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decus/20-0133/macten.mac
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SUBTTL DEC-10 UNIVERSAL PARAMETERS %1(24) 4-JAN-75
.XCREF
IFDEF %..C,<IFE %..C,< .CREF
TAPE >>
IFNDEF %..C,<UNIVER MACTEN DECsystem-10 Common Parameter File
.DIRECTIVE .NOBIN>
;***Copyright (C) 1971,1972,1973,1974,1975 Digital Equipment Corp., Maynard, Mass.***
;THIS PARAMETER FILE CONTAINS MACRO DEFINITIONS, SYMBOL DEFINITIONS
; AND OPDEFS WHICH ARE OPERATING SYSTEM INDEPENDENT. THIS
; FILE WAS ORIGINALLY PART OF C.MAC THE TOPS-10 CUSP UUO
; PARAMETER FILE.
MACWHO==0 ;LAST PATCHER
MACVER==1 ;MAJOR VERSION
MACMIN==0 ;MINOR VERSION
MACEDT==24 ;EDIT LEVEL
.CREF
SALL
SUBTTL TABLE OF CONTENTS
; SECTION PAGE
; 1. REVISION HISTORY...................................... 3
; 2. INTERESTING SYMBOLS................................... 4
; 3. MACRO DEFINITIONS -- ND, XP, EXT, GLOB................ 5
; 4. MACRO DEFINITIONS -- LISTING CONTROL.................. 7
; 5. MACRO DEFINITIONS -- BYTE MANIPULATION................ 8
; 6. MACRO DEFINITIONS -- INFO/REDEF....................... 9
; 7. MACRO DEFINITIONS -- STACK CONTROL.................... 10
; 8. SIMPLE STRUCTURE AND LOAD/STORE....................... 11
; 9. FLAG DEFINITIONS...................................... 12
; 10. MACRO DEFINITIONS -- GENERATE OP CODES ABCX........... 13
; 11. MACRO DEFINITIONS -- JUMPPT........................... 22
; 12. USEFUL OPDEFS......................................... 23
; 13. SYMBOLS FOR THE CONTROL CHARACTERS.................... 24
; 14. HARDWARE BITS OF INTEREST TO USERS.................... 25
SUBTTL REVISION HISTORY
;BASED UPON C.MAC %7(163) RELEASED MAY, 1974
;VERSIONS RESET WHEN CREATED
;1 CREATION
;2 CLEAN UP AND CORRECT BUGS INTRODUCED IN ORIGINAL SPLIT
;3 (10-14,209) REMOVE PDP-6 TEST IF SAME AS KA IN JUMPPT
;4 MASK DOWN VALUE IN INSVL.
;5 (10-14,209) ADD .SUA?? SYMBOLS
;6 ADD LSTOF., LSTON.
;7 ADD VRSN. AND VR.???
;10 ADD SHOW.
;11 ADD CONT.
;12 ADD DEFST., LOAD., STOR.
;13 ADD FLAG., LFLAG., SFLAG. AND CHANGE TX??
;14 ADD .LHALF, .RHALF, .FWORD
;15 ADD .ZERO5
;16 ADD FRAME.
;17 ADD TY??.
;20 ADD ZERO.
;21 ADD NDS.
;22 SIMPLIFY INSVL.
;23 ADD KL-10 IN JUMPPT
;24 WITHDRAW 13 UNTIL UNDERSTOOD
SUBTTL INTERESTING SYMBOLS
;VERSION FORMAT COMPONENTS
VR.WHO==7B2 ;WHO EDITTED (0=DEC DEVELOPMENT, 1=OTHER DEC,
; 2-4=CUSTOMER, 5-7=END USER)
VR.VER==777B11 ;MAJOR DEC VERSION
VR.MIN==77B17 ;MINOR DEC VERSION (1=A, ETC.)
VR.EDT==777777 ;EDIT LEVEL
;MACRO TO FORMAT THIS MODULE'S VERSION
; VRSN. PREFIX
;
;ASSUMES SYMBOLS OF FORM PREFIX'CUS, ..VER, ETC.
