In some cases, it is useful to have some tags calculated based on other properties. Some useful tags are available by default (e.g. lat, lon, _country), as detailed above.
It is also possible to calculate your own tags - but this requires some javascript knowledge.
Before proceeding, some warnings:{ feat: GeoJSONFeature, overlap: number}[] where overlap is the overlapping surface are (in m²) for areas, the overlapping length (in meter) if the current feature is a line or undefined if the current feature is a point",
["...layerIds - one or more layer ids of the layer from which every feature is checked for overlap)"],
(params, feat) => {
return (...layerIds: string[]) => {
const result = []
for (const layerId of layerIds) {
const otherLayer = params.featuresPerLayer.get(layerId);
if (otherLayer === undefined) {
continue;
}
if (otherLayer.length === 0) {
continue;
}
result.push(...GeoOperations.calculateOverlap(feat, otherLayer));
}
return result;
}
}
)
private static readonly DistanceToFunc = new ExtraFunction(
"distanceTo",
"Calculates the distance between the feature and a specified point in kilometer. The input should either be a pair of coordinates, a geojson feature or the ID of an object",
["longitude", "latitude"],
(featuresPerLayer, feature) => {
return (arg0, lat) => {
if (typeof arg0 === "number") {
// Feature._lon and ._lat is conveniently place by one of the other metatags
return GeoOperations.distanceBetween([arg0, lat], [feature._lon, feature._lat]);
}
if (typeof arg0 === "string") {
// This is an identifier
const feature = State.state.allElements.ContainingFeatures.get(arg0);
if(feature === undefined){
return undefined;
}
arg0 = feature;
}
// arg0 is probably a feature
return GeoOperations.distanceBetween(GeoOperations.centerpointCoordinates(arg0), [feature._lon, feature._lat])
}
}
)
private static readonly ClosestObjectFunc = new ExtraFunction(
"closest",
"Given either a list of geojson features or a single layer name, gives the single object which is nearest to the feature. In the case of ways/polygons, only the centerpoint is considered.",
["list of features"],
(params, feature) => {
return (features) => {
if (typeof features === "string") {
const name = features
features = params.featuresPerLayer.get(features)
if (features === undefined) {
var keys = Utils.NoNull(Array.from(params.featuresPerLayer.keys()));
if (keys.length > 0) {
throw `No features defined for ${name}. Defined layers are ${keys.join(", ")}`;
} else {
// This is the first pass over an external dataset
// Other data probably still has to load!
return undefined;
}
}
}
let closestFeature = undefined;
let closestDistance = undefined;
for (const otherFeature of features) {
if (otherFeature == feature) {
continue; // We ignore self
}
let distance = undefined;
if (otherFeature._lon !== undefined && otherFeature._lat !== undefined) {
distance = GeoOperations.distanceBetween([otherFeature._lon, otherFeature._lat], [feature._lon, feature._lat]);
} else {
distance = GeoOperations.distanceBetween(
GeoOperations.centerpointCoordinates(otherFeature),
[feature._lon, feature._lat]
)
}
if (distance === undefined) {
throw "Undefined distance!"
}
if (closestFeature === undefined || distance < closestDistance) {
closestFeature = otherFeature
closestDistance = distance;
}
}
return closestFeature;
}
}
)
private static readonly Memberships = new ExtraFunction(
"memberships",
"Gives a list of {role: string, relation: Relation}-objects, containing all the relations that this feature is part of. " +
"\n\n" +
"For example: _part_of_walking_routes=feat.memberships().map(r => r.relation.tags.name).join(';')",
[],
(params, _) => {
return () => params.relations ?? [];
}
)
private static readonly allFuncs: ExtraFunction[] = [ExtraFunction.DistanceToFunc, ExtraFunction.OverlapFunc, ExtraFunction.ClosestObjectFunc, ExtraFunction.Memberships];
private readonly _name: string;
private readonly _args: string[];
private readonly _doc: string;
private readonly _f: (params: { featuresPerLayer: Map