Exemple #1
0
        void ParseDataEndElement()
        {
            byte[] encoded = null;

            if ((tileDataCompressionType & CCTileDataCompressionType.Base64) != 0)
            {
                storingCharacters = false;

                int             layersCount = Layers != null ? Layers.Count : 0;
                CCTileLayerInfo layer       = layersCount > 0 ? Layers[layersCount - 1] : null;

                if ((tileDataCompressionType & (CCTileDataCompressionType.Gzip | CCTileDataCompressionType.Zlib)) != 0)
                {
                    if ((tileDataCompressionType & CCTileDataCompressionType.Gzip) != 0)
                    {
                        try
                        {
                            encoded = ZipUtils.Inflate(new MemoryStream(currentString), ZipUtils.CompressionFormat.Gzip);
                        }
                        catch (Exception ex)
                        {
                            CCLog.Log("failed to decompress embedded data object in TMX file.");
                            CCLog.Log(ex.ToString());
                        }
                    }

                    if ((tileDataCompressionType & CCTileDataCompressionType.Zlib) != 0)
                    {
                        encoded = ZipUtils.Inflate(new MemoryStream(currentString), ZipUtils.CompressionFormat.Zlib);
                    }
                }
                else
                {
                    encoded = currentString;
                }

                for (int i = 0; i < layer.TileGIDAndFlags.Length; i++)
                {
                    int i4 = i * 4;

                    uint gidAndFlags = (uint)(
                        (uint)encoded[i4] |
                        (uint)encoded[(int)(i4 + 1)] << 8 |
                            (uint)encoded[(int)(i4 + 2)] << 16 |
                            (uint)encoded[(int)(i4 + 3)] << 24);


                    layer.TileGIDAndFlags[i] = CCTileMapFileEncodedTileFlags.DecodeGidAndFlags(gidAndFlags);
                }

                currentString = null;
            }
            else if (tileDataCompressionType == CCTileDataCompressionType.Csv)
            {
                storingCharacters = false;

                int             layersCount = Layers != null ? Layers.Count : 0;
                CCTileLayerInfo layer       = layersCount > 0 ? Layers[layersCount - 1] : null;

                var str = System.Text.Encoding.UTF8.GetString(currentString, 0, currentString.Length).Split(',');

                for (int i = 0; i < layer.TileGIDAndFlags.Length; i++)
                {
                    uint gidAndFlags = uint.Parse(str[i]);
                    layer.TileGIDAndFlags[i] = CCTileMapFileEncodedTileFlags.DecodeGidAndFlags(gidAndFlags);
                }

                currentString = null;
            }


            else if ((tileDataCompressionType & CCTileDataCompressionType.None) != 0)
            {
                currentXmlTileIndex = 0;
            }
        }
Exemple #2
0
        public void StartElement(object ctx, string name, string[] atts)
        {
            CCTMXMapInfo pTMXMapInfo   = this;
            string       elementName   = name;
            var          attributeDict = new Dictionary <string, string>();

            if (atts != null && atts[0] != null)
            {
                for (int i = 0; i + 1 < atts.Length; i += 2)
                {
                    string key   = atts[i];
                    string value = atts[i + 1];
                    attributeDict.Add(key, value);
                }
            }

            if (elementName == "map")
            {
                string version = attributeDict["version"];
                if (version != "1.0")
                {
                    CCLog.Log("CocosSharp: TMXFormat: Unsupported TMX version: {0}", version);
                }
                string orientationStr = attributeDict["orientation"];
                if (orientationStr == "orthogonal")
                {
                    pTMXMapInfo.Orientation = (int)(CCTMXOrientation.Ortho);
                }
                else if (orientationStr == "isometric")
                {
                    pTMXMapInfo.Orientation = (int)(CCTMXOrientation.Iso);
                }
                else if (orientationStr == "hexagonal")
                {
                    pTMXMapInfo.Orientation = (int)(CCTMXOrientation.Hex);
                }
                else
                {
                    CCLog.Log("CocosSharp: TMXFomat: Unsupported orientation: {0}", pTMXMapInfo.Orientation);
                }

                CCSize sMapSize;
                sMapSize.Width      = CCUtils.CCParseFloat(attributeDict["width"]);
                sMapSize.Height     = CCUtils.CCParseFloat(attributeDict["height"]);
                pTMXMapInfo.MapSize = sMapSize;

                CCSize sTileSize;
                sTileSize.Width      = CCUtils.CCParseFloat(attributeDict["tilewidth"]);
                sTileSize.Height     = CCUtils.CCParseFloat(attributeDict["tileheight"]);
                pTMXMapInfo.TileSize = sTileSize;

                // The parent element is now "map"
                pTMXMapInfo.ParentElement = (int)CCTMXProperty.Map;
            }
            else if (elementName == "tileset")
            {
                // If this is an external tileset then start parsing that

                if (attributeDict.ContainsKey("source"))
                {
                    string externalTilesetFilename = attributeDict["source"];

                    externalTilesetFilename = CCFileUtils.FullPathFromRelativeFile(externalTilesetFilename,
                                                                                   pTMXMapInfo.TMXFileName);

                    currentFirstGID = uint.Parse(attributeDict["firstgid"]);

                    pTMXMapInfo.ParseXmlFile(externalTilesetFilename);
                }
                else
                {
                    var tileset = new CCTMXTilesetInfo();

                    tileset.Name = attributeDict["name"];

                    if (currentFirstGID == 0)
                    {
                        tileset.FirstGid = uint.Parse(attributeDict["firstgid"]);
                    }
                    else
                    {
                        tileset.FirstGid = currentFirstGID;
                        currentFirstGID  = 0;
                    }

                    if (attributeDict.ContainsKey("spacing"))
                    {
                        tileset.Spacing = int.Parse(attributeDict["spacing"]);
                    }

                    if (attributeDict.ContainsKey("margin"))
                    {
                        tileset.Margin = int.Parse(attributeDict["margin"]);
                    }

                    CCSize s;
                    s.Width          = CCUtils.CCParseFloat(attributeDict["tilewidth"]);
                    s.Height         = CCUtils.CCParseFloat(attributeDict["tileheight"]);
                    tileset.TileSize = s;

                    pTMXMapInfo.Tilesets.Add(tileset);
                }
            }
            else if (elementName == "tile")
            {
                List <CCTMXTilesetInfo> tilesets = pTMXMapInfo.Tilesets;
                int tilesetCount      = tilesets != null ? tilesets.Count : 0;
                CCTMXTilesetInfo info = tilesetCount > 0 ? tilesets[tilesetCount - 1] : null;
                var dict = new Dictionary <string, string>();
                pTMXMapInfo.ParentGID = (info.FirstGid + uint.Parse(attributeDict["id"]));
                pTMXMapInfo.TileProperties.Add(pTMXMapInfo.ParentGID, dict);

                pTMXMapInfo.ParentElement = (int)CCTMXProperty.Tile;
            }
            else if (elementName == "layer")
            {
                var layer = new CCTMXLayerInfo();
                layer.Name = attributeDict["name"];

                CCSize s;
                s.Width         = CCUtils.CCParseFloat(attributeDict["width"]);
                s.Height        = CCUtils.CCParseFloat(attributeDict["height"]);
                layer.LayerSize = s;

                layer.Tiles = new uint[(int)s.Width * (int)s.Height];

                if (attributeDict.ContainsKey("visible"))
                {
                    string visible = attributeDict["visible"];
                    layer.Visible = !(visible == "0");
                }
                else
                {
                    layer.Visible = true;
                }

                if (attributeDict.ContainsKey("opacity"))
                {
                    string opacity = attributeDict["opacity"];
                    layer.Opacity = (byte)(255 * CCUtils.CCParseFloat(opacity));
                }
                else
                {
                    layer.Opacity = 255;
                }

                float x = attributeDict.ContainsKey("x") ? CCUtils.CCParseFloat(attributeDict["x"]) : 0;
                float y = attributeDict.ContainsKey("y") ? CCUtils.CCParseFloat(attributeDict["y"]) : 0;
                layer.Offset = new CCPoint(x, y);

                pTMXMapInfo.Layers.Add(layer);

                // The parent element is now "layer"
                pTMXMapInfo.ParentElement = (int)CCTMXProperty.Layer;
            }
            else if (elementName == "objectgroup")
            {
                var objectGroup = new CCTMXObjectGroup();
                objectGroup.GroupName = attributeDict["name"];

                CCPoint positionOffset = CCPoint.Zero;
                if (attributeDict.ContainsKey("x"))
                {
                    positionOffset.X = CCUtils.CCParseFloat(attributeDict["x"]) * pTMXMapInfo.TileSize.Width;
                }
                if (attributeDict.ContainsKey("y"))
                {
                    positionOffset.Y = CCUtils.CCParseFloat(attributeDict["y"]) * pTMXMapInfo.TileSize.Height;
                }
                objectGroup.PositionOffset = positionOffset;

                pTMXMapInfo.ObjectGroups.Add(objectGroup);

                // The parent element is now "objectgroup"
                pTMXMapInfo.ParentElement = (int)CCTMXProperty.ObjectGroup;
            }
            else if (elementName == "image")
            {
                List <CCTMXTilesetInfo> tilesets = pTMXMapInfo.Tilesets;
                int tilesetCount         = tilesets != null ? tilesets.Count : 0;
                CCTMXTilesetInfo tileset = tilesetCount > 0 ? tilesets[tilesetCount - 1] : null;

                // build full path
                string imagename = attributeDict["source"];
                tileset.SourceImage = CCFileUtils.FullPathFromRelativeFile(imagename, pTMXMapInfo.TMXFileName);
            }
            else if (elementName == "data")
            {
                string encoding    = attributeDict.ContainsKey("encoding") ? attributeDict["encoding"] : "";
                string compression = attributeDict.ContainsKey("compression") ? attributeDict["compression"] : "";

                if (encoding == "base64")
                {
                    int layerAttribs = pTMXMapInfo.LayerAttribs;
                    pTMXMapInfo.LayerAttribs      = layerAttribs | (int)CCTMXLayerAttrib.Base64;
                    pTMXMapInfo.StoringCharacters = true;

                    if (compression == "gzip")
                    {
                        layerAttribs             = pTMXMapInfo.LayerAttribs;
                        pTMXMapInfo.LayerAttribs = layerAttribs | (int)CCTMXLayerAttrib.Gzip;
                    }
                    else if (compression == "zlib")
                    {
                        layerAttribs             = pTMXMapInfo.LayerAttribs;
                        pTMXMapInfo.LayerAttribs = layerAttribs | (int)CCTMXLayerAttrib.Zlib;
                    }
                    Debug.Assert(compression == "" || compression == "gzip" || compression == "zlib", "TMX: unsupported compression method");
                }
                Debug.Assert(pTMXMapInfo.LayerAttribs != (int)CCTMXLayerAttrib.None,
                             "TMX tile map: Only base64 and/or gzip/zlib maps are supported");
            }
            else if (elementName == "object")
            {
                List <CCTMXObjectGroup> objectGroups = pTMXMapInfo.ObjectGroups;
                int objectGroupCount         = objectGroups != null ? objectGroups.Count : 0;
                CCTMXObjectGroup objectGroup = objectGroupCount > 0 ? objectGroups[objectGroupCount - 1] : null;

                // The value for "type" was blank or not a valid class name
                // Create an instance of TMXObjectInfo to store the object and its properties
                var dict = new Dictionary <string, string>();

                var pArray = new[] { "name", "type", "width", "height", "gid" };

                for (int i = 0; i < pArray.Length; i++)
                {
                    string key = pArray[i];
                    if (attributeDict.ContainsKey(key))
                    {
                        dict.Add(key, attributeDict[key]);
                    }
                }

                // But X and Y since they need special treatment
                // X

                int x = int.Parse(attributeDict["x"]) + (int)objectGroup.PositionOffset.X;
                dict.Add("x", x.ToString());

                int y = int.Parse(attributeDict["y"]) + (int)objectGroup.PositionOffset.Y;
                // Correct y position. (Tiled uses Flipped, cocos2d uses Standard)
                y = (int)(pTMXMapInfo.MapSize.Height * pTMXMapInfo.TileSize.Height) - y -
                    (attributeDict.ContainsKey("height") ? int.Parse(attributeDict["height"]) : 0);
                dict.Add("y", y.ToString());

                // Add the object to the objectGroup
                objectGroup.Objects.Add(dict);

                // The parent element is now "object"
                pTMXMapInfo.ParentElement = (int)CCTMXProperty.Object;
            }
            else if (elementName == "property")
            {
                if (pTMXMapInfo.ParentElement == (int)CCTMXProperty.None)
                {
                    CCLog.Log("TMX tile map: Parent element is unsupported. Cannot add property named '{0}' with value '{1}'",
                              attributeDict["name"], attributeDict["value"]);
                }
                else if (pTMXMapInfo.ParentElement == (int)CCTMXProperty.Map)
                {
                    // The parent element is the map
                    string value = attributeDict["value"];
                    string key   = attributeDict["name"];
                    pTMXMapInfo.Properties.Add(key, value);
                }
                else if (pTMXMapInfo.ParentElement == (int)CCTMXProperty.Layer)
                {
                    // The parent element is the last layer
                    List <CCTMXLayerInfo> layers = pTMXMapInfo.Layers;
                    int            layersCount   = layers != null ? layers.Count : 0;
                    CCTMXLayerInfo layer         = layersCount > 0 ? layers[layersCount - 1] : null;

                    string value = attributeDict["value"];
                    string key   = attributeDict["name"];
                    // Add the property to the layer
                    layer.Properties.Add(key, value);
                }
                else if (pTMXMapInfo.ParentElement == (int)CCTMXProperty.ObjectGroup)
                {
                    // The parent element is the last object group
                    List <CCTMXObjectGroup> objectGroups = pTMXMapInfo.ObjectGroups;
                    int objGroupsCount           = objectGroups != null ? objectGroups.Count : 0;
                    CCTMXObjectGroup objectGroup = objGroupsCount > 0 ? objectGroups[objGroupsCount - 1] : null;
                    string           value       = attributeDict["value"];
                    string           key         = attributeDict["name"];
                    objectGroup.Properties.Add(key, value);
                }
                else if (pTMXMapInfo.ParentElement == (int)CCTMXProperty.Object)
                {
                    // The parent element is the last object
                    List <CCTMXObjectGroup> objectGroups = pTMXMapInfo.ObjectGroups;
                    int objGroupsCount           = objectGroups != null ? objectGroups.Count : 0;
                    CCTMXObjectGroup objectGroup = objGroupsCount > 0 ? objectGroups[objGroupsCount - 1] : null;

