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1 // Copyright (C) 2012 by Brian Neal.
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2 // This file is part of Cpp-Enigma, the Enigma Machine simulation.
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3 // Cpp-Enigma is released under the MIT License (see License.txt).
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4 //
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5 // test_rotor.t.h - rotor unit tests
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6
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7 #include <deque>
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8 #include <string>
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9 #include <memory>
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10 #include <cxxtest/TestSuite.h>
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11 #include "rotor.h"
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12 #include "enigma_utils.h"
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13 #include "rotor_data.h"
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14 #include "rotor_factory.h"
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15
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16 using namespace enigma;
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17
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18 const char* const wiring = "EKMFLGDQVZNTOWYHXUSPAIBRCJ";
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19
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20
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21 class MyTestSuite1 : public CxxTest::TestSuite
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22 {
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23 public:
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24
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25 void test_bad_wiring()
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26 {
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27 TS_ASSERT_THROWS(rotor("I", ""), rotor_error);
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28 TS_ASSERT_THROWS(rotor("I", "ABC"), rotor_error);
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29 TS_ASSERT_THROWS(rotor("I", "123"), rotor_error);
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30 TS_ASSERT_THROWS(rotor("I", "!\"#$%&'()*+,-./:;<=>?@[\\]^"), rotor_error);
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31 TS_ASSERT_THROWS(rotor("I", "ABCDABCDABCDABCDABCDABCDAB"), rotor_error);
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32 }
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33
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34 void test_bad_ring_setting()
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35 {
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36 TS_ASSERT_THROWS(rotor("I", wiring, -1), rotor_error);
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37 TS_ASSERT_THROWS(rotor("I", wiring, 26), rotor_error);
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38 }
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39
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40 void test_bad_stepping()
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41 {
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42 TS_ASSERT_THROWS(rotor("I", wiring, 1, "0"), rotor_error);
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43 TS_ASSERT_THROWS(rotor("I", wiring, 1, "-"), rotor_error);
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44 TS_ASSERT_THROWS(rotor("I", wiring, 1, "A%"), rotor_error);
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45 TS_ASSERT_THROWS(rotor("I", wiring, 1, "A%14"), rotor_error);
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46 }
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47
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48 void test_display()
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49 {
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50 for (int i = 0; i < 26; ++i)
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51 {
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52 rotor r{"I", wiring, i};
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53 for (int j = 0; j < 26; ++j)
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54 {
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55 r.set_display(j + 'A');
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56 TS_ASSERT_EQUALS(j + 'A', r.get_display());
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57 }
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58 }
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59 }
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60
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61 // Loop through all ring settings & rotor positions and test the wiring.
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62 void test_wiring()
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63 {
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64 for (int r = 0; r < 26; ++r)
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65 {
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66 rotor test_rotor("I", wiring, r);
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67
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68 for (int n = 0; n < 26; ++n)
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69 {
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70 const char d = n + 'A';
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71 test_rotor.set_display(d);
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72
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73 std::deque<char> wiring_deque(wiring, wiring + 26);
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74 // rotate contents to the right if positive, left if negative:
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75 int rotate_count = r - n;
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76 const bool rotate_right = rotate_count >= 0;
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77 if (rotate_count < 0)
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78 {
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79 rotate_count = -rotate_count;
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80 }
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81 for (int x = 0; x < rotate_count; ++x)
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82 {
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83 if (rotate_right)
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84 {
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85 wiring_deque.push_front(wiring_deque.back());
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86 wiring_deque.pop_back();
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87 }
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88 else
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89 {
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90 wiring_deque.push_back(wiring_deque.front());
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91 wiring_deque.pop_front();
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92 }
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93 }
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94
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95 for (int i = 0; i < 26; ++i)
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96 {
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97 int output = test_rotor.signal_in(i);
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98 int expected = alpha_mod(wiring_deque[i] - 'A' + r - n);
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99 TS_ASSERT_EQUALS(output, expected);
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100
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101 output = test_rotor.signal_out(expected);
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102 TS_ASSERT_EQUALS(output, i);
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103 }
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104 }
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105 }
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106 }
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107
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108 // For every rotor we simulate, ensure that the notch setting is correct
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109 // regardless of the ring setting.
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110 void test_notches()
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111 {
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112 for (const auto& p : simulated_rotors)
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113 {
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114 const std::string& rotor_name(p.first);
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115 const rotor_data& rd(p.second);
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116 if (rd.stepping == nullptr)
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117 {
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118 continue;
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119 }
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120 const std::string notches(rd.stepping);
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121
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122 for (int r = 0; r < 26; ++r)
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123 {
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124 std::unique_ptr<rotor> rp = create_rotor(rotor_name.c_str(), r);
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125 rp->set_display('A');
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126
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127 for (int n = 0; n < 26; ++n)
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128 {
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129 const bool over_notch = notches.find(rp->get_display()) != std::string::npos;
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130 TS_ASSERT_EQUALS(over_notch, rp->notch_over_pawl());
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131 }
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132 }
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133 }
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134 }
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135
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136 void test_rotate()
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137 {
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138 for (int r = 0; r < 26; ++r)
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139 {
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140 rotor r1("X", wiring, r);
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141 rotor r2("Y", wiring, r);
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142
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143 r2.set_display('A');
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144 for (int i = 0; i < 26; ++i)
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145 {
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146 r1.set_display(i + 'A');
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147 TS_ASSERT_EQUALS(r1.get_display(), r2.get_display());
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148 r2.rotate();
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149 }
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150 }
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151 }
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152
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153 void test_ring_setting()
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154 {
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155 rotor r("X", wiring, 0);
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156 for (int n = 0; n < 26; ++n)
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157 {
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158 r.set_ring_setting(n);
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159 TS_ASSERT_EQUALS(n, r.get_ring_setting());
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160
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161 r.set_display('A');
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162 for (int a = 0; a < 26; ++a)
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163 {
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164 TS_ASSERT_EQUALS(a + 'A', r.get_display());
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165 r.rotate();
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166 }
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167 }
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168 }
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169 };
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