TheAlgorithms-Ruby/data_structures/arrays/next_greater_element.rb
2021-04-10 10:49:41 -07:00

64 lines
2 KiB
Ruby

# You are given two integer arrays nums1 and nums2 both of unique elements, where nums1 is a subset of nums2.
#
# Find all the next greater numbers for nums1's elements in the corresponding places of nums2.
#
# The Next Greater Number of a number x in nums1 is the first greater number to its right in nums2. If it does not exist, return -1 for this number.
# Example 1:
#
# Input: nums1 = [4,1,2], nums2 = [1,3,4,2]
# Output: [-1,3,-1]
#
# Explanation:
# For number 4 in the first array, you cannot find the next greater number for it in the second array, so output -1.
# For number 1 in the first array, the next greater number for it in the second array is 3.
# For number 2 in the first array, there is no next greater number for it in the second array, so output -1.
#
# Example 2:
#
# Input: nums1 = [2,4], nums2 = [1,2,3,4]
# Output: [3,-1]
#
# Explanation:
# For number 2 in the first array, the next greater number for it in the second array is 3.
# For number 4 in the first array, there is no next greater number for it in the second array, so output -1.
#
# Approach: Brute Force
#
# Complexity Analysis
#
# Time complexity: O(m*n). The complete nums1 array (of size n) needs to be scanned for all the m elements of nums2 in the worst case.
# Space complexity: O(1). No additional space since we're swapping elements in nums1 and returning the input array.
# @param {Integer[]} nums1
# @param {Integer[]} nums2
# @return {Integer[]}
def next_greater_element(nums1, nums2)
nums1.each_with_index do |nums1_value, pointer1|
max = 0
pos_nums2 = nums2.find_index(nums1_value)
nums2[pos_nums2..nums2.count].each do |nums2_value|
if nums2_value > nums1_value
max = nums2_value
break
end
end
nums1[pointer1] = (nums1_value < max ? max : -1)
end
nums1
end
nums1 = [4, 1, 2]
nums2 = [1, 3, 4, 2]
print next_greater_element(nums1, nums2)
# Output: [-1,3,-1]
nums1 = [2, 4]
nums2 = [1, 2, 3, 4]
print next_greater_element(nums1, nums2)
# Output: [3,-1]