Ejemplo n.º 1
0
 def __init__(self, chan, subject):
     self.posts = sortedlist(key=lambda post: post.timestamp)
     # postid -> set(replies)
     self.repliesByPostId = {}
     self.subject = subject
     self.timestamp = 0
     self.threadid = getThreadId(subject)
     self.chan = chan
 def prevPermOpt1(self, arr):
     n = len(arr)
     res = [arr[-1]] * n
     from sortedcontainers import sortedlist
     a = sortedlist()
     records = {}
     for i in range(n - 1, -1, -1):
         idx = a.bisect_left(arr[i])  # 找到 小于等于 i 的最大元素
         a.append(arr[i])
         records[arr[i]] = i
         if idx == 0: continue
         else:
             arr[i], arr[records[arr[idx -
                                     1]]] = arr[records[arr[idx -
                                                            1]]], arr[i]
             return arr
Ejemplo n.º 3
0
 def __init__(self, chan):
     self._threads = sortedlist(key=lambda thread: -thread.timestamp)
     self._threadsById = {}
     self.chan = chan
Ejemplo n.º 4
0
def split_equation_set(eqn_set):
    """Split an equation set up into smaller solvable equation sets"""

    # used for tiebreaker of priority key
    n_eq = len(eqn_set.eqns) + 1

    solve_sets = set()

    # keep track of what has been visited
    unique_eqn_combos = set()
    unsolved_eqns = set(eqn_set.eqns)

    # Initialize priority queue with the equations in the input set
    pq = sortedlist([EqnSet().add(eqn) for eqn in eqn_set.eqns],
                    key=methodcaller("key", n_eq))

    while pq:
        eqn_set = pq.pop()

        if eqn_set.is_constrained():
            # set this equation set as solved
            solve_sets.add(eqn_set)
            eqn_set.set_solved()
            unsolved_eqns.difference_update(eqn_set.eqns)

            # discard this equation set from all sets in the pq
            for p in pq:
                p.discard(eqn_set)

            # delete any empty eqn sets and re-sort the pq
            pq = sortedlist(filter(None, pq), key=methodcaller("key", n_eq))

            unique_eqn_combos = set(
                frozenset(eqs.eqns | eqs.vars) for eqs in pq)

        else:
            # add the frontier to the pq
            for eqs in eqn_set.frontier():
                eqn_combo = frozenset(eqs.eqns | eqs.vars)
                if eqn_combo not in unique_eqn_combos:
                    unique_eqn_combos.add(eqn_combo)
                    pq.add(eqs)

    # create eqn set(s) of underconstrained systems
    # TODO: can create multiple unconstrained sets
    if unsolved_eqns:
        underconstrained_set = EqnSet()
        for eqn in unsolved_eqns:
            underconstrained_set.add(eqn)

        underconstrained_set.set_solved()
        solve_sets.add(underconstrained_set)

    # while unsolved_eqns:
    #     eqn = unsolved_eqns.pop()
    #     eqn_set = EqnSet()
    #
    #     connected_eqns = {eqn}
    #
    #     while connected_eqns:
    #         eqn = connected_eqns.pop()
    #         unsolved_eqns.discard(eqn)
    #         eqn_set.add(eqn)
    #
    #         for var in eqn.vars:
    #             connected_eqns.update(eqn for eqn in var.eqns
    #                                       if  eqn not in eqn_set.eqns)
    #
    #     eqn_set.set_solved()
    #     solve_sets.add(eqn_set)

    return solve_sets