public virtual IReflectArray Array() { if (_array == null) { _array = new NetArray(Parent()); } return(_array); }
public virtual IReflectArray Array() { if(_array == null) { _array = new NetArray(Parent()); } return _array; }
public static IEnumerator Iterator(IReflectClass claxx, object obj) { IReflectArray reflectArray = claxx.Reflector().Array(); if (reflectArray.IsNDimensional(claxx)) { return(MultidimensionalArrayHandler.AllElementsMultidimensional(reflectArray, obj )); } return(Db4objects.Db4o.Internal.Handlers.Array.ArrayHandler.AllElements(reflectArray , obj)); }
internal virtual void Configure(IReflectClass clazz, bool isPrimitive) { _isArray = clazz.IsArray(); if (_isArray) { IReflectArray reflectArray = Reflector().Array(); _isNArray = reflectArray.IsNDimensional(clazz); _isPrimitive = reflectArray.GetComponentType(clazz).IsPrimitive(); } else { _isPrimitive = isPrimitive | clazz.IsPrimitive(); } }
protected virtual BitMap4 NullItemsMap(IReflectArray reflector, object array) { int arrayLength = reflector.GetLength(array); BitMap4 nullBitMap = new BitMap4(arrayLength); for (int i = 0; i < arrayLength; i++) { if (reflector.Get(array, i) == null) { nullBitMap.Set(i, true); } } return(nullBitMap); }
internal static void FlattenCollection1(ObjectContainerBase stream, Object obj, Collection4 collection4) { Array arr = obj as Array; if (arr != null) { IReflectArray reflectArray = stream.Reflector().Array(); Object[] flat = new Object[arr.Length]; reflectArray.Flatten(obj, reflectArray.Dimensions(obj), 0, flat, 0); for (int i = 0; i < flat.Length; i++) { FlattenCollection1(stream, flat[i], collection4); } } else { // If obj implements IEnumerable, add all elements to collection4 IEnumerator enumerator = GetCollectionEnumerator(obj, true); // Add elements to collection if conversion was succesful if (enumerator != null) { if (enumerator is IDictionaryEnumerator) { IDictionaryEnumerator dictEnumerator = enumerator as IDictionaryEnumerator; while (enumerator.MoveNext()) { FlattenCollection1(stream, dictEnumerator.Key, collection4); } } else { while (enumerator.MoveNext()) { // recursive call to flatten Collections in Collections FlattenCollection1(stream, enumerator.Current, collection4); } } } else { // If obj is not a Collection, it still needs to be collected. collection4.Add(obj); } } }
public ReflectArrayIterator(IReflectArray reflectArray, object array) : base(reflectArray .GetLength(array)) { _reflectArray = reflectArray; _array = array; }
public static IEnumerator AllElements(IReflectArray reflectArray, object array) { return new ReflectArrayIterator(reflectArray, array); }
protected virtual BitMap4 NullItemsMap(IReflectArray reflector, object array) { int arrayLength = reflector.GetLength(array); BitMap4 nullBitMap = new BitMap4(arrayLength); for (int i = 0; i < arrayLength; i++) { if (reflector.Get(array, i) == null) { nullBitMap.Set(i, true); } } return nullBitMap; }
protected object NewInstance(IReflectArray arrayReflector, ArrayInfo info, IReflectClass clazz) { return arrayReflector.NewInstance(clazz, info); }
public GenericArrayReflector(GenericReflector reflector) { _delegate = reflector.GetDelegate().Array(); }
public static IEnumerator AllElementsMultidimensional(IReflectArray reflectArray, object array) { return(new MultidimensionalArrayIterator(reflectArray, (object[])array)); }
public static IEnumerator AllElementsMultidimensional(IReflectArray reflectArray, object array) { return new MultidimensionalArrayIterator(reflectArray, (object[]) array); }
public static IEnumerator AllElements(IReflectArray reflectArray, object array) { return(new ReflectArrayIterator(reflectArray, array)); }
public MultidimensionalArrayIterator(IReflectArray reflectArray, object[] array) { _reflectArray = reflectArray; _array = array; Reset(); }
protected object NewInstance(IReflectArray arrayReflector, ArrayInfo info, IReflectClass clazz) { return(arrayReflector.NewInstance(clazz, info)); }