sdk4.0/src/Obj/Base/RoadObject/index-面大小一致.js

/**
 * @description 道路
 */
import Dialog from '../../Element/Dialog';
import { html } from "./_element";
import EventBinding from '../../Element/Dialog/eventBinding';
import Base from "../index";
import { syncData } from '../../../Global/MultiViewportMode'
import { setSplitDirection, syncSplitData, setActiveId } from '../../../Global/SplitScreen'
import { setActiveViewer, closeRotateAround, closeViewFollow } from '../../../Global/global'

class Road extends Base {
  /**
   * @constructor
   * @param sdk
   * @description 道路
   * @param options {object} 道路属性
   * @param options.name=未命名对象 {string} 名称
   * @param options.carRoadWidth=2 {number} 车道宽度
   * @param options.sideWidth=2 {number} 人行道宽度
   * @param options.positions=[] {array} 道路positions
   * @param options.roadImage='' {string} 车道贴图
   * @param options.sideImage='' {string} 人行道贴图
   * @param Dialog {object} 弹框对象
   * @param Dialog.confirmCallBack {function} 弹框确认时的回调
   * */
  constructor(sdk, options = {}, _Dialog = {}) {
    super(sdk, options);
    this.viewer = this.sdk.viewer
    this.options.name = options.name || '道路'
    this.options.carRoadWidth = options.carRoadWidth || 10
    this.options.sideWidth = options.sideWidth || 5
    this.options.positions = options.positions || []
    this.options.roadImage = options.roadImage || (this.getSourceRootPath() + '/img/roadPhoto.png')
    this.options.sideImage = options.sideImage || (this.getSourceRootPath() + '/img/sidePhoto.png')
    this.options.show = (options.show || options.show === false) ? options.show : true
    this.Dialog = _Dialog
    this._EventBinding = new EventBinding()
    this._elms = {};
    this.positionArea = []
    this.positions = []
    this.lineEntity = ''
    this.crossArr = []
    this.pointArr = []

    this.sdk.addIncetance(this.options.id, this)
    Road.create(this)
  }
  // 创建道路
  static create(that) {
    let positions = []
    that.options.positions.forEach(v => {
      positions.push(new Cesium.Cartesian3.fromDegrees(v.lng, v.lat, v.alt))
    })
    let newPosi = []
    for (let i = 0; i < positions.length - 1; i++) {
      const start = positions[i];
      const end = positions[i + 1];
      newPosi.push([start, end])
      that.pointArr = newPosi
    }

    let area = [[], [], []]

    // area[1] = that.getRectangle(positions, that.options.carRoadWidth)
    area[1][0] = that.getRectangle(newPosi, that.options.carRoadWidth)
    let sideArr = that.getSideRectangle(area[1][0], that.options.sideWidth)
    area[0] = sideArr.left
    area[2] = sideArr.right
    // area[1] = that.createLineBufferPolygon2(positions, that.options.carRoadWidth / 2)
    // area[1] = newPositions
    // area[0] = that.createLineBufferPolygonSide(area[1][2], -that.options.sideWidth)
    // area[2] = that.createLineBufferPolygonSide(area[1][1], that.options.sideWidth)

    //判断道路边是否相交
    for (let i = 0; i < area[0].length - 1; i++) {

      let leftItem = area[0][i]
      let leftItem2 = area[0][i + 1]
      let rightItem = area[2][i]
      let rightItem2 = area[2][i + 1]
      let carItem = area[1][0][i]
      let carItem2 = area[1][0][i + 1]
      let leftLine = that.getIntersects(leftItem[2], leftItem[3], leftItem2[2], leftItem2[3])
      let rightLine = that.getIntersects(rightItem[0], rightItem[1], rightItem2[0], rightItem2[1])

      console.log(leftLine, rightLine, 'leftLine')
      if (leftLine) {//左侧相交
        //获取右侧延长交点
        let point1 = that.getExtendPoint(rightItem[0], rightItem[1], 1000)
        let point2 = that.getExtendPoint(rightItem2[1], rightItem2[0], 1000)
        console.log('aaaa')
        let rightIntersection = that.getIntersects(rightItem[0], point1, rightItem2[1], point2)
        //将其他几条边都延长
        let leftLineNeiPoint = that.getExtendPoint(leftItem[0], leftItem[1], 1000)
        let carLeftPoint = that.getExtendPoint(carItem[3], carItem[2], 1000)
        let carRightPoint = that.getExtendPoint(carItem[0], carItem[1], 1000)

        let rightLineNeiPoint = that.getExtendPoint(rightItem[3], rightItem[2], 1000)



        console.log(leftLine, rightIntersection, leftItem[0], leftLineNeiPoint, 'bbbb')
        //跟左侧里相交点
        let leftLineNei = that.getIntersects(leftLine, rightIntersection, leftItem[0], leftLineNeiPoint)
        console.log(leftLineNei, 'leftLineNei')
        //跟车道左侧相交点
        let carLeft = that.getIntersects(leftLine, rightIntersection, carItem[3], carLeftPoint)

        //跟车道右侧相交点
        let carRight = that.getIntersects(leftLine, rightIntersection, carItem[0], carRightPoint)
        let rightLineNei = that.getIntersects(leftLine, rightIntersection, rightItem[3], rightLineNeiPoint)
        console.log('ccc')
        // let leftLineNei = that.getIntersects(leftLine, rightItem[2], leftItem[0], leftItem[3])
        // let carLeft = that.getIntersects(leftLine, rightItem[2], carItem[3], carItem[2])
        // let carRight = that.getIntersects(leftLine, rightItem[2], carItem[0], carItem[1])
        // let rightLineNei = that.getIntersects(leftLine, rightItem[2], rightItem[0], rightItem[3])

