PNG  IHDRxsBIT|d pHYs+tEXtSoftwarewww.inkscape.org<,tEXtComment File Manager

File Manager

Path: /opt/alt/python311/lib/python3.11/site-packages/cachetools/

Viewing File: __init__.py

"""Extensible memoizing collections and decorators."""

__all__ = (
    "Cache",
    "FIFOCache",
    "LFUCache",
    "LRUCache",
    "RRCache",
    "TLRUCache",
    "TTLCache",
    "cached",
    "cachedmethod",
)

__version__ = "6.2.2"

import collections
import collections.abc
import functools
import heapq
import random
import time

from . import keys


class _DefaultSize:
    __slots__ = ()

    def __getitem__(self, _key):
        return 1

    def __setitem__(self, _key, _value):
        pass

    def pop(self, _key):
        return 1


class Cache(collections.abc.MutableMapping):
    """Mutable mapping to serve as a simple cache or cache base class."""

    __marker = object()

    __size = _DefaultSize()

    def __init__(self, maxsize, getsizeof=None):
        if getsizeof:
            self.getsizeof = getsizeof
        if self.getsizeof is not Cache.getsizeof:
            self.__size = dict()
        self.__data = dict()
        self.__currsize = 0
        self.__maxsize = maxsize

    def __repr__(self):
        return "%s(%s, maxsize=%r, currsize=%r)" % (
            type(self).__name__,
            repr(self.__data),
            self.__maxsize,
            self.__currsize,
        )

    def __getitem__(self, key):
        try:
            return self.__data[key]
        except KeyError:
            return self.__missing__(key)

    def __setitem__(self, key, value):
        maxsize = self.__maxsize
        size = self.getsizeof(value)
        if size > maxsize:
            raise ValueError("value too large")
        if key not in self.__data or self.__size[key] < size:
            while self.__currsize + size > maxsize:
                self.popitem()
        if key in self.__data:
            diffsize = size - self.__size[key]
        else:
            diffsize = size
        self.__data[key] = value
        self.__size[key] = size
        self.__currsize += diffsize

    def __delitem__(self, key):
        size = self.__size.pop(key)
        del self.__data[key]
        self.__currsize -= size

    def __contains__(self, key):
        return key in self.__data

    def __missing__(self, key):
        raise KeyError(key)

    def __iter__(self):
        return iter(self.__data)

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

    # Note that we cannot simply inherit get(), pop() and setdefault()
    # from MutableMapping, since these rely on __getitem__ throwing a
    # KeyError on cache miss.  This is not the case if __missing__ is
    # implemented for a Cache subclass, so we have to roll our own,
    # somewhat less elegant versions.

    def get(self, key, default=None):
        if key in self:
            return self[key]
        else:
            return default

    def pop(self, key, default=__marker):
        if key in self:
            value = self[key]
            del self[key]
        elif default is self.__marker:
            raise KeyError(key)
        else:
            value = default
        return value

    def setdefault(self, key, default=None):
        if key in self:
            value = self[key]
        else:
            self[key] = value = default
        return value

    @property
    def maxsize(self):
        """The maximum size of the cache."""
        return self.__maxsize

    @property
    def currsize(self):
        """The current size of the cache."""
        return self.__currsize

    @staticmethod
    def getsizeof(value):
        """Return the size of a cache element's value."""
        return 1


class FIFOCache(Cache):
    """First In First Out (FIFO) cache implementation."""

    def __init__(self, maxsize, getsizeof=None):
        Cache.__init__(self, maxsize, getsizeof)
        self.__order = collections.OrderedDict()

    def __setitem__(self, key, value, cache_setitem=Cache.__setitem__):
        cache_setitem(self, key, value)
        try:
            self.__order.move_to_end(key)
        except KeyError:
            self.__order[key] = None

    def __delitem__(self, key, cache_delitem=Cache.__delitem__):
        cache_delitem(self, key)
        del self.__order[key]

    def popitem(self):
        """Remove and return the `(key, value)` pair first inserted."""
        try:
            key = next(iter(self.__order))
        except StopIteration:
            raise KeyError("%s is empty" % type(self).__name__) from None
        else:
            return (key, self.pop(key))


class LFUCache(Cache):
    """Least Frequently Used (LFU) cache implementation."""

