Esempio n. 1
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 /// <summary>
 /// Creates an entity at the given position.
 /// </summary>
 /// <param name="position">Given position.</param>
 string CreateEntityAt(Vector position)
 {
     Entity entity = new Entity();
     entity["location"]["position"].Suggest(position);
     World.Instance.Add(entity);
     return entity.Guid.ToString ();
 }
Esempio n. 2
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        public void ShouldSetEntityToGroundlevel()
        {
            var e = new Entity();
            e["avatar"]["userLogin"].Suggest("123");
            e["avatarCollision"]["groundLevel"].Suggest(0f);
            World.Instance.Add(e);
            e["location"]["position"].Suggest(new Vector(1, 2, 3));

            bool finishedComputation = false;
            Vector entityPosition = new Vector(0,0,0);
            ServiceBus.Instance.ComputedResult += (o, r) =>
                {
                    if (r.AccumulatedTransformations.ContainsKey("location"))
                    {
                        finishedComputation = true;
                        entityPosition = (Vector)e["location"]["position"].Value;
                        Assert.AreEqual(entityPosition.x, 1f);
                        Assert.AreEqual(entityPosition.y, 0f);
                        Assert.AreEqual(entityPosition.z, 3f);
                    }
                };

            var delay = 25;
            var pollingInterval = 100; // 100 milliseconds

            // Check that the computation has actually finished correctly
            Assert.That(() => finishedComputation, Is.EqualTo(true).After(delay, pollingInterval));
        }
Esempio n. 3
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 public static Vector CrossProduct(Vector vector1, Vector vector2)
 {
     return new Vector(
         vector1.y * vector2.z - vector1.z * vector2.y,
         vector1.z * vector2.x - vector1.x * vector2.z,
         vector1.x * vector2.y - vector1.y * vector2.x
     );
 }
Esempio n. 4
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 public static Vector AddVectors(Vector vector1, Vector vector2)
 {
     return new Vector(
         vector1.x + vector2.x,
         vector1.y + vector2.y,
         vector1.z + vector2.z
     );
 }
Esempio n. 5
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 public static Quat QuaternionFromAxisAngle(Vector axis, float r)
 {
     return new Quat(
         axis.x * (float)System.Math.Sin(0.5 * r),
         axis.y * (float)System.Math.Sin(0.5 * r),
         axis.z * (float)System.Math.Sin(0.5 * r),
         (float)System.Math.Cos(0.5 * r)
     );
 }
Esempio n. 6
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 string CreateMeshEntity(Vector position, Quat orientation, Vector scale, MeshResource mesh)
 {
     Entity entity = new Entity();
     entity["location"]["position"].Suggest(position);
     entity["location"]["orientation"].Suggest(orientation);
     entity["mesh"]["scale"].Suggest(scale);
     entity["mesh"]["uri"].Suggest(mesh.uri);
     entity["mesh"]["visible"].Suggest(mesh.visible);
     World.Instance.Add(entity);
     return entity.Guid.ToString ();
 }
 private void Update(string guid, Vector velocity, AxisAngle rotVelocity, int timestamp)
 {
     var entity = World.Instance.FindEntity(guid);
     entity["motion"]["velocity"].Suggest(velocity);
     entity["motion"]["rotVelocity"].Suggest(rotVelocity);
     // We currently ignore timestamp, but may it in the future to implement dead reckoning.
 }
Esempio n. 8
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        private void setFrameQuaternion(string jointName, string x, string y, string z)
        {
            Quat q = new Quat(0, 0, 0, 1);
            Vector xAxis = new Vector(1, 0, 0);
            Vector yAxis = new Vector(0, 1, 0);
            Vector zAxis = new Vector(0, 0, 1);

