from itertools import combinations, permutations


N, A, B = map(int, input().split())
XYK = []
for _ in range(N):
    x, y, k = map(int, input().split())
    XYK.append((x, y, k))

coef = [[[0] * (N + 1) for _ in range(N + 1)] for _ in range(N + 1)]


def dist(z1, z2):
    return abs(z1[0] - z2[0]) + abs(z1[1] - z2[1])


for (i, zi), (j, zj) in permutations(enumerate(XYK), 2):

    if A <= dist(zi, zj):
        coef[N][i][j] = 1
    if B <= abs(zi[2] - zj[2]):
        for k in range(N + 1):
            coef[k][i][j] = 1

for (i, zi), (j, zj), (k, zk) in permutations(enumerate(XYK), 3):
    if A <= dist(zi, zj) + dist(zj, zk):
        coef[i][j][k] = 1

dp = [[[0] * (N + 1) for _ in range(N + 1)] for _ in range(1 << N)]

for i in range(N):
    dp[1 << i][N][i] = 1


def popcount(n):
    c = 0
    while n:
        n -= n & -n
        c += 1
    return c


ans = 0
for group in range(1, 1 << N):
    flag = False
    for i in range(N + 1):
        for j in range(N):
            if dp[group][i][j] == 0:
                continue
            flag = True

            for k in range(N):
                nxt = group | (1 << k)
                if nxt == group:
                    continue
                if coef[i][j][k]:
                    dp[nxt][j][k] = 1

    if flag:
        ans = max(ans, popcount(group))

print(ans)