public override void UpdateCamera() { // Apply target offset modifications Vector3 headbobOffset = Headbob.GetHeadbobModifier(_previousDistance); Target.AddWorldSpaceOffset(headbobOffset); Vector3 screenShakeOffset = ScreenShake.GetShaking(); Target.AddWorldSpaceOffset(screenShakeOffset); // Handle Cursor Cursor.SetCursorLock(); // Get target Vector3 target = Target.GetTarget(); float actualDistance = Target.GetDistanceFromTarget(); // -- Set camera position and rotation CameraTransform.Position = HoldingPosition.position; // First move it to the holding position CameraTransform.LookAt(target); // Look at the target from the perspective of the holding position. Now we have the proper rotation in the virtual transform. // Set Camera Position float desiredDistance = Vector3.Distance(target, HoldingPosition.position); // The distance between the hold position and the target float calculatedDistance = ViewCollision.CalculateMaximumDistanceFromTarget(target, Mathf.Max(desiredDistance, actualDistance)); // The maximum distance we calculated we can be based off collision and preference float zoom = Zoom.CalculateDistanceFromTarget(actualDistance, calculatedDistance, desiredDistance); // Where we want to be for the sake of zooming CameraTransform.Position = target - CameraTransform.Forward * zoom; // Set the position of the transform _previousDistance = Target.GetDistanceFromTarget(); Target.ClearAdditionalOffsets(); }
public override void UpdateCamera() { Rotation.UpdateAutoRotate(false, null); Rotation.CheckRotationDegreesEvents(); // Apply target offset modifications Vector3 headbobOffset = Headbob.GetHeadbobModifier(_previousDistance); Target.AddWorldSpaceOffset(headbobOffset); Vector3 screenShakeOffset = ScreenShake.GetShaking(); Target.AddWorldSpaceOffset(screenShakeOffset); // Get target Vector3 target = Target.GetTarget(); float actual = _previousDistance; // Set Camera Position float desired = DesiredDistance; // Where we want the camera to be float calculated = ViewCollision.CalculateMaximumDistanceFromTarget(target, Mathf.Max(desired, actual)); // The maximum distance we calculated we can be based off collision and preference float zoom = Zoom.CalculateDistanceFromTarget(actual, calculated, desired); // Where we want to be for the sake of zooming CameraTransform.Position = target - CameraTransform.Forward * zoom; // Set the position of the transform _previousDistance = Target.GetDistanceFromTarget(); Target.ClearAdditionalOffsets(); }
public override void UpdateCamera() { // Get Input EasyUnityInput.AppendInput(); InputValues input = Input.ProcessedInput; Input.ClearInput(); // Handle Rotating Rotation.UpdateAutoRotate(false, null); Rotation.UpdateSmartFollow(); if (input.Horizontal.HasValue) { Rotation.RotateHorizontally(input.Horizontal.Value); } if (input.Vertical.HasValue) { Rotation.RotateVertically(input.Vertical.Value); } Rotation.CheckRotationDegreesEvents(); // Apply target offset modifications Vector3 headbobOffset = Headbob.GetHeadbobModifier(_previousDistance); Target.AddWorldSpaceOffset(headbobOffset); Vector3 screenShakeOffset = ScreenShake.GetShaking(); Target.AddWorldSpaceOffset(screenShakeOffset); // Handle Cursor Cursor.SetCursorLock(); // Hanlde Zooming if (input.ZoomIn.HasValue) { DesiredDistance = Mathf.Max(DesiredDistance + input.ZoomIn.Value, 0); DesiredDistance = Mathf.Max(DesiredDistance, MinZoomDistance); } if (input.ZoomOut.HasValue) { DesiredDistance = Mathf.Min(DesiredDistance + input.ZoomOut.Value, MaxZoomDistance); } // Get target Vector3 target = Target.GetTarget(); float actual = _previousDistance; // Set Camera Position float desired = DesiredDistance; // Where we want the camera to be float calculated = ViewCollision.CalculateMaximumDistanceFromTarget(target, Mathf.Max(desired, actual)); // The maximum distance we calculated we can be based off collision and preference float zoom = Zoom.CalculateDistanceFromTarget(actual, calculated, desired); // Where we want to be for the sake of zooming CameraTransform.Position = target - CameraTransform.Forward * zoom; // Set the position of the transform _previousDistance = Target.GetDistanceFromTarget(); Target.ClearAdditionalOffsets(); }
public override void UpdateCamera() { // Get Input EasyUnityInput.AppendInput(); InputValues input = Input.ProcessedInput; Input.ClearInput(); // Handle the rotating to follow the target from behind. FollowRotation.UpdateRotation(); // Apply target offset modifications Vector3 headbobOffset = Headbob.GetHeadbobModifier(_previousDistance); Target.AddWorldSpaceOffset(headbobOffset); Vector3 screenShakeOffset = ScreenShake.GetShaking(); Target.AddWorldSpaceOffset(screenShakeOffset); Vector3 target = Target.GetTarget(); // Hanlde Zooming if (input.ZoomIn.HasValue) { DesiredDistance = Mathf.Max(DesiredDistance + input.ZoomIn.Value, 0); DesiredDistance = Mathf.Max(DesiredDistance, MinZoomDistance); } if (input.ZoomOut.HasValue) { DesiredDistance = Mathf.Min(DesiredDistance + input.ZoomOut.Value, MaxZoomDistance); } // Set Camera Position float desired = DesiredDistance; // Where we want the camera to be float calculated = ViewCollision.CalculateMaximumDistanceFromTarget(target, Mathf.Max(desired, _previousDistance)); // The maximum distance we calculated we can be based off collision and preference float zoom = Zoom.CalculateDistanceFromTarget(_previousDistance, calculated, desired); // Where we want to be for the sake of zooming Vector3 zoomDistance = CameraTransform.Forward * zoom; CameraTransform.Position = target - zoomDistance; // No buffer if the buffer would zoom us in past 0. float actual = Vector3.Distance(CameraTransform.Position, target); _previousDistance = actual; Target.ClearAdditionalOffsets(); }
public override void UpdateCamera() { // Get Input EasyUnityInput.AppendInput(); InputValues input = Input.ProcessedInput; Input.ClearInput(); Rotation.UpdateAutoRotate(true, Target.Target); Rotation.UpdateSmartFollow(); //if (input.Horizontal.HasValue) //{ // Rotation.RotateHorizontally(input.Horizontal.Value); //} //if (input.Vertical.HasValue) //{ // Rotation.RotateVertically(input.Vertical.Value); //} Rotation.CheckRotationDegreesEvents(); // Apply target offset modifications Vector3 headbobOffset = Headbob.GetHeadbobModifier(_previousDistance); Target.AddWorldSpaceOffset(headbobOffset); Vector3 screenShakeOffset = ScreenShake.GetShaking(); Target.AddWorldSpaceOffset(screenShakeOffset); Vector3 target = Target.GetTarget(); // Handle Cursor Cursor.SetCursorLock(); // Hanlde Zooming if (input.ZoomIn.HasValue) { DesiredDistance = Mathf.Max(DesiredDistance + input.ZoomIn.Value, 0); DesiredDistance = Mathf.Max(DesiredDistance, MinZoomDistance); } if (input.ZoomOut.HasValue) { DesiredDistance = Mathf.Min(DesiredDistance + input.ZoomOut.Value, MaxZoomDistance); } // Set Camera Position float desired = DesiredDistance; // Where we want the camera to be float calculated = ViewCollision.CalculateMaximumDistanceFromTarget(target, Mathf.Max(desired, _previousDistance)); // The maximum distance we calculated we can be based off collision and preference float zoom = Zoom.CalculateDistanceFromTarget(_previousDistance, calculated, desired); // Where we want to be for the sake of zooming Vector3 zoomDistance = CameraTransform.Forward * zoom; if (canUpdateCameraPosition) { if (smoothCameraPosition && !splineFollow.followSpline & !cameraWindow.enabled) { CameraTransform.Position = Vector3.Lerp(CameraTransform.Position, target - zoomDistance, 0.1f); // No buffer if the buffer would zoom us in past 0. } else if (splineFollow.followSpline) { if (splineFollow.targetSpline != null) { float percent; Vector3 point1 = splineFollow.targetSpline.GetPoint(0); Vector3 point2 = splineFollow.targetSpline.GetPoint(1); Vector3 targetToFollow = new Vector3(Target.Target.position.x, 0, Target.Target.position.z); point1 = new Vector3(point1.x, 0, point1.z); point2 = new Vector3(point2.x, 0, point2.z); float minDistance = 0; float maxDistance = Vector3.Distance(point1, point2); float distance = Vector3.Distance(targetToFollow, point2); Vector3 targetPos = target - zoomDistance; //Calculate new position based on target X, camera Y and Z percent = Mathf.InverseLerp(maxDistance, minDistance, distance) + splineFollow.targetSpline.compensationConstant; //Update axis for spline follow if (splineFollow.followOnXAxis) { targetPos.x = splineFollow.targetSpline.GetPoint(percent).x; } if (splineFollow.followOnYAxis) { targetPos.y = splineFollow.targetSpline.GetPoint(percent).y; } if (splineFollow.followOnZAxis) { targetPos.z = splineFollow.targetSpline.GetPoint(percent).z; } if (cameraWindow.enabled) { CameraTransform.Position = CurbCamera(targetPos); } else { CameraTransform.Position = targetPos; } } } else if (cameraWindow.enabled && !splineFollow.followSpline) { CameraTransform.Position = CurbCamera(target - zoomDistance); } else { CameraTransform.Position = target - zoomDistance; } } float actual = Vector3.Distance(CameraTransform.Position, target); _previousDistance = actual; Target.ClearAdditionalOffsets(); }