mirror of
https://github.com/ConnectedHumber/Air-Quality-Web
synced 2024-11-22 06:23:01 +00:00
293 lines
8.2 KiB
JavaScript
293 lines
8.2 KiB
JavaScript
"use strict";
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import HeatmapOverlay from 'leaflet-heatmap';
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import Config from './Config.mjs';
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import GetFromUrl from './Helpers/GetFromUrl.mjs';
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import { RenderGradient } from './Helpers/GradientHelpers.mjs';
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import Guage from './Guage.mjs';
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class LayerHeatmap {
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/**
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* Creates a new heatmap manager wrapper class fort he given map.
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* @param {L.Map} in_map The leaflet map to attach to.
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*/
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constructor(in_map, in_device_data) {
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this.map = in_map;
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this.device_data = in_device_data;
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this.overlay_config = {
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radius: Config.heatmap.blob_radius,
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minOpacity: 0.5,
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maxOpacity: 0.8,
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scaleRadius: true,
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useLocalExtrema: false,
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latField: "latitude",
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lngField: "longitude",
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valueField: "value",
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gradient: { } // Automatically filled in further down
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};
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this.layer = new L.LayerGroup();
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this.map.addLayer(this.layer);
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this.recreate_overlay();
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// Custom configuration directives to apply based on the reading type displayed.
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this.reading_type_configs = {
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"PM25": {
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/*
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* Range Midpoint Name Colour
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* 0 - 11 5.5 Low 1 #9CFF9C
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* 12 - 23 17.5 Low 2 #31FF00
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* 24 - 35 29.5 Low 3 #31CF00
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* 36 - 41 38.5 Moderate 1 #FFFF00
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* 42 - 47 44.5 Moderate 2 #FFCF00
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* 48 - 53 50.5 Moderate 3 #FF9A00
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* 54 - 58 56 High 1 #FF6464
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* 59 - 64 61.5 High 2 #FF0000
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* 65 - 70 67.5 High 3 #990000
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* 71+ n/a Very high #CE30FF
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*/
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max: 75,
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gradient: {
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"0": "#9CFF9C", "5.5": "#9CFF9C", // Low 1
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"17.5": "#31FF00", // Low 2
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"29.5": "#31CF00", // Low 3
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"38.5": "#FFFF00", // Moderate 1
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"44.5": "#FFCF00", // Moderate 2
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"50.5": "#FF9A00", // Moderate 3
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"56": "#FF6464", // High 1
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"61.5": "#FF0000", // High 2
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"67.5": "#990000", // High 3
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"72.5": "#CE30FF", "75": "#CE30FF", // Very high
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}
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},
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"PM10": {
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/*
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* Range Midpoint Name Colour
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* 0-16 8 Low 1 #9CFF9C
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* 17-33 25 Low 2 #31FF00
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* 34-50 42 Low 3 #31CF00
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* 51-58 54.5 Moderate 1 #FFFF00
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* 59-66 62.5 Moderate 2 #FFCF00
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* 67-75 71 Moderate 3 #FF9A00
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* 76-83 79.5 High 1 #FF6464
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* 84-91 87.5 High 2 #FF0000
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* 92-100 96 High 3 #990000
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* 101 105.5 Very High #CE30FF
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*/
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max: 110,
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gradient: {
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"0": "#9CFF9C", "8": "#9CFF9C", // Low 1
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"25": "#31FF00", // Low 2
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"42": "#31CF00", // Low 3
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"54.5": "#FFFF00", // Moderate 1
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"62.5": "#FFCF00", // Moderate 2
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"71": "#FF9A00", // Moderate 3
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"79.5": "#FF6464", // High 1
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"87.5": "#FF0000", // High 2
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"96": "#990000", // High 3
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"105.5": "#CE30FF", "110": "#CE30FF", // Very high
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}
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},
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"humidity": {
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max: 100,
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gradient: {
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"0": "hsla(176, 77%, 40%, 0)",
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"50": "hsl(176, 77%, 40%)",
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"100": "blue"
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}
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},
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"temperature": {
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max: 40,
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gradient: {
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"0": "blue",
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"5": "cyan",
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"15": "green",
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"20": "yellow",
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"30": "orange",
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"40": "red"
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}
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},
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"pressure": {
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max: 1100,
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gradient: {
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"870": "purple",
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"916": "red",
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"962": "orange",
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"1008": "yellow",
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"1054": "green",
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"1100": "#BFED91"
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}
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}
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};
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this.guage = new Guage(document.getElementById("canvas-guage"));
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this.reading_cache = new Map();
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}
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/**
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* Re-creates the heatmap overlay layer.
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* Needed sometimes internally to work around an annoying bug.
