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A tool to transform asynchronous Python code to synchronous Python code.

Project description

Unasyncd

A tool to transform asynchronous Python code to synchronous Python code.

Why?

Unasyncd is largely inspired by unasync, and a detailed discussion about this approach can be found here.

Its purpose is to reduce to burden of having to maintain both a synchronous and an asynchronous version of otherwise functionally identical code. The idea behind simply "taking out the async" is that often, synchronous and asynchronous code only differ slightly: A few awaits, async defs, async withs, and a couple of different method names. The unasync approach makes use of this by treating the asynchronous version as a source of truth from wich the synchronous version is then generated.

Why unasyncd?

The original unasync works by simply replacing certain token, which is enough for most basic use cases, but can be somewhat restrictive in the way the code can be written. More complex cases such as exclusion of functions / classes or transformations (such as AsyncExitStack to ExitStack wich have not only different names but also different method names that then need to be replaced only within a certain scope) are not possible. This can lead to the introduction of shims, introducing additional complexity.

Unasyncd's goal is to impose as little restrictions as possible to the way the asynchronous code can be written, as long as it maps to a functionally equivalent synchronous version.

To achieve this, unasyncd leverages libcst, enabling a more granular control and complex transformations.

Unasyncd features:

  1. Transformation of arbitrary modules, not bound to any specific directory structure
  2. (Per-file) Exclusion of (nested) functions, classes and methods
  3. Optional transformation of docstrings
  4. Replacements based on fully qualified names (e.g. typing.AsyncGenerator is different than foo.typing.AsyncGenerator)
  5. Transformation of constructs like asyncio.TaskGroup to a thread based equivalent

A full list of supported transformations is available below.

Table of contents

What can be transformed?

Unasyncd supports a wide variety of transformation, ranging from simple name replacements to more complex transformations such as task groups.

Asynchronous functions

Async

async def foo() -> str:
    return "hello"

Sync

def foo() -> str:
    return "hello"

await

Async

await foo()

Sync

foo()

Asynchronous iterators, iterables and generators

Async

from typing import AsyncGenerator

async def foo() -> AsyncGenerator[str, None]:
    yield "hello"

Sync

from typing import Generator

def foo() -> Generator[str, None, None]:
    yield "hello"

Async

from typing import AsyncIterator

class Foo:
    async def __aiter__(self) -> AsyncIterator[str]:
        ...

    async def __anext__(self) -> str:
        raise StopAsyncIteration

Sync

from typing import Iterator

class Foo:
    def __next__(self) -> str:
        raise StopIteration

    def __iter__(self) -> Iterator[str]:
        ...

Async

x = aiter(foo)

Sync

x = iter(foo)

Async

x = await anext(foo)

Sync

x = next(foo)

Asynchronous iteration

Async

async for x in foo():
    pass

Sync

for x in foo():
    pass

Async

[x async for x in foo()]

Sync

[x for x in foo()]

Asynchronous context managers

Async

async with foo() as something:
    pass

Sync

with foo() as something:
    pass

Async

class Foo:
    async def __aenter__(self):
        ...

    async def __aexit__(self, exc_type, exc_val, exc_tb):
        ...

Sync

class Foo:
    def __enter__(self):
        ...

    def __exit__(self, exc_type, exc_val, exc_tb):
        ...

Async

from contextlib import asynccontextmanager
from typing import AsyncGenerator

@asynccontextmanager
async def foo() -> AsyncGenerator[str, None]:
    yield "hello"

Sync

from contextlib import contextmanager
from typing import Generator

@contextmanager
def foo() -> Generator[str, None, None]:
    yield "hello"

contextlib.AsyncExitStack

Async

import contextlib

async with contextlib.AsyncExitStack() as exit_stack:
    exit_stack.enter_context(context_manager_one())
    exit_stack.push(callback_one)
    exit_stack.callback(on_exit_one)

    await exit_stack.enter_async_context(context_manager_two())
    exit_stack.push_async_exit(on_exit_two)
    exit_stack.push_async_callback(callback_two)

    await exit_stack.aclose()

Sync

import contextlib

with contextlib.ExitStack() as exit_stack:
    exit_stack.enter_context(context_manager_one())
    exit_stack.push(callback_one)
    exit_stack.callback(on_exit_one)

    exit_stack.enter_context(context_manager_two())
    exit_stack.push(on_exit_two)
    exit_stack.callback(callback_two)

    exit_stack.close()

See limitations

asyncio.TaskGroup

Async

import asyncio

async with asyncio.TaskGroup() as task_group:
    task_group.create_task(something(1, 2, 3, this="that"))

Sync

import concurrent.futures

with concurrent.futures.ThreadPoolExecutor() as executor:
    executor.submit(something, 1, 2, 3, this="that")

See limitations

anyio.create_task_group

Async

import anyio

async with anyio.create_task_group() as task_group:
    task_group.start_soon(something, 1, 2, 3)

Sync

import concurrent.futures

with concurrent.futures.ThreadPoolExecutor() as executor:
    executor.submit(something, 1, 2, 3)

See limitations

asyncio.sleep / anyio.sleep

Calls to asyncio.sleep and anyio.sleep will be replaced with calls to time.sleep:

Async

import asyncio

await asyncio.sleep(1)

Sync

import time

time.sleep(1)

If the call argument is 0, the call will be replaced entirely:

import asyncio

await asyncio.sleep(0)

anyio.Path

Async

import anyio

await anyio.Path().read_bytes()

Sync

import pathlib

pathlib.Path().read_bytes()

Type annotations

typing.AsyncIterable[int] typing.Iterable[int]
typing.AsyncIterator[int] typing.Iterator[int]
typing.AsyncGenerator[int, str] typing.Generator[int, str, None]
typing.Awaitable[str] str

Docstrings

Simply token replacement is available in docstrings:

Async

async def foo():
    """This calls ``await bar()`` and ``asyncio.sleep``"""

Sync

def foo():
    """This calls ``bar()`` and ``time.sleep``"""

Usage

Installation

pip install unasyncd

CLI

Invoking unasyncd without any parameters will apply the configuration from the config file:

unasyncd

But it's also possible to specify the files to be transformed directly:

unasyncd async_thing.py:aync_thing.py

This will transform async_thing.py and write the result back into sync_thing.py

As a pre-commit hook

Unasyncd is available as a pre-commit hook:

- repo: https://github.com/provinzkraut/unasyncd
  rev: v0.4.0
  hooks:
    - id: unasyncd

Configuration

Unasyncd can be configured via a pyproject.toml file, a dedicated .unasyncd.toml file or the command line interface.

File

config file key type default description
files table - A table mapping source file names / directories to target file names / directories
exclude array - An array of names to exclude from transformation
per_file_exclude table - A table mapping files names to an array of names to exclude from transformation
add_replacements table - A table of additional name replacements
per_file_add_replacements table - A table mapping file names to tables of additional replacements
transform_docstrings bool false Enable transformation of docstrings
add_editors_note bool false Add a note on top of the generated files
infer_type_checking_imports bool true Infer if new imports should be added to an 'if TYPE_CHECKING' block
cache bool true Cache transformation results
force_regen bool false Always regenerate files, regardless if their content has changed
ruff_fix bool false Run ruff --fix on the generated code
ruff_format bool false Run ruff format on the generated code

Example

[tool.unasyncd]
files = { "async_thing.py" = "sync_thing.py", "foo.py" = "bar.py" }
exclude = ["Something", "SomethingElse.within"]
per_file_exclude = { "foo.py" = ["special_foo"] }
add_replacements = { "my_async_func" = "my_sync_func" }
per_file_add_replacements = { "async_thing.py" = { "AsyncClass" = "SyncClass" } }
transform_docstrings = true
remove_unused_imports = false
no_cache = false
force_regen = false

