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Merge 'dev' into 'eto'

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Matthew Oslan
2019-06-30 16:33:54 -04:00
parent 03b1f4c341 e80439eff1
commit a248eaab53
13 changed files with 181 additions and 80 deletions
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19
routes/adjustmentMethods/AdjustmentMethod.ts
View File

@@ -1,27 +1,26 @@
import { GeoCoordinates, WateringData } from "../../types";
import { BaseWateringData, GeoCoordinates, PWS } from "../../types";
import { WeatherProvider } from "../weatherProviders/WeatherProvider";
export interface AdjustmentMethod {
/**
* Calculates the percentage that should be used to scale watering time.
* @param adjustmentOptions The user-specified options for the calculation, or undefined/null if no custom values
* are to be used. No checks will be made to ensure the AdjustmentOptions are the correct type that the function
* is expecting or to ensure that any of its fields are valid.
* @param wateringData The basic weather information of the watering site. This may be undefined if an error occurred
* while retrieving the data.
* @param adjustmentOptions The user-specified options for the calculation. No checks will be made to ensure the
* AdjustmentOptions are the correct type that the function is expecting or to ensure that any of its fields are valid.
* @param coordinates The coordinates of the watering site.
* @param weatherProvider The WeatherProvider that should be used if the adjustment method needs to obtain any more
* @param weatherProvider The WeatherProvider that should be used if the adjustment method needs to obtain any
* weather data.
* @param pws The PWS to retrieve weather data from, or undefined if a PWS should not be used. If the implementation
* of this method does not have PWS support, this parameter may be ignored and coordinates may be used instead.
* @return A Promise that will be resolved with the result of the calculation, or rejected with an error message if
* the watering scale cannot be calculated.
* @throws An error message can be thrown if an error occurs while calculating the watering scale.
*/
calculateWateringScale(
adjustmentOptions: AdjustmentOptions,
wateringData: WateringData | undefined,
coordinates: GeoCoordinates,
weatherProvider: WeatherProvider
weatherProvider: WeatherProvider,
pws?: PWS
): Promise< AdjustmentMethodResponse >;
}
@@ -53,6 +52,8 @@ export interface AdjustmentMethodResponse {
* user-configured watering scale instead of using the one returned by the AdjustmentMethod.
*/
errorMessage?: string;
/** The data that was used to calculate the watering scale, or undefined if no data was used. */
wateringData: BaseWateringData;
}
export interface AdjustmentOptions {}

17
routes/adjustmentMethods/EToAdjustmentMethod.ts
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@@ -1,7 +1,7 @@
import * as SunCalc from "suncalc";
import * as moment from "moment";
import { AdjustmentMethod, AdjustmentMethodResponse, AdjustmentOptions } from "./AdjustmentMethod";
import { GeoCoordinates, WateringData, WeatherProviderId } from "../../types";
import { BaseWateringData, GeoCoordinates, PWS } from "../../types";
import { WeatherProvider } from "../weatherProviders/WeatherProvider";
@@ -11,9 +11,9 @@ import { WeatherProvider } from "../weatherProviders/WeatherProvider";
*/
async function calculateEToWateringScale(
adjustmentOptions: EToScalingAdjustmentOptions,
wateringData: WateringData | undefined,
coordinates: GeoCoordinates,
weatherProvider: WeatherProvider
weatherProvider: WeatherProvider,
pws?: PWS
): Promise< AdjustmentMethodResponse > {
// Temporarily disabled since OWM forecast data is checking if rain is forecasted for 3 hours in the future.
@@ -56,8 +56,9 @@ async function calculateEToWateringScale(
minH: Math.round( etoData.minHumidity ),
maxH: Math.round( etoData.maxHumidity ),
wind: Math.round( etoData.windSpeed * 10 ) / 10,
p: Math.round( wateringData.precip * 100 ) / 100
}
p: Math.round( etoData.precip * 100 ) / 100
},
wateringData: etoData
}
}
@@ -205,9 +206,7 @@ export interface CloudCoverInfo {
/**
* Data used to calculate ETo. This data should be taken from a 24 hour time window.
*/
export interface EToData {
/** The WeatherProvider that generated this data. */
weatherProvider: WeatherProviderId;
export interface EToData extends BaseWateringData {
/** The Unix epoch seconds timestamp of the start of this 24 hour time window. */
periodStartTime: number;
/** The minimum temperature over the time period (in Fahrenheit). */
@@ -225,8 +224,6 @@ export interface EToData {
* different height can be standardized to 2m using the `standardizeWindSpeed` function in EToAdjustmentMethod.
*/
windSpeed: number;
/** The total precipitation over the time period (in inches). */
precip: number;
}
const EToAdjustmentMethod: AdjustmentMethod = {

3
routes/adjustmentMethods/ManualAdjustmentMethod.ts
View File

@@ -6,7 +6,8 @@ import { AdjustmentMethod, AdjustmentMethodResponse } from "./AdjustmentMethod";
*/
async function calculateManualWateringScale( ): Promise< AdjustmentMethodResponse > {
return {
scale: undefined
scale: undefined,
wateringData: undefined
}
}

11
routes/adjustmentMethods/RainDelayAdjustmentMethod.ts
View File

@@ -1,17 +1,20 @@
import { AdjustmentMethod, AdjustmentMethodResponse, AdjustmentOptions } from "./AdjustmentMethod";
import { WateringData } from "../../types";
import { GeoCoordinates, ZimmermanWateringData } from "../../types";
import { WeatherProvider } from "../weatherProviders/WeatherProvider";
/**
* Only delays watering if it is currently raining and does not adjust the watering scale.
*/
async function calculateRainDelayWateringScale( adjustmentOptions: RainDelayAdjustmentOptions, wateringData: WateringData | undefined ): Promise< AdjustmentMethodResponse > {
async function calculateRainDelayWateringScale( adjustmentOptions: RainDelayAdjustmentOptions, coordinates: GeoCoordinates, weatherProvider: WeatherProvider ): Promise< AdjustmentMethodResponse > {
const wateringData: ZimmermanWateringData = await weatherProvider.getWateringData( coordinates );
const raining = wateringData && wateringData.raining;
const d = adjustmentOptions && adjustmentOptions.hasOwnProperty( "d" ) ? adjustmentOptions.d : 24;
const d = adjustmentOptions.hasOwnProperty( "d" ) ? adjustmentOptions.d : 24;
return {
scale: undefined,
rawData: { raining: raining ? 1 : 0 },
rainDelay: raining ? d : undefined
rainDelay: raining ? d : undefined,
wateringData: wateringData
}
}

46
routes/adjustmentMethods/ZimmermanAdjustmentMethod.ts
View File

@@ -1,13 +1,20 @@
import { AdjustmentMethod, AdjustmentMethodResponse, AdjustmentOptions } from "./AdjustmentMethod";
import { WateringData } from "../../types";
import { GeoCoordinates, PWS, ZimmermanWateringData } from "../../types";
import { validateValues } from "../weather";
import { WeatherProvider } from "../weatherProviders/WeatherProvider";
/**
* Calculates how much watering should be scaled based on weather and adjustment options using the Zimmerman method.
* (https://github.com/rszimm/sprinklers_pi/wiki/Weather-adjustments#formula-for-setting-the-scale)
*/
async function calculateZimmermanWateringScale( adjustmentOptions: ZimmermanAdjustmentOptions, wateringData: WateringData | undefined ): Promise< AdjustmentMethodResponse > {
async function calculateZimmermanWateringScale(
adjustmentOptions: ZimmermanAdjustmentOptions,
coordinates: GeoCoordinates,
weatherProvider: WeatherProvider,
pws?: PWS
): Promise< AdjustmentMethodResponse > {
const wateringData: ZimmermanWateringData = await weatherProvider.getWateringData( coordinates, pws );
// Temporarily disabled since OWM forecast data is checking if rain is forecasted for 3 hours in the future.
/*
@@ -15,7 +22,8 @@ async function calculateZimmermanWateringScale( adjustmentOptions: ZimmermanAdju
if ( wateringData && wateringData.raining ) {
return {
scale: 0,
rawData: { raining: 1 }
rawData: { raining: 1 },
wateringData: wateringData
}
}
*/
@@ -33,42 +41,40 @@ async function calculateZimmermanWateringScale( adjustmentOptions: ZimmermanAdju
return {
scale: 100,
rawData: rawData,
errorMessage: "Necessary field(s) were missing from WateringData."
errorMessage: "Necessary field(s) were missing from ZimmermanWateringData.",
wateringData: wateringData
};
}
let humidityBase = 30, tempBase = 70, precipBase = 0;
// Get baseline conditions for 100% water level, if provided
if ( adjustmentOptions ) {
humidityBase = adjustmentOptions.hasOwnProperty( "bh" ) ? adjustmentOptions.bh : humidityBase;
tempBase = adjustmentOptions.hasOwnProperty( "bt" ) ? adjustmentOptions.bt : tempBase;
precipBase = adjustmentOptions.hasOwnProperty( "br" ) ? adjustmentOptions.br : precipBase;
}
humidityBase = adjustmentOptions.hasOwnProperty( "bh" ) ? adjustmentOptions.bh : humidityBase;
tempBase = adjustmentOptions.hasOwnProperty( "bt" ) ? adjustmentOptions.bt : tempBase;
precipBase = adjustmentOptions.hasOwnProperty( "br" ) ? adjustmentOptions.br : precipBase;
let humidityFactor = ( humidityBase - wateringData.humidity ),
tempFactor = ( ( wateringData.temp - tempBase ) * 4 ),
precipFactor = ( ( precipBase - wateringData.precip ) * 200 );
// Apply adjustment options, if provided, by multiplying the percentage against the factor
if ( adjustmentOptions ) {
if ( adjustmentOptions.hasOwnProperty( "h" ) ) {
humidityFactor = humidityFactor * ( adjustmentOptions.h / 100 );
}
if ( adjustmentOptions.hasOwnProperty( "h" ) ) {
humidityFactor = humidityFactor * ( adjustmentOptions.h / 100 );
}
if ( adjustmentOptions.hasOwnProperty( "t" ) ) {
tempFactor = tempFactor * ( adjustmentOptions.t / 100 );
}
if ( adjustmentOptions.hasOwnProperty( "t" ) ) {
tempFactor = tempFactor * ( adjustmentOptions.t / 100 );
}
if ( adjustmentOptions.hasOwnProperty( "r" ) ) {
precipFactor = precipFactor * ( adjustmentOptions.r / 100 );
}
if ( adjustmentOptions.hasOwnProperty( "r" ) ) {
precipFactor = precipFactor * ( adjustmentOptions.r / 100 );
}
return {
// Apply all of the weather modifying factors and clamp the result between 0 and 200%.
scale: Math.floor( Math.min( Math.max( 0, 100 + humidityFactor + tempFactor + precipFactor ), 200 ) ),
rawData: rawData
rawData: rawData,
wateringData: wateringData
}
}

8
routes/weather.spec.ts
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@@ -5,7 +5,7 @@ import * as MockExpressResponse from 'mock-express-response';
import * as MockDate from 'mockdate';
import { getWateringData } from './weather';
import { GeoCoordinates, WateringData, WeatherData } from "../types";
import { GeoCoordinates, WeatherData, ZimmermanWateringData } from "../types";
import { WeatherProvider } from "./weatherProviders/WeatherProvider";
import { EToData } from "./adjustmentMethods/EToAdjustmentMethod";
@@ -78,8 +78,8 @@ export class MockWeatherProvider extends WeatherProvider {
this.mockData = mockData;
}
public async getWateringData( coordinates: GeoCoordinates ): Promise< WateringData > {
return await this.getData( "wateringData" ) as WateringData;
public async getWateringData( coordinates: GeoCoordinates ): Promise< ZimmermanWateringData > {
return await this.getData( "wateringData" ) as ZimmermanWateringData;
}
public async getWeatherData( coordinates: GeoCoordinates ): Promise< WeatherData > {
@@ -101,7 +101,7 @@ export class MockWeatherProvider extends WeatherProvider {
}
interface MockWeatherData {
wateringData?: WateringData,
wateringData?: ZimmermanWateringData,
weatherData?: WeatherData,
etoData?: EToData
}

