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// #pragma GCC target("avx2")
// #pragma GCC optimization ("O3")
// #pragma GCC optimization ("unroll-loops")

/*
 * Opis: Główny nagłówek
 */
#include<bits/stdc++.h>
using namespace std;
using LL=long long;
#define FOR(i,l,r)for(int i=(l);i<=(r);++i)
#define REP(i,n)FOR(i,0,(n)-1)
#define ssize(x)int(x.size())
#ifdef DEBUG
auto&operator<<(auto&o,pair<auto,auto>p){return o<<"("<<p.first<<", "<<p.second<<")";}
auto operator<<(auto&o,auto x)->decltype(x.end(),o){o<<"{";int i=0;for(auto e:x)o<<","+!i++<<e;return o<<"}";}
#define debug(X...)cerr<<"["#X"]: ",[](auto...$){((cerr<<$<<"; "),...)<<endl;}(X)
#else
#define debug(...){}
#endif


int get_end(LL x) {
	while (x >= 10) {
		LL curr = 1;
		while (x > 0) {
			curr *= (x % 10);
			x /= 10;
		}
		x = curr;
	}
	return (int) x;
}

LL one_iter(LL x) {
	LL curr = 1;
	while (x > 0) {
		curr *= (x % 10);
		x /= 10;
	}
	return curr;
}


constexpr int D = 18;
constexpr LL N = 1e18;

void backtrack(LL curr, int digits, set<pair<LL, int>>& vis, set<pair<LL, int>>& boring) {
	vis.insert({curr, digits});
	int wh = get_end(curr);
	bool me_boring = (wh == 0);
	if (digits + 1 == D) {
		if (me_boring) {
			boring.insert({curr, digits});
		}
		return;
	}
	FOR(i, 1, 9) {
		if (curr <= N / i && vis.count(make_pair(curr * i, digits+1)) == 0) {
			backtrack(curr * i, digits + 1, vis, boring);
		}
		if (curr <= N / i && boring.count(make_pair(curr * i, digits + 1)) == 0) { 
			me_boring = false;
		}
	}
	if (me_boring) {
		boring.insert({curr, digits});
	}
}


set<pair<LL, int>> playground() {
	set<pair<LL, int>> vis, boring;
//	vis.insert(0);
	FOR(i, 1, 9) {
		backtrack(i, 1, vis, boring);
	}
	// cout << ssize(vis) << "\n";
	// cout << ssize(boring) << "\n";
	return boring;
}


struct Graph {
	int n;
	vector<vector<int>> nxt;
	vector<pair<LL, int>> data_vec; // number, layer
	map<pair<LL, int>, int> node;
	vector<LL> ans;
	array<int, D> layer;
	vector<int> val_num;
	vector<bool> all_same;
	vector<array<LL, 3>> fun_numbers;
	set<pair<LL, int>> boring;
// 	array<array<LL, 10>, D * 10> save;
// 	array<array<LL, 10>, D + 1> pref;

	bool check_node(pair<LL, int> data) {
		return node.count(data) > 0;
	}

	int get_node(pair<LL, int> data) {
		if (boring.count(data) > 0) {
			data.first = 0;
		}
		if (node.count(data) > 0) {
			return node[data];
		}
		int x = ssize(nxt);
		node[data] = x;
		nxt.emplace_back();
		data_vec.push_back(data);
		ans.push_back(0);
		return x;
	}

	void make_nums() {
		map<LL, int> my_num;
		for (auto [val, l] : data_vec) {
			my_num[val] = 0;
		}
		for (auto it = my_num.begin(); it != my_num.end(); it++) {
			it->second = get_end(it->first);
			int cnt = (my_num.count(one_iter(it->first)) > 0);
			// if (my_num.count(one_iter(it->first)) > 0) {
			fun_numbers.push_back({it->first, it->second, cnt});

		}
		vector<LL> minw(ssize(nxt), N);
		vector<LL> maxw(ssize(nxt), -N);
		all_same.resize(ssize(nxt), true);
		val_num.resize(ssize(nxt));
		REP(i, ssize(val_num)) {
			val_num[i] = my_num[data_vec[i].first];
		}
		// int cnt = 0;
		for (int i = ssize(val_num)-1; i >= 0; i--) {
			if (ssize(nxt[i]) == 0) {
				all_same[i] = false;
			}
			for (int v : nxt[i]) {
				minw[v] = min(minw[v], (LL)i);
				maxw[v] = max(maxw[v], (LL)i);
				if (!all_same[i] || val_num[i] != val_num[v]) {
					all_same[v] = false;
				}
			}
		}
		vector<int> nice_vert;
		REP(i, ssize(val_num)) {
			if (all_same[i] && minw[i] < maxw[i]) {
				nice_vert.push_back(i);
			}
		}
//		cout << "all " << ssize(nxt) << "\n";
//		cout << "oho " << ssize(nice_vert) << "\n";
//		REP(i, 100) {
//			auto wh = data_vec[nice_vert[i]];
//			cout << wh.first << " " << wh.second << "\n";
//		}
	}


