(/VERSIONCHECK 2) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Thing|) |FFIELDC-;differentiate;2S;1|)) (DECLAIM (FTYPE (FUNCTION (|%Shell|) |%Thing|) |FFIELDC-;init;S;2|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Pair|) |FFIELDC-;nextItem;SU;3|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Thing|) |FFIELDC-;order;SOpc;4|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Pair|) |FFIELDC-;conditionP;MU;5|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Thing|) |FFIELDC-;charthRoot;2S;6|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Pair|) |FFIELDC-;charthRoot;SU;7|)) (DECLAIM (FTYPE (FUNCTION (|%Shell|) |%Thing|) |FFIELDC-;createPrimitiveElement;S;8|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Boolean|) |FFIELDC-;primitive?;SB;9|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) (|%IntegerSection| 1)) |FFIELDC-;order;SPi;10|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) (|%IntegerSection| 0)) |FFIELDC-;discreteLog;SNni;11|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Thing| |%Shell|) |%Pair|) |FFIELDC-;discreteLog;2SU;12|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Thing|) |FFIELDC-;squareFreePolynomial|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Thing|) |FFIELDC-;factorPolynomial|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Shell|) |%Thing|) |FFIELDC-;factorSquareFreePolynomial|)) (DECLAIM (FTYPE (FUNCTION (|%Thing| |%Thing| |%Shell|) |%Thing|) |FFIELDC-;gcdPolynomial;3Sup;16|)) (DEFUN |FFIELDC-;differentiate;2S;1| (|x| $) (|spadConstant| $ 7)) (DEFUN |FFIELDC-;init;S;2| ($) (|spadConstant| $ 7)) (DEFUN |FFIELDC-;nextItem;SU;3| (|a| $) (COND ((SPADCALL (SETQ |a| (SPADCALL (+ (SPADCALL |a| (|getShellEntry| $ 11)) 1) (|getShellEntry| $ 14))) (|getShellEntry| $ 16)) (CONS 1 "failed")) ('T (CONS 0 |a|)))) (DEFUN |FFIELDC-;order;SOpc;4| (|e| $) (SPADCALL (SPADCALL |e| (|getShellEntry| $ 19)) (|getShellEntry| $ 22))) (DEFUN |FFIELDC-;conditionP;MU;5| (|mat| $) (LET ((|l| (SPADCALL |mat| (|getShellEntry| $ 27)))) (SEQ (COND ((OR (NULL |l|) (SPADCALL (ELT $ 16) (|SPADfirst| |l|) (|getShellEntry| $ 31))) (EXIT (CONS 1 "failed")))) (EXIT (CONS 0 (SPADCALL (ELT $ 32) (|SPADfirst| |l|) (|getShellEntry| $ 34))))))) (DEFUN |FFIELDC-;charthRoot;2S;6| (|x| $) (SPADCALL |x| (QUOTIENT2 (SPADCALL (|getShellEntry| $ 40)) (|spadConstant| $ 41)) (|getShellEntry| $ 43))) (DEFUN |FFIELDC-;charthRoot;SU;7| (|x| $) (CONS 0 (SPADCALL |x| (|getShellEntry| $ 32)))) (DEFUN |FFIELDC-;createPrimitiveElement;S;8| ($) (PROG (|e|) (RETURN (LET* ((|sm1| (- (SPADCALL (|getShellEntry| $ 40)) 1)) (|start| (COND ((SPADCALL (SPADCALL (|getShellEntry| $ 48)) (CONS 1 "polynomial") (|getShellEntry| $ 49)) (|spadConstant| $ 41)) ('T 1))) (|found| NIL)) (SEQ (LET ((|i| |start|)) (LOOP (COND ((NOT (NOT |found|)) (RETURN