This commit is contained in:
krahets 2023-04-27 01:28:35 +08:00
parent 969281965e
commit 4eb7734fa9
2 changed files with 164 additions and 38 deletions

View file

View file

@ -49,16 +49,23 @@ comments: true
int choice = choices[i]; int choice = choices[i];
// 剪枝:不允许重复选择元素 且 不允许重复选择相等元素 // 剪枝:不允许重复选择元素 且 不允许重复选择相等元素
if (!selected[i]) { if (!selected[i]) {
// 尝试 // 尝试:做出选择,更新状态
selected[i] = true; // 做出选择 selected[i] = true;
state.add(choice); // 更新状态 state.add(choice);
backtrack(state, choices, selected, res); backtrack(state, choices, selected, res);
// 回退 // 回退:撤销选择,恢复到之前的状态
selected[i] = false; // 撤销选择 selected[i] = false;
state.remove(state.size() - 1); // 恢复到之前的状态 state.remove(state.size() - 1);
} }
} }
} }
/* 全排列 I */
List<List<Integer>> permutationsI(int[] nums) {
List<List<Integer>> res = new ArrayList<List<Integer>>();
backtrack(new ArrayList<Integer>(), nums, new boolean[nums.length], res);
return res;
}
``` ```
=== "C++" === "C++"
@ -76,16 +83,25 @@ comments: true
int choice = choices[i]; int choice = choices[i];
// 剪枝:不允许重复选择元素 且 不允许重复选择相等元素 // 剪枝:不允许重复选择元素 且 不允许重复选择相等元素
if (!selected[i]) { if (!selected[i]) {
// 尝试 // 尝试:做出选择,更新状态
selected[i] = true; // 做出选择 selected[i] = true;
state.push_back(choice); // 更新状态 state.push_back(choice);
backtrack(state, choices, selected, res); backtrack(state, choices, selected, res);
// 回退 // 回退:撤销选择,恢复到之前的状态
selected[i] = false; // 撤销选择 selected[i] = false;
state.pop_back(); // 恢复到之前的状态 state.pop_back();
} }
} }
} }
/* 全排列 I */
vector<vector<int>> permutationsI(vector<int> nums) {
vector<int> state;
vector<bool> selected(nums.size(), false);
vector<vector<int>> res;
backtrack(state, nums, selected, res);
return res;
}
``` ```
=== "Python" === "Python"
@ -103,55 +119,101 @@ comments: true
for i, choice in enumerate(choices): for i, choice in enumerate(choices):
# 剪枝:不允许重复选择元素 # 剪枝:不允许重复选择元素
if not selected[i]: if not selected[i]:
# 尝试 # 尝试:做出选择,更新状态
selected[i] = True # 做出选择 selected[i] = True
state.append(choice) # 更新状态 state.append(choice)
backtrack(state, choices, selected, res) backtrack(state, choices, selected, res)
# 回退 # 回退:撤销选择,恢复到之前的状态
selected[i] = False # 撤销选择 selected[i] = False
state.pop() # 恢复到之前的状态 state.pop()
def permutations_i(nums: list[int]) -> list[list[int]]:
"""全排列 I"""
res = []
backtrack(state=[], choices=nums, selected=[False] * len(nums), res=res)
return res
``` ```
=== "Go" === "Go"
```go title="permutations_i.go" ```go title="permutations_i.go"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsI}
``` ```
=== "JavaScript" === "JavaScript"
```javascript title="permutations_i.js" ```javascript title="permutations_i.js"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsI}
``` ```
=== "TypeScript" === "TypeScript"
```typescript title="permutations_i.ts" ```typescript title="permutations_i.ts"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsI}
``` ```
=== "C" === "C"
```c title="permutations_i.c" ```c title="permutations_i.c"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsI}
``` ```
=== "C#" === "C#"
