#
# @BEGIN LICENSE
#
# Psi4: an open-source quantum chemistry software package
#
# Copyright (c) 2007-2023 The Psi4 Developers.
#
# The copyrights for code used from other parties are included in
# the corresponding files.
#
# This file is part of Psi4.
#
# Psi4 is free software; you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License as published by
# the Free Software Foundation, version 3.
#
# Psi4 is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public License along
# with Psi4; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
#
# @END LICENSE
#
"""Module with utility functions used by several Python functions."""
__all__ = [
"all_casings",
"drop_duplicates",
"expand_psivars",
"format_molecule_for_input",
"format_options_for_input",
"get_psifile",
"getattr_ignorecase",
"hold_options_state",
"import_ignorecase",
"kwargs_lower",
"mat2arr",
"prepare_options_for_modules",
"prepare_options_for_set_options",
"provenance_stamp",
"state_to_atomicinput",
]
import os
import ast
import sys
import math
import pickle
import inspect
import warnings
from contextlib import contextmanager
import collections
from typing import Any, Callable, Dict, Iterable, Iterator, List, Optional, Union
from types import ModuleType
import numpy as np
from qcelemental.models import AtomicInput
from psi4 import core
from psi4.metadata import __version__
from .exceptions import ValidationError
from . import p4regex
[docs]
def kwargs_lower(kwargs: Dict[str, Any]) -> Dict[str, Any]:
"""Function to rebuild and return *kwargs* dictionary sanitized. Should be
called by every function that could be called directly by the user.
Parameters
----------
kwargs
Input kwargs for any user-facing function.
Returns
-------
lowered : Dict[str, Any]
Sanitized kwargs with all keys made lowercase. Also turns boolean-like
values into actual booleans. Also turns values lowercase if sensible.
"""
caseless_kwargs = {}
for key, value in kwargs.items():
lkey = key.lower()
if lkey in ['subset', 'banner', 'restart_file', 'write_orbitals']: # only kw for which case matters
lvalue = value
else:
try:
lvalue = value.lower()
except (AttributeError, KeyError):
lvalue = value
if lkey in ['irrep', 'check_bsse', 'linkage', 'bsse_type']:
caseless_kwargs[lkey] = lvalue
elif 'dertype' in lkey:
if p4regex.der0th.match(str(lvalue)):
caseless_kwargs[lkey] = 0
elif p4regex.der1st.match(str(lvalue)):
caseless_kwargs[lkey] = 1
elif p4regex.der2nd.match(str(lvalue)):
caseless_kwargs[lkey] = 2
else:
raise KeyError(f'Derivative type key {key} was not recognized')
elif lvalue is None:
caseless_kwargs[lkey] = None
elif p4regex.yes.match(str(lvalue)):
caseless_kwargs[lkey] = True
elif p4regex.no.match(str(lvalue)):
caseless_kwargs[lkey] = False
else:
caseless_kwargs[lkey] = lvalue
return caseless_kwargs
[docs]
def get_psifile(fileno: int, pidspace: str = str(os.getpid())) -> str:
"""Form full path and filename for psi scratch file.
Parameters
----------
fileno
Psi file, e.g., ``psi.32``.
pidspace
Current namespace. Defaults to ``os.getpid()``.
Returns
-------
flpath : str
Full path and filename for psi file.
"""
psioh = core.IOManager.shared_object()
psio = core.IO.shared_object()
filepath = psioh.get_file_path(fileno)
namespace = psio.get_default_namespace()
targetfile = filepath + 'psi' + '.' + pidspace + '.' + namespace + '.' + str(fileno)
return targetfile
[docs]
def drop_duplicates(seq: Iterable) -> List:
"""Return a copy of collection *seq* without any duplicate entries.
Parameters
----------
seq
Collection to be de-duplicated. There is no guarantee of which
duplicate entry is dropped.
"""
noDupes = []
[noDupes.append(i) for i in seq if not noDupes.count(i)]
return noDupes
[docs]
def all_casings(input_string: str) -> Iterator[str]:
"""Return a generator of all lettercase permutations of `input_string`.
Parameters
----------
input_string
String of which to permute the case.
"""
if not input_string:
yield ""
else:
first = input_string[:1]
if first.lower() == first.upper():
for sub_casing in all_casings(input_string[1:]):
yield first + sub_casing
else:
for sub_casing in all_casings(input_string[1:]):
yield first.lower() + sub_casing
yield first.upper() + sub_casing
[docs]
def getattr_ignorecase(module: str, attr: str):
"""Extract attribute *attr* from *module* if *attr*
is available in any possible lettercase permutation.
Parameters
----------
module
Object on which to seek `attr`.
attr
Name of attribute with uncertain case.
Returns
-------
attribute : Any
Module attribute returned if available. None if not.
"""
obj_attr = None
for permutation in list(all_casings(attr)):
try:
getattr(module, permutation)
except AttributeError:
pass
else:
obj_attr = getattr(module, permutation)
break
return obj_attr
[docs]
def import_ignorecase(module: str) -> ModuleType:
"""Import loader for *module* in any possible lettercase permutation.
Parameters
----------
module
Name of module with uncertain case.
Returns
-------
types.ModuleType
Module object.
"""
modobj = None
for permutation in list(all_casings(module)):
try:
modobj = __import__(permutation)
except ImportError:
pass
else:
break
return modobj
_modules = [
# Psi4 Modules
"CCENERGY",
"CCEOM",
"CCDENSITY",
"CCLAMBDA",
"CCHBAR",
"CCRESPONSE",
"CCTRANSORT",
"CCTRIPLES",
"CPHF",
"DCT",
"DETCI",
"DFEP2",
"DFMP2",
"DFOCC",
"DLPNO",
"DMRG",
"EFP",
"FINDIF",
"FISAPT",
"FNOCC",
"GDMA",
"MCSCF",
"MINTS",
"MRCC",
"OCC",
"OPTKING",
"PCM",
"PE",
"PSIMRCC",
"RESPONSE",
"SAPT",
"SCF",
"THERMO",
# External Modules
"CFOUR",
]
[docs]
@contextmanager
def hold_options_state() -> Iterator[None]:
"""Return a context manager that will collect the current state of
``Process:environment.options`` on entry to the with-statement and clear
and restore the collected keywords state when exiting the with-statement.
"""
pofm = prepare_options_for_modules(
changedOnly=True, commandsInsteadDict=False, globalsOnly=False, stateInsteadMediated=True
)
yield
_reset_pe_options(pofm)
def _reset_pe_options(pofm: Dict):
"""Acts on ``Process::environment.options`` to clear it, then set it to
state encoded in `pofm`.
Parameters
----------
pofm
Result of :py:func:`prepare_options_for_modules` with
``changedOnly=True``, ``commandsInsteadDict=False``, and
``stateInsteadMediated=True``.
"""
core.clean_options()
for go, dgo in pofm['GLOBALS'].items():
if dgo['has_changed']:
core.set_global_option(go, dgo['value'])
for module in _modules:
for lo, dlo in pofm[module].items():
if dlo['has_changed']:
core.set_local_option(module, lo, dlo['value'])
## this is a more defensive version if defaults may have changed
# for go, dgo in pofm['GLOBALS'].items():
# core.set_global_option(go, dgo['value'])
# if not dgo['has_changed']:
# core.revoke_global_option_changed(go)
# for module in _modules:
# for lo, dlo in pofm[module].items():
# core.set_local_option(module, lo, dlo['value'])
# if not dlo['has_changed']:
# core.revoke_local_option_changed(module, lo)
[docs]
def prepare_options_for_modules(
changedOnly: bool = False,
commandsInsteadDict: bool = False,
globalsOnly: bool = False,
stateInsteadMediated: bool = False,
) -> Union[Dict, str]:
"""Capture current state of :py:class:`psi4.core.Options` information.
Parameters
----------
changedOnly
Record info only for options that have been set (may still be default).
When False, records values for every option.
commandsInsteadDict
Return string of commands to exec to reset options in current form.
When False, return nested dictionary with globals in 'GLOBALS' subdictionary
and locals in subdictionaries by module.
globalsOnly
Record only global options to save time querying the
:py:class:`~psi4.core.Options` object.
When False, record module-level options, too.
stateInsteadMediated
When ``True``, querying this function for options to be later *reset* into the same
state -- the raw values and has_changed status at the global and local levels.
When ``False``, querying this function for mediated options to be *used* -- the results
of the globals/locals handshake as computed by the Options object itself. Here,
``dict[module][option][value]`` is the value to be used by module.
Returns
-------
Dict
When `commandsInsteadDict` is False.
str
When `commandsInsteadDict` is True.
.. caution:: Some features are not yet implemented. Buy a developer a coffee.
- command return doesn't revoke has_changed setting for unchanged with changedOnly=False
- not all kwargs are independent
"""
has_changed_snapshot = {module: core.options_to_python(module) for module in _modules}
options = collections.defaultdict(dict)
commands = ''
for opt in core.get_global_option_list():
hoc = core.has_global_option_changed(opt)
if hoc or not changedOnly:
if opt in ['DFT_CUSTOM_FUNCTIONAL', 'EXTERN']: # Feb 2017 hack
continue
val = core.get_global_option(opt)
options['GLOBALS'][opt] = {'value': val, 'has_changed': hoc}
if isinstance(val, str):
commands += """core.set_global_option('%s', '%s')\n""" % (opt, val)
else:
commands += """core.set_global_option('%s', %s)\n""" % (opt, val)
if globalsOnly:
continue
opt_snapshot = {k: v[opt] for k, v in has_changed_snapshot.items() if opt in v}
for module, (lhoc, ohoc) in opt_snapshot.items():
if stateInsteadMediated:
hoc = lhoc
else:
hoc = ohoc
if hoc or not changedOnly:
if stateInsteadMediated:
val = core.get_local_option(module, opt)
else:
val = core.get_option(module, opt)
options[module][opt] = {'value': val, 'has_changed': hoc}
if isinstance(val, str):
commands += """core.set_local_option('%s', '%s', '%s')\n""" % (module, opt, val)
else:
commands += """core.set_local_option('%s', '%s', %s)\n""" % (module, opt, val)
if commandsInsteadDict:
return commands
else:
return options
[docs]
def prepare_options_for_set_options() -> Dict[str, Any]:
"""Collect current state of :py:class:`psi4.core.Options` information for
reloading by :py:func:`~psi4.driver.p4util.set_options`.
Returns
-------
Dict[str, Any]
Dictionary where keys are keyword names, either plain for those to be
set globally or mangled "module__keyword" for those to be set locally,
and values are keyword values.
"""
flat_options = {}
has_changed_snapshot = {module: core.options_to_python(module) for module in _modules}
for opt in core.get_global_option_list():
handled_locally = False
ghoc = core.has_global_option_changed(opt)
opt_snapshot = {k: v[opt] for k, v in has_changed_snapshot.items() if opt in v}
for module, (lhoc, ohoc) in opt_snapshot.items():
if ohoc:
if lhoc:
key = module + '__' + opt
val = core.get_local_option(module, opt)
else:
key = opt
val = core.get_global_option(opt)
handled_locally = True
flat_options[key] = val
if ghoc and not handled_locally:
# some options are globals section (not level) so not in any module
flat_options[opt] = core.get_global_option(opt)
# The normal machinery to forward plugin options to Psi goes through 'plugin_load'.
# Forte doesn't use this. Pending a larger options rewrite (move to a Python dictionary?),
# we need the following dirty hack.
try:
import forte # Needed for Forte options to run.
except ImportError:
pass
else:
# Initialization tasks with Psi options
psi_options = core.get_options()
current_module = psi_options.get_current_module()
# Get the current Forte options from Forte
forte_options = forte.ForteOptions()
forte.register_forte_options(forte_options)
psi_options.set_current_module("FORTE")
try:
forte_options.get_options_from_psi4(psi_options)
except RuntimeError:
# If we're in this case, Forte hasn't pushed its options to Psi.
pass
else:
# Load changed Forte options into `flat_options`
for name, metadata in forte_options.dict().items():
if metadata["value"] != metadata["default_value"]:
flat_options[f"forte__{name.lower()}"] = metadata["value"]
finally:
# Restore current module
psi_options.set_current_module(current_module)
return flat_options
[docs]
def mat2arr(mat: core.Matrix) -> List[List[float]]:
"""Convert Matrix to List.
Parameters
----------
mat
|PSIfour| matrix. Should be flat with respect to symmetry.
Returns
-------
List[List[float]]
Pure Python representation of `mat`.
"""
warnings.warn(
"Using `psi4.driver.p4util.mat2arr` instead of `MatrixInstance.to_array().tolist()` is deprecated, and as soon as 1.4 it will stop working\n",
category=FutureWarning,
stacklevel=2)
if mat.rowdim().n() != 1:
raise ValidationError('Cannot convert Matrix with symmetry.')
arr = []
for row in range(mat.rowdim()[0]):
temp = []
for col in range(mat.coldim()[0]):
temp.append(mat.get(row, col))
arr.append(temp)
return arr
[docs]
def expand_psivars(
pvdefs: Dict[str, Dict[str, Union[List[str], Callable]]],
verbose: Optional[int] = None):
"""From rules on building QCVariables from others, set new variables to
P::e if all the contributors are available.
Parameters
----------
pvdefs
Dictionary with keys with names of QCVariables to be created and values
with dictionary of two keys: 'args', the QCVariables that contribute to
the key and 'func', a function (or lambda) to combine them.
verbose
Control print level. If unspecified (None), value taken from
:term:`PRINT <PRINT (GLOBALS)>`. Status printing when verbose > 2.
Examples
--------
>>> pv1 = dict()
>>> pv1['SAPT CCD DISP'] = {'func': lambda x: x[0] * x[1] + x[2] + x[3] + x[4],
'args': ['SAPT EXCHSCAL', 'SAPT EXCH-DISP20 ENERGY', 'SAPT DISP2(CCD) ENERGY',
'SAPT DISP22(S)(CCD) ENERGY', 'SAPT EST.DISP22(T)(CCD) ENERGY']}
>>> pv1['SAPT0 ELST ENERGY'] = {'func': sum, 'args': ['SAPT ELST10,R ENERGY']}
>>> expand_psivars(pv1)
"""
if verbose is None:
verbose = core.get_global_option('PRINT')
for pvar, action in pvdefs.items():
if verbose >= 2:
print("""building %s %s""" % (pvar, '.' * (50 - len(pvar))), end='')
psivars = core.scalar_variables()
data_rich_args = []
for pv in action['args']:
if isinstance(pv, str):
if pv in psivars:
data_rich_args.append(psivars[pv])
else:
if verbose >= 2:
print("""EMPTY, missing {}""".format(pv))
break
else:
data_rich_args.append(pv)
else:
result = action['func'](data_rich_args)
core.set_variable(pvar, result)
if verbose >= 2:
print("""SUCCESS""")
[docs]
def provenance_stamp(routine: str, module: str = None) -> Dict[str, str]:
"""Prepare QCSchema Provenance with |PSIfour| credentials.
Parameters
----------
routine
Name of driver function generating the QCSchema.
module
Primary contributing |PSIfour| library, like ``ccenergy`` or ``dfmp2``.
Returns
-------
provenance : Dict[str, str]
Dictionary satisfying QCSchema, with |PSIfour| credentials for creator
and version.
https://github.com/MolSSI/QCSchema/blob/master/qcschema/dev/definitions.py#L23-L41
"""
prov = {'creator': 'Psi4', 'version': __version__, 'routine': routine}
if module:
prov["module"] = module
return prov