                    List <Dictionary <string, string> > objects = objectGroup.Objects;
                    int objCount = objects != null ? objects.Count : 0;
                    Dictionary <string, string> dict = objCount > 0 ? objects[objCount - 1] : null;

                    string propertyName  = attributeDict["name"];
                    string propertyValue = attributeDict["value"];
                    dict.Add(propertyName, propertyValue);
                }
                else if (pTMXMapInfo.ParentElement == (int)CCTMXProperty.Tile)
                {
                    Dictionary <string, string> dict = pTMXMapInfo.TileProperties[pTMXMapInfo.ParentGID];

                    string propertyName  = attributeDict["name"];
                    string propertyValue = attributeDict["value"];
                    dict.Add(propertyName, propertyValue);
                }
            }
            else if (elementName == "polygon")
            {
                // find parent object's dict and add polygon-points to it
                int objGroupsCount           = ObjectGroups != null ? ObjectGroups.Count : 0;
                CCTMXObjectGroup objectGroup = objGroupsCount > 0 ? ObjectGroups[objGroupsCount - 1] : null;

                List <Dictionary <string, string> > objects = objectGroup.Objects;
                int objCount = objects != null ? objects.Count : 0;
                Dictionary <string, string> dict = objCount > 0 ? objects[objCount - 1] : null;

                // get points value string
                var value = attributeDict["points"];
                if (!String.IsNullOrEmpty(value))
                {
                    var pPointsArray = new List <CCPoint>();
                    var pointPairs   = value.Split(' ');

                    foreach (var pontPair in pointPairs)
                    {
                        //TODO: Parse points
                        //CCPoint point;
                        //point.X = x + objectGroup.PositionOffset.X;
                        //point.Y = y + objectGroup.PositionOffset.Y;

                        //pPointsArray.Add(point);
                    }

                    //dict.Add("points", pPointsArray);
                }
            }
            else if (elementName == "polyline")
            {
                // find parent object's dict and add polyline-points to it
                // CCTMXObjectGroup* objectGroup = (CCTMXObjectGroup*)ObjectGroups->lastObject();
                // CCDictionary* dict = (CCDictionary*)objectGroup->getObjects()->lastObject();
                // TODO: dict->setObject:[attributeDict objectForKey:@"points"] forKey:@"polylinePoints"];
            }
        }
Exemple #3
0
        public void EndElement(object ctx, string elementName)
        {
            CCTMXMapInfo pTMXMapInfo = this;

            byte[] encoded = null;

            if (elementName == "data" && (pTMXMapInfo.LayerAttribs & (int)CCTMXLayerAttrib.Base64) != 0)
            {
                pTMXMapInfo.StoringCharacters = false;

                List <CCTMXLayerInfo> layers = pTMXMapInfo.Layers;
                int            layersCount   = layers != null ? layers.Count : 0;
                CCTMXLayerInfo layer         = layersCount > 0 ? layers[layersCount - 1] : null;

                if ((pTMXMapInfo.LayerAttribs & ((int)(CCTMXLayerAttrib.Gzip) | (int)CCTMXLayerAttrib.Zlib)) != 0)
                {
                    //gzip compress
                    if ((pTMXMapInfo.LayerAttribs & (int)CCTMXLayerAttrib.Gzip) != 0)
                    {
                        try
                        {
                            encoded = ZipUtils.Inflate(new MemoryStream(pTMXMapInfo.CurrentString), ZipUtils.CompressionFormat.Gzip);
                        }
                        catch (Exception ex)
                        {
                            CCLog.Log("failed to decompress embedded data object in TMX file.");
                            CCLog.Log(ex.ToString());
                        }
                    }

                    //zlib
                    if ((pTMXMapInfo.LayerAttribs & (int)CCTMXLayerAttrib.Zlib) != 0)
                    {
                        encoded = ZipUtils.Inflate(new MemoryStream(pTMXMapInfo.CurrentString), ZipUtils.CompressionFormat.Zlib);
                    }
                }
                else
                {
                    encoded = pTMXMapInfo.CurrentString;
                }

                for (int i = 0; i < layer.Tiles.Length; i++)
                {
                    int i4  = i * 4;
                    var gid = (uint)(
                        encoded[i4] |
                        encoded[i4 + 1] << 8 |
                            encoded[i4 + 2] << 16 |
                            encoded[i4 + 3] << 24);

                    layer.Tiles[i] = gid;
                }

                pTMXMapInfo.CurrentString = null;
            }
            else if (elementName == "map")
            {
                // The map element has ended
                pTMXMapInfo.ParentElement = (int)CCTMXProperty.None;
            }
            else if (elementName == "layer")
            {
                // The layer element has ended
                pTMXMapInfo.ParentElement = (int)CCTMXProperty.None;
            }
            else if (elementName == "objectgroup")
            {
                // The objectgroup element has ended
                pTMXMapInfo.ParentElement = (int)CCTMXProperty.None;
            }
            else if (elementName == "object")
            {
                // The object element has ended
                pTMXMapInfo.ParentElement = (int)CCTMXProperty.None;
            }
        }
Exemple #4
0
        void InitWithString(string text, CCSize dimensions, CCTextAlignment hAlignment, CCVerticalTextAlignment vAlignment, string fontName, float fontSize)
        {
            try
            {
                Debug.Assert(dimensions.Width >= 0 || dimensions.Height >= 0);

                if (string.IsNullOrEmpty(text))
                {
                    return;
                }

                float loadedSize = fontSize;

                SpriteFont font = CCSpriteFontCache.SharedInstance.TryLoadFont(fontName, fontSize, out loadedSize);

                if (font == null)
                {
                    CCLog.Log("Failed to load default font. No font supported.");
                    return;
                }

                float scale = 1f;

                if (loadedSize != 0)
                {
                    scale = fontSize / loadedSize * CCSpriteFontCache.FontScale;
                }

                if (dimensions.Equals(CCSize.Zero))
                {
                    CCVector2 temp = font.MeasureString(text).ToCCVector2();
                    dimensions.Width  = temp.X * scale;
                    dimensions.Height = temp.Y * scale;
                }

                var textList = new List <String>();
                var nextText = new StringBuilder();

                string[] lineList = text.Split('\n');

                float spaceWidth = font.MeasureString(" ").X *scale;

                for (int j = 0; j < lineList.Length; ++j)
                {
                    string[] wordList = lineList[j].Split(' ');

                    float lineWidth = 0;
                    bool  firstWord = true;

                    for (int i = 0; i < wordList.Length; ++i)
                    {
                        float wordWidth = font.MeasureString(wordList[i]).X *scale;

                        if ((lineWidth + wordWidth) > dimensions.Width)
                        {
                            lineWidth = wordWidth;

                            if (nextText.Length > 0)
                            {
                                firstWord = true;
                                textList.Add(nextText.ToString());
                                nextText.Length = 0;
                            }
                            else
                            {
                                lineWidth += wordWidth;
                                firstWord  = false;
                                textList.Add(wordList[i]);
                                continue;
                            }
                        }
                        else
                        {
                            lineWidth += wordWidth;
                        }
                        if (!firstWord)
                        {
                            nextText.Append(' ');
                            lineWidth += spaceWidth;
                        }

                        nextText.Append(wordList[i]);
                        firstWord = false;
                    }

                    textList.Add(nextText.ToString());

                    nextText.Clear();
                }

                if (dimensions.Height == 0)
                {
                    dimensions.Height = textList.Count * font.LineSpacing * scale;
                }

                //*  for render to texture
                RenderTarget2D renderTarget = CCDrawManager.SharedDrawManager.CreateRenderTarget(
                    (int)dimensions.Width, (int)dimensions.Height,
                    DefaultAlphaPixelFormat, CCRenderTargetUsage.DiscardContents
                    );

                CCDrawManager.SharedDrawManager.CurrentRenderTarget = renderTarget;
                CCDrawManager.SharedDrawManager.Clear(CCColor4B.Transparent);

                SpriteBatch sb = CCDrawManager.SharedDrawManager.SpriteBatch;
                sb.Begin();

                float textHeight = textList.Count * font.LineSpacing * scale;
                float nextY      = 0;

                if (vAlignment == CCVerticalTextAlignment.Bottom)
                {
                    nextY = dimensions.Height - textHeight;
                }
                else if (vAlignment == CCVerticalTextAlignment.Center)
                {
                    nextY = (dimensions.Height - textHeight) / 2.0f;
                }

                for (int j = 0; j < textList.Count; ++j)
                {
                    string line = textList[j];

                    var position = new CCVector2(0, nextY);

                    if (hAlignment == CCTextAlignment.Right)
                    {
                        position.X = dimensions.Width - font.MeasureString(line).X *scale;
                    }
                    else if (hAlignment == CCTextAlignment.Center)
                    {
                        position.X = (dimensions.Width - font.MeasureString(line).X *scale) / 2.0f;
                    }

                    sb.DrawString(font, line, position.ToVector2(), Color.White, 0f, Vector2.Zero, scale, SpriteEffects.None, 0);

                    nextY += font.LineSpacing * scale;
                }

                sb.End();

                CCDrawManager.SharedDrawManager.XnaGraphicsDevice.RasterizerState = RasterizerState.CullNone;
                CCDrawManager.SharedDrawManager.DepthStencilState = DepthStencilState.Default;

                CCDrawManager.SharedDrawManager.CurrentRenderTarget = (RenderTarget2D)null;

                InitWithTexture(renderTarget, (CCSurfaceFormat)renderTarget.Format, true, false);
                cacheInfo.CacheType = CCTextureCacheType.String;
                cacheInfo.Data      = new CCStringCache()
                {
                    Dimensions = dimensions,
                    Text       = text,
                    FontName   = fontName,
                    FontSize   = fontSize,
                    HAlignment = hAlignment,
                    VAlignment = vAlignment
                };
            }
            catch (Exception ex)
            {
                CCLog.Log(ex.ToString());
            }
        }
Exemple #5
0
        // Write out the current state of the director and all of its scenes.
        public void SerializeState()
        {
            // open up isolated storage
            using (IsolatedStorageFile storage = IsolatedStorageFile.GetUserStoreForApplication())
            {
                // if our screen manager directory already exists, delete the contents
                if (storage.DirectoryExists(storageDirName))
                {
                    DeleteState(storage);
                }

                // otherwise just create the directory
                else
                {
                    storage.CreateDirectory(storageDirName);
                }

                // create a file we'll use to store the list of screens in the stack

                CCLog.Log("Saving CCDirector state to file: " + Path.Combine(storageDirName, saveFileName));

                try
                {
                    using (IsolatedStorageFileStream stream = storage.OpenFile(Path.Combine(storageDirName, saveFileName), FileMode.OpenOrCreate))
                    {
                        using (StreamWriter writer = new StreamWriter(stream))
                        {
                            // write out the full name of all the types in our stack so we can
                            // recreate them if needed.
                            foreach (CCScene scene in scenesStack)
                            {
                                if (scene.IsSerializable)
                                {
                                    writer.WriteLine(scene.GetType().AssemblyQualifiedName);
                                }
                                else
                                {
                                    CCLog.Log("Scene is not serializable: " + scene.GetType().FullName);
                                }
                            }
                            // Write out our local state
                            if (RunningScene != null && RunningScene.IsSerializable)
                            {
                                writer.WriteLine("m_pRunningScene");
                                writer.WriteLine(RunningScene.GetType().AssemblyQualifiedName);
                            }
                            // Add my own state
                            // [*]name=value
                            //
                        }
                    }

                    // now we create a new file stream for each screen so it can save its state
                    // if it needs to. we name each file "ScreenX.dat" where X is the index of
                    // the screen in the stack, to ensure the files are uniquely named
                    int    screenIndex = 0;
                    string fileName    = null;
                    foreach (CCScene scene in scenesStack)
                    {
                        if (scene.IsSerializable)
                        {
                            fileName = string.Format(Path.Combine(storageDirName, sceneSaveFileName), screenIndex);

                            // open up the stream and let the screen serialize whatever state it wants
                            using (IsolatedStorageFileStream stream = storage.CreateFile(fileName))
                            {
                                scene.Serialize(stream);
                            }

                            screenIndex++;
                        }
                    }
                    // Write the current running scene
                    if (RunningScene != null && RunningScene.IsSerializable)
                    {
                        fileName = string.Format(Path.Combine(storageDirName, sceneSaveFileName), "XX");
                        // open up the stream and let the screen serialize whatever state it wants
                        using (IsolatedStorageFileStream stream = storage.CreateFile(fileName))
                        {
                            RunningScene.Serialize(stream);
                        }
                    }
                }
                catch (Exception ex)
                {
                    CCLog.Log("Failed to serialize the CCDirector state. Erasing the save files.");
                    CCLog.Log(ex.ToString());
                    DeleteState(storage);
                }
            }
        }
Exemple #6
0
        public CCSprite ExtractTile(int column, int row, bool addToTileMapLayer = true)
        {
            if (!AreValidTileCoordinates(column, row))
            {
                return(null);
            }

            CCTileGidAndFlags gidAndFlags = TileGIDAndFlags(column, row);
            int flattendedIndex           = FlattenedTileIndex(column, row);

            var drawBufferManager = GetDrawBufferManagerByGid(gidAndFlags.Gid);

            if (drawBufferManager == null)
            {
                CCLog.Log("Requestd Tile GID for col/row: {0}/{1} can not be extracted because it does not exist.", column, row);
                return(null);
            }

            CCTileSetInfo tileSetInfo = drawBufferManager.TileSetInfo;
            CCRect        texRect     = tileSetInfo.TextureRectForGID(gidAndFlags.Gid);
            CCSprite      tileSprite  = new CCSprite(tileSetInfo.Texture, texRect);

            tileSprite.ContentSize = texRect.Size * CCTileMapLayer.DefaultTexelToContentSizeRatios;
            tileSprite.Position    = TilePosition(column, row);
            tileSprite.VertexZ     = TileVertexZ(column, row);
            tileSprite.AnchorPoint = CCPoint.Zero;
            tileSprite.Opacity     = Opacity;
            tileSprite.FlipX       = false;
            tileSprite.FlipY       = false;
            tileSprite.Rotation    = 0.0f;

            if ((gidAndFlags.Flags & CCTileFlags.TileDiagonal) != 0)
            {
                CCSize halfContentSize = tileSprite.ContentSize * 0.5f;

                tileSprite.AnchorPoint = CCPoint.AnchorMiddle;
                tileSprite.Position   += new CCPoint(halfContentSize.Width, halfContentSize.Height);

