(FILECREATED "10-Jan-85 15:48:35" {ERIS}<LISPCORE>SOURCES>LLARITH.;15 143331Q

      changes to:  (FNS GCD)

      previous date: " 6-Jan-85 00:57:32" {ERIS}<LISPCORE>SOURCES>LLARITH.;14)


(* Copyright (c) 1982, 1983, 1984, 1985 by Xerox Corporation. All rights reserved. The following 
program was created in 1982  but has not been published within the meaning of the copyright law, is 
furnished under license, and may not be used, copied and/or disclosed except in accordance with the 
terms of said license.)

(PRETTYCOMPRINT LLARITHCOMS)

(RPAQQ LLARITHCOMS [(LOCALVARS . T)
	(COMS (* "OPCODES")
	      (FNS IDIFFERENCE IGREATERP IQUOTIENT)
	      (FNS \SLOWIPLUS2 \SLOWPLUS2 \SLOWIDIFFERENCE \SLOWDIFFERENCE \SLOWIGREATERP \SLOWLLSH1 
		   \SLOWLLSH8 \SLOWLOGAND2 \SLOWLOGOR2 \SLOWLOGXOR2 \SLOWLRSH1 \SLOWLRSH8 
		   \SLOWITIMES2 \SLOWTIMES2 \SLOWIQUOTIENT \SLOWQUOTIENT))
	(COMS (* "IPLUS and IDIFFERENCE that smash result into their first arg")
	      (FNS \BOXIPLUS \BOXIDIFFERENCE))
	(* "subfunctions")
	(FNS \MAKENUMBER)
	(FNS OVERFLOW)
	(INITVARS (\OVERFLOW 0))
	(E (RESETSAVE (RADIX 8)))
	(CONSTANTS (MAX.SMALLP 65535)
		   (MIN.SMALLP -65536)
		   (MAX.FIXP 2147483647)
		   (MIN.FIXP -2147483648)
		   (\SIGNBIT 32768))
	(COMS (* "For Compatibility. Someday these two names should be flushed -- JonL 7/25/83")
	      (CONSTANTS (MAX.INTEGER 2147483647)
			 (MIN.INTEGER -2147483648)))
	(FNS \GETBASEFIXP \PUTBASEFIXP \PUTBASEFIXP.UFN)
	(EXPORT (DECLARE: DONTCOPY (RECORDS FIXP)
			  (CONSTANTS (MAX.SMALL.INTEGER 65535)
				     (MAX.POS.HINUM 32767))
			  (MACROS .UNBOX. .NEGATE. .LLSH1. .LRSH1. .BOXIPLUS.)))
	(FNS EQP FIX IQUOTIENT IREMAINDER LLSH LRSH LSH RSH)
	(DECLARE: EVAL@COMPILE DONTCOPY (MACROS NBITS.OR.LESS .SUBSMALL. \IQUOTREM))
	(* "Machine independent arithmetic functions")
	(FNS MINUSP ILESSP IMINUS IPLUS ITIMES LOGAND LOGOR LOGXOR SUB1 ZEROP ADD1 GCD IEQP 
	     INTEGERLENGTH)
	(FNS ABS DIFFERENCE GREATERP PLUS QUOTIENT REMAINDER LESSP MINUS TIMES)
	(FNS FMINUS FREMAINDER)
	(FNS RANDSET RAND EXPT)
	(DECLARE: DONTEVAL@LOAD DOCOPY (VARS (RANDSTATE)
					     (\TOL 9.999992E-6)))
	(GLOBALVARS RANDSTATE \TOL)
	[COMS (FNS PutUnboxed \PUTFIXP \PUTSWAPPEDFIXP \HINUM \LONUM TRUNCATEMULTIPLY)
	      (EXPORT (DECLARE: DONTCOPY (MACROS PutUnboxed]
	(DECLARE: DONTEVAL@LOAD DOEVAL@COMPILE DONTCOPY COMPILERVARS
		  (ADDVARS (NLAMA)
			   (NLAML)
			   (LAMA TIMES PLUS LOGXOR LOGOR LOGAND ITIMES IPLUS])
(DECLARE: DOEVAL@COMPILE DONTCOPY

(LOCALVARS)
)



(* "OPCODES")

(DEFINEQ

(IDIFFERENCE
  [LAMBDA (X Y)                                              (* lmm "11-FEB-82 14:02")
    ((OPCODES IDIFFERENCE)
     X Y])

(IGREATERP
  [LAMBDA (X Y)                                              (* lmm "11-FEB-82 14:02")
    ((OPCODES IGREATERP)
     X Y])

(IQUOTIENT
  [LAMBDA (X Y)                                              (* lmm "11-FEB-82 14:02")
    ((OPCODES IQUOTIENT)
     X Y])
)
(DEFINEQ

(\SLOWIPLUS2
  [LAMBDA (X Y)                                              (* lmm " 2-Jul-84 17:10")
    (\CALLME (QUOTE IPLUS))
    (PROG (HX LX HY LY SIGNX)
          (.UNBOX. X HX LX)
          (.UNBOX. Y HY LY)
          (SETQ SIGNX (IGREATERP HX MAX.POS.HINUM))
          [SETQ HX (COND
	      [(IGREATERP HX (IDIFFERENCE MAX.SMALL.INTEGER HY))
		(IDIFFERENCE HX (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER HY]
	      (T (IPLUS HX HY]                               (* Add high parts)
          [SETQ LX (COND
	      [(IGREATERP LX (IDIFFERENCE MAX.SMALL.INTEGER LY))
                                                             (* Carry into high part.)
		[SETQ HX (COND
		    ((EQ HX MAX.SMALL.INTEGER)
		      0)
		    (T (ADD1 HX]
		(IDIFFERENCE LX (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER LY]
	      (T (IPLUS LX LY]
          (COND
	    ((AND (EQ SIGNX (IGREATERP HY MAX.POS.HINUM))
		  (NEQ SIGNX (IGREATERP HX MAX.POS.HINUM)))
                                                             (* overflow occurs if X and Y are same sign, but result 
							     is opposite sign)
	      (SELECTQ \OVERFLOW
		       (T (LISPERROR "OVERFLOW" (\MAKENUMBER HX LX)))
		       [NIL                                  (* return max/min)
			    (RETURN (COND
				      (SIGNX MIN.INTEGER)
				      (T MAX.INTEGER]
		       NIL)))
          (RETURN (\MAKENUMBER HX LX])

(\SLOWPLUS2
  [LAMBDA (X Y)                                              (* lmm "21-Aug-84 16:20")
                                                             (* UFN for PLUS Microcode generally handles the case of 
							     two args both FIXPs)
    (\CALLME (QUOTE PLUS))
    (PROG NIL
      LP  (RETURN (COND
		    ((OR (FLOATP X)
			 (FLOATP Y))
		      (FPLUS X Y))
		    ((NOT (FIXP X))
		      (SETQ X (LISPERROR "NON-NUMERIC ARG" X T))
		      (GO LP))
		    ((NOT (FIXP Y))
		      (SETQ Y (LISPERROR "NON-NUMERIC ARG" Y T))
		      (GO LP))
		    (T (IPLUS X Y])

(\SLOWIDIFFERENCE
  (LAMBDA (X Y)                                              (* JonL "27-Sep-84 22:59")
    (\CALLME (QUOTE IDIFFERENCE))
    (PROG (HX LX HY LY SIGNX)
          (.UNBOX. X HX LX)
          (.UNBOX. Y HY LY)                                  (* Allow this unboxing before the following test so 
							     that error checking will be performed on Y)
          (COND
	    ((EQ Y 0)
	      (RETURN (\MAKENUMBER HX LX))))
          (.NEGATE. HY LY)
          (SETQ SIGNX (IGREATERP HX MAX.POS.HINUM))
          (COND
	    ((COND
		((AND (EQ 0 LY)
		      (EQ HY \SIGNBIT))                      (* Y = -Y = Min.integer. Overflow occurs if X is 
							     positive)
		  (SETQ HX (LOGXOR HX HY))
		  (NOT SIGNX))
		(T (SETQ HX (COND
		       ((IGREATERP HX (IDIFFERENCE MAX.SMALL.INTEGER HY))
			 (IDIFFERENCE HX (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER HY))))
		       (T (IPLUS HX HY))))                   (* Add high parts)
		   (SETQ LX (COND
		       ((IGREATERP LX (IDIFFERENCE MAX.SMALL.INTEGER LY))
                                                             (* Carry into high part.)
			 (SETQ HX (COND
			     ((EQ HX MAX.SMALL.INTEGER)
			       0)
			     (T (ADD1 HX))))
			 (IDIFFERENCE LX (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER LY))))
		       (T (IPLUS LX LY))))                   (* overflow occurs if X and Y are same sign, but result
							     is opposite sign)
		   (AND (EQ SIGNX (IGREATERP HY MAX.POS.HINUM))
			(NEQ SIGNX (IGREATERP HX MAX.POS.HINUM)))))
	      (SELECTQ \OVERFLOW
		       (T (LISPERROR "OVERFLOW" (\MAKENUMBER HX LX)))
		       (NIL                                  (* return max/min)
			    (RETURN (COND
				      (SIGNX MIN.INTEGER)
				      (T MAX.INTEGER))))
		       NIL)))
          (RETURN (\MAKENUMBER HX LX)))))