DEFINE VRSN.(PFX),<BYTE (3)PFX'WHO (9)PFX'VER (6)PFX'MIN (18)PFX'EDT>
;MISC. CONSTANTS
.INFIN==377777,,777777 ;PLUS INFINITY
.MINFI==1B0 ;MINUS INFINITY
LH.ALF==777777B17 ;LEFT HALF WORD
RH.ALF==777777 ;RIGHT HALF WORD
FW.ORD==-1 ;FULL WORD
.ZERO5==0 ;MNEMONIC THAT NO @ OR INDEX POSSIBLE
SUBTTL MACRO DEFINITIONS -- ND, XP, EXT, GLOB
;MACRO TO DEFINE A SYMBOL IF NOT ALREADY DEFINED
; ND SYMBOL,VALUE
DEFINE ND(SYMBOL,VALUE),<
IFNDEF SYMBOL,<SYMBOL==VALUE>
>
;MACRO TO SHOW THE VALUE OF AN ABSOLUTE SYMBOL
; SHOW SYMBOL
;WARNING-- DO NOT USE AS LAST LOCATION IN A SEGMENT
DEFINE SHOW.(ARG$),< .XCREF
EXP <ARG$>
.ORG .-1
.CREF>
;MACRO TO DEFINE A SYMBOL IF NOT ALREADY DEFINED AND SHOW ITS VALUE
;WARNING-- DO NOT USE AS LAST LOCATION IN A SEGMENT
DEFINE NDS.(SYMBOL,VALUE),<
IFNDEF SYMBOL,<SYMBOL==VALUE>
SHOW. (SYMBOL)
>
;MACRO TO DEFINE A SYMBOL AND FORCE IT INTERN
; XP SYMBOL,VALUE,PRINT
; WHERE PRINT IS NON-BLANK TO PRINT OUT FROM DDT
DEFINE XP(SYMBOL,VALUE,PRINT),<
INTERN SYMBOL
IFB <PRINT>,<SYMBOL==VALUE>
IFNB <PRINT>,<SYMBOL=VALUE>
>
;MACRO TO EXTERN A SYMBOL IF NOT DEFINED IN THIS ROUTINE
; EXT SYMBOL
DEFINE EXT(SYMBOL),<
IRP SYMBOL,<
IF2,< IFNDEF SYMBOL,<EXTERN SYMBOL> >>>
;MACRO TO EXTERN OR INTERN A SYMBOL
; GLOB SYMBOL
DEFINE GLOB(SYMBOL),<
IRP SYMBOL,<
IF2,< IFDEF SYMBOL,<INTERN SYMBOL>
IFNDEF SYMBOL,<EXTERN SYMBOL>
SUPPRE SYMBOL>>>
SUBTTL MACRO DEFINITIONS -- LISTING CONTROL
;THIS MACRO IS USED TO FORCE A PAGE OVERFLOW WITH COMMENT
;TO HAVE LISTINGS MATCH THE PROPOSED CODING STANDARD.
;
;IT IS INVOKED WHENEVER A PAGE OVERFLOW WOULD HAVE HAPPENED.
;
;
;ACCORDING TO THE PROPOSED STANDARD, ALL SOURCE FOR A ROUTINE
;MUST OCCUR ON ONE PAGE. HOWEVER, IT IS IMPORTANT FOR THE
;USER TO FIND "SENTENCE" BREAKS TO FORM THE OVERFLOW (EJECT)
;POINTS. WHENEVER OVERFLOW OCCURS, A COMMENT
;TO THAT EFFECT SHOULD APPEAR IN THE LISTING. ALL THIS IS
;ACCOMPLISHED BY THE USER INCLUDING THE MACRO "CONT." IN HIS
;SOURCE AT THE POINT OF THE OVERFLOW. NO BLANKS SHOULD PRECEED
;OR FOLLOW THE MACRO.
