def __init__(self,
grid,
ptype,
pyfunc=None,
funcname=None,
funccode=None,
py_ast=None,
funcvars=None):
self.grid = grid
self.ptype = ptype
# Derive meta information from pyfunc, if not given
self.funcname = funcname or pyfunc.__name__
self.funcvars = funcvars or list(pyfunc.__code__.co_varnames)
self.funccode = funccode or inspect.getsource(pyfunc.__code__)
# Parse AST if it is not provided explicitly
self.py_ast = py_ast or parse(fix_indentation(self.funccode)).body[0]
if pyfunc is None:
# Extract user context by inspecting the call stack
stack = inspect.stack()
try:
user_ctx = stack[-1][0].f_globals
user_ctx['math'] = globals()['math']
user_ctx['random'] = globals()['random']
except:
print(
"Warning: Could not access user context when merging kernels"
)
user_ctx = globals()
finally:
del stack # Remove cyclic references
# Compile and generate Python function from AST
py_mod = Module(body=[self.py_ast])
exec(compile(py_mod, "<ast>", "exec"), user_ctx)
self.pyfunc = user_ctx[self.funcname]
else:
self.pyfunc = pyfunc
self.name = "%s%s" % (ptype.name, self.funcname)
# Generate the kernel function and add the outer loop
if self.ptype.uses_jit:
kernelgen = KernelGenerator(grid, ptype)
self.field_args = kernelgen.field_args
kernel_ccode = kernelgen.generate(deepcopy(self.py_ast),
self.funcvars)
self.field_args = kernelgen.field_args
loopgen = LoopGenerator(grid, ptype)
adaptive = 'AdvectionRK45' in self.funcname
self.ccode = loopgen.generate(self.funcname,
self.field_args,
kernel_ccode,
adaptive=adaptive)
basename = path.join(get_cache_dir(), self._cache_key)
self.src_file = "%s.c" % basename
self.lib_file = "%s.so" % basename
self.log_file = "%s.log" % basename
self._lib = None
def __init__(self, fieldset, ptype, pyfunc=None, funcname=None,
funccode=None, py_ast=None, funcvars=None):
self.fieldset = fieldset
self.ptype = ptype
# Derive meta information from pyfunc, if not given
self.funcname = funcname or pyfunc.__name__
if pyfunc is AdvectionRK4_3D:
logger.info('Note that positive vertical velocity is assumed DOWNWARD by AdvectionRK4_3D')
if funcvars is not None:
self.funcvars = funcvars
elif hasattr(pyfunc, '__code__'):
self.funcvars = list(pyfunc.__code__.co_varnames)
else:
self.funcvars = None
self.funccode = funccode or inspect.getsource(pyfunc.__code__)
# Parse AST if it is not provided explicitly
self.py_ast = py_ast or parse(fix_indentation(self.funccode)).body[0]
if pyfunc is None:
# Extract user context by inspecting the call stack
stack = inspect.stack()
try:
user_ctx = stack[-1][0].f_globals
user_ctx['math'] = globals()['math']
user_ctx['random'] = globals()['random']
user_ctx['ErrorCode'] = globals()['ErrorCode']
except:
logger.warning("Could not access user context when merging kernels")
user_ctx = globals()
finally:
del stack # Remove cyclic references
# Compile and generate Python function from AST
py_mod = Module(body=[self.py_ast])
exec(compile(py_mod, "<ast>", "exec"), user_ctx)
self.pyfunc = user_ctx[self.funcname]
else:
self.pyfunc = pyfunc
self.name = "%s%s" % (ptype.name, self.funcname)
# Generate the kernel function and add the outer loop
if self.ptype.uses_jit:
kernelgen = KernelGenerator(fieldset, ptype)
self.field_args = kernelgen.field_args
kernel_ccode = kernelgen.generate(deepcopy(self.py_ast),
self.funcvars)
self.field_args = kernelgen.field_args
self.const_args = kernelgen.const_args
loopgen = LoopGenerator(fieldset, ptype)
self.ccode = loopgen.generate(self.funcname, self.field_args, self.const_args,
kernel_ccode)
basename = path.join(get_cache_dir(), self._cache_key)
self.src_file = "%s.c" % basename
self.lib_file = "%s.%s" % (basename, 'dll' if platform == 'win32' else 'so')
self.log_file = "%s.log" % basename
self._lib = None
def __init__(self, grid, ptype, pyfunc=None, funcname=None,
funccode=None, py_ast=None, funcvars=None):
self.grid = grid
self.ptype = ptype
# Derive meta information from pyfunc, if not given
self.funcname = funcname or pyfunc.__name__
self.funcvars = funcvars or list(pyfunc.__code__.co_varnames)
self.funccode = funccode or inspect.getsource(pyfunc.__code__)
# Parse AST if it is not provided explicitly
self.py_ast = py_ast or parse(fix_indentation(self.funccode)).body[0]
if pyfunc is None:
# Extract user context by inspecting the call stack
stack = inspect.stack()
try:
user_ctx = stack[-1][0].f_globals
user_ctx['math'] = globals()['math']
user_ctx['random'] = globals()['random']
user_ctx['ErrorCode'] = globals()['ErrorCode']
except:
print("Warning: Could not access user context when merging kernels")
user_ctx = globals()
finally:
del stack # Remove cyclic references
# Compile and generate Python function from AST
py_mod = Module(body=[self.py_ast])
exec(compile(py_mod, "<ast>", "exec"), user_ctx)
self.pyfunc = user_ctx[self.funcname]
else:
self.pyfunc = pyfunc
self.name = "%s%s" % (ptype.name, self.funcname)
# Generate the kernel function and add the outer loop
if self.ptype.uses_jit:
kernelgen = KernelGenerator(grid, ptype)
self.field_args = kernelgen.field_args
kernel_ccode = kernelgen.generate(deepcopy(self.py_ast),
self.funcvars)
self.field_args = kernelgen.field_args
loopgen = LoopGenerator(grid, ptype)
self.ccode = loopgen.generate(self.funcname, self.field_args,
kernel_ccode)
basename = path.join(get_cache_dir(), self._cache_key)
self.src_file = "%s.c" % basename
self.lib_file = "%s.so" % basename
self.log_file = "%s.log" % basename
self._lib = None
def __init__(self, fieldset, ptype, pyfunc=None, funcname=None,
funccode=None, py_ast=None, funcvars=None, c_include="", delete_cfiles=True):
self.fieldset = fieldset
self.ptype = ptype
self._lib = None
self.delete_cfiles = delete_cfiles
self._cleanup_files = None
self._cleanup_lib = None
# Derive meta information from pyfunc, if not given
self.funcname = funcname or pyfunc.__name__
if pyfunc is AdvectionRK4_3D:
warning = False
if isinstance(fieldset.W, Field) and fieldset.W.creation_log != 'from_nemo' and \
fieldset.W._scaling_factor is not None and fieldset.W._scaling_factor > 0:
warning = True
if type(fieldset.W) in [SummedField, NestedField]:
for f in fieldset.W:
if f.creation_log != 'from_nemo' and f._scaling_factor is not None and f._scaling_factor > 0:
warning = True
if warning:
logger.warning_once('Note that in AdvectionRK4_3D, vertical velocity is assumed positive towards increasing z.\n'
' If z increases downward and w is positive upward you can re-orient it downwards by setting fieldset.W.set_scaling_factor(-1.)')
elif pyfunc is AdvectionAnalytical:
if ptype.uses_jit:
raise NotImplementedError('Analytical Advection only works in Scipy mode')
if fieldset.U.interp_method != 'cgrid_velocity':
raise NotImplementedError('Analytical Advection only works with C-grids')
if fieldset.U.grid.gtype not in [GridCode.CurvilinearZGrid, GridCode.RectilinearZGrid]:
raise NotImplementedError('Analytical Advection only works with Z-grids in the vertical')
if funcvars is not None:
self.funcvars = funcvars
elif hasattr(pyfunc, '__code__'):
self.funcvars = list(pyfunc.__code__.co_varnames)
else:
self.funcvars = None
self.funccode = funccode or inspect.getsource(pyfunc.__code__)
# Parse AST if it is not provided explicitly
self.py_ast = py_ast or parse(fix_indentation(self.funccode)).body[0]
if pyfunc is None:
# Extract user context by inspecting the call stack
stack = inspect.stack()
try:
user_ctx = stack[-1][0].f_globals
user_ctx['math'] = globals()['math']
user_ctx['ParcelsRandom'] = globals()['ParcelsRandom']
user_ctx['random'] = globals()['random']
user_ctx['StateCode'] = globals()['StateCode']
user_ctx['OperationCode'] = globals()['OperationCode']
user_ctx['ErrorCode'] = globals()['ErrorCode']
except:
logger.warning("Could not access user context when merging kernels")
user_ctx = globals()
finally:
del stack # Remove cyclic references
# Compile and generate Python function from AST
py_mod = parse("")
py_mod.body = [self.py_ast]
exec(compile(py_mod, "<ast>", "exec"), user_ctx)
self.pyfunc = user_ctx[self.funcname]
else:
self.pyfunc = pyfunc
if version_info[0] < 3:
numkernelargs = len(inspect.getargspec(self.pyfunc).args)
else:
numkernelargs = len(inspect.getfullargspec(self.pyfunc).args)
assert numkernelargs == 3, \
'Since Parcels v2.0, kernels do only take 3 arguments: particle, fieldset, time !! AND !! Argument order in field interpolation is time, depth, lat, lon.'
