186 lines
5.8 KiB
Python
186 lines
5.8 KiB
Python
import ast
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import itertools
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import types
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from collections import OrderedDict, Counter, defaultdict
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from types import FrameType, TracebackType
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from typing import (
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Iterator, List, Tuple, Iterable, Callable, Union,
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TypeVar, Mapping,
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)
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from asttokens import ASTText
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T = TypeVar('T')
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R = TypeVar('R')
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def truncate(seq, max_length: int, middle):
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if len(seq) > max_length:
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right = (max_length - len(middle)) // 2
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left = max_length - len(middle) - right
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seq = seq[:left] + middle + seq[-right:]
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return seq
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def unique_in_order(it: Iterable[T]) -> List[T]:
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return list(OrderedDict.fromkeys(it))
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def line_range(atok: ASTText, node: ast.AST) -> Tuple[int, int]:
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"""
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Returns a pair of numbers representing a half open range
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(i.e. suitable as arguments to the `range()` builtin)
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of line numbers of the given AST nodes.
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"""
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if isinstance(node, getattr(ast, "match_case", ())):
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start, _end = line_range(atok, node.pattern)
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_start, end = line_range(atok, node.body[-1])
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return start, end
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else:
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(start, _), (end, _) = atok.get_text_positions(node, padded=False)
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return start, end + 1
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def highlight_unique(lst: List[T]) -> Iterator[Tuple[T, bool]]:
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counts = Counter(lst)
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for is_common, group in itertools.groupby(lst, key=lambda x: counts[x] > 3):
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if is_common:
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group = list(group)
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highlighted = [False] * len(group)
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def highlight_index(f):
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try:
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i = f()
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except ValueError:
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return None
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highlighted[i] = True
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return i
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for item in set(group):
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first = highlight_index(lambda: group.index(item))
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if first is not None:
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highlight_index(lambda: group.index(item, first + 1))
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highlight_index(lambda: -1 - group[::-1].index(item))
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else:
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highlighted = itertools.repeat(True)
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yield from zip(group, highlighted)
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def identity(x: T) -> T:
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return x
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def collapse_repeated(lst, *, collapser, mapper=identity, key=identity):
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keyed = list(map(key, lst))
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for is_highlighted, group in itertools.groupby(
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zip(lst, highlight_unique(keyed)),
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key=lambda t: t[1][1],
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):
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original_group, highlighted_group = zip(*group)
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if is_highlighted:
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yield from map(mapper, original_group)
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else:
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keyed_group, _ = zip(*highlighted_group)
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yield collapser(list(original_group), list(keyed_group))
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def is_frame(frame_or_tb: Union[FrameType, TracebackType]) -> bool:
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assert_(isinstance(frame_or_tb, (types.FrameType, types.TracebackType)))
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return isinstance(frame_or_tb, (types.FrameType,))
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def iter_stack(frame_or_tb: Union[FrameType, TracebackType]) -> Iterator[Union[FrameType, TracebackType]]:
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current: Union[FrameType, TracebackType, None] = frame_or_tb
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while current:
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yield current
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if is_frame(current):
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current = current.f_back
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else:
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current = current.tb_next
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def frame_and_lineno(frame_or_tb: Union[FrameType, TracebackType]) -> Tuple[FrameType, int]:
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if is_frame(frame_or_tb):
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return frame_or_tb, frame_or_tb.f_lineno
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else:
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return frame_or_tb.tb_frame, frame_or_tb.tb_lineno
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def group_by_key_func(iterable: Iterable[T], key_func: Callable[[T], R]) -> Mapping[R, List[T]]:
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# noinspection PyUnresolvedReferences
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"""
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Create a dictionary from an iterable such that the keys are the result of evaluating a key function on elements
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of the iterable and the values are lists of elements all of which correspond to the key.
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>>> def si(d): return sorted(d.items())
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>>> si(group_by_key_func("a bb ccc d ee fff".split(), len))
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[(1, ['a', 'd']), (2, ['bb', 'ee']), (3, ['ccc', 'fff'])]
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>>> si(group_by_key_func([-1, 0, 1, 3, 6, 8, 9, 2], lambda x: x % 2))
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[(0, [0, 6, 8, 2]), (1, [-1, 1, 3, 9])]
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"""
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result = defaultdict(list)
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for item in iterable:
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result[key_func(item)].append(item)
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return result
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class cached_property(object):
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"""
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A property that is only computed once per instance and then replaces itself
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with an ordinary attribute. Deleting the attribute resets the property.
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Based on https://github.com/pydanny/cached-property/blob/master/cached_property.py
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"""
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def __init__(self, func):
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self.__doc__ = func.__doc__
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self.func = func
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def cached_property_wrapper(self, obj, _cls):
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if obj is None:
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return self
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value = obj.__dict__[self.func.__name__] = self.func(obj)
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return value
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__get__ = cached_property_wrapper
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def _pygmented_with_ranges(formatter, code, ranges):
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import pygments
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from pygments.lexers import get_lexer_by_name
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class MyLexer(type(get_lexer_by_name("python3"))):
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def get_tokens(self, text):
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length = 0
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for ttype, value in super().get_tokens(text):
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if any(start <= length < end for start, end in ranges):
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ttype = ttype.ExecutingNode
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length += len(value)
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yield ttype, value
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lexer = MyLexer(stripnl=False)
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try:
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highlighted = pygments.highlight(code, lexer, formatter)
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except Exception:
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# When pygments fails, prefer code without highlighting over crashing
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highlighted = code
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return highlighted.splitlines()
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def assert_(condition, error=""):
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if not condition:
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if isinstance(error, str):
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error = AssertionError(error)
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raise error
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# Copied from the standard traceback module pre-3.11
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def some_str(value):
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try:
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return str(value)
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except:
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return '<unprintable %s object>' % type(value).__name__
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