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
IsLinearFunction IsSelfAntiDualFunction IsThresholdFunction IsUnateFunction BDD ToAndOr binary() MaxValue GrayCode StringToBinaryNumber bool() ToROBDD minterm() minterm Not MantissaToPositiveNumber PositiveIntegerToMantissa object Print To2LayerNor To2LayerNand Assign StateVariables GetExcitationTable Canonical SimpleInner RandomGenerate var() Xor Zero