C# (CSharp) DuckGame BinaryClassChunk.GetProperty Examples

Example #1

File: LaserSpawner.cs Project: tkreind/Duck-Game-Monogame-Port

 public override bool Deserialize(BinaryClassChunk node)
 {
     base.Deserialize(node);
     this.fireDirection = node.GetProperty <float>("fireDirection");
     this.firePower     = node.GetProperty <float>("firePower");
     return(true);
 }

Example #2

 public override bool Deserialize(BinaryClassChunk node)
 {
     base.Deserialize(node);
     this.stanceSetting = node.GetProperty <int>("stanceSetting");
     this.contains      = Editor.GetType(node.GetProperty <string>("contains"));
     this.chestPlate    = node.GetProperty <bool>("chestPlate");
     this.helmet        = node.GetProperty <bool>("helmet");
     return(true);
 }

Example #3

File: ForegroundTile.cs Project: tkreind/Duck-Game-Monogame-Port

 public override bool Deserialize(BinaryClassChunk node)
 {
     base.Deserialize(node);
     (this.graphic as SpriteMap).frame = node.GetProperty <int>("frame");
     return(true);
 }

Example #4

File: Teleporter.cs Project: tkreind/Duck-Game-Monogame-Port

 public override bool Deserialize(BinaryClassChunk node)
 {
     base.Deserialize(node);
     this.direction = node.GetProperty <int>("direction");
     return(true);
 }

Example #5

File: ThingContainer.cs Project: tkreind/Duck-Game-Monogame-Port

        private bool DoDeserialize(BinaryClassChunk node)
        {
            System.Type type = Editor.GetType(node.GetProperty <string>("blockType"));
            if (type == (System.Type)null)
            {
                return(false);
            }
            bool flag1 = typeof(AutoBlock).IsAssignableFrom(type);

            this._things = new List <Thing>();
            BitBuffer property1 = node.GetProperty <BitBuffer>("data");

            if (!typeof(AutoBlock).IsAssignableFrom(type))
            {
                flag1 = false;
            }
            List <AutoBlock> autoBlockList = new List <AutoBlock>();
            int num1 = property1.ReadInt();

