Пример #1
0
        public void Loop()
        {
            int numLoops = 3;

            List <byte> loopCode = new List <byte>();

            loopCode.Insert(0, (byte)Instruction.EFFECT_DELIMITER);
            loopCode.InsertRange(0, LiteralFactory.CreateIntLiteral(4));
            loopCode.Insert(0, (byte)Instruction.EFFECT_DELIMITER);
            loopCode.InsertRange(0, LiteralFactory.CreateStringLiteral("Hello world"));
            loopCode.Insert(0, (byte)Instruction.EFFECT_DELIMITER);
            loopCode.InsertRange(0, LiteralFactory.CreateBoolLiteral(true));

            bytes.push(InstructionFactory.Make_Loop(
                           LiteralFactory.CreateIntLiteral(numLoops),
                           loopCode
                           ));

            game.ExecuteNext();
            for (int i = 0; i < numLoops; i++)
            {
                Assert.AreEqual(Instruction.EFFECT_DELIMITER, (Instruction)bytes.pop());
                Assert.AreEqual(4, bytes.ReadIntLiteral(game.queryCheck));
                Assert.AreEqual(Instruction.EFFECT_DELIMITER, (Instruction)bytes.pop());
                Assert.AreEqual("Hello world", bytes.ReadStringLiteral(game.queryCheck));
                Assert.AreEqual(Instruction.EFFECT_DELIMITER, (Instruction)bytes.pop());
                Assert.AreEqual(true, bytes.ReadBoolLiteral(game.queryCheck));
            }
        }
Пример #2
0
        public void ForLoop()
        {
            game.Players = new PlayerManager(2);
            GamePlayer P1 = game.Players.GetPlayer(0);
            GamePlayer P2 = game.Players.GetPlayer(1);

            List <byte> items = new List <byte> {
                (byte)Instruction.GET_ALL_PLAYERS
            };

            List <byte> code = InstructionFactory.Make_SetPlayerPoints(
                LiteralFactory.CreatePlaceholderLiteral(0),
                LiteralFactory.CreateIntLiteral(50)
                );

            bytes.push(InstructionFactory.Make_ForLoop(items, code, 0));

            Assert.AreNotEqual(50, P1.Points);
            Assert.AreNotEqual(50, P2.Points);

            game.ExecuteNext();

            while (bytes.HasBytes())
            {
                Debug.Log((Instruction)bytes.peek());
                game.ExecuteNext();
            }

            Assert.AreEqual(50, P1.Points);
            Assert.AreEqual(50, P2.Points);
        }
Пример #3
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        public void PopInstruction()
        {
            bytes.push(LiteralFactory.CreateStringLiteral("Hello world"));
            bytes.push(LiteralFactory.CreateIntLiteral(5));
            bytes.push(LiteralFactory.CreateBoolLiteral(true));
            bytes.push((byte)Instruction.EFFECT_DELIMITER);

            List <byte> instructionArr = bytes.popInstruction(dummyCallback);

            Assert.AreEqual(1, instructionArr.Count);
            Assert.AreEqual(Instruction.EFFECT_DELIMITER, (Instruction)instructionArr[0]);

            List <byte> boolArr = bytes.popInstruction(dummyCallback);

            Assert.AreEqual(2, boolArr.Count);
            bytes.push(boolArr);
            Assert.AreEqual(true, bytes.ReadBoolLiteral(dummyCallback));

            List <byte> intArr = bytes.popInstruction(dummyCallback);

            Assert.AreEqual(5, intArr.Count);
            bytes.push(intArr);
            Assert.AreEqual(5, bytes.ReadIntLiteral(dummyCallback));

            List <byte> stringArr = bytes.popInstruction(dummyCallback);

            bytes.push(stringArr);
            Assert.AreEqual("Hello world", bytes.ReadStringLiteral(dummyCallback));
        }
Пример #4
0
        public void NestedLoop()
        {
            int innerLoops = 3;
            int outerLoops = 2;

            List <byte> loopCode = new List <byte>();

            loopCode.Insert(0, (byte)Instruction.EFFECT_DELIMITER);
            loopCode.InsertRange(0, LiteralFactory.CreateIntLiteral(4));
            loopCode.InsertRange(0, LiteralFactory.CreateStringLiteral("Hello world"));

