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delphine |
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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 GNOMONIC
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PURPOSE: Transforms input longitude and latitude to Easting and
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Northing for the Gnomonic Projection.
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Implementation based on the existing sterea and ortho
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implementations.
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PROGRAMMER DATE
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---------- ----
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Richard Marsden November 2009
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ALGORITHM REFERENCES
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1. Snyder, John P., "Flattening the Earth - Two Thousand Years of Map
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Projections", University of Chicago Press 1993
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2. Wolfram Mathworld "Gnomonic Projection"
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http://mathworld.wolfram.com/GnomonicProjection.html
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Accessed: 12th November 2009
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******************************************************************************/
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class Proj4phpProjGnom {
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/**
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* Initialize the Gnomonic projection
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*
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* @todo $def not used in context...?
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* @param type $def
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*/
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public function init( $def ) {
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/* Place parameters in static storage for common use
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------------------------------------------------- */
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$this->sin_p14 = sin( $this->lat0 );
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$this->cos_p14 = cos( $this->lat0 );
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// Approximation for projecting points to the horizon (infinity)
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$this->infinity_dist = 1000 * $this->a;
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$this->rc = 1;
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}
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/* Gnomonic forward equations--mapping lat,long to x,y
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--------------------------------------------------- */
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public function forward( $p ) {
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/*
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$sinphi;
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$cosphi; // sin and cos value
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$dlon; // delta longitude value
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$coslon; // cos of longitude
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$ksp; // scale factor
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$g;
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*/
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$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 - $this->long0 );
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$sinphi = sin( $lat );
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$cosphi = cos( $lat );
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$coslon = cos( $dlon );
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$g = $this->sin_p14 * $sinphi + $this->cos_p14 * $cosphi * $coslon;
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$ksp = 1.0;
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if( (g > 0) || (abs( g ) <= Proj4php::$common->EPSLN) ) {
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$x = $this->x0 + $this->a * $ksp * $cosphi * sin( $dlon ) / $g;
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$y = $this->y0 + $this->a * $ksp * ($this->cos_p14 * $sinphi - $this->sin_p14 * $cosphi * $coslon) / $g;
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} else {
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Proj4php::reportError( "orthoFwdPointError" );
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// Point is in the opposing hemisphere and is unprojectable
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// We still need to return a reasonable point, so we project
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// to infinity, on a bearing
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// equivalent to the northern hemisphere equivalent
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// This is a reasonable approximation for short shapes and lines that
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// straddle the horizon.
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$x = $this->x0 + $this->infinity_dist * $cosphi * sin( $dlon );
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$y = $this->y0 + $this->infinity_dist * ($this->cos_p14 * $sinphi - $this->sin_p14 * $cosphi * $coslon);
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}
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$p->x = $x;
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$p->y = $y;
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return $p;
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}
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/**
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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 inverse( $p ) {
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/*
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$rh; // Rho
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$z; // angle
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$sinc;
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$cosc;
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$c;
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$lon;
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$lat;
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*/
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/* Inverse equations
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----------------- */
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$p->x = ($p->x - $this->x0) / $this->a;
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$p->y = ($p->y - $this->y0) / $this->a;
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$p->x /= $this->k0;
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$p->y /= $this->k0;
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if( ($rh = sqrt( $p->x * $p->x + $p->y * $p->y ) ) ) {
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$c = atan2( $rh, $this->rc );
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$sinc = sin( $c );
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$cosc = cos( $c );
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$lat = Proj4php::$common->asinz( $cosc * $this->sin_p14 + ($p->y * $sinc * $this->cos_p14) / $rh );
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$lon = atan2( $p->x * sinc, rh * $this->cos_p14 * $cosc - $p->y * $this->sin_p14 * $sinc );
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$lon = Proj4php::$common->adjust_lon( $this->long0 + $lon );
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} else {
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$lat = $this->phic0;
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$lon = 0.0;
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}
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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['gnom'] = new Proj4phpProjGnom();
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