(\SLOWDIFFERENCE
  [LAMBDA (X Y)                                              (* lmm "21-Aug-84 16:21")
                                                             (* UFN for DIFFERENCE Microcode generally handles the 
							     case of two args both FIXPs)
    (\CALLME (QUOTE DIFFERENCE))
    (PROG NIL
      LP  (RETURN (COND
		    ((OR (FLOATP X)
			 (FLOATP Y))
		      (FDIFFERENCE X Y))
		    ((NOT (FIXP X))
		      (SETQ X (LISPERROR "NON-NUMERIC ARG" X T))
		      (GO LP))
		    ((NOT (FIXP Y))
		      (SETQ Y (LISPERROR "NON-NUMERIC ARG" Y T))
		      (GO LP))
		    (T (IDIFFERENCE X Y])

(\SLOWIGREATERP
  [LAMBDA (X Y)                                              (* lmm " 2-Jul-84 17:10")
    (\CALLME (QUOTE IGREATERP))
    (PROG (HX LX HY LY)
          (.UNBOX. X HX LX)
          (.UNBOX. Y HY LY)
          (RETURN (COND
		    ((EQ HX HY)
		      (IGREATERP LX LY))
		    (T (IGREATERP (LOGXOR HX \SIGNBIT)
				  (LOGXOR HY \SIGNBIT])

(\SLOWLLSH1
  [LAMBDA (X)                                                (* lmm "13-OCT-82 15:27")
    (PROG (LO HI)
          (.UNBOX. X HI LO)
          (RETURN (\MAKENUMBER (IPLUS (LLSH (LOGAND HI 77777Q)
					    1)
				      (COND
					((IGREATERP LO 77777Q)
					  1)
					(T 0)))
			       (LLSH (LOGAND LO 77777Q)
				     1])

(\SLOWLLSH8
  [LAMBDA (X)                                                (* lmm "13-OCT-82 15:28")
    (PROG (HI LO)
          (.UNBOX. X HI LO)
          (RETURN (\MAKENUMBER (IPLUS (LLSH (LOGAND HI 377Q)
					    10Q)
				      (LRSH LO 10Q))
			       (LLSH (LOGAND LO 377Q)
				     10Q])

(\SLOWLOGAND2
  [LAMBDA (A B)                                              (* lmm " 2-Jul-84 17:11")
    (\CALLME (QUOTE LOGAND))
    (PROG (AH AL BH BL)
          (.UNBOX. A AH AL)
          (.UNBOX. B BH BL)
          (RETURN (\MAKENUMBER (LOGAND AH BH)
			       (LOGAND AL BL])

(\SLOWLOGOR2
  [LAMBDA (A B)                                              (* lmm " 2-Jul-84 17:11")
    (\CALLME (QUOTE LOGOR))
    (PROG (AH AL BH BL)
          (.UNBOX. A AH AL)
          (.UNBOX. B BH BL)
          (RETURN (\MAKENUMBER (LOGOR AH BH)
			       (LOGOR AL BL])

(\SLOWLOGXOR2
  [LAMBDA (A B)                                              (* lmm " 2-Jul-84 17:11")
    (\CALLME (QUOTE LOGXOR))
    (PROG (AH AL BH BL)
          (.UNBOX. A AH AL)
          (.UNBOX. B BH BL)
          (RETURN (\MAKENUMBER (LOGXOR AH BH)
			       (LOGXOR AL BL])

(\SLOWLRSH1
  (LAMBDA (X)                                                (* JonL "27-Sep-84 22:59")
    (PROG (HI LO)
          (.UNBOX. X HI LO)
          (RETURN (\MAKENUMBER (LRSH HI 1)
			       (IPLUS (LRSH LO 1)
				      (COND
					((EQ 0 (LOGAND HI 1))
					  0)
					(T 32768))))))))

(\SLOWLRSH8
  [LAMBDA (X)                                                (* lmm "13-OCT-82 15:29")
    (PROG (HI LO)
          (.UNBOX. X HI LO)
          (RETURN (\MAKENUMBER (LRSH HI 10Q)
			       (IPLUS (LLSH (LOGAND HI 377Q)
					    10Q)
				      (LRSH LO 10Q])

(\SLOWITIMES2
  (LAMBDA (X Y)                                              (* JonL "27-Sep-84 22:59")
    (\CALLME (QUOTE ITIMES))
    (COND
      ((OR (EQ X 0)
	   (EQ Y 0))
	0)
      (T (PROG (HX HY LX LY SIGN (HR 0)
		   (LR 0)
		   CARRY)
	       (.UNBOX. X HX LX)
	       (.UNBOX. Y HY LY)
	       (COND
		 ((IGREATERP HX MAX.POS.HINUM)
		   (.NEGATE. HX LX)
		   (SETQ SIGN T)))
	       (COND
		 ((IGREATERP HY MAX.POS.HINUM)
		   (.NEGATE. HY LY)
		   (SETQ SIGN (NOT SIGN))))
	       (COND
		 ((NEQ HY 0)
		   (COND
		     ((NEQ HX 0)
		       (GO OVER)))
		   (swap LX LY)
		   (swap HX HY)))
	   MLP (COND
		 ((ODDP (PROG1 LY (SETQ LY (LRSH LY 1))))
		   (COND
		     ((IGREATERP LR (IDIFFERENCE MAX.SMALL.INTEGER LX))
                                                             (* low parts overflow)
                                                             (* make the low word be the less significant bits and 
							     return the carry.)
		       (SETQ LR (IDIFFERENCE LR (IDIFFERENCE MAX.SMALL.INTEGER (SUB1 LX))))
		       (SETQ CARRY 1))
		     (T                                      (* no carry just add the low halves.)
			(SETQ LR (IPLUS LR LX))
			(SETQ CARRY 0)))

          (* the low order part of the answer has been set and CARRY is the numeric value of the carry from the low part 
	  either 0 or 1)


		   (COND
		     ((IGREATERP (SETQ HR (IPLUS HR HX CARRY))
				 MAX.POS.HINUM)
		       (COND
			 ((AND (EQ LY 0)
			       SIGN
			       (EQ HR (ADD1 MAX.POS.HINUM))
			       (EQ LR 0))
			   (RETURN MIN.INTEGER)))
		       (GO OVER)))))
	       (COND
		 ((EQ 0 LY)
		   (GO RET)))
	       (COND
		 ((IGEQ HX (LRSH (ADD1 MAX.POS.HINUM)
				 1))
		   (GO OVERTEST)))
	       (.LLSH1. HX LX)
	       (GO MLP)
	   OVERTEST
	       (COND
		 ((AND (EQ HX (LRSH (ADD1 MAX.POS.HINUM)
				    1))
		       (EQ 0 LX)
		       SIGN
		       (EQ LY 1)
		       (EQ HR 0)
		       (EQ LR 0))                            (* odd special case)
		   (RETURN MIN.INTEGER)))
	   OVER(SELECTQ \OVERFLOW
			(T (LISPERROR "OVERFLOW" (\MAKENUMBER HR LR)))
			(NIL (RETURN (COND
				       ((NULL SIGN)
					 MAX.INTEGER)
				       (T MIN.INTEGER))))
			(PROGN                               (* truncate -
							     this is awful code, but it works)
			       (RETURN (TRUNCATEMULTIPLY X Y))))
	   RET (COND
		 (SIGN (.NEGATE. HR LR)))
	       (RETURN (\MAKENUMBER HR LR)))))))

