public RenderPath(ComponentPoint start, double thickness, bool fill, IList<IPathCommand> commands) { Start = start; Thickness = thickness; Fill = fill; Commands = commands; }
public ConnectionDescription(ComponentPoint start, ComponentPoint end, ConnectionEdge edge, string name) { Start = start; End = end; Edge = edge; Name = name; }
public RenderPath() { Start = new ComponentPoint(); Thickness = 2d; Fill = false; Commands = new List<IPathCommand>(); }
public Rectangle(ComponentPoint location, double width, double height, double strokeThickness, bool fill) { Location = location; Width = width; Height = height; StrokeThickness = strokeThickness; Fill = fill; }
public Rectangle(ComponentPoint location, double width, double height) { Location = location; Width = width; Height = height; StrokeThickness = 2d; Fill = false; }
public Rectangle() { Location = new ComponentPoint(); Width = 0d; Height = 0d; StrokeThickness = 2d; Fill = false; }
public Text(ComponentPoint location, TextAlignment alignment, double size, string text) { Location = location; Alignment = alignment; var textRun = new TextRun(text, new TextRunFormatting(TextRunFormattingType.Normal, size)); TextRuns = new List<TextRun>(); TextRuns.Add(textRun); }
public Ellipse() { Centre = new ComponentPoint(); RadiusX = 2d; RadiusY = 2d; Thickness = 2d; Fill = false; }
public Ellipse(ComponentPoint centre, double radiusX, double radiusY, double thickness, bool fill) { Centre = centre; RadiusX = radiusX; RadiusY = radiusY; Thickness = thickness; Fill = fill; }
public Text(ComponentPoint location, TextAlignment alignment, IEnumerable <TextRun> textRuns) { Location = location; Alignment = alignment; TextRuns = new List <TextRun>(textRuns); }
public Text() { Location = new ComponentPoint(); Alignment = TextAlignment.TopLeft; TextRuns = new List<TextRun>(); }
bool IComponentPointParser.TryParse(string x, string y, IXmlLineInfo xLine, IXmlLineInfo yLine, out ComponentPoint componentPoint) { if (!featureSwitcher.IsFeatureEnabled(DefinitionsXmlLoaderExtensions.FeatureName)) { return(baseParser.TryParse(x, y, xLine, yLine, out componentPoint)); } if (!TryParse(x, y, xLine, yLine, out ComponentPointTemplate templated) || templated.Variables.Any()) { componentPoint = null; return(false); } componentPoint = templated.Construct(new Dictionary <string, double>()); return(true); }
public Line(ComponentPoint start, ComponentPoint end, double thickness) { Start = start; End = end; Thickness = thickness; }
public Line() { Start = new ComponentPoint(); End = new ComponentPoint(); Thickness = 2d; }
internal override void Read(System.IO.BinaryReader reader, BinaryReadInfo readInfo) { uint length = reader.ReadUInt32(); ID = reader.ReadUInt32(); uint numSections = reader.ReadUInt32(); string componentName = null; bool canResize = false; bool canFlip = false; double minSize = 10.0; List <ComponentProperty> properties = new List <ComponentProperty>(); List <ConnectionGroup> connections = new List <ConnectionGroup>(); List <RenderDescription> renderDescriptions = new List <RenderDescription>(); List <Conditional <FlagOptions> > flagOptions = new List <Conditional <FlagOptions> >(); ComponentDescriptionMetadata descriptionMetadata = new ComponentDescriptionMetadata(); uint?iconResourceId = null; for (uint sectionCounter = 0; sectionCounter < numSections; sectionCounter++) { ushort sectionType = reader.ReadUInt16(); uint sectionLength = reader.ReadUInt32(); #region Metadata if (sectionType == (uint)BinaryConstants.ComponentSectionType.Metadata) { componentName = reader.ReadString(); canResize = reader.ReadBoolean(); canFlip = reader.ReadBoolean(); minSize = reader.ReadDouble(); descriptionMetadata.Type = String.Format("Binary r{0} (*.cdcom)", readInfo.FormatVersion); descriptionMetadata.GUID = new Guid(reader.ReadBytes(16)); descriptionMetadata.Author = reader.ReadString(); if (readInfo.IsSignatureValid && readInfo.Certificate != null && readInfo.IsCertificateTrusted) { descriptionMetadata.Author = readInfo.Certificate.GetNameInfo(X509NameType.EmailName, false); } descriptionMetadata.Version = new Version(reader.ReadUInt16(), reader.ReadUInt16()); descriptionMetadata.AdditionalInformation = reader.ReadString(); descriptionMetadata.ImplementSet = reader.ReadString(); descriptionMetadata.ImplementItem = reader.ReadString(); int iconResource = reader.ReadInt32(); if (iconResource != -1) { iconResourceId = (uint)iconResource; } long created = reader.ReadInt64(); descriptionMetadata.Created = DateTime.FromBinary(created); } #endregion #region Flags else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Flags) { uint numFlagGroups = reader.ReadUInt32(); for (uint j = 0; j < numFlagGroups; j++) { IConditionTreeItem conditions; if (readInfo.FormatVersion > 1) { conditions = reader.ReadConditionTree(); } else { conditions = reader.ReadConditionCollection(); } FlagOptions value = (FlagOptions)reader.ReadUInt32(); flagOptions.Add(new Conditional <FlagOptions>(value, conditions)); } } #endregion #region Properties else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Properties) { uint numProperties = reader.ReadUInt32(); for (uint j = 0; j < numProperties; j++) { string propertyName = reader.ReadString(); string serializedName = reader.ReadString(); string displayName = reader.ReadString(); BinaryType propType; object rawDefaultValue = reader.ReadType(out propType); PropertyValue defaultValue = propType.ToPropertyUnion(rawDefaultValue); string[] enumOptions = null; if (propType == BinaryType.Enum) { enumOptions = new string[reader.ReadInt32()]; for (int k = 0; k < enumOptions.Length; k++) { enumOptions[k] = reader.ReadString(); } } // Format rules List <ComponentPropertyFormat> formatRules = new List <ComponentPropertyFormat>(); uint numFormatRules = reader.ReadUInt32(); for (uint k = 0; k < numFormatRules; k++) { IConditionTreeItem conditions; if (readInfo.FormatVersion > 1) { conditions = reader.ReadConditionTree(); } else { conditions = reader.ReadConditionCollection(); } string formatRule = reader.ReadString(); formatRules.Add(new ComponentPropertyFormat(formatRule, conditions)); } // Other conditions uint numOtherConditions = reader.ReadUInt32(); Dictionary <PropertyOtherConditionType, IConditionTreeItem> otherConditions = new Dictionary <PropertyOtherConditionType, IConditionTreeItem>((int)numOtherConditions); for (uint k = 0; k < numOtherConditions; k++) { uint uintConditionType = reader.ReadUInt32(); IConditionTreeItem conditions; if (readInfo.FormatVersion > 1) { conditions = reader.ReadConditionTree(); } else { conditions = reader.ReadConditionCollection(); } PropertyOtherConditionType conditionType = (PropertyOtherConditionType)uintConditionType; otherConditions.Add(conditionType, conditions); } properties.Add(new ComponentProperty(propertyName, serializedName, displayName, BinaryIOExtentions.BinaryTypeToPropertyType(propType), defaultValue, formatRules.ToArray(), otherConditions, enumOptions)); } } #endregion #region Configurations else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Configurations) { uint numConfigurations = reader.ReadUInt32(); for (int j = 0; j < numConfigurations; j++) { string configurationName = reader.ReadString(); string implementationName = reader.ReadString(); int numSetters = reader.ReadInt32(); var setters = new Dictionary <PropertyName, PropertyValue>(numSetters); for (int k = 0; k < numSetters; k++) { BinaryType tempType; string name = reader.ReadString(); var setterValue = reader.ReadType(out tempType); setters.Add(name, tempType.ToPropertyUnion(setterValue)); } int iconID = reader.ReadInt32(); var configuration = new ComponentConfiguration(implementationName, configurationName, setters); descriptionMetadata.Configurations.Add(configuration); if (iconID != -1) { iconResources.Add(configuration, (uint)iconID); } } } #endregion #region Connections else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Connections) { uint numConnectionGroups = reader.ReadUInt32(); List <ConnectionGroup> connectionGroups = new List <ConnectionGroup>(); for (int j = 0; j < numConnectionGroups; j++) { IConditionTreeItem conditions; if (readInfo.FormatVersion > 1) { conditions = reader.ReadConditionTree(); } else { conditions = reader.ReadConditionCollection(); } List <ConnectionDescription> tConnections = new List <ConnectionDescription>(); uint numConnections = reader.ReadUInt32(); for (uint k = 0; k < numConnections; k++) { tConnections.Add(new ConnectionDescription(reader.ReadComponentPoint(), reader.ReadComponentPoint(), (ConnectionEdge)reader.ReadInt32(), reader.ReadString())); } connections.Add(new