09:49
@LppEdd i read your question, but I think taking this from another approach makes it much easier
by default, you make service objects responsible for a single thing
they, for example, load some data from somewhere, create an issue on your ticket system, scan your objects for matches of a particular pattern, etc
then, you have the top level functions, which take N service objects and simply call them in a particular order
these steps are usually kept on the top level, often separated into different methods to keep a single level of abstractation (SLA)
also, if two things are different things but they have the same api, it is a common mistake to give them the same interface and treat that as their behavior or state
domain objects often have the same issue where people build a common library of domain objects where some services only use X part of the data and others use Y part of the data
duplicate code is based on two attributes, duplication of actual code (where the code, in the same language, is the same) and duplication of effort (where the code is meant to do a particular thing and the other code is meant to do the same, so when you apply a change to one, the other must at all times get the same change)
taking a step back might be a very good way to separate large or multi-purpose services
make a list of all the things they are responsible for like
- load data objects
- send a message
- translate a piece of data
then make a list of all the ways you want that behavior to be implemented like
- load data objects from the database
- load data objects from an in-memory store
- send a message via an email
- send a message via slack (or any other chat tool like hangouts, skype, etc)
- translate a json object to xml
- translate an xml using xlst
this way, you can build up individual service objects that you then can use in your top level functions
here Single Responsibility Principle (SRP) and Separation of Concerns (SOC) play a key part
each service must have a single responsibility, you dont make services that load data and send a message
you can load that data with various overloads though, so SRP does not mean you must have a single function in the interface
SOC here separates the "desired behavior" from the "implementation details"
the first list is a list of interfaces
the second list is a list of classes that implement those interfaces
following all this will come back to your original question where DI and concrete classes dont make any sense
the DI will provide you an instance of interface MessageSender, the DI will decide if that is a class SlackMessageSender or a class EmailMessageSender