(\SLOWTIMES2
  [LAMBDA (X Y)                                              (* lmm "21-Aug-84 16:22")
                                                             (* UFN for TIMES Microcode generally handles the case of
							     two args both FIXPs)
    (\CALLME (QUOTE TIMES))
    (PROG NIL
      LP  (RETURN (COND
		    ((OR (FLOATP X)
			 (FLOATP Y))
		      (FTIMES X Y))
		    ((NOT (FIXP X))
		      (SETQ X (LISPERROR "NON-NUMERIC ARG" X T))
		      (GO LP))
		    ((NOT (FIXP Y))
		      (SETQ Y (LISPERROR "NON-NUMERIC ARG" Y T))
		      (GO LP))
		    (T (ITIMES X Y])

(\SLOWIQUOTIENT
  [LAMBDA (X Y)                                              (* lmm " 2-Jul-84 17:12")
    (\CALLME (QUOTE IQUOTIENT))
    (\IQUOTREM X Y X)
    X])

(\SLOWQUOTIENT
  [LAMBDA (X Y)                                              (* lmm "21-Aug-84 16:22")
                                                             (* UFN for QUOTIENT Microcode generally handles the case
							     of two args both FIXPs)
    (\CALLME (QUOTE QUOTIENT))
    (PROG NIL
      LP  (RETURN (COND
		    ((OR (FLOATP X)
			 (FLOATP Y))
		      (FQUOTIENT X Y))
		    ((NOT (FIXP X))
		      (SETQ X (LISPERROR "NON-NUMERIC ARG" X T))
		      (GO LP))
		    ((NOT (FIXP Y))
		      (SETQ Y (LISPERROR "NON-NUMERIC ARG" Y T))
		      (GO LP))
		    (T (IQUOTIENT X Y])
)



(* "IPLUS and IDIFFERENCE that smash result into their first arg")

(DEFINEQ

(\BOXIPLUS
  [LAMBDA (X Y)                                              (* lmm " 8-Aug-84 11:49")
                                                             (* UFN for BOXIPLUS ipcode)
    (.BOXIPLUS. X Y])

(\BOXIDIFFERENCE
  [LAMBDA (X Y)                                              (* lmm " 8-Aug-84 11:49")
    (PROG ((HX (\GETBASE X 0))
	   (LX (\GETBASE X 1))
	   HY LY)
          (.UNBOX. Y HY LY)
          (.NEGATE. HY LY)
          [SETQ HX (COND
	      [(IGREATERP HX (IDIFFERENCE MAX.SMALL.INTEGER HY))
		(IDIFFERENCE HX (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER HY]
	      (T (IPLUS HX HY]                               (* Add high parts)
          [\PUTBASE X 1 (COND
		      [(IGREATERP LX (IDIFFERENCE MAX.SMALL.INTEGER LY))
                                                             (* Carry into high part.)
			[SETQ HX (COND
			    ((EQ HX MAX.SMALL.INTEGER)
			      0)
			    (T (ADD1 HX]
			(IDIFFERENCE LX (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER LY]
		      (T (IPLUS LX LY]
          (\PUTBASE X 0 HX)
          (RETURN X])
)



(* "subfunctions")

(DEFINEQ

(\MAKENUMBER
  (LAMBDA (N0 N1)                                            (* JonL " 1-Jan-84 00:11")
                                                             (* used as punt case for arith opcodes which create 
							     large numbers)
    (SETQ N1 (.COERCE.TO.SMALLPOSP. N1))
    (SELECTC (SETQ N0 (.COERCE.TO.SMALLPOSP. N0))
	     (0 N1)
	     (65535                                          (* This is a word's worth of 1 bits)
		    (\VAG2 \SmallNegHi N1))
	     (create FIXP
		     HINUM ← N0
		     LONUM ← N1))))
)
(DEFINEQ

(OVERFLOW
  [LAMBDA (FLG)                    (* lmm: 14-JAN-76 1 6)
    (PROG1 \OVERFLOW (SETQ \OVERFLOW (SELECTQ FLG
					      (NIL NIL)
					      (T T)
					      0])
)

(RPAQ? \OVERFLOW 0)
(DECLARE: EVAL@COMPILE 

(RPAQQ MAX.SMALLP 177777Q)

(RPAQQ MIN.SMALLP -200000Q)

(RPAQQ MAX.FIXP 17777777777Q)

(RPAQQ MIN.FIXP -20000000000Q)

(RPAQQ \SIGNBIT 100000Q)

(CONSTANTS (MAX.SMALLP 177777Q)
	   (MIN.SMALLP -200000Q)
	   (MAX.FIXP 17777777777Q)
	   (MIN.FIXP -20000000000Q)
	   (\SIGNBIT 100000Q))
)



(* "For Compatibility. Someday these two names should be flushed -- JonL 7/25/83")

(DECLARE: EVAL@COMPILE 

(RPAQQ MAX.INTEGER 17777777777Q)

(RPAQQ MIN.INTEGER -20000000000Q)

(CONSTANTS (MAX.INTEGER 17777777777Q)
	   (MIN.INTEGER -20000000000Q))
)
(DEFINEQ

(\GETBASEFIXP
  [LAMBDA (BASE OFFST)                                       (* lmm " 5-Jan-85 23:11")
    ([LAMBDA (\NewBaseAddr)
	(\MAKENUMBER (\GETBASE \NewBaseAddr 0)
		     (\GETBASE \NewBaseAddr 1]
      (\ADDBASE BASE OFFST])

(\PUTBASEFIXP
  [LAMBDA (BASE OFFST VAL)                                   (* lmm " 5-Jan-85 23:16")
    (PROG (HI LO)
          (.XUNBOX. VAL HI LO)
          (\PUTBASE BASE OFFST HI)
          (\PUTBASE BASE (ADD1 OFFST)
		    LO)
      VAL (RETURN VAL])

(\PUTBASEFIXP.UFN
  [LAMBDA (BASE VAL OFFST)                                   (* lmm " 5-Jan-85 23:25")
    (PROG (HI LO)
          (.XUNBOX. VAL HI LO)
          (\PUTBASE BASE OFFST HI)
          (\PUTBASE BASE (ADD1 OFFST)
		    LO)
      VAL (RETURN VAL])
)
(* FOLLOWING DEFINITIONS EXPORTED)


(DECLARE: DONTCOPY 
[DECLARE: EVAL@COMPILE 

(BLOCKRECORD FIXP ((HINUM WORD)
		   (LONUM WORD))
		  (CREATE (CREATECELL \FIXP))
		  (TYPE? (EQ (NTYPX DATUM)
			     \FIXP)))
]

(DECLARE: EVAL@COMPILE 

(RPAQQ MAX.SMALL.INTEGER 177777Q)

(RPAQQ MAX.POS.HINUM 77777Q)

(CONSTANTS (MAX.SMALL.INTEGER 177777Q)
	   (MAX.POS.HINUM 77777Q))
)

(DECLARE: EVAL@COMPILE 

(PUTPROPS .UNBOX. MACRO [(V HV LV)
			 (PROG NIL
			   UBLP(SELECTC (NTYPX V)
					(\FIXP (SETQ HV (fetch (FIXP HINUM) of V))
					       (SETQ LV (fetch (FIXP LONUM) of V)))
					[\SMALLP (COND
						   ((IGEQ V 0)
						     (SETQ HV 0)
						     (SETQ LV V))
						   (T (SETQ HV 177777Q)
						      (SETQ LV (LOLOC V]
					(\FLOATP (SETQ V (\FIXP.FROM.FLOATP V))
						 (GO UBLP))
					(PROGN (SETQ V (LISPERROR "NON-NUMERIC ARG" V))
					       (GO UBLP])

(PUTPROPS .NEGATE. MACRO [(HY LY)
			  (COND
			    [(EQ 0 LY)
			      (AND (NEQ HY 0)
				   (SETQ HY (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER HY]
			    (T (SETQ HY (IDIFFERENCE MAX.SMALL.INTEGER HY))
			       (SETQ LY (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER LY])

(PUTPROPS .LLSH1. MACRO ((HI LO)                             (* shift the pair left one, assuming no overflow)
			 (SETQ HI (LLSH HI 1))
			 (SETQ LO (LLSH (COND
					  ((IGREATERP LO MAX.POS.HINUM)
					    (add HI 1)
					    (LOGAND LO MAX.POS.HINUM))
					  (T LO))
					1))))

(PUTPROPS .LRSH1. MACRO ((HI LO)
			 (SETQ LO (LRSH LO 1))
			 [COND
			   ((NEQ (LOGAND HI 1)
				 0)
			     (SETQ LO (IPLUS LO \SIGNBIT]
			 (SETQ HI (LRSH HI 1))))

