489 lines
14 KiB
JavaScript
489 lines
14 KiB
JavaScript
'use strict';
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//
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var wantGPS=0, wantGalileo=0, wantBeidou=0, wantGlonass=0;
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//
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//
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var fileWorld = "world.geojson";
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var fileAlmanac = "../almanac.json" // "https://galmon.eu/almanac"
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var fileObservers = "../observers.json" // "https://galmon.eu/observers"
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var projectionChoice = "Fahey";
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var projectionChoice = "CylindricalStereographic";
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var projectionChoice = "Equirectangular";
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//var projectionChoice = "Aitoff";
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//
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//
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//
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var svgWorld = d3.select("#svgworld");
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var idWorld = document.getElementById("svgworld");
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var svgGraticule = d3.select("#svggraticule");
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var idGraticule = document.getElementById("svggraticule");
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var svgObservers = d3.select("#svgobservers");
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var idObservers = document.getElementById("svgobservers");
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var svgAlmanac = d3.select("#svgalmanac");
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var idAlmanac = document.getElementById("svgalmanac");
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var geoPath;
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var aProjection;
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function draw_world(data_world)
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{
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// console.log("draw_world() " + data_world.features.length);
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svgWorld.selectAll("path")
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.data(data_world.features)
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.enter()
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.append("path")
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.attr("class", "countries")
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.attr("d", geoPath);
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}
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function draw_graticule()
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{
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// Graticule
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var graticule = d3.geoGraticule();
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// console.log("draw_graticule()");
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svgGraticule.selectAll("path")
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.data(graticule.lines())
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.enter()
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.append("path")
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.attr("class", "graticule line")
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.attr("id", function(d) {
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var c = d.coordinates;
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if (c[0][0] == c[1][0]) {
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return (c[0][0] < 0) ? -c[0][0] + "W" : +c[0][0] + "E";
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} else if (c[0][1] == c[1][1]) {
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return (c[0][1] < 0) ? -c[0][1] + "S" : c[0][1] + "N";
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}
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})
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.attr("d", geoPath);
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svgGraticule.selectAll('text')
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.data(graticule.lines())
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.enter()
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.append("text")
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.text(function(d) {
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var c = d.coordinates;
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if ((c[0][0] == c[1][0]) && (c[0][0] % 30 == 0)) {
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return (c[0][0]);
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} else if (c[0][1] == c[1][1]) {
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return (c[0][1]);
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}
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})
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.attr("class","label")
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.attr("style", function(d) {
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var c = d.coordinates;
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return (c[0][1] == c[1][1]) ? "text-anchor: end" : "text-anchor: middle";
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})
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.attr("dx", function(d) {
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var c = d.coordinates;
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return (c[0][1] == c[1][1]) ? -10 : 0;
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})
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.attr("dy", function(d) {
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var c = d.coordinates;
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return (c[0][1] == c[1][1]) ? 4 : 10;
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})
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.attr('transform', function(d) {
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var c = d.coordinates;
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return ('translate(' + aProjection(c[0]) + ')')
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});
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svgGraticule.append("path")
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.datum(graticule.outline)
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.attr("class", "graticule outline")
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.attr("d", geoPath);
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}
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function get_almanac_valid(data_almanac)
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{
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var a=[];
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Object.keys(data_almanac).forEach(function(e) {
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var o = data_almanac[e];
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o.sv = e;
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if (o["eph-latitude"] != null && ((wantGalileo && o["gnssid"]==2) || (wantGPS && o["gnssid"]==0) || (wantBeidou && o["gnssid"]==3) ) ) {
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a.push(o);
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}
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});
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return a;
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}
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function draw_coverage(data_coverage)
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{
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console.log(data_coverage.length);
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let coverage=[];
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let mode = d3.select('input[name="kind"]:checked').node().id;
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console.log(mode);
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var offset=4;
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if(mode=="pdop")
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offset=4;
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else if(mode=="hdop")
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offset=7;
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else if(mode=="vdop")
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offset=10;
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// console.log("Offset is "+offset+ " for mode "+mode);
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for(var i =0 ; i < data_coverage.length; ++i) {
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for(var j = 0 ; j < data_coverage[i][1].length; ++j) {
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if(mode == "coverage") {
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let numsats = data_coverage[i][1][j][1];
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if(numsats < 4)
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coverage.push({latitude: data_coverage[i][0], longitude: data_coverage[i][1][j][0], numsats: numsats, color: "red", opacity: 0.4});
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else {
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numsats = data_coverage[i][1][j][2];
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if(numsats < 4)
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coverage.push({latitude: data_coverage[i][0], longitude: data_coverage[i][1][j][0], numsats: numsats, color: "orange", opacity: null});
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else {
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numsats = data_coverage[i][1][j][3];
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if(numsats < 4)
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coverage.push({latitude: data_coverage[i][0], longitude: data_coverage[i][1][j][0], numsats: numsats, color: "yellow", opacity: 0.12});
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}
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}
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}
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else if(mode=="pdop" || mode=="hdop" || mode =="vdop") {
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let dop = data_coverage[i][1][j][offset];
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if(dop > 100 || dop < 0)
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coverage.push({latitude: data_coverage[i][0], longitude: data_coverage[i][1][j][0], dop: dop, color: "red", opacity: 0.4});
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else {
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dop = data_coverage[i][1][j][offset+1];
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if(dop > 100 || dop < 0)
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coverage.push({latitude: data_coverage[i][0], longitude: data_coverage[i][1][j][0], dop: dop, color: "orange", opacity: null});
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else {
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dop = data_coverage[i][1][j][offset+2];
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if(dop > 100 || dop < 0 )
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coverage.push({latitude: data_coverage[i][0], longitude: data_coverage[i][1][j][0], dop: dop, color: "yellow", opacity: 0.12});
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}
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}
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}
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}
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}
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svgAlmanac.selectAll("rect")
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.data(coverage)
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.enter()
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.append("rect")
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.attr("class", "sats")
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.style("opacity", d => d["opacity"])
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.attr("width", 20)
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.attr("height", 20)
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.attr("x", d => aProjection([d["longitude"],d["latitude"]])[0])
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.attr("y", d => aProjection([d["longitude"],d["latitude"]])[1])
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.attr("fill", function(d) {
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return d["color"];
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});
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// console.log(coverage);
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}
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function draw_almanac(data_almanac)
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{
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var arr = get_almanac_valid(data_almanac);
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console.log("draw_almanac() " + arr.length);
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svgAlmanac.selectAll("circle")
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.data(arr)
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.enter()
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.append("circle")
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.attr("class", "sats")
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.attr("r", 3)
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.attr("cx", d => aProjection([d["eph-longitude"],d["eph-latitude"]])[0])
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.attr("cy", d => aProjection([d["eph-longitude"],d["eph-latitude"]])[1])
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.attr("fill", function(d) {
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switch (d.gnssid) {
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case 0: return "green"; // GPS
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case 1: return "gray"; // SBAS - not coded
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case 2: return "blue"; // Galileo
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case 3: return "red"; // BeiDou
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case 4: return "gray"; // IMES - not coded
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case 5: return "gray"; // QZSS - not coded
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case 6: return "yellow"; // GLONASS
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default: return "magenta"; // - should not happen
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}
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});
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svgAlmanac.selectAll("text")
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.data(arr)
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.enter()
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.append("text")
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.attr("class", "labels")
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.text(d => d.sv)
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.attr("dx", d => 5+aProjection([d["eph-longitude"],d["eph-latitude"]])[0])
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.attr("dy", d => 5+aProjection([d["eph-longitude"],d["eph-latitude"]])[1])
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.attr("fill", function(d) {
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if (d.sisa != null && d.sisa == 255)
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return "red";
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if (d.health != null && d.health != 0) // GPS
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return "red";
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if (d.e1bhs != null && d.e1bhs != 0) // Galileo
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return "red";
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if (d.observed==true)
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return "black";
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return "#666666";
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})
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.attr("font-weight", function(d) {
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if (d.observed==true)
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return "bold";
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return null;
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});
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}
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function draw_observers(data_observers)
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{
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console.log("draw_observers() " + data_observers.length);
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svgObservers.selectAll("rect")
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.data(data_observers)
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.enter()
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.append("rect")
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.attr("class", "sats")
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.attr("width", 8)
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.attr("height", 8)
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.attr("x", d => aProjection([d["longitude"],d["latitude"]])[0]-4)
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.attr("y", d => aProjection([d["longitude"],d["latitude"]])[1]-4)
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.attr("fill", function(d) { return "black"; });
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}
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function draw_observers_coverage(data_observers)
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{
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var radius = 55; // XXX fix
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var geoCircle = d3.geoCircle();
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svgObservers.selectAll("path")
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.data(data_observers)
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.enter()
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.append("path")
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.attr("class", "coverage")
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.attr("d", function(r) {
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// console.log([r["longitude"], r["latitude"]] + " = " + aProjection([r["longitude"], r["latitude"]]));
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return geoPath(geoCircle.center([r["longitude"],r["latitude"]]).radius(radius)());
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});
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}
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var display_observers_count = 0;
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function do_update_almanac(error, results)
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{
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var data_almanac = results[0];
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var data_observers = results[1];
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var data_coverage = results[2];
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// console.log("do_update_almanac() " + Object.keys(data_almanac).length + " " + data_observers.length);
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if (display_observers_count == 0) {
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// does not need that much updating!
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svgObservers.html("");
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// draw_observers(data_observers);
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// draw_observers_coverage(data_observers)
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display_observers_count = 10;
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}
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display_observers_count--;
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// We write into the svgalmanac area - so clean it and rewrite it
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svgAlmanac.html("");
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draw_almanac(data_almanac);
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draw_coverage(data_coverage);
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}
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var repeat;
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function do_timer()
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{
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var seconds = 60;
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clearTimeout(repeat);
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repeat = setTimeout(do_timer, 1000.0*seconds);
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wantGPS = 0;
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wantGalileo = 0;
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wantBeidou = 0;
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wantGlonass = 0;
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if(d3.select("#GPSL1CA").property("checked"))
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wantGPS=1;
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if(d3.select("#GalE1").property("checked"))
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wantGalileo=1;
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if(d3.select("#Beidou").property("checked"))
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wantBeidou=1;
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if(d3.select("#Glonass").property("checked"))
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wantGlonass=1;
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var galcovurl="../cov.json?gps="+wantGPS+"&galileo="+wantGalileo+"&beidou="+wantBeidou+"&glonass="+wantGlonass;
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d3.queue(1)
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.defer(d3.json, fileAlmanac)
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.defer(d3.json, fileObservers)
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.defer(d3.json, galcovurl)
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.awaitAll(do_update_almanac);
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}
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function set_projection(data_world)
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{
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// var aProjection = d3.geoMercator().scale(100).translate([250,250]);
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// all this complexity is so we can scale to full screen.
