��(FILECREATED " 2-May-85 21:17:08" ��{ERIS}<LISPCORE>SOURCES>ADDARITH.;14�� 26294
changes to: (MACROS LOADBYTE)
previous date: "14-Apr-85 21:15:05" {ERIS}<LISPCORE>SOURCES>ADDARITH.;13)
(* Copyright (c) 1982, 1983, 1984, 1985 by Xerox Corporation. All rights reserved.)
(PRETTYCOMPRINT ADDARITHCOMS)
(RPAQQ ��ADDARITHCOMS�� ((LOCALVARS . T) (COMS (* Rational operations and useful constants) (FNS \RTIMES2
\RATIONALIZE \RPLUS2 \RMINUS CREATERATIONAL RATIONALTOINTEGER) (RECORDS RATIONAL)) (* OK) (MACROS
MASK.1'S MASK.0'S BITTEST BITSET BITCLEAR LOGNOT) (* "BYTE hacking functions") (RECORDS BYTESPEC) (FNS
LOADBYTE DEPOSITBYTE) (MACROS LOADBYTE DEPOSITBYTE) (FNS IMODLESSP IMODPLUS IMODDIFFERENCE) (MACROS
IMODPLUS IMODDIFFERENCE IMOD) (FNS ROT) (MACROS ROT .ROT.) (COMS (* for compatibility) (FNS
\SETUP.MASKARRAYS) (GLOBALVARS \RJ1M \MASKOUT.MARGIN) (DECLARE: DONTEVAL@LOAD DOCOPY (P (
\SETUP.MASKARRAYS)))) (* NOT OK YET) (MACROS LDB DPB BYTE BYTESIZE BYTEPOSITION) (FNS \LDBEXPANDER
\DPBEXPANDER) (COMS (* "Primitive Functions for extracting fields as integers") (MACROS \XLOADBYTEWORD
) (FNS \PUTBASEBITS) (* "Primitive functions, especially needed for CommonLisp array package.") (
DECLARE: DONTCOPY (MACROS .HIHALFWORDLO. .HIHALFWORDHI. .LOHALFWORDLO. .LOHALFWORDHI.) (EXPORT (MACROS
\GETBASENIBBLE \PUTBASENIBBLE \GETBASEBIT \PUTBASEBIT))) (FNS \GETBASENIBBLE \PUTBASENIBBLE
\GETBASEBIT \PUTBASEBIT)) (COMS (*
"Beginning of rewrite of some LLARITH things, modularly using the macros of
this file") (DECLARE: DONTCOPY (EXPORT (CONSTANTS MASK0WORD1'S MASK1WORD0'S MASKWORD1'S
MASKHALFWORD1'S BITSPERHALFWORD) (MACROS EQZEROP) (MACROS \MOVETOBOX .XUNBOX. .XLLSH. .XLLSH1. .XLRSH.
.ADD.2WORD.INTEGERS. .SUB.2WORD.INTEGERS. .32BITMUL.) (MACROS .SUMSMALLMOD. .DIFFERENCESMALLMOD.)) (
MACROS .ADD.2WORD.INTEGERS. .SUB.2WORD.INTEGERS. .32BITMUL.)))))
(DECLARE: DOEVAL@COMPILE DONTCOPY
(LOCALVARS . T)
)
��(* Rational operations and useful constants)��
(DEFINEQ
(��\RTIMES2��
[LAMBDA (R1 R2) ��(* lmm "14-Apr-85 19:46")��
��(* Rational multiply)��
(��if�� (��FLOATP�� R1)
��then�� (��SETQ�� R1 (��MAKERATIONAL�� R1)))
(��if�� (��FLOATP�� R2)
��then�� (��SETQ�� R2 (��MAKERATIONAL�� R2)))
(��if�� (��FIXP�� R1)
��then�� [��if�� (��FIXP�� R2)
��then�� (��ITIMES�� R1 R2)
��else�� (��if�� (��EQUAL�� R1 (��fetch�� DENOMINATOR ��of�� R2))
��then�� (��fetch�� NUMERATOR ��of�� R2)
��else�� (��\RATIONALIZE�� (��ITIMES�� R1 (��fetch�� NUMERATOR ��of�� R2))
(��fetch�� DENOMINATOR ��of�� R2]
��elseif�� (��FIXP�� R2)
��then�� (��if�� (��EQUAL�� R2 (��fetch�� DENOMINATOR ��of�� R1))
��then�� (��fetch�� NUMERATOR ��of�� R1)
��else�� (��\RATIONALIZE�� (��TIMES�� R2 (��fetch�� NUMERATOR ��of�� R1))
(��fetch�� DENOMINATOR ��of�� R1)))
��elseif�� (��EQUAL�� (��fetch�� NUMERATOR ��of�� R1)
(��fetch�� DENOMINATOR ��of�� R2))
��then�� (��\RATIONALIZE�� (��fetch�� NUMERATOR ��of�� R2)
(��fetch�� DENOMINATOR ��of�� R1))
��elseif�� (��EQUAL�� (��fetch�� DENOMINATOR ��of�� R1)
