The core protocol of WoopChain
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woop/staking/effective/calculate.go

137 lines
3.0 KiB

package effective
import (
"encoding/json"
"math/big"
"sort"
"github.com/ethereum/go-ethereum/common"
common2 "github.com/harmony-one/harmony/internal/common"
"github.com/harmony-one/harmony/internal/utils"
"github.com/harmony-one/harmony/numeric"
"github.com/harmony-one/harmony/shard"
)
// medium.com/harmony-one/introducing-harmonys-effective-proof-of-stake-epos-2d39b4b8d58
var (
two = numeric.NewDecFromBigInt(big.NewInt(2))
c, _ = numeric.NewDecFromStr("0.15")
onePlusC = numeric.OneDec().Add(c)
oneMinusC = numeric.OneDec().Sub(c)
)
func effectiveStake(median, actual numeric.Dec) numeric.Dec {
left := numeric.MinDec(onePlusC.Mul(median), actual)
right := oneMinusC.Mul(median)
return numeric.MaxDec(left, right)
}
// SlotPurchase ..
type SlotPurchase struct {
common.Address `json:"slot-owner"`
shard.BlsPublicKey `json:"bls-public-key"`
numeric.Dec `json:"eposed-stake"`
}
// SlotOrder ..
type SlotOrder struct {
Stake *big.Int
SpreadAmong []shard.BlsPublicKey
}
// Slots ..
type Slots []SlotPurchase
// JSON is a plain JSON dump
func (s Slots) JSON() string {
type t struct {
Address string `json:"slot-owner"`
Key string `json:"bls-public-key"`
Stake string `json:"actual-stake"`
}
type v struct {
Slots []t `json:"slots"`
}
data := v{}
for i := range s {
newData := t{
common2.MustAddressToBech32(s[i].Address),
s[i].BlsPublicKey.Hex(),
s[i].Dec.String(),
}
data.Slots = append(data.Slots, newData)
}
b, _ := json.Marshal(data)
return string(b)
}
func median(stakes []SlotPurchase) numeric.Dec {
if len(stakes) == 0 {
utils.Logger().Error().Int("non-zero", len(stakes)).
Msg("Input to median has len 0, check caller")
}
sort.SliceStable(
stakes,
func(i, j int) bool { return stakes[i].Dec.LTE(stakes[j].Dec) },
)
const isEven = 0
switch l := len(stakes); l % 2 {
case isEven:
left := (l / 2) - 1
right := (l / 2)
utils.Logger().Info().Int("left", left).Int("right", right)
return stakes[left].Dec.Add(stakes[right].Dec).Quo(two)
default:
utils.Logger().Info().Int("median index", l/2)
return stakes[l/2].Dec
}
}
// Apply ..
func Apply(shortHand map[common.Address]SlotOrder, pull int) Slots {
eposedSlots := Slots{}
if len(shortHand) == 0 {
return eposedSlots
}
// Expand
for staker := range shortHand {
slotsCount := len(shortHand[staker].SpreadAmong)
spread := numeric.NewDecFromBigInt(shortHand[staker].Stake).
QuoInt64(int64(slotsCount))
for i := 0; i < slotsCount; i++ {
eposedSlots = append(eposedSlots, SlotPurchase{
staker,
shortHand[staker].SpreadAmong[i],
spread,
})
}
}
if len(eposedSlots) < len(shortHand) {
// WARN Should never happen
}
sort.SliceStable(
eposedSlots,
func(i, j int) bool { return eposedSlots[i].Dec.GT(eposedSlots[j].Dec) },
)
if l := len(eposedSlots); l < pull {
pull = l
}
picks := eposedSlots[:pull]
if len(picks) == 0 {
return Slots{}
}
median := median(picks)
for i := range picks {
picks[i].Dec = effectiveStake(median, picks[i].Dec)
}
return picks
}