Air-Quality-Web/client_src/js/DeviceReadingDisplay.mjs

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JavaScript
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"use strict";
// import CreateElement from 'dom-create-element-query-selector';
// We're using the git repo for now until an update is released, and rollup doesn't like that apparently
import CreateElement from '../../node_modules/dom-create-element-query-selector/src/index.js';
import moment from 'moment';
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// import Chart from 'chart.js';
// Chart.js pollutes the global scope, but the main entry point is going to change soon in v2.8 - which should fix our issue here
import Chart from '../../node_modules/chart.js/dist/Chart.bundle.min.js';
import GetFromUrl from './Helpers/GetFromUrl.mjs';
import GetContainingElement from './Helpers/GetContainingElement.mjs';
import Postify from './Helpers/Postify.mjs';
class DeviceReadingDisplay {
constructor(in_config, in_device_id) {
this.config = in_config;
/** The ID of the device to display a graph for. @type {int} */
this.device_id = in_device_id;
/** The current reading type to display a graph for. @type {Object} */
this.reading_type = null;
// The number of points to display at a time.
this.points_resolution = 50;
this.start_time = moment().subtract(1, "days");
this.end_time = moment();
this.default_colours = {
borderColor: "hsla(0, 0%, 50%, 1)",
backgroundColor: "hsla(0, 0%, 65%, 0.5)"
};
this.reading_type_defs = {
"PM10": {
suggestedMin: 0,
suggestedMax: 110,
borderColor: "hsla(0, 82%, 56%, 1)",
backgroundColor: "hsla(14, 94%, 71%, 0.57)"
},
"PM25": {
suggestedMin: 0,
suggestedMax: 75,
borderColor: "hsla(33, 70%, 51%, 1)",
backgroundColor: "hsla(28, 77%, 58%, 0.63)"
},
"temperature": {
suggestedMin: 0,
suggestedMax: 20,
borderColor: "hsla(0, 77%, 45%, 1)",
backgroundColor: "hsla(0, 61%, 58%, 0.59)"
},
"humidity": {
suggestedMin: 0,
suggestedMax: 100,
borderColor: "hsla(184, 69%, 40%, 1)",
backgroundColor: "hsla(188, 53%, 46%, 0.58)"
},
"pressure": {
borderColor: "hsla(258, 67%, 40%, 1)",
backgroundColor: "hsla(249, 56%, 40%, 0.66)"
}
};
}
async setup(default_reading_type) {
// 1: Display window HTML
// ----------------------------------------------------
// Create the display element first, as we need it to be immediately available for inclusion in the popup window
/** @type {HTMLElement} */
this.display = CreateElement("div.chart-device-data.working",
CreateElement("canvas.canvas-chart"),
CreateElement("ul.reading-types.button-array"),
CreateElement("ul.quick-time-selector.button-array",
CreateElement("li", CreateElement("button[data-timelength=1h]", "1 hour")),
CreateElement("li", CreateElement("button[data-timelength=6h]", "6 hours")),
CreateElement("li", CreateElement("button[data-timelength=1d].selected", "1 day")),
CreateElement("li", CreateElement("button[data-timelength=1w]", "1 week")),
CreateElement("li", CreateElement("button[data-timelength=1M]", "1 month")),
CreateElement("li", CreateElement("button[data-timelength=3M]", "3 months")),
CreateElement("li", CreateElement("button[data-timelength=1y]", "1 year"))
),
CreateElement("ul.adv-time-selector.button-array",
CreateElement("li", CreateElement("button.timeinterval.prev[title=Previous Time Interval]", "«")),
CreateElement("li", CreateElement("input.time-start-date[type=date]")),
CreateElement("li", CreateElement("input.time-start-time[type=time]")),
CreateElement("li", "—"),
CreateElement("li", CreateElement("input.time-end-date[type=date]")),
CreateElement("li", CreateElement("input.time-end-time[type=time]")),
CreateElement("li", CreateElement("button.timeinterval.next[title=Next Time Interval]", "»"))
)
);
// 2: Measurement type buttons
// ----------------------------------------------------
this.reading_types = await this.fetch_reading_types();
this.reading_type = this.reading_types.find((type) => type.short_descr == default_reading_type);
// Default to the 1st reading type if we can't find the default
if(typeof this.reading_type == "undefined")
this.reading_type = this.reading_types[0];
// Create the reading type buttons
let reading_type_list = this.display.querySelector(".reading-types");
for(let reading_type of this.reading_types) {
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let new_element = CreateElement("li",
CreateElement("button", reading_type.friendly_text)
);
let button = new_element.querySelector("button");
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if(reading_type.id == this.reading_type.id)
button.classList.add("selected");
button.addEventListener("click", this.switch_graph_type_handler.bind(this));
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new_element.dataset.id = reading_type.id;
reading_type_list.appendChild(new_element);
}
// 2.5: Advanced time picker
// ----------------------------------------------------
this.set_adv_timepicker_ui(this.start_time, this.end_time);
// 3: Event listeners
// ----------------------------------------------------
this.display.querySelector(".quick-time-selector")
.addEventListener("click", (this.timelength_button_click_handler).bind(this));
this.display.querySelector(".timeinterval.prev")
.addEventListener("click", this.timeinterval_button_click_handler.bind(this));
this.display.querySelector(".timeinterval.next")
.addEventListener("click", this.timeinterval_button_click_handler.bind(this));
this.display.querySelectorAll(".adv-time-selector input").forEach(((el) => {
el.addEventListener("input", this.adv_timepicker_ui_click_handler.bind(this));
}).bind(this));
// 4: Chart and ending tasks
// ----------------------------------------------------
// Setup the chart itself
await this.setup_chart();
this.display.classList.remove("working");
}
/**
* Updates the advanced time picker UI with the specified start and end dates.
* The supplied start & end datetimes should Moment.js instances.
* @param {moment} start_time The start datetime to display.
* @param {moment} end_time The end datetime to display.
*/
set_adv_timepicker_ui(start_time, end_time) {
this.display.querySelector(".time-start-date").value = start_time.format("YYYY-MM-DD");
this.display.querySelector(".time-start-time").value = start_time.format("HH:mm");
this.display.querySelector(".time-end-date").value = end_time.format("YYYY-MM-DD");
this.display.querySelector(".time-end-time").value = end_time.format("HH:mm");
}
/**
* Handles events from advanced time picker UI elements.
*/
async adv_timepicker_ui_click_handler() {
let el_start_date = this.display.querySelector("input.time-start-date"),
el_start_time = this.display.querySelector("input.time-start-time"),
el_end_date = this.display.querySelector("input.time-end-date"),
el_end_time = this.display.querySelector("input.time-end-time");
this.start_time = moment(`${el_start_date.value} ${el_start_time.value}`);
this.end_time = moment(`${el_end_date.value} ${el_end_time.value}`);
await this.update_chart();
}
async timeinterval_button_click_handler(event) {
let diff_seconds = this.end_time.diff(this.start_time) / 1000;
if(event.target.classList.contains("prev")) {
this.start_time.subtract(diff_seconds, "seconds");
this.end_time.subtract(diff_seconds, "seconds");
}
else if(event.target.classList.contains("next")) {
this.start_time.add(diff_seconds, "seconds");
this.end_time.add(diff_seconds, "seconds");
}
else {
throw new Error("Error: Failed to adjust time interval, as we couldn't tell which direction to go in.");
}
this.set_adv_timepicker_ui(this.start_time, this.end_time);
await this.update_chart();
}
async timelength_button_click_handler(event) {
let timelength = event.target.dataset.timelength;
if(typeof timelength == "undefined")
return;
let time_unit = timelength.replace(/[0-9]+/g, "");
let time_length = timelength.replace(/[^0-9]+/g, "");
this.start_time = moment().subtract(time_length, time_unit);
this.end_time = moment();
this.set_adv_timepicker_ui(this.start_time, this.end_time);
let popup_container = GetContainingElement(event.target, "div");
popup_container.classList.add("working");
await this.update_chart();
// Show the new button to be selected
