artiq/artiq/frontend/artiq_run.py

224 lines
6.8 KiB
Python
Executable File

#!/usr/bin/env python3
# Copyright (C) 2014, 2015 M-Labs Limited
# Copyright (C) 2014, 2015 Robert Jordens <jordens@gmail.com>
import argparse
import sys
from operator import itemgetter
import logging
from collections import defaultdict
import h5py
from llvmlite_artiq import binding as llvm
from artiq.language.environment import EnvExperiment, ProcessArgumentManager
from artiq.language.types import TBool
from artiq.master.databases import DeviceDB, DatasetDB
from artiq.master.worker_db import DeviceManager, DatasetManager
from artiq.coredevice.core import CompileError, host_only
from artiq.compiler.embedding import EmbeddingMap
from artiq.compiler.targets import OR1KTarget
from artiq.compiler import import_cache
from artiq.tools import *
logger = logging.getLogger(__name__)
class StubObject:
def __setattr__(self, name, value):
pass
class StubEmbeddingMap:
def __init__(self):
stub_object = StubObject()
self.object_forward_map = defaultdict(lambda: stub_object)
self.object_forward_map[1] = lambda _: None # return RPC
self.object_current_id = -1
def retrieve_object(self, object_id):
return self.object_forward_map[object_id]
def store_object(self, value):
self.object_forward_map[self.object_current_id] = value
self.object_current_id -= 1
class FileRunner(EnvExperiment):
def build(self, file):
self.setattr_device("core")
self.file = file
self.target = OR1KTarget()
def run(self):
kernel_library = self.compile()
self.core.comm.load(kernel_library)
self.core.comm.run()
self.core.comm.serve(StubEmbeddingMap(),
lambda addresses: self.target.symbolize(kernel_library, addresses), \
lambda symbols: self.target.demangle(symbols))
class ELFRunner(FileRunner):
def compile(self):
with open(self.file, "rb") as f:
return f.read()
class LLVMIRRunner(FileRunner):
def compile(self):
with open(self.file, "r") as f:
llmodule = llvm.parse_assembly(f.read())
llmodule.verify()
return self.target.link([self.target.assemble(llmodule)])
class LLVMBitcodeRunner(FileRunner):
def compile(self):
with open(self.file, "rb") as f:
llmodule = llvm.parse_bitcode(f.read())
llmodule.verify()
return self.target.link([self.target.assemble(llmodule)])
class DummyScheduler:
def __init__(self):
self.rid = 0
self.pipeline_name = "main"
self.priority = 0
self.expid = None
self._next_rid = 1
def submit(self, pipeline_name=None, expid=None, priority=None, due_date=None, flush=False):
rid = self._next_rid
self._next_rid += 1
logger.info("Submitting: %s, RID=%s", expid, rid)
return rid
def delete(self, rid):
logger.info("Deleting RID %s", rid)
def request_termination(self, rid):
logger.info("Requesting termination of RID %s", rid)
def get_status(self):
return dict()
def check_pause(self, rid=None) -> TBool:
return False
@host_only
def pause(self):
pass
class DummyCCB:
def issue(self, service, *args, **kwargs):
logger.info("CCB for service '%s' (args %s, kwargs %s)",
service, args, kwargs)
def get_argparser(with_file=True):
parser = argparse.ArgumentParser(
description="Local experiment running tool")
add_common_args(parser)
parser.add_argument("--device-db", default="device_db.py",
help="device database file (default: '%(default)s')")
parser.add_argument("--dataset-db", default="dataset_db.pyon",
help="dataset file (default: '%(default)s')")
parser.add_argument("-c", "--class-name", default=None,
help="name of the class to run")
parser.add_argument("-o", "--hdf5", default=None,
help="write results to specified HDF5 file"
" (default: print them)")
if with_file:
parser.add_argument("file", metavar="FILE",
help="file containing the experiment to run")
parser.add_argument("arguments", metavar="ARGUMENTS", nargs="*",
help="run arguments")
return parser
def _build_experiment(device_mgr, dataset_mgr, args):
arguments = parse_arguments(args.arguments)
argument_mgr = ProcessArgumentManager(arguments)
managers = (device_mgr, dataset_mgr, argument_mgr, {})
if hasattr(args, "file"):
is_elf = args.file.endswith(".elf")
is_ll = args.file.endswith(".ll")
is_bc = args.file.endswith(".bc")
if is_elf or is_ll or is_bc:
if args.arguments:
raise ValueError("arguments not supported for precompiled kernels")
if args.class_name:
raise ValueError("class-name not supported "
"for precompiled kernels")
if is_elf:
return ELFRunner(managers, file=args.file)
elif is_ll:
return LLVMIRRunner(managers, file=args.file)
elif is_bc:
return LLVMBitcodeRunner(managers, file=args.file)
else:
import_cache.install_hook()
module = file_import(args.file, prefix="artiq_run_")
file = args.file
else:
module = sys.modules["__main__"]
file = getattr(module, "__file__")
expid = {
"file": file,
"class_name": args.class_name,
"arguments": arguments
}
device_mgr.virtual_devices["scheduler"].expid = expid
return get_experiment(module, args.class_name)(managers)
def run(with_file=False):
args = get_argparser(with_file).parse_args()
init_logger(args)
device_mgr = DeviceManager(DeviceDB(args.device_db),
virtual_devices={"scheduler": DummyScheduler(),
"ccb": DummyCCB()})
dataset_db = DatasetDB(args.dataset_db)
dataset_mgr = DatasetManager(dataset_db)
try:
exp_inst = _build_experiment(device_mgr, dataset_mgr, args)
exp_inst.prepare()
exp_inst.run()
exp_inst.analyze()
except CompileError as error:
return
except Exception as exn:
if hasattr(exn, "artiq_core_exception"):
print(exn.artiq_core_exception, file=sys.stderr)
raise exn
finally:
device_mgr.close_devices()
if args.hdf5 is not None:
with h5py.File(args.hdf5, "w") as f:
dataset_mgr.write_hdf5(f)
else:
for k, v in sorted(dataset_mgr.local.items(), key=itemgetter(0)):
print("{}: {}".format(k, v))
dataset_db.save()
def main():
return run(with_file=True)
if __name__ == "__main__":
main()