NIL)) (T (SEQ (LETT |e| (SPADCALL (|check-subtype| (AND (>= |i| 0) (< 0 |i|)) '(|PositiveInteger|) |i|) (|getShellEntry| $ 14)) |FFIELDC-;createPrimitiveElement;S;8|) (EXIT (SETQ |found| (EQL (SPADCALL |e| (|getShellEntry| $ 19)) |sm1|)))))) (SETQ |i| (+ |i| 1)))) (EXIT |e|)))))) (DEFUN |FFIELDC-;primitive?;SB;9| (|a| $) (PROG (|explist| |q| |equalone|) (RETURN (SEQ (COND ((SPADCALL |a| (|getShellEntry| $ 16)) NIL) ('T (SEQ (LETT |explist| (SPADCALL (|getShellEntry| $ 56)) |FFIELDC-;primitive?;SB;9|) (LETT |q| (- (SPADCALL (|getShellEntry| $ 40)) 1) |FFIELDC-;primitive?;SB;9|) (LETT |equalone| NIL |FFIELDC-;primitive?;SB;9|) (LET ((#0=#:G1513 |explist|) (|exp| NIL)) (LOOP (COND ((OR (ATOM #0#) (PROGN (SETQ |exp| (CAR #0#)) NIL) (NOT (NOT |equalone|))) (RETURN NIL)) (T (SETQ |equalone| (SPADCALL (SPADCALL |a| (QUOTIENT2 |q| (CAR |exp|)) (|getShellEntry| $ 58)) (|getShellEntry| $ 59))))) (SETQ #0# (CDR #0#)))) (EXIT (NOT |equalone|))))))))) (DEFUN |FFIELDC-;order;SPi;10| (|e| $) (PROG (|primeDivisor| |a| |goon| |ord| |lof|) (RETURN (SEQ (COND ((SPADCALL |e| (|spadConstant| $ 7) (|getShellEntry| $ 63)) (|error| "order(0) is not defined ")) ('T (SEQ (LETT |ord| (- (SPADCALL (|getShellEntry| $ 40)) 1) |FFIELDC-;order;SPi;10|) (LETT |lof| (SPADCALL (|getShellEntry| $ 56)) |FFIELDC-;order;SPi;10|) (LET ((#0=#:G1514 |lof|)) (LOOP (COND ((ATOM #0#) (RETURN NIL)) (T (LET ((|rec| (CAR #0#))) (SEQ (LETT |a| (QUOTIENT2 |ord| (LETT |primeDivisor| (CAR |rec|) |FFIELDC-;order;SPi;10|)) |FFIELDC-;order;SPi;10|) (LETT |goon| (SPADCALL (SPADCALL |e| |a| (|getShellEntry| $ 58)) (|getShellEntry| $ 59)) |FFIELDC-;order;SPi;10|) (LET ((|j| 0) (#1=#:G1515 (- (CDR |rec|) 2))) (LOOP (COND ((OR (> |j| #1#) (NOT |goon|)) (RETURN NIL)) (T (SEQ (SETQ |ord| |a|) (SETQ |a| (QUOTIENT2 |ord| |primeDivisor|)) (EXIT (SETQ |goon| (SPADCALL (SPADCALL |e| |a| (|getShellEntry| $ 58)) (|getShellEntry| $ 59))))))) (SETQ |j| (+ |j| 1)))) (EXIT (COND (|goon| (SETQ |ord| |a|)))))))) (SETQ #0# (CDR #0#)))) (EXIT |ord|)))))))) (DEFUN |FFIELDC-;discreteLog;SNni;11| (|b| $) (PROG (|rho| |exptable| |n| |c| |end| |found| |disc1| |fac| |faclist| |a| |gen| |disclog| |mult| |groupord| |exp|) (RETURN (SEQ (COND ((SPADCALL |b| (|getShellEntry| $ 16)) (|error| "discreteLog: logarithm of zero")) ('T (SEQ (LETT |faclist| (SPADCALL (|getShellEntry| $ 56)) |FFIELDC-;discreteLog;SNni;11|) (LETT |a| |b| |FFIELDC-;discreteLog;SNni;11|) (LETT |gen| (SPADCALL (|getShellEntry| $ 65)) |FFIELDC-;discreteLog;SNni;11|) (EXIT (COND ((SPADCALL |b| |gen| (|getShellEntry| $ 63)) 1) ('T (SEQ (LETT |disclog| 0 |FFIELDC-;discreteLog;SNni;11|) (LETT |mult| 1 |FFIELDC-;discreteLog;SNni;11|) (LETT |groupord| (- (SPADCALL (|getShellEntry| $ 40)) 1) |FFIELDC-;discreteLog;SNni;11|) (LETT |exp| |groupord| |FFIELDC-;discreteLog;SNni;11|) (LET ((#0=#:G1516 |faclist|)) (LOOP (COND ((ATOM #0#) (RETURN NIL)) (T (LET ((|f| (CAR #0#))) (SEQ (LETT |fac| (CAR |f|) |FFIELDC-;discreteLog;SNni;11|) (EXIT (LET ((|t| 0) (#1=#:G1517 (- (CDR |f|) 1))) (LOOP (COND ((> |t| #1#) (RETURN NIL)) (T (SEQ (SETQ |exp| (QUOTIENT2 |exp| |fac|)) (LETT |exptable| (SPADCALL |fac| (|getShellEntry| $ 67)) |FFIELDC-;discreteLog;SNni;11|) (LETT |n| (SPADCALL |exptable| (|getShellEntry| $ 68)) |FFIELDC-;discreteLog;SNni;11|) (LETT |c| (SPADCALL |a| |exp| (|getShellEntry| $ 58)) |FFIELDC-;discreteLog;SNni;11|) (LETT |end| (QUOTIENT2 (- |fac| 1) |n|) |FFIELDC-;discreteLog;SNni;11|) (LETT |found| NIL |FFIELDC-;discreteLog;SNni;11|) (LETT |disc1| 0 |FFIELDC-;discreteLog;SNni;11|) (LET ((|i| 0)) (LOOP (COND ((OR (> |i| |end|) (NOT (NOT |found|))) (RETURN NIL)) (T (SEQ (LETT |rho| (SPADCALL (SPADCALL |c| (|getShellEntry| $ 11)) |exptable| (|getShellEntry| $ 71)) |FFIELDC-;discreteLog;SNni;11|) (EXIT (COND ((EQL (CAR |rho|) 0) (SEQ (SETQ |found| T) (EXIT (SETQ |disc1| (* (+ (* |n| |i|) (CDR |rho|)) |mult|))))) ('T (SETQ |c| (SPADCALL |c| (SPADCALL |gen| (* (QUOTIENT2 |groupord| |fac|) (- |n|)) (|getShellEntry| $ 58)) (|getShellEntry| $ 77))))))))) (SETQ |i| (+ |i| 1)))) (EXIT (COND (|found| (SEQ (SETQ |mult| (* |mult| |fac|)) (SETQ |disclog| (+ |disclog| |disc1|)) (EXIT (SETQ |a| (SPADCALL |a| (SPADCALL |gen| (- |disc1|) (|getShellEntry| $ 58)) (|getShellEntry| $ 77)))))) ('T (|error| "discreteLog: ?? discrete logarithm"))))))) (SETQ |t| (+ |t| 1))))))))) (SETQ #0# (CDR #0#)))) (EXIT |disclog|)))))))))))) (DEFUN |FFIELDC-;discreteLog;2SU;12| (|logbase| |b| $) (PROG (|rhoHelp| |rho| |fac| |primroot| |groupord| |faclist| |a| |disclog| |mult| |exp|) (RETURN (SEQ (COND ((SPADCALL |b| (|getShellEntry| $ 16)) (SEQ (SPADCALL "discreteLog: logarithm of zero" (|getShellEntry| $ 83)) (EXIT (CONS 1 "failed")))) ((SPADCALL |logbase| (|getShellEntry| $ 16)) (SEQ (SPADCALL "discreteLog: logarithm to base zero" (|getShellEntry| $ 83)) (EXIT (CONS 1 "failed")))) ((SPADCALL |b| |logbase| (|getShellEntry| $ 63)) (CONS 0 1)) ('T (COND ((NOT (ZEROP (REMAINDER2 (LETT |groupord| (SPADCALL |logbase| (|getShellEntry| $ 19)) |FFIELDC-;discreteLog;2SU;12|) (SPADCALL |b| (|getShellEntry| $ 19))))) (SEQ (SPADCALL "discreteLog: second argument not in cyclic group generated by first argument" (|getShellEntry| $ 83)) (EXIT (CONS 1 "failed")))) ('T (SEQ (LETT |faclist| (SPADCALL (SPADCALL |groupord| (|getShellEntry| $ 87)) (|getShellEntry| $ 89)) |FFIELDC-;discreteLog;2SU;12|) (LETT |a| |b| |FFIELDC-;discreteLog;2SU;12|) (LETT |disclog| 0 |FFIELDC-;discreteLog;2SU;12|) (LETT |mult| 1 |FFIELDC-;discreteLog;2SU;12|) (LETT |exp| |groupord| |FFIELDC-;discreteLog;2SU;12|) (LET ((#0=#:G1518 |faclist|)) (LOOP (COND ((ATOM #0#) (RETURN NIL)) (T (LET ((|f| (CAR #0#))) (SEQ (LETT |fac| (CAR |f|) |FFIELDC-;discreteLog;2SU;12|) (LETT |primroot| (SPADCALL |logbase| (QUOTIENT2 |groupord| |fac|) (|getShellEntry| $ 58)) |FFIELDC-;discreteLog;2SU;12|) (EXIT (LET ((|t| 0) (#1=#:G1519 (- (CDR |f|) 1))) (LOOP (COND ((> |t| #1#) (RETURN NIL)) (T (SEQ (SETQ |exp| (QUOTIENT2 |exp| |fac|)) (LETT |rhoHelp| (SPADCALL |primroot| (SPADCALL |a| |exp| (|getShellEntry| $ 58)) |fac| (|getShellEntry| $ 91)) |FFIELDC-;discreteLog;2SU;12|) (EXIT (COND ((EQL (CAR |rhoHelp|) 1) (RETURN-FROM |FFIELDC-;discreteLog;2SU;12| (CONS 1 "failed"))) ('T (SEQ (LETT |rho| (* (CDR |rhoHelp|) |mult|) |FFIELDC-;discreteLog;2SU;12|) (SETQ |disclog| (+ |disclog| |rho|)) (SETQ |mult| (* |mult| |fac|)) (EXIT (SETQ |a| (SPADCALL |a| (SPADCALL |logbase| (- |rho|) (|getShellEntry| $ 58)) (|getShellEntry| $ 77))))))))))) (SETQ |t| (+ |t| 1))))))))) (SETQ #0# (CDR #0#)))) (EXIT (CONS 0 |disclog|))))))))))) (DEFUN |FFIELDC-;squareFreePolynomial| (|f| $) (SPADCALL |f| (|getShellEntry| $ 96))) (DEFUN |FFIELDC-;factorPolynomial| (|f| $) (SPADCALL |f| (|getShellEntry| $ 98))) (DEFUN |FFIELDC-;factorSquareFreePolynomial| (|f| $) (PROG (|flist|) (RETURN (SEQ (COND ((SPADCALL |f| (|spadConstant| $ 99) (|getShellEntry| $ 100)) (|spadConstant| $ 101)) ('T (SEQ (LETT |flist| (SPADCALL |f| T (|getShellEntry| $ 105)) |FFIELDC-;factorSquareFreePolynomial|) (EXIT (SPADCALL (SPADCALL (CAR |flist|) (|getShellEntry| $ 106)) (LET ((#0=#:G1508 NIL) (#1=#:G1509 T) (#2=#:G1520 (CDR |flist|))) (LOOP (COND ((ATOM #2#) (RETURN (COND (#1# (|spadConstant| $ 109)) (T #0#)))) (T (LET ((|u| (CAR #2#))) (LET ((#3=#:G1507 (SPADCALL (CAR |u|) (CDR |u|) (|getShellEntry| $ 107)))) (COND (#1# (SETQ #0# #3#)) (T (SETQ #0# (SPADCALL #0# #3# (|getShellEntry| $ 108))))) (SETQ #1# NIL))))) (SETQ #2# (CDR #2#)))) (|getShellEntry| $ 110)))))))))) (DEFUN |FFIELDC-;gcdPolynomial;3Sup;16| (|f| |g| $) (SPADCALL |f| |g| (|getShellEntry| $ 112))) (DEFUN |FiniteFieldCategory&| (|#1|) (LET* ((|dv$1| (|devaluate| |#1|)) (|dv$| (LIST '|FiniteFieldCategory&| |dv$1|)) ($ (|newShell| 115)) (|pv$| (|buildPredVector| 0 0 NIL))) (|setShellEntry| $ 0 |dv$|) (|setShellEntry| $ 3 |pv$|) (|stuffDomainSlots| $) (|setShellEntry| $ 6 |#1|) $)) (MAKEPROP '|FiniteFieldCategory&| '|infovec| (LIST '#(NIL NIL NIL NIL NIL NIL (|local| |#1|) (0 . |Zero|) |FFIELDC-;differentiate;2S;1| |FFIELDC-;init;S;2| (|PositiveInteger|) (4 . |lookup|) (9 . |One|) (13 . +) (19 . |index|) (|Boolean|) (24 . |zero?|) (|Union| $ '"failed") |FFIELDC-;nextItem;SU;3| (29 . |order|) (|Integer|) (|OnePointCompletion| 10) (34 . |coerce|) |FFIELDC-;order;SOpc;4| (|Vector| 6) (|List| 24) (|Matrix| 6) (39 . |nullSpace|) (44 . |empty?|) (49 . |first|) (|Mapping| 15 6) (54 . |every?