import UserRelatedState from "./UserRelatedState";
import {UIEventSource} from "../UIEventSource";
import BaseLayer from "../../Models/BaseLayer";
import LayoutConfig from "../../Models/ThemeConfig/LayoutConfig";
import AvailableBaseLayers from "../Actors/AvailableBaseLayers";
import Attribution from "../../UI/BigComponents/Attribution";
import Minimap, {MinimapObj} from "../../UI/Base/Minimap";
import {Tiles} from "../../Models/TileRange";
import BaseUIElement from "../../UI/BaseUIElement";
import FilteredLayer, {FilterState} from "../../Models/FilteredLayer";
import TilesourceConfig from "../../Models/ThemeConfig/TilesourceConfig";
import {QueryParameters} from "../Web/QueryParameters";
import ShowOverlayLayer from "../../UI/ShowDataLayer/ShowOverlayLayer";
import {FeatureSourceForLayer, Tiled} from "../FeatureSource/FeatureSource";
import SimpleFeatureSource from "../FeatureSource/Sources/SimpleFeatureSource";
import {LocalStorageSource} from "../Web/LocalStorageSource";
import {GeoOperations} from "../GeoOperations";
import TitleHandler from "../Actors/TitleHandler";
import {BBox} from "../BBox";
import LayerConfig from "../../Models/ThemeConfig/LayerConfig";

/**
 * Contains all the leaflet-map related state
 */
export default class MapState extends UserRelatedState {

    /**
     The leaflet instance of the big basemap
     */
    public leafletMap = new UIEventSource<any /*L.Map*/>(undefined, "leafletmap");
    /**
     * A list of currently available background layers
     */
    public availableBackgroundLayers: UIEventSource<BaseLayer[]>;

    /**
     * The current background layer
     */
    public backgroundLayer: UIEventSource<BaseLayer>;
    /**
     * Last location where a click was registered
     */
    public readonly LastClickLocation: UIEventSource<{
        lat: number;
        lon: number;
    }> = new UIEventSource<{ lat: number; lon: number }>(undefined);

    /**
     * The bounds of the current map view
     */
    public currentView: FeatureSourceForLayer & Tiled;
    /**
     * The location as delivered by the GPS
     */
    public currentUserLocation: FeatureSourceForLayer & Tiled;

    /**
     * All previously visited points
     */
    public historicalUserLocations: FeatureSourceForLayer & Tiled;
    /**
     * The number of seconds that the GPS-locations are stored in memory.
     * Time in seconds
     */
    public gpsLocationHistoryRetentionTime = new UIEventSource(7 * 24 * 60 * 60, "gps_location_retention")
    public historicalUserLocationsTrack: FeatureSourceForLayer & Tiled;

    /**
     * A feature source containing the current home location of the user
     */
    public homeLocation: FeatureSourceForLayer & Tiled

    public readonly mainMapObject: BaseUIElement & MinimapObj;


    /**
     * Which layers are enabled in the current theme and what filters are applied onto them
     */
    public filteredLayers: UIEventSource<FilteredLayer[]> = new UIEventSource<FilteredLayer[]>([], "filteredLayers");
    /**
     * Which overlays are shown
     */
    public overlayToggles: { config: TilesourceConfig, isDisplayed: UIEventSource<boolean> }[]


    constructor(layoutToUse: LayoutConfig, options?: { attemptLogin: true | boolean }) {
        super(layoutToUse, options);

        this.availableBackgroundLayers = AvailableBaseLayers.AvailableLayersAt(this.locationControl);

        let defaultLayer = AvailableBaseLayers.osmCarto
        const available = this.availableBackgroundLayers.data;
        for (const layer of available) {
            if (this.backgroundLayerId.data === layer.id) {
                defaultLayer = layer;
            }
        }
        const self = this
        this.backgroundLayer = new UIEventSource<BaseLayer>(defaultLayer)
        this.backgroundLayer.addCallbackAndRunD(layer => self.backgroundLayerId.setData(layer.id))

        const attr = new Attribution(
            this.locationControl,
            this.osmConnection.userDetails,
            this.layoutToUse,
            this.currentBounds
        );

