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2 changed files with 2 additions and 346 deletions
346
index.bundle.js
346
index.bundle.js
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@ -508,345 +508,6 @@
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}
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}
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/**
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* Callback for geomEach
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*
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* @callback geomEachCallback
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* @param {Geometry} currentGeometry The current Geometry being processed.
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* @param {number} featureIndex The current index of the Feature being processed.
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* @param {Object} featureProperties The current Feature Properties being processed.
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* @param {Array<number>} featureBBox The current Feature BBox being processed.
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* @param {number|string} featureId The current Feature Id being processed.
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*/
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/**
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* Iterate over each geometry in any GeoJSON object, similar to Array.forEach()
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*
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* @name geomEach
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* @param {FeatureCollection|Feature|Geometry} geojson any GeoJSON object
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* @param {Function} callback a method that takes (currentGeometry, featureIndex, featureProperties, featureBBox, featureId)
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* @returns {void}
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* @example
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* var features = turf.featureCollection([
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* turf.point([26, 37], {foo: 'bar'}),
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* turf.point([36, 53], {hello: 'world'})
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* ]);
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*
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* turf.geomEach(features, function (currentGeometry, featureIndex, featureProperties, featureBBox, featureId) {
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* //=currentGeometry
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* //=featureIndex
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* //=featureProperties
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* //=featureBBox
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* //=featureId
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* });
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*/
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function geomEach(geojson, callback) {
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var i,
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j,
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g,
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geometry,
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stopG,
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geometryMaybeCollection,
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isGeometryCollection,
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featureProperties,
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featureBBox,
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featureId,
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featureIndex = 0,
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isFeatureCollection = geojson.type === "FeatureCollection",
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isFeature = geojson.type === "Feature",
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stop = isFeatureCollection ? geojson.features.length : 1;
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// This logic may look a little weird. The reason why it is that way
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// is because it's trying to be fast. GeoJSON supports multiple kinds
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// of objects at its root: FeatureCollection, Features, Geometries.
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// This function has the responsibility of handling all of them, and that
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// means that some of the `for` loops you see below actually just don't apply
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// to certain inputs. For instance, if you give this just a
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// Point geometry, then both loops are short-circuited and all we do
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// is gradually rename the input until it's called 'geometry'.
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//
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// This also aims to allocate as few resources as possible: just a
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// few numbers and booleans, rather than any temporary arrays as would
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// be required with the normalization approach.
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for (i = 0; i < stop; i++) {
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geometryMaybeCollection = isFeatureCollection
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? geojson.features[i].geometry
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: isFeature
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? geojson.geometry
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: geojson;
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featureProperties = isFeatureCollection
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? geojson.features[i].properties
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: isFeature
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? geojson.properties
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: {};
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featureBBox = isFeatureCollection
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? geojson.features[i].bbox
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: isFeature
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? geojson.bbox
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: undefined;
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featureId = isFeatureCollection
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? geojson.features[i].id
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: isFeature
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? geojson.id
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: undefined;
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isGeometryCollection = geometryMaybeCollection
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? geometryMaybeCollection.type === "GeometryCollection"
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: false;
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stopG = isGeometryCollection
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? geometryMaybeCollection.geometries.length
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: 1;
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for (g = 0; g < stopG; g++) {
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geometry = isGeometryCollection
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? geometryMaybeCollection.geometries[g]
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: geometryMaybeCollection;
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// Handle null Geometry
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if (geometry === null) {
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if (
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callback(
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null,
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featureIndex,
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featureProperties,
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featureBBox,
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featureId
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) === false
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)
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return false;
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continue;
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}
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switch (geometry.type) {
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case "Point":
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case "LineString":
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case "MultiPoint":
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case "Polygon":
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case "MultiLineString":
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case "MultiPolygon": {
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if (
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callback(
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geometry,
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featureIndex,
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featureProperties,
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featureBBox,
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featureId
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) === false
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)
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return false;
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break;
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}
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case "GeometryCollection": {
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for (j = 0; j < geometry.geometries.length; j++) {
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if (
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callback(
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geometry.geometries[j],
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featureIndex,
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featureProperties,
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featureBBox,
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featureId
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) === false
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)
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return false;
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}
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break;
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}
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default:
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throw new Error("Unknown Geometry Type");
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}
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}
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// Only increase `featureIndex` per each feature
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featureIndex++;
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}
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}
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/**
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* Callback for geomReduce
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*
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* The first time the callback function is called, the values provided as arguments depend
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* on whether the reduce method has an initialValue argument.
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*
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* If an initialValue is provided to the reduce method:
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* - The previousValue argument is initialValue.
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* - The currentValue argument is the value of the first element present in the array.
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*
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* If an initialValue is not provided:
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* - The previousValue argument is the value of the first element present in the array.
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* - The currentValue argument is the value of the second element present in the array.
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*
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* @callback geomReduceCallback
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* @param {*} previousValue The accumulated value previously returned in the last invocation
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* of the callback, or initialValue, if supplied.
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* @param {Geometry} currentGeometry The current Geometry being processed.
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* @param {number} featureIndex The current index of the Feature being processed.
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* @param {Object} featureProperties The current Feature Properties being processed.
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* @param {Array<number>} featureBBox The current Feature BBox being processed.
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* @param {number|string} featureId The current Feature Id being processed.
