1 | // This file is a part of Framsticks SDK. http://www.framsticks.com/ |
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2 | // Copyright (C) 1999-2020 Maciej Komosinski and Szymon Ulatowski. |
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3 | // See LICENSE.txt for details. |
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4 | |
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5 | #include <ctype.h> //isupper() |
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6 | #include "genooperators.h" |
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7 | #include <common/log.h> |
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8 | #include <common/nonstd_math.h> |
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9 | #include <frams/util/rndutil.h> |
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10 | |
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11 | // |
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12 | // custom distributions for mutations of various parameters |
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13 | // |
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14 | static double distrib_force[] = // for '!' |
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15 | { |
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16 | 3, // distribution 0 -__/ +1 |
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17 | 0.001, 0.2, // "slow" neurons |
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18 | 0.001, 1, |
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19 | 1, 1, // "fast" neurons |
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20 | }; |
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21 | static double distrib_inertia[] = // for '=' |
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22 | { |
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23 | 2, // distribution 0 |..- +1 |
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24 | 0, 0, // "fast" neurons |
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25 | 0.7, 0.98, |
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26 | }; |
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27 | static double distrib_sigmo[] = // for '/' |
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28 | { |
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29 | 5, // distribution -999 -..-^-..- +999 |
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30 | -999, -999, //"perceptron" |
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31 | 999, 999, |
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32 | -5, -1, // nonlinear |
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33 | 1, 5, |
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34 | -1, 1, // ~linear |
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35 | }; |
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36 | /* |
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37 | static double distrib_weight[] = |
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38 | { |
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39 | 5, // distribution -999 _-^_^-_ +999 |
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40 | -999, 999, // each weight value may be useful, especially... |
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41 | -5, -0.3, // ...little non-zero values |
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42 | -3, -0.6, |
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43 | 0.6, 3, |
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44 | 0.3, 5, |
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45 | }; |
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46 | */ |
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47 | |
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48 | int GenoOperators::roulette(const double *probtab, const int count) |
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49 | { |
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50 | double sum = 0; |
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51 | int i; |
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52 | for (i = 0; i < count; i++) sum += probtab[i]; |
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53 | double sel = rndDouble(sum); |
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54 | for (sum = 0, i = 0; i < count; i++) { sum += probtab[i]; if (sel < sum) return i; } |
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55 | return -1; |
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56 | } |
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57 | |
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58 | bool GenoOperators::getMinMaxDef(ParamInterface *p, int i, double &mn, double &mx, double &def) |
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59 | { |
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60 | mn = mx = def = 0; |
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61 | int defined = 0; |
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62 | if (p->type(i)[0] == 'f') |
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63 | { |
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64 | double _mn = 0, _mx = 1, _def = 0.5; |
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65 | defined = p->getMinMaxDouble(i, _mn, _mx, _def); |
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66 | if (defined == 1) _mx = _mn + 1000.0; //only min was defined, so let's set some arbitrary range, just to have some freedom. Assumes _mn is not close to maxdouble... |
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67 | if (_mx < _mn && defined == 3) //only default was defined, so let's assume some arbitrary range. Again, no check for min/maxdouble... |
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68 | { |
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69 | _mn = _def - 500.0; |
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70 | _mx = _def + 500.0; |
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71 | } |
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72 | if (defined < 3) _def = (_mn + _mx) / 2.0; |
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73 | mn = _mn; mx = _mx; def = _def; |
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74 | } |
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75 | if (p->type(i)[0] == 'd') |
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76 | { |
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77 | paInt _mn = 0, _mx = 1, _def = 0; |
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78 | defined = p->getMinMaxInt(i, _mn, _mx, _def); |
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79 | if (defined == 1) _mx = _mn + 1000; //only min was defined, so let's set some arbitrary range, just to have some freedom. Assumes _mn is not close to maxint... |