```csharp title="permutations_i.cs" ```csharp title="permutations_i.cs"
[class]{permutations_i}-[func]{backtrack} /* 回溯算法:全排列 I */
void backtrack(List<int> state, int[] choices, bool[] selected, List<List<int>> res) {
// 当状态长度等于元素数量时,记录解
if (state.Count == choices.Length) {
res.Add(new List<int>(state));
return;
}
// 遍历所有选择
for (int i = 0; i < choices.Length; i++) {
int choice = choices[i];
// 剪枝:不允许重复选择元素 且 不允许重复选择相等元素
if (!selected[i]) {
// 尝试:做出选择,更新状态
selected[i] = true;
state.Add(choice);
backtrack(state, choices, selected, res);
// 回退:撤销选择,恢复到之前的状态
selected[i] = false;
state.RemoveAt(state.Count - 1);
}
}
}
/* 全排列 I */
List<List<int>> permutationsI(int[] nums) {
List<List<int>> res = new List<List<int>>();
backtrack(new List<int>(), nums, new bool[nums.Length], res);
return res;
}
``` ```
=== "Swift" === "Swift"
```swift title="permutations_i.swift" ```swift title="permutations_i.swift"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsI}
``` ```
=== "Zig" === "Zig"
```zig title="permutations_i.zig" ```zig title="permutations_i.zig"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsI}
``` ```
需要重点关注的是,我们引入了一个布尔型数组 `selected` ,它的长度与输入数组长度相等,其中 `selected[i]` 表示 `choices[i]` 是否已被选择。我们利用 `selected` 避免某个元素被重复选择,从而实现剪枝。 需要重点关注的是,我们引入了一个布尔型数组 `selected` ,它的长度与输入数组长度相等,其中 `selected[i]` 表示 `choices[i]` 是否已被选择。我们利用 `selected` 避免某个元素被重复选择,从而实现剪枝。
@ -198,17 +260,24 @@ comments: true
int choice = choices[i]; int choice = choices[i];
// 剪枝:不允许重复选择元素 且 不允许重复选择相等元素 // 剪枝:不允许重复选择元素 且 不允许重复选择相等元素
if (!selected[i] && !duplicated.contains(choice)) { if (!selected[i] && !duplicated.contains(choice)) {
// 尝试 // 尝试:做出选择,更新状态
duplicated.add(choice); // 记录选择过的元素值 duplicated.add(choice); // 记录选择过的元素值
selected[i] = true; // 做出选择 selected[i] = true;
state.add(choice); // 更新状态 state.add(choice);
backtrack(state, choices, selected, res); backtrack(state, choices, selected, res);
// 回退 // 回退:撤销选择,恢复到之前的状态
selected[i] = false; // 撤销选择 selected[i] = false;
state.remove(state.size() - 1); // 恢复到之前的状态 state.remove(state.size() - 1);
} }
} }
} }
/* 全排列 II */
List<List<Integer>> permutationsII(int[] nums) {
List<List<Integer>> res = new ArrayList<List<Integer>>();
backtrack(new ArrayList<Integer>(), nums, new boolean[nums.length], res);
return res;
}
``` ```
=== "C++" === "C++"
@ -227,17 +296,26 @@ comments: true
int choice = choices[i]; int choice = choices[i];
// 剪枝:不允许重复选择元素 且 不允许重复选择相等元素 // 剪枝:不允许重复选择元素 且 不允许重复选择相等元素
if (!selected[i] && duplicated.find(choice) == duplicated.end()) { if (!selected[i] && duplicated.find(choice) == duplicated.end()) {
// 尝试 // 尝试:做出选择,更新状态
duplicated.emplace(choice); // 记录选择过的元素值 duplicated.emplace(choice); // 记录选择过的元素值
selected[i] = true; // 做出选择 selected[i] = true;
state.push_back(choice); // 更新状态 state.push_back(choice);
backtrack(state, choices, selected, res); backtrack(state, choices, selected, res);
// 回退 // 回退:撤销选择,恢复到之前的状态
selected[i] = false; // 撤销选择 selected[i] = false;
state.pop_back(); // 恢复到之前的状态 state.pop_back();
} }
} }
} }
/* 全排列 II */
vector<vector<int>> permutationsII(vector<int> nums) {
