public void read(JMEImporter e) throws IOException { detachAllChildren(); super.read(e); InputCapsule capsule = e.getCapsule(this); emitType = capsule.readEnum("emitType", EmitType.class, EmitType.Point); particleType = capsule.readEnum("particleType", ParticleType.class, ParticleType.Quad); psLine = (Line) capsule.readSavable("psLine", null); psRect = (Rectangle) capsule.readSavable("psRect", null); psRing = (Ring) capsule.readSavable("psRing", null); psGeom = (Geometry) capsule.readSavable("psGeom", null); startSize = capsule.readFloat("startSize", DEFAULT_START_SIZE); endSize = capsule.readFloat("endSize", DEFAULT_END_SIZE); startColor = (ColorRGBA) capsule.readSavable("startColor", DEFAULT_START_COLOR.clone()); endColor = (ColorRGBA) capsule.readSavable("endColor", DEFAULT_END_COLOR.clone()); startSpin = capsule.readFloat("startSpin", 0); endSpin = capsule.readFloat("endSpin", 0); startMass = capsule.readFloat("startMass", 0); endMass = capsule.readFloat("endMass", 0); startTexIndex = capsule.readInt("startTexIndex", 0); texQuantity = capsule.readInt("texQuantity", 1); initialVelocity = capsule.readFloat("initialVelocity", 1); minimumLifeTime = capsule.readFloat("minimumLifeTime", DEFAULT_MIN_LIFE); maximumLifeTime = capsule.readFloat("maximumLifeTime", DEFAULT_MAX_LIFE); minimumAngle = capsule.readFloat("minimumAngle", 0); maximumAngle = capsule.readFloat("maximumAngle", DEFAULT_MAX_ANGLE); emissionDirection = (Vector3f) capsule.readSavable("emissionDirection", Vector3f.UNIT_Y.clone()); worldEmit = (Vector3f) capsule.readSavable("worldEmit", Vector3f.ZERO.clone()); upVector = (Vector3f) capsule.readSavable("upVector", Vector3f.UNIT_Y.clone()); leftVector = (Vector3f) capsule.readSavable("leftVector", new Vector3f(-1, 0, 0)); numParticles = capsule.readInt("numParticles", 0); rotateWithScene = capsule.readBoolean("rotateWithScene", false); geometryCoordinates = capsule.readFloatBuffer("geometryCoordinates", null); appearanceColors = capsule.readFloatBuffer("appearanceColors", null); releaseRate = capsule.readInt("releaseRate", numParticles); particleOrientation = capsule.readFloat("particleOrientation", 0); originCenter = (Vector3f) capsule.readSavable("originCenter", new Vector3f()); originOffset = (Vector3f) capsule.readSavable("originOffset", new Vector3f()); controller = (ParticleController) capsule.readSavable("controller", null); cameraFacing = capsule.readBoolean("cameraFacing", true); velocityAligned = capsule.readBoolean("velocityAligned", false); particlesInWorldCoords = capsule.readBoolean("particlesInWorldCoords", true); ramp = (ParticleAppearanceRamp) capsule.readSavable("ramp", new ParticleAppearanceRamp()); texAnimation = (TexAnimation) capsule.readSavable("texAnimation", new TexAnimation()); invScale = new Vector3f(); upXemit = new Vector3f(); absUpVector = new Vector3f(); abUpMinUp = new Vector3f(); rotMatrix = new Matrix3f(); initializeParticles(numParticles); }
public void read(JMEImporter e) throws IOException { super.read(e); InputCapsule capsule = e.getCapsule(this); value1 = capsule.readInt("value1", 0); value2 = capsule.readInt("value2", 0); }
@SuppressWarnings("unchecked") public void read(JMEImporter e) throws IOException { super.read(e); InputCapsule capsule = e.getCapsule(this); numObjects = capsule.readInt("numObjects", 0); Savable[] savs = capsule.readSavableArray("toChange", new Spatial[0]); if (savs == null) { toChange = null; } else { toChange = new Spatial[savs.length]; for (int x = 0; x < savs.length; x++) { toChange[x] = (Spatial) savs[x]; } } savs = capsule.readSavableArray("pivots", new TransformQuaternion[0]); if (savs == null) { pivots = null; } else { pivots = new TransformQuaternion[savs.length]; for (int x = 0; x < savs.length; x++) { pivots[x] = (TransformQuaternion) savs[x]; } } parentIndexes = capsule.readIntArray("parentIndexes", new int[0]); keyframes = capsule.readSavableArrayList("keyframes", new ArrayList()); haveChanged = capsule.readBooleanArray("haveChanged", new boolean[0]); beginPointTime = (PointInTime) capsule.readSavable("beginPointTime", null); endPointTime = (PointInTime) capsule.readSavable("endPointTime", null); }
@Override public void read(JMEImporter im) throws IOException { super.read(im); Savable[] temp = null; InputCapsule ic = im.getCapsule(this); // Read in texture map locations. this.color = ic.readString("ColorMap", null); this.normal = ic.readString("NormalMap", null); this.specular = ic.readString("SpecularMap", null); // Read in primitives. temp = ic.readSavableArray("Vertices", null); this.vertices = new IVertex[temp.length]; for (int i = 0; i < temp.length; i++) { this.vertices[i] = (IVertex) temp[i]; } temp = ic.readSavableArray("Triangles", null); this.triangles = new ITriangle[temp.length]; for (int i = 0; i < temp.length; i++) { this.triangles[i] = (ITriangle) temp[i]; } temp = ic.readSavableArray("Weights", null); this.weights = new IWeight[temp.length]; for (int i = 0; i < temp.length; i++) { this.weights[i] = (IWeight) temp[i]; } // Read in settings. this.anisotropic = ic.readInt("Anisotropic", 0); this.miniFilter = MinificationFilter.valueOf(ic.readString("MinFilter", null)); this.magFilter = MagnificationFilter.valueOf(ic.readString("MagFilter", null)); this.orientedBounding = ic.readBoolean("OrientedBounding", false); }
public void read(JMEImporter e) throws IOException { InputCapsule capsule = e.getCapsule(this); index = capsule.readInt("index", 0); mass = capsule.readFloat("mass", 1); invMass = 1f / mass; position = (Vector3f) capsule.readSavable("position", Vector3f.ZERO.clone()); acceleration = (Vector3f) capsule.readSavable("acceleration", Vector3f.ZERO.clone()); }
@Override public void read(JMEImporter im) throws IOException { InputCapsule ic = im.getCapsule(this); this.index = ic.readInt("Index", -1); Savable[] temp = ic.readSavableArray("Vertices", null); this.vertices = new IVertex[temp.length]; for (int i = 0; i < this.vertices.length; i++) this.vertices[i] = (IVertex) temp[i]; }
@SuppressWarnings("unchecked") public void read(JMEImporter e) throws IOException { super.read(e); InputCapsule capsule = e.getCapsule(this); texture = capsule.readSavableArrayList("texture", new ArrayList<Texture>(1)); offset = capsule.readInt("offset", 0); correctionType = capsule.readEnum("correctionType", CorrectionType.class, CorrectionType.Perspective); resetFirstLast(); }
/** <b>This method foces interpolation mode, regardless of input</b> */ @SuppressWarnings("unchecked") public void read(JMEImporter e) throws IOException { InputCapsule cap = e.getCapsule(this); name = cap.readString("name", null); keyframeTime = cap.readFloatArray("keyframeTime", null); interpolationType = cap.readIntArray("interpolationType", null); boneTransforms = cap.readSavableArrayList("boneTransforms", null); currentTime = cap.readFloat("currentTime", 0); currentFrame = cap.readInt("currentFrame", 1); prevFrame = cap.readInt("prevFrame", 0); endFrame = cap.readInt("endFrame", 0); startFrame = cap.readInt("startFrame", 0); interpolationRate = cap.readFloat("interpolationRate", DEFAULT_RATE); lastTime = cap.readFloat("lastTime", 0); cycleMode = cap.readInt("cycleMode", 1); interpolate = cap.readBoolean("interpolate", true); children = cap.readSavableArrayList("children", null); int[] frames = cap.readIntArray("eventFrames", null); if (frames != null) { for (int i = 0; i < frames.length; i++) { ArrayList<Savable> events = cap.readSavableArrayList("event" + frames[i], null); for (int j = 0; j < events.size(); j++) { AnimationEventManager.getInstance() .addAnimationEvent(this, frames[i], (AnimationEvent) events.get(i)); } } } // Update the method Javadoc when non-interpolation is supported again. interpolationType = new int[keyframeTime.length]; for (int i = 0; i < keyframeTime.length; i++) { interpolationType[i] = BoneAnimation.LINEAR; } }
public void read(JMEImporter e) throws IOException { super.read(e); InputCapsule capsule = e.getCapsule(this); function = capsule.readInt("function", CF_LESS); writable = capsule.readBoolean("writable", true); }