""" Async helper function that are invalid syntax on Python 3.5 and below. This code is best effort, and may have edge cases not behaving as expected. In particular it contain a number of heuristics to detect whether code is effectively async and need to run in an event loop or not. Some constructs (like top-level `return`, or `yield`) are taken care of explicitly to actually raise a SyntaxError and stay as close as possible to Python semantics. """ import ast import asyncio import inspect from functools import wraps _asyncio_event_loop = None def get_asyncio_loop(): """asyncio has deprecated get_event_loop Replicate it here, with our desired semantics: - always returns a valid, not-closed loop - not thread-local like asyncio's, because we only want one loop for IPython - if called from inside a coroutine (e.g. in ipykernel), return the running loop .. versionadded:: 8.0 """ try: return asyncio.get_running_loop() except RuntimeError: # not inside a coroutine, # track our own global pass # not thread-local like asyncio's, # because we only track one event loop to run for IPython itself, # always in the main thread. global _asyncio_event_loop if _asyncio_event_loop is None or _asyncio_event_loop.is_closed(): _asyncio_event_loop = asyncio.new_event_loop() return _asyncio_event_loop class _AsyncIORunner: def __call__(self, coro): """ Handler for asyncio autoawait """ return get_asyncio_loop().run_until_complete(coro) def __str__(self): return "asyncio" _asyncio_runner = _AsyncIORunner() class _AsyncIOProxy: """Proxy-object for an asyncio Any coroutine methods will be wrapped in event_loop.run_ """ def __init__(self, obj, event_loop): self._obj = obj self._event_loop = event_loop def __repr__(self): return f"<_AsyncIOProxy({self._obj!r})>" def __getattr__(self, key): attr = getattr(self._obj, key) if inspect.iscoroutinefunction(attr): # if it's a coroutine method, # return a threadsafe wrapper onto the _current_ asyncio loop @wraps(attr) def _wrapped(*args, **kwargs): concurrent_future = asyncio.run_coroutine_threadsafe( attr(*args, **kwargs), self._event_loop ) return asyncio.wrap_future(concurrent_future) return _wrapped else: return attr def __dir__(self): return dir(self._obj) def _curio_runner(coroutine): """ handler for curio autoawait """ import curio return curio.run(coroutine) def _trio_runner(async_fn): import trio async def loc(coro): """ We need the dummy no-op async def to protect from trio's internal. See https://github.com/python-trio/trio/issues/89 """ return await coro return trio.run(loc, async_fn) def _pseudo_sync_runner(coro): """ A runner that does not really allow async execution, and just advance the coroutine. See discussion in https://github.com/python-trio/trio/issues/608, Credit to Nathaniel Smith """ try: coro.send(None) except StopIteration as exc: return exc.value else: # TODO: do not raise but return an execution result with the right info. raise RuntimeError( "{coro_name!r} needs a real async loop".format(coro_name=coro.__name__) ) def _should_be_async(cell: str) -> bool: """Detect if a block of code need to be wrapped in an `async def` Attempt to parse the block of code, it it compile we're fine. Otherwise we wrap if and try to compile. If it works, assume it should be async. Otherwise Return False. Not handled yet: If the block of code has a return statement as the top level, it will be seen as async. This is a know limitation. """ try: code = compile( cell, "<>", "exec", flags=getattr(ast, "PyCF_ALLOW_TOP_LEVEL_AWAIT", 0x0) ) return inspect.CO_COROUTINE & code.co_flags == inspect.CO_COROUTINE except (SyntaxError, MemoryError): return False