Source code for finesse.utilities.misc

"""Miscellaneous utility functions for any part of Finesse."""

from os import fspath, PathLike
import functools
import re
from itertools import tee
from contextlib import contextmanager, closing, nullcontext
from functools import partial, reduce

import numpy as np


[docs]def reduce_getattr(obj, key: str, delimiter: str = "."): """Applies a nested getattr with reduce to select an attribute of a nested object within `obj`. Parameters ---------- obj : object Object to search key : str Delimited string of attributes delimiter : str, optional Delimiter character of key Returns ------- Attribute of object """ attrs = key.strip().split(delimiter) return reduce(getattr, attrs, obj)
[docs]def calltracker(func): """Decorator used for keeping track of whether the current state is inside the decorated function or not. Sets an attribute `has_been_called` on the function which gets switched on when the function is being executed and switched off after the function has returned. This allows you to query ``func.has_been_called`` for determining whether the code being executed has been called from within `func`. """ @functools.wraps(func) def wrapper(*args, **kwargs): wrapper.has_been_called = True out = func(*args, **kwargs) wrapper.has_been_called = False return out wrapper.has_been_called = False return wrapper
[docs]def valid_name(name): """Validate the specified name.""" return re.compile("^[a-zA-Z_][a-zA-Z0-9_]*$").match(name)
[docs]def check_name(name): """Checks the validity of a component or node name. A name is valid if it contains only alphanumeric characters and underscores, and is not empty. Parameters ---------- name : str The name to check. Returns ------- name : str The name passed to this function if valid. Raises ------ ValueError If `name` contains non-alphanumeric / underscore characters. """ if not valid_name(name): raise ValueError( f"'{name}' can only contain alphanumeric and underscore characters" ) return name
[docs]def pairwise(iterable): """Iterates through each pair in a iterable. Parameters ---------- iterable : :py:class:`collections.abc.Iterable` An iterable object. Returns ------- zip A zip object whose `.next()` method returns a tuple where the i-th element comes from the i-th iterable argument. """ a, b = tee(iterable) next(b, None) return zip(a, b)
[docs]def find(x, value): """Finds `value` in the list `x` and returns its index, returning `None` if `value` is not in the list.""" try: return x.index(value) except ValueError: return None
[docs]def find_nearest(x, value, index=False): idx = np.argmin(np.abs(x - value)) if index: return idx return x[idx]
[docs]def is_iterable(obj): """Reliable check for whether an object is iterable. Note that strings are treated as non-iterable objects when performing this check. This will only return true for iterable non-str objects. Returns ------- flag : bool True if `obj` is iterable, False otherwise. """ try: iter(obj) except Exception: return False else: return not isinstance(obj, str)
[docs]@contextmanager def opened_file(filename, mode): """Get an open file regardless of whether a string or an already open file is passed. Adapted from :func:`numpy.loadtxt`. Parameters ---------- filename : str, :class:`pathlib.Path`, or file-like The path or file object to ensure is open. If `filename` is an already open file object, it is yielded as-is, and is *not* closed after the wrapped context exits. If `filename` is a string, it is opened with the specified `mode` and yielded, then closed once the wrapped context exits. mode : str The mode to open `filename` with, if it is not already open. Yields ------ :class:`io.FileIO` The open file with the specified `mode`. Notes ----- If `filename` is an open file, `mode` is ignored; it is the responsibility of the calling code to check that it is opened with the correct mode. """ if isinstance(filename, PathLike): filename = fspath(filename) if isinstance(filename, str): fid = open(filename, mode) fid_context = closing(fid) else: fid = filename fid_context = nullcontext(fid) with fid_context: yield fid
[docs]def graph_layouts(): """Available NetworkX and graphviz (if installed) graph plotting layouts.""" return {**networkx_layouts(), **graphviz_layouts()}
[docs]def networkx_layouts(): """Available NetworkX graph plotting layouts.""" import inspect import networkx # Excluded layouts. excluded = ( "rescale", # These layouts need the network to first be grouped into sets. "bipartite", "multipartite_layout", ) layouts = {} suffix = "_layout" def find_layouts(members): for name, func in members: if name.startswith("_") or not name.endswith(suffix): # Not a public layout. continue # Strip the "_layout" part. name = name[: -len(suffix)] if name in excluded: continue layouts[name] = func find_layouts(inspect.getmembers(networkx.drawing.layout, inspect.isfunction)) return layouts
[docs]def graphviz_layouts(): """Available graphviz graph plotting layouts.""" import networkx from ..env import has_pygraphviz layouts = {} if has_pygraphviz(): for layout in ["neato", "dot", "fdp", "sfdp", "circo"]: # Returns callable that can be called like `networkx.drawing.layout` members. layouts[layout] = partial( networkx.drawing.nx_agraph.pygraphviz_layout, prog=layout ) return layouts
[docs]def doc_element_parameter_table(cls): """Prints table for a particular element class.""" import finesse from finesse.utilities.tables import Table from IPython.core.display import HTML def process_changeable(pinfo): if pinfo.changeable_during_simulation: return "✓" else: return "✗" headers = ( "Name", "Description", "Units", "Data type", "Can change during simualation", ) tbl = [headers] + [ (p.name, p.description, p.units, p.dtype.__name__, process_changeable(p)) for p in finesse.element.ModelElement._param_dict[cls][::-1] ] if len(tbl) == 0: raise RuntimeError(f"{cls} has no model parameters to display.") a = Table( tbl, headerrow=True, headercolumn=False, alignment=(("left", "left", "center", "center", "center"),), ) for index, p in enumerate(finesse.element.ModelElement._param_dict[cls][::-1]): if p.changeable_during_simulation: a.color[index + 1, 4] = (0, 255, 0) else: a.color[index + 1, 4] = (255, 0, 0) return HTML(a.generate_html_table())
[docs]class DeprecationHelper: """Used for deprecating classes.""" def __init__(self, old_name, new_name, new_target, until_version): self.new_target = new_target self.old_name = old_name self.new_name = new_name self.until_version = until_version self.msg = ( f"{self.old_name} is deprecated as of version {self.until_version}: use " f"instead {self.new_name}" ) def _warn(self): deprecation_warning(self.msg, self.until_version) def __call__(self, *args, **kwargs): self._warn() return self.new_target(*args, **kwargs)
[docs]def deprecation_warning(msg, until_version): """Function that warns a user about a deprecation. If the current version is past when this feature is deprecated it will raise `DeprecationWarning` instead. Parameters ---------- msg : str Message to warn user with. until_version : str PEP 440 version string. After this version an exception is thrown. Raises ------ DeprecationWarning When current version is >= `until_version` """ from warnings import warn from packaging import version from finesse import __version__ as finesse_version if version.parse(finesse_version) >= version.parse(until_version): raise DeprecationWarning(msg) else: warn(msg, DeprecationWarning, stacklevel=4)