示例#1
0
    def get(self, bounding_box: BoundingBox) -> Data:
        indexes = self._queryBoundingBox(bounding_box)

        data = []

        stack_volumes = [volume for i, volume in self.stack if i in indexes]
        stack_disjoint = list(set(indexes) - set([i for i, v in self.stack]))

        for volume in stack_volumes:
            sub_bbox = bounding_box.intersect(volume.getBoundingBox())
            data.append(volume.get(sub_bbox))

        for index in stack_disjoint:
            volume = self.volumes[index]
            i = self._pushStack(index, volume)

            sub_bbox = bounding_box.intersect(volume.getBoundingBox())
            data.append(volume.get(sub_bbox))

        shape = bounding_box.getNumpyDim()
        array = Array(np.zeros(shape).astype(np.uint16),
                      bounding_box=bounding_box,
                      iteration_size=BoundingBox(Vector(0, 0, 0),
                                                 bounding_box.getSize()),
                      stride=bounding_box.getSize())
        [array.set(item) for item in data]
        return Data(array.getArray(), bounding_box)
示例#2
0
    def get(self, bounding_box: BoundingBox) -> Data:
        """
        Requests a data sample from the volume. If the bounding box does
not exist, then the method raises a ValueError.

        :param bounding_box: The bounding box of the request data sample
        :return: The data sample requested
        """
        if bounding_box.isDisjoint(self.getBoundingBox()):
            error_string = ("Bounding box must be inside dataset " +
                            "dimensions instead bounding box is {} while " +
                            "the dataset dimensions are {}")
            error_string = error_string.format(bounding_box,
                                               self.getBoundingBox())
            raise ValueError(error_string)

        sub_bounding_box = bounding_box.intersect(self.getBoundingBox())
        array = self.getArray(sub_bounding_box)

        before_pad = bounding_box.getEdges()[0] - sub_bounding_box.getEdges(
        )[0]
        after_pad = bounding_box.getEdges()[1] - sub_bounding_box.getEdges()[1]

        if before_pad != Vector(0, 0, 0) or after_pad != Vector(0, 0, 0):
            pad_size = tuple(
                zip(before_pad.getNumpyDim(), after_pad.getNumpyDim()))
            array = np.pad(array, pad_width=pad_size, mode="constant")

        return Data(array, bounding_box)