	Graph() {
		boring = playground();
		int ptr = 0;
		REP(i, D) {
			layer[i] = ptr;
			FOR(j, 1, 9) {
				get_node({j, i});
			}
			if (i == D-1) {
				break;
			}
			int r = ssize(nxt);
			int son0 = get_node({0, i+1});
			while (ptr < r) {
				auto [val, _] = data_vec[ptr];
				// ptr++;
//				int my_end = get_end(val);
				nxt[son0].push_back(ptr);
				FOR(j, 1, 9) {
					if (val <= N / j) {
						int wh;
						if (boring.count(make_pair(val * j, i + 1)) > 0) {
							wh = get_node({0, i + 1});
						}
						else {
							wh = get_node({val * j, i + 1});
						}
						nxt[wh].push_back(ptr);
						if (wh == 123249) {
							debug("sus", wh, ptr, val * j, i + 1);
						}
					}
				}
				ptr++;
			}
		}
		debug("vertices", ssize(nxt));
		make_nums();
		debug(ssize(val_num));
		debug(ssize(ans));
/*		REP(i, D + 1) {
			fill(pref[i].begin(), pref[i].end(), 0);
		}
		prepare_all();
	*/
	}

/*	void prepare(pair<LL, int> start) {
		fill(ans.begin(), ans.end(), 0);
		int x = get_node(start);
		ans[x] = 1;
		FOR(i, x+1, ssize(ans)-1) {
			for (int v : nxt[i]) {
				ans[v] += ans[i];
			}
		}
		int wh = start.first * D + start.second;
		fill(save[wh].begin(), save[wh].end(), 0);
		FOR(i, layer[D-1], ssize(ans)-1) {
			save[val_to_num[i]] += ans[i];
		}
	}

	void prepare_all() {
		REP(i, 10) {
			REP(j, D) {
				prepare({i, j});
			}
		}
		for (int i = D-1; i >= 0; i--) {
			pref[i] = pref[i + 1];
			REP(j, 10) {
				REP(k, 10) {
					pref[i][j] += save[k * D + i][j];
	}
*/
	void compute() {
		REP(i, ssize(ans)) {
			for (int v : nxt[i]) {
				ans[i] += ans[v];
				if (ans[v] > 0) {
					debug("from", data_vec[v], "to", data_vec[i], "goes", ans[v]);
					debug(v, i);
				}
			}
		}
	}

	array<LL, 10> query(LL x) {
		array<LL, 10> res;
		fill(res.begin(), res.end(), 0);
		res[get_end(x)]++;
		vector<int> digits;
		fill(ans.begin(), ans.end(), 0);
		while (x > 0) {
			digits.push_back((int)(x % 10));
			x /= 10;
		}
		reverse(digits.begin(), digits.end());
		
		LL curr = 1;
		debug(digits);
		REP(i, ssize(digits)) {
			FOR(j, 1, digits[i]-1) {
				int y = get_node({curr * j, i + D - ssize(digits)});
				ans[y]++;
				debug("increasing", data_vec[y]);
			}
			if (i > 0) {
				if (digits[i] > 0) {
					int z = get_node({0, i + D - ssize(digits)});
					ans[z]++;
				}
				FOR(j, 1, 9) {
					int y = get_node({j, i + D - ssize(digits)});
					ans[y]++;
					debug("increasing easy", data_vec[y]);
				}
			}
			curr *= digits[i];
		}
		compute();
		FOR(i, layer[D-1], ssize(ans)-1) {
//			if (i == 47158) {
//				cout << "nie dziala :(((" << endl;
//				cout << ssize(ans) << endl;
//			}
			res[val_num[i]] += ans[i];
		}
		for (auto [num, wh, used] : fun_numbers) {
			if (num < n && used == 0) {
				res[wh]++;
			}
		}
		return res;
	}

};


int main() {
//	playground();
	cin.tie(0)->sync_with_stdio(0);
	Graph g;
	int t;
	cin >> t;
	while (t--) {
		LL n;
		cin >> n;
		array<LL, 10> res = g.query(n);
		REP(i, 10) {
			cout << res[i];
			if (i < 9) {
				cout << " ";
			}
		}
		cout << "\n";
	}
}