wko-on-cloud-n/benchmark/cloud_dataset.py

import numpy as np
import pandas as pd
import rasterio
import torch
from typing import Optional, List


class CloudDataset(torch.utils.data.Dataset):
    """Reads in images, transforms pixel values, and serves a
    dictionary containing chip ids, image tensors, and
    label masks (where available).
    """

    def __init__(
        self,
        x_paths: pd.DataFrame,
        bands: List[str],
        y_paths: Optional[pd.DataFrame] = None,
        transforms: Optional[list] = None,
    ):
        """
        Instantiate the CloudDataset class.

        Args:
            x_paths (pd.DataFrame): a dataframe with a row for each chip. There must be a column for chip_id,
                and a column with the path to the TIF for each of bands
            bands (list[str]): list of the bands included in the data
            y_paths (pd.DataFrame, optional): a dataframe with a for each chip and columns for chip_id
                and the path to the label TIF with ground truth cloud cover
            transforms (list, optional): list of transforms to apply to the feature data (eg augmentations)
        """
        self.data = x_paths
        self.label = y_paths
        self.transforms = transforms
        self.bands = bands

    def __len__(self):
        return len(self.data)

    def __getitem__(self, idx: int):
        # Loads an n-channel image from a chip-level dataframe
        img = self.data.loc[idx]
        band_arrs = []
        for band in self.bands:
            with rasterio.open(img[f"{band}_path"]) as b:
                band_arr = b.read(1).astype("float32")
            band_arrs.append(band_arr)
        x_arr = np.stack(band_arrs, axis=-1)

        # Apply data augmentations, if provided
        if self.transforms:
            x_arr = self.transforms(image=x_arr)["image"]
        x_arr = np.transpose(x_arr, [2, 0, 1])

        # Prepare dictionary for item
        item = {"chip_id": img.chip_id, "chip": x_arr}

        # Load label if available
        if self.label is not None:
            label_path = self.label.loc[idx].label_path
            with rasterio.open(label_path) as lp:
                y_arr = lp.read(1).astype("float32")
            # Apply same data augmentations to the label
            if self.transforms:
                y_arr = self.transforms(image=y_arr)["image"]
            item["label"] = y_arr

        return item
added benchmark solution 2022-02-15 16:42:28 +01:00			`import numpy as np`
			`import pandas as pd`
			`import rasterio`
			`import torch`
			`from typing import Optional, List`


			`class CloudDataset(torch.utils.data.Dataset):`
			`"""Reads in images, transforms pixel values, and serves a`
			`dictionary containing chip ids, image tensors, and`
			`label masks (where available).`
			`"""`

			`def __init__(`
			`self,`
			`x_paths: pd.DataFrame,`
			`bands: List[str],`
			`y_paths: Optional[pd.DataFrame] = None,`
			`transforms: Optional[list] = None,`
			`):`
			`"""`
			`Instantiate the CloudDataset class.`

			`Args:`
			`x_paths (pd.DataFrame): a dataframe with a row for each chip. There must be a column for chip_id,`
			`and a column with the path to the TIF for each of bands`
			`bands (list[str]): list of the bands included in the data`
			`y_paths (pd.DataFrame, optional): a dataframe with a for each chip and columns for chip_id`
			`and the path to the label TIF with ground truth cloud cover`
			`transforms (list, optional): list of transforms to apply to the feature data (eg augmentations)`
			`"""`
			`self.data = x_paths`
			`self.label = y_paths`
			`self.transforms = transforms`
			`self.bands = bands`

			`def __len__(self):`
			`return len(self.data)`

			`def __getitem__(self, idx: int):`
			`# Loads an n-channel image from a chip-level dataframe`
			`img = self.data.loc[idx]`
			`band_arrs = []`
			`for band in self.bands:`
			`with rasterio.open(img[f"{band}_path"]) as b:`
			`band_arr = b.read(1).astype("float32")`
			`band_arrs.append(band_arr)`
			`x_arr = np.stack(band_arrs, axis=-1)`

			`# Apply data augmentations, if provided`
			`if self.transforms:`
			`x_arr = self.transforms(image=x_arr)["image"]`
			`x_arr = np.transpose(x_arr, [2, 0, 1])`

			`# Prepare dictionary for item`
			`item = {"chip_id": img.chip_id, "chip": x_arr}`

			`# Load label if available`
			`if self.label is not None:`
			`label_path = self.label.loc[idx].label_path`
			`with rasterio.open(label_path) as lp:`
			`y_arr = lp.read(1).astype("float32")`
			`# Apply same data augmentations to the label`
			`if self.transforms:`
			`y_arr = self.transforms(image=y_arr)["image"]`
			`item["label"] = y_arr`

			`return item`