'use strict'; var Point = require('@mapbox/point-geometry'); module.exports = VectorTileFeature; function VectorTileFeature(pbf, end, extent, keys, values) { // Public this.properties = {}; this.extent = extent; this.type = 0; // Private this._pbf = pbf; this._geometry = -1; this._keys = keys; this._values = values; pbf.readFields(readFeature, this, end); } function readFeature(tag, feature, pbf) { if (tag == 1) feature.id = pbf.readVarint(); else if (tag == 2) readTag(pbf, feature); else if (tag == 3) feature.type = pbf.readVarint(); else if (tag == 4) feature._geometry = pbf.pos; } function readTag(pbf, feature) { var end = pbf.readVarint() + pbf.pos; while (pbf.pos < end) { var key = feature._keys[pbf.readVarint()], value = feature._values[pbf.readVarint()]; feature.properties[key] = value; } } VectorTileFeature.types = ['Unknown', 'Point', 'LineString', 'Polygon']; VectorTileFeature.prototype.loadGeometry = function() { var pbf = this._pbf; pbf.pos = this._geometry; var end = pbf.readVarint() + pbf.pos, cmd = 1, length = 0, x = 0, y = 0, lines = [], line; while (pbf.pos < end) { if (length <= 0) { var cmdLen = pbf.readVarint(); cmd = cmdLen & 0x7; length = cmdLen >> 3; } length--; if (cmd === 1 || cmd === 2) { x += pbf.readSVarint(); y += pbf.readSVarint(); if (cmd === 1) { // moveTo if (line) lines.push(line); line = []; } line.push(new Point(x, y)); } else if (cmd === 7) { // Workaround for https://github.com/mapbox/mapnik-vector-tile/issues/90 if (line) { line.push(line[0].clone()); // closePolygon } } else { throw new Error('unknown command ' + cmd); } } if (line) lines.push(line); return lines; }; VectorTileFeature.prototype.bbox = function() { var pbf = this._pbf; pbf.pos = this._geometry; var end = pbf.readVarint() + pbf.pos, cmd = 1, length = 0, x = 0, y = 0, x1 = Infinity, x2 = -Infinity, y1 = Infinity, y2 = -Infinity; while (pbf.pos < end) { if (length <= 0) { var cmdLen = pbf.readVarint(); cmd = cmdLen & 0x7; length = cmdLen >> 3; } length--; if (cmd === 1 || cmd === 2) { x += pbf.readSVarint(); y += pbf.readSVarint(); if (x < x1) x1 = x; if (x > x2) x2 = x; if (y < y1) y1 = y; if (y > y2) y2 = y; } else if (cmd !== 7) { throw new Error('unknown command ' + cmd); } } return [x1, y1, x2, y2]; }; VectorTileFeature.prototype.toGeoJSON = function(x, y, z) { var size = this.extent * Math.pow(2, z), x0 = this.extent * x, y0 = this.extent * y, coords = this.loadGeometry(), type = VectorTileFeature.types[this.type], i, j; function project(line) { for (var j = 0; j < line.length; j++) { var p = line[j], y2 = 180 - (p.y + y0) * 360 / size; line[j] = [ (p.x + x0) * 360 / size - 180, 360 / Math.PI * Math.atan(Math.exp(y2 * Math.PI / 180)) - 90 ]; } } switch (this.type) { case 1: var points = []; for (i = 0; i < coords.length; i++) { points[i] = coords[i][0]; } coords = points; project(coords); break; case 2: for (i = 0; i < coords.length; i++) { project(coords[i]); } break; case 3: coords = classifyRings(coords); for (i = 0; i < coords.length; i++) { for (j = 0; j < coords[i].length; j++) { project(coords[i][j]); } } break; } if (coords.length === 1) { coords = coords[0]; } else { type = 'Multi' + type; } var result = { type: "Feature", geometry: { type: type, coordinates: coords }, properties: this.properties }; if ('id' in this) { result.id = this.id; } return result; }; // classifies an array of rings into polygons with outer rings and holes function classifyRings(rings) { var len = rings.length; if (len <= 1) return [rings]; var polygons = [], polygon, ccw; for (var i = 0; i < len; i++) { var area = signedArea(rings[i]); if (area === 0) continue; if (ccw === undefined) ccw = area < 0; if (ccw === area < 0) { if (polygon) polygons.push(polygon); polygon = [rings[i]]; } else { polygon.push(rings[i]); } } if (polygon) polygons.push(polygon); return polygons; } function signedArea(ring) { var sum = 0; for (var i = 0, len = ring.length, j = len - 1, p1, p2; i < len; j = i++) { p1 = ring[i]; p2 = ring[j]; sum += (p2.x - p1.x) * (p1.y + p2.y); } return sum; }