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# Authors R. W. Ford, A. R. Porter, S. Siso and N. Nobre, STFC Daresbury Lab
# A. B. G. Chalk STFC Daresbury Lab
# J. Henrichs, Bureau of Meteorology
# Modified I. Kavcic, J. G. Wallwork, O. Brunt and L. Turner, B. Went,
# Met Office, S. Valat, Inria / Laboratoire Jean Kuntzmann
# M. Schreiber, Univ. Grenoble Alpes / Inria / Lab. Jean Kuntzmann
# J. Dendy, Met Office
'''This module provides the OMPParallelTrans transformation.'''
from collections.abc import Iterable
from psyclone import psyGen
from psyclone.psyir.nodes import (
ACCDirective,
CodeBlock,
Node,
OMPParallelDirective,
OMPDirective,
Return,
RegionDirective,
)
from psyclone.psyir.transformations.parallel_region_trans import (
ParallelRegionTrans)
from psyclone.psyir.transformations.transformation_error import (
TransformationError)
from psyclone.utils import transformation_documentation_wrapper
[docs]
@transformation_documentation_wrapper
class OMPParallelTrans(ParallelRegionTrans):
'''
Create an OpenMP PARALLEL region by inserting directives. For
example:
>>> from psyclone.tests.utilities import get_psylayer_schedule
>>> filename = "nemolite2d_alg_mod.f90"
>>> schedule = get_psylayer_schedule(filename, api="gocean")
>>>
>>> from psyclone.psyGen import TransInfo
>>> t = TransInfo()
>>> ltrans = t.get_trans_name('GOceanOMPLoopTrans')
>>> from psyclone.psyir.transformations import OMPParallelTrans
>>> rtrans = OMPParallelTrans()
>>>
>>> # Apply the OpenMP Loop transformation to *every* loop
>>> # in the schedule
>>> for child in schedule.children:
... ltrans.apply(child)
>>>
>>> # Enclose all of these loops within a single OpenMP
>>> # PARALLEL region
>>> rtrans.apply(schedule.children)
'''
# The types of node that this transformation cannot enclose
excluded_node_types = (CodeBlock, Return, ACCDirective,
psyGen.HaloExchange)
def __init__(self):
super().__init__()
# Set the type of directive that the base class will use
self._directive_factory = OMPParallelDirective.create
def __str__(self) -> str:
return "Insert an OpenMP Parallel region"
@property
def name(self) -> str:
'''
:returns: the name of this transformation as a string.
'''
return "OMPParallelTrans"
[docs]
def validate(self, nodes: list[Node], options=None, **kwargs):
'''
Perform OpenMP-specific validation checks.
:param nodes: list of Nodes to put within parallel region.
:param options: a dictionary with options for transformations.
:type options: Optional[Dict[str, Any]]
:raises TransformationError: if the target Nodes are already within \
some OMP parallel region.
'''
if nodes[0].ancestor(OMPDirective):
raise TransformationError("Error in OMPParallel transformation:" +
" cannot create an OpenMP PARALLEL " +
"region within another OpenMP region.")
# Now call the general validation checks
# TODO #2668: Remove options.
super().validate(nodes, options, **kwargs)
[docs]
def apply(
self, nodes: list[Node],
options=None, force_private: Iterable[str] = (),
**kwargs):
'''
Surrounds the provided node list with an OpenMP Parallel region.
:param nodes: list of Nodes to put within parallel region.
:param force_private: list of symbols explicitly requested to
be private.
'''
# TODO #2668: Remove options.
super().apply(nodes, options, **kwargs)
# Privatise the provided variables for the new RegionDirective, if they
# are found within the symbol table of the ancestor Routine.
if force_private:
new_region_directive = nodes[0].ancestor(RegionDirective)
if new_region_directive:
region_set = self._check_symbol_table_vars(
new_region_directive,
force_private)
if region_set:
new_region_directive.explicitly_private_symbols.update(
region_set)
__all__ = ["OMPParallelTrans"]