(��fetch�� NUMERATOR ��of�� R2))
��then�� (��\RATIONALIZE�� (��fetch�� NUMERATOR ��of�� R1)
(��fetch�� DENOMINATOR ��of�� R2))
��else�� (��\RATIONALIZE�� (��ITIMES�� (��fetch�� NUMERATOR ��of�� R1)
(��fetch�� NUMERATOR ��of�� R2))
(��ITIMES�� (��fetch�� DENOMINATOR ��of�� R1)
(��fetch�� DENOMINATOR ��of�� R2])
(��\RATIONALIZE��
[LAMBDA (NUM DEN) ��(* lmm "14-Apr-85 20:19")��
(LET ((��GCD�� (��GCD�� NUM DEN)))
(��if�� (��EQUAL�� DEN GCD)
��then�� (��IQUOTIENT�� NUM GCD)
��else�� (��create�� RATIONAL
NUMERATOR ←(��IQUOTIENT�� NUM GCD)
DENOMINATOR ←(��IQUOTIENT�� DEN GCD])
(��\RPLUS2��
[LAMBDA (R1 R2) ��(* lmm "14-Apr-85 19:42")��
��(* Rational multiply)��
(��IF�� (��FLOATP�� R1)
��THEN�� (��SETQ�� R1 (��MAKERATIONAL�� R1)))
(��IF�� (��FLOATP�� R2)
��THEN�� (��SETQ�� R2 (��MAKERATIONAL�� R2)))
(��if�� (��FIXP�� R1)
��then�� (��if�� (��FIXP�� R2)
��then�� (��IPLUS�� R1 R2)
��else�� (��\RATIONALIZE�� (��IPLUS�� (��fetch�� NUMERATOR ��of�� R2)
(��ITIMES�� R1 (��fetch�� DENOMINATOR ��of�� R2)))
(��fetch�� DENOMINATOR ��of�� R2)))
��elseif�� (��FIXP�� R2)
��then�� (��\RATIONALIZE�� (��IPLUS�� (��fetch�� NUMERATOR ��of�� R1)
(��ITIMES�� R2 (��fetch�� DENOMINATOR ��of�� R1)))
(��fetch�� DENOMINATOR ��of�� R1))
��elseif�� (��EQUAL�� (��fetch�� DENOMINATOR ��of�� R1)
(��fetch�� DENOMINATOR ��of�� R2))
��then�� (��\RATIONALIZE�� (��IPLUS�� (��fetch�� NUMERATOR ��of�� R1)
(��fetch�� NUMERATOR ��of�� R2))
(��fetch�� DENOMINATOR ��of�� R2))
��else�� (��\RATIONALIZE�� (��IPLUS�� (��ITIMES�� (��fetch�� DENOMINATOR ��of�� R1)
(��fetch�� NUMERATOR ��of�� R2))
(��ITIMES�� (��fetch�� NUMERATOR ��of�� R1)
(��fetch�� DENOMINATOR ��of�� R2)))
(��ITIMES�� (��fetch�� DENOMINATOR ��of�� R1)
(��fetch�� DENOMINATOR ��of�� R2])
(��\RMINUS��
(LAMBDA (X) ��(* JonL " 4-Jan-85 16:08")��
(��if�� (��type?�� RATIONAL X)
��then�� (��create�� RATIONAL
NUMERATOR ←(��MINUS�� (��fetch�� (RATIONAL NUMERATOR) ��of�� X))
DENOMINATOR ←(��fetch�� (RATIONAL NUMERATOR) ��of�� X))
��else�� (��MINUS�� X))))
(��CREATERATIONAL��
[LAMBDA (NUMERATOR DENOMINATOR) ��(* jds "10-Jan-85 15:40")��
��(* Creates a normalized rational)��
(��PROG�� ((PNUM NUMERATOR)
(PDEN DENOMINATOR)
GCF NEGFLG)
��(* * Convert to positive format first, since this will minimize consing in GCD and keep the IQUOTIENT in ucode ��
��(where possible))��
(��if�� (��ILESSP�� PNUM 0)
��then�� (��SETQ�� PNUM (��IMINUS�� PNUM))
(��if�� (��ILESSP�� PDEN 0)
��then�� (��SETQ�� PDEN (��IMINUS�� PDEN))
��else�� (��SETQ�� NEGFLG T))
��else�� (��if�� (��ILESSP�� PDEN 0)
��then�� (��SETQ�� PDEN (��IMINUS�� PDEN))
(��SETQ�� NEGFLG T)))
(��SETQ�� GCF (��GCD�� PNUM PDEN)) ��(* Note that the GCD will always be positive)��
(��SETQ�� PNUM (��IQUOTIENT�� PNUM GCF)) ��(* Reduce both numerator and denominator by the GCD)��
(��SETQ�� PDEN (��IQUOTIENT�� PDEN GCF))
(��RETURN�� (��CONS�� (��if�� NEGFLG
��then�� (��IMINUS�� PNUM)
��else�� PNUM)
PDEN])
(��RATIONALTOINTEGER��
(LAMBDA (RAT) ��(* JonL " 4-Jan-85 15:59")��
