mapcomplete/Logic/SimpleMetaTagger.ts

import {GeoOperations} from "./GeoOperations";
import State from "../State";
import {And} from "./Tags/And";
import {Tag} from "./Tags/Tag";
import {Or} from "./Tags/Or";
import {Utils} from "../Utils";
import opening_hours from "opening_hours";
import Combine from "../UI/Base/Combine";
import BaseUIElement from "../UI/BaseUIElement";
import Title from "../UI/Base/Title";
import {FixedUiElement} from "../UI/Base/FixedUiElement";


const cardinalDirections = {
    N: 0, NNE: 22.5, NE: 45, ENE: 67.5,
    E: 90, ESE: 112.5, SE: 135, SSE: 157.5,
    S: 180, SSW: 202.5, SW: 225, WSW: 247.5,
    W: 270, WNW: 292.5, NW: 315, NNW: 337.5
}


export default class SimpleMetaTagger {
    static coder: any;
    public static readonly objectMetaInfo = new SimpleMetaTagger(
        {
            keys: ["_last_edit:contributor",
                "_last_edit:contributor:uid",
                "_last_edit:changeset",
                "_last_edit:timestamp",
                "_version_number"],
            doc: "Information about the last edit of this object."
        },
        (feature) => {/*Note: also handled by 'UpdateTagsFromOsmAPI'*/

            const tgs = feature.properties;

            function move(src: string, target: string) {
                if (tgs[src] === undefined) {
                    return;
                }
                tgs[target] = tgs[src]
                delete tgs[src]
            }

            move("user", "_last_edit:contributor")
            move("uid", "_last_edit:contributor:uid")
            move("changeset", "_last_edit:changeset")
            move("timestamp", "_last_edit:timestamp")
            move("version", "_version_number")
        }
    )
    private static latlon = new SimpleMetaTagger({
            keys: ["_lat", "_lon"],
            doc: "The latitude and longitude of the point (or centerpoint in the case of a way/area)"
        },
        (feature => {
            const centerPoint = GeoOperations.centerpoint(feature);
            const lat = centerPoint.geometry.coordinates[1];
            const lon = centerPoint.geometry.coordinates[0];
            feature.properties["_lat"] = "" + lat;
            feature.properties["_lon"] = "" + lon;
            feature._lon = lon; // This is dirty, I know
            feature._lat = lat;
        })
    );
    private static surfaceArea = new SimpleMetaTagger(
        {
            keys: ["_surface", "_surface:ha"],
            doc: "The surface area of the feature, in square meters and in hectare. Not set on points and ways"
        },
        (feature => {
            const sqMeters = GeoOperations.surfaceAreaInSqMeters(feature);
            feature.properties["_surface"] = "" + sqMeters;
            feature.properties["_surface:ha"] = "" + Math.floor(sqMeters / 1000) / 10;
            feature.area = sqMeters;
        })
    );

    private static canonicalize = new SimpleMetaTagger(
        {
            doc: "If 'units' is defined in the layoutConfig, then this metatagger will rewrite the specified keys to have the canonical form (e.g. `1meter` will be rewritten to `1m`)",
            keys: ["Theme-defined keys"],

        },
        (feature => {
            const units = [].concat(Utils.NoNull(State.state?.layoutToUse?.data?.layers?.map(layer => layer.units)));
            let rewritten = false;
            for (const key in feature.properties) {
                if (!feature.properties.hasOwnProperty(key)) {
                    continue;
                }
                for (const unit of units) {
                    if (!unit.appliesToKeys.has(key)) {
                        continue;
                    }
                    const value = feature.properties[key]
                    const [, denomination] = unit.findDenomination(value)
                    let canonical = denomination?.canonicalValue(value) ?? undefined;
                    if (canonical === value) {
                        break;
                    }
                    console.log("Rewritten ", key, ` from '${value}' into '${canonical}'`)
                    if (canonical === undefined && !unit.eraseInvalid) {
                        break;
                    }

                    feature.properties[key] = canonical;
                    rewritten = true;
                    break;
                }

            }
            if (rewritten) {
                State.state.allElements.getEventSourceById(feature.id).ping();
            }
        })
    )

    private static lngth = new SimpleMetaTagger(
        {
            keys: ["_length", "_length:km"],
            doc: "The total length of a feature in meters (and in kilometers, rounded to one decimal for '_length:km'). For a surface, the length of the perimeter"
        },
        (feature => {
            const l = GeoOperations.lengthInMeters(feature)
            feature.properties["_length"] = "" + l
            const km = Math.floor(l / 1000)
            const kmRest = Math.round((l - km * 1000) / 100)
            feature.properties["_length:km"] = "" + km + "." + kmRest
        })
    )
    private static country = new SimpleMetaTagger(
        {
            keys: ["_country"],
            doc: "The country code of the property (with latlon2country)"
        },
        feature => {


            let centerPoint: any = GeoOperations.centerpoint(feature);
            const lat = centerPoint.geometry.coordinates[1];
            const lon = centerPoint.geometry.coordinates[0];

            SimpleMetaTagger.GetCountryCodeFor(lon, lat, (countries) => {
                try {
                    const oldCountry = feature.properties["_country"];
                    feature.properties["_country"] = countries[0].trim().toLowerCase();
                    if (oldCountry !== feature.properties["_country"]) {
                        const tagsSource = State.state.allElements.getEventSourceById(feature.properties.id);
                        tagsSource.ping();
                    }

                } catch (e) {
                    console.warn(e)
                }
            });
        }
    )
    private static isOpen = new SimpleMetaTagger(
        {
            keys: ["_isOpen", "_isOpen:description"],
            doc: "If 'opening_hours' is present, it will add the current state of the feature (being 'yes' or 'no')",
            includesDates: true
        },
        (feature => {
            if (Utils.runningFromConsole) {
                // We are running from console, thus probably creating a cache
                // isOpen is irrelevant
                return
            }

            const tagsSource = State.state.allElements.getEventSourceById(feature.properties.id);
            tagsSource.addCallbackAndRunD(tags => {
                if (tags.opening_hours === undefined || tags._country === undefined) {
                    return;
                }
                try {

                    const oh = new opening_hours(tags["opening_hours"], {
                        lat: tags._lat,
                        lon: tags._lon,
                        address: {
                            country_code: tags._country.toLowerCase()
                        }
                    }, {tag_key: "opening_hours"});
                    // AUtomatically triggered on the next change
                    const updateTags = () => {
                        const oldValueIsOpen = tags["_isOpen"];
                        const oldNextChange = tags["_isOpen:nextTrigger"] ?? 0;

                        if (oldNextChange > (new Date()).getTime() &&
                            tags["_isOpen:oldvalue"] === tags["opening_hours"]) {
                            // Already calculated and should not yet be triggered
                            return;
                        }

                        tags["_isOpen"] = oh.getState() ? "yes" : "no";
                        const comment = oh.getComment();
                        if (comment) {
                            tags["_isOpen:description"] = comment;
                        }

                        if (oldValueIsOpen !== tags._isOpen) {
                            tagsSource.ping();
                        }

                        const nextChange = oh.getNextChange();
                        if (nextChange !== undefined) {
                            const timeout = nextChange.getTime() - (new Date()).getTime();
                            tags["_isOpen:nextTrigger"] = nextChange.getTime();
                            tags["_isOpen:oldvalue"] = tags.opening_hours
                            window.setTimeout(
                                () => {
                                    console.log("Updating the _isOpen tag for ", tags.id, ", it's timer expired after", timeout);
                                    updateTags();
                                },
                                timeout
                            )
                        }
                    }
                    updateTags();
                } catch (e) {
                    console.warn("Error while parsing opening hours of ", tags.id, e);
                    tags["_isOpen"] = "parse_error";
                }

            })
        })
    )
    private static directionSimplified = new SimpleMetaTagger(
        {
            keys: ["_direction:numerical", "_direction:leftright"],
            doc: "_direction:numerical is a normalized, numerical direction based on 'camera:direction' or on 'direction'; it is only present if a valid direction is found (e.g. 38.5 or NE). _direction:leftright is either 'left' or 'right', which is left-looking on the map or 'right-looking' on the map"
        },
        (feature => {
            const tags = feature.properties;
            const direction = tags["camera:direction"] ?? tags["direction"];
            if (direction === undefined) {
                return;
            }
            const n = cardinalDirections[direction] ?? Number(direction);
            if (isNaN(n)) {
                return;
            }

