def solve(n, m, A, B, Q, x, C):
    def f(i, x):
        a, b = A[i], B[i]
        x -= a
        if b == 0:
            return abs(x) * m
        p = x // b
        if p < 0:
            return m * (b * (m - 1)) // 2 - x * m
        elif p >= m:
            return x * m - m * (b * (m - 1)) // 2
        else:
            ret = x * (p + 1) - (p + 1) * (b * p) // 2
            ret += (m - 1 - p) * (b * (p + 1) + b * (m - 1)) // 2 - x * (m - 1 - p)
            return ret

    P = [0]
    thr = []
    i = 1
    while i < n:
        bi = P[-1]
        l = 0
        r = 1 << 60

        while r - l > 1:
            mid = (l + r) // 2
            if f(bi, mid) > f(i, mid):
                r = mid
            else:
                l = mid

        if not thr or thr[-1] <= r:
            P.append(i)
            thr.append(r)
            i += 1
        else:
            P.pop()
            thr.pop()

    p = 0
    ans = []

    for _ in range(Q):
        while p < len(P) - 1 and x >= thr[p]:
            p += 1
        ans.append(P[p] + 1)
        x += C[P[p]]
    return ans


if __name__ == "__main__":
    n, m = map(int, input().split())
    A = [0] * n
    B = [0] * n
    for i in range(n):
        A[i], B[i] = map(int, input().split())

    Q, x = map(int, input().split())
    C = list(map(int, input().split()))

    res = solve(n, m, A, B, Q, x, C)
    print(*res)