330 lines
11 KiB
HTML
330 lines
11 KiB
HTML
<!DOCTYPE html>
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<html lang="en">
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<head>
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<meta charset="UTF-8" />
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<title>Projections</title>
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<script src="../../../3rdparty/highlight/highlight.pack.js"></script>
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<link rel="stylesheet" href="../../../../fonts/material-icon-font/material-icons.css">
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<link rel='stylesheet' href='../../../3rdparty/highlight/styles/vs2015.css'>
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<link rel='stylesheet' href='../../../../css/doctest.css'>
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<script src="../../../../dist/iwmlib.3rdparty.js"></script>
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<script src="../../../../dist/iwmlib.js"></script>
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<script src="../../../../dist/iwmlib.pixi.js"></script>
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<style>
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section {
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display: flex;
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flex-direction: column;
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}
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.map-example {
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display: inline-block;
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width: 256px;
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margin: 5px;
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}
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.map-wrapper {
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position: relative;
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/* inline-block create additional space around child elements. */
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display: inline-flex;
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margin: 100px;
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}
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.long {
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position: absolute;
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top: 0;
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bottom: 0;
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width: 1px;
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background-color: yellowgreen;
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}
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.point {
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top: 50%;
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left: 50%;
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transform: translate(-50%, -50%);
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position: absolute;
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width: 5px;
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height: 5px;
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background-color: red;
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border-radius: 50%;
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}
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.small.point {
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width: 2px;
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height: 2px;
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}
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.medium.point {
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width: 4px;
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height: 4px;
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opacity: 0.5;
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}
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.line {
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position: absolute;
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width: 100%;
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left: 0;
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border: 0.5px solid red;
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}
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</style>
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</head>
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<body onload="Doctest.run()">
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<h1>Projections</h1>
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<p>
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Projections are used on the mapdata to translate coordinates to pixelpositions. There are various
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projections that can be used. All implemented ones are showcased here.
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</p>
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<section id="mercator">
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<h2>Mercator Projection</h2>
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<p>The most commonly used projection is the mercator projection.</p>
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<div class="center">
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<div id="mercatorMap" class="map-wrapper">
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<img src="../../assets/maps/osm/0/0/0.png" alt="" />
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</div>
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</div>
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<script>
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let boundaries = [
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{ x: -90, y: -180 },
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{ x: 90, y: 180 },
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{ x: 0, y: 0 },
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{ x: 90, y: -180 },
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// Eastern Boundaries
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{ x: -22, y: 180 },
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{ x: -43, y: 180 },
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{ x: -63, y: 180 },
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{ x: -73, y: 180 },
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{ x: -83, y: 180 },
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{ x: -87, y: 180 },
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{ x: 0, y: 180 },
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{ x: 22, y: 180 },
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{ x: 43, y: 180 },
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{ x: 63, y: 180 },
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{ x: 73, y: 180 },
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{ x: 83, y: 180 },
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{ x: 87, y: 180 },
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{ x: -90, y: 180 },
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// Western Boundaries
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{ x: -22, y: -180 },
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{ x: -43, y: -180 },
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{ x: -63, y: -180 },
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{ x: -73, y: -180 },
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{ x: -83, y: -180 },
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{ x: -87, y: -180 },
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{ x: 0, y: -180 },
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{ x: 22, y: -180 },
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{ x: 43, y: -180 },
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{ x: 63, y: -180 },
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{ x: 73, y: -180 },
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{ x: 83, y: -180 },
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{ x: 87, y: -180 },
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{ x: -90, y: -180 }
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]
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let capitals = {
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abidjan: { x: 5, y: -5 },
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canberra: { x: -35.312146, y: 149.121539 },
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berlin: { x: 52.52543, y: 13.385291 },
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capetown: { x: -33.925448, y: 18.416962 },
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moscow: { x: 55.750892, y: 37.622799 },
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washington: { x: 38.89565, y: -77.031407 },
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rio: { x: -22.8714, y: -43.28049 },
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tokio: { x: 35.696278, y: 139.731366 }
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}
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/**
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*
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*/
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function createPointAtPoisition(position, className = '', style = {}) {
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let point = document.createElement('div')
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point.className = 'point ' + className
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Object.assign(point.style, {
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backgroundColor: "0xff0000"
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}, style, {
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left: position.x * 100 + '%',
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top: position.y * 100 + '%'
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})
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return point
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}
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/**
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* Draws a vertical line at the zero longitude of a map.
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*/
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function drawZeroLongitude(projection, parent) {
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let element = document.createElement("div")
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element.className = "long"
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let position = projection.forward({ x: 0, y: 0 })
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element.style.left = position.x * 100 + "%"
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parent.appendChild(element)
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}
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/**
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* Plots a point for a specific interval on the map. Distance defines that interval.
