#include #include #include #include #include #define REP(i,s,n) for(int i=(int)(s);i<(int)(n);i++) using namespace std; typedef long long int ll; typedef vector VI; typedef vector VL; typedef pair PI; const ll mod = 1e9 + 7; /** * Strong connected components. * Header requirement: algorithm, cassert, set, vector * Verified by: AtCoder ARC010 (http://arc010.contest.atcoder.jp/submissions/1015294) */ class SCC { private: int n; int ncc; typedef std::vector vi; std::vector g; // graph in adjacent list std::vector rg; // reverse graph vi vs; std::vector used; vi cmp; public: SCC(int n): n(n), ncc(-1), g(n), rg(n), vs(n), used(n), cmp(n) {} void add_edge(int from, int to) { g[from].push_back(to); rg[to].push_back(from); } private: void dfs(int v) { used[v] = true; for (int i = 0; i < g[v].size(); ++i) { if (!used[g[v][i]]) { dfs(g[v][i]); } } vs.push_back(v); } void rdfs(int v, int k) { used[v] = true; cmp[v] = k; for (int i = 0; i < rg[v].size(); ++i) { if (!used[rg[v][i]]) { rdfs(rg[v][i], k); } } } public: int scc() { std::fill(used.begin(), used.end(), 0); vs.clear(); for (int v = 0; v < n; ++v) { if (!used[v]) { dfs(v); } } std::fill(used.begin(), used.end(), 0); int k = 0; for (int i = vs.size() - 1; i >= 0; --i) { if (!used[vs[i]]) { rdfs(vs[i], k++); } } return ncc = k; } std::vector top_order() const { if (ncc == -1) assert(0); return cmp; } /* * Returns a dag whose vertices are scc's, and whose edges are those of the original graph. */ std::vector > dag() const { if (ncc == -1) { assert(0); } typedef std::set si; std::vector ret(ncc); for (int i = 0; i < g.size(); ++i) { for (int j = 0; j < g[i].size(); ++j) { int to = g[i][j]; if (cmp[i] != cmp[to]) { assert (cmp[i] < cmp[to]); ret[cmp[i]].insert(cmp[to]); } } } std::vector > vret(ncc); for (int i = 0; i < ncc; ++i) { vret[i] = std::vector(ret[i].begin(), ret[i].end()); } return vret; } std::vector > rdag() const { if (ncc == -1) { assert(0); } typedef std::set si; std::vector ret(ncc); for (int i = 0; i < g.size(); ++i) { for (int j = 0; j < g[i].size(); ++j) { int to = g[i][j]; if (cmp[i] != cmp[to]) { assert (cmp[i] < cmp[to]); ret[cmp[to]].insert(cmp[i]); } } } std::vector > vret(ncc); for (int i = 0; i < ncc; ++i) { vret[i] = std::vector(ret[i].begin(), ret[i].end()); } return vret; } }; std::vector two_sat(int n, const vector > &cons) { SCC scc(2 * n); for (int i = 0; i < cons.size(); ++i) { pair c = cons[i]; int x, y; if (c.first > 0) { x = c.first - 1 + n; } else { x = -c.first - 1; } if (c.second > 0) { y = c.second - 1; } else { y = -c.second - 1 + n; } scc.add_edge(x, y); } scc.scc(); std::vector result(n); std::vector top_ord = scc.top_order(); REP(i, 0, n) { if (top_ord[i] == top_ord[i + n]) { return std::vector(); } result[i] = top_ord[i] > top_ord[i + n] ? 1 : 0; } return result; } int main(void){ int n; cin >> n; vector u(n); REP(i, 0, n) { cin >> u[i]; } { set res; REP(i, 0, n) { res.insert(u[i][0]); res.insert(u[i][2]); if (res.size() < i + 1) { cout << "Impossible" << endl; return 0; } } } assert (n <= 52); vector, int> > pool; REP(i, 0, n) { pool.push_back(make_pair(make_pair(u[i][0], u[i].substr(1, 2)), i + 1)); pool.push_back(make_pair(make_pair(u[i][2], u[i].substr(0, 2)), - (i + 1))); } vector interfere; REP(i, 0, 2 * n) { REP(j, 0, 2 * n) { if (i == j) { continue; } pair t1 = pool[i].first; pair t2 = pool[j].first; if (t1.first == t2.first || t1.second == t2.second) { interfere.push_back(make_pair(-pool[i].second, -pool[j].second)); } } } VI res = two_sat(n, interfere); if (res.size() == 0) { cout << "Impossible" << endl; return 0; } REP(i, 0, n) { if (res[i]) { cout << u[i][0] << " " << u[i].substr(1, 2) << endl; } else { cout << u[i].substr(0, 2) << " " << u[i][2] << endl; } } }