            List <byte> innerLoop = InstructionFactory.Make_Loop(
                LiteralFactory.CreateIntLiteral(innerLoops),
                loopCode
                );
            List <byte> outerLoop = InstructionFactory.Make_Loop(
                LiteralFactory.CreateIntLiteral(outerLoops),
                innerLoop
                );

            bytes.push(outerLoop);

            game.ExecuteNext();
            for (int i = 0; i < outerLoops; i++)
            {
                game.ExecuteNext();
                for (int j = 0; j < innerLoops; j++)
                {
                    Assert.AreEqual(Instruction.EFFECT_DELIMITER, (Instruction)bytes.pop());
                    Assert.AreEqual(4, bytes.ReadIntLiteral(game.queryCheck));
                    Assert.AreEqual("Hello world", bytes.ReadStringLiteral(game.queryCheck));
                }
            }
        }
Пример #5
0
 public void Int()
 {
     bytes.push(LiteralFactory.CreateIntLiteral(4));
     Assert.AreEqual(
         bytes.ReportStackContent(),
         "INT(4) "
         );
 }
Пример #6
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 public void SetCounter()
 {
     bytes.push(InstructionFactory.Make_SetCounter(
                    LiteralFactory.CreateStringLiteral("my-key"),
                    LiteralFactory.CreateIntLiteral(44)
                    ));
     game.ExecuteNext();
     Assert.AreEqual(game.Variables.GetCounter("my-key"), 44);
 }
Пример #7
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        public void IntBytecode([NUnit.Framework.Range(0, 100, 25)] int num)
        {
            List <byte> arr = LiteralFactory.CreateIntLiteral(num);

            bytes.push(arr);
            int n = bytes.ReadIntLiteral(dummyCallback);

            Assert.AreEqual(num, n);
        }
Пример #8
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        public void NegativeIntBytecode()
        {
            List <byte> arr = LiteralFactory.CreateIntLiteral(-5);

            bytes.push(arr);
            int n = bytes.ReadIntLiteral(dummyCallback);

            Assert.AreEqual(-5, n);
        }
Пример #9
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 public void Multiply()
 {
     bytes.push(InstructionFactory.Make_Multiply(
                    LiteralFactory.CreateIntLiteral(4),
                    LiteralFactory.CreateIntLiteral(13)
                    ));
     game.ExecuteNext();
     Assert.AreEqual(bytes.ReadIntLiteral(game.queryCheck), 52);
 }
Пример #10
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        public void SetStenchTo10()
        {
            List <byte> bytes = InstructionFactory.Make_SetCounter(
                LiteralFactory.CreateStringLiteral("stench"),
                LiteralFactory.CreateIntLiteral(10)
                );
            string text = getText(bytes);

            Assert.AreEqual("Set STENCH to 10.", text);
        }
Пример #11
0
        public void TargetPlayerDraws()
        {
            List <byte> bytes = InstructionFactory.Make_PlayerDrawCards(
                new List <byte> {
                (byte)Instruction.TARGET_PLAYER
            },
                LiteralFactory.CreateIntLiteral(1)
                );
            string text = getText(bytes);

            Assert.AreEqual("A player of your choice draws 1 card.", text);
        }
Пример #12
0
        public void AddToRegister()
        {
            bytes.push(LiteralFactory.CreatePlaceholderLiteral(100));
            bytes.push(InstructionFactory.Make_AddToRegister(
                           LiteralFactory.CreateIntLiteral(100),
                           LiteralFactory.CreateIntLiteral(4)
                           ));

            game.ExecuteNext();
            Assert.AreEqual(4, bytes.ReadIntLiteral(game.queryCheck));
            Assert.IsFalse(bytes.HasBytes());
        }
Пример #13
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        public void YouSet10Points()
        {
            List <byte> bytes = InstructionFactory.Make_SetPlayerPoints(
                new List <byte> {
                (byte)Instruction.GET_ACTIVE_PLAYER
            },
                LiteralFactory.CreateIntLiteral(10)
                );
            string text = getText(bytes);

            Assert.AreEqual("Set your score to 10.", text);
        }
Пример #14
0
        public void YouGainRandomPoints()
        {
            List <byte> bytes = InstructionFactory.Make_IncrementPlayerPoints(
                new List <byte> {
                (byte)Instruction.GET_ACTIVE_PLAYER
            },
                InstructionFactory.Make_RandomNumber(LiteralFactory.CreateIntLiteral(10))
                );
            string text = getText(bytes);

            Assert.AreEqual("You gain points equal to a random number between 1 and 10.", text);
        }
Пример #15
0
        public void IncrementPlayerPoints()
        {
            game.Players = new PlayerManager(1);
            GamePlayer target = game.Players.GetPlayer(0);

            target.Points = 5;
            bytes.push(InstructionFactory.Make_IncrementPlayerPoints(
                           LiteralFactory.CreatePlayerLiteral(target),
                           LiteralFactory.CreateIntLiteral(20)
                           ));
            game.ExecuteNext();
            Assert.AreEqual(target.Points, 25);
        }
Пример #16
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        public void SetPlayerMaxHand()
        {
            game.Players = new PlayerManager(1);
            GamePlayer target = game.Players.GetPlayer(0);

            target.Hand.SetMax(0);
            bytes.push(InstructionFactory.Make_SetPlayerMaxHand(
                           LiteralFactory.CreatePlayerLiteral(target),
                           LiteralFactory.CreateIntLiteral(5)
                           ));
            game.ExecuteNext();
            Assert.AreEqual(target.Hand.MaxHandSize, 5);
        }
Пример #17
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        public void SetPlayerDraw()
        {
            game.Players = new PlayerManager(1);
            GamePlayer target = game.Players.GetPlayer(0);

            target.SetDrawPerTurn(0);
            bytes.push(InstructionFactory.Make_SetPlayerDraw(
                           LiteralFactory.CreatePlayerLiteral(target),
                           LiteralFactory.CreateIntLiteral(5)
                           ));
            game.ExecuteNext();
            Assert.AreEqual(target.DrawPerTurn, 5);
        }
Пример #18
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        public void IntQuery()
        {
            List <byte> addInstruction = InstructionFactory.Make_Add(
                LiteralFactory.CreateIntLiteral(4),
                LiteralFactory.CreateIntLiteral(13)
                );

            bytes.push(InstructionFactory.Make_Add(
                           addInstruction,
                           LiteralFactory.CreateIntLiteral(100)
                           ));
            game.ExecuteNext();
            Assert.AreEqual(bytes.ReadIntLiteral(game.queryCheck), 117);
        }
Пример #19
0
        public void EachPlayerDrawsACard()
        {
            List <byte> items = new List <byte> {
                (byte)Instruction.GET_ALL_PLAYERS
            };
            List <byte> code = InstructionFactory.Make_SetPlayerPoints(
                LiteralFactory.CreatePlaceholderLiteral(0),
                LiteralFactory.CreateIntLiteral(50)
                );
            List <byte> bytes = InstructionFactory.Make_ForLoop(items, code, 0);

            string text = getText(bytes);

            Assert.AreEqual("For each of the players: that player has their score set to 50", text);
        }
Пример #20
0
    public GamePlayer(string name, int index)
    {
        Name        = name;
        Hand        = new Hand(index);
        Index       = index;
        Points      = 0;
        DrawPerTurn = 1;
        Colour      = Random.ColorHSV();
        // set default win condition
        List <byte> indexBytes      = LiteralFactory.CreateIntLiteral(index);
        List <byte> getPlayerPoints = InstructionFactory.Make_GetPlayerPoints(indexBytes);
        List <byte> numberToCompare = LiteralFactory.CreateIntLiteral(100);

        WinCondition = LiteralFactory.CreateConditionLiteral(getPlayerPoints, numberToCompare, ConditionType.NUM, ConditionOperator.AT_LEAST);
    }
Пример #21
0
    public List <byte> popInstruction(ReadCallback cb)
    {
        // bytes returned in reverse order, so they can be pushed straight back on
        List <byte> bytes = new List <byte>();
        byte        b     = peek();

        switch ((Instruction)b)
        {
        case Instruction.INT:
            for (int i = 0; i < 5; i++)
            {
                bytes.Insert(0, pop());
            }
            break;

        case Instruction.STRING:
            byte        headInstruction = pop();
            int         size            = ReadIntLiteral(cb);
            List <byte> sizeBytes       = LiteralFactory.CreateIntLiteral(size);
            List <byte> charBytes       = pop(size);

            bytes.Insert(0, headInstruction);
            for (int i = sizeBytes.Count - 1; i >= 0; i--)
            {
                bytes.Insert(0, sizeBytes[i]);
            }
            for (int i = 0; i < charBytes.Count; i++)
            {
                bytes.Insert(0, charBytes[i]);
            }
            break;

        case Instruction.BOOL:
        case Instruction.ENUM_CONDITION_OPERATOR:
        case Instruction.ENUM_CONDITION_TYPE:
        case Instruction.ENUM_DECK_POSITION:
        case Instruction.ENUM_LIST_TYPE:
            bytes.Insert(0, pop());
            bytes.Insert(0, pop());
            break;

        default:
            bytes.Add(pop());
            break;
        }
        return(bytes);
    }
Пример #22
0
        public void IfStenchOver50ResetStench()
        {
            List <byte> bytes = InstructionFactory.Make_If(
                InstructionFactory.Make_SetCounter(
                    LiteralFactory.CreateStringLiteral("stench"),
                    LiteralFactory.CreateIntLiteral(0)
                    ),
                InstructionFactory.Make_NumComparison(
                    InstructionFactory.Make_ReadCounter(
                        LiteralFactory.CreateStringLiteral("stench")
                        ),
                    LiteralFactory.CreateIntLiteral(50),
                    (byte)ConditionOperator.MORE_THAN
                    )
                );
            string text = getText(bytes);

            Assert.AreEqual("If STENCH is more than 50, then set STENCH to 0.", text);
        }
Пример #23
0
    public void SubmitTextInput()
    {
        string selection = InputFieldText.text;

        if (String.IsNullOrEmpty(selection))
        {
            return;
        }

        switch (currentFieldData.enterValue)
        {
        case EnterValueType.NUMBER: {
            if (Int32.TryParse(selection, out int numValue))
            {
                List <byte> arr = LiteralFactory.CreateIntLiteral(numValue);
                currentCompilerNode.Add(
                    new EffectBuilderItem(arr)
                    );
            }
            else
            {
                Debug.Log($"Couldn't parse {selection}");
            }
            break;
        }

        case EnterValueType.TEXT: {
            List <byte> arr = LiteralFactory.CreateStringLiteral(selection);
            currentCompilerNode.Add(
                new EffectBuilderItem(arr)
                );
            break;
        }

        default:
            Debug.LogWarning("Unsupported text input type: " + currentFieldData.enterValue);
            break;
        }
        Next();
    }
Пример #24
0
        public void PlayerDrawCards()
        {
            game.Cards = new CardManager();
            Card c1 = new TestCard();
            Card c2 = new TestCard();
            Card c3 = new TestCard();
            Card c4 = new TestCard();

            game.Cards.Deck.AddCard(c1);
            game.Cards.Deck.AddCard(c2);
            game.Cards.Deck.AddCard(c3);
            game.Cards.Deck.AddCard(c4);

            game.Players = new PlayerManager(1);
            GamePlayer target = game.Players.GetPlayer(0);

            Assert.AreEqual(target.Hand.GetSize(), 0);
            bytes.push(InstructionFactory.Make_PlayerDrawCards(
                           LiteralFactory.CreatePlayerLiteral(target),
                           LiteralFactory.CreateIntLiteral(2)
                           ));
            game.ExecuteNext();
            Assert.AreEqual(target.Hand.GetSize(), 2);
        }
Пример #25
0
    public string PrintNext()
    {
        Instruction instruction = (Instruction)peek();

        try {
            if (Array.IndexOf(enumInstructions, instruction) != -1)
            {
                byte b = ReadEnumLiteral();
                return($"enum:{b}");
            }
            switch (instruction)
            {
            case Instruction.INT: {
                int n = ReadIntLiteral(readAccessorFirst);
                return($"{instruction.ToString()}({n})");
            }

            case Instruction.STRING: {
                string s = ReadStringLiteral(readAccessorFirst);
                return($"{instruction.ToString()}({s})");
            }

            case Instruction.BOOL: {
                bool b = ReadBoolLiteral(readAccessorFirst);
                return($"{instruction.ToString()}({b})");
            }

            case Instruction.PLAYER: {
                int player = ReadPlayerLiteral(readAccessorFirst);
                return($"{instruction.ToString()}({player})");
            }

