#
# Utility classes for PyBaMM
#
# The code in this file is adapted from Pints
# (see https://github.com/pints-team/pints)
#
import importlib
import numpy as np
import os
import timeit
import pathlib
import pickle
import pybamm
import numbers
import warnings
from collections import defaultdict
[docs]def root_dir():
"""return the root directory of the PyBaMM install directory"""
return str(pathlib.Path(pybamm.__path__[0]).parent)
class FuzzyDict(dict):
def levenshtein_ratio(self, s, t):
"""
Calculates levenshtein distance between two strings s and t.
Uses the formula from
https://www.datacamp.com/community/tutorials/fuzzy-string-python
"""
# Initialize matrix of zeros
rows = len(s) + 1
cols = len(t) + 1
distance = np.zeros((rows, cols), dtype=int)
# Populate matrix of zeros with the indices of each character of both strings
for i in range(1, rows):
for k in range(1, cols):
distance[i][0] = i
distance[0][k] = k
# Iterate over the matrix to compute the cost of deletions, insertions and/or
# substitutions
for col in range(1, cols):
for row in range(1, rows):
if s[row - 1] == t[col - 1]:
# If the characters are the same in the two strings in a given
# position [i,j] then the cost is 0
cost = 0
else:
# In order to align the results with those of the Python Levenshtein
# package, the cost of a substitution is 2.
cost = 2
distance[row][col] = min(
distance[row - 1][col] + 1, # Cost of deletions
distance[row][col - 1] + 1, # Cost of insertions
distance[row - 1][col - 1] + cost, # Cost of substitutions
)
# Computation of the Levenshtein Distance Ratio
ratio = ((len(s) + len(t)) - distance[row][col]) / (len(s) + len(t))
return ratio
def get_best_matches(self, key):
"""Get best matches from keys"""
key = key.lower()
best_three = []
lowest_score = 0
for k in self.keys():
score = self.levenshtein_ratio(k.lower(), key)
# Start filling out the list
if len(best_three) < 3:
best_three.append((k, score))
# Sort once the list has three elements, using scores
if len(best_three) == 3:
best_three.sort(key=lambda x: x[1], reverse=True)
lowest_score = best_three[-1][1]
# Once list is full, start checking new entries
else:
if score > lowest_score:
# Replace last element with new entry
best_three[-1] = (k, score)
# Sort and update lowest score
best_three.sort(key=lambda x: x[1], reverse=True)
lowest_score = best_three[-1][1]
return [x[0] for x in best_three]
def __getitem__(self, key):
try:
return super().__getitem__(key)
except KeyError:
if "negative electrode sei" in key.lower():
raise KeyError(
f"'{key}' not found. All SEI parameters have been "
"renamed from '...negative electrode SEI...' to '...SEI...'"
)
if "negative electrode lithium plating" in key.lower():
raise KeyError(
f"'{key}' not found. All lithium plating parameters have been "
"renamed from '...negative electrode lithium plating...' "
"to '...lithium plating...'"
)
best_matches = self.get_best_matches(key)
raise KeyError(f"'{key}' not found. Best matches are {best_matches}")
def search(self, key, print_values=False):
"""
Search dictionary for keys containing 'key'. If print_values is True, then
both the keys and values will be printed. Otherwise just the values will
be printed. If no results are found, the best matches are printed.
"""
key = key.lower()
# Sort the keys so results are stored in alphabetical order
keys = list(self.keys())
keys.sort()
results = {}
# Check if any of the dict keys contain the key we are searching for
for k in keys:
if key in k.lower():
results[k] = self[k]
if results == {}:
# If no results, return best matches
best_matches = self.get_best_matches(key)
print(
f"No results for search using '{key}'. Best matches are {best_matches}"
)
elif print_values:
# Else print results, including dict items
print("\n".join("{}\t{}".format(k, v) for k, v in results.items()))
else:
# Just print keys
print("\n".join("{}".format(k) for k in results.keys()))
[docs]class Timer(object):
"""
Provides accurate timing.
Example
-------
timer = pybamm.Timer()
print(timer.time())
"""
def __init__(self):
self._start = timeit.default_timer()
[docs] def reset(self):
"""
Resets this timer's start time.
"""
self._start = timeit.default_timer()
[docs] def time(self):
"""
Returns the time (float, in seconds) since this timer was created,
or since meth:`reset()` was last called.
"""
return TimerTime(timeit.default_timer() - self._start)
class TimerTime:
def __init__(self, value):
"""A string whose value prints in human-readable form"""
self.value = value
def __str__(self):
"""
Formats a (non-integer) number of seconds, returns a string like
"5 weeks, 3 days, 1 hour, 4 minutes, 9 seconds", or "0.0019 seconds".
"""
time = self.value
if time < 1e-6:
return "{:.3f} ns".format(time * 1e9)
if time < 1e-3:
return "{:.3f} us".format(time * 1e6)
if time < 1:
return "{:.3f} ms".format(time * 1e3)
elif time < 60:
return "{:.3f} s".format(time)
output = []
time = int(round(time))
units = [(604800, "week"), (86400, "day"), (3600, "hour"), (60, "minute")]
for k, name in units:
f = time // k
if f > 0 or output:
output.append(str(f) + " " + (name if f == 1 else name + "s"))
time -= f * k
output.append("1 second" if time == 1 else str(time) + " seconds")
return ", ".join(output)
def __add__(self, other):
if isinstance(other, numbers.Number):
return TimerTime(self.value + other)
else:
return TimerTime(self.value + other.value)
def __radd__(self, other):
return self.__add__(other)
def __sub__(self, other):
if isinstance(other, numbers.Number):
return TimerTime(self.value - other)
else:
return TimerTime(self.value - other.value)
def __rsub__(self, other):
if isinstance(other, numbers.Number):
return TimerTime(other - self.value)
def __mul__(self, other):
if isinstance(other, numbers.Number):
return TimerTime(self.value * other)
else:
return TimerTime(self.value * other.value)
def __rmul__(self, other):
return self.__mul__(other)
def __truediv__(self, other):
if isinstance(other, numbers.Number):
return TimerTime(self.value / other)
else:
return TimerTime(self.value / other.value)
def __rtruediv__(self, other):
if isinstance(other, numbers.Number):
return TimerTime(other / self.value)
def __eq__(self, other):
return self.value == other.value
[docs]def load_function(filename):
"""
Load a python function from an absolute or relative path using `importlib`.
Example - pybamm.load_function("pybamm/input/example.py")
Arguments
---------
filename : str
The path of the file containing the function.
Returns
-------
function
The python function loaded from the file.
"""
# Remove `.py` from the file name
if filename.endswith(".py"):
filename = filename.replace(".py", "")
# Replace `lead-acid` with `lead_acid`
if "lead-acid" in filename:
warnings.simplefilter("always", DeprecationWarning)
warnings.warn(
"lead-acid is deprecated, use lead_acid instead", DeprecationWarning
)
filename = filename.replace("lead-acid", "lead_acid")
# Replace `lithium-ion` with `lithium_ion`
if "lithium-ion" in filename:
warnings.simplefilter("always", DeprecationWarning)
warnings.warn(
"lithium-ion is deprecated, use lithium_ion instead", DeprecationWarning
)
filename = filename.replace("lithium-ion", "lithium_ion")
# Assign path to _ and filename to tail
_, tail = os.path.split(filename)
# Strip absolute path to pybamm/input/example.py
if "pybamm" in filename:
root_path = filename[filename.rfind("pybamm") :]
elif os.getcwd() in filename:
root_path = filename.replace(os.getcwd(), "")
root_path = root_path[1:]
else:
root_path = filename
path = root_path.replace("/", ".")
path = path.replace("\\", ".")
module_object = importlib.import_module(path)
return getattr(module_object, tail)
[docs]def rmse(x, y):
"""
Calculate the root-mean-square-error between two vectors x and y, ignoring NaNs
"""
# Check lengths
if len(x) != len(y):
raise ValueError("Vectors must have the same length")
return np.sqrt(np.nanmean((x - y) ** 2))
[docs]def get_infinite_nested_dict():
"""
Return a dictionary that allows infinite nesting without having to define level by
level.
See:
https://stackoverflow.com/questions/651794/whats-the-best-way-to-initialize-a-dict-of-dicts-in-python/652226#652226
Example
-------
>>> import pybamm
>>> d = pybamm.get_infinite_nested_dict()
>>> d["a"] = 1
>>> d["a"]
1
>>> d["b"]["c"]["d"] = 2
>>> d["b"]["c"] == {"d": 2}
True
"""
return defaultdict(get_infinite_nested_dict)
def load(filename):
"""Load a saved object"""
with open(filename, "rb") as f:
obj = pickle.load(f)
return obj
def get_parameters_filepath(path):
"""Returns path if it exists in current working dir,
otherwise get it from package dir"""
if os.path.exists(path):
return path
else:
return os.path.join(pybamm.__path__[0], path)