openlayers
Version:
Build tools and sources for developing OpenLayers based mapping applications
158 lines (147 loc) • 4.23 kB
JavaScript
goog.require('ol.Map');
goog.require('ol.View');
goog.require('ol.extent');
goog.require('ol.format.KML');
goog.require('ol.interaction');
goog.require('ol.interaction.Select');
goog.require('ol.layer.Tile');
goog.require('ol.layer.Vector');
goog.require('ol.source.Cluster');
goog.require('ol.source.Stamen');
goog.require('ol.source.Vector');
goog.require('ol.style.Circle');
goog.require('ol.style.Fill');
goog.require('ol.style.RegularShape');
goog.require('ol.style.Stroke');
goog.require('ol.style.Style');
goog.require('ol.style.Text');
var earthquakeFill = new ol.style.Fill({
color: 'rgba(255, 153, 0, 0.8)'
});
var earthquakeStroke = new ol.style.Stroke({
color: 'rgba(255, 204, 0, 0.2)',
width: 1
});
var textFill = new ol.style.Fill({
color: '#fff'
});
var textStroke = new ol.style.Stroke({
color: 'rgba(0, 0, 0, 0.6)',
width: 3
});
var invisibleFill = new ol.style.Fill({
color: 'rgba(255, 255, 255, 0.01)'
});
function createEarthquakeStyle(feature) {
// 2012_Earthquakes_Mag5.kml stores the magnitude of each earthquake in a
// standards-violating <magnitude> tag in each Placemark. We extract it
// from the Placemark's name instead.
var name = feature.get('name');
var magnitude = parseFloat(name.substr(2));
var radius = 5 + 20 * (magnitude - 5);
return new ol.style.Style({
geometry: feature.getGeometry(),
image: new ol.style.RegularShape({
radius1: radius,
radius2: 3,
points: 5,
angle: Math.PI,
fill: earthquakeFill,
stroke: earthquakeStroke
})
});
}
var maxFeatureCount, vector;
function calculateClusterInfo(resolution) {
maxFeatureCount = 0;
var features = vector.getSource().getFeatures();
var feature, radius;
for (var i = features.length - 1; i >= 0; --i) {
feature = features[i];
var originalFeatures = feature.get('features');
var extent = ol.extent.createEmpty();
var j, jj;
for (j = 0, jj = originalFeatures.length; j < jj; ++j) {
ol.extent.extend(extent, originalFeatures[j].getGeometry().getExtent());
}
maxFeatureCount = Math.max(maxFeatureCount, jj);
radius = 0.25 * (ol.extent.getWidth(extent) + ol.extent.getHeight(extent)) /
resolution;
feature.set('radius', radius);
}
}
var currentResolution;
function styleFunction(feature, resolution) {
if (resolution != currentResolution) {
calculateClusterInfo(resolution);
currentResolution = resolution;
}
var style;
var size = feature.get('features').length;
if (size > 1) {
style = new ol.style.Style({
image: new ol.style.Circle({
radius: feature.get('radius'),
fill: new ol.style.Fill({
color: [255, 153, 0, Math.min(0.8, 0.4 + (size / maxFeatureCount))]
})
}),
text: new ol.style.Text({
text: size.toString(),
fill: textFill,
stroke: textStroke
})
});
} else {
var originalFeature = feature.get('features')[0];
style = createEarthquakeStyle(originalFeature);
}
return style;
}
function selectStyleFunction(feature) {
var styles = [new ol.style.Style({
image: new ol.style.Circle({
radius: feature.get('radius'),
fill: invisibleFill
})
})];
var originalFeatures = feature.get('features');
var originalFeature;
for (var i = originalFeatures.length - 1; i >= 0; --i) {
originalFeature = originalFeatures[i];
styles.push(createEarthquakeStyle(originalFeature));
}
return styles;
}
vector = new ol.layer.Vector({
source: new ol.source.Cluster({
distance: 40,
source: new ol.source.Vector({
url: 'data/kml/2012_Earthquakes_Mag5.kml',
format: new ol.format.KML({
extractStyles: false
})
})
}),
style: styleFunction
});
var raster = new ol.layer.Tile({
source: new ol.source.Stamen({
layer: 'toner'
})
});
var map = new ol.Map({
layers: [raster, vector],
interactions: ol.interaction.defaults().extend([new ol.interaction.Select({
condition: function(evt) {
return evt.originalEvent.type == 'mousemove' ||
evt.type == 'singleclick';
},
style: selectStyleFunction
})]),
target: 'map',
view: new ol.View({
center: [0, 0],
zoom: 2
})
});