コード例 #1
0
        /// <summary>
        /// Creates a sprite from an image file.
        /// </summary>
        /// <remarks>
        /// If a sprite from the same image was already loaded
        /// before it will return a new sprite from the SpriteData
        /// in the cache.
        /// </remarks>
        /// <param name="ImageFile">The image file to create the sprite from</param>
        /// <param name="offset">Offset, same as <see cref="Sprite.Offset"/>.</param>
        /// <returns>A <see cref="Sprite"/>.</returns>
        public static Sprite CreateFromImage(string ImageFile, Vector offset)
        {
            if(!SpriteDatas.ContainsKey(ImageFile)) {
                Surface Surface = new Surface(ImageFile);
                SpriteData Data = new SpriteData(Surface, offset);
                SpriteDatas[ImageFile] = Data;
                return new Sprite(Data);
            }

            return new Sprite(SpriteDatas[ImageFile]);
        }
コード例 #2
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 public SpriteData(Surface Surface, Vector offset)
 {
     Action Action = new Action("default", Surface);
     Action.Offset = offset;
     Actions.Add(Action.Name, Action);
 }
コード例 #3
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        public static byte[] Compress(string toCompress)
        {
            //then at the end of the function we're going to convert it to an array, and return it.
            Vector<byte> result = new Vector<byte>();

            //make an encoding table out of the huffman tree, out of a frequency table
            Console.WriteLine("Making Huffman frequency table");
            HashTable<char, int> FreqTable = MakeFrequencyTable(toCompress); //copy to memory because we access it multiple times
            Console.WriteLine("Making Huffman tree");
            Node huffmanTree = MakeHuffmanTree(FreqTable);
            Console.WriteLine("Making Huffman encoding table");
            HashTable<char, BitStream> encodingTable = MakeEncodingTable(huffmanTree, new BitStream()); // add to memory because accessed twice
            //convert the size of the frequency table to bytes.
            Console.WriteLine("Converting to bytes");
            byte[] freqToByte = IntToBytes(FreqTable.Size);
            //and all four bytes to the resuld linked list
            Console.WriteLine("Adding bytes bytes");
            result.AddRange(freqToByte);

            //next loop through the frequency table
            SLinkedList<char> list = FreqTable.Keys;
            Console.WriteLine("looping through frequency table");
            for (int i = 0; i < list.Size; i++) {
                //convert current key to two bytes
                byte[] key = CharToBytes(list[i]);
                //add both bytes to the linked list
                result.AddRange(key);

                //convert the current value to foure bytes,
                byte[] value = IntToBytes(FreqTable[list[i]]);
                //add alll four bytes to the linked list
                result.AddRange(value);

            }//end loop

            //make new bitstream (datastream) to hold bits
            BitStream datastream = new BitStream();

            //loop through the string
            Console.WriteLine("Looping through input and adding to datastream");
            for (int i = 0; i < toCompress.Length; i++) {
                //append the bitstream of the encoding table to the newely created bitstream
                datastream.Append(encodingTable[toCompress[i]]);
            }//end loop

            //get the bit streams bit count as an integer
            int streamBitCount = datastream.BitCount;
            //convert this integer to bytes and add it to the result list
            Console.WriteLine("Converting bytes");
            byte[] streambitByte = IntToBytes(streamBitCount);
            result.AddRange(streambitByte);

            Console.WriteLine("Copying Bytes");
            result.AddRange(datastream.Bytes);

            //finally convert the result list to a byte array.
            Console.WriteLine("Convert results list to byte array");
            byte[] byteResult = result.ToArray();

            //return the array
            return byteResult;
        }
コード例 #4
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        public void Draw(Vector pos)
        {
            gl.BindTexture(gl.TEXTURE_2D, texture.Handle);

            gl.Begin(gl.QUADS);
            gl.TexCoord2f(Left, Top);
            gl.Vertex2f(pos.X, pos.Y);
            gl.TexCoord2f(Right, Top);
            gl.Vertex2f(pos.X + Width, pos.Y);
            gl.TexCoord2f(Right, Bottom);
            gl.Vertex2f(pos.X + Width, pos.Y + Height);
            gl.TexCoord2f(Left, Bottom);
            gl.Vertex2f(pos.X, pos.Y + Height);
            gl.End();
        }
コード例 #5
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        public virtual void Draw(Vector pos)
        {
            if(CurrentAction == null || CurrentAction.Frames.Count == 0)
            return;

            float AnimationTime = (Timer.CurrentTime - ActionTimeOffset) * CurrentAction.Speed;
            if(_NextAction != null && AnimationTime > (float) CurrentAction.Frames.Count) {
            AnimationTime -= CurrentAction.Frames.Count;
            AnimationTime /= CurrentAction.Speed;
            CurrentAction = _NextAction;
            _NextAction = null;
            AnimationTime *= CurrentAction.Speed;
            }
            int AnimationFrame = ((int) AnimationTime) % CurrentAction.Frames.Count;
            Surface Surface = CurrentAction.Frames[AnimationFrame];
            Surface.Draw(pos - CurrentAction.Offset);
        }
 private int[] VectorToIntArray(Vector<double> vector)
 {
     return vector.Select(elem => (int)elem).ToArray();
 }