    class _Link:
        __slots__ = ("count", "keys", "next", "prev")

        def __init__(self, count):
            self.count = count
            self.keys = set()

        def unlink(self):
            next = self.next
            prev = self.prev
            prev.next = next
            next.prev = prev

    def __init__(self, maxsize, getsizeof=None):
        Cache.__init__(self, maxsize, getsizeof)
        self.__root = root = LFUCache._Link(0)  # sentinel
        root.prev = root.next = root
        self.__links = {}

    def __getitem__(self, key, cache_getitem=Cache.__getitem__):
        value = cache_getitem(self, key)
        if key in self:  # __missing__ may not store item
            self.__touch(key)
        return value

    def __setitem__(self, key, value, cache_setitem=Cache.__setitem__):
        cache_setitem(self, key, value)
        if key in self.__links:
            return self.__touch(key)
        root = self.__root
        link = root.next
        if link.count != 1:
            link = LFUCache._Link(1)
            link.next = root.next
            root.next = link.next.prev = link
            link.prev = root
        link.keys.add(key)
        self.__links[key] = link

    def __delitem__(self, key, cache_delitem=Cache.__delitem__):
        cache_delitem(self, key)
        link = self.__links.pop(key)
        link.keys.remove(key)
        if not link.keys:
            link.unlink()

    def popitem(self):
        """Remove and return the `(key, value)` pair least frequently used."""
        root = self.__root
        curr = root.next
        if curr is root:
            raise KeyError("%s is empty" % type(self).__name__) from None
        key = next(iter(curr.keys))  # remove an arbitrary element
        return (key, self.pop(key))

    def __touch(self, key):
        """Increment use count"""
        link = self.__links[key]
        curr = link.next
        if curr.count != link.count + 1:
            if len(link.keys) == 1:
                link.count += 1
                return
            curr = LFUCache._Link(link.count + 1)
            curr.next = link.next
            link.next = curr.next.prev = curr
            curr.prev = link
        curr.keys.add(key)
        link.keys.remove(key)
        if not link.keys:
            link.unlink()
        self.__links[key] = curr


class LRUCache(Cache):
    """Least Recently Used (LRU) cache implementation."""

    def __init__(self, maxsize, getsizeof=None):
        Cache.__init__(self, maxsize, getsizeof)
        self.__order = collections.OrderedDict()

    def __getitem__(self, key, cache_getitem=Cache.__getitem__):
        value = cache_getitem(self, key)
        if key in self:  # __missing__ may not store item
            self.__touch(key)
        return value

    def __setitem__(self, key, value, cache_setitem=Cache.__setitem__):
        cache_setitem(self, key, value)
        self.__touch(key)

    def __delitem__(self, key, cache_delitem=Cache.__delitem__):
        cache_delitem(self, key)
        del self.__order[key]

    def popitem(self):
        """Remove and return the `(key, value)` pair least recently used."""
        try:
            key = next(iter(self.__order))
        except StopIteration:
            raise KeyError("%s is empty" % type(self).__name__) from None
        else:
            return (key, self.pop(key))

    def __touch(self, key):
        """Mark as recently used"""
        try:
            self.__order.move_to_end(key)
        except KeyError:
            self.__order[key] = None


class RRCache(Cache):
    """Random Replacement (RR) cache implementation."""

    def __init__(self, maxsize, choice=random.choice, getsizeof=None):
        Cache.__init__(self, maxsize, getsizeof)
        self.__choice = choice
        self.__index = {}
        self.__keys = []

    @property
    def choice(self):
        """The `choice` function used by the cache."""
        return self.__choice

    def __setitem__(self, key, value, cache_setitem=Cache.__setitem__):
        cache_setitem(self, key, value)
        if key not in self.__index:
            self.__index[key] = len(self.__keys)
            self.__keys.append(key)

    def __delitem__(self, key, cache_delitem=Cache.__delitem__):
        cache_delitem(self, key)
        index = self.__index.pop(key)
        if index != len(self.__keys) - 1:
            last = self.__keys[-1]
            self.__keys[index] = last
            self.__index[last] = index
        self.__keys.pop()

    def popitem(self):
        """Remove and return a random `(key, value)` pair."""
        try:
            key = self.__choice(self.__keys)
        except IndexError:
            raise KeyError("%s is empty" % type(self).__name__) from None
        else:
            return (key, self.pop(key))


class _TimedCache(Cache):
    """Base class for time aware cache implementations."""

