X-Git-Url: https://git.openstreetmap.org./rails.git/blobdiff_plain/8dfad83a635a5c1cc48c234a8d8683cf978a8bd2..9995d316b23eaf3145da524de0b30313769a73ac:/app/assets/javascripts/index/query.js diff --git a/app/assets/javascripts/index/query.js b/app/assets/javascripts/index/query.js index 0edc265dc..29916272e 100644 --- a/app/assets/javascripts/index/query.js +++ b/app/assets/javascripts/index/query.js @@ -4,7 +4,7 @@ OSM.Query = function(map) { var protocol = document.location.protocol === "https:" ? "https:" : "http:", url = protocol + OSM.OVERPASS_URL, queryButton = $(".control-query .control-button"), - uninterestingTags = ['source', 'source_ref', 'source:ref', 'history', 'attribution', 'created_by', 'tiger:county', 'tiger:tlid', 'tiger:upload_uuid'], + uninterestingTags = ['source', 'source_ref', 'source:ref', 'history', 'attribution', 'created_by', 'tiger:county', 'tiger:tlid', 'tiger:upload_uuid', 'KSJ2:curve_id', 'KSJ2:lat', 'KSJ2:lon', 'KSJ2:coordinate', 'KSJ2:filename', 'note:ja'], marker; var featureStyle = { @@ -19,13 +19,9 @@ OSM.Query = function(map) { e.preventDefault(); e.stopPropagation(); - if (queryButton.hasClass("disabled")) return; - if (queryButton.hasClass("active")) { - if ($("#content").hasClass("overlay-sidebar")) { - disableQueryMode(); - } - } else { + disableQueryMode(); + } else if (!queryButton.hasClass("disabled")) { enableQueryMode(); } }).on("disabled", function (e) { @@ -53,22 +49,24 @@ OSM.Query = function(map) { if (geometry) map.removeLayer(geometry); $(this).removeClass("selected"); }) - .on("click", ".query-results li.query-result", function (e) { - var geometry = $(this).data("geometry") - if (geometry) map.removeLayer(geometry); - - if (!$(e.target).is('a')) { - $(this).find("a").simulate("click", e); - } + .on("mousedown", ".query-results li.query-result", function (e) { + var moved = false; + $(this).one("click", function (e) { + if (!moved) { + var geometry = $(this).data("geometry") + if (geometry) map.removeLayer(geometry); + + if (!$(e.target).is('a')) { + $(this).find("a").simulate("click", e); + } + } + }).one("mousemove", function () { + moved = true; + }); }); function interestingFeature(feature, origin, radius) { if (feature.tags) { - if (feature.type === "node" && - OSM.distance(origin, L.latLng(feature.lat, feature.lon)) > radius) { - return false; - } - for (var key in feature.tags) { if (uninterestingTags.indexOf(key) < 0) { return true; @@ -83,8 +81,11 @@ OSM.Query = function(map) { var tags = feature.tags; var prefix = ""; - if (tags.boundary === "administrative") { - prefix = I18n.t("geocoder.search_osm_nominatim.admin_levels.level" + tags.admin_level) + if (tags.boundary === "administrative" && tags.admin_level) { + prefix = + I18n.t("geocoder.search_osm_nominatim.admin_levels.level" + tags.admin_level, { + defaultValue: I18n.t("geocoder.search_osm_nominatim.prefix.boundary.administrative") + }) } else { var prefixes = I18n.t("geocoder.search_osm_nominatim.prefix"); @@ -94,14 +95,20 @@ OSM.Query = function(map) { if (prefixes[key]) { if (prefixes[key][value]) { return prefixes[key][value]; - } else { - var first = value.substr(0, 1).toUpperCase(), - rest = value.substr(1).replace(/_/g, " "); - - return first + rest; } } } + + for (var key in tags) { + var value = tags[key]; + + if (prefixes[key]) { + var first = value.substr(0, 1).toUpperCase(), + rest = value.substr(1).replace(/_/g, " "); + + return first + rest; + } + } } if (!prefix) { @@ -112,7 +119,14 @@ OSM.Query = function(map) { } function featureName(feature) { - var tags = feature.tags; + var tags = feature.tags, + locales = I18n.locales.get(); + + for (var i = 0; i < locales.length; i++) { + if (tags["name:" + locales[i]]) { + return tags["name:" + locales[i]]; + } + } if (tags["name"]) { return tags["name"]; @@ -127,33 +141,27 @@ OSM.Query = function(map) { } } - function featureGeometry(feature, features) { + function featureGeometry(feature) { var geometry; - if (feature.type === "node") { + if (feature.type === "node" && feature.lat && feature.lon) { geometry = L.circleMarker([feature.lat, feature.lon], featureStyle); - } else if (feature.type === "way") { - geometry = L.polyline(feature.nodes.map(function (node) { - return features["node" + node].getLatLng(); + } else if (feature.type === "way" && feature.geometry) { + geometry = L.polyline(feature.geometry.filter(function (point) { + return point !== null; + }).map(function (point) { + return [point.lat, point.lon]; }), featureStyle); - } else if (feature.type === "relation") { - geometry = L.featureGroup(); - - feature.members.forEach(function (member) { - if (features[member.type + member.ref]) { - geometry.addLayer(features[member.type + member.ref]); - } - }); - } - - if (geometry) { - features[feature.type + feature.id] = geometry; + } else if (feature.type === "relation" && feature.members) { + geometry = L.featureGroup(feature.members.map(featureGeometry).filter(function (geometry) { + return geometry !== undefined; + })); } return geometry; } - function runQuery(latlng, radius, query, $section) { + function runQuery(latlng, radius, query, $section, compare) { var $ul = $section.find("ul"); $ul.empty(); @@ -174,18 +182,23 @@ OSM.Query = function(map) { data: "[timeout:5][out:json];" + query, }, success: function(results) { - var features = {}; + var elements; $section.find(".loader").stopTime("loading").hide(); - for (var i = 0; i < results.elements.length; i++) { - var element = results.elements[i], - geometry = featureGeometry(element, features); + if (compare) { + elements = results.elements.sort(compare); + } else { + elements = results.elements; + } + + for (var i = 0; i < elements.length; i++) { + var element = elements[i]; if (interestingFeature(element, latlng, radius)) { var $li = $("
")
.text(featurePrefix(element) + " ")
@@ -214,13 +227,23 @@ OSM.Query = function(map) {
}));
}
+ function compareSize(feature1, feature2) {
+ var width1 = feature1.bounds.maxlon - feature1.bounds.minlon,
+ height1 = feature1.bounds.maxlat - feature1.bounds.minlat,
+ area1 = width1 * height1,
+ width2 = feature2.bounds.maxlat - feature2.bounds.minlat,
+ height2 = feature2.bounds.maxlat - feature2.bounds.minlat,
+ area2 = width2 * height2;
+
+ return area1 - area2;
+ }
+
/*
* To find nearby objects we ask overpass for the union of the
* following sets:
*
* node(around: