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1 #ifndef CPP_ENIGMA_MACHINE_H
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2 #define CPP_ENIGMA_MACHINE_H
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3 // Copyright (C) 2012 by Brian Neal.
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4 // This file is part of Cpp-Enigma, the Enigma Machine simulation.
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5 // Cpp-Enigma is released under the MIT License (see License.txt).
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6 //
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7 // machine.h - This file contains the main Enigma machine class.
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8
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9 #include <memory>
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10 #include <string>
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11 #include <vector>
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12 #include <cassert>
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13 #include "enigma_types.h"
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14 #include "rotor.h"
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15 #include "plugboard.h"
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16
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17 namespace enigma
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18 {
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19 typedef std::vector<std::shared_ptr<rotor>> rotor_vector;
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20
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21 class enigma_machine_error : public enigma_error
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22 {
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23 public:
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24 explicit enigma_machine_error(const std::string& what_arg)
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25 : enigma_error(what_arg)
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26 {}
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27 };
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28
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29 class enigma_machine
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30 {
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31 public:
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32 // construct an Enigma machine from component parts:
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33 enigma_machine(const rotor_vector& rv,
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34 std::shared_ptr<rotor> reflector,
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35 const plugboard& pb);
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36
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37 // construct an Enigma machine with a default plugboard (no cables connected):
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38 enigma_machine(const rotor_vector& rv,
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39 std::shared_ptr<rotor> reflector);
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40
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41 // key-sheet style constructors:
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42 enigma_machine(const std::vector<std::string>& rotor_types,
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43 const std::vector<int>& ring_settings,
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44 const std::string& reflector_name = "B",
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45 const std::string& plugboard_settings = "");
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46
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47 // set the rotor display (starting position) - 3 rotor version
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48 void set_display(char left, char mid, char right)
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49 {
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50 assert(rotors.size() == 3);
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51
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52 rotors[0]->set_display(left);
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53 rotors[1]->set_display(mid);
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54 rotors[2]->set_display(right);
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55 }
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56
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57 // set the rotor display (starting position) - 4 rotor version
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58 void set_display(char c0, char c1, char c2, char c3)
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59 {
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60 assert(rotors.size() == 4);
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61
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62 rotors[0]->set_display(c0);
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63 rotors[1]->set_display(c1);
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64 rotors[2]->set_display(c2);
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65 rotors[3]->set_display(c3);
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66 }
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67
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68 // Set the rotor display (starting position) using a string; the
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69 // string length must match the number of rotors in use or a
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70 // enigma_machine_error exception will be thrown:
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71 void set_display(const std::string& val)
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72 {
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73 if (val.size() == 3 && rotors.size() == 3)
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74 {
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75 set_display(val[0], val[1], val[2]);
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76 }
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77 else if (val.size() == 4 && rotors.size() == 4)
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78 {
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79 set_display(val[0], val[1], val[2], val[3]);
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80 }
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81 else
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82 {
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83 throw enigma_machine_error("set_display invalid size");
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84 }
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85 }
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86
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87 // return the rotor display (starting position) as a string
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88 std::string get_display() const
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89 {
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90 std::string result;
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91 for (const auto& r : rotors)
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92 {
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93 result += r->get_display();
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94 }
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95 return result;
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96 }
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97
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98 // simulate front panel key press; returns the lamp character that is lit
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99 char key_press(char c)
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100 {
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101 step_rotors();
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102 return electric_signal(c - 'A') + 'A';
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103 }
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104
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105 // Process a buffer of text of length n, placing the result in an output buffer.
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106 void process_text(const char* input, char* output, std::size_t n)
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107 {
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108 for (std::size_t i = 0; i < n; ++i)
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109 {
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110 *output++ = key_press(*input++);
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111 }
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112 }
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113
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114 std::string process_text(const std::string& input)
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115 {
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116 std::string result;
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117 result.reserve(input.size());
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118
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119 for (const auto& c : input)
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120 {
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121 result += key_press(c);
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122 }
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123 return result;
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124 }
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125
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126 // for access to the plugboard for hill-climbing, etc
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127 plugboard& get_plugboard() { return pb; }
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128
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129 // Returns a string representation of the enigma machine's state. Useful
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130 // for logging, etc:
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131 //
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132 std::string army_str() const { return str(true); }
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133 std::string navy_str() const { return str(false); }
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134
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135 private:
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136 rotor_vector rotors;
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137 std::shared_ptr<rotor> reflector;
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138 plugboard pb;
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139 rotor* r_rotor; // rightmost rotor
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140 rotor* m_rotor; // 2nd to right rotor
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141 rotor* l_rotor; // 3rd to right rotor
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142
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143 void rotor_count_check();
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144
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145 void step_rotors()
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146 {
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147 // The right-most rotor's right-side ratchet is always over a pawl, and
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148 // it has no neighbor to the right, so it always rotates.
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149 //
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150 // The middle rotor will rotate if either:
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151 // 1) The right-most rotor's left side notch is over the 2nd pawl
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152 // or
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153 // 2) It has a left-side notch over the 3rd pawl
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154 //
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155 // The third rotor (from the right) will rotate only if the middle rotor
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156 // has a left-side notch over the 3rd pawl.
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157 //
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158 // Kriegsmarine model M4 has 4 rotors, but the 4th rotor (the leftmost)
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159 // does not rotate (they did not add a 4th pawl to the mechanism).
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160
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161 const bool l_rotate = m_rotor->notch_over_pawl();
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162 const bool m_rotate = l_rotate || r_rotor->notch_over_pawl();
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163
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164 r_rotor->rotate();
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165 if (m_rotate)
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166 {
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167 m_rotor->rotate();
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168 }
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169 if (l_rotate)
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170 {
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171 l_rotor->rotate();
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172 }
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173 }
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174
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175 // Simulate running an electric signal through the machine in order to
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176 // perform an encrypt or decrypt operation
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177 // signal_num - the wire (0-25) that the simulated current occurs on
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178 // Returns a lamp number to light (an integer 0-25).
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179 int electric_signal(int signal_num)
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180 {
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181 int pos = pb.signal(signal_num);
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182
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183 for (auto r = rotors.rbegin(); r != rotors.rend(); ++r)
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184 {
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185 pos = (*r)->signal_in(pos);
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186 }
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187
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188 pos = reflector->signal_in(pos);
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189
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190 for (const auto& r : rotors)
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191 {
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192 pos = r->signal_out(pos);
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193 }
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194
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195 return pb.signal(pos);
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196 }
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197
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198 std::string str(bool army) const;
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199 };
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200 }
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201
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202 #endif
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