gciatto / eass23-cl-in-mas-exercises

Code of my talk at EASS 2023

Home Page:https://easss23.fit.cvut.cz/programme.html#Ciatto

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Exercises about computational logic in with 2P-Kt

Part of the lecture "On the role of computational logic in MAS: practice with 2P-Kt 4 hours"

Useful resources

Order of exercises

  • Exercise 1 in ./exercise-1 is about terms

    • goal: practice with the creation and usage of terms in 2P-Kt
  • Exercise 2 in ./exercise-2 is about the Herbrand universe

    • goal: write a lazy algorithm for computing the Herbrand universe corresponding to some given set of functors and their corresponding arities
    • advanced, optional
  • Exercise 3 in ./exercise-3 is about Horn clauses

    • goal: practice with the creation and usage of clauses in 2P-Kt
  • Exercise 4 in ./exercise-4 is about the manipulation of both terms and clauses

    • goal: write an algorithm aimed at analysing any given theory of logic rules and facts, in order to detect the sets of functors, predicate names, and variables names therein contained
    • advanced, optional
  • Exercise 5 in ./exercise-5 is about substitutions

    • goal: practice with the creation and usage of substitutions in 2P-Kt
  • Exercise 6 in ./exercise-6 is about unification

    • goal: practice with the exploitation of unification in 2P-Kt
  • Exercise 7 in ./exercise-7 is about clauses retrieval from theories, via unification

    • goal: practice with the exploitation of unification as a means to query theories
  • Exercise 8 in ./exercise-8 is about the manipulation of logic theories

    • goal: write an algorithm aimed at relationalising any logic theory in propositional form
    • advanced, optional
  • Exercise 9 in ./exercise-9 is about resolution

    • goal: exploit 2P-Kt functionalities to implement pure logic solvers, leveraging on various proof-tree exploration strategies
    • advanced
  • Exercise 10 in ./exercise-10 is about resolution with side effects

    • goal: extend the logic solver from exercise 9 to support Prolog-like meta predicates such as:
      • not(P) which fails if predicate P is true
      • assert(C) which adds clause C to the solver's knowledge base
      • retract(C) which removes clause C from the solver's knowledge base
      • is(X, E) which assigns to variable X the value attained by evaluating expression E
    • advanced, optional

Workflow

  1. Listen to the teacher's explanation

  2. Meanwhile, import the current folder as a project into your preferred IDE

    • if the IDE is IntelliJ or Eclipse, please import the project as a Gradle project
  3. Look for specific TODOs in the source code directory of each exercise

    • exercises consist of unit test which can be individually run
    • to run a test you can either
      • press the "Play" button
      • run tests from the command line:
        ./gradlew exercise-N:test
  4. Inspect and understand the provided unit tests

    • each single line has a meaning: ask for help if a line/test/suite is unclear
  5. Address the TODO and re-run the tests

  6. When all tests pass, the exercise is done

About

Code of my talk at EASS 2023

https://easss23.fit.cvut.cz/programme.html#Ciatto


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