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173 lines
6.9 KiB
173 lines
6.9 KiB
# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved. |
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# |
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# Licensed under the Apache License, Version 2.0 (the "License"); |
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# you may not use this file except in compliance with the License. |
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# You may obtain a copy of the License at |
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# |
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# http://www.apache.org/licenses/LICENSE-2.0 |
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# |
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# Unless required by applicable law or agreed to in writing, software |
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# distributed under the License is distributed on an "AS IS" BASIS, |
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
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# See the License for the specific language governing permissions and |
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# limitations under the License. |
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import os.path as osp |
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import numpy as np |
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from typing import List, Tuple, Union |
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from paddlers.transforms.functions import to_uint8 as raster2uint8 |
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try: |
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from osgeo import gdal |
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except: |
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import gdal |
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class Raster: |
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def __init__(self, |
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path: str, |
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band_list: Union[List[int], Tuple[int], None]=None, |
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to_uint8: bool=False) -> None: |
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""" Class of read raster. |
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Args: |
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path (str): The path of raster. |
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band_list (Union[List[int], Tuple[int], None], optional): |
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band list (start with 1) or None (all of bands). Defaults to None. |
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to_uint8 (bool, optional): |
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Convert uint8 or return raw data. Defaults to False. |
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""" |
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super(Raster, self).__init__() |
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if osp.exists(path): |
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self.path = path |
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self.ext_type = path.split(".")[-1] |
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if self.ext_type.lower() in ["npy", "npz"]: |
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self._src_data = None |
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else: |
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try: |
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# raster format support in GDAL: |
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# https://www.osgeo.cn/gdal/drivers/raster/index.html |
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self._src_data = gdal.Open(path) |
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except: |
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raise TypeError("Unsupported data format: `{}`".format(self.ext_type)) |
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self._getInfo() |
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self.to_uint8 = to_uint8 |
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self.setBands(band_list) |
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else: |
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raise ValueError("The path {0} not exists.".format(path)) |
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def setBands(self, |
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band_list: Union[List[int], Tuple[int], None]) -> None: |
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""" Set band of data. |
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Args: |
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band_list (Union[List[int], Tuple[int], None]): |
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band list (start with 1) or None (all of bands). |
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""" |
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if band_list is not None: |
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if len(band_list) > self.bands: |
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raise ValueError("The lenght of band_list must be less than {0}.".format(str(self.bands))) |
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if max(band_list) > self.bands or min(band_list) < 1: |
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raise ValueError("The range of band_list must within [1, {0}].".format(str(self.bands))) |
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self.band_list = band_list |
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def getArray(self, |
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start_loc: Union[List[int], Tuple[int], None]=None, |
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block_size: Union[List[int], Tuple[int]]=[512, 512]) -> np.ndarray: |
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""" Get ndarray data |
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Args: |
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start_loc (Union[List[int], Tuple[int], None], optional): |
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Coordinates of the upper left corner of the block, if None means return full image. |
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block_size (Union[List[int], Tuple[int]], optional): |
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Block size. Defaults to [512, 512]. |
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Returns: |
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np.ndarray: data's ndarray. |
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""" |
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if self._src_data is not None: |
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if start_loc is None: |
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return self._getAarray() |
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else: |
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return self._getBlock(start_loc, block_size) |
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else: |
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print("Numpy doesn't support blocking temporarily.") |
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return self._getNumpy() |
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def _getInfo(self) -> None: |
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if self._src_data is not None: |
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self.bands = self._src_data.RasterCount |
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self.width = self._src_data.RasterXSize |
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self.height = self._src_data.RasterYSize |
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self.geot = self._src_data.GetGeoTransform() |
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self.proj = self._src_data.GetProjection() |
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else: |
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d_shape = self._getNumpy().shape |
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if len(d_shape) == 3: |
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self.height, self.width, self.bands = d_shape |
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else: |
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self.height, self.width = d_shape |
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self.bands = 1 |
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self.geot = None |
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self.proj = None |
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def _getNumpy(self): |
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ima = np.load(self.path) |
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if self.band_list is not None: |
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band_array = [] |
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for b in self.band_list: |
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band_i = ima[:, :, b - 1] |
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band_array.append(band_i) |
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ima = np.stack(band_array, axis=0) |
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return ima |
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def _getAarray(self, window: Union[None, List[int], Tuple[int]]=None) -> np.ndarray: |
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if window is not None: |
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xoff, yoff, xsize, ysize = window |
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if self.band_list is None: |
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if window is None: |
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ima = self._src_data.ReadAsArray() |
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else: |
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ima = self._src_data.ReadAsArray(xoff, yoff, xsize, ysize) |
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else: |
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band_array = [] |
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for b in self.band_list: |
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if window is None: |
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band_i = self._src_data.GetRasterBand(b).ReadAsArray() |
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else: |
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band_i = self._src_data.GetRasterBand(b).ReadAsArray(xoff, yoff, xsize, ysize) |
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band_array.append(band_i) |
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ima = np.stack(band_array, axis=0) |
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if self.bands == 1: |
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# the type is complex means this is a SAR data |
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if isinstance(type(ima[0, 0]), complex): |
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ima = abs(ima) |
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else: |
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ima = ima.transpose((1, 2, 0)) |
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if self.to_uint8 is True: |
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ima = raster2uint8(ima) |
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return ima |
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def _getBlock(self, |
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start_loc: Union[List[int], Tuple[int]], |
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block_size: Union[List[int], Tuple[int]]=[512, 512]) -> np.ndarray: |
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if len(start_loc) != 2 or len(block_size) != 2: |
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raise ValueError("The length start_loc/block_size must be 2.") |
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xoff, yoff = start_loc |
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xsize, ysize = block_size |
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if (xoff < 0 or xoff > self.width) or (yoff < 0 or yoff > self.height): |
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raise ValueError( |
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"start_loc must be within [0-{0}, 0-{1}].".format(str(self.width), str(self.height))) |
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if xoff + xsize > self.width: |
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xsize = self.width - xoff |
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if yoff + ysize > self.height: |
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ysize = self.height - yoff |
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ima = self._getAarray([int(xoff), int(yoff), int(xsize), int(ysize)]) |
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h, w = ima.shape[:2] if len(ima.shape) == 3 else ima.shape |
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if self.bands != 1: |
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tmp = np.zeros((block_size[0], block_size[1], self.bands), dtype=ima.dtype) |
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tmp[:h, :w, :] = ima |
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else: |
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tmp = np.zeros((block_size[0], block_size[1]), dtype=ima.dtype) |
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tmp[:h, :w] = ima |
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return tmp |