(PUTPROPS .BOXIPLUS. MACRO (OPENLAMBDA (X Y)
				       (PROG ((HX (\GETBASE X 0))
					      (LX (\GETBASE X 1))
					      HY LY)
					     (.UNBOX. Y HY LY)
					     [SETQ HX (COND
						 [(IGREATERP HX (IDIFFERENCE MAX.SMALL.INTEGER HY))
						   (IDIFFERENCE HX (ADD1 (IDIFFERENCE 
										MAX.SMALL.INTEGER HY]
						 (T (IPLUS HX HY]
                                                             (* Add high parts)
					     [\PUTBASE X 1 (COND
							 [(IGREATERP LX (IDIFFERENCE 
										MAX.SMALL.INTEGER LY))
                                                             (* Carry into high part.)
							   [SETQ HX (COND
							       ((EQ HX MAX.SMALL.INTEGER)
								 0)
							       (T (ADD1 HX]
							   (IDIFFERENCE LX (ADD1 (IDIFFERENCE 
										MAX.SMALL.INTEGER LY]
							 (T (IPLUS LX LY]
					     (\PUTBASE X 0 HX)
					     (RETURN X))))
)
)


(* END EXPORTED DEFINITIONS)

(DEFINEQ

(EQP
  [LAMBDA (X Y)                                              (* lmm "21-JAN-82 08:20")
    (COND
      ((EQ X Y))
      [(AND (NUMBERP X)
	    (NUMBERP Y))
	(COND
	  ((OR (FLOATP X)
	       (FLOATP Y))
	    (FEQP X Y))
	  (T (IEQP X Y]
      ((EQ (NTYPX X)
	   (NTYPX Y))
	(SELECTC (NTYPX X)
		 (\STACKP (EQ (fetch (STACKP EDFXP) of X)
			      (fetch (STACKP EDFXP) of Y)))
		 (\ARRAYP (AND (EQ (fetch (ARRAYP TYP) of X)
				   \ST.CODE)
			       (EQDEFP X Y)))
		 NIL))
      (T NIL])

(FIX
  [LAMBDA (N)                      (* lmm "18-APR-80 18:08")
                                   (* FIX compiles open)
    (IPLUS N 0])

(IQUOTIENT
  [LAMBDA (X Y)                                              (* lmm "11-FEB-82 14:02")
    ((OPCODES IQUOTIENT)
     X Y])

(IREMAINDER
  [LAMBDA (X Y)                                              (* edited: "29-APR-82 05:01")
    (\IQUOTREM X Y NIL Y)
    Y])

(LLSH
  [LAMBDA (X N)                                              (* lmm "13-OCT-82 15:30")
    (COND
      ((IGREATERP 0 N)
	(LRSH X (IMINUS N)))
      (T (PROG (XHI XLO)
	       (.UNBOX. X XHI XLO)
	       (COND
		 ((IGREATERP N 37Q)
		   (RETURN 0)))
	       [COND
		 ((IGREATERP N 17Q)
		   (SETQ XHI XLO)
		   (SETQ XLO 0)
		   (SETQ N (IDIFFERENCE N 20Q]
	       [COND
		 ((IGREATERP N 7)
		   (SETQ XHI (IPLUS (LLSH (LOGAND XHI 377Q)
					  10Q)
				    (LRSH XLO 10Q)))
		   (SETQ XLO (LLSH (LOGAND XLO 377Q)
				   10Q))
		   (SETQ N (IDIFFERENCE N 10Q]
	       (FRPTQ N (SETQ XHI (LOGAND XHI MAX.POS.HINUM))
		      (.LLSH1. XHI XLO))
	       (RETURN (\MAKENUMBER XHI XLO])

(LRSH
  [LAMBDA (X N)                                              (* lmm "13-OCT-82 15:30")
                                                             (* assumes case where n is constant and 10Q or 1 handled
							     in microcode or by \SLOWLRSHn)
    (COND
      ((IGREATERP 0 N)
	(LLSH X (IMINUS N)))
      (T (PROG (XHI XLO)
	       (.UNBOX. X XHI XLO)
	       (COND
		 ((IGREATERP N 37Q)
		   (RETURN 0)))
	       [COND
		 ((IGREATERP N 17Q)
		   (SETQ XLO XHI)
		   (SETQ XHI 0)
		   (SETQ N (IDIFFERENCE N 20Q]
	       [COND
		 ((IGREATERP N 7)
		   (SETQ XLO (IPLUS (LRSH XLO 10Q)
				    (LLSH (LOGAND XHI 377Q)
					  10Q)))
		   (SETQ XHI (LRSH XHI 10Q))
		   (SETQ N (IDIFFERENCE N 10Q]
	       (FRPTQ N (.LRSH1. XHI XLO))
	       (RETURN (\MAKENUMBER XHI XLO])

(LSH
  (LAMBDA (X N)                                              (* JonL "27-Sep-84 23:00")
    (COND
      ((ILEQ N 0)
	(COND
	  ((EQ N 0)
	    X)
	  (T (RSH X (IMINUS N)))))
      ((IGREATERP N (CONSTANT (DIFFERENCE (TIMES 2 BITSPERWORD)
					  2)))               (* Shifting more than the non-sign bits just returns 
							     the sign bit)
	(COND
	  ((MINUSP X)                                        (* X was negative)
	    (AND (EQ \OVERFLOW T)
		 (NEQ X -1)
		 (LISPERROR "OVERFLOW" (CONSTANT MIN.INTEGER)))
	    (CONSTANT MIN.INTEGER))
	  (T (AND (EQ \OVERFLOW T)
		  (NEQ X 0)
		  (LISPERROR "OVERFLOW" 0))
	     0)))
      (T (PROG (XHI XLO (XSIGNBIT 0))
	       (.UNBOX. X XHI XLO)
	       (COND
		 ((IGEQ XHI \SIGNBIT)
		   (SETQ XSIGNBIT \SIGNBIT)))
	       (COND
		 ((IGEQ N (CONSTANT BITSPERWORD))
		   (AND (EQ \OVERFLOW T)
			(COND
			  ((EQ XSIGNBIT 0)
			    (OR (NEQ XHI 0)
				(NEQ (LOGAND XLO \SIGNBIT)
				     0)))
			  (T (OR (NEQ XHI MAX.SMALL.INTEGER)
				 (EQ (LOGAND XLO \SIGNBIT)
				     0))))
			(LISPERROR "OVERFLOW" X))
		   (SETQ XHI XLO)
		   (SETQ XLO 0)
		   (SETQ N (IDIFFERENCE N (CONSTANT BITSPERWORD)))))
                                                             (* N must be less than BITSPERWORD, i.e. 16, now)
	       (COND
		 ((IGREATERP N 7)
		   (PROGN (AND (EQ \OVERFLOW T)
			       (NEQ (LOGAND XHI 77400Q)
				    (COND
				      ((NEQ XSIGNBIT 0)
					77400Q)
				      (T 0)))
			       (LISPERROR "OVERFLOW" X))
			  (SETQ XHI (LOGOR (LLSH XHI 10Q)
					   (LRSH XLO 10Q)))
			  (SETQ XLO (LLSH (LOGAND XLO 377Q)
					  10Q))
			  (SETQ N (IDIFFERENCE N 10Q)))))
	       (FRPTQ N (AND (EQ \OVERFLOW T)
			     (COND
			       ((EQ 0 (LOGAND XHI 40000Q))
				 (NEQ XSIGNBIT 0))
			       (T (EQ XSIGNBIT 0)))
			     (LISPERROR "OVERFLOW" X))
		      (SETQ XHI (COND
			  ((EQ 0 (LOGAND XLO \SIGNBIT))
			    (LLSH XHI 1))
			  (T                                 (* Flush the high-order bit, so subsequent LSH of XLO 
							     won't overflow the SMALLP range)
			     (SETQ XLO (LOGXOR XLO \SIGNBIT))
			     (LOGOR (LLSH XHI 1)
				    1))))
		      (SETQ XLO (LLSH XLO 1)))
	       (SETQ XHI (LOGOR XSIGNBIT (LOGAND XHI MAX.POS.HINUM)))
	       (RETURN (\MAKENUMBER XHI XLO)))))))