            case Instruction.CARD: {
                string card = ReadCardLiteral(readAccessorFirst);
                return($"{instruction.ToString()}({card})");
            }

            case Instruction.LIST: {
                // pop head and ENUM_LIST_TYPE head
                pop();
                byte type = ReadEnumLiteral();
                int  size = ReadIntLiteral(readAccessorFirst);

                push(LiteralFactory.CreateIntLiteral(size));
                push(LiteralFactory.CreateEnumLiteral(type, Instruction.ENUM_LIST_TYPE));
                push((byte)Instruction.LIST);
                ReadList(readAccessorFirst);

                string typeName = EnumRepesentation.EnumLookup("ENUM_LIST_TYPE").getName((int)type);
                return($"{instruction.ToString()}(size:{size},type:{typeName})");
            }

            case Instruction.IF:
            case Instruction.UNLESS:
            case Instruction.LOOP:
            case Instruction.FOR_LOOP:
            case Instruction.ENDIF:
            case Instruction.ENDLOOP: {
                pop();
                int id = ReadIntLiteral(readAccessorFirst);
                return($"{instruction.ToString()}(id:{id})");
            }

            case Instruction.PLACEHOLDER: {
                pop();
                int id = ReadIntLiteral(readAccessorFirst);
                return($"{instruction.ToString()}(id:{id})");
            }

            case Instruction.ADD_TO_REGISTER: {
                pop();
                int id   = ReadIntLiteral(readAccessorFirst);
                int size = ReadIntLiteral(readAccessorFirst);
                return($"{instruction.ToString()}(at:{id}, size:{size})");
            }

            default: {
                pop();
                return(instruction.ToString());
            }
            }
        } catch (UnexpectedByteException e) {
            Debug.LogError($"Printer jam! ({instruction}) --- {e}");
            return("#" + ((byte)instruction).ToString());
        } catch (StackFullException e) {
            Debug.LogError($"Printer jam! ({instruction}) --- {e}");
            return("#" + ((byte)instruction).ToString());
        } catch (StackEmptyException e) {
            Debug.LogError($"Printer jam! ({instruction}) --- {e}");
            return("#" + ((byte)instruction).ToString());
        }
    }
Пример #26
0
    public void executeNext()
    {
        Instruction next = this.next();

        try {
            switch (next)
            {
            // FUNCTIONS

            case Instruction.RANDOM_NUMBER: {
                int upperBound = ReadIntLiteral(skipToNext);
                push(LiteralFactory.CreateIntLiteral(UnityEngine.Random.Range(1, upperBound)));
                break;
            }

            case Instruction.ADD: {
                int a = ReadIntLiteral(skipToNext);
                int b = ReadIntLiteral(skipToNext);
                push(LiteralFactory.CreateIntLiteral(a + b));
                break;
            }

            case Instruction.IF: {
                int         controlID  = ReadIntLiteral(skipToNext);
                Condition   condition  = ReadConditionLiteral(skipToNext);
                List <byte> blockBytes = new List <byte>();

                while (HasBytes())
                {
                    byte b = pop();
                    if (b == (byte)Instruction.ENDIF)
                    {
                        int id = ReadIntLiteral(skipToNext);
                        if (id == controlID)
                        {
                            break;
                        }
                        else
                        {
                            blockBytes.Insert(0, (byte)Instruction.ENDIF);
                            blockBytes.InsertRange(0, LiteralFactory.CreateIntLiteral(id));
                        }
                    }
                    else
                    {
                        blockBytes.Insert(0, b);
                    }
                }
                if (condition.Evaluate())
                {
                    push(blockBytes);
                }
                break;
            }

            case Instruction.UNLESS: {
                int         controlID  = ReadIntLiteral(skipToNext);
                Condition   condition  = ReadConditionLiteral(skipToNext);
                List <byte> blockBytes = new List <byte>();

                while (HasBytes())
                {
                    byte b = pop();
                    if (b == (byte)Instruction.ENDIF)
                    {
                        int id = ReadIntLiteral(skipToNext);
                        if (id == controlID)
                        {
                            break;
                        }
                        else
                        {
                            blockBytes.Insert(0, (byte)Instruction.ENDIF);
                            blockBytes.InsertRange(0, LiteralFactory.CreateIntLiteral(id));
                        }
                    }
                    else
                    {
                        blockBytes.Insert(0, b);
                    }
                }
                if (!condition.Evaluate())
                {
                    push(blockBytes);
                }
                break;
            }