(��FIXR�� (��FQUOTIENT�� (��fetch�� (RATIONAL NUMERATOR) ��of�� RAT)
(��fetch�� (RATIONAL DENOMINATOR) ��of�� RAT)))))
)
[DECLARE: EVAL@COMPILE
(RECORD ��RATIONAL�� (NUMERATOR . DENOMINATOR) (TYPE? (AND (LISTP DATUM) (FIXP (CAR DATUM)) (FIXP (CDR
DATUM)))) (CREATE (CREATERATIONAL NUMERATOR DENOMINATOR)))
]
��(* OK)��
(DECLARE: EVAL@COMPILE
(PUTPROPS MASK.1'S MACRO (OPENLAMBDA (POSITION SIZE) (LSH (SUB1 (LSH 1 SIZE)) POSITION)))
(PUTPROPS MASK.0'S MACRO (OPENLAMBDA (POSITION SIZE) (LOGNOT (MASK.1'S POSITION SIZE))))
(PUTPROPS BITTEST MACRO ((N MASK) (NEQ 0 (LOGAND N MASK))))
(PUTPROPS BITSET MACRO (= . LOGOR))
(PUTPROPS BITCLEAR MACRO ((X MASK) (LOGAND X (LOGNOT MASK))))
(PUTPROPS LOGNOT MACRO ((N) (LOGXOR -1 N)))
)
��(* "BYTE hacking functions")��
[DECLARE: EVAL@COMPILE
(TYPERECORD ��BYTESPEC�� (BYTESPEC.SIZE BYTESPEC.POSITION))
]
(DEFINEQ
(��LOADBYTE��
[LAMBDA (N POS SIZE) ��(* lmm "12-Apr-85 14:35")��
(\MACRO.MX (��LOADBYTE�� N POS SIZE])
(��DEPOSITBYTE��
[LAMBDA (N POS SIZE VAL) ��(* lmm "12-Apr-85 14:36")��
(\MACRO.MX (��DEPOSITBYTE�� N POS SIZE VAL])
)
(DECLARE: EVAL@COMPILE
(PUTPROPS LOADBYTE MACRO ((N POS SIZE) (LOGAND (RSH N POS) (MASK.1'S 0 SIZE))))
(PUTPROPS DEPOSITBYTE MACRO (OPENLAMBDA (N POS SIZE VAL) (LOGOR (BITCLEAR N (MASK.1'S POS SIZE)) (LSH
(LOGAND VAL (MASK.1'S 0 SIZE)) POS))))
)
(DEFINEQ
(��IMODLESSP��
[LAMBDA (X Y MODULUS) ��(* lmm "12-Apr-85 12:43")��
(��ILESSP�� (��IMODDIFFERENCE�� Y X MODULUS)
(FOLDHI MODULUS 2])
(��IMODPLUS��
[LAMBDA (X Y MODULUS) ��(* lmm "12-Apr-85 12:47")��
��(* tune for more efficiency later)��
(\MACRO.MX (��IMODPLUS�� X Y MODULUS])
(��IMODDIFFERENCE��
[LAMBDA (X Y MODULUS) ��(* lmm "12-Apr-85 12:48")��
(\MACRO.MX (��IMODDIFFERENCE�� X Y MODULUS])
)
(DECLARE: EVAL@COMPILE
(PUTPROPS IMODPLUS MACRO ((X Y MODULUS) (IMOD (IPLUS X Y) MODULUS)))
(PUTPROPS IMODDIFFERENCE MACRO ((X Y MODULUS) (IMOD (IDIFFERENCE X Y) MODULUS)))
(PUTPROPS IMOD MACRO (L (PROG ((N (CONSTANTEXPRESSIONP (CADR L)))) (if (NULL N) then (RETURN (QUOTE
IGNOREMACRO))) (SETQ N (CAR N)) (RETURN (COND ((NOT (POWEROFTWOP N)) (QUOTE IGNOREMACRO)) (T (LIST (
QUOTE LOGAND) (CAR L) (SUB1 N))))))))
)
(DEFINEQ
(��ROT��
[LAMBDA (X N FIELDSIZE) ��(* lmm "12-Apr-85 14:12")��
��(* Normalize N, the shift factor, into the half-open interval of 0 to FIELDSIZE and transform a negative N ��
��(rotating rightwards) into a positive form.)��
(LET* ((N (��IMOD�� N FIELDSIZE))
(N.B (��IDIFFERENCE�� FIELDSIZE N)))
(��DEPOSITBYTE�� (��LOADBYTE�� X N.B N)
N N.B X])
)
(DECLARE: EVAL@COMPILE
(DEFMACRO ROT (X N FIELDSIZE) (if (AND (SETQ N (CONSTANTEXPRESSIONP N)) (SETQ FIELDSIZE (
CONSTANTEXPRESSIONP FIELDSIZE)) (FIXP (CAR N)) (FIXP (CAR FIELDSIZE))) then (* fieldsize and N are
constants) (BQUOTE (.ROT. , X , (IMOD (CAR N) (CAR FIELDSIZE)) , (CAR FIELDSIZE))) else (QUOTE
IGNOREMACRO)))
(PUTPROPS .ROT. MACRO ((XFORM N FIELDSIZE) ((OPENLAMBDA (X) (DEPOSITBYTE (LOADBYTE X (IDIFFERENCE
FIELDSIZE N) N) N (IDIFFERENCE FIELDSIZE N) X)) XFORM)))
