コード例 #1
0
        /// <summary>
        ///     Loads information from the selected cell when changed.
        /// </summary>
        /// <param name="ssp"></param>
        private void CellSelectionChange(SpreadsheetPanel ssp)
        {
            LabelError.Visible = false;
            ssp.GetSelection(out _col, out _row);
            if (ssp.GetValue(_col, _row, out string value))
            {
                BoxValue.Text = value;
            }
            else
            {
                BoxValue.Clear();
            }

            _selection        = $"{(char) ('A' + _col)}{_row + 1}";
            ButtonUpdate.Text = $@"Update: {_selection}";
            BoxSelected.Text  = _selection;

            try
            {
                object contents = _spreadsheet.GetCellContents(_selection);
                if (contents is Formula)
                {
                    contents = $"={contents}";
                }
                BoxContents.Text = contents.ToString();
            }
            catch (Exception e)
            {
                LabelError.Visible = true;
                LabelError.Text    = e.Message;
            }
        }
コード例 #2
0
ファイル: Blackboard.cs プロジェクト: Risist/More-Ascii
        public BoxValue <T> InitValue <T>(string key) where T : new()
        {
            if (values.TryGetValue(typeof(T), out var hashtable))
            {
                if (hashtable.TryGetValue(key, out var value))
                {
                    return((BoxValue <T>)value);
                }
                else
                {
                    var newValue = new BoxValue <T>(new T());
                    hashtable.Add(key, newValue);
                    return(newValue);
                }
            }
            else
            {
                hashtable = new Dictionary <string, object>();
                values.Add(typeof(T), hashtable);

                var newValue = new BoxValue <T>(new T());
                hashtable.Add(key, newValue);
                return(newValue);
            }
        }
コード例 #3
0
            protected internal override void VisitBoxValue(BoxValue node, object data)
            {
                StackTypes stack = data as StackTypes;

                Verifier.ProcessBox(stack, node.Type);
                AddTask(node.Next, stack);
            }
コード例 #4
0
        public BoxValue <T> InitValue <T>(string key, Func <T> initializeMethod)
        {
            if (values.TryGetValue(typeof(T), out var hashtable))
            {
                if (hashtable.TryGetValue(key, out var value))
                {
                    return((BoxValue <T>)value);
                }
                else
                {
                    var newValue = new BoxValue <T>(initializeMethod());
                    hashtable.Add(key, newValue);
                    return(newValue);
                }
            }
            else
            {
                hashtable = new Dictionary <string, object>();
                values.Add(typeof(T), hashtable);

                var newValue = new BoxValue <T>(initializeMethod());
                hashtable.Add(key, newValue);
                return(newValue);
            }
        }
コード例 #5
0
 public BoxPosition(string top, string right, string bottom, string left)
 {
     this.Top    = new BoxValue(top);
     this.Left   = new BoxValue(left);
     this.Right  = new BoxValue(right);
     this.Bottom = new BoxValue(bottom);
 }
コード例 #6
0
 public void IdentifyBox(bool onstart = false)
 {
     lastStats = stats;
     stats     = getrandom(onstart);
     if (lastStats == null)
     {
         lastStats = stats;
     }
     backPanel.sprite      = stats.image_Sprite;
     backPanel.color       = stats.tierColor;
     tierBackSprite.sprite = stats.tier_Sprite;
 }
コード例 #7
0
ファイル: AnimationScript.cs プロジェクト: Risist/More-Ascii
    /*protected void AutoTransition(AnimationStateMachine animationStateMachine, AnimationState animationState,
     *  AnimationState targetState, float transitionDuration = 0.0f, float transitionOffset = 0.0f, float transitionTime = 1.0f)
     * {
     *  var animator = animationStateMachine.animator;
     *  int layer = animationStateMachine.stateMachineLayer;
     *  var blendData = new AnimationBlendData(transitionDuration, transitionOffset);
     *
     *  animationState.AddUpdate( (animationTime) =>
     *  {
     *      if (!animator.IsInTransition(layer) && animationTime >= transitionTime)
     *          animationStateMachine.SetCurrentState(targetState, blendData);
     *  });
     * }*/

