forked from M-Labs/artiq
1
0
Fork 0
artiq/artiq/language/core.py

242 lines
7.8 KiB
Python

"""
Core ARTIQ extensions to the Python language.
"""
from collections import namedtuple
from functools import wraps
import numpy
__all__ = ["kernel", "portable", "rpc", "syscall", "host_only",
"set_time_manager", "set_watchdog_factory",
"TerminationRequested"]
# global namespace for kernels
kernel_globals = (
"sequential", "parallel", "interleave",
"delay_mu", "now_mu", "at_mu", "delay",
"watchdog"
)
__all__.extend(kernel_globals)
_ARTIQEmbeddedInfo = namedtuple("_ARTIQEmbeddedInfo",
"core_name portable function syscall forbidden flags")
def kernel(arg=None, flags={}):
"""
This decorator marks an object's method for execution on the core
device.
When a decorated method is called from the Python interpreter, the ``core``
attribute of the object is retrieved and used as core device driver. The
core device driver will typically compile, transfer and run the method
(kernel) on the device.
When kernels call another method:
- if the method is a kernel for the same core device, is it compiled
and sent in the same binary. Calls between kernels happen entirely on
the device.
- if the method is a regular Python method (not a kernel), it generates
a remote procedure call (RPC) for execution on the host.
The decorator takes an optional parameter that defaults to ``core`` and
specifies the name of the attribute to use as core device driver.
This decorator must be present in the global namespace of all modules using
it for the import cache to work properly.
"""
if isinstance(arg, str):
def inner_decorator(function):
@wraps(function)
def run_on_core(self, *k_args, **k_kwargs):
return getattr(self, arg).run(run_on_core, ((self,) + k_args), k_kwargs)
run_on_core.artiq_embedded = _ARTIQEmbeddedInfo(
core_name=arg, portable=False, function=function, syscall=None,
forbidden=False, flags=set(flags))
return run_on_core
return inner_decorator
elif arg is None:
def inner_decorator(function):
return kernel(function, flags)
return inner_decorator
else:
return kernel("core", flags)(arg)
def portable(arg=None, flags={}):
"""
This decorator marks a function for execution on the same device as its
caller.
In other words, a decorated function called from the interpreter on the
host will be executed on the host (no compilation and execution on the
core device). A decorated function called from a kernel will be executed
on the core device (no RPC).
This decorator must be present in the global namespace of all modules using
it for the import cache to work properly.
"""
if arg is None:
def inner_decorator(function):
return portable(function, flags)
return inner_decorator
else:
arg.artiq_embedded = \
_ARTIQEmbeddedInfo(core_name=None, portable=True, function=arg, syscall=None,
forbidden=False, flags=set(flags))
return arg
def rpc(arg=None, flags={}):
"""
This decorator marks a function for execution on the host interpreter.
This is also the default behavior of ARTIQ; however, this decorator allows
specifying additional flags.
"""
if arg is None:
def inner_decorator(function):
return rpc(function, flags)
return inner_decorator
else:
arg.artiq_embedded = \
_ARTIQEmbeddedInfo(core_name=None, portable=False, function=arg, syscall=None,
forbidden=False, flags=set(flags))
return arg
def syscall(arg=None, flags={}):
"""
This decorator marks a function as a system call. When executed on a core
device, a C function with the provided name (or the same name as
the Python function, if not provided) will be called. When executed on
host, the Python function will be called as usual.
Every argument and the return value must be annotated with ARTIQ types.
Only drivers should normally define syscalls.
"""
if isinstance(arg, str):
def inner_decorator(function):
function.artiq_embedded = \
_ARTIQEmbeddedInfo(core_name=None, portable=False, function=None,
syscall=function.__name__, forbidden=False,
flags=set(flags))
return function
return inner_decorator
elif arg is None:
def inner_decorator(function):
return syscall(function.__name__, flags)(function)
return inner_decorator
else:
return syscall(arg.__name__)(arg)
def host_only(function):
"""
This decorator marks a function so that it can only be executed
in the host Python interpreter.
"""
function.artiq_embedded = \
_ARTIQEmbeddedInfo(core_name=None, portable=False, function=None, syscall=None,
forbidden=True, flags={})
return function
class _DummyTimeManager:
def _not_implemented(self, *args, **kwargs):
raise NotImplementedError(
"Attempted to interpret kernel without a time manager")
enter_sequential = _not_implemented
enter_parallel = _not_implemented
exit = _not_implemented
take_time_mu = _not_implemented
get_time_mu = _not_implemented
set_time_mu = _not_implemented
take_time = _not_implemented
_time_manager = _DummyTimeManager()
def set_time_manager(time_manager):
"""Set the time manager used for simulating kernels by running them
directly inside the Python interpreter. The time manager responds to the
entering and leaving of interleave/parallel/sequential blocks, delays, etc. and
provides a time-stamped logging facility for events.
"""
global _time_manager
_time_manager = time_manager
class _Sequential:
"""In a sequential block, statements are executed one after another, with
the time increasing as one moves down the statement list."""
def __enter__(self):
_time_manager.enter_sequential()
def __exit__(self, type, value, traceback):
_time_manager.exit()
sequential = _Sequential()
class _Parallel:
"""In a parallel block, all top-level statements start their execution at
the same time.
The execution time of a parallel block is the execution time of its longest
statement. A parallel block may contain sequential blocks, which themselves
may contain interleave blocks, etc.
"""
def __enter__(self):
_time_manager.enter_parallel()
def __exit__(self, type, value, traceback):
_time_manager.exit()
parallel = _Parallel()
interleave = _Parallel() # no difference in semantics on host
def delay_mu(duration):
"""Increases the RTIO time by the given amount (in machine units)."""
_time_manager.take_time_mu(duration)
def now_mu():
"""Retrieves the current RTIO time, in machine units."""
return _time_manager.get_time_mu()
def at_mu(time):
"""Sets the RTIO time to the specified absolute value, in machine units."""
_time_manager.set_time_mu(time)
def delay(duration):
"""Increases the RTIO time by the given amount (in seconds)."""
_time_manager.take_time(duration)
class _DummyWatchdog:
def __init__(self, timeout):
pass
def __enter__(self):
pass
def __exit__(self, type, value, traceback):
pass
# Watchdogs are simply not enforced by default.
_watchdog_factory = _DummyWatchdog
def set_watchdog_factory(f):
global _watchdog_factory
_watchdog_factory = f
def watchdog(timeout):
return _watchdog_factory(timeout)
class TerminationRequested(Exception):
"""Raised by ``pause`` when the user has requested termination."""
pass