)
��(* for compatibility)��
(DEFINEQ
(��\SETUP.MASKARRAYS��
[LAMBDA NIL ��(* lmm "12-Apr-85 12:42")��
��(* \RJ1M is a Vector of right-justified 1's masks.��
��\MASKOUT.MARGIN is a 2-dim Vector of 1's masks, in all ��
��possible alignments in a cell.)��
(��SETQ�� \RJ1M (��\ALLOCBLOCK�� (��ADD1�� BITS.PER.FIXP)
PTRBLOCK.GCT))
(��\RPLPTR�� \RJ1M (��LLSH�� BITS.PER.FIXP 1)
-1)
[��for�� K ��from�� 0 ��to�� (��PROG1�� (��SUB1�� BITS.PER.FIXP) ��(* Comment PPLossage)��
)
��do�� (��\RPLPTR�� \RJ1M (��LLSH�� K 1)
(��SUB1�� (��LSH�� 1 K]
(��SETQ�� \MASKOUT.MARGIN (\MakeVector (��ADD1�� BITS.PER.FIXP)))
��(* Each element of \MASKOUT.MARGIN is a vector of ��
��masks, where increasing indices means increasing ��
��start-position of the mask.)��
(��\RPLPTR�� \MASKOUT.MARGIN (��LLSH�� 0 1)
\RJ1M)
(��for�� POS ��from�� 1 ��to�� BITS.PER.FIXP ��bind�� MASKARRAY MAXFIELDSIZE
��do�� (��SETQ�� MAXFIELDSIZE (��IDIFFERENCE�� BITS.PER.FIXP POS))
(��SETQ�� MASKARRAY (\MakeVector (��ADD1�� MAXFIELDSIZE)))
(��for�� K ��from�� 0 ��to�� (��PROG1�� MAXFIELDSIZE ��(* Comment PPLossage)��)
��do�� (��\RPLPTR�� MASKARRAY (��LLSH�� K 1)
(��LLSH�� (��\GETBASEPTR�� \RJ1M (��LLSH�� K 1))
POS)))
(��\RPLPTR�� \MASKOUT.MARGIN (��LLSH�� POS 1)
MASKARRAY])
)
(DECLARE: DOEVAL@COMPILE DONTCOPY
(GLOBALVARS \RJ1M \MASKOUT.MARGIN)
)
(DECLARE: DONTEVAL@LOAD DOCOPY
(\SETUP.MASKARRAYS)
)
��(* NOT OK YET)��
(DECLARE: EVAL@COMPILE
(PUTPROPS LDB MACRO (X (\LDBEXPANDER X)))
(PUTPROPS DPB MACRO (X (\DPBEXPANDER X)))
(PUTPROPS BYTE MACRO (X (PROG ((SIZE (LISPFORM.SIMPLIFY (CAR X) T)) (POSITION (LISPFORM.SIMPLIFY (CADR
X) T))) (RETURN (if (AND (FIXP POSITION) (FIXP SIZE)) then (KWOTE (create BYTESPEC BYTESPEC.SIZE ←
SIZE BYTESPEC.POSITION ← POSITION)) else (BQUOTE (create BYTESPEC BYTESPEC.SIZE ← , SIZE
BYTESPEC.POSITION ← , POSITION)))))))
(PUTPROPS BYTESIZE MACRO ((BYTESPEC) (fetch BYTESPEC.SIZE of BYTESPEC)))
(PUTPROPS BYTEPOSITION MACRO ((BYTESPEC) (fetch BYTESPEC.POSITION of BYTESPEC)))
)
(DEFINEQ
(��\LDBEXPANDER��
(LAMBDA (X) ��(* JonL "25-FEB-83 21:10")��
(PROG ((BS (LISPFORM.SIMPLIFY (CAR X)
T))
(WORD (CADR X))
TEM N SIZE POSITION)
(RETURN (��if�� (AND (SETQ TEM (CAR (EVALUABLE.CONSTANTP BS)))
(��type?�� BYTESPEC TEM))
��then�� (LIST (QUOTE LOADBYTE)
WORD
(KWOTE (BYTEPOSITION TEM))
(KWOTE (BYTESIZE TEM)))
��else�� (SETQ N (LISPFORM.SIMPLIFY WORD T))
(��if�� (AND (LISTP BS)
(EQ (CAR BS)
(QUOTE CONS))
(EQUAL (CADR BS)
(QUOTE (QUOTE BYTESPEC)))
(LISTP (SETQ TEM (CADDR BS)))
(EQ (CAR TEM)
(QUOTE LIST)))
��then�� ��(* What a crappy thing to do in order to try to ��
��de-compile the expanded form of ��
��(BYTE <size> <position>))��
(��pop�� TEM)
(SETQ SIZE (��pop�� TEM))
(SETQ POSITION (��pop�� TEM))
(��if�� (OR (EVALUABLE.CONSTANT.FIXP N)
(AND (ARGS.COMMUTABLEP N SIZE)
(ARGS.COMMUTABLEP N POSITION)
(ARGS.COMMUTABLEP SIZE POSITION)))
��then�� (BQUOTE (��LOADBYTE�� , WORD , POSITION , SIZE))
��else�� (BQUOTE ((LAMBDA (\Bytesize \Byteposition)
