var numberRegexp = /[-+]?([0-9]*\.[0-9]+|[0-9]+)([eE][-+]?[0-9]+)?/; // Matches sequences like '100 100' or '100 100 100'. var tuples = new RegExp('^' + numberRegexp.source + '(\\s' + numberRegexp.source + '){1,}'); /* * Parse WKT and return GeoJSON. * * @param {string} _ A WKT geometry * @return {?Object} A GeoJSON geometry object */ const parse = function(input) { if (!input) { return { "coordinates": [], "type": "LineString" } } var parts = input.split(';'); var _ = parts.pop(); var srid = (parts.shift() || '').split('=').pop(); var i = 0; function $(re) { var match = _.substring(i).match(re); if (!match) return null; else { i += match[0].length; return match[0]; } } function crs(obj) { if (obj && srid.match(/\d+/)) { obj.crs = { type: 'name', properties: { name: 'urn:ogc:def:crs:EPSG::' + srid } }; } return obj; } function white() { $(/^\s*/); } function multicoords() { white(); var depth = 0; var rings = []; var stack = [rings]; var pointer = rings; var elem; while (elem = $(/^(\()/) || $(/^(\))/) || $(/^(,)/) || $(tuples)) { if (elem === '(') { stack.push(pointer); pointer = []; stack[stack.length - 1].push(pointer); depth++; } else if (elem === ')') { // For the case: Polygon(), ... if (pointer.length === 0) return null; pointer = stack.pop(); // the stack was empty, input was malformed if (!pointer) return null; depth--; if (depth === 0) break; } else if (elem === ',') { pointer = []; stack[stack.length - 1].push(pointer); } else if (!elem.split(/\s/g).some(isNaN)) { Array.prototype.push.apply(pointer, elem.split(/\s/g).map(parseFloat)); } else { return null; } white(); } if (depth !== 0) return null; return rings; } function coords() { var list = []; var item; var pt; while (pt = $(tuples) || $(/^(,)/)) { if (pt === ',') { list.push(item); item = []; } else if (!pt.split(/\s/g).some(isNaN)) { if (!item) item = []; Array.prototype.push.apply(item, pt.split(/\s/g).map(parseFloat)); } white(); } if (item) list.push(item); else return null; return list.length ? list : null; } function point() { if (!$(/^(point(\sz)?)/i)) return null; white(); if (!$(/^(\()/)) return null; var c = coords(); if (!c) return null; white(); if (!$(/^(\))/)) return null; return { type: 'Point', coordinates: c[0] }; } function multipoint() { if (!$(/^(multipoint)/i)) return null; white(); var newCoordsFormat = _ .substring(_.indexOf('(') + 1, _.length - 1) .replace(/\(/g, '') .replace(/\)/g, ''); _ = 'MULTIPOINT (' + newCoordsFormat + ')'; var c = multicoords(); if (!c) return null; white(); return { type: 'MultiPoint', coordinates: c }; } function multilinestring() { if (!$(/^(multilinestring)/i)) return null; white(); var c = multicoords(); if (!c) return null; white(); return { type: 'MultiLineString', coordinates: c }; } function linestring() { if (!$(/^(linestring(\sz)?)/i)) return null; white(); if (!$(/^(\()/)) return null; var c = coords(); if (!c) return null; if (!$(/^(\))/)) return null; return { type: 'LineString', coordinates: c }; } function polygon() { if (!$(/^(polygon(\sz)?)/i)) return null; white(); var c = multicoords(); if (!c) return null; return { type: 'Polygon', coordinates: c }; } function multipolygon() { if (!$(/^(multipolygon)/i)) return null; white(); var c = multicoords(); if (!c) return null; return { type: 'MultiPolygon', coordinates: c }; } function geometrycollection() { var geometries = []; var geometry; if (!$(/^(geometrycollection)/i)) return null; white(); if (!$(/^(\()/)) return null; while (geometry = root()) { geometries.push(geometry); white(); $(/^(,)/); white(); } if (!$(/^(\))/)) return null; return { type: 'GeometryCollection', geometries: geometries }; } function root() { return point() || linestring() || polygon() || multipoint() || multilinestring() || multipolygon() || geometrycollection(); } return crs(root()); } module.exports = { parse: parse }