1 | /** \file periodentafel.cpp
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2 | *
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3 | * Function implementations for the class periodentafel.
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4 | *
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5 | */
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6 |
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7 | using namespace std;
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8 |
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9 | #include <iomanip>
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10 | #include <fstream>
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11 | #include <cstring>
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12 | #include <cassert>
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13 |
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14 | #include "element.hpp"
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15 | #include "helpers.hpp"
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16 | #include "lists.hpp"
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17 | #include "log.hpp"
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18 | #include "periodentafel.hpp"
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19 | #include "verbose.hpp"
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20 |
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21 | using namespace std;
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22 |
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23 | /************************************* Functions for class periodentafel ***************************/
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24 |
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25 | /** constructor for class periodentafel
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26 | * Initialises start and end of list and resets periodentafel::checkliste to false.
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27 | */
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28 | periodentafel::periodentafel()
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29 | {};
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30 |
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31 | /** destructor for class periodentafel
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32 | * Removes every element and afterwards deletes start and end of list.
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33 | */
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34 | periodentafel::~periodentafel()
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35 | {
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36 | CleanupPeriodtable();
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37 | };
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38 |
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39 | /** Adds element to period table list
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40 | * \param *pointer element to be added
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41 | * \return true - succeeded, false - does not occur
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42 | */
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43 | periodentafel::iterator periodentafel::AddElement(element * const pointer)
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44 | {
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45 | atomicNumber_t Z = pointer->getNumber();
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46 | assert(!elements.count(Z));
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47 | pointer->sort = &pointer->Z;
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48 | if (pointer->getNumber() < 1 && pointer->getNumber() >= MAX_ELEMENTS)
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49 | Log() << Verbose(0) << "Invalid Z number!\n";
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50 | pair<iterator,bool> res = elements.insert(pair<atomicNumber_t,element*>(Z,pointer));
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51 | return res.first;
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52 | };
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53 |
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54 | /** Removes element from list.
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55 | * \param *pointer element to be removed
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56 | * \return true - succeeded, false - element not found
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57 | */
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58 | void periodentafel::RemoveElement(element * const pointer)
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59 | {
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60 | atomicNumber_t Z = pointer->getNumber();
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61 | elements.erase(Z);
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62 | };
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63 |
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64 | /** Removes every element from the period table.
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65 | * \return true - succeeded, false - does not occur
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66 | */
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67 | void periodentafel::CleanupPeriodtable()
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68 | {
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69 | for(iterator iter=elements.begin();iter!=elements.end();++iter){
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70 | delete(*iter).second;
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71 | }
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72 | elements.clear();
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73 | };
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74 |
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75 | /** Finds an element by its atomic number.
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76 | * If element is not yet in list, returns NULL.
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77 | * \param Z atomic number
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78 | * \return pointer to element or NULL if not found
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79 | */
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80 | const element * periodentafel::FindElement(atomicNumber_t Z) const
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81 | {
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82 | const_iterator res = elements.find(Z);
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83 | return res!=elements.end()?((*res).second):0;
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84 | };
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85 |
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86 | /** Finds an element by its atomic number.
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87 | * If element is not yet in list, datas are asked and stored in database.
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88 | * \param shorthand chemical symbol of the element, e.g. H for hydrogene
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89 | * \return pointer to element
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90 | */
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91 | const element * periodentafel::FindElement(const char * const shorthand) const
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92 | {
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93 | element *res = 0;
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94 | for(const_iterator iter=elements.begin();iter!=elements.end();++iter) {
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95 | if((*iter).second->getSymbol() == shorthand){
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96 | res = (*iter).second;
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97 | break;
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98 | }
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99 | }
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100 | return res;
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101 | };
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102 |
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103 | /** Asks for element number and returns pointer to element
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104 | */
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105 | const element * periodentafel::AskElement() const
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106 | {
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107 | const element *walker = NULL;
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108 | int Z;
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109 | do {
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110 | Log() << Verbose(0) << "Atomic number Z: ";
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111 | cin >> Z;
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112 | walker = this->FindElement(Z); // give type
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113 | } while (walker == NULL);
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114 | return walker;
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115 | };
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116 |
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117 | /** Asks for element and if not found, presents mask to enter info.