    protected void StaggerCondition(HealthController health, AnimationState animationState)
    {
        BoxValue <bool> damaged = new BoxValue <bool>(false);

        health.onStaggerCallback += (data) =>
        {
            damaged.value = true;
        };

        animationState.AddCanEnter(() => damaged.value);
        animationState.AddOnBegin(() => damaged.value = false);
        animationState.AddOnEnd(() => damaged.value   = false);
    }
コード例 #8
0
        void Awake()
        {
            node = new State();
            node.AddOnBegin(onBegin.Invoke);
            node.AddOnUpdate(onUpdate.Invoke);
            node.AddOnEnd(onEnd.Invoke);
            node.AddShallReturn(() =>
            {
                BoxValue <bool> b = new BoxValue <bool>(true);
                shallReturn.Invoke(b);
                return(b.value);
            });

            if (autoRun)
            {
                QuestManager.instance.stateMachine.AddExistingState(node);
            }
        }
コード例 #9
0
    public BoxValue getrandom(bool onstart)
    {
        int totalweight = 0;
        var boxes       = LevelManager.Instance.boxIdentity.Where(x => x.minimumLevelAppear <= LevelManager.Instance.currentLevel && (onstart ? x.appearOnStart : true));

        // Debug.Log(LevelManager.Instance.currentLevel);
        foreach (BoxValue item in boxes)
        {
            totalweight += item.weight;
        }
        int      num = Random.Range(0, totalweight);
        BoxValue a   = null;

        foreach (BoxValue item in boxes)
        {
            if (num < item.weight)
            {
                a = item;
                break;
            }
            num -= item.weight;
        }
        return(a);
    }
 private void OnLoaded(object sender, RoutedEventArgs e)
 {
     BoxValue.Focus();
 }
コード例 #11
0
        /// <summary>
        /// Creates an element from the archetype and adds the element to the node.
        /// </summary>
        /// <param name="arch">The element archetype.</param>
        /// <returns>The created element. Null if the archetype is invalid.</returns>
        public ISurfaceNodeElement AddElement(NodeElementArchetype arch)
        {
            ISurfaceNodeElement element = null;

            switch (arch.Type)
            {
            case NodeElementType.Input:
                element = new InputBox(this, arch);
                break;

            case NodeElementType.Output:
                element = new OutputBox(this, arch);
                break;

            case NodeElementType.BoolValue:
                element = new BoolValue(this, arch);
                break;

            case NodeElementType.FloatValue:
                element = new FloatValue(this, arch);
                break;

            case NodeElementType.IntegerValue:
                element = new IntegerValue(this, arch);
                break;

            case NodeElementType.ColorValue:
                element = new ColorValue(this, arch);
                break;

            case NodeElementType.ComboBox:
                element = new ComboBoxElement(this, arch);
                break;

            case NodeElementType.Asset:
                element = new AssetSelect(this, arch);
                break;

            case NodeElementType.Text:
                element = new TextView(this, arch);
                break;

            case NodeElementType.TextBox:
                element = new TextBoxView(this, arch);
                break;

            case NodeElementType.SkeletonBoneIndexSelect:
                element = new SkeletonBoneIndexSelectElement(this, arch);
                break;

            case NodeElementType.BoxValue:
                element = new BoxValue(this, arch);
                break;

            case NodeElementType.EnumValue:
                element = new EnumValue(this, arch);
                break;

            case NodeElementType.SkeletonNodeNameSelect:
                element = new SkeletonNodeNameSelectElement(this, arch);
                break;
                //default: throw new NotImplementedException("Unknown node element type: " + arch.Type);
            }
            if (element != null)
            {
                AddElement(element);
            }

            return(element);
        }
コード例 #12
0
ファイル: State.cs プロジェクト: PlumpMath/cilpe-1
 protected override void VisitBoxValue(BoxValue node, object data)
 {
     state.Stack.Perform_BoxValue(node.Type);
     nextNode = node.Next;
 }
コード例 #13
0
    public override void InitBehaviours(AiBehaviourController controller)
    {
        var stateMachine = controller.stateMachine;
        var inputHolder  = controller.GetComponentInParent <InputHolder>();
        var transform    = controller.transform;

        FocusPriority priorityFocus = controller.focusPriority;
        AttentionMode painAttention = AiBehaviourPackUtility.GetAttentionPain(controller);

        var tExecute         = new Timer();
        var lookAroundMethod = new LookAround(new RangedFloat(0.5f, 0.8f), new RangedFloat(25, 50));

        // TODO if seeker is not defined create MoveToDestination instead
        var moveToDestination   = new MoveToDestinationNavigation(controller.GetComponent <Seeker>());
        var velocityAccumulator = new VelocityAccumulator(0.89f, 0.075f);

        var destination = controller.InitBlackboardValue <Vector2>("destination");


        ////////////////
        var idle = painAttention.AddNewState(true)
                   .AddOnBegin(() => tExecute.RestartRandom(0.15f, 0.3f))
                   .AddOnBegin(inputHolder.ResetInput)
                   .AddShallReturn(tExecute.IsReady)
                   .SetUtility(0.1f);

        ;

        var moveAway = painAttention.AddNewState(true)
                       .AddOnBegin(inputHolder.ResetInput)
                       .AddOnBegin(() => tExecute.RestartRandom(0.25f, 0.325f))
                       .AddOnUpdate(() =>
        {
            Vector2 toTarget           = painAttention.focus.ToTarget();
            inputHolder.positionInput  = -toTarget;
            inputHolder.rotationInput  = toTarget;
            inputHolder.directionInput = toTarget;

            //Debug.Log(painAttention.activeTime);
        })
                       .AddShallReturn(() => tExecute.IsReady())
                       .SetUtility(() => 10)
                       .AddCanEnter(() => painAttention.activeTime < 0.1f)
        ;


        BoxValue <Vector2> initialDirection = new BoxValue <Vector2>(Vector2.zero);

        var hit = painAttention.AddNewState(true)
                  .AddOnBegin(inputHolder.ResetInput)
                  .AddOnBegin(() => tExecute.RestartRandom(1.0f, 1.5f))
                  .AddOnBegin(() => inputHolder.directionInput = transform.up)
                  .AddOnUpdate(() =>
        {
            Vector2 toTarget          = painAttention.focus.ToTarget();
            inputHolder.positionInput = tExecute.IsReady(0.2f) ? Vector2.zero : -toTarget;
            if (tExecute.IsReady(0.2f))
            {
                inputHolder.directionInput = PolarVector2.MoveTowards(
                    inputHolder.directionInput.GetPolarVector(), toTarget.GetPolarVector(), 3.5f, 0.25f);
                inputHolder.keys[0] = true;
            }
            //Debug.Log(painAttention.activeTime);
        })
                  .AddShallReturn(() => tExecute.IsReady())
                  .SetUtility(() => 15)
                  .AddCanEnter(() => painAttention.activeTime < 0.1f)
        ;

        /// TODO:
        /// later (if have not switched to another event) ai will have search behaviours
        ///     look around ( standard 360 degrees with agressive switches)
        ///     move randomly around
        ///     search manager (which will somehow generate points to check)
        ///     once in a while look at random point close to the hit position
    }
コード例 #14
0
 public void SetCenter(string horizontal, string vertical)
 {
     this.boxCenterX = new BoxValue(horizontal);
     this.boxCenterY = new BoxValue(vertical);
 }
コード例 #15
0
 public void SetSize(string width, string height)
 {
     this.boxWidth  = new BoxValue(width);
     this.boxHeight = new BoxValue(height);
 }
コード例 #16
0
ファイル: Visitor.cs プロジェクト: PlumpMath/cilpe-1
 protected internal virtual void VisitBoxValue(BoxValue node, object data)
 {
     throw new NodeNotSupportedException(node);
 }
コード例 #17
0
        /// <summary>
        /// Creates an element from the archetype and adds the element to the node.
        /// </summary>
        /// <param name="arch">The element archetype.</param>
        /// <returns>The created element. Null if the archetype is invalid.</returns>
        public ISurfaceNodeElement AddElement(NodeElementArchetype arch)
        {
            ISurfaceNodeElement element = null;

