def __init__(self, lat0=0.0, lon0=0.0, dist=1.6, up=0, tilt=0): import sys Azimuthal.__init__(self, 0, 0) self.dist = dist self.up = up self.up_ = math.radians(up) self.tilt = tilt self.tilt_ = math.radians(tilt) self.scale = 1 xmin = sys.maxint xmax = sys.maxint * -1 for lat in range(0, 180): for lon in range(0, 361): x, y = self.project(lon - 180, lat - 90) xmin = min(x, xmin) xmax = max(x, xmax) self.scale = (self.r * 2) / (xmax - xmin) Azimuthal.__init__(self, lat0, lon0)
def __init__(self, lon0=0.0, lat0=0.0): self.scale = math.sqrt(2) * 0.5 Azimuthal.__init__(self, 45, -100) self.LAEA_Alaska = LAEA_Alaska() self.LAEA_Hawaii = LAEA_Hawaii()
def __init__(self, lon0=0, lat0=0): self.scale = math.sqrt(2) * 0.5 Azimuthal.__init__(self, 20, -157)
def __init__(self, lon0=0, lat0=0): self.scale = math.sqrt(2) * 0.5 * 0.33 Azimuthal.__init__(self, 90, -150)
def __init__(self, lon0=0.0, lat0=0.0): self.scale = math.sqrt(2) * 0.5 self.proj = pyproj.Proj(proj='laea', lat_0=lat0, lon_0=lon0) Azimuthal.__init__(self, lat0, lon0)
def __init__(self, lat0=0, lon0=0): self.r = 1000 Azimuthal.__init__(self, lat0, lon0)
def __init__(self, lat0=0.0, lon0=0.0): Azimuthal.__init__(self, lat0, lon0)
def __init__(self, lon0=0.0, lat0=0.0): self.scale = math.sqrt(2) * 0.5 Azimuthal.__init__(self, lat0, lon0)