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★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★ You are given coins of different denominations and a total amount of money amount. Write a function to compute the fewest number of coins that you need to make up that amount. If that amount of money cannot be made up by any combination of the coins, return Example 1: Input: coins = Example 2: Input: coins = Note: 给定不同面额的硬币 coins 和一个总金额 amount。编写一个函数来计算可以凑成总金额所需的最少的硬币个数。如果没有任何一种硬币组合能组成总金额,返回 示例 1: 输入: coins = 示例 2: 输入: coins = 说明: 148ms 1 class Solution { 2 func coinChange(_ coins: [Int], _ amount: Int) -> Int { 3 if amount == 0 { 4 return 0 5 } 6 if amount < 0 { 7 return -1 8 } 9 var nums = [Int].init(repeating: -1, count: amount+1) 10 nums[0] = 0 11 12 for i in 0..<amount { 13 if nums[i] == -1 { 14 continue 15 } 16 for j in 0..<coins.count{ 17 let k = i + coins[j] 18 if k <= amount && (nums[k] == -1 || nums[k] > nums[i] + 1) { 19 nums[k] = nums[i] + 1 20 } 21 } 22 23 } 24 return nums[amount] 25 } 26 } 324ms 1 class Solution { 2 func coinChange(_ coins: [Int], _ amount: Int) -> Int { 3 guard amount > 0 else { 4 return 0 5 } 6 var dp = [0] 7 for i in 1...amount { 8 dp.append(amount + 1) 9 for j in 0..<coins.count { 10 if i >= coins[j] { 11 dp[i] = min(dp[i], (dp[i - coins[j]] + 1)) 12 } 13 } 14 } 15 return dp[amount] == (amount + 1) ? -1 : dp[amount] 16 } 17 } 408ms 1 class Solution { 2 func coinChange(_ coins: [Int], _ amount: Int) -> Int { 3 if amount <= 0 { return 0 } 4 var dp = [Int](repeating: Int.max, count: amount + 1) 5 dp[0] = 0 6 for i in 1 ... amount { 7 for j in 0 ..< coins.count { 8 let coin = coins[j] 9 if coin <= i { 10 if dp[i - coin] == Int.max { 11 continue 12 } else { 13 dp[i] = min(dp[i], dp[i - coin] + 1) 14 } 15 } 16 } 17 } 18 if dp[amount] == Int.max { 19 return -1 20 } else { 21 return dp[amount] 22 } 23 } 24 } 864ms 1 class Solution { 2 func coinChange(_ coins: [Int], _ amount: Int) -> Int { 3 if amount == 0 { 4 return 0 5 } 6 var changes = Array(repeating: amount+1, count: amount+1) 7 changes[0] = 0 8 9 for i in 1...amount{ 10 for c in coins { 11 if i - c >= 0 { 12 changes[i] = min(changes[i], changes[i-c] + 1) 13 } 14 } 15 } 16 17 return changes[amount] == amount + 1 ? -1 : changes[amount] 18 } 19 } 936ms 1 class Solution { 2 func coinChange(_ coins: [Int], _ amount: Int) -> Int { 3 guard amount > 0 else { 4 return 0 5 } 6 7 var count = Array(repeating: 0, count: amount) 8 return coinChange(coins, amount, &count) 9 } 10 11 func coinChange(_ coins: [Int], _ rem: Int, _ count: inout [Int]) -> Int { 12 guard rem >= 0 else { 13 return -1 14 } 15 16 guard rem != 0 else { 17 return 0 18 } 19 20 guard count[rem - 1] == 0 else { 21 return count[rem - 1] 22 } 23 24 var min = Int.max 25 for coin in coins { 26 let res = coinChange(coins, rem - coin, &count) 27 if res >= 0 && res < min { 28 min = res + 1 29 } 30 } 31 count[rem - 1] = min == Int.max ? -1 : min 32 return count[rem - 1] 33 } 34 } 1048ms 1 class Solution { 2 func coinChange(_ coins: [Int], _ amount: Int) -> Int { 3 var coinsArr = coins.sorted(by: { 4 $0 > $1 5 }) 6 7 if (amount == 0) { 8 return 0; 9 } 10 11 // Initialize result 12 var res = Int.max; 13 var lookupRes:[Int:Int] = [:] 14 for var i in 1...amount+1 { 15 lookupRes[i] = Int.max 16 } 17 18 lookupRes[0] = 0 19 for amountIndex in 1...amount { 20 for var i in 0..<coins.count 21 { 22 if (coins[i] <= amountIndex) 23 { 24 let newAmount = amountIndex - coins[i] 25 let sub_res = lookupRes[newAmount]! 26 if (sub_res != Int.max && sub_res + 1 < lookupRes[amountIndex]!) { 27 lookupRes[amountIndex] = sub_res + 1; 28 } 29 } 30 } 31 } 32 33 if( lookupRes[amount]! == Int.max) { 34 return -1 35 } 36 return lookupRes[amount]! 37 } 38 } 4164ms 1 class Solution { 2 func coinChange(_ coins: [Int], _ amount: Int) -> Int { 3 guard amount > 0 else { 4 return 0 5 } 6 7 var nums = [Int : Int]() 8 for i in 1...amount { 9 nums[i] = -1 10 } 11 for coin in coins { 12 nums[coin] = 1 13 } 14 15 for i in 1...amount { 16 if let cur = nums[i], cur == -1 { 17 for coin in coins { 18 if let target = nums[i - coin], target != -1 { 19 if nums[i] == -1 { 20 nums[i] = target + 1 21 } else { 22 nums[i] = min(target + 1, nums[i] ?? 0) 23 } 24 } 25 } 26 } 27 } 28 return nums[amount] ?? 0 29 } 30 }
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