Mercurial > cortex
changeset 102:7eeb940bcbc8
data format for touch implemented
| author | Robert McIntyre <rlm@mit.edu> |
|---|---|
| date | Sat, 14 Jan 2012 20:44:13 -0700 |
| parents | 65332841b7d9 |
| children | 85ee8bb80edf |
| files | org/test-creature.org |
| diffstat | 1 files changed, 63 insertions(+), 47 deletions(-) [+] |
line wrap: on
line diff
1.1 --- a/org/test-creature.org Sat Jan 14 04:28:37 2012 -0700 1.2 +++ b/org/test-creature.org Sat Jan 14 20:44:13 2012 -0700 1.3 @@ -97,6 +97,9 @@ 1.4 (defn points->image 1.5 "Take a sparse collection of points and visuliaze it as a 1.6 BufferedImage." 1.7 + 1.8 + ;; TODO maybe parallelize this since it's easy 1.9 + 1.10 [points] 1.11 (let [xs (vec (map first points)) 1.12 ys (vec (map second points)) 1.13 @@ -112,16 +115,11 @@ 1.14 1.15 image)) 1.16 1.17 - 1.18 - 1.19 - 1.20 -;;(defn visualize [points] 1.21 - 1.22 (defn test-data 1.23 [] 1.24 (vec 1.25 - (for [a (range 0 100 2) 1.26 - b (range 0 100 2)] 1.27 + (for [a (range 0 1000 2) 1.28 + b (range 0 1000 2)] 1.29 (vector a b)) 1.30 )) 1.31 1.32 @@ -145,8 +143,8 @@ 1.33 (let 1.34 [num-points (count points) 1.35 center (vector 1.36 - (average (map first points)) 1.37 - (average (map first points))) 1.38 + (int (average (map first points))) 1.39 + (int (average (map first points)))) 1.40 flattened 1.41 (reduce 1.42 concat 1.43 @@ -166,19 +164,31 @@ 1.44 (collapse-1d (first center) 1.45 (map first row)) 1.46 (map second row))) 1.47 - (partition-by second (sort-by second flattened))))] 1.48 - squeezed 1.49 + (partition-by second (sort-by second flattened)))) 1.50 + ;;vi (view-image) 1.51 + relocate 1.52 + (let [min-x (apply min (map first squeezed)) 1.53 + min-y (apply min (map second squeezed))] 1.54 + (map (fn [[x y]] 1.55 + [(- x min-x) 1.56 + (- y min-y)]) 1.57 + squeezed)) 1.58 + ] 1.59 + ;;(vi (points->image points)) 1.60 + ;;(Thread/sleep 1000) 1.61 + ;;(vi (points->image flattened)) 1.62 + ;;(Thread/sleep 1000) 1.63 + ;;(vi (points->image squeezed)) 1.64 + relocate 1.65 )) 1.66 - 1.67 - 1.68 1.69 (defn load-bullet [] 1.70 (let [sim (world (Node.) {} no-op no-op)] 1.71 - (.enqueue 1.72 - sim 1.73 - (fn [] 1.74 - (.stop sim))) 1.75 - (.start sim))) 1.76 + (doto sim 1.77 + (.enqueue 1.78 + (fn [] 1.79 + (.stop sim))) 1.80 + (.start)))) 1.81 1.82 (defn load-blender-model 1.83 "Load a .blend file using an asset folder relative path." 1.84 @@ -536,14 +546,16 @@ 1.85 [#^ImageProcessor ip] 1.86 (filter-pixels #(= % white) ip)) 1.87 1.88 -(defn same-side? [p1 p2 ref p] 1.89 +(defn same-side? 1.90 + "Given the points p1 and p2 and the reference point ref, is point p 1.91 + on the same side of the line that goes through p1 and p2 as ref is?" 1.92 + [p1 p2 ref p] 1.93 (<= 1.94 0 1.95 (.dot 1.96 (.cross (.subtract p2 p1) (.subtract p p1)) 1.97 (.cross (.subtract p2 p1) (.subtract ref p1))))) 1.98 1.99 - 1.100 (defn triangle->matrix4f 1.101 "Converts the triangle into a 4x4 matrix of vertices: The first 1.102 three columns contain the vertices of the triangle; the last 1.103 @@ -555,7 +567,6 @@ 1.104 ((comp vec map) #(.get t %) (range 3)) 1.105 unit-normal (do (.calculateNormal t)(.getNormal t)) 1.106 vertices [vert-1 vert-2 vert-3 unit-normal]] 1.107 - 1.108 (dorun 1.109 (for [row (range 4) col (range 3)] 1.110 (do 1.111 @@ -585,14 +596,12 @@ 1.112 (defn vector2f->vector3f [v] 1.113 (Vector3f. (.getX v) (.getY v) 0)) 1.114 1.115 - 1.116 (extend-type Triangle 1.117 Textual 1.118 (text [t] 1.119 (println "Triangle: " \newline (.get1 t) \newline 1.120 (.get2 t) \newline (.get3 t)))) 1.121 1.122 - 1.123 (defn map-triangle [f #^Triangle tri] 1.124 (Triangle. 