com.unity.uiextensions/Scripts/Layout/CardUI/3D Cards/CardExpanding3D.cs

222 lines
8.3 KiB
C#
Raw Normal View History

/// <summary>
/// Credit - ryanslikesocool
/// Sourced from - https://github.com/ryanslikesocool/Unity-Card-UI
/// </summary>
using System.Collections;
using System.Collections.Generic;
using UnityEngine;
using UnityEngine.UI;
namespace UnityEngine.UI.Extensions
{
[ExecuteInEditMode]
public class CardExpanding3D : MonoBehaviour
{
[SerializeField]
private float lerpSpeed = 12;
[SerializeField]
private float cornerSize = 64;
[Header("Parts")]
public RectTransform[] cardCorners;
public RectTransform[] cardEdges;
public RectTransform cardCenter;
[Header("Card Info")]
[Tooltip("Positions and sizes card to its current transform.")]
public bool cardAutoSize = true;
public Vector2 cardSize;
public Vector2 cardPosition;
[Range(1, 96)]
public int cardSuperness = 4;
[Header("Page Info")]
[Tooltip("Positions and sizes the page to the top third of the screen.")]
public bool pageAutoSize = true;
public Vector2 pageSize;
public Vector2 pagePosition;
[Range(1, 96)]
public int pageSuperness = 96;
///Just like with the 2D version of this script, I don't recommend touching this.
private int animationActive = 0;
private Vector2[] nextCornerPos = new Vector2[4];
private Vector2[] nextEdgePos = new Vector2[4];
private Vector2[] nextEdgeScale = new Vector2[4];
private Vector2 nextCenterScale;
private Vector2 nextPos;
private int nextSuperness;
private RectTransform rect;
private Vector2 nextMin;
private Vector2 nextMax;
void Start()
{
if (cardAutoSize)
{
cardSize = new Vector2(cardCorners[0].localScale.x * 2 + cardEdges[0].localScale.x, cardCorners[0].localScale.y * 2 + cardEdges[0].localScale.y);
cardPosition = cardCenter.localPosition;
}
if (pageAutoSize)
{
pageSize = new Vector2(Screen.width, Screen.height / 3);
pagePosition = new Vector2(0, Screen.height / 2 - pageSize.y / 2);
}
rect = GetComponent<RectTransform>();
}
void Update()
{
if (animationActive == 1 || animationActive == -1)
{
///Lerps the corners to new positions and supernesses.
for (int i = 0; i < cardCorners.Length; i++)
{
cardCorners[i].localPosition = Vector3.Lerp(cardCorners[i].localPosition, nextCornerPos[i], Time.deltaTime * lerpSpeed);
cardCorners[i].GetComponent<SuperellipsePoints>().superness = Mathf.Lerp(cardCorners[i].GetComponent<SuperellipsePoints>().superness, nextSuperness, Time.deltaTime * lerpSpeed);
///Forces everything to either the card layout or the page layout once the superness is similar enough.
if (Mathf.Abs(cardCorners[i].GetComponent<SuperellipsePoints>().superness - nextSuperness) <= 1)
{
cardCorners[i].localPosition = nextCornerPos[i];
cardEdges[i].localPosition = nextEdgePos[i];
cardEdges[i].localScale = new Vector3(nextEdgeScale[i].x, nextEdgeScale[i].y, 1);
transform.localPosition = nextPos;
cardCenter.localScale = new Vector3(nextCenterScale.x, nextCenterScale.y, 1);
cardCorners[i].GetComponent<SuperellipsePoints>().superness = nextSuperness;
rect.offsetMin = nextMin;
rect.offsetMax = nextMax;
}
}
///Lerps the edges to new positions and sizes.
for (int i = 0; i < cardEdges.Length; i++)
{
cardEdges[i].localPosition = Vector3.Lerp(cardEdges[i].localPosition, nextEdgePos[i], Time.deltaTime * lerpSpeed);
cardEdges[i].localScale = Vector3.Lerp(cardEdges[i].localScale, new Vector3(nextEdgeScale[i].x, nextEdgeScale[i].y, 1), Time.deltaTime * lerpSpeed);
}
///Lerps the center to new position and size.
transform.localPosition = Vector3.Lerp(transform.localPosition, nextPos, Time.deltaTime * lerpSpeed);
cardCenter.localScale = Vector3.Lerp(cardCenter.localScale, new Vector3(nextCenterScale.x, nextCenterScale.y, 1), Time.deltaTime * lerpSpeed);
///Lerps the RectTransform.
rect.offsetMin = Vector3.Lerp(rect.offsetMin, nextMin, Time.deltaTime * lerpSpeed);
rect.offsetMax = Vector3.Lerp(rect.offsetMax, nextMax, Time.deltaTime * lerpSpeed);
}
}
public void ToggleCard()
{
if (animationActive != 1 || animationActive == 0)
{
animationActive = 1;
///Gets new corner positions.
for (int i = 0; i < cardCorners.Length; i++)
{
float posX = pageSize.x / 2 * Mathf.Sign(cardCorners[i].localScale.x) - cardCorners[i].localScale.x;
float posY = pageSize.y / 2 * Mathf.Sign(cardCorners[i].localScale.y) - cardCorners[i].localScale.y;
nextCornerPos[i] = new Vector2(posX, posY);
}
///Same concept as the last loop.
for (int i = 0; i < cardEdges.Length; i++)
{
float posX = 0;
float posY = 0;
float scaleX = 0;
float scaleY = 0;
if (cardEdges[i].localPosition.x != 0)
{
posX = Mathf.Sign(cardEdges[i].localPosition.x) * ((pageSize.x / 2) - (cardEdges[i].localScale.x / 2));
posY = 0;
scaleX = cornerSize;
scaleY = pageSize.y - cornerSize * 2;
}
else if (cardEdges[i].localPosition.y != 0)
{
posX = 0;
posY = Mathf.Sign(cardEdges[i].localPosition.y) * ((pageSize.y / 2) - (cardEdges[i].localScale.y / 2));
scaleX = pageSize.x - cornerSize * 2;
scaleY = cornerSize;
}
nextEdgePos[i] = new Vector2(posX, posY);
nextEdgeScale[i] = new Vector2(scaleX, scaleY);
}
nextCenterScale = pageSize - new Vector2(cornerSize * 2, cornerSize * 2);
nextPos = pagePosition;
nextSuperness = pageSuperness;
nextMin = new Vector2(-pageSize.x / 2, -pageSize.y / 2) + nextPos;
nextMax = new Vector2(pageSize.x / 2, pageSize.y / 2) + nextPos;
}
else if (animationActive != -1)
{
animationActive = -1;
///Gets new corner positions.
for (int i = 0; i < cardCorners.Length; i++)
{
float posX = Mathf.Sign(cardCorners[i].localScale.x) * (cardSize.x / 2) - cardCorners[i].localScale.x;
float posY = Mathf.Sign(cardCorners[i].localScale.y) * (cardSize.y / 2) - cardCorners[i].localScale.y;
nextCornerPos[i] = new Vector2(posX, posY);
}
///Same concept as the last loop.
for (int i = 0; i < cardEdges.Length; i++)
{
float posX = 0;
float posY = 0;
float scaleX = 0;
float scaleY = 0;
if (cardEdges[i].localPosition.x != 0)
{
posX = Mathf.Sign(cardEdges[i].localPosition.x) * (cardSize.x / 2) - Mathf.Sign(cardEdges[i].localPosition.x) * (cardEdges[i].localScale.x / 2);
posY = 0;
scaleX = cornerSize;
scaleY = cardSize.y - cornerSize * 2;
}
else if (cardEdges[i].localPosition.y != 0)
{
posX = 0;
posY = Mathf.Sign(cardEdges[i].localPosition.y) * (cardSize.y / 2) - Mathf.Sign(cardEdges[i].localPosition.y) * (cardEdges[i].localScale.y / 2);
scaleX = cardSize.x - cornerSize * 2;
scaleY = cornerSize;
}
nextEdgePos[i] = new Vector2(posX, posY);
nextEdgeScale[i] = new Vector2(scaleX, scaleY);
}
nextCenterScale = cardSize - new Vector2(cornerSize * 2, cornerSize * 2);
nextPos = cardPosition;
nextSuperness = cardSuperness;
nextMin = new Vector2(-cardSize.x / 2, -cardSize.y / 2) + nextPos;
nextMax = new Vector2(cardSize.x / 2, cardSize.y / 2) + nextPos;
}
}
}
}