|) (60 . |charthRoot|) (|Mapping| 6 6) (65 . |map|) (|Vector| $) (|Union| 35 '"failed") (|Matrix| $) |FFIELDC-;conditionP;MU;5| (|NonNegativeInteger|) (71 . |size|) (75 . |characteristic|) (79 . |quo|) (85 . **) |FFIELDC-;charthRoot;2S;6| |FFIELDC-;charthRoot;SU;7| (91 . -) (|Union| '"prime" '"polynomial" '"normal" '"cyclic") (97 . |representationType|) (101 . =) (107 . |false|) (111 . |not|) (116 . =) |FFIELDC-;createPrimitiveElement;S;8| (|Record| (|:| |factor| 20) (|:| |exponent| 20)) (|List| 54) (122 . |factorsOfCyclicGroupSize|) (126 . |quo|) (132 . **) (138 . |one?|) |FFIELDC-;primitive?;SB;9| (143 . |Zero|) (147 . |Zero|) (151 . =) |FFIELDC-;order;SPi;10| (157 . |primitiveElement|) (|Table| 10 39) (161 . |tableForDiscreteLogarithm|) (166 . |#|) (171 . |One|) (|Union| 39 '"failed") (175 . |search|) (181 . |true|) (185 . *) (191 . +) (197 . *) (203 . -) (208 . *) (214 . +) |FFIELDC-;discreteLog;SNni;11| (|Void|) (|String|) (|OutputForm|) (220 . |messagePrint|) (225 . |rem|) (231 . |zero?|) (|Factored| $) (236 . |factor|) (|Factored| 20) (241 . |factors|) (|DiscreteLogarithmPackage| 6) (246 . |shanksDiscLogAlgorithm|) |FFIELDC-;discreteLog;2SU;12| (|SparseUnivariatePolynomial| 6) (|Factored| 93) (|UnivariatePolynomialSquareFree| 6 93) (253 . |squareFree|) (|DistinctDegreeFactorize| 6 93) (258 . |factor|) (263 . |Zero|) (267 . =) (273 . |Zero|) (|Record| (|:| |irr| 93) (|:| |pow| 20)) (|List| 102) (|Record| (|:| |cont| 6) (|:| |factors| 103)) (277 . |distdfact|) (283 . |coerce|) (288 . |primeFactor|) (294 . *) (300 . |One|) (304 . *) (|EuclideanDomain&| 93) (310 . |gcd|) (|SparseUnivariatePolynomial| $) |FFIELDC-;gcdPolynomial;3Sup;16|) '#(|primitive?| 316 |order| 321 |nextItem| 331 |init| 336 |gcdPolynomial| 340 |discreteLog| 346 |differentiate| 357 |createPrimitiveElement| 362 |conditionP| 366 |charthRoot| 371) 'NIL (CONS (|makeByteWordVec2| 1 'NIL) (CONS '#() (CONS '#() (|makeByteWordVec2| 114 '(0 6 0 7 1 6 10 0 11 0 10 0 12 2 10 0 0 0 13 1 6 0 10 14 1 6 15 0 16 1 6 10 0 19 1 21 0 20 22 1 26 25 0 27 1 25 15 0 28 1 25 24 0 29 2 24 15 30 0 31 1 6 0 0 32 2 24 0 33 0 34 0 6 39 40 0 6 39 41 2 39 0 0 0 42 2 6 0 0 39 43 2 20 0 0 0 46 0 6 47 48 2 47 15 0 0 49 0 15 0 50 1 15 0 0 51 2 10 15 0 0 52 0 6 55 56 2 20 0 0 0 57 2 6 0 0 20 58 1 6 15 0 59 0 39 0 61 0 20 0 62 2 6 15 0 0 63 0 6 0 65 1 6 66 20 67 1 66 39 0 68 0 39 0 69 2 66 70 10 0 71 0 15 0 72 2 39 0 39 0 73 2 39 0 0 0 74 2 20 0 20 0 75 1 20 0 0 76 2 6 0 0 0 77 2 20 0 0 0 78 1 82 80 81 83 2 39 0 0 0 84 1 39 15 0 85 1 20 86 0 87 1 88 55 0 89 3 90 70 6 6 39 91 1 95 94 93 96 1 97 94 93 98 0 93 0 99 2 93 15 0 0 100 0 94 0 101 2 97 104 93 15 105 1 93 0 6 106 2 94 0 93 20 107 2 94 0 0 0 108 0 94 0 109 2 94 0 93 0 110 2 111 0 0 0 112 1 0 15 0 60 1 0 10 0 64 1 0 21 0 23 1 0 17 0 18 0 0 0 9 2 0 113 113 113 114 1 0 39 0 79 2 0 70 0 0 92 1 0 0 0 8 0 0 0 53 1 0 36 37 38 1 0 0 0 44 1 0 17 0 45))))) '|lookupComplete|))