HeavenStudio/Assets/Scripts/Games/PlayerActionObject.cs
minenice55 a8b6f345a2
Scoring System Preparation (#235)
* add calculation for accuracy

* record accuracy for playthrough

* implement forced miss scoring to some games
2023-01-24 22:54:19 -05:00

168 lines
5.2 KiB
C#

using System.Collections;
using System.Collections.Generic;
using UnityEngine;
using HeavenStudio.Editor.Track;
namespace HeavenStudio.Games
{
public class PlayerActionObject : MonoBehaviour
{
public bool inList = false;
public Minigame.Eligible state = new Minigame.Eligible();
public List<Minigame.Eligible> eligibleHitsList = new List<Minigame.Eligible>();
//the variables below seem to be mostly unused (they are never used in any meaningful way)
public int aceTimes; //always set to 0 no matter what (also, the one time it's used doesn't seem to make sense)
public bool isEligible; //value never used for anything
private bool autoPlayEnabledOnStart; //value never used for anything
public bool triggersAutoplay = true;
public void PlayerActionInit(GameObject g, float createBeat)
{
state.gameObject = g;
state.createBeat = createBeat;
autoPlayEnabledOnStart = GameManager.instance.autoplay;
}
private void CheckForAce(double normalizedBeat, bool autoPlay = false)
{
if (aceTimes == 0)
{
if (triggersAutoplay && (GameManager.instance.autoplay || autoPlay) && GameManager.instance.canInput && normalizedBeat >= 1f - (Time.deltaTime*0.5f))
{
OnAce();
if (!autoPlay)
AceVisuals();
// aceTimes++;
}
}
}
public void ResetAce()
{
aceTimes = 0;
}
public void ResetState()
{
ResetAce();
}
// could possibly add support for custom early, perfect, and end times if needed.
public void StateCheck(double normalizedBeat, bool autoPlay = false)
{
CheckForAce(normalizedBeat, autoPlay);
if (normalizedBeat > Minigame.EarlyTime() && normalizedBeat < Minigame.PerfectTime())
{
MakeEligible(true, false, false);
}
// Perfect State
else if (normalizedBeat > Minigame.PerfectTime() && normalizedBeat < Minigame.LateTime())
{
MakeEligible(false, true, false);
}
// Late State
else if (normalizedBeat > Minigame.LateTime() && normalizedBeat < Minigame.EndTime())
{
MakeEligible(false, false, true);
}
else if (normalizedBeat < Minigame.EarlyTime() || normalizedBeat > Minigame.EndTime())
{
MakeInEligible();
}
}
public void MakeEligible(bool early, bool perfect, bool late)
{
if (!inList)
{
state.early = early;
state.perfect = perfect;
state.late = late;
eligibleHitsList.Add(state);
inList = true;
}
else
{
Minigame.Eligible es = eligibleHitsList[eligibleHitsList.IndexOf(state)];
es.early = early;
es.perfect = perfect;
es.late = late;
}
}
public void MakeInEligible()
{
state.early = false;
state.perfect = false;
state.late = false;
if (!inList) return;
eligibleHitsList.Remove(state);
inList = false;
}
public void RemoveObject(int currentHitInList, bool destroyObject = false)
{
if (currentHitInList < eligibleHitsList.Count)
{
eligibleHitsList.Remove(eligibleHitsList[currentHitInList]);
currentHitInList++;
if (destroyObject) Destroy(this.gameObject);
}
}
// No list
public void StateCheckNoList(float normalizedBeat)
{
CheckForAce(normalizedBeat);
if (normalizedBeat > Minigame.EarlyTime() && normalizedBeat < Minigame.PerfectTime())
{
ModifyState(true, false, false);
}
// Perfect State
else if (normalizedBeat > Minigame.PerfectTime() && normalizedBeat < Minigame.LateTime())
{
ModifyState(false, true, false);
}
// Late State
else if (normalizedBeat > Minigame.LateTime() && normalizedBeat < Minigame.EndTime())
{
ModifyState(false, false, true);
}
else if (normalizedBeat < Minigame.EarlyTime() || normalizedBeat > Minigame.EndTime())
{
// ineligible
}
}
public virtual void OnAce()
{
}
private void AceVisuals()
{
if (Timeline.instance != null)
{
Timeline.instance.AutoplayBTN.GetComponent<Animator>().Play("Ace", 0, 0);
}
}
private void ModifyState(bool early, bool perfect, bool late)
{
state.early = early;
state.perfect = perfect;
state.late = late;
}
private void OnDestroy()
{
MakeInEligible();
}
}
}