node-red-contrib-tak-registration
Version:
A Node-RED node to register to TAK and to help wrap files as datapackages to send to TAK
143 lines • 4.25 kB
JavaScript
// index.ts
import { booleanPointInPolygon } from "@turf/boolean-point-in-polygon";
import { lineIntersect } from "@turf/line-intersect";
import { flattenEach } from "@turf/meta";
import { polygonToLine } from "@turf/polygon-to-line";
function booleanDisjoint(feature1, feature2, {
ignoreSelfIntersections = true
} = { ignoreSelfIntersections: true }) {
let bool = true;
flattenEach(feature1, (flatten1) => {
flattenEach(feature2, (flatten2) => {
if (bool === false) {
return false;
}
bool = disjoint(
flatten1.geometry,
flatten2.geometry,
ignoreSelfIntersections
);
});
});
return bool;
}
function disjoint(geom1, geom2, ignoreSelfIntersections) {
switch (geom1.type) {
case "Point":
switch (geom2.type) {
case "Point":
return !compareCoords(geom1.coordinates, geom2.coordinates);
case "LineString":
return !isPointOnLine(geom2, geom1);
case "Polygon":
return !booleanPointInPolygon(geom1, geom2);
}
break;
case "LineString":
switch (geom2.type) {
case "Point":
return !isPointOnLine(geom1, geom2);
case "LineString":
return !isLineOnLine(geom1, geom2, ignoreSelfIntersections);
case "Polygon":
return !isLineInPoly(geom2, geom1, ignoreSelfIntersections);
}
break;
case "Polygon":
switch (geom2.type) {
case "Point":
return !booleanPointInPolygon(geom2, geom1);
case "LineString":
return !isLineInPoly(geom1, geom2, ignoreSelfIntersections);
case "Polygon":
return !isPolyInPoly(geom2, geom1, ignoreSelfIntersections);
}
}
return false;
}
function isPointOnLine(lineString, pt) {
for (let i = 0; i < lineString.coordinates.length - 1; i++) {
if (isPointOnLineSegment(
lineString.coordinates[i],
lineString.coordinates[i + 1],
pt.coordinates
)) {
return true;
}
}
return false;
}
function isLineOnLine(lineString1, lineString2, ignoreSelfIntersections) {
const doLinesIntersect = lineIntersect(lineString1, lineString2, {
ignoreSelfIntersections
});
if (doLinesIntersect.features.length > 0) {
return true;
}
return false;
}
function isLineInPoly(polygon, lineString, ignoreSelfIntersections) {
for (const coord of lineString.coordinates) {
if (booleanPointInPolygon(coord, polygon)) {
return true;
}
}
const doLinesIntersect = lineIntersect(lineString, polygonToLine(polygon), {
ignoreSelfIntersections
});
if (doLinesIntersect.features.length > 0) {
return true;
}
return false;
}
function isPolyInPoly(feature1, feature2, ignoreSelfIntersections) {
for (const coord1 of feature1.coordinates[0]) {
if (booleanPointInPolygon(coord1, feature2)) {
return true;
}
}
for (const coord2 of feature2.coordinates[0]) {
if (booleanPointInPolygon(coord2, feature1)) {
return true;
}
}
const doLinesIntersect = lineIntersect(
polygonToLine(feature1),
polygonToLine(feature2),
{ ignoreSelfIntersections }
);
if (doLinesIntersect.features.length > 0) {
return true;
}
return false;
}
function isPointOnLineSegment(lineSegmentStart, lineSegmentEnd, pt) {
const dxc = pt[0] - lineSegmentStart[0];
const dyc = pt[1] - lineSegmentStart[1];
const dxl = lineSegmentEnd[0] - lineSegmentStart[0];
const dyl = lineSegmentEnd[1] - lineSegmentStart[1];
const cross = dxc * dyl - dyc * dxl;
if (cross !== 0) {
return false;
}
if (Math.abs(dxl) >= Math.abs(dyl)) {
if (dxl > 0) {
return lineSegmentStart[0] <= pt[0] && pt[0] <= lineSegmentEnd[0];
} else {
return lineSegmentEnd[0] <= pt[0] && pt[0] <= lineSegmentStart[0];
}
} else if (dyl > 0) {
return lineSegmentStart[1] <= pt[1] && pt[1] <= lineSegmentEnd[1];
} else {
return lineSegmentEnd[1] <= pt[1] && pt[1] <= lineSegmentStart[1];
}
}
function compareCoords(pair1, pair2) {
return pair1[0] === pair2[0] && pair1[1] === pair2[1];
}
var turf_boolean_disjoint_default = booleanDisjoint;
export {
booleanDisjoint,
turf_boolean_disjoint_default as default
};
//# sourceMappingURL=index.js.map