What are the design heuristics one has to master to write good Prolog? I've heard it takes an experienced programmer about two years to become proficient in Prolog. Using recursion effectively is part of it, but that seems to be a relatively minor hurdle. What exactly is it that gives programmers so much trouble? What should I be looking for in sample code to judge its quality?
closed as not constructive by woz, LittleBobbyTables, Smi, karthikr, Jack Maney Mar 29 '13 at 19:58
As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance. If this question can be reworded to fit the rules in the help center, please edit the question.
The major difficulty in writing good Prolog code lies in not only understanding but also adequately transmitting the intention or purpose of a program. In contrast to other programming languages there are several quite different kinds of Prolog code often within the same program. By confusing such levels bugs and problems ensue:
Pure, monotonic code.
This code lies at the heart of Prolog. In such code a lot of algebraic properties hold, and the actual problems are described in the pure, ideal manner which Prolog is often advertised with. Yet, even in such parts certain procedural properties may surface, such as non-termination. Take as an example the commutativity of conjunction. In pure, monotonic code,
Side-effectful code. The other extreme is code that can only be understood by effectively executing it, either by machine or in the mind. There are no simple invariants in the program. But even in such parts, there might still be certain properties observed like steadfastness. Effectively such code is not much different to other programming languages.
Often, the side-effectful part "eats up" the pure side since programmers are used to an imperative, command-oriented do-this do-that thinking. To lean into the other direction, think of which properties you will lose or gain. Think how easy it will be to test your program: The purer a program the easier it is to test without any extra sandbox around. A simple toplevel query is good enough.
Some examples, how the pure side can be expanded at the expense of seemingly necessary side-effects:
Or simply these answers.
Edit: In your comment, you ask for "advice for learning". So here is some: