Edit: I found this article just now describing the concept of limiting yourself to talking only about specific domains to avoid brittle scenarios.
His main point is that the minimum number of domains you can talk about are the problem domain, and the solution domain. If you're talking about anything outside those two domains then you involve too many stakeholders, you introduce too much noise, and you make your scenarios brittle.
He also mentions an absolute "declarative" or "imperative" model being a myth. He talks about a cognative model called "chunking", saying that at any level of your abstraction, you can "chunk up" or "chunk down". This means you can get more explicit (how?) or more meta (what or why?). You chunk up from an imperative model by asking "what are we doing?" You chunk down by saying "how will we do this?" So I guess I wouldn't get too hung up on declarative vs imperative - it won't get you anywhere as far as this problem goes.
What will get you somewhere is figuring out which domains each term belongs in, possibly by identifying which stakeholder is the expert for the domain that term belongs in. Once you've identified all the domains, you can either pick related terms that are in one of the scenario's most prominent domains, or remove non-fitting statements entirely. If that isn't sufficient, you can split up, further specify, or move the scenario so it can satisfy these requirements.
BTW, he also uses the scenario of logging in on a UI, so you've got concrete guidance :)
Before Edit: (some of this still applies. The "DB or no DB" and "UI or no UI" questions are unrelated)
1 - Declarative or Imperative scenarios?
Declarative when you can, though imperative has some value (at some points in a project lifecycle).
Imperative is an easier way to think for testers and business analysts who aren't as familiar with information theory and design. It is also easier to think about earlier on in a project, before you've nailed down your problem domain and workflows. It can be useful for exploratory thinking.
Declarative is less subject to change over time. Since a GUI is the part of an application most subject to churn at a whim, this is extremely valuable. It is easier to think about once you've nailed down your problem domain and workflows, and are more focused on relational concepts. It is a more stable and more generally applicable model.
If you write test cases with a generic and declarative model, you could implement them using any combination of full app GUI automation, integration tests, or unit tests.
how do you describe such stuff like 'Home page' or 'Products page'?
I'm not sure I would at the base level of features and requirements. You might make sub-features and sub-requirements that describe implementation details, like specific UI workflows. If you're describing a piece of a UI, then you should be defining a UI feature/requirement.
2 - Exercise UI or not?
I think its extremely slow and brittle
Yes, it is. Perform every high level scenario/requirement with the UI and full DB integration, but don't exercise every single code path with end to end UI automation, and certainly not edge cases. If you do, you'll spend more time getting them working, and a lot less time actually testing your application.
You can architecture your application so you can do lower cost integration tests, including single-piece UI based tests. Unit tests are also valuable.
But the fewer integration tests you do, the more forehead-slapping bugs you're going to miss. It may be easier to write unit tests, and they will certainly be less brittle, but you'll be testing less of your application, by definition.
3 - Real database or not?
High level end-to-end integration tests must be done with the full system in place. This includes a real DB, running your tests with each system on a different server, etc.
The lower level you get, the more I advocate mock objects.
- Unit tests should only test individual classes
- Mid-level integration tests should avoid expensive, brittle, and impactful dependencies such as the file system, databases, the network, etc. Try to test the implementation of those brittle and impactful dependencies with unit tests and end-to-end tests only.