import simplify from './simplify'; import createFeature from './feature'; // converts GeoJSON feature into an intermediate projected JSON vector format with simplification data export default function convert(data, options) { var features = []; if (data.type === 'FeatureCollection') { for (var i = 0; i < data.features.length; i++) { convertFeature(features, data.features[i], options, i); } } else if (data.type === 'Feature') { convertFeature(features, data, options); } else { // single geometry or a geometry collection convertFeature(features, {geometry: data}, options); } return features; } function convertFeature(features, geojson, options, index) { if (!geojson.geometry) return; var coords = geojson.geometry.coordinates; var type = geojson.geometry.type; var tolerance = Math.pow(options.tolerance / ((1 << options.maxZoom) * options.extent), 2); var geometry = []; var id = geojson.id; if (options.promoteId) { id = geojson.properties[options.promoteId]; } else if (options.generateId) { id = index || 0; } if (type === 'Point') { convertPoint(coords, geometry); } else if (type === 'MultiPoint') { for (var i = 0; i < coords.length; i++) { convertPoint(coords[i], geometry); } } else if (type === 'LineString') { convertLine(coords, geometry, tolerance, false); } else if (type === 'MultiLineString') { if (options.lineMetrics) { // explode into linestrings to be able to track metrics for (i = 0; i < coords.length; i++) { geometry = []; convertLine(coords[i], geometry, tolerance, false); features.push(createFeature(id, 'LineString', geometry, geojson.properties)); } return; } else { convertLines(coords, geometry, tolerance, false); } } else if (type === 'Polygon') { convertLines(coords, geometry, tolerance, true); } else if (type === 'MultiPolygon') { for (i = 0; i < coords.length; i++) { var polygon = []; convertLines(coords[i], polygon, tolerance, true); geometry.push(polygon); } } else if (type === 'GeometryCollection') { for (i = 0; i < geojson.geometry.geometries.length; i++) { convertFeature(features, { id: id, geometry: geojson.geometry.geometries[i], properties: geojson.properties }, options, index); } return; } else { throw new Error('Input data is not a valid GeoJSON object.'); } features.push(createFeature(id, type, geometry, geojson.properties)); } function convertPoint(coords, out) { out.push(projectX(coords[0])); out.push(projectY(coords[1])); out.push(0); } function convertLine(ring, out, tolerance, isPolygon) { var x0, y0; var size = 0; for (var j = 0; j < ring.length; j++) { var x = projectX(ring[j][0]); var y = projectY(ring[j][1]); out.push(x); out.push(y); out.push(0); if (j > 0) { if (isPolygon) { size += (x0 * y - x * y0) / 2; // area } else { size += Math.sqrt(Math.pow(x - x0, 2) + Math.pow(y - y0, 2)); // length } } x0 = x; y0 = y; } var last = out.length - 3; out[2] = 1; simplify(out, 0, last, tolerance); out[last + 2] = 1; out.size = Math.abs(size); out.start = 0; out.end = out.size; } function convertLines(rings, out, tolerance, isPolygon) { for (var i = 0; i < rings.length; i++) { var geom = []; convertLine(rings[i], geom, tolerance, isPolygon); out.push(geom); } } function projectX(x) { return x / 360 + 0.5; } function projectY(y) { var sin = Math.sin(y * Math.PI / 180); var y2 = 0.5 - 0.25 * Math.log((1 + sin) / (1 - sin)) / Math.PI; return y2 < 0 ? 0 : y2 > 1 ? 1 : y2; }