Пример #1
0
def _shuffle_map(block: Block, idx: int, output_num_blocks: int,
                 random_shuffle: bool,
                 random_seed: Optional[int]) -> List[Block]:
    block = BlockAccessor.for_block(block)

    # Randomize the distribution of records to blocks.
    if random_shuffle:
        seed_i = random_seed + idx if random_seed is not None else None
        block = block.random_shuffle(seed_i)
        block = BlockAccessor.for_block(block)

    slice_sz = max(1, math.ceil(block.num_rows() / output_num_blocks))
    slices = []
    for i in range(output_num_blocks):
        slices.append(block.slice(i * slice_sz, (i + 1) * slice_sz, copy=True))

    # Randomize the distribution order of the blocks (this matters when
    # some blocks are larger than others).
    if random_shuffle:
        random = np.random.RandomState(seed_i)
        random.shuffle(slices)

    num_rows = sum(BlockAccessor.for_block(s).num_rows() for s in slices)
    assert num_rows == block.num_rows(), (num_rows, block.num_rows())
    # Needed to handle num_returns=1 edge case in Ray API.
    if len(slices) == 1:
        return slices[0]
    else:
        return slices
Пример #2
0
def _shuffle_map(
    block: Block,
    idx: int,
    output_num_blocks: int,
    random_shuffle: bool,
    random_seed: Optional[int],
) -> List[Union[BlockMetadata, Block]]:
    """Returns list of [BlockMetadata, O1, O2, O3, ...output_num_blocks]."""
    stats = BlockExecStats.builder()
    block = BlockAccessor.for_block(block)

    # Randomize the distribution of records to blocks.
    if random_shuffle:
        seed_i = random_seed + idx if random_seed is not None else None
        block = block.random_shuffle(seed_i)
        block = BlockAccessor.for_block(block)

    slice_sz = max(1, math.ceil(block.num_rows() / output_num_blocks))
    slices = []
    for i in range(output_num_blocks):
        slices.append(block.slice(i * slice_sz, (i + 1) * slice_sz, copy=True))

    # Randomize the distribution order of the blocks (this matters when
    # some blocks are larger than others).
    if random_shuffle:
        random = np.random.RandomState(seed_i)
        random.shuffle(slices)

    num_rows = sum(BlockAccessor.for_block(s).num_rows() for s in slices)
    assert num_rows == block.num_rows(), (num_rows, block.num_rows())
    metadata = block.get_metadata(input_files=None, exec_stats=stats.build())
    return [metadata] + slices
Пример #3
0
    def map(
        idx: int,
        block: Block,
        output_num_blocks: int,
        block_udf: Optional[Callable[[Block], Iterable[Block]]],
        random_shuffle: bool,
        random_seed: Optional[int],
    ) -> List[Union[BlockMetadata, Block]]:
        stats = BlockExecStats.builder()
        if block_udf:
            # TODO(ekl) note that this effectively disables block splitting.
            blocks = list(block_udf(block))
            if len(blocks) > 1:
                builder = BlockAccessor.for_block(blocks[0]).builder()
                for b in blocks:
                    builder.add_block(b)
                block = builder.build()
            else:
                block = blocks[0]
        block = BlockAccessor.for_block(block)

        # Randomize the distribution of records to blocks.
        if random_shuffle:
            seed_i = random_seed + idx if random_seed is not None else None
            block = block.random_shuffle(seed_i)
            block = BlockAccessor.for_block(block)

        slice_sz = max(1, math.ceil(block.num_rows() / output_num_blocks))
        slices = []
        for i in range(output_num_blocks):
            slices.append(
                block.slice(i * slice_sz, (i + 1) * slice_sz, copy=True))

        # Randomize the distribution order of the blocks (this prevents empty
        # outputs when input blocks are very small).
        if random_shuffle:
            random = np.random.RandomState(seed_i)
            random.shuffle(slices)

        num_rows = sum(BlockAccessor.for_block(s).num_rows() for s in slices)
        assert num_rows == block.num_rows(), (num_rows, block.num_rows())
        metadata = block.get_metadata(input_files=None,
                                      exec_stats=stats.build())
        return [metadata] + slices
Пример #4
0
 def write(self, block: Block) -> str:
     block = BlockAccessor.for_block(block)
     if not self.enabled:
         raise ValueError("disabled")
     self.rows_written += block.num_rows()
     return "ok"