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1 #+title: First attempt at a creature!
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2 #+author: Robert McIntyre
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3 #+email: rlm@mit.edu
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4 #+description:
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5 #+keywords: simulation, jMonkeyEngine3, clojure
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6 #+SETUPFILE: ../../aurellem/org/setup.org
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7 #+INCLUDE: ../../aurellem/org/level-0.org
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8
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9
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10 * objectives
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11 - [ ] get an overall bitmap-like image for touch
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12 - [ ] write code to visuliaze this bitmap
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13 - [ ] directly change the UV-pixels to show touch sensor activation
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14 - [ ] write an explination for why b&w bitmaps for senses is appropiate
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15 - [ ] clean up touch code and write visulazation test
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16 - [ ] do the same for eyes
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17
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18 * Intro
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19 So far, I've made the following senses --
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20 - Vision
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21 - Hearing
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22 - Touch
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23 - Proprioception
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24
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25 And one effector:
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26 - Movement
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27
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28 However, the code so far has only enabled these senses, but has not
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29 actually implemented them. For example, there is still a lot of work
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30 to be done for vision. I need to be able to create an /eyeball/ in
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31 simulation that can be moved around and see the world from different
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32 angles. I also need to determine weather to use log-polar or cartesian
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33 for the visual input, and I need to determine how/wether to
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34 disceritise the visual input.
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35
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36 I also want to be able to visualize both the sensors and the
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37 effectors in pretty pictures. This semi-retarted creature will by my
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38 first attempt at bringing everything together.
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39
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40 * The creature's body
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41
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42 Still going to do an eve-like body in blender, but due to problems
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43 importing the joints, etc into jMonkeyEngine3, I',m going to do all
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44 the connecting here in clojure code, using the names of the individual
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45 components and trial and error. Later, I'll maybe make some sort of
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46 creature-building modifications to blender that support whatever
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47 discreitized senses I'm going to make.
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48
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49 #+name: body-1
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50 #+begin_src clojure
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51 (ns cortex.silly
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52 "let's play!"
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53 {:author "Robert McIntyre"})
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54
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55 ;; TODO remove this!
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56 (require 'cortex.import)
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57 (cortex.import/mega-import-jme3)
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58 (use '(cortex world util body hearing touch vision))
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59
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60 (rlm.rlm-commands/help)
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61 (import java.awt.image.BufferedImage)
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62 (import javax.swing.JPanel)
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63 (import javax.swing.SwingUtilities)
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64 (import java.awt.Dimension)
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65 (import javax.swing.JFrame)
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66 (import java.awt.Dimension)
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67 (declare joint-create)
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68
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69 (defn view-image
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70 "Initailizes a JPanel on which you may draw a BufferedImage.
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71 Returns a function that accepts a BufferedImage and draws it to the
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72 JPanel."
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73 []
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74 (let [image
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75 (atom
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76 (BufferedImage. 1 1 BufferedImage/TYPE_4BYTE_ABGR))
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77 panel
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78 (proxy [JPanel] []
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79 (paint
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80 [graphics]
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81 (proxy-super paintComponent graphics)
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82 (.drawImage graphics @image 0 0 nil)))
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83 frame (JFrame. "Display Image")]
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84 (SwingUtilities/invokeLater
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85 (fn []
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86 (doto frame
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87 (-> (.getContentPane) (.add panel))
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88 (.pack)
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89 (.setLocationRelativeTo nil)
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90 (.setResizable true)
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91 (.setVisible true))))
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92 (fn [#^BufferedImage i]
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93 (reset! image i)
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94 (.setSize frame (+ 8 (.getWidth i)) (+ 28 (.getHeight i)))
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95 (.repaint panel 0 0 (.getWidth i) (.getHeight i)))))
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96
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97 (defn points->image
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98 "Take a sparse collection of points and visuliaze it as a
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99 BufferedImage."
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100
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101 ;; TODO maybe parallelize this since it's easy
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102
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103 [points]
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104 (let [xs (vec (map first points))
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105 ys (vec (map second points))
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106 x0 (apply min xs)
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107 y0 (apply min ys)
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108 width (- (apply max xs) x0)
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109 height (- (apply max ys) y0)
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110 image (BufferedImage. (inc width) (inc height)
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111 BufferedImage/TYPE_BYTE_BINARY)]
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112 (dorun
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113 (for [index (range (count points))]
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114 (.setRGB image (- (xs index) x0) (- (ys index) y0) -1)))
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115
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116 image))
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117
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118 (defn test-data
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119 []
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120 (vec
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121 (for [a (range 0 1000 2)
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122 b (range 0 1000 2)]
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123 (vector a b))
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124 ))
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125
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126 (defn average [coll]
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127 (/ (reduce + coll) (count coll)))
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128
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129 (defn collapse-1d
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130 "One dimensional analogue of collapse"
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131 [center line]
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132 (let [length (count line)
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133 num-above (count (filter (partial < center) line))
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134 num-below (- length num-above)]
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135 (range (- center num-below)
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136 (+ center num-above))
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137 ))
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138
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139 (defn collapse
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140 "Take a set of pairs of integers and collapse them into a
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141 contigous bitmap."
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142 [points]
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143 (let
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144 [num-points (count points)
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145 center (vector
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146 (int (average (map first points)))
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147 (int (average (map first points))))
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148 flattened
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149 (reduce
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150 concat
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151 (map
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152 (fn [column]
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153 (map vector
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154 (map first column)
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155 (collapse-1d (second center)
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156 (map second column))))
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157 (partition-by first (sort-by first points))))
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158 squeezed
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159 (reduce
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160 concat
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161 (map
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162 (fn [row]
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163 (map vector
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164 (collapse-1d (first center)
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165 (map first row))
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166 (map second row)))
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167 (partition-by second (sort-by second flattened))))
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168 ;;vi (view-image)
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169 relocate
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170 (let [min-x (apply min (map first squeezed))
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171 min-y (apply min (map second squeezed))]
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172 (map (fn [[x y]]
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173 [(- x min-x)
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174 (- y min-y)])
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175 squeezed))
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176 ]
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177 ;;(vi (points->image points))
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178 ;;(Thread/sleep 1000)
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179 ;;(vi (points->image flattened))
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180 ;;(Thread/sleep 1000)
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181 ;;(vi (points->image squeezed))
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182 relocate
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183 ))
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184
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185 (defn load-bullet []
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186 (let [sim (world (Node.) {} no-op no-op)]
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187 (doto sim
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188 (.enqueue
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189 (fn []
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190 (.stop sim)))
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191 (.start))))
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192
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193 (defn load-blender-model
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194 "Load a .blend file using an asset folder relative path."
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195 [^String model]
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196 (.loadModel
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197 (doto (asset-manager)
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198 (.registerLoader BlenderModelLoader (into-array String ["blend"])))
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199 model))
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200
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201 (defn meta-data [blender-node key]
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202 (if-let [data (.getUserData blender-node "properties")]
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203 (.findValue data key)
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204 nil))
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205
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206 (defn blender-to-jme
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207 "Convert from Blender coordinates to JME coordinates"
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208 [#^Vector3f in]
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209 (Vector3f. (.getX in)
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210 (.getZ in)
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211 (- (.getY in))))
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212
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213 (defn jme-to-blender
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214 "Convert from JME coordinates to Blender coordinates"
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215 [#^Vector3f in]
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216 (Vector3f. (.getX in)
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217 (- (.getZ in))
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218 (.getY in)))
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219
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220 (defn joint-targets
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221 "Return the two closest two objects to the joint object, ordered
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222 from bottom to top according to the joint's rotation."
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223 [#^Node parts #^Node joint]
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224 ;;(println (meta-data joint "joint"))
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225 (.getWorldRotation joint)
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226 (loop [radius (float 0.01)]
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227 (let [results (CollisionResults.)]