                CCTileFlags horAndVertFlag = gidAndFlags.Flags & (CCTileFlags.Horizontal | CCTileFlags.Vertical);

                // Handle the 4 diagonally flipped states.
                if (horAndVertFlag == CCTileFlags.Horizontal)
                {
                    tileSprite.Rotation = 90.0f;
                }
                else if (horAndVertFlag == CCTileFlags.Vertical)
                {
                    tileSprite.Rotation = 270.0f;
                }
                else if (horAndVertFlag == (CCTileFlags.Vertical | CCTileFlags.Horizontal))
                {
                    tileSprite.Rotation = 90.0f;
                    tileSprite.FlipX    = true;
                }
                else
                {
                    tileSprite.Rotation = 270.0f;
                    tileSprite.FlipX    = true;
                }
            }
            else
            {
                if ((gidAndFlags.Flags & CCTileFlags.Horizontal) != 0)
                {
                    tileSprite.FlipX = true;
                }

                if ((gidAndFlags.Flags & CCTileFlags.Vertical) != 0)
                {
                    tileSprite.FlipY = true;
                }
            }

            if (addToTileMapLayer)
            {
                AddChild(tileSprite, flattendedIndex, flattendedIndex);
            }

            RemoveTile(column, row);

            return(tileSprite);
        }
Exemple #7
0
        protected void InitSpriteFont(string theString, string fntFile, float fontSize, CCSize dimensions, CCLabelFormat labelFormat,
                                      CCPoint imageOffset, CCTexture2D texture)
        {
            Debug.Assert((theString == null && fntFile == null) || (theString != null && fntFile != null),
                         "Invalid params for CCLabel SpriteFont");

            if (!String.IsNullOrEmpty(fntFile))
            {
                try
                {
                    FontAtlas = CCFontAtlasCache.GetFontAtlasSpriteFont(fntFile, fontSize, imageOffset);
                    Scale     = FontAtlas.Font.FontScale;
                }
                catch {}

                if (FontAtlas == null)
                {
                    CCLog.Log("SpriteFont CCLabel: Impossible to create font. Please check file: '{0}'", fntFile);
                    return;
                }
            }

            AnchorPoint = CCPoint.AnchorMiddle;

            LabelType = CCLabelType.SpriteFont;

            if (String.IsNullOrEmpty(theString))
            {
                theString = String.Empty;
            }

            // Initialize the TextureAtlas along with children.
            var capacity = theString.Length;

            BlendFunc = CCBlendFunc.AlphaBlend;

            if (capacity == 0)
            {
                capacity = defaultSpriteBatchCapacity;
            }

            UpdateBlendFunc();

            // no lazy alloc in this node
            Children    = new CCRawList <CCNode>(capacity);
            Descendants = new CCRawList <CCSprite>(capacity);

            this.labelDimensions = dimensions;

            horzAlignment = labelFormat.Alignment;
            vertAlignment = labelFormat.LineAlignment;

            IsOpacityCascaded = true;

            ContentSize = CCSize.Zero;

            IsColorModifiedByOpacity = TextureAtlas.Texture.HasPremultipliedAlpha;
            AnchorPoint = CCPoint.AnchorMiddle;

            ImageOffset = imageOffset;

            Text = theString;
        }
Exemple #8
0
        internal void AddSpriteFrames(PlistDictionary pobDictionary, CCTexture2D pobTexture)
        {
            /*
             * Supported Zwoptex Formats:
             *
             * ZWTCoordinatesFormatOptionXMLLegacy = 0, // Flash Version
             * ZWTCoordinatesFormatOptionXML1_0 = 1, // Desktop Version 0.0 - 0.4b
             * ZWTCoordinatesFormatOptionXML1_1 = 2, // Desktop Version 1.0.0 - 1.0.1
             * ZWTCoordinatesFormatOptionXML1_2 = 3, // Desktop Version 1.0.2+
             */

            PlistDictionary metadataDict = null;

            if (pobDictionary.ContainsKey("metadata"))
            {
                metadataDict = pobDictionary["metadata"].AsDictionary;
            }

            PlistDictionary framesDict = null;

            if (pobDictionary.ContainsKey("frames"))
            {
                framesDict = pobDictionary["frames"].AsDictionary;
            }

            int format = 0;

            // get the format
            if (metadataDict != null)
            {
                format = metadataDict["format"].AsInt;
            }

            // check the format
            if (format < 0 || format > 3)
            {
                throw (new NotSupportedException("PList format " + format + " is not supported."));
            }

            foreach (var pair in framesDict)
            {
                PlistDictionary frameDict   = pair.Value.AsDictionary;
                CCSpriteFrame   spriteFrame = null;

                if (format == 0)
                {
                    float x = 0f, y = 0f, w = 0f, h = 0f;
                    x = frameDict["x"].AsFloat;
                    y = frameDict["y"].AsFloat;
                    w = frameDict["width"].AsFloat;
                    h = frameDict["height"].AsFloat;
                    float ox = 0f, oy = 0f;
                    ox = frameDict["offsetX"].AsFloat;
                    oy = frameDict["offsetY"].AsFloat;
                    int ow = 0, oh = 0;
                    ow = frameDict["originalWidth"].AsInt;
                    oh = frameDict["originalHeight"].AsInt;
                    // check ow/oh
                    if (ow == 0 || oh == 0)
                    {
                        CCLog.Log(
                            "cocos2d: WARNING: originalWidth/Height not found on the CCSpriteFrame. AnchorPoint won't work as expected. Regenerate the .plist or check the 'format' metatag");
                    }
                    // abs ow/oh
                    ow = Math.Abs(ow);
                    oh = Math.Abs(oh);
                    // create frame
                    spriteFrame = new CCSpriteFrame(
                        new CCSize(ow, oh),
                        pobTexture,
                        new CCRect(x, y, w, h),
                        new CCSize(ow, oh),
                        false,
                        new CCPoint(ox, oy)
                        );
                }
                else if (format == 1 || format == 2)
                {
                    CCRect frame   = CCRect.Parse(frameDict["frame"].AsString);
                    bool   rotated = false;

                    // rotation
                    if (format == 2)
                    {
                        if (frameDict.ContainsKey("rotated"))
                        {
                            rotated = frameDict["rotated"].AsBool;
                        }
                    }

                    CCPoint offset     = CCPoint.Parse(frameDict["offset"].AsString);
                    CCSize  sourceSize = CCSize.Parse(frameDict["sourceSize"].AsString);

                    // create frame
                    spriteFrame = new CCSpriteFrame(
                        sourceSize,
                        pobTexture,
                        frame,
                        sourceSize,
                        rotated,
                        offset
                        );
                }
                else if (format == 3)
                {
                    // get values
                    CCSize  spriteSize       = CCSize.Parse(frameDict["spriteSize"].AsString);
                    CCPoint spriteOffset     = CCPoint.Parse(frameDict["spriteOffset"].AsString);
                    CCSize  spriteSourceSize = CCSize.Parse(frameDict["spriteSourceSize"].AsString);
                    CCRect  textureRect      = CCRect.Parse(frameDict["textureRect"].AsString);
                    bool    textureRotated   = false;
                    if (frameDict.ContainsKey("textureRotated"))
                    {
                        textureRotated = frameDict["textureRotated"].AsBool;
                    }

                    // get aliases
                    PlistArray aliases  = frameDict["aliases"].AsArray;
                    string     frameKey = pair.Key;

                    foreach (PlistObjectBase item2 in aliases)
                    {
                        string oneAlias = item2.AsString;
                        if (spriteFramesAliases.ContainsKey(oneAlias))
                        {
                            if (spriteFramesAliases[oneAlias] != null)
                            {
                                CCLog.Log("CocosSharp: WARNING: an alias with name {0} already exists", oneAlias);
                            }
                        }
                        if (!spriteFramesAliases.ContainsKey(oneAlias))
                        {
                            spriteFramesAliases.Add(oneAlias, frameKey);
                        }
                    }

                    // create frame
                    spriteFrame = new CCSpriteFrame(
                        spriteSourceSize,
                        pobTexture,
                        new CCRect(textureRect.Origin.X, textureRect.Origin.Y, spriteSize.Width, spriteSize.Height),
                        spriteSourceSize,
                        textureRotated,
                        spriteOffset
                        );
                }

                // add sprite frame
                string key = pair.Key;
                if (!AllowFrameOverwrite && spriteFrames.ContainsKey(key))
                {
                    CCLog.Log("Frame named " + key + " already exists in the animation cache. Not overwriting existing record.");
                }
                else if (AllowFrameOverwrite || !spriteFrames.ContainsKey(key))
                {
                    spriteFrames[key] = spriteFrame;
                }
            }
        }
        void OnConfigLoad(CCParticleSystemConfig config, Action <CCParticleSystemConfig> action)
        {
            // Right now Mac can not load images with data defined asyncly so we want to short circuit this and
            // just load the data from disk.  If not then we will perform an async load on the image
#if MACOS
            config.LoadParticleTexture();
            if (action != null)
            {
                action(config);
            }
#else
            string textureData = config.TextureData;

            // We will try loading the texture data first if it exists.  Hopefully we get lucky
            if (!string.IsNullOrEmpty(textureData))
            {
                //Debug.Assert(!string.IsNullOrEmpty(textureData),
                //    string.Format("CCParticleSystem: textureData does not exist : {0}", textureName));

                int dataLen = textureData.Length;
                if (dataLen != 0)
                {
                    var dataBytes = Convert.FromBase64String(textureData);
                    Debug.Assert(dataBytes != null,
                                 string.Format("CCParticleSystem: error decoding textureImageData : {0}", config.TextureName));

                    var imageBytes = ZipUtils.Inflate(dataBytes);
                    Debug.Assert(imageBytes != null,
                                 string.Format("CCParticleSystem: error init image with Data for texture : {0}", config.TextureName));

                    try
                    {
                        CCTextureCache.SharedTextureCache.AddImageAsync(imageBytes, config.TextureName, CCSurfaceFormat.Color, (loadedTexture) =>
                        {
                            if (loadedTexture != null)
                            {
                                config.Texture = loadedTexture;
                                if (action != null)
                                {
                                    action(config);
                                }
                            }
                            else
                            {
                                if (!string.IsNullOrEmpty(config.TextureName))
                                {
                                    bool bNotify = CCFileUtils.IsPopupNotify;
                                    CCFileUtils.IsPopupNotify = false;
                                    try
                                    {
                                        CCTextureCache.SharedTextureCache.AddImageAsync(config.TextureName, (tex2) =>
                                        {
                                            config.Texture = tex2;

                                            if (config.Texture == null)
                                            {
                                                config.Texture = CCParticleExample.DefaultTexture;
                                            }

                                            if (action != null)
                                            {
                                                action(config);
                                            }
                                        });
                                    }
                                    catch (Exception)
                                    {
                                        config.Texture = CCParticleExample.DefaultTexture;
                                    }

                                    CCFileUtils.IsPopupNotify = bNotify;
                                    if (config.Texture == null)
                                    {
                                        config.Texture = CCParticleExample.DefaultTexture;
                                    }
                                }
                            }
                        }
                                                                        );
                    }
                    catch (Exception ex)
                    {
                        CCLog.Log(ex.ToString());
                        config.Texture = CCParticleExample.DefaultTexture;
                    }
                }
            }
            else
            {
                if (!string.IsNullOrEmpty(config.TextureName))
                {
                    bool bNotify = CCFileUtils.IsPopupNotify;
                    CCFileUtils.IsPopupNotify = false;
                    try
                    {
                        CCTextureCache.SharedTextureCache.AddImageAsync(config.TextureName, (tex2) =>
                        {
                            config.Texture = tex2;

                            if (config.Texture == null)
                            {
                                config.Texture = CCParticleExample.DefaultTexture;
                            }

                            if (action != null)
                            {
                                action(config);
                            }
                        });
                    }
                    catch (Exception)
                    {
                        config.Texture = CCParticleExample.DefaultTexture;
                    }

                    CCFileUtils.IsPopupNotify = bNotify;
                }
            }
#endif
        }
Exemple #10
0
        //private string CreateFont(string fontName, float fontSize, CCRawList<char> charset)
        private Font CreateFont(string fontName, float fontSize)
        {
            Font _currentFont;

            if (Factory2D == null)
            {
                Factory2D      = new SharpDX.Direct2D1.Factory();
                FactoryDWrite  = new SharpDX.DirectWrite.Factory();
                FactoryImaging = new SharpDX.WIC.ImagingFactory();

                dpi      = Factory2D.DesktopDpi;
                dpiScale = dpi.Height / 72f;
            }

            _currentFontCollection = FactoryDWrite.GetSystemFontCollection(true);

            if (_defaultFont == null)
            {
                _defaultFont = GenericSanSerif();
            }

            FontFamily fontFamily = GetFontFamily(fontName);


            FontCollection fontCollection;

            if (!_fontCollectionCache.TryGetValue(fontName, out fontCollection))
            {
                var ext = Path.GetExtension(fontName);

                if (!String.IsNullOrEmpty(ext) && ext.ToLower() == ".ttf")
                {
                    try
                    {
                        var fileFontLoader     = new FileFontLoader(FactoryDWrite, fontName);
                        var fileFontCollection = new FontCollection(FactoryDWrite, fileFontLoader, fileFontLoader.Key);
                        _currentFontCollection = fileFontCollection;
                        fontFamily             = _currentFontCollection.GetFontFamily(0);
                        var ffn = fontFamily.FamilyNames;
                        _currentFont = fontFamily.GetFirstMatchingFont(FontWeight.Regular, FontStretch.Normal, FontStyle.Normal);

                        _fontCollectionCache.Add(fontName, fileFontCollection);
                        _currentFontCollection = fileFontCollection;
                    }
                    catch
                    {
                        _currentFont = GetFont(fontName, fontSize);
                        CCLog.Log("{0} not found.  Defaulting to {1}.", fontName, _currentFont.FontFamily.FamilyNames.GetString(0));
                    }
                }
                else
                {
                    _currentFont = GetFont(fontName, fontSize);
                }
            }
            else
            {
                fontFamily = fontCollection.GetFontFamily(0);

