Add to ORKGInternational audienceWe address the non-redundant random generation of k words of length n from a context-free language. Additionally, we want to avoid a prede¯ned set of words. We study the limits of a rejection-based approach, whose time complexity is shown to grow exponentially in k in some cases. We propose an alternative recursive algorithm, whose careful implementation allows for a non-redundant generation of k words of size n in O(kn log n) arithmetic operations after the precomputation of O(n) numbers. The overall complexity is therefore dominated by the generation of k words, and the non-redundancy comes at a negligible cost
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceWe address the non-redundant random generation of k words of length n from a c...
International audienceWe address the non-redundant random generation of k words of length n from a c...
Abstract. We address the non-redundant random generation of k words of length n from a context-free ...
International audienceWe address the non-redundant random generation of k words of length n from a c...
International audienceWe address the non-redundant random generation of k words of length n from a c...
International audienceWe address the non-redundant random generation of k words of length n from a c...
International audienceWe address the non-redundant random generation of $k$ words of length $n$ in a...
International audienceWe address the non-redundant random generation of $k$ words of length $n$ in a...
International audienceWe address the non-redundant random generation of $k$ words of length $n$ in a...
We show that, for every unambiguous context-free language L, a uniform random word of length n in L ...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceWe address the non-redundant random generation of k words of length n from a c...
International audienceWe address the non-redundant random generation of k words of length n from a c...
Abstract. We address the non-redundant random generation of k words of length n from a context-free ...
International audienceWe address the non-redundant random generation of k words of length n from a c...
International audienceWe address the non-redundant random generation of k words of length n from a c...
International audienceWe address the non-redundant random generation of k words of length n from a c...
International audienceWe address the non-redundant random generation of $k$ words of length $n$ in a...
International audienceWe address the non-redundant random generation of $k$ words of length $n$ in a...
International audienceWe address the non-redundant random generation of $k$ words of length $n$ in a...
We show that, for every unambiguous context-free language L, a uniform random word of length n in L ...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...
International audienceThe present work analyzes the redundancy of sets of combinatorial objects prod...