            for (int index = 0; index < num1; ++index)
            {
                float num2  = property1.ReadFloat();
                float num3  = property1.ReadFloat();
                int   num4  = (int)property1.ReadByte();
                bool  flag2 = Level.flipH;
                if (Level.loadingOppositeSymmetry)
                {
                    flag2 = !flag2;
                }
                if (flag2)
                {
                    num2 = (float)(192.0 - (double)num2 - 16.0);
                }
                Thing thing = Editor.CreateThing(type);
                if (flag2 && thing is AutoBlock)
                {
                    (thing as AutoBlock).needsRefresh = true;
                    (thing as AutoBlock).isFlipped    = true;
                }
                if (thing is BackgroundTile)
                {
                    if (flag2)
                    {
                        (thing as BackgroundTile).isFlipped = true;
                    }
                    (thing as BackgroundTile).oppositeSymmetry = !Level.loadingOppositeSymmetry;
                }
                if (flag2 && thing is AutoPlatform)
                {
                    (thing as AutoPlatform).needsRefresh = true;
                }
                thing.x      = num2;
                thing.y      = num3;
                thing.placed = true;
                if (thing.isStatic)
                {
                    this._isStatic = true;
                }
                if (flag1)
                {
                    short     num5      = property1.ReadShort();
                    short     num6      = property1.ReadShort();
                    short     num7      = property1.ReadShort();
                    short     num8      = property1.ReadShort();
                    AutoBlock autoBlock = thing as AutoBlock;
                    autoBlock.northIndex = (int)num5;
                    autoBlock.southIndex = (int)num6;
                    if (flag2)
                    {
                        autoBlock.westIndex = (int)num7;
                        autoBlock.eastIndex = (int)num8;
                    }
                    else
                    {
                        autoBlock.eastIndex = (int)num7;
                        autoBlock.westIndex = (int)num8;
                    }
                    autoBlockList.Add(autoBlock);
                }
                bool flag3 = true;
                if (Level.symmetry)
                {
                    if (Level.leftSymmetry && (double)num2 > 80.0)
                    {
                        flag3 = false;
                    }
                    if (!Level.leftSymmetry && (double)num2 < 96.0)
                    {
                        flag3 = false;
                    }
                }
                if (flag3)
                {
                    thing.frame = num4;
                    this._things.Add(thing);
                }
            }
            if (flag1 && !(Level.current is Editor))
            {
                foreach (AutoBlock autoBlock in autoBlockList)
                {
                    if (autoBlock.northIndex != -1)
                    {
                        autoBlock.upBlock = (Block)autoBlockList[autoBlock.northIndex];
                    }
                    if (autoBlock.southIndex != -1)
                    {
                        autoBlock.downBlock = (Block)autoBlockList[autoBlock.southIndex];
                    }
                    if (autoBlock.eastIndex != -1)
                    {
                        autoBlock.rightBlock = (Block)autoBlockList[autoBlock.eastIndex];
                    }
                    if (autoBlock.westIndex != -1)
                    {
                        autoBlock.leftBlock = (Block)autoBlockList[autoBlock.westIndex];
                    }
                    autoBlock.neighborsInitialized = true;
                }
                BitBuffer property2 = node.GetProperty <BitBuffer>("groupData");
                if (property2 != null)
                {
                    ushort num2 = property2.ReadUShort();
                    int    num3;
                    for (int index1 = 0; index1 < (int)num2; index1 = num3 + 1)
                    {
                        BlockGroup blockGroup = new BlockGroup();
                        blockGroup.position = new Vec2(property2.ReadFloat(), property2.ReadFloat());
                        bool flag2 = Level.flipH;
                        if (Level.loadingOppositeSymmetry)
                        {
                            flag2 = !flag2;
                        }
                        if (flag2)
                        {
                            blockGroup.position.x = (float)(192.0 - (double)blockGroup.position.x - 16.0);
                        }
                        blockGroup.collisionOffset = new Vec2(property2.ReadFloat(), property2.ReadFloat());
                        blockGroup.collisionSize   = new Vec2(property2.ReadFloat(), property2.ReadFloat());
                        float num4 = 88f;
                        if (Level.symmetry)
                        {
                            if (Level.leftSymmetry)
                            {
                                if ((double)blockGroup.left < (double)num4 && (double)blockGroup.right > (double)num4)
                                {
                                    float num5 = blockGroup.right - num4;
                                    float x    = blockGroup.collisionSize.x - num5;
                                    blockGroup.position.x     -= num5;
                                    blockGroup.position.x     += x / 2f;
                                    blockGroup.collisionSize   = new Vec2(x, blockGroup.collisionSize.y);
                                    blockGroup.collisionOffset = new Vec2((float)-((double)x / 2.0), blockGroup.collisionOffset.y);
                                    blockGroup.right           = num4;
                                }
                            }
                            else
                            {
                                num4 = 88f;
                                if ((double)blockGroup.right > (double)num4 && (double)blockGroup.left < (double)num4)
                                {
                                    float num5 = num4 - blockGroup.left;
                                    float x    = blockGroup.collisionSize.x - num5;
                                    blockGroup.position.x     += num5;
                                    blockGroup.position.x     -= x / 2f;
                                    blockGroup.collisionSize   = new Vec2(x, blockGroup.collisionSize.y);
                                    blockGroup.collisionOffset = new Vec2((float)-((double)x / 2.0), blockGroup.collisionOffset.y);
                                    blockGroup.left            = num4;
                                }
                            }
                        }
                        int num6 = property2.ReadInt();
                        for (int index2 = 0; index2 < num6; ++index2)
                        {
                            int index3 = (int)property2.ReadShort();
                            if (index3 >= 0)
                            {
                                AutoBlock autoBlock = autoBlockList[index3];
                                bool      flag3     = true;
                                if (Level.symmetry)
                                {
                                    if (Level.leftSymmetry && (double)autoBlock.x > 80.0)
                                    {
                                        flag3 = false;
                                    }
                                    if (!Level.leftSymmetry && (double)autoBlock.x < 96.0)
                                    {
                                        flag3 = false;
                                    }
                                }
                                if (flag3)
                                {
                                    autoBlock.groupedWithNeighbors = true;
                                    blockGroup.Add((Block)autoBlock);
                                    blockGroup.physicsMaterial = autoBlock.physicsMaterial;
                                    blockGroup.thickness       = autoBlock.thickness;
                                }
                                this._things.Remove((Thing)autoBlock);
                            }
                        }
                        num3 = index1 + num6;
                        if (flag2)
                        {
                            blockGroup.needsRefresh = true;
                        }
                        if (Level.symmetry)
                        {
                            if (Level.leftSymmetry && (double)blockGroup.left < (double)num4)
                            {
                                this._things.Add((Thing)blockGroup);
                            }
                            else if (!Level.leftSymmetry && (double)blockGroup.right > (double)num4)
                            {
                                this._things.Add((Thing)blockGroup);
                            }
                        }
                        else
                        {
                            this._things.Add((Thing)blockGroup);
                        }
                    }
                }
            }
            return(true);
        }

Example #6

 public void DeserializeField(BinaryClassChunk node, string name) => Editor.GetMember(this.GetType(), name)?.SetValue((object)this, node.GetProperty(name));

Example #7

File: MysteryGun.cs Project: tkreind/Duck-Game-Monogame-Port

 public override bool Deserialize(BinaryClassChunk node)
 {
     base.Deserialize(node);
     this.contains = MysteryGun.DeserializeTypeProb(node.GetProperty <string>("contains"));
     return(true);
 }