(/VERSIONCHECK 2) (DEFUN |DFLOAT;doubleFloatFormat;2S;1| (|s| $) (PROG (|ss|) (RETURN (SEQ (LETT |ss| (|getShellEntry| $ 6) |DFLOAT;doubleFloatFormat;2S;1|) (SETELT $ 6 |s|) (EXIT |ss|))))) (DEFUN |DFLOAT;OMwrite;$S;2| (|x| $) (PROG (|sp| |dev| |s|) (RETURN (SEQ (LETT |s| "" |DFLOAT;OMwrite;$S;2|) (LETT |sp| (OM-STRINGTOSTRINGPTR |s|) |DFLOAT;OMwrite;$S;2|) (LETT |dev| (SPADCALL |sp| (SPADCALL (|getShellEntry| $ 10)) (|getShellEntry| $ 12)) |DFLOAT;OMwrite;$S;2|) (SPADCALL |dev| (|getShellEntry| $ 14)) (SPADCALL |dev| |x| (|getShellEntry| $ 16)) (SPADCALL |dev| (|getShellEntry| $ 17)) (SPADCALL |dev| (|getShellEntry| $ 18)) (LETT |s| (OM-STRINGPTRTOSTRING |sp|) |DFLOAT;OMwrite;$S;2|) (EXIT |s|))))) (DEFUN |DFLOAT;OMwrite;$BS;3| (|x| |wholeObj| $) (PROG (|sp| |dev| |s|) (RETURN (SEQ (LETT |s| "" |DFLOAT;OMwrite;$BS;3|) (LETT |sp| (OM-STRINGTOSTRINGPTR |s|) |DFLOAT;OMwrite;$BS;3|) (LETT |dev| (SPADCALL |sp| (SPADCALL (|getShellEntry| $ 10)) (|getShellEntry| $ 12)) |DFLOAT;OMwrite;$BS;3|) (COND (|wholeObj| (SPADCALL |dev| (|getShellEntry| $ 14)))) (SPADCALL |dev| |x| (|getShellEntry| $ 16)) (COND (|wholeObj| (SPADCALL |dev| (|getShellEntry| $ 17)))) (SPADCALL |dev| (|getShellEntry| $ 18)) (LETT |s| (OM-STRINGPTRTOSTRING |sp|) |DFLOAT;OMwrite;$BS;3|) (EXIT |s|))))) (DEFUN |DFLOAT;OMwrite;Omd$V;4| (|dev| |x| $) (SEQ (SPADCALL |dev| (|getShellEntry| $ 14)) (SPADCALL |dev| |x| (|getShellEntry| $ 16)) (EXIT (SPADCALL |dev| (|getShellEntry| $ 17))))) (DEFUN |DFLOAT;OMwrite;Omd$BV;5| (|dev| |x| |wholeObj| $) (SEQ (COND (|wholeObj| (SPADCALL |dev| (|getShellEntry| $ 14)))) (SPADCALL |dev| |x| (|getShellEntry| $ 16)) (EXIT (COND (|wholeObj| (SPADCALL |dev| (|getShellEntry| $ 17))))))) (PUT '|DFLOAT;checkComplex| '|SPADreplace| 'C-TO-R) (DEFUN |DFLOAT;checkComplex| (|x| $) (C-TO-R |x|)) (PUT '|DFLOAT;base;Pi;7| '|SPADreplace| '(XLAM NIL (FLOAT-RADIX 0.0))) (DEFUN |DFLOAT;base;Pi;7| ($) (FLOAT-RADIX 0.0)) (DEFUN |DFLOAT;mantissa;$I;8| (|x| $) (QCAR (|DFLOAT;manexp| |x| $))) (DEFUN |DFLOAT;exponent;$I;9| (|x| $) (QCDR (|DFLOAT;manexp| |x| $))) (PUT '|DFLOAT;precision;Pi;10| '|SPADreplace| '(XLAM NIL (FLOAT-DIGITS 0.0))) (DEFUN |DFLOAT;precision;Pi;10| ($) (FLOAT-DIGITS 0.0)) (DEFUN |DFLOAT;bits;Pi;11| ($) (PROG (#0=#:G1419) (RETURN (COND ((EQL (FLOAT-RADIX 0.0) 2) (FLOAT-DIGITS 0.0)) ((EQL (FLOAT-RADIX 0.0) 16) (* 4 (FLOAT-DIGITS 0.0))) ('T (PROG1 (LETT #0# (FIX (SPADCALL (FLOAT-DIGITS 0.0) (SPADCALL (FLOAT (FLOAT-RADIX 0.0) MOST-POSITIVE-LONG-FLOAT) (|getShellEntry| $ 30)) (|getShellEntry| $ 31))) |DFLOAT;bits;Pi;11|) (|check-subtype| (> #0# 0) '(|PositiveInteger|) #0#))))))) (PUT '|DFLOAT;max;$;12| '|SPADreplace| '(XLAM NIL MOST-POSITIVE-LONG-FLOAT)) (DEFUN |DFLOAT;max;$;12| ($) MOST-POSITIVE-LONG-FLOAT) (PUT '|DFLOAT;min;$;13| '|SPADreplace| '(XLAM NIL MOST-NEGATIVE-LONG-FLOAT)) (DEFUN |DFLOAT;min;$;13| ($) MOST-NEGATIVE-LONG-FLOAT) (DEFUN |DFLOAT;order;$I;14| (|a| $) (- (+ (FLOAT-DIGITS 0.0) (SPADCALL |a| (|getShellEntry| $ 28))) 1)) (PUT '|DFLOAT;Zero;$;15| '|SPADreplace| '(XLAM NIL (FLOAT 0 MOST-POSITIVE-LONG-FLOAT))) (DEFUN |DFLOAT;Zero;$;15| ($) (FLOAT 0 MOST-POSITIVE-LONG-FLOAT)) (PUT '|DFLOAT;One;$;16| '|SPADreplace| '(XLAM NIL (FLOAT 1 MOST-POSITIVE-LONG-FLOAT))) (DEFUN |DFLOAT;One;$;16| ($) (FLOAT 1 MOST-POSITIVE-LONG-FLOAT)) (DEFUN |DFLOAT;exp1;$;17| ($) (/ (FLOAT 534625820200 MOST-POSITIVE-LONG-FLOAT) (FLOAT 196677847971 MOST-POSITIVE-LONG-FLOAT))) (PUT '|DFLOAT;pi;$;18| '|SPADreplace| '(XLAM NIL PI)) (DEFUN |DFLOAT;pi;$;18| ($) PI) (DEFUN |DFLOAT;coerce;$Of;19| (|x| $) (SPADCALL (FORMAT NIL (|getShellEntry| $ 6) |x|) (|getShellEntry| $ 41))) (DEFUN |DFLOAT;convert;$If;20| (|x| $) (SPADCALL |x| (|getShellEntry| $ 44))) (PUT '|DFLOAT;<;2$B;21| '|SPADreplace| '<) (DEFUN |DFLOAT;<;2$B;21| (|x| |y| $) (< |x| |y|)) (PUT '|DFLOAT;-;2$;22| '|SPADreplace| '-) (DEFUN |DFLOAT;-;2$;22| (|x| $) (- |x|)) (PUT '|DFLOAT;+;3$;23| '|SPADreplace| '+) (DEFUN |DFLOAT;+;3$;23| (|x| |y| $) (+ |x| |y|)) (PUT '|DFLOAT;-;3$;24| '|SPADreplace| '-) (DEFUN |DFLOAT;-;3$;24| (|x| |y| $) (- |x| |y|)) (PUT '|DFLOAT;*;3$;25| '|SPADreplace| '*) (DEFUN |DFLOAT;*;3$;25| (|x| |y| $) (* |x| |y|)) (PUT '|DFLOAT;*;I2$;26| '|SPADreplace| '*) (DEFUN |DFLOAT;*;I2$;26| (|i| |x| $) (* |i| |x|)) (PUT '|DFLOAT;max;3$;27| '|SPADreplace| 'MAX) (DEFUN |DFLOAT;max;3$;27| (|x| |y| $) (MAX |x| |y|)) (PUT '|DFLOAT;min;3$;28| '|SPADreplace| 'MIN) (DEFUN |DFLOAT;min;3$;28| (|x| |y| $) (MIN |x| |y|)) (PUT '|DFLOAT;=;2$B;29| '|SPADreplace| '=) (DEFUN |DFLOAT;=;2$B;29| (|x| |y| $) (= |x| |y|)) (PUT '|DFLOAT;/;$I$;30| '|SPADreplace| '/) (DEFUN |DFLOAT;/;$I$;30| (|x| |i| $) (/ |x| |i|)) (DEFUN |DFLOAT;sqrt;2$;31| (|x| $) (|DFLOAT;checkComplex| (SQRT |x|) $)) (DEFUN |DFLOAT;log10;2$;32| (|x| $) (|DFLOAT;checkComplex| (|log| |x|) $)) (PUT '|DFLOAT;**;$I$;33| '|SPADreplace| 'EXPT) (DEFUN |DFLOAT;**;$I$;33| (|x| |i| $) (EXPT |x| |i|)) (DEFUN |DFLOAT;**;3$;34| (|x| |y| $) (|DFLOAT;checkComplex| (EXPT |x| |y|) $)) (PUT '|DFLOAT;coerce;I$;35| '|SPADreplace| '(XLAM (|i|) (FLOAT |i| MOST-POSITIVE-LONG-FLOAT))) (DEFUN |DFLOAT;coerce;I$;35| (|i| $) (FLOAT |i| MOST-POSITIVE-LONG-FLOAT)) (PUT '|DFLOAT;exp;2$;36| '|SPADreplace| 'EXP) (DEFUN |DFLOAT;exp;2$;36| (|x| $) (EXP |x|)) (DEFUN |DFLOAT;log;2$;37| (|x| $) (|DFLOAT;checkComplex| (LN |x|) $)) (DEFUN |DFLOAT;log2;2$;38| (|x| $) (|DFLOAT;checkComplex| (LOG2 |x|) $)) (PUT '|DFLOAT;sin;2$;39| '|SPADreplace| 'SIN) (DEFUN |DFLOAT;sin;2$;39| (|x| $) (SIN |x|)) (PUT '|DFLOAT;cos;2$;40| '|SPADreplace| 'COS) (DEFUN |DFLOAT;cos;2$;40| (|x| $) (COS |x|)) (PUT '|DFLOAT;tan;2$;41| '|SPADreplace| 'TAN) (DEFUN |DFLOAT;tan;2$;41| (|x| $) (TAN |x|)) (PUT '|DFLOAT;cot;2$;42| '|SPADreplace| 'COT) (DEFUN |DFLOAT;cot;2$;42| (|x| $) (COT |x|)) (PUT '|DFLOAT;sec;2$;43| '|SPADreplace| 'SEC) (DEFUN |DFLOAT;sec;2$;43| (|x| $) (SEC |x|)) (PUT '|DFLOAT;csc;2$;44| '|SPADreplace| 'CSC) (DEFUN |DFLOAT;csc;2$;44| (|x| $) (CSC |x|)) (DEFUN |DFLOAT;asin;2$;45| (|x| $) (|DFLOAT;checkComplex| (ASIN |x|) $)) (DEFUN |DFLOAT;acos;2$;46| (|x| $) (|DFLOAT;checkComplex| (ACOS |x|) $)) (PUT '|DFLOAT;atan;2$;47| '|SPADreplace| 'ATAN) (DEFUN |DFLOAT;atan;2$;47| (|x| $) (ATAN |x|)) (DEFUN |DFLOAT;acsc;2$;48| (|x| $) (|DFLOAT;checkComplex| (ACSC |x|) $)) (PUT '|DFLOAT;acot;2$;49| '|SPADreplace| 'ACOT) (DEFUN |DFLOAT;acot;2$;49| (|x| $) (ACOT |x|)) (DEFUN |DFLOAT;asec;2$;50| (|x| $) (|DFLOAT;checkComplex| (ASEC |x|) $)) (PUT '|DFLOAT;sinh;2$;51| '|SPADreplace| 'SINH) (DEFUN |DFLOAT;sinh;2$;51| (|x| $) (SINH |x|)) (PUT '|DFLOAT;cosh;2$;52| '|SPADreplace| 'COSH) (DEFUN |DFLOAT;cosh;2$;52| (|x| $) (COSH |x|)) (PUT '|DFLOAT;tanh;2$;53| '|SPADreplace| 'TANH) (DEFUN |DFLOAT;tanh;2$;53| (|x| $) (TANH |x|)) (PUT '|DFLOAT;csch;2$;54| '|SPADreplace| 'CSCH) (DEFUN |DFLOAT;csch;2$;54| (|x| $) (CSCH |x|)) (PUT '|DFLOAT;coth;2$;55| '|SPADreplace| 'COTH) (DEFUN |DFLOAT;coth;2$;55| (|x| $) (COTH |x|)) (PUT '|DFLOAT;sech;2$;56| '|SPADreplace| 'SECH) (DEFUN |DFLOAT;sech;2$;56| (|x| $) (SECH |x|)) (PUT '|DFLOAT;asinh;2$;57| '|SPADreplace| 'ASINH) (DEFUN |DFLOAT;asinh;2$;57| (|x| $) (ASINH |x|)) (DEFUN |DFLOAT;acosh;2$;58| (|x| $) (|DFLOAT;checkComplex| (ACOSH |x|) $)) (DEFUN |DFLOAT;atanh;2$;59| (|x| $) (|DFLOAT;checkComplex| (ATANH |x|) $)) (PUT '|DFLOAT;acsch;2$;60| '|SPADreplace| 'ACSCH) (DEFUN |DFLOAT;acsch;2$;60| (|x| $) (ACSCH |x|)) (DEFUN |DFLOAT;acoth;2$;61| (|x| $) (|DFLOAT;checkComplex| (ACOTH |x|) $)) (DEFUN |DFLOAT;asech;2$;62| (|x| $) (|DFLOAT;checkComplex| (ASECH |x|) $)) (PUT '|DFLOAT;/;3$;63| '|SPADreplace| '/) (DEFUN |DFLOAT;/;3$;63| (|x| |y| $) (/ |x| |y|)) (PUT '|DFLOAT;negative?;$B;64| '|SPADreplace| 'MINUSP) (DEFUN |DFLOAT;negative?;$B;64| (|x| $) (MINUSP |x|)) (PUT '|DFLOAT;zero?;$B;65| '|SPADreplace| 'ZEROP) (DEFUN |DFLOAT;zero?;$B;65| (|x| $) (ZEROP |x|)) (PUT '|DFLOAT;hash;$I;66| '|SPADreplace| 'HASHEQ) (DEFUN |DFLOAT;hash;$I;66| (|x| $) (HASHEQ |x|)) (DEFUN |DFLOAT;recip;$U;67| (|x| $) (COND ((ZEROP |x|) (CONS 1 "failed")) ('T (CONS 0 (/ 1.0 |x|))))) (PUT '|DFLOAT;differentiate;2$;68| '|SPADreplace| '(XLAM (|x|) 0.0)) (DEFUN |DFLOAT;differentiate;2$;68| (|x| $) 0.0) (DEFUN |DFLOAT;Gamma;2$;69| (|x| $) (SPADCALL |x| (|getShellEntry| $ 95))) (DEFUN |DFLOAT;Beta;3$;70| (|x| |y| $) (SPADCALL |x| |y| (|getShellEntry| $ 97))) (PUT '|DFLOAT;wholePart;$I;71| '|SPADreplace| 'FIX) (DEFUN |DFLOAT;wholePart;$I;71| (|x| $) (FIX |x|)) (DEFUN |DFLOAT;float;2IPi$;72| (|ma| |ex| |b| $) (* |ma| (EXPT (FLOAT |b| MOST-POSITIVE-LONG-FLOAT) |ex|))) (PUT '|DFLOAT;convert;$Df;73| '|SPADreplace| '(XLAM (|x|) |x|)) (DEFUN |DFLOAT;convert;$Df;73| (|x| $) |x|) (DEFUN |DFLOAT;convert;$F;74| (|x| $) (SPADCALL |x| (|getShellEntry| $ 103))) (DEFUN |DFLOAT;rationalApproximation;$NniF;75| (|x| |d| $) (SPADCALL |x| |d| 10 (|getShellEntry| $ 107))) (DEFUN |DFLOAT;atan;3$;76| (|x| |y| $) (PROG (|theta|) (RETURN (SEQ (COND ((= |x| 0.0) (COND ((< 0.0 |y|) (/ PI 2)) ((< |y| 0.0) (- (/ PI 2))) ('T 0.0))) ('T (SEQ (LETT |theta| (ATAN (FLOAT-SIGN 1.0 (/ |y| |x|))) |DFLOAT;atan;3$;76|) (COND ((< |x| 0.0) (LETT |theta| (- PI |theta|) |DFLOAT;atan;3$;76|))) (COND ((< |y| 0.0) (LETT |theta| (- |theta|) |DFLOAT;atan;3$;76|))) (EXIT |theta|)))))))) (DEFUN |DFLOAT;retract;$F;77| (|x| $) (PROG (#0=#:G1494) (RETURN (SPADCALL |x| (PROG1 (LETT #0# (- (FLOAT-DIGITS 0.0) 1) |DFLOAT;retract;$F;77|) (|check-subtype| (>= #0# 0) '(|NonNegativeInteger|) #0#)) (FLOAT-RADIX 0.0) (|getShellEntry| $ 107))))) (DEFUN |DFLOAT;retractIfCan;$U;78| (|x| $) (PROG (#0=#:G1499) (RETURN (CONS 0 (SPADCALL |x| (PROG1 (LETT #0# (- (FLOAT-DIGITS 0.0) 1) |DFLOAT;retractIfCan;$U;78|) (|check-subtype| (>= #0# 0) '(|NonNegativeInteger|) #0#)) (FLOAT-RADIX 0.0) (|getShellEntry| $ 107)))))) (DEFUN |DFLOAT;retract;$I;79| (|x| $) (PROG (|n|) (RETURN (SEQ (LETT |n| (FIX |x|) |DFLOAT;retract;$I;79|) (EXIT (COND ((= |x| (FLOAT |n| MOST-POSITIVE-LONG-FLOAT)) |n|) ('T (|error| "Not an integer")))))))) (DEFUN |DFLOAT;retractIfCan;$U;80| (|x| $) (PROG (|n|) (RETURN (SEQ (LETT |n| (FIX |x|) |DFLOAT;retractIfCan;$U;80|) (EXIT (COND ((= |x| (FLOAT |n| MOST-POSITIVE-LONG-FLOAT)) (CONS 0 |n|)) ('T (CONS 1 "failed")))))))) (DEFUN |DFLOAT;sign;$I;81| (|x| $) (SPADCALL (FLOAT-SIGN |x| 1.0) (|getShellEntry| $ 113))) (PUT '|DFLOAT;abs;2$;82| '|SPADreplace| '(XLAM (|x|) (FLOAT-SIGN 1.0 |x|))) (DEFUN |DFLOAT;abs;2$;82| (|x| $) (FLOAT-SIGN 1.0 |x|)) (DEFUN |DFLOAT;manexp| (|x| $) (PROG (|s| #0=#:G1520 |me| |two53|) (RETURN (SEQ (EXIT (COND ((ZEROP |x|) (CONS 0 0)) ('T (SEQ (LETT |s| (SPADCALL |x| (|getShellEntry| $ 116)) |DFLOAT;manexp|) (LETT |x| (FLOAT-SIGN 1.0 |x|) |DFLOAT;manexp|) (COND ((< MOST-POSITIVE-LONG-FLOAT |x|) (PROGN (LETT #0# (CONS (+ (* |s| (SPADCALL MOST-POSITIVE-LONG-FLOAT (|getShellEntry| $ 27))) 1) (SPADCALL MOST-POSITIVE-LONG-FLOAT (|getShellEntry| $ 28))) |DFLOAT;manexp|) (GO #0#)))) (LETT |me| (MANEXP |x|) |DFLOAT;manexp|) (LETT |two53| (EXPT (FLOAT-RADIX 0.0) (FLOAT-DIGITS 0.0)) |DFLOAT;manexp|) (EXIT (CONS (* |s| (FIX (* |two53| (QCAR |me|)))) (- (QCDR |me|) (FLOAT-DIGITS 0.0)))))))) #0# (EXIT #0#))))) (DEFUN |DFLOAT;rationalApproximation;$2NniF;84| (|f| |d| |b| $) (PROG (|#G103| |nu| |ex| BASE #0=#:G1523 |de| |tol| |#G104| |q| |r| |p2| |q2| #1=#:G1541 |#G105| |#G106| |p0| |p1| |#G107| |#G108| |q0| |q1| |#G109| |#G110| |s| |t| #2=#:G1539) (RETURN (SEQ (EXIT (SEQ (PROGN (LETT |#G103| (|DFLOAT;manexp| |f| $) |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |nu| (QCAR |#G103|) |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |ex| (QCDR |#G103|) |DFLOAT;rationalApproximation;$2NniF;84|) |#G103|) (LETT BASE (FLOAT-RADIX 0.0) |DFLOAT;rationalApproximation;$2NniF;84|) (EXIT (COND ((< |ex| 0) (SEQ (LETT |de| (EXPT BASE (PROG1 (LETT #0# (- |ex|) |DFLOAT;rationalApproximation;$2NniF;84|) (|check-subtype| (>= #0# 0) '(|NonNegativeInteger|) #0#))) |DFLOAT;rationalApproximation;$2NniF;84|) (EXIT (COND ((< |b| 2) (|error| "base must be > 1")) ('T (SEQ (LETT |tol| (EXPT |b| |d|) |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |s| |nu| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |t| |de| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |p0| 