#region ================== Namespaces using System; using System.Collections.Generic; using CodeImp.DoomBuilder.Types; #endregion namespace CodeImp.DoomBuilder.Map { /// /// List of universal fields and their values. /// [Serializable] public class UniFields : Dictionary { #region ================== Variables // Owner of this list private MapElement owner; #endregion #region ================== Properties public MapElement Owner { get { return owner; } internal set { owner = value; } } #endregion #region ================== Constructors // New constructor /// public UniFields() : base(2) { } // New constructor /// public UniFields(int capacity) : base(capacity) { } // Copy constructor (makes a deep copy) /// public UniFields(UniFields copyfrom) : base(copyfrom.Count) { foreach(KeyValuePair v in copyfrom) this.Add(v.Key, new UniValue(v.Value)); } // New constructor /// public UniFields(MapElement owner) : base(2) { this.owner = owner; } // New constructor /// public UniFields(MapElement owner, int capacity) : base(capacity) { this.owner = owner; } // Copy constructor /// public UniFields(MapElement owner, UniFields copyfrom) : base(copyfrom.Count) { this.owner = owner; foreach(KeyValuePair v in copyfrom) //mxd. No-no-no, David Blaine, I don't want to copy these by reference! this.Add(v.Key, new UniValue(v.Value)); } #endregion #region ================== Mathods /// Call this before making changes to the fields, or they may not be updated correctly with undo/redo! public void BeforeFieldsChange() { if(owner != null) owner.BeforeFieldsChange(); } /// This returns the value of a field by name, or returns the specified value when no such field exists or the field value fails to convert to the same datatype. public T GetValue(string fieldname, T defaultvalue) { if(!this.ContainsKey(fieldname)) return defaultvalue; try { T val = (T)this[fieldname].Value; return val; } catch(InvalidCastException) { return defaultvalue; } } #endregion #region ================== mxd. Static methods // float public static void SetFloat(UniFields fields, string key, float value) { SetFloat(fields, key, value, 0f); } public static void SetFloat(UniFields fields, string key, float value, float defaultvalue) { if(fields == null) return; if(value != defaultvalue) { if(!fields.ContainsKey(key)) fields.Add(key, new UniValue(UniversalType.Float, value)); else fields[key].Value = value; } // Don't save default value else if(fields.ContainsKey(key)) { fields.Remove(key); } } public static float GetFloat(UniFields fields, string key) { return GetFloat(fields, key, 0f); } public static float GetFloat(UniFields fields, string key, float defaultvalue) { if(fields == null) return defaultvalue; return fields.GetValue(key, defaultvalue); } // int public static void SetInteger(UniFields fields, string key, int value) { SetInteger(fields, key, value, 0); } public static void SetInteger(UniFields fields, string key, int value, int defaultvalue) { if(fields == null) return; if(value != defaultvalue) { if(!fields.ContainsKey(key)) fields.Add(key, new UniValue(UniversalType.Integer, value)); else fields[key].Value = value; } // Don't save default value else if(fields.ContainsKey(key)) { fields.Remove(key); } } public static int GetInteger(UniFields fields, string key) { return GetInteger(fields, key, 0); } public static int GetInteger(UniFields fields, string key, int defaultvalue) { if(fields == null) return defaultvalue; return fields.GetValue(key, defaultvalue); } // String public static void SetString(UniFields fields, string key, string value, string defaultvalue) { if(fields == null) return; if(value != defaultvalue) { if(!fields.ContainsKey(key)) fields.Add(key, new UniValue(UniversalType.String, value)); else fields[key].Value = value; } // Don't save default value else if(fields.ContainsKey(key)) { fields.Remove(key); } } /// This removes fields with given names. public static void RemoveFields(UniFields fields, IEnumerable keys) { if(fields == null) return; foreach(string key in keys) if(fields.ContainsKey(key)) fields.Remove(key); } /// This removes a field with given name. public static void RemoveField(UniFields fields, string key) { if(fields == null || !fields.ContainsKey(key)) return; fields.Remove(key); } /// This compares all fields. public static bool AllFieldsMatch(UniFields fields1, UniFields fields2) { if(fields1.Keys.Count != fields2.Keys.Count) return false; foreach(KeyValuePair group in fields1) { if(!fields2.ContainsKey(group.Key) || !UniValuesMatch(fields1[group.Key], fields2[group.Key])) return false; } return true; } /// This compares non-UI fields (e.g. fields, visible in the "Custom" tab). public static bool CustomFieldsMatch(UniFields fields1, UniFields fields2) { if(fields1.owner == null || fields2.owner == null) throw new NotSupportedException("Cannot compare custom fields without owners!"); if(fields1.owner.ElementType != fields2.owner.ElementType) return false; return CustomFieldsMatch(fields1, fields2, fields1.owner.ElementType); } private static bool CustomFieldsMatch(UniFields fields1, UniFields fields2, MapElementType type) { // Collect non-UI fields UniFields filtered1 = new UniFields(); UniFields filtered2 = new UniFields(); foreach(string key in fields1.Keys) { if(!General.Map.FormatInterface.UIFields[type].ContainsKey(key)) filtered1.Add(key, fields1[key]); } foreach(string key in fields2.Keys) { if(!General.Map.FormatInterface.UIFields[type].ContainsKey(key)) filtered2.Add(key, fields2[key]); } if(filtered1.Keys.Count != filtered2.Keys.Count) return false; return AllFieldsMatch(filtered1, filtered2); } /// This compares types and values of given UniValues. public static bool UniValuesMatch(UniValue val1, UniValue val2) { if(val1.Type != val2.Type) return false; if(val1.Value is int) return (int)val1.Value != (int)val2.Value; if(val1.Value is float) return (float)val1.Value != (float)val2.Value; if(val1.Value is bool) return (bool)val1.Value != (bool)val2.Value; if(val1.Value is string) return (string)val1.Value != (string)val2.Value; throw new Exception("Got unknown Custom Field type to compare: " + val1.Value.GetType()); } /// This compares types and values of given UniFields by key. public static bool ValuesMatch(string key, UniFields fields1, UniFields fields2) { bool f1 = fields1.ContainsKey(key); bool f2 = fields2.ContainsKey(key); if(!f1 && !f2) return true; if(f1 != f2) return false; return UniValuesMatch(fields1[key], fields2[key]); } /// This compares types and values of given UniFields by 2 keys. Returns true when both values match. public static bool ValuesMatch(string key1, string key2, UniFields fields1, UniFields fields2) { return ValuesMatch(key1, fields1, fields2) && ValuesMatch(key2, fields1, fields2); } /// This compares UniFields types and values of given MapElements by key. public static bool ValuesMatch(string key, MapElement e1, MapElement e2) { if(e1.ElementType != e2.ElementType || (e1.Fields == null && e2.Fields != null) || e2.Fields == null) return false; if(e1.Fields == null && e2.Fields == null) return true; return ValuesMatch(key, e1.Fields, e2.Fields); } /// This compares UniFields types and values of given MapElements by 2 keys. Returns true when both values match. public static bool ValuesMatch(string key1, string key2, MapElement e1, MapElement e2) { if(e1.ElementType != e2.ElementType || (e1.Fields == null && e2.Fields != null) || e2.Fields == null) return false; if(e1.Fields == null && e2.Fields == null) return true; return ValuesMatch(key1, key2, e1.Fields, e2.Fields); } #endregion } }