/** * \file NETGeographicLib/DMS.h * \brief Header for NETGeographicLib::DMS class * * NETGeographicLib is copyright (c) Scott Heiman (2013) * GeographicLib is Copyright (c) Charles Karney (2010-2012) * and licensed under the MIT/X11 License. * For more information, see * https://geographiclib.sourceforge.io/ **********************************************************************/ #pragma once namespace NETGeographicLib { /** * \brief .NET wrapper for GeographicLib::DMS. * * Parse a string representing degree, minutes, and seconds and return the * angle in degrees and format an angle in degrees as degree, minutes, and * seconds. In addition, handle NANs and infinities on input and output. * * C# Example: * \include example-DMS.cs * Managed C++ Example: * \include example-DMS.cpp * Visual Basic Example: * \include example-DMS.vb **********************************************************************/ public ref class DMS { public: /** * Indicator for presence of hemisphere indicator (N/S/E/W) on latitudes * and longitudes. **********************************************************************/ enum class Flag { /** * No indicator present. * @hideinitializer **********************************************************************/ NONE = 0, /** * Latitude indicator (N/S) present. * @hideinitializer **********************************************************************/ LATITUDE = 1, /** * Longitude indicator (E/W) present. * @hideinitializer **********************************************************************/ LONGITUDE = 2, /** * Used in Encode to indicate output of an azimuth in [000, 360) with no * letter indicator. * @hideinitializer **********************************************************************/ AZIMUTH = 3, /** * Used in Encode to indicate output of a plain number. * @hideinitializer **********************************************************************/ NUMBER = 4, }; /** * Indicator for trailing units on an angle. **********************************************************************/ enum class Component { /** * Trailing unit is degrees. * @hideinitializer **********************************************************************/ DEGREE = 0, /** * Trailing unit is arc minutes. * @hideinitializer **********************************************************************/ MINUTE = 1, /** * Trailing unit is arc seconds. * @hideinitializer **********************************************************************/ SECOND = 2, }; /** * Convert a string in DMS to an angle. * * @param[in] dms string input. * @param[out] ind a DMS::flag value signaling the presence of a * hemisphere indicator. * @exception GeographicErr if \e dms is malformed (see below). * @return angle (degrees). * * Degrees, minutes, and seconds are indicated by the characters d, ' * (single quote), " (double quote), and these components may only be * given in this order. Any (but not all) components may be omitted and * other symbols (e.g., the ° symbol for degrees and the unicode prime * and double prime symbols for minutes and seconds) may be substituted; * two single quotes can be used instead of ". The last component * indicator may be omitted and is assumed to be the next smallest unit * (thus 33d10 is interpreted as 33d10'). The final component may be a * decimal fraction but the non-final components must be integers. Instead * of using d, ', and " to indicate degrees, minutes, and seconds, : * (colon) may be used to separate these components (numbers must * appear before and after each colon); thus 50d30'10.3" may be * written as 50:30:10.3, 5.5' may be written 0:5.5, and so on. The * integer parts of the minutes and seconds components must be less * than 60. A single leading sign is permitted. A hemisphere designator * (N, E, W, S) may be added to the beginning or end of the string. The * result is multiplied by the implied sign of the hemisphere designator * (negative for S and W). In addition \e ind is set to DMS::LATITUDE if N * or S is present, to DMS::LONGITUDE if E or W is present, and to * DMS::NONE otherwise. Throws an error on a malformed string. No check * is performed on the range of the result. Examples of legal and illegal * strings are * - LEGAL (all the entries on each line are equivalent) * - -20.51125, 