this.display.querySelectorAll(".quick-time-selector button").forEach((button) => button.classList.remove("selected"));
event.target.classList.add("selected");
popup_container.classList.remove("working");
}
async setup_chart() {
this.chart = new Chart(this.display.querySelector("canvas").getContext("2d"), {
type: "line",
data: {
// We need to define an initial dataset here because otherwise
// Chart.js gets confused 'cause it has nothing to animate from
// labels: [],
datasets: []
},
options: {
scales: {
xAxes: [{
type: "time",
time: {
format: "YYYY-MM-DD HH:mm",
tooltipFormat: 'll HH:mm'
},
scaleLabel: {
display: true,
labelString: "Time"
}
}],
yAxes: [{
ticks: { },
scaleLabel: {
display: true,
labelString: "Value"
}
}]
}
}
});
await this.update_chart();
}
async get_data() {
let new_data = null;
// Dividing by 1000: ms -> s
let average_seconds = (this.end_time.diff(this.start_time) / 1000) / this.points_resolution;
console.info("Requesting data with start", this.start_time.toString(), ", end", this.end_time.toString(), ", average-seconds", average_seconds);
try {
new_data = JSON.parse(await GetFromUrl(`${this.config.api_root}?` + Postify({
action: "device-data",
"device-id": this.device_id,
"reading-type": this.reading_type.short_descr,
start: this.start_time.toISOString(),
end: this.end_time.toISOString(),
"average-seconds": average_seconds
})));
} catch(error) {
// TODO: Display a nice error message here instead of an alert()
// Wrap it in an Error instance if needed
if(typeof error == "string")
error = new Error(error.length == 0 ? "An unknown error has ocurred. It's probably on the server." : error);
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alert(error.message);
console.error(error);
return null;
}
console.log("[marker/popup/device-graph] Fetched data:", new_data);
console.log("[marker/popup/device-graph] Point count:", new_data.length);
return new_data.map((data_point) => { return {
t: moment(data_point.datetime),
y: Math.round(data_point.value*10000)/10000
}});
}
async fetch_reading_types() {
return JSON.parse(await GetFromUrl(`${this.config.api_root}?action=list-reading-types&device-id=${this.device_id}`));
}
async switch_graph_type_handler(event) {
// Figure out what the new reading type is
this.reading_type = this.reading_types.find((type) => type.id == event.target.parentNode.dataset.id);
console.log("[marker/device-graph] Reading type is now", this.reading_type);
let popup_container = GetContainingElement(event.target, "div");
popup_container.classList.add("working");
// Update the button list to highlight the newly-selected reading type, but only if we managed to update the chart successfully
if(await this.update_chart()) {
// Remove the selected class from the old one(s?)
event.target.parentNode.parentNode.querySelectorAll(`button`)
.forEach((next_button) => next_button.classList.remove("selected"));
// Add the selected class to the new one
event.target.classList.add("selected");
}
popup_container.classList.remove("working");
}
async update_chart() {
this.chart.data.datasets.length = 0;
// Get the Chart.js data object
let new_data_obj = {
label: this.reading_type.friendly_text,
data: await this.get_data()
};
if(new_data_obj.data == null) return false;
// Update the colour & suggested min/max values
let def = this.reading_type_defs[this.reading_type.short_descr],
y_axis = this.chart.options.scales.yAxes[0];
if(typeof def !== "undefined") {
new_data_obj.borderColor = def.borderColor;
new_data_obj.backgroundColor = def.backgroundColor;
}
else {
new_data_obj.borderColor = this.default_colours.borderColor;
new_data_obj.backgroundColor = this.default_colours.backgroundColor;
}
if(typeof def !== "undefined" && typeof def.suggestedMin !== "undefined") {
y_axis.ticks.suggestedMin = def.suggestedMin;
y_axis.ticks.suggestedMax = def.suggestedMax;
}
else {
delete y_axis.ticks.suggestedMin;
delete y_axis.ticks.suggestedMax;
}
this.chart.data.datasets.push(new_data_obj);
// Update the x axis labels
// this.chart.data.labels = new_data_obj.data.map((point) => point.t);
// Update the chart
this.chart.update();
return true;
}
}
export default DeviceReadingDisplay;