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This is an extension of LLAT (the Logic-Learning Assistance Tool) which aims to improve its pedagogical value and UI, rather than being a mere solution provider.

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Formal Logic Aiding Tutor

Introduction

FLAT (the Formal Logic Aiding Tutor) is an extension to LLAT (the Logic Learning Assistant Tool) that aims to improve the overall pedagogical value. That is, rather than being only a brute-force solver, we have included new features that help students better understand the logic.

Features

FLAT has several algorithms, or subfeatures, for students to use. These include
  • Natural Deduction Prover (no conditional or indirect proofs)
  • Truth Tree (semantic tableaux) Generator
  • Argument Validity via Truth Tree Determiner
  • Open/Closed/Ground Sentence Determiners
  • Bound/Free Variable Detectors
  • Logical Relationship Determiners
  • Truth Table Generator
  • Vacuous Quantifier Detector
  • Random Logic Formula Generator
  • Main Operator Detector
  • Parse Tree Generator
  • Semantic Entailment Determiner
  • PDF/LaTeX Export

We also allow the user to change the UI color scheme and language. Be aware, though, that language changes, along with PDF generation, require an internet connection.

In the settings menu, there is an Advanced section. For the beginning student, this menu should be avoided. If, however, you wish to raise the limits that the program enforces for algorithm timeouts, this is where they are located.

Using FLAT

To use FLAT:
  1. Make sure you have Java 18 installed. We recommend OpenJDK 18.

  2. Type a well-formed formula in propositional or first-order predicate logic in the bottom text input field.

    Note: Make sure to use parentheses around the wffs and to avoid parentheses when typing predicates (i.e., use Pxyz and not P(x, y, z)). Unary operators such as negation do not use parentheses. All binary operators require parentheses. In other words, there is no implicit precedence of operators!

  3. Click the Solve button. If an error pops up, read it, then re-enter your wff making sure to correct any mistakes. After this, the top three drop-downs should be populated with algorithms appropriate for your input.

  4. Now, click the algorithm you want to try. Then, click the Apply button. Assuming everything is done correctly, the buttons below the three drop-downs will light up (again, depending on which algorithm you used). Click these to investigate the output.

  5. Trees are draggable and adjustable. To adjust a subtree, just click and drag it around. To zoom in and out, use the mouse wheel.

Practice Mode is the switch that allows students to test their understanding of the algorithms. When the switch is enabled, the "solver" functionality temporarily disables itself. From here, use the above process to choose an algorithm, but after hitting apply, the right-hand pane should populate with a question and input field. Follow the instructions to solve the question.

Rules/Axioms is the other viewable pane on the right-hand side which displays information about connectives and symbols from the left-hand side. To view information about a symbol, CTRL-Click the corresponding symbol.

Symbols in the left-hand side are swappable. If, for instance, you use a different symbol than the ones displayed, you can change it to your liking. Simply right-click the symbol and a drop-down will appear, allowing you to select one of several alternatives.

Rebuilding FLAT

We built FLAT using the Maven architecture and IntelliJ IDE. We have, however, designed the project to be IDE-agnostic. Java 18 is the only supported version. We used OpenJDK 18, so it's recommended that you do as well.

To rebuild the project, clone the repository to your computer and open it in whichever IDE you wish. Assuming it detects Maven projects correctly (Eclipse, NetBeans, and IntelliJ work), it should open correctly.

You may need to resolve the Maven dependencies, so make sure you update them before trying to compile the program. Do not try to use a non-Maven goal when executing, as it will almost certainly not work. Use mvn javafx:run instead to ensure Maven loads the necessary JavaFX modules.

References

To cite this project, use the following paper citation:

Larry Joshua Crotts. 2022. Construction and Evaluation of a Gold Standard Syntax for Formal Logic Formulas and Systems. Master's thesis. University of North Carolina Greensboro (UNCG), Greensboro, North Carolina, USA.

PDF generation uses the following remote API: https://github.com/YtoTech/latex-on-http

Language generation uses the Google Translate API.

About

This is an extension of LLAT (the Logic-Learning Assistance Tool) which aims to improve its pedagogical value and UI, rather than being a mere solution provider.

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