329 lines
15 KiB
JavaScript
329 lines
15 KiB
JavaScript
var xp = {
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version: "1.0.0",
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createTime: "2018.6.19",
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author: "xupinhui"
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}
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var doubleArrowDefualParam = {
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type: "doublearrow",
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headHeightFactor: .25,
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headWidthFactor: .3,
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neckHeightFactor: .85,
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fixPointCount: 4,
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neckWidthFactor: .15
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}
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var tailedAttackArrowDefualParam = {
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headHeightFactor: .18,
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headWidthFactor: .3,
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neckHeightFactor: .85,
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neckWidthFactor: .15,
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tailWidthFactor: .1,
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headTailFactor: .8,
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swallowTailFactor: 1
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};
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var fineArrowDefualParam = {
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tailWidthFactor: 0.15,
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neckWidthFactor: 0.20,
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headWidthFactor: 0.25,
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headAngle: Math.PI / 8.5,
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neckAngle: Math.PI / 13
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};
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xp.algorithm = {},
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xp.algorithm.doubleArrow = function (inputPoint) {
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this.connPoint = null;
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this.tempPoint4 = null;
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this.points = inputPoint;
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var result = {
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controlPoint: null,
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polygonalPoint: null
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};
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//获取已经点击的坐标数
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var t = inputPoint.length;
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if (!(2 > t)) {
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if (2 == t) return inputPoint;
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var o = this.points[0], //第一个点
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e = this.points[1], //第二个点
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r = this.points[2], //第三个点
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t = inputPoint.length; //获取已经点击的坐标数
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//下面的是移动点位后的坐标
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3 == t ? this.tempPoint4 = xp.algorithm.getTempPoint4(o, e, r) : this.tempPoint4 = this.points[3],
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3 == t || 4 == t ? this.connPoint = P.PlotUtils.mid(o, e) : this.connPoint = this.points[4];
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var n, g;
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P.PlotUtils.isClockWise(o, e, r) ? (n = xp.algorithm.getArrowPoints(o, this.connPoint, this.tempPoint4, !1), g = xp.algorithm.getArrowPoints(this.connPoint, e, r, !0)) : (n = xp.algorithm.getArrowPoints(e, this.connPoint, r, !1), g = xp.algorithm.getArrowPoints(this.connPoint, o, this.tempPoint4, !0));
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var i = n.length,
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s = (i - 5) / 2,
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a = n.slice(0, s),
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l = n.slice(s, s + 5),
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u = n.slice(s + 5, i),
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c = g.slice(0, s),
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p = g.slice(s, s + 5),
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h = g.slice(s + 5, i);
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c = P.PlotUtils.getBezierPoints(c);
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var d = P.PlotUtils.getBezierPoints(h.concat(a.slice(1)));
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u = P.PlotUtils.getBezierPoints(u);
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var f = c.concat(p, d, l, u);
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var newArray = xp.algorithm.array2Dto1D(f);
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result.controlPoint = [o, e, r, this.tempPoint4, this.connPoint];
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result.polygonalPoint = Cesium.Cartesian3.fromDegreesArray(newArray);
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}
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return result;
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},
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xp.algorithm.threeArrow = function (inputPoint) {
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this.connPoint = null;
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this.tempPoint4 = null;
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this.tempPoint5 = null;
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this.points = inputPoint;
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var result = {
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controlPoint: null,
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polygonalPoint: null
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};
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//获取已经点击的坐标数
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var t = inputPoint.length;
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if (t >= 2) {
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if (t == 2) {
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return inputPoint;
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}
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var o = this.points[0], //第一个点
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e = this.points[1], //第二个点
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r = this.points[2], //第三个点
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t = inputPoint.length; //获取已经点击的坐标数
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//下面的是移动点位后的坐标
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if (t == 3) {
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this.tempPoint4 = xp.algorithm.getTempPoint4(o, e, r);