                _currentFont           = fontFamily.GetFirstMatchingFont(FontWeight.Regular, FontStretch.Normal, FontStyle.Normal);
                _currentFontCollection = fontCollection;
            }

            return(_currentFont);
        }
Exemple #11
0
        internal CCTexture2D CreateTextSprite(string text, CCFontDefinition textDefinition)
        {
            if (string.IsNullOrEmpty(text))
            {
                return(new CCTexture2D());
            }

            int imageWidth;
            int imageHeight;
            var textDef = textDefinition;
            var contentScaleFactorWidth  = CCLabel.DefaultTexelToContentSizeRatios.Width;
            var contentScaleFactorHeight = CCLabel.DefaultTexelToContentSizeRatios.Height;

            textDef.FontSize          *= contentScaleFactorWidth;
            textDef.Dimensions.Width  *= contentScaleFactorWidth;
            textDef.Dimensions.Height *= contentScaleFactorHeight;

            bool hasPremultipliedAlpha;

            var font = CreateFont(textDef.FontName, textDef.FontSize);

            var _currentFontSizeEm = textDef.FontSize;
            var _currentDIP        = ConvertPointSizeToDIP(_currentFontSizeEm);

            // color
            var foregroundColor = Color4.White;

            // alignment
            var horizontalAlignment = textDef.Alignment;
            var verticleAlignement  = textDef.LineAlignment;

            var textAlign = (CCTextAlignment.Right == horizontalAlignment) ? TextAlignment.Trailing
                : (CCTextAlignment.Center == horizontalAlignment) ? TextAlignment.Center
                : TextAlignment.Leading;

            var paragraphAlign = (CCVerticalTextAlignment.Bottom == vertAlignment) ? ParagraphAlignment.Far
                : (CCVerticalTextAlignment.Center == vertAlignment) ? ParagraphAlignment.Center
                : ParagraphAlignment.Near;

            // LineBreak
            var lineBreak = (CCLabelLineBreak.Character == textDef.LineBreak) ? WordWrapping.Wrap
                : (CCLabelLineBreak.Word == textDef.LineBreak) ? WordWrapping.Wrap
                : WordWrapping.NoWrap;

            // LineBreak
            // TODO: Find a way to specify the type of line breaking if possible.

            var dimensions = new CCSize(textDef.Dimensions.Width, textDef.Dimensions.Height);

            var layoutAvailable = true;

            if (dimensions.Width <= 0)
            {
                dimensions.Width = 8388608;
                layoutAvailable  = false;
            }

            if (dimensions.Height <= 0)
            {
                dimensions.Height = 8388608;
                layoutAvailable   = false;
            }

            var fontName   = font.FontFamily.FamilyNames.GetString(0);
            var textFormat = new TextFormat(FactoryDWrite, fontName,
                                            _currentFontCollection, FontWeight.Regular, FontStyle.Normal, FontStretch.Normal, _currentDIP);

            textFormat.TextAlignment      = textAlign;
            textFormat.ParagraphAlignment = paragraphAlign;

            var textLayout = new TextLayout(FactoryDWrite, text, textFormat, dimensions.Width, dimensions.Height);

            var boundingRect = new RectangleF();

            // Loop through all the lines so we can find our drawing offsets
            var textMetrics = textLayout.Metrics;
            var lineCount   = textMetrics.LineCount;

            // early out if something went wrong somewhere and nothing is to be drawn
            if (lineCount == 0)
            {
                return(new CCTexture2D());
            }

            // Fill out the bounding rect width and height so we can calculate the yOffset later if needed
            boundingRect.X      = 0;
            boundingRect.Y      = 0;
            boundingRect.Width  = textMetrics.Width;
            boundingRect.Height = textMetrics.Height;

            if (!layoutAvailable)
            {
                if (dimensions.Width == 8388608)
                {
                    dimensions.Width = boundingRect.Width;
                }
                if (dimensions.Height == 8388608)
                {
                    dimensions.Height = boundingRect.Height;
                }
            }

            imageWidth  = (int)dimensions.Width;
            imageHeight = (int)dimensions.Height;

            // Recreate our layout based on calculated dimensions so that we can draw the text correctly
            // in our image when Alignment is not Left.
            if (textAlign != TextAlignment.Leading)
            {
                textLayout.MaxWidth  = dimensions.Width;
                textLayout.MaxHeight = dimensions.Height;
            }

            // Line alignment
            var yOffset = (CCVerticalTextAlignment.Bottom == verticleAlignement ||
                           boundingRect.Bottom >= dimensions.Height) ? dimensions.Height - boundingRect.Bottom // align to bottom
                : (CCVerticalTextAlignment.Top == verticleAlignement) ? 0                                      // align to top
                : (imageHeight - boundingRect.Bottom) * 0.5f;                                                  // align to center


            SharpDX.WIC.Bitmap sharpBitmap       = null;
            WicRenderTarget    sharpRenderTarget = null;
            SolidColorBrush    solidBrush        = null;

            try
            {
                // Select our pixel format
                var pixelFormat = SharpDX.WIC.PixelFormat.Format32bppPRGBA;

                // create our backing bitmap
                sharpBitmap = new SharpDX.WIC.Bitmap(FactoryImaging, imageWidth, imageHeight, pixelFormat, BitmapCreateCacheOption.CacheOnLoad);

                // Create the render target that we will draw to
                sharpRenderTarget = new WicRenderTarget(Factory2D, sharpBitmap, new RenderTargetProperties());
                // Create our brush to actually draw with
                solidBrush = new SolidColorBrush(sharpRenderTarget, foregroundColor);

                // Begin the drawing
                sharpRenderTarget.BeginDraw();

                if (textDefinition.isShouldAntialias)
                {
                    sharpRenderTarget.AntialiasMode = AntialiasMode.Aliased;
                }

                // Clear it
                sharpRenderTarget.Clear(TransparentColor);

                // Draw the text to the bitmap
                sharpRenderTarget.DrawTextLayout(new Vector2(boundingRect.X, yOffset), textLayout, solidBrush);

                // End our drawing which will commit the rendertarget to the bitmap
                sharpRenderTarget.EndDraw();

                // Debugging purposes
                //var s = "Label4";
                //SaveToFile(@"C:\Xamarin\" + s + ".png", _bitmap, _renderTarget);

                // The following code creates a .png stream in memory of our Bitmap and uses it to create our Textue2D
                Texture2D tex = null;

                using (var memStream = new MemoryStream())
                {
                    using (var encoder = new PngBitmapEncoder(FactoryImaging, memStream))
                        using (var frameEncoder = new BitmapFrameEncode(encoder))
                        {
                            frameEncoder.Initialize();
                            frameEncoder.WriteSource(sharpBitmap);
                            frameEncoder.Commit();
                            encoder.Commit();
                        }
                    // Create the Texture2D from the png stream
                    tex = Texture2D.FromStream(CCDrawManager.SharedDrawManager.XnaGraphicsDevice, memStream);
                }

                // Return our new CCTexture2D created from the Texture2D which will have our text drawn on it.
                return(new CCTexture2D(tex));
            }
            catch (Exception exc)
            {
                CCLog.Log("CCLabel-Windows: Unable to create the backing image of our text.  Message: {0}", exc.StackTrace);
            }
            finally
            {
                if (sharpBitmap != null)
                {
                    sharpBitmap.Dispose();
                    sharpBitmap = null;
                }

                if (sharpRenderTarget != null)
                {
                    sharpRenderTarget.Dispose();
                    sharpRenderTarget = null;
                }

                if (solidBrush != null)
                {
                    solidBrush.Dispose();
                    solidBrush = null;
                }

                if (textFormat != null)
                {
                    textFormat.Dispose();
                    textFormat = null;
                }

                if (textLayout != null)
                {
                    textLayout.Dispose();
                    textLayout = null;
                }
            }

            // If we have reached here then something has gone wrong.
            return(new CCTexture2D());
        }
Exemple #12
0
        internal CCTexture2D CreateTextSprite(string text, CCFontDefinition textDefinition)
        {
            if (string.IsNullOrEmpty(text))
            {
                return(new CCTexture2D());
            }

            int imageWidth;
            int imageHeight;
            var textDef = textDefinition;
            var contentScaleFactorWidth  = CCLabel.DefaultTexelToContentSizeRatios.Width;
            var contentScaleFactorHeight = CCLabel.DefaultTexelToContentSizeRatios.Height;

            textDef.FontSize          *= (int)contentScaleFactorWidth;
            textDef.Dimensions.Width  *= contentScaleFactorWidth;
            textDef.Dimensions.Height *= contentScaleFactorHeight;

            bool hasPremultipliedAlpha;

            var display = Game.Activity.WindowManager.DefaultDisplay;
            var metrics = new DisplayMetrics();

            display.GetMetrics(metrics);

            // Do not take into account ScaleDensity for now.
//            var fontScaleFactor = metrics.ScaledDensity;
//            textDef.FontSize = (int)(textDef.FontSize * fontScaleFactor);


            // out paint object to hold our drawn text
//            var paintFlags = new PaintFlags();
//            if (textDefinition.isShouldAntialias)
//                paintFlags = PaintFlags.AntiAlias | PaintFlags.SubpixelText;

            var textPaint = new TextPaint();

            textPaint.Color     = Android.Graphics.Color.White;
            textPaint.TextAlign = Paint.Align.Left;
            textPaint.AntiAlias = textDefinition.isShouldAntialias;

            textPaint.TextSize = textDef.FontSize;

            var fontName = textDef.FontName;
            var ext      = System.IO.Path.GetExtension(fontName);

            if (!String.IsNullOrEmpty(ext) && ext.ToLower() == ".ttf")
            {
                CCContentManager.SharedContentManager.GetAssetStreamAsBytes(fontName, out fontName);

                var activity = Game.Activity;

                try
                {
                    var typeface = Typeface.CreateFromAsset(activity.Assets, fontName);
                    textPaint.SetTypeface(typeface);
                }
                catch (Exception)
                {
                    textPaint.SetTypeface(Typeface.Create(fontName, TypefaceStyle.Normal));
                }
            }
            else
            {
                textPaint.SetTypeface(Typeface.Create(fontName, TypefaceStyle.Normal));
            }

            // color
            var fontColor       = textDef.FontFillColor;
            var fontAlpha       = textDef.FontAlpha;
            var foregroundColor = new Android.Graphics.Color(fontColor.R,
                                                             fontColor.G,
                                                             fontColor.B,
                                                             fontAlpha);

            textPaint.Color = foregroundColor;

            // alignment
            var horizontalAlignment = textDef.Alignment;
            var verticleAlignement  = textDef.LineAlignment;

            var textAlign = (CCTextAlignment.Right == horizontalAlignment) ? Layout.Alignment.AlignOpposite
                : (CCTextAlignment.Center == horizontalAlignment) ? Layout.Alignment.AlignCenter
                : Layout.Alignment.AlignNormal;

            // LineBreak
            // TODO: Find a way to specify the type of line breaking if possible.

            var dimensions = new CCSize(textDef.Dimensions.Width, textDef.Dimensions.Height);

            var layoutAvailable = true;

            if (dimensions.Width <= 0)
            {
                dimensions.Width = 8388608;
                layoutAvailable  = false;
            }

            if (dimensions.Height <= 0)
            {
                dimensions.Height = 8388608;
                layoutAvailable   = false;
            }


            // Get bounding rectangle - we need its attribute and method values
            var layout = new StaticLayout(text, textPaint,
                                          (int)dimensions.Width, textAlign, 1.0f, 0.0f, false);

            var boundingRect = new Rect();
            var lineBounds   = new Rect();

            // Loop through all the lines so we can find our drawing offsets
            var lineCount = layout.LineCount;

            // early out if something went wrong somewhere and nothing is to be drawn
            if (lineCount == 0)
            {
                return(new CCTexture2D());
            }

            for (int lc = 0; lc < lineCount; lc++)
            {
                layout.GetLineBounds(lc, lineBounds);
                var max = layout.GetLineMax(lc);

                if (boundingRect.Right < max)
                {
                    boundingRect.Right = (int)max;
                }

                boundingRect.Bottom = lineBounds.Bottom;
            }

            if (!layoutAvailable)
            {
                if (dimensions.Width == 8388608)
                {
                    dimensions.Width = boundingRect.Right;
                }
                if (dimensions.Height == 8388608)
                {
                    dimensions.Height = boundingRect.Bottom;
                }
            }

            imageWidth  = (int)dimensions.Width;
            imageHeight = (int)dimensions.Height;

            // Recreate our layout based on calculated dimensions so that we can draw the text correctly
            // in our image when Alignment is not Left.
            if (textAlign != Layout.Alignment.AlignNormal)
            {
                layout = new StaticLayout(text, textPaint,
                                          (int)dimensions.Width, textAlign, 1.0f, 0.0f, false);
            }


            // Line alignment
            var yOffset = (CCVerticalTextAlignment.Bottom == verticleAlignement ||
                           boundingRect.Bottom >= dimensions.Height) ? dimensions.Height - boundingRect.Bottom // align to bottom
                : (CCVerticalTextAlignment.Top == verticleAlignement) ? 0                                      // align to top
                : (imageHeight - boundingRect.Bottom) * 0.5f;                                                  // align to center

            try {
                // Create our platform dependant image to be drawn to.
                using (Bitmap textureBitmap = Bitmap.CreateBitmap(imageWidth, imageHeight, Bitmap.Config.Argb8888))
                {
                    using (Canvas drawingCanvas = new Canvas(textureBitmap))
                    {
                        drawingCanvas.DrawARGB(0, 255, 255, 255);

                        // Set our vertical alignment
                        drawingCanvas.Translate(0, yOffset);

                        // Now draw the text using our layout
                        layout.Draw(drawingCanvas);

                        // We will use Texture2D from stream here instead of CCTexture2D stream.
                        var tex = Texture2D.FromStream(CCDrawManager.SharedDrawManager.XnaGraphicsDevice, textureBitmap);

                        // Create our texture of the label string.
                        // Note the use of the third parameter as premultiplied = false
                        // be careful changing that parameter as it will cause problems with blending
                        // later on.
                        var texture = new CCTexture2D(tex, CCSurfaceFormat.Color, false);

