from sys import stdin
from collections import deque

class UnionFind():
    def __init__(self, n):
        self.parent_or_size = [-1] * n
        self.G = [[] for i in range(n)]
        self.E = [[] for i in range(n)]
        self.depth = [0] * n
        self.dp = [0] * n
        self.log_table = [0] * n
        self.diameter = [0] * n
        self.diameter_vertex = [0] * (2 * n)
        self.parent = [[-1] * n for i in range(18)]
        self.que = deque()

        for i in range(n):
            self.diameter_vertex[i << 1] = i
            self.diameter_vertex[(i << 1) + 1] = i
        for i in range(2, n):
            self.log_table[i] = self.log_table[i >> 1] + 1


    def leader(self, x):
        return x if self.parent_or_size[x] < 0 else self.parent_or_size[x]

    def merge(self, u, v, w):
        x, y = self.leader(u), self.leader(v)
        if -self.parent_or_size[x] < -self.parent_or_size[y]: 
            x, y = y, x
            u, v = v, u
        
        self.parent_or_size[x] += self.parent_or_size[y]
        self.G[u].append(v)
        self.G[v].append(u)
        self.E[v].append(w)
        self.E[u].append(w)
        self.update_parent(v, u, w)

        self.que.append(v)
        while len(self.que):
            v = self.que.popleft()
            self.parent_or_size[v] = x
            for i in range(len(self.G[v])):
                if self.G[v][i] == self.parent[0][v]: continue
                self.update_parent(self.G[v][i], v, self.E[v][i])
                self.que.append(self.G[v][i])

        self.update_diameter(x, y)
        

    def update_parent(self, v, par, w):
        logv = self.log_table[max(self.depth[v], self.depth[par] + 1)]
        self.depth[v] = self.depth[par] + 1
        self.dp[v] = self.dp[par] + w
        self.parent[0][v] = par
        for i in range(logv):
            self.parent[i + 1][v] = -1 if self.parent[i][v] == -1 else self.parent[i][self.parent[i][v]]

    def update_diameter(self, x, y):
        mx, v, u = 0, 0, 0
        v1, v2 = self.diameter_vertex[2 * x], self.diameter_vertex[2 * x + 1]
        v3, v4 = self.diameter_vertex[2 * y], self.diameter_vertex[2 * y + 1]
        if self.diameter[x] >= self.diameter[y]:
            mx, u, v = self.diameter[x], v1, v2
        else:
            mx, u, v = self.diameter[y], v3, v4
        
        d = self.dist(v1, v3)
        if d > mx: mx, u, v = d, v1, v3
        d = self.dist(v1, v4)
        if d > mx: mx, u, v = d, v1, v4
        d = self.dist(v2, v3)
        if d > mx: mx, u, v = d, v2, v3
        d = self.dist(v2, v4)
        if d > mx: mx, u, v = d, v2, v4

        self.diameter[x], self.diameter_vertex[2 * x], self.diameter_vertex[2 * x + 1] = mx, u, v
    
    def dist(self, u, v):
        if self.leader(u) != self.leader(v): return -1
        if self.depth[u] > self.depth[v]: u, v = v, u
        res = self.dp[u] + self.dp[v]
        d = self.depth[v] - self.depth[u]

        for i in range(self.log_table[d] + 1):
            if d >> i & 1: v = self.parent[i][v]
        
        if u == v: return res - 2 * self.dp[v]

        for i in range(self.log_table[self.depth[v]], -1, -1):
            if self.parent[i][v] != self.parent[i][u]:
                u = self.parent[i][u]
                v = self.parent[i][v]
        
        return res - 2 * self.dp[self.parent[0][v]]
        

N, X, Q = map(int, stdin.readline().split())

uf = UnionFind(N)

for _ in range(Q):
    query = list(map(int, stdin.readline().split()))
    if query[0] == 1:
        uf.merge(X, query[1], query[2])
    elif query[0] == 2:
        d = uf.dist(query[1], query[2])
        print(d)
        if d != -1: 
            X += d
            X %= N
    elif query[0] == 3:
        print(uf.diameter[uf.leader(query[1])])
    else:
        X += query[1]
        if X >= N: X -= N