It brokey
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@ -2,8 +2,14 @@ class Bank(val allowedAttempts: Integer = 3) {
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private val transactionsQueue: TransactionQueue = new TransactionQueue()
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private val processedTransactions: TransactionQueue = new TransactionQueue()
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private var processingThreadsStarted = false;
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private val processingThreads: List[Thread] =
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(1 to 1).map(_ => new Thread {
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override def run = processTransactions
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}).toList
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def addTransactionToQueue(from: Account, to: Account, amount: Double): Unit = {
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printf("[%s]: Added transaction to queue\n", Thread.currentThread().toString())
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transactionsQueue.push(new Transaction(
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transactionsQueue,
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processedTransactions,
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@ -13,30 +19,39 @@ class Bank(val allowedAttempts: Integer = 3) {
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10,
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))
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Main.thread(processTransaction(transactionsQueue.pop()))
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if (!processingThreadsStarted) {
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processingThreads.foreach(t => {
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t.start
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print("Starting processing thread\n")
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})
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processingThreadsStarted = true;
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}
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}
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// TODO
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// project task 2
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// create a new transaction object and put it in the queue
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// spawn a thread that calls processTransactions
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// There are mixed instructions for this method.
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// It's called `processTransactions`, indicating that it should
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// process all lists, the part in the assigment pdf indicates this as well.
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// However the comment below is written as if there is only one transaction to
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// be processed, and the fact that `addTransactionToQueue` calls this method every
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// time something is added, supports that theory as well.
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// We just went with the most logical option...
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private def processTransactions(trx: Transaction): Unit = {
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// thread = Main.thread(trx)
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// thread.join()
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trx()
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if (trx.status == TransactionStatus.PENDING && trx.attempt < trx.allowedAttemps) {
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processTransactions(trx)
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// This function is a worker that continuously
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// pops elements from the queue and processes them.
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// Multiple of these can be run on separate threads.
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private def processTransactions: Unit = {
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if (transactionsQueue.isEmpty) {
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Thread.sleep(50)
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} else {
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val trx = transactionsQueue.pop
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Main.thread(trx.run).join()
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if (trx.status == TransactionStatus.PENDING) {
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transactionsQueue.push(trx);
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} else {
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processedTransactions.push(trx);
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}
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}
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processTransactions
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}
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// TODO
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// project task 2
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// Function that pops a transaction from the queue
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@ -16,16 +16,16 @@ class TransactionQueue {
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def pop: Transaction = {queue.synchronized(queue.dequeue())}
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// Return whether the queue is empty
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def isEmpty: Boolean = {queue.synchronized(queue.isEmpty())}
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def isEmpty: Boolean = {queue.synchronized(queue.isEmpty)}
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// Add new element to the back of the queue
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def push(t: Transaction): Unit = {queue.synchronized(queue.push(t))}
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def push(t: Transaction): Unit = {queue.synchronized(queue.enqueue(t))}
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// Return the first element from the queue without removing it
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def peek: Transaction = {queue.synchronized(queue.front())}
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def peek: Transaction = {queue.synchronized(queue.front)}
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// Return an iterator to allow you to iterate over the queue
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def iterator: Iterator[Transaction] = {queue.synchronized(queue.iterator())}
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def iterator: Iterator[Transaction] = {queue.synchronized(queue.iterator)}
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}
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class Transaction(val transactionsQueue: TransactionQueue,
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@ -39,22 +39,31 @@ class Transaction(val transactionsQueue: TransactionQueue,
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var attempt = 0
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override def run: Unit = {
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def doTransaction() = {
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def doTransaction(): Unit = {
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// TODO - project task 3
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// Extend this method to satisfy requirements.
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from withdraw amount
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to deposit amount
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if (from.withdraw(amount).isRight) {
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return
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}
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// TODO - project task 3
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// make the code below thread safe
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if (status == TransactionStatus.PENDING) {
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doTransaction
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Thread.sleep(50) // you might want this to make more room for
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// new transactions to be added to the queue
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if (to.deposit(amount).isRight) {
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if (from.deposit(amount).isRight) print("oof")
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return
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}
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status = TransactionStatus.SUCCESS
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}
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attempt += 1
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if (status != TransactionStatus.PENDING) {
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return
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}
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from.synchronized(to.synchronized(doTransaction))
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Thread.sleep(50)
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if (attempt >= allowedAttemps) {
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status = TransactionStatus.FAILED
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}
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}
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}
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