1 | ############################################# |
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2 | ## ## |
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3 | ## Welcome to Genotype Manipulation Demo! ## |
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4 | ## ## |
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5 | ############################################# |
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6 | Found converter accepting f1: "Recursive encoding" |
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7 | Found 6 converter(s) producing f0 |
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8 | |
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9 | Source genotype: 'FIX[@,p:0.6543,1:-1.23456]X[G]' |
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10 | ( format 1 ) |
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11 | Converted to f0: |
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12 | p:fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.5, 0.5 |
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13 | p:1.0, fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.5, 0.5 |
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14 | p:2.0, fr=0.976, ing=0.475, as=0.175, vr=0.5, 0.5, 0.5 |
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15 | j:0, 1, dx=1.0, 0.0, 0.0, stam=0.15625, vr=0.5, 0.5, 0.5 |
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16 | j:1, 2, dx=1.0, 0.0, 0.0, stam=0.175, vr=0.5, 0.5, 0.5 |
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17 | n:j=0, d=@:p=0.6543 |
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18 | n:j=1, d=G |
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19 | c:0, 1, -1.23456 |
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20 | |
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21 | Model contains: 3 part(s) |
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22 | 2 joint(s) |
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23 | 2 neuron(s) |
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24 | |
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25 | Investigating details... |
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26 | ############################################# |
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27 | ## ## |
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28 | ## P A R T O B J E C T ## |
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29 | ## ## |
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30 | ############################################# |
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31 | (part # 1) |
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32 | Here is the full listing of properties as they are printed in f0 |
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33 | (please compare with f0 genotype). |
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34 | Some properties have special meaning (eg. geometry and connections groups) |
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35 | and should be handled with care, because they influence other elements of the model. |
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36 | |
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37 | [this data is provided by Part::properties() ] |
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38 | # id type name group (22 properties) |
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39 | 0. x = 1.0 f position.x Geometry |
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40 | 1. y = 0.0 f position.y Geometry |
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41 | 2. z = 0.0 f position.z Geometry |
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42 | 3. sh = 0 d 0 3 0 shape Geometry |
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43 | 4. s = 1.0 f 0.1 10.0 1.0 size Geometry |
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44 | 5. sx = 1.0 f 0.05 5.0 1.0 scale.x Geometry |
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45 | 6. sy = 1.0 f 0.05 5.0 1.0 scale.y Geometry |
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46 | 7. sz = 1.0 f 0.05 5.0 1.0 scale.z Geometry |
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47 | 8. h = 0.0 f 0 1 0 hollow Other properties |
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48 | 9. dn = 1.0 f 0.2 5.0 1.0 density Other properties |
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49 | 10. fr = 1.12 f 0.0 4.0 0.4 friction Other properties |
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50 | 11. ing = 0.53125 f 0.0 1.0 0.25 ingestion Other properties |
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51 | 12. as = 0.15625 f 0.0 1.0 0.25 assimilation Other properties |
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52 | 13. rx = 0.0 f rot.x Geometry |
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53 | 14. ry = 0.0 f rot.y Geometry |
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54 | 15. rz = 0.0 f rot.z Geometry |
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55 | 16. i = s info Other properties |
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56 | 17. Vstyle = part s 0 0 part vis_style Visual |
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57 | 18. vs = 0.2 f 0.05 0.7 0.2 visual thickness Visual |
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58 | 19. vr = 0.5 f 0.0 1.0 1.0 red component Visual |
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59 | 20. vg = 0.5 f 0.0 1.0 1.0 green component Visual |
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60 | 21. vb = 0.5 f 0.0 1.0 1.0 blue component Visual |
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61 | |
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62 | However, there is a subset of properties which may be modified more freely. |
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63 | Properties on this list are related only to this part and can be changed |
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64 | without much consideration. They are guaranteed to be always valid; any inconsistencies |
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65 | will be silently repaired. |
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66 | |
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67 | [this data is provided by Part::extraProperties() ] |
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68 | # id type name group (9 properties) |
