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import { GeoOperations } from "./GeoOperations" ;
import Combine from "../UI/Base/Combine" ;
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import { Relation } from "./Osm/ExtractRelations" ;
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import State from "../State" ;
import { Utils } from "../Utils" ;
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import BaseUIElement from "../UI/BaseUIElement" ;
import List from "../UI/Base/List" ;
import Title from "../UI/Base/Title" ;
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import * as AR from "aspected-routing"
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export class ExtraFunction {
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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" ,
"**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.:" ,
"````" ,
"\"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" ,
"`lat` and `lon` contain the latitude and longitude"
] ) ,
"Some advanced functions are available on **feat** as well:"
] ) . SetClass ( "flex-col" ) . AsMarkdown ( ) ;
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private static readonly OverlapFunc = new ExtraFunction (
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"overlapWith" ,
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"Gives a list of features from the specified layer which this feature (partly) overlaps with. If the current feature is a point, all features that embed the point are given. 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" ,
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[ "...layerIds - one or more layer ids of the layer from which every feature is checked for overlap)" ] ,
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( params , feat ) = > {
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return ( . . . layerIds : string [ ] ) = > {
const result = [ ]
for ( const layerId of layerIds ) {
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const otherLayer = params . featuresPerLayer . get ( layerId ) ;
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if ( otherLayer === undefined ) {
continue ;
}
if ( otherLayer . length === 0 ) {
continue ;
}
result . push ( . . . GeoOperations . calculateOverlap ( feat , otherLayer ) ) ;
}
return result ;
}
}
)
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private static readonly DistanceToFunc = new ExtraFunction (
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"distanceTo" ,
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"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" ,
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[ "longitude" , "latitude" ] ,
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( featuresPerLayer , feature ) = > {
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return ( arg0 , lat ) = > {
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if ( typeof arg0 === "number" ) {
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// Feature._lon and ._lat is conveniently place by one of the other metatags
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return GeoOperations . distanceBetween ( [ arg0 , lat ] , [ feature . _lon , feature . _lat ] ) ;
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}
if ( typeof arg0 === "string" ) {
// This is an identifier
const feature = State . state . allElements . ContainingFeatures . get ( arg0 ) ;
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if ( feature === undefined ) {
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return undefined ;
}
arg0 = feature ;
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}
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// arg0 is probably a feature
return GeoOperations . distanceBetween ( GeoOperations . centerpointCoordinates ( arg0 ) , [ feature . _lon , feature . _lat ] )
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}
}
)
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private static readonly ClosestObjectFunc = new ExtraFunction (
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"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" ] ,
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( params , feature ) = > {
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return ( features ) = > {
if ( typeof features === "string" ) {
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const name = features
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features = params . featuresPerLayer . get ( features )
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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 ;
}
}
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}
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let closestFeature = undefined ;
let closestDistance = undefined ;
for ( const otherFeature of features ) {
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if ( otherFeature == feature || otherFeature . id == feature . id ) {
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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 ]
)
}
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if ( distance === undefined ) {
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throw "Undefined distance!"
}
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if ( closestFeature === undefined || distance < closestDistance ) {
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closestFeature = otherFeature
closestDistance = distance ;
}
}
return closestFeature ;
}
}
)
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private static readonly Memberships = new ExtraFunction (
"memberships" ,
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"Gives a list of `{role: string, relation: Relation}`-objects, containing all the relations that this feature is part of. " +
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"\n\n" +
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"For example: `_part_of_walking_routes=feat.memberships().map(r => r.relation.tags.name).join(';')`" ,
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[ ] ,
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( params , _ ) = > {
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return ( ) = > params . relations ? ? [ ] ;
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}
)
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private static readonly AspectedRouting = new ExtraFunction (
"score" ,
"Given the path of an aspected routing json file, will calculate the score" +
"\n\n" +
"For example: `_comfort_score=feat.score('https://raw.githubusercontent.com/pietervdvn/AspectedRouting/master/Examples/bicycle/aspects/bicycle.comfort.json')`" ,
[ ] ,
( params , _ ) = > {
return ( ) = > params . relations ? ? [ ] ;
}
)
private static readonly allFuncs : ExtraFunction [ ] = [
ExtraFunction . DistanceToFunc ,
ExtraFunction . OverlapFunc ,
ExtraFunction . ClosestObjectFunc ,
ExtraFunction . Memberships ,
ExtraFunction . AspectedRouting
] ;
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private readonly _name : string ;
private readonly _args : string [ ] ;
private readonly _doc : string ;
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private readonly _f : ( params : { featuresPerLayer : Map < string , any [ ] > , relations : { role : string , relation : Relation } [ ] } , feat : any ) = > any ;
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constructor ( name : string , doc : string , args : string [ ] , f : ( ( params : { featuresPerLayer : Map < string , any [ ] > , relations : { role : string , relation : Relation } [ ] } , feat : any ) = > any ) ) {
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this . _name = name ;
this . _doc = doc ;
this . _args = args ;
this . _f = f ;
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console . dir ( AR )
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}
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public static FullPatchFeature ( featuresPerLayer : Map < string , any [ ] > , relations : { role : string , relation : Relation } [ ] , feature ) {
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for ( const func of ExtraFunction . allFuncs ) {
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func . PatchFeature ( featuresPerLayer , relations , feature ) ;
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}
}
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public static HelpText ( ) : BaseUIElement {
const elems = [ ]
for ( const func of ExtraFunction . allFuncs ) {
elems . push ( new Title ( func . _name , 3 ) ,
func . _doc ,
new List ( func . _args , true ) )
}
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return new Combine ( [
ExtraFunction . intro ,
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new List ( ExtraFunction . allFuncs . map ( func = > func . _name ) ) ,
. . . elems
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] ) ;
}
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public PatchFeature ( featuresPerLayer : Map < string , any [ ] > , relations : { role : string , relation : Relation } [ ] , feature : any ) {
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feature [ this . _name ] = this . _f ( { featuresPerLayer : featuresPerLayer , relations : relations } , feature ) ;
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}
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}