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contao-leaflet-libraries/assets/osmtogeojson/index.js

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Refactor overpass support using own implementation of overpass layer.
2016-11-14 11:00:10 +01:00
var _ = require("./lodash.custom.js");
var rewind = require("geojson-rewind");
// see https://wiki.openstreetmap.org/wiki/Overpass_turbo/Polygon_Features
var polygonFeatures = {};
require("osm-polygon-features").forEach(function(tags) {
if (tags.polygon === "all")
polygonFeatures[tags.key] = true;
else {
var list = (tags.polygon === "whitelist") ? "included_values" : "excluded_values",
tagValuesObj = {};
tags.values.forEach(function(value) { tagValuesObj[value] = true; });
polygonFeatures[tags.key] = {};
polygonFeatures[tags.key][list] = tagValuesObj;
}
});
var osmtogeojson = {};
osmtogeojson = function( data, options ) {
options = _.merge(
{
verbose: false,
flatProperties: false,
uninterestingTags: {
"source": true,
"source_ref": true,
"source:ref": true,
"history": true,
"attribution": true,
"created_by": true,
"tiger:county": true,
"tiger:tlid": true,
"tiger:upload_uuid": true
},
polygonFeatures: polygonFeatures,
},
options
);
var result;
if ( ((typeof XMLDocument !== "undefined") && data instanceof XMLDocument ||
(typeof XMLDocument === "undefined") && data.childNodes) )
result = _osmXML2geoJSON(data);
else
result = _overpassJSON2geoJSON(data);
return result;
function _overpassJSON2geoJSON(json) {
// sort elements
var nodes = new Array();
var ways = new Array();
var rels = new Array();
// helper functions
function centerGeometry(object) {
var pseudoNode = _.clone(object);
pseudoNode.lat = object.center.lat;
pseudoNode.lon = object.center.lon;
pseudoNode.__is_center_placeholder = true;
nodes.push(pseudoNode);
}
function boundsGeometry(object) {
var pseudoWay = _.clone(object);
pseudoWay.nodes = [];
function addPseudoNode(lat,lon,i) {
var pseudoNode = {
type:"node",
id: "_"+pseudoWay.type+"/"+pseudoWay.id+"bounds"+i,
lat: lat,
lon: lon
}
pseudoWay.nodes.push(pseudoNode.id);
nodes.push(pseudoNode);
}
addPseudoNode(pseudoWay.bounds.minlat,pseudoWay.bounds.minlon,1);
addPseudoNode(pseudoWay.bounds.maxlat,pseudoWay.bounds.minlon,2);
addPseudoNode(pseudoWay.bounds.maxlat,pseudoWay.bounds.maxlon,3);
addPseudoNode(pseudoWay.bounds.minlat,pseudoWay.bounds.maxlon,4);
pseudoWay.nodes.push(pseudoWay.nodes[0]);
pseudoWay.__is_bounds_placeholder = true;
ways.push(pseudoWay);
}
function fullGeometryWay(way) {
function addFullGeometryNode(lat,lon,id) {
var geometryNode = {
type:"node",
id: id,
lat: lat,
lon: lon,
__is_uninteresting: true
}
nodes.push(geometryNode);
}
if (!_.isArray(way.nodes)) {
way.nodes = way.geometry.map(function(nd) {
if (nd !== null) // have to skip ref-less nodes
return "_anonymous@"+nd.lat+"/"+nd.lon;
else
return "_anonymous@unknown_location";
});
}
way.geometry.forEach(function(nd, i) {
if (nd) {
addFullGeometryNode(
nd.lat,
nd.lon,
way.nodes[i]
);
}
});
}
function fullGeometryRelation(rel) {
function addFullGeometryNode(lat,lon,id) {
var geometryNode = {
type:"node",
id: id,
lat: lat,
lon: lon
}
nodes.push(geometryNode);
}
function addFullGeometryWay(geometry,id) {
// shared multipolygon ways cannot be defined multiple times with the same id.
