{ "data": { "question": { "questionId": "2690", "questionFrontendId": "2560", "boundTopicId": null, "title": "House Robber IV", "titleSlug": "house-robber-iv", "content": "

There are several consecutive houses along a street, each of which has some money inside. There is also a robber, who wants to steal money from the homes, but he refuses to steal from adjacent homes.

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The capability of the robber is the maximum amount of money he steals from one house of all the houses he robbed.

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You are given an integer array nums representing how much money is stashed in each house. More formally, the ith house from the left has nums[i] dollars.

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You are also given an integer k, representing the minimum number of houses the robber will steal from. It is always possible to steal at least k houses.

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Return the minimum capability of the robber out of all the possible ways to steal at least k houses.

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Example 1:

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\nInput: nums = [2,3,5,9], k = 2\nOutput: 5\nExplanation: \nThere are three ways to rob at least 2 houses:\n- Rob the houses at indices 0 and 2. Capability is max(nums[0], nums[2]) = 5.\n- Rob the houses at indices 0 and 3. Capability is max(nums[0], nums[3]) = 9.\n- Rob the houses at indices 1 and 3. Capability is max(nums[1], nums[3]) = 9.\nTherefore, we return min(5, 9, 9) = 5.\n
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Example 2:

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\nInput: nums = [2,7,9,3,1], k = 2\nOutput: 2\nExplanation: There are 7 ways to rob the houses. The way which leads to minimum capability is to rob the house at index 0 and 4. Return max(nums[0], nums[4]) = 2.\n
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Constraints:

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