File psl-1983/help/big.hlp artifact 50a96777ac part of check-in 5f584e9b52





Beryl Morrison, 4 June 1982

BigNum Structure and "Constants"

The  current  PSL  bignum  package was written using vectors of "Big Digits" or
"Bigits".  The first element  of  each  vector  is  either  BIGPOS  or  BIGNEG,
depending whether the number is positive or negative.  A bignum of the form 

[BIGPOS a b c d]

has a value of 

a + b * bbase!* + c * bbase!* ** 2 + d * bbase!* ** 3

BBase!*  is a fluid variable which varies from one machine to another.  For the
VAX and the DEC-20, it is calculated as follows:  

bbits!* := (n-1)/2;
bbase!* := 2 ** bbits!*;

"n" is the total number of bits per word on the given machine.  On the  DEC-20,
n  is  36,  so  bbits!*  is  17 and bbase!* is 131072.  On the VAX, n is 32, so
bbits!* is 15 and bbase!* is 32768.

There are some other constants used in the system as well.  The sources are  in
pu:bigbig.red on the DEC-20, /u/benson/psl-dist/util/bigbig.red on the VAX.

Starting BigNums

"Load Big;" will bring in the bignum package.  A file called big.lap loads

arith.b         which  provides  an  interface via tags for when inum functions
                and when bignum functions  should  be  used;  (sources  are  in
                test-arith.red)
vector-fix.b    which  provides  a  means of truncating vectors without copying
                them;
bigbig.b        which provides the bignum versions of functions as required  by
                arith.b;
bigface.b       which   provides  the  final  interface  between  bigbig.b  and
                arith.b.

The order of loading the files must remain as shown; arith and  vector-fix  may
be  swapped,  but otherwise function definitions must be presented in the order
given.

Building the BigNum Package

Each of the  individual  files  may  be  rebuilt  (to  form  a  new  *.b  file)
separately.  A file XXX.red may be rebuilt as follows:  

[1] faslout "YYY";
[2] in "XXX.red"$
                                       2


[3] faslout;

On  the  DEC-20,  the  resulting YYY.b file is put on the directory pl:; on the
VAX, it is put on the connected directory.  They should be on pl: on the DEC-20
for public access, and on /usr/local/lib/psl on the VAX.

The Functions in BigBig

The functions defined by BigBig for bignums are as follows:

BLOr            Takes two BigNum arguments, returning a bignum.   Calls  BSize,
                GtPos, PosIfZero.

BLXOr           Takes  two  BigNum arguments, returning a bignum.  Calls BSize,
                GtPos, TrimBigNum1.

BLAnd           Takes two BigNum arguments, returning a bignum.   Calls  BSize,
                GtPos, TrimBigNum1.

BLNot           Takes  one  BigNum argument, returning a bignum.  Calls BMinus,
                BSmallAdd.

BLShift         Takes two BigNum arguments, returning a bignum.  Calls BMinusP,
                BQuotient, BTwoPower, BMinus, BTimes2.

BMinus          Takes one BigNum argument, returning a bignum.   Calls  BZeroP,
                BSize, BMinusP, GtPos, GtNeg.

BMinusP         Takes one BigNum argument, returning a bignum or NIL.

BPlus2          Takes two BigNum arguments, returning a bignum.  Calls BMinusP,
                BDifference2, BMinus, BPlusA2.

BDifference     BZeroP, BMinus, BMinusP, BPlusA2, BDifference2.

BTimes2         Takes  two  BigNum arguments, returning a bignum.  Calls BSize,
                BMinusP, GtPos, GtNeg, BDigitTimes2, PosIfZero, TrimBigNum1.

BDivide         Takes two BigNum arguments, returning a pair of bignums.  Calls
                BSize, GtPos, BSimpleDivide, BHardDivide.

BGreaterP       Takes two BigNum arguments, returning a bignum or NIL.    Calls
                BMinusP, BDifference.

BLessP          Takes  two  BigNum arguments, returning a bignum or NIL.  Calls
                BMinusP, BDifference.

BAdd1           Takes a BigNum argument, returning a bignum.  Calls BSmallAdd.

BSub1           Takes  a  BigNum  argument,  returning   a   bignum.      Calls
                BigSmallDiff.
                                       3


FloatFromBigNum Takes  a  bignum,  returning a float.  Calls BZeroP, BGreaterP,
                BLessP, BSize, BMinusP.

BChannelPrin2    Calls BigNumP, NonBigNumError, BSimpleDivide, BSize, BZeroP.

BRead            Calls GtPos, BReadAdd, BMinus.

BigFromFloat    Takes a float and converts to a bignum.   Calls  BNum,  BPlus2,
                BTimes2, BTwoPower, FloatFromBigNum, BMinus, PosIfZero.

The following functions are support functions for those given above.

SetBits         Takes  as  an  argument  the total number of bits per word on a
                given machine; sets some fluid variables  accordingly.    NOTE:
                FloatHi!*  must  be  changed  separately from this procedure by
                hand when moving to a new machine both  in  bigbig.red  and  in
                bigface.red.    Calls TwoPower, BNum, BMinus, BSub1, BTwoPower,
                BAdd1.

BigNumP         Checks  if  the  argument  is  a  bignum.    Calls  no  special
                functions.

NonBigNumError   Calls no special functions.

BSize           Gives  size  of  a bignum, i.e. total number of bigits (the tag
                "BIGPOS" or "BIGNEG" is number 0).  Calls BigNumP.

