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Terasology | Terasology open source voxel world | Game Engine library

 by   MovingBlocks Java Version: v5.2.0 License: Non-SPDX

 by   MovingBlocks Java Version: v5.2.0 License: Non-SPDX

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kandi X-RAY | Terasology Summary

Terasology is a Java library typically used in Gaming, Game Engine, Minecraft applications. Terasology has no bugs, it has no vulnerabilities, it has build file available and it has medium support. However Terasology has a Non-SPDX License. You can download it from GitHub.
The Terasology project was born from a Minecraft-inspired tech demo and is becoming a stable platform for various types of gameplay settings in a voxel world.
Support
Support
Quality
Quality
Security
Security
License
License
Reuse
Reuse

kandi-support Support

  • Terasology has a medium active ecosystem.
  • It has 3299 star(s) with 1304 fork(s). There are 203 watchers for this library.
  • There were 7 major release(s) in the last 12 months.
  • There are 475 open issues and 1520 have been closed. On average issues are closed in 404 days. There are 31 open pull requests and 0 closed requests.
  • It has a neutral sentiment in the developer community.
  • The latest version of Terasology is v5.2.0
Terasology Support
Best in #Game Engine
Average in #Game Engine
Terasology Support
Best in #Game Engine
Average in #Game Engine

quality kandi Quality

  • Terasology has 0 bugs and 0 code smells.
Terasology Quality
Best in #Game Engine
Average in #Game Engine
Terasology Quality
Best in #Game Engine
Average in #Game Engine

securitySecurity

  • Terasology has no vulnerabilities reported, and its dependent libraries have no vulnerabilities reported.
  • Terasology code analysis shows 0 unresolved vulnerabilities.
  • There are 0 security hotspots that need review.
Terasology Security
Best in #Game Engine
Average in #Game Engine
Terasology Security
Best in #Game Engine
Average in #Game Engine

license License

  • Terasology has a Non-SPDX License.
  • Non-SPDX licenses can be open source with a non SPDX compliant license, or non open source licenses, and you need to review them closely before use.
Terasology License
Best in #Game Engine
Average in #Game Engine
Terasology License
Best in #Game Engine
Average in #Game Engine

buildReuse

  • Terasology releases are available to install and integrate.
  • Build file is available. You can build the component from source.
  • Terasology saves you 161703 person hours of effort in developing the same functionality from scratch.
  • It has 135254 lines of code, 14222 functions and 2256 files.
  • It has medium code complexity. Code complexity directly impacts maintainability of the code.
Terasology Reuse
Best in #Game Engine
Average in #Game Engine
Terasology Reuse
Best in #Game Engine
Average in #Game Engine
Top functions reviewed by kandi - BETA

kandi has reviewed Terasology and discovered the below as its top functions. This is intended to give you an instant insight into Terasology implemented functionality, and help decide if they suit your requirements.

  • Walk through character movement components .
  • Determines if the component is present .
  • Draw the specified region .
  • Loop through an entity and update the movement .
  • Initializes the Vorbis stream .
  • Generate a set of renderables from a list of nodes .
  • Render Paragraph
  • Bind the server info labels .
  • Post - initialization .
  • Add a block mesh .

Terasology Key Features

Terasology - open source voxel world

Community Discussions

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Trending Discussions on Game Engine

QUESTION

Unity 3'nd Person Controller Camera Acting Weird

Asked 2022-Apr-08 at 23:22

I'm very new in Unity and Stackowerflow. If i did something wrong, please don't judge me ^^ I used Unity's TPS Controller asset for my game. In first, it worked very well. But then It broke. But i didn't do anything :( (i don't even touch scripts or prefabs). After that, i deleted asset and re-download it but it didnt work again. Here is one example from my broken scene and these are the codes from my controller. Thanks For Any Kind of Help.

Starter Assets Input

using UnityEngine;
#if ENABLE_INPUT_SYSTEM && STARTER_ASSETS_PACKAGES_CHECKED
using UnityEngine.InputSystem;
#endif

namespace StarterAssets
{
    public class StarterAssetsInputs : MonoBehaviour
    {
        [Header("Character Input Values")]
        public Vector2 move;
        public Vector2 look;
        public bool jump;
        public bool sprint;

        [Header("Movement Settings")]
        public bool analogMovement;

#if !UNITY_IOS || !UNITY_ANDROID
        [Header("Mouse Cursor Settings")]
        public bool cursorLocked = true;
        public bool cursorInputForLook = true;
#endif

