/** * File: subset_sum_ii.kt * Created Time: 2024-01-25 * Author: curtishd (1023632660@qq.com) */ package chapter_backtracking.subset_sum_ii /* Backtracking algorithm: Subset Sum II */ fun backtrack( state: MutableList, target: Int, choices: IntArray, start: Int, res: MutableList?> ) { // When the subset sum equals target, record the solution if (target == 0) { res.add(state.toMutableList()) return } // Traverse all choices // Pruning two: start traversing from start to avoid generating duplicate subsets // Pruning three: start traversing from start to avoid repeatedly selecting the same element for (i in start.. start && choices[i] == choices[i - 1]) { continue } // Attempt: make a choice, update target, start state.add(choices[i]) // Proceed to the next round of selection backtrack(state, target - choices[i], choices, i + 1, res) // Retract: undo the choice, restore to the previous state state.removeAt(state.size - 1) } } /* Solve Subset Sum II */ fun subsetSumII(nums: IntArray, target: Int): MutableList?> { val state = mutableListOf() // State (subset) nums.sort() // Sort nums val start = 0 // Start point for traversal val res = mutableListOf?>() // Result list (subset list) backtrack(state, target, nums, start, res) return res } /* Driver Code */ fun main() { val nums = intArrayOf(4, 4, 5) val target = 9 val res = subsetSumII(nums, target) println("Input array nums = ${nums.contentToString()}, target = $target") println("All subsets equal to $target res = $res") }