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80 | if (_mx < _mn && defined == 3) //only default was defined, so let's assume some arbitrary range. Again, no check for min/maxint... |
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81 | { |
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82 | _mn = _def - 500; |
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83 | _mx = _def + 500; |
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84 | } |
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85 | if (defined < 3) _def = (_mn + _mx) / 2; |
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86 | mn = _mn; mx = _mx; def = _def; |
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87 | } |
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88 | return defined == 3; |
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89 | } |
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90 | |
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91 | bool GenoOperators::mutateRandomNeuroClassProperty(Neuro* n) |
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92 | { |
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93 | bool mutated = false; |
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94 | int prop = selectRandomNeuroClassProperty(n); |
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95 | if (prop >= 0) |
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96 | { |
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97 | if (prop >= GenoOperators::NEUROCLASS_PROP_OFFSET) |
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98 | { |
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99 | SyntParam par = n->classProperties(); //commits changes when this object is destroyed |
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100 | mutated = mutateProperty(par, prop - GenoOperators::NEUROCLASS_PROP_OFFSET); |
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101 | } |
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102 | else |
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103 | { |
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104 | Param par = n->extraProperties(); |
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105 | mutated = mutateProperty(par, prop); |
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106 | } |
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107 | } |
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108 | return mutated; |
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109 | } |
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110 | |
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111 | int GenoOperators::selectRandomNeuroClassProperty(Neuro *n) |
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112 | { |
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113 | int neuext = n->extraProperties().getPropCount(), |
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114 | neucls = n->getClass() == NULL ? 0 : n->getClass()->getProperties().getPropCount(); |
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115 | if (neuext + neucls == 0) return -1; //no properties in this neuron |
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116 | int index = rndUint(neuext + neucls); |
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117 | if (index >= neuext) index = index - neuext + NEUROCLASS_PROP_OFFSET; |
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118 | return index; |
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119 | } |
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120 | |
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121 | double GenoOperators::getMutatedNeuroClassProperty(double current, Neuro *n, int i) |
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122 | { |
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123 | if (i == -1) |
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124 | { |
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125 | logPrintf("GenoOperators", "getMutatedNeuroClassProperty", LOG_WARN, "Deprecated usage in C++ source: to mutate connection weight, use getMutatedNeuronConnectionWeight()."); |
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126 | return getMutatedNeuronConnectionWeight(current); |
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127 | } |
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128 | Param p; |
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129 | if (i >= NEUROCLASS_PROP_OFFSET) { i -= NEUROCLASS_PROP_OFFSET; p = n->getClass()->getProperties(); } |
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130 | else p = n->extraProperties(); |
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131 | double newval = current; |
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132 | /*bool ok=*/getMutatedProperty(p, i, current, newval); |
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133 | return newval; |
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134 | } |
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135 | |
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136 | double GenoOperators::getMutatedNeuronConnectionWeight(double current) |
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137 | { |
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138 | return mutateCreepNoLimit('f', current, 2, true); |
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139 | } |
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140 | |
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141 | bool GenoOperators::mutatePropertyNaive(ParamInterface &p, int i) |
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142 | { |
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143 | double mn, mx, df; |
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144 | if (p.type(i)[0] != 'f' && p.type(i)[0] != 'd') return false; //don't know how to mutate |
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145 | getMinMaxDef(&p, i, mn, mx, df); |
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146 | |
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147 | ExtValue ev; |
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148 | p.get(i, ev); |
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149 | ev.setDouble(mutateCreep(p.type(i)[0], ev.getDouble(), mn, mx, true)); |
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150 | p.set(i, ev); |
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151 | return true; |
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152 | } |
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153 | |
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154 | bool GenoOperators::mutateProperty(ParamInterface &p, int i) |
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155 | { |
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156 | double newval; |
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157 | ExtValue ev; |
