Example #1
0
        /// <summary>
        /// Called to start the specific motion. If the motion
        /// were something like 'jump', this would start the jumping process
        /// </summary>
        /// <param name="rPrevMotion">Motion that this motion is taking over from</param>
        public override bool Activate(MotionControllerMotion rPrevMotion)
        {
            mStopTime     = 0f;
            mStopInput    = Vector2.zero;
            mLinkRotation = false;

            // Helps with syncronizing from a motion like attack
            float lRunFactor = (IsRunActive ? 1f : 0.5f);

            mInputX.Clear(mMotionController.State.InputX * lRunFactor);
            mInputY.Clear(mMotionController.State.InputY * lRunFactor);

            // Update the max speed based on our animation
            mMotionController.MaxSpeed = (_RunSpeed > 0f ? _RunSpeed : 3.2f);

            // Determine how we'll start our animation
            mMotionController.SetAnimatorMotionPhase(mMotionLayer.AnimatorLayerIndex, PHASE_START, true);

            // Register this motion with the camera
            if (_RotateWithCamera && mMotionController.CameraRig is BaseCameraRig)
            {
                ((BaseCameraRig)mMotionController.CameraRig).OnPostLateUpdate -= OnCameraUpdated;
                ((BaseCameraRig)mMotionController.CameraRig).OnPostLateUpdate += OnCameraUpdated;
            }

            // Finalize the activation
            return(base.Activate(rPrevMotion));
        }
Example #2
0
        /// <summary>
        /// Called to start the specific motion. If the motion
        /// were something like 'jump', this would start the jumping process
        /// </summary>
        /// <param name="rPrevMotion">Motion that this motion is taking over from</param>
        public override bool Activate(MotionControllerMotion rPrevMotion)
        {
            mIdleTime         = 0f;
            mIsRotationLocked = false;

            mInputX.Clear();
            mInputY.Clear();
            mInputMagnitude.Clear();

            // Update the max speed based on our animation
            mMotionController.MaxSpeed = 5.668f;

            // Start the motion
            mActiveForm = (_Form >= 0 ? _Form : mMotionController.CurrentForm);
            mMotionController.SetAnimatorMotionPhase(mMotionLayer.AnimatorLayerIndex, PHASE_START, mActiveForm, 0, true);

            // Register this motion with the camera
            if (mMotionController.CameraRig is BaseCameraRig)
            {
                ((BaseCameraRig)mMotionController.CameraRig).OnPostLateUpdate -= OnCameraUpdated;
                ((BaseCameraRig)mMotionController.CameraRig).OnPostLateUpdate += OnCameraUpdated;
            }

            // Finalize the activation
            return(base.Activate(rPrevMotion));
        }
Example #3
0
        /// <summary>
        /// Called to start the specific motion. If the motion
        /// were something like 'jump', this would start the jumping process
        /// </summary>
        /// <param name="rPrevMotion">Motion that this motion is taking over from</param>
        public override bool Activate(MotionControllerMotion rPrevMotion)
        {
            mIdleTime     = 0f;
            mLinkRotation = false;

            mInputX.Clear();
            mInputY.Clear();
            mInputMagnitude.Clear();

            // Update the max speed based on our animation
            mMotionController.MaxSpeed = 5.668f;

            // Determine how we'll start our animation
            mMotionController.SetAnimatorMotionPhase(mMotionLayer.AnimatorLayerIndex, PHASE_START, true);

            // Register this motion with the camera
            if (_RotateWithCamera && mMotionController.CameraRig is BaseCameraRig)
            {
                ((BaseCameraRig)mMotionController.CameraRig).OnPostLateUpdate -= OnCameraUpdated;
                ((BaseCameraRig)mMotionController.CameraRig).OnPostLateUpdate += OnCameraUpdated;
            }

            // Finalize the activation
            return(base.Activate(rPrevMotion));
        }
Example #4
0
        /// <summary>
        /// Called to start the specific motion. If the motion
        /// were something like 'jump', this would start the jumping process
        /// </summary>
        /// <param name="rPrevMotion">Motion that this motion is taking over from</param>
        public override bool Activate(MotionControllerMotion rPrevMotion)
        {
            mNoInputElapsed = 0f;
            mLinkRotation   = false;

            // Force the stance
            mSwimmerInfo.EnterWater();

            if (rPrevMotion is Jump || rPrevMotion is Fall)
            {
                mSwimmerInfo.CreateSplash();
            }

