annotate org/util.org @ 160:33278bf028e7

refactored joints
author Robert McIntyre <rlm@mit.edu>
date Fri, 03 Feb 2012 06:47:05 -0700
parents c95179907951
children c33a8e5fe7bc
rev   line source
rlm@29 1 #+title: Clojure Utilities for jMonkeyEngine3
rlm@23 2 #+author: Robert McIntyre
rlm@23 3 #+email: rlm@mit.edu
rlm@29 4 #+description:
rlm@29 5 #+keywords: JME3, clojure, import, utilities
rlm@23 6 #+SETUPFILE: ../../aurellem/org/setup.org
rlm@23 7 #+INCLUDE: ../../aurellem/org/level-0.org
rlm@29 8
rlm@34 9 [TABLE-OF-CONTENTS]
rlm@29 10
rlm@29 11 These are a collection of functions to make programming jMonkeyEngine
rlm@29 12 in clojure easier.
rlm@23 13
rlm@34 14 * Imports
rlm@28 15
rlm@66 16 #+name: import
rlm@23 17 #+begin_src clojure :results silent
rlm@23 18 (ns cortex.import
rlm@23 19 (:require swank.util.class-browse))
rlm@23 20
rlm@23 21 (defn permissive-import
rlm@23 22 [classname]
rlm@23 23 (eval `(try (import '~classname)
rlm@23 24 (catch java.lang.Exception e#
rlm@23 25 (println "couldn't import " '~classname))))
rlm@23 26 classname)
rlm@23 27
rlm@23 28 (defn jme-class? [classname]
rlm@23 29 (and
rlm@23 30 (.startsWith classname "com.jme3.")
rlm@23 31 ;; Don't import the Lwjgl stuff since it can throw exceptions
rlm@23 32 ;; upon being loaded.
rlm@23 33 (not (re-matches #".*Lwjgl.*" classname))))
rlm@23 34
rlm@23 35 (defn jme-classes
rlm@23 36 "returns a list of all jme3 classes"
rlm@23 37 []
rlm@23 38 (filter
rlm@23 39 jme-class?
rlm@23 40 (map :name
rlm@23 41 swank.util.class-browse/available-classes)))
rlm@23 42
rlm@23 43 (defn mega-import-jme3
rlm@23 44 "Import ALL the jme classes. For REPL use."
rlm@23 45 []
rlm@23 46 (doall
rlm@23 47 (map (comp permissive-import symbol) (jme-classes))))
rlm@23 48 #+end_src
rlm@23 49
rlm@29 50 jMonkeyEngine3 has a plethora of classes which can be overwhelming to
rlm@29 51 manage. This code uses reflection to import all of them. Once I'm
rlm@29 52 happy with the general structure of a namespace I can deal with
rlm@29 53 importing only the classes it actually needs.
rlm@29 54
rlm@23 55 The =mega-import-jme3= is quite usefull for debugging purposes since
rlm@34 56 it allows completion for almost all of JME's classes from the REPL.
rlm@23 57
rlm@23 58 Out of curiousity, let's see just how many classes =mega-import-jme3=
rlm@23 59 imports:
rlm@23 60
rlm@29 61 #+begin_src clojure :exports both :results output
rlm@29 62 (println (clojure.core/count (cortex.import/jme-classes)) "classes")
rlm@23 63 #+end_src
rlm@23 64
rlm@23 65 #+results:
rlm@29 66 : 955 classes
rlm@23 67
rlm@25 68
rlm@34 69 * Utilities
rlm@23 70
rlm@29 71 The utilities here come in three main groups:
rlm@29 72 - Changing settings in a running =Application=
rlm@29 73 - Creating objects
rlm@50 74 - Debug Actions
rlm@29 75 - Visualizing objects
rlm@23 76
rlm@29 77 *** Changing Settings
rlm@24 78
rlm@66 79 #+name: util
rlm@25 80 #+begin_src clojure
rlm@29 81 (ns cortex.util
rlm@34 82 "Utility functions for making jMonkeyEngine3 easier to program from
rlm@34 83 clojure."
rlm@29 84 {:author "Robert McIntyre"}
rlm@29 85 (:use cortex.world)
rlm@29 86 (:use clojure.contrib.def)
rlm@29 87 (:import com.jme3.math.Vector3f)
rlm@29 88 (:import com.jme3.math.Quaternion)
rlm@29 89 (:import com.jme3.asset.TextureKey)
rlm@29 90 (:import com.jme3.bullet.control.RigidBodyControl)
rlm@29 91 (:import com.jme3.bullet.collision.shapes.GImpactCollisionShape)
rlm@29 92 (:import com.jme3.scene.shape.Box)
rlm@29 93 (:import com.jme3.scene.Node)
rlm@29 94 (:import com.jme3.scene.shape.Sphere)
rlm@47 95 (:import com.jme3.light.AmbientLight)
rlm@29 96 (:import com.jme3.light.DirectionalLight)
rlm@114 97 (:import (com.jme3.math Triangle ColorRGBA))
rlm@29 98 (:import com.jme3.bullet.BulletAppState)
rlm@29 99 (:import com.jme3.material.Material)
rlm@40 100 (:import com.jme3.scene.Geometry)
rlm@114 101 (:import java.awt.image.BufferedImage)
rlm@114 102 (:import javax.swing.JPanel)
rlm@114 103 (:import javax.swing.JFrame)
rlm@114 104 (:import javax.swing.SwingUtilities)
rlm@114 105
rlm@40 106 (:import (java.util.logging Level Logger)))
rlm@40 107
rlm@29 108 (defvar println-repl
rlm@29 109 (bound-fn [& args] (apply println args))
rlm@29 110 "println called from the LWJGL thread will not go to the REPL, but
rlm@114 111 instead to whatever terminal started the JVM process. This function
rlm@114 112 will always output to the REPL")
rlm@25 113
rlm@29 114 (defn position-camera
rlm@34 115 "Change the position of the in-world camera."
rlm@34 116 ([world position direction up]
rlm@34 117 (doto (.getCamera world)
rlm@29 118 (.setLocation )
rlm@29 119 (.lookAt direction up)))
rlm@34 120 ([world position direction]
rlm@29 121 (position-camera
rlm@34 122 world position direction Vector3f/UNIT_Y)))
rlm@25 123
rlm@29 124 (defn enable-debug
rlm@34 125 "Turn on debug wireframes for every object in this simulation."
rlm@29 126 [world]
rlm@29 127 (.enableDebug
rlm@29 128 (.getPhysicsSpace
rlm@29 129 (.getState
rlm@29 130 (.getStateManager world)
rlm@29 131 BulletAppState))
rlm@29 132 (asset-manager)))
rlm@29 133
rlm@78 134 (defn speed-up
rlm@78 135 "Increase the dismally slow speed of the world's camera."
rlm@78 136 [world]
rlm@78 137 (.setMoveSpeed (.getFlyByCamera world)
rlm@122 138 (float 60))
rlm@78 139 (.setRotationSpeed (.getFlyByCamera world)
rlm@122 140 (float 3))
rlm@78 141 world)
rlm@78 142
rlm@78 143
rlm@40 144 (defn no-logging
rlm@40 145 "Disable all of jMonkeyEngine's logging."
rlm@40 146 []
rlm@40 147 (.setLevel (Logger/getLogger "com.jme3") Level/OFF))
rlm@40 148
rlm@40 149 (defn set-accuracy
rlm@40 150 "Change the accuracy at which the World's Physics is calculated."
rlm@40 151 [world new-accuracy]
rlm@40 152 (let [physics-manager
rlm@40 153 (.getState
rlm@40 154 (.getStateManager world) BulletAppState)]
rlm@40 155 (.setAccuracy
rlm@40 156 (.getPhysicsSpace physics-manager)
rlm@40 157 (float new-accuracy))))
rlm@40 158
rlm@40 159
rlm@34 160 (defn set-gravity
rlm@29 161 "In order to change the gravity of a scene, it is not only necessary
rlm@29 162 to set the gravity variable, but to \"tap\" every physics object in
rlm@29 163 the scene to reactivate physics calculations."