        // let leftLineNei = that.getIntersects(leftLine, intersection, leftItem[0], leftItem[3])
        // //跟车道左侧相交点
        // let carLeft = that.getIntersects(leftLine, intersection, carItem[3], carItem[2])
        // //跟车道右侧相交点
        // let carRight = that.getIntersects(leftLine, intersection, carItem[0], carItem[1])
        // let rightLineNei = that.getIntersects(leftLine, intersection, rightItem[0], rightItem[3])

        leftItem[2] = leftLine
        leftItem[1] = leftLineNei
        carItem[2] = carLeft
        carItem[1] = carRight
        rightItem[2] = rightLineNei
        rightItem[1] = rightIntersection
        console.log(leftItem, carItem, rightItem, 'leftItemleft')


        //将其他几条边都延长
        let leftLineNeiPoint2 = that.getExtendPoint(leftItem2[1], leftItem2[0], 1000)
        let carLeftPoint2 = that.getExtendPoint(carItem2[2], carItem2[3], 1000)
        let carRightPoint2 = that.getExtendPoint(carItem2[1], carItem2[0], 1000)
        let rightLineNeiPoint2 = that.getExtendPoint(rightItem2[2], rightItem2[3], 1000)

        // let leftLineNei2 = that.getIntersects(leftLine, rightItem2[1], leftItem2[0], leftItem2[3])
        // let carLeft2 = that.getIntersects(leftLine, rightItem2[1], carItem2[3], carItem2[2])
        // let carRight2 = that.getIntersects(leftLine, rightItem2[1], carItem2[0], carItem2[1])
        // let rightLineNei2 = that.getIntersects(leftLine, rightItem2[1], rightItem2[0], rightItem2[3])



        let leftLineNei2 = that.getIntersects(leftLine, rightIntersection, leftItem2[1], leftLineNeiPoint2)
        let carLeft2 = that.getIntersects(leftLine, rightIntersection, carItem2[2], carLeftPoint2)
        let carRight2 = that.getIntersects(leftLine, rightIntersection, carItem2[1], carRightPoint2)
        let rightLineNei2 = that.getIntersects(leftLine, rightIntersection, rightItem2[2], rightLineNeiPoint2)

        // let arr = [leftLine, rightIntersection, leftItem2[3], leftLineNeiPoint2]
        // arr.forEach((item, index) => {
        //   that.sdk.viewer.entities.add({
        //     name: 'node-secondary-edit-point',
        //     index: i,
        //     position: item,
        //     billboard: {
        //       image: that.getSourceRootPath() + '/img/point.png',
        //       width: 15,
        //       height: 15,
        //       disableDepthTestDistance: Number.POSITIVE_INFINITY,
        //       color: Cesium.Color.WHITE.withAlpha(0.99)
        //     },
        //     label: {
        //       text: '' + index,
        //       pixelOffset: { x: 0, y: -20 },
        //     },
        //   })
        // })

        // let leftLineNei2 = that.getIntersects(leftLine, intersection, leftItem2[0], leftItem2[3])
        // //跟车道左侧相交点
        // let carLeft2 = that.getIntersects(leftLine, intersection, carItem2[3], carItem2[2])
        // //跟车道右侧相交点
        // let carRight2 = that.getIntersects(leftLine, intersection, carItem2[0], carItem2[1])
        // let rightLineNei2 = that.getIntersects(leftLine, intersection, rightItem2[0], rightItem2[3])

        leftItem2[3] = leftLine
        leftItem2[0] = leftLineNei
        carItem2[3] = carLeft
        carItem2[0] = carRight
        rightItem2[3] = rightLineNei
        rightItem2[0] = rightIntersection
        console.log(leftItem2, carItem2, rightItem2, 'leftItem2left')

      } else if (rightLine) {//右侧相交

        //获取左侧延长交点
        let point1 = that.getExtendPoint(leftItem[3], leftItem[2], 1000)
        let point2 = that.getExtendPoint(leftItem2[2], leftItem2[3], 1000)
        let rightIntersection = that.getIntersects(leftItem[3], point1, leftItem2[2], point2)
        if (!rightIntersection) {
          return
        }
        //将其他几条边都延长
        let leftLineNeiPoint = that.getExtendPoint(leftItem[0], leftItem[1], 1000)
        let carLeftPoint = that.getExtendPoint(carItem[3], carItem[2], 1000)
        let carRightPoint = that.getExtendPoint(carItem[0], carItem[1], 1000)
        let rightLineNeiPoint = that.getExtendPoint(rightItem[3], rightItem[2], 1000)