#if ENABLE_INPUT_SYSTEM && STARTER_ASSETS_PACKAGES_CHECKED
        public void OnMove(InputValue value)
        {
            MoveInput(value.Get<Vector2>());
        }

        public void OnLook(InputValue value)
        {
            if(cursorInputForLook)
            {
                LookInput(value.Get<Vector2>());
            }
        }

        public void OnJump(InputValue value)
        {
            JumpInput(value.isPressed);
        }

        public void OnSprint(InputValue value)
        {
            SprintInput(value.isPressed);
        }
#else
    // old input sys if we do decide to have it (most likely wont)...
#endif


        public void MoveInput(Vector2 newMoveDirection)
        {
            move = newMoveDirection;
            Debug.Log(move.magnitude);
            Debug.Log(move.normalized.magnitude);
        } 

        public void LookInput(Vector2 newLookDirection)
        {
            look = newLookDirection;
        }

        public void JumpInput(bool newJumpState)
        {
            jump = newJumpState;
        }

        public void SprintInput(bool newSprintState)
        {
            sprint = newSprintState;
        }

#if !UNITY_IOS || !UNITY_ANDROID

        private void OnApplicationFocus(bool hasFocus)
        {
            SetCursorState(cursorLocked);
        }

        private void SetCursorState(bool newState)
        {
            Cursor.lockState = newState ? CursorLockMode.Locked : CursorLockMode.None;
        }

#endif

    }
    
}

Third Person Controller

using UnityEngine;
#if ENABLE_INPUT_SYSTEM && STARTER_ASSETS_PACKAGES_CHECKED
using UnityEngine.InputSystem;
#endif

/* Note: animations are called via the controller for both the character and capsule using animator null checks
 */

namespace StarterAssets
{
    [RequireComponent(typeof(CharacterController))]
#if ENABLE_INPUT_SYSTEM && STARTER_ASSETS_PACKAGES_CHECKED
    [RequireComponent(typeof(PlayerInput))]
#endif
    public class ThirdPersonController : MonoBehaviour
    {
        [Header("Player")]
        [Tooltip("Move speed of the character in m/s")]
        public float MoveSpeed = 2.0f;
        [Tooltip("Sprint speed of the character in m/s")]
        public float SprintSpeed = 5.335f;
        [Tooltip("How fast the character turns to face movement direction")]
        [Range(0.0f, 0.3f)]
        public float RotationSmoothTime = 0.12f;
        [Tooltip("Acceleration and deceleration")]
        public float SpeedChangeRate = 10.0f;

        [Space(10)]
        [Tooltip("The height the player can jump")]
        public float JumpHeight = 1.2f;
        [Tooltip("The character uses its own gravity value. The engine default is -9.81f")]
        public float Gravity = -15.0f;

        [Space(10)]
        [Tooltip("Time required to pass before being able to jump again. Set to 0f to instantly jump again")]
        public float JumpTimeout = 0.50f;
        [Tooltip("Time required to pass before entering the fall state. Useful for walking down stairs")]
        public float FallTimeout = 0.15f;

        [Header("Player Grounded")]
        [Tooltip("If the character is grounded or not. Not part of the CharacterController built in grounded check")]
        public bool Grounded = true;
        [Tooltip("Useful for rough ground")]
        public float GroundedOffset = -0.14f;
        [Tooltip("The radius of the grounded check. Should match the radius of the CharacterController")]
        public float GroundedRadius = 0.28f;
        [Tooltip("What layers the character uses as ground")]
        public LayerMask GroundLayers;

        [Header("Cinemachine")]
        [Tooltip("The follow target set in the Cinemachine Virtual Camera that the camera will follow")]
        public GameObject CinemachineCameraTarget;
        [Tooltip("How far in degrees can you move the camera up")]
        public float TopClamp = 70.0f;
        [Tooltip("How far in degrees can you move the camera down")]
        public float BottomClamp = -30.0f;
        [Tooltip("Additional degress to override the camera. Useful for fine tuning camera position when locked")]
        public float CameraAngleOverride = 0.0f;
        [Tooltip("For locking the camera position on all axis")]
        public bool LockCameraPosition = false;

        // cinemachine
        private float _cinemachineTargetYaw;
        private float _cinemachineTargetPitch;

        // player
        private float _speed;
        private float _animationBlend;
        private float _targetRotation = 0.0f;
        private float _rotationVelocity;
        private float _verticalVelocity;
        private float _terminalVelocity = 53.0f;

        // timeout deltatime
        private float _jumpTimeoutDelta;
        private float _fallTimeoutDelta;

