C#框架里面主要提供了两种排序方式:Array.Sort Linq.Orderby。
List.Sort排序简介
有许多猿猴对Sort原理进行了剖析,Sort排序实际上分为两部分,基于ClR内部排序,基于算法:深度限制快速排序(DepthLimitQuickSort)。基于CLR排序是针对内置类型排序;深度限制快速排序是先快速排序,达到一定深度时,更改为堆排序。核心代码如下:
private void DepthLimitedQuickSort(int left, int right, int depthLimit) { do { if (depthLimit == 0) { try { this.Heapsort(left, right); break; } catch (IndexOutOfRangeException) { throw new ArgumentException(Environment.GetResourceString("Arg_BogusIComparer", new object[] { this.comparer })); } catch (Exception innerException) { throw new InvalidOperationException(Environment.GetResourceString("InvalidOperation_IComparerFailed"), innerException); } } int num = left; int num2 = right; int median = Array.GetMedian(num, num2); try { this.SwapIfGreaterWithItems(num, median); this.SwapIfGreaterWithItems(num, num2); this.SwapIfGreaterWithItems(median, num2); } catch (Exception innerException2) { throw new InvalidOperationException(Environment.GetResourceString("InvalidOperation_IComparerFailed"), innerException2); } object obj = this.keys[median]; do { try { while (this.comparer.Compare(this.keys[num], obj) < 0) { num++; } while (this.comparer.Compare(obj, this.keys[num2]) < 0) { num2--; } } catch (IndexOutOfRangeException) { throw new ArgumentException(Environment.GetResourceString("Arg_BogusIComparer", new object[] { this.comparer })); } catch (Exception innerException3) { throw new InvalidOperationException(Environment.GetResourceString("InvalidOperation_IComparerFailed"), innerException3); } if (num > num2) { break; } if (num < num2) { object obj2 = this.keys[num]; this.keys[num] = this.keys[num2]; this.keys[num2] = obj2; if (this.items != null) { object obj3 = this.items[num]; this.items[num] = this.items[num2]; this.items[num2] = obj3; } } num++; num2--; } while (num <= num2); depthLimit--; if (num2 - left <= right - num) { if (left < num2) { this.DepthLimitedQuickSort(left, num2, depthLimit); } left = num; } else { if (num < right) { this.DepthLimitedQuickSort(num, right, depthLimit); } right = num2; } } while (left < right); }
说明:
1 使用Sort排序时,有可能会打破数组列表的基本顺序。在数据相同的项具有不同含义时,不能使用Sort排序。
2 Array.Sort和List.Sort采用的是同一个排序方法。
Linq.Orderby排序简介
Orderby使用的快速排序,它不会破坏数组列表的基本顺序。排序核心代码如下:
internal int[] Sort(TElement[] elements, int count) { this.ComputeKeys(elements, count); int[] map = new int[count]; for (int index = 0; index < count; ++index) map[index] = index; this.QuickSort(map, 0, count - 1); return map; } private void QuickSort(int[] map, int left, int right) { do { int left1 = left; int right1 = right; int index1 = map[left1 + (right1 - left1 >> 1)]; while (true) { do { if (left1 >= map.Length || this.CompareKeys(index1, map[left1]) <= 0) { while (right1 >= 0 && this.CompareKeys(index1, map[right1]) < 0) --right1; if (left1 <= right1) { if (left1 < right1) { int num = map[left1]; map[left1] = map[right1]; map[right1] = num; } ++left1; --right1; } else break; } else goto label_1; } while (left1 <= right1); break; label_1: ++left1; } if (right1 - left <= right - left1) { if (left < right1) this.QuickSort(map, left, right1); left = left1; } else { if (left1 < right) this.QuickSort(map, left1, right); right = right1; } } while (left < right); }
说明:
1 一般情况下,业务相关的排序过程是不存在相同情况的。所以这个排序陷阱可以忽略
2 如果需要多个阶段的排序实现最终逻辑,且存在排序的位置相同情况时,不建议使用Array.Sort