Refactor adjustment method selection

2019-06-09 11:25:21 -04:00
parent b6776f0e90
commit 0281a835e2
6 changed files with 233 additions and 117 deletions
--- a/routes/adjustmentMethods/AdjustmentMethod.ts
+++ b/routes/adjustmentMethods/AdjustmentMethod.ts
@@ -0,0 +1,58 @@
 import { GeoCoordinates, WateringData } 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 coordinates The coordinates of the watering site.
 	 * @param weatherProvider The WeatherProvider that should be used if the adjustment method needs to obtain any more
 	 * weather data.
 	 * @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
 	): Promise< AdjustmentMethodResponse >;
 }
 export interface AdjustmentMethodResponse {
 	/**
 	 * The percentage that should be used to scale the watering level. This should be an integer between 0-200 (inclusive),
 	 * or undefined if the watering level should not be changed.
 	 */
 	scale: number | undefined;
 	/**
 	 * The raw data that was used to calculate the watering scale. This will be sent directly to the OS controller, so
 	 * each field should be formatted in a way that the controller understands and numbers should be rounded
 	 * appropriately to remove excessive figures. If no data was used (e.g. an error occurred), this should be undefined.
 	 */
 	rawData?: object;
 	/**
 	 * How long watering should be delayed for (in hours) due to rain, or undefined if watering should not be delayed
 	 * for a specific amount of time (either it should be delayed indefinitely or it should not be delayed at all). This
 	 * property will not stop watering on its own, and the `scale` property should be set to 0 to actually prevent
 	 * watering.
 	 */
 	rainDelay?: number;
 	// TODO consider removing this field and breaking backwards compatibility to handle all errors consistently.
 	/**
 	 * An message to send to the OS firmware to indicate that an error occurred while calculating the watering
 	 * scale and the returned scale either defaulted to some reasonable value or was calculated with incomplete data.
 	 * Older firmware versions will ignore this field (they will silently swallow the error and use the returned scale),
 	 * but newer firmware versions may be able to alert the user that an error occurred and/or default to a
 	 * user-configured watering scale instead of using the one returned by the AdjustmentMethod.
 	 */
 	errorMessage?: string;
 }
 export interface AdjustmentOptions {}
--- a/routes/adjustmentMethods/ManualAdjustmentMethod.ts
+++ b/routes/adjustmentMethods/ManualAdjustmentMethod.ts
@@ -0,0 +1,17 @@
 import { AdjustmentMethod, AdjustmentMethodResponse } from "./AdjustmentMethod";
 /**
 * Does not change the watering scale (only time data will be returned).
 */
 async function calculateManualWateringScale( ): Promise< AdjustmentMethodResponse > {
 	return {
 		scale: undefined
 	}
 }
 const ManualAdjustmentMethod: AdjustmentMethod = {
 	calculateWateringScale: calculateManualWateringScale
 };
 export default ManualAdjustmentMethod;
--- a/routes/adjustmentMethods/RainDelayAdjustmentMethod.ts
+++ b/routes/adjustmentMethods/RainDelayAdjustmentMethod.ts
@@ -0,0 +1,27 @@
 import { AdjustmentMethod, AdjustmentMethodResponse, AdjustmentOptions } from "./AdjustmentMethod";
 import { WateringData } from "../../types";
 /**
 * 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 > {
 	const raining = wateringData && wateringData.raining;
 	const d = adjustmentOptions && adjustmentOptions.hasOwnProperty( "d" ) ? adjustmentOptions.d : 24;
 	return {
 		scale: undefined,
 		rawData: { raining: raining ? 1 : 0 },
 		rainDelay: raining ? d : undefined
 	}
 }
 export interface RainDelayAdjustmentOptions extends AdjustmentOptions {
 	/** The rain delay to use (in hours). */
 	d?: number;
 }
 const RainDelayAdjustmentMethod: AdjustmentMethod = {
 	calculateWateringScale: calculateRainDelayWateringScale
 };
 export default RainDelayAdjustmentMethod;
--- a/routes/adjustmentMethods/ZimmermanAdjustmentMethod.ts
+++ b/routes/adjustmentMethods/ZimmermanAdjustmentMethod.ts
@@ -0,0 +1,94 @@
 import { AdjustmentMethod, AdjustmentMethodResponse, AdjustmentOptions } from "./AdjustmentMethod";
 import { WateringData } from "../../types";
 import { validateValues } from "../weather";
 /**
 * 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 > {
 	// Temporarily disabled since OWM forecast data is checking if rain is forecasted for 3 hours in the future.
