using System.Collections; using System.Collections.Generic; using UnityEngine; public class PlayerController : MonoBehaviour { public float maxDistanceFromCenterLine = 30.0f; [Header("Move")] public float speed = 7.5f; public float maxSpeed = 15.0f; public float minSpeed = 5.0f; [HideInInspector] public float currentSpeed = 0f; private float speedModifier = 0.0f; Vector3 moveDirection = Vector3.zero; bool canMove = false; Rigidbody rb; float moveDirectionY; public bool isRunning = false; public bool isFalling = false; [Header("Jump")] public float jumpSpeed = 7.5f; [HideInInspector] public bool inAir = false; private bool isGrounded = false; [Header("Camera")] public float lookSpeed = 7.5f; public float lookXLimit = 40.0f; public Camera playerCamera; public float rotationX = 0; [Header("Others")] public ParticleSystem runningParticles; public Transform mainObject; public AudioSource audioSource; public List jumpClips = new List(); public List audioClips = new List(); // Start is called before the first frame update private Vector3 saveDirection; private Vector3 downDirection; private Vector3 platformForward; private Vector3 platformRight; private Vector3 follow = Vector3.zero; private GameObject pullObject = null; private GameObject pushObject = null; void Start() { rb = GetComponent(); platformForward = Vector3.forward; platformRight = Vector3.right; } public void disableCursor() { Cursor.lockState = CursorLockMode.Locked; Cursor.visible = false; } // Update is called once per frame void Update() { if (UiController.isInMenu) return; rotationX += -Input.GetAxis("Mouse Y") * lookSpeed; rotationX = Mathf.Clamp(rotationX, -lookXLimit, lookXLimit); playerCamera.transform.localRotation = Quaternion.Euler(rotationX, 0, 0); transform.rotation *= Quaternion.Euler(0, Input.GetAxis("Mouse X") * lookSpeed, 0); isRunning = Input.GetKey(KeyCode.LeftShift); if (canMove && currentSpeed < minSpeed) { currentSpeed += 0.005f; } if (Input.GetAxis("Vertical") > 0 && currentSpeed < maxSpeed) { if (!canMove) { canMove = true; } currentSpeed += 0.01f; } else if (Input.GetAxis("Vertical") < 0 && currentSpeed > minSpeed) { currentSpeed -= 0.01f; } float curSpeedX = canMove ? (currentSpeed + speedModifier): 0; float curSpeedY = canMove ? (currentSpeed + speedModifier) * Input.GetAxis("Horizontal") : 0; moveDirection = (transform.forward * curSpeedX * Time.deltaTime) + (transform.right * curSpeedY * Time.deltaTime); if ((currentSpeed + speedModifier) >= maxSpeed && !runningParticles.isPlaying) { runningParticles.Play(true); } else if ((currentSpeed + speedModifier) < maxSpeed && runningParticles.isPlaying) { runningParticles.Stop(true, ParticleSystemStopBehavior.StopEmittingAndClear); } if (Input.GetKeyDown(KeyCode.Space) && isGrounded) { inAir = true; isGrounded = false; } if (audioSource != null && audioClips.Count > 0) { if ((currentSpeed + speedModifier) > speed * 3f && (currentSpeed + speedModifier) < speed * 6f) { if (audioClips.Count > 1 && audioSource.clip != audioClips[1]) { audioSource.Stop(); audioSource.clip = audioClips[1]; audioSource.Play(); } } else if ((currentSpeed + speedModifier) <= speed * 3f) { if (audioSource.clip != audioClips[0]) { audioSource.Stop(); audioSource.clip = audioClips[0]; audioSource.Play(); } } else if ((currentSpeed + speedModifier) >= speed * 6f) { if (audioClips.Count > 2 && audioSource.clip != audioClips[2]) { audioSource.Stop(); audioSource.clip = audioClips[2]; audioSource.Play(); } } } rb.MovePosition(rb.position + moveDirection); } private void FixedUpdate() { if (inAir) { // Debug.Log("Jump"); if (audioSource != null && jumpClips.Count > 