package atomics import ( "sync/atomic" "codeberg.org/gruf/go-bitutil" ) // Flags32 provides user-friendly means of performing atomic operations on bitutil.Flags32 types. type Flags32 bitutil.Flags32 // NewFlags32 will return a new Flags32 instance initialized with zero value. func NewFlags32() *Flags32 { return new(Flags32) } // Get will atomically load a(n) bitutil.Flags32 value contained within f, and check if bit value is set. func (f *Flags32) Get(bit uint8) bool { return f.Load().Get(bit) } // Set performs a compare-and-swap for a(n) bitutil.Flags32 with bit value set, at address contained within f. func (f *Flags32) Set(bit uint8) bool { cur := f.Load() return f.CAS(cur, cur.Set(bit)) } // Unset performs a compare-and-swap for a(n) bitutil.Flags32 with bit value unset, at address contained within f. func (f *Flags32) Unset(bit uint8) bool { cur := f.Load() return f.CAS(cur, cur.Unset(bit)) } // Store will atomically store bitutil.Flags32 value in address contained within f. func (f *Flags32) Store(val bitutil.Flags32) { atomic.StoreUint32((*uint32)(f), uint32(val)) } // Load will atomically load bitutil.Flags32 value at address contained within f. func (f *Flags32) Load() bitutil.Flags32 { return bitutil.Flags32(atomic.LoadUint32((*uint32)(f))) } // CAS performs a compare-and-swap for a(n) bitutil.Flags32 value at address contained within f. func (f *Flags32) CAS(cmp, swp bitutil.Flags32) bool { return atomic.CompareAndSwapUint32((*uint32)(f), uint32(cmp), uint32(swp)) } // Swap atomically stores new bitutil.Flags32 value into address contained within f, and returns previous value. func (f *Flags32) Swap(swp bitutil.Flags32) bitutil.Flags32 { return bitutil.Flags32(atomic.SwapUint32((*uint32)(f), uint32(swp))) } // Flags64 provides user-friendly means of performing atomic operations on bitutil.Flags64 types. type Flags64 bitutil.Flags64 // NewFlags64 will return a new Flags64 instance initialized with zero value. func NewFlags64() *Flags64 { return new(Flags64) } // Get will atomically load a(n) bitutil.Flags64 value contained within f, and check if bit value is set. func (f *Flags64) Get(bit uint8) bool { return f.Load().Get(bit) } // Set performs a compare-and-swap for a(n) bitutil.Flags64 with bit value set, at address contained within f. func (f *Flags64) Set(bit uint8) bool { cur := f.Load() return f.CAS(cur, cur.Set(bit)) } // Unset performs a compare-and-swap for a(n) bitutil.Flags64 with bit value unset, at address contained within f. func (f *Flags64) Unset(bit uint8) bool { cur := f.Load() return f.CAS(cur, cur.Unset(bit)) } // Store will atomically store bitutil.Flags64 value in address contained within f. func (f *Flags64) Store(val bitutil.Flags64) { atomic.StoreUint64((*uint64)(f), uint64(val)) } // Load will atomically load bitutil.Flags64 value at address contained within f. func (f *Flags64) Load() bitutil.Flags64 { return bitutil.Flags64(atomic.LoadUint64((*uint64)(f))) } // CAS performs a compare-and-swap for a(n) bitutil.Flags64 value at address contained within f. func (f *Flags64) CAS(cmp, swp bitutil.Flags64) bool { return atomic.CompareAndSwapUint64((*uint64)(f), uint64(cmp), uint64(swp)) } // Swap atomically stores new bitutil.Flags64 value into address contained within f, and returns previous value. func (f *Flags64) Swap(swp bitutil.Flags64) bitutil.Flags64 { return bitutil.Flags64(atomic.SwapUint64((*uint64)(f), uint64(swp))) }