            switch (arch.Type)
            {
            case NodeElementType.Input:
                element = new InputBox(this, arch);
                break;

            case NodeElementType.Output:
                element = new OutputBox(this, arch);
                break;

            case NodeElementType.BoolValue:
                element = new BoolValue(this, arch);
                break;

            case NodeElementType.FloatValue:
                element = new FloatValue(this, arch);
                break;

            case NodeElementType.IntegerValue:
                element = new IntegerValue(this, arch);
                break;

            case NodeElementType.ColorValue:
                element = new ColorValue(this, arch);
                break;

            case NodeElementType.ComboBox:
                element = new ComboBoxElement(this, arch);
                break;

            case NodeElementType.Asset:
                element = new AssetSelect(this, arch);
                break;

            case NodeElementType.Text:
                element = new TextView(this, arch);
                break;

            case NodeElementType.TextBox:
                element = new TextBoxView(this, arch);
                break;

            case NodeElementType.SkeletonNodeSelect:
                element = new SkeletonNodeSelectElement(this, arch);
                break;

            case NodeElementType.BoxValue:
                element = new BoxValue(this, arch);
                break;

            case NodeElementType.EnumValue:
                element = new EnumValue(this, arch);
                break;
            }
            if (element != null)
            {
                AddElement(element);
            }

            return(element);
        }
コード例 #18
0
        public static MethodBodyBlock Convert(MethodEx method)
        {
            if (!method.IsVerified)
            {
                throw new ConvertionException();
            }
            MethodInfoExtention _method_  = new MethodInfoExtention(method.Method);
            MethodBodyBlock     mainBlock = new MethodBodyBlock(_method_.GetReturnType().type);

            mainBlock.Options["StackTypes"] = new StackTypes();
            Block currentBlock = mainBlock;

            Node[] heads = new Node[method.Count];
            Node[] tails = new Node[method.Count];
            Node   head = null;
            Node   tail = null;
            Node   firstBlock = null;
            Node   lastBlock = null;
            int    iNum, iNumNext;

            Variable[]    locals        = new Variable[method.Locals.Count];
            Variable[]    args          = new Variable[_method_.ArgCount];
            VariablesList methodVarList = mainBlock.Variables;

            for (int i = 0; i < args.Length; i++)
            {
                args[i]      = methodVarList.CreateVar(_method_.GetArgType(i).type, VariableKind.Parameter);
                args[i].Name = "Arg" + i;
//				methodVarList.Add(args[i]);
            }
            for (int i = 0; i < locals.Length; i++)
            {
                locals[i]      = methodVarList.CreateVar(method.Locals[i], VariableKind.Local);
                locals[i].Name = "Loc" + i;
//				methodVarList.Add(locals[i]);
            }

            BlockType nextBlockType;
            int       nextBlockStart = -1;
            int       nextBlockEnd   = 1 << 30;
            int       nextBlockIndex;
            Type      nextCatchBlockType;
            Hashtable tryBlocks    = new Hashtable();
            Hashtable filterBlocks = new Hashtable();
            Stack     blockEnds    = new Stack();

            blockEnds.Push(method.Count);
            FindNextBlockStart(method.EHClauses, out nextBlockType, ref nextBlockStart, ref nextBlockEnd, out nextCatchBlockType, out nextBlockIndex);

            //Nodes and blocks creation, blocks linkage
            for (iNum = 0; iNum < method.Count; iNum++)
            {
                while (iNum == (int)blockEnds.Peek())
                {
                    currentBlock = currentBlock.Parent;
                    blockEnds.Pop();
                }

                firstBlock = null;
                lastBlock  = null;
                Node thisBlock = null;
                while (iNum == nextBlockStart)
                {
                    Block currentBlockOld = currentBlock;

                    switch (nextBlockType)
                    {
                    case BlockType.Try:
                        currentBlock = new ProtectedBlock();
                        break;

                    case BlockType.Catch:
                        currentBlock = new CatchBlock(nextCatchBlockType);
                        break;

                    case BlockType.Finally:
                        currentBlock = new FinallyBlock(false);
                        break;