vector<int> state;
vector<bool> selected(nums.size(), false);
vector<vector<int>> res;
backtrack(state, nums, selected, res);
return res;
}
``` ```
=== "Python" === "Python"
@ -256,56 +334,104 @@ comments: true
for i, choice in enumerate(choices): for i, choice in enumerate(choices):
# 剪枝:不允许重复选择元素 且 不允许重复选择相等元素 # 剪枝:不允许重复选择元素 且 不允许重复选择相等元素
if not selected[i] and choice not in duplicated: if not selected[i] and choice not in duplicated:
# 尝试 # 尝试:做出选择,更新状态
duplicated.add(choice) # 记录选择过的元素值 duplicated.add(choice) # 记录选择过的元素值
selected[i] = True # 做出选择 selected[i] = True
state.append(choice) # 更新状态 state.append(choice)
backtrack(state, choices, selected, res) backtrack(state, choices, selected, res)
# 回退 # 回退:撤销选择,恢复到之前的状态
selected[i] = False # 撤销选择 selected[i] = False
state.pop() # 恢复到之前的状态 state.pop()
def permutations_ii(nums: list[int]) -> list[list[int]]:
"""全排列 II"""
res = []
backtrack(state=[], choices=nums, selected=[False] * len(nums), res=res)
return res
``` ```
=== "Go" === "Go"
```go title="permutations_ii.go" ```go title="permutations_ii.go"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsII}
``` ```
=== "JavaScript" === "JavaScript"
```javascript title="permutations_ii.js" ```javascript title="permutations_ii.js"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsII}
``` ```
=== "TypeScript" === "TypeScript"
```typescript title="permutations_ii.ts" ```typescript title="permutations_ii.ts"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsII}
``` ```
=== "C" === "C"
```c title="permutations_ii.c" ```c title="permutations_ii.c"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsII}
``` ```
=== "C#" === "C#"
```csharp title="permutations_ii.cs" ```csharp title="permutations_ii.cs"
[class]{permutations_ii}-[func]{backtrack} /* 回溯算法:全排列 II */
void backtrack(List<int> state, int[] choices, bool[] selected, List<List<int>> res) {
// 当状态长度等于元素数量时,记录解
if (state.Count == choices.Length) {
res.Add(new List<int>(state));
return;
}
// 遍历所有选择
ISet<int> duplicated = new HashSet<int>();
for (int i = 0; i < choices.Length; i++) {
int choice = choices[i];
// 剪枝:不允许重复选择元素 且 不允许重复选择相等元素
if (!selected[i] && !duplicated.Contains(choice)) {
// 尝试:做出选择,更新状态
duplicated.Add(choice); // 记录选择过的元素值
selected[i] = true;
state.Add(choice);
backtrack(state, choices, selected, res);
// 回退:撤销选择,恢复到之前的状态
selected[i] = false;
state.RemoveAt(state.Count - 1);
}
}
}
/* 全排列 II */
List<List<int>> permutationsII(int[] nums) {
List<List<int>> res = new List<List<int>>();
backtrack(new List<int>(), nums, new bool[nums.Length], res);
return res;
}
``` ```
=== "Swift" === "Swift"
```swift title="permutations_ii.swift" ```swift title="permutations_ii.swift"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsII}
``` ```
=== "Zig" === "Zig"
```zig title="permutations_ii.zig" ```zig title="permutations_ii.zig"
[class]{}-[func]{backtrack} [class]{}-[func]{backtrack}
[class]{}-[func]{permutationsII}
``` ```
注意,虽然 `selected``duplicated` 都起到剪枝的作用,但他们剪掉的是不同的分支: 注意,虽然 `selected``duplicated` 都起到剪枝的作用,但他们剪掉的是不同的分支: