/********************************************************************** * $Id: mitab_spatialref.cpp,v 1.44 2005/09/29 20:15:36 dmorissette Exp $ * * Name: mitab_spatialref.cpp * Project: MapInfo TAB Read/Write library * Language: C++ * Purpose: Implementation of the SpatialRef stuff in the TABFile class. * Author: Frank Warmerdam, warmerdam@pobox.com * ********************************************************************** * Copyright (c) 1999-2001, Frank Warmerdam * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. ********************************************************************** * * $Log: mitab_spatialref.cpp,v $ * Revision 1.44 2005/09/29 20:15:36 dmorissette * More improvements to handling of modified TM projections 21-24. * Added correct name stings to all datum definitions (Anthony D, bug 1155) * * Revision 1.43 2005/05/12 22:07:52 dmorissette * Improved handling of Danish modified TM proj#21-24 (hss, bugs 976,1010) * * Revision 1.42 2005/03/22 23:24:54 dmorissette * Added support for datum id in .MAP header (bug 910) * * Revision 1.41 2004/10/11 20:50:04 dmorissette * 7 new datum defns, 1 fixed and list of ellipsoids updated (Bug 608,Uffe K.) * * Revision 1.40 2003/03/21 14:20:42 warmerda * fixed up regional mercator handling, was screwing up transverse mercator * * Revision 1.39 2002/12/19 20:46:01 warmerda * fixed spelling of Provisional_South_American_Datum_1956 * * Revision 1.38 2002/12/12 20:12:18 warmerda * fixed signs of rotational parameters for TOWGS84 in WKT * * Revision 1.37 2002/10/15 14:33:30 warmerda * Added untested support in mitab_spatialref.cpp, and mitab_coordsys.cpp for * projections Regional Mercator (26), Polyconic (27), Azimuthal Equidistant - * All origin latitudes (28), and Lambert Azimuthal Equal Area - any aspect * (29). * * Revision 1.36 2002/09/05 15:38:16 warmerda * one more ogc datum name * * Revision 1.35 2002/09/05 15:23:22 warmerda * added some EPSG datum names provided by Siro Martello @ Cadcorp * * Revision 1.34 2002/04/01 19:49:24 warmerda * added support for cassini/soldner - proj 30 * * Revision 1.33 2002/03/01 19:00:15 warmerda * False Easting/Northing should be in the linear units of measure in MapInfo, * but in OGRSpatialReference/WKT they are always in meters. Convert accordingly. * * Revision 1.32 2001/10/25 16:13:41 warmerda * Added OGC string for datum 12 * * Revision 1.31 2001/08/10 21:25:59 warmerda * SetSpatialRef() now makes a clone of the srs instead of taking a ref to it * * Revision 1.30 2001/04/23 17:38:06 warmerda * fixed use of freed points bug for datum 999/9999 * * Revision 1.29 2001/04/04 21:43:19 warmerda * added code to set WGS84 values * * Revision 1.28 2001/01/23 21:23:42 daniel * Added projection bounds lookup table, called from TABFile::SetProjInfo() * * Revision 1.27 2001/01/22 16:00:53 warmerda * reworked swiss projection support * * Revision 1.26 2001/01/19 21:56:18 warmerda * added untested support for Swiss Oblique Mercator * * Revision 1.25 2000/12/05 14:56:55 daniel * Added some missing unit names (aliases) in TABFile::SetSpatialRef() * * Revision 1.24 2000/10/16 21:44:50 warmerda * added nonearth support * * Revision 1.23 2000/10/16 18:01:20 warmerda * added check for NULL on passed in spatial ref * * Revision 1.22 2000/10/02 14:46:36 daniel * Added 7 parameter datums with id 1000+ * * Revision 1.21 2000/09/29 22:09:18 daniel * Added new datums/ellipsoid from MapInfo V6.0 * * Revision 1.20 2000/09/28 16:39:44 warmerda * avoid warnings for unused, and unitialized variables * * Revision 1.19 2000/02/07 17:43:17 daniel * Fixed offset in parsing of custom datum string in SetSpatialRef() * * Revision 1.18 2000/02/04 05:30:50 daniel * Fixed problem in GetSpatialRef() with szDatumName[] buffer size and added * use of an epsilon in comparing of datum parameters. * * Revision 1.17 2000/01/15 22:30:45 daniel * Switch to MIT/X-Consortium OpenSource license * * Revision 1.16 1999/12/21 20:01:47 warmerda * added support for DATUM 0 * * Revision 1.15 1999/11/11 02:56:17 warmerda * fixed problems with stereographic * * Revision 1.14 1999/11/10 20:13:12 warmerda * implement spheroid table * * Revision 1.13 1999/11/09 22:31:38 warmerda * initial implementation of MIF CoordSys support * * Revision 1.12 1999/10/19 16:31:32 warmerda * Improved mile support. * * Revision 1.11 1999/10/19 16:27:50 warmerda * Added support for Mile (units=0). Also added support for nonearth * projections. * * Revision 1.10 1999/10/05 18:56:08 warmerda * fixed lots of bugs with projection parameters * * Revision 1.9 1999/10/04 21:17:47 warmerda * Make sure that asDatumInfoList comparisons include the ellipsoid code. * Don't include OGC name for local NAD27 values. Put NAD83 ahead of GRS80 * so it will be used in preference even though they are identical parms. * * Revision 1.8 1999/10/04 19:46:42 warmerda * assorted changes, including rework of units * * Revision 1.7 1999/09/28 04:52:17 daniel * Added missing param in sprintf() format for szDatumName[] * * Revision 1.6 1999/09/28 02:51:46 warmerda * Added ellipsoid codes, and bulk of write implementation. * * Revision 1.5 1999/09/27 21:23:41 warmerda * added more projections * * Revision 1.4 1999/09/24 04:01:28 warmerda * remember nMIDatumId changes * * Revision 1.3 1999/09/23 19:51:38 warmerda * added datum mapping table support * * Revision 1.2 1999/09/22 23:04:59 daniel * Handle reference count on OGRSpatialReference properly * * Revision 1.1 1999/09/21 19:39:22 daniel * Moved Get/SetSpatialRef() to a separate file * **********************************************************************/ #include "mitab.h" /* -------------------------------------------------------------------- */ /* This table was automatically generated by doing translations */ /* between mif and tab for each datum, and extracting the */ /* parameters from the tab file. The OGC names were added */ /* afterwards and may be incomplete or inaccurate. */ /* -------------------------------------------------------------------- */ MapInfoDatumInfo asDatumInfoList[] = { {104, "WGS_1984", 28,0, 0, 0, 0, 0, 0, 0, 0}, {74, "North_American_Datum_1983", 0, 0, 0, 0, 0, 0, 0, 0, 0}, {0, "", 29, 0, 0, 0, 0, 0, 0, 0, 0}, // Datum ignore {1, "Adindan", 6, -162, -12, 206, 0, 0, 0, 0, 0}, {2, "Afgooye", 3, -43, -163, 45, 0, 0, 0, 0, 0}, {3, "Ain_el_Abd_1970", 4, -150, -251, -2, 0, 0, 0, 0, 0}, {4, "Anna_1_Astro_1965", 2, -491, -22, 435, 0, 0, 0, 0, 0}, {5, "Arc_1950", 15,-143, -90, -294,0, 0, 0, 0, 0}, {6, "Arc_1960", 6, -160, -8, -300,0, 0, 0, 0, 0}, {7, "Ascension_Islands", 4, -207, 107, 52, 0, 0, 0, 0, 0}, {8, "Astro_Beacon_E", 4, 145, 75, -272,0, 0, 0, 0, 0}, {9, "Astro_B4_Sorol_Atoll", 4, 114, -116, -333,0, 0, 0, 0, 0}, {10, "Astro_Dos_71_4", 4, -320, 550, -494,0, 0, 0, 0, 0}, {11, "Astronomic_Station_1952", 4, 124, -234, -25, 0, 0, 0, 0, 0}, {12, "Australian_Geodetic_Datum_66",2, -133, -48, 148, 0, 0, 0, 0, 0}, {13, "Australian_Geodetic_Datum_84",2, -134, -48, 149, 0, 0, 0, 0, 0}, {14, "Bellevue_Ign", 4, -127, -769, 472, 0, 0, 0, 0, 0}, {15, "Bermuda_1957", 7, -73, 213, 296, 0, 0, 0, 0, 0}, {16, "Bogota", 4, 307, 304, -318,0, 0, 0, 0, 0}, {17, "Campo_Inchauspe", 4, -148, 136, 90, 0, 0, 0, 0, 0}, {18, "Canton_Astro_1966", 4, 298, -304, -375,0, 0, 0, 0, 0}, {19, "Cape", 6, -136, -108, -292,0, 0, 0, 0, 0}, {20, "Cape_Canaveral", 7, -2, 150, 181, 0, 0, 0, 0, 0}, {21, "Carthage", 6, -263, 6, 431, 0, 0, 0, 0, 0}, {22, "Chatham_1971", 4, 175, -38, 113, 0, 0, 0, 0, 0}, {23, "Chua", 4, -134, 229, -29, 0, 0, 0, 0, 0}, {24, "Corrego_Alegre", 4, -206, 172, -6, 0, 0, 0, 0, 0}, {25, "Batavia", 10,-377,681, -50, 0, 0, 0, 0, 0}, {26, "Dos_1968", 4, 230, -199, -752,0, 0, 0, 0, 0}, {27, "Easter_Island_1967", 4, 211, 147, 111, 0, 0, 0, 0, 0}, {28, "European_Datum_1950", 4, -87, -98, -121,0, 0, 0, 0, 0}, {29, "European_Datum_1979", 4, -86, -98, -119,0, 0, 0, 0, 0}, {30, "Gandajika_1970", 4, -133, -321, 50, 0, 0, 0, 0, 0}, {31, "New_Zealand_GD49", 4, 84, -22, 209, 0, 0, 0, 0, 0}, {32, "GRS_67", 21,0, 0, 0, 0, 0, 0, 0, 0}, {33, "GRS_80", 0, 0, 0, 0, 0, 0, 0, 0, 0}, {34, "Guam_1963", 7, -100, -248, 259, 0, 0, 0, 0, 0}, {35, "Gux_1_Astro", 4, 252, -209, -751,0, 0, 0, 0, 0}, {36, "Hito_XVIII_1963", 4, 16, 196, 93, 0, 0, 0, 0, 0}, {37, "Hjorsey_1955", 4, -73, 46, -86, 0, 0, 0, 0, 0}, {38, "Hong_Kong_1963", 4, -156, -271, -189,0, 0, 0, 0, 0}, {39, "Hu_Tzu_Shan", 4, -634, -549, -201,0, 0, 0, 0, 0}, {40, "Indian_Thailand_Vietnam", 11,214, 836, 303, 0, 0, 0, 0, 0}, {41, "Indian_Bangladesh", 11,289, 734, 257, 0, 0, 0, 0, 0}, {42, "Ireland_1965", 13,506, -122, 611, 0, 0, 0, 0, 0}, {43, "ISTS_073_Astro_1969", 4, 208, -435, -229,0, 0, 0, 0, 0}, {44, "Johnston_Island_1961", 4, 191, -77, -204,0, 0, 0, 0, 0}, {45, "Kandawala", 11,-97, 787, 86, 0, 0, 0, 0, 0}, {46, "Kerguyelen_Island", 4, 145, -187, 103, 0, 0, 0, 0, 0}, {47, "Kertau", 17,-11, 851, 5, 0, 0, 0, 0, 0}, {48, "L_C_5_Astro", 7, 42, 124, 147, 0, 0, 0, 0, 0}, {49, "Liberia_1964", 6, -90, 40, 88, 0, 0, 0, 0, 0}, {50, "Luzon_Phillippines", 7, -133, -77, -51, 0, 0, 0, 0, 0}, {51, "Luzon_Mindanao_Island", 7, -133, -79, -72, 0, 0, 0, 0, 0}, {52, "Mahe_1971", 6, 41, -220, -134,0, 0, 0, 0, 0}, {53, "Marco_Astro", 4, -289, -124, 60, 0, 0, 0, 0, 0}, {54, "Massawa", 10,639, 405, 60, 0, 0, 0, 0, 0}, {55, "Merchich", 16,31, 146, 47, 0, 0, 0, 0, 0}, {56, "Midway_Astro_1961", 4, 912, -58, 1227,0, 0, 0, 0, 0}, {57, "Minna", 6, -92, -93, 122, 0, 0, 0, 0, 0}, {58, "Nahrwan_Masirah_Island", 6, -247, -148, 369, 0, 0, 0, 0, 0}, {59, "Nahrwan_Un_Arab_Emirates", 6, -249, -156, 381, 0, 0, 0, 0, 0}, {60, "Nahrwan_Saudi_Arabia", 6, -231, -196, 482, 0, 0, 0, 0, 0}, {61, "Naparima_1972", 4, -2, 374, 172, 0, 0, 0, 0, 0}, {62, "NAD_1927", 7, -8, 160, 176, 0, 0, 0, 0, 0}, {63, "NAD_27_Alaska", 7, -5, 135, 172, 0, 0, 0, 0, 0}, {64, "NAD_27_Bahamas", 7, -4, 154, 178, 0, 0, 0, 0, 0}, {65, "NAD_27_San_Salvador", 7, 1, 140, 165, 0, 0, 0, 0, 0}, {66, "NAD_27_Canada", 7, -10, 158, 187, 0, 0, 0, 0, 0}, {67, "NAD_27_Canal_Zone", 7, 0, 125, 201, 0, 0, 0, 0, 0}, {68, "NAD_27_Caribbean", 7, -7, 152, 178, 0, 0, 0, 0, 0}, {69, "NAD_27_Central_America", 7, 0, 125, 194, 0, 0, 0, 0, 0}, {70, "NAD_27_Cuba", 7, -9, 152, 178, 0, 0, 0, 0, 0}, {71, "NAD_27_Greenland", 7, 11, 114, 195, 0, 0, 0, 0, 0}, {72, "NAD_27_Mexico", 7, -12, 130, 190, 0, 0, 0, 0, 0}, {73, "NAD_27_Michigan", 8, -8, 160, 176, 0, 0, 0, 0, 0}, {75, "Observatorio_1966", 4, -425, -169, 81, 0, 0, 0, 0, 0}, {76, "Old_Egyptian", 22,-130, 110, -13, 0, 0, 0, 0, 0}, {77, "Old_Hawaiian", 7, 61, -285, -181,0, 0, 0, 0, 0}, {78, "Oman", 6, -346, -1, 224, 0, 0, 0, 0, 0}, {79, "OSGB_1936", 9, 375, -111, 431, 0, 0, 0, 0, 0}, {80, "Pico_De_Las_Nieves", 4, -307, -92, 127, 0, 0, 0, 0, 0}, {81, "Pitcairn_Astro_1967", 4, 185, 165, 42, 0, 0, 0, 0, 0}, {82, "Provisional_South_American", 4, -288, 175, -376,0, 0, 0, 0, 0}, {83, "Puerto_Rico", 7, 11, 72, -101,0, 0, 0, 0, 0}, {84, "Qatar_National", 4, -128, -283, 22, 0, 0, 0, 0, 0}, {85, "Qornoq", 4, 164, 138, -189, 0, 0, 0, 0, 0}, {86, "Reunion", 4, 94, -948,-1262,0, 0, 0, 0, 0}, {87, "Monte_Mario", 4, -225, -65, 9, 0, 0, 0, 0, 0}, {88, "Santo_Dos", 4, 170, 42, 84, 0, 0, 0, 0, 0}, {89, "Sao_Braz", 4, -203, 141, 53, 0, 0, 0, 0, 0}, {90, "Sapper_Hill_1943", 4, -355, 16, 74, 0, 0, 0, 0, 0}, {91, "Schwarzeck", 14,616, 97, -251, 0, 0, 0, 0, 0}, {92, "South_American_Datum_1969", 24,-57, 1, -41, 0, 0, 0, 0, 0}, {93, "South_Asia", 19,7, -10, -26, 0, 0, 0, 0, 0}, {94, "Southeast_Base", 4, -499, -249,314, 0, 0, 0, 0, 0}, {95, "Southwest_Base", 4, -104, 167, -38, 0, 0, 0, 0, 0}, {96, "Timbalai_1948", 11,-689, 691, -46, 0, 0, 0, 0, 0}, {97, "Tokyo", 10,-128, 481, 664, 0, 0, 0, 0, 0}, {98, "Tristan_Astro_1968", 4, -632, 438, -609, 0, 0, 0, 0, 0}, {99, "Viti_Levu_1916", 6, 51, 391, -36, 0, 0, 0, 0, 0}, {100, "Wake_Entiwetok_1960", 23,101, 52, -39, 0, 0, 0, 0, 0}, {101, "WGS_60", 26,0, 0, 0, 0, 0, 0, 0, 0}, {102, "WGS_66", 27,0, 0, 0, 0, 0, 0, 0, 0}, {103, "WGS_1972", 1, 0, 8, 10, 0, 0, 0, 0, 0}, {104, "WGS_1984", 28,0, 0, 0, 0, 0, 0, 0, 0}, {105, "Yacare", 4, -155, 171, 37, 0, 0, 0, 0, 0}, {106, "Zanderij", 4, -265, 120, -358, 0, 0, 0, 0, 0}, {107, "NTF", 30,-168, -60, 320, 0, 0, 0, 0, 0}, {108, "European_Datum_1987", 4, -83, -96, -113, 0, 0, 0, 0, 0}, {109, "Netherlands_Bessel", 10,593, 26, 478, 0, 0, 0, 0, 0}, {110, "Belgium_Hayford", 4, 81, 120, 129, 0, 0, 0, 0, 0}, {111, "NWGL_10", 1, -1, 15, 1, 0, 0, 0, 0, 0}, {112, "Rikets_koordinatsystem_1990",10,498, -36, 568, 0, 0, 0, 0, 0}, {113, "Lisboa_DLX", 4, -303, -62, 105, 0, 0, 0, 0, 0}, {114, "Melrica_1973_D73", 4, -223, 110, 37, 0, 0, 0, 0, 0}, {115, "Euref_98", 0, 0, 0, 0, 0, 0, 0, 0, 0}, {116, "GDA94", 0, 0, 0, 0, 0, 0, 0, 0, 0}, {117, "NZGD2000", 