public class BubbleSort { public static void main(String[] args) { int len = 10; int[] ary = new int[len]; Random random = new Random(); for (int j = 0; j < len; j++) { ary[j] = random.nextInt(1000); } System.out.println("-------排序前------"); for (int j = 0; j < ary.length; j++) { System.out.print(ary[j] + " "); } /* * 升序, Asc1和Asc2優化了內部循環的比較次數���,比較好 * 總的比較次數: * Asc1、Asc2:(1+n-1)/2*(n-1) ==> n/2*(n-1) ==> n*(n-1)/2 ==>(n^2-n)/2 * Asc: n^2-n */ // orderAsc(ary); // orderAsc2(ary); orderAsc1(ary); //降序����,只需要把判斷大小于 置換一下 } static void orderAsc(int[] ary) { int count = 0;//比較次數 int len = ary.length; for (int j = 0; j < len; j++) {//外層固定循環次數 for (int k = 0; k < len - 1; k++) {//內層固定循環次數 if (ary[k] > ary[k + 1]) { ary[k] = ary[k + 1] + (ary[k + 1] = ary[k]) * 0;//一步交換 /* 交換兩個變量值 * a=a+b * b=a-b * a=a-b */ } count++; } } System.out.println("/n-----orderAsc升序排序后------次數:" + count); for (int j = 0; j < len; j++) { System.out.print(ary[j] + " "); } } static void orderAsc1(int[] ary) { int count = 0;//比較次數 int len = ary.length; for (int j = 0; j < len; j++) {//外層固定循環次數 for (int k = len - 1; k > j; k--) {//內層從多到少遞減比較次數 if (ary[k] < ary[k - 1]) { ary[k] = ary[k - 1] + (ary[k - 1] = ary[k]) * 0;//一步交換 } count++; } } System.out.println("/n-----orderAsc1升序排序后------次數:" + count); for (int j = 0; j < len; j++) { System.out.print(ary[j] + " "); } } static void orderAsc2(int[] ary) { int count = 0;//比較次數 int len = ary.length; for (int j = len - 1; j > 0; j--) {//外層固定循環次數 /* * k < j; 總的比較次數=(n^2-n)/2 */ for (int k = 0; k < j; k++) {//內層從多到少遞減比較次數 if (ary[k] > ary[k + 1]) { ary[k] = ary[k + 1] + (ary[k + 1] = ary[k]) * 0;//一步交換 } count++; } } System.out.println("/n-----orderAsc2升序排序后------次數:" + count); for (int j = 0; j < len; j++) { System.out.print(ary[j] + " "); } } } public class Bubble_CocktailSort { public static void main(String[] args) { int len = 10; int[] ary = new int[len]; Random random = new Random(); for (int j = 0; j < len; j++) { ary[j] = random.nextInt(1000); } /* * 交換次數最小也是1次�����,最大也是(n^2-n)/2次 */ // ary=new int[]{10,9,8,7,6,5,4,3,2,1}; //測試交換次數 // ary=new int[]{1,2,3,4,5,6,7,8,10,9}; //測試交換次數 System.out.println("-------排序前------"); for (int j = 0; j < ary.length; j++) { System.out.print(ary[j] + " "); } orderAsc1(ary); // orderAsc2(ary); //降序���,只需要把判斷大小于 置換一下 } static void orderAsc1(int[] ary) { int compareCount = 0;//比較次數 int changeCount = 0;//交換次數 int len = ary.length; int left = 0, right = len -1, tl, tr; while (left < right) {//外層固定循環次數 tl = left + 1; tr = right - 1; for (int k = left; k < right; k++) {//內層從多到少遞減比較次數, 從左向右 if (ary[k] > ary[k + 1]) {//前大于后�����, 置換 ary[k] = ary[k + 1] + (ary[k + 1] = ary[k]) * 0;//一步交換 changeCount++; tr = k; //一輪中最后一比較的時候���,將k所在索引賦給tr, tr表示以后比較的結束索引值, 從左向右比后����,k表示左邊的索引 } compareCount++; } right = tr; for (int k = right; k > left; k--) {//內層從多到少遞減比較次數, 從右向左 if (ary[k] < ary[k - 1]) {//后小于前 置換 ary[k] = ary[k - 1] + (ary[k - 1] = ary[k]) * 0;//一步交換 changeCount++; tl = k; //一輪中最后一比較的時候��,將k所在索引賦給tl, tl表示以后比較的開始索引值, 從向右向左比后,k表示右邊的索引 } compareCount++; } left = tl; } System.out.println("/n-----orderAsc1升序排序后------比較次數:" + compareCount + ", 交換次數:" + changeCount); for (int j = 0; j < len; j++) { System.out.print(ary[j] + " "); } } //跟orderAsc1的思路沒有區別 static void orderAsc2(int[] ary) { int compareCount = 0;//比較次數 int changeCount = 0;//交換次數 int len = ary.length; int l = 0, r = len -1, tl, tr; for (; l < r; ) {//外層固定循環次數 tl = l + 1; tr = r - 1; /* * 從左向右比�,將大的移到后面 */ for (int k = l; k < r; k++) { if (ary[k] > ary[k + 1]) { int temp = ary[k] + ary[k + 1]; ary[k + 1] = temp - ary[k + 1]; ary[k] = temp - ary[k + 1]; changeCount++; tr = k; } compareCount++; } r = tr; /* * 從右向左比�,將小的移到前面 */ for (int k = r; k > l; k--) { if (ary[k] < ary[k - 1]) { int temp = ary[k] + ary[k - 1]; ary[k - 1] = temp - ary[k - 1]; ary[k] = temp - ary[k - 1]; changeCount++; tl = k; } compareCount++; } l = tl; } System.out.println("/n-----orderAsc2升序排序后------比較次數:" + compareCount + ", 交換次數:" + changeCount); for (int j = 0; j < len; j++) { System.out.print(ary[j] + " "); } } } 
