How to restrict T to value types using a constraint?
Unfortunately, it is not possible to specify generic type constraints that only allow specific value types. More to the point, it wouldn't make much sense even if it was allowed.
You're allowed to specify a class as a generic constraint but this is because you can inherit from classes, the constraint thus sets the minimum threshold of what types you're allowed to use.
If this was allowed for value types, where you cannot inherit from those types, you would effectively limit yourself to only that type.
Thus you cannot do this, but you have a few alternatives:
- You can declare it without the constraint, and handle the problem at runtime. I would not recommend this way
You can declare overloads that take the specific types you're interested in.
Since you only have two such types this is what I would recommend doing.
Here are the overloads you would declare:
public static Chart PopulateInto<T>(List<T> yAxis, List<int> xAxis)
{
// Do stuff here
}
public static Chart PopulateInto<T>(List<T> yAxis, List<decimal> xAxis)
{
// Do stuff here
}
Now, additionally, if your handling of those values doesn't really rely on the numeric quality of those types, you just want to limit which types you can handle, then you can always declare your original method as well, privately, and call this method from your overloads. This would still limit your code to only allowing int
or decimal
, publicly, but your implementation would still be generic. Without knowing exactly what "Do stuff here" entails it is impossible to tell if this is a viable option or not but here is the code anyway:
public static Chart PopulateInto<T>(List<T> yAxis, List<int> xAxis)
{
return PopulateInto<T, int>(yAxis, xAxis);
}
public static Chart PopulateInto<T>(List<T> yAxis, List<decimal> xAxis)
{
return PopulateInto<T, decimal>(yAxis, xAxis);
}
private static Chart PopulateInto<T, N>(List<T> yAxis, List<N> xAxis) where N : struct
{
// Do stuff here
}
It's not possible to constrain a generic parameter to a specific value type.
You can however force it to be a value type or struct
by adding where N : struct
, but that's all.
There is no way to do this with a constraint. Another approach though, assuming that PopulateInto
can work with a generic N, is to make the core algorihtm generic and private and offer 2 public overloads which take an int
and decimal
respectively. This will create a similar effect
public static Chart PopulateInto<T>(
List<T> yAxis,
List<decimal> xAxis) {
return PopulateIntoCore(yAxis, xAxis);
}
public static Chart PopulateInto<T>(
List<T> yAxis,
List<int> xAxis) {
return PopulateIntoCore(yAxis, xAxis);
}
private static Chart PopulateIntoCore<T, N>(
List<T> yAxis,
List<N> xAxis) where N : struct {
...
}