earth.inc in Location 7.4
Same filename and directory in other branches
Trigonometry for calculating geographical distances. All function arguments and return values measure distances in metres and angles in degrees. The ellipsoid model is from the WGS-84 datum. Ka-Ping Yee, 2003-08-11
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earth.incView source
<?php
/**
* License clarification:
*
* On Feb 13, 2005, in message <Pine.LNX.4.58.0502131827510.5072@server1.LFW.org>,
* the creator of these routines, Ka-Ping Yee, authorized these routines to be
* distributed under the GPL.
*/
/**
* @file
* Trigonometry for calculating geographical distances.
* All function arguments and return values measure distances in metres
* and angles in degrees. The ellipsoid model is from the WGS-84 datum.
* Ka-Ping Yee, 2003-08-11
*/
//$earth_radius_semimajor = 6378137.0;
//$earth_flattening = 1/298.257223563;
//$earth_radius_semiminor = $earth_radius_semimajor * (1 - $earth_flattening);
//$earth_eccentricity_sq = 2*$earth_flattening - pow($earth_flattening, 2);
// I don't know what's up: PHP is hating on my global variables (commented out above),
// so I have to write functions that return them! (-Ankur)
// Commenting out the global variables above and replacing them with functions that
// return the same values is the only thing I changed since, for some reason, my
// PHP wasn't acknowledging these global variables.
// This library is an original implementation of UCB CS graduate student, Ka-Ping Yee (http://www.zesty.ca).
function earth_radius_semimajor() {
return 6378137.0;
}
function earth_flattening() {
return 1 / 298.257223563;
}
function earth_radius_semiminor() {
return earth_radius_semimajor() * (1 - earth_flattening());
}
function earth_eccentricity_sq() {
return 2 * earth_flattening() - pow(earth_flattening(), 2);
}
// Latitudes in all of U. S.: from -7.2 (American Samoa) to 70.5 (Alaska).
// Latitudes in continental U. S.: from 24.6 (Florida) to 49.0 (Washington).
// Average latitude of all U. S. zipcodes: 37.9.
function earth_radius($latitude = 37.9) {
//global $earth_radius_semimajor, $earth_radius_semiminor;
// Estimate the Earth's radius at a given latitude.
// Default to an approximate average radius for the United States.
$lat = deg2rad($latitude);
$x = cos($lat) / earth_radius_semimajor();
$y = sin($lat) / earth_radius_semiminor();
return 1 / sqrt($x * $x + $y * $y);
}
function earth_xyz($longitude, $latitude, $height = 0) {
// Convert longitude and latitude to earth-centered earth-fixed coordinates.
// X axis is 0 long, 0 lat; Y axis is 90 deg E; Z axis is north pole.
//global $earth_radius_semimajor, $earth_eccentricity_sq;
$long = deg2rad($longitude);
$lat = deg2rad($latitude);
$coslong = cos($long);
$coslat = cos($lat);
$sinlong = sin($long);
$sinlat = sin($lat);
$radius = earth_radius_semimajor() / sqrt(1 - earth_eccentricity_sq() * $sinlat * $sinlat);
$x = ($radius + $height) * $coslat * $coslong;
$y = ($radius + $height) * $coslat * $sinlong;
$z = ($radius * (1 - earth_eccentricity_sq()) + $height) * $sinlat;
return array(
$x,
$y,
$z,
);
}
function earth_arclength($angle, $latitude = 37.9) {
// Convert a given angle to earth-surface distance.
return deg2rad($angle) * earth_radius($latitude);
}
function earth_distance($longitude1, $latitude1, $longitude2, $latitude2) {
// Estimate the earth-surface distance between two locations.
$long1 = deg2rad($longitude1);
$lat1 = deg2rad($latitude1);
$long2 = deg2rad($longitude2);
$lat2 = deg2rad($latitude2);
$radius = earth_radius(($latitude1 + $latitude2) / 2);
$cosangle = cos($lat1) * cos($lat2) * (cos($long1) * cos($long2) + sin($long1) * sin($long2)) + sin($lat1) * sin($lat2);
return acos($cosangle) * $radius;
}
/*
* Returns the SQL fragment needed to add a column called 'distance'
* to a query that includes the location table
*
* @param $longitude The measurement point
* @param $latibude The measurement point
* @param $tbl_alias If necessary, the alias name of the location table to work from. Only required when working with named {location} tables
*/
function earth_distance_sql($longitude, $latitude, $tbl_alias = '') {
// Make a SQL expression that estimates the distance to the given location.
