{-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveAnyClass #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE TypeApplications #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} module Week03.Homework2 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 (Semigroup(..), 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 Prelude (Semigroup (..)) import Text.Printf (printf) {-# INLINABLE mkValidator #-} mkValidator :: PubKeyHash -> Slot -> () -> ScriptContext -> Bool mkValidator _ _ _ _ = False -- FIX ME! data Vesting instance Scripts.ScriptType Vesting where type instance DatumType Vesting = Slot type instance RedeemerType Vesting = () inst :: PubKeyHash -> Scripts.ScriptInstance Vesting inst = undefined -- IMPLEMENT ME! validator :: PubKeyHash -> Validator validator = undefined -- IMPLEMENT ME! scrAddress :: PubKeyHash -> Ledger.Address scrAddress = undefined -- IMPLEMENT ME! 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 let p = gpBeneficiary gp d = gpDeadline gp tx = mustPayToTheScript d $ Ada.lovelaceValueOf $ gpAmount gp ledgerTx <- submitTxConstraints (inst p) 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 <$> ownPubKey utxos <- Map.filter (isSuitable now) <$> utxoAt (scrAddress pkh) if Map.null utxos then logInfo @String $ "no gifts available" else do let orefs = fst <$> Map.toList utxos lookups = Constraints.unspentOutputs utxos <> Constraints.otherScript (validator pkh) tx :: TxConstraints Void Void tx = mconcat [mustSpendScriptOutput oref $ Redeemer $ PlutusTx.toData () | oref <- orefs] <> mustValidateIn (from now) ledgerTx <- submitTxConstraintsWith @Void lookups tx void $ awaitTxConfirmed $ txId ledgerTx logInfo @String $ "collected gifts" where isSuitable :: Slot -> TxOutTx -> Bool isSuitable now o = case txOutDatumHash $ txOutTxOut o of Nothing -> False Just h -> case Map.lookup h $ txData $ txOutTxTx o of Nothing -> False Just (Datum e) -> case PlutusTx.fromData e of Nothing -> False Just d -> d <= now endpoints :: Contract () VestingSchema Text () endpoints = (give' `select` grab') >> endpoints where give' = endpoint @"give" >>= give grab' = endpoint @"grab" >> grab mkSchemaDefinitions ''VestingSchema mkKnownCurrencies []