                        return(texture);
                    }
                }
            }
            catch (Exception exc)
            {
                CCLog.Log("CCLabel Android: Error creating native label:{0}\n{1}", exc.Message, exc.StackTrace);
                return(new CCTexture2D());
            }
        }
        static internal CTFont CreateFont(string familyName, float emSize, FontStyle style,
                                          byte gdiCharSet, bool gdiVerticalFont)
        {
            if (emSize <= 0)
            {
                throw new ArgumentException("emSize is less than or equal to 0, evaluates to infinity, or is not a valid number.", "emSize");
            }

            CTFont nativeFont;
            // convert to 96 Dpi to be consistent with Windows
            var dpiSize = emSize;            // * dpiScale;

            var ext = System.IO.Path.GetExtension(familyName);

            if (!String.IsNullOrEmpty(ext) && ext.ToLower() == ".ttf")
            {
                var fontName        = familyName.Substring(0, familyName.Length - ext.Length);
                var path            = CCContentManager.SharedContentManager.RootDirectory + Path.DirectorySeparatorChar + fontName;
                var pathForResource = NSBundle.MainBundle.PathForResource(path, ext.Substring(1));

                try {
                    var dataProvider = new CGDataProvider(pathForResource);
                    var cgFont       = CGFont.CreateFromProvider(dataProvider);

                    try {
                        nativeFont = new CTFont(cgFont, dpiSize, null);
                    }
                    catch
                    {
                        nativeFont = new CTFont("Helvetica", dpiSize);
                    }
                }
                catch (Exception)
                {
                    try {
                        nativeFont = new CTFont(Path.GetFileNameWithoutExtension(familyName), dpiSize);
                    }
                    catch
                    {
                        nativeFont = new CTFont("Helvetica", dpiSize);
                    }
                    CCLog.Log(string.Format("Could not load font: {0} so will use default {1}.", familyName, nativeFont.DisplayName));
                }
            }
            else
            {
                try {
                    nativeFont = new CTFont(familyName, dpiSize);
                }
                catch
                {
                    nativeFont = new CTFont("Helvetica", dpiSize);
                }
            }


            CTFontSymbolicTraits tMask = CTFontSymbolicTraits.None;

            if ((style & FontStyle.Bold) == FontStyle.Bold)
            {
                tMask |= CTFontSymbolicTraits.Bold;
            }
            if ((style & FontStyle.Italic) == FontStyle.Italic)
            {
                tMask |= CTFontSymbolicTraits.Italic;
            }
            strikeThrough = (style & FontStyle.Strikeout) == FontStyle.Strikeout;
            underLine     = (style & FontStyle.Underline) == FontStyle.Underline;

            var nativeFont2 = nativeFont.WithSymbolicTraits(dpiSize, tMask, tMask);

            if (nativeFont2 != null)
            {
                nativeFont = nativeFont2;
            }

            return(nativeFont);
        }
Exemple #14
0
        public bool DeserializeState()
        {
            try
            {
                // open up isolated storage
                using (IsolatedStorageFile storage = IsolatedStorageFile.GetUserStoreForApplication())
                {
                    // see if our saved state directory exists
                    if (storage.DirectoryExists(storageDirName))
                    {
                        string saveFile = System.IO.Path.Combine(storageDirName, saveFileName);
                        try
                        {
                            CCLog.Log("Loading director data file: {0}", saveFile);
                            // see if we have a screen list
                            if (storage.FileExists(saveFile))
                            {
                                // load the list of screen types
                                using (IsolatedStorageFileStream stream = storage.OpenFile(saveFile, FileMode.Open, FileAccess.Read))
                                {
                                    using (StreamReader reader = new StreamReader(stream))
                                    {
                                        CCLog.Log("Director save file contains {0} bytes.", reader.BaseStream.Length);
                                        try
                                        {
                                            while (true)
                                            {
                                                // read a line from our file
                                                string line = reader.ReadLine();
                                                if (line == null)
                                                {
                                                    break;
                                                }
                                                CCLog.Log("Restoring: {0}", line);

                                                // if it isn't blank, we can create a screen from it
                                                if (!string.IsNullOrEmpty(line))
                                                {
                                                    if (line.StartsWith("[*]"))
                                                    {
                                                        // Reading my state
                                                        string s   = line.Substring(3);
                                                        int    idx = s.IndexOf('=');
                                                        if (idx > -1)
                                                        {
                                                            string name = s.Substring(0, idx);
                                                            string v    = s.Substring(idx + 1);
                                                            CCLog.Log("Restoring: {0} = {1}", name, v);
                                                            DeserializeMyState(name, v);
                                                        }
                                                    }
                                                    else
                                                    {
                                                        Type    screenType = Type.GetType(line);
                                                        CCScene scene      = Activator.CreateInstance(screenType) as CCScene;
                                                        PushScene(scene);
                                                        //                                                    m_pobScenesStack.Add(scene);
                                                    }
                                                }
                                            }
                                        }
                                        catch (Exception)
                                        {
                                            // EndOfStreamException
                                            // this is OK here.
                                        }
                                    }
                                }
                                // Now we deserialize our own state.
                            }
                            else
                            {
                                CCLog.Log("save file does not exist.");
                            }

                            // next we give each screen a chance to deserialize from the disk
                            for (int i = 0; i < scenesStack.Count; i++)
                            {
                                string filename = System.IO.Path.Combine(storageDirName, string.Format(sceneSaveFileName, i));
                                if (storage.FileExists(filename))
                                {
                                    using (IsolatedStorageFileStream stream = storage.OpenFile(filename, FileMode.Open, FileAccess.Read))
                                    {
                                        CCLog.Log("Restoring state for scene {0}", filename);
                                        scenesStack[i].Deserialize(stream);
                                    }
                                }
                            }
                            if (scenesStack.Count > 0)
                            {
                                CCLog.Log("Director is running with scene..");

                                RunWithScene(scenesStack[scenesStack.Count - 1]); // always at the top of the stack
                            }
                            return(scenesStack.Count > 0 && RunningScene != null);
                        }
                        catch (Exception ex)
                        {
                            // if an exception was thrown while reading, odds are we cannot recover
                            // from the saved state, so we will delete it so the game can correctly
                            // launch.
                            DeleteState(storage);
                            CCLog.Log("Failed to deserialize the director state, removing old storage file.");
                            CCLog.Log(ex.ToString());
                        }
                    }
                }
            }
            catch (Exception ex)
            {
                CCLog.Log("Failed to deserialize director state.");
                CCLog.Log(ex.ToString());
            }

            return(false);
        }
Exemple #15
0
        private CCNode ReadNodeGraph(CCNode parent)
        {
            /* Read class name. */
            string className = ReadCachedString();

            string _jsControlledName = null;

            if (_jsControlled)
            {
                _jsControlledName = ReadCachedString();
            }

            // Read assignment type and name
            var memberVarAssignmentType = (CCBTargetType)ReadInt(false);

            string memberVarAssignmentName = String.Empty;

            if (memberVarAssignmentType != CCBTargetType.None)
            {
                memberVarAssignmentName = ReadCachedString();
            }

            CCNodeLoader ccNodeLoader = _nodeLoaderLibrary.GetCCNodeLoader(className);

            if (ccNodeLoader == null)
            {
                CCLog.Log("no corresponding node loader for {0}", className);
                return(null);
            }

            CCNode node = ccNodeLoader.LoadCCNode(parent, this);

            // Set root node
            if (_actionManager.RootNode == null)
            {
                _actionManager.RootNode = node;
            }

            // Assign controller
            if (_jsControlled && node == _actionManager.RootNode)
            {
                _actionManager.DocumentControllerName = _jsControlledName;
            }

            // Read animated properties
            var seqs = new Dictionary <int, Dictionary <string, CCBSequenceProperty> >();

            _animatedProps.Clear();

            int numSequence = ReadInt(false);

            for (int i = 0; i < numSequence; ++i)
            {
                int seqId        = ReadInt(false);
                var seqNodeProps = new Dictionary <string, CCBSequenceProperty>();

                int numProps = ReadInt(false);

                for (int j = 0; j < numProps; ++j)
                {
                    var seqProp = new CCBSequenceProperty();

                    seqProp.Name = ReadCachedString();
                    seqProp.Type = (CCBPropertyType)ReadInt(false);
                    _animatedProps.Add(seqProp.Name);

                    int numKeyframes = ReadInt(false);

                    for (int k = 0; k < numKeyframes; ++k)
                    {
                        CCBKeyframe keyframe = ReadKeyframe(seqProp.Type);

                        seqProp.Keyframes.Add(keyframe);
                    }

                    seqNodeProps.Add(seqProp.Name, seqProp);
                }

                seqs.Add(seqId, seqNodeProps);
            }

            if (seqs.Count > 0)
            {
                _actionManager.AddNode(node, seqs);
            }

            // Read properties
            ccNodeLoader.ParseProperties(node, parent, this);

            bool isCCBFileNode = node is CCBFile;

            // Handle sub ccb files (remove middle node)
            if (isCCBFileNode)
            {
                var ccbFileNode = (CCBFile)node;

                CCNode embeddedNode = ccbFileNode.FileNode;
                embeddedNode.Position  = ccbFileNode.Position;
                embeddedNode.RotationX = ccbFileNode.RotationX;
                embeddedNode.RotationY = ccbFileNode.RotationY;
                embeddedNode.ScaleX    = ccbFileNode.ScaleX;
                embeddedNode.ScaleY    = ccbFileNode.ScaleY;
                embeddedNode.Tag       = ccbFileNode.Tag;
                embeddedNode.Visible   = true;
                //embeddedNode.IgnoreAnchorPointForPosition = ccbFileNode.IgnoreAnchorPointForPosition;

                _actionManager.MoveAnimationsFromNode(ccbFileNode, embeddedNode);

                ccbFileNode.FileNode = null;

                node = embeddedNode;
            }

#if CCB_ENABLE_JAVASCRIPT
            /*
             * if (memberVarAssignmentType && memberVarAssignmentName && ![memberVarAssignmentName isEqualToString:@""])
             * {
             * [[JSCocoa sharedController] setObject:node withName:memberVarAssignmentName];
             * }*/
#else
            if (memberVarAssignmentType != CCBTargetType.None)
            {
                if (!_jsControlled)
                {
                    object target = null;
                    if (memberVarAssignmentType == CCBTargetType.DocumentRoot)
                    {
                        target = _actionManager.RootNode;
                    }
                    else if (memberVarAssignmentType == CCBTargetType.Owner)
                    {
                        target = _owner;
                    }

                    if (target != null)
                    {
                        var targetAsCCBMemberVariableAssigner = target as ICCBMemberVariableAssigner;

                        bool assigned = false;
                        if (memberVarAssignmentType != CCBTargetType.None)
                        {
                            if (targetAsCCBMemberVariableAssigner != null)
                            {
                                assigned = targetAsCCBMemberVariableAssigner.OnAssignCCBMemberVariable(target,
                                                                                                       memberVarAssignmentName,
                                                                                                       node);
                            }

                            if (!assigned && _CCBMemberVariableAssigner != null)
                            {
                                _CCBMemberVariableAssigner.OnAssignCCBMemberVariable(target, memberVarAssignmentName,
                                                                                     node);
                            }
                        }
                    }
                }
                else
                {
                    if (memberVarAssignmentType == CCBTargetType.DocumentRoot)
                    {
                        _actionManager.AddDocumentOutletName(memberVarAssignmentName);
                        _actionManager.AddDocumentOutletNode(node);
                    }
                    else
                    {
                        _ownerOutletNames.Add(memberVarAssignmentName);
                        _ownerOutletNodes.Add(node);
                    }
                }
            }

            // Assign custom properties.
            if (ccNodeLoader.CustomProperties.Count > 0)
            {
                bool customAssigned = false;

                if (!_jsControlled)
                {
                    Object target = node;
                    if (target != null)
                    {
                        ICCBMemberVariableAssigner targetAsCCBMemberVariableAssigner = target as ICCBMemberVariableAssigner;
                        if (targetAsCCBMemberVariableAssigner != null)
                        {
                            var pCustomPropeties = ccNodeLoader.CustomProperties;
                            foreach (var pElement in pCustomPropeties)
                            {
                                customAssigned = targetAsCCBMemberVariableAssigner.OnAssignCCBCustomProperty(target, pElement.Key, pElement.Value);

                                if (!customAssigned && _CCBMemberVariableAssigner != null)
                                {
                                    customAssigned = _CCBMemberVariableAssigner.OnAssignCCBCustomProperty(target, pElement.Key, pElement.Value);
                                }
                            }
                        }
                    }
                }
            }
#endif
            // CCB_ENABLE_JAVASCRIPT

            _animatedProps.Clear();

            /* Read and add children. */
            int numChildren = ReadInt(false);
            for (int i = 0; i < numChildren; i++)
            {
                CCNode child = ReadNodeGraph(node);
                node.AddChild(child);
            }

            if (!isCCBFileNode)
            {
                // Call onNodeLoaded
                var nodeAsCCNodeLoaderListener = node as ICCNodeLoaderListener;
                if (nodeAsCCNodeLoaderListener != null)
                {
                    nodeAsCCNodeLoaderListener.OnNodeLoaded(node, ccNodeLoader);
                }
                else if (_nodeLoaderListener != null)
                {
                    _nodeLoaderListener.OnNodeLoaded(node, ccNodeLoader);
                }
            }

            return(node);
        }
Exemple #16
0
        static float dpiScale = 96f / 72f;  // default but will be recalculated below
#if WINDOWSGL
        internal CCTexture2D CreateTextSprite(string text, CCFontDefinition textDefinition)
        {
            if (string.IsNullOrEmpty(text))
            {
                return(new CCTexture2D());
            }

            int imageWidth;
            int imageHeight;
            var textDef = textDefinition;
            var contentScaleFactorWidth  = CCLabel.DefaultTexelToContentSizeRatios.Width;
            var contentScaleFactorHeight = CCLabel.DefaultTexelToContentSizeRatios.Height;

            textDef.FontSize          *= (int)contentScaleFactorWidth;
            textDef.Dimensions.Width  *= contentScaleFactorWidth;
            textDef.Dimensions.Height *= contentScaleFactorHeight;

            bool hasPremultipliedAlpha;

            var font = CreateFont(textDef.FontName, textDef.FontSize / dpiScale);

            var fontColor       = textDef.FontFillColor;
            var fontAlpha       = textDef.FontAlpha;
            var foregroundColor = System.Drawing.Color.FromArgb(fontAlpha,
                                                                fontColor.R,
                                                                fontColor.G,
                                                                fontColor.B);

