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| <?php |
| /******************************************************************************* |
| NAME ALBERS CONICAL EQUAL AREA |
| |
| PURPOSE: Transforms input longitude and latitude to Easting and Northing |
| for the Albers Conical Equal Area projection. The longitude |
| and latitude must be in radians. The Easting and Northing |
| values will be returned in meters. |
| |
| PROGRAMMER DATE |
| ---------- ---- |
| T. Mittan, Feb, 1992 |
| |
| ALGORITHM REFERENCES |
| |
| 1. Snyder, John P., "Map Projections--A Working Manual", U.S. Geological |
| Survey Professional Paper 1395 (Supersedes USGS Bulletin 1532), United |
| State Government Printing Office, Washington D.C., 1987. |
| |
| 2. Snyder, John P. and Voxland, Philip M., "An Album of Map Projections", |
| U.S. Geological Survey Professional Paper 1453 , United State Government |
| Printing Office, Washington D.C., 1989. |
| *******************************************************************************/ |
| |
| /** |
| * Author : Julien Moquet |
| * |
| * Inspired by Proj4php from Mike Adair madairATdmsolutions.ca |
| * and Richard Greenwood rich@greenwoodma$p->com |
| * License: LGPL as per: http://www.gnu.org/copyleft/lesser.html |
| */ |
| class Proj4phpProjAea { |
| |
| /** |
| * |
| * @return void |
| */ |
| public function init() { |
| |
| if( abs( $this->lat1 + $this->lat2 ) < Proj4php::$common->EPSLN ) { |
| Proj4php::reportError( "aeaInitEqualLatitudes" ); |
| return; |
| } |
| $this->temp = $this->b / $this->a; |
| $this->es = 1.0 - pow( $this->temp, 2 ); |
| $this->e3 = sqrt( $this->es ); |
| |
| $this->sin_po = sin( $this->lat1 ); |
| $this->cos_po = cos( $this->lat1 ); |
| $this->t1 = $this->sin_po; |
| $this->con = $this->sin_po; |
| $this->ms1 = Proj4php::$common->msfnz( $this->e3, $this->sin_po, $this->cos_po ); |
| $this->qs1 = Proj4php::$common->qsfnz( $this->e3, $this->sin_po, $this->cos_po ); |
| |
| $this->sin_po = sin( $this->lat2 ); |
| $this->cos_po = cos( $this->lat2 ); |
| $this->t2 = $this->sin_po; |
| $this->ms2 = Proj4php::$common->msfnz( $this->e3, $this->sin_po, $this->cos_po ); |
| $this->qs2 = Proj4php::$common->qsfnz( $this->e3, $this->sin_po, $this->cos_po ); |
| |
| $this->sin_po = sin( $this->lat0 ); |
| $this->cos_po = cos( $this->lat0 ); |
| $this->t3 = $this->sin_po; |
| $this->qs0 = Proj4php::$common->qsfnz( $this->e3, $this->sin_po, $this->cos_po ); |
| |
| if( abs( $this->lat1 - $this->lat2 ) > Proj4php::$common->EPSLN ) { |
| $this->ns0 = ($this->ms1 * $this->ms1 - $this->ms2 * $this->ms2) / ($this->qs2 - $this->qs1); |
| } else { |
| $this->ns0 = $this->con; |
| } |
| |
| $this->c = $this->ms1 * $this->ms1 + $this->ns0 * $this->qs1; |
| $this->rh = $this->a * sqrt( $this->c - $this->ns0 * $this->qs0 ) / $this->ns0; |
| } |
| |
| /** |
| * Albers Conical Equal Area forward equations--mapping lat,long to x,y |
| * |
| * @param Point $p |
| * @return Point $p |
| */ |
| public function forward( $p ) { |
| |
| $lon = $p->x; |
| $lat = $p->y; |
| |
| $this->sin_phi = sin( $lat ); |
| $this->cos_phi = cos( $lat ); |
| |
| $qs = Proj4php::$common->qsfnz( $this->e3, $this->sin_phi, $this->cos_phi ); |
| $rh1 = $this->a * sqrt( $this->c - $this->ns0 * $qs ) / $this->ns0; |
| $theta = $this->ns0 * Proj4php::$common->adjust_lon( $lon - $this->long0 ); |
| $x = rh1 * sin( $theta ) + $this->x0; |
| $y = $this->rh - $rh1 * cos( $theta ) + $this->y0; |
| |
| $p->x = $x; |
| $p->y = $y; |
| |
| return $p; |
| } |
| |
| /** |
| * |
| * @param Point $p |
| * @return Point $p |
| */ |
| public function inverse( $p ) { |
| |
| $p->x -= $this->x0; |
| $p->y = $this->rh - $p->y + $this->y0; |
| |
| if( $this->ns0 >= 0 ) { |
| $rh1 = sqrt( $p->x * $p->x + $p->y * $p->y ); |
| $con = 1.0; |
| } else { |
| $rh1 = -sqrt( $p->x * $p->x + $p->y * $p->y ); |
| $con = -1.0; |
| } |
| |
| $theta = 0.0; |
| if( $rh1 != 0.0 ) { |
| $theta = atan2( $con * $p->x, $con * $p->y ); |
| } |
| |
| $con = $rh1 * $this->ns0 / $this->a; |
| $qs = ($this->c - $con * $con) / $this->ns0; |
| |
| if( $this->e3 >= 1e-10 ) { |
| $con = 1 - .5 * (1.0 - $this->es) * log( (1.0 - $this->e3) / (1.0 + $this->e3) ) / $this->e3; |
| if( abs( abs( $con ) - abs( $qs ) ) > .0000000001 ) { |
| $lat = $this->phi1z( $this->e3, $qs ); |
| } else { |
| if( $qs >= 0 ) { |
| $lat = .5 * Proj4php::$Common->PI; |
| } else { |
| $lat = -.5 * Proj4php::$Common->PI; |
| } |
| } |
| } else { |
| $lat = $this->phi1z( $this->e3, $qs ); |
| } |
| |
| $lon = Proj4php::$common->adjust_lon( $theta / $this->ns0 + $this->long0 ); |
| |
| $p->x = $lon; |
| $p->y = $lat; |
| |
| return $p; |
| } |
| |
| /** |
| * Function to compute phi1, the latitude for the inverse of the Albers Conical Equal-Area projection. |
| * |
| * @param type $eccent |
| * @param type $qs |
| * @return $phi or null on Convergence error |
| */ |
| public function phi1z( $eccent, $qs ) { |
| |
| $phi = Proj4php::$common->asinz( .5 * $qs ); |
| |
| if( $eccent < Proj4php::$common->EPSLN ) |
| return $phi; |
| |
| $eccnts = $eccent * $eccent; |
| for( $i = 1; $i <= 25; ++$i ) { |
| $sinphi = sin( $phi ); |
| $cosphi = cos( $phi ); |
| $con = $eccent * $sinphi; |
| $com = 1.0 - $con * $con; |
| $dphi = .5 * $com * $com / $cosphi * ($qs / (1.0 - $eccnts) - $sinphi / $com + .5 / $eccent * log( (1.0 - $con) / (1.0 + $con) )); |
| $phi = $phi + $dphi; |
| if( abs( $dphi ) <= 1e-7 ) |
| return $phi; |
| } |
| |
| Proj4php::reportError( "aea:phi1z:Convergence error" ); |
| |
| return null; |
| } |
| |
| } |
| |
| Proj4php::$proj['aea'] = new Proj4phpProjAea(); |