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*/
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recreate_overlay() {
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if(typeof this.heatmap != "undefined")
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this.layer.removeLayer(this.heatmap);
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this.heatmap = new HeatmapOverlay(this.overlay_config);
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this.layer.addLayer(this.heatmap);
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}
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/**
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* Sets the display data to the given array of data points.
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* @param {object[]} readings_list The array of data points to display.
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*/
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set_data(readings_list) {
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// Substitute in the device locations
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for(let reading of readings_list) {
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let device_info = this.device_data.get_by_id(reading.device_id);
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reading.latitude = device_info.latitude;
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reading.longitude = device_info.longitude;
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}
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let data_object = {
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max: 0,
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data: readings_list
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};
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if(typeof this.reading_type_configs[this.reading_type] != "undefined")
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data_object.max = this.reading_type_configs[this.reading_type].max;
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else
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data_object.max = readings_list.reduce((prev, next) => next.value > prev ? next.value : prev, 0);
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console.log("[map/heatmap] Displaying", this.reading_type, data_object);
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this.heatmap.setData(data_object);
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}
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/**
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* Updates the heatmap with data for the specified datetime & reading type,
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* fetching new data if necessary.
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* @param {Date} datetime The datetime to display.
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* @param {string} reading_type The reading type to display data for.
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* @return {Promise} A promise that resolves when the operation is completed.
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*/
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async update_data(datetime, reading_type) {
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if(!(datetime instanceof Date))
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throw new Error("Error: 'datetime' must be an instance of Date.");
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if(typeof reading_type != "string")
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throw new Error("Error: 'reading_type' must be a string.");
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this.datetime = datetime;
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this.reading_type = reading_type;
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console.log("[map/heatmap] Updating values to", this.reading_type, "@", this.datetime);
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if(typeof this.reading_type_configs[this.reading_type] != "undefined") {
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this.overlay_config.gradient = RenderGradient(
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this.reading_type_configs[this.reading_type].gradient,
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this.reading_type_configs[this.reading_type].max
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);
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console.log("[map/heatmap] Gradient is now", this.overlay_config.gradient);
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this.recreate_overlay();
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}
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else {
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delete this.overlay_config.gradient;
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}
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this.guage.set_spec(
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this.reading_type_configs[this.reading_type].gradient,
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this.reading_type_configs[this.reading_type].max
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);
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this.guage.render();
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try {
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this.set_data(await this.fetch_data(this.datetime, this.reading_type));
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} catch(error) {
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console.log(error);
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alert(error);
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}
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}
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/**
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* Fetches & decodes data for the given datetime and the current reading type.
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* @param {Date} datetime The Date to fetch data for.
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* @param {string} reading_type The reading type code to fetch data for.
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* @return {Promise} The requested data array, as the return value of a promise
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*/
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async fetch_data(datetime, reading_type) {
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let cache_key = `${reading_type}|${datetime.toISOString()}`;
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let result = this.reading_cache.get(cache_key);
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if(typeof result == "undefined") {
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result = JSON.parse(await GetFromUrl(
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`${Config.api_root}?action=fetch-data&datetime=${encodeURIComponent(datetime.toISOString())}&reading_type=${encodeURIComponent(reading_type)}`
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));
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this.prune_cache(100);
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this.reading_cache.set(cache_key, { data: result, inserted: new Date() });
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}
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else
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result = result.data;
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return result;
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}
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/**
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* Prunes the reading cache, leaving at most newest_count items behind.
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* The items inserted first are deleted first.
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* @param {Number} newest_count The numebr of items to leave behind in the cache.
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* @returns {Number} The number of items deleted from the cache.
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*/
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prune_cache(newest_count) {
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let items = [];
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for(let next_key of this.reading_cache) {
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let cache_item = this.reading_cache.get(next_key);
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if(typeof cache_item == "undefined") {
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this.reading_cache.delete(cache_item);
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continue;
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}
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items.push({
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key: next_key,
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date: cache_item.inserted
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});
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}
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items.sort((a, b) => a.date - b.date);
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let deleted = 0;
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for(let i = 0; i < items.length - newest_count; i++) {
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this.reading_cache.delete(this.items[i].key);
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deleted++;
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}
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return deleted;
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}
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/**
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* Whether the reading cache contains data for the given datetime & reading type.
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* @param {Date} datetime The datetime to check.
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* @param {string} reading_type The reading type code to check.
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* @return {Boolean} Whether the reading cache contains data for the requested datetime & reading type.
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*/
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is_data_cached(datetime, reading_type) {
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let cache_key = Symbol.for(`${reading_type}|${datetime.toISOString()}`);
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return this.reading_cache.has(cache_key);
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}
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async update_reading_type(reading_type) {
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await this.update_data(
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this.datetime,
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reading_type
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);
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}
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async refresh_display() {
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await this.update_data(
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this.datetime,
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this.reading_type
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);
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}
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}
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export default LayerHeatmap;
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