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228 (.collideWith
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229 parts
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230 (BoundingBox. (.getWorldTranslation joint)
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231 radius radius radius)
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232 results)
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233 (let [targets
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234 (distinct
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235 (map #(.getGeometry %) results))]
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236 (if (>= (count targets) 2)
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237 (sort-by
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238 #(let [v
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239 (jme-to-blender
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240 (.mult
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241 (.inverse (.getWorldRotation joint))
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242 (.subtract (.getWorldTranslation %)
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243 (.getWorldTranslation joint))))]
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rlm@79
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244 (println-repl (.getName %) ":" v)
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245 (.dot (Vector3f. 1 1 1)
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246 v))
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247 (take 2 targets))
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248 (recur (float (* radius 2))))))))
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249
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250 (defn world-to-local
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251 "Convert the world coordinates into coordinates relative to the
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252 object (i.e. local coordinates), taking into account the rotation
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253 of object."
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254 [#^Spatial object world-coordinate]
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255 (let [out (Vector3f.)]
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256 (.worldToLocal object world-coordinate out) out))
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257
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258 (defn local-to-world
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259 "Convert the local coordinates into coordinates into world relative
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260 coordinates"
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261 [#^Spatial object local-coordinate]
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262 (let [world-coordinate (Vector3f.)]
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263 (.localToWorld object local-coordinate world-coordinate)
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264 world-coordinate))
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265
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266
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267 (defmulti joint-dispatch
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268 "Translate blender pseudo-joints into real JME joints."
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269 (fn [constraints & _]
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270 (:type constraints)))
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271
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272 (defmethod joint-dispatch :point
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273 [constraints control-a control-b pivot-a pivot-b rotation]
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274 (println-repl "creating POINT2POINT joint")
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275 (Point2PointJoint.
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276 control-a
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277 control-b
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278 pivot-a
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279 pivot-b))
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280
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281 (defmethod joint-dispatch :hinge
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282 [constraints control-a control-b pivot-a pivot-b rotation]
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283 (println-repl "creating HINGE joint")
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284 (let [axis
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285 (if-let
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286 [axis (:axis constraints)]
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287 axis
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288 Vector3f/UNIT_X)
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289 [limit-1 limit-2] (:limit constraints)
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290 hinge-axis
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291 (.mult
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292 rotation
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293 (blender-to-jme axis))]
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294 (doto
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295 (HingeJoint.
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296 control-a
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297 control-b
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298 pivot-a
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299 pivot-b
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300 hinge-axis
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301 hinge-axis)
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302 (.setLimit limit-1 limit-2))))
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303
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304 (defmethod joint-dispatch :cone
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305 [constraints control-a control-b pivot-a pivot-b rotation]
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306 (let [limit-xz (:limit-xz constraints)
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307 limit-xy (:limit-xy constraints)
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308 twist (:twist constraints)]
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309
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310 (println-repl "creating CONE joint")
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311 (println-repl rotation)
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312 (println-repl
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313 "UNIT_X --> " (.mult rotation (Vector3f. 1 0 0)))
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314 (println-repl
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315 "UNIT_Y --> " (.mult rotation (Vector3f. 0 1 0)))
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316 (println-repl
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317 "UNIT_Z --> " (.mult rotation (Vector3f. 0 0 1)))
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318 (doto
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319 (ConeJoint.
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320 control-a
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321 control-b
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322 pivot-a
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323 pivot-b
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324 rotation
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325 rotation)
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326 (.setLimit (float limit-xz)
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327 (float limit-xy)
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328 (float twist)))))
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329
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330 (defn connect
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331 "here are some examples:
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332 {:type :point}
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333 {:type :hinge :limit [0 (/ Math/PI 2)] :axis (Vector3f. 0 1 0)}
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334 (:axis defaults to (Vector3f. 1 0 0) if not provided for hinge joints)
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335
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336 {:type :cone :limit-xz 0]
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337 :limit-xy 0]
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338 :twist 0]} (use XZY rotation mode in blender!)"
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339 [#^Node obj-a #^Node obj-b #^Node joint]
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340 (let [control-a (.getControl obj-a RigidBodyControl)
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341 control-b (.getControl obj-b RigidBodyControl)
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342 joint-center (.getWorldTranslation joint)
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343 joint-rotation (.toRotationMatrix (.getWorldRotation joint))
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344 pivot-a (world-to-local obj-a joint-center)
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345 pivot-b (world-to-local obj-b joint-center)]
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346
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347 (if-let [constraints
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348 (map-vals
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349 eval
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350 (read-string
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351 (meta-data joint "joint")))]
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rlm@89
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352 ;; A side-effect of creating a joint registers
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353 ;; it with both physics objects which in turn
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354 ;; will register the joint with the physics system
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355 ;; when the simulation is started.
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356 (do
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357 (println-repl "creating joint between"
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358 (.getName obj-a) "and" (.getName obj-b))
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359 (joint-dispatch constraints
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360 control-a control-b
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361 pivot-a pivot-b
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362 joint-rotation))
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363 (println-repl "could not find joint meta-data!"))))
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364
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365 (defn assemble-creature [#^Node pieces joints]
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366 (dorun
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rlm@78
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367 (map
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368 (fn [geom]
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369 (let [physics-control
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370 (RigidBodyControl.
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371 (HullCollisionShape.
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rlm@78
|
372 (.getMesh geom))
|
rlm@78
|
373 (if-let [mass (meta-data geom "mass")]
|
rlm@78
|
374 (do
|
rlm@78
|
375 (println-repl
|
rlm@78
|
376 "setting" (.getName geom) "mass to" (float mass))
|
rlm@78
|
377 (float mass))
|
rlm@78
|
378 (float 1)))]
|
rlm@78
|
379
|
rlm@78
|
380 (.addControl geom physics-control)))
|
rlm@78
|
381 (filter #(isa? (class %) Geometry )
|
rlm@78
|
382 (node-seq pieces))))
|
rlm@78
|
383 (dorun
|
rlm@78
|
384 (map
|
rlm@78
|
385 (fn [joint]
|
rlm@78
|
386 (let [[obj-a obj-b]
|
rlm@78
|
387 (joint-targets pieces joint)]
|
rlm@88
|
388 (connect obj-a obj-b joint)))
|
rlm@78
|
389 joints))
|
rlm@78
|
390 pieces)
|
rlm@74
|
391
|
rlm@78
|
392 (defn blender-creature [blender-path]
|
rlm@78
|
393 (let [model (load-blender-model blender-path)
|
rlm@78
|
394 joints
|
rlm@78
|
395 (if-let [joint-node (.getChild model "joints")]
|
rlm@78
|
396 (seq (.getChildren joint-node))
|
rlm@78
|
397 (do (println-repl "could not find joints node")
|
rlm@78
|
398 []))]
|
rlm@78
|
399 (assemble-creature model joints)))
|
rlm@74
|
400
|
rlm@78
|
401 (def hand "Models/creature1/one.blend")
|
rlm@74
|
402
|
rlm@78
|
403 (def worm "Models/creature1/try-again.blend")
|
rlm@78
|
404
|
rlm@90
|
405 (def touch "Models/creature1/touch.blend")
|
rlm@90
|
406
|
rlm@90
|
407 (defn worm-model [] (load-blender-model worm))
|
rlm@90
|
408
|
rlm@80
|
409 (defn x-ray [#^ColorRGBA color]
|
rlm@80
|
410 (doto (Material. (asset-manager)
|
rlm@80
|
411 "Common/MatDefs/Misc/Unshaded.j3md")
|
rlm@80
|
412 (.setColor "Color" color)
|
rlm@80
|
413 (-> (.getAdditionalRenderState)
|
rlm@80
|
414 (.setDepthTest false))))
|
rlm@80
|
415
|
rlm@78
|
416 (defn test-creature [thing]
|
rlm@80
|
417 (let [x-axis
|
rlm@80
|
418 (box 1 0.01 0.01 :physical? false :color ColorRGBA/Red)
|
rlm@80
|
419 y-axis
|
rlm@80
|
420 (box 0.01 1 0.01 :physical? false :color ColorRGBA/Green)
|
rlm@80
|
421 z-axis
|
rlm@80
|
422 (box 0.01 0.01 1 :physical? false :color ColorRGBA/Blue)]
|
rlm@78
|
423 (world
|
rlm@78
|
424 (nodify [(blender-creature thing)
|
rlm@81
|
425 (box 10 2 10 :position (Vector3f. 0 -9 0)
|
rlm@80
|
426 :color ColorRGBA/Gray :mass 0)
|
rlm@80
|
427 x-axis y-axis z-axis
|
rlm@80
|
428 ])
|
rlm@78
|
429 standard-debug-controls
|
rlm@90
|
430 (fn [world]
|
rlm@90
|
431 (light-up-everything world)
|
rlm@90
|
432 (enable-debug world)
|
rlm@90
|
433 ;;(com.aurellem.capture.Capture/captureVideo
|
rlm@90
|
434 ;; world (file-str "/home/r/proj/ai-videos/hand"))
|
rlm@90
|
435 (.setTimer world (NanoTimer.))
|
rlm@93
|
436 (set-gravity world (Vector3f. 0 0 0))
|
rlm@90
|
437 (speed-up world)
|
rlm@90
|
438 )
|
rlm@90
|
439 no-op
|
rlm@90
|
440 ;;(let [timer (atom 0)]
|
rlm@90
|
441 ;; (fn [_ _]
|
rlm@90
|
442 ;; (swap! timer inc)
|
rlm@90
|
443 ;; (if (= (rem @timer 60) 0)
|
rlm@90
|
444 ;; (println-repl (float (/ @timer 60))))))
|
rlm@90
|
445 )))
|
rlm@90
|
446
|
rlm@91
|
447 (defn colorful []
|
rlm@91
|
448 (.getChild (worm-model) "worm-21"))
|
rlm@90
|
449
|
rlm@90
|
450 (import jme3tools.converters.ImageToAwt)
|
rlm@90
|
451
|
rlm@90
|
452 (import ij.ImagePlus)
|
rlm@90
|
453
|
rlm@90
|
454 (defn triangle-indices
|
rlm@90
|
455 "Get the triangle vertex indices of a given triangle from a given
|
rlm@90
|
456 mesh."
|
rlm@90
|
457 [#^Mesh mesh triangle-index]
|
rlm@90
|
458 (let [indices (int-array 3)]
|
rlm@90
|
459 (.getTriangle mesh triangle-index indices)
|
rlm@90
|
460 (vec indices)))
|
rlm@90
|
461
|
rlm@90
|
462 (defn uv-coord
|
rlm@90
|
463 "Get the uv-coordinates of the vertex named by vertex-index"
|
rlm@90
|
464 [#^Mesh mesh vertex-index]
|
rlm@90
|
465 (let [UV-buffer
|
rlm@90
|
466 (.getData
|
rlm@90
|
467 (.getBuffer
|
rlm@90
|
468 mesh
|
rlm@90
|
469 VertexBuffer$Type/TexCoord))]
|
rlm@91
|
470 (Vector2f.
|
rlm@91
|
471 (.get UV-buffer (* vertex-index 2))
|
rlm@91
|
472 (.get UV-buffer (+ 1 (* vertex-index 2))))))
|
rlm@90
|
473
|
rlm@93
|
474 (defn tri-uv-coord
|
rlm@93
|
475 "Get the uv-cooridnates of the triangle's verticies."
|
rlm@93
|
476 [#^Mesh mesh #^Triangle triangle]
|
rlm@93
|
477 (map (partial uv-coord mesh)
|
rlm@93
|
478 (triangle-indices mesh (.getIndex triangle))))
|
rlm@93
|
479
|
rlm@91
|
480 (defn touch-receptor-image
|
rlm@97
|
481 "Return the touch-sensor distribution image in ImagePlus format, or
|
rlm@97
|
482 nil if it does not exist."
|
rlm@91
|
483 [#^Geometry obj]
|
rlm@97
|
484 (let [mat (.getMaterial obj)]
|
rlm@97
|
485 (if-let [texture-param
|
rlm@97
|
486 (.getTextureParam
|
rlm@97
|
487 mat
|
rlm@97
|
488 MaterialHelper/TEXTURE_TYPE_DIFFUSE)]
|
rlm@97
|
489 (let
|
rlm@97
|
490 [texture
|
rlm@97
|
491 (.getTextureValue texture-param)
|
rlm@97
|
492 im (.getImage texture)]
|
rlm@97
|
493 (ImagePlus.
|
rlm@97
|
494 "UV-map"
|
rlm@97
|
495 (ImageToAwt/convert im false false 0))))))
|
rlm@91
|
496
|
rlm@91
|
497 (import ij.process.ImageProcessor)
|
rlm@91
|
498 (import java.awt.image.BufferedImage)
|
rlm@91
|
499
|
rlm@91
|
500 (defprotocol Frame
|
rlm@91
|
501 (frame [this]))
|
rlm@91
|
502
|
rlm@91
|
503 (extend-type BufferedImage
|
rlm@91
|
504 Frame
|
rlm@91
|
505 (frame [image]
|
rlm@91
|
506 (merge
|
rlm@91
|
507 (apply
|
rlm@91
|
508 hash-map
|
rlm@91
|
509 (interleave
|
rlm@91
|
510 (doall (for [x (range (.getWidth image)) y (range (.getHeight image))]
|
rlm@91
|
511 (vector x y)))
|
rlm@91
|
512 (doall (for [x (range (.getWidth image)) y (range (.getHeight image))]
|
rlm@91
|
513 (let [data (.getRGB image x y)]
|
rlm@91
|
514 (hash-map :r (bit-shift-right (bit-and 0xff0000 data) 16)
|
rlm@91
|
515 :g (bit-shift-right (bit-and 0x00ff00 data) 8)
|
rlm@91
|
516 :b (bit-and 0x0000ff data)))))))
|
rlm@91
|
517 {:width (.getWidth image) :height (.getHeight image)})))
|
rlm@91
|
518
|
rlm@91
|
519
|
rlm@91
|
520 (extend-type ImagePlus
|
rlm@91
|
521 Frame
|
rlm@91
|
522 (frame [image+]
|
rlm@91
|
523 (frame (.getBufferedImage image+))))
|
rlm@91
|
524
|
rlm@94
|
525
|
rlm@92
|
526 (def white -1)
|
rlm@94
|
527
|
rlm@91
|
528 (defn filter-pixels
|
rlm@91
|
529 "List the coordinates of all pixels matching pred."
|
rlm@92
|
530 {:author "Dylan Holmes"}
|
rlm@91
|
531 [pred #^ImageProcessor ip]
|
rlm@91
|
532 (let
|
rlm@91
|
533 [width (.getWidth ip)
|
rlm@91
|
534 height (.getHeight ip)]
|
rlm@91
|
535 ((fn accumulate [x y matches]
|
rlm@91
|
536 (cond
|
rlm@91
|
537 (>= y height) matches
|
rlm@91
|
538 (>= x width) (recur 0 (inc y) matches)
|
rlm@91
|
539 (pred (.getPixel ip x y))
|
rlm@91
|
540 (recur (inc x) y (conj matches (Vector2f. x y)))
|
rlm@91
|
541 :else (recur (inc x) y matches)))
|
rlm@91
|
542 0 0 [])))
|
rlm@91
|
543
|
rlm@91
|
544 (defn white-coordinates
|
rlm@91
|
545 "List the coordinates of all the white pixels in an image."
|
rlm@91
|
546 [#^ImageProcessor ip]
|
rlm@92
|
547 (filter-pixels #(= % white) ip))
|
rlm@91
|
548
|
rlm@102
|
549 (defn same-side?
