n, q = map(int, input().split())

print_cache = []


def print_c(*args):
    print_cache.append(args)


def flush():
    print(len(print_cache))
    for args in print_cache:
        print(*args)


def doubling(x, i):
    flag = False
    t = True
    if x < 0:
        x = abs(x)
        t = False
    for j in range(x.bit_length())[::-1]:
        if flag:
            print_c(3, i+1, i+1)
        else:
            flag = True
        if (x >> j) & 1 == 1:
            if t:
                print_c(1, i+1)
            else:
                print_c(2, i+1)


if n <= 10:
    a = [0] * n
    for _ in range(q):
        c, s = map(int, input().split())
        s -= 1
        if c == 1:
            for j in range(s, n):
                a[j] += (j-s+1)**2
        else:
            for j in range(s+1):
                a[j] += (s-j+1)**2
    for i in range(n):
        doubling(a[i], i)
else:
    a = [0] * n
    b = [0] * 5
    for _ in range(q):
        c, s = map(int, input().split())
        s -= 1
        if c == 1:
            a[s] += 1
            if s+1 < n:
                a[s+1] += 1

            for i in range(5):
                if s <= i:
                    b[i] += (i-s+1)**2
        else:
            if s+2 < n:
                a[s+2] -= 1
            if s+3 < n:
                a[s+3] -= 1

            for i in range(5):
                if i <= s:
                    b[i] += (s-i+1)**2

    for i in range(3):
        for j in range(i+1, 5)[::-1]:
            b[j] -= b[j-1]

    for i in range(5):
        doubling(b[i], i)
    for i in range(5, n):
        doubling(a[i], i)

    for i in range(3)[::-1]:
        for j in range(i+1, n):
            print_c(3, j+1, j)

flush()