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toolkit/javascript/d3/test/geo/azimuthal-test.js
author Nicolas Sauret <nicolas.sauret@iri.centrepompidou.fr>
Fri, 18 Apr 2014 14:31:58 +0200
changeset 51 79833eaa394a
parent 47 c0b4a8b5a012
permissions -rw-r--r--
set up second level for navigation

require("../env");
require("../../d3");
require("../../d3.geo");

var vows = require("vows"),
    assert = require("assert");

var suite = vows.describe("d3.geo.azimuthal");

suite.addBatch({
  "azimuthal.stereographic": {
    topic: function() {
      return d3.geo.azimuthal().mode("stereographic").translate([0, 0]).scale(100);
    },
    "origin": function(azimuthal) {
      var coords = azimuthal([0, 0]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Arctic": function(azimuthal) {
      var coords = azimuthal([0, 85]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], -91.633117, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    },
    "Antarctic": function(azimuthal) {
      var coords = azimuthal([0, -85]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 91.633117, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], -85, 1e-6);
    },
    "Hawaii": function(azimuthal) {
      var coords = azimuthal([-180, 0]);
      assert.equal(coords[0], -Infinity);
      assert.isTrue(isNaN(coords[1]));
    },
    "Phillipines": function(azimuthal) {
      var coords = azimuthal([180, 0]);
      assert.equal(coords[0], Infinity);
      assert.isTrue(isNaN(coords[1]));
    },
    "Inversion works for non-zero translation": function() {
      var azimuthal = d3.geo.azimuthal().mode("stereographic").translate([123, 99]).scale(100),
          coords = azimuthal([0, 85]),
          lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    }
  },
  "azimuthal.orthographic": {
    topic: function() {
      return d3.geo.azimuthal().mode("orthographic").translate([0, 0]).scale(100);
    },
    "origin": function(azimuthal) {
      var coords = azimuthal([0, 0]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Arctic": function(azimuthal) {
      var coords = azimuthal([0, 85]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], -99.619469, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    },
    "Antarctic": function(azimuthal) {
      var coords = azimuthal([0, -85]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 99.619469, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], -85, 1e-6);
    },
    "Hawaii": function(azimuthal) {
      var coords = azimuthal([-180, 0]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Phillipines": function(azimuthal) {
      var coords = azimuthal([180, 0]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Inversion works for non-zero translation": function() {
      var azimuthal = d3.geo.azimuthal().mode("orthographic").translate([123, 99]).scale(100),
          coords = azimuthal([0, 85]),
          lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    }
  },
  "azimuthal.gnomonic": {
    topic: function() {
      return d3.geo.azimuthal().mode("gnomonic").translate([0, 0]).scale(100);
    },
    "origin": function(azimuthal) {
      var coords = azimuthal([0, 0]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Arctic": function(azimuthal) {
      var coords = azimuthal([0, 85]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], -1143.005230, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    },
    "Antarctic": function(azimuthal) {
      var coords = azimuthal([0, -85]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 1143.005230, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], -85, 1e-6);
    },
    "Hawaii": function(azimuthal) {
      var coords = azimuthal([-180, 0]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Phillipines": function(azimuthal) {
      var coords = azimuthal([180, 0]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Inversion works for non-zero translation": function() {
      var azimuthal = d3.geo.azimuthal().mode("stereographic").translate([123, 99]).scale(100),
          coords = azimuthal([0, 85]),
          lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    }
  },
  "azimuthal.equidistant": {
    topic: function() {
      return d3.geo.azimuthal().mode("equidistant").translate([0, 0]).scale(100);
    },
    "origin": function(azimuthal) {
      var coords = azimuthal([0, 0]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Arctic": function(azimuthal) {
      var coords = azimuthal([0, 85]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], -148.352986, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    },
    "Antarctic": function(azimuthal) {
      var coords = azimuthal([0, -90]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 157.079632, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], -90, 1e-6);
    },
    "Hawaii": function(azimuthal) {
      var coords = azimuthal([-180, 0]);
      assert.inDelta(coords[0], -314.159265, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], -180, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Phillipines": function(azimuthal) {
      var coords = azimuthal([180, 0]);
      assert.inDelta(coords[0], 314.159265, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 180, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Inversion works for non-zero translation": function() {
      var azimuthal = d3.geo.azimuthal().mode("stereographic").translate([123, 99]).scale(100),
          coords = azimuthal([0, 85]),
          lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    }
  },
  "azimuthal.equalarea": {
    topic: function() {
      return d3.geo.azimuthal().mode("equalarea").translate([0, 0]).scale(100);
    },
    "origin": function(azimuthal) {
      var coords = azimuthal([0, 0]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 0, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 0, 1e-6);
    },
    "Arctic": function(azimuthal) {
      var coords = azimuthal([0, 85]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], -135.118041, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    },
    "Antarctic": function(azimuthal) {
      var coords = azimuthal([0, -90]);
      assert.inDelta(coords[0], 0, 1e-6);
      assert.inDelta(coords[1], 141.421356, 1e-6);
      var lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 180, 1e-6);
      assert.inDelta(lonlat[1], -90, 1e-6);
    },
    "Hawaii": function(azimuthal) {
      var coords = azimuthal([-180, 0]);
      assert.equal(coords[0], -Infinity);
      assert.isTrue(isNaN(coords[1]));
    },
    "Phillipines": function(azimuthal) {
      var coords = azimuthal([180, 0]);
      assert.equal(coords[0], Infinity);
      assert.isTrue(isNaN(coords[1]));
    },
    "Inversion works for non-zero translation": function() {
      var azimuthal = d3.geo.azimuthal().mode("stereographic").translate([123, 99]).scale(100),
          coords = azimuthal([0, 85]),
          lonlat = azimuthal.invert(coords);
      assert.inDelta(lonlat[0], 0, 1e-6);
      assert.inDelta(lonlat[1], 85, 1e-6);
    }
  }
});

suite.export(module);
periplus