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// see: https://stackoverflow.com/questions/14492284/center-a-map-in-d3-given-a-geojson-object
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var center = [0,0]; // This is very Euro-centric - but that's how these projections works.
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var scale = 210; // No idea what this does
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var idCombined = document.getElementById("combined");
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svgWorld = d3.select("#svgworld");
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idWorld = document.getElementById("svgworld");
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svgGraticule = d3.select("#svggraticule");
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idGraticule = document.getElementById("svggraticule");
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switch(projectionChoice) {
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default:
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console.log(projectionChoice + ": not coded");
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// fall thru to Equirectangular
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case 'Equirectangular':
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aProjection = d3.geoEquirectangular()
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.scale(scale)
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.translate([idCombined.clientWidth/2,idCombined.clientHeight/2]);
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break;
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case 'Aitoff':
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aProjection = d3.geoAitoff()
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.scale(scale)
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.translate([idCombined.clientWidth/2,idCombined.clientHeight/2]);
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break;
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case 'CylindricalStereographic':
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aProjection = d3.geoCylindricalStereographic()
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.scale(scale)
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.translate([idCombined.clientWidth/2,idCombined.clientHeight/2]);
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break;
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case 'Fahey':
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aProjection = d3.geoFahey()
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.scale(scale)
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.translate([idCombined.clientWidth/2,idCombined.clientHeight/2]);
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break;
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case 'Gilbert':
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aProjection = d3.geoGilbert()
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.scale(scale)
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.translate([idCombined.clientWidth/2,idCombined.clientHeight/2]);
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break;
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}
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geoPath = d3.geoPath()
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.projection(aProjection);
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// using the path determine the bounds of the current map and use
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// these to determine better values for the scale and translation
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var bounds = geoPath.bounds(data_world);;
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var hscale = scale*idCombined.clientWidth / (bounds[1][0] - bounds[0][0]);
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var vscale = scale*idCombined.clientHeight / (bounds[1][1] - bounds[0][1]);
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scale = (hscale < vscale) ? hscale : vscale;
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var offset = [
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idCombined.clientWidth - (bounds[0][0] + bounds[1][0])/2,
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idCombined.clientHeight - (bounds[0][1] + bounds[1][1])/2
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];
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if (0) {
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// new projection
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switch(projectionChoice) {
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default:
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console.log(projectionChoice + ": not coded");
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// fall thru to Equirectangular
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case 'Equirectangular':
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aProjection = d3.geoEquirectangular()
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.center(center)
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.scale(scale)
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.translate(offset);
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break;
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case 'Aitoff':
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aProjection = d3.geoAitoff()
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.center(center) .scale(scale)
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.translate(offset);
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break;
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case 'CylindricalStereographic':
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aProjection = d3.geoCylindricalStereographic()
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.center(center)
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.scale(scale)
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.translate(offset);
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break;
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case 'Fahey':
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aProjection = d3.geoFahey()
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.center(center)
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.scale(scale)
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.translate(offset);
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break;
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case 'Gilbert':
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aProjection = d3.geoGilbert()
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.center(center)
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.scale(scale)
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.translate(offset);
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break;
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}
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}
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console.log("do_draw_world() " + "width=" + idCombined.clientWidth + "," + "height=" + idCombined.clientHeight);
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svgWorld.attr("width", idCombined.clientWidth);
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svgWorld.attr("height", idCombined.clientHeight);
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svgObservers.attr("width", idCombined.clientWidth);
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svgObservers.attr("height", idCombined.clientHeight);
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svgGraticule.attr("height", idCombined.clientHeight);
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svgGraticule.attr("width", idCombined.clientWidth);
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svgAlmanac.attr("height", idCombined.clientHeight);
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svgAlmanac.attr("width", idCombined.clientWidth);
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}
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function do_draw_world(data_world)
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{
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// console.log("do_draw_world()");
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set_projection(data_world);
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svgWorld.html("");
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draw_world(data_world);
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svgGraticule.html("");
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draw_graticule();
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}
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function read_world()
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{
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// console.log("read_world()");
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d3.json(fileWorld, function(result) {
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var data_world = result;
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do_draw_world(data_world);
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// after the world is read in and displayed - then start the timers!
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// we don't redraw the world!
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do_timer();
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});
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}
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function geo_start()
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{
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// console.log("geo_start()");
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read_world();
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}
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geo_start();
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// d3.select("body").onresize = do_timer;
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