import sys from collections import defaultdict def main(): N, M = map(int, sys.stdin.readline().split()) # Initialize DP after processing d dp = defaultdict(lambda: defaultdict(int)) for d in range(M + 1): sum_S = d * d if sum_S > N: continue sum_prev = d dp[sum_S][sum_prev] += 1 # Process c new_dp = defaultdict(lambda: defaultdict(int)) for sum_S_prev in dp: for sum_prev_prev, count in dp[sum_S_prev].items(): for c in range(M + 1): contribution = c * (c + sum_prev_prev) new_sum_S = sum_S_prev + contribution if new_sum_S > N: continue new_sum_prev = sum_prev_prev + c new_dp[new_sum_S][new_sum_prev] += count dp = new_dp # Process b new_dp = defaultdict(lambda: defaultdict(int)) for sum_S_prev in dp: for sum_prev_prev, count in dp[sum_S_prev].items(): for b in range(M + 1): contribution = b * (b + sum_prev_prev) new_sum_S = sum_S_prev + contribution if new_sum_S > N: continue new_sum_prev = sum_prev_prev + b new_dp[new_sum_S][new_sum_prev] += count dp = new_dp # Process a new_dp = defaultdict(lambda: defaultdict(int)) for sum_S_prev in dp: for sum_prev_prev, count in dp[sum_S_prev].items(): for a in range(M + 1): contribution = a * (a + sum_prev_prev) new_sum_S = sum_S_prev + contribution if new_sum_S > N: continue new_sum_prev = sum_prev_prev + a new_dp[new_sum_S][new_sum_prev] += count dp = new_dp # Collect results result = [0] * (N + 1) for sum_S in dp: if sum_S <= N: total = sum(dp[sum_S].values()) result[sum_S] = total for n in range(N + 1): print(result[n]) if __name__ == '__main__': main()