 	/*
 	// Don't water if it is currently raining.
 	if ( wateringData && wateringData.raining ) {
 		return {
 			scale: 0,
 			rawData: { raining: 1 }
 		}
 	}
 	*/
 	const rawData = {
 		h: wateringData ? Math.round( wateringData.humidity * 100) / 100 : null,
 		p: wateringData ? Math.round( wateringData.precip * 100 ) / 100 : null,
 		t: wateringData ? Math.round( wateringData.temp * 10 ) / 10 : null,
 		raining: wateringData ? ( wateringData.raining ? 1 : 0 ) : null
 	};
 	// Check to make sure valid data exists for all factors
 	if ( !validateValues( [ "temp", "humidity", "precip" ], wateringData ) ) {
 		// Default to a scale of 100% if fields are missing.
 		return {
 			scale: 100,
 			rawData: rawData,
 			errorMessage: "Necessary field(s) were missing from 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;
 	}
 	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( "t" ) ) {
 			tempFactor = tempFactor * ( adjustmentOptions.t / 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
 	}
 }
 export interface ZimmermanAdjustmentOptions extends AdjustmentOptions {
 	/** Base humidity (as a percentage). */
 	bh?: number;
 	/** Base temperature (in Fahrenheit). */
 	bt?: number;
 	/** Base precipitation (in inches). */
 	br?: number;
 	/** The percentage to weight the humidity factor by. */
 	h?: number;
 	/** The percentage to weight the temperature factor by. */
 	t?: number;
 	/** The percentage to weight the precipitation factor by. */
 	r?: number;
 }
 const ZimmermanAdjustmentMethod: AdjustmentMethod = {
 	calculateWateringScale: calculateZimmermanWateringScale
 };
 export default ZimmermanAdjustmentMethod;
--- a/routes/weather.ts
+++ b/routes/weather.ts
@@ -5,8 +5,12 @@ import * as SunCalc from "suncalc";
 import * as moment from "moment-timezone";
 import * as geoTZ from "geo-tz";
-import { AdjustmentOptions, GeoCoordinates, TimeData, WateringData, WeatherData } from "../types";
+import { GeoCoordinates, TimeData, WateringData, 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";
 const weatherProvider: WeatherProvider = new ( require("./weatherProviders/" + ( process.env.WEATHER_PROVIDER || "OWM" ) ).default )();
 // Define regex filters to match against location
@@ -18,11 +22,11 @@ const filters = {
 	timezone: /^()()()()()()([+-])(\d{2})(\d{2})/
 };
-// Enum of available watering scale adjustment methods.
+/** AdjustmentMethods mapped to their numeric IDs. */
-const ADJUSTMENT_METHOD = {
+const ADJUSTMENT_METHOD: { [ key: number ] : AdjustmentMethod } = {
-	MANUAL: 0,
+	0: ManualAdjustmentMethod,
-	ZIMMERMAN: 1,
+	1: ZimmermanAdjustmentMethod,
-	RAIN_DELAY: 2
+	2: RainDelayAdjustmentMethod
 };
 /**
@@ -107,52 +111,6 @@ function getTimeData( coordinates: GeoCoordinates ): TimeData {
 	};
 }
 /**
 * Calculates how much watering should be scaled based on weather and adjustment options using the Zimmerman method.
 * @param adjustmentOptions Options to tweak the calculation, or undefined/null if no custom values are to be used.
 * @param wateringData The weather to use to calculate watering percentage.
 * @return The percentage that watering should be scaled by.
 * @throws An error message will be thrown if the watering scale cannot be calculated.
