gf/g/container/gset/gset_int_set.go

292 lines
6.7 KiB
Go

// Copyright 2017 gf Author(https://github.com/gogf/gf). All Rights Reserved.
//
// 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.
//
package gset
import (
"github.com/gogf/gf/g/internal/rwmutex"
"github.com/gogf/gf/g/util/gconv"
"strings"
)
type IntSet struct {
mu *rwmutex.RWMutex
m map[int]struct{}
}
// New create and returns a new set, which contains un-repeated items.
// The param <unsafe> used to specify whether using set in un-concurrent-safety,
// which is false in default.
func NewIntSet(unsafe...bool) *IntSet {
return &IntSet{
m : make(map[int]struct{}),
mu : rwmutex.New(unsafe...),
}
}
// NewIntSetFrom returns a new set from <items>.
func NewIntSetFrom(items []int, unsafe...bool) *IntSet {
m := make(map[int]struct{})
for _, v := range items {
m[v] = struct{}{}
}
return &IntSet{
m : m,
mu : rwmutex.New(unsafe...),
}
}
// Iterator iterates the set with given callback function <f>,
// if <f> returns true then continue iterating; or false to stop.
func (set *IntSet) Iterator(f func (v int) bool) *IntSet {
set.mu.RLock()
defer set.mu.RUnlock()
for k, _ := range set.m {
if !f(k) {
break
}
}
return set
}
// Add adds one or multiple items to the set.
func (set *IntSet) Add(item...int) *IntSet {
set.mu.Lock()
for _, v := range item {
set.m[v] = struct{}{}
}
set.mu.Unlock()
return set
}
// Contains checks whether the set contains <item>.
func (set *IntSet) Contains(item int) bool {
set.mu.RLock()
_, exists := set.m[item]
set.mu.RUnlock()
return exists
}
// Remove deletes <item> from set.
func (set *IntSet) Remove(item int) *IntSet {
set.mu.Lock()
delete(set.m, item)
set.mu.Unlock()
return set
}
// Size returns the size of the set.
func (set *IntSet) Size() int {
set.mu.RLock()
l := len(set.m)
set.mu.RUnlock()
return l
}
// Clear deletes all items of the set.
func (set *IntSet) Clear() *IntSet {
set.mu.Lock()
set.m = make(map[int]struct{})
set.mu.Unlock()
return set
}
// Slice returns the a of items of the set as slice.
func (set *IntSet) Slice() []int {
set.mu.RLock()
ret := make([]int, len(set.m))
i := 0
for k, _ := range set.m {
ret[i] = k
i++
}
set.mu.RUnlock()
return ret
}
// Join joins items with a string <glue>.
func (set *IntSet) Join(glue string) string {
return strings.Join(gconv.Strings(set.Slice()), ",")
}
// String returns items as a string, which are joined by char ','.
func (set *IntSet) String() string {
return set.Join(",")
}
// LockFunc locks writing with callback function <f>.
func (set *IntSet) LockFunc(f func(m map[int]struct{})) *IntSet {
set.mu.Lock()
defer set.mu.Unlock()
f(set.m)
return set
}
// RLockFunc locks reading with callback function <f>.
func (set *IntSet) RLockFunc(f func(m map[int]struct{})) *IntSet {
set.mu.RLock()
defer set.mu.RUnlock()
f(set.m)
return set
}
// Equal checks whether the two sets equal.
func (set *IntSet) Equal(other *IntSet) bool {
if set == other {
return true
}
set.mu.RLock()
defer set.mu.RUnlock()
other.mu.RLock()
defer other.mu.RUnlock()
if len(set.m) != len(other.m) {
return false
}
for key := range set.m {
if _, ok := other.m[key]; !ok {
return false
}
}
return true
}
// IsSubsetOf checks whether the current set is a sub-set of <other>.
func (set *IntSet) IsSubsetOf(other *IntSet) bool {
if set == other {
return true
}
set.mu.RLock()
defer set.mu.RUnlock()
other.mu.RLock()
defer other.mu.RUnlock()
for key := range set.m {
if _, ok := other.m[key]; !ok {
return false
}
}
return true
}
// Union returns a new set which is the union of <set> and <other>.
// Which means, all the items in <newSet> are in <set> or in <other>.
func (set *IntSet) Union(others ... *IntSet) (newSet *IntSet) {
newSet = NewIntSet(true)
set.mu.RLock()
defer set.mu.RUnlock()
for _, other := range others {
if set != other {
other.mu.RLock()
}
for k, v := range set.m {
newSet.m[k] = v
}
if set != other {
for k, v := range other.m {
newSet.m[k] = v
}
}
if set != other {
other.mu.RUnlock()
}
}
return
}
// Diff returns a new set which is the difference set from <set> to <other>.
// Which means, all the items in <newSet> are in <set> but not in <other>.
func (set *IntSet) Diff(others...*IntSet) (newSet *IntSet) {
newSet = NewIntSet(true)
set.mu.RLock()
defer set.mu.RUnlock()
for _, other := range others {
if set == other {
continue
}
other.mu.RLock()
for k, v := range set.m {
if _, ok := other.m[k]; !ok {
newSet.m[k] = v
}
}
other.mu.RUnlock()
}
return
}
// Intersect returns a new set which is the intersection from <set> to <other>.
// Which means, all the items in <newSet> are in <set> and also in <other>.
func (set *IntSet) Intersect(others...*IntSet) (newSet *IntSet) {
newSet = NewIntSet(true)
set.mu.RLock()
defer set.mu.RUnlock()
for _, other := range others {
if set != other {
other.mu.RLock()
}
for k, v := range set.m {
if _, ok := other.m[k]; ok {
newSet.m[k] = v
}
}
if set != other {
other.mu.RUnlock()
}
}
return
}
// 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>.
//
// It returns the difference between <full> and <set>
// if the given set <full> is not the full set of <set>.
func (set *IntSet) Complement(full *IntSet) (newSet *IntSet) {
newSet = NewIntSet(true)
set.mu.RLock()
defer set.mu.RUnlock()
if set != full {
full.mu.RLock()
defer full.mu.RUnlock()
}
for k, v := range full.m {
if _, ok := set.m[k]; !ok {
newSet.m[k] = v
}
}
return
}
// Merge adds items from <others> sets into <set>.
func (set *IntSet) Merge(others ... *IntSet) *IntSet {
set.mu.Lock()
defer set.mu.Unlock()
for _, other := range others {
if set != other {
other.mu.RLock()
}
for k, v := range other.m {
set.m[k] = v
}
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 *IntSet) Sum() (sum int) {
set.mu.RLock()
defer set.mu.RUnlock()
for k, _ := range set.m {
sum += k
}
return
}