from typing import (TYPE_CHECKING, Any, Dict, Iterable, List, Optional,
Sequence, Tuple)
from dataclasses import dataclass
import numpy as np
from rastervision.core.box import Box
from rastervision.core.data.label import Labels
if TYPE_CHECKING:
from rastervision.core.data import (ClassConfig, CRSTransformer)
from shapely.geometry import Polygon
[docs]@dataclass
class ClassificationLabel:
class_id: int
scores: Optional[Sequence[float]] = None
def __iter__(self):
return iter((self.class_id, self.scores))
[docs]class ChipClassificationLabels(Labels):
"""Represents a spatial grid of cells associated with classes."""
[docs] def __init__(self,
cell_to_label: Optional[Dict[Box, Tuple[int, Optional[
Sequence[float]]]]] = None):
if cell_to_label is None:
cell_to_label = {}
self.cell_to_label = {
c: ClassificationLabel(*v)
for c, v in cell_to_label.items()
}
def __len__(self) -> int:
return len(self.cell_to_label)
def __eq__(self, other: 'ChipClassificationLabels') -> bool:
return (isinstance(other, ChipClassificationLabels)
and self.cell_to_label == other.cell_to_label)
def __add__(self, other: 'ChipClassificationLabels'
) -> 'ChipClassificationLabels':
result = ChipClassificationLabels()
result.extend(self)
result.extend(other)
return result
def __contains__(self, cell: Box) -> bool:
return cell in self.cell_to_label
def __getitem__(self, cell: Box) -> ClassificationLabel:
return self.cell_to_label[cell]
def __setitem__(self, window: Box,
value: Tuple[int, Optional[Sequence[float]]]):
class_id, scores = value
self.set_cell(window, class_id, scores=scores)
[docs] @classmethod
def from_predictions(cls, windows: Iterable['Box'],
predictions: Iterable[Any]) -> 'Labels':
"""Overrid to convert predictions to (class_id, scores) pairs."""
predictions = ((np.argmax(p), p) for p in predictions)
return super().from_predictions(windows, predictions)
[docs] @classmethod
def make_empty(cls) -> 'ChipClassificationLabels':
return ChipClassificationLabels()
[docs] def filter_by_aoi(self, aoi_polygons: Iterable['Polygon']):
result = ChipClassificationLabels()
for cell in self.cell_to_label:
cell_box = Box(*cell)
cell_poly = cell_box.to_shapely()
for aoi in aoi_polygons:
if cell_poly.within(aoi):
(class_id, scores) = self.cell_to_label[cell]
result.set_cell(cell_box, class_id, scores)
return result
[docs] def set_cell(self,
cell: Box,
class_id: int,
scores: Optional['np.ndarray'] = None) -> None:
"""Set cell and its class_id.
Args:
cell: (Box)
class_id: int
scores: 1d numpy array of probabilities for each class
"""
if scores is not None:
scores = list(map(lambda x: float(x), list(scores)))
class_id = int(class_id)
self.cell_to_label[cell] = ClassificationLabel(class_id, scores)
[docs] def get_cell_class_id(self, cell: Box) -> int:
"""Return class_id for a cell.
Args:
cell: (Box)
"""
result = self.cell_to_label.get(cell)
if result is not None:
return result.class_id
else:
return None
[docs] def get_cell_scores(self, cell: Box) -> Optional[Sequence[float]]:
"""Return scores for a cell.
Args:
cell: (Box)
"""
result = self.cell_to_label.get(cell)
if result is not None:
return result.score
else:
return None
[docs] def get_singleton_labels(self, cell: Box):
"""Return Labels object representing a single cell.
Args:
cell: (Box)
"""
return ChipClassificationLabels({cell: self[cell]})
[docs] def get_cells(self) -> List[Box]:
"""Return list of all cells (list of Box)."""
return list(self.cell_to_label.keys())
[docs] def get_class_ids(self) -> List[int]:
"""Return list of class_ids for all cells."""
return [label.class_id for label in self.cell_to_label.values()]
[docs] def get_scores(self) -> List[Optional[Sequence[float]]]:
"""Return list of scores for all cells."""
return [label.scores for label in self.cell_to_label.values()]
[docs] def get_values(self) -> List[ClassificationLabel]:
"""Return list of class_ids and scores for all cells."""
return list(self.cell_to_label.values())
[docs] def extend(self, labels: 'ChipClassificationLabels') -> None:
"""Adds cells contained in labels.
Args:
labels: ChipClassificationLabels
"""
for cell in labels.get_cells():
self.set_cell(cell, *labels[cell])
[docs] def save(self, uri: str, class_config: 'ClassConfig',
crs_transformer: 'CRSTransformer') -> None:
"""Save labels as a GeoJSON file.
Args:
uri (str): URI of the output file.
class_config (ClassConfig): ClassConfig to map class IDs to names.
crs_transformer (CRSTransformer): CRSTransformer to convert from
pixel-coords to map-coords before saving.
"""
from rastervision.core.data import ChipClassificationGeoJSONStore
label_store = ChipClassificationGeoJSONStore(
uri=uri,
class_config=class_config,
crs_transformer=crs_transformer)
label_store.save(self)