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Insertion sort is a simple sorting algorithm that builds the final sorted array (or list) one item at a time by comparisons. It is much less efficient on large lists than more advanced algorithms such as quicksort, heapsort, or merge sort. However, insertion sort provides several advantages:
This implementation will produce about 30% faster code than the original example. Yaneurao says insertion sort is very useful when the size of array is small or the array is partially organized, therefore an improvement of insertion sort is very important. Surely, the original example is simple; however, it lacks essence of insertion sort.
Introsort or introspective sort is a hybrid sorting algorithm that provides both fast average performance and (asymptotically) optimal worst-case performance. It begins with quicksort, it switches to heapsort when the recursion depth exceeds a level based on (the logarithm of) the number of elements being sorted and it switches to insertion sort when the number of elements is below some threshold.
Insertion sort is widely used for small data sets, while for large data sets an asymptotically efficient sort is used, primarily heapsort, merge sort, or quicksort. Efficient implementations generally use a hybrid algorithm , combining an asymptotically efficient algorithm for the overall sort with insertion sort for small lists at the bottom ...
sort is a generic function in the C++ Standard Library for doing comparison sorting.The function originated in the Standard Template Library (STL).. The specific sorting algorithm is not mandated by the language standard and may vary across implementations, but the worst-case asymptotic complexity of the function is specified: a call to sort must perform no more than O(N log N) comparisons ...
For example, if m is chosen proportional to √ n, then the running time of the final insertion sorts is therefore m ⋅ O(√ n 2) = O(n 3/2). In the worst-case scenarios where almost all the elements are in a few buckets, the complexity of the algorithm is limited by the performance of the final bucket-sorting method, so degrades to O ( n 2 ) .
The Production Quality Compiler-Compiler Project (PQCC) was a long-term project led by William Wulf at Carnegie Mellon University to produce an industrial-strength compiler-compiler. PQCC would produce full, optimizing programming language compilers from descriptions of the programming language and the target machine.
In this sense, it is a hybrid algorithm that combines both merge sort and insertion sort. [9] For small inputs (up to =) its numbers of comparisons equal the lower bound on comparison sorting of ⌈ ! ⌉ . However, for larger inputs the number of comparisons made by the merge-insertion algorithm is bigger than this lower bound.