public override bool Equals(object o) { ProjectingType other = o as ProjectingType; return(other != null && Projector == other.Projector && UnderlyingType.Equals(other.UnderlyingType)); }
public override bool Equals(IType other) { var o = other as TupleType; if (o == null) { return(false); } if (!UnderlyingType.Equals(o.UnderlyingType)) { return(false); } return(UnderlyingType.Equals(o.UnderlyingType) && ElementNames.SequenceEqual(o.ElementNames)); }
public override bool Equals([NotNullWhen(true)] object?o) { return(o is ProjectingType other && Projector == other.Projector && UnderlyingType.Equals(other.UnderlyingType)); }
public override bool Equals(object o) { return(o is ProjectingType other && Projector == other.Projector && UnderlyingType.Equals(other.UnderlyingType)); }
/// <summary> /// Method called when FilterColumns property changes /// </summary> /// <exception cref="InvalidOperationException"> /// Raised when a a property filter refers to a non existing candidate object type property /// </exception> private void SetFilterColumns() { var propertyFilters = Items.Cast <ValueFilter>().ToList(); if (UnderlyingType.Equals(typeof(string)) || UnderlyingType.IsValueType) { // for native types, only one ValueFilter accepted to apply string format or IValueConverter if (propertyFilters.Count > 1) { throw new InvalidOperationException( "Only one property filter is authorized when underlying type is String or a value type."); } // Then if there is no property filter at all, there is no conversion needed and we build a defautl property getter // and there is one, we build a property getter accordingly _valueGetters.Add(propertyFilters.Count == 0 ? new PropertyFilterValueGetter(new ValueFilter()) : new PropertyFilterValueGetter(propertyFilters[0])); } // if the underlying type if neither a string nor value type, then it is a reference type else { IEnumerable <PropertyFilter> apfs; // if there is no PropertyFilter defined, we build it by default based on every instance public properties of the underlying type if (propertyFilters.Count == 0) { apfs = new List <PropertyFilter>(); // Get the type Properties var pis = UnderlyingType.GetProperties(BindingFlags.Public | BindingFlags.Instance); // iterate foreach (var propertyInfo in pis) { var pf = new PropertyFilter(propertyInfo.Name, DefaultMonitorPropertyChanges); var pfvg = new PropertyFilterValueGetter(pf, UnderlyingType); // Generate... _valueGetters.Add(pfvg); // ...and add value getter for each properties } } else { // and thus every ValueFilter must be PropertyFilter if (propertyFilters.Any(p => !(p is PropertyFilter))) { throw new InvalidOperationException("ValueFilter can't be used with reference type."); } apfs = propertyFilters.Cast <PropertyFilter>().ToList(); foreach (PropertyFilter pf in apfs) { // Get the PropertyInfo PropertyInfo pi = UnderlyingType.GetProperty(pf.FieldName); // this info is mandatory if (pi == null) { throw new InvalidOperationException( string.Format("Cant't find the property {0} for type {1}", pf.FieldName, UnderlyingType.Name)); } // If pi is ok, build the value getter and add it to the list var pfvg = new PropertyFilterValueGetter(pf, UnderlyingType); _valueGetters.Add(pfvg); } } // If there is no ValueFilter which is set to be monitored for property changes, we keep track of it to avoid to subscribe to propertychanged event later on _hasAnyPropertyChangesToMonitor = apfs.Any(p => p.MonitorPropertyChanged); } }