/*************************************************************************** copyright : (C) 2005 by Inge Wallin email : inge@lysator.liu.se ***************************************************************************/ /*************************************************************************** * * * This program 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. * * * ***************************************************************************/ #include #include #include "kalziumdataobject.h" #include "moleculeparser.h" // ================================================================ // class ElementCountMap ElementCountMap::ElementCountMap() { m_map.clear(); } ElementCountMap::~ElementCountMap() { } ElementCount * ElementCountMap::search(Element *_element) { TQValueList::ConstIterator it = m_map.constBegin(); const TQValueList::ConstIterator itEnd = m_map.constEnd(); for (; it != itEnd; ++it) { if ((*it)->element() == _element) return *it; } return 0; } void ElementCountMap::add(ElementCountMap &_map) { TQValueList::ConstIterator it = _map.m_map.constBegin(); const TQValueList::ConstIterator itEnd = _map.m_map.constEnd(); // Step throught _map and for each element, add it to the current one. for (; it != itEnd; ++it) { add((*it)->m_element, (*it)->m_count); } } void ElementCountMap::add(Element *_element, int _count) { ElementCount *elemCount; elemCount = search(_element); if (elemCount) elemCount->m_count += _count; else m_map.append(new ElementCount(_element, _count)); } void ElementCountMap::multiply(int _factor) { Iterator it = begin(); Iterator itEnd = end(); for (; it != itEnd; ++it) (*it)->multiply(_factor); } // ================================================================ // class MoleculeParser MoleculeParser::MoleculeParser() : Parser() { } MoleculeParser::MoleculeParser(const TQString& _str) : Parser(_str) { } MoleculeParser::~MoleculeParser() { //Parser::~Parser(); } // ---------------------------------------------------------------- // public methods // Try to parse the molecule and get the weight of it. // // This method also acts as the main loop. bool MoleculeParser::weight(TQString _moleculeString, double *_resultMass, ElementCountMap *_resultMap) { // Clear the result variables and set m_error to false _resultMap->clear(); m_error = false; *_resultMass = 0.0; // Initialize the parsing process, and parse te molecule. start(_moleculeString); parseSubmolecule(_resultMass, _resultMap); if (nextToken() != -1) return false; if ( m_error )//there was an error in the input... return false; return true; } // ---------------------------------------------------------------- // helper methods for the public methods // Parse a submolecule. This is a list of terms. // bool MoleculeParser::parseSubmolecule(double *_resultMass, ElementCountMap *_resultMap) { double subMass = 0.0; ElementCountMap subMap; *_resultMass = 0.0; _resultMap->clear(); while (parseTerm(&subMass, &subMap)) { //kdDebug() << "Parsed a term, weight = " << subresult << endl; // Add the mass and composition of the submolecule to the total. *_resultMass += subMass; _resultMap->add(subMap); } return true; } // Parse a term within the molecule, i.e. a single atom or a // submolecule within parenthesis followed by an optional number. // Examples: Bk, Mn2, (COOH)2 // // Return true if correct, otherwise return false. // If correct, the mass of the term is returned in *_resultMass, and // the flattened composition of the molecule in *_resultMap. // bool MoleculeParser::parseTerm(double *_resultMass, ElementCountMap *_resultMap) { *_resultMass = 0.0; _resultMap->clear(); #if 0 kdDebug() << "parseTerm(): Next token = " << nextToken() << endl; #endif if (nextToken() == ELEMENT_TOKEN) { //kdDebug() << "Parsed an element: " << m_elementVal->symbol() << endl; *_resultMass = m_elementVal->mass(); _resultMap->add(m_elementVal, 1); getNextToken(); } else if (nextToken() == '(') { // A submolecule. getNextToken(); parseSubmolecule(_resultMass, _resultMap); // Must end in a ")". if (nextToken() == ')') { //kdDebug() << "Parsed a submolecule. weight = " << *_result << endl; getNextToken(); } else return false; } else // Neither an element nor a list within (). return false; // Optional number. if (nextToken() == INT_TOKEN) { //kdDebug() << "Parsed a number: " << intVal() << endl; *_resultMass *= intVal(); _resultMap->multiply(intVal()); getNextToken(); } kdDebug() << "Weight of term = " << *_resultMass << endl; return true; } // ---------------------------------------------------------------- // protected methods // Extend Parser::getNextToken with elements. int MoleculeParser::getNextToken() { TQString elementName; #if 0 kdDebug() << "getNextToken(): Next character = " << nextChar() << endl; #endif // Check if the token is an element name. if ('A' <= nextChar() && nextChar() <= 'Z') { elementName = char(nextChar()); getNextChar(); if ('a' <= nextChar() && nextChar() <= 'z') { elementName.append(char(nextChar())); getNextChar(); } // Look up the element from the name.. m_elementVal = lookupElement(elementName); if (m_elementVal) { m_nextToken = ELEMENT_TOKEN; } else m_nextToken = -1; } else return Parser::getNextToken(); return m_nextToken; } // ---------------------------------------------------------------- // private methods Element * MoleculeParser::lookupElement( const TQString& _name ) { EList elementList = KalziumDataObject::instance()->ElementList; //kdDebug() << "looking up " << _name << endl; EList::ConstIterator it = elementList.constBegin(); const EList::ConstIterator end = elementList.constEnd(); for (; it != end; ++it) { if ( (*it)->symbol() == _name ) { kdDebug() << "Found element " << _name << endl; return *it; } } //if there is an error make m_error true. m_error = true; kdDebug() << k_funcinfo << "no such element, parsing error!: " << _name << endl; return NULL; }