1.125 (f 0 (.get1 tri)) 1.126 @@ -625,7 +634,7 @@ 1.127 (tri-uv-coord mesh tri)))) 1.128 1.129 (defn pixel-triangle 1.130 - "Convert the mesh triange into the corresponding triangle in 1.131 + "Convert the mesh triangle into the corresponding triangle in 1.132 UV-pixel-space. Z compenent will be zero." 1.133 [#^Mesh mesh #^Triangle tri width height] 1.134 (map-triangle (fn [_ v] 1.135 @@ -645,7 +654,6 @@ 1.136 (let [verts (map vector3f-seq (triangle-seq tri)) 1.137 x (apply min (map first verts)) 1.138 y (apply min (map second verts))] 1.139 - 1.140 [x y 1.141 (- (apply max (map first verts)) x) 1.142 (- (apply max (map second verts)) y) 1.143 @@ -659,8 +667,7 @@ 1.144 (if-let [image (touch-receptor-image geo)] 1.145 (let [mesh (.getMesh geo) 1.146 tris (triangles geo) 1.147 - 1.148 - 1.149 + 1.150 width (.getWidth image) 1.151 height (.getHeight image) 1.152 1.153 @@ -692,7 +699,17 @@ 1.154 (map #(.mult transform %) whites))))] 1.155 (vec (map sensor-coords tris))) 1.156 (repeat (count (triangles geo)) []))) 1.157 - 1.158 + 1.159 +(use 'clojure.contrib.def) 1.160 + 1.161 +(defn-memo touch-topology [#^Gemoetry geo] 1.162 + (let [feeler-coords 1.163 + (map 1.164 + #(vector (int (.getX %)) (int (.getY %))) 1.165 + (white-coordinates 1.166 + (.getProcessor (touch-receptor-image (colorful)))))] 1.167 + (vec (collapse feeler-coords)))) 1.168 + 1.169 (defn enable-touch [#^Geometry geo] 1.170 (let [feeler-coords (locate-feelers geo) 1.171 tris (triangles geo) 1.172 @@ -711,24 +728,25 @@ 1.173 (map #(doto (Ray. % norm) 1.174 (.setLimit limit)) origins)) 1.175 sensor-origins triangle-normals))] 1.176 - (for [ray rays] 1.177 - (do 1.178 - (let [results (CollisionResults.)] 1.179 - (.collideWith node ray results) 1.180 - (let [touch-objects 1.181 - (set 1.182 - (filter #(not (= geo %)) 1.183 - (map #(.getGeometry %) results)))] 1.184 - (if (> (count touch-objects) 0) 1.185 - 1 0))))))))) 1.186 + (vector 1.187 + (touch-topology geo) 1.188 + (vec 1.189 + (for [ray rays] 1.190 + (do 1.191 + (let [results (CollisionResults.)] 1.192 + (.collideWith node ray results) 1.193 + (let [touch-objects 1.194 + (set 1.195 + (filter #(not (= geo %)) 1.196 + (map #(.getGeometry %) results)))] 1.197 + (if (> (count touch-objects) 0) 1.198 + 1 0))))))))))) 1.199 1.200 (defn touch [#^Node pieces] 1.201 - (let [touch-components 1.202 - (map enable-touch 1.203 - (filter #(isa? (class %) Geometry) 1.204 - (node-seq pieces)))] 1.205 - (fn [node] 1.206 - (reduce into [] (map #(% node) touch-components))))) 1.207 + (map enable-touch 1.208 + (filter #(isa? (class %) Geometry) 1.209 + (node-seq pieces)))) 1.210 + 1.211 1.212 (defn all-names [] 1.213 (concat 1.214 @@ -910,9 +928,7 @@ 1.215 ;; translate pixel coordinates to world-space 1.216 transform (triangle-transformation cutout-tri tri)] 1.217 (map #(.mult transform %) whites))))] 1.218 - 1.219 - 1.220 - 1.221 + 1.222 (for [mesh-tri mesh-tris] 1.223 1.224 (let [uv-tri (rasterize mesh mesh-tri width height)