(RSH
  (LAMBDA (X N)                                              (* JonL "27-Sep-84 23:00")
    (COND
      ((IGREATERP 0 N)
	(LSH X (IMINUS N)))
      (T (PROG (XHI XLO)
	       (.UNBOX. X XHI XLO)
	       (COND
		 ((IGREATERP N 37Q)
		   (RETURN (COND
			     ((IGREATERP XHI 77777Q)         (* X WAS NEGATIVE)
			       -1)
			     (T 0)))))
	       (COND
		 ((IGREATERP N 17Q)
		   (SETQ XLO XHI)
		   (SETQ XHI (COND
		       ((IGREATERP XHI 77777Q)
			 177777Q)
		       (T 0)))
		   (SETQ N (IDIFFERENCE N 20Q))))
	       (COND
		 ((IGREATERP N 7)
		   (SETQ XLO (IPLUS (LRSH XLO 10Q)
				    (LLSH (LOGAND XHI 377Q)
					  10Q)))
		   (SETQ XHI (IPLUS (LRSH XHI 10Q)
				    (COND
				      ((IGREATERP XHI 77777Q)
					177400Q)
				      (T 0))))
		   (SETQ N (IDIFFERENCE N 10Q))))
	       (FRPTQ N (SETQ XLO (IPLUS (LRSH XLO 1)
					 (COND
					   ((EQ 0 (LOGAND XHI 1))
					     0)
					   (T 100000Q))))
		      (SETQ XHI (IPLUS (LRSH XHI 1)
				       (LOGAND XHI 100000Q))))
	       (RETURN (\MAKENUMBER XHI XLO)))))))
)
(DECLARE: EVAL@COMPILE DONTCOPY 
(DECLARE: EVAL@COMPILE 

(PUTPROPS NBITS.OR.LESS MACRO [(X N)
			       (ILESSP X (CONSTANT (LLSH 1 N])

(PUTPROPS .SUBSMALL. MACRO ((X Y)                            (* Subtract Y from X, returning the borrow out of the 
							     next word)
			    (COND
			      ((ILEQ Y X)
				(SETQ X (IDIFFERENCE X Y))
				0)
			      (T [SETQ X (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER (IDIFFERENCE Y X]
				 1))))

(PUTPROPS \IQUOTREM MACRO ((X Y QUO REM)
			   (PROG (HX LX HY LY SIGNQUOTIENT SIGNREMAINDER (CNT 0)
				     (HZ 0)
				     (LZ 0))
			         (.UNBOX. X HX LX)
			         (.UNBOX. Y HY LY)
			         [COND
				   ((IGREATERP HX MAX.POS.HINUM)
				     (.NEGATE. HX LX)
				     (SETQ SIGNQUOTIENT (SETQ SIGNREMAINDER T]
                                                             (* Remainder has sign of dividend)
			         [COND
				   ((IGREATERP HY MAX.POS.HINUM)
				     (.NEGATE. HY LY)
				     (SETQ SIGNQUOTIENT (NOT SIGNQUOTIENT]
			         (COND
				   ((NEQ HX 0)
				     (GO BIGDIVIDEND))
				   ((NEQ HY 0)               (* Y is big, X is small, so result is 0)
				     (GO DONE))
				   ((EQ 0 LX)
				     (GO RET0))
				   ((EQ 0 LY)
				     (GO DIVZERO))
				   ((EQ LY 1)
				     (SETQ LZ LX)
				     (SETQ LX 0)
				     (GO DONE)))             (* here we are dividing small X by small Y, and we know
							     Y gt 1)
			     LP1                             (* shift Y left until it is as big as X, and count how 
							     many times)
			         (COND
				   ((AND (ILESSP LY LX)
					 (ILEQ LY MAX.POS.HINUM))
				     (SETQ LY (LLSH LY 1))
				     (SETQ CNT (ADD1 CNT))
				     (GO LP1)))
			     LP2                             (* now start dividing Y into X by subtracting and 
							     shifting, ending up with Y shifted back where it 
							     started)
			         [COND
				   ((ILEQ LY LX)
				     (SETQ LX (IDIFFERENCE LX LY))
                                                             (* Y divides X once, so add bit into quotient)
				     (SETQ LZ (ADD1 LZ]
			         (SETQ LY (LRSH LY 1))
			         (SETQ CNT (SUB1 CNT))
			         (COND
				   ((IGEQ CNT 0)
				     (SETQ LZ (LLSH LZ 1))
				     (GO LP2)))
			         (GO DONE)
			     BIGDIVIDEND                     (* X is big, so result may be big.
							     Algorithm is same as above, but everything is doubled 
							     in length)
			         [COND
				   ((EQ 0 HY)
				     [COND
				       ((EQ 0 (SETQ HY LY))
					 (GO DIVZERO))
				       ((AND SIGNREMAINDER (NULL SIGNQUOTIENT)
					     (EQ 1 LY)
					     (EQ HX \SIGNBIT)
					     (EQ 0 LX))      (* Means that X is MIN.FIXP and Y is -1)
					 (SELECTQ \OVERFLOW
						  (T (ERROR "DIVISION OVERFLOW" Y))
						  (GO RET0]
				     (SETQ LY 0)
				     (SETQ CNT 20Q))
				   ((AND SIGNREMAINDER (NULL SIGNQUOTIENT)
					 (EQ 0 LX)
					 (EQ HX \SIGNBIT)
					 (EQ 0 HY)
					 (EQ 1 LY))          (* Means that X is MIN.FIXP and Y is -1)
				     (SELECTQ \OVERFLOW
					      (T (ERROR "DIVISION OVERFLOW" Y))
					      (GO RET0]
			     BIGLP
			         (COND
				   ((AND (OR (AND (EQ HY HX)
						  (ILESSP LY LX))
					     (ILESSP HY HX))
					 (ILESSP HY MAX.POS.HINUM))
				     (.LLSH1. HY LY)
				     (SETQ CNT (ADD1 CNT))
				     (GO BIGLP)))
			     BIGLP2
			         (COND
				   ((OR (ILESSP HY HX)
					(AND (EQ HY HX)
					     (ILEQ LY LX)))
                                                             (* Y divides X, so subtract Y from X and put a bit in 
							     quotient)
				     (SETQ HX (IDIFFERENCE (IDIFFERENCE HX HY)
							   (.SUBSMALL. LX LY)))
				     (SETQ LZ (ADD1 LZ))     (* note that this never overflows, because of the 
							     preceding left shift)
				     ))
			         (.LRSH1. HY LY)
			         (SETQ CNT (SUB1 CNT))
			         (COND
				   ((IGEQ CNT 0)
				     (.LLSH1. HZ LZ)
				     (GO BIGLP2)))
			     DONE[COND
				   (REM                      (* remainder is left in X)
					(COND
					  (SIGNREMAINDER (.NEGATE. HX LX)))
					(SETQ REM (\MAKENUMBER HX LX]
			         [COND
				   (QUO (COND
					  (SIGNQUOTIENT (.NEGATE. HZ LZ)))
					(SETQ QUO (\MAKENUMBER HZ LZ]
			         (RETURN)
			     DIVZERO
			         (SELECTQ \OVERFLOW
					  (T (ERROR "DIVIDE BY ZERO" Y))
					  (GO RET0))
			     RET0(COND
				   (REM (SETQ REM 0)))
			         (COND
				   (QUO (SETQ QUO 0)))
			         (RETURN))))
)
)



(* "Machine independent arithmetic functions")

(DEFINEQ

(MINUSP
  [LAMBDA (X)                      (* lmm "17-DEC-80 20:56")
    (COND
      ((FLOATP X)
	(FGREATERP 0.0 X))
      (T (IGREATERP 0 X])

(ILESSP
  [LAMBDA (X Y)
    (IGREATERP Y X])

(IMINUS
  [LAMBDA (X)
    (IDIFFERENCE 0 X])

(IPLUS
  [LAMBDA N                                                  (* lmm " 2-MAR-82 10:05")
                                                             (* called only by interpreted code -
							     this defn relies on fact that compiler turns IPLUS calls
							     into sequences of opcodes)
    (SELECTQ N
	     (2 (IPLUS (ARG N 1)
		       (ARG N 2)))
	     (1 (IPLUS (ARG N 1)))
	     (0 (IPLUS))
	     (PROG ((R (IPLUS (ARG N 1)
			      (ARG N 2)
			      (ARG N 3)))
		    (J 4))
	       LP  (COND
		     ((ILEQ J N)
		       (SETQ R (IPLUS R (ARG N J)))
		       (SETQ J (ADD1 J))
		       (GO LP)))
	           (RETURN R])