        // //跟左侧里相交点
        let leftLineNei = that.getIntersects(rightLine, rightIntersection, leftItem[0], leftLineNeiPoint)
        //跟车道左侧相交点
        let carLeft = that.getIntersects(rightLine, rightIntersection, carItem[3], carLeftPoint)
        //跟车道右侧相交点
        let carRight = that.getIntersects(rightLine, rightIntersection, carItem[0], carRightPoint)
        let rightLineNei = that.getIntersects(rightLine, rightIntersection, rightItem[3], rightLineNeiPoint)
        // //跟左侧里相交点
        // let leftLineNei = that.getIntersects(rightLine, leftItem[2], leftItem[0], leftItem[3])
        // //跟车道左侧相交点
        // let carLeft = that.getIntersects(rightLine, leftItem[2], carItem[3], carItem[2])
        // //跟车道右侧相交点
        // let carRight = that.getIntersects(rightLine, leftItem[2], carItem[0], carItem[1])
        // let rightLineNei = that.getIntersects(rightLine, leftItem[2], rightItem[0], rightItem[3])


        leftItem[2] = rightIntersection
        leftItem[1] = leftLineNei
        carItem[2] = carLeft
        carItem[1] = carRight
        rightItem[2] = rightLineNei
        rightItem[1] = rightLine
        console.log(leftItem, carItem, rightItem, 'leftItemright')

        //将其他几条边都延长
        let leftLineNeiPoint2 = that.getExtendPoint(leftItem2[2], leftItem2[3], 1000)
        let carLeftPoint2 = that.getExtendPoint(carItem2[2], carItem2[3], 1000)
        let carRightPoint2 = that.getExtendPoint(carItem2[1], carItem2[0], 1000)
        let rightLineNeiPoint2 = that.getExtendPoint(rightItem2[2], rightItem2[3], 1000)

        let leftLineNei2 = that.getIntersects(rightLine, rightIntersection, leftItem2[1], leftLineNeiPoint2)
        //跟车道左侧相交点
        let carLeft2 = that.getIntersects(rightLine, rightIntersection, carItem2[2], carLeftPoint2)
        //跟车道右侧相交点
        let carRight2 = that.getIntersects(rightLine, rightIntersection, carItem2[1], carRightPoint2)
        let rightLineNei2 = that.getIntersects(rightLine, rightIntersection, rightItem2[2], rightLineNeiPoint2)
        // let leftLineNei2 = that.getIntersects(rightLine, leftItem2[1], leftItem2[0], leftItem2[3])
        // //跟车道左侧相交点
        // let carLeft2 = that.getIntersects(rightLine, leftItem2[1], carItem2[3], carItem2[2])
        // //跟车道右侧相交点
        // let carRight2 = that.getIntersects(rightLine, leftItem2[1], carItem2[0], carItem2[1])
        // let rightLineNei2 = that.getIntersects(rightLine, leftItem2[1], rightItem2[0], rightItem2[3])

        leftItem2[3] = rightIntersection
        leftItem2[0] = leftLineNei
        carItem2[3] = carLeft
        carItem2[0] = carRight
        rightItem2[3] = rightLineNei
        rightItem2[0] = rightLine
        console.log(leftItem2, carItem2, rightItem2, 'leftItem2right')

      }
    }

    if (that.viewer.entities.getById(that.options.id)) {
      that.viewer.entities.getById(that.options.id)._children.forEach((item) => {
        that.viewer.entities.remove(item);
      });
      that.viewer.entities.remove(that.viewer.entities.getById(that.options.id))
    }
    that.lineEntity = that.viewer.entities.add(new Cesium.Entity({ id: that.options.id, show: that.options.show }))

    const myImg = new Image()
    myImg.src = that.options.roadImage
    myImg.onload = function () {
      console.log(area[1][0], that.options.roadImage, 'llll')
      area[1][0].forEach((item, index) => {
        that.viewer.entities.add({
          // id: that.options.id,
          parent: that.lineEntity,
          polygon: {
            hierarchy: new Cesium.PolygonHierarchy(item),
            material: new Cesium.ImageMaterialProperty({
              image: that.options.roadImage,
              transparent: true,// 如果图片有透明部分，需要设置为 true
              repeat: that.calculateTextureRepeat(item, myImg)
            }),
            stRotation: that.calculateRoadAngle(positions[index], positions[index + 1])
          }
        });
      })
    }

    const myImg2 = new Image()
    myImg2.src = that.options.sideImage
    myImg2.onload = function () {
      // area[0].forEach((item, index) => {
      area[0].forEach((item, index) => {
        that.viewer.entities.add({
          parent: that.lineEntity,
          polygon: {
            hierarchy: new Cesium.PolygonHierarchy(item),
            material: new Cesium.ImageMaterialProperty({
              image: that.options.sideImage,
              transparent: true,// 如果图片有透明部分，需要设置为 true
              repeat: that.calculateTextureRepeat(item, myImg2)
            }),
            stRotation: that.calculateRoadAngle(positions[index], positions[index + 1])
          }
        });
      })

      // area[2].forEach((item, index) => {
      area[2].forEach((item, index) => {
        that.viewer.entities.add({
          polygon: {
            hierarchy: new Cesium.PolygonHierarchy(item),
            material: new Cesium.ImageMaterialProperty({
              image: that.options.sideImage,
              transparent: true,// 如果图片有透明部分，需要设置为 true
              repeat: that.calculateTextureRepeat(item, myImg2)
            }),
            stRotation: that.calculateRoadAngle(positions[index], positions[index + 1])
          }
        });
      })

    }

  }
  getSideRectangle(positions, width) {
    let right = []
    let left = []
    let that = this
    positions.forEach(item => {
      right.push([item[0], item[1]])
      left.push([item[2], item[3]])
    })
    let rightPosi = that.getRectangle(right, width, 'side')

    let leftPosi = this.getRectangle(left, width, 'side')
    return { left: leftPosi, right: rightPosi }
  }
  getRectangle(positions, width, type) {
    let areaArr = []
    let newPositions = []
    let that = this
    // for (let i = 0; i < positions.length - 1; i++) {
    for (let i = 0; i < positions.length; i++) {
      const start = positions[i][0];
      const end = positions[i][1];

      areaArr[i] = []
      let posi = []
      let Outlinegeometry = new Cesium.CorridorGeometry({
        positions: [start, end],
        width: width,
        cornerType: Cesium.CornerType.MITERED,
        vertexFormat: Cesium.MaterialAppearance.MaterialSupport.ALL.vertexFormat
      })
      let geometry = Cesium.CorridorGeometry.createGeometry(Outlinegeometry)
      for (let j = 0; j < geometry.attributes.position.values.length; j += 3) {
        let val = that.cartesian3Towgs84(new Cesium.Cartesian3(geometry.attributes.position.values[j], geometry.attributes.position.values[j + 1], geometry.attributes.position.values[j + 2]), that.sdk.viewer)
        posi.push([val.lng, val.lat])
      }

      for (let x = 0; x < geometry.indices.length; x += 3) {
        areaArr[i].push(turf.polygon([[posi[geometry.indices[x]], posi[geometry.indices[x + 1]], posi[geometry.indices[x + 2]], posi[geometry.indices[x]]]]))
      }

      let geojson = turf.union(areaArr[i][0], areaArr[i][1]);
      let arr = []
      geojson.geometry.coordinates[0].pop()
      geojson.geometry.coordinates[0].forEach(item => {
        arr.push(new Cesium.Cartesian3.fromDegrees(item[0], item[1]))
      })
      let dotResult, angle
      const tempVec = new Cesium.Cartesian3();

      // 计算并归一化第一个向量
      const vector1 = Cesium.Cartesian3.normalize(
        Cesium.Cartesian3.subtract(that.pointArr[i][1], that.pointArr[i][0], tempVec),
        tempVec
      );

      // 计算并归一化第二个向量
      const vector2 = Cesium.Cartesian3.normalize(
        Cesium.Cartesian3.subtract(arr[1], arr[0], new Cesium.Cartesian3()),
        new Cesium.Cartesian3()
      );

      dotResult = Cesium.Cartesian3.dot(vector1, vector2);
      if ((0.999 < dotResult && dotResult < 1.001) || (-0.999 > dotResult && dotResult > -1.001)) {//调整方向
        newPositions.push(arr)
      } else {
        let newArr = []
        newArr[0] = arr[1]
        newArr[1] = arr[2]
        newArr[2] = arr[3]
        newArr[3] = arr[0]
        newPositions.push(newArr)
      }
      // }

      // if (!type) {
      //   // if (cross > 0 && !type) {//调整方向
      //   if ((0.999 < dotResult && dotResult < 1.001) || (-0.999 > dotResult && dotResult > -1.001)) {//调整方向
      //     newPositions.push(arr)
      //   } else {
      //     let newArr = []
      //     newArr[0] = arr[1]
      //     newArr[1] = arr[2]
      //     newArr[2] = arr[3]
      //     newArr[3] = arr[0]
      //     newPositions.push(newArr)
      //   }
      // } else {
      //   newPositions.push(arr)
      // }
    }
    return newPositions
  }
  getExtendPoint(position1, position2, distance) {
    // let position1 = Cesium.Cartesian3.fromDegrees(p1[0], p1[1], 0);
    // let position2 = Cesium.Cartesian3.fromDegrees(p2[0], p2[1], 0);
    let pot = Cesium.Cartesian3.subtract(position2, position1, new Cesium.Cartesian3());//方向
    var dir = Cesium.Cartesian3.normalize(pot, new Cesium.Cartesian3());//向量归一化

    var ray = new Cesium.Ray(position1, dir);
    let np = Cesium.Ray.getPoint(ray, distance * 10);//计算延长点
    return np
  }
  getArr(arr1, arr2) {
    arr2 = arr2.reverse()
    let polygon = []
    for (let index = 0; index < arr1.length - 1; index++) {
      polygon.push([arr1[index], arr1[index + 1], arr2[index + 1], arr2[index]])
    }
    return polygon
  }
  calculateRoadAngle2(startPoint, endPoint) {
    // 1. 获取地表法向量
    const normal = this.sdk.viewer.scene.globe.ellipsoid.geodeticSurfaceNormal(
      startPoint, new Cesium.Cartesian3());

    // 2. 构建带椭球参数的ENU矩阵
    const enuMatrix = Cesium.Transforms.eastNorthUpToFixedFrame(
      startPoint, this.sdk.viewer.scene.globe.ellipsoid, normal);
    const inverseMatrix = Cesium.Matrix4.inverse(
      enuMatrix, new Cesium.Matrix4());

    // 3. 转换坐标并计算相对向量
    const localEnd = Cesium.Matrix4.multiplyByPoint(
      inverseMatrix, endPoint, new Cesium.Cartesian3());
    const heightFactor = Math.abs(localEnd.z) / 1000; // 高度差补偿

    // 4. 使用四象限反正切计算角度
    const angle = Math.atan2(localEnd.y, localEnd.x);
    const adjustedAngle = angle - (heightFactor * 0.01); // 高度补偿
    let result = Cesium.Math.toDegrees(adjustedAngle)
    console.log(result, 'result')
    return result;
  }
  calculateRoadAngle(startPoint, endPoint) {
    // 1. 获取地表法向量
    const normal = Cesium.Ellipsoid.WGS84.geodeticSurfaceNormal(startPoint);

