mapcomplete/Logic/ExtraFunctions.ts

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import { GeoOperations } from "./GeoOperations"
import Combine from "../UI/Base/Combine"
import RelationsTracker from "./Osm/RelationsTracker"
import BaseUIElement from "../UI/BaseUIElement"
import List from "../UI/Base/List"
import Title from "../UI/Base/Title"
import { BBox } from "./BBox"
import { Feature, Geometry, MultiPolygon, Polygon } from "@turf/turf"
export interface ExtraFuncParams {
/**
* Gets all the features from the given layer within the given BBOX.
* Note that more features then requested can be given back.
* Format: [ [ geojson, geojson, geojson, ... ], [geojson, ...], ...]
*/
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getFeaturesWithin: (layerId: string, bbox: BBox) => Feature<Geometry, { id: string }>[][]
memberships: RelationsTracker
getFeatureById: (id: string) => Feature<Geometry, { id: string }>
}
/**
* Describes a function that is added to a geojson object in order to calculate calculated tags
*/
interface ExtraFunction {
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readonly _name: string
readonly _args: string[]
readonly _doc: string
readonly _f: (params: ExtraFuncParams, feat: Feature<Geometry, any>) => any
}
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class EnclosingFunc implements ExtraFunction {
_name = "enclosingFeatures"
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_doc = [
"Gives a list of all features in the specified layers which fully contain this object. Returned features will always be (multi)polygons. (LineStrings and Points from the other layers are ignored)",
"",
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"The result is a list of features: `{feat: Polygon}[]`",
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"This function will never return the feature itself.",
].join("\n")
_args = [
"...layerIds - one or more layer ids of the layer from which every feature is checked for overlap)",
]
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_f(params: ExtraFuncParams, feat: Feature<Geometry, any>) {
return (...layerIds: string[]) => {
const result: { feat: any }[] = []
const bbox = BBox.get(feat)
const seenIds = new Set<string>()
seenIds.add(feat.properties.id)
for (const layerId of layerIds) {
const otherFeaturess = params.getFeaturesWithin(layerId, bbox)
if (otherFeaturess === undefined) {
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continue
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}
if (otherFeaturess.length === 0) {
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continue
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}
for (const otherFeatures of otherFeaturess) {
for (const otherFeature of otherFeatures) {
if (seenIds.has(otherFeature.properties.id)) {
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continue
}
seenIds.add(otherFeature.properties.id)
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if (
otherFeature.geometry.type !== "Polygon" &&
otherFeature.geometry.type !== "MultiPolygon"
) {
continue
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}
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if (
GeoOperations.completelyWithin(
feat,
<Feature<Polygon | MultiPolygon, any>>otherFeature
)
) {
result.push({ feat: otherFeature })
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}
}
}
}
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return result
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}
}
}
class OverlapFunc implements ExtraFunction {
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_name = "overlapWith"
_doc = [
"Gives a list of features from the specified layer which this feature (partly) overlaps with. A point which is embedded in the feature is detected as well.",
"If the current feature is a point, all features that this point is embeded in are given.",
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"",
"The returned value is `{ 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.",
"The resulting list is sorted in descending order by overlap. The feature with the most overlap will thus be the first in the list.",
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"",
"For example to get all objects which overlap or embed from a layer, use `_contained_climbing_routes_properties=feat.overlapWith('climbing_route')`",
"",
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"Also see [enclosingFeatures](#enclosingFeatures) which can be used to get all objects which fully contain this feature",
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].join("\n")
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_args = [
"...layerIds - one or more layer ids of the layer from which every feature is checked for overlap)",
]
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_f(params, feat) {
return (...layerIds: string[]) => {
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const result: { feat: any; overlap: number }[] = []
const seenIds = new Set<string>()
const bbox = BBox.get(feat)
for (const layerId of layerIds) {
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const otherFeaturess = params.getFeaturesWithin(layerId, bbox)
if (otherFeaturess === undefined) {
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continue
}
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if (otherFeaturess.length === 0) {
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continue
}
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for (const otherFeatures of otherFeaturess) {
const overlap = GeoOperations.calculateOverlap(feat, otherFeatures)
for (const overlappingFeature of overlap) {
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if (seenIds.has(overlappingFeature.feat.properties.id)) {
continue
}
seenIds.add(overlappingFeature.feat.properties.id)
result.push(overlappingFeature)
}
}
}
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result.sort((a, b) => b.overlap - a.overlap)
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return result
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}
}
}
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class IntersectionFunc implements ExtraFunction {
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_name = "intersectionsWith"
_doc =
"Gives the intersection points with selected features. Only works with (Multi)Polygons and LineStrings.\n\n" +
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"Returns a `{feat: GeoJson, intersections: [number,number][]}` where `feat` is the full, original feature. This list is in random order.\n\n" +
"If the current feature is a point, this function will return an empty list.\n" +
"Points from other layers are ignored - even if the points are parts of the current linestring."
