/* In this example, we will build a list of cities that interacts with a map. */ 'use strict'; /* We load the `UI` and `Geo` modules. The latter provides a number of methods to retrieve geographic and political information about countries. */ Ox.load({UI: {showScreen: true}, Geo: {}}, function() { /* We load the list of cities. */ Ox.getJSON('json/cities.json', function(cities) { /* The data originally comes from geonames.org. It's an array of 10,000 city objects, each of which has the following properties:
{ "country_code": "CN", "elevation": 0, "feature_code": "PPLA", "latitude": 31.22222, "longitude": 121.45806, "name": "Shanghai", "population": 14608512 }*/ cities = cities.map(function(data, id) { /* First of all, we have to patch this data, so that it becomes more useful both for the list and the map. Ox.getCountryByCode gives us the names of the country, region and continent. For the map, we need a geoname, and the cities have to be rectangular areas, not just points. So we set the area to 100 square meters per inhabitant, which will turn out to be relatively realistic. Then we calculate how large the resulting square will be, in degrees. (The number of degrees from west to east depends on the city's proximity to the equator. OxJS has some utility functions built in that make this easy to compute.) Finally, we can set the values for south, north, west and east. A nice side effect of deriving the size of the city from its population is that the map, which will always show the largest places in the visible area, will now show the most populated cities. */ var area = Math.max(data.population, 1) * 100, country = Ox.getCountryByCode(data.country_code), latSize = Math.sqrt(area) / Ox.EARTH_CIRCUMFERENCE * 360, lngSize = Math.sqrt(area) * Ox.getDegreesPerMeter(data.latitude); /* Our city object will look like this:
{ "area": 1460851200, "capital": false, "country": "China", "east": 121.65880869475835, "elevation": 0, "geoname": "Shanghai, China", "id": "0", "lat": 31.22222, "lng": 121.45806, "name": "Shanghai", "north": 31.393892916013158, "population": 14608512, "region": "Asia, Eastern Asia, China", "south": 31.050547083986842, "west": 121.25731130524166 }Obviously, in a real-world scenario, you would make sure that the data already comes in this form. */ return { area: area, capital: data.feature_code == 'PPLC', country: country.name, east: data.longitude + lngSize / 2, elevation: data.elevation, geoname: [data.name, country.name].join(', '), id: id.toString(), lat: data.latitude, lng: data.longitude, name: data.name, north: data.latitude + latSize / 2, population: data.population, region: [country.continent, country.region, country.name].join(', '), south: data.latitude - latSize / 2, west: data.longitude - lngSize / 2 }; }); /* The preview button opens or closes the preview dialog (which we will create later). It does so by calling the `openPreview` or `closePreview` method of the list (which we will also create in a moment). */ var $preview = Ox.Button({ disabled: true, selectable: true, title: 'view', type: 'image' }) .bindEvent({ change: function(data) { $list[(data.value ? 'open' : 'close') + 'Preview'](); } }), /* As we want the list to be searchable, we add an input element. */ $find = Ox.Input({ clear: true, placeholder: 'Find', width: 192 }) .bindEvent({ submit: function(data) { $list.options({ /* This query will find matches in either `name`, `region` or `continent`. */ query: { conditions: data.value ? [ { key: 'name', operator: '=', value: data.value }, { key: 'region', operator: '=', value: data.value }, { key: 'continent', operator: '=', value: data.value } ] : [], operator: '|' } }); } }), /* The toolbar holds the preview button and the find element. */ $toolbar = Ox.Bar({size: 24}) .attr({id: 'toolbar'}) .append($preview) .append($find), /* This is our list. */ $list = Ox.TableList({ /* First of all, we define the columns. */ columns: [ { /* We use the `format` function to display the region as a colored icon with a tooltip. The region class is added to apply our own custom CSS, and Ox.getGeoColor returns a color for the region. Note that the actual value is 'Continent, Region, Country', which results in a nicer sort order than just 'Region'. */ format: function(value) { var region = value.split(', ')[1]; return Ox.Element({ tooltip: region }) .addClass('region') .css({ background: 'rgb(' + Ox.getGeoColor(region).join(', ') + ')' }); }, id: 'region', /* The operator indicates that we want the default sort order for this column to be ascending. */ operator: '+', /* We want the column title to be a symbol, so we pass the 'icon' symbol as the `titleImage`. We can pick anything from the collection of symbols that comes with Ox.UI. The column still needs a textual title, to be displayed in the menu that allows to show or hide specific columns. */ title: 'Region', titleImage: 'icon', /**/ visible: true, width: 16 }, { /* Ox.getFlagByGeoname and Ox.getFlagByCountryCode return pretty flag icons. */ format: function(value) { return Ox.Element({ element: '', tooltip: value }) .addClass('flag') .attr({ src: Ox.getFlagByGeoname(value) }) }, id: 'country', operator: '+', title: 'Country', titleImage: 'flag', visible: true, width: 16 }, { /* If `capital` is `true`, we display a star. */ format: function(value) { return