    class _Timer:
        def __init__(self, timer):
            self.__timer = timer
            self.__nesting = 0

        def __call__(self):
            if self.__nesting == 0:
                return self.__timer()
            else:
                return self.__time

        def __enter__(self):
            if self.__nesting == 0:
                self.__time = time = self.__timer()
            else:
                time = self.__time
            self.__nesting += 1
            return time

        def __exit__(self, *exc):
            self.__nesting -= 1

        def __reduce__(self):
            return _TimedCache._Timer, (self.__timer,)

        def __getattr__(self, name):
            return getattr(self.__timer, name)

    def __init__(self, maxsize, timer=time.monotonic, getsizeof=None):
        Cache.__init__(self, maxsize, getsizeof)
        self.__timer = _TimedCache._Timer(timer)

    def __repr__(self, cache_repr=Cache.__repr__):
        with self.__timer as time:
            self.expire(time)
            return cache_repr(self)

    def __len__(self, cache_len=Cache.__len__):
        with self.__timer as time:
            self.expire(time)
            return cache_len(self)

    @property
    def currsize(self):
        with self.__timer as time:
            self.expire(time)
            return super().currsize

    @property
    def timer(self):
        """The timer function used by the cache."""
        return self.__timer

    def clear(self):
        with self.__timer as time:
            self.expire(time)
            Cache.clear(self)

    def get(self, *args, **kwargs):
        with self.__timer:
            return Cache.get(self, *args, **kwargs)

    def pop(self, *args, **kwargs):
        with self.__timer:
            return Cache.pop(self, *args, **kwargs)

    def setdefault(self, *args, **kwargs):
        with self.__timer:
            return Cache.setdefault(self, *args, **kwargs)


class TTLCache(_TimedCache):
    """LRU Cache implementation with per-item time-to-live (TTL) value."""

    class _Link:
        __slots__ = ("key", "expires", "next", "prev")

        def __init__(self, key=None, expires=None):
            self.key = key
            self.expires = expires

        def __reduce__(self):
            return TTLCache._Link, (self.key, self.expires)

        def unlink(self):
            next = self.next
            prev = self.prev
            prev.next = next
            next.prev = prev

    def __init__(self, maxsize, ttl, timer=time.monotonic, getsizeof=None):
        _TimedCache.__init__(self, maxsize, timer, getsizeof)
        self.__root = root = TTLCache._Link()
        root.prev = root.next = root
        self.__links = collections.OrderedDict()
        self.__ttl = ttl

    def __contains__(self, key):
        try:
            link = self.__links[key]  # no reordering
        except KeyError:
            return False
        else:
            return self.timer() < link.expires

    def __getitem__(self, key, cache_getitem=Cache.__getitem__):
        try:
            link = self.__getlink(key)
        except KeyError:
            expired = False
        else:
            expired = not (self.timer() < link.expires)
        if expired:
            return self.__missing__(key)
        else:
            return cache_getitem(self, key)

    def __setitem__(self, key, value, cache_setitem=Cache.__setitem__):
        with self.timer as time:
            self.expire(time)
            cache_setitem(self, key, value)
        try:
            link = self.__getlink(key)
        except KeyError:
            self.__links[key] = link = TTLCache._Link(key)
        else:
            link.unlink()
        link.expires = time + self.__ttl
        link.next = root = self.__root
        link.prev = prev = root.prev
        prev.next = root.prev = link

    def __delitem__(self, key, cache_delitem=Cache.__delitem__):
        cache_delitem(self, key)
        link = self.__links.pop(key)
        link.unlink()
        if not (self.timer() < link.expires):
            raise KeyError(key)

    def __iter__(self):
        root = self.__root
        curr = root.next
        while curr is not root:
            # "freeze" time for iterator access
            with self.timer as time:
                if time < curr.expires:
                    yield curr.key
            curr = curr.next

    def __setstate__(self, state):
        self.__dict__.update(state)
        root = self.__root
        root.prev = root.next = root
        for link in sorted(self.__links.values(), key=lambda obj: obj.expires):
            link.next = root
            link.prev = prev = root.prev
            prev.next = root.prev = link
        self.expire(self.timer())

    @property
    def ttl(self):
        """The time-to-live value of the cache's items."""
        return self.__ttl

    def expire(self, time=None):
        """Remove expired items from the cache and return an iterable of the
        expired `(key, value)` pairs.