rlm@34 164 [world gravity]
rlm@25 165 (traverse
rlm@25 166 (fn [geom]
rlm@25 167 (if-let
rlm@29 168 ;; only set gravity for physical objects.
rlm@25 169 [control (.getControl geom RigidBodyControl)]
rlm@25 170 (do
rlm@25 171 (.setGravity control gravity)
rlm@29 172 ;; tappsies!
rlm@29 173 (.applyImpulse control Vector3f/ZERO Vector3f/ZERO))))
rlm@34 174 (.getRootNode world)))
rlm@29 175
rlm@29 176 (defn add-element
rlm@34 177 "Add the Spatial to the world's environment"
rlm@34 178 ([world element node]
rlm@29 179 (.addAll
rlm@29 180 (.getPhysicsSpace
rlm@29 181 (.getState
rlm@34 182 (.getStateManager world)
rlm@29 183 BulletAppState))
rlm@29 184 element)
rlm@29 185 (.attachChild node element))
rlm@34 186 ([world element]
rlm@34 187 (add-element world element (.getRootNode world))))
rlm@29 188
rlm@29 189 (defn apply-map
rlm@29 190 "Like apply, but works for maps and functions that expect an
rlm@29 191 implicit map and nothing else as in (fn [& {}]).
rlm@29 192 ------- Example -------
rlm@29 193 (defn demo [& {:keys [www] :or {www \"oh yeah\"} :as env}]
rlm@29 194 (println www))
rlm@29 195 (apply-map demo {:www \"hello!\"})
rlm@29 196 -->\"hello\""
rlm@29 197 [fn m]
rlm@29 198 (apply fn (reduce #(into %1 %2) [] m)))
rlm@29 199
rlm@151 200 (defn map-vals
rlm@151 201 "Transform a map by applying a function to its values,
rlm@151 202 keeping the keys the same."
rlm@151 203 [f m] (zipmap (keys m) (map f (vals m))))
rlm@151 204
rlm@151 205
rlm@25 206 #+end_src
rlm@25 207
rlm@47 208 #+results: util
rlm@47 209 : #'cortex.util/apply-map
rlm@73 210
rlm@25 211
rlm@29 212 *** Creating Basic Shapes
rlm@29 213
rlm@66 214 #+name: shapes
rlm@25 215 #+begin_src clojure :results silent
rlm@25 216 (in-ns 'cortex.util)
rlm@29 217
rlm@153 218 (defn load-bullet
rlm@153 219 "Runnig this function unpacks the native bullet libraries and makes
rlm@153 220 them available."
rlm@153 221 []
rlm@153 222 (let [sim (world (Node.) {} no-op no-op)]
rlm@153 223 (doto sim
rlm@153 224 (.enqueue
rlm@153 225 (fn []
rlm@153 226 (.stop sim)))
rlm@153 227 (.start))))
rlm@153 228
rlm@153 229
rlm@25 230 (defrecord shape-description
rlm@25 231 [name
rlm@25 232 color
rlm@25 233 mass
rlm@25 234 friction
rlm@25 235 texture
rlm@25 236 material
rlm@25 237 position
rlm@25 238 rotation
rlm@25 239 shape
rlm@29 240 physical?
rlm@29 241 GImpact?
rlm@29 242 ])
rlm@25 243
rlm@34 244 (defvar base-shape
rlm@25 245 (shape-description.
rlm@25 246 "default-shape"
rlm@25 247 false
rlm@25 248 ;;ColorRGBA/Blue
rlm@25 249 1.0 ;; mass
rlm@25 250 1.0 ;; friction
rlm@25 251 ;; texture
rlm@25 252 "Textures/Terrain/BrickWall/BrickWall.jpg"
rlm@25 253 ;; material
rlm@25 254 "Common/MatDefs/Misc/Unshaded.j3md"
rlm@25 255 Vector3f/ZERO
rlm@25 256 Quaternion/IDENTITY
rlm@25 257 (Box. Vector3f/ZERO 0.5 0.5 0.5)
rlm@29 258 true
rlm@34 259 false)
rlm@34 260 "Basic settings for shapes.")
