gf/container/gset/gset_any_set.go

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// Copyright GoFrame Author(https://goframe.org). All Rights Reserved.
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//
// This Source Code Form is subject to the terms of the MIT License.
// If a copy of the MIT was not distributed with this file,
// You can obtain one at https://github.com/gogf/gf.
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// Package gset provides kinds of concurrent-safe/unsafe sets.
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package gset
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import (
"bytes"
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"github.com/gogf/gf/v2/internal/json"
"github.com/gogf/gf/v2/internal/rwmutex"
"github.com/gogf/gf/v2/text/gstr"
"github.com/gogf/gf/v2/util/gconv"
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)
type Set struct {
mu rwmutex.RWMutex
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data map[interface{}]struct{}
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}
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// New create and returns a new set, which contains un-repeated items.
// The parameter `safe` is used to specify whether using set in concurrent-safety,
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// which is false in default.
func New(safe ...bool) *Set {
return NewSet(safe...)
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}
// NewSet create and returns a new set, which contains un-repeated items.
// Also see New.
func NewSet(safe ...bool) *Set {
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return &Set{
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data: make(map[interface{}]struct{}),
mu: rwmutex.Create(safe...),
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}
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}
// NewFrom returns a new set from `items`.
// Parameter `items` can be either a variable of any type, or a slice.
func NewFrom(items interface{}, safe ...bool) *Set {
m := make(map[interface{}]struct{})
for _, v := range gconv.Interfaces(items) {
m[v] = struct{}{}
}
return &Set{
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data: m,
mu: rwmutex.Create(safe...),
}
}
// Iterator iterates the set readonly with given callback function `f`,
// if `f` returns true then continue iterating; or false to stop.
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func (set *Set) Iterator(f func(v interface{}) bool) {
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set.mu.RLock()
defer set.mu.RUnlock()
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for k, _ := range set.data {
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if !f(k) {
break
}
}
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}
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// Add adds one or multiple items to the set.
func (set *Set) Add(items ...interface{}) {
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set.mu.Lock()
if set.data == nil {
set.data = make(map[interface{}]struct{})
}
for _, v := range items {
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set.data[v] = struct{}{}
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}
set.mu.Unlock()
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}
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// AddIfNotExist checks whether item exists in the set,
// it adds the item to set and returns true if it does not exists in the set,
// or else it does nothing and returns false.
//
// Note that, if `item` is nil, it does nothing and returns false.
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func (set *Set) AddIfNotExist(item interface{}) bool {
if item == nil {
return false
}
if !set.Contains(item) {
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set.mu.Lock()
defer set.mu.Unlock()
if set.data == nil {
set.data = make(map[interface{}]struct{})
}
if _, ok := set.data[item]; !ok {
set.data[item] = struct{}{}
return true
}
}
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return false
}
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// AddIfNotExistFunc checks whether item exists in the set,
// it adds the item to set and returns true if it does not exists in the set and
// function `f` returns true, or else it does nothing and returns false.
//
// Note that, if `item` is nil, it does nothing and returns false. The function `f`
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// is executed without writing lock.
func (set *Set) AddIfNotExistFunc(item interface{}, f func() bool) bool {
if item == nil {
return false
}
if !set.Contains(item) {
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if f() {
set.mu.Lock()
defer set.mu.Unlock()
if set.data == nil {
set.data = make(map[interface{}]struct{})
}
if _, ok := set.data[item]; !ok {
set.data[item] = struct{}{}
return true
}
}
}
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return false
}
// AddIfNotExistFuncLock checks whether item exists in the set,
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// it adds the item to set and returns true if it does not exists in the set and
// function `f` returns true, or else it does nothing and returns false.
//
// Note that, if `item` is nil, it does nothing and returns false. The function `f`
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// is executed within writing lock.
func (set *Set) AddIfNotExistFuncLock(item interface{}, f func() bool) bool {
if item == nil {
return false
}
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if !set.Contains(item) {
set.mu.Lock()
defer set.mu.Unlock()
if set.data == nil {
set.data = make(map[interface{}]struct{})
}
if f() {
if _, ok := set.data[item]; !ok {
set.data[item] = struct{}{}
return true
}
}
}
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return false
}
// Contains checks whether the set contains `item`.
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func (set *Set) Contains(item interface{}) bool {
var ok bool
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set.mu.RLock()
if set.data != nil {
_, ok = set.data[item]
}
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set.mu.RUnlock()
return ok
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}
// Remove deletes `item` from set.
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func (set *Set) Remove(item interface{}) {
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set.mu.Lock()
if set.data != nil {
delete(set.data, item)
}
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set.mu.Unlock()
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}
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// Size returns the size of the set.
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func (set *Set) Size() int {
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set.mu.RLock()
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l := len(set.data)
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set.mu.RUnlock()
return l
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}
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// Clear deletes all items of the set.
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func (set *Set) Clear() {
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set.mu.Lock()
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set.data = make(map[interface{}]struct{})
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set.mu.Unlock()
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}
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// Slice returns the a of items of the set as slice.
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func (set *Set) Slice() []interface{} {
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set.mu.RLock()
var (
i = 0
ret = make([]interface{}, len(set.data))
)
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for item := range set.data {
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ret[i] = item
i++
}
set.mu.RUnlock()
return ret
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}
// Join joins items with a string `glue`.
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func (set *Set) Join(glue string) string {
set.mu.RLock()
defer set.mu.RUnlock()
if len(set.data) == 0 {
return ""
}
var (
l = len(set.data)
i = 0
buffer = bytes.NewBuffer(nil)
)
for k, _ := range set.data {
buffer.WriteString(gconv.String(k))
if i != l-1 {
buffer.WriteString(glue)
}
i++
}
return buffer.String()
}
// String returns items as a string, which implements like json.Marshal does.
func (set *Set) String() string {
set.mu.RLock()
defer set.mu.RUnlock()
var (
s = ""
l = len(set.data)
i = 0
buffer = bytes.NewBuffer(nil)
)
buffer.WriteByte('[')
for k, _ := range set.data {
s = gconv.String(k)
if gstr.IsNumeric(s) {
buffer.WriteString(s)
} else {
buffer.WriteString(`"` + gstr.QuoteMeta(s, `"\`) + `"`)
}
if i != l-1 {
buffer.WriteByte(',')
}
i++
}
buffer.WriteByte(']')
return buffer.String()
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}
// LockFunc locks writing with callback function `f`.
func (set *Set) LockFunc(f func(m map[interface{}]struct{})) {
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set.mu.Lock()
defer set.mu.Unlock()
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f(set.data)
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}
// RLockFunc locks reading with callback function `f`.
func (set *Set) RLockFunc(f func(m map[interface{}]struct{})) {
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set.mu.RLock()
defer set.mu.RUnlock()
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f(set.data)
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}
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// Equal checks whether the two sets equal.
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func (set *Set) Equal(other *Set) bool {
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if set == other {
return true
}
set.mu.RLock()
defer set.mu.RUnlock()
other.mu.RLock()
defer other.mu.RUnlock()
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if len(set.data) != len(other.data) {
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return false
}
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for key := range set.data {
if _, ok := other.data[key]; !ok {
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return false
}
}
return true
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}
// IsSubsetOf checks whether the current set is a sub-set of `other`.
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func (set *Set) IsSubsetOf(other *Set) bool {
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if set == other {
return true
}
set.mu.RLock()
defer set.mu.RUnlock()
other.mu.RLock()
defer other.mu.RUnlock()
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for key := range set.data {
if _, ok := other.data[key]; !ok {
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return false
}
}
return true
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}
// Union returns a new set which is the union of `set` and `others`.
// Which means, all the items in `newSet` are in `set` or in `others`.
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func (set *Set) Union(others ...*Set) (newSet *Set) {
newSet = NewSet()
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set.mu.RLock()
defer set.mu.RUnlock()
for _, other := range others {
if set != other {
other.mu.RLock()
}
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for k, v := range set.data {
newSet.data[k] = v
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}
if set != other {
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for k, v := range other.data {
newSet.data[k] = v
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}
}
if set != other {
other.mu.RUnlock()
}
}
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return
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}
// Diff returns a new set which is the difference set from `set` to `others`.
// Which means, all the items in `newSet` are in `set` but not in `others`.
