ApCoCoA-1:SAT.ConvertToCNF

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Revision as of 08:22, 16 October 2020 by Andraschko (talk | contribs) (updated version info)
This article is about a function from ApCoCoA-1. If you are looking for the ApCoCoA-2 version of it, see Package sat/SAT.ConvertToCNF.

SAT.ConvertToCNF

Converts a given quadratic (cubic) system of polynomial equations (SPE) over GF(2) to CNF. Writes the CNF to the file sat.cnf

Syntax

SAT.ConvertToCNF(SPE:LIST, CuttingNumber:INT, QStrategy:INT, CStrategy:INT)

Description

This function starts the conversion algorithm.

  • @param SPE: A List containing the polynomial equations of the system.

  • @param CuttingNumber: Maximal support-length of the linear polynomials when their corresponding CNF is written to the file. Could be 3 - 6.

  • @param QStrategy: Strategy for quadratic substitution. 0 - Standard; 1 - Linear Partner; 2 - Adv. Lin. Partner;

  • @param CStrategy: Strategy for cubic substitution. 0 - Standard; 1 - Quadratic Partner;

Example

-- quadratic system:
Use R::=ZZ/(2)[x[1..3]];
F1:= x[1]x[2] + x[1]x[3] + x[2]x[3] + x[3];
F2:= x[2] + 1;
F3:= x[1]x[2] + x[3];
SPE:=[F1,F2,F3]; 
SAT.ConvertToCNF(SPE,4,0,0);
SAT.LaunchMiniSat(<quotes>sat.cnf</quotes>);
SAT.GetResult();
--Result: [0,1,0] Test with: Eval(SPE,[0,1,0]);

Example

-- cubic system:
Use ZZ/(2)[x[1..3]];
F1:=x[1]x[2]x[3] + x[1]x[2] + x[2]x[3] + x[1] + x[3] +1;
F2:=x[1]x[2]x[3] + x[1]x[2] + x[2]x[3] + x[1] + x[2];
F3:=x[1]x[2] + x[2]x[3] + x[2];
SPE:=[F1,F2,F3];
SAT.ConvertToCNF(SPE,4,0,0);
SAT.LaunchMiniSat(<quotes>sat.cnf</quotes>);
SAT.GetResult();
--Result: [0,0,1] Test with: Eval(SPE,[0,0,1]);