0) { audioSource.PlayOneShot(jumpClips[Random.Range(0, jumpClips.Count)]); } rb.AddForce(transform.up * jumpSpeed * 100f * Time.deltaTime, ForceMode.Impulse); inAir = false; } if (Vector3.Distance(transform.position, new Vector3(0f, 0f, transform.position.z)) > 10f) { // Debug.Log("Player is falling :)"); this.isFalling = true; } else { this.isFalling = false; } if (saveDirection != Vector3.zero) { Vector3 axis; float angle; axis = Vector3.Cross(-transform.up, saveDirection); angle = Mathf.Atan2(Vector3.Magnitude(axis), Vector3.Dot(-transform.up, saveDirection)); transform.RotateAround(axis, angle * Time.deltaTime * 8f); } var distanceFromYAxis = new Vector2(rb.position.x, rb.position.y).magnitude; if (distanceFromYAxis > this.maxDistanceFromCenterLine) { Debug.Log("Player fell out of map."); rb.velocity = Vector3.zero; Physics.gravity = -Vector3.up * 9.81f; UiController.SaveGame(); UnityEngine.SceneManagement.SceneManager.LoadScene(0); } } void OnCollisionExit(Collision other) { if (other.gameObject.tag == "platform") { Physics.gravity = this.downDirection * 9.81f; PlatformManager platform = other.gameObject.GetComponent(); if (platform != null) { platform.Step(); float step = platform.speed * Time.deltaTime * 10f; switch (platform.type) { case PlatformManager.PlatformType.Push: rb.AddForce(-(other.transform.position - transform.position) * step, ForceMode.Impulse); break; case PlatformManager.PlatformType.Pull: rb.AddForce((other.transform.position - transform.position) * step, ForceMode.Impulse); break; } } } } void OnCollisionStay(Collision other) { if (other.gameObject.tag != "platform") return; PlatformManager platform = other.gameObject.GetComponent(); if (platform == null) { // FIXME: Should platforms be allowed to not to have a PlatformManager? // Debug.Log("ERROR"); return; } if (other.GetContact(0).normal == other.transform.forward || other.GetContact(0).normal == -other.transform.forward || other.GetContact(0).normal == -other.transform.right || other.GetContact(0).normal == other.transform.right || (other.GetContact(0).normal != -other.transform.up && other.GetContact(0).normal != other.transform.up) ) { return; } this.downDirection = -transform.up; saveDirection = -other.GetContact(0).normal; // TODO: Handle other PlatformTypes Physics.gravity = this.downDirection * 9.81f; } void OnCollisionEnter(Collision other) { isGrounded = true; if (other.gameObject.tag == "platform") { PlatformManager platform = other.gameObject.GetComponent(); if (platform != null) { platform.Step(); switch (platform.type) { case PlatformManager.PlatformType.Push: break; case PlatformManager.PlatformType.Pull: break; case PlatformManager.PlatformType.RotateY: break; case PlatformManager.PlatformType.RotateZ: break; case PlatformManager.PlatformType.SpeedUp: speedModifier += platform.speed; break; case PlatformManager.PlatformType.SpeedDown: if (speedModifier - platform.speed >= 0) { speedModifier -= platform.speed; } else { speedModifier = 0.0f; } break; } } if (other.GetContact(0).normal == other.transform.forward || other.GetContact(0).normal == -other.transform.forward || other.GetContact(0).normal == -other.transform.right || other.GetContact(0).normal == other.transform.right || (other.GetContact(0).normal != -other.transform.up && other.GetContact(0).normal != other.transform.up) ) { return; } saveDirection = -other.GetContact(0).normal; Vector3 gDirection = -transform.up; if (platform == null) { gDirection = -transform.up; } platformForward = other.transform.forward; platformRight = other.transform.right; this.downDirection = gDirection; Physics.gravity = gDirection * 9.81f; } } }