(ITIMES
  [LAMBDA N                                                  (* lmm " 2-MAR-82 10:05")
                                                             (* called only by interpreted code -
							     this defn relies on fact that compiler turns ITIMES 
							     calls into sequences of opcodes)
    (SELECTQ N
	     (2 (ITIMES (ARG N 1)
			(ARG N 2)))
	     (1 (ITIMES (ARG N 1)))
	     (0 (ITIMES))
	     (PROG ((R (ITIMES (ARG N 1)
			       (ARG N 2)
			       (ARG N 3)))
		    (J 4))
	       LP  (COND
		     ((ILEQ J N)
		       (SETQ R (ITIMES R (ARG N J)))
		       (SETQ J (ADD1 J))
		       (GO LP)))
	           (RETURN R])

(LOGAND
  [LAMBDA N                                                  (* lmm " 2-MAR-82 10:05")
                                                             (* called only by interpreted code -
							     this defn relies on fact that compiler turns LOGAND 
							     calls into sequences of opcodes)
    (SELECTQ N
	     (2 (LOGAND (ARG N 1)
			(ARG N 2)))
	     (1 (LOGAND (ARG N 1)))
	     (0 (LOGAND))
	     (PROG ((R (LOGAND (ARG N 1)
			       (ARG N 2)
			       (ARG N 3)))
		    (J 4))
	       LP  (COND
		     ((ILEQ J N)
		       (SETQ R (LOGAND R (ARG N J)))
		       (SETQ J (ADD1 J))
		       (GO LP)))
	           (RETURN R])

(LOGOR
  [LAMBDA N                                                  (* lmm " 2-MAR-82 10:05")
                                                             (* called only by interpreted code -
							     this defn relies on fact that compiler turns LOGOR calls
							     into sequences of opcodes)
    (SELECTQ N
	     (2 (LOGOR (ARG N 1)
		       (ARG N 2)))
	     (1 (LOGOR (ARG N 1)))
	     (0 (LOGOR))
	     (PROG ((R (LOGOR (ARG N 1)
			      (ARG N 2)
			      (ARG N 3)))
		    (J 4))
	       LP  (COND
		     ((ILEQ J N)
		       (SETQ R (LOGOR R (ARG N J)))
		       (SETQ J (ADD1 J))
		       (GO LP)))
	           (RETURN R])

(LOGXOR
  [LAMBDA N                                                  (* lmm " 2-MAR-82 10:05")
                                                             (* called only by interpreted code -
							     this defn relies on fact that compiler turns LOGXOR 
							     calls into sequences of opcodes)
    (SELECTQ N
	     (2 (LOGXOR (ARG N 1)
			(ARG N 2)))
	     (1 (LOGXOR (ARG N 1)))
	     (0 (LOGXOR))
	     (PROG ((R (LOGXOR (ARG N 1)
			       (ARG N 2)
			       (ARG N 3)))
		    (J 4))
	       LP  (COND
		     ((ILEQ J N)
		       (SETQ R (LOGXOR R (ARG N J)))
		       (SETQ J (ADD1 J))
		       (GO LP)))
	           (RETURN R])

(SUB1
  [LAMBDA (X)                      (* lmm " 5-MAR-80 23:07")
    (IDIFFERENCE X 1])

(ZEROP
  (LAMBDA (X)                                                (* JonL "27-Sep-84 22:54")
    (\MACRO.MX (ZEROP X))))

(ADD1
  [LAMBDA (X)
    (IPLUS X 1])

(GCD
  [LAMBDA (N1 N2)                                            (* jds "10-Jan-85 15:42")
                                                             (* Greatest common divisor, using Euler's Method)
    (COND
      ((EQ 0 N2)
	N1)
      ((MINUSP N2)                                           (* GCD is always positive)
	(GCD (MINUS N2)
	     N1))
      (T (GCD N2 (IREMAINDER N1 N2])

(IEQP
  (LAMBDA (X Y)                                              (* JonL " 1-May-84 22:23")
    (EQ 0 (IDIFFERENCE X Y))))

(INTEGERLENGTH
  (LAMBDA (X)                                                (* JonL "18-OCT-82 21:51")
    (SELECTQ (SYSTEMTYPE)
	     (D                                              (* Foo, INTEGERLENGTH currently "boxes" on negative 
							     arguments)
		(SELECTC (NTYPX X)
			 (\SMALLP (COND
				    ((ILESSP X 0)
				      (SETQ X (MINUS X))))
				  (COND
				    ((NBITS.OR.LESS X 20Q)
				      (COND
					((NBITS.OR.LESS X 10Q)
					  (COND
					    ((NBITS.OR.LESS X 4)
					      (COND
						((NBITS.OR.LESS X 2)
						  (COND
						    ((NBITS.OR.LESS X 1)
						      (COND
							((EQ X 0)
							  0)
							(T 1)))
						    (T 2)))
						((NBITS.OR.LESS X 3)
						  3)
						(T 4)))
					    ((NBITS.OR.LESS X 6)
					      (COND
						((NBITS.OR.LESS X 5)
						  5)
						(T 6)))
					    ((NBITS.OR.LESS X 7)
					      7)
					    (T 10Q)))
					((NBITS.OR.LESS X 14Q)
					  (COND
					    ((NBITS.OR.LESS X 12Q)
					      (COND
						((NBITS.OR.LESS X 11Q)
						  11Q)
						(T 12Q)))
					    ((NBITS.OR.LESS X 13Q)
					      13Q)
					    (T 14Q)))
					((NBITS.OR.LESS X 16Q)
					  (COND
					    ((NBITS.OR.LESS X 15Q)
					      15Q)
					    (T 16Q)))
					((NBITS.OR.LESS X 17Q)
					  17Q)
					(T 20Q)))
				    (T (SHOULDNT))))
			 (\FIXP (PROG ((HX (fetch (FIXP HINUM) of X)))
				      (if (IGREATERP HX MAX.POS.HINUM)
					  then               (* So X is negative)
					       ((LAMBDA (LX)
						   (if (AND (EQ HX \SIGNBIT)
							    (EQ LX 0))
						       then 
                                                             (* So X is EQP to the minimum FIXP integer)
							    (RETURN (CONSTANT BITS.PER.FIXP))
						     else (.NEGATE. HX LX)))
						 (fetch (FIXP LONUM) of X)))
				      (RETURN (if (EQ HX 0)
						  then 

          (* This bizarre case shouldn't really happen, but I wouldn't like to rule it out -- a non-normalized FIXP that 
	  realy should be a SMALLP)


						       (INTEGERLENGTH (fetch (FIXP LONUM)
									 of X))
						else (IPLUS (INTEGERLENGTH HX)
							    BITSPERWORD)))))
			 (PROGN 

          (* Someday we'd like (COND ((OPEN-BIGNUMP X) (SETQ X (BNDS X)) (LET* ((N (SUB1 (BNDS-LENGTH X))) 
	  (HIGH-DIGIT (BNDS-REF X N))) (IPLUS (INTEGERLENGTH HIGH-DIGIT) (ITIMES (CONSTANT BIGNUMDIGIT.LENGTH) N))))))


				(INTEGERLENGTH (FIX X)))))
	     (PROG ((LEN (CONSTANT (LRSH (SUB1 BITS.PER.FIXP)
					 1)))
		    (BIT (CONSTANT (LLSH 1 (LRSH (SUB1 BITS.PER.FIXP)
						 1))))
		    (SHIFTER (CONSTANT (LLSH 1 (SUB1 (LRSH (SUB1 BITS.PER.FIXP)
							   1)))))
		    (ONEUP 0))                               (* 'len' IS LENGTH OF FIRST TRIAL 'bit')
                                                             (* 'shifter' IS amount by which to shift the 'bit' ON 
							     this round)
	           (IF (NOT (FIXP X))
		       THEN (SETQ X (FIX X)))
	       SCANBITS
	           (if (IGEQ X BIT)
		       then (if (ILESSP X (SETQ ONEUP (LSH BIT 1)))
				then                         (* Here, we've boiled it down to between two powers of 
							     2)
				     (RETURN LEN)
			      elseif (EQ ONEUP (CONSTANT (SUB1 BITS.PER.FIXP)))
				then                         (* May be it was actually the higher bit)
				     (RETURN (CONSTANT (SUB1 BITS.PER.FIXP))))
			    (SETQ BIT (LLSH BIT SHIFTER))
			    (SETQ LEN (IPLUS LEN SHIFTER))
		     elseif (IGEQ X (LRSH BIT 1))
		       then (RETURN (SUB1 LEN))
		     else (SETQ BIT (LRSH BIT SHIFTER))
			  (SETQ LEN (IDIFFERENCE LEN SHIFTER)))
	           (OR (EQ SHIFTER 1)
		       (SETQ SHIFTER (LRSH SHIFTER 1)))
	           (GO SCANBITS)))))
)
(DEFINEQ