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func (set *Set) Diff(others ...*Set) (newSet *Set) {
newSet = NewSet()
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set.mu.RLock()
defer set.mu.RUnlock()
for _, other := range others {
if set == other {
continue
}
other.mu.RLock()
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for k, v := range set.data {
if _, ok := other.data[k]; !ok {
newSet.data[k] = v
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}
}
other.mu.RUnlock()
}
return
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}
// Intersect returns a new set which is the intersection from `set` to `others`.
// Which means, all the items in `newSet` are in `set` and also in `others`.
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func (set *Set) Intersect(others ...*Set) (newSet *Set) {
newSet = NewSet()
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set.mu.RLock()
defer set.mu.RUnlock()
for _, other := range others {
if set != other {
other.mu.RLock()
}
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for k, v := range set.data {
if _, ok := other.data[k]; ok {
newSet.data[k] = v
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}
}
if set != other {
other.mu.RUnlock()
}
}
return
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}
// Complement returns a new set which is the complement from `set` to `full`.
// Which means, all the items in `newSet` are in `full` and not in `set`.
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//
// It returns the difference between `full` and `set`
// if the given set `full` is not the full set of `set`.
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func (set *Set) Complement(full *Set) (newSet *Set) {
newSet = NewSet()
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set.mu.RLock()
defer set.mu.RUnlock()
if set != full {
full.mu.RLock()
defer full.mu.RUnlock()
}
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for k, v := range full.data {
if _, ok := set.data[k]; !ok {
newSet.data[k] = v
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}
}
return
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}
// Merge adds items from `others` sets into `set`.
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func (set *Set) Merge(others ...*Set) *Set {
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set.mu.Lock()
defer set.mu.Unlock()
for _, other := range others {
if set != other {
other.mu.RLock()
}
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for k, v := range other.data {
set.data[k] = v
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}
if set != other {
other.mu.RUnlock()
}
}
return set
}
// Sum sums items.
// Note: The items should be converted to int type,
// or you'd get a result that you unexpected.
func (set *Set) Sum() (sum int) {
set.mu.RLock()
defer set.mu.RUnlock()
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for k, _ := range set.data {
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sum += gconv.Int(k)
}
return
}
// Pop randomly pops an item from set.
func (set *Set) Pop() interface{} {
set.mu.Lock()
defer set.mu.Unlock()
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for k, _ := range set.data {
delete(set.data, k)
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return k
}
return nil
}
// Pops randomly pops `size` items from set.
// It returns all items if size == -1.
func (set *Set) Pops(size int) []interface{} {
set.mu.Lock()
defer set.mu.Unlock()
if size > len(set.data) || size == -1 {
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size = len(set.data)
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}
if size <= 0 {
return nil
}
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index := 0
array := make([]interface{}, size)
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for k, _ := range set.data {
delete(set.data, k)
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array[index] = k
index++
if index == size {
break
}
}
return array
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}
// Walk applies a user supplied function `f` to every item of set.
func (set *Set) Walk(f func(item interface{}) interface{}) *Set {
set.mu.Lock()
defer set.mu.Unlock()
m := make(map[interface{}]struct{}, len(set.data))
for k, v := range set.data {
m[f(k)] = v
}
set.data = m
return set
}
// MarshalJSON implements the interface MarshalJSON for json.Marshal.
func (set *Set) MarshalJSON() ([]byte, error) {
return json.Marshal(set.Slice())
}
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// UnmarshalJSON implements the interface UnmarshalJSON for json.Unmarshal.
func (set *Set) UnmarshalJSON(b []byte) error {
set.mu.Lock()
defer set.mu.Unlock()
if set.data == nil {
set.data = make(map[interface{}]struct{})
}
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var array []interface{}
if err := json.UnmarshalUseNumber(b, &array); err != nil {
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return err
}
for _, v := range array {
set.data[v] = struct{}{}
}
return nil
}
// UnmarshalValue is an interface implement which sets any type of value for set.
func (set *Set) UnmarshalValue(value interface{}) (err error) {
set.mu.Lock()
defer set.mu.Unlock()
if set.data == nil {
set.data = make(map[interface{}]struct{})
}
var array []interface{}
switch value.(type) {
case string, []byte:
err = json.UnmarshalUseNumber(gconv.Bytes(value), &array)
default:
array = gconv.SliceAny(value)
}
for _, v := range array {
set.data[v] = struct{}{}
}
return
}