cortex: org/test-creature.org annotate

annotate org/test-creature.org @ 97:2ff8c7c4e64d

have function for creating touch for a blender creature

author	Robert McIntyre <rlm@mit.edu>
date	Wed, 11 Jan 2012 00:06:33 -0700
parents	4a9096f31017
children	5b23961433e3

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

Mercurial > cortex

annotate org/test-creature.org @ 97:2ff8c7c4e64d