public void PrepareDependenciesDump () { System.Xml.XmlWriterSettings settings = new System.Xml.XmlWriterSettings(); settings.Indent = true; settings.IndentChars = "\t"; var depsFile = File.OpenWrite ("linker-dependencies.xml.gz"); zipStream = new GZipStream (depsFile, CompressionMode.Compress); writer = System.Xml.XmlWriter.Create (zipStream, settings); writer.WriteStartDocument (); writer.WriteStartElement ("dependencies"); writer.WriteStartAttribute ("version"); writer.WriteString ("1.0"); writer.WriteEndAttribute (); }
public void PrepareDependenciesDump () { dependency_stack = new Stack<object> (); System.Xml.XmlWriterSettings settings = new System.Xml.XmlWriterSettings(); settings.Indent = true; settings.IndentChars = "\t"; var depsFile = File.OpenWrite (string.Format ("linker-dependencies-{0}.xml.gz", DateTime.Now.Ticks)); zipStream = new GZipStream (depsFile, CompressionMode.Compress); writer = System.Xml.XmlWriter.Create (zipStream, settings); writer.WriteStartDocument (); writer.WriteStartElement ("dependencies"); writer.WriteStartAttribute ("version"); writer.WriteString ("1.0"); writer.WriteEndAttribute (); }
public void PrepareDependenciesDump (string filename) { dependency_stack = new Stack<object> (); System.Xml.XmlWriterSettings settings = new System.Xml.XmlWriterSettings(); settings.Indent = true; settings.IndentChars = "\t"; var depsFile = File.OpenWrite (filename); zipStream = new GZipStream (depsFile, CompressionMode.Compress); writer = System.Xml.XmlWriter.Create (zipStream, settings); writer.WriteStartDocument (); writer.WriteStartElement ("dependencies"); writer.WriteStartAttribute ("version"); writer.WriteString ("1.0"); writer.WriteEndAttribute (); }
private static void WriteStartTime(System.Xml.XmlWriter writer, HistoryEntry entry) { writer.WriteStartAttribute("start"); writer.WriteValue(entry.VersionStartTime.ToUniversalTime().ToString("R")); writer.WriteEndAttribute(); }
static void Main(string[] args) { string testpath = System.IO.Path.Combine( Environment.GetFolderPath(Environment.SpecialFolder.Desktop), "TestFile"); // Method 1: Automatic XML serialization // Requires that the type being serialized and all its serializable members are public System.Xml.Serialization.XmlSerializer xs = new System.Xml.Serialization.XmlSerializer(typeof(MyPublicData)); MyPublicData o1 = new MyPublicData() { id = 3141, value = "a test object" }; MyEncapsulatedData o2 = new MyEncapsulatedData(7); using (System.IO.StreamWriter w = new System.IO.StreamWriter(testpath + ".xml")) { xs.Serialize(w, o1); } // Method 2: Manual XML serialization System.Xml.XmlWriter xw = System.Xml.XmlWriter.Create(testpath + "1.xml"); xw.WriteStartElement("MyPublicData"); xw.WriteStartAttribute("id"); xw.WriteValue(o1.id); xw.WriteEndAttribute(); xw.WriteAttributeString("value", o1.value); xw.WriteEndElement(); xw.Close(); // Method 3: Automatic binary serialization // Requires that the type being serialized be marked with the "Serializable" attribute using (System.IO.FileStream f = new System.IO.FileStream(testpath + ".bin", System.IO.FileMode.Create)) { System.Runtime.Serialization.Formatters.Binary.BinaryFormatter bf = new System.Runtime.Serialization.Formatters.Binary.BinaryFormatter(); bf.Serialize(f, o2); } // Demonstrate how automatic binary deserialization works // and prove that it handles objects with private members using (System.IO.FileStream f = new System.IO.FileStream(testpath + ".bin", System.IO.FileMode.Open)) { System.Runtime.Serialization.Formatters.Binary.BinaryFormatter bf = new System.Runtime.Serialization.Formatters.Binary.BinaryFormatter(); MyEncapsulatedData o3 = (MyEncapsulatedData)bf.Deserialize(f); Console.WriteLine(o3.ExpirationDate.ToString()); } // Method 4: Manual binary serialization using (System.IO.FileStream f = new System.IO.FileStream(testpath + "1.bin", System.IO.FileMode.Create)) { using (System.IO.BinaryWriter w = new System.IO.BinaryWriter(f)) { w.Write(o1.id); w.Write(o1.value); } } // Demonstrate how manual binary deserialization works using (System.IO.FileStream f = new System.IO.FileStream(testpath + "1.bin", System.IO.FileMode.Open)) { using (System.IO.BinaryReader r = new System.IO.BinaryReader(f)) { MyPublicData o4 = new MyPublicData() { id = r.ReadInt32(), value = r.ReadString() }; Console.WriteLine("{0}: {1}", o4.id, o4.value); } } }
public void Write(System.IO.TextWriter output) { System.Xml.XmlWriter writer = System.Xml.XmlWriter.Create(output); writer.WriteStartDocument(); writer.WriteStartElement("sc"); writer.WriteStartElement("context"); writer.WriteStartAttribute("timeContext"); writer.WriteValue(this.timeContext); writer.WriteEndAttribute(); if (this.Scope != null) { writer.WriteStartAttribute("scope"); writer.WriteValue(this.Scope); writer.WriteEndAttribute(); } writer.WriteEndElement(); if (this.HasObjects) { writer.WriteStartElement("objects"); foreach (var obj in this.objects) { writer.WriteRaw(obj.ToString()); } writer.WriteEndElement(); } if (this.HasRelations) { writer.WriteStartElement("relations"); foreach (var obj in this.relations) { writer.WriteRaw(obj.ToString()); } writer.WriteEndElement(); } if (this.HasMembership) { writer.WriteStartElement("membership"); foreach (var obj in this.membership) { writer.WriteRaw(obj.ToString()); } writer.WriteEndElement(); } if (this.HasConditions) { writer.WriteStartElement("conditions"); foreach (var obj in this.conditions) { this.WriteCondition(writer, obj); } writer.WriteEndElement(); } if (this.HasAcls) { writer.WriteStartElement("acls"); foreach (var acl in this.acls) { this.WriteAcls(writer, acl); } writer.WriteEndElement(); } writer.WriteEndElement(); writer.Close(); }