import {geoProjection as projection, geoRotation as rotation} from "d3-geo";
import {abs, asin, atan, atan2, cos, epsilon, sin, sqrt} from "./math.js";

export function modifiedStereographicRaw(C) {
  var m = C.length - 1;

  function forward(lambda, phi) {
    var cosPhi = cos(phi),
        k = 2 / (1 + cosPhi * cos(lambda)),
        zr = k * cosPhi * sin(lambda),
        zi = k * sin(phi),
        i = m,
        w = C[i],
        ar = w[0],
        ai = w[1],
        t;
    while (--i >= 0) {
      w = C[i];
      ar = w[0] + zr * (t = ar) - zi * ai;
      ai = w[1] + zr * ai + zi * t;
    }
    ar = zr * (t = ar) - zi * ai;
    ai = zr * ai + zi * t;
    return [ar, ai];
  }

  forward.invert = function(x, y) {
    var i = 20,
        zr = x,
        zi = y;
    do {
      var j = m,
          w = C[j],
          ar = w[0],
          ai = w[1],
          br = 0,
          bi = 0,
          t;

      while (--j >= 0) {
        w = C[j];
        br = ar + zr * (t = br) - zi * bi;
        bi = ai + zr * bi + zi * t;
        ar = w[0] + zr * (t = ar) - zi * ai;
        ai = w[1] + zr * ai + zi * t;
      }
      br = ar + zr * (t = br) - zi * bi;
      bi = ai + zr * bi + zi * t;
      ar = zr * (t = ar) - zi * ai - x;
      ai = zr * ai + zi * t - y;

      var denominator = br * br + bi * bi, deltar, deltai;
      zr -= deltar = (ar * br + ai * bi) / denominator;
      zi -= deltai = (ai * br - ar * bi) / denominator;
    } while (abs(deltar) + abs(deltai) > epsilon * epsilon && --i > 0);

    if (i) {
      var rho = sqrt(zr * zr + zi * zi),
          c = 2 * atan(rho * 0.5),
          sinc = sin(c);
      return [atan2(zr * sinc, rho * cos(c)), rho ? asin(zi * sinc / rho) : 0];
    }
  };

  return forward;
}

var alaska = [[0.9972523, 0], [0.0052513, -0.0041175], [0.0074606, 0.0048125], [-0.0153783, -0.1968253], [0.0636871, -0.1408027], [0.3660976, -0.2937382]],
    gs48 = [[0.98879, 0], [0, 0], [-0.050909, 0], [0, 0], [0.075528, 0]],
    gs50 = [[0.9842990, 0], [0.0211642, 0.0037608], [-0.1036018, -0.0575102], [-0.0329095, -0.0320119], [0.0499471, 0.1223335], [0.0260460, 0.0899805], [0.0007388, -0.1435792], [0.0075848, -0.1334108], [-0.0216473, 0.0776645], [-0.0225161, 0.0853673]],
    miller = [[0.9245, 0], [0, 0], [0.01943, 0]],
    lee = [[0.721316, 0], [0, 0], [-0.00881625, -0.00617325]];

export function modifiedStereographicAlaska() {
  return modifiedStereographic(alaska, [152, -64])
      .scale(1400)
      .center([-160.908, 62.4864])
      .clipAngle(30)
      .angle(7.8);
}

export function modifiedStereographicGs48() {
  return modifiedStereographic(gs48, [95, -38])
      .scale(1000)
      .clipAngle(55)
      .center([-96.5563, 38.8675]);
}

export function modifiedStereographicGs50() {
  return modifiedStereographic(gs50, [120, -45])
      .scale(359.513)
      .clipAngle(55)
      .center([-117.474, 53.0628]);
}

export function modifiedStereographicMiller() {
  return modifiedStereographic(miller, [-20, -18])
      .scale(209.091)
      .center([20, 16.7214])
      .clipAngle(82);
}

export function modifiedStereographicLee() {
  return modifiedStereographic(lee, [165, 10])
      .scale(250)
      .clipAngle(130)
      .center([-165, -10]);
}

export default function modifiedStereographic(coefficients, rotate) {
  var p = projection(modifiedStereographicRaw(coefficients)).rotate(rotate).clipAngle(90),
      r = rotation(rotate),
      center = p.center;

  delete p.rotate;

  p.center = function(_) {
    return arguments.length ? center(r(_)) : r.invert(center());
  };

  return p;
}