mirror of
https://github.com/cloud-hypervisor/cloud-hypervisor.git
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275 lines
8.5 KiB
Rust
275 lines
8.5 KiB
Rust
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// Copyright 2019 The Chromium OS Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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use std::borrow::Borrow;
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use std::collections::BTreeMap;
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/// A BTreeMap that supports 2 types of keys per value. All the usual restrictions and warnings for
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/// `std::collections::BTreeMap` also apply to this struct. Additionally, there is a 1:1
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/// relationship between the 2 key types. In other words, for each `K1` in the map, there is exactly
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/// one `K2` in the map and vice versa.
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#[derive(Default)]
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pub struct MultikeyBTreeMap<K1, K2, V>
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where
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K1: Ord,
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K2: Ord,
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{
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// We need to keep a copy of the second key in the main map so that we can remove entries using
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// just the main key. Otherwise we would require the caller to provide both keys when calling
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// `remove`.
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main: BTreeMap<K1, (K2, V)>,
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alt: BTreeMap<K2, K1>,
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}
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impl<K1, K2, V> MultikeyBTreeMap<K1, K2, V>
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where
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K1: Clone + Ord,
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K2: Clone + Ord,
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{
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/// Create a new empty MultikeyBTreeMap.
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pub fn new() -> Self {
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MultikeyBTreeMap {
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main: BTreeMap::default(),
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alt: BTreeMap::default(),
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}
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}
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/// Returns a reference to the value corresponding to the key.
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///
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/// The key may be any borrowed form of `K1``, but the ordering on the borrowed form must match
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/// the ordering on `K1`.
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pub fn get<Q>(&self, key: &Q) -> Option<&V>
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where
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K1: Borrow<Q>,
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Q: Ord + ?Sized,
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{
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self.main.get(key).map(|(_, v)| v)
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}
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/// Returns a reference to the value corresponding to the alternate key.
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///
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/// The key may be any borrowed form of the `K2``, but the ordering on the borrowed form must
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/// match the ordering on `K2`.
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///
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/// Note that this method performs 2 lookups: one to get the main key and another to get the
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/// value associated with that key. For best performance callers should prefer the `get` method
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/// over this method whenever possible as `get` only needs to perform one lookup.
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pub fn get_alt<Q2>(&self, key: &Q2) -> Option<&V>
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where
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K2: Borrow<Q2>,
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Q2: Ord + ?Sized,
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{
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if let Some(k) = self.alt.get(key) {
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self.get(k)
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} else {
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None
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}
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}
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/// Inserts a new entry into the map with the given keys and value.
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///
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/// Returns `None` if the map did not have an entry with `k1` or `k2` present. If exactly one
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/// key was present, then the value associated with that key is updated, the other key is
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/// removed, and the old value is returned. If **both** keys were present then the value
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/// associated with the main key is updated, the value associated with the alternate key is
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/// removed, and the old value associated with the main key is returned.
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pub fn insert(&mut self, k1: K1, k2: K2, v: V) -> Option<V> {
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let oldval = if let Some(oldkey) = self.alt.insert(k2.clone(), k1.clone()) {
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self.main.remove(&oldkey)
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} else {
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None
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};
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self.main
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.insert(k1, (k2.clone(), v))
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.or(oldval)
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.map(|(oldk2, v)| {
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if oldk2 != k2 {
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self.alt.remove(&oldk2);
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}
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v
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})
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}
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/// Remove a key from the map, returning the value associated with that key if it was previously
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/// in the map.
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///
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/// The key may be any borrowed form of `K1``, but the ordering on the borrowed form must match
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/// the ordering on `K1`.
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pub fn remove<Q>(&mut self, key: &Q) -> Option<V>
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where
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K1: Borrow<Q>,
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Q: Ord + ?Sized,
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{
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self.main.remove(key).map(|(k2, v)| {
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self.alt.remove(&k2);
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v
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})
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}
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/// Clears the map, removing all values.
