPCount[0] = 1; bond *Binder = new bond(_Root, _Root); BondsPerSPList[0].push_back(Binder); }; /** Resets BondsPerShortestPath::ShortestPathList and cleans bonds from BondsPerShortestPath::BondsPerSPList. * \sa BondsPerShortestPath::InitialiseSPList() */ void BondsPerShortestPath::ResetSPList() { LOG(0, "Free'ing all found lists. and resetting index lists"); std::stringstream output; for(int i=Order;i--;) { output << "Current SP level is " << i << ": "; // delete added bonds for (BondsPerSP::iterator iter = BondsPerSPList[i].begin(); iter != BondsPerSPList[i].end(); ++iter) { delete(*iter); } BondsPerSPList[i].clear(); // also start and end node output << "cleaned."; } LOG(1, output.str()); }; /** Fills the Bonds per Shortest Path List and set the vertex labels. * \param _RootKeyNr index of root node * \param RestrictedKeySet Restricted vertex set to use in context of molecule * \param saturation this tells whether to treat hydrogen special or not. */ void BondsPerShortestPath::FillSPListandLabelVertices(int _RootKeyNr, KeySet &RestrictedKeySet, const enum HydrogenSaturation saturation) { // Actually, we should construct a spanning tree vom the root atom and select all edges therefrom and put them into // according shortest path lists. However, we don't. Rather we fill these lists right away, as they do form a spanning // tree already sorted into various SP levels. That's why we just do loops over the depth (CurrentSP) and breadth // (EdgeinSPLevel) of this tree ... // In another picture, the bonds always contain a direction by rightatom being the one more distant from root and hence // naturally leftatom forming its predecessor, preventing the BFS"seeker" from continuing in the wrong direction. int AtomKeyNr = -1; atom *Walker = NULL; atom *OtherWalker = NULL; atom *Predecessor = NULL; bond *Binder = NULL; int RootKeyNr = _RootKeyNr; int RemainingWalkers = -1; int SP = -1; LOG(0, "Starting BFS analysis ..."); for (SP = 0; SP < (Order-1); SP++) { { std::stringstream output; output << "New SP level reached: " << SP << ", creating new SP list with " << BondsPerSPCount[SP] << " item(s)"; if (SP > 0) { output << ", old level closed with " << BondsPerSPCount[SP-1] << " item(s)."; BondsPerSPCount[SP] = 0; } else output << "."; LOG(1, output.str()); } RemainingWalkers = BondsPerSPCount[SP]; for (BondsPerSP::const_iterator CurrentEdge = BondsPerSPList[SP].begin(); CurrentEdge != BondsPerSPList[SP].end(); ++CurrentEdge) { /// start till end of this SP level's list RemainingWalkers--; Walker = (*CurrentEdge)->rightatom; // rightatom is always the one more distant Predecessor = (*CurrentEdge)->leftatom; // ... and leftatom is predecessor AtomKeyNr = Walker->getNr(); LOG(0, "Current Walker is: " << *Walker << " with nr " << Walker->getNr() << " and SP of " << SP << ", with " << RemainingWalkers << " remaining walkers on this level."); // check for new sp level // go through all its bonds LOG(1, "Going through all bonds of Walker."); const BondList& ListOfBonds = Walker->getListOfBonds(); for (BondList::const_iterator Runner = ListOfBonds.begin(); Runner != ListOfBonds.end(); ++Runner) { OtherWalker = (*Runner)->GetOtherAtom(Walker); if ((RestrictedKeySet.find(OtherWalker->getNr()) != RestrictedKeySet.end()) // skip hydrogens if desired and restrict to fragment && ((saturation == DontSaturate) || (OtherWalker->getType()->getAtomicNumber() != 1))) { LOG(2, "Current partner is " << *OtherWalker << " with nr " << OtherWalker->getNr() << " in bond " << *(*Runner) << "."); // set the label if not set (and push on root stack as well) if ((OtherWalker != Predecessor) && (OtherWalker->GetTrueFather()->getNr() > RootKeyNr)) { // only pass through those with label bigger than Root's // add the bond in between to the SP list Binder = new bond(Walker, OtherWalker); // create a new bond in such a manner, that bond::rightatom is always the one more distant BondsPerSPList[SP+1].push_back(Binder); BondsPerSPCount[SP+1]++; LOG(3, "Added its bond to SP list, having now " << BondsPerSPCount[SP+1] << " item(s)."); } else { if (OtherWalker != Predecessor) LOG(3, "Not passing on, as index of " << *OtherWalker << " " << OtherWalker->GetTrueFather()->getNr() << " is smaller than that of Root " << RootKeyNr << "."); else LOG(3, "This is my predecessor " << *Predecessor << "."); } } else LOG(2, "Is not in the restricted keyset or skipping hydrogen " << *OtherWalker << "."); } } } }; /** prints the Bonds per Shortest Path list in BondsPerShortestPath. */ void BondsPerShortestPath::OutputSPList() { LOG(0, "Printing all found lists."); for(int i=1;i Root edge must be subtracted! for(int i=Order;i--;) { // sum up all found edges for (BondsPerShortestPath::BondsPerSP::const_iterator Binder = BondsPerSPList[i].begin(); Binder != BondsPerSPList[i].end(); ++Binder) { SP++; } } return SP; }; /** Getter for BondsPerShortestPath::Order. * * @return returns BondsPerShortestPath::Order */ int BondsPerShortestPath::getOrder() const { return Order; }