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* Review the EN heading format. * Fix pythontutor headings. * Fix pythontutor headings. * bug fixes * Fix headings in **/summary.md * Revisit the CN-to-EN translation for Python code using Claude-4.5 * Revisit the CN-to-EN translation for Java code using Claude-4.5 * Revisit the CN-to-EN translation for Cpp code using Claude-4.5. * Fix the dictionary. * Fix cpp code translation for the multipart strings. * Translate Go code to English. * Update workflows to test EN code. * Add EN translation for C. * Add EN translation for CSharp. * Add EN translation for Swift. * Trigger the CI check. * Revert. * Update en/hash_map.md * Add the EN version of Dart code. * Add the EN version of Kotlin code. * Add missing code files. * Add the EN version of JavaScript code. * Add the EN version of TypeScript code. * Fix the workflows. * Add the EN version of Ruby code. * Add the EN version of Rust code. * Update the CI check for the English version code. * Update Python CI check. * Fix cmakelists for en/C code. * Fix Ruby comments
65 lines
2.5 KiB
C#
65 lines
2.5 KiB
C#
/**
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* File: binary_search_insertion.cs
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* Created Time: 2023-08-06
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* Author: hpstory (hpstory1024@163.com)
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*/
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namespace hello_algo.chapter_searching;
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public class binary_search_insertion {
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/* Binary search for insertion point (no duplicate elements) */
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public static int BinarySearchInsertionSimple(int[] nums, int target) {
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int i = 0, j = nums.Length - 1; // Initialize closed interval [0, n-1]
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while (i <= j) {
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int m = i + (j - i) / 2; // Calculate the midpoint index m
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if (nums[m] < target) {
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i = m + 1; // target is in the interval [m+1, j]
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} else if (nums[m] > target) {
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j = m - 1; // target is in the interval [i, m-1]
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} else {
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return m; // Found target, return insertion point m
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}
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}
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// Target not found, return insertion point i
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return i;
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}
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/* Binary search for insertion point (with duplicate elements) */
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public static int BinarySearchInsertion(int[] nums, int target) {
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int i = 0, j = nums.Length - 1; // Initialize closed interval [0, n-1]
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while (i <= j) {
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int m = i + (j - i) / 2; // Calculate the midpoint index m
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if (nums[m] < target) {
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i = m + 1; // target is in the interval [m+1, j]
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} else if (nums[m] > target) {
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j = m - 1; // target is in the interval [i, m-1]
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} else {
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j = m - 1; // The first element less than target is in the interval [i, m-1]
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}
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}
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// Return insertion point i
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return i;
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}
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[Test]
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public void Test() {
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// Array without duplicate elements
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int[] nums = [1, 3, 6, 8, 12, 15, 23, 26, 31, 35];
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Console.WriteLine("\nArray nums = " + nums.PrintList());
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// Binary search for insertion point
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foreach (int target in new int[] { 6, 9 }) {
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int index = BinarySearchInsertionSimple(nums, target);
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Console.WriteLine("Element " + target + "'s insertion point index is " + index);
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}
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// Array with duplicate elements
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nums = [1, 3, 6, 6, 6, 6, 6, 10, 12, 15];
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Console.WriteLine("\nArray nums = " + nums.PrintList());
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// Binary search for insertion point
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foreach (int target in new int[] { 2, 6, 20 }) {
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int index = BinarySearchInsertion(nums, target);
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Console.WriteLine("Element " + target + "'s insertion point index is " + index);
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}
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}
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}
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