            Vector rotData = new Vector(0, 0, 0);

            double angle1 = System.Math.PI * double.Parse(x, CultureInfo.InvariantCulture) / 180.0;
            double angle2 = System.Math.PI * double.Parse(y, CultureInfo.InvariantCulture) / 180.0;
            double angle3 = System.Math.PI * double.Parse(z, CultureInfo.InvariantCulture) / 180.0;

            if (Joints[jointName].channelOrder.Contains("XrotationYrotationZrotation")) //XYZ
            {
                q = FIVES.Math.QuaternionFromAxisAngle(xAxis, (float)angle1);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(yAxis, (float)angle2));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(zAxis, (float)angle3));
                rotData = new Vector((float)angle1, (float)angle2, (float)angle3);
            }
            else if (Joints[jointName].channelOrder.Contains("XrotationZrotationYrotation")) //XZY
            {
                q = FIVES.Math.QuaternionFromAxisAngle(xAxis, (float)angle1);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(zAxis, (float)angle2));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(yAxis, (float)angle3));
                rotData = new Vector((float)angle1, (float)angle3, (float)angle2);
            }
            else if (Joints[jointName].channelOrder.Contains("YrotationXrotationZrotation")) //YXZ
            {
                q = FIVES.Math.QuaternionFromAxisAngle(yAxis, (float)angle1);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(xAxis, (float)angle2));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(zAxis, (float)angle3));
                rotData = new Vector((float)angle2, (float)angle1, (float)angle3);
            }
            else if (Joints[jointName].channelOrder.Contains("YrotationZrotationXrotation")) //YZX
            {
                q = FIVES.Math.QuaternionFromAxisAngle(yAxis, (float)angle1);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(zAxis, (float)angle2));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(xAxis, (float)angle3));
                rotData = new Vector((float)angle2, (float)angle3, (float)angle1);
            }
            else if (Joints[jointName].channelOrder.Contains("ZrotationYrotationXrotation")) //ZYX
            {
                q = FIVES.Math.QuaternionFromAxisAngle(zAxis, (float)angle1);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(yAxis, (float)angle2));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(xAxis, (float)angle3));
                rotData = new Vector((float)angle3, (float)angle2, (float)angle1);
            }
            else if (Joints[jointName].channelOrder.Contains("ZrotationXrotationYrotation")) //ZXY
            {
                q = FIVES.Math.QuaternionFromAxisAngle(zAxis, (float)angle1);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(xAxis, (float)angle2));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(yAxis, (float)angle3));
                rotData = new Vector((float)angle3, (float)angle1, (float)angle2);
            }

            //Console.WriteLine("quaternion: " + q.x + "," + q.y + "," + q.z + "," + q.w);
            //Console.ReadLine();

            Joints[jointName].quaternionData.Add(q);
            Joints[jointName].rotationData.Add(rotData);
        }
Esempio n. 9
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 public static Vector ScaleVector(Vector vector, float scalar)
 {
     return new Vector(
         vector.x * scalar,
         vector.y * scalar,
         vector.z * scalar
     );
 }
Esempio n. 10
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 public static float VectorLength(Vector vector)
 {
     return (float)System.Math.Sqrt(ScalarProduct(vector, vector));
 }
Esempio n. 11
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 void SetLeftRightMotion(Connection connection, float amount)
 {
     var avatarEntity = GetAvatarEntityByConnection(connection);
     Vector oldVelocity = (Vector)avatarEntity["motion"]["velocity"].Value;
     Vector newVelocity =  new Vector(oldVelocity.x, oldVelocity.y, amount);
     avatarEntity["motion"]["velocity"].Suggest(newVelocity);
 }
Esempio n. 12
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        private void readAndProcessMotionData(string[] motionData)
        {
            //It is special for human body skeleton: normally only root joint has 6 channels, other joints only have 3 channels
            int count = 0;

            //Console.WriteLine(motionData.Length);

            foreach (KeyValuePair<string, BVHJointData> joint in Joints)
            {
                if (joint.Value.isRoot == 1)
                {
                    Vector trans = new Vector(float.Parse(motionData[count], CultureInfo.InvariantCulture), float.Parse(motionData[count+1], CultureInfo.InvariantCulture), float.Parse(motionData[count+2], CultureInfo.InvariantCulture));
                    Vector offset = joint.Value.offsetData;