rlm@25 261
rlm@25 262 (defn make-shape
rlm@25 263 [#^shape-description d]
rlm@29 264 (let [asset-manager (asset-manager)
rlm@25 265 mat (Material. asset-manager (:material d))
rlm@25 266 geom (Geometry. (:name d) (:shape d))]
rlm@25 267 (if (:texture d)
rlm@25 268 (let [key (TextureKey. (:texture d))]
rlm@34 269 ;;(.setGenerateMips key true)
rlm@34 270 ;;(.setTexture mat "ColorMap" (.loadTexture asset-manager key))
rlm@34 271 ))
rlm@25 272 (if (:color d) (.setColor mat "Color" (:color d)))
rlm@25 273 (.setMaterial geom mat)
rlm@25 274 (if-let [rotation (:rotation d)] (.rotate geom rotation))
rlm@25 275 (.setLocalTranslation geom (:position d))
rlm@25 276 (if (:physical? d)
rlm@29 277 (let [physics-control
rlm@29 278 (if (:GImpact d)
rlm@29 279 ;; Create an accurate mesh collision shape if desired.
rlm@29 280 (RigidBodyControl.
rlm@29 281 (doto (GImpactCollisionShape.
rlm@29 282 (.getMesh geom))
rlm@29 283 (.createJmeMesh)
rlm@73 284 ;;(.setMargin 0)
rlm@73 285 )
rlm@29 286 (float (:mass d)))
rlm@29 287 ;; otherwise use jme3's default
rlm@29 288 (RigidBodyControl. (float (:mass d))))]
rlm@25 289 (.addControl geom physics-control)
rlm@25 290 ;;(.setSleepingThresholds physics-control (float 0) (float 0))
rlm@25 291 (.setFriction physics-control (:friction d))))
rlm@25 292 geom))
rlm@25 293
rlm@25 294 (defn box
rlm@25 295 ([l w h & {:as options}]
rlm@25 296 (let [options (merge base-shape options)]
rlm@25 297 (make-shape (assoc options
rlm@25 298 :shape (Box. l w h)))))
rlm@25 299 ([] (box 0.5 0.5 0.5)))
rlm@25 300
rlm@25 301 (defn sphere
rlm@25 302 ([r & {:as options}]
rlm@25 303 (let [options (merge base-shape options)]
rlm@25 304 (make-shape (assoc options
rlm@25 305 :shape (Sphere. 32 32 (float r))))))
rlm@25 306 ([] (sphere 0.5)))
rlm@62 307
rlm@74 308 (defn green-x-ray
rlm@74 309 "A usefull material for debuging -- it can be seen no matter what
rlm@74 310 object occuldes it."
rlm@74 311 []
rlm@74 312 (doto (Material. (asset-manager)
rlm@74 313 "Common/MatDefs/Misc/Unshaded.j3md")
rlm@74 314 (.setColor "Color" ColorRGBA/Green)
rlm@74 315 (-> (.getAdditionalRenderState)
rlm@74 316 (.setDepthTest false))))
rlm@74 317
rlm@62 318 (defn node-seq
rlm@62 319 "Take a node and return a seq of all its children
rlm@62 320 recursively. There will be no nodes left in the resulting
rlm@62 321 structure"
rlm@62 322 [#^Node node]
rlm@62 323 (tree-seq #(isa? (class %) Node) #(.getChildren %) node))
rlm@62 324
rlm@62 325 (defn nodify
rlm@62 326 "Take a sequence of things that can be attached to a node and return
rlm@62 327 a node with all of them attached"
rlm@62 328 ([name children]
rlm@62 329 (let [node (Node. name)]
rlm@62 330 (dorun (map #(.attachChild node %) children))
rlm@62 331 node))
rlm@62 332 ([children] (nodify "" children)))
rlm@62 333
rlm@62 334
rlm@29 335 #+end_src
rlm@25 336
rlm@25 337
rlm@50 338 *** Debug Actions
rlm@66 339 #+name: debug-actions
rlm@29 340 #+begin_src clojure :results silent
rlm@60 341 (in-ns 'cortex.util)
rlm@60 342
rlm@47 343 (defn basic-light-setup
rlm@47 344 "returns a sequence of lights appropiate for fully lighting a scene"
rlm@47 345 []
rlm@47 346 (conj
rlm@47 347 (doall
rlm@47 348 (map
rlm@47 349 (fn [direction]
rlm@47 350 (doto (DirectionalLight.)