    // 2. 构建精确ENU坐标系
    const enuMatrix = Cesium.Transforms.eastNorthUpToFixedFrame(startPoint, undefined, normal);
    const inverseMatrix = Cesium.Matrix4.inverse(enuMatrix, new Cesium.Matrix4());

    // 3. 转换终点并计算水平向量
    const localEnd = Cesium.Matrix4.multiplyByPoint(inverseMatrix, endPoint, new Cesium.Cartesian3());
    const horizontalVec = new Cesium.Cartesian2(localEnd.x, localEnd.y);
    Cesium.Cartesian2.normalize(horizontalVec, horizontalVec);

    const north = new Cesium.Cartesian2(1, 0);

    const angle = Cesium.Cartesian2.angleBetween(north, horizontalVec);
    const cross = Cesium.Cartesian2.cross(north, horizontalVec, new Cesium.Cartesian2());
    return cross < 0 ? angle : -angle;
  }

  calculatePolygonOrientation(positions) {

    // 假设 position 是 Cesium.Cartesian3 对象，表示地球上的某个点
    var position = positions[0]
    // 获取东、北、上坐标系
    var eastNorthUp = Cesium.Transforms.eastNorthUpToFixedFrame(position);
    // northAxis 是北方向向量
    var northAxis = eastNorthUp.getColumn(1, new Cesium.Cartesian3());
    Cesium.Cartesian3.normalize(northAxis, northAxis);

    const direction = Cesium.Cartesian3.subtract(positions[0], positions[1], new Cesium.Cartesian3());
    Cesium.Cartesian3.normalize(direction, direction);


    const dot = Cesium.Cartesian3.dot(northAxis, direction);
    const magA = Cesium.Cartesian3.magnitude(northAxis);
    const magB = Cesium.Cartesian3.magnitude(direction);
    return Math.acos(dot / (magA * magB));
  }
  calculateTextureRepeat(polygonPositions, textureSize, meterPerPixel = 0.01) {
    // 验证纹理尺寸
    if (!textureSize.width || !textureSize.height) {
      throw new Error('Texture size must contain width and height in pixels');
    }

    // 创建多边形几何体
    const geometry = Cesium.PolygonGeometry.createGeometry(
      new Cesium.PolygonGeometry({
        polygonHierarchy: new Cesium.PolygonHierarchy(polygonPositions),
        vertexFormat: Cesium.VertexFormat.POSITION_ONLY
      })
    );

    // 计算多边形面积(平方米)
    let area = 0;
    const indices = geometry.indices;
    const positions = geometry.attributes.position.values;
    for (let i = 0; i < indices.length; i += 3) {
      const i0 = indices[i] * 3;
      const i1 = indices[i + 1] * 3;
      const i2 = indices[i + 2] * 3;

      const p0 = new Cesium.Cartesian3(positions[i0], positions[i0 + 1], positions[i0 + 2]);
      const p1 = new Cesium.Cartesian3(positions[i1], positions[i1 + 1], positions[i1 + 2]);
      const p2 = new Cesium.Cartesian3(positions[i2], positions[i2 + 1], positions[i2 + 2]);

      const cross = Cesium.Cartesian3.cross(
        Cesium.Cartesian3.subtract(p1, p0, new Cesium.Cartesian3()),
        Cesium.Cartesian3.subtract(p2, p0, new Cesium.Cartesian3()),
        new Cesium.Cartesian3()
      );
      area += Cesium.Cartesian3.magnitude(cross) * 0.5;
    }

    // 将像素尺寸转换为实际尺寸（平方米）
    const textureWidthMeters = textureSize.width * meterPerPixel;
    const textureHeightMeters = textureSize.height * meterPerPixel;
    const textureArea = textureWidthMeters * textureHeightMeters;

    // 计算各轴向重复次数
    const repeatX = Math.sqrt(area) / textureWidthMeters;
    const repeatY = Math.sqrt(area) / textureHeightMeters;

    return new Cesium.Cartesian2(Math.max(1, Math.ceil(repeatX)), 1.0);
  }
  swapLastElements(arr1, arr2) {
    const last = arr1[arr1.length - 1]
    const first = arr2[0]
    arr1[arr1.length - 1] = first
    arr2[0] = last

    return [arr1, arr2];
  }
  createLineBufferPolygonSide(positions, width) {
    let area = []
    for (let i = 0; i < positions.length; i++) {
      const posi = positions[i];

      const dir = Cesium.Cartesian3.subtract(posi[1], posi[0], new Cesium.Cartesian3());
      Cesium.Cartesian3.normalize(dir, dir);

      // 获取垂直向量（基于Z轴）
      const perp = Cesium.Cartesian3.cross(dir, Cesium.Cartesian3.UNIT_Z, new Cesium.Cartesian3());
      Cesium.Cartesian3.normalize(perp, perp);

      // 生成偏移向量
      const offset = Cesium.Cartesian3.multiplyByScalar(perp, width, new Cesium.Cartesian3());
      let point1 = Cesium.Cartesian3.add(posi[0], offset, new Cesium.Cartesian3())
      let point3 = Cesium.Cartesian3.add(posi[1], offset, new Cesium.Cartesian3())