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*/
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/**
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* Reduce geometry in any GeoJSON object, similar to Array.reduce().
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*
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* @name geomReduce
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* @param {FeatureCollection|Feature|Geometry} geojson any GeoJSON object
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* @param {Function} callback a method that takes (previousValue, currentGeometry, featureIndex, featureProperties, featureBBox, featureId)
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* @param {*} [initialValue] Value to use as the first argument to the first call of the callback.
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* @returns {*} The value that results from the reduction.
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* @example
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* var features = turf.featureCollection([
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* turf.point([26, 37], {foo: 'bar'}),
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* turf.point([36, 53], {hello: 'world'})
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* ]);
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*
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* turf.geomReduce(features, function (previousValue, currentGeometry, featureIndex, featureProperties, featureBBox, featureId) {
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* //=previousValue
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* //=currentGeometry
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* //=featureIndex
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* //=featureProperties
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* //=featureBBox
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* //=featureId
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* return currentGeometry
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* });
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*/
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function geomReduce(geojson, callback, initialValue) {
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var previousValue = initialValue;
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geomEach(
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geojson,
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function (
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currentGeometry,
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featureIndex,
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featureProperties,
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featureBBox,
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featureId
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) {
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if (featureIndex === 0 && initialValue === undefined)
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previousValue = currentGeometry;
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else
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previousValue = callback(
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previousValue,
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currentGeometry,
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featureIndex,
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featureProperties,
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featureBBox,
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featureId
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);
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}
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);
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return previousValue;
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}
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// Note: change RADIUS => earthRadius
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var RADIUS = 6378137;
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/**
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* Takes one or more features and returns their area in square meters.
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*
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* @name area
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* @param {GeoJSON} geojson input GeoJSON feature(s)
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* @returns {number} area in square meters
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* @example
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* var polygon = turf.polygon([[[125, -15], [113, -22], [154, -27], [144, -15], [125, -15]]]);
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*
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* var area = turf.area(polygon);
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*
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* //addToMap
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* var addToMap = [polygon]
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* polygon.properties.area = area
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*/
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function area(geojson) {
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return geomReduce(geojson, function (value, geom) {
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return value + calculateArea(geom);
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}, 0);
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}
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/**
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* Calculate Area
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*
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* @private
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* @param {Geometry} geom GeoJSON Geometries
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* @returns {number} area
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*/
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function calculateArea(geom) {
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var total = 0;
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var i;
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switch (geom.type) {
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case "Polygon":
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return polygonArea(geom.coordinates);
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case "MultiPolygon":
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for (i = 0; i < geom.coordinates.length; i++) {
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total += polygonArea(geom.coordinates[i]);
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}
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return total;
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case "Point":
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case "MultiPoint":
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case "LineString":
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case "MultiLineString":
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return 0;
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}
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return 0;
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}
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function polygonArea(coords) {
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var total = 0;
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if (coords && coords.length > 0) {
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total += Math.abs(ringArea(coords[0]));
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for (var i = 1; i < coords.length; i++) {
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total -= Math.abs(ringArea(coords[i]));
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}
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}
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return total;
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}
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/**
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* @private
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* Calculate the approximate area of the polygon were it projected onto the earth.
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* Note that this area will be positive if ring is oriented clockwise, otherwise it will be negative.
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*
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* Reference:
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* Robert. G. Chamberlain and William H. Duquette, "Some Algorithms for Polygons on a Sphere",
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* JPL Publication 07-03, Jet Propulsion
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* Laboratory, Pasadena, CA, June 2007 https://trs.jpl.nasa.gov/handle/2014/40409
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*
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* @param {Array<Array<number>>} coords Ring Coordinates
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* @returns {number} The approximate signed geodesic area of the polygon in square meters.
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*/
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function ringArea(coords) {
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var p1;
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var p2;
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var p3;
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var lowerIndex;
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var middleIndex;
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var upperIndex;
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var i;
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var total = 0;
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var coordsLength = coords.length;
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if (coordsLength > 2) {
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for (i = 0; i < coordsLength; i++) {
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if (i === coordsLength - 2) {
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// i = N-2
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lowerIndex = coordsLength - 2;
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middleIndex = coordsLength - 1;
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upperIndex = 0;
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}
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else if (i === coordsLength - 1) {
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// i = N-1
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lowerIndex = coordsLength - 1;
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middleIndex = 0;
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upperIndex = 1;
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}
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else {
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// i = 0 to N-3
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lowerIndex = i;
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middleIndex = i + 1;
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upperIndex = i + 2;
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}
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p1 = coords[lowerIndex];
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p2 = coords[middleIndex];
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p3 = coords[upperIndex];
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total += (rad(p3[0]) - rad(p1[0])) * Math.sin(rad(p2[1]));
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}
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total = (total * RADIUS * RADIUS) / 2;
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}
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return total;
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}
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function rad(num) {
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return (num * Math.PI) / 180;
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}
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function loginfo(...str) {
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let info = str.shift();
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console.log(
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}
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</div>
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<div class="col-12 text-center glass">
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Area: ${(area(feature) / 1000000)
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.toFixed(2)
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.replace(
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/(\d)(?=(\d\d\d)+([^\d]|$))/g,
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"$1 "
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)} km²
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Area: ${feature.properties.area} km²
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</div>
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<div class="col-12 text-center mt-2">
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${
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