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paint-house-ii.cpp
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paint-house-ii.cpp
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// Time: O(n * k)
// Space: O(k)
class Solution {
public:
int minCostII(vector<vector<int>>& costs) {
if (costs.empty()) {
return 0;
}
vector<vector<int>> min_cost(2, costs[0]);
const int n = costs.size();
const int k = costs[0].size();
for (int i = 1; i < n; ++i) {
int smallest = numeric_limits<int>::max(), second_smallest = numeric_limits<int>::max();
for (int j = 0; j < k; ++j) {
if (min_cost[(i - 1) % 2][j] < smallest) {
second_smallest = smallest;
smallest = min_cost[(i - 1) % 2][j];
} else if (min_cost[(i - 1) % 2][j] < second_smallest) {
second_smallest = min_cost[(i - 1) % 2][j];
}
}
for (int j = 0; j < k; ++j) {
const int min_j = (min_cost[(i - 1) % 2][j] != smallest) ? smallest : second_smallest;
min_cost[i % 2][j] = costs[i][j] + min_j;
}
}
return *min_element(min_cost[(n - 1) % 2].cbegin(), min_cost[(n - 1) % 2].cend());
}
};
// Time: O(n * k)
// Space: O(k)
class Solution2{
public:
int minCostII(vector<vector<int>>& costs) {
if (costs.empty()) {
return 0;
}
auto combine = [](const vector<int>& tmp, const vector<int>& house) {
const int smallest = *min_element(tmp.cbegin(), tmp.cend());
const int i = distance(tmp.begin(), find(tmp.cbegin(), tmp.cend(), smallest));
vector<int> tmp2(tmp);
tmp2.erase(tmp2.begin() + i);
const int second_smallest = *min_element(tmp2.cbegin(), tmp2.cend());
vector<int> min_cost(tmp.size(), smallest);
min_cost[i] = second_smallest;
transform(min_cost.cbegin(), min_cost.cend(), house.cbegin(),
min_cost.begin(), std::plus<int>());
return min_cost;
};
vector<int> min_cost = accumulate(costs.cbegin(), costs.cend(), vector<int>(costs[0].size(), 0), combine);
return *min_element(min_cost.cbegin(), min_cost.cend());
}
};