diff --git a/src/core/lib/ConvertCoordinates.mjs b/src/core/lib/ConvertCoordinates.mjs index cec2439c..d4641fe6 100644 --- a/src/core/lib/ConvertCoordinates.mjs +++ b/src/core/lib/ConvertCoordinates.mjs @@ -23,8 +23,7 @@ export const FORMATS = [ ]; /** - * Formats that should be passed to Geodesy module as-is - * Spaces are still removed + * Formats that should be passed to the conversion module as-is */ const NO_CHANGE = [ "Geohash", @@ -48,40 +47,50 @@ export function convertCoordinates (input, inFormat, inDelim, outFormat, outDeli let isPair = false, split, latlon, - conv, - inLatDir, - inLongDir; + convLat, + convLon, + conv; + // Can't have a precision less than 0! + if (precision < 0) { + precision = 0; + } if (inDelim === "Auto") { + // Try to detect a delimiter in the input. inDelim = findDelim(input); + if (inDelim === null) { + throw "Unable to detect the input delimiter automatically."; + } } else { + // Convert the delimiter argument value to the actual character inDelim = realDelim(inDelim); } if (inFormat === "Auto") { + // Try to detect the format of the input data inFormat = findFormat(input, inDelim); if (inFormat === null) { throw "Unable to detect the input format automatically."; } } - if (inDelim === null && !inFormat.includes("Direction")) { - throw "Unable to detect the input delimiter automatically."; - } + // Convert the output delimiter argument to the real character outDelim = realDelim(outDelim); if (!NO_CHANGE.includes(inFormat)) { split = input.split(inDelim); + // Replace any co-ordinate symbols with spaces so we can split on them later + for (let i = 0; i < split.length; i++) { + split[i] = split[i].replace(/[°˝´'"]/g, " "); + } if (split.length > 1) { isPair = true; } } else { + // Remove any delimiters from the input input = input.replace(inDelim, ""); isPair = true; } - if (inFormat.includes("Degrees")) { - [inLatDir, inLongDir] = findDirs(input, inDelim); - } - + // Conversions from the input format into a geodesy latlon object if (inFormat === "Geohash") { const hash = geohash.decode(input.replace(/[^A-Za-z0-9]/g, "")); latlon = new geodesy.LatLonEllipsoidal(hash.latitude, hash.longitude); @@ -92,6 +101,7 @@ export function convertCoordinates (input, inFormat, inDelim, outFormat, outDeli const osng = geodesy.OsGridRef.parse(input.replace(/[^A-Za-z0-9]/g, "")); latlon = geodesy.OsGridRef.osGridToLatLon(osng); } else if (inFormat === "Universal Transverse Mercator") { + // Geodesy needs a space between the first 2 digits and the next letter if (/^[\d]{2}[A-Za-z]/.test(input)) { input = input.slice(0, 2) + " " + input.slice(2); } @@ -99,23 +109,25 @@ export function convertCoordinates (input, inFormat, inDelim, outFormat, outDeli latlon = utm.toLatLonE(); } else if (inFormat === "Degrees Minutes Seconds") { if (isPair) { - split[0] = split[0].replace(/[NnEeSsWw]/g, "").trim(); - split[1] = split[1].replace(/[NnEeSsWw]/g, "").trim(); - const splitLat = split[0].split(/[°′″'"\s]/g), - splitLong = split[1].split(/[°′″'"\s]/g); + // Split up the lat/long into degrees / minutes / seconds values + const splitLat = splitInput(split[0]), + splitLong = splitInput(split[1]); if (splitLat.length >= 3 && splitLong.length >= 3) { - const lat = convDMSToDD(parseFloat(splitLat[0]), parseFloat(splitLat[1]), parseFloat(splitLat[2]), 10); - const long = convDMSToDD(parseFloat(splitLong[0]), parseFloat(splitLong[1]), parseFloat(splitLong[2]), 10); + const lat = convDMSToDD(splitLat[0], splitLat[1], splitLat[2], 10); + const long = convDMSToDD(splitLong[0], splitLong[1], splitLong[2], 10); latlon = new geodesy.LatLonEllipsoidal(lat.degrees, long.degrees); + } else { + throw "Invalid co-ordinate format for Degrees Minutes Seconds"; } } else { - // Create a new latlon object anyway, but we can ignore the lon value - split[0] = split[0].replace(/[NnEeSsWw]/g, "").trim(); - const splitLat = split[0].split(/[°′″'"\s]/g); + // Not a pair, so only try to convert one set of co-ordinates + const splitLat = splitInput(split[0]); if (splitLat.length >= 3) { - const lat = convDMSToDD(parseFloat(splitLat[0]), parseFloat(splitLat[1]), parseFloat(splitLat[2])); + const lat = convDMSToDD(splitLat[0], splitLat[1], splitLat[2]); latlon = new geodesy.LatLonEllipsoidal(lat.degrees, lat.degrees); + } else { + throw "Invalid co-ordinate format for Degrees Minutes Seconds"; } } } else if (inFormat === "Degrees Decimal Minutes") { @@ -125,10 +137,12 @@ export function convertCoordinates (input, inFormat, inDelim, outFormat, outDeli if (splitLat.length !== 2 || splitLong.length !== 2) { throw "Invalid co-ordinate format for Degrees Decimal Minutes."; } + // Convert to decimal degrees, and then convert to a geodesy object const lat = convDDMToDD(splitLat[0], splitLat[1], 10); const long = convDDMToDD(splitLong[0], splitLong[1], 10); latlon = new geodesy.LatLonEllipsoidal(lat.degrees, long.degrees); } else { + // Not a pair, so only try to convert one set of co-ordinates const splitLat = splitInput(input); if (splitLat.length !== 2) { throw "Invalid co-ordinate format for Degrees Decimal Minutes."; @@ -145,6 +159,7 @@ export function convertCoordinates (input, inFormat, inDelim, outFormat, outDeli } latlon = new geodesy.LatLonEllipsoidal(splitLat[0], splitLong[0]); } else { + // Not a pair, so only try to convert one set of co-ordinates const splitLat = splitInput(split[0]); if (splitLat.length !== 1) { throw "Invalid co-ordinate format for Decimal Degrees."; @@ -152,88 +167,115 @@ export function convertCoordinates (input, inFormat, inDelim, outFormat, outDeli latlon = new geodesy.LatLonEllipsoidal(splitLat[0], splitLat[0]); } } else { - throw "Invalid input co-ordinate format selected."; + throw `Unknown input format '${inFormat}'`; } // Everything is now a geodesy latlon object + // These store the latitude and longitude as decimal + if (inFormat.includes("Degrees")) { + // If the input string contains directions, we need to check if they're S or W. + // If either of the directions are, we should make the decimal value negative + const dirs = input.match(/[NnEeSsWw]/g); + if (dirs && dirs.length >= 1) { + // Make positive lat/lon values with S/W directions into negative values + if (dirs[0] === "S" || dirs[0] === "W" && latlon.lat > 0) { + latlon.lat = 0 - latlon.lat; + } + if (dirs.length >= 2) { + if (dirs[1] === "S" || dirs[1] === "W" && latlon.lon > 0) { + latlon.lon = 0 - latlon.lon; + } + } + } + } + // Try to find the compass directions of the lat and long + const [latDir, longDir] = findDirs(latlon.lat + "," + latlon.lon, ","); + // Output conversions for each output format if (outFormat === "Decimal Degrees") { - conv = latlon.toString("d", precision); - if (!isPair) { - conv = conv.split(",")[0]; - } + // We could use the built in latlon.toString(), + // but this makes adjusting the output harder + const lat = convDDToDD(latlon.lat, precision); + const lon = convDDToDD(latlon.lon, precision); + convLat = lat.string; + convLon = lon.string; } else if (outFormat === "Degrees Decimal Minutes") { - conv = latlon.toString("dm", precision); - if (!isPair) { - conv = conv.split(",")[0]; - } + const lat = convDDToDDM(latlon.lat, precision); + const lon = convDDToDDM(latlon.lon, precision); + convLat = lat.string; + convLon = lon.string; } else if (outFormat === "Degrees Minutes Seconds") { - conv = latlon.toString("dms", precision); - if (!isPair) { - conv = conv.split(",")[0]; - } + const lat = convDDToDMS(latlon.lat, precision); + const lon = convDDToDMS(latlon.lon, precision); + convLat = lat.string; + convLon = lon.string; } else if (outFormat === "Geohash") { - conv = geohash.encode(latlon.lat.toString(), latlon.lon.toString(), precision); + convLat = geohash.encode(latlon.lat, latlon.lon, precision); } else if (outFormat === "Military Grid Reference System") { const utm = latlon.toUtm(); const mgrs = utm.toMgrs(); - conv = mgrs.toString(precision); + // MGRS wants a precision that's an even number between 2 and 10 + if (precision % 2 !