            // The % operator has range (-360, 360). We apply a trick to get [0, 360).
            const normalized = ((n % 360) + 360) % 360;

            tags["_direction:numerical"] = normalized;
            tags["_direction:leftright"] = normalized <= 180 ? "right" : "left";

        })
    )
    private static carriageWayWidth = new SimpleMetaTagger(
        {
            keys: ["_width:needed", "_width:needed:no_pedestrians", "_width:difference"],
            doc: "Legacy for a specific project calculating the needed width for safe traffic on a road. Only activated if 'width:carriageway' is present"
        },
        feature => {

            const properties = feature.properties;
            if (properties["width:carriageway"] === undefined) {
                return;
            }

            const carWidth = 2;
            const cyclistWidth = 1.5;
            const pedestrianWidth = 0.75;


            const _leftSideParking =
                new And([new Tag("parking:lane:left", "parallel"), new Tag("parking:lane:right", "no_parking")]);
            const _rightSideParking =
                new And([new Tag("parking:lane:right", "parallel"), new Tag("parking:lane:left", "no_parking")]);

            const _bothSideParking = new Tag("parking:lane:both", "parallel");
            const _noSideParking = new Tag("parking:lane:both", "no_parking");
            const _otherParkingMode =
                new Or([
                    new Tag("parking:lane:both", "perpendicular"),
                    new Tag("parking:lane:left", "perpendicular"),
                    new Tag("parking:lane:right", "perpendicular"),
                    new Tag("parking:lane:both", "diagonal"),
                    new Tag("parking:lane:left", "diagonal"),
                    new Tag("parking:lane:right", "diagonal"),
                ])

            const _sidewalkBoth = new Tag("sidewalk", "both");
            const _sidewalkLeft = new Tag("sidewalk", "left");
            const _sidewalkRight = new Tag("sidewalk", "right");
            const _sidewalkNone = new Tag("sidewalk", "none");


            let parallelParkingCount = 0;


            const _oneSideParking = new Or([_leftSideParking, _rightSideParking]);

            if (_oneSideParking.matchesProperties(properties)) {
                parallelParkingCount = 1;
            } else if (_bothSideParking.matchesProperties(properties)) {
                parallelParkingCount = 2;
            } else if (_noSideParking.matchesProperties(properties)) {
                parallelParkingCount = 0;
            } else if (_otherParkingMode.matchesProperties(properties)) {
                parallelParkingCount = 0;
            } else {
                console.log("No parking data for ", properties.name, properties.id)
            }


            let pedestrianFlowNeeded;
            if (_sidewalkBoth.matchesProperties(properties)) {
                pedestrianFlowNeeded = 0;
            } else if (_sidewalkNone.matchesProperties(properties)) {
                pedestrianFlowNeeded = 2;
            } else if (_sidewalkLeft.matchesProperties(properties) || _sidewalkRight.matchesProperties(properties)) {
                pedestrianFlowNeeded = 1;
            } else {
                pedestrianFlowNeeded = -1;
            }


            let onewayCar = properties.oneway === "yes";
            let onewayBike = properties["oneway:bicycle"] === "yes" ||
                (onewayCar && properties["oneway:bicycle"] === undefined)

            let cyclingAllowed =
                !(properties.bicycle === "use_sidepath"
                    || properties.bicycle === "no");

            let carWidthUsed = (onewayCar ? 1 : 2) * carWidth;
            properties["_width:needed:cars"] = Utils.Round(carWidthUsed);
            properties["_width:needed:parking"] = Utils.Round(parallelParkingCount * carWidth)


            let cyclistWidthUsed = 0;
            if (cyclingAllowed) {
                cyclistWidthUsed = (onewayBike ? 1 : 2) * cyclistWidth;
            }
            properties["_width:needed:cyclists"] = Utils.Round(cyclistWidthUsed)


            const width = parseFloat(properties["width:carriageway"]);


            const targetWidthIgnoringPedestrians =
                carWidthUsed +
                cyclistWidthUsed +
                parallelParkingCount * carWidthUsed;
            properties["_width:needed:no_pedestrians"] = Utils.Round(targetWidthIgnoringPedestrians);

