{-# LANGUAGE DataKinds         #-}
{-# LANGUAGE DeriveAnyClass    #-}
{-# LANGUAGE DeriveGeneric     #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE TypeApplications  #-}
{-# LANGUAGE TypeOperators     #-}

module Week04.Solution where

import Data.Aeson                 (FromJSON, ToJSON)
import Data.Functor               (void)
import Data.Text                  (Text, unpack)
import GHC.Generics               (Generic)
import Ledger
import Ledger.Ada                 as Ada
import Ledger.Constraints         as Constraints
import Plutus.Contract            as Contract
import Plutus.Trace.Emulator      as Emulator
import Wallet.Emulator.Wallet

data PayParams = PayParams
    { ppRecipient :: PubKeyHash
    , ppLovelace  :: Integer
    } deriving (Show, Generic, FromJSON, ToJSON)

type PaySchema = BlockchainActions .\/ Endpoint "pay" PayParams

payContract :: Contract () PaySchema Text ()
payContract = do
    pp <- endpoint @"pay"
    let tx = mustPayToPubKey (ppRecipient pp) $ lovelaceValueOf $ ppLovelace pp
    handleError (\err -> Contract.logInfo $ "caught error: " ++ unpack err) $ void $ submitTx tx
    payContract

payTrace :: Integer -> Integer -> EmulatorTrace ()
payTrace x y = do
    h <- activateContractWallet (Wallet 1) payContract
    callEndpoint @"pay" h $ PayParams
        { ppRecipient = pubKeyHash $ walletPubKey $ Wallet 2
        , ppLovelace  = x
        }
    void $ Emulator.waitNSlots 1
    callEndpoint @"pay" h $ PayParams
        { ppRecipient = pubKeyHash $ walletPubKey $ Wallet 2
        , ppLovelace  = y
        }
    void $ Emulator.waitNSlots 1

payTest1 :: IO ()
payTest1 = runEmulatorTraceIO $ payTrace 1000000 2000000

payTest2 :: IO ()
payTest2 = runEmulatorTraceIO $ payTrace 1000000000 2000000