package collection import ( "github.com/zeromicro/go-zero/core/lang" "github.com/zeromicro/go-zero/core/logx" ) const ( unmanaged = iota untyped intType int64Type uintType uint64Type stringType ) // Set is not thread-safe, for concurrent use, make sure to use it with synchronization. type Set struct { data map[any]lang.PlaceholderType tp int } // NewSet returns a managed Set, can only put the values with the same type. func NewSet() *Set { return &Set{ data: make(map[any]lang.PlaceholderType), tp: untyped, } } // NewUnmanagedSet returns an unmanaged Set, which can put values with different types. func NewUnmanagedSet() *Set { return &Set{ data: make(map[any]lang.PlaceholderType), tp: unmanaged, } } // Add adds i into s. func (s *Set) Add(i ...any) { for _, each := range i { s.add(each) } } // AddInt adds int values ii into s. func (s *Set) AddInt(ii ...int) { for _, each := range ii { s.add(each) } } // AddInt64 adds int64 values ii into s. func (s *Set) AddInt64(ii ...int64) { for _, each := range ii { s.add(each) } } // AddUint adds uint values ii into s. func (s *Set) AddUint(ii ...uint) { for _, each := range ii { s.add(each) } } // AddUint64 adds uint64 values ii into s. func (s *Set) AddUint64(ii ...uint64) { for _, each := range ii { s.add(each) } } // AddStr adds string values ss into s. func (s *Set) AddStr(ss ...string) { for _, each := range ss { s.add(each) } } // Contains checks if i is in s. func (s *Set) Contains(i any) bool { if len(s.data) == 0 { return false } s.validate(i) _, ok := s.data[i] return ok } // Keys returns the keys in s. func (s *Set) Keys() []any { var keys []any for key := range s.data { keys = append(keys, key) } return keys } // KeysInt returns the int keys in s. func (s *Set) KeysInt() []int { var keys []int for key := range s.data { if intKey, ok := key.(int); ok { keys = append(keys, intKey) } } return keys } // KeysInt64 returns int64 keys in s. func (s *Set) KeysInt64() []int64 { var keys []int64 for key := range s.data { if intKey, ok := key.(int64); ok { keys = append(keys, intKey) } } return keys } // KeysUint returns uint keys in s. func (s *Set) KeysUint() []uint { var keys []uint for key := range s.data { if intKey, ok := key.(uint); ok { keys = append(keys, intKey) } } return keys } // KeysUint64 returns uint64 keys in s. func (s *Set) KeysUint64() []uint64 { var keys []uint64 for key := range s.data { if intKey, ok := key.(uint64); ok { keys = append(keys, intKey) } } return keys } // KeysStr returns string keys in s. func (s *Set) KeysStr() []string { var keys []string for key := range s.data { if strKey, ok := key.(string); ok { keys = append(keys, strKey) } } return keys } // Remove removes i from s. func (s *Set) Remove(i any) { s.validate(i) delete(s.data, i) } // Count returns the number of items in s. func (s *Set) Count() int { return len(s.data) } func (s *Set) add(i any) { switch s.tp { case unmanaged: // do nothing case untyped: s.setType(i) default: s.validate(i) } s.data[i] = lang.Placeholder } func (s *Set) setType(i any) { // s.tp can only be untyped here switch i.(type) { case int: s.tp = intType case int64: s.tp = int64Type case uint: s.tp = uintType case uint64: s.tp = uint64Type case string: s.tp = stringType } } func (s *Set) validate(i any) { if s.tp == unmanaged { return } switch i.(type) { case int: if s.tp != intType { logx.Errorf("element is int, but set contains elements with type %d", s.tp) } case int64: if s.tp != int64Type { logx.Errorf("element is int64, but set contains elements with type %d", s.tp) } case uint: if s.tp != uintType { logx.Errorf("element is uint, but set contains elements with type %d", s.tp) } case uint64: if s.tp != uint64Type { logx.Errorf("element is uint64, but set contains elements with type %d", s.tp) } case string: if s.tp != stringType { logx.Errorf("element is string, but set contains elements with type %d", s.tp) } } }