Exemple #1
0
func (cs *CoordinateSystem) Inverse(xyz *globals.XYZ) *globals.PLH {
	xyz.X = (xyz.X*cs.FloatParams["to_meter"] - cs.FloatParams["x_0"]) * cs.FloatParams["ra"]
	xyz.Y = (xyz.Y*cs.FloatParams["to_meter"] - cs.FloatParams["y_0"]) * cs.FloatParams["ra"]

	plh := cs.Projection.Inverse(cs.FloatParams, xyz)

	plh.Lam = plh.Lam + cs.FloatParams["lam0"]

	if !cs.BoolParams["over"] {
		plh.Lam = cs.adjlon(plh.Lam)
	}

	return plh
}
Exemple #2
0
func StereaInverse(params map[string]float64, xyz *globals.XYZ) *globals.PLH { // x, y float64) (lat, lon float64) {
	splh := &globals.PLH{}
	// sterea
	const MAX_ITER = 20
	const DEL_TOL = 1e-14
	xyz.X = xyz.X / params["k"]
	xyz.Y = xyz.Y / params["k"]
	rho := math.Hypot(xyz.X, xyz.Y)

	if rho != 0 {
		c := 2.0 * math.Atan2(rho, params["2R"])
		sinc := math.Sin(c)
		cosc := math.Cos(c)
		splh.Phi = math.Asin(cosc*params["sinc0"] + xyz.Y*sinc*params["cosc0"]/rho)
		splh.Lam = math.Atan2(xyz.X*sinc, rho*params["cosc0"]*cosc-xyz.Y*params["sinc0"]*sinc)
	} else {
		splh.Phi = params["latc0"]
		splh.Lam = 0.0
	}

	// inv_gaus
	eplh := &globals.PLH{}
	eplh.Lam = splh.Lam / params["C"]
	num := math.Pow(math.Tan(0.5*splh.Phi+globals.PI_OVER_4)/params["K"], 1.0/params["C"])
	var i uint8
	for i = 0; i < MAX_ITER; i++ {
		eplh.Phi = 2.0*math.Atan(num*srat(params["e"]*math.Sin(splh.Phi), -0.5*params["e"])) - globals.PI_OVER_2
		if math.Abs(eplh.Phi-splh.Phi) < DEL_TOL {
			break
		}
		splh.Phi = eplh.Phi
	}
	if i == MAX_ITER-1 {
		fmt.Printf("Convergence failed")
	}
	eplh.Height = xyz.Z
	return eplh
}