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krahets
2023-06-25 21:11:35 +08:00
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chapter_hashing/hash_collision.md
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@@ -372,7 +372,128 @@ comments: true
```go title="hash_map_chaining.go"
[class]{pair}-[func]{}
[class]{hashMapChaining}-[func]{}
/* 链式地址哈希表 */
type hashMapChaining struct {
size int // 键值对数量
capacity int // 哈希表容量
loadThres float64 // 触发扩容的负载因子阈值
extendRatio int // 扩容倍数
buckets [][]pair // 桶数组
}
/* 构造方法 */
func newHashMapChaining() *hashMapChaining {
buckets := make([][]pair, 4)
for i := 0; i < 4; i++ {
buckets[i] = make([]pair, 0)
}
return &hashMapChaining{
size: 0,
capacity: 4,
loadThres: 2 / 3.0,
extendRatio: 2,
buckets: buckets,
}
}
/* 哈希函数 */
func (m *hashMapChaining) hashFunc(key int) int {
return key % m.capacity
}
/* 负载因子 */
func (m *hashMapChaining) loadFactor() float64 {
return float64(m.size / m.capacity)
}
/* 查询操作 */
func (m *hashMapChaining) get(key int) string {
idx := m.hashFunc(key)
bucket := m.buckets[idx]
// 遍历桶,若找到 key 则返回对应 val
for _, p := range bucket {
if p.key == key {
return p.val
}
}
// 若未找到 key 则返回空字符串
return ""
}
/* 添加操作 */
func (m *hashMapChaining) put(key int, val string) {
// 当负载因子超过阈值时,执行扩容
if m.loadFactor() > m.loadThres {
m.extend()
}
idx := m.hashFunc(key)
// 遍历桶,若遇到指定 key ,则更新对应 val 并返回
for _, p := range m.buckets[idx] {
if p.key == key {
p.val = val
return
}
}
// 若无该 key ,则将键值对添加至尾部
p := pair{
key: key,
val: val,
}
m.buckets[idx] = append(m.buckets[idx], p)
m.size += 1
}
/* 删除操作 */
func (m *hashMapChaining) remove(key int) {
idx := m.hashFunc(key)
// 遍历桶,从中删除键值对
for i, p := range m.buckets[idx] {
if p.key == key {
// 切片删除
m.buckets[idx] = append(m.buckets[idx][:i], m.buckets[idx][i+1:]...)
break
}
}
m.size -= 1
}
/* 扩容哈希表 */
func (m *hashMapChaining) extend() {
// 暂存原哈希表
tmpBuckets := make([][]pair, len(m.buckets))
for i := 0; i < len(m.buckets); i++ {
tmpBuckets[i] = make([]pair, len(m.buckets[i]))
copy(tmpBuckets[i], m.buckets[i])
}
// 初始化扩容后的新哈希表
m.capacity *= m.extendRatio
m.buckets = make([][]pair, m.capacity)
for i := 0; i < m.capacity; i++ {
m.buckets[i] = make([]pair, 0)
}
m.size = 0
// 将键值对从原哈希表搬运至新哈希表
for _, bucket := range tmpBuckets {
for _, p := range bucket {
m.put(p.key, p.val)
}
}
}
/* 打印哈希表 */
func (m *hashMapChaining) print() {
var builder strings.Builder
for _, bucket := range m.buckets {
builder.WriteString("[")
for _, p := range bucket {
builder.WriteString(strconv.Itoa(p.key) + " -> " + p.val + " ")
}
builder.WriteString("]")
fmt.Println(builder.String())
builder.Reset()
}
}
```
=== "JavaScript"
@@ -426,9 +547,111 @@ comments: true
=== "Dart"
```dart title="hash_map_chaining.dart"
[class]{Pair}-[func]{}
/* 键值对 */
class Pair {
int key;
String val;
Pair(this.key, this.val);
}
[class]{HashMapChaining}-[func]{}
/* 链式地址哈希表 */
class HashMapChaining {
late int size; // 键值对数量
late int capacity; // 哈希表容量
late double loadThres; // 触发扩容的负载因子阈值
late int extendRatio; // 扩容倍数
late List<List<Pair>> buckets; // 桶数组
/* 构造方法 */
HashMapChaining() {
size = 0;
capacity = 4;
loadThres = 2 / 3.0;
extendRatio = 2;
buckets = List.generate(capacity, (_) => []);
}
/* 哈希函数 */
int hashFunc(int key) {
return key % capacity;
}
/* 负载因子 */
double loadFactor() {
return size / capacity;
}
/* 查询操作 */
String? get(int key) {
int index = hashFunc(key);
List<Pair> bucket = buckets[index];
// 遍历桶,若找到 key 则返回对应 val
for (Pair pair in bucket) {
if (pair.key == key) {
return pair.val;
}
}
// 若未找到 key 则返回 null
return null;
}
/* 添加操作 */
void put(int key, String val) {
// 当负载因子超过阈值时,执行扩容
if (loadFactor() > loadThres) {
extend();
}
int index = hashFunc(key);
List<Pair> bucket = buckets[index];
// 遍历桶,若遇到指定 key ,则更新对应 val 并返回
for (Pair pair in bucket) {
if (pair.key == key) {
pair.val = val;
return;
}
}
// 若无该 key ,则将键值对添加至尾部
Pair pair = Pair(key, val);
bucket.add(pair);
size++;
}
/* 删除操作 */
void remove(int key) {
int index = hashFunc(key);
List<Pair> bucket = buckets[index];
// 遍历桶,从中删除键值对
bucket.removeWhere((Pair pair) => pair.key == key);
size--;
}
/* 扩容哈希表 */
void extend() {
// 暂存原哈希表
List<List<Pair>> bucketsTmp = buckets;
// 初始化扩容后的新哈希表
capacity *= extendRatio;
buckets = List.generate(capacity, (_) => []);
size = 0;
// 将键值对从原哈希表搬运至新哈希表
for (List<Pair> bucket in bucketsTmp) {
for (Pair pair in bucket) {
put(pair.key, pair.val);
}
}
}
/* 打印哈希表 */
void printHashMap() {
for (List<Pair> bucket in buckets) {
List<String> res = [];
for (Pair pair in bucket) {
res.add("${pair.key} -> ${pair.val}");
}
print(res);
}
}
}
```
!!! tip
@@ -836,7 +1059,137 @@ comments: true
```go title="hash_map_open_addressing.go"
[class]{pair}-[func]{}
[class]{hashMapOpenAddressing}-[func]{}
/* 链式地址哈希表 */
type hashMapOpenAddressing struct {
size int // 键值对数量
capacity int // 哈希表容量
loadThres float64 // 触发扩容的负载因子阈值
extendRatio int // 扩容倍数
buckets []pair // 桶数组
removed pair // 删除标记
}
/* 构造方法 */
func newHashMapOpenAddressing() *hashMapOpenAddressing {
buckets := make([]pair, 4)
return &hashMapOpenAddressing{
size: 0,
capacity: 4,
loadThres: 2 / 3.0,
extendRatio: 2,
buckets: buckets,
removed: pair{
key: -1,
val: "-1",
},
}
}
/* 哈希函数 */
func (m *hashMapOpenAddressing) hashFunc(key int) int {
return key % m.capacity
}
/* 负载因子 */
func (m *hashMapOpenAddressing) loadFactor() float64 {
return float64(m.size) / float64(m.capacity)
}
/* 查询操作 */
func (m *hashMapOpenAddressing) get(key int) string {
idx := m.hashFunc(key)
// 线性探测,从 index 开始向后遍历
for i := 0; i < m.capacity; i++ {
// 计算桶索引,越过尾部返回头部
j := (idx + 1) % m.capacity
// 若遇到空桶,说明无此 key ,则返回 null
if m.buckets[j] == (pair{}) {
return ""
}
// 若遇到指定 key ,则返回对应 val
if m.buckets[j].key == key && m.buckets[j] != m.removed {
return m.buckets[j].val
}
}
// 若未找到 key 则返回空字符串
return ""
}
/* 添加操作 */
func (m *hashMapOpenAddressing) put(key int, val string) {
// 当负载因子超过阈值时,执行扩容
if m.loadFactor() > m.loadThres {
m.extend()
}
idx := m.hashFunc(key)
// 线性探测,从 index 开始向后遍历
for i := 0; i < m.capacity; i++ {
// 计算桶索引,越过尾部返回头部
j := (idx + i) % m.capacity
// 若遇到空桶、或带有删除标记的桶,则将键值对放入该桶
if m.buckets[j] == (pair{}) || m.buckets[j] == m.removed {
m.buckets[j] = pair{
key: key,
val: val,
}
m.size += 1
return
}
// 若遇到指定 key ,则更新对应 val
if m.buckets[j].key == key {
m.buckets[j].val = val
}
}
}
/* 删除操作 */
func (m *hashMapOpenAddressing) remove(key int) {
idx := m.hashFunc(key)
// 遍历桶,从中删除键值对
// 线性探测,从 index 开始向后遍历
for i := 0; i < m.capacity; i++ {