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158 | p.get(i, ev); |
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159 | bool ok = getMutatedProperty(p, i, ev.getDouble(), newval); |
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160 | if (ok) { ev.setDouble(newval); p.set(i, ev); } |
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161 | return ok; |
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162 | } |
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163 | |
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164 | bool GenoOperators::getMutatedProperty(ParamInterface &p, int i, double oldval, double &newval) |
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165 | { |
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166 | newval = 0; |
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167 | if (p.type(i)[0] != 'f' && p.type(i)[0] != 'd') return false; //don't know how to mutate |
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168 | const char *n = p.id(i), *na = p.name(i); |
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169 | if (strcmp(n, "si") == 0 && strcmp(na, "Sigmoid") == 0) newval = round(CustomRnd(distrib_sigmo), 3); else |
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170 | if (strcmp(n, "in") == 0 && strcmp(na, "Inertia") == 0) newval = round(CustomRnd(distrib_inertia), 3); else |
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171 | if (strcmp(n, "fo") == 0 && strcmp(na, "Force") == 0) newval = round(CustomRnd(distrib_force), 3); else |
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172 | { |
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173 | double mn, mx, df; |
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174 | getMinMaxDef(&p, i, mn, mx, df); |
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175 | newval = mutateCreep(p.type(i)[0], oldval, mn, mx, true); |
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176 | } |
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177 | return true; |
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178 | } |
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179 | |
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180 | double GenoOperators::mutateCreepNoLimit(char type, double current, double stddev, bool limit_precision_3digits) |
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181 | { |
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182 | double result = RndGen.Gauss(current, stddev); |
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183 | if (type == 'd') |
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184 | { |
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185 | result = int(result + 0.5); |
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186 | if (result == current) result += rndUint(2) * 2 - 1; //force some change |
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187 | } |
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188 | else |
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189 | { |
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190 | if (limit_precision_3digits) |
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191 | result = round(result, 3); |
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192 | } |
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193 | return result; |
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194 | } |
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195 | |
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196 | double GenoOperators::mutateCreep(char type, double current, double mn, double mx, double stddev, bool limit_precision_3digits) |
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197 | { |
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198 | double result = mutateCreepNoLimit(type, current, stddev, limit_precision_3digits); |
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199 | if (result<mn || result>mx) //exceeds boundary, so bring to the allowed range |
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200 | { |
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201 | //reflect: |
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202 | if (result > mx) result = mx - (result - mx); else |
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203 | if (result < mn) result = mn + (mn - result); |
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204 | //wrap (just in case 'result' exceeded the allowed range so much that after reflection above it exceeded the other boundary): |
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205 | if (result > mx) result = mn + fmod(result - mx, mx - mn); else |
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206 | if (result < mn) result = mn + fmod(mn - result, mx - mn); |
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207 | if (limit_precision_3digits) |
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208 | { |
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209 | //reflect and wrap above may have changed the (limited) precision, so try to round again (maybe unnecessarily, because we don't know if reflect+wrap above were triggered) |
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210 | double result_try = round(result, 3); |
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211 | if (mn <= result_try && result_try <= mx) result = result_try; //after rounding still witin allowed range, so keep rounded value |
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212 | } |
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213 | } |
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214 | return result; |
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215 | } |
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216 | |
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217 | double GenoOperators::mutateCreep(char type, double current, double mn, double mx, bool limit_precision_3digits) |
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218 | { |
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219 | double stddev = (mx - mn) / 2 / 5; // magic arbitrary formula for stddev, which becomes /halfinterval, 5 times narrower |
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220 | return mutateCreep(type, current, mn, mx, stddev, limit_precision_3digits); |
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221 | } |
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222 | |
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223 | void GenoOperators::setIntFromDoubleWithProbabilisticDithering(ParamInterface &p, int index, double value) //TODO |
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224 | { |
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225 | p.setInt(index, (paInt)(value + 0.5)); //TODO value=2.499 will result in 2 and 2.5 will result in 3, but we want these cases to be 2 or 3 with almost equal probability. value=2.1 should be mostly 2, rarely 3. Careful with negative values (test it!) |