            // Helps with syncronizing from a motion like attack
            float lRunFactor = (IsRunActive ? 1f : 0.5f);

            mInputX.Clear(mMotionController.State.InputX * lRunFactor);
            mInputY.Clear(mMotionController.State.InputY * lRunFactor);
            mInputMagnitude.Clear(Mathf.Sqrt((mInputX.Value * mInputX.Value) + (mInputY.Value * mInputY.Value)));

            // Determine how we'll start our animation
            mMotionController.ForcedInput = Vector3.zero;
            mMotionController.SetAnimatorMotionPhase(mMotionLayer.AnimatorLayerIndex, PHASE_START, true);

            // Register this motion with the camera
            if (_RotateWithCamera && mMotionController.CameraRig is BaseCameraRig)
            {
                ((BaseCameraRig)mMotionController.CameraRig).OnPostLateUpdate -= OnCameraUpdated;
                ((BaseCameraRig)mMotionController.CameraRig).OnPostLateUpdate += OnCameraUpdated;
            }

            // Finalize the activation
            return(base.Activate(rPrevMotion));
        }
            public void Clear()
            {
                floatValue.value = 12f;

                floatValue.Clear();

                Assert.AreEqual(floatValue.value, 0.0f);
            }
Example #6
0
        /// <summary>
        /// Updates the motion over time. This is called by the controller
        /// every update cycle so animations and stages can be updated.
        /// </summary>
        /// <param name="rDeltaTime">Time since the last frame (or fixed update call)</param>
        /// <param name="rUpdateIndex">Index of the update to help manage dynamic/fixed updates. [0: Invalid update, >=1: Valid update]</param>
        public override void Update(float rDeltaTime, int rUpdateIndex)
        {
            mRotation = Quaternion.identity;

            // Grab the state info
            MotionState lState = mMotionController.State;

            // Convert the input to radial so we deal with keyboard and gamepad input the same.
            float lInputX   = lState.InputX;
            float lInputY   = lState.InputY;
            float lInputMag = lState.InputMagnitudeTrend.Value;

            InputManagerHelper.ConvertToRadialInput(ref lInputX, ref lInputY, ref lInputMag); //, (IsRunActive ? 1f : 0.5f));

            // Ensure we support the stop delay. This way, we can get out
            // of the blend tree with a nice transition
            if (lState.InputMagnitudeTrend.Value < 0.4f)
            {
                // Only set the timer if it's not set yet
                if (mStopTime == 0f)
                {
                    mStopInput.x = mInputX.Average;
                    mStopInput.y = mInputY.Average;
                    mStopTime    = Time.time + _StopDelay;

                    mInputX.Clear(mStopInput.x);
                    mInputY.Clear(mStopInput.y);
                    mInputMagnitude.Clear(Mathf.Sqrt((mInputX.Value * mInputX.Value) + (mInputY.Value * mInputY.Value)));
                }
            }
            // Clear the timer
            else
            {
                mStopTime = 0f;
            }

            // When we're processing normally, update all the input values
            if (mStopTime == 0f)
            {
                mInputX.Add(lInputX);
                mInputY.Add(lInputY);
                mInputMagnitude.Add(lInputMag);
            }
            // If we've reached our stop time, it's time to stop
            else if (Time.time > mStopTime)
            {
                // Determine how we'll stop based on the direction
                if (!(mMotionLayer._AnimatorStateID == STATE_IdlePoseOut))
                {
                    mMotionController.SetAnimatorMotionPhase(mMotionLayer._AnimatorLayerIndex, PHASE_STOP, 0, true);
                }
                // If we're already stopping, we can clear our movement info. We don't want
                // to clear the movement before the transition our our blend tree will drop to idle
                else
                {
                    mStopTime = 0f;
                    mInputX.Clear();
                    mInputY.Clear();
                    mInputMagnitude.Clear();

                    lState.AnimatorStates[mMotionLayer._AnimatorLayerIndex].MotionPhase     = 0;
                    lState.AnimatorStates[mMotionLayer._AnimatorLayerIndex].MotionParameter = 0;
                }
            }

            // Modify the input values to add some lag
            lState.InputX = mInputX.Average;
            lState.InputY = mInputY.Average;
            lState.InputMagnitudeTrend.Replace(mInputMagnitude.Average);

            // Finally, set the state value
            mMotionController.State = lState;

            // If we're not dealing with an ootii camera rig, we need to rotate to the camera here
            if (_RotateWithCamera && !(mMotionController.CameraRig is BaseCameraRig))
            {
                OnCameraUpdated(rDeltaTime, rUpdateIndex, null);
            }

            if (!_RotateWithCamera && _RotateWithInput)
            {
                RotateUsingInput(rDeltaTime, ref mRotation);
            }

            // Allow the base class to render debug info
            base.Update(rDeltaTime, rUpdateIndex);
        }