Analysis.IsNegativeUnateFunctionTo
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/*
Logic-Function-Analysis
Analysis.IsNegativeUnateFunctionTo
[bool result]=Analysis.IsNegativeUnateFunctionTo(LogicFunction f, var() x);
f : a logic function
x : the index of the variable
Check whether $f$ is negative unate function to its variable x.
The unateness indicates the effect of its logic variables with a logic function when they change their value between (0,1).
*/
//-------------------------------------------------------------------
// examples
[f]=AndXor()
{
1;2;3;
}
[g]=Analysis.IsNegativeUnateFunctionTo(f, var(1));
Print("IsNegativeUnateFunctionTo?", g);
h=AndOr(){ -1,2,3; }
[g]=Analysis.IsNegativeUnateFunctionTo(h, var(1));
Print("IsNegativeUnateFunctionTo?", g);
//-------------------------------------------------------------------
// result
IsPositiveUnateFunctionTo IsSelfAntiDualFunction IsSymmetricFunction MaxValue BCDEx3 GrayCode NineComplement OneComplement bool() bool Load minterm MantissaToPositiveDecimal MantissaToPositiveInteger RadixFromIndex Or PermutationMatrix To2LayerAndXor ShortestInputsForDistinguishTwoStates ToFeedbackSystem ToStateTransitionTable CreateCompactTableWithFullSimplification ShannonTree DontCare StateDeviceName StateTransition Substitute var() var Zero
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