Description
Submission
- Calculate the distance between each space station, half is the max distance in between
- Special cases: the space stations in the beginning and at the end
#include <bits/stdc++.h>
using namespace std;
vector<string> split_string(string);
// Complete the flatlandSpaceStations function below.
int flatlandSpaceStations(int n, vector<int> c) {
if(n == c.size()) return 0;
if(n == 1) return max(c[0], n - c[0]);
sort(c.begin(), c.end());
int m = 0;
for(auto iter1 = c.begin(), iter2 = next(iter1);
iter2 != c.end();
advance(iter1, 1), advance(iter2, 1)) {
if(*iter2 - *iter1 > m) {
m = *iter2 - *iter1;
}
}
m = m / 2;
m = max(m, *c.begin());
m = max(m, n - 1 - *prev(c.end()));
return m;
}
int main()
{
ofstream fout(getenv("OUTPUT_PATH"));
string nm_temp;
getline(cin, nm_temp);
vector<string> nm = split_string(nm_temp);
int n = stoi(nm[0]);
int m = stoi(nm[1]);
string c_temp_temp;
getline(cin, c_temp_temp);
vector<string> c_temp = split_string(c_temp_temp);
vector<int> c(m);
for (int i = 0; i < m; i++) {
int c_item = stoi(c_temp[i]);
c[i] = c_item;
}
int result = flatlandSpaceStations(n, c);
fout << result << "\n";
fout.close();
return 0;
}
vector<string> split_string(string input_string) {
string::iterator new_end = unique(input_string.begin(), input_string.end(), [] (const char &x, const char &y) {
return x == y and x == ' ';
});
input_string.erase(new_end, input_string.end());
while (input_string[input_string.length() - 1] == ' ') {
input_string.pop_back();
}
vector<string> splits;
char delimiter = ' ';
size_t i = 0;
size_t pos = input_string.find(delimiter);
while (pos != string::npos) {
splits.push_back(input_string.substr(i, pos - i));
i = pos + 1;
pos = input_string.find(delimiter, i);
}
splits.push_back(input_string.substr(i, min(pos, input_string.length()) - i + 1));
return splits;
}