using hash map for each item in the range seems too expansive, what if the range is (1-2^20)? and what if it is a double? it will be too expensive to store these.
you can use an ordinary skip-list/tree, which will include the lower and upper bounds of each range. note then when searching in a binary tree for a value, if it does not exist, your search will end when you are at the next value before/after the search, example: if you have range keys 1,4, and you search 3, search will end when you reach 1 or 4. so we can store the upper/lower bounds of the range in the tree.
now, we will also need to store for each of these the true range (so if we have 1-4,8-9 and we search for 7, we'll know it's invalid when we reach 4/8). so if the key is in legal range, we will reach its upper/lower bound when searching!
so in conclusion, just add the lower and upper bounds, when you are searching, search for the key, and look if the bound matches.
ops should be something like that (pseudo code):
node = tree.search(key)
if node.lower <= key <= node.upper:
each of these ops will be O(logn), slower then hash, but it will consume much less space.