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Homework1.hs
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Homework1.hs
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{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DeriveAnyClass #-}
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
module Week03.Homework1 where
import Control.Monad hiding (fmap)
import Data.Aeson (ToJSON, FromJSON)
import Data.Map as Map
import Data.Text (Text)
import Data.Void (Void)
import GHC.Generics (Generic)
import Plutus.Contract hiding (when)
import qualified PlutusTx
import PlutusTx.Prelude hiding (unless)
import Ledger hiding (singleton)
import Ledger.Constraints as Constraints
import qualified Ledger.Typed.Scripts as Scripts
import Ledger.Ada as Ada
import Playground.Contract (printJson, printSchemas, ensureKnownCurrencies, stage, ToSchema)
import Playground.TH (mkKnownCurrencies, mkSchemaDefinitions)
import Playground.Types (KnownCurrency (..))
import qualified Prelude as P
import Text.Printf (printf)
data VestingDatum = VestingDatum
{ beneficiary1 :: PubKeyHash
, beneficiary2 :: PubKeyHash
, deadline :: Slot
} deriving Show
PlutusTx.unstableMakeIsData ''VestingDatum
{-# INLINABLE mkValidator #-}
-- This should validate if either beneficiary1 has signed the transaction and the current slot is before or at the deadline
-- or if beneficiary2 has signed the transaction and the deadline has passed.
mkValidator :: VestingDatum -> () -> ScriptContext -> Bool
mkValidator _ _ _ = False -- FIX ME!
data Vesting
instance Scripts.ScriptType Vesting where
type instance DatumType Vesting = VestingDatum
type instance RedeemerType Vesting = ()
inst :: Scripts.ScriptInstance Vesting
inst = Scripts.validator @Vesting
$$(PlutusTx.compile [|| mkValidator ||])
$$(PlutusTx.compile [|| wrap ||])
where
wrap = Scripts.wrapValidator @VestingDatum @()
validator :: Validator
validator = Scripts.validatorScript inst
scrAddress :: Ledger.Address
scrAddress = scriptAddress validator
data GiveParams = GiveParams
{ gpBeneficiary :: !PubKeyHash
, gpDeadline :: !Slot
, gpAmount :: !Integer
} deriving (Generic, ToJSON, FromJSON, ToSchema)
type VestingSchema =
BlockchainActions
.\/ Endpoint "give" GiveParams
.\/ Endpoint "grab" ()
give :: (HasBlockchainActions s, AsContractError e) => GiveParams -> Contract w s e ()
give gp = do
pkh <- pubKeyHash <$> ownPubKey
let dat = VestingDatum
{ beneficiary1 = gpBeneficiary gp
, beneficiary2 = pkh
, deadline = gpDeadline gp
}
tx = mustPayToTheScript dat $ Ada.lovelaceValueOf $ gpAmount gp
ledgerTx <- submitTxConstraints inst tx
void $ awaitTxConfirmed $ txId ledgerTx
logInfo @String $ printf "made a gift of %d lovelace to %s with deadline %s"
(gpAmount gp)
(show $ gpBeneficiary gp)
(show $ gpDeadline gp)
grab :: forall w s e. (HasBlockchainActions s, AsContractError e) => Contract w s e ()
grab = do
now <- currentSlot
pkh <- pubKeyHash <$> ownPubKey
utxos <- utxoAt scrAddress
let utxos1 = Map.filter (isSuitable $ \dat -> beneficiary1 dat == pkh && now <= deadline dat) utxos
utxos2 = Map.filter (isSuitable $ \dat -> beneficiary2 dat == pkh && now > deadline dat) utxos
logInfo @String $ printf "found %d gift(s) to grab" (Map.size utxos1 P.+ Map.size utxos2)
unless (Map.null utxos1) $ do
let orefs = fst <$> Map.toList utxos1
lookups = Constraints.unspentOutputs utxos1 P.<>
Constraints.otherScript validator
tx :: TxConstraints Void Void
tx = mconcat [mustSpendScriptOutput oref $ Redeemer $ PlutusTx.toData () | oref <- orefs] P.<>
mustValidateIn (to now)
void $ submitTxConstraintsWith @Void lookups tx
unless (Map.null utxos2) $ do
let orefs = fst <$> Map.toList utxos2
lookups = Constraints.unspentOutputs utxos2 P.<>
Constraints.otherScript validator
tx :: TxConstraints Void Void
tx = mconcat [mustSpendScriptOutput oref $ Redeemer $ PlutusTx.toData () | oref <- orefs] P.<>
mustValidateIn (from now)
void $ submitTxConstraintsWith @Void lookups tx
where
isSuitable :: (VestingDatum -> Bool) -> TxOutTx -> Bool
isSuitable p o = case txOutDatumHash $ txOutTxOut o of
Nothing -> False
Just h -> case Map.lookup h $ txData $ txOutTxTx o of
Nothing -> False
Just (Datum e) -> maybe False p $ PlutusTx.fromData e
endpoints :: Contract () VestingSchema Text ()
endpoints = (give' `select` grab') >> endpoints
where
give' = endpoint @"give" >>= give
grab' = endpoint @"grab" >> grab
mkSchemaDefinitions ''VestingSchema
mkKnownCurrencies []