(��DECLARE�� (LOCALVARS \Bytesize \Byteposition))
(��LOADBYTE�� , WORD \Byteposition \Bytesize))
, SIZE , POSITION)))
��elseif�� (AND (LITATOM BS)
(OR (EVALUABLE.CONSTANT.FIXP N)
(ARGS.COMMUTABLEP BS N)))
��then�� (BQUOTE (��LOADBYTE�� , WORD (BYTEPOSITION , BS)
(BYTESIZE , BS)))
��else�� (BQUOTE ((LAMBDA (\PositionSize)
(��DECLARE�� (LOCALVARS \PositionSize))
(��LOADBYTE�� , WORD (BYTEPOSITION \PositionSize)
(BYTESIZE \PositionSize)))
, BS))))))))
(��\DPBEXPANDER��
(LAMBDA (X) ��(* JonL "25-FEB-83 20:49")��
(PROG ((NEWBYTE (CAR X))
(BS (LISPFORM.SIMPLIFY (CADR X)
T))
(WORD (LISPFORM.SIMPLIFY (CADDR X)
T))
SIZE POS X Y BagBiterP N BYTEFORM DEPOSITFORM CBSP TEM)
(��if�� (AND (LISTP BS)
(EQ (CAR BS)
(QUOTE CONS))
(EQUAL (CADR BS)
(QUOTE (QUOTE BYTESPEC)))
(LISTP (SETQ TEM (CADDR BS)))
(EQ (CAR TEM)
(QUOTE LIST)))
��then�� ��(* What a crappy thing to do in order to try to ��
��de-compile the expanded form of ��
��(BYTE <size> <position>))��
(��pop�� TEM)
(SETQ SIZE (��pop�� TEM))
(SETQ POS (��pop�� TEM))
(SETQ CBSP (AND (EVALUABLE.CONSTANTP SIZE)
(EVALUABLE.CONSTANTP POS)))
��elseif�� (AND (SETQ TEM (CAR (EVALUABLE.CONSTANTP BS)))
(��type?�� BYTESPEC TEM))
��then�� (SETQ SIZE (KWOTE (BYTESIZE TEM)))
(SETQ POS (KWOTE (BYTEPOSITION TEM)))
(SETQ CBSP T))
(SETQ N (LISPFORM.SIMPLIFY NEWBYTE T))
(SETQ BagBiterP (OR (NOT (ARGS.COMMUTABLEP N WORD))
(AND (NOT CBSP)
(NOT (ARGS.COMMUTABLEP N BS)))))
(SETQ BYTEFORM (��if�� BagBiterP
��then�� (QUOTE \NewByte)
��else�� NEWBYTE))
(SETQ DEPOSITFORM (��if�� (AND SIZE POS)
��then�� ��(* the SIZE and POSITION specifiers are somehow ��
��extractable.)��
(��if�� (OR CBSP (AND (ARGS.COMMUTABLEP SIZE POS)
(ARGS.COMMUTABLEP WORD BS)))
��then�� ��(* Case with a detected constant for bytespecifier)��
(BQUOTE (��DEPOSITBYTE�� , WORD , POS , SIZE , BYTEFORM))
��else�� (BQUOTE ((LAMBDA (\Bytesize \Byteposition)
(��DECLARE�� (LOCALVARS \Bytesize \Byteposition))
(��DEPOSITBYTE�� , WORD \Byteposition \Bytesize ,
BYTEFORM))
, SIZE , POS)))
��else�� (��if�� (AND (LITATOM BS)
(ARGS.COMMUTABLEP WORD BS))
��then�� (BQUOTE (��DEPOSITBYTE�� , WORD (BYTEPOSITION , BS)
(BYTESIZE , BS)
, BYTEFORM))
��else�� (SETQ BagBiterP T)
(BQUOTE ((LAMBDA (\ByteSpec)
(��DECLARE�� (LOCALVARS \ByteSpec))
(��DEPOSITBYTE�� , WORD (BYTEPOSITION \ByteSpec)
(BYTESIZE \ByteSpec)
\NewByte))
, BS)))))
(RETURN (��if�� BagBiterP
��then�� (BQUOTE ((LAMBDA (\NewByte)
(��DECLARE�� (LOCALVARS \NewByte))
, DEPOSITFORM)
, NEWBYTE))
��else�� DEPOSITFORM)))))
)
��(* "Primitive Functions for extracting fields as integers")��
(DECLARE: EVAL@COMPILE
(PUTPROPS \XLOADBYTEWORD DMACRO ((N POS SIZE) (* N is constrained to be a SMALLP) (LOGAND (\XLRSHWORD
N POS) (MASK.1'S 0 (IMIN BITSPERWORD SIZE)))))
)
(DEFINEQ
(��\PUTBASEBITS��
[LAMBDA (ADDR POSITION SIZE VAL) ��(* lmm "12-Apr-85 15:18")��
(��if�� (��GREATERP�� POSITION BITSPERWORD)
��then�� (��\PUTBASEBITS�� (��\ADDBASE�� ADDR (FOLDLO POSITION BITSPERWORD))
(��IMOD�� POSITION BITSPERWORD)
SIZE VAL)
