/* ### # ############# # ####################### ################################ ######################################### ############################################## # ##################################### # ###### ############################ ###### ########### ################### # ########## ################ ######### ############### #################### # #################### ####### ############## ######################## ######## ######### ######################## ########### ####### ######################## ############## # ####### ######################## ######################## ######################## ######################## ######################## ######################## ######################## ###################### ####################### ################### ################### ############## ############### ########## ########## ###### ###### ## ## # # # # # # # # # # # #### #### #### #### #### # # # # # ## # # # # # # #____# ## # #/ # # ## # # # # # # # #^^^^ # ## ###/# # # # #### #### ###/# #### # # ## */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; namespace { using Integer = long long; //__int128; template istream& operator >> (istream& is, vector& vec){for(T& val: vec) is >> val; return is;} template istream& operator , (istream& is, T& val){ return is >> val;} template ostream& operator << (ostream& os, const vector& vec){for(int i=0; i ostream& operator , (ostream& os, const T& val){ return os << " " << val;} template void print(const H& head){ cout << head; } template void print(const H& head, const T& ... tail){ cout << head << " "; print(tail...); } template void println(const T& ... values){ print(values...); cout << endl; } template void eprint(const H& head){ cerr << head; } template void eprint(const H& head, const T& ... tail){ cerr << head << " "; eprint(tail...); } template void eprintln(const T& ... values){ eprint(values...); cerr << endl; } class range{ long long start_, end_, step_; public: struct range_iterator{ long long val, step_; range_iterator(long long v, long long step) : val(v), step_(step) {} long long operator * (){return val;} void operator ++ (){val += step_;} bool operator != (range_iterator& x){return step_ > 0 ? val < x.val : val > x.val;} }; range(long long len) : start_(0), end_(len), step_(1) {} range(long long start, long long end) : start_(start), end_(end), step_(1) {} range(long long start, long long end, long long step) : start_(start), end_(end), step_(step) {} range_iterator begin(){ return range_iterator(start_, step_); } range_iterator end(){ return range_iterator( end_, step_); } }; string operator "" _s (const char* str, size_t size){ return move(string(str)); } constexpr Integer my_pow(Integer x, Integer k, Integer z=1){return k==0 ? z : k==1 ? z*x : (k&1) ? my_pow(x*x,k>>1,z*x) : my_pow(x*x,k>>1,z);} constexpr Integer my_pow_mod(Integer x, Integer k, Integer M, Integer z=1){return k==0 ? z%M : k==1 ? z*x%M : (k&1) ? my_pow_mod(x*x%M,k>>1,M,z*x%M) : my_pow_mod(x*x%M,k>>1,M,z);} constexpr unsigned long long operator "" _ten (unsigned long long value){ return my_pow(10,value); } inline int k_bit(Integer x, int k){return (x>>k)&1;} //0-indexed mt19937 mt(chrono::duration_cast(chrono::steady_clock::now().time_since_epoch()).count()); template string join(const vector& v, const string& sep){ stringstream ss; for(int i=0; i0) ss << sep; ss << v[i]; } return ss.str(); } string operator * (string s, int k){ string ret; while(k){ if(k&1) ret += s; s += s; k >>= 1; } return ret; } } constexpr long long mod = 9_ten + 7; typedef struct{ int to; int cap; int rev; }edge; // node v : distance from s => level[v] void bfs(vector > &G, vector &level, int s){ fill(level.begin(), level.end(), -1); queue q; q.push(s); level[s] = 0; while(!q.empty()){ int e=q.front(); q.pop(); for(int i=0; i 0 && level[G[e][i].to] < 0){ level[G[e][i].to] = level[e] + 1; q.push(G[e][i].to); } } } } int dfs(vector > &G, vector &level, vector &used, vector &iter, int s, int f, int t){ if(s==t) return f; else{ //iter[e] : done searching from v[0] to v[ iter[e]-1 ] for(int &i=iter[s]; i 0 && level[s] < level[ G[s][i].to ]){ int d = dfs(G, level, used, iter, G[s][i].to, min(f, G[s][i].cap), t); if(d>0){ G[s][i].cap -= d; G[ G[s][i].to ][ G[s][i].rev ].cap += d; return d; } } } return 0; } } int dinic_maxflow(vector > &G, int s, int t){ const int INF = 100000000; int flow=0; while(true){ vector level(G.size(), -1); vector iter(G.size(), 0); vector used(G.size(), false); bfs(G, level, s); if(level[t] < 0) return flow; //unable to achieve to t while(true){ int f = dfs(G, level, used, iter, s, INF, t); if(f==0) break; else flow += f; } } } void add_edge(vector > &G, int from, int to, int cap){ G[from].push_back((edge){to, cap, (int)G[to].size()}); G[to].push_back((edge){from, 0, (int)G[from].size() - 1}); } int dx[] = {0, 0, 1,-1, 1, 1,-1,-1}; int dy[] = {1,-1, 0, 0, 1,-1, 1,-1}; int main(){ int h,w; cin >> h,w; vector s(h); cin >> s; vector> G(h*w + 2); int source = h*w; int sink = h*w + 1; int cnt_b = 0, cnt_w = 0; for(auto y : range(h) ){ for(auto x : range(w) ){ if(s[y][x] == '.') continue; if(s[y][x] == 'b'){ cnt_b++; add_edge(G, y*w + x, sink, 1); }else{ cnt_w++; add_edge(G, source, y*w + x, 1); for(int k__=0; k__<4; k__++){ int new_x = x + dx[k__]; int new_y = y + dy[k__]; if(new_x < 0 || new_x >= w || new_y < 0 || new_y >= h) continue; if(s[new_y][new_x] == '.') continue; add_edge(G, y*w + x, new_y*w + new_x, 1); } } } } int f = dinic_maxflow(G, source, sink); int ans = f*100; cnt_b -= f; cnt_w -= f; ans += min(cnt_b, cnt_w) * 10; ans += max(cnt_b, cnt_w) - min(cnt_b, cnt_w); println(ans); return 0; }