58
routes/weather.ts
View File

@@ -5,14 +5,15 @@ import * as SunCalc from "suncalc";
import * as moment from "moment-timezone";
import * as geoTZ from "geo-tz";
import { GeoCoordinates, TimeData, WateringData, WeatherData } from "../types";
import { BaseWateringData, GeoCoordinates, PWS, TimeData, WeatherData } from "../types";
import { WeatherProvider } from "./weatherProviders/WeatherProvider";
import { AdjustmentMethod, AdjustmentMethodResponse, AdjustmentOptions } from "./adjustmentMethods/AdjustmentMethod";
import ManualAdjustmentMethod from "./adjustmentMethods/ManualAdjustmentMethod";
import ZimmermanAdjustmentMethod from "./adjustmentMethods/ZimmermanAdjustmentMethod";
import RainDelayAdjustmentMethod from "./adjustmentMethods/RainDelayAdjustmentMethod";
import EToAdjustmentMethod from "./adjustmentMethods/EToAdjustmentMethod";
const weatherProvider: WeatherProvider = new ( require("./weatherProviders/" + ( process.env.WEATHER_PROVIDER || "OWM" ) ).default )();
const WEATHER_PROVIDER: WeatherProvider = new ( require("./weatherProviders/" + ( process.env.WEATHER_PROVIDER || "OWM" ) ).default )();
const PWS_WEATHER_PROVIDER: WeatherProvider = new ( require("./weatherProviders/" + ( process.env.PWS_WEATHER_PROVIDER || "WUnderground" ) ).default )();
// Define regex filters to match against location
const filters = {
@@ -44,7 +45,7 @@ async function resolveCoordinates( location: string ): Promise< GeoCoordinates >
}
if ( filters.pws.test( location ) ) {
throw "Weather Underground is discontinued";
throw "PWS ID must be specified in the pws parameter.";
} else if ( filters.gps.test( location ) ) {
const split: string[] = location.split( "," );
return [ parseFloat( split[ 0 ] ), parseFloat( split[ 1 ] ) ];
@@ -123,7 +124,7 @@ function getTimeData( coordinates: GeoCoordinates ): TimeData {
* @param weather Watering data to use to determine if any restrictions apply.
* @return A boolean indicating if the watering level should be set to 0% due to a restriction.
*/
function checkWeatherRestriction( adjustmentValue: number, weather: WateringData ): boolean {
function checkWeatherRestriction( adjustmentValue: number, weather: BaseWateringData ): boolean {
const californiaRestriction = ( adjustmentValue >> 7 ) & 1;
@@ -156,7 +157,7 @@ export const getWeatherData = async function( req: express.Request, res: express
const timeData: TimeData = getTimeData( coordinates );
let weatherData: WeatherData;
try {
weatherData = await weatherProvider.getWeatherData( coordinates );
weatherData = await WEATHER_PROVIDER.getWeatherData( coordinates );
} catch ( err ) {
res.send( "Error: " + err );
return;
@@ -183,6 +184,7 @@ export const getWateringData = async function( req: express.Request, res: expres
location: string | GeoCoordinates = getParameter(req.query.loc),
outputFormat: string = getParameter(req.query.format),
remoteAddress: string = getParameter(req.headers[ "x-forwarded-for" ]) || req.connection.remoteAddress,
pwsString: string = getParameter( req.query.pws ),
adjustmentOptions: AdjustmentOptions;
// X-Forwarded-For header may contain more than one IP address and therefore
@@ -218,22 +220,24 @@ export const getWateringData = async function( req: express.Request, res: expres
return;
}
// Continue with the weather request
let timeData: TimeData = getTimeData( coordinates );
let wateringData: WateringData;
if ( adjustmentMethod !== ManualAdjustmentMethod || checkRestrictions ) {
// Parse the PWS information.
let pws: PWS | undefined = undefined;
if ( pwsString ) {
try {
wateringData = await weatherProvider.getWateringData( coordinates );
pws = parsePWS( pwsString );
} catch ( err ) {
res.send( "Error: " + err );
res.send( `Error: ${ err }` );
return;
}
}
const weatherProvider = pws ? PWS_WEATHER_PROVIDER : WEATHER_PROVIDER;
let adjustmentMethodResponse: AdjustmentMethodResponse;
try {
adjustmentMethodResponse = await adjustmentMethod.calculateWateringScale(
adjustmentOptions, wateringData, coordinates, weatherProvider
adjustmentOptions, coordinates, weatherProvider, pws
);
} catch ( err ) {
if ( typeof err != "string" ) {
@@ -251,7 +255,19 @@ export const getWateringData = async function( req: express.Request, res: expres
}
let scale = adjustmentMethodResponse.scale;
if ( wateringData ) {
if ( checkRestrictions ) {
let wateringData: BaseWateringData = adjustmentMethodResponse.wateringData;
// Fetch the watering data if the AdjustmentMethod didn't fetch it and restrictions are being checked.
if ( checkRestrictions && !wateringData ) {
try {
wateringData = await weatherProvider.getWateringData( coordinates );
} catch ( err ) {
res.send( "Error: " + err );
return;
}
}
// Check for any user-set restrictions and change the scale to 0 if the criteria is met
if ( checkWeatherRestriction( req.params[ 0 ], wateringData ) ) {
scale = 0;
@@ -436,3 +452,21 @@ function getParameter( parameter: string | string[] ): string {
// Return an empty string if the parameter is undefined.
return parameter || "";
}
/**
* Creates a PWS object from a string.
* @param pwsString Information about the PWS in the format "pws:API_KEY@PWS_ID".
* @return The PWS specified by the string.
* @throws Throws an error message if the string is in an invalid format and cannot be parsed.
*/
function parsePWS( pwsString: string): PWS {
const match = pwsString.match( /^pws:([a-f\d]{32})@([a-zA-Z\d]+)$/ );
if ( !match ) {
throw "Invalid PWS format.";
}
return {
apiKey: match[ 1 ],
id: match[ 2 ]
};
}

13
routes/weatherProviders/DarkSky.ts
View File

@@ -1,13 +1,13 @@
import * as moment from "moment-timezone";
import { GeoCoordinates, WateringData, WeatherData } from "../../types";
import { GeoCoordinates, WeatherData, ZimmermanWateringData } from "../../types";
import { httpJSONRequest } from "../weather";
import { WeatherProvider } from "./WeatherProvider";
import { approximateSolarRadiation, CloudCoverInfo, EToData } from "../adjustmentMethods/EToAdjustmentMethod";
export default class DarkSkyWeatherProvider extends WeatherProvider {
public async getWateringData( coordinates: GeoCoordinates ): Promise< WateringData > {
public async getWateringData( coordinates: GeoCoordinates ): Promise< ZimmermanWateringData > {
// The Unix timestamp of 24 hours ago.
const yesterdayTimestamp: number = moment().subtract( 1, "day" ).unix();
const todayTimestamp: number = moment().unix();
@@ -48,9 +48,16 @@ export default class DarkSkyWeatherProvider extends WeatherProvider {
const totals = { temp: 0, humidity: 0, precip: 0 };
for ( const sample of samples ) {
/*
* If temperature or humidity is missing from a sample, the total will become NaN. This is intended since
* calculateWateringScale will treat NaN as a missing value and temperature/humidity can't be accurately
* calculated when data is missing from some samples (since they follow diurnal cycles and will be
* significantly skewed if data is missing for several consecutive hours).
*/
totals.temp += sample.temperature;
totals.humidity += sample.humidity;
totals.precip += sample.precipIntensity
// This field may be missing from the response if it is snowing.
totals.precip += sample.precipIntensity || 0;
}
return {

4
routes/weatherProviders/OWM.ts
View File

@@ -1,4 +1,4 @@
import { GeoCoordinates, WateringData, WeatherData } from "../../types";
import { GeoCoordinates, WeatherData, ZimmermanWateringData } from "../../types";
import { httpJSONRequest } from "../weather";
import { WeatherProvider } from "./WeatherProvider";
import { approximateSolarRadiation, CloudCoverInfo, EToData } from "../adjustmentMethods/EToAdjustmentMethod";
@@ -6,7 +6,7 @@ import * as moment from "moment";
export default class OWMWeatherProvider extends WeatherProvider {
public async getWateringData( coordinates: GeoCoordinates ): Promise< WateringData > {
public async getWateringData( coordinates: GeoCoordinates ): Promise< ZimmermanWateringData > {
const OWM_API_KEY = process.env.OWM_API_KEY,
forecastUrl = "http://api.openweathermap.org/data/2.5/forecast?appid=" + OWM_API_KEY + "&units=imperial&lat=" + coordinates[ 0 ] + "&lon=" + coordinates[ 1 ];

44
routes/weatherProviders/WUnderground.ts Normal file
View File

@@ -0,0 +1,44 @@
import { GeoCoordinates, PWS, WeatherData, ZimmermanWateringData } from "../../types";
import { WeatherProvider } from "./WeatherProvider";
import { httpJSONRequest } from "../weather";
export default class WUnderground extends WeatherProvider {
async getWateringData( coordinates: GeoCoordinates, pws?: PWS ): Promise< ZimmermanWateringData > {
if ( !pws ) {
throw "WUnderground WeatherProvider requires a PWS to be specified.";
}
const url = `https://api.weather.com/v2/pws/observations/hourly/7day?stationId=${ pws.id }&format=json&units=e&apiKey=${ pws.apiKey }`;
let data;
try {
data = await httpJSONRequest( url );
} catch ( err ) {
console.error( "Error retrieving weather information from WUnderground:", err );
throw "An error occurred while retrieving weather information from WUnderground."
}
// Take the 24 most recent observations.
const samples = data.observations.slice( -24 );
// Fail if not enough data is available.
if ( samples.length !== 24 ) {
throw "Insufficient data was returned by WUnderground.";
}
const totals = { temp: 0, humidity: 0, precip: 0 };
for ( const sample of samples ) {
totals.temp += sample.imperial.tempAvg;
totals.humidity += sample.humidityAvg;
totals.precip += sample.imperial.precipRate;
}
return {
weatherProvider: "WUnderground",
temp: totals.temp / samples.length,
humidity: totals.humidity / samples.length,
precip: totals.precip,
raining: samples[ samples.length - 1 ].imperial.precipRate > 0
}
}
}

