Creating one class to do it all is not a good practice, and it's recommended to structure your project, and keep stuff that belongs to each other separated from the randomness.
A great example of this was a project I took over from a co-worker. There was 1 class, called Methods. It contained over 10K lines of methods.
I then categorized them into approx. 20 files, and the structure was restored.
Most of the methods from that project were validating user input, which can easily be moved into a static class Validation
.
One awful thing I notice is the mutable public and static variables. This is bad for several reasons:
- Incorrect behavior, because if some method changes this, while it isn't supposed to do that, it causes other methods to behave improperly, and it's really hard to track down/debug.
- Concurrency, how are we going to ensure thread safety? Do we let it over to all methods that work with that? Say if it's a value type, what will we let them lock on? What if some method forgets to make it thread safe?
- Expand-ability (I hope you understand what I mean with that), if you have for example a static class data that stores all these public static variables, that you shouldn't have. It can store that once, if for example you might change your application structure a bit, and say want to make it possible to load two projects in the same screen, then it's very difficult to make that possible, because you can't create two instances of a static class. There is only one class, and it'll remain like that.
For number 3 a cleaner solution would be to store either a list of instances of a data class, or to store a reference to the default and/or active data class.
Static member, and private static members (or protected) are a good practice, as long as you don't make huge classes, and the methods are related.
Public and static variables are okay if they're not really variable.
The two ways to do this is by marking them constant (const
modifier) or readonly (readonly
modifier).
Example:
public class UtilitiesClass
{
internal UtilitiesClass() { }
public void UtilityMethod1()
{
// Do something
}
}
// Method 1 (readonly):
public static readonly UtilitiesClass Utilities = new UtilitiesClass();
// Method 2 (property):
private static UtilitiesClass _utilities = new UtilitiesClass();
public static UtilitiesClass Utilities
{
get { return _utilities; }
private set { _utilities = value; }
}
The advantage of method 1 is that you don't have to worry about thread-safety at all, the value can't change.
Method 2 is not thread-safe (though it's not difficult to make it that), but it has the advantage of allowing the static class itself to change the reference to the utilities class.