// 计算桶索引,越过尾部返回头部
j := (idx + 1) % m.capacity
// 若遇到空桶,说明无此 key ,则直接返回
if m.buckets[j] == (pair{}) {
return
}
// 若遇到指定 key ,则标记删除并返回
if m.buckets[j].key == key {
m.buckets[j] = m.removed
m.size -= 1
}
}
}
/* 扩容哈希表 */
func (m *hashMapOpenAddressing) extend() {
// 暂存原哈希表
tmpBuckets := make([]pair, len(m.buckets))
copy(tmpBuckets, m.buckets)
// 初始化扩容后的新哈希表
m.capacity *= m.extendRatio
m.buckets = make([]pair, m.capacity)
m.size = 0
// 将键值对从原哈希表搬运至新哈希表
for _, p := range tmpBuckets {
if p != (pair{}) && p != m.removed {
m.put(p.key, p.val)
}
}
}
/* 打印哈希表 */
func (m *hashMapOpenAddressing) print() {
for _, p := range m.buckets {
if p != (pair{}) {
fmt.Println(strconv.Itoa(p.key) + " -> " + p.val)
} else {
fmt.Println("nil")
}
}
}
```
=== "JavaScript"
@@ -890,9 +1243,130 @@ comments: true
=== "Dart"
```dart title="hash_map_open_addressing.dart"
[class]{Pair}-[func]{}
/* 键值对 */
class Pair {
int key;
String val;
Pair(this.key, this.val);
}
[class]{HashMapOpenAddressing}-[func]{}
/* 开放寻址哈希表 */
class HashMapOpenAddressing {
late int _size; // 键值对数量
late int _capacity; // 哈希表容量
late double _loadThres; // 触发扩容的负载因子阈值
late int _extendRatio; // 扩容倍数
late List<Pair?> _buckets; // 桶数组
late Pair _removed; // 删除标记
/* 构造方法 */
HashMapOpenAddressing() {
_size = 0;
_capacity = 4;
_loadThres = 2.0 / 3.0;
_extendRatio = 2;
_buckets = List.generate(_capacity, (index) => null);
_removed = Pair(-1, "-1");
}
/* 哈希函数 */
int hashFunc(int key) {
return key % _capacity;
}
/* 负载因子 */
double loadFactor() {
return _size / _capacity;
}
/* 查询操作 */
String? get(int key) {
int index = hashFunc(key);
// 线性探测,从 index 开始向后遍历
for (int i = 0; i < _capacity; i++) {
// 计算桶索引,越过尾部返回头部
int j = (index + i) % _capacity;
// 若遇到空桶,说明无此 key ,则返回 null
if (_buckets[j] == null) return null;
// 若遇到指定 key ,则返回对应 val
if (_buckets[j]!.key == key && _buckets[j] != _removed)
return _buckets[j]!.val;
}
return null;
}
/* 添加操作 */
void put(int key, String val) {
// 当负载因子超过阈值时,执行扩容
if (loadFactor() > _loadThres) {
extend();
}
int index = hashFunc(key);
// 线性探测,从 index 开始向后遍历
for (int i = 0; i < _capacity; i++) {
// 计算桶索引,越过尾部返回头部
int j = (index + i) % _capacity;
// 若遇到空桶、或带有删除标记的桶,则将键值对放入该桶
if (_buckets[j] == null || _buckets[j] == _removed) {
_buckets[j] = new Pair(key, val);
_size += 1;
return;
}
// 若遇到指定 key ,则更新对应 val
if (_buckets[j]!.key == key) {
_buckets[j]!.val = val;
return;
}
}
}
/* 删除操作 */
void remove(int key) {
int index = hashFunc(key);
// 线性探测,从 index 开始向后遍历
for (int i = 0; i < _capacity; i++) {
// 计算桶索引,越过尾部返回头部
int j = (index + i) % _capacity;
// 若遇到空桶,说明无此 key ,则直接返回
if (_buckets[j] == null) {
return;
}
// 若遇到指定 key ,则标记删除并返回
if (_buckets[j]!.key == key) {
_buckets[j] = _removed;
_size -= 1;
return;
}
}
}
/* 扩容哈希表 */
void extend() {
// 暂存原哈希表
List<Pair?> bucketsTmp = _buckets;
// 初始化扩容后的新哈希表
_capacity *= _extendRatio;
_buckets = List.generate(_capacity, (index) => null);
_size = 0;
// 将键值对从原哈希表搬运至新哈希表
for (Pair? pair in bucketsTmp) {
if (pair != null && pair != _removed) {
put(pair.key, pair.val);
}
}
}
/* 打印哈希表 */
void printHashMap() {
for (Pair? pair in _buckets) {
if (pair != null) {
print("${pair.key} -> ${pair.val}");
} else {
print(null);
}
}
}
}
```
### 多次哈希