A Utility class is one not depending on the usage context (aka, application/system's business or domain) hence is less prone to vary. Examples: StringUtils, MathUtils, etc.
A Utility class does not necessarily have all its methods static, though usually it happens so. Examples:
- a
SortUtils
class that depends on some configuration passed to it at instantiation time to customize how to deal with null
(s) no matter the business context; e.g. put null
(s) at the end/start, handle AnyEmptyBusinessObject(s) as null
, etc
- a
XDomainObjectUtils.toString(xDomainObject)
that based on some customization will return a distinct result, no matter the business context (well, here will matter slightly because it'll have to be something involving a XDomainObject)
- a
LogUtils
class that depends on some configuration passed to it at instantiation time to customize its behaviour
Even if at application/system level more same Utility class instances are needed, each configured differently, as long as Utility class' logic is not dependent on a particular business context, it's still a Utility class.
These might not be the best examples (especially the LogUtils
one for nowadays) but I guess you see a pattern here: when the utility class has to behave in a configurable fashion then it might no longer have static methods (only) because one needs to parameterize it with the configuration or strategy (see the Strategy pattern) that changes its behaviour.
A Helper class is one containing methods dependent on one particular scenario, methods that are not implementing the main logic of that scenario because another class does it. The Helper's methods could stay into the main-logic-implementing-class but doing so would pollute it hence they are better extracted into a distinct class (i.e. Helper). That's why the name: the Helper class is "helping" the main-logic-implementing-class.
Example: XService
is using YService
that is throwing YServiceException
(s) while the XService
's methods are supposed to only throw XServiceException
(s). One could use try
-catch
everywhere in XService
or one could create XServiceHelper
that's adapting YServiceService
exceptions to XServiceException
leaving the XService code more easy to read. This approach makes sense when that try
-catch
occurs so many times that really blurs the main code; besides try
-catch
once could have verbose types/values conversion/transformation, e.g. Stream
processing that reduce
some collection, which again could be moved to a helper if otherwise they bring a significant amount of code in the middle of the main-logic-implementing-class.
Utils
for a static class which could be used anywhere in the organisation, or in another organisation. AHelper
class has common code which can be re-used within a project and has dependencies within the project. Of course, there is no generally accepted rule, but I find this useful.