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226 | } |
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227 | |
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228 | void GenoOperators::linearMix(vector<double> &p1, vector<double> &p2, double proportion) |
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229 | { |
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230 | if (p1.size() != p2.size()) |
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231 | { |
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232 | logPrintf("GenoOperators", "linearMix", LOG_ERROR, "Cannot mix vectors of different length (%d and %d)", p1.size(), p2.size()); |
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233 | return; |
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234 | } |
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235 | for (unsigned int i = 0; i < p1.size(); i++) |
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236 | { |
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237 | double v1 = p1[i]; |
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238 | double v2 = p2[i]; |
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239 | p1[i] = v1 * proportion + v2 * (1 - proportion); |
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240 | p2[i] = v2 * proportion + v1 * (1 - proportion); |
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241 | } |
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242 | } |
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243 | |
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244 | void GenoOperators::linearMix(ParamInterface &p1, int i1, ParamInterface &p2, int i2, double proportion) |
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245 | { |
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246 | char type1 = p1.type(i1)[0]; |
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247 | char type2 = p2.type(i2)[0]; |
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248 | if (type1 == 'f' && type2 == 'f') |
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249 | { |
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250 | double v1 = p1.getDouble(i1); |
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251 | double v2 = p2.getDouble(i2); |
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252 | p1.setDouble(i1, v1 * proportion + v2 * (1 - proportion)); |
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253 | p2.setDouble(i2, v2 * proportion + v1 * (1 - proportion)); |
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254 | } |
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255 | else |
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256 | if (type1 == 'd' && type2 == 'd') |
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257 | { |
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258 | int v1 = p1.getInt(i1); |
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259 | int v2 = p2.getInt(i2); |
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260 | setIntFromDoubleWithProbabilisticDithering(p1, i1, v1 * proportion + v2 * (1 - proportion)); |
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261 | setIntFromDoubleWithProbabilisticDithering(p2, i2, v2 * proportion + v1 * (1 - proportion)); |
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262 | } |
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263 | else |
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264 | logPrintf("GenoOperators", "linearMix", LOG_WARN, "Cannot mix values of types '%c' and '%c'", type1, type2); |
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265 | } |
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266 | |
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267 | int GenoOperators::getActiveNeuroClassCount(Model::ShapeType for_shape_type) |
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268 | { |
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269 | int count = 0; |
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270 | for (int i = 0; i < Neuro::getClassCount(); i++) |
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271 | { |
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272 | NeuroClass *nc = Neuro::getClass(i); |
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273 | if (nc->isShapeTypeSupported(for_shape_type) && nc->genactive) |
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274 | count++; |
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275 | } |
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276 | return count; |
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277 | } |
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278 | |
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279 | NeuroClass *GenoOperators::getRandomNeuroClass(Model::ShapeType for_shape_type) |
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280 | { |
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281 | vector<NeuroClass *> active; |
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282 | for (int i = 0; i < Neuro::getClassCount(); i++) |
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283 | { |
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284 | NeuroClass *nc = Neuro::getClass(i); |
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285 | if (nc->isShapeTypeSupported(for_shape_type) && nc->genactive) |
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286 | active.push_back(nc); |
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287 | } |
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288 | if (active.size() == 0) return NULL; else return active[rndUint(active.size())]; |
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289 | } |
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290 | |
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291 | NeuroClass *GenoOperators::getRandomNeuroClassWithOutput(Model::ShapeType for_shape_type) |
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292 | { |
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293 | vector<NeuroClass *> active; |
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294 | for (int i = 0; i < Neuro::getClassCount(); i++) |
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295 | { |
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296 | NeuroClass *nc = Neuro::getClass(i); |
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297 | if (nc->isShapeTypeSupported(for_shape_type) && nc->genactive && nc->getPreferredOutput() != 0) |
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298 | active.push_back(nc); |
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299 | } |
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300 | if (active.size() == 0) return NULL; else return active[rndUint(active.size())]; |