                    case BlockType.Filter:
                        currentBlock = new FilterBlock();
                        break;

                    case BlockType.FilteredCatch:
                        currentBlock = new UserFilteredBlock();
                        break;
                    }

                    currentBlock.setParent(currentBlockOld);

                    blockEnds.Push(nextBlockEnd);
                    if (thisBlock == null)
                    {
                        thisBlock = firstBlock = currentBlock;
                    }
                    else
                    {
                        thisBlock.Next = currentBlock;
                        thisBlock      = currentBlock;
                    }
                    switch (nextBlockType)
                    {
                    case BlockType.Try:
                        tryBlocks.Add(new Segment(nextBlockStart, nextBlockEnd), thisBlock);
                        break;

                    case BlockType.Filter:
                        filterBlocks.Add(new Segment(nextBlockStart, nextBlockEnd), thisBlock);
                        break;

                    case BlockType.Finally:
                    case BlockType.Catch:
                    {
                        Segment        tryBlockKey = FindProtectedBlock(method.EHClauses, nextBlockIndex);
                        ProtectedBlock tryBlock    = tryBlocks[tryBlockKey] as ProtectedBlock;
                        tryBlock.AddHandler(thisBlock as EHBlock);
                    }       break;

                    case BlockType.FilteredCatch:
                    {
                        Segment        tryBlockKey = FindProtectedBlock(method.EHClauses, nextBlockIndex);
                        ProtectedBlock tryBlock    = tryBlocks[tryBlockKey] as ProtectedBlock;
                        tryBlock.AddHandler(thisBlock as EHBlock);

                        Segment     filterKey   = FindFilterBlock(method.EHClauses, nextBlockIndex);
                        FilterBlock filterBlock = filterBlocks[filterKey] as FilterBlock;
                        (thisBlock as UserFilteredBlock).Filter = filterBlock;
                    }       break;
                    }
                    FindNextBlockStart(method.EHClauses, out nextBlockType, ref nextBlockStart, ref nextBlockEnd, out nextCatchBlockType, out nextBlockIndex);
                }
                lastBlock = thisBlock;

                Instruction i = method[iNum];
                switch (i.Code)
                {
                case InstructionCode.NEG:
                case InstructionCode.NOT:
                {
                    head = tail = new UnaryOp(UnaryOpFromCode(i.Code));
                    /*!*/ head.setParent(currentBlock);
                } break;

                case InstructionCode.ADD:
                case InstructionCode.AND:
                case InstructionCode.CEQ:
                case InstructionCode.CGT:
                case InstructionCode.CLT:
                case InstructionCode.DIV:
                case InstructionCode.MUL:
                case InstructionCode.OR:
                case InstructionCode.REM:
                case InstructionCode.SHL:
                case InstructionCode.SHR:
                case InstructionCode.SUB:
                case InstructionCode.XOR:
                {
                    head = tail = new BinaryOp(BinaryOpFromCode(i.Code), i.OverflowFlag, i.UnsignedFlag);
                    /*!*/ head.setParent(currentBlock);
                } break;

                case InstructionCode.LDC:
                    head = tail = new LoadConst(i.Param);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDARG:
                    head = tail = new LoadVar(args[(int)(i.Param)]);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDLOC:
                    head = tail = new LoadVar(locals[(int)(i.Param)]);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDARGA:
                    head = tail = new LoadVarAddr(args[(int)(i.Param)]);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDLOCA:
                    head = tail = new LoadVarAddr(locals[(int)(i.Param)]);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDIND:
                    head = tail = new LoadIndirect(i.TypeBySuffixOrParam());
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDFLD:
                {
                    FieldInfo field = i.Param as FieldInfo;
                    if (field.IsStatic)
                    {
                        head = new RemoveStackTop();
                        /*!*/ head.setParent(currentBlock);
                        //remove the object instance when accessing the static field with LDFLD
                        tail = new LoadField(field);
                        /*!*/ tail.setParent(currentBlock);
                        head.Next = tail;
                    }
                    else
                    {
                        head = tail = new LoadField(field);
                        /*!*/ head.setParent(currentBlock);
                    }
                }       break;

                case InstructionCode.LDFLDA:
                {
                    FieldInfo field = i.Param as FieldInfo;
                    if (field.IsStatic)
                    {
                        head = new RemoveStackTop();
                        /*!*/ head.setParent(currentBlock);
                        tail = new LoadFieldAddr(field);
                        /*!*/ tail.setParent(currentBlock);
                        head.Next = tail;
                    }
                    else
                    {
                        head = tail = new LoadFieldAddr(field);
                        /*!*/ head.setParent(currentBlock);
                    }
                }       break;

                case InstructionCode.LDSFLD:
                    head = tail = new LoadField(i.Param as FieldInfo);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDSFLDA:
                    head = tail = new LoadFieldAddr(i.Param as FieldInfo);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDELEM:
                    head = tail = new LoadElement(i.TypeBySuffixOrParam());
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDELEMA:
                    head = tail = new LoadElementAddr(i.TypeBySuffixOrParam());
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDOBJ:
                    head = tail = new LoadIndirect(i.Param as Type);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.SIZEOF:
                    head = tail = new LoadSizeOfValue(i.Param as Type);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDLEN:
                    head = tail = new LoadLength();
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDTOKEN:
                    if (i.Param is Type)
                    {
                        head = tail = new LoadConst((i.Param as Type).TypeHandle);
                    }
                    else if (i.Param is MethodBase)
                    {
                        head = tail = new LoadConst((i.Param as MethodBase).MethodHandle);
                    }
                    else if (i.Param is FieldInfo)
                    {
                        head = tail = new LoadConst((i.Param as FieldInfo).FieldHandle);
                    }
                    else
                    {
                        throw new ConvertionException();
                    }
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDNULL:
                    head = tail = new LoadConst(null);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.LDSTR:
                    head = tail = new LoadConst(i.Param);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.STARG:
                    head = tail = new StoreVar(args[(int)(i.Param)]);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.STLOC:
                    head = tail = new StoreVar(locals[(int)(i.Param)]);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.STIND:
                    head = tail = new StoreIndirect(i.TypeBySuffixOrParam());
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.STFLD:
                {
                    FieldInfo field = i.Param as FieldInfo;
                    if (field.IsStatic)
                    {
                        head = new StoreField(field);
                        /*!*/ head.setParent(currentBlock);
                        tail = new RemoveStackTop();
                        /*!*/ tail.setParent(currentBlock);
                        head.Next = tail;
                    }
                    else
                    {
                        head = tail = new StoreField(i.Param as FieldInfo);
                        /*!*/ head.setParent(currentBlock);
                    }
                }       break;

                case InstructionCode.STSFLD:
                    head = tail = new StoreField(i.Param as FieldInfo);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.STELEM:
                    head = tail = new StoreElement(i.TypeBySuffixOrParam());
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.STOBJ:
                    head = tail = new StoreIndirect(i.Param as Type);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.CPOBJ:
                    head = new LoadIndirect(i.Param as Type);
                    /*!*/ head.setParent(currentBlock);
                    tail = new StoreIndirect(i.Param as Type);
                    /*!*/ tail.setParent(currentBlock);
                    head.Next = tail;
                    break;

                case InstructionCode.DUP:
                    head = tail = new DuplicateStackTop();
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.CALL:
                    head = tail = new CallMethod(i.Param as MethodBase, false, i.HasTail);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.CALLVIRT:
                    MethodInfo callee = i.Param as MethodInfo;
                    head = tail = new CallMethod(callee, callee.IsVirtual, i.HasTail);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.NEWOBJ:
                { ConstructorInfo ctor = i.Param as ConstructorInfo;
                  if (Verifier.IsDelegate(ctor.DeclaringType))
                  {
                      if (Verifier.IsInstanceDispatch(method, iNum))
                      {
                          heads[iNum - 1] = tails[iNum - 1] = null;
                          head            = tail = new CreateDelegate(ctor, method[iNum - 1].Param as MethodInfo, false);
                      }
                      else if (Verifier.IsVirtualDispatch(method, iNum))
                      {
                          heads[iNum - 2] = tails[iNum - 2] = null;
                          heads[iNum - 1] = tails[iNum - 1] = null;
                          head            = tail = new CreateDelegate(ctor, method[iNum - 1].Param as MethodInfo, true);
                      }
                  }
                  else
                  {
                      head = tail = new NewObject(ctor);
                  }
                  /*!*/ head.setParent(currentBlock); }       break;