12
routes/weatherProviders/WeatherProvider.ts
View File

@@ -1,15 +1,17 @@
import { GeoCoordinates, WateringData, WeatherData } from "../../types";
import { GeoCoordinates, PWS, WeatherData, ZimmermanWateringData } from "../../types";
import { EToData } from "../adjustmentMethods/EToAdjustmentMethod";
export class WeatherProvider {
/**
* Retrieves weather data necessary for watering level calculations.
* Retrieves weather data necessary for Zimmerman watering level calculations.
* @param coordinates The coordinates to retrieve the watering data for.
* @return A Promise that will be resolved with the WateringData if it is successfully retrieved,
* or rejected with an error message if an error occurs while retrieving the WateringData or the WeatherProvider
* @param pws The PWS to retrieve the weather from, or undefined if a PWS should not be used. If the implementation
* of this method does not have PWS support, this parameter may be ignored and coordinates may be used instead.
* @return A Promise that will be resolved with the ZimmermanWateringData if it is successfully retrieved,
* or rejected with an error message if an error occurs while retrieving the ZimmermanWateringData or the WeatherProvider
* does not support this method.
*/
getWateringData( coordinates : GeoCoordinates ): Promise< WateringData > {
getWateringData( coordinates: GeoCoordinates, pws?: PWS ): Promise< ZimmermanWateringData > {
throw "Selected WeatherProvider does not support getWateringData";
}

8
routes/weatherProviders/local.ts
View File

@@ -1,6 +1,6 @@
import * as express from "express";
import { CronJob } from "cron";
import { GeoCoordinates, WateringData } from "../../types";
import { GeoCoordinates, ZimmermanWateringData } from "../../types";
import { WeatherProvider } from "./WeatherProvider";
const count = { temp: 0, humidity: 0 };
@@ -46,9 +46,9 @@ export const captureWUStream = function( req: express.Request, res: express.Resp
export default class LocalWeatherProvider extends WeatherProvider {
public async getWateringData( coordinates: GeoCoordinates ): Promise< WateringData > {
const result: WateringData = {
...yesterday as WateringData,
public async getWateringData( coordinates: GeoCoordinates ): Promise< ZimmermanWateringData > {
const result: ZimmermanWateringData = {
...yesterday as ZimmermanWateringData,
// Use today's weather if we dont have information for yesterday yet (i.e. on startup)
...today,
// PWS report "buckets" so consider it still raining if last bucket was less than an hour ago

18
types.ts
View File

@@ -1,6 +1,9 @@
/** Geographic coordinates. The 1st element is the latitude, and the 2nd element is the longitude. */
export type GeoCoordinates = [number, number];
/** A PWS ID and API key. */
export type PWS = { id: string, apiKey: string };
export interface TimeData {
/** The UTC offset, in minutes. This uses POSIX offsets, which are the negation of typically used offsets
* (https://github.com/eggert/tz/blob/2017b/etcetera#L36-L42).
@@ -50,22 +53,25 @@ export interface WeatherDataForecast {
description: string;
}
export interface BaseWateringData {
/** The WeatherProvider that generated this data. */
weatherProvider: WeatherProviderId;
/** The total precipitation over the window (in inches). */
precip: number;
}
/**
* Data from a 24 hour window that is used to calculate how watering levels should be scaled. This should ideally use
* historic data from the past day, but may also use forecasted data for the next day if historical data is not
* available.
*/
export interface WateringData {
/** The WeatherProvider that generated this data. */
weatherProvider: WeatherProviderId;
export interface ZimmermanWateringData extends BaseWateringData {
/** The average temperature over the window (in Fahrenheit). */
temp: number;
/** The average humidity over the window (as a percentage). */
humidity: number;
/** The total precipitation over the window (in inches). */
precip: number;
/** A boolean indicating if it is raining at the time that this data was retrieved. */
raining: boolean;
}
export type WeatherProviderId = "OWM" | "DarkSky" | "local" | "mock";
export type WeatherProviderId = "OWM" | "DarkSky" | "local" | "mock" | "WUnderground";