Пример #1
0
    def unrank(self, r):
        """
        Returns the subset of s that has rank k.

        EXAMPLES::

            sage: Subsets(3,2).unrank(0)
            {1, 2}
            sage: Subsets([2,4,5],2).unrank(0)
            {2, 4}
        """

        lset = __builtin__.list(self.s)
        n = len(lset)

        if self.k not in range(len(self.s) + 1):
            return None
        elif r >= self.cardinality() or r < 0:
            return None
        else:
            return Set([lset[i] for i in choose_nk.from_rank(r, n, self.k)])
Пример #2
0
    def unrank(self, r):
        """
        Returns the subset of s that has rank k.

        EXAMPLES::

            sage: Subsets(3,2).unrank(0)
            {1, 2}
            sage: Subsets([2,4,5],2).unrank(0)
            {2, 4}
        """

        lset = __builtin__.list(self.s)
        n = len(lset)

        if self.k not in range(len(self.s)+1):
            return None
        elif r >= self.cardinality() or r < 0:
            return None
        else:
            return Set([lset[i] for i in choose_nk.from_rank(r, n, self.k)])
Пример #3
0
    def unrank(self, r):
        """
        Returns the subset of s that has rank k.

        EXAMPLES::

            sage: Subsets(3).unrank(0)
            {}
            sage: Subsets([2,4,5]).unrank(1)
            {2}
        """

        lset = __builtin__.list(self.s)
        n = len(lset)

        if r >= self.cardinality() or r < 0:
            return None
        else:
            for k in range(n + 1):
                bin = binomial(n, k)
                if r >= bin:
                    r = r - bin
                else:
                    return Set([lset[i] for i in choose_nk.from_rank(r, n, k)])
Пример #4
0
    def unrank(self, r):
        """
        Returns the subset of s that has rank k.

        EXAMPLES::

            sage: Subsets(3).unrank(0)
            {}
            sage: Subsets([2,4,5]).unrank(1)
            {2}
        """

        lset = __builtin__.list(self.s)
        n = len(lset)

        if r >= self.cardinality() or r < 0:
            return None
        else:
            for k in range(n+1):
                bin = binomial(n,k)
                if r >= bin:
                    r = r - bin
                else:
                    return Set([lset[i] for i in choose_nk.from_rank(r, n, k)])