$long = deg2rad($longitude);
$lat = deg2rad($latitude);
$radius = earth_radius($latitude);
// If the table alias is specified, add on the separator.
$tbl_alias = empty($tbl_alias) ? $tbl_alias : $tbl_alias . '.';
$coslong = cos($long);
$coslat = cos($lat);
$sinlong = sin($long);
$sinlat = sin($lat);
return "(IFNULL(ACOS({$coslat}*COS(RADIANS({$tbl_alias}latitude))*({$coslong}*COS(RADIANS({$tbl_alias}longitude)) + {$sinlong}*SIN(RADIANS({$tbl_alias}longitude))) + {$sinlat}*SIN(RADIANS({$tbl_alias}latitude))), 0.00000)*{$radius})";
}
/**
* @todo This function uses earth_asin_safe so is not accurate for all possible
* parameter combinations. This means this function doesn't work properly
* for high distance values. This function needs to be re-written to work properly for
* larger distance values. See http://drupal.org/node/821628
*/
function earth_longitude_range($longitude, $latitude, $distance) {
// Estimate the min and max longitudes within $distance of a given location.
$long = deg2rad($longitude);
$lat = deg2rad($latitude);
$radius = earth_radius($latitude);
$angle = $distance / $radius;
$diff = earth_asin_safe(sin($angle) / cos($lat));
$minlong = $long - $diff;
$maxlong = $long + $diff;
if ($minlong < -pi()) {
$minlong = $minlong + pi() * 2;
}
if ($maxlong > pi()) {
$maxlong = $maxlong - pi() * 2;
}
return array(
rad2deg($minlong),
rad2deg($maxlong),
);
}
function earth_latitude_range($longitude, $latitude, $distance) {
// Estimate the min and max latitudes within $distance of a given location.
$long = deg2rad($longitude);
$lat = deg2rad($latitude);
$radius = earth_radius($latitude);
$angle = $distance / $radius;
$minlat = $lat - $angle;
$maxlat = $lat + $angle;
$rightangle = pi() / 2;
if ($minlat < -$rightangle) {
// wrapped around the south pole
$overshoot = -$minlat - $rightangle;
$minlat = -$rightangle + $overshoot;
if ($minlat > $maxlat) {
$maxlat = $minlat;
}
$minlat = -$rightangle;
}
if ($maxlat > $rightangle) {
// wrapped around the north pole
$overshoot = $maxlat - $rightangle;
$maxlat = $rightangle - $overshoot;
if ($maxlat < $minlat) {
$minlat = $maxlat;
}
$maxlat = $rightangle;
}
return array(
rad2deg($minlat),
rad2deg($maxlat),
);
}
/**
* This is a helper function to avoid errors when using the asin() PHP function.
* asin is only real for values between -1 and 1.
* If a value outside that range is given it returns NAN (not a number), which
* we don't want to happen.
* So this just rounds values outside this range to -1 or 1 first.
*
* This means that calculations done using this function with $x outside the range
* will not be accurate. The alternative though is getting NAN, which is an error
* and won't give accurate results anyway.
*/
function earth_asin_safe($x) {
return asin(max(-1, min($x, 1)));
}
Functions
Name | Description |
---|---|
earth_arclength | |
earth_asin_safe | This is a helper function to avoid errors when using the asin() PHP function. asin is only real for values between -1 and 1. If a value outside that range is given it returns NAN (not a number), which we don't want to happen. So this just rounds… |
earth_distance | |
earth_distance_sql | |
earth_eccentricity_sq | |
earth_flattening | |
earth_latitude_range | |
earth_longitude_range | @todo This function uses earth_asin_safe so is not accurate for all possible parameter combinations. This means this function doesn't work properly for high distance values. This function needs to be re-written to work properly for larger… |
earth_radius | |
earth_radius_semimajor | |
earth_radius_semiminor | |
earth_xyz |