            case Instruction.LIST_LENGTH: {
                List <byte[]> list = ReadList(skipToNext);
                push(LiteralFactory.CreateIntLiteral(list.Count));
                break;
            }

            case Instruction.CARD_HAS_TAG: {
                Card   card    = GM.ReadCardFromStack();
                string tagName = ReadStringLiteral(skipToNext);
                push(LiteralFactory.CreateConditionLiteral(
                         LiteralFactory.CreateBoolLiteral(card.HasTag(tagName)),
                         LiteralFactory.CreateBoolLiteral(true),
                         ConditionType.BOOL,
                         ConditionOperator.EQUAL
                         ));
                break;
            }

            case Instruction.PLAYER_IS_WINNING: {
                GamePlayer player  = GM.ReadPlayerFromStack();
                bool       winning = true;
                foreach (GamePlayer otherPlayer in GM.Players.GetPlayers())
                {
                    if (otherPlayer.Points > player.Points)
                    {
                        winning = false;
                        break;
                    }
                }
                push(LiteralFactory.CreateConditionLiteral(
                         LiteralFactory.CreateBoolLiteral(winning),
                         LiteralFactory.CreateBoolLiteral(true),
                         ConditionType.BOOL,
                         ConditionOperator.EQUAL
                         ));
                break;
            }

            case Instruction.PLAYER_IS_LOSING: {
                GamePlayer player = GM.ReadPlayerFromStack();
                bool       losing = true;
                foreach (GamePlayer otherPlayer in GM.Players.GetPlayers())
                {
                    if (otherPlayer.Points < player.Points)
                    {
                        losing = false;
                        break;
                    }
                }
                push(LiteralFactory.CreateBoolLiteral(losing));
                break;
            }

            case Instruction.MULTIPLY: {
                int a = ReadIntLiteral(skipToNext);
                int b = ReadIntLiteral(skipToNext);
                push(LiteralFactory.CreateIntLiteral(a * b));
                break;
            }

            case Instruction.LOOP: {
                int id  = ReadIntLiteral(skipToNext);
                int num = ReadIntLiteral(skipToNext);
                List <List <byte> > instructionArrays = new List <List <byte> >();
                while (HasBytes())
                {
                    if (peek() == (byte)Instruction.ENDLOOP)
                    {
                        pop();
                        int endloopID = ReadIntLiteral(skipToNext);
                        if (endloopID == id)
                        {
                            break;
                        }
                        else
                        {
                            List <byte> endloopBytes = new List <byte>(LiteralFactory.CreateIntLiteral(endloopID));
                            endloopBytes.Add((byte)Instruction.ENDLOOP);
                            instructionArrays.Insert(0, endloopBytes);
                        }
                    }
                    else
                    {
                        List <byte> arr = popInstruction(skipToNext);
                        instructionArrays.Insert(0, arr);
                    }
                }
                for (int n = 0; n < num; n++)
                {
                    for (int m = 0; m < instructionArrays.Count; m++)
                    {
                        push(instructionArrays[m]);
                    }
                }
                break;
            }

            case Instruction.FOR_LOOP: {
                int                 ID                = ReadIntLiteral(skipToNext);
                List <byte[]>       items             = ReadList(skipToNext);
                List <List <byte> > instructionArrays = new List <List <byte> >();
                while (HasBytes())
                {
                    if (peek() == (byte)Instruction.ENDLOOP)
                    {
                        pop();
                        int endloopID = ReadIntLiteral(skipToNext);
                        if (endloopID == ID)
                        {
                            break;
                        }
                        else
                        {
                            List <byte> endloopBytes = new List <byte>(LiteralFactory.CreateIntLiteral(endloopID));
                            endloopBytes.Add((byte)Instruction.ENDLOOP);
                            instructionArrays.Insert(0, endloopBytes);
                        }
                    }
                    List <byte> arr = popInstruction(skipToNext);
                    instructionArrays.Insert(0, arr);
                }

                List <byte> idBytes = LiteralFactory.CreateIntLiteral(ID);
                for (int i = 0; i < items.Count; i++)
                {
                    List <byte> currentItem = new List <byte>(items[i]);
                    currentItem.Reverse();
                    List <byte> addToRegister = InstructionFactory.Make_AddToRegister(idBytes, currentItem);
                    for (int m = 0; m < instructionArrays.Count; m++)
                    {
                        push(instructionArrays[m]);
                    }
                    push(addToRegister);
                }
                break;
            }

            case Instruction.ADD_TO_REGISTER: {
                int         ID    = ReadIntLiteral(skipToNext);
                int         size  = ReadIntLiteral(skipToNext);
                List <byte> bytes = pop(size);
                register[ID] = bytes;
                break;
            }

            case Instruction.PLACEHOLDER: {
                int         ID    = ReadIntLiteral(skipToNext);
                List <byte> fetch = new List <byte>(register[ID]);
                fetch.Reverse();
                push(fetch);
                break;
            }

            // QUERIES

            case Instruction.GET_ACTIVE_PLAYER: {
                push(LiteralFactory.CreatePlayerLiteral(GM.Players.GetActivePlayer()));
                break;
            }

            case Instruction.GET_ALL_OPPONENTS: {
                push(LiteralFactory.CreateListLiteral(
                         new List <GamePlayer>(GM.Players.GetOpponents())
                         ));
                break;
            }

            case Instruction.GET_ALL_PLAYERS: {
                push(LiteralFactory.CreateListLiteral(
                         new List <GamePlayer>(GM.Players.GetPlayers())
                         ));
                break;
            }

            case Instruction.GET_CARDS_IN_DECK: {
                push(LiteralFactory.CreateListLiteral(
                         new List <Card>(GM.Cards.Deck.GetCards())
                         ));
                break;
            }

            case Instruction.GET_CARDS_IN_DISCARD: {
                push(LiteralFactory.CreateListLiteral(
                         new List <Card>(GM.Cards.Discard.GetCards())
                         ));
                break;
            }

            case Instruction.GET_CARDS_IN_HAND: {
                GamePlayer player = GM.ReadPlayerFromStack();
                push(LiteralFactory.CreateListLiteral(
                         new List <Card>(player.Hand.GetCards())
                         ));
                break;
            }

            case Instruction.GET_PLAYER_POINTS: {
                GamePlayer player = GM.ReadPlayerFromStack();
                int        points = player.Points;
                push(LiteralFactory.CreateIntLiteral(points));
                break;
            }

            case Instruction.READ_COUNTER: {
                string key   = ReadStringLiteral(skipToNext);
                int    count = GM.Variables.GetCounter(key);
                push(LiteralFactory.CreateIntLiteral(count));
                break;
            }

            case Instruction.BOOL_COMPARISON: {
                bool operandA     = ReadBoolLiteral(skipToNext);
                byte operatorEnum = ReadEnumLiteral();
                bool operandB     = ReadBoolLiteral(skipToNext);
                push(LiteralFactory.CreateConditionLiteral(
                         new CompareBool(operandA, operandB, (ConditionOperator)operatorEnum)
                         ));
                break;
            }

            case Instruction.NUM_COMPARISON: {
                int  operandA     = ReadIntLiteral(skipToNext);
                int  operandB     = ReadIntLiteral(skipToNext);
                byte operatorEnum = ReadEnumLiteral();
                push(LiteralFactory.CreateConditionLiteral(
                         new CompareNum(operandA, operandB, (ConditionOperator)operatorEnum)
                         ));
                break;
            }

            case Instruction.TARGET_PLAYER: {
                GM.UI.PresentChoiceOfPlayers(new List <GamePlayer>(GM.Players.GetPlayers()), this);
                break;
            }

            case Instruction.TARGET_OPPONENT: {
                GM.UI.PresentChoiceOfPlayers(new List <GamePlayer>(GM.Players.GetOpponents()), this);
                break;
            }

            case Instruction.TARGET_CARD_IN_DECK: {
                GM.UI.PresentChoiceOfCards(new List <Card>(GM.Cards.Deck.GetCards()), this);
                break;
            }

            case Instruction.TARGET_CARD_IN_DISCARD: {
                GM.UI.PresentChoiceOfCards(new List <Card>(GM.Cards.Discard.GetCards()), this);
                break;
            }

            case Instruction.TARGET_CARD_IN_HAND: {
                GamePlayer player = GM.ReadPlayerFromStack();
                GM.UI.PresentChoiceOfCards(new List <Card>(player.Hand.GetCards()), this);
                break;
            }

            case Instruction.RANDOM_PLAYER: {
                GamePlayer[] players      = GM.Players.GetPlayers();
                GamePlayer   randomPlayer = players[UnityEngine.Random.Range(0, players.Length)];
                push(LiteralFactory.CreatePlayerLiteral(randomPlayer));
                break;
            }

            case Instruction.RANDOM_OPPONENT: {
                GamePlayer[] opponents      = GM.Players.GetOpponents();
                GamePlayer   randomOpponent = opponents[UnityEngine.Random.Range(0, opponents.Length)];
                push(LiteralFactory.CreatePlayerLiteral(randomOpponent));
                break;
            }

            case Instruction.RANDOM_CARD_IN_DECK: {
                Card[] deckCards  = GM.Cards.Deck.GetCards();
                Card   randomCard = deckCards[UnityEngine.Random.Range(0, deckCards.Length)];
                push(LiteralFactory.CreateCardLiteral(randomCard));
                break;
            }

            case Instruction.RANDOM_CARD_IN_DISCARD: {
                Card[] discardCards = GM.Cards.Discard.GetCards();
                Card   randomCard   = discardCards[UnityEngine.Random.Range(0, discardCards.Length)];
                push(LiteralFactory.CreateCardLiteral(randomCard));
                break;
            }

            case Instruction.RANDOM_CARD_IN_HAND: {
                GamePlayer player     = GM.ReadPlayerFromStack();
                Card[]     handCards  = player.Hand.GetCards();
                Card       randomCard = handCards[UnityEngine.Random.Range(0, handCards.Length)];
                push(LiteralFactory.CreateCardLiteral(randomCard));
                break;
            }

            // EFFECTS

            case Instruction.INCREMENT_PLAYER_POINTS: {
                GamePlayer player    = GM.ReadPlayerFromStack();
                int        pointsNum = ReadIntLiteral(skipToNext);
                GM.SetPlayerPoints(player, player.Points + pointsNum);
                break;
            }

            case Instruction.PLAYER_DRAW_CARD: {
                GamePlayer player   = GM.ReadPlayerFromStack();
                int        numCards = ReadIntLiteral(skipToNext);
                for (int n = 0; n < numCards; n++)
                {
                    GM.PlayerDrawCard(player);
                }
                break;
            }

            case Instruction.SET_COUNTER: {
                string key   = ReadStringLiteral(skipToNext);
                int    count = ReadIntLiteral(skipToNext);
                GM.Variables.SetCounter(key, count);
                break;
            }

            case Instruction.SET_PLAYER_DRAW: {
                GamePlayer player = GM.ReadPlayerFromStack();
                int        num    = ReadIntLiteral(skipToNext);
                player.SetDrawPerTurn(num);
                break;
            }

            case Instruction.SET_PLAYER_MAX_HAND: {
                GamePlayer player = GM.ReadPlayerFromStack();
                int        num    = ReadIntLiteral(skipToNext);
                player.Hand.SetMax(num);
                break;
            }

            case Instruction.SET_PLAYER_POINTS: {
                GamePlayer player    = GM.ReadPlayerFromStack();
                int        pointsNum = ReadIntLiteral(skipToNext);
                GM.SetPlayerPoints(player, pointsNum);
                break;
            }

            case Instruction.MOVE_TO_DECK: {
                Card         card    = GM.ReadCardFromStack();
                DeckLocation posEnum = (DeckLocation)ReadEnumLiteral();
                card.Zone.MoveCard(GM.Cards.Deck, card.GetID());
                GM.Cards.Deck.MoveLastAddedCard(posEnum);
                break;
            }

            case Instruction.MOVE_TO_DISCARD: {
                Card card = GM.ReadCardFromStack();
                card.Zone.MoveCard(GM.Cards.Discard, card.GetID());
                break;
            }
            }
        } catch (UnexpectedByteException e) {
            Debug.LogError(e);
        } catch (StackFullException e) {
            Debug.LogError(e);
        } catch (StackEmptyException e) {
            Debug.LogError(e);
        }
    }