== 0) { + precision = precision + 1; + } + if (precision > 10) { + precision = 10; + } + convLat = mgrs.toString(precision); } else if (outFormat === "Ordnance Survey National Grid") { const osng = geodesy.OsGridRef.latLonToOsGrid(latlon); if (osng.toString() === "") { throw "Could not convert co-ordinates to OS National Grid. Are the co-ordinates in range?"; } - conv = osng.toString(precision); + // OSNG wants a precision that's an even number between 2 and 10 + if (precision % 2 !== 0) { + precision = precision + 1; + } + if (precision > 10) { + precision = 10; + } + convLat = osng.toString(precision); } else if (outFormat === "Universal Transverse Mercator") { const utm = latlon.toUtm(); - conv = utm.toString(precision); + convLat = utm.toString(precision); } - if (conv === undefined) { + if (convLat === undefined) { throw "Error converting co-ordinates."; } + if (outFormat.includes("Degrees")) { - let [latDir, longDir] = findDirs(conv, outDelim); - if (inLatDir !== undefined) { - latDir = inLatDir; + // Format DD/DDM/DMS for output + // If we're outputting a compass direction, remove the negative sign + if (latDir === "S" && includeDir !== "None") { + convLat = convLat.replace("-", ""); } - if (inLongDir !== undefined) { - longDir = inLongDir; + if (longDir === "W" && includeDir !== "None") { + convLon = convLon.replace("-", ""); } - // DMS/DDM/DD - conv = conv.replace(", ", outDelim); - // Remove any directions from the current string, - // so we can put them where we want them - conv = conv.replace(/[NnEeSsWw]/g, ""); - if (includeDir !== "None") { - let outConv = ""; - if (!isPair) { - if (includeDir === "Before") { - outConv += latDir + " " + conv; - } else { - outConv += conv + " " + latDir; - } - } else { - const splitConv = conv.split(outDelim); - if (splitConv.length === 2) { - if (includeDir === "Before") { - outConv += latDir + " "; - } - outConv += splitConv[0]; - if (includeDir === "After") { - outConv += " " + latDir; - } - outConv += outDelim; - if (includeDir === "Before") { - outConv += longDir + " "; - } - outConv += splitConv[1]; - if (includeDir === "After") { - outConv += " " + longDir; - } - } + + let outConv = ""; + if (includeDir === "Before") { + outConv += latDir + " "; + } + + outConv += convLat; + if (includeDir === "After") { + outConv += " " + latDir; + } + outConv += outDelim; + if (isPair) { + if (includeDir === "Before") { + outConv += longDir + " "; } - conv = outConv; + outConv += convLon; + if (includeDir === "After") { + outConv += " " + longDir; + } + outConv += outDelim; } + conv = outConv; + } else { + conv = convLat + outDelim; } return conv; @@ -247,10 +289,11 @@ export function convertCoordinates (input, inFormat, inDelim, outFormat, outDeli function splitInput (input){ const split = []; - input.split(/[°′″'"\s]/).forEach(item => { - // Remove any character that isn't a digit + input.split(/\s+/).forEach(item => { + // Remove any character that isn't a digit, decimal point or negative sign item = item.replace(/[^0-9.-]/g, ""); if (item.length > 0){ + // Turn the item into a float split.push(parseFloat(item)); } }); @@ -266,10 +309,17 @@ function splitInput (input){ * @returns {{string: string, degrees: number}} An object containing the raw converted value (obj.degrees), and a formatted string version (obj.string) */ function convDMSToDD (degrees, minutes, seconds, precision){ - const converted = new Object(); - converted.degrees = degrees + (minutes / 60) + (seconds / 3600); - converted.string = (Math.round(converted.degrees * precision) / precision) + "°"; - return converted; + const absDegrees = Math.abs(degrees); + let conv = absDegrees + (minutes / 60) + (seconds / 3600); + let outString = round(conv, precision) + "°"; + if (isNegativeZero(degrees) || degrees < 0) { + conv = -conv; + outString = "-" + outString; + } + return { + "degrees": conv, + "string": outString + }; } /** @@ -280,10 +330,17 @@ function convDMSToDD (degrees, minutes, seconds, precision){ * @returns {{string: string, degrees: number}} An object containing the raw converted value (obj.degrees), and a formatted string version (obj.string) */ function convDDMToDD (degrees, minutes, precision) { - const converted = new Object(); - converted.degrees = degrees + minutes / 60; - converted.string = ((Math.round(converted.degrees * precision) / precision) + "°"); - return converted; + const absDegrees = Math.abs(degrees); + let conv = absDegrees + minutes / 60; + let outString = round(conv, precision) + "°"; + if (isNegativeZero(degrees) || degrees < 0) { + conv = -conv; + outString = "-" + outString; + } + return { + "degrees": conv, + "string": outString + }; } /** @@ -294,28 +351,34 @@ function convDDMToDD (degrees, minutes, precision) { * @returns {{string: string, degrees: number}} An object containing the raw converted value (obj.degrees), and a formatted string version (obj.string) */ function convDDToDD (degrees, precision) { - const converted = new Object(); - converted.degrees = degrees; - converted.string = Math.round(converted.degrees * precision) / precision + "°"; - return converted; + return { + "degrees": degrees, + "string": round(degrees, precision) + "°" + }; } /** * Convert Decimal Degrees to Degrees Minutes Seconds * @param {number} decDegrees - The input data to be converted + * @param {number} precision - The precision which the result should be rounded to * @returns {{string: string, degrees: number, minutes: number, seconds: number}} An object containing the raw converted value as separate numbers (.degrees, .minutes, .seconds), and a formatted string version (obj.string) */ -function convDDToDMS (decDegrees) { - const degrees = Math.floor(decDegrees); - const minutes = Math.floor(60 * (decDegrees - degrees)); - const seconds = Math.round(3600 * (decDegrees - degrees) - 60 * minutes); - - const converted = new Object(); - converted.degrees = degrees; - converted.minutes = minutes; - converted.seconds = seconds; - converted.string = degrees + "° " + minutes + "' " + seconds + "\""; - return converted; +function convDDToDMS (decDegrees, precision) { + const absDegrees = Math.abs(decDegrees); + let degrees = Math.floor(absDegrees); + const minutes = Math.floor(60 * (absDegrees - degrees)), + seconds = round(3600 * (absDegrees - degrees) - 60 * minutes, precision); + let outString = degrees + "° " + minutes + "' " + seconds + "\""; + if (isNegativeZero(decDegrees) || decDegrees < 0) { + degrees = -degrees; + outString = "-" + outString; + } + return { + "degrees": degrees, + "minutes": minutes, + "seconds": seconds, + "string": outString + }; } /** @@ -325,15 +388,21 @@ function convDDToDMS (decDegrees) { * @returns {{string: string, degrees: number, minutes: number}} An object containing the raw converted value as separate numbers (.degrees, .minutes), and a formatted string version (obj.string) */ function convDDToDDM (decDegrees, precision) { - const degrees = Math.floor(decDegrees); - const minutes = decDegrees - degrees; - const decMinutes = Math.round((minutes * 60) * precision) / precision; + const absDegrees = Math.abs(decDegrees); + let degrees = Math.floor(absDegrees); + const minutes = absDegrees - degrees, + decMinutes = round(minutes * 60, precision); + let outString = degrees + "° " + decMinutes + "'"; + if (decDegrees < 0 || isNegativeZero(decDegrees)) { + degrees = -degrees; + outString = "-" + outString; + } - const converted = new Object(); - converted.degrees = degrees; - converted.minutes = decMinutes; - converted.string = degrees + "° " + decMinutes + "'"; - return converted; + return { + "degrees": degrees, + "minutes": decMinutes, + "string": outString, + }; } /** @@ -348,8 +417,9 @@ export function findDirs(input, delim) { const dirs = upperInput.match(dirExp); - if (dirExp.test(upperInput)) { - // If there's actually compass directions in the string + if (dirs) { + // If there's actually compass directions + // in the input, use these to work out the direction if (dirs.length <= 2 && dirs.length >= 1) { if (dirs.length === 2) { return [dirs[0], dirs[1]]; @@ -366,15 +436,13 @@ export function findDirs(input, delim) { if (!delim.includes("Direction")) { if (upperInput.includes(delim)) { const split = upperInput.split(delim); - if (split.length > 1) { - if (split[0] === "") { - lat = split[1]; - } else { + if (split.length >= 1) { + if (split[0] !== "") { lat = split[0]; } - if (split.length > 2) { - if (split[2] !== "") { - long = split[2]; + if (split.length >= 2) { + if (split[1] !== "") { + long = split[1]; } } } @@ -423,9 +491,9 @@ export function findDirs(input, delim) { export function findFormat (input, delim) { let testData; const mgrsPattern = new RegExp(/^[0-9]{2}\s?[C-HJ-NP-X]{1}\s?[A-HJ-NP-Z][A-HJ-NP-V]\s?[0-9\s]+/), - osngPattern = new RegExp(/^[STNHO][A-HJ-Z][0-9]+$/), + osngPattern = new RegExp(/^[A-HJ-Z]{2}\s+[0-9\s]+$/), geohashPattern = new RegExp(/^[0123456789BCDEFGHJKMNPQRSTUVWXYZ]+$/), - utmPattern = new RegExp(/^[0-9]{2}\s?[C-HJ-NP-X]\s[0-9\.]+\s?[0-9\.]+$/), + utmPattern = new RegExp(/^[0-9]{2}\s?[C-HJ-NP-X]\s[0-9.]+\s?[0-9.]+$/), degPattern = new RegExp(/[°'"]/g); input = input.trim(); if (delim !== null && delim.includes("Direction")) { @@ -452,31 +520,16 @@ export function findFormat (input, delim) { } } - // Test MGRS and Geohash + // Test non-degrees formats if (!degPattern.test(input)) { - const filteredInput = input.toUpperCase(); + const filteredInput = input.toUpperCase().replace(delim, ""); const isMgrs = mgrsPattern.test(filteredInput); const isOsng = osngPattern.test(filteredInput); const isGeohash = geohashPattern.test(filteredInput); const isUtm = utmPattern.test(filteredInput); - if (isMgrs && (isOsng || isGeohash)) { - if (filteredInput.includes("I")) { - // Only MGRS can have an i! - return "Military Grid Reference System"; - } - } if (isUtm) { return "Universal Transverse Mercator"; } - if (isOsng && isGeohash) { - // Geohash doesn't have A, L or O, but OSNG does. - const testExp = new RegExp(/[ALO]/g); - if (testExp.test(filteredInput)) { - return "Ordnance Survey National Grid"; - } else { - return "Geohash"; - } - } if (isMgrs) { return "Military Grid Reference System"; } @@ -510,7 +563,7 @@ export function findFormat (input, delim) { */ export function findDelim (input) { input = input.trim(); - const delims = [",", ";", ":", " "]; + const delims = [",", ";", ":"]; const testDir = input.match(/[NnEeSsWw]/g); if (testDir !== null && testDir.length > 0 && testDir.length < 3) { // Possibly contains a direction @@ -554,3 +607,22 @@ export function realDelim (delim) { "Colon": ":" }[delim]; } + +/** + * Returns true if a zero is negative + * @param {number} zero + */ +function isNegativeZero(zero) { + return zero === 0 && (1/zero < 0); +} + +/** + * Rounds a number to a specified number of decimal places + * @param {number} input - The number to be rounded + * @param {precision} precision - The number of decimal places the number should be rounded to + * @returns {number} + */ +function round(input, precision) { + precision = Math.pow(10, precision); + return Math.round(input * precision) / precision; +}