��elseif�� (��GREATERP�� SIZE (��DIFFERENCE�� BITSPERWORD POSITION))
��then�� ��(* more than one word)��
[��\PUTBASEBITS�� ADDR POSITION (��DIFFERENCE�� BITSPERWORD POSITION)
(��RSH�� VAL (��SETQ�� SIZE (��DIFFERENCE�� SIZE (��DIFFERENCE�� BITSPERWORD POSITION]
(��\PUTBASEBITS�� (��\ADDBASE�� ADDR 1)
0 SIZE VAL)
��else�� ��(* a single word)��
(��\PUTBASE�� ADDR 0 (��DEPOSITBYTE�� (��\GETBASE�� ADDR 0)
(��DIFFERENCE�� (��SUB1�� BITSPERWORD)
POSITION)
SIZE VAL])
)
��(* "Primitive functions, especially needed for CommonLisp array package.")��
(DECLARE: DONTCOPY
(DECLARE: EVAL@COMPILE
(PUTPROPS .HIHALFWORDLO. MACRO ((X) (LRSH X BITSPERHALFWORD)))
(PUTPROPS .HIHALFWORDHI. MACRO ((X) (LOGAND X (CONSTANT (LSH MASKHALFWORD1'S BITSPERHALFWORD)))))
(PUTPROPS .LOHALFWORDLO. MACRO ((X) (LOGAND X MASKHALFWORD1'S)))
(PUTPROPS .LOHALFWORDHI. MACRO ((X) (LLSH (LOGAND X MASKHALFWORD1'S) BITSPERHALFWORD)))
)
(* FOLLOWING DEFINITIONS EXPORTED)
(DECLARE: EVAL@COMPILE
(PUTPROPS \GETBASENIBBLE DMACRO (OPENLAMBDA (BASE OFFST) ((LAMBDA (\Byte) (DECLARE (LOCALVARS \Byte))
(if (ODDP OFFST) then (LOGAND \Byte (CONSTANT (MASK.1'S 0 BITSPERNIBBLE))) else (LRSH \Byte
BITSPERNIBBLE))) (\GETBASEBYTE BASE (FOLDLO OFFST NIBBLESPERBYTE)))))
(PUTPROPS \PUTBASENIBBLE DMACRO (OPENLAMBDA (BASE OFFST VAL) ((LAMBDA (\ByteNo) (DECLARE (LOCALVARS
\ByteNo)) ((LAMBDA (\Byte) (DECLARE (LOCALVARS \Byte)) (\PUTBASEBYTE BASE \ByteNo (if (ODDP OFFST)
then (LOGOR (LOGAND \Byte (CONSTANT (MASK.1'S BITSPERNIBBLE BITSPERNIBBLE))) VAL) else (LOGOR (LOGAND
\Byte (CONSTANT (MASK.1'S 0 BITSPERNIBBLE))) (LLSH VAL BITSPERNIBBLE))))) (\GETBASEBYTE BASE \ByteNo))
) (FOLDLO OFFST NIBBLESPERBYTE))))
(PUTPROPS \GETBASEBIT DMACRO (OPENLAMBDA (BASE OFFST) ((LAMBDA (\ByteNo \BitMask) (DECLARE (LOCALVARS
\ByteNo \BitMask)) (if (EQ 0 (LOGAND \BitMask (\GETBASEBYTE BASE \ByteNo))) then 0 else 1)) (FOLDLO
OFFST BITSPERBYTE) (MASK.1'S (IDIFFERENCE (CONSTANT (SUB1 BITSPERBYTE)) (IMOD OFFST BITSPERBYTE)) 1)))
)
(PUTPROPS \PUTBASEBIT DMACRO (OPENLAMBDA (BASE OFFST VAL) ((LAMBDA (\ByteNo \BitMask \Byte) (DECLARE (
LOCALVARS \ByteNo \BitMask \Byte)) (SETQ \Byte (\GETBASEBYTE BASE \ByteNo)) (if (if (EQ 0 (LOGAND
\BitMask \Byte)) then (NOT (EQ 0 VAL)) else (EQ 0 VAL)) then (\PUTBASEBYTE BASE \ByteNo (LOGXOR
\BitMask \Byte))) VAL) (FOLDLO OFFST BITSPERBYTE) (MASK.1'S (IDIFFERENCE (CONSTANT (SUB1 BITSPERBYTE))
(IMOD OFFST BITSPERBYTE)) 1))))
)
(* END EXPORTED DEFINITIONS)
)
(DEFINEQ
(��\GETBASENIBBLE��
(LAMBDA (BASE OFFST) ��(* JonL "16-FEB-83 19:45")��
(��\MACRO.MX�� (\GETBASENIBBLE BASE OFFST))))
(��\PUTBASENIBBLE��
(LAMBDA (BASE OFFST VAL) ��(* JonL "16-FEB-83 19:52")��
(��\MACRO.MX�� (\PUTBASENIBBLE BASE OFFST VAL))))
(��\GETBASEBIT��
(LAMBDA (BASE OFFST) ��(* JonL "27-JAN-83 20:34")��
(��\MACRO.MX�� (\GETBASEBIT BASE OFFST))))
(��\PUTBASEBIT��
(LAMBDA (BASE OFFST VAL) ��(* JonL " 7-FEB-83 21:01")��
(��\MACRO.MX�� (\PUTBASEBIT BASE OFFST VAL))))
)
��(* "Beginning of rewrite of some LLARITH things, modularly using the macros of
