Subversion Repositories eFlore/Projets.eflore-projets

<?php

/**

  NOTES: According to EPSG the full Krovak projection method should have

  the following parameters.  Within PROJ.4 the azimuth, and pseudo

  standard parallel are hardcoded in the algorithm and can't be

  altered from outside.  The others all have defaults to match the

  common usage with Krovak projection.

  lat_0 = latitude of centre of the projection

  lon_0 = longitude of centre of the projection

 * * = azimuth (true) of the centre line passing through the centre of the projection

 * * = latitude of pseudo standard parallel

  k  = scale factor on the pseudo standard parallel

  x_0 = False Easting of the centre of the projection at the apex of the cone

  y_0 = False Northing of the centre of the projection at the apex of the cone

**/

class Proj4phpProjKrovak {

    /**

     *

     */

    public function init() {

        /* we want Bessel as fixed ellipsoid */

        $this->a = 6377397.155;

        $this->es = 0.006674372230614;

        $this->e = sqrt( $this->es );

        /* if latitude of projection center is not set, use 49d30'N */

        if( !$this->lat0 ) {

            $this->lat0 = 0.863937979737193;

        }

        if( !$this->long0 ) {

            $this->long0 = 0.7417649320975901 - 0.308341501185665;

        }

        /* if scale not set default to 0.9999 */

        if( !$this->k0 ) {

            $this->k0 = 0.9999;

        }

        $this->s45 = 0.785398163397448;    /* 45° */

        $this->s90 = 2 * $this->s45;

        $this->fi0 = $this->lat0;    /* Latitude of projection centre 49° 30' */

        /*  Ellipsoid Bessel 1841 a = 6377397.155m 1/f = 299.1528128,

          e2=0.006674372230614;

         */

        $this->e2 = $this->es;       /* 0.006674372230614; */

        $this->e = sqrt( $this->e2 );

        $this->alfa = sqrt( 1. + ($this->e2 * pow( cos( $this->fi0 ), 4 )) / (1. - $this->e2) );

        $this->uq = 1.04216856380474;      /* DU(2, 59, 42, 42.69689) */

        $this->u0 = asin( sin( $this->fi0 ) / $this->alfa );

        $this->g = pow( (1. + $this->e * sin( $this->fi0 )) / (1. - $this->e * sin( $this->fi0 )), $this->alfa * $this->e / 2. );

        $this->k = tan( $this->u0 / 2. + $this->s45 ) / pow( tan( $this->fi0 / 2. + $this->s45 ), $this->alfa ) * $this->g;

        $this->k1 = $this->k0;

        $this->n0 = $this->a * sqrt( 1. - $this->e2 ) / (1. - $this->e2 * pow( sin( $this->fi0 ), 2 ));

        $this->s0 = 1.37008346281555;       /* Latitude of pseudo standard parallel 78° 30'00" N */

        $this->n = sin( $this->s0 );

        $this->ro0 = $this->k1 * $this->n0 / tan( $this->s0 );

        $this->ad = $this->s90 - $this->uq;

    }

    /**

     * ellipsoid

     * calculate xy from lat/lon

     * Constants, identical to inverse transform function

     *

     * @param type $p

     * @return type

     */

    public function forward( $p ) {

        $lon = $p->x;

        $lat = $p->y;

        $delta_lon = Proj4php::$common->adjust_lon( $lon - $this->long0 ); // Delta longitude

        /* Transformation */

        $gfi = pow( ((1. + $this->e * sin( $lat )) / (1. - $this->e * sin( $lat )) ), ($this->alfa * $this->e / 2. ) );

        $u = 2. * (atan( $this->k * pow( tan( $lat / 2. + $this->s45 ), $this->alfa ) / $gfi ) - $this->s45);

        $deltav = - $delta_lon * $this->alfa;

        $s = asin( cos( $this->ad ) * sin( $u ) + sin( $this->ad ) * cos( $u ) * cos( $deltav ) );

        $d = asin( cos( $u ) * sin( $deltav ) / cos( $s ) );

        $eps = $this->n * $d;

        $ro = $this->ro0 * pow( tan( $this->s0 / 2. + $this->s45 ), $this->n ) / pow( tan( $s / 2. + $this->s45 ), $this->n );

        /* x and y are reverted! */

        //$p->y = ro * cos(eps) / a;

        //$p->x = ro * sin(eps) / a;

        $p->y = $ro * cos( $eps ) / 1.0;

        $p->x = $ro * sin( $eps ) / 1.0;

        if( $this->czech ) {

            $p->y *= -1.0;

            $p->x *= -1.0;

        }

        return $p;

    }

    /**

     * calculate lat/lon from xy

     *

     * @param Point $p

     * @return Point $p

     */

    public function inverse( $p ) {

        /* Transformation */

        /* revert y, x */

        $tmp = $p->x;

        $p->x = $p->y;

        $p->y = $tmp;

        if( $this->czech ) {

            $p->y *= -1.0;

            $p->x *= -1.0;

        }

        $ro = sqrt( $p->x * $p->x + $p->y * $p->y );

        $eps = atan2( $p->y, $p->x );

        $d = $eps / sin( $this->s0 );

        $s = 2. * (atan( pow( $this->ro0 / $ro, 1. / $this->n ) * tan( $this->s0 / 2. + $this->s45 ) ) - $this->s45);

        $u = asin( cos( $this->ad ) * sin( s ) - sin( $this->ad ) * cos( s ) * cos( d ) );

        $deltav = asin( cos( $s ) * sin( $d ) / cos( $u ) );

        $p->x = $this->long0 - $deltav / $this->alfa;

        /* ITERATION FOR $lat */

        $fi1 = $u;

        $ok = 0;

        $iter = 0;

        do {

            $p->y = 2. * ( atan( pow( $this->k, -1. / $this->alfa ) *

                                pow( tan( $u / 2. + $this->s45 ), 1. / $this->alfa ) *

                                pow( (1. + $this->e * sin( $fi1 )) / (1. - $this->e * sin( $fi1 )), $this->e / 2. )

                      ) - $this->s45);

            if( abs( $fi1 - $p->y ) < 0.0000000001 )

                $ok = 1;

            $fi1 = $p->y;

            $iter += 1;

        } while( $ok == 0 && $iter < 15 );

        if( $iter >= 15 ) {

            Proj4php::reportError( "PHI3Z-CONV:Latitude failed to converge after 15 iterations" );

            //console.log('iter:', iter);

            return null;

        }

        return $p;

    }

}

Proj4php::$proj['krovak'] = new Proj4phpProjKrovak();