CLI options

Feature flags corresponding to configuration values. These will override the configuration file values

option description
--cache Cache transformation results
--no-cache Don't cache transformation results
--transform-docstrings Enable transformation of docstrings
--no-transform-docstrings Inverse of --transform-docstrings
--infer-type-checking-imports Infer if new imports should be added to an 'if TYPE_CHECKING' block
--no-infer-type-checking-imports Inverse of infer-type-checking-imports
--add-editors-note Add a note on top of each generated file
--no-add-editors-note Inverse of --add-editors-note
--ruff-fix Run ruff --fix on the generated code
--no-ruff-fix Inverse of --ruff-fix
--ruff-format Run ruff format on the generated code
--no-ruff-format Inverse of --ruff-format
--force Always regenerate files, regardless if their content has changed
--no-force Inverse of --force
--check Don't write changes back to files
--write Inverse of --check

Additional CLI options

option description
--config Alternative configuration file
--verbose Increase verbosity of console output
--quiet Suppress all console output

Exclusions

It is possible to exclude specific functions classes and methods from the transformation. This can be achieved by adding their fully qualified name (relative to the transformed module) under the exclude key:

[tool.unasyncd]
exclude = ["Something", "SomethingElse.within"]

In this example, classes or functions with the name Something, and the within method of the SomethingElse class will be skipped.

The same option is available on a per-file basis, under the per_file_exclude key:

[tool.unasyncd]
per_file_exclude."module.py" = ["Something", "SomethingElse.within"]

This sets the same exclusion rules as above, but only for the file module.py.

Extending name replacements

Additional name replacement rules can be defined by adding fully qualified names (relative to the transformed module) and replacements under the add_replacements key:

[tool.unasyncd]
add_replacements = { "some_module.some_name" = "some_other_module.some_other_name" }

The same option is available on a per-file basis, under the per_file_add_replacements key:

[tool.unasyncd]
per_file_add_replacements."module.py" = { "some_module.some_name" = "some_other_module.some_other_name" }

Handling of imports

Unasyncd will add new imports when necessary and tries to be sensible about the way it does. There are however no guarantees about import order or compatibility with e.g. isort or black. It follows a few basic rules:

  1. Relativity of imports should be kept intact, e.g. typing.AsyncGenerator will be replaced with typing.Generator and from typing import AsyncGenerator with from typing import Generator
  2. Existing imports will be updated if possible, for instance from time import time would become from time import time, sleep if sleep has been added by unasyncd during the transformation
  3. New imports are added before the first non-import block that's not a docstring or a comment

Unasyncd will not remove imports that have become unused as a result of the applied transformations. This is because tracking of usages is a complex task and best left to tools made specifically for this job like ruff or autoflake.

Integration with linters

Using unasyncd in conjunction with linters offering autofixing behaviour can lead to an edit-loop, where unasyncd generates a new file which the other tool then changes in a non-AST-equivalent way - for example by removing an import that has become unused as a result of the transformation applied by unasyncd -, in turn causing unasyncd to regenerate the file the next time it is invoked, since the target file is no longer AST-equivalent to what unasyncd thinks it should be.

To alleviate this, unasyncd offers a ruff integration, which can automatically run ruff --fix and/or ruff format on the generated code before writing it back. It will use the existing ruff configuration for this to ensure the fixes applied to adhere to the rules used throughout the project.

If this option is used, the transformed code will never be altered by ruff, therefore breaking the cycle.

This option can be enabled with the ruff_fix = true and/or ruff_format = true feature flag, or by using the --ruff-fix and/or --ruff-format CLI flag.

Usage of this option requires an installation of ruff. If not independently installed, it can be installed as an extra of unasyncd: pip install unasyncd[ruff].

Why is only ruff supported?

Ruff was chosen for its speed, having a negligible impact on the overall performance of unasyncd, and because it can replace most of the common linters / tools with autofixing capabilities, removing the need for separate integrations.

Limitations

Transformations for contextlib.AsyncContextManager, asyncio.TaskGroup and anyio.create_task_group only work when they're being called in a with statement directly. This is due to the fact that unasyncd does not track assignments or support type inference. Support for these usages might be added in a future version.

Disclaimer

Unasyncd's output should not be blindly trusted. While it is unlikely that it will break things the resulting code should always be tested. Unasyncd is not intended to be run at build time, but integrated into a git workflow (e.g. with pre-commit).

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