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118 | * \return pointer to either present or newly created element
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119 | */
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120 | const element * periodentafel::EnterElement()
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121 | {
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122 | const element *res = NULL;
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123 | atomicNumber_t Z = 0;
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124 | Log() << Verbose(0) << "Atomic number: " << Z << endl;
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125 | cin >> Z;
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126 | res = FindElement(Z);
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127 | if (!res) {
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128 | // TODO: make this using the constructor
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129 | element *tmp;
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130 | Log() << Verbose(0) << "Element not found in database, please enter." << endl;
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131 | tmp = new element;
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132 | tmp->Z = Z;
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133 | Log() << Verbose(0) << "Mass: " << endl;
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134 | cin >> tmp->mass;
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135 | Log() << Verbose(0) << "Name [max 64 chars]: " << endl;
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136 | cin >> tmp->name;
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137 | Log() << Verbose(0) << "Short form [max 3 chars]: " << endl;
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138 | cin >> tmp->symbol;
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139 | AddElement(tmp);
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140 | res = tmp;
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141 | }
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142 | return res;
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143 | };
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144 |
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145 |
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146 | /******************** Access to iterators ****************************/
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147 | periodentafel::const_iterator periodentafel::begin(){
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148 | return elements.begin();
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149 | }
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150 |
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151 | periodentafel::const_iterator periodentafel::end(){
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152 | return elements.end();
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153 | }
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154 |
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155 | periodentafel::reverse_iterator periodentafel::rbegin(){
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156 | return reverse_iterator(elements.end());
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157 | }
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158 |
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159 | periodentafel::reverse_iterator periodentafel::rend(){
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160 | return reverse_iterator(elements.begin());
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161 | }
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162 |
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163 | /** Prints period table to given stream.
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164 | * \param output stream
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165 | */
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166 | bool periodentafel::Output(ostream * const output) const
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167 | {
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168 | bool result = true;
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169 | if (output != NULL) {
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170 | for(const_iterator iter=elements.begin(); iter !=elements.end();++iter){
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171 | result = result && (*iter).second->Output(output);
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172 | }
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173 | return result;
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174 | } else
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175 | return false;
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176 | };
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177 |
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178 | /** Prints period table to given stream.
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179 | * \param *output output stream
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180 | * \param *checkliste elements table for this molecule
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181 | */
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182 | bool periodentafel::Checkout(ostream * const output, const int * const checkliste) const
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183 | {
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184 | bool result = true;
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185 | int No = 1;
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186 |
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187 | if (output != NULL) {
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188 | *output << "# Ion type data (PP = PseudoPotential, Z = atomic number)" << endl;
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189 | *output << "#Ion_TypeNr.\tAmount\tZ\tRGauss\tL_Max(PP)L_Loc(PP)IonMass\t# chemical name, symbol" << endl;
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190 | for(const_iterator iter=elements.begin(); iter!=elements.end();++iter){
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191 | if (((*iter).first < MAX_ELEMENTS) && (checkliste[(*iter).first])) {
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192 | (*iter).second->No = No;
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193 | result = result && (*iter).second->Checkout(output, No++, checkliste[(*iter).first]);
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194 | }
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195 | }
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196 | return result;
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197 | } else
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198 | return false;
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199 | };
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200 |
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201 | /** Loads element list from file.
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202 | * \param *path to to standard file names
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203 | */
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204 | bool periodentafel::LoadPeriodentafel(const char *path)
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205 | {
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206 | ifstream infile;
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207 | element *ptr;
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208 | map<atomicNumber_t,element*> parsedElems;
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209 | bool status = true;
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210 | bool otherstatus = true;
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211 | char filename[255];
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212 |
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213 | // fill elements DB
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214 | strncpy(filename, path, MAXSTRINGSIZE);
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215 | strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
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216 | strncat(filename, STANDARDELEMENTSDB, MAXSTRINGSIZE-strlen(filename));
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217 | infile.open(filename);
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218 | if (infile != NULL) {
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219 | infile.getline(header1, MAXSTRINGSIZE);
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220 | infile.getline(header2, MAXSTRINGSIZE); // skip first two header lines
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221 | Log() << Verbose(0) << "Parsed elements:";
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222 | while (!infile.eof()) {
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223 | element *neues = new element;
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224 | infile >> neues->name;
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225 | //infile >> ws;
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226 | infile >> neues->symbol;
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227 | //infile >> ws;
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228 | infile >> neues->period;
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229 | //infile >> ws;
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230 | infile >> neues->group;
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231 | //infile >> ws;
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232 | infile >> neues->block;
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233 | //infile >> ws;
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234 | infile >> neues->Z;
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235 | //infile >> ws;
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236 | infile >> neues->mass;
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237 | //infile >> ws;
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238 | infile >> neues->CovalentRadius;
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239 | //infile >> ws;
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240 | infile >> neues->VanDerWaalsRadius;
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241 | //infile >> ws;
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242 | infile >> ws;
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243 | Log() << Verbose(0) << " " << neues->symbol;
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244 | //neues->Output((ofstream *)&cout);
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245 | if ((neues->Z > 0) && (neues->Z < MAX_ELEMENTS))
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246 | parsedElems[neues->getNumber()] = neues;
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247 | else {
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248 | Log() << Verbose(0) << "Could not parse element: ";
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249 | neues->Output((ofstream *)&cout);
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250 | delete(neues);
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251 | }
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252 | }
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253 | Log() << Verbose(0) << endl;
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254 | infile.close();
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255 | infile.clear();
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256 | } else
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257 | status = false;
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258 |
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259 | // fill valence DB per element
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260 | strncpy(filename, path, MAXSTRINGSIZE);
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261 | strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
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262 | strncat(filename, STANDARDVALENCEDB, MAXSTRINGSIZE-strlen(filename));
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263 | infile.open(filename);
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264 | if (infile != NULL) {
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265 | while (!infile.eof()) {
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266 | atomicNumber_t Z;
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267 | infile >> Z;
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268 | infile >> ws;
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269 | infile >> parsedElems[Z]->Valence;
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270 | infile >> ws;
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271 | //Log() << Verbose(3) << "Element " << (int)tmp << " has " << FindElement((int)tmp)->Valence << " valence electrons." << endl;
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272 | }
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273 | infile.close();
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274 | infile.clear();
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275 | } else
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276 | otherstatus = false;
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277 |
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278 | // fill valence DB per element
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279 | strncpy(filename, path, MAXSTRINGSIZE);
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280 | strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
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281 | strncat(filename, STANDARDORBITALDB, MAXSTRINGSIZE-strlen(filename));
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282 | infile.open(filename);
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283 | if (infile != NULL) {
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284 | while (!infile.eof()) {
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285 | atomicNumber_t Z;
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286 | infile >> Z;
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287 | infile >> ws;
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288 | infile >> parsedElems[Z]->NoValenceOrbitals;
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289 | infile >> ws;
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290 | //Log() << Verbose(3) << "Element " << (int)tmp << " has " << FindElement((int)tmp)->NoValenceOrbitals << " number of singly occupied valence orbitals." << endl;
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291 | }
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292 | infile.close();
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293 | infile.clear();
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294 | } else
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295 | otherstatus = false;
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296 |
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297 | // fill H-BondDistance DB per element
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298 | strncpy(filename, path, MAXSTRINGSIZE);
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299 | strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
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300 | strncat(filename, STANDARDHBONDDISTANCEDB, MAXSTRINGSIZE-strlen(filename));
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301 | infile.open(filename);
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302 | if (infile != NULL) {
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303 | while (!infile.eof()) {
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304 | atomicNumber_t Z;
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305 | infile >> Z;
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306 | ptr = parsedElems[Z];
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307 | infile >> ws;
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308 | infile >> ptr->HBondDistance[0];
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309 | infile >> ptr->HBondDistance[1];
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310 | infile >> ptr->HBondDistance[2];
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311 | infile >> ws;
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312 | //Log() << Verbose(3) << "Element " << (int)tmp << " has " << FindElement((int)tmp)->HBondDistance[0] << " Angstrom typical distance to hydrogen." << endl;
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313 | }
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314 | infile.close();
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315 | infile.clear();
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316 | } else
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317 | otherstatus = false;
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318 |
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319 | // fill H-BondAngle DB per element
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320 | strncpy(filename, path, MAXSTRINGSIZE);
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321 | strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
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322 | strncat(filename, STANDARDHBONDANGLEDB, MAXSTRINGSIZE-strlen(filename));
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323 | infile.open(filename);
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324 | if (infile != NULL) {
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325 | while (!infile.eof()) {
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326 | atomicNumber_t Z;
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327 | infile >> Z;
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328 | ptr = parsedElems[Z];
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329 | infile >> ws;
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330 | infile >> ptr->HBondAngle[0];
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331 | infile >> ptr->HBondAngle[1];
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332 | infile >> ptr->HBondAngle[2];
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333 | infile >> ws;
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334 | //Log() << Verbose(3) << "Element " << (int)tmp << " has " << FindElement((int)tmp)->HBondAngle[0] << ", " << FindElement((int)tmp)->HBondAngle[1] << ", " << FindElement((int)tmp)->HBondAngle[2] << " degrees bond angle for one, two, three connected hydrogens." << endl;
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335 | }
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336 | infile.close();
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337 | } else
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338 | otherstatus = false;
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339 |
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340 | if (otherstatus){
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341 | map<atomicNumber_t,element*>::iterator iter;
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342 | for(iter=parsedElems.begin();iter!=parsedElems.end();++iter){
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343 | AddElement((*iter).second);
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344 | }
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345 | }
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346 | else{
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347 | eLog() << Verbose(2) << "Something went wrong while parsing the other databases!" << endl;
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348 | map<atomicNumber_t,element*>::iterator iter;
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349 | for(iter=parsedElems.begin();iter!=parsedElems.end();++iter){
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350 | AddElement((*iter).second);
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351 | }
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352 | }
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353 |
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354 | return status;
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355 | };
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356 |
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357 | /** Stores element list to file.
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358 | */
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359 | bool periodentafel::StorePeriodentafel(const char *path) const
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360 | {
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361 | bool result = true;
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362 | ofstream f;
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363 | char filename[MAXSTRINGSIZE];
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364 |
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365 | strncpy(filename, path, MAXSTRINGSIZE);
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366 | strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
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367 | strncat(filename, STANDARDELEMENTSDB, MAXSTRINGSIZE-strlen(filename));
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368 | f.open(filename);
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369 | if (f != NULL) {
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370 | f << header1 << endl;
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371 | f << header2 << endl;
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372 | for(const_iterator iter=elements.begin();iter!=elements.end();++iter){
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373 | result = result && (*iter).second->Output(&f);
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374 | }
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375 | f.close();
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376 | } else
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377 | result = false;
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378 | return result;
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379 | };
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