DEFINE CONT.<LALL
PAGE ;(CONTINUED ON NEXT PAGE)
SALL ;(CONTINUED FROM PREVIOUS PAGE)
>
;MACROS TO TURN ON AND OFF LISTINGS WHEN NESTING
; LSTOF. TURNS OFF LISTING AND CREF
; LSTOF. X TURNS OFF LISTING
; LSTON. RESTORES LISTING AND CREF IF TOP LEVEL
;IF LSTIN. IS DEFINED AS .MINFI, THEN ALL LISTINGS ON
DEFINE LSTOF.(CREF$),<
IFNDEF LSTIN., LSTIN.==0
IFE LSTIN.,<
IFB <CREF$>, .XCREF
XLIST>
LSTIN.==LSTIN.+1
>
DEFINE LSTON.,<
IFG LSTIN., LSTIN.==LSTIN.-1
IFLE LSTIN.,< .CREF
LIST>
>
SUBTTL MACRO DEFINITIONS -- BYTE MANIPULATION
;MACRO TO COMPUTE THE WIDTH OF A MASK
; "WID" RETURNS THE LENGTH OF THE LEFTMOST STRING OF
; CONSECUTIVE ONES IN THE WORD.
DEFINE WID(MASK),<<^L<-<<MASK>_<^L<MASK>>>-1>>>
;MACRO TO COMPUTE THE POSITION OF A MASK
DEFINE POS(MASK),<<^L<MASK>+^L<-<<MASK>_<^L<MASK>>>-1>-1>>
;MACRO TO BUILD A POINTER TO A MASKED QUANTITY
; POINTR LOCATION,MASK
DEFINE POINTR(LOC,MASK),<<POINT WID(MASK),LOC,POS(MASK)>>
;MACRO TO BUILD A MASK "WID" BITS WIDE, WITH ITS RIGHTMOST BIT
; IN THE BIT POSITION "POS". (I.E. A MASK FOR THE BYTE
; POINTED TO BY THE BYTE POINTER "POINT WID,LOC,POS")
DEFINE MASK.(WID,POS),<<<<1_<WID>>-1>B<POS>>>
;MACRO TO DEFINE A SYMBOL WITH ONLY ONE BIT ON, IN THE SAME POSITION AS
; THE RIGHTMOST BIT IN "MASK" (OR 0, IF "MASK" = 0)
DEFINE RGHBT.(MASK),<<<MASK>&-<MASK>>>
;MACRO TO DEFINE A SYMBOL WITH ONLY ONE BIT ON, IN THE SAME POSITION AS
; THE LEFTMOST BIT IN "MASK" (OR 0, IF "MASK" = 0)
DEFINE LFTBT.(MASK),<<1B<^L<MASK>>>>
; "FILIN." RETURNS A WORD WITH A CONSECUTIVE STRING OF ONES FROM THE
; BIT POSITION OF THE LEFTMOST ONE IN "MASK" THROUGH THE BIT POSITION
; OF THE RIGHTMOST ONE IN "MASK" INCLUSIVE.
DEFINE FILIN.(MASK),<<<MASK>!<<LFTBT.(MASK)>-<RGHBT.(MASK)>>>>
; "ALIGN." RETURNS THE NUMBER OF TRAILING ZEROS IN "MASK"
; (I.E. A VALUE WHICH IS THE RIGHT COUNTERPART OF THE VALUE
; RETURNED BY THE MACRO-10 OPERATOR "^L")
DEFINE ALIGN.(MASK),<<^D35-<^L<RGHBT.(MASK)>>+<^D37*<<^L<RGHBT.(MASK)>>/^D36>>>>
; BTSWP.(AC,BIT-1,BIT-2) SWAPS BITS 1 AND 2 IN AC.
; BIT-1 AND BIT-2 ARE DECIMALS 0-35
DEFINE BTSWP.(AC,BIT1,BIT2),<
REPEAT 3,<
TXCE AC,1B<BIT1>!1B<BIT2>
>>
; "INSVL." POSITIONS VALUE IN MASK
DEFINE INSVL.(VALUE,MASK),<<<<VALUE>B<POS(<MASK>)>>&<MASK>>>
SUBTTL MACRO DEFINITIONS -- INFO/REDEF
;THE FOLLOWING MACROS FACILITATE THE ACCUMULATION OF TEXT BY PERMITTING
;THE USER TO APPEND A LINE OF TEXT TO THE BODY OF TEXT ALREADY
;ACCUMULATED. THE MACROS ARE USED IN THE FOLLOWING WAY:
;1. TO CLEAR THE MECHANISM:
; CINFO.
;2. TO APPEND THE LINE "SAMPLE LINE" (FOLLOWED BY CR-LF) TO THE
;END OF THE TEXT ACCUMULATED SO FAR:
; INFO. REDEF.,"SAMPLE LINE"
;3. TO DEFINE A MACRO "NAME" SO THAT ITS EXPANSION WILL BE THE TEXT
;ACCUMULATED SO FAR, (NOTE-IT ADDS A NULL LINE TO THE END):
; INFO. DEFINE "NAME"
DEFINE CINFO. <
DEFINE INFO.(OPCODE,NEWARG)<
OPCODE NEWARG>>
DEFINE REDEF.(OLDARG)<
DEFINE INFO.(OPCODE,NEWARG)<
OPCODE <OLDARG
NEWARG>>>
SUBTTL MACRO DEFINITIONS -- STACK CONTROL
;MACRO TO DEFINE A BUNCH OF WORDS ON THE STACK.
;EACH ARGUMENT TO THE FRAME. MACRO ALLOCATES 1 WORD ON THE
; STACK AND DEFINES A MACRO WITH THE SAME NAME AS -N(P).
;
;WARNING: THIS MACRO DEFINES THINGS IN TERMS OF (P) AND THEREFOR
; NOTHING ELSE MAY BE PUSHED ON THE STACK!!!
DEFINE FRAME. (LIST,%A),<
OLD%%%==10 ;;SAVE CURRENT RADIX
RADIX 8
N%%%==0 ;;ARGUMENT COUNT
IRP LIST,<
FR%%AM (LIST,\<N%%%+1>) ;;DEFINE SYMBOL MACRO
N%%%==N%%%+1 ;;COUNT ARGS
>
ADD P,[N%%%,,N%%%] ;;ALLOCATE SPACE
PUSHJ P,%A ;;DO THE SUBROUTINE
SKIPA
AOS -N%%%(P) ;;PASS ON SKIP RETURN
SUB P,[N%%%,,N%%%] ;;DEALLOCATE SPACE
POPJ P, ;;RETURN
%A:
RADIX OLD%%%
PURGE N%%%,OLD%%%
>
DEFINE FR%%AM (A,B),<
DEFINE A,<-^O'B(P)>
>
SUBTTL SIMPLE STRUCTURE AND LOAD/STORE
;MACROS TO DEFINE AND LOAD/STORE A BYTE LOCATION
;MACRO DEFST. (BYTE NAME, WORD LOCATION, MASK)
; DEFINES THE LOCATION AND SIZE OF THE BYTE
DEFINE DEFST.(NAM$,LOC$,MASK$),<
..OLD==10
..TYP==3
IFE <MASK$>+1,..TYP==0
IFE <MASK$>-^O777777,..TYP==1
IFE <MASK$>-^O777777B17,..TYP==2
..POS==POS(<MASK$>)
..WID==WID(<MASK$>)
RADIX 10
DF%%ST (\..TYP,NAM$,<LOC$>,\..POS,\..WID)
PURGE ..OLD,..TYP,..POS,..WID>
; THIS IS A HELPER MACRO FOR INTERNAL USE
DEFINE DF%%ST (TYP$,NAM$,LOC$,POS$,WID$),<
RADIX ..OLD
DEFINE NAM$ (OPS,AC,E),<
..C==0
IRP OPS,<
IFE TYP$-..C,<
STOPI
IFN 3-..C, OPS <AC>,LOC$''E
IFE 3-..C, OPS <AC>,[POINT WID$,LOC$''E,POS$]
>
..C==..C+1>
PURGE ..C>
>
;MACRO LOAD. (AC, BYTE NAME, OPTIONAL LOC)
; WILL LOAD AC WITH THE CONTENTS OF THE BYTE. IF AND ONLY
; NO LOCATION WAS GIVEN IN DEFST., GIVE IT IN LOAD.
;MACRO STOR. IS IDENTICAL EXCEPT THE AC IS STORED INTO THE BYTE.
;MACRO ZERO. IS IDENTICAL (FIRST ARG IGNORED) EXCEPT ZERO IS STORED
DEFINE LOAD. (AC$,STR$,E$),< STR$ (<MOVE,HRRZ,HLRZ,LDB>,<AC$>,<E$>)>
DEFINE STOR. (AC$,STR$,E$),< STR$ (<MOVEM,HRRM,HRLM,DPB>,<AC$>,<E$>)>
DEFINE ZERO. (AC$,STR$,E$),< STR$ (<SETZM,HLLZS,HRRZS,<PRINTX ?CAN'T ZERO BYTE>>,<AC$>,<E$>)>
SUBTTL FLAG DEFINITIONS
;MACRO FLAG. DEFINES A LIST OF FLAGS AS BEING IN
;A PARTICULAR REGISTER IN SUCH A FASHION THAT
;THE BITS ARE ASSIGNED AT ASSEMBLY TIME AND THE REGISTER AND
;BITS ARE "REMEMBERED" FOR FUTURE USE IN THE TX?? MACROS.
;;THIS WILL BE DEFINED AT SOME FUTURE TIME AND VERSION.
SUBTTL MACRO DEFINITIONS -- GENERATE OP CODES ABCX
;MACRO TO GENERATE MOVEI, MOVSI, OR MOVE [] AS APPROPRIATE
; ALSO HRLOI, HRROI
DEFINE MOVX (AC,FLAG),<
.XCREF
TEST%%=0
IFE <<FLAG>_-^D18>,<
TEST%%=1
.CREF
MOVEI AC,<FLAG>
.XCREF
>
IFN <FLAG>,<
IFE <<FLAG>_^D18>,<
TEST%%=1
.CREF
MOVSI AC,(FLAG)
.XCREF
>
IFE <<<FLAG>_-^D18>-^O777777>,<
TEST%%=1
.CREF
HRROI AC,<FLAG>
.XCREF
>
IFE TEST%%,<
IFE <<<FLAG>_^D18>-^O777777B17>,<
TEST%%=1
.CREF
HRLOI AC,(<FLAG>-^O777777)
.XCREF
>
IFE TEST%%,<
.CREF
MOVE AC,[FLAG]
>>>
PURGE TEST%%
.CREF>
;STORE (AC,FIRST,LAST,CONSTANT) PUTS CONSTANT IN FIRST THRU LAST.
DEFINE STORE(AC,FIRST,LAST,CONS),<
IFE <CONS>,< SETZM FIRST> ;;IF CONS=0, CLEAR FIRST
IFE <CONS>+1,< SETOM FIRST> ;;IF CONS=-1, SET FIRST TO -1
IFN <CONS>*<<CONS>+1>,<MOVX AC,<CONS> ;;ELSE DO IT
MOVEM AC,FIRST> ;; THE HARD WAY
IFNB <LAST>,< ;;IF MORE THAN ONE LOCATION
MOVE AC,[FIRST,,FIRST+1]
BLT AC,LAST ;;DISTRIBUTE THE CONSTANT
>>
;GENERATE CAI OR CAM AS APPROPRIATE
DEFINE CAX (AC,VAL),<OP%%CA (AC,VAL,)>
DEFINE CAXL (AC,VAL),<OP%%CA (AC,VAL,L)>
DEFINE CAXLE (AC,VAL),<OP%%CA (AC,VAL,LE)>
DEFINE CAXE (AC,VAL),<OP%%CA (AC,VAL,E)>
DEFINE CAXG (AC,VAL),<OP%%CA (AC,VAL,G)>
DEFINE CAXGE (AC,VAL),<OP%%CA (AC,VAL,GE)>
DEFINE CAXN (AC,VAL),<OP%%CA (AC,VAL,N)>
DEFINE CAXA (AC,VAL),<OP%%CA (AC,VAL,A)>
DEFINE OP%%CA (AC,VALUE,CODE),<
.XCREF
IFE <<VALUE>_-^D18>,<
.CREF
CAI'CODE AC,<VALUE>
.XCREF
>
IFN <<VALUE>_-^D18>,<
.CREF
CAM'CODE AC,[VALUE]
.XCREF
>
.CREF>
;GENERATE IMMEDIATE OR MEMORY CONSTANTS
DEFINE ADDX (AC,VAL),<OP%%IA (AC,VAL,ADD,SUB)>
DEFINE SUBX (AC,VAL),<OP%%IA (AC,VAL,SUB,ADD)>
DEFINE MULX (AC,VAL),<OP%%IN (AC,VAL,MUL)>
DEFINE IMULX (AC,VAL),<OP%%IN (AC,VAL,IMUL)>
DEFINE DIVX (AC,VAL),<OP%%IN (AC,VAL,DIV)>
DEFINE IDIVX (AC,VAL),<OP%%IN (AC,VAL,IDIV)>
DEFINE OP%%IA (AC,VALUE,CODE,ALT),<
.XCREF
IFE <<<VALUE>_-^D18>-^O777777>,<
.CREF
ALT'I AC,-<VALUE>
.XCREF
>
IFN <<<VALUE>_-^D18>-^O777777>,<
OP%%IN AC,<VALUE>,CODE
>
.CREF>
DEFINE OP%%IN (AC,VALUE,CODE),<
.XCREF
IFE <<VALUE>_-^D18>,<
.CREF
CODE'I AC,<VALUE>
.XCREF
>
IFN <<VALUE>_-^D18>,<
.CREF
CODE AC,[VALUE]
.XCREF
>
.CREF>
;GENERATE IMMEDIATE OR MEMORY FOR FLOATING POINT
DEFINE FADRX (AC,VAL),<OP%%FA (AC,VAL,FADR,FSBR)>
DEFINE FSBRX (AC,VAL),<OP%%FA (AC,VAL,FSBR,FADR)>
DEFINE FMPRX (AC,VAL),<OP%%FP (AC,VAL,FMPR)>
DEFINE FDVRX (AC,VAL),<OP%%FP (AC,VAL,FDVR)>
DEFINE OP%%FA (AC,VALUE,CODE,ALT),<
.XCREF
IFE <<<VALUE>_^D18>-^O777777B17>,<
.CREF
ALT'I AC,(-<VALUE>)
.XCREF
>
IFN <<<VALUE>_^D18>-^O777777B17>,<
OP%%FP AC,<VALUE>,CODE
>
.CREF
>
DEFINE OP%%FP (AC,VALUE,CODE),<
.XCREF
IFE <<VALUE>_^D18>,<
.CREF
CODE'I AC,(VALUE)
.XCREF
>
IFN <<VALUE>_^D18>,<
.CREF
CODE AC,[VALUE]
.XCREF
>
.CREF>
;MACRO TO GENERATE MACROS OF THE FORM TXYY. THESE MACRO REPLACE
; A TLYY OR A TRYY DEPENDING UPON THEIR ARGUMENT. SEE EXAMPLES:
;
; CALL RESULT
; TXNE F,1B20 TRNE F,1B20
; TXON F,1B0 TLON F,(1B0)
; TXZ F,1B1!1B31 TDZ F,[1B1!1B31]
;
;IF CALLED WITH ONLY ONE ARG, IT IS ASSUMED TO BE DEFINED BY A FLAG. MACRO
.XCREF
DEFINE TX0%% (M,S),<
IRP M,<
IRP S,<
DEFINE TX'M'S (AC,FLAG),<
.XCREF
IFB <FLAG>, OP%%TX <^O37777777&AC>,1B<AC_-^D30>,TL'M'S,TR'M'S,TD'M'S
IFNB <FLAG>, OP%%TX AC,<FLAG>,TL'M'S,TR'M'S,TD'M'S
.CREF
>>>>
TX0%% <N,Z,O,C>,<E,N,A>
PURGE TX0%%
.CREF
DEFINE TXN (AC,FLAG),<
IFB <FLAG>, JFCL 0
IFNB <FLAG>, TRN AC,<,,<FLAG>>
>
DEFINE TXZ (AC,FLAG),<
.XCREF
IFB <FLAG>, TXZ (<^O37777777&AC>,1B<AC_-^D30>)
IFNB <FLAG>,<
IFN <<AC>&^O777777777760>, PRINTX ? AC IS NOT AN ACCUMULATOR
IFE <<<FLAG>_-^D18>-^O777777>,<
.CREF
ANDI AC,<,,-1-<FLAG>>
.XCREF>
IFN <<<FLAG>_-^D18>-^O777777>,<
OP%%TX AC,<FLAG>,TLZ,TRZ,TDZ
>> .CREF>
DEFINE TXO (AC,FLAG),<
.XCREF
IFB <FLAG>, TXO (<^O37777777&AC>,1B<AC_-^D30>)
IFNB <FLAG>,<
IFN <<AC>&^O777777777760>, PRINTX ? AC IS NOT AN ACCUMULATOR
