This is the repository for a Reasoning programming assignment. Contained within this repo is a program that takes an input file containing logical expressions (which can be in a variety of different formats), and performs one of several operations on it.

The main executable provided is TheoremProver.jar. Usage is as follows: java -jar TheoremProver.jar <mode> <format> <file>.

Input (test.txt):

{(A | B), (A -> P), (B -> Q)} : (P | Q)

Command to execute:

$ java -jar TheoremProver.jar -sat -set test.txt

Output follows:

Input expression:
{(A | B), (A -> P), (B -> Q)} : (P | Q)
Clause Normal Form:
{{P, Q}, {P, -A}, {A, B}, {Q, -B}}
Performing DPLL to find a model
Model:
I(P) = T, I(Q) = T, I(A) = T, I(B) = T
Initial expression is SATISFIABLE

Source code can be found at /src/reasoning. There are also a number of test cases at /src/test.

Argument: -cnf

Converts the input expression into clause normal form. No negation occurs. The resultant clause normal form is displayed on screen.
Works by first converting the expression into conjunctive normal form recursively (using an algorithm adapted from https://www.cs.jhu.edu/~jason/tutorials/convert-to-CNF.html) and then creating clauses from the series of disjunctions as one would normally do.

Argument: -res

Performs a resolution proof on the input expression. If the input is a simple expression, negates the entire input. If the input is a set of clauses and conclusion, only negates the conclusion. The resultant proof is shown on screen, whether it results in a contradiction or ends due to lack of terms to resolve.
Works by looking for complementing terms in the clause normal form, resolving them and adding them to the clause set. Terminates if the empty clause is derived, or when there are no more terms to resolve.

Argument: -sat

Attempts to find a model for the input expression. No negation occurs. The model (if one is found) is displayed on screen.
Works by first performing unit propogation and pure literal to add definite atoms to the model, and then performs splitting in an attempt to find a model with the remaining atoms.

Argument: -cmp

Compares the runtime for Resolution and DPLL. DPLL is first performed on the negation of the input to check if the negation is unsat. Resolution is then performed on the negation. The times for both procedures are then displayed on screen.
Uses System.nanoTime() for timing, so times may be affected by background activity and garbage collection.

Argument: -exp

Input is just an expression, using only the terminals listed in the grammar provided on the assignment brief.

Example:

(((A -> B) & C) -> D)

Argument: -set

Input is a set of premises, separated by commas and surrounded by curly braces, and a conclusion, separated from the premises by a colon.

Example:

{(A -> B), C} : D

Argument: -dimacs

Input is in the DIMACS file format. This input can only be used for clause normal form conversion and DPLL.

Example:

c This is in DIMACS format
p cnf 2 3
1 2 0
-1 0
2 -1 0

Debug mode can be accessed by suffixing -debug to the initial query. Debug mode prints more intermediary steps to the console to show how the procedure is getting on.