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Add closestN function, update docs

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pietervdvn 2021-09-18 02:29:05 +02:00
parent d5853050b0
commit 30ceaa74b1
1 changed files with 138 additions and 47 deletions
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185
Logic/ExtraFunction.ts
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@ -45,7 +45,11 @@ export class ExtraFunction {
private static readonly OverlapFunc = new ExtraFunction(
{
name: "overlapWith",
doc: "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",
doc: "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.\n" +
"\n" +
"For example to get all objects which overlap or embed from a layer, use `_contained_climbing_routes_properties=feat.overlapWith('climbing_route')`",
args: ["...layerIds - one or more layer ids of the layer from which every feature is checked for overlap)"]
},
(params, feat) => {
@ -92,59 +96,32 @@ export class ExtraFunction {
}
}
)
private static readonly ClosestObjectFunc = new ExtraFunction(
{
name: "closest",
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.",
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 laoded)",
args: ["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 || otherFeature.id == feature.id) {
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;
}
return (features) => ExtraFunction.GetClosestNFeatures(params, feature, features)[0].feat
}
)
private static readonly ClosestNObjectFunc = new ExtraFunction(
{
name: "closestn",
doc: "Given either a list of geojson features or a single layer name, gives the n closest objects which are nearest to the feature. 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 laoded)\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)",
args: ["list of features", "amount of features", "unique tag key (optional)"]
},
(params, feature) => {
return (features, amount, uniqueTag) => ExtraFunction.GetClosestNFeatures(params, feature, features, {
maxFeatures: Number(amount),
uniqueTag: uniqueTag
})
}
)
private static readonly Memberships = new ExtraFunction(
{
@ -158,7 +135,6 @@ export class ExtraFunction {
return () => params.relations ?? [];
}
)
private static readonly AspectedRouting = new ExtraFunction(
{
name: "score",
@ -178,11 +154,11 @@ export class ExtraFunction {
}
}
)
private static readonly allFuncs: ExtraFunction[] = [
ExtraFunction.DistanceToFunc,
ExtraFunction.OverlapFunc,
ExtraFunction.ClosestObjectFunc,
ExtraFunction.ClosestNObjectFunc,
ExtraFunction.Memberships,
ExtraFunction.AspectedRouting
];
@ -221,6 +197,121 @@ export class ExtraFunction {
]);
}
/**
* Gets the closes N features, sorted by ascending distance
*/
private static GetClosestNFeatures(params, feature, features, options?: { maxFeatures?: number, uniqueTag?: string | undefined }): { feat: any, distance: number }[] {
const maxFeatures = options?.maxFeatures ?? 1
const uniqueTag : string | undefined = options?.uniqueTag
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 closestFeatures: { feat: any, distance: number }[] = [];
for (const otherFeature of features) {
if (otherFeature == feature || otherFeature.id == feature.id) {
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 (closestFeatures.length === 0) {
closestFeatures.push({
feat: otherFeature,
distance: distance
})
continue;
}
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++) {
const closestFeature = closestFeatures[i];
if (uniqueTag !== undefined) {
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
closestFeatures[i] = {feat: otherFeature, distance: distance}
}
break;
}
}
if (closestFeature.distance > distance) {
targetIndex = i
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){
closestFeatures.splice(j, 1)
}
}
}
break;
}
}
if (targetIndex == -1) {
continue; // value is already swapped by the unique tag
}
if (targetIndex < maxFeatures) {
// insert and drop one
closestFeatures.splice(targetIndex, 0, {
feat: otherFeature,
distance: distance
})
if (closestFeatures.length >= maxFeatures) {
closestFeatures.splice(maxFeatures, 1)
}
} else {
// Overwrite the last element
closestFeatures[targetIndex] = {
feat: otherFeature,
distance: distance
}
}
}
return closestFeatures;
}
public PatchFeature(featuresPerLayer: Map<string, any[]>, relations: { role: string, relation: Relation }[], feature: any) {
feature[this._name] = this._f({featuresPerLayer: featuresPerLayer, relations: relations}, feature)
}