/src/spatial/cpp/utm2ll.c - Metacat - Ecoinformatics Redmine

metacat/src/spatial/cpp/utm2ll.c @ 2779

       /* utm2ll.c - convert Universal Transverse Mercator into latitude & longitude
       **
       ** Partially based on code by Chuck Gantz <chuck.gantz@globalstar.com>.
       **
       ** Copyright ? 2001 by Jef Poskanzer <jef@acme.com>.
       ** All rights reserved.
       **
       ** Redistribution and use in source and binary forms, with or without
       ** modification, are permitted provided that the following conditions
       ** are met:
       ** 1. Redistributions of source code must retain the above copyright
       **    notice, this list of conditions and the following disclaimer.
       ** 2. Redistributions in binary form must reproduce the above copyright
       **    notice, this list of conditions and the following disclaimer in the
       **    documentation and/or other materials provided with the distribution.
       **
       ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
       ** ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
       ** IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
       ** ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
       ** FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
       ** DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
       ** OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
       ** HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
       ** LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
       ** OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
       ** SUCH DAMAGE.
       */
       #include <stdio.h>
       #include <stdlib.h>
       #include <unistd.h>
       #include <string.h>
       #include <math.h>
       #include "coords.h"
       #define ABS(x) ((x)>=0?(x):(-x))
       static char* argv0;
       static void usage( void );
       static void parse_error( char* argstr );
       static void fprintll( FILE* fp, char* fmt, double lat, double lng );
       int
       main( int argc, char** argv )
+          {
           char* format = "%ns %Ad  %ew %Od";
           int arglen, argn;
           char* argstr;
           double northing, easting;
           int zone;
           char letter[100];
           double x, y;
           double eccPrimeSquared;
           double e1;
           double N1, T1, C1, R1, D, M;
           double long_origin;
           double mu, phi1_rad;
           int northernHemisphere;	/* 1 for northern hemisphere, 0 for southern */
           double latitude, longitude;
           argv0 = argv[0];
           if ( argc >= 3 && strcmp( argv[1], "-f" ) == 0 )
+      	{
       	format = argv[2];
       	argv += 2;
       	argc -= 2;
+      	}
           if ( argc < 2 )
       	usage();
           /* Collect all args into a single string. */
           arglen = 0;
           for ( argn = 1; argn < argc; ++argn )
       	arglen += strlen( argv[argn] + 1 );
           argstr = (char*) malloc( arglen );
           if ( argstr == (char*) 0 )
+      	{
       	(void) fprintf( stderr, "%s: out of memory\n", argv0 );
       	exit( 1 );
+      	}
           (void) strcpy( argstr, "" );
           for ( argn = 1; argn < argc; ++argn )
+      	{
       	if ( argn > 1 )
       	    (void) strcat( argstr, " " );
       	(void) strcat( argstr, argv[argn] );
+      	}
           /* Trim leading and trailing blanks. */
           while ( argstr[0] == ' ' )
       	(void) strcpy( argstr, &(argstr[1]) );
           while ( argstr[strlen(argstr)-1] == ' ' )
       	argstr[strlen(argstr)-1] = '\0';
           /* Parse string into northing, easting, and zone. */
           if ( sscanf( argstr, "%lf %lf %d%[A-Z]", &northing, &easting, &zone, letter ) == 4 )
+      	;
           else if ( sscanf( argstr, "%lf %lf %d", &northing, &easting, &zone ) == 3 )
       	(void) strcpy( letter, "S" );
           else
       	parse_error( argstr );
           /* Now convert. */
           x = easting - 500000.0;	/* remove 500000 meter offset */
           y = northing;
           if ( ( *letter - 'N' ) >= 0 )
       	northernHemisphere = 1;	/* northern hemisphere */
           else
+      	{
       	northernHemisphere = 0;	/* southern hemisphere */
       	y -= 10000000.0;	/* remove 1e7 meter offset */
+      	}
           long_origin = ( zone - 1 ) * 6 - 180 + 3;	/* +3 puts origin in middle of zone */
           eccPrimeSquared = EccentricitySquared / ( 1.0 - EccentricitySquared );
           e1 = ( 1.0 - sqrt( 1.0 - EccentricitySquared ) ) / ( 1.0 + sqrt( 1.0 - EccentricitySquared ) );
           M = y / K0;
           mu = M / ( EquatorialRadius * ( 1.0 - EccentricitySquared / 4 - 3 * EccentricitySquared * EccentricitySquared / 64 - 5 * EccentricitySquared * EccentricitySquared * EccentricitySquared / 256 ) );
           phi1_rad = mu + ( 3 * e1 / 2 - 27 * e1 * e1 * e1 / 32 )* sin( 2 * mu ) + ( 21 * e1 * e1 / 16 - 55 * e1 * e1 * e1 * e1 / 32 ) * sin( 4 * mu ) + ( 151 * e1 * e1 * e1 / 96 ) * sin( 6 *mu );
