# borrowed from https://github.com/arogozhnikov/einops/blob/master/einops/parsing.py
import warnings
import keyword
from typing import List
class AnonymousAxis:
"""Important thing: all instances of this class are not equal to each other"""
def __init__(self, value: str):
self.value = int(value)
if self.value <= 1:
if self.value == 1:
raise EinopsError(
"No need to create anonymous axis of length 1. Report this as an issue"
)
else:
raise EinopsError(
"Anonymous axis should have positive length, not {}".format(
self.value
)
)
def __repr__(self):
return "{}-axis".format(str(self.value))
class ParsedExpression:
"""
non-mutable structure that contains information about one side of expression (e.g. 'b c (h w)')
and keeps some information important for downstream
"""
def __init__(self, expression):
self.identifiers = set()
# that's axes like 2, 3 or 5. Axes with size 1 are exceptional and replaced with empty composition
self.has_non_unitary_anonymous_axes = False
# composition keeps structure of composite axes, see how different corner cases are handled in tests
self.composition = []
if "." in expression:
raise ValueError("Does not support . in the expression.")
bracket_group = None
def add_axis_name(x):
if x is not None:
if x in self.identifiers:
raise ValueError(
'Indexing expression contains duplicate dimension "{}"'.format(
x
)
)
is_number = str.isdecimal(x)
if is_number and int(x) == 1:
# handling the case of anonymous axis of length 1
if bracket_group is None:
self.composition.append([])
else:
pass # no need to think about 1s inside parenthesis
return
is_axis_name, reason = self.check_axis_name(x, return_reason=True)
if not (is_number or is_axis_name):
raise ValueError(
"Invalid axis identifier: {}\n{}".format(x, reason)
)
if is_number:
x = AnonymousAxis(x)
self.identifiers.add(x)
if is_number:
self.has_non_unitary_anonymous_axes = True
if bracket_group is None:
self.composition.append([x])
else:
bracket_group.append(x)
current_identifier = None
for char in expression:
if char in "() ":
add_axis_name(current_identifier)
current_identifier = None
if char == "(":
if bracket_group is not None:
raise ValueError(
"Axis composition is one-level (brackets inside brackets not allowed)"
)
bracket_group = []
elif char == ")":
if bracket_group is None:
raise ValueError("Brackets are not balanced")
self.composition.append(bracket_group)
bracket_group = None
elif str.isalnum(char) or char == "_":
if current_identifier is None:
current_identifier = char
else:
current_identifier += char
else:
raise ValueError("Unknown character '{}'".format(char))
if bracket_group is not None:
raise ValueError(
'Imbalanced parentheses in expression: "{}"'.format(expression)
)
add_axis_name(current_identifier)
def flat_axes_order(self) -> List:
result = []
for composed_axis in self.composition:
assert isinstance(composed_axis, list), "does not work with ellipsis"
for axis in composed_axis:
result.append(axis)
return result
def has_composed_axes(self) -> bool:
# this will ignore 1 inside brackets
for axes in self.composition:
if isinstance(axes, list) and len(axes) > 1:
return True
return False
@staticmethod
def check_axis_name(name: str, return_reason=False):
"""
Valid axes names are python identifiers except keywords,
and additionally should not start or end with underscore
"""
if not str.isidentifier(name):
result = False, "not a valid python identifier"
elif name[0] == "_" or name[-1] == "_":
result = False, "axis name should should not start or end with underscore"
else:
if keyword.iskeyword(name):
warnings.warn(
"It is discouraged to use axes names that are keywords: {}".format(
name
),
RuntimeWarning,
)
if name in ["axis"]:
warnings.warn(
"It is discouraged to use 'axis' as an axis name "
"and will raise an error in future",
FutureWarning,
)
result = True, None
if return_reason:
return result
else:
return result[0]
def __repr__(self) -> str:
return "{name}({composition})".format(
name=self.__class__.__name__, composition=self.composition
)