      // i == positions.length - 2 ? area.push(start, point1, end, point3) : area.push(start, point1)
      area.push([posi[0], point1, point3, posi[1]])
    }
    // let arr = []
    // for (let i = 0; i < area.length - 2; i += 2) {
    //   arr.push([area[i], area[i + 1], area[i + 3], area[i + 2]])
    // }
    return area
  }
  createLineBufferPolygon2(positions, width) {
    let area = []
    let leftPositions = [];
    let rightPositions = [];

    for (let i = 0; i < positions.length - 1; i++) {
      const start = positions[i];
      // const end = positions[i + 1] || positions[i - 1];
      const end = positions[i + 1];

      const dir = Cesium.Cartesian3.subtract(end, start, new Cesium.Cartesian3());
      Cesium.Cartesian3.normalize(dir, dir);

      // 获取垂直向量（基于Z轴）
      const perp = Cesium.Cartesian3.cross(dir, Cesium.Cartesian3.UNIT_Z, new Cesium.Cartesian3());
      Cesium.Cartesian3.normalize(perp, perp);

      const dir2 = Cesium.Cartesian3.subtract(start, end, new Cesium.Cartesian3());
      Cesium.Cartesian3.normalize(dir2, dir2);

      // 获取垂直向量（基于Z轴）
      const perp2 = Cesium.Cartesian3.cross(dir2, Cesium.Cartesian3.UNIT_Z, new Cesium.Cartesian3());
      Cesium.Cartesian3.normalize(perp2, perp2);




      // 生成偏移向量
      const offset = Cesium.Cartesian3.multiplyByScalar(perp, width, new Cesium.Cartesian3());
      const offset2 = Cesium.Cartesian3.multiplyByScalar(perp, -width, new Cesium.Cartesian3());

      const offsetEnd = Cesium.Cartesian3.multiplyByScalar(perp2, -width, new Cesium.Cartesian3());
      const offsetEnd2 = Cesium.Cartesian3.multiplyByScalar(perp2, width, new Cesium.Cartesian3());

      let point1 = Cesium.Cartesian3.add(start, offset, new Cesium.Cartesian3())
      let point2 = Cesium.Cartesian3.add(start, offset2, new Cesium.Cartesian3())
      let point3 = Cesium.Cartesian3.add(end, offsetEnd, new Cesium.Cartesian3())
      let point4 = Cesium.Cartesian3.add(end, offsetEnd2, new Cesium.Cartesian3())

      area.push([point1, point3, point4, point2])

      rightPositions.push([point1, point3])
      leftPositions.push([point2, point4])

      // if (i == positions.length - 2) {
      //   area.push(point1, point2, point3, point4)
      //   rightPositions.push(point1)
      //   leftPositions.push(point2)
      //   leftPositions.push(point4)
      //   rightPositions.push(point3)
      // } else {
      //   area.push(point1, point2)
      //   rightPositions.push(point1)
      //   leftPositions.push(point2)
      // }
    }
    // let arr = []
    // for (let i = 0; i < area.length - 2; i += 2) {
    //   arr.push([area[i], area[i + 1], area[i + 3], area[i + 2]])
    // }
    console.log(area, rightPositions, 'rightPositions')
    let that = this
    // return [arr, rightPositions, leftPositions]
    return [area, rightPositions, leftPositions]
  }
  getIntersects(point1, point2, point3, point4) {
    let carPoint1 = this.getLonLat(point1)
    let carPoint2 = this.getLonLat(point2)
    let carPoint3 = this.getLonLat(point3)
    let carPoint4 = this.getLonLat(point4)
    var line1 = turf.lineString([
      [carPoint1.lon, carPoint1.lat],
      [carPoint2.lon, carPoint2.lat]
    ]);
    var line2 = turf.lineString([
      [carPoint3.lon, carPoint3.lat],
      [carPoint4.lon, carPoint4.lat]
    ]);
    var intersects = turf.lineIntersect(line1, line2);
    if (intersects.features.length > 0) {
      return Cesium.Cartesian3.fromDegrees(intersects.features[0].geometry.coordinates[0], intersects.features[0].geometry.coordinates[1])
    }
  }
  getLonLat(point) {
    let pointDe = Cesium.Cartographic.fromCartesian(point)
    const longitude = Cesium.Math.toDegrees(pointDe.longitude);
    const latitude = Cesium.Math.toDegrees(pointDe.latitude);
    return { lon: longitude, lat: latitude }

  }
  createLineBufferPolygon(viewer, positions, width) {
    // 计算每个线段的左右偏移点
    const leftPositions = [];
    const rightPositions = [];

    for (let i = 0; i < positions.length; i++) {
      const start = positions[i];
      const end = positions[i + 1] || positions[i - 1];

      // 计算线段方向向量
      const direction = Cesium.Cartesian3.subtract(end, start, new Cesium.Cartesian3());
      // const direction = Cesium.Cartesian3.subtract(start, end, new Cesium.Cartesian3());
      Cesium.Cartesian3.normalize(direction, direction);

      // 计算垂直向量（使用上向量叉积）
      const up = Cesium.Cartesian3.UNIT_Z;
      const perpendicular = Cesium.Cartesian3.cross(direction, up, new Cesium.Cartesian3());
      Cesium.Cartesian3.normalize(perpendicular, perpendicular);