|
rlm@102
|
550 "Given the points p1 and p2 and the reference point ref, is point p
|
rlm@102
|
551 on the same side of the line that goes through p1 and p2 as ref is?"
|
rlm@102
|
552 [p1 p2 ref p]
|
rlm@91
|
553 (<=
|
rlm@91
|
554 0
|
rlm@91
|
555 (.dot
|
rlm@91
|
556 (.cross (.subtract p2 p1) (.subtract p p1))
|
rlm@91
|
557 (.cross (.subtract p2 p1) (.subtract ref p1)))))
|
rlm@91
|
558
|
rlm@94
|
559 (defn triangle->matrix4f
|
rlm@94
|
560 "Converts the triangle into a 4x4 matrix of vertices: The first
|
rlm@94
|
561 three columns contain the vertices of the triangle; the last
|
rlm@94
|
562 contains the unit normal of the triangle. The bottom row is filled
|
rlm@94
|
563 with 1s."
|
rlm@94
|
564 [#^Triangle t]
|
rlm@94
|
565 (let [mat (Matrix4f.)
|
rlm@94
|
566 [vert-1 vert-2 vert-3]
|
rlm@94
|
567 ((comp vec map) #(.get t %) (range 3))
|
rlm@94
|
568 unit-normal (do (.calculateNormal t)(.getNormal t))
|
rlm@94
|
569 vertices [vert-1 vert-2 vert-3 unit-normal]]
|
rlm@94
|
570 (dorun
|
rlm@94
|
571 (for [row (range 4) col (range 3)]
|
rlm@94
|
572 (do
|
rlm@94
|
573 (.set mat col row (.get (vertices row)col))
|
rlm@94
|
574 (.set mat 3 row 1))))
|
rlm@94
|
575 mat))
|
rlm@94
|
576
|
rlm@94
|
577 (defn triangle-transformation
|
rlm@94
|
578 "Returns the affine transformation that converts each vertex in the
|
rlm@94
|
579 first triangle into the corresponding vertex in the second
|
rlm@94
|
580 triangle."
|
rlm@94
|
581 [#^Triangle tri-1 #^Triangle tri-2]
|
rlm@94
|
582 (.mult
|
rlm@94
|
583 (triangle->matrix4f tri-2)
|
rlm@94
|
584 (.invert (triangle->matrix4f tri-1))))
|
rlm@94
|
585
|
rlm@94
|
586 (def death (Triangle.
|
rlm@94
|
587 (Vector3f. 1 1 1)
|
rlm@94
|
588 (Vector3f. 1 2 3)
|
rlm@94
|
589 (Vector3f. 5 6 7)))
|
rlm@94
|
590
|
rlm@94
|
591 (def death-2 (Triangle.
|
rlm@94
|
592 (Vector3f. 2 2 2)
|
rlm@94
|
593 (Vector3f. 1 1 1)
|
rlm@94
|
594 (Vector3f. 0 1 0)))
|
rlm@94
|
595
|
rlm@94
|
596 (defn vector2f->vector3f [v]
|
rlm@94
|
597 (Vector3f. (.getX v) (.getY v) 0))
|
rlm@94
|
598
|
rlm@94
|
599 (extend-type Triangle
|
rlm@94
|
600 Textual
|
rlm@94
|
601 (text [t]
|
rlm@94
|
602 (println "Triangle: " \newline (.get1 t) \newline
|
rlm@94
|
603 (.get2 t) \newline (.get3 t))))
|
rlm@94
|
604
|
rlm@94
|
605 (defn map-triangle [f #^Triangle tri]
|
rlm@94
|
606 (Triangle.
|
rlm@94
|
607 (f 0 (.get1 tri))
|
rlm@94
|
608 (f 1 (.get2 tri))
|
rlm@94
|
609 (f 2 (.get3 tri))))
|
rlm@94
|
610
|
rlm@94
|
611 (defn triangle-seq [#^Triangle tri]
|
rlm@94
|
612 [(.get1 tri) (.get2 tri) (.get3 tri)])
|
rlm@94
|
613
|
rlm@94
|
614 (defn vector3f-seq [#^Vector3f v]
|
rlm@94
|
615 [(.getX v) (.getY v) (.getZ v)])
|
rlm@94
|
616
|
rlm@91
|
617 (defn inside-triangle?
|
rlm@94
|
618 "Is the point inside the triangle? Now what do we do?
|
rlm@94
|
619 You might want to hold on there"
|
rlm@95
|
620 {:author "Dylan Holmes"}
|
rlm@94
|
621 [tri p]
|
rlm@94
|
622 (let [[vert-1 vert-2 vert-3] (triangle-seq tri)]
|
rlm@94
|
623 (and
|
rlm@94
|
624 (same-side? vert-1 vert-2 vert-3 p)
|
rlm@94
|
625 (same-side? vert-2 vert-3 vert-1 p)
|
rlm@94
|
626 (same-side? vert-3 vert-1 vert-2 p))))
|
rlm@91
|
627
|
rlm@94
|
628 (defn uv-triangle
|
rlm@94
|
629 "Convert the mesh triangle into the cooresponding triangle in
|
rlm@94
|
630 UV-space. Z-component of these triangles is always zero."
|
rlm@94
|
631 [#^Mesh mesh #^Triangle tri]
|
rlm@94
|
632 (apply #(Triangle. %1 %2 %3)
|
rlm@94
|
633 (map vector2f->vector3f
|
rlm@94
|
634 (tri-uv-coord mesh tri))))
|
rlm@91
|
635
|
rlm@94
|
636 (defn pixel-triangle
|
rlm@102
|
637 "Convert the mesh triangle into the corresponding triangle in
|
rlm@94
|
638 UV-pixel-space. Z compenent will be zero."
|
rlm@94
|
639 [#^Mesh mesh #^Triangle tri width height]
|
rlm@94
|
640 (map-triangle (fn [_ v]
|
rlm@94
|
641 (Vector3f. (* width (.getX v))
|
rlm@94
|
642 (* height (.getY v))
|
rlm@94
|
643 0))
|
rlm@94
|
644 (uv-triangle mesh tri)))
|
rlm@93
|
645
|
rlm@96
|
646 (def rasterize pixel-triangle)
|
rlm@96
|
647
|
rlm@96
|
648
|
rlm@94
|
649 (defn triangle-bounds
|
rlm@94
|
650 "Dimensions of the bounding square of the triangle in the form
|
rlm@94
|
651 [x y width height].
|
rlm@94
|
652 Assumes that the triangle lies in the XY plane."
|
rlm@94
|
653 [#^Triangle tri]
|
rlm@94
|
654 (let [verts (map vector3f-seq (triangle-seq tri))
|
rlm@94
|
655 x (apply min (map first verts))
|
rlm@94
|
656 y (apply min (map second verts))]
|
rlm@94
|
657 [x y
|
rlm@94
|
658 (- (apply max (map first verts)) x)
|
rlm@94
|
659 (- (apply max (map second verts)) y)
|
rlm@94
|
660 ]))
|
rlm@93
|
661
|
rlm@93
|
662
|
rlm@97
|
663 (defn locate-feelers
|
rlm@94
|
664 "Search the geometry's tactile UV image for touch sensors, returning
|
rlm@94
|
665 their positions in geometry-relative coordinates."
