You can always look at the F# compiler code as one example (though real-world code is always a bit of a mess :) ):
We have an ErrorLogger interface with warning and error 'sinks', and various parts of the compiler 'sink' errors and warnings to the active logger via the interface.
It can be tough when encountering an error to decide whether you should throw (and abandon local control flow) or log-and-continue (to get more info but risk more cascade errors). There are lots of strategies to deal with this, but all end up being tricky, as your typical industrial-strength compiler has thousands of diagnostics and people can write incorrect code a seemingly infinite number of ways, and a one-size-fits-all solution is unlikely to provide the best experience for every error, or even every common error.
As someone said, compilers universally write output to stdout/stderr in a canonical format. MSBuild and Visual Studio parse the build output to light up the error list and squiggles in the IDE UI. For incremental feedback while typing (and not building), VS does also 'host' the front-end of the compiler in-process and read the error messages directly out of the 'sinks'.
So long as you at least have one abstraction boundary (e.g. a
LogError function, which might even be global, just ensure all warnings/errors use it), then you're always in a position to refactor to meet changing needs/designs.