protected PCondIsFixnumLSQ(PrimitiveIsFixnumL predicate, SCode consequent, Quotation alternative) : base(predicate, consequent, alternative) { this.alternativeValue = alternative.Quoted; }
public static SCode Make(PrimitiveIsFixnumL predicate, SCode consequent, Quotation alternative) { return new PCondIsFixnumLSQ (predicate, consequent, alternative); }
protected PCondIsFixnumLSL(PrimitiveIsFixnumL predicate, SCode consequent, LexicalVariable alternative) : base(predicate, consequent, alternative) { }
public static SCode Make(PrimitiveIsFixnumL predicate, SCode consequent, LexicalVariable alternative) { return new PCondIsFixnumLSL (predicate, consequent, alternative); }
protected PCondIsFixnumLQQ(PrimitiveIsFixnumL predicate, Quotation consequent, Quotation alternative) : base(predicate, consequent, alternative) { }
public static SCode Make(PrimitiveIsFixnumL predicate, Quotation consequent, Quotation alternative) { if (consequent.Quoted == alternative.Quoted) { Debug.WriteLine ("; Optimize (if <expr> <literal> <literal>) => (begin <expr> <literal>)"); return Sequence2.Make (predicate, consequent); } else if (Configuration.EnableTrueUnspecific && consequent.Quoted == Constant.Unspecific) { Debug.WriteLine ("; Optimize (if <expr> <unspecific> <literal>) => (begin <expr> <literal>)"); return Sequence2.Make (predicate, alternative); } else if (Configuration.EnableTrueUnspecific && alternative.Quoted == Constant.Unspecific) { Debug.WriteLine ("; Optimize (if <expr> <literal> <unspecific>) => (begin <expr> <literal>)"); return Sequence2.Make (predicate, consequent); } return new PCondIsFixnumLQQ (predicate, consequent, alternative); }
protected PCondIsFixnumLQL(PrimitiveIsFixnumL predicate, Quotation consequent, LexicalVariable alternative) : base(predicate, consequent, alternative) { }
public static SCode Make(PrimitiveIsFixnumL predicate, Quotation consequent, SCode alternative) { return (alternative is LexicalVariable) ? PCondIsFixnumLQL.Make (predicate, consequent, (LexicalVariable) alternative) : (alternative is Quotation) ? PCondIsFixnumLQQ.Make (predicate, consequent, (Quotation) alternative) : new PCondIsFixnumLQ (predicate, consequent, alternative); }
protected PCondIsFixnumLQ(PrimitiveIsFixnumL predicate, Quotation consequent, SCode alternative) : base(predicate, consequent, alternative) { this.consequentValue = consequent.Quoted; }
public static SCode Make(PrimitiveIsFixnumL predicate, SCode consequent, SCode alternative) { return (predicate is PrimitiveIsFixnumA) ? PCondIsFixnumA.Make ((PrimitiveIsFixnumA) predicate, consequent, alternative) : (predicate is PrimitiveIsFixnumL1) ? PCondIsFixnumL1.Make ((PrimitiveIsFixnumL1) predicate, consequent, alternative) : (consequent is LexicalVariable) ? PCondIsFixnumLL.Make (predicate, (LexicalVariable) consequent, alternative) : (consequent is Quotation) ? PCondIsFixnumLQ.Make (predicate, (Quotation) consequent, alternative) : (alternative is LexicalVariable) ? PCondIsFixnumLSL.Make (predicate, consequent, (LexicalVariable) alternative) : (alternative is Quotation) ? PCondIsFixnumLSQ.Make (predicate, consequent, (Quotation) alternative) : new PCondIsFixnumL (predicate, consequent, alternative); }
protected PCondIsFixnumL(PrimitiveIsFixnumL predicate, SCode consequent, SCode alternative) : base(predicate, consequent, alternative) { this.predicateName = ((LexicalVariable) predicate.Operand).Name; this.predicateDepth = ((LexicalVariable) predicate.Operand).Depth; this.predicateOffset = ((LexicalVariable) predicate.Operand).Offset; }