            const pedestriansNeed = Math.max(0, pedestrianFlowNeeded) * pedestrianWidth;
            const targetWidth = targetWidthIgnoringPedestrians + pedestriansNeed;
            properties["_width:needed"] = Utils.Round(targetWidth);
            properties["_width:needed:pedestrians"] = Utils.Round(pedestriansNeed)


            properties["_width:difference"] = Utils.Round(targetWidth - width);
            properties["_width:difference:no_pedestrians"] = Utils.Round(targetWidthIgnoringPedestrians - width);

        }
    );
    private static currentTime = new SimpleMetaTagger(
        {
            keys: ["_now:date", "_now:datetime", "_loaded:date", "_loaded:_datetime"],
            doc: "Adds the time that the data got loaded - pretty much the time of downloading from overpass. The format is YYYY-MM-DD hh:mm, aka 'sortable' aka ISO-8601-but-not-entirely",
            includesDates: true
        },
        (feature, _, freshness) => {
            const now = new Date();

            if (typeof freshness === "string") {
                freshness = new Date(freshness)
            }

            function date(d: Date) {
                return d.toISOString().slice(0, 10);
            }

            function datetime(d: Date) {
                return d.toISOString().slice(0, -5).replace("T", " ");
            }

            feature.properties["_now:date"] = date(now);
            feature.properties["_now:datetime"] = datetime(now);
            feature.properties["_loaded:date"] = date(freshness);
            feature.properties["_loaded:datetime"] = datetime(freshness);

        }
    )
    public static metatags = [
        SimpleMetaTagger.latlon,
        SimpleMetaTagger.surfaceArea,
        SimpleMetaTagger.lngth,
        SimpleMetaTagger.canonicalize,
        SimpleMetaTagger.country,
        SimpleMetaTagger.isOpen,
        SimpleMetaTagger.carriageWayWidth,
        SimpleMetaTagger.directionSimplified,
        SimpleMetaTagger.currentTime,
        SimpleMetaTagger.objectMetaInfo

    ];
    public readonly keys: string[];
    public readonly doc: string;
    public readonly includesDates: boolean
    private readonly _f: (feature: any, index: number, freshness: Date) => void;

    constructor(docs: { keys: string[], doc: string, includesDates?: boolean }, f: ((feature: any, index: number, freshness: Date) => void)) {
        this.keys = docs.keys;
        this.doc = docs.doc;
        this._f = f;
        this.includesDates = docs.includesDates ?? false;
        for (const key of docs.keys) {
            if (!key.startsWith('_') && key.toLowerCase().indexOf("theme") < 0) {
                throw `Incorrect metakey ${key}: it should start with underscore (_)`
            }
        }
    }

    static GetCountryCodeFor(lon: number, lat: number, callback: (country: string) => void) {
        SimpleMetaTagger.coder?.GetCountryCodeFor(lon, lat, callback)
    }

    static HelpText(): BaseUIElement {
        const subElements: (string | BaseUIElement)[] = [
            new Combine([
                new Title("Metatags", 1),
                "Metatags are extra tags available, in order to display more data or to give better questions.",
                "The are calculated automatically on every feature when the data arrives in the webbrowser. This document gives an overview of the available metatags.",
                "**Hint:** when using metatags, add the [query parameter](URL_Parameters.md) `debug=true` to the URL. This will include a box in the popup for features which shows all the properties of the object"
            ]).SetClass("flex-col")

        ];

        subElements.push(new Title("Metatags calculated by MapComplete", 2))
        subElements.push(new FixedUiElement("The following values are always calculated, by default, by MapComplete and are available automatically on all elements in every theme"))
        for (const metatag of SimpleMetaTagger.metatags) {
            subElements.push(
                new Title(metatag.keys.join(", "), 3),
                metatag.doc
            )
        }

        return new Combine(subElements).SetClass("flex-col")
    }

    addMetaTags(features: { feature: any, freshness: Date }[]) {
        for (let i = 0; i < features.length; i++) {
            let feature = features[i];
            this._f(feature.feature, i, feature.freshness);
        }
    }


}