Simplification.Canonical
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/*
Logic-Function-Analysis
Simplification.Canonical
[LogicFunction g]=Simplification.Canonical(LogicFunction f);
f : a logic function
g : a logic function may in the simpler form
Simplify a logic function with the full algorithm but without removing the multi-covered logic terms.
*/
//-------------------------------------------------------------------
// examples
P=AndOr(){
1,2 ;
-1,3 ;
-1,-2,3 ;
-1,-2,-3 ;
1,2,3 ;
}
[f]=Simplification.Canonical(P);
Print(f);
//-------------------------------------------------------------------
// result
IsMonotonicFunction IsPositiveUnateFunctionTo IsSelfAntiDualFunction IsSelfDualFunction IsUnateFunctionTo ToAndOr StringToBinaryNumber ToAndXor ToOrAnd AddXorTerm ToDiagram Dimacs ExcitationTable FeedbackDiagram Radixes real() SOP To2LayerNand TransitionSeries Assign CreateCompactTable Compatibility ROBDD Canonical DontCare StateTransition IndependentBase ShannonExpansion XORP Zero