                case InstructionCode.NEWARR:
                    head = tail = new NewArray(i.Param as Type);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.INITOBJ:
                    head = tail = new InitValue(i.Param as Type);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.ISINST:
                    head = tail = new CastClass(i.Param as Type, false);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.CASTCLASS:
                    head = tail = new CastClass(i.Param as Type, true);
                    /*!*/ head.setParent(currentBlock);
                    break;


                case InstructionCode.BOX:
                    head = tail = new BoxValue(i.Param as Type);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.UNBOX:
                    head = tail = new UnboxValue(i.Param as Type);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.CONV:
                    head = tail = new ConvertValue(i.TypeBySuffixOrParam(), i.OverflowFlag, i.UnsignedFlag);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.POP:
                    head = tail = new RemoveStackTop();
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.BEQ:
                    head = new BinaryOp(BinaryOp.ArithOp.CEQ, false, false);
                    /*!*/ head.setParent(currentBlock);
                    tail = new Branch();
                    /*!*/ tail.setParent(currentBlock);
                    head.Next = tail;
                    break;

                case InstructionCode.BNE:
                    head = new BinaryOp(BinaryOp.ArithOp.CEQ, false, false);
                    /*!*/ head.setParent(currentBlock);
                    tail = new Branch();
                    /*!*/ tail.setParent(currentBlock);
                    head.Next = tail;
                    break;

                case InstructionCode.BGE:
                    if (TypeFixer.IsFloatOrCompatible(i.Stack.Top()))
                    {
                        head = new BinaryOp(BinaryOp.ArithOp.CLT, false, !i.UnsignedFlag);
                    }
                    else
                    {
                        head = new BinaryOp(BinaryOp.ArithOp.CLT, false, i.UnsignedFlag);
                    }
                    tail = new Branch();
                    /*!*/ head.setParent(currentBlock);
                    /*!*/ tail.setParent(currentBlock);
                    head.Next = tail;
                    break;

                case InstructionCode.BGT:
                    head = new BinaryOp(BinaryOp.ArithOp.CGT, false, i.UnsignedFlag);
                    tail = new Branch();
                    /*!*/ head.setParent(currentBlock);
                    /*!*/ tail.setParent(currentBlock);
                    head.Next = tail;
                    break;

                case InstructionCode.BLE:
                    if (TypeFixer.IsFloatOrCompatible(i.Stack.Top()))
                    {
                        head = new BinaryOp(BinaryOp.ArithOp.CGT, false, !i.UnsignedFlag);
                    }
                    else
                    {
                        head = new BinaryOp(BinaryOp.ArithOp.CGT, false, i.UnsignedFlag);
                    }
                    tail = new Branch();
                    /*!*/ head.setParent(currentBlock);
                    /*!*/ tail.setParent(currentBlock);
                    head.Next = tail;
                    break;

                case InstructionCode.BLT:
                    head = new BinaryOp(BinaryOp.ArithOp.CLT, false, i.UnsignedFlag);
                    tail = new Branch();
                    /*!*/ head.setParent(currentBlock);
                    /*!*/ tail.setParent(currentBlock);
                    head.Next = tail;
                    break;

                case InstructionCode.BRTRUE:
                    head = tail = new Branch();
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.BRFALSE:
                    head = tail = new Branch();
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.SWITCH:
                    head = tail = new Switch((i.Param as int[]).Length);
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.BR:
                case InstructionCode.NOP:
                case InstructionCode.BREAK:
                case InstructionCode.LDFTN:                             // Expecting further delegate construction...
                case InstructionCode.LDVIRTFTN:                         //
                    head = tail = new DummyNode();
                    /*!*/ head.setParent(currentBlock);
                    break;

                case InstructionCode.THROW:
                    head = tail = new ThrowException();
                    /*!*/ head.setParent(currentBlock);
                    break;