PosIfZero       Takes a bignum; if it is a negative zero, it is converted to  a
                positive zero.  Calls BPosOrNegZeroP, BMinusP.

BPosOrNegZeroP  Takes a BigNum; checks if magnitude is zero.  Calls BSize.

GtPos           Takes  an  inum/fixnum.    Returns  a  vector  of  size  of the
                argument; first (i.e.0th) element is BIGPOS, others are NIL.

GtNeg           Takes an  inum/fixnum.    Returns  a  vector  of  size  of  the
                argument; first (i.e.0th) element is BIGNEG, others are NIL.

TrimBigNum      Takes  a  BigNum as an argument; truncates any trailing "NIL"s.
                Calls BigNumP, NonBigNumError, TrimBigNum1, BSize.

TrimBigNum1     Does dirty work for TrimBigNum, with second argument  the  size
                of the BigNum.

Big2Sys          Calls BLessP, BGreaterP, BSize, BMinusP.

TwoPower        Takes and returns a fix/inum.  2**n.

BTwoPower       Takes  a  fix/inum  or  bignum, returns a bignum of value 2**n.
                Calls BigNumP, Big2Sys, GtPos, TwoPower, TrimBigNum1.

BZeroP          Checks size of BigNum (0) and sign.  Calls BSize, BMinusP.
                                       4


BOneP            Calls BMinusP, BSize.

BAbs             Calls BMinusP, BMinus.

BGeq             Calls BLessP.

BLeq             Calls BGreaterP.

BMax             Calls BGeq.

BMin             Calls BLeq.

BExpt           Takes   a  BigNum  and  a  fix/inum.    Calls  Int2B,  BTimes2,
                BQuotient.

AddCarry        Support for trapping the carry in addition.

BPlusA2         Does the dirty work of  addition  of  two  BigNums  with  signs
                pre-checked   and   identical.    Calls  BSize,  GtNeg,  GtPos,
                AddCarry, PosIfZero, TrimBigNum1.

SubCarry        Mechanism to get carry in subtractions.

BDifference2    Does the dirty work of subtraction with signs  pre-checked  and
                identical.    Calls  BSize,  GtNeg, GtPos, SubCarry, PosIfZero,
                TrimBigNum1.

BDigitTimes2    Multiplies the first argument (BigNum) by a single Bigit of the
                second  BigNum  argument.    Returns  the  partially  completed
                result.  Calls no special functions.

BSmallTimes2    Takes  a  BigNum  argument  and  a fixnum argument, returning a
                bignum.  Calls GtPos, BMinusP, GtNeg, PosIfZero, TrimBigNum1.

BQuotient       Takes two BigNum arguments, returning a bignum.  Calls BDivide.

BRemainder      Takes two BigNum arguments, returning a bignum.  Calls BDivide.

BSimpleQuotient  Calls BSimpleDivide.

BSimpleRemainder
                Calls BSimpleDivide.

BSimpleDivide   Used to divide a BigNum by an inum.  Returns a dotted  pair  of
                quotient  and  remainder,  both  being bignums.  Calls BMinusP,
                GtPos, GtNeg, PosIfZero, TrimBigNum1.

BHardDivide     Used to divide two "true" BigNums.  Returns a pair of  bignums.
                Algorithm taken from Knuth.  Calls BMinusP, GtPos, GtNeg, BAbs,
                BSmallTimes2,    BSize,   BDifference,   BPlus2,   TrimBigNum1,
                BSimpleQuotient, PosIfZero.
                                       5


BReadAdd         Calls BSmallTimes2, BSmallAdd.

BSmallAdd       Adds  an  inum  to a BigNum, returning a bignum.  Calls BZeroP,
                BMinusP, BMinus, BSmallDiff, BSize, GtPos, AddCarry, PosIfZero,
                TrimBigNum1.

BNum            Takes an inum and returns a BigNum of one bigit; test that  the
                inum is less than bbase!* is assumed done.  Calls GtPos, GtNeg.

BSmallDiff        Calls  BZeroP,  BMinusP,  BMinus, BSmallAdd, GtPos, SubCarry,
                PosIfZero, TrimBigNum1.

int2b           Takes a fix/inum and converts to a BigNum.  Calls BNum, BRead.

Problems

   - Should the "vectors" be changed to hwords?
   - Should there be primitives so that each bigit uses almost  the  whole
     word  instead  of  almost  half the word?  This would involve writing
     "overflow" functions, checking and trapping  overflow  in  operations
     such  as multiplication.  This would allow integers to be returned as
     inums or fixnums if they are geq the current bbase!* and lessp  2  **
     (n-1).    Currently,  anything  bbase!* or larger is kept as a bignum
     once the bignum package is loaded.
   - Make the constants  real  constants  instead  of  fluids:    bbase!*,
     bbits!*,  floathi!*,  floatlow!*, logicalbits!*, wordhi!*, wordlow!*,
     syshi!*, syslo!*, digit2letter!*.  Carry!* should be a fluid.
   - Try to make the whole package loaded as one *.b file.
   - Change arith.b so that divide is used for the  interface  instead  of
     quotient  and remainder.  As it stands, doing a "Divide" when bignums
     are loaded would mean doing  the  quotient  and  then  the  remainder
     separately, although Knuth's algorithm computes them together.
   - Get rid of superfluous functions.
   - Put in more calls to NonBigNumError for greater safety?


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