class TinyQueue { constructor(data = [], compare = defaultCompare) { this.data = data; this.length = this.data.length; this.compare = compare; if (this.length > 0) { for (let i = (this.length >> 1) - 1; i >= 0; i--) this._down(i); } } push(item) { this.data.push(item); this.length++; this._up(this.length - 1); } pop() { if (this.length === 0) return undefined; const top = this.data[0]; const bottom = this.data.pop(); this.length--; if (this.length > 0) { this.data[0] = bottom; this._down(0); } return top; } peek() { return this.data[0]; } _up(pos) { const {data, compare} = this; const item = data[pos]; while (pos > 0) { const parent = (pos - 1) >> 1; const current = data[parent]; if (compare(item, current) >= 0) break; data[pos] = current; pos = parent; } data[pos] = item; } _down(pos) { const {data, compare} = this; const halfLength = this.length >> 1; const item = data[pos]; while (pos < halfLength) { let left = (pos << 1) + 1; let best = data[left]; const right = left + 1; if (right < this.length && compare(data[right], best) < 0) { left = right; best = data[right]; } if (compare(best, item) >= 0) break; data[pos] = best; pos = left; } data[pos] = item; } } function defaultCompare(a, b) { return a < b ? -1 : a > b ? 1 : 0; } function checkWhichEventIsLeft (e1, e2) { if (e1.p.x > e2.p.x) return 1 if (e1.p.x < e2.p.x) return -1 if (e1.p.y !== e2.p.y) return e1.p.y > e2.p.y ? 1 : -1 return 1 } function checkWhichSegmentHasRightEndpointFirst (seg1, seg2) { if (seg1.rightSweepEvent.p.x > seg2.rightSweepEvent.p.x) return 1 if (seg1.rightSweepEvent.p.x < seg2.rightSweepEvent.p.x) return -1 if (seg1.rightSweepEvent.p.y !== seg2.rightSweepEvent.p.y) return seg1.rightSweepEvent.p.y < seg2.rightSweepEvent.p.y ? 1 : -1 return 1 } class Event { constructor (p, featureId, ringId, eventId) { this.p = { x: p[0], y: p[1] }; this.featureId = featureId; this.ringId = ringId; this.eventId = eventId; this.otherEvent = null; this.isLeftEndpoint = null; } isSamePoint (eventToCheck) { return this.p.x === eventToCheck.p.x && this.p.y === eventToCheck.p.y } } function fillEventQueue (geojson, eventQueue) { if (geojson.type === 'FeatureCollection') { const features = geojson.features; for (let i = 0; i < features.length; i++) { processFeature(features[i], eventQueue); } } else { processFeature(geojson, eventQueue); } } let featureId = 0; let ringId = 0; let eventId = 0; function processFeature (featureOrGeometry, eventQueue) { const geom = featureOrGeometry.type === 'Feature' ? featureOrGeometry.geometry : featureOrGeometry; let coords = geom.coordinates; // standardise the input if (geom.type === 'Polygon' || geom.type === 'MultiLineString') coords = [coords]; if (geom.type === 'LineString') coords = [[coords]]; for (let i = 0; i < coords.length; i++) { for (let ii = 0; ii < coords[i].length; ii++) { let currentP = coords[i][ii][0]; let nextP = null; ringId = ringId + 1; for (let iii = 0; iii < coords[i][ii].length - 1; iii++) { nextP = coords[i][ii][iii + 1]; const e1 = new Event(currentP, featureId, ringId, eventId); const e2 = new Event(nextP, featureId, ringId, eventId + 1); e1.otherEvent = e2; e2.otherEvent = e1; if (checkWhichEventIsLeft(e1, e2) > 0) { e2.isLeftEndpoint = true; e1.isLeftEndpoint = false; } else { e1.isLeftEndpoint = true; e2.isLeftEndpoint = false; } eventQueue.push(e1); eventQueue.push(e2); currentP = nextP; eventId = eventId + 1; } } } featureId = featureId + 1; } class Segment { constructor (event) { this.leftSweepEvent = event; this.rightSweepEvent = event.otherEvent; } } function testSegmentIntersect (seg1, seg2) { if (seg1 === null || seg2 === null) return false if (seg1.leftSweepEvent.ringId === seg2.leftSweepEvent.ringId && (seg1.rightSweepEvent.isSamePoint(seg2.leftSweepEvent) || seg1.rightSweepEvent.isSamePoint(seg2.leftSweepEvent) || seg1.rightSweepEvent.isSamePoint(seg2.rightSweepEvent) || seg1.leftSweepEvent.isSamePoint(seg2.leftSweepEvent) || seg1.leftSweepEvent.isSamePoint(seg2.rightSweepEvent))) return false const x1 = seg1.leftSweepEvent.p.x; const y1 = seg1.leftSweepEvent.p.y; const x2 = seg1.rightSweepEvent.p.x; const y2 = seg1.rightSweepEvent.p.y; const x3 = seg2.leftSweepEvent.p.x; const y3 = seg2.leftSweepEvent.p.y; const x4 = seg2.rightSweepEvent.p.x; const y4 = seg2.rightSweepEvent.p.y; const denom = ((y4 - y3) * (x2 - x1)) - ((x4 - x3) * (y2 - y1)); const numeA = ((x4 - x3) * (y1 - y3)) - ((y4 - y3) * (x1 - x3)); const numeB = ((x2 - x1) * (y1 - y3)) - ((y2 - y1) * (x1 - x3)); if (denom === 0) { if (numeA === 0 && numeB === 0) return false return false } const uA = numeA / denom; const uB = numeB / denom; if (uA >= 0 && uA <= 1 && uB >= 0 && uB <= 1) { const x = x1 + (uA * (x2 - x1)); const y = y1 + (uA * (y2 - y1)); return [x, y] } return false } // import {debugEventAndSegments, debugRemovingSegment} from './debug' function runCheck (eventQueue, ignoreSelfIntersections) { ignoreSelfIntersections = ignoreSelfIntersections ? ignoreSelfIntersections : false; const intersectionPoints = []; const outQueue = new TinyQueue([], checkWhichSegmentHasRightEndpointFirst); while (eventQueue.length) { const event = eventQueue.pop(); if (event.isLeftEndpoint) { // debugEventAndSegments(event.p, outQueue.data) const segment = new Segment(event); for (let i = 0; i < outQueue.data.length; i++) { const otherSeg = outQueue.data[i]; if (ignoreSelfIntersections) { if (otherSeg.leftSweepEvent.featureId === event.featureId) continue } const intersection = testSegmentIntersect(segment, otherSeg); if (intersection !== false) intersectionPoints.push(intersection); } outQueue.push(segment); } else if (event.isLeftEndpoint === false) { outQueue.pop(); // const seg = outQueue.pop() // debugRemovingSegment(event.p, seg) } } return intersectionPoints } class SweeplineIntersections { constructor () { this._eventQueue = new TinyQueue([], checkWhichEventIsLeft); } addData (geojson, alternateEventQueue) { if (alternateEventQueue !== undefined) { const newQueue = new TinyQueue([], checkWhichEventIsLeft); for (let i = 0; i < alternateEventQueue.length; i++) { newQueue.push(alternateEventQueue.data[i]); } this._eventQueue = newQueue; } fillEventQueue(geojson, this._eventQueue); } cloneEventQueue () { const newQueue = new TinyQueue([], checkWhichEventIsLeft); for (let i = 0; i < this._eventQueue.length; i++) { newQueue.push(this._eventQueue.data[i]); } return newQueue } getIntersections (ignoreSelfIntersections) { return runCheck(this._eventQueue, ignoreSelfIntersections) } } export default SweeplineIntersections;