|
rlm@94
|
666 [#^Geometry geo]
|
rlm@97
|
667 (if-let [image (touch-receptor-image geo)]
|
rlm@97
|
668 (let [mesh (.getMesh geo)
|
rlm@97
|
669 tris (triangles geo)
|
rlm@102
|
670
|
rlm@97
|
671 width (.getWidth image)
|
rlm@97
|
672 height (.getHeight image)
|
rlm@97
|
673
|
rlm@97
|
674 ;; for each triangle
|
rlm@97
|
675 sensor-coords
|
rlm@97
|
676 (fn [tri]
|
rlm@97
|
677 ;; translate triangle to uv-pixel-space
|
rlm@97
|
678 (let [uv-tri
|
rlm@97
|
679 (pixel-triangle mesh tri width height)
|
rlm@97
|
680 bounds (vec (triangle-bounds uv-tri))]
|
rlm@97
|
681
|
rlm@97
|
682 ;; get that part of the picture
|
rlm@97
|
683
|
rlm@97
|
684 (apply #(.setRoi image %1 %2 %3 %4) bounds)
|
rlm@97
|
685 (let [cutout (.crop (.getProcessor image))
|
rlm@97
|
686 ;; extract white pixels inside triangle
|
rlm@97
|
687 cutout-tri
|
rlm@97
|
688 (map-triangle
|
rlm@97
|
689 (fn [_ v]
|
rlm@97
|
690 (.subtract
|
rlm@97
|
691 v
|
rlm@97
|
692 (Vector3f. (bounds 0) (bounds 1) (float 0))))
|
rlm@97
|
693 uv-tri)
|
rlm@97
|
694 whites (filter (partial inside-triangle? cutout-tri)
|
rlm@97
|
695 (map vector2f->vector3f
|
rlm@97
|
696 (white-coordinates cutout)))
|
rlm@97
|
697 ;; translate pixel coordinates to world-space
|
rlm@97
|
698 transform (triangle-transformation cutout-tri tri)]
|
rlm@97
|
699 (map #(.mult transform %) whites))))]
|
rlm@97
|
700 (vec (map sensor-coords tris)))
|
rlm@97
|
701 (repeat (count (triangles geo)) [])))
|
rlm@102
|
702
|
rlm@102
|
703 (use 'clojure.contrib.def)
|
rlm@102
|
704
|
rlm@102
|
705 (defn-memo touch-topology [#^Gemoetry geo]
|
rlm@102
|
706 (let [feeler-coords
|
rlm@102
|
707 (map
|
rlm@102
|
708 #(vector (int (.getX %)) (int (.getY %)))
|
rlm@102
|
709 (white-coordinates
|
rlm@102
|
710 (.getProcessor (touch-receptor-image (colorful)))))]
|
rlm@102
|
711 (vec (collapse feeler-coords))))
|
rlm@102
|
712
|
rlm@97
|
713 (defn enable-touch [#^Geometry geo]
|
rlm@97
|
714 (let [feeler-coords (locate-feelers geo)
|
rlm@96
|
715 tris (triangles geo)
|
rlm@97
|
716 limit 0.1]
|
rlm@97
|
717 (fn [node]
|
rlm@97
|
718 (let [sensor-origins
|
rlm@97
|
719 (map
|
rlm@97
|
720 #(map (partial local-to-world geo) %)
|
rlm@97
|
721 feeler-coords)
|
rlm@97
|
722 triangle-normals
|
rlm@97
|
723 (map (partial get-ray-direction geo)
|
rlm@97
|
724 tris)
|
rlm@97
|
725 rays
|
rlm@97
|
726 (flatten
|
rlm@97
|
727 (map (fn [origins norm]
|
rlm@97
|
728 (map #(doto (Ray. % norm)
|
rlm@97
|
729 (.setLimit limit)) origins))
|
rlm@97
|
730 sensor-origins triangle-normals))]
|
rlm@102
|
731 (vector
|
rlm@102
|
732 (touch-topology geo)
|
rlm@102
|
733 (vec
|
rlm@102
|
734 (for [ray rays]
|
rlm@102
|
735 (do
|
rlm@102
|
736 (let [results (CollisionResults.)]
|
rlm@102
|
737 (.collideWith node ray results)
|
rlm@102
|
738 (let [touch-objects
|
rlm@102
|
739 (set
|
rlm@102
|
740 (filter #(not (= geo %))
|
rlm@102
|
741 (map #(.getGeometry %) results)))]
|
rlm@102
|
742 (if (> (count touch-objects) 0)
|
rlm@102
|
743 1 0)))))))))))
|
rlm@94
|
744
|
rlm@97
|
745 (defn touch [#^Node pieces]
|
rlm@102
|
746 (map enable-touch
|
rlm@102
|
747 (filter #(isa? (class %) Geometry)
|
rlm@102
|
748 (node-seq pieces))))
|
rlm@102
|
749
|
rlm@96
|
750
|
rlm@91
|
751 (defn all-names []
|
rlm@91
|
752 (concat
|
rlm@91
|
753 (re-split #"\n" (slurp (file-str
|
rlm@91
|
754 "/home/r/proj/names/dist.female.first")))
|
rlm@91
|
755 (re-split #"\n" (slurp (file-str
|
rlm@91
|
756 "/home/r/proj/names/dist.male.first")))
|
rlm@91
|
757 (re-split #"\n" (slurp (file-str
|
rlm@91
|
758 "/home/r/proj/names/dist.all.last")))))
|
rlm@90
|
759
|
rlm@90
|
760
|
rlm@90
|
761
|
rlm@90
|
762
|
rlm@90
|
763
|
rlm@90
|
764
|
rlm@90
|
765
|
rlm@90
|
766
|
rlm@90
|
767
|
rlm@90
|
768 (defrecord LulzLoader [])
|
rlm@90
|
769 (defprotocol Lulzable (load-lulz [this]))
|
rlm@90
|
770 (extend-type LulzLoader
|
rlm@90
|
771 Lulzable
|
rlm@90
|
772 (load-lulz [this] (println "the lulz have arrived!")))
|
rlm@90
|
773
|
rlm@78
|
774
|
rlm@78
|
775 (defn world-setup [joint]
|
rlm@90
|
776 (let [joint-position (Vector3f. 0 0 0)
|
rlm@83
|
777 joint-rotation
|
rlm@83
|
778 (.toRotationMatrix
|
rlm@83
|
779 (.mult
|
rlm@83
|
780 (doto (Quaternion.)
|
rlm@83
|
781 (.fromAngleAxis
|
rlm@83
|
782 (* 1 (/ Math/PI 4))
|
rlm@85
|
783 (Vector3f. -1 0 0)))
|
rlm@85
|
784 (doto (Quaternion.)
|
rlm@85
|
785 (.fromAngleAxis
|
rlm@85
|
786 (* 1 (/ Math/PI 2))
|
rlm@85
|
787 (Vector3f. 0 0 1)))))
|
rlm@84
|
788 top-position (.mult joint-rotation (Vector3f. 8 0 0))
|
rlm@83
|
789
|
rlm@83
|
790 origin (doto
|
rlm@83
|
791 (sphere 0.1 :physical? false :color ColorRGBA/Cyan
|
rlm@84
|
792 :position top-position))
|
rlm@83
|
793 top (doto
|
rlm@78
|
794 (sphere 0.1 :physical? false :color ColorRGBA/Yellow
|
rlm@84
|
795 :position top-position)
|
rlm@83
|
796
|
rlm@78
|
797 (.addControl
|
rlm@78
|
798 (RigidBodyControl.
|
rlm@83
|
799 (CapsuleCollisionShape. 0.5 1.5 1) (float 20))))
|
rlm@78
|
800 bottom (doto
|
rlm@78
|
801 (sphere 0.1 :physical? false :color ColorRGBA/DarkGray
|
rlm@83
|
802 :position (Vector3f. 0 0 0))
|
rlm@83
|
803 (.addControl
|
rlm@78
|
804 (RigidBodyControl.
|
rlm@78
|
805 (CapsuleCollisionShape. 0.5 1.5 1) (float 0))))
|
rlm@83
|
806 table (box 10 2 10 :position (Vector3f. 0 -20 0)
|
rlm@78
|
807 :color ColorRGBA/Gray :mass 0)
|
rlm@78
|
808 a (.getControl top RigidBodyControl)
|
rlm@78
|
809 b (.getControl bottom RigidBodyControl)]
|
rlm@83
|
810
|
rlm@78
|
811 (cond
|
rlm@83
|
812 (= joint :cone)
|
rlm@83
|
813
|
rlm@83
|
814 (doto (ConeJoint.
