t("Google Geocoder"), 'description' => t('Geocodes via google geocoder'), 'callback' => 'geocoder_google', 'field_types' => array('text', 'text_long', 'addressfield', 'text_with_summary', 'computed', 'taxonomy_term_reference'), 'field_callback' => 'geocoder_google_field', 'settings_callback' => 'geocoder_google_form', 'terms_of_service' => 'http://code.google.com/apis/maps/documentation/geocoding/#Limits', ); /** * Process Markup */ function geocoder_google($address, $options = array()) { geophp_load(); $query = array( 'address' => $address, 'sensor' => 'false' ); $url = url("http://maps.googleapis.com/maps/api/geocode/json", array('query' => $query)); $result = drupal_http_request($url); if (isset($result->error)) { drupal_set_message(t('Error geocoding') . ' - ' . $result->code . ' ' . $result->error, 'error'); return FALSE; } $data = json_decode($result->data); if ($data->status == 'OK') { $geometries = array(); foreach ($data->results as $item) { // Check if we should reject these results if (isset($options['reject_results'])) { if (in_array($item->geometry->location_type, $options['reject_results'], TRUE)) { continue; } } // Construct a geoPHP Geometry depending on what type of geometry we want returned (defaults to point) if (!isset($options['geometry_type']) || $options['geometry_type'] == 'point') { $geom = new Point($item->geometry->location->lng, $item->geometry->location->lat); } elseif ($options['geometry_type'] == 'bounds') { $points = array( new Point($item->geometry->bounds->southwest->lng, $item->geometry->bounds->southwest->lat), new Point($item->geometry->bounds->southwest->lng, $item->geometry->bounds->northeast->lat), new Point($item->geometry->bounds->northeast->lng, $item->geometry->bounds->northeast->lat), new Point($item->geometry->bounds->northeast->lng, $item->geometry->bounds->southwest->lat), new Point($item->geometry->bounds->southwest->lng, $item->geometry->bounds->southwest->lat), ); $geom = new Polygon(array(new LineString($points))); } elseif ($options['geometry_type'] == 'viewport') { $points = array( new Point($item->geometry->viewport->southwest->lng, $item->geometry->viewport->southwest->lat), new Point($item->geometry->viewport->southwest->lng, $item->geometry->viewport->northeast->lat), new Point($item->geometry->viewport->northeast->lng, $item->geometry->viewport->northeast->lat), new Point($item->geometry->viewport->northeast->lng, $item->geometry->viewport->southwest->lat), new Point($item->geometry->viewport->southwest->lng, $item->geometry->viewport->southwest->lat), ); $geom = new Polygon(array(new LineString($points))); } // Add additional metadata to the geometry - it might be useful! $geom->data = array(); $geom->data['geocoder_accuracy'] = $item->geometry->location_type; $geom->data['geocoder_formatted_address'] = $item->formatted_address; $geom->data['geocoder_address_components'] = $item->address_components; $geometries[] = $geom; } if (empty($geometries)) return; // Check if we should return all results as a compound geometry if (isset($options['all_results'])) { if ($options['all_results']) { return geoPHP::geometryReduce($geometries); } } // The connonical geometry is the first result (best guesse) $geometry = array_shift($geometries); // If there are any other geometries, these are auxiliary geometries that represent "alternatives" if (count($geometries)) $geometry->data['geocoder_alternatives'] = $geometries; return $geometry; } else { drupal_set_message(t('Error geocoding') . ' - ' . $data->status, 'error'); return FALSE; } } function geocoder_google_field($field, $field_item, $options = array()) { if ($field['type'] == 'text' || $field['type'] == 'text_long' || $field['type'] == 'text_with_summary' || $field['type'] == 'computed') { return geocoder_google($field_item['value'], $options); } if ($field['type'] == 'addressfield') { $address = geocoder_widget_parse_addressfield($field_item); return geocoder_google($address, $options); } if ($field['type'] == 'taxonomy_term_reference') { $term = taxonomy_term_load($field_item['tid']); return geocoder_google($term->name); } } function geocoder_google_form($default_values = array()) { $form = array(); $form['geometry_type'] = array( '#type' => 'select', '#title' => 'Geometry Type', '#options' => array( 'point' => 'Point (default)', 'bounds' => 'Bounding Box', 'viewport' => 'Viewport', ), '#default_value' => isset($default_values['geometry_type']) ? $default_values['geometry_type'] : 'point', ); $form['all_results'] = array( '#type' => 'checkbox', '#title' => 'Geocode all alternative results', '#default_value' => isset($default_values['all_values']) ? $default_values['all_values'] : FALSE, '#description' => 'Often an ambiguous address (such as "Springfield USA") can result in multiple hits. By default we only return the first (best guess) result. Check this to return all results as a Multi-Geometry (MultiPoint or MultiPolygon).', ); $form['reject_results'] = array( '#type' => 'checkboxes', '#title' => 'Reject Results', '#options' => array( 'APPROXIMATE' => 'APPROXIMATE: indicates that the returned result is approximate.', 'GEOMETRIC_CENTER' => 'GEOMETRIC_CENTER: indicates that the returned result is the geometric center of a result such as a polyline (for example, a street) or polygon (region).', 'RANGE_INTERPOLATED' => 'RANGE_INTERPOLATED: indicates that the returned result reflects an approximation (usually on a road) interpolated between two precise points (such as intersections). Interpolated results are generally returned when rooftop geocodes are unavailable for a street address.', 'ROOFTOP' => 'ROOFTOP: indicates that the returned result is a precise geocode for which we have location information accurate down to street address precision.', ), '#default_value' => isset($default_values['reject_results']) ? $default_values['reject_results'] : array(), '#description' => 'Reject results that do not meet a certain level of quality or precision. Check all types of results to reject.', ); return $form; }