            // alignment
            var horizontalAlignment = textDef.Alignment;
            var verticleAlignement  = textDef.LineAlignment;

            var textAlign = (CCTextAlignment.Right == horizontalAlignment) ? StringAlignment.Far
                : (CCTextAlignment.Center == horizontalAlignment) ? StringAlignment.Center
                : StringAlignment.Near;

            var paragraphAlign = (CCVerticalTextAlignment.Bottom == verticleAlignement) ? StringAlignment.Far
                : (CCVerticalTextAlignment.Center == verticleAlignement) ? StringAlignment.Center
                : StringAlignment.Near;

            // LineBreak
            var lineBreak = (CCLabelLineBreak.Character == textDef.LineBreak) ? StringTrimming.Character
                : (CCLabelLineBreak.Word == textDef.LineBreak) ? StringTrimming.Word
                : StringTrimming.None;

            var dimensions = new SizeF(textDef.Dimensions.Width, textDef.Dimensions.Height);

            var layoutAvailable = true;

            if (dimensions.Width <= 0)
            {
                dimensions.Width = 8388608;
                layoutAvailable  = false;
            }

            if (dimensions.Height <= 0)
            {
                dimensions.Height = 8388608;
                layoutAvailable   = false;
            }

            var stringFormat = StringFormat.GenericDefault;

            // We will set the Alignment to Near to begin with because of a calculation error of MeasureString
            // with a line of text with embedded newline '\n' characters after a number and Alignment = Center.
            // Example:  "Alignment 1\nnew line"
            stringFormat.Alignment     = StringAlignment.Near;
            stringFormat.LineAlignment = paragraphAlign;
            stringFormat.Trimming      = lineBreak;

            int charactersFitted = 0;
            int lineCount        = 0;

            var boundingRect = RectangleF.Empty;

            var textMetrics = _graphics.MeasureString(text, font, dimensions, stringFormat,
                                                      out charactersFitted, out lineCount);

            // early out if something went wrong somewhere and nothing is to be drawn
            if (lineCount == 0)
            {
                return(new CCTexture2D());
            }

            // We will set the real Alignement here before drawing the text - See comment above about calculation error
            // with Alignment.
            stringFormat.Alignment = textAlign;

            // Fill out the bounding rect width and height so we can calculate the yOffset later if needed
            boundingRect.X      = 0;
            boundingRect.Y      = 0;
            boundingRect.Width  = textMetrics.Width;
            boundingRect.Height = textMetrics.Height;

            if (!layoutAvailable)
            {
                if (dimensions.Width == 8388608)
                {
                    dimensions.Width = boundingRect.Width;
                }
                if (dimensions.Height == 8388608)
                {
                    dimensions.Height = boundingRect.Height;
                }
            }

            imageWidth  = (int)dimensions.Width;
            imageHeight = (int)dimensions.Height;

            CreateBitmap(imageWidth, imageHeight);

            if (textDefinition.isShouldAntialias)
            {
                _graphics.TextRenderingHint = TextRenderingHint.AntiAlias;
            }

            var _brush = new SolidBrush(foregroundColor);

            _graphics.Clear(System.Drawing.Color.Transparent);
            _graphics.DrawString(text, font, _brush, new RectangleF(PointF.Empty, dimensions), stringFormat);
            _graphics.Flush();

            try
            {
                _bitmap = (Bitmap)_bitmap.RGBToBGR();
                var data = new byte[_bitmap.Width * _bitmap.Height * 4];

                BitmapData bitmapData = _bitmap.LockBits(new System.Drawing.Rectangle(0, 0, _bitmap.Width, _bitmap.Height),
                                                         ImageLockMode.ReadOnly, System.Drawing.Imaging.PixelFormat.Format32bppArgb);
                if (bitmapData.Stride != _bitmap.Width * 4)
                {
                    throw new NotImplementedException();
                }
                Marshal.Copy(bitmapData.Scan0, data, 0, data.Length);
                _bitmap.UnlockBits(bitmapData);

                Texture2D texture = null;
                texture = new Texture2D(CCDrawManager.SharedDrawManager.XnaGraphicsDevice, _bitmap.Width, _bitmap.Height);
                texture.SetData(data);

                return(new CCTexture2D(texture));
            }
            catch (Exception ie)
            {
                CCLog.Log("CCLabel: internal error creating texture sprite: {0}\n{1}", ie.Message, ie.StackTrace);
            }
            finally
            {
                if (_bitmap != null)
                {
                    _bitmap.Dispose();
                    _bitmap = null;
                }
                if (_graphics != null)
                {
                    _graphics.Dispose();
                    _graphics = null;
                }
                if (_brush != null)
                {
                    _brush.Dispose();
                }
            }

            return(new CCTexture2D());
        }
Exemple #17
0
        public void CreateFontChars()
        {
            int  nextFontPositionX = 0;
            int  nextFontPositionY = 0;
            char prev          = (char)255;
            int  kerningAmount = 0;

            CCSize tmpSize = CCSize.Zero;

            int longestLine = 0;
            int totalHeight = 0;

            int quantityOfLines = 1;

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

            int stringLen = labelText.Length;

            var charSet = FontConfiguration.CharacterSet;

            if (charSet.Count == 0)
            {
                throw (new InvalidOperationException(
                           "Can not compute the size of the font because the character set is empty."));
            }

            for (int i = 0; i < stringLen - 1; ++i)
            {
                if (labelText[i] == '\n')
                {
                    quantityOfLines++;
                }
            }

            var commonHeight = FontConfiguration.CommonHeight;

            totalHeight       = commonHeight * quantityOfLines;
            nextFontPositionY = 0 -
                                (commonHeight - commonHeight * quantityOfLines);

            CCBMFontConfiguration.CCBMGlyphDef fontDef = null;
            CCRect fontCharTextureRect;
            CCSize fontCharContentSize;

            for (int i = 0; i < stringLen; i++)
            {
                char c = labelText[i];

                if (c == '\n')
                {
                    nextFontPositionX  = 0;
                    nextFontPositionY -= commonHeight;
                    continue;
                }

                if (charSet.IndexOf(c) == -1)
                {
                    CCLog.Log("CocosSharp: CCLabelBMFont: Attempted to use character not defined in this bitmap: {0}",
                              (int)c);
                    continue;
                }

                kerningAmount = this.KerningAmountForFirst(prev, c);

                // unichar is a short, and an int is needed on HASH_FIND_INT
                if (!FontConfiguration.Glyphs.TryGetValue(c, out fontDef))
                {
                    CCLog.Log("CocosSharp: CCLabelBMFont: characer not found {0}", (int)c);
                    continue;
                }

                fontCharTextureRect           = fontDef.Subrect;
                fontCharTextureRect.Origin.X += ImageOffset.X;
                fontCharTextureRect.Origin.Y += ImageOffset.Y;

                var ctwRect = ConvertToWorldspace(fontCharTextureRect);
                fontCharContentSize = ctwRect.Size;

                CCSprite fontChar;

                //bool hasSprite = true;
                fontChar = (CCSprite)(this[i]);
                if (fontChar != null)
                {
                    // Reusing previous Sprite
                    fontChar.Visible = true;

                    // updating previous sprite
                    fontChar.IsTextureRectRotated = false;
                    fontChar.ContentSize          = fontCharContentSize;
                    fontChar.TextureRectInPixels  = fontCharTextureRect;
                }
                else
                {
                    // New Sprite ? Set correct color, opacity, etc...
                    //if( false )
                    //{
                    //    /* WIP: Doesn't support many features yet.
                    //     But this code is super fast. It doesn't create any sprite.
                    //     Ideal for big labels.
                    //     */
                    //    fontChar = m_pReusedChar;
                    //    fontChar.BatchNode = null;
                    //    hasSprite = false;
                    //}
                    //else
                    {
                        fontChar             = new CCSprite(TextureAtlas.Texture, fontCharTextureRect);
                        fontChar.ContentSize = fontCharContentSize;
                        AddChild(fontChar, i, i);
                    }

                    // Apply label properties
                    fontChar.IsColorModifiedByOpacity = IsColorModifiedByOpacity;

                    // Color MUST be set before opacity, since opacity might change color if OpacityModifyRGB is on
                    fontChar.UpdateDisplayedColor(DisplayedColor);
                    fontChar.UpdateDisplayedOpacity(DisplayedOpacity);
                }

                // See issue 1343. cast( signed short + unsigned integer ) == unsigned integer (sign is lost!)
                int yOffset = FontConfiguration.CommonHeight - fontDef.YOffset;

                var fontPos =
                    new CCPoint(
                        (float)nextFontPositionX + fontDef.XOffset + fontDef.Subrect.Size.Width * 0.5f + kerningAmount,
                        (float)nextFontPositionY + yOffset - fontCharTextureRect.Size.Height * 0.5f);

                var ctw = ConvertToWorldspace(fontPos);
                fontChar.Position = ctw;

                // update kerning
                nextFontPositionX += fontDef.XAdvance + kerningAmount;
                prev = c;

                if (longestLine < nextFontPositionX)
                {
                    longestLine = nextFontPositionX;
                }
            }

            // If the last character processed has an xAdvance which is less that the width of the characters image, then we need
            // to adjust the width of the string to take this into account, or the character will overlap the end of the bounding
            // box
            if (fontDef.XAdvance < fontDef.Subrect.Size.Width)
            {
                tmpSize.Width = longestLine + fontDef.Subrect.Size.Width - fontDef.XAdvance;
            }
            else
            {
                tmpSize.Width = longestLine;
            }

            tmpSize.Height = totalHeight;
            var tmpDimensions = labelDimensions;

            tmpSize.Height = totalHeight;

            labelDimensions = new CCSize(
                labelDimensions.Width > 0 ? labelDimensions.Width : tmpSize.Width,
                labelDimensions.Height > 0 ? labelDimensions.Height : tmpSize.Height
                );


            anchorPointInPoints = new CCPoint(labelDimensions.Width * AnchorPoint.X, labelDimensions.Height * AnchorPoint.Y);
            labelDimensions     = tmpDimensions;

            UpdatePositionTransform();
        }
Exemple #18
0
        internal CCTexture2D CreateTextSprite(string text, CCFontDefinition textDefinition)
        {
            if (string.IsNullOrEmpty(text))
            {
                return(new CCTexture2D());
            }

            int imageWidth;
            int imageHeight;
            var textDef = textDefinition;
            var contentScaleFactorWidth  = CCLabel.DefaultTexelToContentSizeRatios.Width;
            var contentScaleFactorHeight = CCLabel.DefaultTexelToContentSizeRatios.Height;

            textDef.FontSize          *= contentScaleFactorWidth;
            textDef.Dimensions.Width  *= contentScaleFactorWidth;
            textDef.Dimensions.Height *= contentScaleFactorHeight;

            //bool hasPremultipliedAlpha;

            // font
            NSFont font = null;

            var ext = System.IO.Path.GetExtension(textDef.FontName);

            if (!String.IsNullOrEmpty(ext) && ext.ToLower() == ".ttf")
            {
                try
                {
                    textDef.FontName = LoadFontFile(textDef.FontName);
                    font             = NSFont.FromFontName(textDef.FontName, textDef.FontSize);
                }
                catch
                {
                    CCLog.Log(".ttf {0} file not found or can not be loaded.", textDef.FontName);
                }
            }
            else
            {
                // font
                font = NSFontManager.SharedFontManager.FontWithFamily(textDef.FontName, NSFontTraitMask.Unbold | NSFontTraitMask.Unitalic, 0, textDef.FontSize);
            }

            if (font == null)
            {
                font = NSFontManager.SharedFontManager.FontWithFamily("Arial", NSFontTraitMask.Unbold | NSFontTraitMask.Unitalic, 0, textDef.FontSize);
                CCLog.Log("{0} not found.  Defaulting to Arial.", textDef.FontName);
            }

            // color
            var foregroundColor = NSColor.White;

            // alignment
            var horizontalAlignment = textDef.Alignment;
            var verticleAlignement  = textDef.LineAlignment;

            var textAlign = (CCTextAlignment.Right == horizontalAlignment) ? NSTextAlignment.Right
                : (CCTextAlignment.Center == horizontalAlignment) ? NSTextAlignment.Center
                : NSTextAlignment.Left;

            // LineBreak
            var lineBreak = (CCLabelLineBreak.Character == textDef.LineBreak) ? NSLineBreakMode.CharWrapping
                : (CCLabelLineBreak.Word == textDef.LineBreak) ? NSLineBreakMode.ByWordWrapping
                : NSLineBreakMode.Clipping;

            var nsparagraphStyle = new NSMutableParagraphStyle();

            nsparagraphStyle.SetParagraphStyle(NSMutableParagraphStyle.DefaultParagraphStyle);
            nsparagraphStyle.LineBreakMode = lineBreak;
            nsparagraphStyle.Alignment     = textAlign;

            // Create a new attributed string definition
            var nsAttributes = new NSStringAttributes();

            // Font attribute
            nsAttributes.Font            = font;
            nsAttributes.ForegroundColor = foregroundColor;
            nsAttributes.ParagraphStyle  = nsparagraphStyle;

            var stringWithAttributes = new NSAttributedString(text, nsAttributes);

            var realDimensions = stringWithAttributes.Size;

            // Mac crashes if the width or height is 0
            if (realDimensions == SizeF.Empty)
            {
                CCLog.Log("Native string:", "Dimensions of native NSAttributedString can not be 0,0");
                return(new CCTexture2D());
            }

            var dimensions = new SizeF(textDef.Dimensions.Width, textDef.Dimensions.Height);

            var layoutAvailable = true;

            //
            // * Note * This seems to only effect Mac because iOS works fine without this work around.
            // Right Alignment BoundingRectWithSize does not seem to be working correctly when the following conditions are set:
            //      1) Alignment Right
            //      2) No dimensions
            //      3) There are new line characters embedded in the string.
            //
            // So we set alignment to Left, calculate our bounds and then restore alignement afterwards before drawing.
            //
            if (dimensions.Width <= 0)
            {
                dimensions.Width = 8388608;
                layoutAvailable  = false;

                // Set our alignment variables to left - see notes above.
                nsparagraphStyle.Alignment = NSTextAlignment.Left;
                stringWithAttributes.Dispose();
                stringWithAttributes = null;
                stringWithAttributes = new NSAttributedString(text, nsAttributes);
            }

            if (dimensions.Height <= 0)
            {
                dimensions.Height = 8388608;
                layoutAvailable   = false;
            }

