DelayNoMore/battle_srv/models/ringbuf.go

125 lines
2.4 KiB
Go

package models
import (
. "battle_srv/protos"
"sync"
)
type RingBuffer struct {
Ed int32 // write index, open index
St int32 // read index, closed index
EdFrameId int32
StFrameId int32
N int32
Cnt int32 // the count of valid elements in the buffer, used mainly to distinguish what "st == ed" means for "Pop" and "Get" methods
Eles []interface{}
}
func NewRingBuffer(n int32) *RingBuffer {
return &RingBuffer{
Ed: 0,
St: 0,
N: n,
Cnt: 0,
Eles: make([]interface{}, n),
}
}
func (rb *RingBuffer) Put(pItem interface{}) {
for 0 < rb.Cnt && rb.Cnt >= rb.N {
// Make room for the new element
rb.Pop()
}
rb.Eles[rb.Ed] = pItem
rb.EdFrameId++
rb.Cnt++
rb.Ed++
if rb.Ed >= rb.N {
rb.Ed -= rb.N // Deliberately not using "%" operator for performance concern
}
}
func (rb *RingBuffer) Pop() interface{} {
if 0 == rb.Cnt {
return nil
}
pItem := rb.Eles[rb.St]
rb.StFrameId++
rb.Cnt--
rb.St++
if rb.St >= rb.N {
rb.St -= rb.N
}
return pItem
}
func (rb *RingBuffer) GetByOffset(offsetFromSt int32) interface{} {
if 0 == rb.Cnt {
return nil
}
arrIdx := rb.St + offsetFromSt
if rb.St < rb.Ed {
// case#1: 0...st...ed...N-1
if rb.St <= arrIdx && arrIdx < rb.Ed {
return rb.Eles[arrIdx]
}
} else {
// if rb.St >= rb.Ed
// case#2: 0...ed...st...N-1
if arrIdx >= rb.N {
arrIdx -= rb.N
}
if arrIdx >= rb.St || arrIdx < rb.Ed {
return rb.Eles[arrIdx]
}
}
return nil
}
func (rb *RingBuffer) GetByFrameId(frameId int32) interface{} {
if frameId >= rb.EdFrameId || frameId < rb.StFrameId {
return nil
}
return rb.GetByOffset(frameId - rb.StFrameId)
}
func (rb *RingBuffer) cloneInputFrameDownsyncsByFrameIdRange(stFrameId, edFrameId int32, mux *sync.Mutex) (int32, []*InputFrameDownsync) {
dst := make([]*InputFrameDownsync, 0, rb.Cnt)
if nil != mux {
mux.Lock()
defer func() {
mux.Unlock()
}()
}
prevFrameFound := true
j := stFrameId
for j < edFrameId {
tmp := rb.GetByFrameId(j)
if nil == tmp {
if false == prevFrameFound {
// The "id"s are always consecutive
break
} else {
prevFrameFound = false
continue
}
}
foo := tmp.(*InputFrameDownsync)
bar := &InputFrameDownsync{
InputFrameId: foo.InputFrameId,
InputList: make([]uint64, len(foo.InputList)),
ConfirmedList: foo.ConfirmedList,
}
for i, input := range foo.InputList {
bar.InputList[i] = input
}
dst = append(dst, bar)
j++
}
return j, dst
}