#![allow(unused_imports, unused_macros, dead_code)] use std::{cmp::*, collections::*}; fn main() { let mut sc = Scanner::new(); let h: u64 = sc.cin(); let w: u64 = sc.cin(); let mut ans = h * w; let mut memo = DefaultDict::new(h); let q: usize = sc.cin(); for _ in 0..q { let x: u64 = sc.cin(); let y: usize = sc.cin(); if memo[y] > x { ans -= memo[y] - x + 1; memo[y] = x - 1; } put!(ans); } } // @collections/defaultdict #[derive(Debug, Clone)] pub struct DefaultDict where K: Eq + std::hash::Hash, { data: std::collections::HashMap, default: V, } impl DefaultDict { pub fn new(default: V) -> DefaultDict { DefaultDict { data: std::collections::HashMap::new(), default, } } pub fn keys(&self) -> std::collections::hash_map::Keys { self.data.keys() } pub fn iter(&self) -> std::collections::hash_map::Iter { self.data.iter() } pub fn len(&self) -> usize { self.data.len() } } impl std::ops::Index for DefaultDict { type Output = V; fn index(&self, key: K) -> &Self::Output { if let Some(val) = self.data.get(&key) { val } else { &self.default } } } impl std::ops::IndexMut for DefaultDict { fn index_mut(&mut self, key: K) -> &mut Self::Output { let val = self.default.clone(); self.data.entry(key.clone()).or_insert(val); self.data.get_mut(&key).unwrap() } } // {{{ use std::io::{self, Write}; use std::str::FromStr; struct Scanner { stdin: io::Stdin, buffer: VecDeque, } impl Scanner { fn new() -> Self { Self { stdin: io::stdin(), buffer: VecDeque::new(), } } fn cin(&mut self) -> T { while self.buffer.is_empty() { let mut line = String::new(); let _ = self.stdin.read_line(&mut line); for w in line.split_whitespace() { self.buffer.push_back(String::from(w)); } } self.buffer.pop_front().unwrap().parse::().ok().unwrap() } fn chars(&mut self) -> Vec { self.cin::().chars().collect() } fn vec(&mut self, n: usize) -> Vec { (0..n).map(|_| self.cin()).collect() } } fn flush() { std::io::stdout().flush().unwrap(); } #[macro_export] macro_rules! min { (.. $x:expr) => {{ let mut it = $x.iter(); it.next().map(|z| it.fold(z, |x, y| min!(x, y))) }}; ($x:expr) => ($x); ($x:expr, $($ys:expr),*) => {{ let t = min!($($ys),*); if $x < t { $x } else { t } }} } #[macro_export] macro_rules! max { (.. $x:expr) => {{ let mut it = $x.iter(); it.next().map(|z| it.fold(z, |x, y| max!(x, y))) }}; ($x:expr) => ($x); ($x:expr, $($ys:expr),*) => {{ let t = max!($($ys),*); if $x > t { $x } else { t } }} } #[macro_export] macro_rules! trace { ($x:expr) => { #[cfg(debug_assertions)] eprintln!(">>> {} = {:?}", stringify!($x), $x) }; ($($xs:expr),*) => { trace!(($($xs),*)) } } #[macro_export] macro_rules! put { (.. $x:expr) => {{ let mut it = $x.iter(); if let Some(x) = it.next() { print!("{}", x); } for x in it { print!(" {}", x); } println!(""); }}; ($x:expr) => { println!("{}", $x) }; ($x:expr, $($xs:expr),*) => { print!("{} ", $x); put!($($xs),*) } } // }}}