            // Calculate our bounding rectangle
            var boundingRect = stringWithAttributes.BoundingRectWithSize(new SizeF((int)dimensions.Width, (int)dimensions.Height),
                                                                         NSStringDrawingOptions.UsesLineFragmentOrigin);

            if (!layoutAvailable)
            {
                if (dimensions.Width == 8388608)
                {
                    dimensions.Width = boundingRect.Width;

                    // Restore our alignment before drawing - see notes above.
                    nsparagraphStyle.Alignment = textAlign;
                    stringWithAttributes.Dispose();
                    stringWithAttributes = null;
                    stringWithAttributes = new NSAttributedString(text, nsAttributes);
                }
                if (dimensions.Height == 8388608)
                {
                    dimensions.Height = boundingRect.Height;
                }
            }

            imageWidth  = (int)dimensions.Width;
            imageHeight = (int)dimensions.Height;

            // Alignment
            var xOffset = 0.0f;

            switch (textAlign)
            {
            case NSTextAlignment.Left:
                xOffset = 0;
                break;

            case NSTextAlignment.Center:
                xOffset = (dimensions.Width - boundingRect.Width) / 2.0f;
                break;

            case NSTextAlignment.Right: xOffset = dimensions.Width - boundingRect.Width; break;

            default: break;
            }

            // Line alignment
            var yOffset = (CCVerticalTextAlignment.Top == verticleAlignement ||
                           boundingRect.Height >= dimensions.Height) ? (dimensions.Height - boundingRect.Height) // align to top
                : (CCVerticalTextAlignment.Bottom == verticleAlignement) ? 0                                     // align to bottom
                : (imageHeight - boundingRect.Height) / 2.0f;                                                    // align to center

            //Find the rect that the string will draw into inside the dimensions
            var drawRect = new RectangleF(xOffset
                                          , yOffset
                                          , boundingRect.Width
                                          , boundingRect.Height);


            NSImage image = null;

            try
            {
                //Set antialias or not
                NSGraphicsContext.CurrentContext.ShouldAntialias = textDef.isShouldAntialias;

                image = new NSImage(new SizeF(imageWidth, imageHeight));

                image.LockFocus();

                // set a default transform
                var transform = new NSAffineTransform();
                transform.Set();

                stringWithAttributes.DrawInRect(drawRect);

                image.UnlockFocus();

                // We will use Texture2D from stream here instead of CCTexture2D stream.
                var tex = Texture2D.FromStream(CCDrawManager.SharedDrawManager.XnaGraphicsDevice, image);

                // Debugging purposes
//            var path = Environment.GetFolderPath(Environment.SpecialFolder.Desktop);
//            var fileName = Path.Combine(path, "Label3.png");
//            using (var stream = new FileStream(fileName, FileMode.Create, FileAccess.Write))
//            {
//                tex.SaveAsPng(stream, imageWidth, imageHeight);
//            }

                // Create our texture of the label string.
                var texture = new CCTexture2D(tex);

                return(texture);
            }
            catch (Exception exc)
            {
                CCLog.Log("CCLabel: Error creating native label:{0}\n{1}", exc.Message, exc.StackTrace);
            }
            finally
            {
                // clean up the resources
                if (image != null)
                {
                    image.Dispose();
                    image = null;
                }
                if (stringWithAttributes != null)
                {
                    stringWithAttributes.Dispose();
                    stringWithAttributes = null;
                }
            }
            return(new CCTexture2D());
        }
Exemple #19
0
        protected void InitBMFont(string theString, string fntFile, CCSize dimensions, CCTextAlignment hAlignment, CCVerticalTextAlignment vAlignment,
                                  CCPoint imageOffset, CCTexture2D texture)
        {
            Debug.Assert(FontConfiguration == null, "re-init is no longer supported");
            Debug.Assert((theString == null && fntFile == null) || (theString != null && fntFile != null),
                         "Invalid params for CCLabelBMFont");

            if (!String.IsNullOrEmpty(fntFile))
            {
                try
                {
                    FontAtlas = CCFontAtlasCache.GetFontAtlasFNT(fntFile, imageOffset);
                }
                catch {}

                if (FontAtlas == null)
                {
                    CCLog.Log("Bitmap Font CCLabel: Impossible to create font. Please check file: '{0}'", fntFile);
                    return;
                }
            }

            AnchorPoint = CCPoint.AnchorMiddle;

            FontConfiguration = CCBMFontConfiguration.FontConfigurationWithFile(fntFile);

            LabelType = CCLabelType.BitMapFont;

            if (String.IsNullOrEmpty(theString))
            {
                theString = String.Empty;
            }

            // Initialize the TextureAtlas along with children.
            var capacity = theString.Length;

            BlendFunc = CCBlendFunc.AlphaBlend;

            if (capacity == 0)
            {
                capacity = defaultSpriteBatchCapacity;
            }

            UpdateBlendFunc();

            // no lazy alloc in this node
            Children    = new CCRawList <CCNode>(capacity);
            Descendants = new CCRawList <CCSprite>(capacity);

            this.labelDimensions = dimensions;

            horzAlignment = hAlignment;
            vertAlignment = vAlignment;

            IsOpacityCascaded = true;

            // We use base here so we do not trigger an update internally.
            base.ContentSize = CCSize.Zero;

            IsColorModifiedByOpacity = TextureAtlas.Texture.HasPremultipliedAlpha;
            AnchorPoint = CCPoint.AnchorMiddle;

            ImageOffset = imageOffset;

            Text = theString;
        }
Exemple #20
0
        internal CCTexture2D CreateTextSprite(string text, CCFontDefinition textDefinition)
        {
            if (string.IsNullOrEmpty(text))
            {
                return(new CCTexture2D());
            }

            int imageWidth;
            int imageHeight;
            var textDef = textDefinition;
            var contentScaleFactorWidth  = CCLabel.DefaultTexelToContentSizeRatios.Width;
            var contentScaleFactorHeight = CCLabel.DefaultTexelToContentSizeRatios.Height;

            textDef.FontSize          *= contentScaleFactorWidth;
            textDef.Dimensions.Width  *= contentScaleFactorWidth;
            textDef.Dimensions.Height *= contentScaleFactorHeight;

            // font
            UIFont font = null;

            var ext = System.IO.Path.GetExtension(textDef.FontName);

            if (!String.IsNullOrEmpty(ext) && ext.ToLower() == ".ttf")
            {
                try
                {
                    textDef.FontName = LoadFontFile(textDef.FontName);
                    font             = UIFont.FromName(textDef.FontName, textDef.FontSize);
                }
                catch (Exception exc)
                {
                    CCLog.Log(".ttf {0} file not found or can not be loaded.", textDef.FontName);
                }
            }
            else
            {
                // font
                font = UIFont.FromName(textDef.FontName, textDef.FontSize);
                //NSFontManager.SharedFontManager.FontWithFamily(textDef.FontName, NSFontTraitMask.Unbold | NSFontTraitMask.Unitalic, 0, textDef.FontSize);
            }

            if (font == null)
            {
                font = UIFont.FromName("Arial", textDef.FontSize);
                CCLog.Log("{0} not found.  Defaulting to Arial.", textDef.FontName);
            }

            // color
            var foregroundColor = UIColor.White;

            // alignment
            var horizontalAlignment = textDef.Alignment;
            var verticleAlignement  = textDef.LineAlignment;

            var textAlign = (CCTextAlignment.Right == horizontalAlignment) ? UITextAlignment.Right
                : (CCTextAlignment.Center == horizontalAlignment) ? UITextAlignment.Center
                : UITextAlignment.Left;

            // LineBreak
            var lineBreak = (CCLabelLineBreak.Character == textDef.LineBreak) ? UILineBreakMode.CharacterWrap
                : (CCLabelLineBreak.Word == textDef.LineBreak) ? UILineBreakMode.WordWrap
                : UILineBreakMode.Clip;

            var nsparagraphStyle = (NSMutableParagraphStyle)NSParagraphStyle.Default.MutableCopy();

            nsparagraphStyle.LineBreakMode = lineBreak;
            nsparagraphStyle.Alignment     = textAlign;

            // Create a new attributed string definition
            var nsAttributes = new UIStringAttributes();

            // Font attribute
            nsAttributes.Font            = font;
            nsAttributes.ForegroundColor = foregroundColor;
            nsAttributes.ParagraphStyle  = nsparagraphStyle;

            var stringWithAttributes = new NSAttributedString(text, nsAttributes);

            var realDimensions = stringWithAttributes.Size;

            // Mac crashes if the width or height is 0
            if (realDimensions == SizeF.Empty)
            {
                throw new ArgumentOutOfRangeException("Native string:", "Dimensions of native NSAttributedString can not be 0,0");
            }

            var dimensions = new CGSize(textDef.Dimensions.Width, textDef.Dimensions.Height);

            var layoutAvailable = true;

            if (dimensions.Width <= 0)
            {
                dimensions.Width = 8388608;
                layoutAvailable  = false;
            }

            if (dimensions.Height <= 0)
            {
                dimensions.Height = 8388608;
                layoutAvailable   = false;
            }


            var boundingRect = stringWithAttributes.GetBoundingRect(new CGSize((int)dimensions.Width, (int)dimensions.Height),
                                                                    NSStringDrawingOptions.UsesLineFragmentOrigin, null);

            if (!layoutAvailable)
            {
                if (dimensions.Width == 8388608)
                {
                    dimensions.Width = boundingRect.Width;
                }
                if (dimensions.Height == 8388608)
                {
                    dimensions.Height = boundingRect.Height;
                }
            }

            imageWidth  = (int)dimensions.Width;
            imageHeight = (int)dimensions.Height;

            // Alignment
            var xOffset = (nfloat)0.0f;

            switch (textAlign)
            {
            case UITextAlignment.Left:
                xOffset = 0;
                break;

            case UITextAlignment.Center:
                xOffset = (dimensions.Width - boundingRect.Width) / 2.0f;
                break;

            case UITextAlignment.Right: xOffset = dimensions.Width - boundingRect.Width; break;

            default: break;
            }

            // Line alignment
            var yOffset = (CCVerticalTextAlignment.Bottom == verticleAlignement ||
                           boundingRect.Height >= dimensions.Height) ? (dimensions.Height - boundingRect.Height) // align to bottom
                : (CCVerticalTextAlignment.Top == verticleAlignement) ? 0                                        // align to top
                : (imageHeight - boundingRect.Height) / 2.0f;                                                    // align to center

            //Find the rect that the string will draw into inside the dimensions
            var drawRect = new CGRect(xOffset
                                      , yOffset
                                      , boundingRect.Width
                                      , boundingRect.Height);


            UIImage   image   = null;
            CGContext context = null;

            try
            {
                UIGraphics.BeginImageContext(new CGSize(imageWidth, imageHeight));
                context = UIGraphics.GetCurrentContext();

                //Set antialias or not
                context.SetShouldAntialias(textDef.isShouldAntialias);

                stringWithAttributes.DrawString(drawRect);

                image = UIGraphics.GetImageFromCurrentImageContext();

                UIGraphics.EndImageContext();

                // We will use Texture2D from stream here instead of CCTexture2D stream.
                var tex = Texture2D.FromStream(CCDrawManager.SharedDrawManager.XnaGraphicsDevice, image);

                // Debugging purposes
                //            var path = Environment.GetFolderPath(Environment.SpecialFolder.Desktop);
                //            var fileName = Path.Combine(path, "Label3.png");
                //            using (var stream = new FileStream(fileName, FileMode.Create, FileAccess.Write))
                //            {
                //                tex.SaveAsPng(stream, imageWidth, imageHeight);
                //            }

                // Create our texture of the label string.
                var texture = new CCTexture2D(tex);

                return(texture);
            }
            catch (Exception exc)
            {
                CCLog.Log("CCLabel: Error creating native label:{0}\n{1}", exc.Message, exc.StackTrace);
            }
            finally
            {
                // clean up the resources
                if (image != null)
                {
                    image.Dispose();
                    image = null;
                }
                if (context != null)
                {
                    context.Dispose();
                    context = null;
                }

                font.Dispose();
                font = null;
                nsparagraphStyle.Dispose();
                nsparagraphStyle = null;

                if (stringWithAttributes != null)
                {
                    stringWithAttributes.Dispose();
                    stringWithAttributes = null;
                }
            }
            return(new CCTexture2D());
        }
Exemple #21
0
        // Initialize the stats display.
        public void Initialize()
        {
            if (!isInitialized)
            {
                // There is a special case for Xamarin iOS monotouch on emulator where they aggresively call
                // garbage collection themselves on the simulator. This should not affect the devices though.
                // So we check if we are running on a Device and only update the counters if we are.
                #if IOS
                if (Runtime.Arch != Arch.DEVICE)
                {
                    isCheckGC = false;
                }
                #endif

                CCTexture2D    texture;
                CCTextureCache textureCache = CCTextureCache.SharedTextureCache;

                stopwatch = new Stopwatch();

                try {
                    texture = !textureCache.Contains("cc_fps_images") ? textureCache.AddImage(CCFPSImage.PngData, "cc_fps_images", CCSurfaceFormat.Bgra4444) : textureCache["cc_fps_images"];

                    if (texture == null || (texture.ContentSizeInPixels.Width == 0 && texture.ContentSizeInPixels.Height == 0))
                    {
                        CCLog.Log("CCStats: Failed to create stats texture");