      // 计算左右偏移点
      const leftOffset = Cesium.Cartesian3.multiplyByScalar(
        perpendicular,
        width,
        new Cesium.Cartesian3()
      );

      if (width > 0) {
        rightPositions.unshift(Cesium.Cartesian3.add(start, leftOffset, new Cesium.Cartesian3()));
      } else if (width < 0) {
        rightPositions.push(Cesium.Cartesian3.add(start, leftOffset, new Cesium.Cartesian3()));
      }

    }
    return rightPositions
  }
  //计算角度
  calculateAangle(arr) {
    // let fromDegreesArray = that.calSector(that.options.center, that.options.radius, that.options.startAngle, that.options.endAngle, 360, true)

    function getAangle(start, end) {
      let rad = Math.PI / 180,
        lat1 = start.y * rad,
        lat2 = end.y * rad,
        lon1 = start.x * rad,
        lon2 = end.x * rad;
      const a = Math.sin(lon2 - lon1) * Math.cos(lat2);
      const b =
        Math.cos(lat1) * Math.sin(lat2) -
        Math.sin(lat1) * Math.cos(lat2) * Math.cos(lon2 - lon1);
      const radians = Math.atan2(a, b)
      const degrees = radians % (2 * Math.PI);
      let bearing = 450 - ((degrees * 180) / Math.PI < 0
        ? 360 + (degrees * 180) / Math.PI
        : (degrees * 180) / Math.PI) - 90;
      return 360 - (bearing % 360)
    }

    let center = arr[0]
    let pos84_1 = arr[1]
    let pos84_2 = arr[2]

    let start = { x: center.lng, y: center.lat }
    let end1 = { x: pos84_1.lng, y: pos84_1.lat }
    let end2 = { x: pos84_2.lng, y: pos84_2.lat }

    let angle1 = getAangle(start, end1)
    let angle2 = getAangle(start, end2)

    return {
      angle1,
      angle2
    }
  }

  get carRoadWidth() {
    return this.options.carRoadWidth
  }

  set carRoadWidth(v) {
    this.options.carRoadWidth = v
    Road.create(this)

  }
  get sideWidth() {
    return this.options.sideWidth
  }
  set sideWidth(v) {
    this.options.sideWidth = v
    Road.create(this)
  }
  /**
   * @description 编辑框
   * @param state=false {boolean} 状态: true打开, false关闭
   */
  async edit(state = false) {
    let _this = this
    this.originalOptions = this.deepCopyObj(this.options)

    if (this._DialogObject && this._DialogObject.close) {
      this._DialogObject.close()
      this._DialogObject = null
    }

    if (state) {
      this._DialogObject = await new Dialog(this.sdk, this.originalOptions, {
        title: '道路属性', left: '180px', top: '100px',
        confirmCallBack: (options) => {
          this.name = this.name.trim()
          if (!this.name) {
            this.name = '道路'
          }
          this.originalOptions = this.deepCopyObj(this.options)
          this._DialogObject.close()
          this.Dialog.confirmCallBack && this.Dialog.confirmCallBack(this.originalOptions)
          syncData(this.sdk, this.options.id)
          syncSplitData(this.sdk, this.options.id)
        },
        resetCallBack: () => {
          this.reset()
          this.Dialog.resetCallBack && this.Dialog.resetCallBack()
        },
        closeCallBack: () => {
          this.reset()
          this.Dialog.closeCallBack && this.Dialog.closeCallBack()
        },
        showCallBack: (show) => {
          this.show = show
          this.Dialog.showCallBack && this.Dialog.showCallBack()
        }
      }, true)
      this._DialogObject._element.body.className = this._DialogObject._element.body.className + ' road-surface'
      let contentElm = document.createElement('div');
      contentElm.innerHTML = html()
      this._DialogObject.contentAppChild(contentElm)


      // 下拉选项
      // let heightModeData = [
      //   {
      //     name: '海拔高度',
      //     value: '海拔高度',
      //     key: '0',
      //   },
      //   {
      //     name: '相对地表',
      //     value: '相对地表',
      //     key: '1',
      //   },
      //   {
      //     name: '依附模型',
      //     value: '依附模型',
      //     key: '2',
      //   }
      // ]
      // let heightModeObject = legp(
      //   this._DialogObject._element.content.getElementsByClassName(
      //     'road-box'
      //   )[0],
      //   '.road-type'
      // )
      // if (heightModeObject) {
      //   heightModeObject.legp_search(heightModeData)
      //   let heightModeDataLegpElm = this._DialogObject._element.content
      //     .getElementsByClassName('road-type')[0]
      //     .getElementsByTagName('input')[0]
      //   for (let i = 0; i < heightModeData.length; i++) {
      //     if (heightModeData[i].key == this.heightMode) {
      //       heightModeDataLegpElm.value = heightModeData[i].value
      //       heightModeObject.legp_searchActive(
      //         heightModeData[i].value
      //       )
      //       break
      //     }
      //   }
      //   heightModeDataLegpElm.addEventListener('input', () => {
      //     for (let i = 0; i < heightModeData.length; i++) {
      //       if (heightModeData[i].value === heightModeDataLegpElm.value) {
      //         this.heightMode = heightModeData[i].key
      //         break
      //       }
      //     }
      //   })


      //   this._elms.height = heightElm
      //   this._elms.heightBox = heightBoxElm
      //   this._elms.heightMode = heightModeDataLegpElm
      //   this._elms.heightConfirm = heightConfirmElm
      //   this._elms.heightModeObject = heightModeObject