|
rlm@83
|
815 a b
|
rlm@87
|
816 (world-to-local top joint-position)
|
rlm@87
|
817 (world-to-local bottom joint-position)
|
rlm@83
|
818 joint-rotation
|
rlm@83
|
819 joint-rotation
|
rlm@83
|
820 )
|
rlm@78
|
821
|
rlm@83
|
822
|
rlm@83
|
823 (.setLimit (* (/ 10) Math/PI)
|
rlm@83
|
824 (* (/ 4) Math/PI)
|
rlm@83
|
825 0)))
|
rlm@83
|
826 [origin top bottom table]))
|
rlm@78
|
827
|
rlm@78
|
828 (defn test-joint [joint]
|
rlm@83
|
829 (let [[origin top bottom floor] (world-setup joint)
|
rlm@78
|
830 control (.getControl top RigidBodyControl)
|
rlm@78
|
831 move-up? (atom false)
|
rlm@78
|
832 move-down? (atom false)
|
rlm@78
|
833 move-left? (atom false)
|
rlm@78
|
834 move-right? (atom false)
|
rlm@78
|
835 roll-left? (atom false)
|
rlm@78
|
836 roll-right? (atom false)
|
rlm@78
|
837 timer (atom 0)]
|
rlm@78
|
838
|
rlm@78
|
839 (world
|
rlm@83
|
840 (nodify [top bottom floor origin])
|
rlm@78
|
841 (merge standard-debug-controls
|
rlm@78
|
842 {"key-r" (fn [_ pressed?] (reset! move-up? pressed?))
|
rlm@78
|
843 "key-t" (fn [_ pressed?] (reset! move-down? pressed?))
|
rlm@78
|
844 "key-f" (fn [_ pressed?] (reset! move-left? pressed?))
|
rlm@78
|
845 "key-g" (fn [_ pressed?] (reset! move-right? pressed?))
|
rlm@78
|
846 "key-v" (fn [_ pressed?] (reset! roll-left? pressed?))
|
rlm@78
|
847 "key-b" (fn [_ pressed?] (reset! roll-right? pressed?))})
|
rlm@78
|
848
|
rlm@78
|
849 (fn [world]
|
rlm@78
|
850 (light-up-everything world)
|
rlm@78
|
851 (enable-debug world)
|
rlm@78
|
852 (set-gravity world (Vector3f. 0 0 0))
|
rlm@78
|
853 )
|
rlm@78
|
854
|
rlm@78
|
855 (fn [world _]
|
rlm@78
|
856 (if (zero? (rem (swap! timer inc) 100))
|
rlm@78
|
857 (do
|
rlm@78
|
858 ;; (println-repl @timer)
|
rlm@78
|
859 (.attachChild (.getRootNode world)
|
rlm@78
|
860 (sphere 0.05 :color ColorRGBA/Yellow
|
rlm@78
|
861 :position (.getWorldTranslation top)
|
rlm@83
|
862 :physical? false))
|
rlm@83
|
863 (.attachChild (.getRootNode world)
|
rlm@83
|
864 (sphere 0.05 :color ColorRGBA/LightGray
|
rlm@83
|
865 :position (.getWorldTranslation bottom)
|
rlm@83
|
866 :physical? false))))
|
rlm@83
|
867
|
rlm@78
|
868 (if @move-up?
|
rlm@78
|
869 (.applyTorque control
|
rlm@78
|
870 (.mult (.getPhysicsRotation control)
|
rlm@78
|
871 (Vector3f. 0 0 10))))
|
rlm@78
|
872 (if @move-down?
|
rlm@78
|
873 (.applyTorque control
|
rlm@78
|
874 (.mult (.getPhysicsRotation control)
|
rlm@78
|
875 (Vector3f. 0 0 -10))))
|
rlm@78
|
876 (if @move-left?
|
rlm@78
|
877 (.applyTorque control
|
rlm@78
|
878 (.mult (.getPhysicsRotation control)
|
rlm@78
|
879 (Vector3f. 0 10 0))))
|
rlm@78
|
880 (if @move-right?
|
rlm@78
|
881 (.applyTorque control
|
rlm@78
|
882 (.mult (.getPhysicsRotation control)
|
rlm@78
|
883 (Vector3f. 0 -10 0))))
|
rlm@78
|
884 (if @roll-left?
|
rlm@78
|
885 (.applyTorque control
|
rlm@78
|
886 (.mult (.getPhysicsRotation control)
|
rlm@78
|
887 (Vector3f. -1 0 0))))
|
rlm@78
|
888 (if @roll-right?
|
rlm@78
|
889 (.applyTorque control
|
rlm@78
|
890 (.mult (.getPhysicsRotation control)
|
rlm@78
|
891 (Vector3f. 1 0 0))))))))
|
rlm@83
|
892
|
rlm@83
|
893
|
rlm@97
|
894 (defn locate-feelers*
|
rlm@97
|
895 "Search the geometry's tactile UV image for touch sensors, returning
|
rlm@97
|
896 their positions in geometry-relative coordinates."
|
rlm@97
|
897 [#^Geometry geo]
|
rlm@97
|
898 (let [uv-image (touch-receptor-image geo)
|
rlm@97
|
899 width (.getWidth uv-image)
|
rlm@97
|
900 height (.getHeight uv-image)
|
rlm@97
|
901
|
rlm@97
|
902 mesh (.getMesh geo)
|
rlm@97
|
903 mesh-tris (triangles geo)
|
rlm@97
|
904
|
rlm@97
|
905 ;; for each triangle
|
rlm@97
|
906 sensor-coords
|
rlm@97
|
907 (fn [tri]
|
rlm@97
|
908 ;; translate triangle to uv-pixel-space
|
rlm@97
|
909 (let [uv-tri
|
rlm@97
|
910 (rasterize mesh tri width height)
|
rlm@97
|
911 bounds (vec (triangle-bounds uv-tri))]
|
rlm@97
|
912
|
rlm@97
|
913 ;; get that part of the picture
|
rlm@97
|
914
|
rlm@97
|
915 (apply (partial (memfn setRoi) uv-image) bounds)
|
rlm@97
|
916 (let [cutout (.crop (.getProcessor uv-image))
|
rlm@97
|
917 ;; extract white pixels inside triangle
|
rlm@97
|
918 cutout-tri
|
rlm@97
|
919 (map-triangle
|
rlm@97
|
920 (fn [_ v]
|
rlm@97
|
921 (.subtract
|
rlm@97
|
922 v
|
rlm@97
|
923 (Vector3f. (bounds 0) (bounds 1) (float 0))))
|
rlm@97
|
924 uv-tri)
|
rlm@97
|
925 whites (filter (partial inside-triangle? cutout-tri)
|
rlm@97
|
926 (map vector2f->vector3f
|
rlm@97
|
927 (white-coordinates cutout)))
|
rlm@97
|
928 ;; translate pixel coordinates to world-space
|
rlm@97
|
929 transform (triangle-transformation cutout-tri tri)]
|
rlm@97
|
930 (map #(.mult transform %) whites))))]
|
rlm@102
|
931
|
rlm@97
|
932 (for [mesh-tri mesh-tris]
|
rlm@97
|
933
|
