import {geoProjectionMutator as projectionMutator, geoAzimuthalEquidistantRaw as azimuthalEquidistantRaw} from "d3-geo"; import {abs, acos, asin, atan, atan2, cos, degrees, halfPi, pi, radians, round, sin, sqrt, tan} from "./math.js"; export function berghausRaw(lobes) { var k = 2 * pi / lobes; function forward(lambda, phi) { var p = azimuthalEquidistantRaw(lambda, phi); if (abs(lambda) > halfPi) { // back hemisphere var theta = atan2(p[1], p[0]), r = sqrt(p[0] * p[0] + p[1] * p[1]), theta0 = k * round((theta - halfPi) / k) + halfPi, alpha = atan2(sin(theta -= theta0), 2 - cos(theta)); // angle relative to lobe end theta = theta0 + asin(pi / r * sin(alpha)) - alpha; p[0] = r * cos(theta); p[1] = r * sin(theta); } return p; } forward.invert = function(x, y) { var r = sqrt(x * x + y * y); if (r > halfPi) { var theta = atan2(y, x), theta0 = k * round((theta - halfPi) / k) + halfPi, s = theta > theta0 ? -1 : 1, A = r * cos(theta0 - theta), cotAlpha = 1 / tan(s * acos((A - pi) / sqrt(pi * (pi - 2 * A) + r * r))); theta = theta0 + 2 * atan((cotAlpha + s * sqrt(cotAlpha * cotAlpha - 3)) / 3); x = r * cos(theta), y = r * sin(theta); } return azimuthalEquidistantRaw.invert(x, y); }; return forward; } export default function() { var lobes = 5, m = projectionMutator(berghausRaw), p = m(lobes), projectionStream = p.stream, epsilon = 1e-2, cr = -cos(epsilon * radians), sr = sin(epsilon * radians); p.lobes = function(_) { return arguments.length ? m(lobes = +_) : lobes; }; p.stream = function(stream) { var rotate = p.rotate(), rotateStream = projectionStream(stream), sphereStream = (p.rotate([0, 0]), projectionStream(stream)); p.rotate(rotate); rotateStream.sphere = function() { sphereStream.polygonStart(), sphereStream.lineStart(); for (var i = 0, delta = 360 / lobes, delta0 = 2 * pi / lobes, phi = 90 - 180 / lobes, phi0 = halfPi; i < lobes; ++i, phi -= delta, phi0 -= delta0) { sphereStream.point(atan2(sr * cos(phi0), cr) * degrees, asin(sr * sin(phi0)) * degrees); if (phi < -90) { sphereStream.point(-90, -180 - phi - epsilon); sphereStream.point(-90, -180 - phi + epsilon); } else { sphereStream.point(90, phi + epsilon); sphereStream.point(90, phi - epsilon); } } sphereStream.lineEnd(), sphereStream.polygonEnd(); }; return rotateStream; }; return p .scale(87.8076) .center([0, 17.1875]) .clipAngle(180 - 1e-3); }