projectEli/Assets/NeoFPS/Core/MotionGraphs/States/SkiState.cs

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2022-11-07 01:28:33 +00:00
#if !NEOFPS_FORCE_QUALITY && (UNITY_ANDROID || UNITY_IOS || UNITY_TIZEN || (UNITY_WSA && NETFX_CORE) || NEOFPS_FORCE_LIGHTWEIGHT)
#define NEOFPS_LIGHTWEIGHT
#endif
using UnityEngine;
using NeoFPS.CharacterMotion.MotionData;
using NeoFPS.CharacterMotion.Parameters;
using NeoSaveGames.Serialization;
namespace NeoFPS.CharacterMotion.States
{
[MotionGraphElement("Ground Movement/Ski", "Ski")]
[HelpURL("https://docs.neofps.com/manual/motiongraphref-mgs-skistate.html")]
public class SkiState : MotionGraphState
{
[SerializeField, Tooltip("The maximum turn rate in degrees per second.")]
private FloatDataReference m_MaxTurnRate = new FloatDataReference(10f);
[SerializeField, Tooltip("A constant deceleration while skiing. Once the character speed reaches zero, the state completes.")]
private FloatDataReference m_Deceleration = new FloatDataReference(0.5f);
[SerializeField, Tooltip("A multiplier for gravity which affects speed on slopes.")]
private FloatDataReference m_GravityEffect = new FloatDataReference(1f);
private const float k_TinyValue = 0.001f;
private Vector3 m_OutVelocity = Vector3.zero;
private bool m_Completed = false;
private float m_StepHeight = 0f;
private float m_SnapHeight = 0f;
public override bool completed
{
get { return m_Completed; }
}
public override Vector3 moveVector
{
get { return m_OutVelocity * Time.deltaTime; }
}
public override bool applyGravity
{
get { return true; }// false; }
}
public override bool applyGroundingForce
{
get { return false; }// true; }// m_Snap; }
}
public override bool ignorePlatformMove
{
get { return false; }
}
public override void OnValidate()
{
base.OnValidate();
}
public override void OnEnter()
{
base.OnEnter();
m_Completed = false;
m_StepHeight = characterController.stepHeight;
characterController.stepHeight = 0.025f;
m_SnapHeight = characterController.groundSnapHeight;
characterController.groundSnapHeight = 0.1f;
characterController.slopeFriction = 0f;
}
public override void OnExit()
{
base.OnExit();
m_Completed = false;
m_OutVelocity = Vector3.zero;
characterController.stepHeight = m_StepHeight;
characterController.groundSnapHeight = m_SnapHeight;
characterController.slopeFriction = 1f;
}
public override void Update()
{
base.Update();
if (m_Completed)
return;
// Get velocity & speed
m_OutVelocity = Vector3.ProjectOnPlane(characterController.rawVelocity, characterController.groundSurfaceNormal);
float speed = m_OutVelocity.magnitude;
// ABOVE WILL BE WHY IT SPEEDS UP ON GRAVITY LOOP
// RAW GAINS STEP HEIGHT AND FLOOR IS SLOPED
float newSpeed = speed - m_Deceleration.value * Time.deltaTime;
m_OutVelocity *= newSpeed / speed;
// Complete state if near stationary
if (newSpeed < 0.05f)
m_Completed = true;
else
{
// Apply turning input
if (Mathf.Abs(controller.inputMoveDirection.x) > 0.01f)
{
// Turning based on speed. Slower movement = faster turn
float turnMultiplier = 1f / newSpeed;
if (turnMultiplier > 1f)
turnMultiplier = 1f;
m_OutVelocity = Quaternion.AngleAxis(turnMultiplier * controller.inputMoveDirection.x * m_MaxTurnRate.value, characterController.groundSurfaceNormal) * m_OutVelocity;
}
}
}
public override void CheckReferences(IMotionGraphMap map)
{
m_MaxTurnRate.CheckReference(map);
m_Deceleration.CheckReference(map);
m_GravityEffect.CheckReference(map);
base.CheckReferences(map);
}
#region SAVE / LOAD
private static readonly NeoSerializationKey k_CompletedKey = new NeoSerializationKey("completed");
private static readonly NeoSerializationKey k_VelocityKey = new NeoSerializationKey("velocity");
public override void WriteProperties(INeoSerializer writer)
{
base.WriteProperties(writer);
writer.WriteValue(k_VelocityKey, m_OutVelocity);
writer.WriteValue(k_CompletedKey, m_Completed);
}
public override void ReadProperties(INeoDeserializer reader)
{
base.ReadProperties(reader);
reader.TryReadValue(k_VelocityKey, out m_OutVelocity, m_OutVelocity);
reader.TryReadValue(k_CompletedKey, out m_Completed, m_Completed);
}
#endregion
}
}