rlm@97
|
934 (let [uv-tri (rasterize mesh mesh-tri width height)
|
rlm@97
|
935 bounding-box (vec (triangle-bounds uv-tri))]
|
rlm@97
|
936 (apply (partial (memfn setRoi) uv-image) bounding-box)
|
rlm@97
|
937 ))
|
rlm@97
|
938 (vec (map sensor-coords mesh-tris))))
|
rlm@97
|
939
|
rlm@97
|
940
|
rlm@97
|
941 (defn tactile-coords [#^Geometry obj]
|
rlm@97
|
942 (let [mesh (.getMesh obj)
|
rlm@97
|
943 num-triangles (.getTriangleCount mesh)
|
rlm@97
|
944 num-verticies (.getVertexCount mesh)
|
rlm@97
|
945 uv-coord (partial uv-coord mesh)
|
rlm@97
|
946 triangle-indices (partial triangle-indices mesh)
|
rlm@97
|
947 receptors (touch-receptor-image obj)
|
rlm@97
|
948 tris (triangles obj)
|
rlm@97
|
949 ]
|
rlm@97
|
950 (map
|
rlm@97
|
951 (fn [[tri-1 tri-2 tri-3]]
|
rlm@97
|
952 (let [width (.getWidth receptors)
|
rlm@97
|
953 height (.getHeight receptors)
|
rlm@97
|
954 uv-1 (uv-coord tri-1)
|
rlm@97
|
955 uv-2 (uv-coord tri-2)
|
rlm@97
|
956 uv-3 (uv-coord tri-3)
|
rlm@97
|
957 x-coords (map #(.getX %) [uv-1 uv-2 uv-3])
|
rlm@97
|
958 y-coords (map #(.getY %) [uv-1 uv-2 uv-3])
|
rlm@97
|
959 max-x (Math/ceil (* width (apply max x-coords)))
|
rlm@97
|
960 min-x (Math/floor (* width (apply min x-coords)))
|
rlm@97
|
961 max-y (Math/ceil (* height (apply max y-coords)))
|
rlm@97
|
962 min-y (Math/floor (* height (apply min y-coords)))
|
rlm@97
|
963
|
rlm@97
|
964 image-1 (Vector2f. (* width (.getX uv-1))
|
rlm@97
|
965 (* height (.getY uv-1)))
|
rlm@97
|
966 image-2 (Vector2f. (* width (.getX uv-2))
|
rlm@97
|
967 (* height (.getY uv-2)))
|
rlm@97
|
968 image-3 (Vector2f. (* width (.getX uv-3))
|
rlm@97
|
969 (* height (.getY uv-3)))
|
rlm@97
|
970 left-corner
|
rlm@97
|
971 (Vector2f. min-x min-y)
|
rlm@97
|
972 ]
|
rlm@97
|
973
|
rlm@97
|
974 (.setRoi receptors min-x min-y (- max-x min-x) (- max-y min-y))
|
rlm@97
|
975 (let [processor (.crop (.getProcessor receptors))]
|
rlm@97
|
976 (map
|
rlm@97
|
977 #(.add left-corner %)
|
rlm@97
|
978
|
rlm@97
|
979 (filter
|
rlm@97
|
980 (partial
|
rlm@97
|
981 inside-triangle?
|
rlm@97
|
982 (.subtract image-1 left-corner)
|
rlm@97
|
983 (.subtract image-2 left-corner)
|
rlm@97
|
984 (.subtract image-3 left-corner))
|
rlm@97
|
985 (white-coordinates processor))))
|
rlm@97
|
986 )) (map triangle-indices (range num-triangles)))))
|
rlm@83
|
987
|
rlm@87
|
988 #+end_src
|
rlm@83
|
989
|
rlm@87
|
990 #+results: body-1
|
rlm@87
|
991 : #'cortex.silly/test-joint
|
rlm@78
|
992
|
rlm@78
|
993
|
rlm@78
|
994 * COMMENT purgatory
|
rlm@78
|
995 #+begin_src clojure
|
rlm@77
|
996 (defn bullet-trans []
|
rlm@77
|
997 (let [obj-a (sphere 0.5 :color ColorRGBA/Red
|
rlm@77
|
998 :position (Vector3f. -10 5 0))
|
rlm@77
|
999 obj-b (sphere 0.5 :color ColorRGBA/Blue
|
rlm@77
|
1000 :position (Vector3f. -10 -5 0)
|
rlm@77
|
1001 :mass 0)
|
rlm@77
|
1002 control-a (.getControl obj-a RigidBodyControl)
|
rlm@77
|
1003 control-b (.getControl obj-b RigidBodyControl)
|
rlm@77
|
1004 swivel
|
rlm@77
|
1005 (.toRotationMatrix
|
rlm@77
|
1006 (doto (Quaternion.)
|
rlm@77
|
1007 (.fromAngleAxis (/ Math/PI 2)
|
rlm@77
|
1008 Vector3f/UNIT_X)))]
|
rlm@77
|
1009 (doto
|
rlm@77
|
1010 (ConeJoint.
|
rlm@77
|
1011 control-a control-b
|
rlm@77
|
1012 (Vector3f. 0 5 0)
|
rlm@77
|
1013 (Vector3f. 0 -5 0)
|
rlm@77
|
1014 swivel swivel)
|
rlm@77
|
1015 (.setLimit (* 0.6 (/ Math/PI 4))
|
rlm@77
|
1016 (/ Math/PI 4)
|
rlm@77
|
1017 (* Math/PI 0.8)))
|
rlm@77
|
1018 (world (nodify
|
rlm@77
|
1019 [obj-a obj-b])
|
rlm@77
|
1020 standard-debug-controls
|
rlm@77
|
1021 enable-debug
|
rlm@77
|
1022 no-op)))
|
rlm@74
|
1023
|
rlm@74
|
1024
|
rlm@77
|
1025 (defn bullet-trans* []
|
rlm@77
|
1026 (let [obj-a (box 1.5 0.5 0.5 :color ColorRGBA/Red
|
rlm@77
|
1027 :position (Vector3f. 5 0 0)
|
rlm@77
|
1028 :mass 90)
|
rlm@77
|
1029 obj-b (sphere 0.5 :color ColorRGBA/Blue
|
rlm@77
|
1030 :position (Vector3f. -5 0 0)
|
rlm@77
|
1031 :mass 0)
|
rlm@77
|
1032 control-a (.getControl obj-a RigidBodyControl)
|
rlm@77
|
1033 control-b (.getControl obj-b RigidBodyControl)
|
rlm@77
|
1034 move-up? (atom nil)
|
rlm@77
|
1035 move-down? (atom nil)
|
rlm@77
|
1036 move-left? (atom nil)
|
rlm@77
|
1037 move-right? (atom nil)
|
rlm@77
|
1038 roll-left? (atom nil)
|
rlm@77
|
1039 roll-right? (atom nil)
|
rlm@77
|
1040 force 100
|
rlm@77
|
1041 swivel
|
rlm@77
|
1042 (.toRotationMatrix
|
rlm@77
|
1043 (doto (Quaternion.)
|
rlm@77
|
1044 (.fromAngleAxis (/ Math/PI 2)
|
rlm@77
|
1045 Vector3f/UNIT_X)))
|
rlm@77
|
1046 x-move
|
rlm@77
|
1047 (doto (Matrix3f.)
|
rlm@77
|
1048 (.fromStartEndVectors Vector3f/UNIT_X
|
rlm@77
|
1049 (.normalize (Vector3f. 1 1 0))))
|
rlm@77
|
1050
|
rlm@77
|
1051 timer (atom 0)]
|
rlm@77
|
1052 (doto
|
rlm@77
|
1053 (ConeJoint.
|
rlm@77
|
1054 control-a control-b
|
rlm@77
|
1055 (Vector3f. -8 0 0)
|
rlm@77
|
1056 (Vector3f. 2 0 0)
|
rlm@77
|
1057 ;;swivel swivel
|
rlm@77
|
1058 ;;Matrix3f/IDENTITY Matrix3f/IDENTITY
|
rlm@77
|
1059 x-move Matrix3f/IDENTITY
|
rlm@77
|
1060 )
|
rlm@77
|
1061 (.setCollisionBetweenLinkedBodys false)
|
rlm@77
|
1062 (.setLimit (* 1 (/ Math/PI 4)) ;; twist
|
rlm@77
|
1063 (* 1 (/ Math/PI 4)) ;; swing span in X-Y plane
|
rlm@77
|
1064 (* 0 (/ Math/PI 4)))) ;; swing span in Y-Z plane
|
rlm@77
|
1065 (world (nodify
|
rlm@77
|
1066 [obj-a obj-b])
|
rlm@77
|
1067 (merge standard-debug-controls
|
rlm@77
|
1068 {"key-r" (fn [_ pressed?] (reset! move-up? pressed?))
|
rlm@77
|
1069 "key-t" (fn [_ pressed?] (reset! move-down? pressed?))
|
rlm@77
|
1070 "key-f" (fn [_ pressed?] (reset! move-left? pressed?))
|
rlm@77
|
1071 "key-g" (fn [_ pressed?] (reset! move-right? pressed?))
|
rlm@77
|
1072 "key-v" (fn [_ pressed?] (reset! roll-left? pressed?))
|
rlm@77
|
1073 "key-b" (fn [_ pressed?] (reset! roll-right? pressed?))})
|
rlm@77
|
1074
|
rlm@77
|
1075 (fn [world]
|
rlm@77
|
1076 (enable-debug world)
|
rlm@77
|
1077 (set-gravity world Vector3f/ZERO)
|
rlm@77
|
1078 )
|
rlm@77
|
1079
|
rlm@77
|
1080 (fn [world _]
|
rlm@77
|
1081
|
rlm@77
|
1082 (if @move-up?
|
rlm@77
|
1083 (.applyForce control-a
|
rlm@77
|
1084 (Vector3f. force 0 0)
|
rlm@77
|
1085 (Vector3f. 0 0 0)))
|
rlm@77
|
1086 (if @move-down?
|
rlm@77
|
1087 (.applyForce control-a
|
rlm@77
|
1088 (Vector3f. (- force) 0 0)
|
rlm@77
|
1089 (Vector3f. 0 0 0)))
|
rlm@77
|
1090 (if @move-left?
|
rlm@77
|
1091 (.applyForce control-a
|
rlm@77
|
1092 (Vector3f. 0 force 0)
|
rlm@77
|
1093 (Vector3f. 0 0 0)))
|
rlm@77
|
1094 (if @move-right?
|
rlm@77
|
1095 (.applyForce control-a
|
rlm@77
|
1096 (Vector3f. 0 (- force) 0)
|
rlm@77
|
1097 (Vector3f. 0 0 0)))
|
rlm@77
|
1098
|
rlm@77
|
1099 (if @roll-left?
|
rlm@77
|
1100 (.applyForce control-a
|
rlm@77
|
1101 (Vector3f. 0 0 force)
|
rlm@77
|
1102 (Vector3f. 0 0 0)))
|
rlm@77
|
1103 (if @roll-right?
|
rlm@77
|
1104 (.applyForce control-a
|
rlm@77
|
1105 (Vector3f. 0 0 (- force))
|
rlm@77
|
1106 (Vector3f. 0 0 0)))
|
rlm@77
|
1107
|
rlm@77
|
1108 (if (zero? (rem (swap! timer inc) 100))
|
rlm@77
|
1109 (.attachChild
|
rlm@77
|
1110 (.getRootNode world)
|
rlm@77
|
1111 (sphere 0.05 :color ColorRGBA/Yellow
|
rlm@77
|
1112 :physical? false :position
|
rlm@77
|
1113 (.getWorldTranslation obj-a)))))
|
rlm@77
|
1114 )
|
rlm@77
|
1115 ))
|
rlm@77
|
1116
|
rlm@94
|
1117 (defn transform-trianglesdsd
|
rlm@94
|
1118 "Transform that converts each vertex in the first triangle
|
rlm@94
|
1119 into the corresponding vertex in the second triangle."
|
rlm@94
|
1120 [#^Triangle tri-1 #^Triangle tri-2]
|
rlm@94
|
1121 (let [in [(.get1 tri-1)
|
rlm@94
|
1122 (.get2 tri-1)
|
rlm@94
|
1123 (.get3 tri-1)]
|
rlm@94
|
1124 out [(.get1 tri-2)
|
rlm@94
|
1125 (.get2 tri-2)
|
rlm@94
|
1126 (.get3 tri-2)]]
|
rlm@94
|
1127 (let [translate (doto (Matrix4f.) (.setTranslation (.negate (in 0))))
|
rlm@94
|
1128 in* [(.mult translate (in 0))
|
rlm@94
|
1129 (.mult translate (in 1))
|
rlm@94
|
1130 (.mult translate (in 2))]
|
rlm@94
|
1131 final-translation
|
rlm@94
|
1132 (doto (Matrix4f.)
|
rlm@94
|
1133 (.setTranslation (out 1)))
|
rlm@94
|
1134
|
rlm@94
|
1135 rotate-1
|
rlm@94
|
1136 (doto (Matrix3f.)
|
rlm@94
|
1137 (.fromStartEndVectors
|
rlm@94
|
1138 (.normalize
|
rlm@94
|
1139 (.subtract
|
rlm@94
|
1140 (in* 1) (in* 0)))
|
rlm@94
|
1141 (.normalize
|
rlm@94
|
1142 (.subtract
|
rlm@94
|
1143 (out 1) (out 0)))))
|
rlm@94
|
1144 in** [(.mult rotate-1 (in* 0))
|
rlm@94
|
1145 (.mult rotate-1 (in* 1))
|
rlm@94
|
1146 (.mult rotate-1 (in* 2))]
|
rlm@94
|
1147 scale-factor-1
|
rlm@94
|
1148 (.mult
|
rlm@94
|
1149 (.normalize
|
rlm@94
|
1150 (.subtract
|
rlm@94
|
1151 (out 1)
|
rlm@94
|
1152 (out 0)))
|
rlm@94
|
1153 (/ (.length
|
rlm@94
|
1154 (.subtract (out 1)
|
rlm@94
|
1155 (out 0)))
|
rlm@94
|
1156 (.length
|
rlm@94
|
1157 (.subtract (in** 1)
|
rlm@94
|
1158 (in** 0)))))
|
rlm@94
|
1159 scale-1 (doto (Matrix4f.) (.setScale scale-factor-1))
|
rlm@94
|
1160 in*** [(.mult scale-1 (in** 0))
|
rlm@94
|
1161 (.mult scale-1 (in** 1))
|
rlm@94
|
1162 (.mult scale-1 (in** 2))]
|
rlm@94
|
1163
|
rlm@94
|
1164
|
rlm@94
|
1165
|
rlm@94
|
1166
|
rlm@94
|
1167
|
rlm@94
|
1168 ]
|
rlm@94
|
1169
|
rlm@94
|
1170 (dorun (map println in))
|
rlm@94
|
1171 (println)
|
rlm@94
|
1172 (dorun (map println in*))
|
rlm@94
|
1173 (println)
|
rlm@94
|
1174 (dorun (map println in**))
|
rlm@94
|
1175 (println)
|
rlm@94
|
1176 (dorun (map println in***))
|
rlm@94
|
1177 (println)
|
rlm@94
|
1178
|
rlm@99
|
1179 ))))
|
rlm@94
|
1180
|
rlm@94
|
1181
|
rlm@99
|
1182
|
rlm@99
|
1183
|
rlm@99
|
1184 #+end_src
|
rlm@99
|
1185
|
rlm@99
|
1186
|
rlm@99
|
1187 * COMMENT generate source
|
rlm@99
|
1188 #+begin_src clojure :tangle ../src/cortex/silly.clj
|
rlm@99
|
1189 <<body-1>>
|
rlm@99
|
1190 #+end_src
|
rlm@99
|
1191
|
rlm@99
|
1192
|
rlm@94
|
1193
|
rlm@94
|
1194
|