public static SCode Make(PrimitiveCombination2QQ predicate, Quotation consequent, SCode alternative) { return (alternative is LexicalVariable) ? PCond2QQQL.Make (predicate, consequent, (LexicalVariable) alternative) : (alternative is Quotation) ? PCond2QQQQ.Make (predicate, consequent, (Quotation) alternative) : new PCond2QQQ (predicate, consequent, alternative); }
public static SCode Make(PrimitiveCombination2QQ predicate, Argument consequent, SCode alternative) { return (consequent is Argument0) ? PCond2QQA0.Make (predicate, (Argument0) consequent, alternative) : (consequent is Argument1) ? PCond2QQA1.Make (predicate, (Argument1) consequent, alternative) : (alternative is LexicalVariable) ? PCond2QQAL.Make (predicate, consequent, (LexicalVariable) alternative) : (alternative is Quotation) ? PCond2QQAQ.Make (predicate, consequent, (Quotation) alternative) : new PCond2QQA (predicate, consequent, alternative); }
protected PCond2QQQ(PrimitiveCombination2QQ predicate, Quotation consequent, SCode alternative) : base(predicate, consequent, alternative) { this.consequentValue = consequent.Quoted; }
PCond2QQSL1(PrimitiveCombination2QQ predicate, SCode consequent, LexicalVariable1 alternative) : base(predicate, consequent, alternative) { }
PCond2QQSQ(PrimitiveCombination2QQ predicate, SCode consequent, Quotation alternative) : base(predicate, consequent, alternative) { this.alternativeValue = alternative.Quoted; }
public static SCode Make(PrimitiveCombination2QQ predicate, SCode consequent, Argument alternative) { return (alternative is Argument0) ? PCond2QQSA0.Make (predicate, consequent, (Argument0) alternative) : (alternative is Argument1) ? PCond2QQSA1.Make (predicate, consequent, (Argument1) alternative) : new PCond2QQSA (predicate, consequent, alternative); }
protected PCond2QQSL(PrimitiveCombination2QQ predicate, SCode consequent, LexicalVariable alternative) : base(predicate, consequent, alternative) { this.alternativeName = alternative.Name; this.alternativeDepth = alternative.Depth; this.alternativeOffset = alternative.Offset; }
protected PCond2QQL(PrimitiveCombination2QQ predicate, LexicalVariable consequent, SCode alternative) : base(predicate, consequent, alternative) { this.consequentName = consequent.Name; this.consequentDepth = consequent.Depth; this.consequentOffset = consequent.Offset; }
public static SCode Make(PrimitiveCombination2QQ predicate, LexicalVariable consequent, SCode alternative) { return (consequent is Argument) ? PCond2QQA.Make (predicate, (Argument) consequent, alternative) : (consequent is LexicalVariable1) ? PCond2QQL1.Make (predicate, (LexicalVariable1) consequent, alternative) : (alternative is LexicalVariable) ? PCond2QQLL.Make (predicate, consequent, (LexicalVariable) alternative) : (alternative is Quotation) ? PCond2QQLQ.Make (predicate, consequent, (Quotation) alternative) : new PCond2QQL (predicate, consequent, alternative); }
// (s q a1 l1) protected PCond2QQA1A(PrimitiveCombination2QQ predicate, Argument1 consequent, Argument alternative) : base(predicate, consequent, alternative) { }
// (s q a a0) PCond2QQAA0(PrimitiveCombination2QQ predicate, Argument consequent, Argument0 alternative) : base(predicate, consequent, alternative) { }
// (s q a0 l1) PCond2QQA0L1(PrimitiveCombination2QQ predicate, Argument0 consequent, LexicalVariable1 alternative) : base(predicate, consequent, alternative) { }
public static SCode Make(PrimitiveCombination2QQ predicate, Argument0 consequent, Argument0 alternative) { return new PCond2QQA0A0 (predicate, consequent, alternative); }
// (s q a0 s) protected PCond2QQA0(PrimitiveCombination2QQ predicate, Argument0 consequent, SCode alternative) : base(predicate, consequent, alternative) { }
// (s q q a1) PCond2QQQA1(PrimitiveCombination2QQ predicate, Quotation consequent, Argument1 alternative) : base(predicate, consequent, alternative) { }
// (s q l1 l1) protected PCond2QQL1A(PrimitiveCombination2QQ predicate, LexicalVariable1 consequent, Argument alternative) : base(predicate, consequent, alternative) { }
public static SCode Make(PrimitiveCombination2QQ predicate, Quotation consequent, Argument1 alternative) { return new PCond2QQQA1 (predicate, consequent, alternative); }
public static SCode Make(PrimitiveCombination2QQ predicate, LexicalVariable1 consequent, Quotation alternative) { return new PCond2QQL1Q (predicate, consequent, alternative); }
PCond2QQSA1(PrimitiveCombination2QQ predicate, SCode consequent, Argument1 alternative) : base(predicate, consequent, alternative) { }
public static SCode Make(PrimitiveCombination2QQ predicate, LexicalVariable consequent, Argument0 alternative) { return new PCond2QQLA0 (predicate, consequent, alternative); }
public static SCode Make(PrimitiveCombination2QQ predicate, SCode consequent, LexicalVariable alternative) { return (alternative is Argument) ? PCond2QQSA.Make (predicate, consequent, (Argument) alternative) : (alternative is LexicalVariable1) ? PCond2QQSL1.Make (predicate, consequent, (LexicalVariable1) alternative) : new PCond2QQSL (predicate, consequent, alternative); }
// (s q l a1) PCond2QQLA1(PrimitiveCombination2QQ predicate, LexicalVariable consequent, Argument1 alternative) : base(predicate, consequent, alternative) { }
public static SCode Make(PrimitiveCombination2QQ predicate, SCode consequent, LexicalVariable1 alternative) { return new PCond2QQSL1 (predicate, consequent, alternative); }
PCond2QQLQ(PrimitiveCombination2QQ predicate, LexicalVariable consequent, Quotation alternative) : base(predicate, consequent, alternative) { this.alternativeValue = alternative.Quoted; }
public static SCode Make(PrimitiveCombination2QQ predicate, SCode consequent, Quotation alternative) { return new PCond2QQSQ (predicate, consequent, alternative); }
protected PCond2QQ(PrimitiveCombination2QQ predicate, SCode consequent, SCode alternative) : base(predicate, consequent, alternative) { this.rand1Value = predicate.rand1Value; }