.gpx to geo/ folder * 2. Assign file to project: UPDATE projects SET geofile = '' WHERE id_project = ; * 3. Load any page * * To force gpx rebuild: * ?a=build_geojson&name= */ class Converter extends PhpObject { public function __construct() { parent::__construct(__CLASS__, Settings::DEBUG); } public static function convertToGeoJson($sFileName) { $sFileName = basename($sFileName, Gpx::EXT); $oGpx = new Gpx($sFileName); $oGeoJson = new GeoJson($sFileName); $oGeoJson->buildTracks($oGpx->getTracks()); if($oGeoJson->isSimplicationRequired()) $oGeoJson->buildTracks($oGpx->getTracks(), true); $oGeoJson->saveFile(); return $oGpx->getLog().'
'.$oGeoJson->getLog(); } public static function isGeoJsonValid($sFileName) { $bResult = false; $sGeoJsonFilePath = Geo::getFilePath($sFileName, GeoJson::EXT); if(file_exists($sGeoJsonFilePath) && filemtime($sGeoJsonFilePath) > filemtime(Geo::getFilePath($sFileName, Gpx::EXT))) $bResult = true; return $bResult; } } class Geo extends PhpObject { const GEO_FOLDER = 'geo/'; protected $asTracks; protected $sFilePath; public function __construct($sFileName) { parent::__construct(get_class($this), Settings::DEBUG, PhpObject::MODE_HTML); $this->sFilePath = self::getFilePath($sFileName, static::EXT); $this->asTracks = array(); } public static function getFilePath($sFileName, $sExt) { return self::GEO_FOLDER.$sFileName.$sExt; } public function getLog() { return $this->getCleanMessageStack(PhpObject::NOTICE_TAB); } } class Gpx extends Geo { const EXT = '.gpx'; public function __construct($sFileName) { parent::__construct($sFileName); $this->parseFile(); } public function getTracks() { return $this->asTracks; } private function parseFile() { $this->addNotice('Parsing: '.$this->sFilePath); $oXml = simplexml_load_file($this->sFilePath); //Tracks $this->addNotice('Converting '.count($oXml->trk).' tracks'); foreach($oXml->trk as $aoTrack) { $asTrack = array( 'name' => (string) $aoTrack->name, 'desc' => str_replace("\n", '', ToolBox::fixEOL((strip_tags($aoTrack->desc)))), 'color' => (string) $aoTrack->extensions->children('gpxx', true)->TrackExtension->DisplayColor, 'points'=> array() ); foreach($aoTrack->trkseg as $asSegment) { foreach($asSegment as $asPoint) { $asTrack['points'][] = array( 'lon' => (float) $asPoint['lon'], 'lat' => (float) $asPoint['lat'], 'ele' => (int) $asPoint->ele ); } } $this->asTracks[] = $asTrack; } //Waypoints $this->addNotice('Ignoring '.count($oXml->wpt).' waypoints'); } } class GeoJson extends Geo { const EXT = '.geojson'; const MAX_FILESIZE = 2; //MB const MAX_DEVIATION = 0.1; //10% public function __construct($sFileName) { parent::__construct($sFileName); } public function saveFile() { $this->addNotice('Saving '.$this->sFilePath); file_put_contents($this->sFilePath, $this->buildGeoJson()); } public function isSimplicationRequired() { //Size in bytes $iFileSize = strlen($this->buildGeoJson()); //Convert to MB $iFileSize = round($iFileSize / pow(1024, 2), 2); //Compare with max allowed size $bFileTooLarge = ($iFileSize > self::MAX_FILESIZE); if($bFileTooLarge) $this->addNotice('Output file is too large ('.$iFileSize.'MB > '.self::MAX_FILESIZE.'MB)'); return $bFileTooLarge; } public function buildTracks($asTracks, $bSimplify=false) { $this->addNotice('Creating '.($bSimplify?'Simplified ':'').'GeoJson Tracks'); $this->asTracks = array(); foreach($asTracks as $asTrackProps) { //Color mapping switch($asTrackProps['color']) { case 'DarkBlue': $sType = 'main'; break; case 'Magenta': if($bSimplify) { $this->addNotice('Ignoring Track "'.$asTrackProps['name'].' (off-track)'); continue 2; //discard tracks } else { $sType = 'off-track'; break; } case 'Red': $sType = 'hitchhiking'; break; default: $this->addNotice('Ignoring Track "'.$asTrackProps['name'].' (unknown color "'.$asTrackProps['color'].'")'); continue 2; //discard tracks } $asTrack = array( 'type' => 'Feature', 'properties' => array( 'name' => $asTrackProps['name'], 'type' => $sType, 'description' => $asTrackProps['desc'] ), 'geometry' => array( 'type' => 'LineString', 'coordinates' => array() ) ); //Track points $asTrackPoints = $asTrackProps['points']; $iPointCount = count($asTrackPoints); $iInvalidPointCount = 0; foreach($asTrackPoints as $iIndex=>$asPoint) { if($bSimplify && $iIndex > 0 && $iIndex < ($iPointCount - 1)) { if(!$this->isPointValid($asTrackPoints[$iIndex - 1], $asPoint, $asTrackPoints[$iIndex + 1])) { $iInvalidPointCount++; continue; } } $asTrack['geometry']['coordinates'][] = array_values($asPoint); } $this->asTracks[] = $asTrack; if($iInvalidPointCount > 0) $this->addNotice('Removing '.$iInvalidPointCount.'/'.$iPointCount.' points ('.round($iInvalidPointCount / $iPointCount * 100, 1).'%) from '.$asTrackProps['name']); } } private function isPointValid($asPointA, $asPointO, $asPointB) { /* A----O Calculate angle AO^OB \ If angle is within [Pi - 10%; Pi + 10%], O can be discarded \ O is valid otherwise B -> -> -> -> Law of Cosines: angle = arccos(OA.OB / ||OA||.||OB||) */ $fVectorOA = array('lon'=>($asPointA['lon'] - $asPointO['lon']), 'lat'=> ($asPointA['lat'] - $asPointO['lat'])); $fVectorOB = array('lon'=>($asPointB['lon'] - $asPointO['lon']), 'lat'=> ($asPointB['lat'] - $asPointO['lat'])); $fVectorOAxOB = $fVectorOA['lon'] * $fVectorOB['lon'] + $fVectorOA['lat'] * $fVectorOB['lat']; $fLengthOA = sqrt(pow($asPointA['lon'] - $asPointO['lon'], 2) + pow($asPointA['lat'] - $asPointO['lat'], 2)); $fLengthOB = sqrt(pow($asPointO['lon'] - $asPointB['lon'], 2) + pow($asPointO['lat'] - $asPointB['lat'], 2)); $fAngleAOB = acos($fVectorOAxOB/($fLengthOA * $fLengthOB)); return ($fAngleAOB <= (1 - self::MAX_DEVIATION) * M_PI || $fAngleAOB >= (1 + self::MAX_DEVIATION) * M_PI); } private function buildGeoJson() { return json_encode(array('features'=>$this->asTracks)); } }