if (ways.some(function (way) { // todo: this is slow :(
return way.type == "way" && way.id == id;
})) return;
var geometryWay = {
type: "way",
id: id,
nodes:[]
}
function addFullGeometryWayPseudoNode(lat,lon) {
// todo? do not save the same pseudo node multiple times
var geometryPseudoNode = {
type:"node",
id: "_anonymous@"+lat+"/"+lon,
lat: lat,
lon: lon,
__is_uninteresting: true
}
geometryWay.nodes.push(geometryPseudoNode.id);
nodes.push(geometryPseudoNode);
}
geometry.forEach(function(nd) {
if (nd) {
addFullGeometryWayPseudoNode(
nd.lat,
nd.lon
);
} else {
geometryWay.nodes.push(undefined);
}
});
ways.push(geometryWay);
}
rel.members.forEach(function(member, i) {
if (member.type == "node") {
if (member.lat) {
addFullGeometryNode(
member.lat,
member.lon,
member.ref
);
}
} else if (member.type == "way") {
if (member.geometry) {
member.ref = "_fullGeom"+member.ref;
addFullGeometryWay(
member.geometry,
member.ref
);
}
}
});
}
// create copies of individual json objects to make sure the original data doesn't get altered
// todo: cloning is slow: see if this can be done differently!
for (var i=0;i<json.elements.length;i++) {
switch (json.elements[i].type) {
case "node":
var node = json.elements[i];
nodes.push(node);
break;
case "way":
var way = _.clone(json.elements[i]);
way.nodes = _.clone(way.nodes);
ways.push(way);
if (way.center)
centerGeometry(way);
if (way.geometry)
fullGeometryWay(way);
else if (way.bounds)
boundsGeometry(way);
break;
case "relation":
var rel = _.clone(json.elements[i]);
rel.members = _.clone(rel.members);
rels.push(rel);
var has_full_geometry = rel.members && rel.members.some(function (member) {
return member.type == "node" && member.lat ||
member.type == "way" && member.geometry && member.geometry.length > 0
});
if (rel.center)
centerGeometry(rel);
if (has_full_geometry)
fullGeometryRelation(rel);
else if (rel.bounds)
boundsGeometry(rel);
break;
default:
// type=area (from coord-query) is an example for this case.
}
}
return _convert2geoJSON(nodes,ways,rels);
}
function _osmXML2geoJSON(xml) {
// sort elements
var nodes = new Array();
var ways = new Array();
var rels = new Array();
// helper function
function copy_attribute( x, o, attr ) {
if (x.hasAttribute(attr))
o[attr] = x.getAttribute(attr);
}
function centerGeometry(object, centroid) {
var pseudoNode = _.clone(object);
copy_attribute(centroid, pseudoNode, 'lat');
copy_attribute(centroid, pseudoNode, 'lon');
pseudoNode.__is_center_placeholder = true;
nodes.push(pseudoNode);
}
function boundsGeometry(object, bounds) {
var pseudoWay = _.clone(object);
pseudoWay.nodes = [];
function addPseudoNode(lat,lon,i) {
var pseudoNode = {
type:"node",
id: "_"+pseudoWay.type+"/"+pseudoWay.id+"bounds"+i,
lat: lat,
lon: lon
}
pseudoWay.nodes.push(pseudoNode.id);
nodes.push(pseudoNode);
}
addPseudoNode(bounds.getAttribute('minlat'),bounds.getAttribute('minlon'),1);
addPseudoNode(bounds.getAttribute('maxlat'),bounds.getAttribute('minlon'),2);
addPseudoNode(bounds.getAttribute('maxlat'),bounds.getAttribute('maxlon'),3);
addPseudoNode(bounds.getAttribute('minlat'),bounds.getAttribute('maxlon'),4);
pseudoWay.nodes.push(pseudoWay.nodes[0]);
pseudoWay.__is_bounds_placeholder = true;
ways.push(pseudoWay);
}
function fullGeometryWay(way, nds) {
function addFullGeometryNode(lat,lon,id) {
var geometryNode = {
type:"node",
id: id,
lat: lat,
lon: lon,
__is_uninteresting: true
}
nodes.push(geometryNode);
return geometryNode.id;
}
if (!_.isArray(way.nodes)) {
way.nodes = [];
_.each( nds, function( nd, i ) {
way.nodes.push("_anonymous@"+nd.getAttribute('lat')+"/"+nd.getAttribute('lon'));
});
}
_.each( nds, function( nd, i ) {
if (nd.getAttribute('lat')) {
addFullGeometryNode(
nd.getAttribute('lat'),
nd.getAttribute('lon'),
way.nodes[i]
);
}
});
}
function fullGeometryRelation(rel, members) {
function addFullGeometryNode(lat,lon,id) {
var geometryNode = {
type:"node",
id: id,
lat: lat,
lon: lon
}
nodes.push(geometryNode);
}
function addFullGeometryWay(nds,id) {
// shared multipolygon ways cannot be defined multiple times with the same id.
