| 1 | "use strict";
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| 2 |
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| 3 | Object.defineProperty(exports, "__esModule", {
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| 4 | value: true
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| 5 | });
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| 6 | exports.defaultSectorProps = exports.Sector = void 0;
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| 7 | var React = _interopRequireWildcard(require("react"));
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| 8 | var _clsx = require("clsx");
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| 9 | var _PolarUtils = require("../util/PolarUtils");
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| 10 | var _DataUtils = require("../util/DataUtils");
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| 11 | var _resolveDefaultProps = require("../util/resolveDefaultProps");
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| 12 | var _svgPropertiesAndEvents = require("../util/svgPropertiesAndEvents");
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| 13 | var _round = require("../util/round");
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| 14 | var _templateObject, _templateObject2, _templateObject3, _templateObject4, _templateObject5, _templateObject6, _templateObject7;
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| 15 | function _interopRequireWildcard(e, t) { if ("function" == typeof WeakMap) var r = new WeakMap(), n = new WeakMap(); return (_interopRequireWildcard = function _interopRequireWildcard(e, t) { if (!t && e && e.__esModule) return e; var o, i, f = { __proto__: null, default: e }; if (null === e || "object" != typeof e && "function" != typeof e) return f; if (o = t ? n : r) { if (o.has(e)) return o.get(e); o.set(e, f); } for (var _t in e) "default" !== _t && {}.hasOwnProperty.call(e, _t) && ((i = (o = Object.defineProperty) && Object.getOwnPropertyDescriptor(e, _t)) && (i.get || i.set) ? o(f, _t, i) : f[_t] = e[_t]); return f; })(e, t); }
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| 16 | function _extends() { return _extends = Object.assign ? Object.assign.bind() : function (n) { for (var e = 1; e < arguments.length; e++) { var t = arguments[e]; for (var r in t) ({}).hasOwnProperty.call(t, r) && (n[r] = t[r]); } return n; }, _extends.apply(null, arguments); }
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| 17 | function _taggedTemplateLiteral(e, t) { return t || (t = e.slice(0)), Object.freeze(Object.defineProperties(e, { raw: { value: Object.freeze(t) } })); }
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| 18 | var getDeltaAngle = (startAngle, endAngle) => {
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| 19 | var sign = (0, _DataUtils.mathSign)(endAngle - startAngle);
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| 20 | var deltaAngle = Math.min(Math.abs(endAngle - startAngle), 359.999);
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| 21 | return sign * deltaAngle;
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| 22 | };
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| 23 | var getTangentCircle = _ref => {
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| 24 | var {
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| 25 | cx,
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| 26 | cy,
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| 27 | radius,
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| 28 | angle,
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| 29 | sign,
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| 30 | isExternal,
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| 31 | cornerRadius,
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| 32 | cornerIsExternal
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| 33 | } = _ref;
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| 34 | var centerRadius = cornerRadius * (isExternal ? 1 : -1) + radius;
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| 35 | var theta = Math.asin(cornerRadius / centerRadius) / _PolarUtils.RADIAN;
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| 36 | var centerAngle = cornerIsExternal ? angle : angle + sign * theta;
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| 37 | var center = (0, _PolarUtils.polarToCartesian)(cx, cy, centerRadius, centerAngle);
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| 38 | // The coordinate of point which is tangent to the circle
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| 39 | var circleTangency = (0, _PolarUtils.polarToCartesian)(cx, cy, radius, centerAngle);
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| 40 | // The coordinate of point which is tangent to the radius line
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| 41 | var lineTangencyAngle = cornerIsExternal ? angle - sign * theta : angle;
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| 42 | var lineTangency = (0, _PolarUtils.polarToCartesian)(cx, cy, centerRadius * Math.cos(theta * _PolarUtils.RADIAN), lineTangencyAngle);
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| 43 | return {
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| 44 | center,
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| 45 | circleTangency,
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| 46 | lineTangency,
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| 47 | theta
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| 48 | };
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| 49 | };
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| 50 | var getSectorPath = _ref2 => {
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| 51 | var {
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| 52 | cx,
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| 53 | cy,
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| 54 | innerRadius,
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| 55 | outerRadius,
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| 56 | startAngle,
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| 57 | endAngle
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| 58 | } = _ref2;
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| 59 | var angle = getDeltaAngle(startAngle, endAngle);
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| 60 |
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| 61 | // When the angle of sector equals to 360, star point and end point coincide
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| 62 | var tempEndAngle = startAngle + angle;
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| 63 | var outerStartPoint = (0, _PolarUtils.polarToCartesian)(cx, cy, outerRadius, startAngle);
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| 64 | var outerEndPoint = (0, _PolarUtils.polarToCartesian)(cx, cy, outerRadius, tempEndAngle);
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| 65 | var path = (0, _round.roundTemplateLiteral)(_templateObject || (_templateObject = _taggedTemplateLiteral(["M ", ",", "\n A ", ",", ",0,\n ", ",", ",\n ", ",", "\n "])), outerStartPoint.x, outerStartPoint.y, outerRadius, outerRadius, +(Math.abs(angle) > 180), +(startAngle > tempEndAngle), outerEndPoint.x, outerEndPoint.y);
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| 66 | if (innerRadius > 0) {
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| 67 | var innerStartPoint = (0, _PolarUtils.polarToCartesian)(cx, cy, innerRadius, startAngle);
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| 68 | var innerEndPoint = (0, _PolarUtils.polarToCartesian)(cx, cy, innerRadius, tempEndAngle);
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| 69 | path += (0, _round.roundTemplateLiteral)(_templateObject2 || (_templateObject2 = _taggedTemplateLiteral(["L ", ",", "\n A ", ",", ",0,\n ", ",", ",\n ", ",", " Z"])), innerEndPoint.x, innerEndPoint.y, innerRadius, innerRadius, +(Math.abs(angle) > 180), +(startAngle <= tempEndAngle), innerStartPoint.x, innerStartPoint.y);
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| 70 | } else {
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| 71 | path += (0, _round.roundTemplateLiteral)(_templateObject3 || (_templateObject3 = _taggedTemplateLiteral(["L ", ",", " Z"])), cx, cy);
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| 72 | }
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| 73 | return path;
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| 74 | };
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| 75 | var getSectorWithCorner = _ref3 => {
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| 76 | var {
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| 77 | cx,
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| 78 | cy,
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| 79 | innerRadius,
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| 80 | outerRadius,
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| 81 | cornerRadius,
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| 82 | forceCornerRadius,
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| 83 | cornerIsExternal,
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| 84 | startAngle,
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| 85 | endAngle
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| 86 | } = _ref3;
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| 87 | var sign = (0, _DataUtils.mathSign)(endAngle - startAngle);
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| 88 | var {
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| 89 | circleTangency: soct,
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| 90 | lineTangency: solt,
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| 91 | theta: sot
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| 92 | } = getTangentCircle({
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| 93 | cx,
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| 94 | cy,
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| 95 | radius: outerRadius,
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| 96 | angle: startAngle,
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| 97 | sign,
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| 98 | cornerRadius,
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| 99 | cornerIsExternal
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| 100 | });
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| 101 | var {
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| 102 | circleTangency: eoct,
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| 103 | lineTangency: eolt,
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| 104 | theta: eot
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| 105 | } = getTangentCircle({
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| 106 | cx,
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| 107 | cy,
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| 108 | radius: outerRadius,
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| 109 | angle: endAngle,
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| 110 | sign: -sign,
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| 111 | cornerRadius,
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| 112 | cornerIsExternal
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| 113 | });
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| 114 | var outerArcAngle = cornerIsExternal ? Math.abs(startAngle - endAngle) : Math.abs(startAngle - endAngle) - sot - eot;
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| 115 | if (outerArcAngle < 0) {
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| 116 | if (forceCornerRadius) {
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| 117 | return (0, _round.roundTemplateLiteral)(_templateObject4 || (_templateObject4 = _taggedTemplateLiteral(["M ", ",", "\n a", ",", ",0,0,1,", ",0\n a", ",", ",0,0,1,", ",0\n "])), solt.x, solt.y, cornerRadius, cornerRadius, cornerRadius * 2, cornerRadius, cornerRadius, -cornerRadius * 2);
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| 118 | }
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| 119 | return getSectorPath({
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| 120 | cx,
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| 121 | cy,
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| 122 | innerRadius,
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| 123 | outerRadius,
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| 124 | startAngle,
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| 125 | endAngle
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| 126 | });
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| 127 | }
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| 128 | var path = (0, _round.roundTemplateLiteral)(_templateObject5 || (_templateObject5 = _taggedTemplateLiteral(["M ", ",", "\n A", ",", ",0,0,", ",", ",", "\n A", ",", ",0,", ",", ",", ",", "\n A", ",", ",0,0,", ",", ",", "\n "])), solt.x, solt.y, cornerRadius, cornerRadius, +(sign < 0), soct.x, soct.y, outerRadius, outerRadius, +(outerArcAngle > 180), +(sign < 0), eoct.x, eoct.y, cornerRadius, cornerRadius, +(sign < 0), eolt.x, eolt.y);
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| 129 | if (innerRadius > 0) {
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| 130 | var {
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| 131 | circleTangency: sict,
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| 132 | lineTangency: silt,
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| 133 | theta: sit
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| 134 | } = getTangentCircle({
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| 135 | cx,
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| 136 | cy,
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| 137 | radius: innerRadius,
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| 138 | angle: startAngle,
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| 139 | sign,
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| 140 | isExternal: true,
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| 141 | cornerRadius,
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| 142 | cornerIsExternal
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| 143 | });
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| 144 | var {
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| 145 | circleTangency: eict,
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| 146 | lineTangency: eilt,
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| 147 | theta: eit
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| 148 | } = getTangentCircle({
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| 149 | cx,