        // Will write into this.leafletMap
        this.mainMapObject = Minimap.createMiniMap({
            background: this.backgroundLayer,
            location: this.locationControl,
            leafletMap: this.leafletMap,
            bounds: this.currentBounds,
            attribution: attr,
            lastClickLocation: this.LastClickLocation
        })


        this.overlayToggles = this.layoutToUse?.tileLayerSources
            ?.filter(c => c.name !== undefined)
            ?.map(c => ({
            config: c,
            isDisplayed: QueryParameters.GetBooleanQueryParameter("overlay-" + c.id, c.defaultState, "Wether or not the overlay " + c.id + " is shown")
        })) ?? []
        this.filteredLayers = this.InitializeFilteredLayers()


        this.lockBounds()
        this.AddAllOverlaysToMap(this.leafletMap)

        this.initHomeLocation()
        this.initGpsLocation()
        this.initUserLocationTrail()
        this.initCurrentView()

        new TitleHandler(this);
    }

    public AddAllOverlaysToMap(leafletMap: UIEventSource<any>) {
        const initialized = new Set()
        for (const overlayToggle of this.overlayToggles) {
            new ShowOverlayLayer(overlayToggle.config, leafletMap, overlayToggle.isDisplayed)
            initialized.add(overlayToggle.config)
        }

        for (const tileLayerSource of this.layoutToUse?.tileLayerSources ?? []) {
            if (initialized.has(tileLayerSource)) {
                continue
            }
            new ShowOverlayLayer(tileLayerSource, leafletMap)
        }

    }

    private lockBounds() {
        const layout = this.layoutToUse;
        if (!layout?.lockLocation) {
            return;
        }
        console.warn("Locking the bounds to ", layout.lockLocation);
        this.mainMapObject.installBounds(
            new BBox(layout.lockLocation),
            this.featureSwitchIsTesting.data
        )
    }

    private initCurrentView() {
        let currentViewLayer: FilteredLayer = this.filteredLayers.data.filter(l => l.layerDef.id === "current_view")[0]

        if (currentViewLayer === undefined) {
            // This layer is not needed by the theme and thus unloaded
            return;
        }


        let i = 0
        const self = this;
        const features: UIEventSource<{ feature: any, freshness: Date }[]> = this.currentBounds.map(bounds => {
            if (bounds === undefined) {
                return []
            }
            i++
            const feature = {
                freshness: new Date(),
                feature: {
                    type: "Feature",
                    properties: {
                        id: "current_view-" + i,
                        "current_view": "yes",
                        "zoom": "" + self.locationControl.data.zoom
                    },
                    geometry: {
                        type: "Polygon",
                        coordinates: [[
                            [bounds.maxLon, bounds.maxLat],
                            [bounds.minLon, bounds.maxLat],
                            [bounds.minLon, bounds.minLat],
                            [bounds.maxLon, bounds.minLat],
                            [bounds.maxLon, bounds.maxLat],
                        ]]
                    }
                }
            }
            return [feature]
        })

        this.currentView = new SimpleFeatureSource(currentViewLayer, 0, features)
    }

    private initGpsLocation() {
        // Initialize the gps layer data. This is emtpy for now, the actual writing happens in the Geolocationhandler
        let gpsLayerDef: FilteredLayer = this.filteredLayers.data.filter(l => l.layerDef.id === "gps_location")[0]
        if (gpsLayerDef === undefined) {
            return
        }
        this.currentUserLocation = new SimpleFeatureSource(gpsLayerDef, Tiles.tile_index(0, 0, 0));
    }

    private initUserLocationTrail() {
        const features = LocalStorageSource.GetParsed<{ feature: any, freshness: Date }[]>("gps_location_history", [])
        const now = new Date().getTime()
        features.data = features.data
            .map(ff => ({feature: ff.feature, freshness: new Date(ff.freshness)}))
            .filter(ff => (now - ff.freshness.getTime()) < 1000 * this.gpsLocationHistoryRetentionTime.data)
        features.ping()
        const self = this;
        let i = 0
        this.currentUserLocation?.features?.addCallbackAndRunD(([location]) => {
            if (location === undefined) {
                return;
            }

            const previousLocation = features.data[features.data.length - 1]
            if (previousLocation !== undefined) {
                const d = GeoOperations.distanceBetween(
                    previousLocation.feature.geometry.coordinates,
                    location.feature.geometry.coordinates
                )
                let timeDiff = Number.MAX_VALUE // in seconds
                const olderLocation = features.data[features.data.length - 2]
                if (olderLocation !== undefined) {
                    timeDiff = (new Date(previousLocation.freshness).getTime() - new Date(olderLocation.freshness).getTime()) / 1000
                }
                if (d < 20 && timeDiff < 60) {
                    // Do not append changes less then 20m - it's probably noise anyway
                    return;
                }
            }

            const feature = JSON.parse(JSON.stringify(location.feature))
            feature.properties.id = "gps/" + features.data.length
            i++
            features.data.push({feature, freshness: new Date()})
            features.ping()
        })


        let gpsLayerDef: FilteredLayer = this.filteredLayers.data.filter(l => l.layerDef.id === "gps_location_history")[0]
        if (gpsLayerDef !== undefined) {
            this.historicalUserLocations = new SimpleFeatureSource(gpsLayerDef, Tiles.tile_index(0, 0, 0), features);
            this.changes.setHistoricalUserLocations(this.historicalUserLocations)
        }