                        return;
                    }
                } catch (Exception ex) {
                    // MonoGame may not allow texture.fromstream,
                    // so catch this exception here and disable the stats
                    CCLog.Log("CCStats: Failed to create stats texture:");
                    if (ex != null)
                    {
                        CCLog.Log(ex.ToString());
                    }

                    return;
                }

                // We will remove the texture cc_fps_images from our cache to fix a problem of loosing the texture
                // when the cache is purged.  If not then the statistics no longer show because it has been Disposed of.
                textureCache.RemoveTextureForKey("cc_fps_images");

                try {
                    texture.IsAntialiased = false; // disable antialiasing so the labels are always sharp

                    fpsLabel = new CCLabelAtlas("00.0", texture, 4, 8, '.');

                    updateTimeLabel = new CCLabelAtlas("0.000", texture, 4, 8, '.');

                    drawTimeLabel = new CCLabelAtlas("0.000", texture, 4, 8, '.');

                    drawCallLabel = new CCLabelAtlas("000", texture, 4, 8, '.');

                    memoryLabel       = new CCLabelAtlas("0", texture, 4, 8, '.');
                    memoryLabel.Color = new CCColor3B(35, 185, 255);

                    gcLabel       = new CCLabelAtlas("0", texture, 4, 8, '.');
                    gcLabel.Color = new CCColor3B(255, 196, 54);
                } catch (Exception ex) {
                    CCLog.Log("CCStats: Failed to create stats labels:");
                    if (ex != null)
                    {
                        CCLog.Log(ex.ToString());
                    }

                    return;
                }
            }

            var factor = 2;
            var pos    = CCPoint.Zero;

            fpsLabel.Scale        = factor;
            updateTimeLabel.Scale = factor;
            drawTimeLabel.Scale   = factor;
            drawCallLabel.Scale   = factor;
            memoryLabel.Scale     = factor;
            gcLabel.Scale         = factor;

            memoryLabel.Position     = new CCPoint(4 * factor, 44 * factor) + pos;
            gcLabel.Position         = new CCPoint(4 * factor, 36 * factor) + pos;
            drawCallLabel.Position   = new CCPoint(4 * factor, 28 * factor) + pos;
            updateTimeLabel.Position = new CCPoint(4 * factor, 20 * factor) + pos;
            drawTimeLabel.Position   = new CCPoint(4 * factor, 12 * factor) + pos;
            fpsLabel.Position        = new CCPoint(4 * factor, 4 * factor) + pos;

            isInitialized = true;
        }
Exemple #22
0
        internal CCTexture2D CreateTextSprite(string text, CCFontDefinition textDefinition)
        {
            if (string.IsNullOrEmpty(text))
            {
                return(new CCTexture2D());
            }

            int imageWidth;
            int imageHeight;
            var textDef = textDefinition;
            var contentScaleFactorWidth  = CCLabel.DefaultTexelToContentSizeRatios.Width;
            var contentScaleFactorHeight = CCLabel.DefaultTexelToContentSizeRatios.Height;

            textDef.FontSize          *= contentScaleFactorWidth;
            textDef.Dimensions.Width  *= contentScaleFactorWidth;
            textDef.Dimensions.Height *= contentScaleFactorHeight;

            bool hasPremultipliedAlpha;

//            var display = Game.Activity.WindowManager.DefaultDisplay;
//            var metrics = new DisplayMetrics();
//            display.GetMetrics(metrics);

            // Do not take into account ScaleDensity for now.
//            var fontScaleFactor = metrics.ScaledDensity;
//            textDef.FontSize = (int)(textDef.FontSize * fontScaleFactor);


            // out paint object to hold our drawn text
//            var paintFlags = new PaintFlags();
//            if (textDefinition.isShouldAntialias)
//                paintFlags = PaintFlags.AntiAlias | PaintFlags.SubpixelText;

            var textPaint = new TextPaint();

            textPaint.Color     = Android.Graphics.Color.White;
            textPaint.TextAlign = Paint.Align.Left;
            textPaint.AntiAlias = textDefinition.isShouldAntialias;

            textPaint.TextSize = textDef.FontSize;

            var fontName = textDef.FontName;
            var ext      = System.IO.Path.GetExtension(fontName);

            if (!String.IsNullOrEmpty(ext) && ext.ToLower() == ".ttf")
            {
                CCContentManager.SharedContentManager.GetAssetStreamAsBytes(fontName, out fontName);

                var activity = Android.App.Application.Context;

                try
                {
                    var typeface = Typeface.CreateFromAsset(activity.Assets, fontName);
                    textPaint.SetTypeface(typeface);
                }
                catch (Exception)
                {
                    textPaint.SetTypeface(Typeface.Create(fontName, TypefaceStyle.Normal));
                }
            }
            else
            {
                textPaint.SetTypeface(Typeface.Create(fontName, TypefaceStyle.Normal));
            }

            // color
            var foregroundColor = Android.Graphics.Color.White;

            textPaint.Color = foregroundColor;

            // alignment
            var horizontalAlignment = textDef.Alignment;
            var verticleAlignement  = textDef.LineAlignment;

            var textAlign = (CCTextAlignment.Right == horizontalAlignment) ? Layout.Alignment.AlignOpposite
                : (CCTextAlignment.Center == horizontalAlignment) ? Layout.Alignment.AlignCenter
                : Layout.Alignment.AlignNormal;

            // LineBreak
            // TODO: Find a way to specify the type of line breaking if possible.

            var dimensions = new CCSize(textDef.Dimensions.Width, textDef.Dimensions.Height);

            var layoutAvailable = true;

            if (dimensions.Width <= 0)
            {
                dimensions.Width = 8388608;
                layoutAvailable  = false;
            }

            if (dimensions.Height <= 0)
            {
                dimensions.Height = 8388608;
                layoutAvailable   = false;
            }


            // Get bounding rectangle - we need its attribute and method values
            var layout = new StaticLayout(text, textPaint,
                                          (int)dimensions.Width, textAlign, 1.0f, 0.0f, false);

            var boundingRect = new Rect();
            var lineBounds   = new Rect();

            // Loop through all the lines so we can find our drawing offsets
            var lineCount = layout.LineCount;

            // early out if something went wrong somewhere and nothing is to be drawn
            if (lineCount == 0)
            {
                return(new CCTexture2D());
            }

            for (int lc = 0; lc < lineCount; lc++)
            {
                layout.GetLineBounds(lc, lineBounds);
                var max = (int)Math.Ceiling(layout.GetLineMax(lc));

                if (boundingRect.Right < max)
                {
                    boundingRect.Right = max;
                }

                boundingRect.Bottom = lineBounds.Bottom;
            }

            if (!layoutAvailable)
            {
                if (dimensions.Width == 8388608)
                {
                    dimensions.Width = boundingRect.Right;
                }
                if (dimensions.Height == 8388608)
                {
                    dimensions.Height = boundingRect.Bottom;
                }
            }

            imageWidth  = (int)dimensions.Width;
            imageHeight = (int)dimensions.Height;

            // Recreate our layout based on calculated dimensions so that we can draw the text correctly
            // in our image when Alignment is not Left.
            if (textAlign != Layout.Alignment.AlignNormal)
            {
                layout = new StaticLayout(text, textPaint,
                                          (int)dimensions.Width, textAlign, 1.0f, 0.0f, false);
            }


            // Line alignment
            var yOffset = (CCVerticalTextAlignment.Bottom == verticleAlignement ||
                           boundingRect.Bottom >= dimensions.Height) ? dimensions.Height - boundingRect.Bottom // align to bottom
                : (CCVerticalTextAlignment.Top == verticleAlignement) ? 0                                      // align to top
                : (imageHeight - boundingRect.Bottom) * 0.5f;                                                  // align to center

            try {
                // Create our platform dependant image to be drawn to.
                using (Bitmap textureBitmap = Bitmap.CreateBitmap(imageWidth, imageHeight, Bitmap.Config.Argb8888))
                {
                    using (Canvas drawingCanvas = new Canvas(textureBitmap))
                    {
                        drawingCanvas.DrawARGB(0, 255, 255, 255);

                        // Set our vertical alignment
                        drawingCanvas.Translate(0, yOffset);

                        // Now draw the text using our layout
                        layout.Draw(drawingCanvas);

                        // Create a pixel array
                        int[] pixels = new int[imageWidth * imageHeight];

                        // Now lets get our pixels.
                        // We use CopyPixelsToBuffer so that it is in Premultiplied Alpha already.
                        // Using Bitmap.GetPixels return non Premultiplied Alpha which causes blending problems
                        Java.Nio.IntBuffer byteBuffer = Java.Nio.IntBuffer.Allocate(imageWidth * imageHeight);
                        textureBitmap.CopyPixelsToBuffer(byteBuffer);
                        if (byteBuffer.HasArray)
                        {
                            byteBuffer.Rewind();
                            byteBuffer.Get(pixels, 0, pixels.Length);
                        }

                        // Make sure we recycle - Let's keep it green
                        textureBitmap.Recycle();

                        // Here we create our Texture and then set our pixel data.
                        var texture = new CCTexture2D(imageWidth, imageHeight);
                        texture.XNATexture.SetData <int>(pixels);

                        return(texture);
                    }
                }
            }
            catch (Exception exc)
            {
                CCLog.Log("CCLabel Android: Error creating native label:{0}\n{1}", exc.Message, exc.StackTrace);
                return(new CCTexture2D());
            }
        }
Exemple #23
0
        protected void InitCCLabelBMFont(string theString, string fntFile, CCSize dimensions, CCTextAlignment hAlignment, CCVerticalTextAlignment vAlignment,
                                         CCPoint imageOffset, CCTexture2D texture)
        {
            Debug.Assert(FontConfiguration == null, "re-init is no longer supported");
            Debug.Assert((theString == null && fntFile == null) || (theString != null && fntFile != null),
                         "Invalid params for CCLabelBMFont");

            if (!String.IsNullOrEmpty(fntFile))
            {
                CCBMFontConfiguration newConf = FNTConfigLoadFile(fntFile);
                if (newConf == null)
                {
                    CCLog.Log("CCLabelBMFont: Impossible to create font. Please check file: '{0}'", fntFile);
                    return;
                }

                FontConfiguration = newConf;

                fntConfigFile = fntFile;

                if (texture == null)
                {
                    try
                    {
                        texture = CCTextureCache.SharedTextureCache.AddImage(FontConfiguration.AtlasName);
                    }
                    catch (Exception)
                    {
                        // Try the 'images' ref location just in case.
                        try
                        {
                            texture =
                                CCTextureCache.SharedTextureCache.AddImage(System.IO.Path.Combine("images",
                                                                                                  FontConfiguration
                                                                                                  .AtlasName));
                        }
                        catch (Exception)
                        {
                            // Lastly, try <font_path>/images/<font_name>
                            string dir     = System.IO.Path.GetDirectoryName(FontConfiguration.AtlasName);
                            string fname   = System.IO.Path.GetFileName(FontConfiguration.AtlasName);
                            string newName = System.IO.Path.Combine(System.IO.Path.Combine(dir, "images"), fname);
                            texture = CCTextureCache.SharedTextureCache.AddImage(newName);
                        }
                    }
                }
            }
            else
            {
                texture = new CCTexture2D();
            }

            if (String.IsNullOrEmpty(theString))
            {
                theString = String.Empty;
            }

            TextureAtlas = new CCTextureAtlas(texture, theString.Length);

            this.labelDimensions = dimensions;

            horzAlignment = hAlignment;
            vertAlignment = vAlignment;

            IsOpacityCascaded = true;

            ContentSize = CCSize.Zero;

            IsColorModifiedByOpacity = TextureAtlas.Texture.HasPremultipliedAlpha;
            AnchorPoint = CCPoint.AnchorMiddle;

            ImageOffset = imageOffset;

            SetString(theString, true);
        }
Exemple #24
0
        private CCBMFontConfiguration InitializeFont(string fontName, float fontSize, string charset)
        {
            if (Director == null)
            {
                return(null);
            }

            if (m_pData == null)
            {
                InitializeTTFAtlas(1024, 1024);
            }

            if (String.IsNullOrEmpty(charset))
            {
                charset = " ";
            }

            var chars = new CCRawList <char>();

            var fontKey = GetFontKey(fontName, fontSize);

            CCBMFontConfiguration fontConfig;

            if (!fontConfigurations.TryGetValue(fontKey, out fontConfig))
            {
                fontConfig = new CCBMFontConfiguration();
                fontConfigurations.Add(fontKey, fontConfig);
            }

            for (int i = 0; i < charset.Length; i++)
            {
                var ch = charset[i];
                if (!fontConfig.Glyphs.ContainsKey(ch) && chars.IndexOf(ch) == -1)
                {
                    chars.Add(ch);
                }
            }

            if (chars.Count == 0)
            {
                return(fontConfig);
            }

            CreateFont(fontName, fontSize, chars);

            fontConfig.CommonHeight = (int)Math.Ceiling(GetFontHeight());

            int[] data = null;

            for (int i = 0; i < chars.Count; i++)
            {
                var s = chars[i].ToString();

                var charSize = GetMeasureString(s);

                int w = (int)Math.Ceiling(charSize.Width + 2);
                int h = (int)Math.Ceiling(charSize.Height + 2);

                if (data == null || data.Length < (w * h))
                {
                    data = new int[w * h];
                }

                unsafe
                {
                    int   stride;
                    byte *pBase = GetBitmapData(s, out stride);

                    int minX = w;
                    int maxX = 0;
                    int minY = h;
                    int maxY = 0;

                    for (int y = 0; y < h; y++)
                    {
                        var row = (int *)(pBase + y * stride);

                        for (int x = 0; x < w; x++)
                        {
                            if (row[x] != 0)
                            {
                                minX = Math.Min(minX, x);
                                maxX = Math.Max(maxX, x);
                                minY = Math.Min(minY, y);
                                maxY = Math.Max(maxY, y);
                            }
                        }
                    }

                    w = Math.Max(maxX - minX + 1, 1);
                    h = Math.Max(maxY - minY + 1, 1);

                    //maxX = minX + w;
                    //maxY = minY + h;

                    int index = 0;
                    for (int y = minY; y <= maxY; y++)
                    {
                        var row = (int *)(pBase + y * stride);
                        for (int x = minX; x <= maxX; x++)
                        {
                            data[index] = row[x];
                            index++;
                        }
                    }

                    var region = AllocateRegion(w, h);

                    if (region.x >= 0)
                    {
                        SetRegionData(region, data, w);

                        var info = GetKerningInfo(chars[i]);

                        var fontDef = new CCBMFontConfiguration.CCBMGlyphDef()
                        {
                            Character = chars[i],
                            Subrect   = new CCRect(region.x, region.y, region.width, region.height),
                            XOffset   = minX, // + (int)Math.Ceiling(info.A),
                            YOffset   = minY,
                            XAdvance  = (int)Math.Ceiling(info.A + info.B + info.C)
                        };

                        fontConfig.CharacterSet.Add(chars[i]);
                        fontConfig.Glyphs.Add(chars[i], fontDef);
                    }
                    else
                    {
                        CCLog.Log("Texture atlas is full");
                    }
                }
            }

            m_bTextureDirty = true;

            return(fontConfig);
        }