feat(csharp): add csharp code for charper dynamic programming (#574)

* feat(csharp): add csharp code for charper dynamic programming

* add climbing_stairs_constraint_dp
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hpstory 1 year ago committed by GitHub
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@ -0,0 +1,41 @@
/**
* File: climbing_stairs_backtrack.cs
* Created Time: 2023-06-30
* Author: hpstory (hpstory1024@163.com)
*/
namespace hello_algo.chapter_dynamic_programming;
public class climbing_stairs_backtrack {
/* 回溯 */
public void backtrack(List<int> choices, int state, int n, List<int> res) {
// 当爬到第 n 阶时,方案数量加 1
if (state == n)
res[0]++;
// 遍历所有选择
foreach (int choice in choices) {
// 剪枝:不允许越过第 n 阶
if (state + choice > n)
break;
// 尝试:做出选择,更新状态
backtrack(choices, state + choice, n, res);
// 回退
}
}
/* 爬楼梯:回溯 */
public int climbingStairsBacktrack(int n) {
List<int> choices = new List<int> { 1, 2 }; // 可选择向上爬 1 或 2 阶
int state = 0; // 从第 0 阶开始爬
List<int> res = new List<int> { 0 }; // 使用 res[0] 记录方案数量
backtrack(choices, state, n, res);
return res[0];
}
[Test]
public void Test() {
int n = 9;
int res = climbingStairsBacktrack(n);
Console.WriteLine($"爬 {n} 阶楼梯共有 {res} 种方案");
}
}

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/**
* File: climbing_stairs_constraint_dp.cs
* Created Time: 2023-07-03
* Author: hpstory (hpstory1024@163.com)
*/
namespace hello_algo.chapter_dynamic_programming;
public class climbing_stairs_constraint_dp {
/* 带约束爬楼梯:动态规划 */
public int climbingStairsConstraintDP(int n) {
if (n == 1 || n == 2) {
return n;
}
// 初始化 dp 列表,用于存储子问题的解
int[,] dp = new int[n + 1, 3];
// 初始状态:预设最小子问题的解
dp[1, 1] = 1;
dp[1, 2] = 0;
dp[2, 1] = 0;
dp[2, 2] = 1;
// 状态转移:从较小子问题逐步求解较大子问题
for (int i = 3; i <= n; i++) {
dp[i, 1] = dp[i - 1, 2];
dp[i, 2] = dp[i - 2, 1] + dp[i - 2, 2];
}
return dp[n, 1] + dp[n, 2];
}
[Test]
public void Test() {
int n = 9;
int res = climbingStairsConstraintDP(n);
Console.WriteLine($"爬 {n} 阶楼梯共有 {res} 种方案");
}
}

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/**
* File: climbing_stairs_dfs.cs
* Created Time: 2023-06-30
* Author: hpstory (hpstory1024@163.com)
*/
namespace hello_algo.chapter_dynamic_programming;
public class climbing_stairs_dfs {
/* 搜索 */
public int dfs(int i) {
// 已知 dp[1] 和 dp[2] ,返回之
if (i == 1 || i == 2)
return i;
// dp[i] = dp[i-1] + dp[i-2]
int count = dfs(i - 1) + dfs(i - 2);
return count;
}
/* 爬楼梯:搜索 */
public int climbingStairsDFS(int n) {
return dfs(n);
}
[Test]
public void Test() {
int n = 9;
int res = climbingStairsDFS(n);
Console.WriteLine($"爬 {n} 阶楼梯共有 {res} 种方案");
}
}

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/**
* File: climbing_stairs_dfs_mem.cs
* Created Time: 2023-06-30
* Author: hpstory (hpstory1024@163.com)
*/
namespace hello_algo.chapter_dynamic_programming;
public class climbing_stairs_dfs_mem {
/* 记忆化搜索 */
public int dfs(int i, int[] mem) {
// 已知 dp[1] 和 dp[2] ,返回之
if (i == 1 || i == 2)
return i;
// 若存在记录 dp[i] ,则直接返回之
if (mem[i] != -1)
return mem[i];
// dp[i] = dp[i-1] + dp[i-2]
int count = dfs(i - 1, mem) + dfs(i - 2, mem);
// 记录 dp[i]
mem[i] = count;
return count;
}
/* 爬楼梯:记忆化搜索 */
public int climbingStairsDFSMem(int n) {
// mem[i] 记录爬到第 i 阶的方案总数,-1 代表无记录
int[] mem = new int[n + 1];
Array.Fill(mem, -1);
return dfs(n, mem);
}
[Test]
public void Test() {
int n = 9;
int res = climbingStairsDFSMem(n);
Console.WriteLine($"爬 {n} 阶楼梯共有 {res} 种方案");
}
}