self.name = "%s%s" % (ptype.name, self.funcname)
# Generate the kernel function and add the outer loop
if self.ptype.uses_jit:
kernelgen = KernelGenerator(fieldset, ptype)
kernel_ccode = kernelgen.generate(deepcopy(self.py_ast),
self.funcvars)
self.field_args = kernelgen.field_args
self.vector_field_args = kernelgen.vector_field_args
fieldset = self.fieldset
for f in self.vector_field_args.values():
Wname = f.W.ccode_name if f.W else 'not_defined'
for sF_name, sF_component in zip([f.U.ccode_name, f.V.ccode_name, Wname], ['U', 'V', 'W']):
if sF_name not in self.field_args:
if sF_name != 'not_defined':
self.field_args[sF_name] = getattr(f, sF_component)
self.const_args = kernelgen.const_args
loopgen = LoopGenerator(fieldset, ptype)
if path.isfile(c_include):
with open(c_include, 'r') as f:
c_include_str = f.read()
else:
c_include_str = c_include
self.ccode = loopgen.generate(self.funcname, self.field_args, self.const_args,
kernel_ccode, c_include_str)
if MPI:
mpi_comm = MPI.COMM_WORLD
mpi_rank = mpi_comm.Get_rank()
basename = path.join(get_cache_dir(), self._cache_key) if mpi_rank == 0 else None
basename = mpi_comm.bcast(basename, root=0)
basename = basename + "_%d" % mpi_rank
else:
basename = path.join(get_cache_dir(), "%s_0" % self._cache_key)
self.src_file = "%s.c" % basename
self.lib_file = "%s.%s" % (basename, 'dll' if platform == 'win32' else 'so')
self.log_file = "%s.log" % basename
def __init__(self,
fieldset,
ptype,
pyfunc=None,
funcname=None,
funccode=None,
py_ast=None,
funcvars=None,
c_include=""):
self.fieldset = fieldset
self.ptype = ptype
self._lib = None
# Derive meta information from pyfunc, if not given
self.funcname = funcname or pyfunc.__name__
if pyfunc is AdvectionRK4_3D:
warning = False
if isinstance(fieldset.W, Field) and fieldset.W.creation_log != 'from_nemo' and \
fieldset.W._scaling_factor is not None and fieldset.W._scaling_factor > 0:
warning = True
if type(fieldset.W) in [SummedField, NestedField]:
for f in fieldset.W:
if f.creation_log != 'from_nemo' and f._scaling_factor is not None and f._scaling_factor > 0:
warning = True
if warning:
logger.warning_once(
'Note that in AdvectionRK4_3D, vertical velocity is assumed positive towards increasing z.\n'
' If z increases downward and w is positive upward you can re-orient it downwards by setting fieldset.W.set_scaling_factor(-1.)'
)
if funcvars is not None:
self.funcvars = funcvars
elif hasattr(pyfunc, '__code__'):
self.funcvars = list(pyfunc.__code__.co_varnames)
else:
self.funcvars = None
self.funccode = funccode or inspect.getsource(pyfunc.__code__)
# Parse AST if it is not provided explicitly
self.py_ast = py_ast or parse(fix_indentation(self.funccode)).body[0]
if pyfunc is None:
# Extract user context by inspecting the call stack
stack = inspect.stack()
try:
user_ctx = stack[-1][0].f_globals
user_ctx['math'] = globals()['math']
user_ctx['random'] = globals()['random']
user_ctx['ErrorCode'] = globals()['ErrorCode']
except:
logger.warning(
"Could not access user context when merging kernels")
user_ctx = globals()
finally:
del stack # Remove cyclic references
# Compile and generate Python function from AST
py_mod = Module(body=[self.py_ast])
exec(compile(py_mod, "<ast>", "exec"), user_ctx)
self.pyfunc = user_ctx[self.funcname]
else:
self.pyfunc = pyfunc
assert len(inspect.getargspec(self.pyfunc).args) == 3, \
'Since Parcels v2.0, kernels do only take 3 arguments: particle, fieldset, time !! AND !! Argument order in field interpolation is time, depth, lat, lon.'
self.name = "%s%s" % (ptype.name, self.funcname)
# Generate the kernel function and add the outer loop
if self.ptype.uses_jit:
kernelgen = KernelGenerator(fieldset, ptype)
kernel_ccode = kernelgen.generate(deepcopy(self.py_ast),
self.funcvars)
self.field_args = kernelgen.field_args
self.vector_field_args = kernelgen.vector_field_args
fieldset = self.fieldset
for fname in self.vector_field_args:
f = getattr(fieldset, fname)
Wname = f.W.name if f.W else 'not_defined'
for sF in [f.U.name, f.V.name, Wname]:
if sF not in self.field_args:
try:
self.field_args[sF] = getattr(fieldset, sF)
except:
continue
self.const_args = kernelgen.const_args
loopgen = LoopGenerator(fieldset, ptype)
if path.isfile(c_include):
with open(c_include, 'r') as f:
c_include_str = f.read()
else:
c_include_str = c_include
self.ccode = loopgen.generate(self.funcname, self.field_args,
self.const_args, kernel_ccode,
c_include_str)
basename = path.join(get_cache_dir(), self._cache_key)
self.src_file = "%s.c" % basename
self.lib_file = "%s.%s" % (basename,
'dll' if platform == 'win32' else 'so')
self.log_file = "%s.log" % basename