        """
        if time is None:
            time = self.timer()
        root = self.__root
        curr = root.next
        links = self.__links
        expired = []
        cache_delitem = Cache.__delitem__
        cache_getitem = Cache.__getitem__
        while curr is not root and not (time < curr.expires):
            expired.append((curr.key, cache_getitem(self, curr.key)))
            cache_delitem(self, curr.key)
            del links[curr.key]
            next = curr.next
            curr.unlink()
            curr = next
        return expired

    def popitem(self):
        """Remove and return the `(key, value)` pair least recently used that
        has not already expired.

        """
        with self.timer as time:
            self.expire(time)
            try:
                key = next(iter(self.__links))
            except StopIteration:
                raise KeyError("%s is empty" % type(self).__name__) from None
            else:
                return (key, self.pop(key))

    def __getlink(self, key):
        value = self.__links[key]
        self.__links.move_to_end(key)
        return value


class TLRUCache(_TimedCache):
    """Time aware Least Recently Used (TLRU) cache implementation."""

    @functools.total_ordering
    class _Item:
        __slots__ = ("key", "expires", "removed")

        def __init__(self, key=None, expires=None):
            self.key = key
            self.expires = expires
            self.removed = False

        def __lt__(self, other):
            return self.expires < other.expires

    def __init__(self, maxsize, ttu, timer=time.monotonic, getsizeof=None):
        _TimedCache.__init__(self, maxsize, timer, getsizeof)
        self.__items = collections.OrderedDict()
        self.__order = []
        self.__ttu = ttu

    def __contains__(self, key):
        try:
            item = self.__items[key]  # no reordering
        except KeyError:
            return False
        else:
            return self.timer() < item.expires

    def __getitem__(self, key, cache_getitem=Cache.__getitem__):
        try:
            item = self.__getitem(key)
        except KeyError:
            expired = False
        else:
            expired = not (self.timer() < item.expires)
        if expired:
            return self.__missing__(key)
        else:
            return cache_getitem(self, key)

    def __setitem__(self, key, value, cache_setitem=Cache.__setitem__):
        with self.timer as time:
            expires = self.__ttu(key, value, time)
            if not (time < expires):
                return  # skip expired items
            self.expire(time)
            cache_setitem(self, key, value)
        # removing an existing item would break the heap structure, so
        # only mark it as removed for now
        try:
            self.__getitem(key).removed = True
        except KeyError:
            pass
        self.__items[key] = item = TLRUCache._Item(key, expires)
        heapq.heappush(self.__order, item)

    def __delitem__(self, key, cache_delitem=Cache.__delitem__):
        with self.timer as time:
            # no self.expire() for performance reasons, e.g. self.clear() [#67]
            cache_delitem(self, key)
        item = self.__items.pop(key)
        item.removed = True
        if not (time < item.expires):
            raise KeyError(key)

    def __iter__(self):
        for curr in self.__order:
            # "freeze" time for iterator access
            with self.timer as time:
                if time < curr.expires and not curr.removed:
                    yield curr.key

    @property
    def ttu(self):
        """The local time-to-use function used by the cache."""
        return self.__ttu

    def expire(self, time=None):
        """Remove expired items from the cache and return an iterable of the
        expired `(key, value)` pairs.

        """
        if time is None:
            time = self.timer()
        items = self.__items
        order = self.__order
        # clean up the heap if too many items are marked as removed
        if len(order) > len(items) * 2:
            self.__order = order = [item for item in order if not item.removed]
            heapq.heapify(order)
        expired = []
        cache_delitem = Cache.__delitem__
        cache_getitem = Cache.__getitem__
        while order and (order[0].removed or not (time < order[0].expires)):
            item = heapq.heappop(order)
            if not item.removed:
                expired.append((item.key, cache_getitem(self, item.key)))
                cache_delitem(self, item.key)
                del items[item.key]
        return expired

    def popitem(self):
        """Remove and return the `(key, value)` pair least recently used that
        has not already expired.

        """
        with self.timer as time:
            self.expire(time)
            try:
                key = next(iter(self.__items))
            except StopIteration:
                raise KeyError("%s is empty" % type(self).__name__) from None
            else:
                return (key, self.pop(key))

    def __getitem(self, key):
        value = self.__items[key]
        self.__items.move_to_end(key)
        return value


_CacheInfo = collections.namedtuple(
    "CacheInfo", ["hits", "misses", "maxsize", "currsize"]
)


def cached(cache, key=keys.hashkey, lock=None, condition=None, info=False):
    """Decorator to wrap a function with a memoizing callable that saves
    results in a cache.

    """
    from ._cached import _wrapper

    if isinstance(condition, bool):
        from warnings import warn

        warn(
            "passing `info` as positional parameter is deprecated",
            DeprecationWarning,
            stacklevel=2,
        )
        info = condition
        condition = None

    def decorator(func):
        if info:
            if isinstance(cache, Cache):

                def make_info(hits, misses):
                    return _CacheInfo(hits, misses, cache.maxsize, cache.currsize)

            elif isinstance(cache, collections.abc.Mapping):

                def make_info(hits, misses):
                    return _CacheInfo(hits, misses, None, len(cache))

            else:

                def make_info(hits, misses):
                    return _CacheInfo(hits, misses, 0, 0)

            return _wrapper(func, cache, key, lock, condition, info=make_info)
        else:
            return _wrapper(func, cache, key, lock, condition)

    return decorator


def cachedmethod(cache, key=keys.methodkey, lock=None, condition=None):
    """Decorator to wrap a class or instance method with a memoizing
    callable that saves results in a cache.

    """
    from ._cachedmethod import _wrapper

    def decorator(method):
        return _wrapper(method, cache, key, lock, condition)