this file")��
(DECLARE: DONTCOPY
(* FOLLOWING DEFINITIONS EXPORTED)
(DECLARE: EVAL@COMPILE
(RPAQQ ��MASK0WORD1'S�� 32767)
(RPAQQ ��MASK1WORD0'S�� 32768)
(RPAQQ ��MASKWORD1'S�� 65535)
(RPAQQ ��MASKHALFWORD1'S�� 255)
(RPAQQ ��BITSPERHALFWORD�� 8)
(CONSTANTS MASK0WORD1'S MASK1WORD0'S MASKWORD1'S MASKHALFWORD1'S BITSPERHALFWORD)
)
(DECLARE: EVAL@COMPILE
(PUTPROPS EQZEROP MACRO ((X) (EQ 0 X)))
)
(DECLARE: EVAL@COMPILE
(PUTPROPS \MOVETOBOX DMACRO (OPENLAMBDA (N D) (SELECTC (NTYPX N) (\SMALLP (replace (FIXP HINUM) of D
with 0) (replace (FIXP LONUM) of D with N)) (\FIXP (replace (FIXP HINUM) of D with (fetch (FIXP HINUM)
of N)) (replace (FIXP LONUM) of D with (fetch (FIXP LONUM) of N))) (\ILLEGAL.ARG N))))
(PUTPROPS .XUNBOX. MACRO ((X HX LX) (until (SETQ LX (SELECTC (NTYPX X) (\SMALLP (COND ((IGEQ X 0) (
SETQ HX 0) X) (T (SETQ HX MASKWORD1'S) (\LOLOC X)))) (\FIXP (SETQ HX (fetch (FIXP HINUM) of X)) (fetch
(FIXP LONUM) of X)) NIL)) do (SETQ X (LISPERROR "ILLEGAL ARG" X T)))))
(PUTPROPS .XLLSH. MACRO ((HI LO N) (if (IGEQ N BITSPERWORD) then (* Jump 16 bits in a single bound!) (
SETQ HI LO) (SETQ LO 0) (SETQ N (IDIFFERENCE N BITSPERWORD))) (if (IGEQ N BITSPERHALFWORD) then (*
Jump 8 bits in a single bound!) (SETQ HI (LOGOR (.LOHALFWORDHI. HI) (.HIHALFWORDLO. LO))) (SETQ LO (
.LOHALFWORDHI. LO)) (SETQ N (IDIFFERENCE N BITSPERHALFWORD))) (if (IGEQ N 4) then (* Jump 4 bits in a
single bound!) (SETQ HI (LOGOR (LRSH LO (CONSTANT (IDIFFERENCE BITSPERWORD 4))) (LLSH (LOGAND HI (
CONSTANT (MASK.1'S 0 (IDIFFERENCE BITSPERWORD 4)))) 4))) (SETQ LO (LLSH (LOGAND LO (CONSTANT (MASK.1'S
0 (IDIFFERENCE BITSPERWORD 4)))) 4)) (SETQ N (IDIFFERENCE N 4))) (* MASK0WORD1'S should be same as (
SUB1 (LSH 1 (SUB1 BITSPERWORD)))) (FRPTQ N (SETQ HI (LLSH (LOGAND HI MASK0WORD1'S) 1)) (SETQ LO (LLSH
(if (IGEQ LO MASK1WORD0'S) then (add HI 1) (LOGAND LO MASK0WORD1'S) else LO) 1)))))
(PUTPROPS .XLLSH1. MACRO ((HI LO) (SETQ HI (LLSH (LOGAND HI MASK0WORD1'S) 1)) (SETQ LO (LSH (COND ((
IGEQ LO MASK1WORD0'S) (SETQ HI (LOGOR HI 1)) (LOGAND LO MASK0WORD1'S)) (T LO)) 1))))
(PUTPROPS .XLRSH. MACRO ((HI LO N) (if (IGEQ N BITSPERWORD) then (* Jump 10 bits in a single bound!) (
SETQ LO HI) (SETQ HI 0) (SETQ N (IDIFFERENCE N BITSPERWORD))) (if (IGEQ N BITSPERHALFWORD) then (*
Jump 8 bits in a single bound!) (SETQ LO (LOGOR (.HIHALFWORDLO. LO) (.LOHALFWORDHI. HI))) (SETQ HI (
.HIHALFWORDLO. HI)) (SETQ N (IDIFFERENCE N BITSPERHALFWORD))) (if (IGEQ N 4) then (* Jump 4 bits in a
single bound!) (SETQ LO (LOGOR (LLSH (LOGAND HI (CONSTANT (MASK.1'S 0 4))) (CONSTANT (IDIFFERENCE
BITSPERWORD 4))) (LRSH LO 4))) (SETQ HI (LRSH HI 4)) (SETQ N (IDIFFERENCE N 4))) (* MASK1WORD0'S
should be same as \SIGNBIT) (FRPTQ N (SETQ LO (if (ODDP HI) then (LOGOR (LRSH LO 1) MASK1WORD0'S) else
(LRSH LO 1))) (SETQ HI (LRSH HI 1)))))
(PUTPROPS .ADD.2WORD.INTEGERS. MACRO ((HX LX HY LY) (* Ignores carry out of high-order word) (SETQ HX