0, 0, 0, 0, 0, 0, 0, 0, 0}, {118, "America_Samoa", 7, -115, 118, 426, 0, 0, 0, 0, 0}, {119, "Antigua_Astro_1965", 6, -270, 13, 62, 0, 0, 0, 0, 0}, {120, "Ayabelle_Lighthouse", 6, -79, -129, 145, 0, 0, 0, 0, 0}, {121, "Bukit_Rimpah", 10,-384, 664, -48, 0, 0, 0, 0, 0}, {122, "Estonia_1937", 10,374, 150, 588, 0, 0, 0, 0, 0}, {123, "Dabola", 6, -83, 37, 124, 0, 0, 0, 0, 0}, {124, "Deception_Island", 6, 260, 12, -147, 0, 0, 0, 0, 0}, {125, "Fort_Thomas_1955", 6, -7, 215, 225, 0, 0, 0, 0, 0}, {126, "Graciosa_base_1948", 4, -104, 167, -38, 0, 0, 0, 0, 0}, {127, "Herat_North", 4, -333, -222,114, 0, 0, 0, 0, 0}, {128, "Hermanns_Kogel", 10,682, -203, 480, 0, 0, 0, 0, 0}, {129, "Indian", 50,283, 682, 231, 0, 0, 0, 0, 0}, {130, "Indian_1954", 11,217, 823, 299, 0, 0, 0, 0, 0}, {131, "Indian_1960", 11,198, 881, 317, 0, 0, 0, 0, 0}, {132, "Indian_1975", 11,210, 814, 289, 0, 0, 0, 0, 0}, {133, "Indonesian_Datum_1974", 4, -24, -15, 5, 0, 0, 0, 0, 0}, {134, "ISTS061_Astro_1968", 4, -794, 119, -298, 0, 0, 0, 0, 0}, {135, "Kusaie_Astro_1951", 4, 647, 1777, -1124,0, 0, 0, 0, 0}, {136, "Leigon", 6, -130, 29, 364, 0, 0, 0, 0, 0}, {137, "Montserrat_Astro_1958", 6, 174, 359, 365, 0, 0, 0, 0, 0}, {138, "Mporaloko", 6, -74, -130, 42, 0, 0, 0, 0, 0}, {139, "North_Sahara_1959", 6, -186, -93, 310, 0, 0, 0, 0, 0}, {140, "Observatorio_Met_1939", 4, -425, -169,81, 0, 0, 0, 0, 0}, {141, "Point_58", 6, -106, -129,165, 0, 0, 0, 0, 0}, {142, "Pointe_Noire", 6, -148, 51, -291, 0, 0, 0, 0, 0}, {143, "Porto_Santo_1936", 4, -499, -249,314, 0, 0, 0, 0, 0}, {144, "Selvagem_Grande_1938", 4, -289, -124,60, 0, 0, 0, 0, 0}, {145, "Sierra_Leone_1960", 6, -88, 4, 101, 0, 0, 0, 0, 0}, {146, "S_JTSK_Ferro", 10, 589, 76, 480, 0, 0, 0, 0, 0}, {147, "Tananarive_1925", 4, -189, -242,-91, 0, 0, 0, 0, 0}, {148, "Voirol_1874", 6, -73, -247,227, 0, 0, 0, 0, 0}, {149, "Virol_1960", 6, -123, -206,219, 0, 0, 0, 0, 0}, {150, "Hartebeesthoek94", 0, 0, 0, 0, 0, 0, 0, 0, 0}, {151, "ATS77", 51, 0, 0, 0, 0, 0, 0, 0, 0}, {152, "JGD2000", 0, 0, 0, 0, 0, 0, 0, 0, 0}, {1000,"DHDN_Potsdam_Rauenberg", 10,582, 105, 414, -1.04, -0.35, 3.08, 8.3, 0}, {1001,"Pulkovo_1942", 3, 24, -123, -94, -0.02, 0.25, 0.13, 1.1, 0}, {1002,"NTF_Paris_Meridian", 30,-168, -60, 320, 0, 0, 0, 0, 2.337229166667}, {1003,"Switzerland_CH_1903", 10,660.077,13.551, 369.344, 0.804816, 0.577692, 0.952236, 5.66,0}, {1004,"Hungarian_Datum_1972", 21,-56, 75.77, 15.31, -0.37, -0.2, -0.21, -1.01, 0}, {1005,"Cape_7_Parameter", 28,-134.73,-110.92, -292.66, 0, 0, 0, 1, 0}, {1006,"AGD84_7_Param_Aust", 2, -117.763,-51.51, 139.061, -0.292, -0.443, -0.277, -0.191, 0}, {1007,"AGD66_7_Param_ACT", 2, -129.193,-41.212, 130.73, -0.246, -0.374, -0.329, -2.955, 0}, {1008,"AGD66_7_Param_TAS", 2, -120.271,-64.543, 161.632, -0.2175, 0.0672, 0.1291, 2.4985, 0}, {1009,"AGD66_7_Param_VIC_NSW", 2, -119.353,-48.301, 139.484, -0.415, -0.26, -0.437, -0.613, 0}, {1010,"NZGD_7_Param_49", 4, 59.47, -5.04, 187.44, -0.47, 0.1, -1.024, -4.5993, 0}, {1011,"Rikets_Tri_7_Param_1990", 10,419.3836, 99.3335, 591.3451, -0.850389, -1.817277, 7.862238, -0.99496, 0}, {1012,"Russia_PZ90", 52, -1.08,-0.27,-0.9,0, 0, -0.16,-0.12, 0}, {1013,"Russia_SK42", 52, 23.92,-141.27,-80.9, 0, -0.35,-0.82, -0.12, 0}, {1014,"Russia_SK95", 52, 24.82,-131.21,-82.66,0,0,-0.16,-0.12, 0}, {1015,"Tokyo", 10, -146.414, 507.337, 680.507,0,0,0,0,0}, {1016,"Finnish_KKJ", 4, -96.062, -82.428, -121.754, -4.801, -0.345, 1.376, 1.496, 0}, {-1, NULL, 0, 0, 0, 0, 0, 0, 0, 0} }; /* -------------------------------------------------------------------- */ /* This table was hand entered from Appendix I of the mapinfo 6 */ /* manuals. */ /* -------------------------------------------------------------------- */ MapInfoSpheroidInfo asSpheroidInfoList[] = { { 9,"Airy 1930", 6377563.396, 299.3249646}, {13,"Airy 1930 (modified for Ireland 1965", 6377340.189, 299.3249646}, {51,"ATS77 (Average Terrestrial System 1977)", 6378135, 298.257}, { 2,"Australian", 6378160.0, 298.25}, {10,"Bessel 1841", 6377397.155, 299.1528128}, {35,"Bessel 1841 (modified for NGO 1948)", 6377492.0176, 299.15281}, {14,"Bessel 1841 (modified for Schwarzeck)", 6377483.865, 299.1528128}, {36,"Clarke 1858", 6378293.639, 294.26068}, { 7,"Clarke 1866", 6378206.4, 294.9786982}, { 8,"Clarke 1866 (modified for Michigan)", 6378450.047484481,294.9786982}, { 6,"Clarke 1880", 6378249.145, 293.465}, {15,"Clarke 1880 (modified for Arc 1950)", 6378249.145326, 293.4663076}, {30,"Clarke 1880 (modified for IGN)", 6378249.2, 293.4660213}, {37,"Clarke 1880 (modified for Jamaica)", 6378249.136, 293.46631}, {16,"Clarke 1880 (modified for Merchich)", 6378249.2, 293.46598}, {38,"Clarke 1880 (modified for Palestine)", 6378300.79, 293.46623}, {39,"Everest (Brunei and East Malaysia)", 6377298.556, 300.8017}, {11,"Everest (India 1830)", 6377276.345, 300.8017}, {40,"Everest (India 1956)", 6377301.243, 300.80174}, {50,"Everest (Pakistan)", 6377309.613, 300.8017}, {17,"Everest (W. Malaysia and Singapore 1948)", 6377304.063, 300.8017}, {48,"Everest (West Malaysia 1969)", 6377304.063, 300.8017}, {18,"Fischer 1960", 6378166.0, 298.3}, {19,"Fischer 1960 (modified for South Asia)", 6378155.0, 298.3}, {20,"Fischer 1968", 6378150.0, 298.3}, {21,"GRS 67", 6378160.0, 298.247167427}, { 0,"GRS 80", 6378137.0, 298.257222101}, { 5,"Hayford", 6378388.0, 297.0}, {22,"Helmert 1906", 6378200.0, 298.3}, {23,"Hough", 6378270.0, 297.0}, {31,"IAG 75", 6378140.0, 298.257222}, {41,"Indonesian", 6378160.0, 298.247}, { 4,"International 1924", 6378388.0, 297.0}, {49,"Irish (WOFO)", 6377542.178, 299.325}, { 3,"Krassovsky", 6378245.0, 298.3}, {32,"MERIT 83", 6378137.0, 298.257}, {33,"New International 1967", 6378157.5, 298.25}, {42,"NWL 9D", 6378145.0, 298.25}, {43,"NWL 10D", 6378135.0, 298.26}, {44,"OSU86F", 6378136.2, 298.25722}, {45,"OSU91A", 6378136.3, 298.25722}, {46,"Plessis 1817", 6376523.0, 308.64}, {52,"PZ90", 6378136.0, 298.257839303}, {24,"South American", 6378160.0, 298.25}, {12,"Sphere", 6370997.0, 0.0}, {47,"Struve 1860", 6378297.0, 294.73}, {34,"Walbeck", 6376896.0, 302.78}, {25,"War Office", 6378300.583, 296.0}, {26,"WGS 60", 6378165.0, 298.3}, {27,"WGS 66", 6378145.0, 298.25}, { 1,"WGS 72", 6378135.0, 298.26}, {28,"WGS 84", 6378137.0, 298.257223563}, {29,"WGS 84 (MAPINFO Datum 0)", 6378137.01, 298.257223563}, {-1,NULL, 0.0, 0.0} }; /********************************************************************** * TABFile::GetSpatialRef() * * Returns a reference to an OGRSpatialReference for this dataset. * If the projection parameters have not been parsed yet, then we will * parse them before returning. * * The returned object is owned and maintained by this TABFile and * should not be modified or freed by the caller. * * Returns NULL if the SpatialRef cannot be accessed. **********************************************************************/ OGRSpatialReference *TABFile::GetSpatialRef() { if (m_eAccessMode != TABRead) { CPLError(CE_Failure, CPLE_NotSupported, "GetSpatialRef() can be used only with Read access."); return NULL; } if (m_poMAPFile == NULL ) { CPLError(CE_Failure, CPLE_AssertionFailed, "GetSpatialRef() failed: file has not been opened yet."); return NULL; } /*----------------------------------------------------------------- * If projection params have already been processed, just use them. *----------------------------------------------------------------*/ if (m_poSpatialRef != NULL) return m_poSpatialRef; /*----------------------------------------------------------------- * Fetch the parameters from the header. *----------------------------------------------------------------*/ TABMAPHeaderBlock *poHeader; TABProjInfo sTABProj; if ((poHeader = m_poMAPFile->GetHeaderBlock()) == NULL || poHeader->GetProjInfo( &sTABProj ) != 0) { CPLError(CE_Failure, CPLE_FileIO, "GetSpatialRef() failed reading projection parameters."); return NULL; } /*----------------------------------------------------------------- * Get the units name, and translation factor. *----------------------------------------------------------------*/ const char *pszUnitsName; const char *pszUnitsConv; double dfConv = 1.0; switch( sTABProj.nUnitsId ) { case 0: pszUnitsName = "Mile"; pszUnitsConv = "1609.344"; break; case 1: pszUnitsName = "Kilometer"; pszUnitsConv = "1000.0"; break; case 2: pszUnitsName = "IINCH"; pszUnitsConv = "0.0254"; break; case 3: pszUnitsName = SRS_UL_FOOT; pszUnitsConv = SRS_UL_FOOT_CONV; break; case 4: pszUnitsName = "IYARD"; pszUnitsConv = "0.9144"; break; case 5: pszUnitsName = "Millimeter"; pszUnitsConv = "0.001"; break; case 6: pszUnitsName = "Centimeter"; pszUnitsConv = "0.01"; break; case 7: pszUnitsName = SRS_UL_METER; pszUnitsConv = "1.0"; break; case 8: pszUnitsName = SRS_UL_US_FOOT; pszUnitsConv = SRS_UL_US_FOOT_CONV; break; case 9: pszUnitsName = SRS_UL_NAUTICAL_MILE; pszUnitsConv = SRS_UL_NAUTICAL_MILE_CONV; break; case 30: pszUnitsName = SRS_UL_LINK; pszUnitsConv = SRS_UL_LINK_CONV; break; case 31: pszUnitsName = SRS_UL_CHAIN; pszUnitsConv = SRS_UL_CHAIN_CONV; break; case 32: pszUnitsName = SRS_UL_ROD; pszUnitsConv = SRS_UL_ROD_CONV; break; default: pszUnitsName = SRS_UL_METER; pszUnitsConv = "1.0"; break; } dfConv = atof(pszUnitsConv); /*----------------------------------------------------------------- * Transform them into an OGRSpatialReference. *----------------------------------------------------------------*/ m_poSpatialRef = new OGRSpatialReference; /*----------------------------------------------------------------- * Handle the PROJCS style projections, but add the datum later. *----------------------------------------------------------------*/ switch( sTABProj.nProjId ) { /*-------------------------------------------------------------- * NonEarth ... we return with an empty SpatialRef. Eventually * we might want to include the units, but not for now. *-------------------------------------------------------------*/ case 0: m_poSpatialRef->SetLocalCS( "Nonearth" ); break; /*-------------------------------------------------------------- * lat/long .. just add the GEOGCS later. *-------------------------------------------------------------*/ case 1: break; /*-------------------------------------------------------------- * Cylindrical Equal Area *-------------------------------------------------------------*/ case 2: m_poSpatialRef->SetCEA( sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2] * dfConv, sTABProj.adProjParams[3] * dfConv ); break; /*-------------------------------------------------------------- * Lambert Conic Conformal *-------------------------------------------------------------*/ case 3: m_poSpatialRef->SetLCC( sTABProj.adProjParams[2], sTABProj.adProjParams[3], sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[4] * dfConv, sTABProj.adProjParams[5] * dfConv ); break; /*-------------------------------------------------------------- * Lambert Azimuthal Equal Area *-------------------------------------------------------------*/ case 4: case 29: m_poSpatialRef->SetLAEA( sTABProj.adProjParams[1], sTABProj.adProjParams[0], 0.0, 0.0 ); break; /*-------------------------------------------------------------- * Azimuthal Equidistant (Polar aspect only) *-------------------------------------------------------------*/ case 5: case 28: m_poSpatialRef->SetAE( sTABProj.adProjParams[1], sTABProj.adProjParams[0], 0.0, 0.0 ); break; /*-------------------------------------------------------------- * Equidistant Conic *-------------------------------------------------------------*/ case 6: m_poSpatialRef->SetEC( sTABProj.adProjParams[2], sTABProj.adProjParams[3], sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[4] * dfConv, sTABProj.adProjParams[5] * dfConv ); break; /*-------------------------------------------------------------- * Hotine Oblique Mercator *-------------------------------------------------------------*/ case 7: m_poSpatialRef->SetHOM( sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2], 90.0, sTABProj.adProjParams[3], sTABProj.adProjParams[4] * dfConv, sTABProj.adProjParams[5] * dfConv ); break; /*-------------------------------------------------------------- * Transverse Mercator *-------------------------------------------------------------*/ case 8: m_poSpatialRef->SetTM( sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2], sTABProj.adProjParams[3] * dfConv, sTABProj.adProjParams[4] * dfConv ); break; /*---------------------------------------------------------------- * Transverse Mercator,(modified for Danish System 34 Jylland-Fyn) *---------------------------------------------------------------*/ case 21: m_poSpatialRef->SetTMVariant( SRS_PT_TRANSVERSE_MERCATOR_MI_21, sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2], sTABProj.adProjParams[3] * dfConv, sTABProj.adProjParams[4] * dfConv ); break; /*-------------------------------------------------------------- * Transverse Mercator,(modified for Danish System 34 Sjaelland) *-------------------------------------------------------------*/ case 22: m_poSpatialRef->SetTMVariant( SRS_PT_TRANSVERSE_MERCATOR_MI_22, sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2], sTABProj.adProjParams[3] * dfConv, sTABProj.adProjParams[4] * dfConv ); break; /*---------------------------------------------------------------- * Transverse Mercator,(modified for Danish System 34/45 Bornholm) *---------------------------------------------------------------*/ case 23: m_poSpatialRef->SetTMVariant( SRS_PT_TRANSVERSE_MERCATOR_MI_23, sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2], sTABProj.adProjParams[3] * dfConv, sTABProj.adProjParams[4] * dfConv ); break; /*-------------------------------------------------------------- * Transverse Mercator,(modified for Finnish KKJ) *-------------------------------------------------------------*/ case 24: m_poSpatialRef->SetTMVariant( SRS_PT_TRANSVERSE_MERCATOR_MI_24, sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2], sTABProj.adProjParams[3] * dfConv, sTABProj.adProjParams[4] * dfConv ); break; /*-------------------------------------------------------------- * Albers Conic Equal Area *-------------------------------------------------------------*/ case 9: m_poSpatialRef->SetACEA( sTABProj.adProjParams[2], sTABProj.adProjParams[3], sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[4] * dfConv, sTABProj.adProjParams[5] * dfConv ); break; /*-------------------------------------------------------------- * Mercator *-------------------------------------------------------------*/ case 10: m_poSpatialRef->SetMercator( 0.0, sTABProj.adProjParams[0], 1.0, 0.0, 0.0 ); break; /*-------------------------------------------------------------- * Miller Cylindrical *-------------------------------------------------------------*/ case 11: m_poSpatialRef->SetMC( 0.0, sTABProj.adProjParams[0], 0.0, 0.0 ); break; /*-------------------------------------------------------------- * Robinson *-------------------------------------------------------------*/ case 12: m_poSpatialRef->SetRobinson( sTABProj.adProjParams[0], 0.0, 0.0 ); break; /*-------------------------------------------------------------- * Mollweide *-------------------------------------------------------------*/ case 13: m_poSpatialRef->SetMollweide( sTABProj.adProjParams[0], 0.0, 0.0 ); /*-------------------------------------------------------------- * Eckert IV *-------------------------------------------------------------*/ case 14: m_poSpatialRef->SetEckertIV( sTABProj.adProjParams[0], 0.0, 0.0 ); break; /*-------------------------------------------------------------- * Eckert VI *-------------------------------------------------------------*/ case 15: m_poSpatialRef->SetEckertVI( sTABProj.adProjParams[0], 0.0, 0.0 ); break; /*-------------------------------------------------------------- * Sinusoidal *-------------------------------------------------------------*/ case 16: m_poSpatialRef->SetSinusoidal( sTABProj.adProjParams[0], 0.0, 0.0 ); break; /*-------------------------------------------------------------- * Gall Stereographic *-------------------------------------------------------------*/ case 17: m_poSpatialRef->SetGS( sTABProj.adProjParams[0], 0.0, 0.0 ); break; /*-------------------------------------------------------------- * New Zealand Map Grid *-------------------------------------------------------------*/ case 18: m_poSpatialRef->SetNZMG( sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2] * dfConv, sTABProj.adProjParams[3] * dfConv ); break; /*-------------------------------------------------------------- * Lambert Conic Conformal (Belgium) *-------------------------------------------------------------*/ case 19: m_poSpatialRef->SetLCCB( sTABProj.adProjParams[2], sTABProj.adProjParams[3], sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[4] * dfConv, sTABProj.adProjParams[5] * dfConv ); break; /*-------------------------------------------------------------- * Stereographic *-------------------------------------------------------------*/ case 20: case 31: /* this is called Double Stereographic, whats the diff? */ m_poSpatialRef->SetStereographic( sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2], sTABProj.adProjParams[3] * dfConv, sTABProj.adProjParams[4] * dfConv ); break; /*-------------------------------------------------------------- * Swiss Oblique Mercator / Cylindrical *-------------------------------------------------------------*/ case 25: m_poSpatialRef->SetSOC( sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2] * dfConv, sTABProj.adProjParams[3] * dfConv ); break; /*-------------------------------------------------------------- * Regional Mercator (regular mercator with a latitude). *-------------------------------------------------------------*/ case 26: m_poSpatialRef->SetMercator( sTABProj.adProjParams[1], sTABProj.adProjParams[0], 1.0, 0.0, 0.0 ); break; /*-------------------------------------------------------------- * Polyconic *-------------------------------------------------------------*/ case 27: m_poSpatialRef->SetPolyconic( sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2] * dfConv, sTABProj.adProjParams[3] * dfConv ); break; /*-------------------------------------------------------------- * Cassini/Soldner *-------------------------------------------------------------*/ case 30: m_poSpatialRef->SetCS( sTABProj.adProjParams[1], sTABProj.adProjParams[0], sTABProj.adProjParams[2] * dfConv, sTABProj.adProjParams[3] * dfConv ); break; default: break; } /*----------------------------------------------------------------- * Collect units definition. *----------------------------------------------------------------*/ if( sTABProj.nProjId != 1 && m_poSpatialRef->GetRoot() != NULL ) { OGR_SRSNode *poUnits = new OGR_SRSNode("UNIT"); m_poSpatialRef->GetRoot()->AddChild(poUnits); poUnits->AddChild( new OGR_SRSNode( pszUnitsName ) ); poUnits->AddChild( new OGR_SRSNode( pszUnitsConv ) ); } #ifdef MITAB_AFFINE_PARAMS // See MITAB bug 1155 /*----------------------------------------------------------------- * Collect affine