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this.tempPoint5 = P.PlotUtils.mid(r, this.tempPoint4);
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} else {
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this.tempPoint4 = this.points[3];
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this.tempPoint5 = this.points[4];
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}
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if (t < 6) {
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this.connPoint = P.PlotUtils.mid(o, e);
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} else {
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this.connPoint = this.points[5];
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}
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var n, g;
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if (P.PlotUtils.isClockWise(o, e, r)) {
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n = xp.algorithm.getArrowPoints(o, this.connPoint, this.tempPoint4, !1);
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g = xp.algorithm.getArrowPoints(this.connPoint, e, r, !0);
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} else {
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n = xp.algorithm.getArrowPoints(e, this.connPoint, r, !1);
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g = xp.algorithm.getArrowPoints(this.connPoint, o, this.tempPoint4, !0);
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}
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var i = n.length,
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s = (i - 5) / 2,
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a = n.slice(0, s),
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l = n.slice(s, s + 5),
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u = n.slice(s + 5, i),
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c = g.slice(0, s),
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p = g.slice(s, s + 5),
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h = g.slice(s + 5, i);
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c = P.PlotUtils.getBezierPoints(c);
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var d = P.PlotUtils.getBezierPoints(h.concat(a.slice(1)));
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u = P.PlotUtils.getBezierPoints(u);
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var f = c.concat(p, d, l, u);
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var newArray = xp.algorithm.array2Dto1D(f);
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result.controlPoint = [o, e, r, this.tempPoint4, this.tempPoint5, this.connPoint];
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result.polygonalPoint = Cesium.Cartesian3.fromDegreesArray(newArray);
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}
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return result;
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},
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xp.algorithm.array2Dto1D = function (array) {
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var newArray = [];
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array.forEach(function (elt) {
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newArray.push(elt[0]);
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newArray.push(elt[1]);
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});
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return newArray;
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},
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xp.algorithm.getArrowPoints = function (t, o, e, r) {
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this.type = doubleArrowDefualParam.type,
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this.headHeightFactor = doubleArrowDefualParam.headHeightFactor,
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this.headWidthFactor = doubleArrowDefualParam.headWidthFactor,
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this.neckHeightFactor = doubleArrowDefualParam.neckHeightFactor,
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this.neckWidthFactor = doubleArrowDefualParam.neckWidthFactor;
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var n = P.PlotUtils.mid(t, o),
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g = P.PlotUtils.distance(n, e),
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i = P.PlotUtils.getThirdPoint(e, n, 0, .3 * g, !0),
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s = P.PlotUtils.getThirdPoint(e, n, 0, .5 * g, !0);
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i = P.PlotUtils.getThirdPoint(n, i, P.Constants.HALF_PI, g / 5, r),
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s = P.PlotUtils.getThirdPoint(n, s, P.Constants.HALF_PI, g / 4, r);
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var a = [n, i, s, e],
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l = xp.algorithm.getArrowHeadPoints(a, this.headHeightFactor, this.headWidthFactor, this.neckHeightFactor, this.neckWidthFactor),
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u = l[0],
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c = l[4],
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p = P.PlotUtils.distance(t, o) / P.PlotUtils.getBaseLength(a) / 2,
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h = xp.algorithm.getArrowBodyPoints(a, u, c, p),
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d = h.length,
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f = h.slice(0, d / 2),
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E = h.slice(d / 2, d);
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return f.push(u),
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E.push(c),
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f = f.reverse(),
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f.push(o),
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E = E.reverse(),
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E.push(t),
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f.reverse().concat(l, E)
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},
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xp.algorithm.getArrowHeadPoints = function (t, o, e) {
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this.type = doubleArrowDefualParam.type,
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this.headHeightFactor = doubleArrowDefualParam.headHeightFactor,
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this.headWidthFactor = doubleArrowDefualParam.headWidthFactor,
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this.neckHeightFactor = doubleArrowDefualParam.neckHeightFactor,
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this.neckWidthFactor = doubleArrowDefualParam.neckWidthFactor;
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var r = P.PlotUtils.getBaseLength(t),
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n = r * this.headHeightFactor,
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g = t[t.length - 1],
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i = (P.PlotUtils.distance(o, e), n * this.headWidthFactor),
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s = n * this.neckWidthFactor,