0 |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |p1| 1 |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |q0| 1 |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |q1| 0 |DFLOAT;rationalApproximation;$2NniF;84|) (EXIT (SEQ G190 NIL (SEQ (PROGN (LETT |#G104| (DIVIDE2 |s| |t|) |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |q| (QCAR |#G104|) |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |r| (QCDR |#G104|) |DFLOAT;rationalApproximation;$2NniF;84|) |#G104|) (LETT |p2| (+ (* |q| |p1|) |p0|) |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |q2| (+ (* |q| |q1|) |q0|) |DFLOAT;rationalApproximation;$2NniF;84|) (COND ((OR (EQL |r| 0) (< (SPADCALL |tol| (ABS (- (* |nu| |q2|) (* |de| |p2|))) (|getShellEntry| $ 120)) (* |de| (ABS |p2|)))) (EXIT (PROGN (LETT #1# (SPADCALL |p2| |q2| (|getShellEntry| $ 119)) |DFLOAT;rationalApproximation;$2NniF;84|) (GO #1#))))) (PROGN (LETT |#G105| |p1| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |#G106| |p2| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |p0| |#G105| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |p1| |#G106| |DFLOAT;rationalApproximation;$2NniF;84|)) (PROGN (LETT |#G107| |q1| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |#G108| |q2| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |q0| |#G107| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |q1| |#G108| |DFLOAT;rationalApproximation;$2NniF;84|)) (EXIT (PROGN (LETT |#G109| |t| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |#G110| |r| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |s| |#G109| |DFLOAT;rationalApproximation;$2NniF;84|) (LETT |t| |#G110| |DFLOAT;rationalApproximation;$2NniF;84|)))) NIL (GO G190) G191 (EXIT NIL))))))))) ('T (SPADCALL (* |nu| (EXPT BASE (PROG1 (LETT #2# |ex| |DFLOAT;rationalApproximation;$2NniF;84|) (|check-subtype| (>= #2# 0) '(|NonNegativeInteger|) #2#)))) (|getShellEntry| $ 121))))))) #1# (EXIT #1#))))) (DEFUN |DFLOAT;**;$F$;85| (|x| |r| $) (PROG (|n| |d| #0=#:G1550) (RETURN (SEQ (EXIT (COND ((ZEROP |x|) (COND ((SPADCALL |r| (|getShellEntry| $ 122)) (|error| "0**0 is undefined")) ((SPADCALL |r| (|getShellEntry| $ 123)) (|error| "division by 0")) ('T 0.0))) ((OR (SPADCALL |r| (|getShellEntry| $ 122)) (= |x| 1.0)) 1.0) ('T (COND ((SPADCALL |r| (|spadConstant| $ 124) (|getShellEntry| $ 125)) |x|) ('T (SEQ (LETT |n| (SPADCALL |r| (|getShellEntry| $ 126)) |DFLOAT;**;$F$;85|) (LETT |d| (SPADCALL |r| (|getShellEntry| $ 127)) |DFLOAT;**;$F$;85|) (EXIT (COND ((MINUSP |x|) (COND ((ODDP |d|) (COND ((ODDP |n|) (PROGN (LETT #0# (- (SPADCALL (- |x|) |r| (|getShellEntry| $ 128))) |DFLOAT;**;$F$;85|) (GO #0#))) ('T (PROGN (LETT #0# (SPADCALL (- |x|) |r| (|getShellEntry| $ 128)) |DFLOAT;**;$F$;85|) (GO #0#))))) ('T (|error| "negative root")))) ((EQL |d| 2) (EXPT (SPADCALL |x| (|getShellEntry| $ 56)) |n|)) ('T (SPADCALL |x| (/ (FLOAT |n| MOST-POSITIVE-LONG-FLOAT) (FLOAT |d| MOST-POSITIVE-LONG-FLOAT)) (|getShellEntry| $ 59))))))))))) #0# (EXIT #0#))))) (DEFUN |DoubleFloat| () (PROG () (RETURN (PROG (#0=#:G1563) (RETURN (COND ((LETT #0# (HGET |$ConstructorCache| '|DoubleFloat|) |DoubleFloat|) (|CDRwithIncrement| (CDAR #0#))) ('T (UNWIND-PROTECT (PROG1 (CDDAR (HPUT |$ConstructorCache| '|DoubleFloat| (LIST (CONS NIL (CONS 1 (|DoubleFloat;|)))))) (LETT #0# T |DoubleFloat|)) (COND ((NOT #0#) (HREM |$ConstructorCache| '|DoubleFloat|))))))))))) (DEFUN |DoubleFloat;| () (PROG (|dv$| $ |pv$|) (RETURN (PROGN (LETT |dv$| '(|DoubleFloat|) . #0=(|DoubleFloat|)) (LETT $ (|newShell| 142) . #0#) (|setShellEntry| $ 0 |dv$|) (|setShellEntry| $ 3 (LETT |pv$| (|buildPredVector| 0 0 NIL) . #0#)) (|haddProp| |$ConstructorCache| '|DoubleFloat| NIL (CONS 1 $)) (|stuffDomainSlots| $) (|setShellEntry| $ 6 "~G") $)))) (MAKEPROP '|DoubleFloat| '|infovec| (LIST '#(NIL NIL NIL NIL NIL NIL '|format| (|String|) |DFLOAT;doubleFloatFormat;2S;1| (|OpenMathEncoding|) (0 . |OMencodingXML|) (|OpenMathDevice|) (4 . |OMopenString|) (|Void|) (10 . |OMputObject|) (|DoubleFloat|) (15 . |OMputFloat|) (21 . |OMputEndObject|) (26 . |OMclose|) |DFLOAT;OMwrite;$S;2| (|Boolean|) |DFLOAT;OMwrite;$BS;3| |DFLOAT;OMwrite;Omd$V;4| |DFLOAT;OMwrite;Omd$BV;5| (|PositiveInteger|) |DFLOAT;base;Pi;7| (|Integer|) |DFLOAT;mantissa;$I;8| |DFLOAT;exponent;$I;9| |DFLOAT;precision;Pi;10| |DFLOAT;log2;2$;38| (31 . *) |DFLOAT;bits;Pi;11| |DFLOAT;max;$;12| |DFLOAT;min;$;13| |DFLOAT;order;$I;14| (CONS IDENTITY (FUNCALL (|dispatchFunction| |DFLOAT;Zero;$;15|) $)) (CONS IDENTITY (FUNCALL (|dispatchFunction| |DFLOAT;One;$;16|) $)) |DFLOAT;exp1;$;17| |DFLOAT;pi;$;18| (|OutputForm|) (37 . |outputForm|) |DFLOAT;coerce;$Of;19| (|InputForm|) (42 . |convert|) |DFLOAT;convert;$If;20| |DFLOAT;<;2$B;21| |DFLOAT;-;2$;22| |DFLOAT;+;3$;23| |DFLOAT;-;3$;24| |DFLOAT;*;3$;25| |DFLOAT;*;I2$;26| |DFLOAT;max;3$;27| |DFLOAT;min;3$;28| |DFLOAT;=;2$B;29| |DFLOAT;/;$I$;30| |DFLOAT;sqrt;2$;31| |DFLOAT;log10;2$;32| |DFLOAT;**;$I$;33| |DFLOAT;**;3$;34| |DFLOAT;coerce;I$;35| |DFLOAT;exp;2$;36| |DFLOAT;log;2$;37| |DFLOAT;sin;2$;39| |DFLOAT;cos;2$;40| |DFLOAT;tan;2$;41| |DFLOAT;cot;2$;42| |DFLOAT;sec;2$;43| |DFLOAT;csc;2$;44| |DFLOAT;asin;2$;45| |DFLOAT;acos;2$;46| |DFLOAT;atan;2$;47| |DFLOAT;acsc;2$;48| |DFLOAT;acot;2$;49| |DFLOAT;asec;2$;50| |DFLOAT;sinh;2$;51| |DFLOAT;cosh;2$;52| |DFLOAT;tanh;2$;53| |DFLOAT;csch;2$;54| |DFLOAT;coth;2$;55| |DFLOAT;sech;2$;56| |DFLOAT;asinh;2$;57| |DFLOAT;acosh;2$;58| |DFLOAT;atanh;2$;59| |DFLOAT;acsch;2$;60| |DFLOAT;acoth;2$;61| |DFLOAT;asech;2$;62| |DFLOAT;/;3$;63| |DFLOAT;negative?;$B;64| |DFLOAT;zero?;$B;65| |DFLOAT;hash;$I;66| (|Union| $ '"failed") |DFLOAT;recip;$U;67| |DFLOAT;differentiate;2$;68| (|DoubleFloatSpecialFunctions|) (47 . |Gamma|) |DFLOAT;Gamma;2$;69| (52 . |Beta|) |DFLOAT;Beta;3$;70| |DFLOAT;wholePart;$I;71| |DFLOAT;float;2IPi$;72| |DFLOAT;convert;$Df;73| (|Float|) (58 . |convert|) |DFLOAT;convert;$F;74| (|Fraction| 26) (|NonNegativeInteger|) |DFLOAT;rationalApproximation;$2NniF;84| |DFLOAT;rationalApproximation;$NniF;75| |DFLOAT;atan;3$;76| |DFLOAT;retract;$F;77| (|Union| 105 '"failed") |DFLOAT;retractIfCan;$U;78| |DFLOAT;retract;$I;79| (|Union| 26 '"failed") |DFLOAT;retractIfCan;$U;80| |DFLOAT;sign;$I;81| |DFLOAT;abs;2$;82| (63 . |Zero|) (67 . /) (73 . *) (79 . |coerce|) (84 . |zero?