value ? Ox.Element({ element: '', tooltip: 'Capital' }) .addClass('capital') .attr({ src: Ox.UI.getImageURL('symbolStar') }) : ''; }, id: 'capital', operator: '-', title: 'Capital', titleImage: 'star', visible: true, width: 16 }, { /* The format function has a second argument that contains the values of all columns. This allows us to format a value dependent on other values. In this case, we want to display the name in bold if the value for capital is `true`. */ format: function(value, data) { return data.capital ? '' + value + '' : value; }, id: 'name', operator: '+', /* As it wouldn't make much sense to display the list without the name column, we make it non-removable. */ removable: false, title: 'Name', visible: true, width: 128 }, { /* Since the following values are numbers, they should be right-aligned. Also, we use some of the built-in format functions. */ align: 'right', format: function(value) { return Ox.formatNumber(value); }, id: 'population', operator: '-', title: 'Population', visible: true, width: 80 }, { align: 'right', format: function(value) { return Ox.formatDegrees(value, 'lat'); }, id: 'lat', operator: '-', title: 'Latitude', visible: true, width: 80 }, { align: 'right', format: function(value) { return Ox.formatDegrees(value, 'lng'); }, id: 'lng', operator: '+', title: 'Longitude', visible: true, width: 80 }, /* The elevation data is not very accurate, so we omit the `visible` attribute, which defaults to `false`. Still, the user can make the column visible. */ { align: 'right', format: function(value) { return Ox.formatNumber(value) + ' m'; }, id: 'elevation', operator: '-', title: 'Elevation', width: 80 } ], /* This allows the user to move the columns around. */ columnsMovable: true, /* This adds a menu that can be used to show or hide specific columns. */ columnsRemovable: true, /* This makes sure the column titles get displayed. */ columnsVisible: true, /* We pass our array of cities as `items`. */ items: cities, /* We don't want to allow simulaneous selection of multiple items, so we set `max` to `1`. */ max: 1, scrollbarVisible: true, /* We have to specify the default sort order (by population, descending, and, if equal, by name, ascending). */ sort: ['-population', '+name'], /* When the list retrieves items, it fires an `init` event. By default, this event has an `items` property, which is the number of items. Via `sums`, we can add more properties. In this case, the `init` event will have a `population` property that is the sum of the population of all items. */ sums: ['population'], /* The 'id' property is the unique key of our table. In consequence, whenever the list fires a `select` event, it will reference this value as the item's unique id. */ unique: 'id' }) .bindEvent({ /* The `closepreview` event fires when the user presses `space` while preview is active. See `openpreview`, below. */ closepreview: function() { $preview.options({value: false}); $dialog.close(); }, /* On `init`, we display the number of cities and the total population. */ init: function(data) { $status.html( (data.items ? Ox.formatNumber(data.items) : 'No') + ' Cit' + (data.items == 1 ? 'y' : 'ies') + ', Populaion: ' + ( data.population ? Ox.formatNumber(data.population) : 'None' ) ); }, /* The `open` event fires when the user doubleclicks an item, or presses `enter` while an item is selected. In this case, we want the map to zoom to the selected place. */ open: function(data) { $map.zoomToPlace(); }, /* The `openpreview` event fires when an item is selected and the user presses `space`. It can be used to implement functionality similar to the "QuickView" feature in the Mac OS X Finder. In this case, we open a dialog that shows a flag and a map. */ openpreview: function(data) { var item = Ox.getObjectById(cities, data.ids[0]); $flagImage = $('').attr({ src: Ox.getFlagByGeoname(item.country, 256) }); $mapImage = Ox.MapImage({ height: 256, markers: [item], place: Ox.getCountryByGeoname(item.country), width: 256 }); setImageSizes(); $preview.options({value: true}); $dialog.options({ content: $content = Ox.Element() .attr({id: 'content'}) .append($flagImage) .append($mapImage), title: [item.name, item.country].join(', ') }).open(); }, /* The `select` event passes an array of selected ids — either one, as defined above, or none. We enable or disable the preview button accordingly. Then we set the `selected` option of the map to the selected id (or to `undefined`, which will cause a deselect), and pan to that place (which will do nothing if no place is selected). */ select: function(data) { $preview.options({disabled: data.ids.length == 0}); $map.options({selected: data.ids[0]}).panToPlace(); } }), $flagImage, $mapImage, $content = Ox.Element(), /* This is the preview dialog. By setting `focus` to `false`, we make it non-modal, i.e. the user can still interact with the rest of the application while the dialog is open. */ $dialog = Ox.Dialog({ closeButton: true, content: $content, fixedRatio: true, focus: false, height: 288, maximizeButton: true, maxHeight: 432, maxWidth: 864, minHeight: 144, minWidth: 384, width: 576 }) .bindEvent({ close: function() { $list.closePreview(); }, resize: function(data) { $content.css({height: data.height - 16 + 'px'}) setImageSizes(); } }), /* The status bar displays the list's totals. */ $status = $('