        // animation IDs
        private int _animIDSpeed;
        private int _animIDGrounded;
        private int _animIDJump;
        private int _animIDFreeFall;
        private int _animIDMotionSpeed;

        private Animator _animator;
        private CharacterController _controller;
        private StarterAssetsInputs _input;
        private GameObject _mainCamera;

        private const float _threshold = 0.01f;

        private bool _hasAnimator;

        private void Awake()
        {
            // get a reference to our main camera
            if (_mainCamera == null)
            {
                _mainCamera = GameObject.FindGameObjectWithTag("MainCamera");
            }
        }

        private void Start()
        {
            _hasAnimator = TryGetComponent(out _animator);
            _controller = GetComponent<CharacterController>();
            _input = GetComponent<StarterAssetsInputs>();

            AssignAnimationIDs();

            // reset our timeouts on start
            _jumpTimeoutDelta = JumpTimeout;
            _fallTimeoutDelta = FallTimeout;
        }

        private void Update()
        {
            _hasAnimator = TryGetComponent(out _animator);
            
            JumpAndGravity();
            GroundedCheck();
            Move();
        }

        private void LateUpdate()
        {
            CameraRotation();
        }

        private void AssignAnimationIDs()
        {
            _animIDSpeed = Animator.StringToHash("Speed");
            _animIDGrounded = Animator.StringToHash("Grounded");
            _animIDJump = Animator.StringToHash("Jump");
            _animIDFreeFall = Animator.StringToHash("FreeFall");
            _animIDMotionSpeed = Animator.StringToHash("MotionSpeed");
        }

        private void GroundedCheck()
        {
            // set sphere position, with offset
            Vector3 spherePosition = new Vector3(transform.position.x, transform.position.y - GroundedOffset, transform.position.z);
            Grounded = Physics.CheckSphere(spherePosition, GroundedRadius, GroundLayers, QueryTriggerInteraction.Ignore);

            // update animator if using character
            if (_hasAnimator)
            {
                _animator.SetBool(_animIDGrounded, Grounded);
            }
        }

        private void CameraRotation()
        {
            // if there is an input and camera position is not fixed
            if (_input.look.sqrMagnitude >= _threshold && !LockCameraPosition)
            {
                _cinemachineTargetYaw += _input.look.x * Time.deltaTime;
                _cinemachineTargetPitch += _input.look.y * Time.deltaTime;
            }

            // clamp our rotations so our values are limited 360 degrees
            _cinemachineTargetYaw = ClampAngle(_cinemachineTargetYaw, float.MinValue, float.MaxValue);
            _cinemachineTargetPitch = ClampAngle(_cinemachineTargetPitch, BottomClamp, TopClamp);

            // Cinemachine will follow this target
            CinemachineCameraTarget.transform.rotation = Quaternion.Euler(_cinemachineTargetPitch + CameraAngleOverride, _cinemachineTargetYaw, 0.0f);
        }

        private void Move()
        {
            // set target speed based on move speed, sprint speed and if sprint is pressed
            float targetSpeed = _input.sprint ? SprintSpeed : MoveSpeed;

            // a simplistic acceleration and deceleration designed to be easy to remove, replace, or iterate upon

            // note: Vector2's == operator uses approximation so is not floating point error prone, and is cheaper than magnitude
            // if there is no input, set the target speed to 0
            if (_input.move == Vector2.zero) targetSpeed = 0.0f;

            // a reference to the players current horizontal velocity
            float currentHorizontalSpeed = new Vector3(_controller.velocity.x, 0.0f, _controller.velocity.z).magnitude;

            float speedOffset = 0.1f;
            float inputMagnitude = _input.analogMovement ? _input.move.magnitude : 1f;

            // accelerate or decelerate to target speed
            if (currentHorizontalSpeed < targetSpeed - speedOffset || currentHorizontalSpeed > targetSpeed + speedOffset)
            {
                // creates curved result rather than a linear one giving a more organic speed change
                // note T in Lerp is clamped, so we don't need to clamp our speed
                _speed = Mathf.Lerp(currentHorizontalSpeed, targetSpeed * inputMagnitude, Time.deltaTime * SpeedChangeRate);

                // round speed to 3 decimal places
                _speed = Mathf.Round(_speed * 1000f) / 1000f;
            }
            else
            {
                _speed = targetSpeed;
            }
            _animationBlend = Mathf.Lerp(_animationBlend, targetSpeed, Time.deltaTime * SpeedChangeRate);

            // normalise input direction
            Vector3 inputDirection = new Vector3(_input.move.x, 0.0f, _input.move.y).normalized;

            // note: Vector2's != operator uses approximation so is not floating point error prone, and is cheaper than magnitude
            // if there is a move input rotate player when the player is moving
            if (_input.move != Vector2.zero)
            {
                _targetRotation = Mathf.Atan2(inputDirection.x, inputDirection.z) * Mathf.Rad2Deg + _mainCamera.transform.eulerAngles.y;
                float rotation = Mathf.SmoothDampAngle(transform.eulerAngles.y, _targetRotation, ref _rotationVelocity, RotationSmoothTime);

