using System; using System.ComponentModel; using System.Linq; using System.Numerics; using System.Collections.Generic; using Newtonsoft.Json; using Dalamud.Utility.Numerics; using KodakkuAssist.Script; using KodakkuAssist.Module.GameEvent; using KodakkuAssist.Module.Draw; using KodakkuAssist.Data; using KodakkuAssist.Extensions; using System.Threading.Tasks; namespace Sophia; [ScriptType(guid: "0909b7dc-2079-449a-97ca-f46204180bc0", name: "索菲娅歼灭战", territorys: [576], version: "0.0.0.2", author: "Tetora", note: noteStr)] public class Sophia { const string noteStr = """ v0.0.0.1: LV60 索菲娅歼灭战 初版绘制 TTS请在“用户设置”中二选一启用,请勿同时开启 """; [UserSetting("TTS开关(TTS请二选一开启)")] public bool isTTS { get; set; } = false; [UserSetting("EdgeTTS开关(TTS请二选一开启)")] public bool isEdgeTTS { get; set; } = true; [UserSetting("弹窗文本提示开关")] public bool isText { get; set; } = true; [ScriptMethod(name: "类星体(核爆)", eventType: EventTypeEnum.StartCasting, eventCondition: ["ActionId:6792"])] public void 类星体_核爆(Event @event, ScriptAccessory accessory) { var dp = accessory.Data.GetDefaultDrawProperties(); dp.Name = "类星体_核爆"; dp.Color = accessory.Data.DefaultDangerColor.WithW(0.6f); dp.Position = @event.EffectPosition(); dp.Scale = new Vector2(15f); dp.DestoryAt = 5000; dp.ScaleMode = ScaleMode.ByTime; accessory.Method.SendDraw(DrawModeEnum.Default, DrawTypeEnum.Circle, dp); } /* [ScriptMethod(name: "突袭(俯冲)", eventType: EventTypeEnum.PlayActionTimeline, eventCondition: ["Id:4572","SourceDataId:6026"],suppress:9000)] public void 突袭(Event @event, ScriptAccessory accessory) { // 存在问题:其他时候瞬移时也会触发,如俯冲完恢复位置、转场瞬移至北侧时 var dp = accessory.Data.GetDefaultDrawProperties(); dp.Name = "突袭"; dp.Scale = new (16f, 55f); // 特效像宽9m,待实证 dp.Owner = @event.SourceId(); dp.Color = accessory.Data.DefaultDangerColor; dp.DestoryAt = 3100; accessory.Method.SendDraw(DrawModeEnum.Default, DrawTypeEnum.Rect, dp); } */ [ScriptMethod(name: "信徒其一_反射提示", eventType: EventTypeEnum.StartCasting, eventCondition: ["ActionId:regex:^652[56]$"])] public void 反射(Event @event, ScriptAccessory accessory) { // 招架:StatusID 680 if (isText)accessory.Method.TextInfo("注意 <信徒其一> 反射", duration: 7000, true); if (isTTS)accessory.Method.TTS("停止攻击信徒其一"); if (isEdgeTTS)accessory.Method.EdgeTTS("停止攻击信徒其一"); } [ScriptMethod(name: "信徒其二_灼热射线(背对)", eventType: EventTypeEnum.StartCasting, eventCondition: ["ActionId:6521"])] public void 灼热射线(Event @event, ScriptAccessory accessory) { if (isTTS)accessory.Method.TTS("背对信徒其二"); if (isEdgeTTS)accessory.Method.EdgeTTS("背对信徒其二"); var dp = accessory.Data.GetDefaultDrawProperties(); dp.Name = "灼热射线"; dp.Color = new Vector4(1f, 0f, 1f, 1f).WithW(2f); dp.Owner = @event.SourceId(); dp.Scale = new Vector2(1.8f); dp.DestoryAt = 4000; accessory.Method.SendDraw(DrawModeEnum.Default, DrawTypeEnum.Circle, dp); } [ScriptMethod(name: "灼热射线销毁", eventType: EventTypeEnum.CancelAction, eventCondition: ["ActionId:6521"],userControl: false)] public void 灼热射线销毁(Event @event, ScriptAccessory accessory) { accessory.Method.RemoveDraw("灼热射线"); } // 转场天平击退 两次均为19m // 类星体 差1条击退19m,差2条击退25m [ScriptMethod(name: "类星体 击退", eventType: EventTypeEnum.StartCasting, eventCondition: ["ActionId:6511"])] public void 类星体_击退(Event @event, ScriptAccessory accessory) { if (isText)accessory.Method.TextInfo("击退", duration: 4200, true); if (isTTS)accessory.Method.TTS("击退"); if (isEdgeTTS)accessory.Method.EdgeTTS("击退"); } } public static class EventExtensions { private static bool ParseHexId(string? idStr, out uint id) { id = 0; if (string.IsNullOrEmpty(idStr)) return false; try { var idStr2 = idStr.Replace("0x", ""); id = uint.Parse(idStr2, System.Globalization.NumberStyles.HexNumber); return true; } catch (Exception) { return false; } } public static uint ActionId(this Event @event) { return JsonConvert.DeserializeObject(@event["ActionId"]); } public static uint SourceId(this Event @event) { return ParseHexId(@event["SourceId"], out var id) ? id : 0; } public static uint SourceDataId(this Event @event) { return JsonConvert.DeserializeObject(@event["SourceDataId"]); } public static uint Command(this Event @event) { return