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inflation.go
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inflation.go
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package keeper
import (
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/Canto-Network/Canto/v7/x/inflation/types"
)
// MintAndAllocateInflation performs inflation minting and allocation
func (k Keeper) MintAndAllocateInflation(
ctx sdk.Context,
coin sdk.Coin,
) (
staking, communityPool sdk.Coins,
err error,
) {
// Mint coins for distribution
if err := k.MintCoins(ctx, coin); err != nil {
return nil, nil, err
}
// Allocate minted coins according to allocation proportions (staking, usage
// incentives, community pool)
return k.AllocateExponentialInflation(ctx, coin)
}
// MintCoins implements an alias call to the underlying supply keeper's
// MintCoins to be used in BeginBlocker.
func (k Keeper) MintCoins(ctx sdk.Context, coin sdk.Coin) error {
coins := sdk.NewCoins(coin)
// skip as no coins need to be minted
if coins.Empty() {
return nil
}
return k.bankKeeper.MintCoins(ctx, types.ModuleName, coins)
}
// AllocateExponentialInflation allocates coins from the inflation to external
// modules according to allocation proportions:
// - staking rewards -> sdk `auth` module fee collector
// - community pool -> `sdk `distr` module community pool
func (k Keeper) AllocateExponentialInflation(
ctx sdk.Context,
mintedCoin sdk.Coin,
) (
staking, communityPool sdk.Coins,
err error,
) {
params := k.GetParams(ctx)
proportions := params.InflationDistribution
// Allocate staking rewards into fee collector account
staking = sdk.NewCoins(k.GetProportions(ctx, mintedCoin, proportions.StakingRewards))
err = k.bankKeeper.SendCoinsFromModuleToModule(
ctx,
types.ModuleName,
k.feeCollectorName,
staking,
)
if err != nil {
return nil, nil, err
}
// Allocate community pool amount (remaining module balance) to community
// pool address
moduleAddr := k.accountKeeper.GetModuleAddress(types.ModuleName)
communityPool = k.bankKeeper.GetAllBalances(ctx, moduleAddr)
err = k.distrKeeper.FundCommunityPool(
ctx,
communityPool,
moduleAddr,
)
if err != nil {
return nil, nil, err
}
return staking, communityPool, nil
}
// GetAllocationProportion calculates the proportion of coins that is to be
// allocated during inflation for a given distribution.
func (k Keeper) GetProportions(
ctx sdk.Context,
coin sdk.Coin,
distribution sdk.Dec,
) sdk.Coin {
return sdk.NewCoin(
coin.Denom,
coin.Amount.ToDec().Mul(distribution).TruncateInt(),
)
}
// BondedRatio the fraction of the staking tokens which are currently bonded
// It doesn't consider team allocation for inflation
func (k Keeper) BondedRatio(ctx sdk.Context) sdk.Dec {
stakeSupply := k.stakingKeeper.StakingTokenSupply(ctx)
if !stakeSupply.IsPositive() {
return sdk.ZeroDec()
}
return k.stakingKeeper.TotalBondedTokens(ctx).ToDec().QuoInt(stakeSupply)
}
// GetCirculatingSupply returns the bank supply of the mintDenom
func (k Keeper) GetCirculatingSupply(ctx sdk.Context) sdk.Dec {
mintDenom := k.GetParams(ctx).MintDenom
circulatingSupply := k.bankKeeper.GetSupply(ctx, mintDenom).Amount.ToDec()
return circulatingSupply
}
// GetInflationRate returns the inflation rate for the current period.
func (k Keeper) GetInflationRate(ctx sdk.Context) sdk.Dec {
epochMintProvision, _ := k.GetEpochMintProvision(ctx)
if epochMintProvision.IsZero() {
return sdk.ZeroDec()
}
epp := k.GetEpochsPerPeriod(ctx)
if epp == 0 {
return sdk.ZeroDec()
}
epochsPerPeriod := sdk.NewDec(epp)
circulatingSupply := k.GetCirculatingSupply(ctx)
if circulatingSupply.IsZero() {
return sdk.ZeroDec()
}
// EpochMintProvision * 365 / circulatingSupply * 100
return epochMintProvision.Mul(epochsPerPeriod).Quo(circulatingSupply).Mul(sdk.NewDec(100))
}