definitions. (Added by Encom 2003) *----------------------------------------------------------------*/ if( sTABProj.nAffineFlag==1 && m_poSpatialRef->GetRoot() != NULL ) { m_poSpatialRef->nAffineFlag = 1; m_poSpatialRef->nAffineUnit = sTABProj.nAffineUnits; m_poSpatialRef->dAffineParamA = sTABProj.dAffineParamA; m_poSpatialRef->dAffineParamB = sTABProj.dAffineParamB; m_poSpatialRef->dAffineParamC = sTABProj.dAffineParamC; m_poSpatialRef->dAffineParamD = sTABProj.dAffineParamD; m_poSpatialRef->dAffineParamE = sTABProj.dAffineParamE; m_poSpatialRef->dAffineParamF = sTABProj.dAffineParamF; } else { m_poSpatialRef->nAffineFlag = 0; } #endif // MITAB_AFFINE_PARAMS /*----------------------------------------------------------------- * Local (nonearth) coordinate systems have no Geographic relationship * so we just return from here. *----------------------------------------------------------------*/ if( sTABProj.nProjId == 0 ) return m_poSpatialRef; /*----------------------------------------------------------------- * Set the datum. We are only given the X, Y and Z shift for * the datum, so for now we just synthesize a name from this. * It would be better if we could lookup a name based on the shift. * * Since we have already encountered files in which adDatumParams[] values * were in the order of 1e-150 when they should have actually been zeros, * we will use an epsilon in our scan instead of looking for equality. *----------------------------------------------------------------*/ #define TAB_EQUAL(a, b) (((a)<(b) ? ((b)-(a)) : ((a)-(b))) < 1e-10) char szDatumName[160]; int iDatumInfo; MapInfoDatumInfo *psDatumInfo = NULL; for( iDatumInfo = 0; asDatumInfoList[iDatumInfo].nMapInfoDatumID != -1; iDatumInfo++ ) { psDatumInfo = asDatumInfoList + iDatumInfo; if( TAB_EQUAL(psDatumInfo->nEllipsoid, sTABProj.nEllipsoidId) && ((sTABProj.nDatumId > 0 && sTABProj.nDatumId == psDatumInfo->nMapInfoDatumID) || (sTABProj.nDatumId <= 0 && TAB_EQUAL(psDatumInfo->dfShiftX, sTABProj.dDatumShiftX) && TAB_EQUAL(psDatumInfo->dfShiftY, sTABProj.dDatumShiftY) && TAB_EQUAL(psDatumInfo->dfShiftZ, sTABProj.dDatumShiftZ) && TAB_EQUAL(psDatumInfo->dfDatumParm0,sTABProj.adDatumParams[0]) && TAB_EQUAL(psDatumInfo->dfDatumParm1,sTABProj.adDatumParams[1]) && TAB_EQUAL(psDatumInfo->dfDatumParm2,sTABProj.adDatumParams[2]) && TAB_EQUAL(psDatumInfo->dfDatumParm3,sTABProj.adDatumParams[3]) && TAB_EQUAL(psDatumInfo->dfDatumParm4,sTABProj.adDatumParams[4])))) break; psDatumInfo = NULL; } if( psDatumInfo == NULL ) { if( sTABProj.adDatumParams[0] == 0.0 && sTABProj.adDatumParams[1] == 0.0 && sTABProj.adDatumParams[2] == 0.0 && sTABProj.adDatumParams[3] == 0.0 && sTABProj.adDatumParams[4] == 0.0 ) { sprintf( szDatumName, "MIF 999,%d,%.4g,%.4g,%.4g", sTABProj.nEllipsoidId, sTABProj.dDatumShiftX, sTABProj.dDatumShiftY, sTABProj.dDatumShiftZ ); } else { sprintf( szDatumName, "MIF 9999,%d,%.4g,%.4g,%.4g,%.15g,%.15g,%.15g,%.15g,%.15g", sTABProj.nEllipsoidId, sTABProj.dDatumShiftX, sTABProj.dDatumShiftY, sTABProj.dDatumShiftZ, sTABProj.adDatumParams[0], sTABProj.adDatumParams[1], sTABProj.adDatumParams[2], sTABProj.adDatumParams[3], sTABProj.adDatumParams[4] ); } } else if( strlen(psDatumInfo->pszOGCDatumName) > 0 ) { strncpy( szDatumName, psDatumInfo->pszOGCDatumName, sizeof(szDatumName) ); } else { sprintf( szDatumName, "MIF %d", psDatumInfo->nMapInfoDatumID ); } /*----------------------------------------------------------------- * Set the spheroid. *----------------------------------------------------------------*/ double dfSemiMajor=0.0, dfInvFlattening=0.0; const char *pszSpheroidName = NULL; for( int i = 0; asSpheroidInfoList[i].nMapInfoId != -1; i++ ) { if( asSpheroidInfoList[i].nMapInfoId == sTABProj.nEllipsoidId ) { dfSemiMajor = asSpheroidInfoList[i].dfA; dfInvFlattening = asSpheroidInfoList[i].dfInvFlattening; pszSpheroidName = asSpheroidInfoList[i].pszMapinfoName; break; } } // use WGS 84 if nothing is known. if( pszSpheroidName == NULL ) { pszSpheroidName = "unknown"; dfSemiMajor = 6378137.0; dfInvFlattening = 298.257223563; } /*----------------------------------------------------------------- * Set the prime meridian. *----------------------------------------------------------------*/ double dfPMOffset = 0.0; const char *pszPMName = "Greenwich"; if( sTABProj.adDatumParams[4] != 0.0 ) { dfPMOffset = sTABProj.adDatumParams[4]; pszPMName = "non-Greenwich"; } /*----------------------------------------------------------------- * Create a GEOGCS definition. *----------------------------------------------------------------*/ m_poSpatialRef->SetGeogCS( "unnamed", szDatumName, pszSpheroidName, dfSemiMajor, dfInvFlattening, pszPMName, dfPMOffset, SRS_UA_DEGREE, atof(SRS_UA_DEGREE_CONV)); if( psDatumInfo != NULL ) { m_poSpatialRef->SetTOWGS84( psDatumInfo->dfShiftX, psDatumInfo->dfShiftY, psDatumInfo->dfShiftZ, -psDatumInfo->dfDatumParm0, -psDatumInfo->dfDatumParm1, -psDatumInfo->dfDatumParm2, psDatumInfo->dfDatumParm3 ); } return m_poSpatialRef; } /********************************************************************** * TABFile::SetSpatialRef() * * Set the OGRSpatialReference for this dataset. * A reference to the OGRSpatialReference will be kept, and it will also * be converted into a TABProjInfo to be stored in the .MAP header. * * Returns 0 on success, and -1 on error. **********************************************************************/ int TABFile::SetSpatialRef(OGRSpatialReference *poSpatialRef) { if (m_eAccessMode != TABWrite) { CPLError(CE_Failure, CPLE_NotSupported, "SetSpatialRef() can be used only with Write access."); return -1; } if (m_poMAPFile == NULL ) { CPLError(CE_Failure, CPLE_AssertionFailed, "SetSpatialRef() failed: file has not been opened yet."); return -1; } if( poSpatialRef == NULL ) { CPLError(CE_Failure, CPLE_AssertionFailed, "SetSpatialRef() failed: Called with NULL poSpatialRef."); return -1; } /*----------------------------------------------------------------- * Keep a copy of the OGRSpatialReference... * Note: we have to take the reference count into account... *----------------------------------------------------------------*/ if (m_poSpatialRef && m_poSpatialRef->Dereference() == 0) delete m_poSpatialRef; m_poSpatialRef = poSpatialRef->Clone(); /*----------------------------------------------------------------- * Initialize