(ABS
  (LAMBDA (X)                                                (* JonL "17-Mar-84 22:24")
    (COND
      ((FIXP X)
	(COND
	  ((ILESSP X 0)
	    (IDIFFERENCE 0 X))
	  (T X)))
      ((FLOATP X)
	(COND
	  ((FLESSP X 0.0)
	    (FDIFFERENCE 0.0 X))
	  (T X)))
      (T                                                     (* Note that there is no "contagion" for this function, 
							     as there is for PLUS and TIMES)
	 (LISPERROR "NON-NUMERIC ARG" X)))))

(DIFFERENCE
  [LAMBDA (X Y)                                              (* lmm "11-FEB-82 14:02")
    ((OPCODES DIFFERENCE)
     X Y])

(GREATERP
  [LAMBDA (X Y)                    (* lmm: 17-DEC-75 23Q 65Q)
    (COND
      ((AND (FIXP X)
	    (FIXP Y))
	(IGREATERP X Y))
      (T (FGREATERP X Y])

(PLUS
  (LAMBDA N                                                  (* JonL "17-Mar-84 22:17")
                                                             (* Microcode generally handles the case of two args both
							     FIXPs)
    (PROG (R (J 0))
      LP  (COND
	    ((NEQ J N)
	      (SETQ J (ADD1 J))
	      (SETQ R (COND
		  ((AND (FIXP (ARG N J))
			(NOT (FLOATP R)))
		    (IPLUS (OR R 0)
			   (ARG N J)))
		  (T (FPLUS (OR R 0.0)
			    (ARG N J)))))
	      (GO LP)))
          (RETURN R))))

(QUOTIENT
  [LAMBDA (X Y)                    (* lmm: 17-DEC-75 25Q 36Q)
    (COND
      ((AND (FIXP X)
	    (FIXP Y))
	(IQUOTIENT X Y))
      (T (FQUOTIENT X Y])

(REMAINDER
  [LAMBDA (X Y)                    (* lmm: 17-DEC-75 25Q 36Q)
    (COND
      ((AND (FIXP X)
	    (FIXP Y))
	(IREMAINDER X Y))
      (T (FREMAINDER X Y])

(LESSP
  [LAMBDA (X Y)                    (* lmm: 17-DEC-75 23Q 73Q)
    (COND
      ((AND (FIXP Y)
	    (FIXP X))
	(IGREATERP Y X))
      (T (FGREATERP Y X])

(MINUS
  (LAMBDA (X)                                                (* JonL "17-Mar-84 22:21")
    (COND
      ((FIXP X)
	(IDIFFERENCE 0 X))
      (T (FDIFFERENCE 0.0 X)))))

(TIMES
  (LAMBDA N                                                  (* JonL "17-Mar-84 22:22")
    (PROG (R (J 0))
      LP  (COND
	    ((NEQ J N)
	      (SETQ J (ADD1 J))
	      (SETQ R (COND
		  ((AND (FIXP (ARG N J))
			(NOT (FLOATP R)))
		    (ITIMES (OR R 1)
			    (ARG N J)))
		  (T (FTIMES (OR R 1.0)
			     (ARG N J)))))
	      (GO LP)))
          (RETURN R))))
)
(DEFINEQ

(FMINUS
  [LAMBDA (X)                      (* lmm " 5-MAR-80 23:12")
    (FDIFFERENCE 0.0 X])

(FREMAINDER
  [LAMBDA (X Y)                    (* rrb "24-APR-80 10:37")
    (FDIFFERENCE X (FTIMES (FLOAT (FIX (FQUOTIENT X Y)))
			   Y])
)
(DEFINEQ

(RANDSET
  [LAMBDA (X)                                                (* lmm "21-Aug-84 14:42")
    (PROG (RS RS1 RS2)
          (COND
	    ((NULL X)
	      (GO OUT))
	    ((EQ X T)                                        (* initialize with clock)
	      (SETQ RS1 (CLOCK))
	      (SETQ RS2 (IDATE)))
	    ((AND (FIXP (CDR (LISTP X)))
		  (FIXP (CAR X)))                            (* user supplies initialization, old-style)
	      (SETQ RS1 (CAR X))
	      (SETQ RS2 (CDR X)))
	    ((AND (EQ (LENGTH X)
		      67Q)
		  (EVERY X (FUNCTION FIXP)))
	      [SETQ RS (MAPCAR X (FUNCTION (LAMBDA (N)
				   (IPLUS N]
	      (GO XX))
	    (T (ERROR (QUOTE "ARG NOT PREVIOUS VALUE OF RANDSET")
		      X)))
          [PROG ((\OVERFLOW 0))
	        (DECLARE (SPECVARS \OVERFLOW))
	        (SETQ RS
		  (MAPCAR (QUOTE (150177Q 134506Q 2372Q 154626Q 170230Q 66113Q 25744Q 40670Q 105776Q 
					  171521Q 26405Q 111676Q 103564Q 151Q 162576Q 66157Q 23404Q 
					  10171Q 157167Q 73124Q 57746Q 2565Q 152474Q 151770Q 124444Q 
					  7426Q 114136Q 26172Q 146043Q 2037Q 1673Q 37700Q 46706Q 
					  162146Q 6277Q 176221Q 3250Q 41735Q 156764Q 41547Q 144665Q 
					  135532Q 63240Q 10560Q 5504Q 145075Q 114776Q 176503Q 160605Q 
					  104147Q 12303Q 27516Q 35414Q 23625Q 25100Q))
			  (FUNCTION (LAMBDA (Z)
			      (SETQ RS1 (LOGAND RS1 177777Q))
			      (LOGXOR Z (SETQ RS2 (PROG1 (LOGAND (IPLUS (ITIMES RS1 46635Q)
									RS1)
								 177777Q)
							 (SETQ RS1 RS2]
      XX  (FRPLACD (LAST RS)
		   RS)
          (SETQ RANDSTATE (CONS RS (FNTH RS 37Q)))
      OUT (RETURN (for X in (CAR RANDSTATE) as I from 1 to 67Q collect X])

(RAND
  [LAMBDA (LOWER UPPER)                                      (* edited: "29-Mar-84 15:49")

          (* This function implements the XRAND subroutine described in Stanford memo STAN-CS-77-601, Analysis of Additive 
	  Random Number Generators, by John F. Reiser, on p 28.0 Rather than storing the X values in an array and computing 
	  indexes I and J, however, I have elected to retain state in a circular list of 63Q elements.
	  RANDSTATE is (CONS X (NTH X 37Q)); each time RAND is called, both CAR and CDR of RANDSTATE are CDR'ed to 
	  effectively increment the index. In addition, the numbers are stored as 20Q bit binary fractions 
	  (i.e. the decimal point is on the left of the 16-bit quantity))


    (PROG (I J)
          (OR (LISTP RANDSTATE)
	      (PROGN (RANDSET T)
		     RANDSTATE))
          (SETQ I (CDAR RANDSTATE))
          (SETQ J (CDDR RANDSTATE))
          (RPLNODE RANDSTATE I J)
          (RPLACA I (LOGAND (IDIFFERENCE (CAR I)
					 (CAR J))
			    MAX.SMALLP)))
    (COND
      [(NOT UPPER)
	(COND
	  ((NULL LOWER)                                      (* both UPPER and LOWER nil. Return number 
							     (0 .. MAX.SMALLP) -
							     not documented)
	    (CAAR RANDSTATE))
	  ((FIXP LOWER)                                      (* (RAND n) = (RAND 0 n-1))
	    (IREMAINDER (CAAR RANDSTATE)
			LOWER))
	  (T                                                 (* (RAND N) N floating. Return 
							     (RAND 0 N))
	     (FTIMES LOWER (FQUOTIENT (CAAR RANDSTATE)
				      (CONSTANT (FLOAT (ADD1 MAX.SMALLP]
      [(AND (FIXP LOWER)
	    (FIXP UPPER))
	(OR (IGREATERP UPPER LOWER)
	    (swap UPPER LOWER))
	(SETQ UPPER (IDIFFERENCE UPPER LOWER))
	(COND
	  ((IGREATERP UPPER MAX.SMALLP)
	    (IPLUS (IMOD (\MAKENUMBER (CAAR RANDSTATE)
				      (CADAR RANDSTATE))
			 (ADD1 UPPER))
		   LOWER))
	  (T (IPLUS (IREMAINDER (CAAR RANDSTATE)
				(ADD1 UPPER))
		    LOWER]
      (T (FPLUS [FTIMES (FDIFFERENCE UPPER LOWER)
			(FQUOTIENT (CAAR RANDSTATE)
				   (CONSTANT (FLOAT (ADD1 MAX.SMALLP]
		LOWER])

