from math import gcd def f(x,y): ret=0 pl=1 for i in range(L): ret+=pl*((x+y)%K) x//=K y//=K pl*=K return ret def power(x,y): ret=0 pl=1 for i in range(L): ret+=pl*(x*y%K) x//=K pl*=K return ret def get(x,y): return (x//pow(K,y))%K def ext_gcd(a,b): if a==b==0: return 0,0 g=gcd(a,b) a//=g b//=g hist=[] while b>0: hist.append((a,b)) a,b=b,a%b x=a y=0 while len(hist)>0: a,b=hist.pop() x,y=y,x-(a//b)*y return x,y def many_ext(a): x=[0]*len(a) x[0]=1 g=a[0] for i in range(1,len(a)): u,v=ext_gcd(g,a[i]) x[i]=v for j in range(i): x[j]*=u x[j]%=K g=gcd(g,a[i]) return x,g K,Q=map(int,input().split()) L=0 lg=1 while lg<=10**9: lg*=K L+=1 G=[0]*L for _ in range(Q): t,x=map(int,input().split()) if t==1: B=[x] for i in range(L-1,-1,-1): X=[get(G[i],i)] for j in B: X.append(get(j,i)) v,g=many_ext(X) s=0 for j in range(len(X)): s+=X[j]*v[j] s%=K if g==0: g=K div=gcd(g,K) rev=pow(g//div,-1,K) g=div for j in range(len(v)): v[j]=(v[j]*rev)%K T=power(G[i],v[0]) for j in range(len(v)-1): T=f(T,power(B[j],v[j+1])) B=[G[i]]+B for j in range(len(X)): B[j]=f(B[j],power(T,-X[j]//g)) G[i]=T elif t==2: C=[1]*(L+1) D=[1]*L for i in range(1,L+1): if G[i-1]==0: C[i]=C[i-1] else: C[i]=C[i-1]*(K//get(G[i-1],i-1)) D[i-1]=K//get(G[i-1],i-1) if x>C[L]: print(-1) continue X=x-1 Y=0 for i in range(L-1,-1,-1): X,Y=X%C[i],f(Y,power(G[i],X//C[i]-get(Y,i)//(K//D[i]))) print(Y) else: X=0 Y=0 C=[1]*(L+1) D=[1]*L for i in range(1,L+1): if G[i-1]==0: C[i]=C[i-1] else: C[i]=C[i-1]*(K//get(G[i-1],i-1)) D[i-1]=K//get(G[i-1],i-1) for i in range(L-1,-1,-1): r=get(X,i)%(K//D[i]) d=get(x+1,i) Y+=((d-r+(K//D[i])-1)//(K//D[i]))*C[i] if (d-r)%(K//D[i])!=0: break X=f(X,power(G[i],(d-get(X,i))//(K//D[i]))) print(Y)