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*/
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function plotGridPoints(distance = 10, projection, parent) {
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for (let lat = -90; lat <= 90; lat += distance) {
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for (let lng = -180; lng <= 180; lng += distance) {
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let color = "#0000ff"
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let className = 'small'
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if (lng == 180) {
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color = '#ff0000'
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lng = (lng == 180) ? 180 : lng
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}
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if (lng == -180) {
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color = '#00ff00'
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lng = (lng == 180) ? 180 : lng
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className = "medium"
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}
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let relativePosition = projection.forward({ x: lat, y: lng })
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let point = createPointAtPoisition(relativePosition, className, {
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backgroundColor: color
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})
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robinsonMap.appendChild(point)
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}
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}
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}
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</script>
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<script class="doctest" data-collapsible data-collapsed data-title="Test Data">
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let mercatorTruth = {
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abidjan: { x: 0.4861111111111111, y: 0.4860934491519468 },
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canberra: { x: 0.9142264972222222, y: 0.6049626977761389 },
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berlin: { x: 0.5371813638888889, y: 0.327930370913594 },
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capetown: { x: 0.5511582277777778, y: 0.6002818272799257 },
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moscow: { x: 0.604507775, y: 0.3126267957774014 },
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washington: { x: 0.28602386944444447, y: 0.3825518808752881 },
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rio: { x: 0.3797764166666667, y: 0.5652894059707362 },
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tokio: { x: 0.8881426833333332, y: 0.39372656277794527 }
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}
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</script>
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<script class="doctest">
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; (function () {
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//First we define the appropriate projection:
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let mercatorProjection = new Projection.Mercator()
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for (let [name, coordinates] of Object.entries(capitals)) {
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// Every projection has a forward and a backward function.
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// The forward function transforms coordinates in the form of
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// {x: lat, y: lng} into relative screen coordinates in the form of {x,y}.
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let relativePosition = mercatorProjection.forward(coordinates)
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// Testcases for the forward transformation.
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Doctest.expect(mercatorTruth[name], relativePosition)
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// The backward function transforms relative positions on the screen
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// to geographic coordinates.
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let calculatedCoordinates = mercatorProjection.backward(relativePosition)
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// Testcases for the backwards transformation.
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Doctest.expectPointPrecision(coordinates, calculatedCoordinates)
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let point = createPointAtPoisition(relativePosition)
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mercatorMap.appendChild(point)
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}
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})()
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</script>
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</section>
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<section id="robinson">
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<h2>Robinson Projection</h2>
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<p>
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The robinson projection is a more 'artistic' approach, as it follows a table instead of a strict
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formula. It has severe distortions at the poles, but that distortion declines rapidly heading towards
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the equator.
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</p>
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<div class="center">
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<div id="robinsonMap" class="map-wrapper">
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<img src="../../assets/maps/wikimedia-world-robinson/2000px-BlankMap-World.png" alt="" width="512" />
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</div>
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</div>
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<script class="doctest" data-collapsible data-collapsed data-title="Test Data">
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let robinsonTruth = {
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"abidjan": {
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"x": 0.45839166666666664,
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"y": 0.469
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},
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"canberra": {
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"x": 0.8637961558795233,
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"y": 0.71892906228
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},
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"berlin": {
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"x": 0.5080051098978837,
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"y": 0.17622420010000006
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},
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"capetown": {
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"x": 0.522127677557207,
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"y": 0.7103377776
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},
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"moscow": {
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"x": 0.5636501036295355,
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"y": 0.15721735316000007
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},
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"washington": {
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"x": 0.27607293856102144,
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"y": 0.25892488299999994
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},
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"rio": {
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"x": 0.35541500995592845,
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"y": 0.6418026800000001
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},
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"tokio": {
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"x": 0.8386571387301243,
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"y": 0.27869700196
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}
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}
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</script>
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<script class="doctest">
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; (function () {
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// Create the robinson projection.
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let robinsonProjection = new Projection.Robinson(10)
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// Note: The center on this map is at approximately latitude 10,
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// therefore the projection must be shifted.
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/**
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* Create a point for each capital.
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*/
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for (let [key, position] of Object.entries(capitals)) {
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let relativePosition = robinsonProjection.forward(position)
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// Run Test Cases
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Doctest.expectPointPrecision(robinsonTruth[key], relativePosition,0)
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let point = createPointAtPoisition(relativePosition)
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robinsonMap.appendChild(point)
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}
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})()
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</script>
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</section>
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</body>
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</html> |