 */
 function calculateZimmermanWateringScale( adjustmentOptions: AdjustmentOptions, wateringData: WateringData ): number {
 	let humidityBase = 30, tempBase = 70, precipBase = 0;
 	// Check to make sure valid data exists for all factors
 	if ( !validateValues( [ "temp", "humidity", "precip" ], wateringData ) ) {
 		throw "Necessary field(s) were missing from WateringData.";
 	}
 	// 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;
 	}
 	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( "t" ) ) {
 			tempFactor = tempFactor * ( adjustmentOptions.t / 100 );
 		}
 		if ( adjustmentOptions.hasOwnProperty( "r" ) ) {
 			precipFactor = precipFactor * ( adjustmentOptions.r / 100 );
 		}
 	}
 	// Apply all of the weather modifying factors and clamp the result between 0 and 200%.
 	return Math.floor( Math.min( Math.max( 0, 100 + humidityFactor + tempFactor + precipFactor ), 200 ) );
 }
 /**
 * Checks if the weather data meets any of the restrictions set by OpenSprinkler. Restrictions prevent any watering
 * from occurring and are similar to 0% watering level. Known restrictions are:
@@ -217,7 +175,7 @@ export const getWateringData = async function( req: express.Request, res: expres
 	// The adjustment method is encoded by the OpenSprinkler firmware and must be
 	// parsed. This allows the adjustment method and the restriction type to both
 	// be saved in the same byte.
-	let adjustmentMethod: number			= req.params[ 0 ] & ~( 1 << 7 ),
+	let adjustmentMethod: AdjustmentMethod	= ADJUSTMENT_METHOD[ req.params[ 0 ] & ~( 1 << 7 ) ],
 		checkRestrictions: boolean			= ( ( req.params[ 0 ] >> 7 ) & 1 ) > 0,
 		adjustmentOptionsString: string		= getParameter(req.query.wto),
 		location: string | GeoCoordinates	= getParameter(req.query.loc),
@@ -225,13 +183,6 @@ export const getWateringData = async function( req: express.Request, res: expres
 		remoteAddress: string				= getParameter(req.headers[ "x-forwarded-for" ]) || req.connection.remoteAddress,
 		adjustmentOptions: AdjustmentOptions;
 	/* A message to include in the response to indicate that the watering scale was not calculated correctly and
 	defaulted to 100%. This approach is used for backwards compatibility because older OS firmware versions were
 	hardcoded to keep the previous watering scale if the response did not include a watering scale, but newer versions
 	might allow for different behaviors. */
 	let errorMessage: string = undefined;
 	// X-Forwarded-For header may contain more than one IP address and therefore
 	// the string is split against a comma and the first value is selected
 	remoteAddress = remoteAddress.split( "," )[ 0 ];
@@ -263,7 +214,7 @@ export const getWateringData = async function( req: express.Request, res: expres
 	// Continue with the weather request
 	let timeData: TimeData = getTimeData( coordinates );
 	let wateringData: WateringData;
-	if ( adjustmentMethod !== ADJUSTMENT_METHOD.MANUAL || checkRestrictions ) {
+	if ( adjustmentMethod !== ManualAdjustmentMethod || checkRestrictions ) {
 		try {
 			wateringData = await weatherProvider.getWateringData( coordinates );
 		} catch ( err ) {
@@ -272,59 +223,45 @@ export const getWateringData = async function( req: express.Request, res: expres
 		}
 	}
-	let scale = -1,	rainDelay = -1;
+	let adjustmentMethodResponse: AdjustmentMethodResponse;
 	if ( adjustmentMethod === ADJUSTMENT_METHOD.ZIMMERMAN ) {
 	try {
-			scale = calculateZimmermanWateringScale( adjustmentOptions, wateringData );
+		adjustmentMethodResponse = await adjustmentMethod.calculateWateringScale(
 			adjustmentOptions, wateringData, coordinates, weatherProvider
 		);
 	} catch ( err ) {
-			// Default to a scale of 100% if the scale can't be calculated.
