On the Worst-Case Complexity of TimSort. TimSort is an intriguing sorting algorithm designed in 2002 for Python, whose worst-case complexity was announced, but not proved until our recent preprint. In fact, there are two slightly different versions of TimSort that are currently implemented in Python and in Java respectively. We propose a pedagogical and insightful proof that the Python version runs in O(nlogn). The approach we use in the analysis also applies to the Java version, although not without very involved technical details. As a byproduct of our study, we uncover a bug in the Java implementation that can cause the sorting method to fail during the execution. We also give a proof that Python’s TimSort running time is in O(n+nlogρ), where ρ is the number of runs (i.e. maximal monotonic sequences), which is quite a natural parameter here and part of the explanation for the good behavior of TimSort on partially sorted inputs.
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References in zbMATH (referenced in 2 articles )
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- Auger, Nicolas; Jugé, Vincent; Nicaud, Cyril; Pivoteau, Carine: On the worst-case complexity of timsort (2018)
- Munro, J. Ian; Wild, Sebastian: Nearly-optimal mergesorts: fast, practical sorting methods that optimally adapt to existing runs (2018)