        const asLine = features.map(allPoints => {
            if (allPoints === undefined || allPoints.length < 2) {
                return []
            }

            const feature = {
                type: "Feature",
                properties: {
                    "id": "location_track",
                    "_date:now": new Date().toISOString(),
                },
                geometry: {
                    type: "LineString",
                    coordinates: allPoints.map(ff => ff.feature.geometry.coordinates)
                }
            }

            self.allElements.ContainingFeatures.set(feature.properties.id, feature)

            return [{
                feature,
                freshness: new Date()
            }]
        })
        let gpsLineLayerDef: FilteredLayer = this.filteredLayers.data.filter(l => l.layerDef.id === "gps_track")[0]
        if (gpsLineLayerDef !== undefined) {
            this.historicalUserLocationsTrack = new SimpleFeatureSource(gpsLineLayerDef, Tiles.tile_index(0, 0, 0), asLine);
        }
    }

    private initHomeLocation() {
        const empty = []
        const feature = UIEventSource.ListStabilized(this.osmConnection.userDetails.map(userDetails => {

            if (userDetails === undefined) {
                return undefined;
            }
            const home = userDetails.home;
            if (home === undefined) {
                return undefined;
            }
            return [home.lon, home.lat]
        })).map(homeLonLat => {
            if (homeLonLat === undefined) {
                return empty
            }
            return [{
                feature: {
                    "type": "Feature",
                    "properties": {
                        "id": "home",
                        "user:home": "yes",
                        "_lon": homeLonLat[0],
                        "_lat": homeLonLat[1]
                    },
                    "geometry": {
                        "type": "Point",
                        "coordinates": homeLonLat
                    }
                }, freshness: new Date()
            }]
        })

        const flayer = this.filteredLayers.data.filter(l => l.layerDef.id === "home_location")[0]
        if (flayer !== undefined) {
            this.homeLocation = new SimpleFeatureSource(flayer, Tiles.tile_index(0, 0, 0), feature)
        }

    }

    private getPref(key: string, layer: LayerConfig): UIEventSource<boolean> {
      const pref = this.osmConnection
            .GetPreference(key)
            .map(v => {
                if(v === undefined){
                    return undefined
                }
                return v === "true";
            }, [], b => {
                if(b === undefined){
                    return undefined
                }
                return "" + b;
            })
        pref.setData(layer.shownByDefault)
        return pref
    }

    private InitializeFilteredLayers() {
        const layoutToUse = this.layoutToUse;
        if(layoutToUse === undefined){
            return new UIEventSource<FilteredLayer[]>([])
        }
        const flayers: FilteredLayer[] = [];
        for (const layer of layoutToUse.layers) {
            let isDisplayed: UIEventSource<boolean>
            if (layer.syncSelection === "local") {
                isDisplayed = LocalStorageSource.GetParsed(layoutToUse.id + "-layer-" + layer.id + "-enabled", layer.shownByDefault)
            } else if (layer.syncSelection === "theme-only") {
                isDisplayed = this.getPref(layoutToUse.id+ "-layer-" + layer.id + "-enabled", layer)
            } else if (layer.syncSelection === "global") {
                isDisplayed = this.getPref("layer-" + layer.id + "-enabled", layer)
            } else {
                isDisplayed = QueryParameters.GetBooleanQueryParameter("layer-" + layer.id, layer.shownByDefault, "Wether or not layer "+layer.id+" is shown")
            }


            const flayer: FilteredLayer = {
                isDisplayed: isDisplayed,
                layerDef: layer,
                appliedFilters: new UIEventSource<Map<string, FilterState>>(new Map<string, FilterState>())
            };
            layer.filters.forEach(filterConfig => {
                const stateSrc = filterConfig.initState()

                stateSrc.addCallbackAndRun(state => flayer.appliedFilters.data.set(filterConfig.id, state))
                flayer.appliedFilters.map(dict => dict.get(filterConfig.id))
                    .addCallback(state => stateSrc.setData(state))
            })

            flayers.push(flayer);
        }

        for (const layer of layoutToUse.layers) {
            if (layer.filterIsSameAs === undefined) {
                continue
            }
            const toReuse = flayers.find(l => l.layerDef.id === layer.filterIsSameAs)
            if (toReuse === undefined) {
                throw "Error in layer " + layer.id + ": it defines that it should be use the filters of " + layer.filterIsSameAs + ", but this layer was not loaded"
            }
            console.warn("Linking filter and isDisplayed-states of " + layer.id + " and " + layer.filterIsSameAs)
            const selfLayer = flayers.findIndex(l => l.layerDef.id === layer.id)
            flayers[selfLayer] = {
                isDisplayed: toReuse.isDisplayed,
                layerDef: layer,
                appliedFilters: toReuse.appliedFilters
            };
        }

        return new UIEventSource<FilteredLayer[]>(flayers);
    }


}