pl.thread.flat_map

Creates a stage that maps a function f over the data, however unlike pypeln.process.map in this case f returns an iterable. As its name implies, flat_map will flatten out these iterables so the resulting stage just contains their elements.

import pypeln as pl
import time
from random import random

def slow_integer_pair(x):
    time.sleep(random()) # <= some slow computation

    if x == 0:
        yield x
    else:
        yield x
        yield -x

data = range(10) # [0, 1, 2, ..., 9]
stage = pl.thread.flat_map(slow_integer_pair, data, workers=3, maxsize=4)

list(stage) # e.g. [2, -2, 3, -3, 0, 1, -1, 6, -6, 4, -4, ...]

Note

Because of concurrency order is not guaranteed.

flat_map is a more general operation, you can actually implement pypeln.process.map and pypeln.process.filter with it, for example:

import pypeln as pl

pl.thread.map(f, stage) = pl.thread.flat_map(lambda x: [f(x)], stage)
pl.thread.filter(f, stage) = pl.thread.flat_map(lambda x: [x] if f(x) else [], stage)

Using flat_map with a generator function is very useful as e.g. you are able to filter out unwanted elements when there are exceptions, missing data, etc.

Parameters:

Name Type Description Default
f FlatMapFn

A function with signature f(x) -> iterable. f can accept additional arguments by name as described in Advanced Usage.

required
stage Union[pypeln.thread.stage.Stage[~A], Iterable[~A], pypeln.utils.Undefined]

A Stage or Iterable.

<pypeln.utils.Undefined object at 0x7f27e00aaaf0>
workers int

The number of workers the stage should contain.

1
maxsize int

The maximum number of objects the stage can hold simultaneously, if set to 0 (default) then the stage can grow unbounded.

0
timeout float

Seconds before stoping the worker if its current task is not yet completed. Defaults to 0 which means its unbounded.

0
on_start Callable

A function with signature on_start(worker_info?) -> kwargs?, where kwargs can be a dict of keyword arguments that can be consumed by f and on_done. on_start can accept additional arguments by name as described in Advanced Usage.

None
on_done Callable

A function with signature on_done(stage_status?). This function is executed once per worker when the worker finishes. on_done can accept additional arguments by name as described in Advanced Usage.

None

Returns:

Type Description
Union[pypeln.thread.stage.Stage[~B], pypeln.utils.Partial[pypeln.thread.stage.Stage[~B]]]

Returns a Stage if the stage parameters is given, else it returns a Partial.

Source code in pypeln/thread/api/flat_map.py
def flat_map(
    f: FlatMapFn,
    stage: tp.Union[
        Stage[A], tp.Iterable[A], pypeln_utils.Undefined
    ] = pypeln_utils.UNDEFINED,
    workers: int = 1,
    maxsize: int = 0,
    timeout: float = 0,
    on_start: tp.Callable = None,
    on_done: tp.Callable = None,
) -> tp.Union[Stage[B], pypeln_utils.Partial[Stage[B]]]:
    """
    Creates a stage that maps a function `f` over the data, however unlike `pypeln.process.map` in this case `f` returns an iterable. As its name implies, `flat_map` will flatten out these iterables so the resulting stage just contains their elements.

    ```python
    import pypeln as pl
    import time
    from random import random

    def slow_integer_pair(x):
        time.sleep(random()) # <= some slow computation

        if x == 0:
            yield x
        else:
            yield x
            yield -x

    data = range(10) # [0, 1, 2, ..., 9]
    stage = pl.thread.flat_map(slow_integer_pair, data, workers=3, maxsize=4)

    list(stage) # e.g. [2, -2, 3, -3, 0, 1, -1, 6, -6, 4, -4, ...]
    ```

    !!! note
        Because of concurrency order is not guaranteed.

    `flat_map` is a more general operation, you can actually implement `pypeln.process.map` and `pypeln.process.filter` with it, for example:

    ```python
    import pypeln as pl

    pl.thread.map(f, stage) = pl.thread.flat_map(lambda x: [f(x)], stage)
    pl.thread.filter(f, stage) = pl.thread.flat_map(lambda x: [x] if f(x) else [], stage)
    ```

    Using `flat_map` with a generator function is very useful as e.g. you are able to filter out unwanted elements when there are exceptions, missing data, etc.

    Arguments:
        f: A function with signature `f(x) -> iterable`. `f` can accept additional arguments by name as described in [Advanced Usage](https://cgarciae.github.io/pypeln/advanced/#dependency-injection).
        stage: A Stage or Iterable.
        workers: The number of workers the stage should contain.
        maxsize: The maximum number of objects the stage can hold simultaneously, if set to `0` (default) then the stage can grow unbounded.
        timeout: Seconds before stoping the worker if its current task is not yet completed. Defaults to `0` which means its unbounded.
        on_start: A function with signature `on_start(worker_info?) -> kwargs?`, where `kwargs` can be a `dict` of keyword arguments that can be consumed by `f` and `on_done`. `on_start` can accept additional arguments by name as described in [Advanced Usage](https://cgarciae.github.io/pypeln/advanced/#dependency-injection).
        on_done: A function with signature `on_done(stage_status?)`. This function is executed once per worker when the worker finishes. `on_done` can accept additional arguments by name as described in [Advanced Usage](https://cgarciae.github.io/pypeln/advanced/#dependency-injection).

    Returns:
        Returns a `Stage` if the `stage` parameters is given, else it returns a `Partial`.
    """

    if isinstance(stage, pypeln_utils.Undefined):
        return pypeln_utils.Partial(
            lambda stage: flat_map(
                f,
                stage=stage,
                workers=workers,
                maxsize=maxsize,
                timeout=timeout,
                on_start=on_start,
                on_done=on_done,
            )
        )

    stage = to_stage(stage, maxsize=maxsize)

    return Stage(
        process_fn=FlatMap(f),
        workers=workers,
        maxsize=maxsize,
        timeout=timeout,
        total_sources=stage.workers,
        dependencies=[stage],
        on_start=on_start,
        on_done=on_done,
        f_args=pypeln_utils.function_args(f),
    )