TABProjInfo *----------------------------------------------------------------*/ TABProjInfo sTABProj; sTABProj.nProjId = 0; sTABProj.nEllipsoidId = 0; /* how will we set this? */ sTABProj.nUnitsId = 7; sTABProj.adProjParams[0] = sTABProj.adProjParams[1] = 0.0; sTABProj.adProjParams[2] = sTABProj.adProjParams[3] = 0.0; sTABProj.adProjParams[4] = sTABProj.adProjParams[5] = 0.0; sTABProj.nDatumId = 0; sTABProj.dDatumShiftX = 0.0; sTABProj.dDatumShiftY = 0.0; sTABProj.dDatumShiftZ = 0.0; sTABProj.adDatumParams[0] = 0.0; sTABProj.adDatumParams[1] = 0.0; sTABProj.adDatumParams[2] = 0.0; sTABProj.adDatumParams[3] = 0.0; sTABProj.adDatumParams[4] = 0.0; #ifdef MITAB_AFFINE_PARAMS // See MITAB bug 1155 // Encom 2003 sTABProj.nAffineFlag = 0; sTABProj.nAffineUnits = 7; sTABProj.dAffineParamA = 0.0; sTABProj.dAffineParamB = 0.0; sTABProj.dAffineParamC = 0.0; sTABProj.dAffineParamD = 0.0; sTABProj.dAffineParamE = 0.0; sTABProj.dAffineParamF = 0.0; #endif // MITAB_AFFINE_PARAMS /*----------------------------------------------------------------- * Get the linear units and conversion. *----------------------------------------------------------------*/ char *pszLinearUnits; double dfLinearConv; dfLinearConv = poSpatialRef->GetLinearUnits( &pszLinearUnits ); if( dfLinearConv == 0.0 ) dfLinearConv = 1.0; /*----------------------------------------------------------------- * Transform the projection and projection parameters. *----------------------------------------------------------------*/ const char *pszProjection = poSpatialRef->GetAttrValue("PROJECTION"); double *parms = sTABProj.adProjParams; if( pszProjection == NULL && poSpatialRef->GetAttrNode("LOCAL_CS") != NULL) { /* nonearth */ sTABProj.nProjId = 0; } else if( pszProjection == NULL ) { sTABProj.nProjId = 1; } else if( EQUAL(pszProjection,SRS_PT_ALBERS_CONIC_EQUAL_AREA) ) { sTABProj.nProjId = 9; parms[0] = poSpatialRef->GetProjParm(SRS_PP_LONGITUDE_OF_CENTER,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_CENTER,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_STANDARD_PARALLEL_1,0.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_STANDARD_PARALLEL_2,0.0); parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[5] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_AZIMUTHAL_EQUIDISTANT) ) { sTABProj.nProjId = 5; parms[0] = poSpatialRef->GetProjParm(SRS_PP_LONGITUDE_OF_CENTER,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_CENTER,0.0); parms[2] = 90.0; if( ABS((ABS(parms[1]) - 90)) > 0.001 ) sTABProj.nProjId = 28; } else if( EQUAL(pszProjection,SRS_PT_CYLINDRICAL_EQUAL_AREA) ) { sTABProj.nProjId = 2; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_STANDARD_PARALLEL_1,0.0); } else if( EQUAL(pszProjection,SRS_PT_ECKERT_IV) ) { sTABProj.nProjId = 14; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); } else if( EQUAL(pszProjection,SRS_PT_ECKERT_VI) ) { sTABProj.nProjId = 15; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); } else if( EQUAL(pszProjection,SRS_PT_EQUIDISTANT_CONIC) ) { sTABProj.nProjId = 6; parms[0] = poSpatialRef->GetProjParm(SRS_PP_LONGITUDE_OF_CENTER,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_CENTER,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_STANDARD_PARALLEL_1,0.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_STANDARD_PARALLEL_2,0.0); parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[5] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_GALL_STEREOGRAPHIC) ) { sTABProj.nProjId = 17; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); } else if( EQUAL(pszProjection,SRS_PT_HOTINE_OBLIQUE_MERCATOR) ) { sTABProj.nProjId = 7; parms[0] = poSpatialRef->GetProjParm(SRS_PP_LONGITUDE_OF_CENTER,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_CENTER,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_AZIMUTH,0.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_SCALE_FACTOR,1.0); parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[5] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_LAMBERT_AZIMUTHAL_EQUAL_AREA) ) { sTABProj.nProjId = 4; parms[0] = poSpatialRef->GetProjParm(SRS_PP_LONGITUDE_OF_CENTER,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_CENTER,0.0); parms[2] = 90.0; if( ABS((ABS(parms[1]) - 90)) > 0.001 ) sTABProj.nProjId = 28; } else if( EQUAL(pszProjection,SRS_PT_LAMBERT_CONFORMAL_CONIC_2SP) ) { sTABProj.nProjId = 3; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_STANDARD_PARALLEL_1,0.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_STANDARD_PARALLEL_2,0.0); parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[5] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_LAMBERT_CONFORMAL_CONIC_2SP_BELGIUM) ) { sTABProj.nProjId = 19; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_STANDARD_PARALLEL_1,0.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_STANDARD_PARALLEL_2,0.0); parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[5] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_MERCATOR_1SP) ) { sTABProj.nProjId = 10; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_SCALE_FACTOR,1.0); if( parms[1] != 0.0 ) sTABProj.nProjId = 26; } else if( EQUAL(pszProjection,SRS_PT_MILLER_CYLINDRICAL) ) { sTABProj.nProjId = 11; parms[0] = poSpatialRef->GetProjParm(SRS_PP_LONGITUDE_OF_CENTER,0.0); } else if( EQUAL(pszProjection,SRS_PT_MOLLWEIDE) ) { sTABProj.nProjId = 13; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); } else if( EQUAL(pszProjection,SRS_PT_NEW_ZEALAND_MAP_GRID) ) { sTABProj.nProjId = 18; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_SWISS_OBLIQUE_CYLINDRICAL) ) { sTABProj.nProjId = 25; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_ROBINSON) ) { sTABProj.nProjId = 12; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); } else if( EQUAL(pszProjection,SRS_PT_SINUSOIDAL) ) { sTABProj.nProjId = 16; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); } else if( EQUAL(pszProjection,SRS_PT_STEREOGRAPHIC) ) { sTABProj.nProjId = 20; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_SCALE_FACTOR,1.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_TRANSVERSE_MERCATOR) ) { sTABProj.nProjId = 8; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_SCALE_FACTOR,1.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_TRANSVERSE_MERCATOR_MI_21) ) // Encom 2003 { sTABProj.nProjId = 21; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_SCALE_FACTOR,1.