from __pypy__.builders import StringBuilder
n, b, q = map(int, input().split())
c1, d1 = map(int, input().split())
c2, d2 = map(int, input().split())
c3, d3 = map(int, input().split())
c4, d4 = map(int, input().split())
c5, d5 = map(int, input().split())
import sys
from os import read as os_read, write as os_write
from atexit import register as atexist_register
class Fastio:
    ibuf = bytes()
    pil = pir = 0
    sb = StringBuilder()
    def load(self):
        self.ibuf = self.ibuf[self.pil:]
        self.ibuf += os_read(0, 131072)
        self.pil = 0; self.pir = len(self.ibuf)
    def flush(self): os_write(1, self.sb.build().encode())
    def fastin(self):
        if self.pir - self.pil < 64: self.load()
        minus = x = 0
        while self.ibuf[self.pil] < 45: self.pil += 1
        if self.ibuf[self.pil] == 45: minus = 1; self.pil += 1
        while self.ibuf[self.pil] >= 48:
            x = x * 10 + (self.ibuf[self.pil] & 15)
            self.pil += 1
        if minus: return -x
        return x
    def fastin_string(self):
        if self.pir - self.pil < 64: self.load()
        while self.ibuf[self.pil] <= 32: self.pil += 1
        res = bytearray()
        while self.ibuf[self.pil] > 32:
            if self.pir - self.pil < 64: self.load()
            res.append(self.ibuf[self.pil])
            self.pil += 1
        return res
    def fastout(self, x): self.sb.append(str(x))
    def fastoutln(self, x): self.sb.append(str(x)); self.sb.append('\n')
fastio = Fastio()
rd = fastio.fastin; rds = fastio.fastin_string; wt = fastio.fastout; wtn = fastio.fastoutln; flush = fastio.flush
atexist_register(flush)
sys.stdin = None; sys.stdout = None
class fenwick_tree():
    n=1
    data=[0 for i in range(n)]
    def __init__(self,N):
        self.n=N
        self.data=[0 for i in range(N)]
    def add(self,p,x):
        p+=1
        while(p<=self.n):
            self.data[p-1]+=x
            p+=p& -p
    def sum(self,l,r):
        return self.sum0(r)-self.sum0(l)
    def sum0(self,r):
        s=0
        while(r>0):
            s+=self.data[r-1]
            r-=r&-r
        return s

a = [c1]

for i in range(n - 1):
    a.append(a[-1] * d1 % b)
A = fenwick_tree(n)
for i in range(n):
    A.add(i, a[i])

def p(x):
    # the number of trailing zeros
    #x: int
    X = x
    if x==0:
        return 0
    res=0
    while(x%2==0):
        x//=2
        res+=1
    
    return X - 2 ** res
P = [p(i) for i in range(n + 1)]
    
def f(j, y):
    ans = 0
    yy = 1
    while j:
        ans += A.sum(P[j] + 1, j + 1) * yy
        ans %= b
        j = P[j]
        yy *= y
        yy %= b
    ans += yy * a[0]
    return ans % b
    
i, j, x, y = c2 % n, c3 % n, c4 % b, c5 % b
for _ in range(q):
    A.add(i, x - a[i])
    a[i] = x
    wtn(f(j, y))
    i *= d2
    i %= n
    j *= d3
    j %= n
    x *= d4
    x %= b
    y *= d5
    y %= b