if (ways.some(function (way) { // todo: this is slow :(
return way.type == "way" && way.id == id;
})) return;
var geometryWay = {
type: "way",
id: id,
nodes:[]
}
function addFullGeometryWayPseudoNode(lat,lon) {
// todo? do not save the same pseudo node multiple times
var geometryPseudoNode = {
type:"node",
id: "_anonymous@"+lat+"/"+lon,
lat: lat,
lon: lon,
__is_uninteresting: true
}
geometryWay.nodes.push(geometryPseudoNode.id);
nodes.push(geometryPseudoNode);
}
_.each(nds, function(nd) {
if (nd.getAttribute('lat')) {
addFullGeometryWayPseudoNode(
nd.getAttribute('lat'),
nd.getAttribute('lon')
);
} else {
geometryWay.nodes.push(undefined);
}
});
ways.push(geometryWay);
}
_.each( members, function( member, i ) {
if (rel.members[i].type == "node") {
if (member.getAttribute('lat')) {
addFullGeometryNode(
member.getAttribute('lat'),
member.getAttribute('lon'),
rel.members[i].ref
);
}
} else if (rel.members[i].type == "way") {
if (member.getElementsByTagName('nd').length > 0) {
rel.members[i].ref = "_fullGeom"+rel.members[i].ref;
addFullGeometryWay(
member.getElementsByTagName('nd'),
rel.members[i].ref
);
}
}
});
}
// nodes
_.each( xml.getElementsByTagName('node'), function( node, i ) {
var tags = {};
_.each( node.getElementsByTagName('tag'), function( tag ) {
tags[tag.getAttribute('k')] = tag.getAttribute('v');
});
var nodeObject = {
'type': 'node'
};
copy_attribute( node, nodeObject, 'id' );
copy_attribute( node, nodeObject, 'lat' );
copy_attribute( node, nodeObject, 'lon' );
copy_attribute( node, nodeObject, 'version' );
copy_attribute( node, nodeObject, 'timestamp' );
copy_attribute( node, nodeObject, 'changeset' );
copy_attribute( node, nodeObject, 'uid' );
copy_attribute( node, nodeObject, 'user' );
if (!_.isEmpty(tags))
nodeObject.tags = tags;
nodes.push(nodeObject);
});
// ways
var centroid,bounds;
_.each( xml.getElementsByTagName('way'), function( way, i ) {
var tags = {};
var wnodes = [];
_.each( way.getElementsByTagName('tag'), function( tag ) {
tags[tag.getAttribute('k')] = tag.getAttribute('v');
});
var has_full_geometry = false;
_.each( way.getElementsByTagName('nd'), function( nd, i ) {
var id;
if (id = nd.getAttribute('ref'))
wnodes[i] = id;
if (!has_full_geometry && nd.getAttribute('lat'))
has_full_geometry = true;
});
var wayObject = {
"type": "way"
};
copy_attribute( way, wayObject, 'id' );
copy_attribute( way, wayObject, 'version' );
copy_attribute( way, wayObject, 'timestamp' );
copy_attribute( way, wayObject, 'changeset' );
copy_attribute( way, wayObject, 'uid' );
copy_attribute( way, wayObject, 'user' );
if (wnodes.length > 0)
wayObject.nodes = wnodes;
if (!_.isEmpty(tags))
wayObject.tags = tags;
if (centroid = way.getElementsByTagName('center')[0])
centerGeometry(wayObject,centroid);
if (has_full_geometry)
fullGeometryWay(wayObject, way.getElementsByTagName('nd'));
else if (bounds = way.getElementsByTagName('bounds')[0])
boundsGeometry(wayObject,bounds);
ways.push(wayObject);
});
// relations
_.each( xml.getElementsByTagName('relation'), function( relation, i ) {
var tags = {};
var members = [];
_.each( relation.getElementsByTagName('tag'), function( tag ) {
tags[tag.getAttribute('k')] = tag.getAttribute('v');
});
var has_full_geometry = false;
_.each( relation.getElementsByTagName('member'), function( member, i ) {
members[i] = {};
copy_attribute( member, members[i], 'ref' );
copy_attribute( member, members[i], 'role' );
copy_attribute( member, members[i], 'type' );
if (!has_full_geometry &&
