I'm using the WPF Extended Toolkit ( http://wpftoolkit.codeplex.com/ ).
It has a nice NumericUpDown control that I'd like to use, but internally it uses doubles - which means it uses double.MinValue and double.MaxValue.
I'd like to use the same control, but I need a generic version - for ints it needs to use int.MaxValue/MinValue, for floats float.MaxValue/MinValue, etc. (I think you get the idea :))
So I though about copying the NumericUpDown to a GNumericUpDown, where T would ofcourse be the Type.. But this doesn't work, because a generic Type doesn't have MinValue / MaxValue. And normally I'd use the 'where' clause to specify a base-type, but this doesn't work as afaik there's no common interface that defines 'MinValue' and 'MaxValue'.
Is there a way to solve this with generics, or do I really n开发者_如何学Goeed to copy/paste/search&replace the original NumericUpDown for each type ?
Well, given that you can get at the type at execution time, you could rely on the fact that all of the numeric types in .NET have MinValue
and MaxValue
fields, and read them with reflection. It wouldn't be terribly nice, but easy enough to do:
using System;
using System.Reflection;
// Use constraints which at least make it *slightly* hard to use
// with the wrong types...
public class NumericUpDown<T> where T : struct,
IComparable<T>, IEquatable<T>, IConvertible
{
public static readonly T MaxValue = ReadStaticField("MaxValue");
public static readonly T MinValue = ReadStaticField("MinValue");
private static T ReadStaticField(string name)
{
FieldInfo field = typeof(T).GetField(name,
BindingFlags.Public | BindingFlags.Static);
if (field == null)
{
// There's no TypeArgumentException, unfortunately. You might want
// to create one :)
throw new InvalidOperationException
("Invalid type argument for NumericUpDown<T>: " +
typeof(T).Name);
}
return (T) field.GetValue(null);
}
}
class Test
{
static void Main()
{
Console.WriteLine(NumericUpDown<int>.MaxValue);
Console.WriteLine(NumericUpDown<float>.MinValue);
}
}
Note that if you use this with an inappropriate type, I've tried to force a compile-time error as best I can... but it won't be foolproof. If you manage to find a structure with all the right interfaces but without MinValue
and MaxValue
fields, then any attempt to use the NumericUpDown
with that type will cause an exception to be thrown.
The OP made this comment on another answer:
I want to use these controls in my XAML. My idea was to create a generic version, and then create empty classes like NumericUpDownInt : GNumericUpDown { } Would that be the way to go, or is there a better/cleaner way to your knowledge
If you're going to go that route, then just pass the min and max directly:
class abstract GenericNumericUpDown<T>
{
public GenericNumericUpDown(T min, T max) { ... }
}
class NumericUpDownInt : GenericNumericUpDown<int>
{
public NumericUpDownInt() : base(int.MinValue, int.MaxValue) { ... }
}
class NumericUpDownFloat : GenericNumericUpDown<float>
{
public NumericUpDownFloat() : base(float.MinValue, float.MaxValue) { ... }
}
class NumericUpDownDouble : GenericNumericUpDown<double>
{
public NumericUpDownDouble() : base(double.MinValue, double.MaxValue) { ... }
}
You should get the latest source code for the Extended WPF Toolkit. The updated NumericUpDown control allows you to specify what data type to use in the editor. The following code specifies to use an Int32 as the data type instead of the default double. As you can see this is done by setting the ValueType property on the NumericUpDown control.
<extToolkit:NumericUpDown Grid.Row="1" Value="{Binding Age}" Increment="1" Minimum="18" Maximum="65" ValueType="{x:Type sys:Int32}" />
As this is also useful in Testing scenarios:
You may use extension methods, such that in C#6 (introducing nameof
) you could write:
public static class TypeExtension
{
public static T MinValue<T>(this Type self)
{
return (T)self.GetField(nameof(MinValue)).GetRawConstantValue();
}
public static T MaxValue<T>(this Type self)
{
return (T)self.GetField(nameof(MaxValue)).GetRawConstantValue();
}
}
and invoke through some admittedly ugly syntax:
var intMinValue = typeof(int).MinValue<int>();
which in your generic method would be
var typeMinValue = typeof(T).MinValue<T>();
Note, that I am not certain that all primitive types declare their Min/Max values as constants. Use GetValue
instead.
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