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_args = [
"...layerIds - one or more layer ids of the layer from which every feature is checked for intersection)",
]
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_f(params: ExtraFuncParams, feat) {
return (...layerIds: string[]) => {
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const result: { feat: any; intersections: [number, number][] }[] = []
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const bbox = BBox.get(feat)
for (const layerId of layerIds) {
const otherLayers = params.getFeaturesWithin(layerId, bbox)
if (otherLayers === undefined) {
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continue
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}
if (otherLayers.length === 0) {
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continue
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}
for (const tile of otherLayers) {
for (const otherFeature of tile) {
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const intersections = GeoOperations.LineIntersections(feat, otherFeature)
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if (intersections.length === 0) {
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continue
}
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result.push({ feat: otherFeature, intersections })
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}
}
}
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return result
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}
}
}
class DistanceToFunc implements ExtraFunction {
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_name = "distanceTo"
_doc =
"Calculates the distance between the feature and a specified point in meter. The input should either be a pair of coordinates, a geojson feature or the ID of an object"
_args = ["feature OR featureID OR longitude", "undefined OR latitude"]
_f(featuresPerLayer, feature) {
return (arg0, lat) => {
if (arg0 === undefined) {
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return undefined
}
if (typeof arg0 === "number") {
// Feature._lon and ._lat is conveniently place by one of the other metatags
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return GeoOperations.distanceBetween(
[arg0, lat],
GeoOperations.centerpointCoordinates(feature)
)
}
if (typeof arg0 === "string") {
// This is an identifier
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const feature = featuresPerLayer.getFeatureById(arg0)
if (feature === undefined) {
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return undefined
}
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arg0 = feature
}
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// arg0 is probably a geojsonfeature
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return GeoOperations.distanceBetween(
GeoOperations.centerpointCoordinates(arg0),
GeoOperations.centerpointCoordinates(feature)
)
}
}
}
class ClosestObjectFunc implements ExtraFunction {
_name = "closest"
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_doc =
"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. Returns a single geojson feature or undefined if nothing is found (or not yet loaded)"
_args = ["list of features or a layer name or '*' to get all features"]
_f(params, feature) {
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return (features) =>
ClosestNObjectFunc.GetClosestNFeatures(params, feature, features)?.[0]?.feat
}
}
class ClosestNObjectFunc implements ExtraFunction {
_name = "closestn"
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_doc =
"Given either a list of geojson features or a single layer name, gives the n closest objects which are nearest to the feature (excluding the feature itself). In the case of ways/polygons, only the centerpoint is considered. " +
"Returns a list of `{feat: geojson, distance:number}` the empty list if nothing is found (or not yet loaded)\n\n" +
"If a 'unique tag key' is given, the tag with this key will only appear once (e.g. if 'name' is given, all features will have a different name)"
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_args = [
"list of features or layer name or '*' to get all features",
"amount of features",
"unique tag key (optional)",
"maxDistanceInMeters (optional)",
]
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/**
* Gets the closes N features, sorted by ascending distance.