ParseHexId(@event["Command"], out var cid) ? cid : 0; } public static uint DurationMilliseconds(this Event @event) { return JsonConvert.DeserializeObject(@event["DurationMilliseconds"]); } public static float SourceRotation(this Event @event) { return JsonConvert.DeserializeObject(@event["SourceRotation"]); } public static float TargetRotation(this Event @event) { return JsonConvert.DeserializeObject(@event["TargetRotation"]); } public static byte Index(this Event @event) { return (byte)(ParseHexId(@event["Index"], out var index) ? index : 0); } public static uint State(this Event @event) { return ParseHexId(@event["State"], out var state) ? state : 0; } public static string SourceName(this Event @event) { return @event["SourceName"]; } public static string TargetName(this Event @event) { return @event["TargetName"]; } public static uint TargetId(this Event @event) { return ParseHexId(@event["TargetId"], out var id) ? id : 0; } public static Vector3 SourcePosition(this Event @event) { return JsonConvert.DeserializeObject(@event["SourcePosition"]); } public static Vector3 TargetPosition(this Event @event) { return JsonConvert.DeserializeObject(@event["TargetPosition"]); } public static Vector3 EffectPosition(this Event @event) { return JsonConvert.DeserializeObject(@event["EffectPosition"]); } public static uint DirectorId(this Event @event) { return ParseHexId(@event["DirectorId"], out var id) ? id : 0; } public static uint StatusId(this Event @event) { return JsonConvert.DeserializeObject(@event["StatusId"]); } public static uint StackCount(this Event @event) { return JsonConvert.DeserializeObject(@event["StackCount"]); } public static uint Param(this Event @event) { return JsonConvert.DeserializeObject(@event["Param"]); } } #region 计算函数 public static class MathTools { public static float DegToRad(this float deg) => (deg + 360f) % 360f / 180f * float.Pi; public static float RadToDeg(this float rad) => (rad + 2 * float.Pi) % (2 * float.Pi) / float.Pi * 180f; /// /// 获得任意点与中心点的弧度值,以(0, 0, 1)方向为0,以(1, 0, 0)方向为pi/2。 /// 即,逆时针方向增加。 /// /// 任意点 /// 中心点 /// public static float GetRadian(this Vector3 point, Vector3 center) => MathF.Atan2(point.X - center.X, point.Z - center.Z); /// /// 获得任意点与中心点的长度。 /// /// 任意点 /// 中心点 /// public static float GetLength(this Vector3 point, Vector3 center) => new Vector2(point.X - center.X, point.Z - center.Z).Length(); /// /// 将任意点以中心点为圆心,逆时针旋转并延长。 /// /// 任意点 /// 中心点 /// 旋转弧度 /// 基于该点延伸长度 /// public static Vector3 RotateAndExtend(this Vector3 point, Vector3 center, float radian, float length) { var baseRad = point.GetRadian(center); var baseLength = point.GetLength(center); var rotRad = baseRad + radian; return new Vector3( center.X + MathF.Sin(rotRad) * (length + baseLength), center.Y, center.Z + MathF.Cos(rotRad) * (length + baseLength) ); } /// /// 获得某角度所在划分区域 /// /// 输入弧度 /// 区域划分数量 /// 0度所在区域的初始Idx> /// 是否为斜分割,默认为false /// 是否顺时针增加,默认为false /// public static int RadianToRegion(this float radian, int regionNum, int baseRegionIdx = 0, bool isDiagDiv = false, bool isCw = false) { var sepRad = float.Pi * 2 / regionNum; var inputAngle = radian * (isCw ? -1 : 1) + (isDiagDiv ? sepRad / 2 : 0); var rad = (inputAngle + 4 * float.Pi) % (2 * float.Pi); return ((int)Math.Floor(rad / sepRad) + baseRegionIdx + regionNum) % regionNum; } /// /// 将输入点左右折叠 /// /// 待折叠点 /// 中心折线坐标点 /// public static Vector3 FoldPointHorizon(this Vector3 point, float centerX) => point with { X = 2 * centerX - point.X }; /// /// 将输入点上下折叠 /// /// 待折叠点 /// 中心折线坐标点 /// public static Vector3 FoldPointVertical(this Vector3 point, float centerZ) => point with { Z = 2 * centerZ - point.Z }; /// /// 将输入点中心对称 /// /// 输入点 /// 中心点 /// public static Vector3 PointCenterSymmetry(this Vector3 point, Vector3 center) => point.RotateAndExtend(center, float.Pi, 0); /// /// 获取给定数的指定位数 /// /// 给定数值 /// 对应位数,个位为1 /// public static int GetDecimalDigit(this int val, int x) { var valStr = val.ToString(); var length = valStr.Length; if (x < 1 || x > length) return -1; var digitChar = valStr[length - x]; // 从右往左取第x位 return int.Parse(digitChar.ToString()); } } #endregion 计算函数