                // rotate to face input direction relative to camera position
                transform.rotation = Quaternion.Euler(0.0f, rotation, 0.0f);
            }


            Vector3 targetDirection = Quaternion.Euler(0.0f, _targetRotation, 0.0f) * Vector3.forward;

            // move the player
            _controller.Move(targetDirection.normalized * (_speed * Time.deltaTime) + new Vector3(0.0f, _verticalVelocity, 0.0f) * Time.deltaTime);

            // update animator if using character
            if (_hasAnimator)
            {
                _animator.SetFloat(_animIDSpeed, _animationBlend);
                _animator.SetFloat(_animIDMotionSpeed, inputMagnitude);
            }
        }

        private void JumpAndGravity()
        {
            if (Grounded)
            {
                // reset the fall timeout timer
                _fallTimeoutDelta = FallTimeout;

                // update animator if using character
                if (_hasAnimator)
                {
                    _animator.SetBool(_animIDJump, false);
                    _animator.SetBool(_animIDFreeFall, false);
                }

                // stop our velocity dropping infinitely when grounded
                if (_verticalVelocity < 0.0f)
                {
                    _verticalVelocity = -2f;
                }

                // Jump
                if (_input.jump && _jumpTimeoutDelta <= 0.0f)
                {
                    // the square root of H * -2 * G = how much velocity needed to reach desired height
                    _verticalVelocity = Mathf.Sqrt(JumpHeight * -2f * Gravity);

                    // update animator if using character
                    if (_hasAnimator)
                    {
                        _animator.SetBool(_animIDJump, true);
                    }
                }

                // jump timeout
                if (_jumpTimeoutDelta >= 0.0f)
                {
                    _jumpTimeoutDelta -= Time.deltaTime;
                }
            }
            else
            {
                // reset the jump timeout timer
                _jumpTimeoutDelta = JumpTimeout;

                // fall timeout
                if (_fallTimeoutDelta >= 0.0f)
                {
                    _fallTimeoutDelta -= Time.deltaTime;
                }
                else
                {
                    // update animator if using character
                    if (_hasAnimator)
                    {
                        _animator.SetBool(_animIDFreeFall, true);
                    }
                }

                // if we are not grounded, do not jump
                _input.jump = false;
            }

            // apply gravity over time if under terminal (multiply by delta time twice to linearly speed up over time)
            if (_verticalVelocity < _terminalVelocity)
            {
                _verticalVelocity += Gravity * Time.deltaTime;
            }
        }

        private static float ClampAngle(float lfAngle, float lfMin, float lfMax)
        {
            if (lfAngle < -360f) lfAngle += 360f;
            if (lfAngle > 360f) lfAngle -= 360f;
            return Mathf.Clamp(lfAngle, lfMin, lfMax);
        }

        private void OnDrawGizmosSelected()
        {
            Color transparentGreen = new Color(0.0f, 1.0f, 0.0f, 0.35f);
            Color transparentRed = new Color(1.0f, 0.0f, 0.0f, 0.35f);

            if (Grounded) Gizmos.color = transparentGreen;
            else Gizmos.color = transparentRed;
            
            // when selected, draw a gizmo in the position of, and matching radius of, the grounded collider
            Gizmos.DrawSphere(new Vector3(transform.position.x, transform.position.y - GroundedOffset, transform.position.z), GroundedRadius);
        }
    }
}

ANSWER

Answered 2022-Apr-08 at 23:22

I had the same problem too. I researched a lot of documents about that and finally, I solved this problem. The problem is not about your codes or events or smth else. The problem is related to Unity. I don't know the exact reason for the problem but you can solve it this way: First, go Edit > Project Settings and select Input System Package from the Left tab. And then, change the Update Method with Process Events In Dynamic Update. And that's all! Dynamic update means the usual Update method that you see in the scripts void Update().

Images

enter image description here enter image description here

Source https://stackoverflow.com/questions/71804001

Community Discussions, Code Snippets contain sources that include Stack Exchange Network

Vulnerabilities

No vulnerabilities reported

Install Terasology

You can download it from GitHub.
You can use Terasology like any standard Java library. Please include the the jar files in your classpath. You can also use any IDE and you can run and debug the Terasology component as you would do with any other Java program. Best practice is to use a build tool that supports dependency management such as Maven or Gradle. For Maven installation, please refer maven.apache.org. For Gradle installation, please refer gradle.org .

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