(members[i].type == 'node' && member.getAttribute('lat')) ||
(members[i].type == 'way' && member.getElementsByTagName('nd').length>0) )
has_full_geometry = true;
});
var relObject = {
"type": "relation"
}
copy_attribute( relation, relObject, 'id' );
copy_attribute( relation, relObject, 'version' );
copy_attribute( relation, relObject, 'timestamp' );
copy_attribute( relation, relObject, 'changeset' );
copy_attribute( relation, relObject, 'uid' );
copy_attribute( relation, relObject, 'user' );
if (members.length > 0)
relObject.members = members;
if (!_.isEmpty(tags))
relObject.tags = tags;
if (centroid = relation.getElementsByTagName('center')[0])
centerGeometry(relObject,centroid);
if (has_full_geometry)
fullGeometryRelation(relObject, relation.getElementsByTagName('member'));
else if (bounds = relation.getElementsByTagName('bounds')[0])
boundsGeometry(relObject,bounds);
rels.push(relObject);
});
return _convert2geoJSON(nodes,ways,rels);
}
function _convert2geoJSON(nodes,ways,rels) {
// helper function that checks if there are any tags other than "created_by", "source", etc. or any tag provided in ignore_tags
function has_interesting_tags(t, ignore_tags) {
if (typeof ignore_tags !== "object")
ignore_tags={};
if (typeof options.uninterestingTags === "function")
return !options.uninterestingTags(t, ignore_tags);
for (var k in t)
if (!(options.uninterestingTags[k]===true) &&
!(ignore_tags[k]===true || ignore_tags[k]===t[k]))
return true;
return false;
};
// helper function to extract meta information
function build_meta_information(object) {
var res = {
"timestamp": object.timestamp,
"version": object.version,
"changeset": object.changeset,
"user": object.user,
"uid": object.uid
};
for (var k in res)
if (res[k] === undefined)
delete res[k];
return res;
}
// some data processing (e.g. filter nodes only used for ways)
var nodeids = new Object();
for (var i=0;i<nodes.length;i++) {
if (nodes[i].lat === undefined) {
if (options.verbose) console.warn('Node',nodes[i].type+'/'+nodes[i].id,'ignored because it has no coordinates');
continue; // ignore nodes without coordinates (e.g. returned by an ids_only query)
}
nodeids[nodes[i].id] = nodes[i];
}
var poinids = new Object();
for (var i=0;i<nodes.length;i++) {
if (typeof nodes[i].tags != 'undefined' &&
has_interesting_tags(nodes[i].tags)) // this checks if the node has any tags other than "created_by"
poinids[nodes[i].id] = true;
}
for (var i=0;i<rels.length;i++) {
if (!_.isArray(rels[i].members)) {
if (options.verbose) console.warn('Relation',rels[i].type+'/'+rels[i].id,'ignored because it has no members');
continue; // ignore relations without members (e.g. returned by an ids_only query)
}
for (var j=0;j<rels[i].members.length;j++) {
if (rels[i].members[j].type == "node")
poinids[rels[i].members[j].ref] = true;
}
}
var wayids = new Object();
var waynids = new Object();
for (var i=0;i<ways.length;i++) {
if (!_.isArray(ways[i].nodes)) {
if (options.verbose) console.warn('Way',ways[i].type+'/'+ways[i].id,'ignored because it has no nodes');
continue; // ignore ways without nodes (e.g. returned by an ids_only query)
}
wayids[ways[i].id] = ways[i];
for (var j=0;j<ways[i].nodes.length;j++) {
waynids[ways[i].nodes[j]] = true;
ways[i].nodes[j] = nodeids[ways[i].nodes[j]];
}
}
var pois = new Array();
for (var i=0;i<nodes.length;i++) {
if (((!waynids[nodes[i].id]) ||
(poinids[nodes[i].id])) &&
!nodes[i].__is_uninteresting)
pois.push(nodes[i]);
}
var relids = new Array();
for (var i=0;i<rels.length;i++) {
if (!_.isArray(rels[i].members)) {
if (options.verbose) console.warn('Relation',rels[i].type+'/'+rels[i].id,'ignored because it has no members');
continue; // ignore relations without members (e.g. returned by an ids_only query)
}
relids[rels[i].id] = rels[i];
}
var relsmap = {node: {}, way: {}, relation: {}};
for (var i=0;i<rels.length;i++) {
if (!_.isArray(rels[i].members)) {
if (options.verbose) console.warn('Relation',rels[i].type+'/'+rels[i].id,'ignored because it has no members');
continue; // ignore relations without members (e.g. returned by an ids_only query)
}
for (var j=0;j<rels[i].members.length;j++) {
var m_type = rels[i].members[j].type;
var m_ref = rels[i].members[j].ref;
if (typeof m_ref !== "number") {
// de-namespace full geometry content
m_ref = m_ref.replace("_fullGeom", "");
}
if (!relsmap[m_type]) {
if (options.verbose) console.warn('Relation',rels[i].type+'/'+rels[i].id,'member',m_type+'/'+m_ref,'ignored because it has an invalid type');
continue;
}
if (typeof relsmap[m_type][m_ref] === "undefined")
relsmap[m_type][m_ref] = [];
relsmap[m_type][m_ref].push({
"role" : rels[i].members[j].role,
"rel" : rels[i].id,
"reltags" : rels[i].tags,
});
}
}
// construct geojson
var geojson;
var geojsonnodes = {
"type" : "FeatureCollection",
"features" : new Array()};
for (i=0;i<pois.length;i++) {
if (typeof pois[i].lon == "undefined" || typeof pois[i].lat == "undefined") {
if (options.verbose) console.warn('POI',pois[i].type+'/'+pois[i].id,'ignored because it lacks coordinates');
continue; // lon and lat are required for showing a point
}
var feature = {
"type" : "Feature",
"id" : pois[i].type+"/"+pois[i].id,
"properties" : {
"type" : pois[i].type,
"id" : pois[i].id,
"tags" : pois[i].tags || {},
"relations" : relsmap["node"][pois[i].id] || [],
"meta": build_meta_information(pois[i])
},
"geometry" : {
"type" : "Point",
"coordinates" : [+pois[i].lon, +pois[i].lat],
}
};
if (pois[i].__is_center_placeholder)
feature.properties["geometry"] = "center";
geojsonnodes.features.push(feature);
}
var geojsonlines = {
"type" : "FeatureCollection",
"features" : new Array()};
var geojsonpolygons = {
"type" : "FeatureCollection",
"features" : new Array()};
// process multipolygons
for (var i=0;i<rels.length;i++) {
if ((typeof rels[i].tags != "undefined") &&
(rels[i].tags["type"] == "multipolygon" || rels[i].tags["type"] == "boundary")) {
if (!_.isArray(rels[i].members)) {
if (options.verbose) console.warn('Multipolygon',rels[i].type+'/'+rels[i].id,'ignored because it has no members');
continue; // ignore relations without members (e.g. returned by an ids_only query)
}
var outer_count = 0;
for (var j=0;j<rels[i].members.length;j++)
if (rels[i].members[j].role == "outer")
outer_count++;
else if (options.verbose && rels[i].members[j].role != "inner")
console.warn('Multipolygon',rels[i].type+'/'+rels[i].id,'member',rels[i].members[j].type+'/'+rels[i].members[j].ref,'ignored because it has an invalid role: "' + rels[i].members[j].role + '"');
rels[i].members.forEach(function(m) {
if (wayids[m.ref]) {
// this even works in the following corner case:
// a multipolygon amenity=xxx with outer line tagged amenity=yyy
// see https://github.com/tyrasd/osmtogeojson/issues/7
if (m.role==="outer" && !has_interesting_tags(wayids[m.ref].tags,rels[i].tags))
wayids[m.ref].is_multipolygon_outline = true;
if (m.role==="inner" && !has_interesting_tags(wayids[m.ref].tags))
wayids[m.ref].is_multipolygon_outline = true;
}
});
if (outer_count == 0) {
if (options.verbose) console.warn('Multipolygon relation',rels[i].type+'/'+rels[i].id,'ignored because it has no outer ways');
continue; // ignore multipolygons without outer ways
}
var simple_mp = false;
var mp_geometry = '';
if (outer_count == 1 && !has_interesting_tags(rels[i].tags, {"type":true}))
simple_mp = true;
var feature = null;
if (!simple_mp) {
feature = construct_multipolygon(rels[i], rels[i]);
} else {
// simple multipolygon
var outer_way = rels[i].members.filter(function(m) {return m.role === "outer";})[0];
outer_way = wayids[outer_way.ref];
if (outer_way === undefined) {
if (options.verbose) console.warn('Multipolygon relation',rels[i].type+'/'+rels[i].id,'ignored because outer way', outer_way.type+'/'+outer_way.ref,'is missing');
continue; // abort if outer way object is not present
}
outer_way.is_multipolygon_outline = true;
feature = construct_multipolygon(outer_way, rels[i]);
}
if (feature === false) {
if (options.verbose) console.warn('Multipolygon relation',rels[i].type+'/'+rels[i].id,'ignored because it has invalid geometry');
continue; // abort if feature could not be constructed
}
geojsonpolygons.features.push(feature);
function construct_multipolygon(tag_object, rel) {
var is_tainted = false;
var mp_geometry = simple_mp ? 'way' : 'relation',
mp_id = typeof tag_object.id === "number" ? tag_object.id : +(tag_object.id.replace("_fullGeom", ""));
// prepare mp members
var members;
members = rel.members.filter(function(m) {return m.type === "way";});
members = members.map(function(m) {
var way = wayids[m.ref];
if (way === undefined) { // check for missing ways
if (options.verbose) console.warn('Multipolygon', mp_geometry+'/'+mp_id, 'tainted by a missing way', m.type+'/'+m.ref);
is_tainted = true;
return;
}
return { // TODO: this is slow! :(
id: m.ref,
role: m.role || "outer",
way: way,
nodes: way.nodes.filter(function(n) {
if (n !== undefined)
return true;
is_tainted = true;
if (options.verbose) console.warn('Multipolygon', mp_geometry+'/'+mp_id, 'tainted by a way', m.type+'/'+m.ref, 'with a missing node');
return false;
})
};
});
members = _.compact(members);
// construct outer and inner rings
var outers, inners;
function join(ways) {
var _first = function(arr) {return arr[0]};
var _last = function(arr) {return arr[arr.length-1]};
// stolen from iD/relation.js
var joined = [], current, first, last, i, how, what;
while (ways.length) {
current = ways.pop().nodes.slice();
joined.push(current);
while (ways.length && _first(current) !== _last(current)) {
first = _first(current);
last = _last(current);
for (i = 0; i < ways.length; i++) {
what = ways[i].nodes;
if (last === _first(what)) {
how = current.push;
what = what.slice(1);
break;
} else if (last === _last(what)) {
how = current.push;
what = what.slice(0, -1).reverse();
break;
} else if (first == _last(what)) {
how = current.unshift;
what = what.slice(0, -1);
break;
} else if (first == _first(what)) {
how = current.unshift;
what = what.slice(1).reverse();
break;
} else {
what = how = null;
}
}
if (!what) {
if (options.verbose) console.warn('Multipolygon', mp_geometry+'/'+mp_id, 'contains unclosed ring geometry');
break; // Invalid geometry (dangling way, unclosed ring)
}
ways.splice(i, 1);
how.apply(current, what);
}
}
return joined;
}
outers = join(members.filter(function(m) {return m.role==="outer";}));
inners = join(members.filter(function(m) {return m.role==="inner";}));
// sort rings
var mp;
function findOuter(inner) {
var polygonIntersectsPolygon = function(outer, inner) {