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a = n * this.neckHeightFactor,
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l = P.PlotUtils.getThirdPoint(t[t.length - 2], g, 0, n, !0),
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u = P.PlotUtils.getThirdPoint(t[t.length - 2], g, 0, a, !0),
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c = P.PlotUtils.getThirdPoint(g, l, P.Constants.HALF_PI, i, !1),
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p = P.PlotUtils.getThirdPoint(g, l, P.Constants.HALF_PI, i, !0),
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h = P.PlotUtils.getThirdPoint(g, u, P.Constants.HALF_PI, s, !1),
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d = P.PlotUtils.getThirdPoint(g, u, P.Constants.HALF_PI, s, !0);
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return [h, c, g, p, d];
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},
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xp.algorithm.getArrowBodyPoints = function (t, o, e, r) {
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for (var n = P.PlotUtils.wholeDistance(t), g = P.PlotUtils.getBaseLength(t), i = g * r, s = P.PlotUtils.distance(o, e), a = (i - s) / 2, l = 0, u = [], c = [], p = 1; p < t.length - 1; p++) {
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var h = P.PlotUtils.getAngleOfThreePoints(t[p - 1], t[p], t[p + 1]) / 2;
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l += P.PlotUtils.distance(t[p - 1], t[p]);
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var d = (i / 2 - l / n * a) / Math.sin(h),
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f = P.PlotUtils.getThirdPoint(t[p - 1], t[p], Math.PI - h, d, !0),
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E = P.PlotUtils.getThirdPoint(t[p - 1], t[p], h, d, !1);
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u.push(f),
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c.push(E)
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}
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return u.concat(c)
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},
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xp.algorithm.getTempPoint4 = function (t, o, e) {
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var r, n, g, i, s = P.PlotUtils.mid(t, o),
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a = P.PlotUtils.distance(s, e),
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l = P.PlotUtils.getAngleOfThreePoints(t, s, e);
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return l < P.Constants.HALF_PI ? (n = a * Math.sin(l), g = a * Math.cos(l), i = P.PlotUtils.getThirdPoint(t, s, P.Constants.HALF_PI, n, !1), r = P.PlotUtils.getThirdPoint(s, i, P.Constants.HALF_PI, g, !0)) : l >= P.Constants.HALF_PI && l < Math.PI ? (n = a * Math.sin(Math.PI - l), g = a * Math.cos(Math.PI - l), i = P.PlotUtils.getThirdPoint(t, s, P.Constants.HALF_PI, n, !1), r = P.PlotUtils.getThirdPoint(s, i, P.Constants.HALF_PI, g, !1)) : l >= Math.PI && l < 1.5 * Math.PI ? (n = a * Math.sin(l - Math.PI), g = a * Math.cos(l - Math.PI), i = P.PlotUtils.getThirdPoint(t, s, P.Constants.HALF_PI, n, !0), r = P.PlotUtils.getThirdPoint(s, i, P.Constants.HALF_PI, g, !0)) : (n = a * Math.sin(2 * Math.PI - l), g = a * Math.cos(2 * Math.PI - l), i = P.PlotUtils.getThirdPoint(t, s, P.Constants.HALF_PI, n, !0), r = P.PlotUtils.getThirdPoint(s, i, P.Constants.HALF_PI, g, !1)),
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r
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},
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xp.algorithm.tailedAttackArrow = function (inputPoint) {
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inputPoint = xp.algorithm.dereplication(inputPoint);
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this.tailWidthFactor = tailedAttackArrowDefualParam.tailWidthFactor;
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this.swallowTailFactor = tailedAttackArrowDefualParam.swallowTailFactor;
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this.swallowTailPnt = tailedAttackArrowDefualParam.swallowTailPnt;
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//控制点
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var result = {
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controlPoint: null,
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polygonalPoint: null
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};
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result.controlPoint = inputPoint;
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var t = inputPoint.length;
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if (!(2 > t)) {
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if (2 == inputPoint.length) {
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result.polygonalPoint = inputPoint;
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return result;
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}
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var o = inputPoint,
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e = o[0],
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r = o[1];
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P.PlotUtils.isClockWise(o[0], o[1], o[2]) && (e = o[1], r = o[0]);
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var n = P.PlotUtils.mid(e, r),
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g = [n].concat(o.slice(2)),
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i = xp.algorithm.getAttackArrowHeadPoints(g, e, r, tailedAttackArrowDefualParam),
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s = i[0],
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a = i[4],
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l = P.PlotUtils.distance(e, r),
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u = P.PlotUtils.getBaseLength(g),
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c = u * this.tailWidthFactor * this.swallowTailFactor;
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this.swallowTailPnt = P.PlotUtils.getThirdPoint(g[1], g[0], 0, c, !0);
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var p = l / u,
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h = xp.algorithm.getAttackArrowBodyPoints(g, s, a, p),
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t = h.length,
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d = [e].concat(h.slice(0, t / 2));
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d.push(s);
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var f = [r].concat(h.slice(t / 2, t));
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var newArray = [];
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f.push(a),
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d = P.PlotUtils.getQBSplinePoints(d),
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f = P.PlotUtils.getQBSplinePoints(f),
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newArray = xp.algorithm.array2Dto1D(d.concat(i, f.reverse(), [this.swallowTailPnt, d[0]]));
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result.polygonalPoint = Cesium.Cartesian3.fromDegreesArray(newArray);
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}
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return result;
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},