           N1 = EquatorialRadius / sqrt( 1.0 - EccentricitySquared * sin( phi1_rad ) * sin( phi1_rad ) );
           T1 = tan( phi1_rad ) * tan( phi1_rad );
           C1 = eccPrimeSquared * cos( phi1_rad ) * cos( phi1_rad );
           R1 = EquatorialRadius * ( 1.0 - EccentricitySquared ) / pow( 1.0 - EccentricitySquared * sin( phi1_rad ) * sin( phi1_rad ), 1.5 );
           D = x / ( N1 * K0 );
           latitude = phi1_rad - ( N1 * tan( phi1_rad ) / R1 ) * ( D * D / 2 -( 5 + 3 * T1 + 10 * C1 - 4 * C1 * C1 - 9 * eccPrimeSquared ) * D * D * D * D / 24 + ( 61 + 90 * T1 + 298 * C1 + 45 * T1 * T1 - 252 * eccPrimeSquared - 3 * C1 * C1 ) * D * D * D * D * D * D / 720 );
           latitude = latitude * 180.0 / M_PI;
           longitude = ( D - ( 1 + 2 * T1 + C1 ) * D * D * D / 6 + ( 5 - 2 * C1 + 28 * T1 - 3 * C1 * C1 + 8 * eccPrimeSquared + 24 * T1 * T1 ) * D * D * D * D * D / 120 ) / cos( phi1_rad );
           longitude = long_origin + longitude * 180.0 / M_PI;
           /* Show results. */
           fprintll( stdout, format, latitude, longitude );
           putchar( '\n' );
           /* All done. */
           exit( 0 );
+          }
       static void
       usage( void )
+          {
           (void) fprintf( stderr, "usage:  %s [-f format] UTM\n", argv0 );
           exit( 1 );
+          }
       static void
       parse_error( char* argstr )
+          {
           (void) fprintf(
       	stderr, "%s: can't parse UTM coordinates '%s'\n", argv0, argstr );
           exit( 1 );
+          }
       static void
       fprintll( FILE* fp, char* fmt, double lat, double lng )
+          {
           char ns = lat >= 0.0 ? 'N' : 'S';
           char ew = lng >= 0.0 ? 'E' : 'W';
           double abs_lat = ABS( lat );
           double abs_lng = ABS( lng );
           int int_deg_lat = (int) lat;
           int int_deg_lng = (int) lng;
           int int_abs_deg_lat = ABS( int_deg_lat );
           int int_abs_deg_lng = ABS( int_deg_lng );
           double min_lat = ( abs_lat - int_abs_deg_lat ) * 60;
           double min_lng = ( abs_lng - int_abs_deg_lng ) * 60;
           int int_min_lat = (int) min_lat;
           int int_min_lng = (int) min_lng;
           double sec_lat = ( min_lat - int_min_lat ) * 60;
           double sec_lng = ( min_lng - int_min_lng ) * 60;
           int int_sec_lat = (int) sec_lat;
           int int_sec_lng = (int) sec_lng;
           char* cp;
           char c1, c2;
           for ( cp = fmt; *cp != '\0'; ++cp )
+      	{
       	if ( *cp != '%' )
+      	    {
       	    putc( *cp, fp );
       	    continue;
+      	    }
       	++cp;
       	if ( *cp == '\0' )
+      	    {
       	    putc( '%', fp );
       	    break;
+      	    }
       	if ( *cp == '%' )
+      	    {
       	    putc( '%', fp );
       	    continue;
+      	    }
       	c1 = *cp;
       	++cp;
       	if ( *cp == '\0' )
+      	    {
       	    putc( '%', fp );
       	    putc( c1, fp );
       	    break;
+      	    }
       	c2 = *cp;
       	if ( c1 == 'n' && c2 == 's' )
       	    putc( ns, fp );
       	else if ( c1 == 'e' && c2 == 'w' )
       	    putc( ew, fp );
       	else if ( c1 == 'a' && c2 == 'd' )
       	    (void) fprintf( fp, "%0.8g", lat );
       	else if ( c1 == 'o' && c2 == 'd' )
       	    (void) fprintf( fp, "%0.8g", lng );
       	else if ( c1 == 'A' && c2 == 'd' )
       	    (void) fprintf( fp, "%0.8g", abs_lat );
       	else if ( c1 == 'O' && c2 == 'd' )
       	    (void) fprintf( fp, "%0.8g", abs_lng );
       	else if ( c1 == 'a' && c2 == 'D' )
       	    (void) fprintf( fp, "%d", int_deg_lat );
       	else if ( c1 == 'o' && c2 == 'D' )
       	    (void) fprintf( fp, "%d", int_deg_lng );
       	else if ( c1 == 'A' && c2 == 'D' )
       	    (void) fprintf( fp, "%d", int_abs_deg_lat );
       	else if ( c1 == 'O' && c2 == 'D' )
       	    (void) fprintf( fp, "%d", int_abs_deg_lng );
       	else if ( c1 == 'a' && c2 == 'm' )
       	    (void) fprintf( fp, "%0.6g", min_lat );
       	else if ( c1 == 'o' && c2 == 'm' )
       	    (void) fprintf( fp, "%0.6g", min_lng );
       	else if ( c1 == 'a' && c2 == 'M' )
       	    (void) fprintf( fp, "%d", int_min_lat );
       	else if ( c1 == 'o' && c2 == 'M' )
       	    (void) fprintf( fp, "%d", int_min_lng );
       	else if ( c1 == 'a' && c2 == 's' )
       	    (void) fprintf( fp, "%0.4g", sec_lat );
       	else if ( c1 == 'o' && c2 == 's' )
       	    (void) fprintf( fp, "%0.4g", sec_lng );
       	else if ( c1 == 'a' && c2 == 'S' )
       	    (void) fprintf( fp, "%d", int_sec_lat );
       	else if ( c1 == 'o' && c2 == 'S' )
       	    (void) fprintf( fp, "%d", int_sec_lng );
       	else
+      	    {
       	    putc( '%', fp );
       	    putc( c1, fp );
       	    putc( c2, fp );
+      	    }
+      	}
+          }

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