/// <summary>
/// 扇形判定
/// 共有三种分离轴
/// 1、扇形圆心和圆盘圆心的方向(扇形的圆弧部分)
/// 2、扇形两边的法线
/// 3、扇形三个顶点和圆盘圆心的方向
///
/// 1、先判断扇形与圆盘的方向
/// 2、计算圆盘圆心与扇形的最近点的向量 p
/// 3、计算当前圆心是否在扇形内部
/// 4、计算扇形左边半径是否与圆形相交
/// </summary>
/// <returns></returns>
public static bool SectorCollideCheck(SSector sSector, SSphere pTarget, Vector3 vDir)
{
Vector2 sSectorPos = new Vector2(sSector.pos.x, sSector.pos.z);
Vector2 sTargetPos = new Vector2(pTarget.pos.x, pTarget.pos.z);
vDir.Normalize();
Vector2 vAimDir = new Vector2(vDir.x, vDir.z);
Vector2 vOpAimDir = new Vector2(-vDir.z, vDir.x);
float angle = sSector.angle * 0.5f * Mathf.Deg2Rad;
// 1. 如果扇形圆心和圆盘圆心的方向
Vector2 vOffest = sTargetPos - sSectorPos;
if (vOffest.sqrMagnitude >= (sSector.r_max + pTarget.r) * (sSector.r_max + pTarget.r))
{
return(false);
}
if (vOffest.sqrMagnitude <= (sSector.r_min - pTarget.r) * (sSector.r_min - pTarget.r))
{
return(false);
}
// 2. 计算出扇形局部空间的 p
float px = Vector2.Dot(vOffest, vAimDir);
float py = Mathf.Abs(Vector2.Dot(vOffest, vOpAimDir)); //取仅为第一\二象限的情况化简难度
// 3. 如果 p_x > ||p|| cos theta,两形状相交 当前圆心在扇形内部
if (px > vOffest.magnitude * Mathf.Cos(angle))
{
return(true);
}
// 4. 求左边线段与圆盘是否相交
Vector2 q = sSector.r_max * new Vector2(Mathf.Cos(angle), Mathf.Sin(angle)); //得到扇形左边坐标
Vector2 p = new Vector2(px, py); //得到扇形与圆形相对坐标
//计算出左边线段与圆盘的分离轴,之后通过长度对比即可
float t = Vector2.Dot(p - Vector2.zero, q) / q.sqrMagnitude;
float length = (p - (Vector2.zero + Mathf.Clamp(t, 0, 1) * q)).sqrMagnitude;
return(length <= pTarget.r * pTarget.r);
}
public override List <Avatar> GetTargetList(DRSkillData pSkillData,
Avatar pCaster, GTargetInfo sTarInfo, HashSet <int> vExcludeList)
{
List <Avatar> vTargetList = new List <Avatar>();
if (pSkillData == null || !pCaster)
{
return(vTargetList);
}
Avatar pTarget = GameEntry.Entity.GetGameEntity(sTarInfo.m_nTargetID) as Avatar;
if (!pTarget)
{
pTarget = pCaster;
}
int cnt = GetTargetCount(pSkillData /*, vExcludeList*/);
int filter = pSkillData.MSV_AreaFilter;
float minDis = pSkillData.MSV_AreaParam1;
float maxDis = pSkillData.MSV_AreaParam2;
float angle = pSkillData.MSV_AreaParam3;
List <UnityGameFramework.Runtime.Entity> pList = new List <UnityGameFramework.Runtime.Entity>();
GameEntry.Entity.GetAllLoadedEntities(pList);
if (pList == null || pList.Count == 0)
{
return(vTargetList);
}
Vector3 pos = /*pSkillData.IsAreaUseTarPos() ? sTarInfo.m_vTarPos :*/ sTarInfo.m_vSrcPos;
Vector3 dir = sTarInfo.m_vAimDir;
SSector sSector = new SSector(pos, dir, maxDis, minDis, angle);
foreach (var item in pList)
{
Avatar actor = item.Logic as Avatar;
if (actor == null || actor == pCaster)
{
continue;
}
SSphere sTarSphere = new SSphere(actor.GetPos(), actor.ModelRadius);
if (GCollider.SectorCollideCheck(sSector, sTarSphere, dir))
{
TryAddTarget(pSkillData, pCaster, actor, vExcludeList);
if (vTargetList.Count >= cnt)
{
if (filter > 0)
{
UpdateAreaFilter(filter, cnt, vTargetList);
}
else
{
return(vTargetList);
}
}
break;
}
}
return(vTargetList);
}