20d30'40.5"S, -20°30'40.5, -20d30.675, * N-20d30'40.5", -20:30:40.5 * - 4d0'9, 4d9", 4d9'', 4:0:9, 004:00:09, 4.0025, 4.0025d, 4d0.15, * 04:.15 * - 4:59.99999999999999, 4:60.0, 4:59:59.9999999999999, 4:59:60.0, 5 * - ILLEGAL (the exception thrown explains the problem) * - 4d5"4', 4::5, 4:5:, :4:5, 4d4.5'4", -N20.5, 1.8e2d, 4:60, * 4:59:60 * * The decoding operation can also perform addition and subtraction * operations. If the string includes internal signs (i.e., not at * the beginning nor immediately after an initial hemisphere designator), * then the string is split immediately before such signs and each piece is * decoded according to the above rules and the results added; thus * S3-2.5+4.1N is parsed as the sum of S3, * -2.5, +4.1N. Any piece can include a * hemisphere designator; however, if multiple designators are given, they * must compatible; e.g., you cannot mix N and E. In addition, the * designator can appear at the beginning or end of the first piece, but * must be at the end of all subsequent pieces (a hemisphere designator is * not allowed after the initial sign). Examples of legal and illegal * combinations are * - LEGAL (these are all equivalent) * - 070:00:45, 70:01:15W+0:0.5, 70:01:15W-0:0:30W, W70:01:15+0:0:30E * - ILLEGAL (the exception thrown explains the problem) * - 70:01:15W+0:0:15N, W70:01:15+W0:0:15 * * WARNING: "Exponential" notation is not recognized. Thus * 7.0E1 is illegal, while 7.0E+1 is parsed as * (7.0E) + (+1), yielding the same result as * 8.0E. * * NOTE: At present, all the string handling in the C++ * implementation %GeographicLib is with 8-bit characters. The support for * unicode symbols for degrees, minutes, and seconds is therefore via the * UTF-8 encoding. (The * JavaScript implementation of this class uses unicode natively, of * course.) * * Here is the list of Unicode symbols supported for degrees, minutes, * seconds: * - degrees: * - d, D lower and upper case letters * - U+00b0 degree symbol (°) * - U+00ba masculine ordinal indicator * - U+2070 superscript zero * - U+02da ring above * - minutes: * - ' apostrophe * - U+2032 prime (′) * - U+00b4 acute accent * - U+2019 right single quote (’) * - seconds: * - " quotation mark * - U+2033 double prime (″) * - U+201d right double quote (”) * - ' ' any two consecutive symbols for minutes * . * The codes with a leading zero byte, e.g., U+00b0, are accepted in their * UTF-8 coded form 0xc2 0xb0 and as a single byte 0xb0. **********************************************************************/ static double Decode(System::String^ dms, [System::Runtime::InteropServices::Out] Flag% ind); /** * Convert DMS to an angle. * * @param[in] d degrees. * @param[in] m arc minutes. * @param[in] s arc seconds. * @return angle (degrees) * * This does not propagate the sign on \e d to the other components, so * -3d20' would need to be represented as - DMS::Decode(3.0, 20.0) or * DMS::Decode(-3.0, -20.0). **********************************************************************/ static double Decode(double d, double m, double s ) { return d + (m + s/double(60))/double(60); } /** * Convert a pair of strings to latitude and longitude. * * @param[in] dmsa first string. * @param[in] dmsb second string. * @param[out] lat latitude (degrees). * @param[out] lon longitude (degrees). * @param[in] longfirst if true assume longitude is given before latitude * in the absence of hemisphere designators (default false). * @exception GeographicErr if \e dmsa or \e dmsb is malformed. * @exception GeographicErr if \e dmsa and \e dmsb are both interpreted as * latitudes. * @exception GeographicErr if \e dmsa and \e dmsb are both interpreted as * longitudes. * @exception GeographicErr if decoded latitude is not in [−90°, * 90°]. * * By default, the \e lat (resp., \e lon) is assigned to the results of * decoding \e dmsa (resp., \e dmsb). However this is overridden if either * \e dmsa or \e dmsb contain a latitude or longitude hemisphere designator * (N, S, E, W). If an exception is thrown, \e lat and \e lon are * unchanged. **********************************************************************/ static void DecodeLatLon(System::String^ dmsa, System::String^ dmsb, [System::Runtime::InteropServices::Out] double% lat, [System::Runtime::InteropServices::Out] double% lon, bool longfirst ); /** * Convert