ConnectionGroup(conditions, tConnections.ToArray())); } } #endregion #region Render else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Render) { uint numRenderGroups = reader.ReadUInt32(); for (uint j = 0; j < numRenderGroups; j++) { IConditionTreeItem conditions; if (readInfo.FormatVersion > 1) { conditions = reader.ReadConditionTree(); } else { conditions = reader.ReadConditionCollection(); } int numRenderCommands = (int)reader.ReadUInt32(); List <IRenderCommand> renderCommands = new List <IRenderCommand>(numRenderCommands); for (int k = 0; k < numRenderCommands; k++) { RenderCommandType commandType = (RenderCommandType)reader.ReadUInt32(); switch (commandType) { case RenderCommandType.Line: { ComponentPoint start = reader.ReadComponentPoint(); ComponentPoint end = reader.ReadComponentPoint(); double thickness = reader.ReadDouble(); renderCommands.Add(new Line(start, end, thickness)); } continue; case RenderCommandType.Rect: { ComponentPoint location = reader.ReadComponentPoint(); double width = reader.ReadDouble(); double height = reader.ReadDouble(); double thickness = reader.ReadDouble(); bool fill = (reader.ReadUInt32() == 0 ? false : true); renderCommands.Add(new Rectangle(location, width, height, thickness, fill)); } continue; case RenderCommandType.Ellipse: { ComponentPoint centre = reader.ReadComponentPoint(); double radiusX = reader.ReadDouble(); double radiusY = reader.ReadDouble(); double thickness = reader.ReadDouble(); bool fill = (reader.ReadUInt32() == 0 ? false : true); renderCommands.Add(new Ellipse(centre, radiusX, radiusY, thickness, fill)); } continue; case RenderCommandType.Path: { ComponentPoint start = reader.ReadComponentPoint(); double thickness = reader.ReadDouble(); bool fill = (reader.ReadUInt32() == 0 ? false : true); int numCommands = reader.ReadInt32(); List <IPathCommand> pathCommands = new List <IPathCommand>(numCommands); for (int l = 0; l < numCommands; l++) { CommandType pType = (CommandType)reader.ReadInt32(); IPathCommand theCommand = null; switch (pType) { case CommandType.MoveTo: theCommand = new MoveTo(); break; case CommandType.LineTo: theCommand = new LineTo(); break; case CommandType.CurveTo: theCommand = new CurveTo(); break; case CommandType.EllipticalArcTo: theCommand = new EllipticalArcTo(); break; case CommandType.QuadraticBeizerCurveTo: theCommand = new QuadraticBeizerCurveTo(); break; case CommandType.SmoothCurveTo: theCommand = new SmoothCurveTo(); break; case CommandType.SmoothQuadraticBeizerCurveTo: theCommand = new SmoothQuadraticBeizerCurveTo(); break; default: theCommand = new ClosePath(); break; } theCommand.Read(reader); pathCommands.Add(theCommand); } renderCommands.Add(new RenderPath(start, thickness, fill, pathCommands)); } continue; case RenderCommandType.Text: { byte formattedTextVersion = reader.ReadByte(); ComponentPoint location = reader.ReadComponentPoint(); TextAlignment alignment = (TextAlignment)reader.ReadUInt32(); uint numTextRuns = reader.ReadUInt32(); List <TextRun> textRuns = new List <TextRun>((int)numTextRuns); for (uint l = 0; l < numTextRuns; l++) { TextRunFormattingType formattingType = (TextRunFormattingType)reader.ReadUInt32(); double runSize = reader.ReadDouble(); string runText = reader.ReadString(); textRuns.Add(new TextRun(runText, new TextRunFormatting(formattingType, runSize))); } renderCommands.Add(new RenderText(location, alignment, textRuns)); } continue; } } renderDescriptions.Add(new RenderDescription(conditions, renderCommands.ToArray())); } } #endregion #region Skip else { // Unknown type - skip reader.BaseStream.Seek(sectionLength, SeekOrigin.Current); } #endregion } ComponentDescription = new ComponentDescription(ID.ToString(), componentName, canResize, canFlip, minSize, properties.ToArray(), connections.ToArray(), renderDescriptions.ToArray(), flagOptions.ToArray(), descriptionMetadata); if (iconResourceId.HasValue) { MainIconResource = iconResourceId.Value; } }
public Text(ComponentPoint location, TextAlignment alignment, IEnumerable<TextRun> textRuns) { Location = location; Alignment = alignment; TextRuns = new List<TextRun>(textRuns); }
public Text() { Location = new ComponentPoint(); Alignment = TextAlignment.TopLeft; TextRuns = new List <TextRun>(); }