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tiff_mat_conversion.py
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tiff_mat_conversion.py
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import argparse
import numpy as np
import scipy.io as io
from osgeo import gdal
def tiff_to_mat_conversion(ms_path, pan_path, save_path, ms_initial_point=(0, 0), ms_final_point=(0, 0), ratio=4):
"""
Generation of *.mat file, starting from the native GeoTiFF extension.
Also, a crop tool is provided to analyze only small parts of the image.
Parameters
----------
ms_path : str
The path of the Multi-Spectral image
pan_path : str
The path of the Panchromatic file
save_path : str
The destination mat file
ms_initial_point : tuple
Upper left point for image cropping. The point must be expressed in pixel coordinates,
as (x,y), where (0,0) is precisely the point at the top left.
ms_final_point : tuple
Bottom right point for image cropping. The point must be expressed in pixel coordinates,
as (x,y), where (0,0) is precisely the point at the top left.
ratio : int
The resolution scale which elapses between MS and PAN.
Return
------
I_in : Dictionary
The dictionary, composed of MS and Pan images.
"""
ms = gdal.Open(ms_path)
ms = ms.ReadAsArray()
ms = np.moveaxis(ms, 0, -1)
pan = gdal.Open(pan_path)
pan = pan.ReadAsArray()
if ms_final_point[0] != 0 and ms_final_point[1] != 0:
ms = ms[ms_initial_point[1]:ms_final_point[1], ms_initial_point[0]:ms_final_point[0], :]
pan = pan[ms_initial_point[1] * ratio:ms_final_point[1] * ratio,
ms_initial_point[0] * ratio:ms_final_point[0] * ratio]
io.savemat(save_path, {'I_MS_LR': ms, 'I_PAN': pan})
I_in = {'I_MS_LR': ms, 'I_PAN': pan}
return I_in
def mat_to_tiff_conversion(mat_path, pan_path, save_path):
"""
Conversion of the outcome of Full-Resolution framework algorithms from *.mat to GeoTiff.
Parameters
----------
mat_path : str
The path of the outcome
pan_path : str
The path of the Panchromatic file
save_path : str
The destination mat file
"""
ms = io.loadmat(mat_path)['I_MS'].astype(np.uint16)
pan = gdal.Open(pan_path)
geo_t = pan.GetGeoTransform()
projection = pan.GetProjection()
bands = ms.shape[-1]
image_type = gdal.GDT_UInt16
driver = gdal.GetDriverByName('GTiff')
out = driver.Create(save_path, ms.shape[1], ms.shape[0], bands, image_type)
out.SetGeoTransform(geo_t)
out.SetProjection(projection)
for i in range(ms.shape[-1]):
out.GetRasterBand(i + 1).WriteArray(ms[:, :, i])
out = []
return
if __name__ == '__main__':
parser = argparse.ArgumentParser(prog='TiffMatConversion',
description='Script to convert GeoTiff file in *.mat for Z-PNN usage and the other way around.',
)
parser.add_argument('-m', '--mode', type=str, required=True, choices=["Tiff2Mat", "Mat2Tiff"],
default="Tif2Mat", help='The algorithm with which perform Pansharpening.')
parser.add_argument('-ms', '--ms_tiff_path', type=str, help='The path of GeoTiff Multi-Spectral file.')
parser.add_argument('-pan', '--pan_tiff_path', type=str, help='The path of GeoTiff Panchromatic file.')
parser.add_argument('-mat', '--mat_path', type=str, help='The path of *.mat file - '
'Path of Full-Resolution framework result.')
parser.add_argument('-o', '--out_path', type=str, help='The path where save the output.')
parser.add_argument('--initial_point', nargs="+", type=int, default=[0, 0],
help='Upper left point for image cropping. The point must be expressed in pixel coordinates, '
'as x y, where 0 0 is precisely the point at the top left and referred to Multi-Spectral image.')
parser.add_argument('--final_point', nargs="+", type=int, default=[0, 0],
help='Bottom right point for image cropping. The point must be expressed in pixel coordinates, '
'as x y, where 0 0 is precisely the point at the top left and referred to the Multi-Spectral image')
arguments = parser.parse_args()
initial_point = tuple(arguments.initial_point)
final_point = tuple(arguments.final_point)
if arguments.mode == 'Tiff2Mat':
_ = tiff_to_mat_conversion(arguments.ms_tiff_path, arguments.pan_tiff_path, arguments.out_path,
arguments.initial_point, arguments.final_point)
elif arguments.mode == 'Mat2Tiff':
mat_to_tiff_conversion(arguments.mat_path, arguments.pan_tiff_path, arguments.out_path)
else:
print('Unsupported choice.')