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301 | } |
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302 | |
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303 | NeuroClass *GenoOperators::getRandomNeuroClassWithInput(Model::ShapeType for_shape_type) |
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304 | { |
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305 | vector<NeuroClass *> active; |
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306 | for (int i = 0; i < Neuro::getClassCount(); i++) |
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307 | { |
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308 | NeuroClass *nc = Neuro::getClass(i); |
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309 | if (nc->isShapeTypeSupported(for_shape_type) && nc->genactive && nc->getPreferredInputs() != 0) |
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310 | active.push_back(nc); |
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311 | } |
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312 | if (active.size() == 0) return NULL; else return active[rndUint(active.size())]; |
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313 | } |
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314 | |
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315 | NeuroClass *GenoOperators::getRandomNeuroClassWithOutputAndNoInputs(Model::ShapeType for_shape_type) |
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316 | { |
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317 | vector<NeuroClass *> active; |
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318 | for (int i = 0; i < Neuro::getClassCount(); i++) |
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319 | { |
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320 | NeuroClass *nc = Neuro::getClass(i); |
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321 | if (nc->isShapeTypeSupported(for_shape_type) && nc->genactive && nc->getPreferredOutput() != 0 && nc->getPreferredInputs() == 0) |
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322 | active.push_back(nc); |
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323 | } |
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324 | if (active.size() == 0) return NULL; else return active[rndUint(active.size())]; |
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325 | } |
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326 | |
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327 | int GenoOperators::getRandomNeuroClassWithOutput(const vector<NeuroClass *> &NClist) |
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328 | { |
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329 | vector<int> allowed; |
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330 | for (size_t i = 0; i < NClist.size(); i++) |
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331 | if (NClist[i]->getPreferredOutput() != 0) //this NeuroClass provides output |
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332 | allowed.push_back(i); |
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333 | if (allowed.size() == 0) return -1; else return allowed[rndUint(allowed.size())]; |
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334 | } |
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335 | |
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336 | int GenoOperators::getRandomNeuroClassWithInput(const vector<NeuroClass *> &NClist) |
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337 | { |
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338 | vector<int> allowed; |
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339 | for (size_t i = 0; i < NClist.size(); i++) |
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340 | if (NClist[i]->getPreferredInputs() != 0) //this NeuroClass wants one input connection or more |
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341 | allowed.push_back(i); |
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342 | if (allowed.size() == 0) return -1; else return allowed[rndUint(allowed.size())]; |
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343 | } |
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344 | |
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345 | int GenoOperators::getRandomChar(const char *choices, const char *excluded) |
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346 | { |
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347 | int allowed_count = 0; |
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348 | for (size_t i = 0; i < strlen(choices); i++) if (!strchrn0(excluded, choices[i])) allowed_count++; |
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349 | if (allowed_count == 0) return -1; //no char is allowed |
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350 | int rnd_index = rndUint(allowed_count) + 1; |
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351 | allowed_count = 0; |
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352 | for (size_t i = 0; i < strlen(choices); i++) |
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353 | { |
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354 | if (!strchrn0(excluded, choices[i])) allowed_count++; |
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355 | if (allowed_count == rnd_index) return i; |
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356 | } |
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357 | return -1; //never happens |
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358 | } |
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359 | |
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360 | NeuroClass *GenoOperators::parseNeuroClass(char *&s) |
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361 | { |
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362 | int maxlen = (int)strlen(s); |
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363 | int NClen = 0; |
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364 | NeuroClass *NC = NULL; |
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365 | for (int i = 0; i < Neuro::getClassCount(); i++) |
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366 | { |
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367 | const char *ncname = Neuro::getClass(i)->name.c_str(); |
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368 | int ncnamelen = (int)strlen(ncname); |
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369 | if (maxlen >= ncnamelen && ncnamelen > NClen && (strncmp(s, ncname, ncnamelen) == 0)) |
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370 | { |
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371 | NC = Neuro::getClass(i); |
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372 | NClen = ncnamelen; |
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373 | } |
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374 | } |
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375 | s += NClen; |
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376 | return NC; |
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377 | } |
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378 | |
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379 | Neuro *GenoOperators::findNeuro(const Model *m, const NeuroClass *nc) |
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380 | { |
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381 | if (!m) return NULL; |
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382 | for (int i = 0; i < m->getNeuroCount(); i++) |
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383 | if (m->getNeuro(i)->getClass() == nc) return m->getNeuro(i); |
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384 | return NULL; //neuron of class 'nc' was not found |
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385 | } |
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386 | |
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387 | int GenoOperators::neuroClassProp(char *&s, NeuroClass *nc, bool also_v1_N_props) |
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388 | { |
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389 | int len = (int)strlen(s); |
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390 | int Len = 0, I = -1; |
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391 | if (nc) |
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392 | { |
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393 | Param p = nc->getProperties(); |
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394 | for (int i = 0; i < p.getPropCount(); i++) |
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395 | { |
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396 | const char *n = p.id(i); |
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397 | int l = (int)strlen(n); |
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398 | if (len >= l && l > Len && (strncmp(s, n, l) == 0)) { I = NEUROCLASS_PROP_OFFSET + i; Len = l; } |
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399 | if (also_v1_N_props) //recognize old symbols of properties: /=! |
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400 | { |
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401 | if (strcmp(n, "si") == 0) n = "/"; else |
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402 | if (strcmp(n, "in") == 0) n = "="; else |
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403 | if (strcmp(n, "fo") == 0) n = "!"; |
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404 | l = (int)strlen(n); |
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405 | if (len >= l && l > Len && (strncmp(s, n, l) == 0)) { I = NEUROCLASS_PROP_OFFSET + i; Len = l; } |
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406 | } |
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407 | } |
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408 | } |
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409 | Neuro n; |
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410 | Param p = n.extraProperties(); |
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411 | for (int i = 0; i < p.getPropCount(); i++) |
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412 | { |
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413 | const char *n = p.id(i); |
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414 | int l = (int)strlen(n); |
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415 | if (len >= l && l > Len && (strncmp(s, n, l) == 0)) { I = i; Len = l; } |
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416 | } |
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417 | s += Len; |
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418 | return I; |
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419 | } |
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420 | |
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421 | bool GenoOperators::isWS(const char c) |
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422 | { |
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423 | return c == ' ' || c == '\n' || c == '\t' || c == '\r'; |
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424 | } |
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425 | |
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426 | void GenoOperators::skipWS(char *&s) |
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427 | { |
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428 | if (s == NULL) |
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429 | logMessage("GenoOperators", "skipWS", LOG_WARN, "NULL reference!"); |
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430 | else |
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431 | while (isWS(*s)) s++; |
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432 | } |
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433 | |
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434 | bool GenoOperators::areAlike(char *g1, char *g2) |
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435 | { |
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436 | while (*g1 || *g2) |
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437 | { |
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438 | skipWS(g1); |
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439 | skipWS(g2); |
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440 | if (*g1 != *g2) return false; //when difference |
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441 | if (!*g1 && !*g2) break; //both end |
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442 | g1++; |
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443 | g2++; |
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444 | } |
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445 | return true; //equal |
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446 | } |
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447 | |
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448 | char *GenoOperators::strchrn0(const char *str, char ch) |
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449 | { |
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450 | return ch == 0 ? NULL : strchr((char *)str, ch); |
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451 | } |
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452 | |
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453 | bool GenoOperators::canStartNeuroClassName(const char firstchar) |
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454 | { |
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455 | return isupper(firstchar) || firstchar == '|' || firstchar == '@' || firstchar == '*'; |
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456 | } |
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