def return_stellar_metal_img(filename, camera=0, scale_min=None, scale_max=None, size_scale=1.0, non_linear=None):
image1 = sunpy__load.load_stellar_mass_map(filename, camera=camera)
image2 = sunpy__load.load_stellar_metal_map(filename, camera=camera)
image = image2/image1
image[image<0] = 0 #image.min()
image[image*0 != 0] = 0 #image.min()
return image
def return_stellar_mass_img(filename, camera=0, scale_min=1e8, scale_max=1e10, size_scale=1.0, non_linear=1e8):
image = sunpy__load.load_stellar_mass_map(filename, camera=camera)
n_pixels = image.shape[0]
img = np.zeros((n_pixels, n_pixels), dtype=float)
img[:,:] = asinh(image, scale_min=scale_min, scale_max=scale_max, non_linear=non_linear)
img[img<0] = 0
return img
def return_stellar_metal_img(filename,
camera=0,
scale_min=None,
scale_max=None,
size_scale=1.0,
non_linear=None):
image1 = sunpy__load.load_stellar_mass_map(filename, camera=camera)
image2 = sunpy__load.load_stellar_metal_map(filename, camera=camera)
image = image2 / image1
image[image < 0] = 0 # image.min()
image[image * 0 != 0] = 0 # image.min()
return image
def return_stellar_mass_img(filename,
camera=0,
scale_min=1e8,
scale_max=1e10,
size_scale=1.0,
non_linear=1e8):
image = sunpy__load.load_stellar_mass_map(filename, camera=camera)
n_pixels = image.shape[0]
img = np.zeros((n_pixels, n_pixels), dtype=float)
img[:, :] = asinh(image,
scale_min=scale_min,
scale_max=scale_max,
non_linear=non_linear)
img[img < 0] = 0
return img
