[ '#B02EE0', '#E0642E', '#E0D62E', '#2E97E0', '#BCE02E', '#E02E75', '#5CE02E', '#E0B02E', '#0022E0', '#726CB1', '#481A36', '#BAC658', '#127224', '#825119', '#238C74', '#4C489B', '#87C9BF', ], // Hex values for abovementioned colours 'colors_hex' => [ [176, 46, 224], [224, 100, 46], [224, 214, 46], [46, 151, 224], [188, 224, 46], [224, 46, 117], [92, 224, 46], [224, 176, 46], [0, 34, 224], [114, 108, 177], [72, 26, 54], [186, 198, 88], [18, 114, 36], [130, 81, 25], [35, 140, 116], [76, 72, 155], [135, 201, 191], ], // The width of the GIS visualization. 'width' => 600, // The height of the GIS visualization. 'height' => 450, ]; /** @var array Options that the user has specified. */ private $userSpecifiedSettings = null; /** * Returns the settings array * * @return array the settings array */ public function getSettings() { return $this->settings; } /** * Factory * * @param string $sql_query SQL to fetch raw data for visualization * @param array $options Users specified options * @param int $row number of rows * @param int $pos start position * * @return GisVisualization */ public static function get($sql_query, array $options, $row, $pos) { return new GisVisualization($sql_query, $options, $row, $pos); } /** * Get visualization * * @param array $data Raw data, if set, parameters other than $options will be * ignored * @param array $options Users specified options * * @return GisVisualization */ public static function getByData(array $data, array $options) { return new GisVisualization(null, $options, null, null, $data); } /** * Check if data has SRID */ public function hasSrid(): bool { foreach ($this->data as $row) { if ($row['srid'] != 0) { return true; } } return false; } /** * Stores user specified options. * * @param string $sql_query SQL to fetch raw data for visualization * @param array $options Users specified options * @param int $row number of rows * @param int $pos start position * @param array|null $data raw data. If set, parameters other than $options * will be ignored */ private function __construct($sql_query, array $options, $row, $pos, $data = null) { $this->userSpecifiedSettings = $options; if (isset($data)) { $this->data = $data; } else { $this->modifiedSql = $this->modifySqlQuery($sql_query, $row, $pos); $this->data = $this->fetchRawData(); } } /** * All the variable initialization, options handling has to be done here. */ protected function init(): void { $this->handleOptions(); } /** * Returns sql for fetching raw data * * @param string $sql_query The SQL to modify. * @param int $rows Number of rows. * @param int $pos Start position. * * @return string the modified sql query. */ private function modifySqlQuery($sql_query, $rows, $pos) { $isMariaDb = $this->userSpecifiedSettings['isMariaDB'] === true; $modified_query = 'SELECT '; $spatialAsText = 'ASTEXT'; $spatialSrid = 'SRID'; $axisOrder = ''; if ($this->userSpecifiedSettings['mysqlVersion'] >= 50600) { $spatialAsText = 'ST_ASTEXT'; $spatialSrid = 'ST_SRID'; } // If MYSQL version >= 8.0.1 override default axis order if ($this->userSpecifiedSettings['mysqlVersion'] >= 80001 && ! $isMariaDb) { $axisOrder = ', \'axis-order=long-lat\''; } // If label column is chosen add it to the query if (! empty($this->userSpecifiedSettings['labelColumn'])) { $modified_query .= Util::backquote($this->userSpecifiedSettings['labelColumn']) . ', '; } // Wrap the spatial column with 'ST_ASTEXT()' function and add it $modified_query .= $spatialAsText . '(' . Util::backquote($this->userSpecifiedSettings['spatialColumn']) . $axisOrder . ') AS ' . Util::backquote($this->userSpecifiedSettings['spatialColumn']) . ', '; // Get the SRID $modified_query .= $spatialSrid . '(' . Util::backquote($this->userSpecifiedSettings['spatialColumn']) . ') AS ' . Util::backquote('srid') . ' '; // Append the original query as the inner query $modified_query .= 'FROM (' . rtrim($sql_query, ';') . ') AS ' . Util::backquote('temp_gis'); // LIMIT clause if (is_numeric($rows) && $rows > 0) { $modified_query .= ' LIMIT '; if (is_numeric($pos) && $pos >= 0) { $modified_query .= $pos . ', ' . $rows; } else { $modified_query .= $rows; } } return $modified_query; } /** * Returns raw data for GIS visualization. * * @return array the raw data. */ private function fetchRawData(): array { global $dbi; $modified_result = $dbi->tryQuery($this->modifiedSql); if ($modified_result === false) { return []; } return $modified_result->fetchAllAssoc(); } /** * A function which handles passed parameters. Useful if desired * chart needs to be a little bit different from the default one. */ private function handleOptions(): void { if ($this->userSpecifiedSettings === null) { return; } $this->settings = array_merge($this->settings, $this->userSpecifiedSettings); } /** * Sanitizes the file name. * * @param string $file_name file name * @param string $ext extension of the file * * @return string the sanitized file name */ private function sanitizeName($file_name, $ext) { $file_name = Sanitize::sanitizeFilename($file_name); // Check if the user already added extension; // get the substring where the extension would be if it was included $required_extension = '.' . $ext; $extension_length = mb_strlen($required_extension); $user_extension = mb_substr($file_name, -$extension_length); if (mb_strtolower($user_extension) != $required_extension) { $file_name .= $required_extension; } return $file_name; } /** * Handles common tasks of writing the visualization to file for various formats. * * @param string $file_name file name * @param string $type mime type * @param string $ext extension of the file */ private function writeToFile($file_name, $type, $ext): void { $file_name = $this->sanitizeName($file_name, $ext); Core::downloadHeader($file_name, $type); } /** * Generate the visualization in SVG format. * * @return string the generated image resource */ private function svg() { $this->init(); $output = '' . "\n" . '' . ''; $scale_data = $this->scaleDataSet($this->data); $output .= $this->prepareDataSet($this->data, $scale_data, 'svg', ''); $output .= ''; return $output; } /** * Get the visualization as a SVG. * * @return string the visualization as a SVG */ public function asSVG() { return $this->svg(); } /** * Saves as a SVG image to a file. * * @param string $file_name File name */ public function toFileAsSvg($file_name): void { $img = $this->svg(); $this->writeToFile($file_name, 'image/svg+xml', 'svg'); echo $img; } /** * Generate the visualization in PNG format. * * @return ImageWrapper|null the generated image resource */ private function png(): ?ImageWrapper { $this->init(); $image = ImageWrapper::create( $this->settings['width'], $this->settings['height'], ['red' => 229, 'green' => 229, 'blue' => 229] ); if ($image === null) { return null; } $scale_data = $this->scaleDataSet($this->data); /** @var ImageWrapper $image */ $image = $this->prepareDataSet($this->data, $scale_data, 'png', $image); return $image; } /** * Get the visualization as a PNG. * * @return string the visualization as a PNG */ public function asPng() { $image = $this->png(); if ($image === null) { return ''; } // render and save it to variable ob_start(); $image->png(null, 9, PNG_ALL_FILTERS); $image->destroy(); $output = ob_get_clean(); // base64 encode $encoded = base64_encode((string) $output); return ''; } /** * Saves as a PNG image to a file. * * @param string $file_name File name */ public function toFileAsPng($file_name): void { $image = $this->png(); if ($image === null) { return; } $this->writeToFile($file_name, 'image/png', 'png'); $image->png(null, 9, PNG_ALL_FILTERS); $image->destroy(); } /** * Get the code for visualization with OpenLayers. * * @return string the code for visualization with OpenLayers * * @todo Should return JSON to avoid eval() in gis_data_editor.js */ public function asOl() { $this->init(); $scale_data = $this->scaleDataSet($this->data); $output = 'function drawOpenLayers() {' . 'if (typeof ol !== "undefined") {' . 'var olCss = "js/vendor/openlayers/theme/ol.css";' . '$(\'head\').append(\'\');' . 'var vectorLayer = new ol.source.Vector({});' . 'var map = new ol.Map({' . 'target: \'openlayersmap\',' . 'layers: [' . 'new ol.layer.Tile({' . 'source: new ol.source.OSM()' . '}),' . 'new ol.layer.Vector({' . 'source: vectorLayer' . '})' . '],' . 'view: new ol.View({' . 'center: ol.proj.fromLonLat([37.41, 8.82]),' . 'zoom: 4' . '}),' . 'controls: [new ol.control.MousePosition({' . 'coordinateFormat: ol.coordinate.createStringXY(4),' . 'projection: \'EPSG:4326\'}),' . 'new ol.control.Zoom,' . 'new ol.control.Attribution]' . '});'; $output .= $this->prepareDataSet($this->data, $scale_data, 'ol', '') . 'return map;' . '}' . 'return undefined;' . '}'; return $output; } /** * Saves as a PDF to a file. * * @param string $file_name File name */ public function toFileAsPdf($file_name): void { $this->init(); // create pdf $pdf = new TCPDF('', 'pt', $GLOBALS['cfg']['PDFDefaultPageSize'], true, 'UTF-8', false); // disable header and footer $pdf->setPrintHeader(false); $pdf->setPrintFooter(false); //set auto page breaks $pdf->setAutoPageBreak(false); // add a page $pdf->AddPage(); $scale_data = $this->scaleDataSet($this->data); $pdf = $this->prepareDataSet($this->data, $scale_data, 'pdf', $pdf); // sanitize file name $file_name = $this->sanitizeName($file_name, 'pdf'); $pdf->Output($file_name, 'D'); } /** * Convert file to image * * @param string $format Output format * * @return string File */ public function toImage($format) { if ($format === 'svg') { return $this->asSVG(); } if ($format === 'png') { return $this->asPng(); } if ($format === 'ol') { return $this->asOl(); } return ''; } /** * Convert file to given format * * @param string $filename Filename * @param string $format Output format */ public function toFile($filename, $format): void { if ($format === 'svg') { $this->toFileAsSvg($filename); } elseif ($format === 'png') { $this->toFileAsPng($filename); } elseif ($format === 'pdf') { $this->toFileAsPdf($filename); } } /** * Calculates the scale, horizontal and vertical offset that should be used. * * @param array $data Row data * * @return array an array containing the scale, x and y offsets */ private function scaleDataSet(array $data) { $min_max = [ 'maxX' => 0.0, 'maxY' => 0.0, 'minX' => 0.0, 'minY' => 0.0, ]; $border = 15; // effective width and height of the plot $plot_width = $this->settings['width'] - 2 * $border; $plot_height = $this->settings['height'] - 2 * $border; foreach ($data as $row) { // Figure out the data type $ref_data = $row[$this->settings['spatialColumn']]; if (! is_string($ref_data)) { continue; } $type_pos = mb_strpos($ref_data, '('); if ($type_pos === false) { continue; } $type = mb_substr($ref_data, 0, $type_pos); $gis_obj = GisFactory::factory($type); if (! $gis_obj) { continue; } $scale_data = $gis_obj->scaleRow($row[$this->settings['spatialColumn']]); // Update minimum/maximum values for x and y coordinates. $c_maxX = (float) $scale_data['maxX']; if ($min_max['maxX'] === 0.0 || $c_maxX > $min_max['maxX']) { $min_max['maxX'] = $c_maxX; } $c_minX = (float) $scale_data['minX']; if ($min_max['minX'] === 0.0 || $c_minX < $min_max['minX']) { $min_max['minX'] = $c_minX; } $c_maxY = (float) $scale_data['maxY']; if ($min_max['maxY'] === 0.0 || $c_maxY > $min_max['maxY']) { $min_max['maxY'] = $c_maxY; } $c_minY = (float) $scale_data['minY']; if ($min_max['minY'] !== 0.0 && $c_minY >= $min_max['minY']) { continue; } $min_max['minY'] = $c_minY; } // scale the visualization $x_ratio = ($min_max['maxX'] - $min_max['minX']) / $plot_width; $y_ratio = ($min_max['maxY'] - $min_max['minY']) / $plot_height; $ratio = $x_ratio > $y_ratio ? $x_ratio : $y_ratio; $scale = $ratio != 0 ? 1 / $ratio : 1; // Center plot $x = $ratio == 0 || $x_ratio < $y_ratio ? ($min_max['maxX'] + $min_max['minX'] - $this->settings['width'] / $scale) / 2 : $min_max['minX'] - ($border / $scale); $y = $ratio == 0 || $x_ratio >= $y_ratio ? ($min_max['maxY'] + $min_max['minY'] - $this->settings['height'] / $scale) / 2 : $min_max['minY'] - ($border / $scale); return [ 'scale' => $scale, 'x' => $x, 'y' => $y, 'minX' => $min_max['minX'], 'maxX' => $min_max['maxX'], 'minY' => $min_max['minY'], 'maxY' => $min_max['maxY'], 'height' => $this->settings['height'], ]; } /** * Prepares and return the dataset as needed by the visualization. * * @param array $data Raw data * @param array $scale_data Data related to scaling * @param string $format Format of the visualization * @param ImageWrapper|TCPDF|string|false $results Image object in the case of png * TCPDF object in the case of pdf * * @return mixed the formatted array of data */ private function prepareDataSet(array $data, array $scale_data, $format, $results) { $color_number = 0; // loop through the rows foreach ($data as $row) { $index = $color_number % count($this->settings['colors']); // Figure out the data type $ref_data = $row[$this->settings['spatialColumn']]; if (! is_string($ref_data)) { continue; } $type_pos = mb_strpos($ref_data, '('); if ($type_pos === false) { continue; } $type = mb_substr($ref_data, 0, $type_pos); $gis_obj = GisFactory::factory($type); if (! $gis_obj) { continue; } $label = ''; if (isset($this->settings['labelColumn'], $row[$this->settings['labelColumn']])) { $label = $row[$this->settings['labelColumn']]; } if ($format === 'svg') { $results .= $gis_obj->prepareRowAsSvg( $row[$this->settings['spatialColumn']], $label, $this->settings['colors'][$index], $scale_data ); } elseif ($format === 'png') { $results = $gis_obj->prepareRowAsPng( $row[$this->settings['spatialColumn']], $label, $this->settings['colors'][$index], $scale_data, $results ); } elseif ($format === 'pdf' && $results instanceof TCPDF) { $results = $gis_obj->prepareRowAsPdf( $row[$this->settings['spatialColumn']], $label, $this->settings['colors'][$index], $scale_data, $results ); } elseif ($format === 'ol') { $results .= $gis_obj->prepareRowAsOl( $row[$this->settings['spatialColumn']], (int) $row['srid'], $label, $this->settings['colors_hex'][$index], $scale_data ); } $color_number++; } return $results; } /** * Set user specified settings * * @param array $userSpecifiedSettings User specified settings */ public function setUserSpecifiedSettings(array $userSpecifiedSettings): void { $this->userSpecifiedSettings = $userSpecifiedSettings; } }