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| 150 | cy,
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| 151 | radius: innerRadius,
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| 152 | angle: endAngle,
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| 153 | sign: -sign,
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| 154 | isExternal: true,
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| 155 | cornerRadius,
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| 156 | cornerIsExternal
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| 157 | });
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| 158 | var innerArcAngle = cornerIsExternal ? Math.abs(startAngle - endAngle) : Math.abs(startAngle - endAngle) - sit - eit;
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| 159 | if (innerArcAngle < 0 && cornerRadius === 0) {
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| 160 | return "".concat(path, "L").concat(cx, ",").concat(cy, "Z");
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| 161 | }
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| 162 | path += (0, _round.roundTemplateLiteral)(_templateObject6 || (_templateObject6 = _taggedTemplateLiteral(["L", ",", "\n A", ",", ",0,0,", ",", ",", "\n A", ",", ",0,", ",", ",", ",", "\n A", ",", ",0,0,", ",", ",", "Z"])), eilt.x, eilt.y, cornerRadius, cornerRadius, +(sign < 0), eict.x, eict.y, innerRadius, innerRadius, +(innerArcAngle > 180), +(sign > 0), sict.x, sict.y, cornerRadius, cornerRadius, +(sign < 0), silt.x, silt.y);
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| 163 | } else {
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| 164 | path += (0, _round.roundTemplateLiteral)(_templateObject7 || (_templateObject7 = _taggedTemplateLiteral(["L", ",", "Z"])), cx, cy);
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| 165 | }
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| 166 | return path;
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| 167 | };
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| 168 |
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| 169 | /**
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| 170 | * SVG cx, cy are `string | number | undefined`, but internally we use `number` so let's
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| 171 | * override the types here.
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| 172 | */
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| 173 |
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| 174 | var defaultSectorProps = exports.defaultSectorProps = {
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| 175 | cx: 0,
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| 176 | cy: 0,
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| 177 | innerRadius: 0,
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| 178 | outerRadius: 0,
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| 179 | startAngle: 0,
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| 180 | endAngle: 0,
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| 181 | cornerRadius: 0,
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| 182 | forceCornerRadius: false,
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| 183 | cornerIsExternal: false
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| 184 | };
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| 185 | var Sector = sectorProps => {
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| 186 | var props = (0, _resolveDefaultProps.resolveDefaultProps)(sectorProps, defaultSectorProps);
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| 187 | var {
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| 188 | cx,
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| 189 | cy,
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| 190 | innerRadius,
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| 191 | outerRadius,
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| 192 | cornerRadius,
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| 193 | forceCornerRadius,
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| 194 | cornerIsExternal,
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| 195 | startAngle,
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| 196 | endAngle,
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| 197 | className
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| 198 | } = props;
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| 199 | if (outerRadius < innerRadius || startAngle === endAngle) {
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| 200 | return null;
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| 201 | }
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| 202 | var layerClass = (0, _clsx.clsx)('recharts-sector', className);
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| 203 | var deltaRadius = outerRadius - innerRadius;
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| 204 | var cr = (0, _DataUtils.getPercentValue)(cornerRadius, deltaRadius, 0, true);
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| 205 | var path;
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| 206 | if (cr > 0 && Math.abs(startAngle - endAngle) < 360) {
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| 207 | path = getSectorWithCorner({
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| 208 | cx,
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| 209 | cy,
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| 210 | innerRadius,
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| 211 | outerRadius,
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| 212 | cornerRadius: Math.min(cr, deltaRadius / 2),
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| 213 | forceCornerRadius,
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| 214 | cornerIsExternal,
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| 215 | startAngle,
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| 216 | endAngle
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| 217 | });
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| 218 | } else {
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| 219 | path = getSectorPath({
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| 220 | cx,
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| 221 | cy,
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| 222 | innerRadius,
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| 223 | outerRadius,
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| 224 | startAngle,
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| 225 | endAngle
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| 226 | });
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| 227 | }
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| 228 | return /*#__PURE__*/React.createElement("path", _extends({}, (0, _svgPropertiesAndEvents.svgPropertiesAndEvents)(props), {
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| 229 | className: layerClass,
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| 230 | d: path
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| 231 | }));
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| 232 | };
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| 233 | exports.Sector = Sector; |
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