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longest-consecutive-sequence.cpp
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longest-consecutive-sequence.cpp
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// Time: O(n)
// Space: O(n)
class Solution {
public:
int longestConsecutive(vector<int>& nums) {
// unprocessed_entries records the existence of each entry in num.
unordered_set<int> unprocessed_entries;
for (const auto& num : nums) {
unprocessed_entries.emplace(num);
}
int max_interval_size = 0;
while (!unprocessed_entries.empty()) {
int num = *unprocessed_entries.begin();
unprocessed_entries.erase(num);
// Finds the lower bound of the largest range containing a.
int lower_bound = num - 1;
while (unprocessed_entries.count(lower_bound)) {
unprocessed_entries.erase(lower_bound);
--lower_bound;
}
// Finds the upper bound of the largest range containing a.
int upper_bound = num + 1;
while (unprocessed_entries.count(upper_bound)) {
unprocessed_entries.erase(upper_bound);
++upper_bound;
}
max_interval_size =
max(max_interval_size, upper_bound - lower_bound - 1);
}
return max_interval_size;
}
};
// Time: O(n)
// Space: O(n)
class Solution2 {
public:
int longestConsecutive(vector<int> &nums) {
if (nums.empty()) {
return 0;
}
unordered_map<int, int> hash;
int ans{1};
for (const auto& i : nums) {
if (!hash[i]) {
hash[i] = 1;
int leftbound{hash[i - 1]}, rightbound{hash[i + 1]}; // Get neighbor info.
hash[i - leftbound] = hash[i + rightbound] = 1 + leftbound + rightbound; // Update left and right bound info.
ans = max(ans, 1 + leftbound + rightbound);
}
}
return ans;
}
};