*
* @param params: The link to mapcomplete state
* @param feature: The central feature under consideration
* @param features: The other features
* @param options: maxFeatures: The maximum amount of features to be returned. Default: 1; uniqueTag: returned features are not allowed to have the same value for this key; maxDistance: stop searching if it is too far away (in meter). Default: 500m
* @constructor
* @private
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*/
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static GetClosestNFeatures(
params: ExtraFuncParams,
feature: any,
features: string | any[],
options?: { maxFeatures?: number; uniqueTag?: string | undefined; maxDistance?: number }
): { feat: any; distance: number }[] {
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const maxFeatures = options?.maxFeatures ?? 1
const maxDistance = options?.maxDistance ?? 500
const uniqueTag: string | undefined = options?.uniqueTag
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if (typeof features === "string") {
const name = features
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const bbox = GeoOperations.bbox(
GeoOperations.buffer(GeoOperations.bbox(feature), maxDistance)
)
features = params.getFeaturesWithin(name, new BBox(bbox.geometry.coordinates))
} else {
features = [features]
}
if (features === undefined) {
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return
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}
const selfCenter = GeoOperations.centerpointCoordinates(feature)
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let closestFeatures: { feat: any; distance: number }[] = []
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for (const featureList of features) {
// Features is provided by 'getFeaturesWithin' which returns a list of lists of features, hence the double loop here
for (const otherFeature of featureList) {
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if (
otherFeature === feature ||
otherFeature.properties.id === feature.properties.id
) {
continue // We ignore self
}
const distance = GeoOperations.distanceBetween(
GeoOperations.centerpointCoordinates(otherFeature),
selfCenter
)
if (distance === undefined || distance === null || isNaN(distance)) {
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console.error(
"Could not calculate the distance between",
feature,
"and",
otherFeature
)
throw "Undefined distance!"
}
if (distance === 0) {
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console.trace(
"Got a suspiciously zero distance between",
otherFeature,
"and self-feature",
feature
)
}
if (distance > maxDistance) {
continue
}
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if (closestFeatures.length === 0) {
// This is the first matching feature we find - always add it
closestFeatures.push({
feat: otherFeature,
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distance: distance,
})
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continue
}
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if (
closestFeatures.length >= maxFeatures &&
closestFeatures[maxFeatures - 1].distance < distance
) {
// The last feature of the list (and thus the furthest away is still closer
// No use for checking, as we already have plenty of features!
continue
}
let targetIndex = closestFeatures.length
for (let i = 0; i < closestFeatures.length; i++) {
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const closestFeature = closestFeatures[i]
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if (uniqueTag !== undefined) {
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const uniqueTagsMatch =
otherFeature.properties[uniqueTag] !== undefined &&
closestFeature.feat.properties[uniqueTag] ===
otherFeature.properties[uniqueTag]
if (uniqueTagsMatch) {
targetIndex = -1
if (closestFeature.distance > distance) {
// This is a very special situation:
// We want to see the tag `uniquetag=some_value` only once in the entire list (e.g. to prevent road segements of identical names to fill up the list of 'names of nearby roads')
// AT this point, we have found a closer segment with the same, identical tag
// so we replace directly
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closestFeatures[i] = { feat: otherFeature, distance: distance }
}
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break
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}
}
if (closestFeature.distance > distance) {
targetIndex = i
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if (uniqueTag !== undefined) {
const uniqueValue = otherFeature.properties[uniqueTag]
// We might still have some other values later one with the same uniquetag that have to be cleaned
for (let j = i; j < closestFeatures.length; j++) {
if (closestFeatures[j].feat.properties[uniqueTag] === uniqueValue) {
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closestFeatures.splice(j, 1)
}
}
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}
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break
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}
}
if (targetIndex == -1) {
