jmg
/
gitmirror


			
							import sys
import os
from functools import reduce
from ast import literal_eval
from collections import deque

class fzset(frozenset):
    def __repr__(self):
        return '{%s}' % ', '.join(map(repr, self))


def classify_bool(seq, pred):
    true_elems = []
    false_elems = []

    for elem in seq:
        if pred(elem):
            true_elems.append(elem)
        else:
            false_elems.append(elem)

    return true_elems, false_elems


def bfs(initial, expand):
    open_q = deque(list(initial))
    visited = set(open_q)
    while open_q:
        node = open_q.popleft()
        yield node
        for next_node in expand(node):
            if next_node not in visited:
                visited.add(next_node)
                open_q.append(next_node)


def _serialize(value, memo):
    if isinstance(value, Serialize):
        return value.serialize(memo)
    elif isinstance(value, list):
        return [_serialize(elem, memo) for elem in value]
    elif isinstance(value, frozenset):
        return list(value)  # TODO reversible?
    elif isinstance(value, dict):
        return {key:_serialize(elem, memo) for key, elem in value.items()}
    return value

###{standalone
def classify(seq, key=None, value=None):
    d = {}
    for item in seq:
        k = key(item) if (key is not None) else item
        v = value(item) if (value is not None) else item
        if k in d:
            d[k].append(v)
        else:
            d[k] = [v]
    return d


def _deserialize(data, namespace, memo):
    if isinstance(data, dict):
        if '__type__' in data: # Object
            class_ = namespace[data['__type__']]
            return class_.deserialize(data, memo)
        elif '@' in data:
            return memo[data['@']]
        return {key:_deserialize(value, namespace, memo) for key, value in data.items()}
    elif isinstance(data, list):
        return [_deserialize(value, namespace, memo) for value in data]
    return data


class Serialize(object):
    def memo_serialize(self, types_to_memoize):
        memo = SerializeMemoizer(types_to_memoize)
        return self.serialize(memo), memo.serialize()

    def serialize(self, memo=None):
        if memo and memo.in_types(self):
            return {'@': memo.memoized.get(self)}

        fields = getattr(self, '__serialize_fields__')
        res = {f: _serialize(getattr(self, f), memo) for f in fields}
        res['__type__'] = type(self).__name__
        postprocess = getattr(self, '_serialize', None)
        if postprocess:
            postprocess(res, memo)
        return res

    @classmethod
    def deserialize(cls, data, memo):
        namespace = getattr(cls, '__serialize_namespace__', {})
        namespace = {c.__name__:c for c in namespace}

        fields = getattr(cls, '__serialize_fields__')

        if '@' in data:
            return memo[data['@']]

        inst = cls.__new__(cls)
        for f in fields:
            try:
                setattr(inst, f, _deserialize(data[f], namespace, memo))
            except KeyError as e:
                raise KeyError("Cannot find key for class", cls, e)
        postprocess = getattr(inst, '_deserialize', None)
        if postprocess:
            postprocess()
        return inst


class SerializeMemoizer(Serialize):
    __serialize_fields__ = 'memoized',

    def __init__(self, types_to_memoize):
        self.types_to_memoize = tuple(types_to_memoize)
        self.memoized = Enumerator()

    def in_types(self, value):
        return isinstance(value, self.types_to_memoize)

    def serialize(self):
        return _serialize(self.memoized.reversed(), None)

    @classmethod
    def deserialize(cls, data, namespace, memo):
        return _deserialize(data, namespace, memo)


try:
    STRING_TYPE = basestring
except NameError:   # Python 3
    STRING_TYPE = str


import types
from functools import wraps, partial
from contextlib import contextmanager

Str = type(u'')
try:
    classtype = types.ClassType # Python2
except AttributeError:
    classtype = type    # Python3

def smart_decorator(f, create_decorator):
    if isinstance(f, types.FunctionType):
        return wraps(f)(create_decorator(f, True))

    elif isinstance(f, (classtype, type, types.BuiltinFunctionType)):
        return wraps(f)(create_decorator(f, False))

    elif isinstance(f, types.MethodType):
        return wraps(f)(create_decorator(f.__func__, True))

    elif isinstance(f, partial):
        # wraps does not work for partials in 2.7: https://bugs.python.org/issue3445
        return wraps(f.func)(create_decorator(lambda *args, **kw: f(*args[1:], **kw), True))

    else:
        return create_decorator(f.__func__.__call__, True)

import sys, re
Py36 = (sys.version_info[:2] >= (3, 6))

import sre_parse
import sre_constants
def get_regexp_width(regexp):
    try:
        return [int(x) for x in sre_parse.parse(regexp).getwidth()]
    except sre_constants.error:
        raise ValueError(regexp)

###}


def dedup_list(l):
    """Given a list (l) will removing duplicates from the list,
       preserving the original order of the list. Assumes that
       the list entrie are hashable."""
    dedup = set()
    return [ x for x in l if not (x in dedup or dedup.add(x))]


try:
    from contextlib import suppress     # Python 3
except ImportError:
    @contextmanager
    def suppress(*excs):
        '''Catch and dismiss the provided exception

        >>> x = 'hello'
        >>> with suppress(IndexError):
        ...     x = x[10]
        >>> x
        'hello'
        '''
        try:
            yield
        except excs:
            pass


try:
    compare = cmp
except NameError:
    def compare(a, b):
        if a == b:
            return 0
        elif a > b:
            return 1
        return -1


class Enumerator(Serialize):
    def __init__(self):
        self.enums = {}

    def get(self, item):
        if item not in self.enums:
            self.enums[item] = len(self.enums)
        return self.enums[item]

    def __len__(self):
        return len(self.enums)

    def reversed(self):
        r = {v: k for k, v in self.enums.items()}
        assert len(r) == len(self.enums)
        return r


def eval_escaping(s):
    w = ''
    i = iter(s)
    for n in i:
        w += n
        if n == '\\':
            try:
                n2 = next(i)
            except StopIteration:
                raise ValueError("Literal ended unexpectedly (bad escaping): `%r`" % s)
            if n2 == '\\':
                w += '\\\\'
            elif n2 not in 'uxnftr':
                w += '\\'
            w += n2
    w = w.replace('\\"', '"').replace("'", "\\'")

    to_eval = "u'''%s'''" % w
    try:
        s = literal_eval(to_eval)
    except SyntaxError as e:
        raise ValueError(s, e)

    return s


def combine_alternatives(lists):
    """
    Accepts a list of alternatives, and enumerates all their possible concatinations.

    Examples:
        >>> combine_alternatives([range(2), [4,5]])
        [[0, 4], [0, 5], [1, 4], [1, 5]]

        >>> combine_alternatives(["abc", "xy", '$'])
        [['a', 'x', '$'], ['a', 'y', '$'], ['b', 'x', '$'], ['b', 'y', '$'], ['c', 'x', '$'], ['c', 'y', '$']]

        >>> combine_alternatives([])
        [[]]
    """
    if not lists:
        return [[]]
    assert all(l for l in lists), lists
    init = [[x] for x in lists[0]]
    return reduce(lambda a,b: [i+[j] for i in a for j in b], lists[1:], init)


class FS:
    open = open
    exists = os.path.exists