rlm@47 351 (.setDirection direction)
rlm@47 352 (.setColor ColorRGBA/White)))
rlm@47 353 [;; six faces of a cube
rlm@47 354 Vector3f/UNIT_X
rlm@47 355 Vector3f/UNIT_Y
rlm@47 356 Vector3f/UNIT_Z
rlm@47 357 (.mult Vector3f/UNIT_X (float -1))
rlm@47 358 (.mult Vector3f/UNIT_Y (float -1))
rlm@47 359 (.mult Vector3f/UNIT_Z (float -1))]))
rlm@47 360 (doto (AmbientLight.)
rlm@47 361 (.setColor ColorRGBA/White))))
rlm@47 362
rlm@47 363 (defn light-up-everything
rlm@47 364 "Add lights to a world appropiate for quickly seeing everything
rlm@47 365 in the scene. Adds six DirectionalLights facing in orthogonal
rlm@47 366 directions, and one AmbientLight to provide overall lighting
rlm@47 367 coverage."
rlm@47 368 [world]
rlm@47 369 (dorun
rlm@47 370 (map
rlm@47 371 #(.addLight (.getRootNode world) %)
rlm@47 372 (basic-light-setup))))
rlm@50 373
rlm@50 374 (defn fire-cannon-ball
rlm@50 375 "Creates a function that fires a cannon-ball from the current game's
rlm@50 376 camera. The cannon-ball will be attached to the node if provided, or
rlm@50 377 to the game's RootNode if no node is provided."
rlm@50 378 ([node]
rlm@50 379 (fn [game value]
rlm@50 380 (if (not value)
rlm@50 381 (let [camera (.getCamera game)
rlm@50 382 cannon-ball
rlm@50 383 (sphere 0.7
rlm@50 384 :material "Common/MatDefs/Misc/Unshaded.j3md"
rlm@50 385 :texture "Textures/PokeCopper.jpg"
rlm@50 386 :position
rlm@50 387 (.add (.getLocation camera)
rlm@50 388 (.mult (.getDirection camera) (float 1)))
rlm@50 389 :mass 3)] ;200 0.05
rlm@50 390 (.setLinearVelocity
rlm@50 391 (.getControl cannon-ball RigidBodyControl)
rlm@50 392 (.mult (.getDirection camera) (float 50))) ;50
rlm@50 393 (add-element game cannon-ball (if node node (.getRootNode game)))))))
rlm@50 394 ([]
rlm@50 395 (fire-cannon-ball false)))
rlm@60 396
rlm@60 397 (def standard-debug-controls
rlm@60 398 {"key-space" (fire-cannon-ball)})
rlm@60 399
rlm@60 400
rlm@160 401 (defn tap [obj direction force]
rlm@160 402 (let [control (.getControl obj RigidBodyControl)]
rlm@160 403 (.applyTorque
rlm@160 404 control
rlm@160 405 (.mult (.getPhysicsRotation control)
rlm@160 406 (.mult (.normalize direction) (float force))))))
rlm@160 407
rlm@160 408
rlm@160 409 (defn with-movement
rlm@160 410 [object
rlm@160 411 [up down left right roll-up roll-down :as keyboard]
rlm@160 412 forces
rlm@160 413 [root-node
rlm@160 414 keymap
rlm@160 415 intilization
rlm@160 416 world-loop]]
rlm@160 417 (let [add-keypress
rlm@160 418 (fn [state keymap key]
rlm@160 419 (merge keymap
rlm@160 420 {key
rlm@160 421 (fn [_ pressed?]
