node-red-contrib-tak-registration/node_modules/@turf/boolean-crosses/dist/esm/index.js

A Node-RED node to register to TAK and to help wrap files as datapackages to send to TAK

// index.ts
import { lineIntersect } from "@turf/line-intersect";
import { polygonToLine } from "@turf/polygon-to-line";
import { booleanPointInPolygon } from "@turf/boolean-point-in-polygon";
import { getGeom } from "@turf/invariant";
import { point } from "@turf/helpers";
function booleanCrosses(feature1, feature2) {
  var geom1 = getGeom(feature1);
  var geom2 = getGeom(feature2);
  var type1 = geom1.type;
  var type2 = geom2.type;
  switch (type1) {
    case "MultiPoint":
      switch (type2) {
        case "LineString":
          return doMultiPointAndLineStringCross(geom1, geom2);
        case "Polygon":
          return doesMultiPointCrossPoly(geom1, geom2);
        default:
          throw new Error("feature2 " + type2 + " geometry not supported");
      }
    case "LineString":
      switch (type2) {
        case "MultiPoint":
          return doMultiPointAndLineStringCross(geom2, geom1);
        case "LineString":
          return doLineStringsCross(geom1, geom2);
        case "Polygon":
          return doLineStringAndPolygonCross(geom1, geom2);
        default:
          throw new Error("feature2 " + type2 + " geometry not supported");
      }
    case "Polygon":
      switch (type2) {
        case "MultiPoint":
          return doesMultiPointCrossPoly(geom2, geom1);
        case "LineString":
          return doLineStringAndPolygonCross(geom2, geom1);
        default:
          throw new Error("feature2 " + type2 + " geometry not supported");
      }
    default:
      throw new Error("feature1 " + type1 + " geometry not supported");
  }
}
function doMultiPointAndLineStringCross(multiPoint, lineString) {
  var foundIntPoint = false;
  var foundExtPoint = false;
  var pointLength = multiPoint.coordinates.length;
  var i = 0;
  while (i < pointLength && !foundIntPoint && !foundExtPoint) {
    for (var i2 = 0; i2 < lineString.coordinates.length - 1; i2++) {
      var incEndVertices = true;
      if (i2 === 0 || i2 === lineString.coordinates.length - 2) {
        incEndVertices = false;
      }
      if (isPointOnLineSegment(
        lineString.coordinates[i2],
        lineString.coordinates[i2 + 1],
        multiPoint.coordinates[i],
        incEndVertices
      )) {
        foundIntPoint = true;
      } else {
        foundExtPoint = true;
      }
    }
    i++;
  }
  return foundIntPoint && foundExtPoint;
}
function doLineStringsCross(lineString1, lineString2) {
  var doLinesIntersect = lineIntersect(lineString1, lineString2);
  if (doLinesIntersect.features.length > 0) {
    for (var i = 0; i < lineString1.coordinates.length - 1; i++) {
      for (var i2 = 0; i2 < lineString2.coordinates.length - 1; i2++) {
        var incEndVertices = true;
        if (i2 === 0 || i2 === lineString2.coordinates.length - 2) {
          incEndVertices = false;
        }
        if (isPointOnLineSegment(
          lineString1.coordinates[i],
          lineString1.coordinates[i + 1],
          lineString2.coordinates[i2],
          incEndVertices
        )) {
          return true;
        }
      }
    }
  }
  return false;
}
function doLineStringAndPolygonCross(lineString, polygon) {
  const line = polygonToLine(polygon);
  const doLinesIntersect = lineIntersect(lineString, line);
  if (doLinesIntersect.features.length > 0) {
    return true;
  }
  return false;
}
function doesMultiPointCrossPoly(multiPoint, polygon) {
  var foundIntPoint = false;
  var foundExtPoint = false;
  var pointLength = multiPoint.coordinates.length;
  for (let i = 0; i < pointLength && (!foundIntPoint || !foundExtPoint); i++) {
    if (booleanPointInPolygon(point(multiPoint.coordinates[i]), polygon)) {
      foundIntPoint = true;
    } else {
      foundExtPoint = true;
    }
  }
  return foundExtPoint && foundIntPoint;
}
function isPointOnLineSegment(lineSegmentStart, lineSegmentEnd, pt, incEnd) {
  var dxc = pt[0] - lineSegmentStart[0];
  var dyc = pt[1] - lineSegmentStart[1];
  var dxl = lineSegmentEnd[0] - lineSegmentStart[0];
  var dyl = lineSegmentEnd[1] - lineSegmentStart[1];
  var cross = dxc * dyl - dyc * dxl;
  if (cross !== 0) {
    return false;
  }
  if (incEnd) {
    if (Math.abs(dxl) >= Math.abs(dyl)) {
      return dxl > 0 ? lineSegmentStart[0] <= pt[0] && pt[0] <= lineSegmentEnd[0] : lineSegmentEnd[0] <= pt[0] && pt[0] <= lineSegmentStart[0];
    }
    return dyl > 0 ? lineSegmentStart[1] <= pt[1] && pt[1] <= lineSegmentEnd[1] : lineSegmentEnd[1] <= pt[1] && pt[1] <= lineSegmentStart[1];
  } else {
    if (Math.abs(dxl) >= Math.abs(dyl)) {
      return dxl > 0 ? lineSegmentStart[0] < pt[0] && pt[0] < lineSegmentEnd[0] : lineSegmentEnd[0] < pt[0] && pt[0] < lineSegmentStart[0];
    }
    return dyl > 0 ? lineSegmentStart[1] < pt[1] && pt[1] < lineSegmentEnd[1] : lineSegmentEnd[1] < pt[1] && pt[1] < lineSegmentStart[1];
  }
}
var turf_boolean_crosses_default = booleanCrosses;
export {
  booleanCrosses,
  turf_boolean_crosses_default as default
};
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