I am porting a legacy Python system to Java. I'm a python developer primarily so this question concerns how I might take an unsatisfactory pattern in the original Python system but do it better in my Java version.
A system I'm working on deals with prices of products. All products have prices > 0.0.
In the orginal system all prices are represented as Python float objects (roughly like a Java Double). Functions which operate on these prices typically begin with a bunch of asserts to check that the range of the prices are sensible. Since there are a lot of functions there are a lot of assertions which become very repetitive after a while.
These assertions are better than nothing but it would be far better to throw an error the instant that something tried to create a negative price, since that's where the fault lies.
It occurred to me that I might do better in my re-implementation by inventing a new type of numberish thing which behaves exactly like a Double in all ways except that it cannot be constructed with a negative value. If I had such an object then I could rely on Java's type system and not need to write so many asserts.
Other than that (to begin with) it will obey all the normal rules of arethmatic - it will be a subclass of Double.
Later on I might extend this class by adding features that embrace more features of real-world money, e.g. preventing fractions of pennies. That's not actually needed in my initial version, but I'd like any pattern I adopt to accomodate this sort of development over the next few months.
Is this kind of pattern considered acceptable to a Java developer? Is there a better way to preserve the flexibility of having number-like objects but constraints on their possible values?