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xp.algorithm.getAttackArrowHeadPoints = function (t, o, e, defaultParam) {
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this.headHeightFactor = defaultParam.headHeightFactor;
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this.headTailFactor = defaultParam.headTailFactor;
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this.headWidthFactor = defaultParam.headWidthFactor;
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this.neckWidthFactor = defaultParam.neckWidthFactor;
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this.neckHeightFactor = defaultParam.neckHeightFactor;
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var r = P.PlotUtils.getBaseLength(t),
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n = r * this.headHeightFactor,
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g = t[t.length - 1];
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r = P.PlotUtils.distance(g, t[t.length - 2]);
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var i = P.PlotUtils.distance(o, e);
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n > i * this.headTailFactor && (n = i * this.headTailFactor);
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var s = n * this.headWidthFactor,
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a = n * this.neckWidthFactor;
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n = n > r ? r : n;
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var l = n * this.neckHeightFactor,
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u = P.PlotUtils.getThirdPoint(t[t.length - 2], g, 0, n, !0),
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c = P.PlotUtils.getThirdPoint(t[t.length - 2], g, 0, l, !0),
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p = P.PlotUtils.getThirdPoint(g, u, P.Constants.HALF_PI, s, !1),
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h = P.PlotUtils.getThirdPoint(g, u, P.Constants.HALF_PI, s, !0),
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d = P.PlotUtils.getThirdPoint(g, c, P.Constants.HALF_PI, a, !1),
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f = P.PlotUtils.getThirdPoint(g, c, P.Constants.HALF_PI, a, !0);
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return [d, p, g, h, f]
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},
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xp.algorithm.getAttackArrowBodyPoints = function (t, o, e, r) {
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for (var n = P.PlotUtils.wholeDistance(t), g = P.PlotUtils.getBaseLength(t), i = g * r, s = P.PlotUtils.distance(o, e), a = (i - s) / 2, l = 0, u = [], c = [], p = 1; p < t.length - 1; p++) {
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var h = P.PlotUtils.getAngleOfThreePoints(t[p - 1], t[p], t[p + 1]) / 2;
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l += P.PlotUtils.distance(t[p - 1], t[p]);
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var d = (i / 2 - l / n * a) / Math.sin(h),
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f = P.PlotUtils.getThirdPoint(t[p - 1], t[p], Math.PI - h, d, !0),
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E = P.PlotUtils.getThirdPoint(t[p - 1], t[p], h, d, !1);
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u.push(f),
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c.push(E)
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}
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return u.concat(c)
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},
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xp.algorithm.dereplication = function (array) {
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var last = array[array.length - 1];
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var change = false;
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var newArray = [];
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newArray = array.filter(function (i) {
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if (i[0] != last[0] && i[1] != last[1]) {
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return i;
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}
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change = true;
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});
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if (change) newArray.push(last);
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return newArray;
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},
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xp.algorithm.fineArrow = function (tailPoint, headerPoint) {
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if ((tailPoint.length < 2) || (headerPoint.length < 2)) return;
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//画箭头的函数
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let tailWidthFactor = fineArrowDefualParam.tailWidthFactor;
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let neckWidthFactor = fineArrowDefualParam.neckWidthFactor;
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let headWidthFactor = fineArrowDefualParam.headWidthFactor;
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let headAngle = fineArrowDefualParam.headAngle;
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let neckAngle = fineArrowDefualParam.neckAngle;
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var o = [];
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o[0] = tailPoint;
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o[1] = headerPoint;
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e = o[0],
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r = o[1],
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n = P.PlotUtils.getBaseLength(o),
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g = n * tailWidthFactor,
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//尾部宽度因子
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i = n * neckWidthFactor,
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//脖子宽度银子
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s = n * headWidthFactor,
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//头部宽度因子
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a = P.PlotUtils.getThirdPoint(r, e, P.Constants.HALF_PI, g, !0),
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l = P.PlotUtils.getThirdPoint(r, e, P.Constants.HALF_PI, g, !1),
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u = P.PlotUtils.getThirdPoint(e, r, headAngle, s, !1),
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c = P.PlotUtils.getThirdPoint(e, r, headAngle, s, !0),
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p = P.PlotUtils.getThirdPoint(e, r, neckAngle, i, !1),
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h = P.PlotUtils.getThirdPoint(e, r, neckAngle, i, !0),
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d = [];
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d.push(a[0], a[1], p[0], p[1], u[0], u[1], r[0], r[1], c[0], c[1], h[0], h[1], l[0], l[1], e[0], e[1]);
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return Cesium.Cartesian3.fromDegreesArray(d);
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}
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