|) (89 . |negative?|) (94 . |One|) (98 . =) (104 . |numer|) (109 . |denom|) |DFLOAT;**;$F$;85| (|PatternMatchResult| 102 $) (|Pattern| 102) (|Factored| $) (|List| $) (|Union| 132 '"failed") (|Record| (|:| |coef1| $) (|:| |coef2| $) (|:| |generator| $)) (|Record| (|:| |coef1| $) (|:| |coef2| $)) (|Union| 135 '"failed") (|Record| (|:| |quotient| $) (|:| |remainder| $)) (|Record| (|:| |coef| 132) (|:| |generator| $)) (|SparseUnivariatePolynomial| $) (|Record| (|:| |unit| $) (|:| |canonical| $) (|:| |associate| $)) (|SingleInteger|)) '#(~= 114 |zero?| 120 |wholePart| 125 |unitNormal| 130 |unitCanonical| 135 |unit?| 140 |truncate| 145 |tanh| 150 |tan| 155 |subtractIfCan| 160 |squareFreePart| 166 |squareFree| 171 |sqrt| 176 |sizeLess?| 181 |sinh| 187 |sin| 192 |sign| 197 |sech| 202 |sec| 207 |sample| 212 |round| 216 |retractIfCan| 221 |retract| 231 |rem| 241 |recip| 247 |rationalApproximation| 252 |quo| 265 |principalIdeal| 271 |prime?| 276 |precision| 281 |positive?| 285 |pi| 290 |patternMatch| 294 |order| 301 |one?| 306 |nthRoot| 311 |norm| 317 |negative?| 322 |multiEuclidean| 327 |min| 333 |max| 343 |mantissa| 353 |log2| 358 |log10| 363 |log| 368 |lcm| 373 |latex| 384 |inv| 389 |hash| 394 |gcdPolynomial| 404 |gcd| 410 |fractionPart| 421 |floor| 426 |float| 431 |factor| 444 |extendedEuclidean| 449 |exquo| 462 |expressIdealMember| 468 |exponent| 474 |exp1| 479 |exp| 483 |euclideanSize| 488 |doubleFloatFormat| 493 |divide| 498 |digits| 504 |differentiate| 508 |csch| 519 |csc| 524 |coth| 529 |cot| 534 |cosh| 539 |cos| 544 |convert| 549 |coerce| 569 |characteristic| 599 |ceiling| 603 |bits| 608 |base| 612 |atanh| 616 |atan| 621 |associates?| 632 |asinh| 638 |asin| 643 |asech| 648 |asec| 653 |acsch| 658 |acsc| 663 |acoth| 668 |acot| 673 |acosh| 678 |acos| 683 |abs| 688 ^ 693 |Zero| 711 |One| 715 |OMwrite| 719 |Gamma| 743 D 748 |Beta| 759 >= 765 > 771 = 777 <= 783 < 789 / 795 - 807 + 818 ** 824 * 854) '((|approximate| . 0) (|canonicalsClosed| . 0) (|canonicalUnitNormal| . 0) (|noZeroDivisors| . 0) ((|commutative| "*") . 0) (|rightUnitary| . 0) (|leftUnitary| . 0) (|unitsKnown| . 0)) (CONS (|makeByteWordVec2| 1 '(0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0)) (CONS '#(|FloatingPointSystem&| |RealNumberSystem&| |Field&| |EuclideanDomain&| NIL |UniqueFactorizationDomain&| |GcdDomain&| |DivisionRing&| |IntegralDomain&| |Algebra&| |Algebra&| |DifferentialRing&| NIL |OrderedRing&| |Module&| NIL NIL |Module&| NIL NIL NIL |Ring&| NIL NIL NIL NIL NIL NIL NIL |AbelianGroup&| NIL NIL |AbelianMonoid&| |Monoid&| NIL |OrderedSet&| |AbelianSemiGroup&| |SemiGroup&| |TranscendentalFunctionCategory&| NIL |SetCategory&| NIL |ElementaryFunctionCategory&| NIL |HyperbolicFunctionCategory&| |ArcTrigonometricFunctionCategory&| |TrigonometricFunctionCategory&| NIL NIL |RadicalCategory&| |RetractableTo&| |RetractableTo&| NIL NIL |BasicType&| NIL) (CONS '#((|FloatingPointSystem|) (|RealNumberSystem|) (|Field|) (|EuclideanDomain|) (|PrincipalIdealDomain|) (|UniqueFactorizationDomain|) (|GcdDomain|) (|DivisionRing|) (|IntegralDomain|) (|Algebra| 105) (|Algebra| $$) (|DifferentialRing|) (|CharacteristicZero|) (|OrderedRing|) (|Module| 105) (|EntireRing|) (|CommutativeRing|) (|Module| $$) (|OrderedAbelianGroup|) (|BiModule| 105 105) (|BiModule| $$ $$) (|Ring|) (|OrderedCancellationAbelianMonoid|) (|RightModule| 105) (|LeftModule| 105) (|LeftModule| $$) (|Rng|) (|RightModule| $$) (|OrderedAbelianMonoid|) (|AbelianGroup|) (|OrderedAbelianSemiGroup|) (|CancellationAbelianMonoid|) (|AbelianMonoid|) (|Monoid|) (|PatternMatchable| 102) (|OrderedSet|) (|AbelianSemiGroup|) (|SemiGroup|) (|TranscendentalFunctionCategory|) (|RealConstant|) (|SetCategory|) (|ConvertibleTo| 43) (|ElementaryFunctionCategory|) (|ArcHyperbolicFunctionCategory|) (|HyperbolicFunctionCategory|) (|ArcTrigonometricFunctionCategory|) (|TrigonometricFunctionCategory|) (|OpenMath|) (|ConvertibleTo| 130) (|RadicalCategory|) (|RetractableTo| 105) (|RetractableTo| 26) (|ConvertibleTo| 102) (|ConvertibleTo| 15) (|BasicType|) (|CoercibleTo| 40)) (|makeByteWordVec2| 141 '(0 9 0 10 2 11 0 7 9 12 1 11 13 0 14 2 11 13 0 15 16 1 11 13 0 17 1 11 13 0 18 2 0 0 24 0 31 1 40 0 15 41 1 43 0 15 44 1 94 15 15 95 2 94 15 15 15 97 1 102 0 15 103 0 105 0 118 2 105 0 26 26 119 2 26 0 106 0 120 1 105 0 26 121 1 105 20 0 122 1 105 20 0 123 0 105 0 124 2 105 20 0 0 125 1 105 26 0 126 1 105 26 0 127 2 0 20 0 0 1 1 0 20 0 89 1 0 26 0 99 1 0 140 0 1 1 0 0 0 1 1 0 20 0 1 1 0 0 0 1 1 0 0 0 77 1 0 0 0 65 2 0 91 0 0 1 1 0 0 0 1 1 0 131 0 1 1 0 0 0 56 2 0 20 0 0 1 1 0 0 0 75 1 0 0 0 63 1 0 26 0 116 1 0 0 0 80 1 0 0 0 67 0 0 0 1 1 0 0 0 1 1 0 111 0 112 1 0 114 0 115 1 0 105 0 110 1 0 26 0 113 2 0 0 0 0 1 1 0 91 0 92 2 0 105 0 106 108 3 0 105 0 106 106 107 2 0 0 0 0 1 1 0 138 132 1 1 0 20 0 1 0 0 24 29 1 0 20 0 1 0 0 0 39 3 0 129 0 130 129 1 1 0 26 0 35 1 0 20 0 1 2 0 0 0 26 1 1 0 0 0 1 1 0 20 0 88 2 0 133 132 0 1 0 0 0 34 2 0 0 0 0 53 0 0 0 33 2 0 0 0 0 52 1 0 26 0 27 1 0 0 0 30 1 0 0 0 57 1 0 0 0 62 1 0 0 132 1 2 0 0 0 0 1 1 0 7 0 1 1 0 0 0 1 1 0 26 0 90 1 0 141 0 1 2 0 139 139 139 1 1 0 0 132 1 2 0 0 0 0 1 1 0 0 0 1 1 0 0 0 1 3 0 0 26 26 24 100 2 0 0 26 26 1 1 0 131 0 1 2 0 134 0 0 1 3 0 136 0 0 0 1 2 0 91 0 0 1 2 0 133 132 0 1 1 0 26 0 28 0 0 0 38 1 0 0 0 61 1 0 106 0 1 1 0 7 7 8 2 0 137 0 0 1 0 0 24 1 1 0 0 0 93 2 0 0 0 106 1 1 0 0 0 78 1 0 0 0 68 1 0 0 0 79 1 0 0 0 66 1 0 0 0 76 1 0 0 0 64 1 0 43 0 45 1 0 130 0 1 1 0 102 0 104 1 0 15 0 101 1 0 0 105 1 1 0 0 26 60 1 0 0 105 1 1 0 0 26 60 1 0 0 0 1 1 0 40 0 42 0 0 106 1 1 0 0 0 1 0 0 24 32 0 0 24 25 1 0 0 0 83 2 0 0 0 0 109 1 0 0 0 71 2 0 20 0 0 1 1 0 0 0 81 1 0 0 0 69 1 0 0 0 86 1 0 0 0 74 1 0 0 0 84 1 0 0 0 72 1 0 0 0 85 1 0 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