    return decorator
b IDATxytVսϓ22 A@IR :hCiZ[v*E:WũZA ^dQeQ @ !jZ'>gsV仿$|?g)&x-EIENT ;@xT.i%-X}SvS5.r/UHz^_$-W"w)Ɗ/@Z &IoX P$K}JzX:;` &, ŋui,e6mX ԵrKb1ԗ)DADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADADA݀!I*]R;I2$eZ#ORZSrr6mteffu*((Pu'v{DIߔ4^pIm'77WEEE;vƎ4-$]'RI{\I&G :IHJ DWBB=\WR޽m o$K(V9ABB.}jѢv`^?IOȅ} ڶmG}T#FJ`56$-ھ}FI&v;0(h;Б38CӧOWf!;A i:F_m9s&|q%=#wZprrrla A &P\\СC[A#! {olF} `E2}MK/vV)i{4BffV\|ۭX`b@kɶ@%i$K z5zhmX[IXZ` 'b%$r5M4º/l ԃߖxhʔ)[@=} K6IM}^5k㏷݆z ΗÿO:gdGBmyT/@+Vɶ纽z񕏵l.y޴it뭷zV0[Y^>Wsqs}\/@$(T7f.InݺiR$푔n.~?H))\ZRW'Mo~v Ov6oԃxz! S,&xm/yɞԟ?'uaSѽb,8GלKboi&3t7Y,)JJ c[nzӳdE&KsZLӄ I?@&%ӟ۶mSMMњ0iؐSZ,|J+N ~,0A0!5%Q-YQQa3}$_vVrf9f?S8`zDADADADADADADADADAdqP,تmMmg1V?rSI꒟]u|l RCyEf٢9 jURbztѰ!m5~tGj2DhG*{H9)꒟ר3:(+3\?/;TUݭʴ~S6lڧUJ*i$d(#=Yݺd{,p|3B))q:vN0Y.jkק6;SɶVzHJJЀ-utѹսk>QUU\޲~]fFnK?&ߡ5b=z9)^|u_k-[y%ZNU6 7Mi:]ۦtk[n X(e6Bb."8cۭ|~teuuw|ήI-5"~Uk;ZicEmN/:]M> cQ^uiƞ??Ңpc#TUU3UakNwA`:Y_V-8.KKfRitv޲* 9S6ֿj,ՃNOMߤ]z^fOh|<>@Å5 _/Iu?{SY4hK/2]4%it5q]GGe2%iR| W&f*^]??vq[LgE_3f}Fxu~}qd-ږFxu~I N>\;͗O֊:̗WJ@BhW=y|GgwܷH_NY?)Tdi'?խwhlmQi !SUUsw4kӺe4rfxu-[nHtMFj}H_u~w>)oV}(T'ebʒv3_[+vn@Ȭ\S}ot}w=kHFnxg S 0eޢm~l}uqZfFoZuuEg `zt~? b;t%>WTkķh[2eG8LIWx,^\thrl^Ϊ{=dž<}qV@ ⠨Wy^LF_>0UkDuʫuCs$)Iv:IK;6ֲ4{^6եm+l3>݆uM 9u?>Zc }g~qhKwڭeFMM~pМuqǿz6Tb@8@Y|jx](^]gf}M"tG -w.@vOqh~/HII`S[l.6nØXL9vUcOoB\xoǤ'T&IǍQw_wpv[kmO{w~>#=P1Pɞa-we:iǏlHo׈꒟f9SzH?+shk%Fs:qVhqY`jvO'ρ?PyX3lх]˾uV{ݞ]1,MzYNW~̈́ joYn}ȚF߾׮mS]F z+EDxm/d{F{-W-4wY듏:??_gPf ^3ecg ҵs8R2מz@TANGj)}CNi/R~}c:5{!ZHӋӾ6}T]G]7W6^n 9*,YqOZj:P?Q DFL|?-^.Ɵ7}fFh׶xe2Pscz1&5\cn[=Vn[ĶE鎀uˌd3GII k;lNmشOuuRVfBE]ۣeӶu :X-[(er4~LHi6:Ѻ@ԅrST0trk%$Č0ez" *z"T/X9|8.C5Feg}CQ%͞ˣJvL/?j^h&9xF`њZ(&yF&Iݻfg#W;3^{Wo^4'vV[[K';+mӍִ]AC@W?1^{එyh +^]fm~iԵ]AB@WTk̏t uR?l.OIHiYyԶ]Aˀ7c:q}ힽaf6Z~қm(+sK4{^6}T*UUu]n.:kx{:2 _m=sAߤU@?Z-Vކеz왍Nэ{|5 pڶn b p-@sPg]0G7fy-M{GCF'%{4`=$-Ge\ eU:m+Zt'WjO!OAF@ik&t݆ϥ_ e}=]"Wz_.͜E3leWFih|t-wZۍ-uw=6YN{6|} |*={Ѽn.S.z1zjۻTH]흾 DuDvmvK.`V]yY~sI@t?/ϓ. m&["+P?MzovVЫG3-GRR[(!!\_,^%?v@ҵő m`Y)tem8GMx.))A]Y i`ViW`?^~!S#^+ѽGZj?Vģ0.))A꨷lzL*]OXrY`DBBLOj{-MH'ii-ϰ ok7^ )쭡b]UXSְmռY|5*cֽk0B7镹%ڽP#8nȎq}mJr23_>lE5$iwui+ H~F`IjƵ@q \ @#qG0".0" l`„.0! ,AQHN6qzkKJ#o;`Xv2>,tێJJ7Z/*A .