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pub fn clear(&mut self) {
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self.alt.clear();
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self.main.clear()
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}
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}
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#[cfg(test)]
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mod test {
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use super::*;
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#[test]
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fn get() {
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let mut m = MultikeyBTreeMap::<u64, i64, u32>::new();
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let k1 = 0xc6c8_f5e0_b13e_ed40;
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let k2 = 0x1a04_ce4b_8329_14fe;
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let val = 0xf4e3_c360;
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assert!(m.insert(k1, k2, val).is_none());
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assert_eq!(*m.get(&k1).expect("failed to look up main key"), val);
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assert_eq!(*m.get_alt(&k2).expect("failed to look up alt key"), val);
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}
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#[test]
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fn update_main_key() {
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let mut m = MultikeyBTreeMap::<u64, i64, u32>::new();
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let k1 = 0xc6c8_f5e0_b13e_ed40;
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let k2 = 0x1a04_ce4b_8329_14fe;
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let val = 0xf4e3_c360;
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assert!(m.insert(k1, k2, val).is_none());
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let new_k1 = 0x3add_f8f8_c7c5_df5e;
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let val2 = 0x7389_f8a7;
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assert_eq!(
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m.insert(new_k1, k2, val2)
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.expect("failed to update main key"),
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val
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);
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assert!(m.get(&k1).is_none());
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assert_eq!(*m.get(&new_k1).expect("failed to look up main key"), val2);
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assert_eq!(*m.get_alt(&k2).expect("failed to look up alt key"), val2);
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}
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#[test]
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fn update_alt_key() {
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let mut m = MultikeyBTreeMap::<u64, i64, u32>::new();
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let k1 = 0xc6c8_f5e0_b13e_ed40;
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let k2 = 0x1a04_ce4b_8329_14fe;
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let val = 0xf4e3_c360;
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assert!(m.insert(k1, k2, val).is_none());
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let new_k2 = 0x6825_a60b_61ac_b333;
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let val2 = 0xbb14_8f2c;
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assert_eq!(
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m.insert(k1, new_k2, val2)
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.expect("failed to update alt key"),
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val
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);
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assert!(m.get_alt(&k2).is_none());
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assert_eq!(*m.get(&k1).expect("failed to look up main key"), val2);
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assert_eq!(
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*m.get_alt(&new_k2).expect("failed to look up alt key"),
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val2
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);
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}
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#[test]
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fn update_value() {
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let mut m = MultikeyBTreeMap::<u64, i64, u32>::new();
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let k1 = 0xc6c8_f5e0_b13e_ed40;
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let k2 = 0x1a04_ce4b_8329_14fe;
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let val = 0xf4e3_c360;
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assert!(m.insert(k1, k2, val).is_none());
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let val2 = 0xe42d_79ba;
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assert_eq!(
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m.insert(k1, k2, val2).expect("failed to update alt key"),
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val
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);
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assert_eq!(*m.get(&k1).expect("failed to look up main key"), val2);
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assert_eq!(*m.get_alt(&k2).expect("failed to look up alt key"), val2);
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}
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#[test]
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fn update_both_keys_main() {
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let mut m = MultikeyBTreeMap::<u64, i64, u32>::new();
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let k1 = 0xc6c8_f5e0_b13e_ed40;
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let k2 = 0x1a04_ce4b_8329_14fe;
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let val = 0xf4e3_c360;
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assert!(m.insert(k1, k2, val).is_none());
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let new_k1 = 0xc980_587a_24b3_ae30;
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let new_k2 = 0x2773_c5ee_8239_45a2;
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let val2 = 0x31f4_33f9;
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assert!(m.insert(new_k1, new_k2, val2).is_none());
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let val3 = 0x8da1_9cf7;
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assert_eq!(
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m.insert(k1, new_k2, val3)
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.expect("failed to update main key"),
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val
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);
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// Both new_k1 and k2 should now be gone from the map.
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assert!(m.get(&new_k1).is_none());
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assert!(m.get_alt(&k2).is_none());
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assert_eq!(*m.get(&k1).expect("failed to look up main key"), val3);
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assert_eq!(
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*m.get_alt(&new_k2).expect("failed to look up alt key"),
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val3
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);
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}
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#[test]
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fn update_both_keys_alt() {
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let mut m = MultikeyBTreeMap::<u64, i64, u32>::new();
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let k1 = 0xc6c8_f5e0_b13e_ed40;
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let k2 = 0x1a04_ce4b_8329_14fe;
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let val = 0xf4e3_c360;
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assert!(m.insert(k1, k2, val).is_none());
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let new_k1 = 0xc980_587a_24b3_ae30;
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let new_k2 = 0x2773_c5ee_8239_45a2;
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let val2 = 0x31f4_33f9;
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assert!(m.insert(new_k1, new_k2, val2).is_none());
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let val3 = 0x8da1_9cf7;
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assert_eq!(
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m.insert(new_k1, k2, val3)
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.expect("failed to update main key"),
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val2
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);
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// Both k1 and new_k2 should now be gone from the map.
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assert!(m.get(&k1).is_none());
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assert!(m.get_alt(&new_k2).is_none());
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assert_eq!(*m.get(&new_k1).expect("failed to look up main key"), val3);
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assert_eq!(*m.get_alt(&k2).expect("failed to look up alt key"), val3);
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}
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#[test]
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fn remove() {
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let mut m = MultikeyBTreeMap::<u64, i64, u32>::new();
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let k1 = 0xc6c8_f5e0_b13e_ed40;
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let k2 = 0x1a04_ce4b_8329_14fe;
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let val = 0xf4e3_c360;
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assert!(m.insert(k1, k2, val).is_none());
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assert_eq!(m.remove(&k1).expect("failed to remove entry"), val);
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assert!(m.get(&k1).is_none());
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assert!(m.get_alt(&k2).is_none());
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}
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}
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