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/**
* File: climbing_stairs_dp.cs
* Created Time: 2023-06-30
* Author: hpstory (hpstory1024@163.com)
*/
namespace hello_algo.chapter_dynamic_programming;
public class climbing_stairs_dp {
/* 爬楼梯:动态规划 */
public int climbingStairsDP(int n) {
if (n == 1 || n == 2)
return n;
// 初始化 dp 列表,用于存储子问题的解
int[] dp = new int[n + 1];
// 初始状态:预设最小子问题的解
dp[1] = 1;
dp[2] = 2;
// 状态转移:从较小子问题逐步求解较大子问题
for (int i = 3; i <= n; i++) {
dp[i] = dp[i - 1] + dp[i - 2];
}
return dp[n];
}
/* 爬楼梯:状态压缩后的动态规划 */
public int climbingStairsDPComp(int n) {
if (n == 1 || n == 2)
return n;
int a = 1, b = 2;
for (int i = 3; i <= n; i++) {
int tmp = b;
b = a + b;
a = tmp;
}
return b;
}
[Test]
public void Test() {
int n = 9;
int res = climbingStairsDP(n);
Console.WriteLine($"爬 {n} 阶楼梯共有 {res} 种方案");
res = climbingStairsDPComp(n);
Console.WriteLine($"爬 {n} 阶楼梯共有 {res} 种方案");
}
}

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/**
* File: min_cost_climbing_stairs_dp.cs
* Created Time: 2023-06-30
* Author: hpstory (hpstory1024@163.com)
*/
namespace hello_algo.chapter_dynamic_programming;
public class min_cost_climbing_stairs_dp {
/* 爬楼梯最小代价:动态规划 */
public int minCostClimbingStairsDP(int[] cost) {
int n = cost.Length - 1;
if (n == 1 || n == 2)
return cost[n];
// 初始化 dp 列表,用于存储子问题的解
int[] dp = new int[n + 1];
// 初始状态:预设最小子问题的解
dp[1] = cost[1];
dp[2] = cost[2];
// 状态转移:从较小子问题逐步求解较大子问题
for (int i = 3; i <= n; i++) {
dp[i] = Math.Min(dp[i - 1], dp[i - 2]) + cost[i];
}
return dp[n];
}
/* 爬楼梯最小代价:状态压缩后的动态规划 */
public int minCostClimbingStairsDPComp(int[] cost) {
int n = cost.Length - 1;
if (n == 1 || n == 2)
return cost[n];
int a = cost[1], b = cost[2];
for (int i = 3; i <= n; i++) {
int tmp = b;
b = Math.Min(a, tmp) + cost[i];
a = tmp;
}
return b;
}
[Test]
public void Test() {
int[] cost = { 0, 1, 10, 1, 1, 1, 10, 1, 1, 10, 1 };
Console.WriteLine("输入楼梯的代价列表为");
PrintUtil.PrintList(cost);
int res = minCostClimbingStairsDP(cost);
Console.WriteLine($"爬完楼梯的最低代价为 {res}");
res = minCostClimbingStairsDPComp(cost);
Console.WriteLine($"爬完楼梯的最低代价为 {res}");
}
}

@ -18,7 +18,7 @@ public class Trunk {
public class PrintUtil { public class PrintUtil {
/* Print a list */ /* Print a list */
public static void PrintList<T>(List<T> list) { public static void PrintList<T>(IList<T> list) {
Console.WriteLine("[" + string.Join(", ", list) + "]"); Console.WriteLine("[" + string.Join(", ", list) + "]");
} }

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