                    //TODO: I use default translation channel order(XYZ), but it is in fact wrong
                    Joints[joint.Key].translationData.Add(FIVES.Math.AddVectors(trans, offset));
                    count += 3;

                    this.setFrameQuaternion(joint.Key, motionData[count], motionData[count + 1], motionData[count + 2]);
                    count += 3;

                }
                else if (joint.Value.isEndSite == 1)
                {
                    //Ignore it..
                }
                else // isRoot ==0, isEndSite == 0
                {
                    Vector trans = new Vector(0, 0, 0);
                    Vector offset = joint.Value.offsetData;

                    Joints[joint.Key].translationData.Add(FIVES.Math.AddVectors(trans, offset));

                    this.setFrameQuaternion(joint.Key, motionData[count], motionData[count + 1], motionData[count + 2]);
                    count += 3;
                }
            }

            //Console.WriteLine("Count: " + count);
        }
Esempio n. 13
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 void SetAvatarSpinAroundAxis(Connection connection, Vector axis, float angle)
 {
     var avatarEntity = GetAvatarEntityByConnection(connection);
     avatarEntity["motion"]["rotVelocity"].Suggest(new AxisAngle(axis, angle));
 }
Esempio n. 14
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        /// <summary>
        /// Rotates a vector v around an axis n by an angle a by the formula
        /// result = x*cos a + n(n.v)(1-cos a) + (v x n)sin a 
        /// </summary>
        /// <param name="vector"></param>
        /// <param name="axis"></param>
        /// <param name="angle"></param>
        /// <returns></returns>
        public static Vector RotateVectorByAxisAngle(Vector vector, Vector axis, float angle)
        {
            Vector result = new Vector();

            float cosAngle =  (float)System.Math.Cos(angle);
            float sinAngle = (float)System.Math.Sin(angle);

            Vector scaledVector = ScaleVector(vector, cosAngle); // v*cos a

            float axisFactor = ScalarProduct(vector, axis)*(1 - cosAngle); // (n.v)(1 - cos a)
            Vector scaledAxis = ScaleVector(axis, axisFactor); // n(n.v)(1-cos a)

            Vector scaledCross = ScaleVector(CrossProduct(vector, axis), sinAngle); // (v x n)sin a

            result = AddVectors(AddVectors(scaledAxis , scaledVector), scaledCross);

            return result;
        }
 /// <summary>
 /// Worker Thread function that periodically performs the motion. Ends, when velocity of entity is 0
 /// </summary>
 /// <param name="updatedEntity">Entity for which motion is updated</param>
 internal void UpdateMotion(Entity updatedEntity)
 {
     Vector localVelocity = GetVelocityInWorldSpace(updatedEntity);
     Vector oldPosition = (Vector)updatedEntity["location"]["position"].Value;
     Vector newPosition = new Vector(
         oldPosition.x + localVelocity.x,
         oldPosition.y + localVelocity.y,
         oldPosition.z + localVelocity.z
     );
     updatedEntity["location"]["position"].Suggest(newPosition);
 }
        /// <summary>
        /// Checks if position of entity has changed and sets y attribute to ground level if y and ground level
        /// are different
        /// </summary>
        /// <param name="accumulatedTransforms">Accumulated transformation that happened in the service chain</param>
        /// <returns>Accumulated changes with adaptions added by AvatarCollison</returns>
        internal AccumulatedAttributeTransform Transform(AccumulatedAttributeTransform accumulatedTransforms)
        {
            if (!accumulatedTransforms.Entity.ContainsComponent("avatar"))
                return accumulatedTransforms;

            Vector entityPosition = (Vector)accumulatedTransforms.CurrentAttributeValue("location", "position");
            Vector adaptedPosition = new Vector (entityPosition.x,
                (float)accumulatedTransforms.Entity["avatarCollision"]["groundLevel"].Value,
                entityPosition.z);

            accumulatedTransforms.AddAttributeTransformation("location", "position", adaptedPosition);
            return accumulatedTransforms;
        }
Esempio n. 17
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 public AxisAngle(Vector axis, float angle)
     : this()
 {
     this.axis = axis;
     this.angle = angle;
 }
Esempio n. 18
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        /// <summary>
        /// Changes the appearance of the avatar.
        /// </summary>
        /// <param name="connection">Client connection</param>
        /// <param name="meshURI">New mesh URI.</param>
        /// <param name="scale">New scale.</param>
        void ChangeAppearance(Connection connection, string meshURI, Vector scale)
        {
            var avatarEntity = GetAvatarEntityByConnection(connection);

            avatarEntity["mesh"]["uri"].Suggest(meshURI);
            avatarEntity["mesh"]["scale"].Suggest(scale);
        }
        private void UpdatePosition(string guid, Vector position, int timestamp)
        {
            var entity = World.Instance.FindEntity(guid);
            entity["location"]["position"].Suggest(position);

            // We currently ignore timestamp, but may it in the future to implement dead reckoning.
        }
Esempio n. 20
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 void SetForwardBackwardMotion(Connection connection, float amount)
 {
     var avatarEntity = GetAvatarEntityByConnection(connection);
     Vector oldVelocity = (Vector)avatarEntity["motion"]["velocity"].Value;
     Vector newVelocity = new Vector(amount, oldVelocity.y, oldVelocity.z);
     avatarEntity["motion"]["velocity"].Suggest(newVelocity);
 }
Esempio n. 21
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 public static float ScalarProduct(Vector vector1, Vector vector2)
 {
     return vector1.x * vector2.x + vector1.y * vector2.y + vector1.z * vector2.z;
 }
Esempio n. 22
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        void StartAvatarMotionInDirection(Connection connection, Vector velocity)
        {
            var avatarEntity = GetAvatarEntityByConnection(connection);

            avatarEntity["motion"]["velocity"].Suggest(velocity);
        }
Esempio n. 23
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        private void applyAdditionalJointControl(string jointName, int index, float x, float y, float z)
        {
            Quat q = new Quat(0, 0, 0, 1);
            Vector xAxis = new Vector(1, 0, 0);
            Vector yAxis = new Vector(0, 1, 0);
            Vector zAxis = new Vector(0, 0, 1);

            if (Joints[jointName].channelOrder.Contains("XrotationYrotationZrotation")) //XYZ
            {
                q = FIVES.Math.QuaternionFromAxisAngle(xAxis, x);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(yAxis, y));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(zAxis, z));
            }
            else if (Joints[jointName].channelOrder.Contains("XrotationZrotationYrotation")) //XZY
            {
                q = FIVES.Math.QuaternionFromAxisAngle(xAxis, x);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(zAxis, z));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(yAxis, y));
            }
            else if (Joints[jointName].channelOrder.Contains("YrotationXrotationZrotation")) //YXZ
            {
                q = FIVES.Math.QuaternionFromAxisAngle(yAxis, y);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(xAxis, x));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(zAxis, z));
            }
            else if (Joints[jointName].channelOrder.Contains("YrotationZrotationXrotation")) //YZX
            {
                q = FIVES.Math.QuaternionFromAxisAngle(yAxis, y);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(zAxis, z));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(xAxis, x));
            }
            else if (Joints[jointName].channelOrder.Contains("ZrotationYrotationXrotation")) //ZYX
            {
                q = FIVES.Math.QuaternionFromAxisAngle(zAxis, z);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(yAxis, y));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(xAxis, x));
            }
            else if (Joints[jointName].channelOrder.Contains("ZrotationXrotationYrotation")) //ZXY
            {
                q = FIVES.Math.QuaternionFromAxisAngle(zAxis, z);
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(xAxis, x));
                q = FIVES.Math.MultiplyQuaternions(q, FIVES.Math.QuaternionFromAxisAngle(yAxis, y));
            }

            Joints[jointName].quaternionData[index] = q;
        }