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continue // value is already swapped by the unique tag
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}
if (targetIndex < maxFeatures) {
// insert and drop one
closestFeatures.splice(targetIndex, 0, {
feat: otherFeature,
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distance: distance,
})
if (closestFeatures.length >= maxFeatures) {
closestFeatures.splice(maxFeatures, 1)
}
} else {
// Overwrite the last element
closestFeatures[targetIndex] = {
feat: otherFeature,
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distance: distance,
}
}
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}
}
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return closestFeatures
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}
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_f(params, feature) {
return (features, amount, uniqueTag, maxDistanceInMeters) => {
let distance: number = Number(maxDistanceInMeters)
if (isNaN(distance)) {
distance = undefined
}
return ClosestNObjectFunc.GetClosestNFeatures(params, feature, features, {
maxFeatures: Number(amount),
uniqueTag: uniqueTag,
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maxDistance: distance,
})
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}
}
}
class Memberships implements ExtraFunction {
_name = "memberships"
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_doc =
"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(';')`"
_args = []
_f(params, feat) {
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return () => params.memberships.knownRelations.data.get(feat.properties.id) ?? []
}
}
class GetParsed implements ExtraFunction {
_name = "get"
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_doc =
"Gets the property of the feature, parses it (as JSON) and returns it. Might return 'undefined' if not defined, null, ..."
_args = ["key"]
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_f(params, feat) {
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return (key) => {
const value = feat.properties[key]
if (value === undefined) {
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return undefined
}
try {
const parsed = JSON.parse(value)
if (parsed === null) {
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return undefined
}
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return parsed
} catch (e) {
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console.warn(
"Could not parse property " + key + " due to: " + e + ", the value is " + value
)
return undefined
}
}
}
}
export class ExtraFunctions {
static readonly intro = new Combine([
new Title("Calculating tags with Javascript", 2),
"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:",
new List([
"DO NOT DO THIS AS BEGINNER",
"**Only do this if all other techniques fail** This should _not_ be done to create a rendering effect, only to calculate a specific value",
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"**THIS MIGHT BE DISABLED WITHOUT ANY NOTICE ON UNOFFICIAL THEMES** As unofficial themes might be loaded from the internet, this is the equivalent of injecting arbitrary code into the client. It'll be disabled if abuse occurs.",
]),
"To enable this feature, add a field `calculatedTags` in the layer object, e.g.:",
"````",
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'"calculatedTags": [',
' "_someKey=javascript-expression",',
' "name=feat.properties.name ?? feat.properties.ref ?? feat.properties.operator",',
" \"_distanceCloserThen3Km=feat.distanceTo( some_lon, some_lat) < 3 ? 'yes' : 'no'\" ",
" ]",
"````",
"",
"The above code will be executed for every feature in the layer. The feature is accessible as `feat` and is an amended geojson object:",
new List([
"`area` contains the surface area (in square meters) of the object",
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"`lat` and `lon` contain the latitude and longitude",
]),
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"Some advanced functions are available on **feat** as well:",
])
.SetClass("flex-col")
.AsMarkdown()
private static readonly allFuncs: ExtraFunction[] = [
new DistanceToFunc(),
new OverlapFunc(),
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new EnclosingFunc(),
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new IntersectionFunc(),
new ClosestObjectFunc(),
new ClosestNObjectFunc(),
new Memberships(),
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new GetParsed(),
]
public static FullPatchFeature(params: ExtraFuncParams, feature) {
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if (feature._is_patched) {
return
}
feature._is_patched = true
for (const func of ExtraFunctions.allFuncs) {
feature[func._name] = func._f(params, feature)
}
}
public static HelpText(): BaseUIElement {
const elems = []
for (const func of ExtraFunctions.allFuncs) {
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elems.push(new Title(func._name, 3), func._doc, new List(func._args ?? [], true))
}
return new Combine([
ExtraFunctions.intro,
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new List(ExtraFunctions.allFuncs.map((func) => `[${func._name}](#${func._name})`)),
...elems,
])
}
}