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69 | 0. h = 0.0 f 0 1 0 hollow Extra properties |
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70 | 1. dn = 1.0 f 0.2 5.0 1.0 density Extra properties |
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71 | 2. fr = 1.12 f 0.0 4.0 0.4 friction Extra properties |
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72 | 3. ing = 0.53125 f 0.0 1.0 0.25 ingestion Extra properties |
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73 | 4. as = 0.15625 f 0.0 1.0 0.25 assimilation Extra properties |
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74 | 5. vs = 0.2 f 0.05 0.7 0.2 visual thickness Extra properties |
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75 | 6. vr = 0.5 f 0.0 1.0 1.0 red component Extra properties |
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76 | 7. vg = 0.5 f 0.0 1.0 1.0 green component Extra properties |
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77 | 8. vb = 0.5 f 0.0 1.0 1.0 blue component Extra properties |
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78 | |
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79 | This set of properties can vary from release to release, |
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80 | but can be safely accessed by using extraProperties() call. |
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81 | This method accesses the full set of properies (even those |
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82 | which appear in future releases). |
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83 | Now we will try to change some of properties: |
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84 | |
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85 | Change property #7 to random value from range [0..1] |
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86 | Current value of 'vg' (green component) is '0.5' |
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87 | Setting new value... [ using ParamInterface::set() ] |
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88 | The value is now '0.548814' |
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89 | |
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90 | Let's see f0... (check out part #1 !) |
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91 | |
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92 | p:fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.5, 0.5 |
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93 | p:1.0, fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.548814, 0.5 |
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94 | p:2.0, fr=0.976, ing=0.475, as=0.175, vr=0.5, 0.5, 0.5 |
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95 | j:0, 1, dx=1.0, 0.0, 0.0, stam=0.15625, vr=0.5, 0.5, 0.5 |
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96 | j:1, 2, dx=1.0, 0.0, 0.0, stam=0.175, vr=0.5, 0.5, 0.5 |
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97 | n:j=0, d=@:p=0.6543 |
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98 | n:j=1, d=G |
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99 | c:0, 1, -1.23456 |
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100 | |
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101 | ############################################# |
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102 | ## ## |
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103 | ## J O I N T O B J E C T ## |
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104 | ## ## |
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105 | ############################################# |
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106 | (joint # 1) |
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107 | Similarly as with Part, the full list of properties comes first: |
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108 | |
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109 | # id type name group (27 properties) |
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110 | 0. p1 = 1 d -1 999999 -1 part1 ref# Connections |
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111 | 1. p2 = 2 d -1 999999 -1 part2 ref# Connections |
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112 | 2. rx = 0.0 f rotation.x Geometry |
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113 | 3. ry = 0.0 f rotation.y Geometry |
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114 | 4. rz = 0.0 f rotation.z Geometry |
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115 | 5. dx = 1.0 f -2 2 0 delta.x Geometry |
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116 | 6. dy = 0.0 f -2 2 0 delta.y Geometry |
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117 | 7. dz = 0.0 f -2 2 0 delta.z Geometry |
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118 | 8. sh = 0 d 0 3 0 shape Geometry |
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119 | 9. hx = 0.0 f hinge position.x Geometry |
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120 | 10. hy = 0.0 f hinge position.y Geometry |
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121 | 11. hz = 0.0 f hinge position.z Geometry |
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122 | 12. hrx = 0.0 f hinge rotation.x Geometry |
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123 | 13. hry = 0.0 f hinge rotation.y Geometry |
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124 | 14. hrz = 0.0 f hinge rotation.z Geometry |
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125 | 15. hxn = -1.5708 f -6.2832 0 -1.5708 hinge x negative limit Geometry |
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126 | 16. hxp = 1.5708 f 0 6.2832 1.5708 hinge x positive limit Geometry |
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127 | 17. hyn = -1.5708 f -6.2832 0 -1.5708 hinge y negative limit Geometry |
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128 | 18. hyp = 1.5708 f 0 6.2832 1.5708 hinge y positive limit Geometry |
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129 | 19. stif = 1.0 f 0.0 1.0 1.0 stiffness Other properties |
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130 | 20. rotstif = 1.0 f 0.0 1.0 1.0 rotation stiffness Other properties |
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131 | 21. stam = 0.175 f 0.0 1.0 0.25 stamina Other properties |
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132 | 22. i = s info Other properties |
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133 | 23. Vstyle = joint s 0 0 joint vis_style Visual |
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134 | 24. vr = 0.5 f 0.0 1.0 1.0 red component Visual |
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135 | 25. vg = 0.5 f 0.0 1.0 1.0 green component Visual |
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136 | 26. vb = 0.5 f 0.0 1.0 1.0 blue component Visual |
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137 | |
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138 | Actually, there are two kinds of Joints: delta and absolute. |
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139 | For this object, Joint::isDelta() returns 1, so this is the delta Joint. |
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140 | |
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141 | Delta fields (dx,dy,dz) describe relative location of the second part. |
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142 | This joint will change the second Part's positions to preserve delta distance. |
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143 | Let's move the first Part (#1) along y axis (+0.1) and change delta.z (dz) by 0.1. |
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144 | Position of the second Part referenced by this joint (part #2) is now changed: |
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145 | |
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146 | p:fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.5, 0.5 |
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147 | p:1.0, fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.548814, 0.5 |
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148 | p:2.0, z=0.1, fr=0.976, ing=0.475, as=0.175, vr=0.5, 0.5, 0.5 |
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149 | j:0, 1, dx=1.0, 0.0, 0.0, stam=0.15625, vr=0.5, 0.5, 0.5 |
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150 | j:1, 2, dx=1.0, 0.0, 0.1, stam=0.175, vr=0.5, 0.5, 0.5 |
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151 | n:j=0, d=@:p=0.6543 |
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152 | n:j=1, d=G |
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153 | c:0, 1, -1.23456 |
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154 | |
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155 | If no delta fields are defined, they will be computed automatically. |
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156 | You can always delete existing delta values by using Joint::resetDelta(). |
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157 | Now we will change the second Part's z position by -0.2 and call resetDelta()... |
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158 | As you can see, Joint's delta fields have altered: |
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159 | |
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160 | p:fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.5, 0.5 |
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161 | p:1.0, fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.548814, 0.5 |
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162 | p:2.0, z=-0.1, fr=0.976, ing=0.475, as=0.175, vr=0.5, 0.5, 0.5 |
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163 | j:0, 1, dx=1.0, 0.0, 0.0, stam=0.15625, vr=0.5, 0.5, 0.5 |
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164 | j:1, 2, dx=1.0, 0.0, -0.1, stam=0.175, vr=0.5, 0.5, 0.5 |
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165 | n:j=0, d=@:p=0.6543 |
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166 | n:j=1, d=G |
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167 | c:0, 1, -1.23456 |
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168 | |
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169 | How would this joint look like with delta option disabled? |
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170 | [ by calling Joint::useDelta(0) ] |
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171 | f0 is now: |
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172 | |
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173 | p:fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.5, 0.5 |
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174 | p:1.0, fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.548814, 0.5 |
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175 | p:2.0, z=-0.1, fr=0.976, ing=0.475, as=0.175, vr=0.5, 0.5, 0.5 |
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176 | j:0, 1, dx=1.0, 0.0, 0.0, stam=0.15625, vr=0.5, 0.5, 0.5 |
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177 | j:1, 2, stam=0.175, vr=0.5, 0.5, 0.5 |
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178 | n:j=0, d=@:p=0.6543 |
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179 | n:j=1, d=G |
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180 | c:0, 1, -1.23456 |
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181 | |
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182 | ...so this is an absolute joint. |
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183 | |
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184 | Absolute Joints adapt to its Parts' positions. |
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185 | We can move a Part, and it does not influence the second part, nor the Joint. |
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186 | Let's move the first Part along y axis by -0.1... |
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187 | The Part's position is changed, but everything else stays intact: |
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188 | |
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189 | p:fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.5, 0.5 |
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190 | p:1.0, fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.548814, 0.5 |
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191 | p:2.0, z=-0.1, fr=0.976, ing=0.475, as=0.175, vr=0.5, 0.5, 0.5 |
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192 | j:0, 1, dx=1.0, 0.0, 0.0, stam=0.15625, vr=0.5, 0.5, 0.5 |
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193 | j:1, 2, stam=0.175, vr=0.5, 0.5, 0.5 |
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194 | n:j=0, d=@:p=0.6543 |