+		if ( typeof err != "string" ) {
-			scale = 100;
+			/* If an error occurs under expected circumstances (e.g. required optional fields from a weather API are
-			errorMessage = err;
+			missing), an AdjustmentOption must throw a string. If a non-string error is caught, it is likely an Error
-		}
+			thrown by the JS engine due to unexpected circumstances. The user should not be shown the error message
 			since it may contain sensitive information. */
 			res.send( "Error: an unexpected error occurred." );
 			console.error( `An unexpected error occurred for ${ req.url }: `, err );
 		} else {
 			res.send( "Error: " + err );
 		}
 		return;
 	}
 	let scale = adjustmentMethodResponse.scale;
 	if ( wateringData ) {
 		// 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;
 		}
 		// If any weather adjustment is being used, check the rain status
 		if ( adjustmentMethod > ADJUSTMENT_METHOD.MANUAL && wateringData.raining ) {
 			// If it is raining and the user has weather-based rain delay as the adjustment method then apply the specified delay
 			if ( adjustmentMethod === ADJUSTMENT_METHOD.RAIN_DELAY ) {
 				rainDelay = ( adjustmentOptions && adjustmentOptions.hasOwnProperty( "d" ) ) ? adjustmentOptions.d : 24;
 			} else {
 				// Temporarily disabled since OWM forecast data is checking if rain is forecasted for 3 hours in the future.
 				// For any other adjustment method, apply a scale of 0 (as the scale will revert when the rain stops)
 				// scale = 0;
 			}
 		}
 	}
 	const data = {
 		scale:		scale,
-		rd:			rainDelay,
+		rd:			adjustmentMethodResponse.rainDelay,
 		tz:			getTimezone( timeData.timezone, undefined ),
 		sunrise:	timeData.sunrise,
 		sunset:		timeData.sunset,
 		eip:		ipToInt( remoteAddress ),
-		rawData:	undefined,
+		rawData:	adjustmentMethodResponse.rawData,
-		error:		errorMessage
+		error:		adjustmentMethodResponse.errorMessage
 	};
 	if ( adjustmentMethod > ADJUSTMENT_METHOD.MANUAL ) {
 		data.rawData = {
 			h: wateringData ? Math.round( wateringData.humidity * 100) / 100 : null,
 			p: wateringData ? Math.round( wateringData.precip * 100 ) / 100 : null,
 			t: wateringData ? Math.round( wateringData.temp * 10 ) / 10 : null,
 			raining: wateringData ? ( wateringData.raining ? 1 : 0 ) : null
 		};
 	}
 	// Return the response to the client in the requested format
 	if ( outputFormat === "json" ) {
 		res.json( data );
@@ -336,7 +273,7 @@ export const getWateringData = async function( req: express.Request, res: expres
 			"&sunset="		+	data.sunset +
 			"&eip="			+	data.eip +
 			( data.rawData ? "&rawData=" + JSON.stringify( data.rawData ) : "" ) +
-			( errorMessage ? "&error=" + encodeURIComponent( errorMessage ) : "" )
+			( data.error ? "&error=" + encodeURIComponent( data.error ) : "" )
 		);
 	}
@@ -392,7 +329,7 @@ async function httpRequest( url: string ): Promise< string > {
 * @param obj The object to check.
 * @return A boolean indicating if the object has numeric values for all of the specified keys.
 */
-function validateValues( keys: string[], obj: object ): boolean {
+export function validateValues( keys: string[], obj: object ): boolean {
 	let key: string;
 	// Return false if the object is null/undefined.
--- a/types.ts
+++ b/types.ts
@@ -68,21 +68,4 @@ export interface WateringData {
    raining: boolean;
 }
 export interface AdjustmentOptions {
    /** Base humidity (as a percentage). */
    bh?: number;
    /** Base temperature (in Fahrenheit). */
    bt?: number;
    /** Base precipitation (in inches). */
    br?: number;
    /** The percentage to weight the humidity factor by. */
    h?: number;
    /** The percentage to weight the temperature factor by. */
    t?: number;
    /** The percentage to weight the precipitation factor by. */
    r?: number;
    /** The rain delay to use (in hours). */
    d?: number;
 }
 export type WeatherProviderId = "OWM" | "DarkSky" | "local";