for (var i=0; i<inner.length; i++)
if (pointInPolygon(inner[i], outer))
return true;
return false;
}
var mapCoordinates = function(from) {
return from.map(function(n) {
return [+n.lat,+n.lon];
});
}
// stolen from iD/geo.js,
// based on https://github.com/substack/point-in-polygon,
// ray-casting algorithm based on http://www.ecse.rpi.edu/Homepages/wrf/Research/Short_Notes/pnpoly.html
var pointInPolygon = function(point, polygon) {
var x = point[0], y = point[1], inside = false;
for (var i = 0, j = polygon.length - 1; i < polygon.length; j = i++) {
var xi = polygon[i][0], yi = polygon[i][1];
var xj = polygon[j][0], yj = polygon[j][1];
var intersect = ((yi > y) != (yj > y)) &&
(x < (xj - xi) * (y - yi) / (yj - yi) + xi);
if (intersect) inside = !inside;
}
return inside;
};
// stolen from iD/relation.js
var o, outer;
// todo: all this coordinate mapping makes this unneccesarily slow.
// see the "todo: this is slow! :(" above.
inner = mapCoordinates(inner);
/*for (o = 0; o < outers.length; o++) {
outer = mapCoordinates(outers[o]);
if (polygonContainsPolygon(outer, inner))
return o;
}*/
for (o = 0; o < outers.length; o++) {
outer = mapCoordinates(outers[o]);
if (polygonIntersectsPolygon(outer, inner))
return o;
}
}
mp = outers.map(function(o) {return [o];});
for (var j=0; j<inners.length; j++) {
var o = findOuter(inners[j]);
if (o !== undefined)
mp[o].push(inners[j]);
else
if (options.verbose) console.warn('Multipolygon', mp_geometry+'/'+mp_id, 'contains an inner ring with no containing outer');
// so, no outer ring for this inner ring is found.
// We're going to ignore holes in empty space.
;
}
// sanitize mp-coordinates (remove empty clusters or rings, {lat,lon,...} to [lon,lat]
var mp_coords = [];
mp_coords = _.compact(mp.map(function(cluster) {
var cl = _.compact(cluster.map(function(ring) {
if (ring.length < 4) { // todo: is this correct: ring.length < 4 ?
if (options.verbose) console.warn('Multipolygon', mp_geometry+'/'+mp_id, 'contains a ring with less than four nodes');
return;
}
return _.compact(ring.map(function(node) {
return [+node.lon,+node.lat];
}));
}));
if (cl.length == 0) {
if (options.verbose) console.warn('Multipolygon', mp_geometry+'/'+mp_id, 'contains an empty ring cluster');
return;
}
return cl;
}));
if (mp_coords.length == 0) {
if (options.verbose) console.warn('Multipolygon', mp_geometry+'/'+mp_id, 'contains no coordinates');
return false; // ignore multipolygons without coordinates
}
var mp_type = "MultiPolygon";
if (mp_coords.length === 1) {
mp_type = "Polygon";
mp_coords = mp_coords[0];
}
// mp parsed, now construct the geoJSON
var feature = {
"type" : "Feature",
"id" : tag_object.type+"/"+mp_id,
"properties" : {
"type" : tag_object.type,
"id" : mp_id,
"tags" : tag_object.tags || {},
"relations" : relsmap[tag_object.type][tag_object.id] || [],
"meta": build_meta_information(tag_object)
},
"geometry" : {
"type" : mp_type,
"coordinates" : mp_coords,
}
}
if (is_tainted) {
if (options.verbose) console.warn('Multipolygon', mp_geometry+'/'+mp_id, 'is tainted');
feature.properties["tainted"] = true;
}
return feature;
}
}
}
// process lines and polygons
for (var i=0;i<ways.length;i++) {
if (!_.isArray(ways[i].nodes)) {
if (options.verbose) console.warn('Way',ways[i].type+'/'+ways[i].id,'ignored because it has no nodes');
continue; // ignore ways without nodes (e.g. returned by an ids_only query)
}
if (ways[i].is_multipolygon_outline)
continue; // ignore ways which are already rendered as (part of) a multipolygon
if (typeof ways[i].id !== "number") {
// remove full geometry namespace for output
ways[i].id = +ways[i].id.replace("_fullGeom", "");
}
ways[i].tainted = false;
ways[i].hidden = false;
var coords = new Array();
for (j=0;j<ways[i].nodes.length;j++) {
if (typeof ways[i].nodes[j] == "object")
coords.push([+ways[i].nodes[j].lon, +ways[i].nodes[j].lat]);
else {
if (options.verbose) console.warn('Way',ways[i].type+'/'+ways[i].id,'is tainted by an invalid node');
ways[i].tainted = true;
}
}
if (coords.length <= 1) { // invalid way geometry
if (options.verbose) console.warn('Way',ways[i].type+'/'+ways[i].id,'ignored because it contains too few nodes');
continue;
}
var way_type = "LineString"; // default
if (typeof ways[i].nodes[0] != "undefined" && // way has its nodes loaded
ways[i].nodes[0] === ways[i].nodes[ways[i].nodes.length-1] && // ... and forms a closed ring
(
typeof ways[i].tags != "undefined" && // ... and has tags
_isPolygonFeature(ways[i].tags) // ... and tags say it is a polygon
|| // or is a placeholder for a bounds geometry
ways[i].__is_bounds_placeholder
)
) {
way_type = "Polygon";
coords = [coords];
}
var feature = {
"type" : "Feature",
"id" : ways[i].type+"/"+ways[i].id,
"properties" : {
"type" : ways[i].type,
"id" : ways[i].id,
"tags" : ways[i].tags || {},
"relations" : relsmap["way"][ways[i].id] || [],
"meta": build_meta_information(ways[i])
},
"geometry" : {
"type" : way_type,
"coordinates" : coords,
}
}
if (ways[i].tainted) {
if (options.verbose) console.warn('Way',ways[i].type+'/'+ways[i].id,'is tainted');
feature.properties["tainted"] = true;
}
if (ways[i].__is_bounds_placeholder)
feature.properties["geometry"] = "bounds";
if (way_type == "LineString")
geojsonlines.features.push(feature);
else
geojsonpolygons.features.push(feature);
}
geojson = {
"type": "FeatureCollection",
"features": []
};
geojson.features = geojson.features.concat(geojsonpolygons.features);
geojson.features = geojson.features.concat(geojsonlines.features);
geojson.features = geojson.features.concat(geojsonnodes.features);
// optionally, flatten properties
if (options.flatProperties) {
geojson.features.forEach(function(f) {
f.properties = _.merge(
f.properties.meta,
f.properties.tags,
{id: f.properties.type+"/"+f.properties.id}
);
});
}
// fix polygon winding
geojson = rewind(geojson, true /*remove for geojson-rewind >0.1.0*/);
return geojson;
}
function _isPolygonFeature( tags ) {
var polygonFeatures = options.polygonFeatures;
if (typeof polygonFeatures === "function")
return polygonFeatures(tags);
// explicitely tagged non-areas
if ( tags['area'] === 'no' )
return false;
// assuming that a typical OSM way has in average less tags than
// the polygonFeatures list, this way around should be faster
for ( var key in tags ) {
var val = tags[key];
var pfk = polygonFeatures[key];
// continue with next if tag is unknown or not "categorizing"
if ( typeof pfk === 'undefined' )
continue;
// continue with next if tag is explicitely un-set ("building=no")
if ( val === 'no' )
continue;
// check polygon features for: general acceptance, included or excluded values
if ( pfk === true )
return true;
if ( pfk.included_values && pfk.included_values[val] === true )
return true;
if ( pfk.excluded_values && pfk.excluded_values[val] !== true )
return true;
}
// if no tags matched, this ain't no area.
return false;
}
};
// for backwards compatibility
osmtogeojson.toGeojson = osmtogeojson;
module.exports = osmtogeojson;
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