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_TRANSVERSE_MERCATOR_MI_22) ) // Encom 2003 { sTABProj.nProjId = 22; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_SCALE_FACTOR,1.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_TRANSVERSE_MERCATOR_MI_23) ) // Encom 2003 { sTABProj.nProjId = 23; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_SCALE_FACTOR,1.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_TRANSVERSE_MERCATOR_MI_24) ) // Encom 2003 { sTABProj.nProjId = 24; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_SCALE_FACTOR,1.0); parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[4] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_CASSINI_SOLDNER) ) { sTABProj.nProjId = 30; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_NEW_ZEALAND_MAP_GRID) ) { sTABProj.nProjId = 18; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } else if( EQUAL(pszProjection,SRS_PT_POLYCONIC) ) { sTABProj.nProjId = 27; parms[0] = poSpatialRef->GetProjParm(SRS_PP_CENTRAL_MERIDIAN,0.0); parms[1] = poSpatialRef->GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN,0.0); parms[2] = poSpatialRef->GetProjParm(SRS_PP_FALSE_EASTING,0.0) / dfLinearConv; parms[3] = poSpatialRef->GetProjParm(SRS_PP_FALSE_NORTHING,0.0) / dfLinearConv; } /* ============================================================== * Translate Datum and Ellipsoid * ============================================================== */ const char *pszWKTDatum = poSpatialRef->GetAttrValue("DATUM"); MapInfoDatumInfo *psDatumInfo = NULL; /*----------------------------------------------------------------- * Default to WGS83 if we have no datum at all. *----------------------------------------------------------------*/ if( pszWKTDatum == NULL ) { psDatumInfo = asDatumInfoList+0; /* WGS 84 */ } /*----------------------------------------------------------------- * We know the MIF datum number, and need to look it up to * translate into datum parameters. *----------------------------------------------------------------*/ else if( EQUALN(pszWKTDatum,"MIF ",4) && atoi(pszWKTDatum+4) != 999 && atoi(pszWKTDatum+4) != 9999 ) { int i; for( i = 0; asDatumInfoList[i].nMapInfoDatumID != -1; i++ ) { if( atoi(pszWKTDatum+4) == asDatumInfoList[i].nMapInfoDatumID ) { psDatumInfo = asDatumInfoList + i; break; } } if( psDatumInfo == NULL ) psDatumInfo = asDatumInfoList+0; /* WGS 84 */ } /*----------------------------------------------------------------- * We have the MIF datum parameters, and apply those directly. *----------------------------------------------------------------*/ else if( EQUALN(pszWKTDatum,"MIF ",4) && (atoi(pszWKTDatum+4) == 999 || atoi(pszWKTDatum+4) == 9999) ) { char **papszFields; papszFields = CSLTokenizeStringComplex( pszWKTDatum+4, ",", FALSE, TRUE); if( CSLCount(papszFields) >= 5 ) { sTABProj.nEllipsoidId = atoi(papszFields[1]); sTABProj.dDatumShiftX = atof(papszFields[2]); sTABProj.dDatumShiftY = atof(papszFields[3]); sTABProj.dDatumShiftZ = atof(papszFields[4]); } if( CSLCount(papszFields) >= 10 ) { sTABProj.adDatumParams[0] = atof(papszFields[5]); sTABProj.adDatumParams[1] = atof(papszFields[6]); sTABProj.adDatumParams[2] = atof(papszFields[7]); sTABProj.adDatumParams[3] = atof(papszFields[8]); sTABProj.adDatumParams[4] = atof(papszFields[9]); } if( CSLCount(papszFields) < 5 ) psDatumInfo = asDatumInfoList+0; /* WKS84 */ CSLDestroy( papszFields ); } /*----------------------------------------------------------------- * We have a "real" datum name. Try to look it up and get the * parameters. If we don't find it just use WGS84. *----------------------------------------------------------------*/ else { int i; for( i = 0; asDatumInfoList[i].nMapInfoDatumID != -1; i++ ) { if( EQUAL(pszWKTDatum,asDatumInfoList[i].pszOGCDatumName) ) { psDatumInfo = asDatumInfoList + i; break; } } if( psDatumInfo == NULL ) psDatumInfo = asDatumInfoList+0; /* WGS 84 */ } if( psDatumInfo != NULL ) { sTABProj.nEllipsoidId = psDatumInfo->nEllipsoid; sTABProj.nDatumId = psDatumInfo->nMapInfoDatumID; sTABProj.dDatumShiftX = psDatumInfo->dfShiftX; sTABProj.dDatumShiftY = psDatumInfo->dfShiftY; sTABProj.dDatumShiftZ = psDatumInfo->dfShiftZ; sTABProj.adDatumParams[0] = psDatumInfo->dfDatumParm0; sTABProj.adDatumParams[1] = psDatumInfo->dfDatumParm1; sTABProj.adDatumParams[2] = psDatumInfo->dfDatumParm2; sTABProj.adDatumParams[3] = psDatumInfo->dfDatumParm3; sTABProj.adDatumParams[4] = psDatumInfo->dfDatumParm4; } /*----------------------------------------------------------------- * Translate the units *----------------------------------------------------------------*/ if( sTABProj.nProjId == 1 || pszLinearUnits == NULL ) sTABProj.nUnitsId = 13; else if( dfLinearConv == 1000.0 ) sTABProj.nUnitsId = 1; else if( dfLinearConv == 0.0254 || EQUAL(pszLinearUnits,"Inch") || EQUAL(pszLinearUnits,"IINCH") ) sTABProj.nUnitsId = 2; else if( dfLinearConv == atof(SRS_UL_FOOT_CONV) || EQUAL(pszLinearUnits,SRS_UL_FOOT) ) sTABProj.nUnitsId = 3; else if( EQUAL(pszLinearUnits,"YARD") || EQUAL(pszLinearUnits,"IYARD") || dfLinearConv == 0.9144 ) sTABProj.nUnitsId = 4; else if( dfLinearConv == 0.001 ) sTABProj.nUnitsId = 5; else if( dfLinearConv == 0.01 ) sTABProj.nUnitsId = 6; else if( dfLinearConv == 1.0 ) sTABProj.nUnitsId = 7; else if( dfLinearConv == atof(SRS_UL_US_FOOT_CONV) || EQUAL(pszLinearUnits,SRS_UL_US_FOOT) ) sTABProj.nUnitsId = 8; else if( EQUAL(pszLinearUnits,SRS_UL_NAUTICAL_MILE) ) sTABProj.nUnitsId = 9; else if( EQUAL(pszLinearUnits,SRS_UL_LINK) || EQUAL(pszLinearUnits,"GUNTERLINK") ) sTABProj.nUnitsId = 30; else if( EQUAL(pszLinearUnits,SRS_UL_CHAIN) || EQUAL(pszLinearUnits,"GUNTERCHAIN") ) sTABProj.nUnitsId = 31; else if( EQUAL(pszLinearUnits,SRS_UL_ROD) ) sTABProj.nUnitsId = 32; else if( EQUAL(pszLinearUnits,"Mile") || EQUAL(pszLinearUnits,"IMILE") ) sTABProj.nUnitsId = 0; else sTABProj.nUnitsId = 7; /*----------------------------------------------------------------- * Set the new parameters in the .MAP header. * This will also trigger lookup of default bounds for the projection. *----------------------------------------------------------------*/ if ( SetProjInfo( &sTABProj ) != 0 ) { CPLError(CE_Failure, CPLE_FileIO, "SetSpatialRef() failed setting projection parameters."); return -1; } return 0; }