                case InstructionCode.RET:
                case InstructionCode.ENDFINALLY:
                case InstructionCode.ENDFILTER:
                case InstructionCode.LEAVE:
                    head = tail = new Leave();
                    /*!*/ head.setParent(currentBlock);
                    break;

                default:
                    throw new ConvertionException();
                }
                if (head != null)
                {
                    head.Options["StackTypes"] = i.Stack.Clone() as StackTypes;
                }
                if (head != tail)                //=>   head :: BinaryOp, tail :: Branch
                //||   head :: LoadIndirect, tail :: StoreIndirect
                {
                    if (head is BinaryOp && tail is Branch)
                    {
                        StackTypes stack = i.Stack.Clone() as StackTypes;
                        stack.Pop();
                        stack.Pop();
                        stack.Push(typeof(int));
                        tail.Options["StackTypes"] = stack;
                    }
                    else if (head is LoadIndirect && tail is StoreIndirect)
                    {
                        StackTypes stack = i.Stack.Clone() as StackTypes;
                        TypeEx     type  = stack.Pop();                    //type == S&
                        stack.Push(type.type.GetElementType());
                        tail.Options["StackTypes"] = stack;
                    }
                }
                if (firstBlock != null)
                {
                    lastBlock.Next = head;
                    for (Node n = firstBlock; n != head; n = n.Next)
                    {
                        n.Options["StackTypes"] = i.Stack.Clone() as StackTypes;
                    }
                    head = firstBlock;
                    if (tail == null)
                    {
                        tail = lastBlock;                         //This may occure what the NOP instruction starts some block
                    }
                }
                heads[iNum] = head;
                tails[iNum] = tail;
            }            //for
            mainBlock.Next = heads[0];
            //Control flow linkage
            for (iNum = 0; iNum < method.Count; iNum++)
            {
                if (heads[iNum] == null)
                {
                    throw new ConvertionException();                     //impossible :)
                }
                Instruction i = method[iNum];

                switch (i.Code)
                {
                case InstructionCode.BR:
                case InstructionCode.LEAVE:
                    tails[iNum].Next = heads[(int)i.Param];
                    break;

                case InstructionCode.RET:
                case InstructionCode.ENDFINALLY:
                case InstructionCode.ENDFILTER:
                case InstructionCode.THROW:
                case InstructionCode.RETHROW:
                    break;

                case InstructionCode.BRFALSE:                     //false
                case InstructionCode.BGE:                         //false
                case InstructionCode.BLE:                         //false
                case InstructionCode.BNE:                         //false
                    tails[iNum].Next            = heads[(int)i.Param];
                    (tails[iNum] as Branch).Alt = heads[iNum + 1];
                    break;

                case InstructionCode.BRTRUE:                      //true
                case InstructionCode.BEQ:                         //true
                case InstructionCode.BGT:                         //true
                case InstructionCode.BLT:                         //true
                    tails[iNum].Next            = heads[iNum + 1];
                    (tails[iNum] as Branch).Alt = heads[(int)i.Param];
                    break;

                case InstructionCode.SWITCH:
                    tails[iNum].Next = heads[iNum + 1];
                    Switch node = tails[iNum] as Switch;
                    int[]  alt  = i.Param as int[];
                    for (int j = 0; j < node.Count; j++)
                    {
                        node[j] = heads[alt[j]];
                    }
                    break;

                default:
                    tails[iNum].Next = heads[iNum + 1];
                    break;
                }
            }

            //Removing DummyNodes
            for (iNum = 0; iNum < method.Count; iNum++)
            {
                if (heads[iNum] is DummyNode)
                {
                    Node   dummy = heads[iNum];
                    Node[] prev  = new Node[dummy.PrevArray.Count];
                    for (int j = 0; j < prev.Length; j++)
                    {
                        prev[j] = dummy.PrevArray[j];
                    }
                    for (int j = 0; j < prev.Length; j++)
                    {
                        prev[j].NextArray[prev[j].NextArray.IndexOf(dummy)] = dummy.Next;
                    }
                    dummy.RemoveFromGraph();
                }
            }


            return(mainBlock);
        }