#![allow(unused_imports)] use std::cmp::*; use std::collections::*; use std::io::Write; use std::ops::Bound::*; #[allow(unused_macros)] macro_rules! debug { ($($e:expr),*) => { #[cfg(debug_assertions)] $({ let (e, mut err) = (stringify!($e), std::io::stderr()); writeln!(err, "{} = {:?}", e, $e).unwrap() })* }; } fn get_index(i: usize, color: usize) -> usize { 7 * i + color } fn main() { let v = read_vec::(); let (n, m, q) = (v[0], v[1], v[2]); let mut s = vec![]; for i in 0..n { let ss = read::(); s.push(ss); } let mut edges = vec![vec![]; n]; for _ in 0..m { let v = read_vec::(); let (u, v) = (v[0] - 1, v[1] - 1); edges[u].push(v); edges[v].push(u); } let mut queries = vec![]; for i in 0..q { let v = read_vec::(); let (k, x, y) = (v[0], v[1], v[2]); queries.push((k, x, y)); } let mut uft = UnionFindTree::new(n * 7); let mut flags = vec![vec![]; n]; for (i, ss) in s.into_iter().enumerate() { let ss = ss.chars().collect::>(); flags[i] = (0..7).map(|x| ss[x] == '1').collect::>(); } for i in 0..n { for ii in 0..7 { if !flags[i][ii] || !flags[i][(ii + 1) % 7] { continue; } uft.unite(get_index(i, ii), get_index(i, (ii + 1) % 7)); } } for i in 0..n { for &to in edges[i].iter() { for color in 0..7 { if flags[i][color] && flags[to][color] { uft.unite(get_index(i, color), get_index(to, color)); } } } } for (k, x, y) in queries { if k == 1 { let (x, y) = (x - 1, y - 1); flags[x][y] = true; if flags[x][(y + 1) % 7] { uft.unite(get_index(x, y), get_index(x, (y + 1) % 7)); } if flags[x][(y + 6) % 7] { uft.unite(get_index(x, y), get_index(x, (y + 6) % 7)); } for color in 0..7 { for &to in edges[x].iter() { if flags[x][color] && flags[to][color] { uft.unite(get_index(x, color), get_index(to, color)); } } } } else { let x = x - 1; println!("{}", uft.get_size(get_index(x, 0))); } } } fn read() -> T { let mut s = String::new(); std::io::stdin().read_line(&mut s).ok(); s.trim().parse().ok().unwrap() } fn read_vec() -> Vec { read::() .split_whitespace() .map(|e| e.parse().ok().unwrap()) .collect() } #[derive(Debug, Clone)] struct UnionFindTree { parent: Vec, size: Vec, height: Vec, } impl UnionFindTree { fn new(n: usize) -> UnionFindTree { UnionFindTree { parent: vec![-1; n], size: vec![1usize; n], height: vec![0u64; n], } } fn find(&mut self, index: usize) -> usize { if self.parent[index] == -1 { return index; } let idx = self.parent[index] as usize; let ret = self.find(idx); self.parent[index] = ret as isize; ret } fn same(&mut self, x: usize, y: usize) -> bool { self.find(x) == self.find(y) } fn get_size(&mut self, x: usize) -> usize { let idx = self.find(x); self.size[idx] } fn unite(&mut self, index0: usize, index1: usize) -> bool { let a = self.find(index0); let b = self.find(index1); if a == b { false } else { if self.height[a] > self.height[b] { self.parent[b] = a as isize; self.size[a] += self.size[b]; } else if self.height[a] < self.height[b] { self.parent[a] = b as isize; self.size[b] += self.size[a]; } else { self.parent[b] = a as isize; self.size[a] += self.size[b]; self.height[a] += 1; } true } } }