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195 | n:j=1, d=G |
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196 | c:0, 1, -1.23456 |
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197 | |
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198 | Part references and delta fields are the 'core' properties of the Joint. |
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199 | The other properties are available from Joint::extraProperties() |
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200 | and at the moment are defined as follows: |
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201 | |
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202 | # id type name group (5 properties) |
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203 | 0. stif = 1.0 f 0.0 1.0 1.0 stiffness Extra properties |
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204 | 1. rotstif = 1.0 f 0.0 1.0 1.0 rotation stiffness Extra properties |
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205 | 2. vr = 0.5 f 0.0 1.0 1.0 red component Extra properties |
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206 | 3. vg = 0.5 f 0.0 1.0 1.0 green component Extra properties |
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207 | 4. vb = 0.5 f 0.0 1.0 1.0 blue component Extra properties |
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208 | |
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209 | They can be changed just like Part's extra properties: |
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210 | Change property #0 to random value from range [0..1] |
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211 | Current value of 'stif' (stiffness) is '1.0' |
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212 | Setting new value... [ using ParamInterface::set() ] |
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213 | The value is now '0.592845' |
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214 | And after that we have this genotype: |
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215 | |
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216 | p:fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.5, 0.5 |
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217 | p:1.0, fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.548814, 0.5 |
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218 | p:2.0, z=-0.1, fr=0.976, ing=0.475, as=0.175, vr=0.5, 0.5, 0.5 |
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219 | j:0, 1, dx=1.0, 0.0, 0.0, stam=0.15625, vr=0.5, 0.5, 0.5 |
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220 | j:1, 2, stif=0.592845, stam=0.175, vr=0.5, 0.5, 0.5 |
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221 | n:j=0, d=@:p=0.6543 |
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222 | n:j=1, d=G |
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223 | c:0, 1, -1.23456 |
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224 | |
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225 | ############################################# |
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226 | ## ## |
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227 | ## N E U R O O B J E C T ## |
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228 | ## ## |
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229 | ############################################# |
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230 | (neuro # 1) |
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231 | Basic features of Neuro object are similar to those of Part and Joint. |
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232 | We can request a property list: |
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233 | |
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234 | # id type name group (10 properties) |
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235 | 0. p = -1 d -1 999999 -1 part ref# Connections |
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236 | 1. j = 1 d -1 999999 -1 joint ref# Connections |
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237 | 2. d = G s details Other |
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238 | 3. i = s info Other |
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239 | 4. Vstyle = neuro s 0 0 neuro vis_style Visual |
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240 | 5. getInputCount = 0 d input count Connections |
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241 | 9. classObject = null oNeuroClass neuron class Connections |
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242 | |
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243 | ...and extra properties (which are designed to be always valid and easy to change): |
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244 | |
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245 | # id type name group (0 properties) |
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246 | |
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247 | As usual, we will change something: |
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248 | Each neuron can have any number of inputs = weighted connections |
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249 | with other neurons. |
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250 | According to Neuro::getInputCount(), this one has 0 inputs. |
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251 | Standard API is provided for accessing those inputs (getInput(int)), |
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252 | adding inputs (addInput(Neuro*)) and removing them (removeInput(int)). |
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253 | |
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254 | |
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255 | The most unusual thing is 'details' field (d). |
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256 | It is something like separate object with its own set of properties. |
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257 | Currently the value of 'd' is 'G'. |
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258 | 'G' is the class name (Neuro::getClassName() == 'G') and means 'Gyroscope'. |
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259 | Neuro::getClass() gives you information about basic characteristic |
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260 | of the class, that can be analyzed automatically. |
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261 | For the current object we can learn that it supports no inputs (getPreferredInputs()) and provides meaningful output signal (getPreferredOutput()==1). |
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262 | Instances of 'G' can be used in models having shape types: 'ball-and-stick'. |
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263 | Instances of 'G' can be attached to Joints having any shapes. |
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264 | (This class does not have its own properties |
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265 | - Neuro::classProperties().getPropCount()==0) |
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266 | The class of this object can be changed using Neuro::setClassName() |
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267 | The following classes are available: |
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268 | [ data provided by Neuro::getClassInfo()->getProperties() ] |
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269 | |
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270 | # class description properties |
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271 | 0. N Neuron 4 |
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272 | 1. Nu Unipolar neuron [EXPERIMENTAL!] 4 |
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273 | 2. G Gyroscope 0 |
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274 | 3. Gpart Part Gyroscope 2 |
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275 | 4. T Touch 3 |
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276 | 5.Tcontact Touch contact 0 |
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277 | 6.Tproximity Touch proximity 3 |
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278 | 7. S Smell 0 |
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279 | 8. * Constant 0 |
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280 | 9. | Bend muscle 2 |
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281 | 10. @ Rotation muscle 1 |
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282 | 11. M Muscle for solids 2 |
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283 | 12. D Differentiate 0 |
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284 | 13. Fuzzy Fuzzy system [EXPERIMENTAL!] 4 |
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285 | 14. Sti Sticky [EXPERIMENTAL!] 0 |
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286 | 15. LMu Linear muscle [EXPERIMENTAL!] 1 |
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287 | 16. Water Water detector 0 |
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288 | 17.Energy Energy level 0 |
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289 | 18. Ch Channelize 0 |
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290 | 19. ChMux Channel multiplexer 0 |
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291 | 20. ChSel Channel selector 1 |
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292 | 21. Rnd Random noise 0 |
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293 | 22. Sin Sinus generator 2 |
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294 | |
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295 | Let's change the Neuro's class to 'N'... |
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296 | # id type name group (4 properties) |
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297 | 0. in = 0.8 f 0.0 1.0 0.8 Inertia (null) |
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298 | 1. fo = 0.04 f 0.0 999.0 0.04 Force (null) |
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299 | 2. si = 2.0 f -99999.0 99999.0 2.0 Sigmoid (null) |
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300 | 3. s = 0.0 f -1.0 1.0 0.0 State (null) |
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301 | Change property #2 to random value from range [-99999..99999] |
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302 | Current value of 'si' (Sigmoid) is '2.0' |
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303 | Setting new value... [ using ParamInterface::set() ] |
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304 | The value is now '43037.4' |
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305 | The final object description will be then: 'N:si=43037.4' |
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306 | And the full f0 genotype: |
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307 | |
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308 | p:fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.5, 0.5 |
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309 | p:1.0, fr=1.12, ing=0.53125, as=0.15625, vr=0.5, 0.548814, 0.5 |
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310 | p:2.0, z=-0.1, fr=0.976, ing=0.475, as=0.175, vr=0.5, 0.5, 0.5 |
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311 | j:0, 1, dx=1.0, 0.0, 0.0, stam=0.15625, vr=0.5, 0.5, 0.5 |
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312 | j:1, 2, stif=0.592845, stam=0.175, vr=0.5, 0.5, 0.5 |
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313 | n:j=0, d=@:p=0.6543 |
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314 | n:j=1, d=N:si=43037.4 |
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315 | c:0, 1, -1.23456 |
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316 | |
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317 | |
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318 | ######### THE END ########### |
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319 | |
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320 | Hints: |
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321 | 1. You can redirect output: genomanipulation >filename.txt |
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322 | 2. Each run can yield different results and new behaviors, but you |
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323 | need to uncomment srand(time(0)) in genomanipulation.cpp. |
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324 | 3. This application will use custom genotype passed as |
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325 | a commandline parameter: genomanipulation "/*9*/FULU" |
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326 | |
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327 | |
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