@fفjMzkg @TvZH3Zxu6Ra'%O?/dQ5xYkU]Rֽkق@DaS^RSּ5|BeHNN͘p HvcYcC5:y #`οb;z2.!kr}gUWkyZn=f Pvsn3p~;4p˚=ē~NmI] ¾ 0lH[_L hsh_ғߤc_њec)g7VIZ5yrgk̞W#IjӪv>՞y睝M8[|]\շ8M6%|@PZڨI-m>=k='aiRo-x?>Q.}`Ȏ:Wsmu u > .@,&;+!!˱tﭧDQwRW\vF\~Q7>spYw$%A~;~}6¾ g&if_=j,v+UL1(tWake:@Ș>j$Gq2t7S?vL|]u/ .(0E6Mk6hiۺzښOrifޱxm/Gx> Lal%%~{lBsR4*}{0Z/tNIɚpV^#Lf:u@k#RSu =S^ZyuR/.@n&΃z~B=0eg뺆#,Þ[B/?H uUf7y Wy}Bwegל`Wh(||`l`.;Ws?V@"c:iɍL֯PGv6zctM̠':wuW;d=;EveD}9J@B(0iհ bvP1{\P&G7D޴Iy_$-Qjm~Yrr&]CDv%bh|Yzni_ˆR;kg}nJOIIwyuL}{ЌNj}:+3Y?:WJ/N+Rzd=hb;dj͒suݔ@NKMԄ jqzC5@y°hL m;*5ezᕏ=ep XL n?מ:r`۵tŤZ|1v`V뽧_csج'ߤ%oTuumk%%%h)uy]Nk[n 'b2 l.=͜E%gf$[c;s:V-͞WߤWh-j7]4=F-X]>ZLSi[Y*We;Zan(ӇW|e(HNNP5[= r4tP &0<pc#`vTNV GFqvTi*Tyam$ߏWyE*VJKMTfFw>'$-ؽ.Ho.8c"@DADADADADADADADADA~j*֘,N;Pi3599h=goضLgiJ5փy~}&Zd9p֚ e:|hL``b/d9p? fgg+%%hMgXosج, ΩOl0Zh=xdjLmhݻoO[g_l,8a]٭+ӧ0$I]c]:粹:Teꢢ"5a^Kgh,&= =՟^߶“ߢE ܹS J}I%:8 IDAT~,9/ʃPW'Mo}zNƍ쨓zPbNZ~^z=4mswg;5 Y~SVMRXUյڱRf?s:w ;6H:ºi5-maM&O3;1IKeamZh͛7+##v+c ~u~ca]GnF'ټL~PPPbn voC4R,ӟgg %hq}@#M4IÇ Oy^xMZx ) yOw@HkN˖-Sǎmb]X@n+i͖!++K3gd\$mt$^YfJ\8PRF)77Wא!Cl$i:@@_oG I{$# 8磌ŋ91A (Im7֭>}ߴJq7ޗt^ -[ԩSj*}%]&' -ɓ'ꫯVzzvB#;a 7@GxI{j޼ƌ.LÇWBB7`O"I$/@R @eee@۷>}0,ɒ2$53Xs|cS~rpTYYY} kHc %&k.], @ADADADADADADADADA@lT<%''*Lo^={رc5h %$+CnܸQ3fҥK}vUVVs9G R,_{xˇ3o߾;TTTd}馛]uuuG~iԩ@4bnvmvfϞ /Peeeq}}za I~,誫{UWW뮻}_~YƍSMMMYχ֝waw\ďcxꩧtEƍկ_?۷5@u?1kNׯWzz/wy>}zj3 k(ٺuq_Zvf̘:~ ABQ&r|!%KҥKgԞ={<_X-z !CyFUUz~ ABQIIIjݺW$UXXDٳZ~ ABQƍecW$<(~<RSSvZujjjԧOZQu@4 8m&&&jԩg$ď1h ͟?_{768@g =@`)))5o6m3)ѣƌJ;wҿUTT /KZR{~a=@0o<*狔iFɶ[ˎ;T]]OX@?K.ۈxN pppppppppppppppppPfl߾] ,{ァk۶mڿo5BTӦMӴiӴ|r DB2e|An!Dy'tkΝ[A $***t5' "!駟oaDnΝ:t֭[gDШQ06qD;@ x M6v(PiizmZ4ew"@̴ixf [~-Fٱc&IZ2|n!?$@{[HTɏ#@hȎI# _m(F /6Z3z'\r,r!;w2Z3j=~GY7"I$iI.p_"?pN`y DD?: _  Gÿab7J !Bx@0 Bo cG@`1C[@0G @`0C_u V1 aCX>W ` | `!<S `"<. `#c`?cAC4 ?c p#~@0?:08&_MQ1J h#?/`7;I  q 7a wQ A 1 Hp !#<8/#@1Ul7=S=K.4Z?E_$i@!1!E4?`P_  @Bă10#: "aU,xbFY1 [n|n #'vEH:`xb #vD4Y hi.i&EΖv#O H4IŶ}:Ikh @tZRF#(tXҙzZ ?I3l7q@õ|ۍ1,GpuY Ꮿ@hJv#xxk$ v#9 5 }_$c S#=+"K{F*m7`#%H:NRSp6I?sIՖ{Ap$I$I:QRv2$Z @UJ*$]<FO4IENDB`