a string to an angle in degrees. * * @param[in] angstr input string. * @exception GeographicErr if \e angstr is malformed. * @exception GeographicErr if \e angstr includes a hemisphere designator. * @return angle (degrees) * * No hemisphere designator is allowed and no check is done on the range of * the result. **********************************************************************/ static double DecodeAngle(System::String^ angstr); /** * Convert a string to an azimuth in degrees. * * @param[in] azistr input string. * @exception GeographicErr if \e azistr is malformed. * @exception GeographicErr if \e azistr includes a N/S designator. * @return azimuth (degrees) reduced to the range [−180°, * 180°). * * A hemisphere designator E/W can be used; the result is multiplied by * −1 if W is present. **********************************************************************/ static double DecodeAzimuth(System::String^ azistr); /** * Convert angle (in degrees) into a DMS string (using d, ', and "). * * @param[in] angle input angle (degrees) * @param[in] trailing DMS::component value indicating the trailing units * on the string and this is given as a decimal number if necessary. * @param[in] prec the number of digits after the decimal point for the * trailing component. * @param[in] ind DMS::flag value indicated additional formatting. * @param[in] dmssep if non-null, use as the DMS separator character * (instead of d, ', " delimiters). * @exception GeographicErr if memory for the string can't be allocated. * @return formatted string * * The interpretation of \e ind is as follows: * - ind == DMS::NONE, signed result no leading zeros on degrees except in * the units place, e.g., -8d03'. * - ind == DMS::LATITUDE, trailing N or S hemisphere designator, no sign, * pad degrees to 2 digits, e.g., 08d03'S. * - ind == DMS::LONGITUDE, trailing E or W hemisphere designator, no * sign, pad degrees to 3 digits, e.g., 008d03'W. * - ind == DMS::AZIMUTH, convert to the range [0, 360°), no * sign, pad degrees to 3 digits, , e.g., 351d57'. * . * The integer parts of the minutes and seconds components are always given * with 2 digits. **********************************************************************/ static System::String^ Encode(double angle, Component trailing, unsigned prec, Flag ind, char dmssep ); /** * Convert angle into a DMS string (using d, ', and ") selecting the * trailing component based on the precision. * * @param[in] angle input angle (degrees) * @param[in] prec the precision relative to 1 degree. * @param[in] ind DMS::flag value indicated additional formatting. * @param[in] dmssep if non-null, use as the DMS separator character * (instead of d, ', " delimiters). * @exception std::bad_alloc if memory for the string can't be allocated. * @return formatted string * * \e prec indicates the precision relative to 1 degree, e.g., \e prec = 3 * gives a result accurate to 0.1' and \e prec = 4 gives a result accurate * to 1". \e ind is interpreted as in DMS::Encode with the additional * facility that DMS::NUMBER represents \e angle as a number in fixed * format with precision \e prec. **********************************************************************/ static System::String^ Encode(double angle, unsigned prec, Flag ind, char dmssep ); /** * Split angle into degrees and minutes * * @param[in] ang angle (degrees) * @param[out] d degrees (an integer returned as a double) * @param[out] m arc minutes. **********************************************************************/ static void Encode(double ang, [System::Runtime::InteropServices::Out] double% d, [System::Runtime::InteropServices::Out] double% m) { d = int(ang); m = 60 * (ang - d); } /** * Split angle into degrees and minutes and seconds. * * @param[in] ang angle (degrees) * @param[out] d degrees (an integer returned as a double) * @param[out] m arc minutes (an integer returned as a double) * @param[out] s arc seconds. **********************************************************************/ static void Encode(double ang, [System::Runtime::InteropServices::Out] double% d, [System::Runtime::InteropServices::Out] double% m, [System::Runtime::InteropServices::Out] double% s) { d = int(ang); ang = 60 * (ang - d); m = int(ang); s = 60 * (ang - m); } }; } // namespace NETGeographicLib