"High level" and "low level" are terms associated with dependency inversion which has a relation to dependency injection but is a different concept. They both have the initials "DI", and the "D" in both stands for "dependency," so they can create some confusion.
(I think of it this way - dependency injection is a way of implementing dependency inversion.)
But in my opinion the terminology used when defining dependency inversion can be really confusing to .NET programmers trying to understand the concept. It's applicable, but some of the terminology isn't used among .NET developers.
From Robert Martin's definition, as quoted on Wikipedia,
High-level modules should not depend on low-level modules. Both should
depend on abstractions.
Abstractions should not depend on details. Details should depend on
What is a "high level module" and a "low level module?" If you find that confusing you're not alone. We don't really use those terms. The part that we can really understand and apply is that we should depend on abstractions.
In the case of
MatchResult, if it's just a container for a few properties then it's probably abstract enough. DTOs have been a common practice for some time, so if time had revealed that we needed to wrap them in interfaces then that pattern would have emerged by now. It doesn't hurt, but it's usually not necessary.
Going back to dependency inversion - the real confusion comes from the name itself. What is getting inverted? When you see diagrams like what's on the Wikipedia page, my recommendation is to look away from the blinding diagrams.
Martin explains his use of the word "inversion" this way (going back to his original paper on the subject)
One might question why I use the word “inversion”. Frankly, it is
because more traditional software development methods, such as
Structured Analysis and Design, tend to create software structures in
which high level modules depend upon low level modules, and in which
abstractions depend upon details. Indeed one of the goals of these
methods is to define the subprogram hierarchy that describes how the
high level modules make calls to the low level modules. Figure 1 is a
good example of such a hierarchy. Thus, the dependency structure of a
well designed object oriented program is “inverted” with respect to
the dependency structure that normally results from traditional
In other words, the inversion is a contrast between applying dependency inversion, and the "traditional" style of not applying dependency inversion. That might be clearer if you're coming from a background in which 'high level modules depend upon low level modules,' (and you use the term "module.") But if that was not previously your 'tradition' then what are you 'inverting?' Nothing.
All of those details still have meaning, but they are extremely confusing when you're trying to learn these concepts for the first time. My suggestion is to apply this part, as you already are: Depend on abstractions.
If you do that then you're applying the principle because whatever "high-level modules" and "low-level modules" are, your classes won't be too dependent on other classes - high-level, low-level, or otherwise.