(.SUMSMALLMOD. HX HY)) (SETQ LX (.SUMSMALLMOD. LX LY (SETQ HX (if (EQ HX MAX.SMALL.INTEGER) then 0
else (ADD1 HX)))))))
(PUTPROPS .SUB.2WORD.INTEGERS. MACRO ((HX LX HY LY) (* Ignores carry out of high-order word) (SETQ HX
(.DIFFERENCESMALLMOD. HX HY)) (SETQ LX (.DIFFERENCESMALLMOD. LX LY (SETQ HX (if (EQ HX 0) then
MAX.SMALL.INTEGER else (SUB1 HX)))))))
(PUTPROPS .32BITMUL. MACRO ((HR LR X Y) (PROG (HX LX HY LY) (if (ILESSP X Y) then (swap X Y)) (* Y is
the lesser of the two now) (.XUNBOX. X HX LX) (.XUNBOX. Y HY LY) LP (if (ODDP LY) then (
.ADD.2WORD.INTEGERS. HR LR HX LX)) (if (EQ HY 0) then (SETQ LY (LRSH LY 1)) (if (EQ LY 0) then (RETURN
)) else (.LRSH1. HY LY)) (* Trim off highest bits, so that left-shifting doesn't generate FIXPs) (SETQ
HX (LOGAND HX MASK0WORD1'S)) (.LLSH1. HX LX) (GO LP))))
)
(DECLARE: EVAL@COMPILE
(PUTPROPS .SUMSMALLMOD. MACRO ((X Y OVERFLOWFORM) ((LAMBDA (\SumSmallModVar) (DECLARE (LOCALVARS
\SumSmallModVar)) (IF (ILEQ X \SumSmallModVar) THEN (IPLUS X Y) ELSE OVERFLOWFORM (IDIFFERENCE X (ADD1
\SumSmallModVar)))) (IDIFFERENCE MAX.SMALL.INTEGER Y))))
(PUTPROPS .DIFFERENCESMALLMOD. MACRO ((X Y BORROWFORM) (IF (NOT (IGREATERP Y X)) THEN (IDIFFERENCE X Y
) ELSE BORROWFORM (ADD1 (IDIFFERENCE MAX.SMALL.INTEGER (IDIFFERENCE Y X))))))
)
(* END EXPORTED DEFINITIONS)
(DECLARE: EVAL@COMPILE
(PUTPROPS .ADD.2WORD.INTEGERS. MACRO ((HX LX HY LY) (* Ignores carry out of high-order word) (SETQ HX
(.SUMSMALLMOD. HX HY)) (SETQ LX (.SUMSMALLMOD. LX LY (SETQ HX (if (EQ HX MAX.SMALL.INTEGER) then 0
else (ADD1 HX)))))))
(PUTPROPS .SUB.2WORD.INTEGERS. MACRO ((HX LX HY LY) (* Ignores carry out of high-order word) (SETQ HX
(.DIFFERENCESMALLMOD. HX HY)) (SETQ LX (.DIFFERENCESMALLMOD. LX LY (SETQ HX (if (EQ HX 0) then
MAX.SMALL.INTEGER else (SUB1 HX)))))))
(PUTPROPS .32BITMUL. MACRO ((HR LR X Y) (PROG (HX LX HY LY) (if (ILESSP X Y) then (swap X Y)) (* Y is
the lesser of the two now) (.XUNBOX. X HX LX) (.XUNBOX. Y HY LY) LP (if (ODDP LY) then (
.ADD.2WORD.INTEGERS. HR LR HX LX)) (if (EQ HY 0) then (SETQ LY (LRSH LY 1)) (if (EQ LY 0) then (RETURN
)) else (.LRSH1. HY LY)) (* Trim off highest bits, so that left-shifting doesn't generate FIXPs) (SETQ
HX (LOGAND HX MASK0WORD1'S)) (.LLSH1. HX LX) (GO LP))))
)
)
(PUTPROPS ADDARITH COPYRIGHT ("Xerox Corporation" 1982 1983 1984 1985))
(DECLARE: DONTCOPY
(FILEMAP (NIL (1996 7016 (\RTIMES2 2006 . 3552) (\RATIONALIZE 3554 . 3889) (\RPLUS2 3891 . 5257) (
\RMINUS 5259 . 5596) (CREATERATIONAL 5598 . 6768) (RATIONALTOINTEGER 6770 . 7014)) (7753 8069 (
LOADBYTE 7763 . 7909) (DEPOSITBYTE 7911 . 8067)) (8318 8919 (IMODLESSP 8328 . 8507) (IMODPLUS 8509 .
8756) (IMODDIFFERENCE 8758 . 8917)) (9336 9767 (ROT 9346 . 9765)) (10281 11839 (\SETUP.MASKARRAYS
10291 . 11837)) (12585 17095 (\LDBEXPANDER 12595 . 14422) (\DPBEXPANDER 14424 . 17093)) (17340 18267 (
\PUTBASEBITS 17350 . 18265)) (20261 20919 (\GETBASENIBBLE 20271 . 20432) (\PUTBASENIBBLE 20434 . 20599
) (\GETBASEBIT 20601 . 20756) (\PUTBASEBIT 20758 . 20917)))))
STOP