rlm@160 422 (reset! state pressed?))}))
rlm@160 423 move-up? (atom false)
rlm@160 424 move-down? (atom false)
rlm@160 425 move-left? (atom false)
rlm@160 426 move-right? (atom false)
rlm@160 427 roll-left? (atom false)
rlm@160 428 roll-right? (atom false)
rlm@160 429
rlm@160 430 directions [(Vector3f. 0 1 0)(Vector3f. 0 -1 0)
rlm@160 431 (Vector3f. 0 0 1)(Vector3f. 0 0 -1)
rlm@160 432 (Vector3f. -1 0 0)(Vector3f. 1 0 0)]
rlm@160 433 atoms [move-left? move-right? move-up? move-down?
rlm@160 434 roll-left? roll-right?]
rlm@160 435
rlm@160 436 keymap* (reduce merge
rlm@160 437 (map #(add-keypress %1 keymap %2)
rlm@160 438 atoms
rlm@160 439 keyboard))
rlm@160 440
rlm@160 441 splice-loop (fn []
rlm@160 442 (dorun
rlm@160 443 (map
rlm@160 444 (fn [sym direction force]
rlm@160 445 (if @sym
rlm@160 446 (tap object direction force)))
rlm@160 447 atoms directions forces)))
rlm@160 448
rlm@160 449 world-loop* (fn [world tpf]
rlm@160 450 (world-loop world tpf)
rlm@160 451 (splice-loop))]
rlm@160 452 [root-node
rlm@160 453 keymap*
rlm@160 454 intilization
rlm@160 455 world-loop*]))
rlm@160 456
rlm@60 457
rlm@60 458
rlm@50 459 #+end_src
rlm@50 460
rlm@50 461
rlm@50 462 *** Viewing Objects
rlm@50 463
rlm@66 464 #+name: world-view
rlm@50 465 #+begin_src clojure :results silent
rlm@50 466 (in-ns 'cortex.util)
rlm@50 467
rlm@114 468 (defn view-image
rlm@114 469 "Initailizes a JPanel on which you may draw a BufferedImage.
rlm@114 470 Returns a function that accepts a BufferedImage and draws it to the
rlm@114 471 JPanel."
rlm@114 472 []
rlm@114 473 (let [image
rlm@114 474 (atom
rlm@114 475 (BufferedImage. 1 1 BufferedImage/TYPE_4BYTE_ABGR))
rlm@114 476 panel
rlm@114 477 (proxy [JPanel] []
rlm@114 478 (paint
rlm@114 479 [graphics]
rlm@114 480 (proxy-super paintComponent graphics)
rlm@114 481 (.drawImage graphics @image 0 0 nil)))
rlm@114 482 frame (JFrame. "Display Image")]
rlm@114 483 (SwingUtilities/invokeLater
rlm@114 484 (fn []
rlm@114 485 (doto frame
rlm@114 486 (-> (.getContentPane) (.add panel))
rlm@114 487 (.pack)
rlm@114 488 (.setLocationRelativeTo nil)
rlm@114 489 (.setResizable true)
rlm@114 490 (.setVisible true))))
rlm@114 491 (fn [#^BufferedImage i]
rlm@114 492 (reset! image i)
rlm@114 493 (.setSize frame (+ 8 (.getWidth i)) (+ 28 (.getHeight i)))
rlm@114 494 (.repaint panel 0 0 (.getWidth i) (.getHeight i)))))
rlm@114 495
rlm@50 496 (defprotocol Viewable
rlm@50 497 (view [something]))
rlm@50 498
rlm@50 499 (extend-type com.jme3.scene.Geometry
rlm@50 500 Viewable
rlm@50 501 (view [geo]
rlm@50 502 (view (doto (Node.)(.attachChild geo)))))
rlm@47 503
rlm@29 504 (extend-type com.jme3.scene.Node
rlm@29 505 Viewable
rlm@29 506 (view
rlm@29 507 [node]
rlm@29 508 (.start
rlm@29 509 (world
rlm@29 510 node
rlm@29 511 {}
rlm@29 512 (fn [world]
rlm@29 513 (enable-debug world)
rlm@29 514 (set-gravity world Vector3f/ZERO)
rlm@47 515 (light-up-everything world))
rlm@29 516 no-op))))
rlm@62 517
rlm@62 518 (extend-type com.jme3.math.ColorRGBA
rlm@62 519 Viewable
rlm@62 520 (view
rlm@62 521 [color]
rlm@62 522 (view (doto (Node.)
rlm@62 523 (.attachChild (box 1 1 1 :color color))))))
rlm@62 524
rlm@62 525 (defprotocol Textual
rlm@62 526 (text [something]
rlm@62 527 "Display a detailed textual analysis of the given object."))
rlm@62 528
rlm@62 529 (extend-type com.jme3.scene.Node
rlm@62 530 Textual
rlm@62 531 (text [node]
rlm@62 532 (println "Total Vertexes: " (.getVertexCount node))
rlm@62 533 (println "Total Triangles: " (.getTriangleCount node))
rlm@62 534 (println "Controls :")
rlm@62 535 (dorun (map #(text (.getControl node %)) (range (.getNumControls node))))
rlm@62 536 (println "Has " (.getQuantity node) " Children:")
rlm@62 537 (doall (map text (.getChildren node)))))
rlm@62 538
rlm@62 539 (extend-type com.jme3.animation.AnimControl
rlm@62 540 Textual
rlm@62 541 (text [control]
rlm@62 542 (let [animations (.getAnimationNames control)]
rlm@62 543 (println "Animation Control with " (count animations) " animation(s):")
rlm@62 544 (dorun (map println animations)))))
rlm@62 545
rlm@62 546 (extend-type com.jme3.animation.SkeletonControl
rlm@62 547 Textual
rlm@62 548 (text [control]
rlm@62 549 (println "Skeleton Control with the following skeleton:")
rlm@62 550 (println (.getSkeleton control))))
rlm@62 551
rlm@62 552 (extend-type com.jme3.bullet.control.KinematicRagdollControl
rlm@62 553 Textual
rlm@62 554 (text [control]
rlm@62 555 (println "Ragdoll Control")))
rlm@62 556
rlm@62 557 (extend-type com.jme3.scene.Geometry
rlm@62 558 Textual
rlm@62 559 (text [control]
rlm@62 560 (println "...geo...")))
rlm@108 561
rlm@108 562 (extend-type Triangle
rlm@108 563 Textual
rlm@108 564 (text [t]
rlm@108 565 (println "Triangle: " \newline (.get1 t) \newline
rlm@108 566 (.get2 t) \newline (.get3 t))))
rlm@108 567
rlm@25 568 #+end_src
rlm@25 569
rlm@29 570 Here I make the =Viewable= protocol and extend it to JME's types. Now
rlm@34 571 JME3's =hello-world= can be written as easily as:
rlm@29 572
rlm@29 573 #+begin_src clojure :results silent
rlm@29 574 (cortex.util/view (cortex.util/box))
rlm@29 575 #+end_src
rlm@29 576
rlm@29 577
rlm@24 578 * COMMENT code generation
rlm@24 579 #+begin_src clojure :tangle ../src/cortex/import.clj
rlm@24 580 <<import>>
rlm@24 581 #+end_src
rlm@25 582
rlm@25 583
rlm@29 584 #+begin_src clojure :tangle ../src/cortex/util.clj :noweb yes
rlm@25 585 <<util>>
rlm@25 586 <<shapes>>
rlm@50 587 <<debug-actions>>
rlm@29 588 <<world-view>>
rlm@25 589 #+end_src
rlm@25 590
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