This commit is contained in:
krahets 2023-06-25 21:59:15 +08:00
parent e4e6cd6bae
commit c0b24f1d8f

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@ -125,15 +125,35 @@ comments: true
=== "Go" === "Go"
```go title="subset_sum_i_naive.go" ```go title="subset_sum_i_naive.go"
[class]{}-[func]{backtrackINaive} /* 回溯算法:子集和 I */
func backtrackSubsetSumINaive(total, target int, state, choices *[]int, res *[][]int) {
// 子集和等于 target 时,记录解
if target == total {
newState := append([]int{}, *state...)
*res = append(*res, newState)
return
}
// 遍历所有选择
for i := 0; i < len(*choices); i++ {
// 剪枝:若子集和超过 target ,则跳过该选择
if total+(*choices)[i] > target {
continue
}
// 尝试:做出选择,更新元素和 total
*state = append(*state, (*choices)[i])
// 进行下一轮选择
backtrackSubsetSumINaive(total+(*choices)[i], target, state, choices, res)
// 回退:撤销选择,恢复到之前的状态
*state = (*state)[:len(*state)-1]
}
}
/* 求解子集和 I包含重复子集 */ /* 求解子集和 I包含重复子集 */
func subsetSumINaive(nums []int, target int) [][]int { func subsetSumINaive(nums []int, target int) [][]int {
s := subset{}
state := make([]int, 0) // 状态(子集) state := make([]int, 0) // 状态(子集)
total := 0 // 子集和 total := 0 // 子集和
res := make([][]int, 0) // 结果列表(子集列表) res := make([][]int, 0) // 结果列表(子集列表)
s.backtrack(total, target, &state, &nums, &res) backtrackSubsetSumINaive(total, target, &state, &nums, &res)
return res return res
} }
``` ```
@ -364,16 +384,38 @@ comments: true
=== "Go" === "Go"
```go title="subset_sum_i.go" ```go title="subset_sum_i.go"
[class]{}-[func]{backtrackI} /* 回溯算法:子集和 I */
func backtrackSubsetSumI(start, target int, state, choices *[]int, res *[][]int) {
// 子集和等于 target 时,记录解
if target == 0 {
newState := append([]int{}, *state...)
*res = append(*res, newState)
return
}
// 遍历所有选择
// 剪枝二:从 start 开始遍历,避免生成重复子集
for i := start; i < len(*choices); i++ {
// 剪枝一:若子集和超过 target ,则直接结束循环
// 这是因为数组已排序,后边元素更大,子集和一定超过 target
if target-(*choices)[i] < 0 {
break
}
// 尝试:做出选择,更新 target, start
*state = append(*state, (*choices)[i])
// 进行下一轮选择
backtrackSubsetSumI(i, target-(*choices)[i], state, choices, res)
// 回退:撤销选择,恢复到之前的状态
*state = (*state)[:len(*state)-1]
}
}
/* 求解子集和 I */ /* 求解子集和 I */
func subsetSumI(nums []int, target int) [][]int { func subsetSumI(nums []int, target int) [][]int {
s := subsetI{}
state := make([]int, 0) // 状态(子集) state := make([]int, 0) // 状态(子集)
sort.Ints(nums) // 对 nums 进行排序 sort.Ints(nums) // 对 nums 进行排序
start := 0 // 遍历起始点 start := 0 // 遍历起始点
res := make([][]int, 0) // 结果列表(子集列表) res := make([][]int, 0) // 结果列表(子集列表)
s.backtrack(start, target, &state, &nums, &res) backtrackSubsetSumI(start, target, &state, &nums, &res)
return res return res
} }
``` ```
@ -614,16 +656,43 @@ comments: true
=== "Go" === "Go"
```go title="subset_sum_ii.go" ```go title="subset_sum_ii.go"
[class]{}-[func]{backtrackII} /* 回溯算法:子集和 II */
func backtrackSubsetSumII(start, target int, state, choices *[]int, res *[][]int) {
// 子集和等于 target 时,记录解
if target == 0 {
newState := append([]int{}, *state...)
*res = append(*res, newState)
return
}
// 遍历所有选择
// 剪枝二:从 start 开始遍历,避免生成重复子集
// 剪枝三:从 start 开始遍历,避免重复选择同一元素
for i := start; i < len(*choices); i++ {
// 剪枝一:若子集和超过 target ,则直接结束循环
// 这是因为数组已排序,后边元素更大,子集和一定超过 target
if target-(*choices)[i] < 0 {
break
}
// 剪枝四:如果该元素与左边元素相等,说明该搜索分支重复,直接跳过
if i > start && (*choices)[i] == (*choices)[i-1] {
continue
}
// 尝试:做出选择,更新 target, start
*state = append(*state, (*choices)[i])
// 进行下一轮选择
backtrackSubsetSumII(i+1, target-(*choices)[i], state, choices, res)
// 回退:撤销选择,恢复到之前的状态
*state = (*state)[:len(*state)-1]
}
}
/* 求解子集和 II */ /* 求解子集和 II */
func subsetSumII(nums []int, target int) [][]int { func subsetSumII(nums []int, target int) [][]int {
s := subsetII{}
state := make([]int, 0) // 状态(子集) state := make([]int, 0) // 状态(子集)
sort.Ints(nums) // 对 nums 进行排序 sort.Ints(nums) // 对 nums 进行排序
start := 0 // 遍历起始点 start := 0 // 遍历起始点
res := make([][]int, 0) // 结果列表(子集列表) res := make([][]int, 0) // 结果列表(子集列表)
s.backtrack(start, target, &state, &nums, &res) backtrackSubsetSumII(start, target, &state, &nums, &res)
return res return res
} }
``` ```