(EXPT
  (LAMBDA (A N)                                              (* JonL " 2-Jul-84 16:08")
    (if (FIXP N)
	then (if (FIXP A)
		 then (if (NOT (IGREATERP N 0))
			  then (if (EQ 0 N)
				   then 1
				 else (FEXPT A N))
			elseif (EQ 0 A)
			  then 0
			else                                 (* Integer EXPonentiation -- works by clever 
							     bit-dissection method)
			     (PROG ((V 1))
			       LP  (if (ODDP N)
				       then (SETQ V (TIMES A V)))
			           (if (EQ 0 (SETQ N (LRSH N 1)))
				       then (RETURN V))
			           (SETQ A (TIMES A A))
			           (GO LP)))
	       elseif (FEQP 0.0 (SETQ A (FLOAT A)))
		 then (if (EQ 0 N)
			  then 1.0
			else 0.0)
	       else                                          (* Real EXPonentiation -- works by clever bit-dissection
							     method)
		    (PROG ((V 1.0))
		          (if (ILESSP N 0)
			      then (SETQ A (FQUOTIENT 1.0 A))
				   (SETQ N (IMINUS N)))
		      LP  (if (ODDP N)
			      then (SETQ V (TIMES A V)))
		          (if (EQ 0 (SETQ N (LRSH N 1)))
			      then (RETURN V))
		          (SETQ A (TIMES A A))
		          (GO LP)))
      else (FEXPT A N))))
)
(DECLARE: DONTEVAL@LOAD DOCOPY 

(RPAQQ RANDSTATE NIL)

(RPAQQ \TOL 9.999992E-6)
)
(DECLARE: DOEVAL@COMPILE DONTCOPY

(GLOBALVARS RANDSTATE \TOL)
)
(DEFINEQ

(PutUnboxed
  (LAMBDA (PTR NUM)                                          (* JonL "25-JUL-83 02:29")
    (\PUTFIXP PTR NUM)))

(\PUTFIXP
  [LAMBDA (PTR NUM)                                          (* lmm "11-DEC-80 15:10")
    (PROG (HI LO)
          (.UNBOX. NUM HI LO)
          (replace (FIXP HINUM) of PTR with HI)
          (replace (FIXP LONUM) of PTR with LO)
          (RETURN NUM])

(\PUTSWAPPEDFIXP
  [LAMBDA (PTR NUM)                                          (* edited: " 7-JUN-83 10:34")
                                                             (* store in MESA order rather than LISP order)
    (PROG (HI LO)
          (.UNBOX. NUM HI LO)
          (replace (FIXP LONUM) of PTR with HI)
          (replace (FIXP HINUM) of PTR with LO)
          (RETURN NUM])

(\HINUM
  [LAMBDA (NUM)                    (* lmm "12-APR-81 22:01")
    (PROG (HI LO)
          (.UNBOX. NUM HI LO)
          (RETURN HI])

(\LONUM
  [LAMBDA (NUM)                    (* lmm "12-APR-81 22:02")
    (PROG (HI LO)
          (.UNBOX. NUM HI LO)
          (RETURN LO])

(TRUNCATEMULTIPLY
  (LAMBDA (X Y)                                              (* JonL "27-Sep-84 23:01")
                                                             (* this is a dreadful kludge.
							     -
							     do unsigned multiply mod 40Q)
    (COND
      ((EQ 0 Y)
	0)
      ((EQ (LOGAND Y 1)
	   1)
	(IPLUS X (TRUNCATEMULTIPLY (LLSH X 1)
				   (LRSH Y 1))))
      (T (TRUNCATEMULTIPLY (LLSH X 1)
			   (LRSH Y 1))))))
)
(* FOLLOWING DEFINITIONS EXPORTED)


(DECLARE: DONTCOPY 
(DECLARE: EVAL@COMPILE 

(PUTPROPS PutUnboxed DMACRO (= . \PUTFIXP))
)
)


(* END EXPORTED DEFINITIONS)

(DECLARE: DONTEVAL@LOAD DOEVAL@COMPILE DONTCOPY COMPILERVARS 

(ADDTOVAR NLAMA )

(ADDTOVAR NLAML )

(ADDTOVAR LAMA TIMES PLUS LOGXOR LOGOR LOGAND ITIMES IPLUS)
)
(PUTPROPS LLARITH COPYRIGHT ("Xerox Corporation" T 3676Q 3677Q 3700Q 3701Q))
(DECLARE: DONTCOPY
  (FILEMAP (NIL (4726Q 5625Q (IDIFFERENCE 4740Q . 5161Q) (IGREATERP 5163Q . 5404Q) (IQUOTIENT 5406Q . 
5623Q)) (5626Q 34155Q (\SLOWIPLUS2 5640Q . 10516Q) (\SLOWPLUS2 10520Q . 11643Q) (\SLOWIDIFFERENCE 
11645Q . 15577Q) (\SLOWDIFFERENCE 15601Q . 16761Q) (\SLOWIGREATERP 16763Q . 17557Q) (\SLOWLLSH1 17561Q
 . 20343Q) (\SLOWLLSH8 20345Q . 21055Q) (\SLOWLOGAND2 21057Q . 21534Q) (\SLOWLOGOR2 21536Q . 22207Q) (
\SLOWLOGXOR2 22211Q . 22666Q) (\SLOWLRSH1 22670Q . 23410Q) (\SLOWLRSH8 23412Q . 24066Q) (\SLOWITIMES2 
24070Q . 31375Q) (\SLOWTIMES2 31377Q . 32526Q) (\SLOWIQUOTIENT 32530Q . 33004Q) (\SLOWQUOTIENT 33006Q
 . 34153Q)) (34271Q 36451Q (\BOXIPLUS 34303Q . 34637Q) (\BOXIDIFFERENCE 34641Q . 36447Q)) (36505Q 
37566Q (\MAKENUMBER 36517Q . 37564Q)) (37567Q 40065Q (OVERFLOW 37601Q . 40063Q)) (41245Q 42757Q (
\GETBASEFIXP 41257Q . 41655Q) (\PUTBASEFIXP 41657Q . 42313Q) (\PUTBASEFIXP.UFN 42315Q . 42755Q)) (
50433Q 65137Q (EQP 50445Q . 51465Q) (FIX 51467Q . 51722Q) (IQUOTIENT 51724Q . 52141Q) (IREMAINDER 
52143Q . 52363Q) (LLSH 52365Q . 53751Q) (LRSH 53753Q . 55475Q) (LSH 55477Q . 62620Q) (RSH 62622Q . 
65135Q)) (77067Q 117443Q (MINUSP 77101Q . 77333Q) (ILESSP 77335Q . 77421Q) (IMINUS 77423Q . 77507Q) (
IPLUS 77511Q . 100763Q) (ITIMES 100765Q . 102243Q) (LOGAND 102245Q . 103523Q) (LOGOR 103525Q . 104777Q
) (LOGXOR 105001Q . 106257Q) (SUB1 106261Q . 106426Q) (ZEROP 106430Q . 106644Q) (ADD1 106646Q . 
106722Q) (GCD 106724Q . 107603Q) (IEQP 107605Q . 110015Q) (INTEGERLENGTH 110017Q . 117441Q)) (117444Q 
124264Q (ABS 117456Q . 120420Q) (DIFFERENCE 120422Q . 120641Q) (GREATERP 120643Q . 121120Q) (PLUS 
121122Q . 122141Q) (QUOTIENT 122143Q . 122420Q) (REMAINDER 122422Q . 122706Q) (LESSP 122710Q . 123162Q
) (MINUS 123164Q . 123455Q) (TIMES 123457Q . 124262Q)) (124265Q 124703Q (FMINUS 124277Q . 124444Q) (
FREMAINDER 124446Q . 124701Q)) (124704Q 137004Q (RANDSET 124716Q . 130144Q) (RAND 130146Q . 134323Q) (
EXPT 134325Q . 137002Q)) (137241Q 142441Q (PutUnboxed 137253Q . 137463Q) (\PUTFIXP 137465Q . 140135Q) 
(\PUTSWAPPEDFIXP 140137Q . 141002Q) (\HINUM 141004Q . 141227Q) (\LONUM 141231Q . 141454Q) (
TRUNCATEMULTIPLY 141456Q . 142437Q)))))
STOP