      //   heightConfirmElm.addEventListener('click', () => {
      //     this.positionEditing = false
      //     for (let i = 0; i < this.options.positions.length; i++) {
      //       this.options.positions[i].alt = Number((this.options.positions[i].alt + Number(heightElm.value)).toFixed(2))
      //       this._elms.alt[i].innerHTML = this.options.positions[i].alt
      //     }
      //     let fromDegreesArray = this.renewPositions(this.options.positions)
      //     this.entity.polyline.positions = Cesium.Cartesian3.fromDegreesArrayHeights(
      //       fromDegreesArray
      //     )

      //     this.positionEditing = false
      //     PolylineObject.closeNodeEdit(this)
      //   })
      // }





      let all_elm = contentElm.getElementsByTagName("*")
      this._EventBinding.on(this, all_elm)
      this._elms = this._EventBinding.element
    } else {
      // if (this._element_style) {
      //   document.getElementsByTagName('head')[0].removeChild(this._element_style)
      //   this._element_style = null
      // }
      // if (this._DialogObject && this._DialogObject.remove) {
      //   this._DialogObject.remove()
      //   this._DialogObject = null
      // }
    }
  }

  reset() {
    if (!this.viewer.entities.getById(this.options.id)) {
      return
    }
    this.name = this.originalOptions.name
    this.carRoadWidth = this.originalOptions.carRoadWidth
    this.sideWidth = this.originalOptions.sideWidth
    this.positions = this.originalOptions.positions
    this.roadImage = this.originalOptions.roadImage
    this.sideImage = this.originalOptions.sideImage
  }

  /**
   * 飞到对应实体
   */
  async flyTo(options = {}) {
    setActiveViewer(0)
    closeRotateAround(this.sdk)
    closeViewFollow(this.sdk)

    if (this.options.customView && this.options.customView.relativePosition && this.options.customView.orientation) {
      let orientation = {
        heading: Cesium.Math.toRadians(this.options.customView.orientation.heading || 0.0),
        pitch: Cesium.Math.toRadians(this.options.customView.orientation.pitch || -60.0),
        roll: Cesium.Math.toRadians(this.options.customView.orientation.roll || 0.0)
      }

      let lng = this.options.customView.relativePosition.lng
      let lat = this.options.customView.relativePosition.lat
      let alt = this.options.customView.relativePosition.alt
      let destination = Cesium.Cartesian3.fromDegrees(lng, lat, alt)

      let position = { lng: 0, lat: 0 }
      if (this.options.position) {
        position = { ...this.options.position }
      }
      else if (this.options.positions) {
        position = { ...this.options.positions[0] }
      }
      else if (this.options.center) {
        position = { ...this.options.center }
      }
      else if (this.options.start) {
        position = { ...this.options.start }
      }
      else {
        if (this.options.hasOwnProperty('lng')) {
          position.lng = this.options.lng
        }
        if (this.options.hasOwnProperty('lat')) {
          position.lat = this.options.lat
        }
        if (this.options.hasOwnProperty('alt')) {
          position.alt = this.options.alt
        }
      }
      // 如果没有高度值，则获取紧贴高度计算
      // if (!position.hasOwnProperty('alt')) {
      //   position.alt = await this.getClampToHeight(position)
      // }
      lng = this.options.customView.relativePosition.lng + position.lng
      lat = this.options.customView.relativePosition.lat + position.lat
      alt = this.options.customView.relativePosition.alt + position.alt
      destination = Cesium.Cartesian3.fromDegrees(lng, lat, alt)
      this.sdk.viewer.camera.flyTo({
        destination: destination,
        orientation: orientation
      })
    }
    else {
      let positionArray = []
      for (let i = 0; i < this.positions.length; i++) {
        let a = Cesium.Cartesian3.fromDegrees(
          this.positions[i][0],
          this.positions[i][1],
          this.options.height + this.options.heightDifference / 2
        )
        positionArray.push(a.x, a.y, a.z)
      }
      let BoundingSphere = Cesium.BoundingSphere.fromVertices(positionArray)
      this.viewer.camera.flyToBoundingSphere(BoundingSphere, {
        offset: {
          heading: Cesium.Math.toRadians(0.0),
          pitch: Cesium.Math.toRadians(-20.0),
          roll: Cesium.Math.toRadians(0.0)
        }
      })

    }
  }

  getSphere() {
    return new Promise((resolve) => {
      // entity没有加载完成时 state 不会等于0 所以设置定时器直到获取到为止
      const interval = setInterval(() => {
        const sphere = new Cesium.BoundingSphere()
        const state = this.sdk.viewer._dataSourceDisplay.getBoundingSphere(
          this.viewer.entities.getById(this.options.id),
          false,
          sphere
        )
        if (state === Cesium.BoundingSphereState.DONE) {
          clearInterval(interval)
        }
      }, 1000)
    })
  }

  /**
   * 删除
   */
  async remove() {
    this.positions = []
    this.lineEntity = null

    if (this.viewer.entities.getById(this.options.id)) {
      this.viewer.entities.getById(this.options.id)._children.forEach((item) => {
        this.viewer.entities.remove(item);
      });
      this.viewer.entities.remove(this.viewer.entities.getById(this.options.id))
    }

    if (this._DialogObject && !this._DialogObject.isDestroy) {
      this._DialogObject.close()
      this._DialogObject = null
    }
    await this.sdk.removeIncetance(this.options.id)
    await syncData(this.sdk, this.options.id)
  }

  flicker() { }
}

export default Road