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<?php
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/**
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 * Author : Julien Moquet
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 *
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 * Inspired by Proj4php from Mike Adair madairATdmsolutions.ca
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 *                      and Richard Greenwood rich@greenwoodma$p->com
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 * License: LGPL as per: http://www.gnu.org/copyleft/lesser.html
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 */
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/*******************************************************************************
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  NAME                    VAN DER GRINTEN
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  PURPOSE:	Transforms input Easting and Northing to longitude and
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  latitude for the Van der Grinten projection.  The
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  Easting and Northing must be in meters.  The longitude
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  and latitude values will be returned in radians.
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  PROGRAMMER              DATE
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  ----------              ----
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  T. Mittan		March, 1993
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  This function was adapted from the Van Der Grinten projection code
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  (FORTRAN) in the General Cartographic Transformation Package software
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  which is available from the U.S. Geological Survey National Mapping Division.
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  ALGORITHM REFERENCES
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  1.  "New Equal-Area Map Projections for Noncircular Regions", John P. Snyder,
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  The American Cartographer, Vol 15, No. 4, October 1988, pp. 341-355.
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  2.  Snyder, John P., "Map Projections--A Working Manual", U.S. Geological
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  Survey Professional Paper 1395 (Supersedes USGS Bulletin 1532), United
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  State Government Printing Office, Washington D.C., 1987.
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  3.  "Software Documentation for GCTP General Cartographic Transformation
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  Package", U.S. Geological Survey National Mapping Division, May 1982.
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 * ***************************************************************************** */
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class Proj4phpProjVandg {
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    /* Initialize the Van Der Grinten projection
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      ---------------------------------------- */
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    public function init() {
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        $this->R = 6370997.0; //Radius of earth
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    }
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    /**
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     *
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     * @param type $p
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     * @return type
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     */
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    public function forward( $p ) {
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        $lon = $p->x;
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        $lat = $p->y;
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        /* Forward equations
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          ----------------- */
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        $dlon = Proj4php::$common->adjust_lon( $lon - $this->long0 );
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        $x;
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        $y;
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        if( abs( $lat ) <= Proj4php::$common->EPSLN ) {
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            $x = $this->x0 + $this->R * $dlon;
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            $y = $this->y0;
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        }
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        $theta = Proj4php::$common . asinz( 2.0 * abs( $lat / Proj4php::$common->PI ) );
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        if( (abs( $dlon ) <= Proj4php::$common->EPSLN) || (abs( abs( $lat ) - Proj4php::$common->HALF_PI ) <= Proj4php::$common->EPSLN) ) {
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            $x = $this->x0;
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            if( $lat >= 0 ) {
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                $y = $this->y0 + Proj4php::$common->PI * $this->R * tan( .5 * $theta );
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            } else {
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                $y = $this->y0 + Proj4php::$common->PI * $this->R * - tan( .5 * $theta );
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            }
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            //  return(OK);
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        }
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        $al = .5 * abs( (Proj4php::$common->PI / $dlon) - ($dlon / Proj4php::$common->PI) );
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        $asq = $al * $al;
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        $sinth = sin( $theta );
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        $costh = cos( $theta );
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        $g = $costh / ($sinth + $costh - 1.0);
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        $gsq = $g * $g;
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        $m = $g * (2.0 / $sinth - 1.0);
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        $msq = $m * $m;
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        $con = Proj4php::$common->PI * $this->R * ($al * ($g - $msq) + sqrt( $asq * ($g - $sq) * ($g - $msq) - ($msq + $asq) * ($gsq - $msq) )) / ($msq + $asq);
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        if( $dlon < 0 ) {
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            $con = -$con;
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        }
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        $x = $this->x0 + $con;
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        $con = abs( $con / (Proj4php::$common->PI * $this->R) );
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        if( $lat >= 0 ) {
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            $y = $this->y0 + Proj4php::$common->PI * $this->R * sqrt( 1.0 - $con * $con - 2.0 * $al * $con );
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        } else {
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            $y = $this->y0 - Proj4php::$common->PI * $this->R * sqrt( 1.0 - $con * $con - 2.0 * $al * $con );
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        }
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        $p->x = $x;
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        $p->y = $y;
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        return $p;
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    }
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    /* Van Der Grinten inverse equations--mapping x,y to lat/long
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      --------------------------------------------------------- */
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    public function inverse( $p ) {
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        /*
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        $dlon;
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        $xx;
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        $yy;
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        $xys;
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        $c1;
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        $c2;
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        $c3;
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        $al;
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        $asq;
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        $a1;
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        $m1;
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        $con;
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        $th1;
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        $d;
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        */
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        /* inverse equations
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          ----------------- */
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        $p->x -= $this->x0;
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        $p->y -= $this->y0;
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        $con = Proj4php::$common->PI * $this->R;
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        $xx = $p->x / $con;
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        $yy = $p->y / $con;
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        $xys = $xx * $xx + $yy * $yy;
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        $c1 = -abs( $yy ) * (1.0 + $xys);
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        $c2 = $c1 - 2.0 * $yy * $yy + $xx * $xx;
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        $c3 = -2.0 * $c1 + 1.0 + 2.0 * $yy * $yy + $xys * $xys;
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        $d = $yy * $yy / $c3 + (2.0 * $c2 * $c2 * $c2 / $c3 / $c3 / $c3 - 9.0 * $c1 * $c2 / $c3 / $c3) / 27.0;
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        $a1 = ($c1 - $c2 * $c2 / 3.0 / $c3) / $c3;
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        $m1 = 2.0 * sqrt( -$a1 / 3.0 );
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        $con = ((3.0 * $d) / $a1) / $m1;
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        if( abs( $con ) > 1.0 ) {
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            if( $con >= 0.0 ) {
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                $con = 1.0;
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            } else {
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                $con = -1.0;
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            }
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        }
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        $th1 = acos( $con ) / 3.0;
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        if( $p->$y >= 0 ) {
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            $lat = (-$m1 * cos( $th1 + Proj4php::$common->PI / 3.0 ) - $c2 / 3.0 / $c3) * Proj4php::$common->PI;
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        } else {
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            $lat = -(-m1 * cos( $th1 + Proj4php::$common->PI / 3.0 ) - $c2 / 3.0 / $c3) * Proj4php::$common->PI;
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        }
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        if( abs( $xx ) < Proj4php::$common->EPSLN ) {
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            $lon = $this->$long0;
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        }
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        $lon = Proj4php::$common->adjust_lon( $this->long0 + Proj4php::$common->PI * ($xys - 1.0 + sqrt( 1.0 + 2.0 * ($xx * $xx - $yy * $yy) + $xys * $xys )) / 2.0 / $xx );
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        $p->x = $lon;
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        $p->y = $lat;
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        return $p;
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    }
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}
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Proj4php::$proj['vandg'] = new Proj4phpProjVandg();