func (cs *CoordinateSystem) Forward(plh *globals.PLH) *globals.XYZ { plh.Lam = plh.Lam - cs.FloatParams["lam0"] if !cs.BoolParams["over"] { plh.Lam = cs.adjlon(plh.Lam) } xyz := cs.Projection.Forward(cs.FloatParams, plh) xyz.X = cs.FloatParams["from_meter"] * (cs.FloatParams["a"]*xyz.X + cs.FloatParams["x_0"]) xyz.Y = cs.FloatParams["from_meter"] * (cs.FloatParams["a"]*xyz.Y + cs.FloatParams["x_0"]) return xyz }
func (cs *CoordinateSystem) GeodeticToGeocentric(plh *globals.PLH) *globals.XYZ { xyz := &globals.XYZ{} if _, ok := cs.FloatParams["e2"]; !ok { cs.SetGeocentricParameters() } e2 := cs.FloatParams["e2"] a := cs.FloatParams["a_orig"] if plh.Phi < -globals.PI_OVER_2 && plh.Phi > -1.001*globals.PI_OVER_2 { plh.Phi = -globals.PI_OVER_2 } else if plh.Phi > globals.PI_OVER_2 && plh.Phi < 1.001*globals.PI_OVER_2 { plh.Phi = globals.PI_OVER_2 } if plh.Lam > globals.PI { plh.Lam = plh.Lam - 2*globals.PI } sin_lat := math.Sin(plh.Phi) cos_lat := math.Cos(plh.Phi) sin2_lat := sin_lat * sin_lat rn := a / (math.Sqrt(1.0 - e2*sin2_lat)) xyz.X = (rn + plh.Height) * cos_lat * math.Cos(plh.Lam) xyz.Y = (rn + plh.Height) * cos_lat * math.Sin(plh.Lam) xyz.Z = ((rn * (1 - e2)) + plh.Height) * sin_lat return xyz }
func StereaForward(params map[string]float64, plh *globals.PLH) *globals.XYZ { // lat, lon float64) (x, y float64) { xyz := &globals.XYZ{} // Gauss // local_phi := lat * DEG_TO_RAD // local_lam := lon * DEG_TO_RAD plh.Phi = 2.0*math.Atan(params["K"]*math.Pow(math.Tan(0.5*plh.Phi+globals.PI_OVER_4), params["C"])*srat(params["e"]*math.Sin(plh.Phi), params["ratexp"])) - globals.PI_OVER_2 plh.Lam = params["C"] * plh.Lam // Sterea sinc := math.Sin(plh.Phi) cosc := math.Cos(plh.Phi) cosl := math.Cos(plh.Lam) k := params["k"] * params["2R"] / (1.0 + params["sinc0"]*sinc + params["cosc0"]*cosc*cosl) xyz.X = k * cosc * math.Sin(plh.Lam) xyz.Y = k * (params["cosc0"]*sinc - params["sinc0"]*cosc*cosl) return xyz }