IFE <<<FLAG>_-^D18>-^O777777>,<
.CREF
ORCMI AC,<,,-1-<FLAG>>
.XCREF>
IFN <<<FLAG>_-^D18>-^O777777>,<
OP%%TX AC,<FLAG>,TLO,TRO,TDO
>> .CREF>
DEFINE TXC (AC,FLAG),<
.XCREF
IFB <FLAG>, TXC (<^O37777777&AC>,1B<AC_-^D30>)
IFNB <FLAG>,<
IFN <<AC>&^O777777777760>, PRINTX ? AC IS NOT AN ACCUMULATOR
IFE <<<FLAG>_-^D18>-^O777777>,<
.CREF
EQVI AC,<,,-1-<FLAG>>
.XCREF>
IFN <<<FLAG>_-^D18>-^O777777>,<
OP%%TX AC,<FLAG>,TLC,TRC,TDC
>> .CREF>
DEFINE OP%%TX (AC,FLAG,L,R,D)<
.XCREF
IFN <<AC>&^O777777777760>, PRINTX ? AC IS NOT AN ACCUMULATOR
TEMP%%=0
IFE <<FLAG>_^D18>,<
IFN <FLAG>,<
TEMP%%=1
.CREF
L AC,(FLAG)
.XCREF
>>
IFE <<FLAG>_-^D18>,<
TEMP%%=1
.CREF
R AC,<FLAG>
.XCREF
>
IFE TEMP%%,<
.CREF
D AC,[FLAG]
>
PURGE TEMP%%
.CREF>
;DEFINE MNEMONIC CODES FOR SOME OF ABOVE
DEFINE IORX (AC,FLAG),<TXO AC,<FLAG>>
DEFINE ANDX (AC,FLAG),<TXZ AC,-1-<FLAG>>
DEFINE XORX (AC,FLAG),<TXC AC,<FLAG>>
;MACROS TO TEST AND SET/CLEAR/COMPLEMENT FLAGS WHICH ARE NOT
;IN ACCUMULATORS. BE VERY CAREFUL THAT THESE GENERATE TWO
;INSTRUCTIONS, SO CAN NOT BE SKIPPED OVER.
;THEY EACH HAVE TWO ARGUMENTS, THE FIRST IS A SCRATCH AC
; AND THE SECOND IS THE FLAG WHICH WAS DEFINED IN A FLAG. MACRO.
DEFINE TYNE. (AC,FLAG),<
MOVX AC,1B<FLAG_-^D30>
.XCREF
<TDNE AC,>!<37777777&FLAG>
.CREF
>
DEFINE TYNN. (AC,FLAG),<
MOVX AC,1B<FLAG_-^D30>
.XCREF
<TDNN AC,>!<37777777&FLAG>
.CREF
>
DEFINE TYO. (AC,FLAG),<
MOVX AC,1B<FLAG_-^D30>
.XCREF
<IORM AC,>!<37777777&FLAG>
.CREF
>
DEFINE TYZ. (AC,FLAG),<
MOVX AC,1B<FLAG_-^D30>
.XCREF
<ANDCAM AC,>!<37777777&FLAG>
.CREF
>
DEFINE TYC. (AC,FLAG),<
MOVX AC,1B<FLAG_-^D30>
.XCREF
<XORM AC,>!<37777777&FLAG>
.CREF
>
;NOTE - "TXNI.", "TXND.", "JUMPI." & "JUMPD." MAY ASSEMBLE AS ONE OR MORE
; INSTRUCTIONS, DEPENDING ON THE ACTUAL VALUES OF THEIR ARGUMENTS.
; IN ALL CASES WHERE THE MACRO EXPANSION IS MORE THAN ONE INSTRUCTION
; IT WILL BE TRUE THAT IF CONTROL ARRIVES AT THE SECOND INSTRUCTION
; OF THE MACRO EXPANSION, CONTROL WILL UNCONDITIONALLY BE PASSED TO
; THE INSTRUCTION IMMEDIATELY FOLLOWING THE LAST INSTRUCTION OF THE
; MACRO EXPANSION (WITHOUT HAVING ALTERED ANY PART OF THE MACHINE
; STATE OTHER THAN THE PC). THUS A SKIP TYPE INSTRUCTION IMMEDIATELY
; PRECEEDING A "TXNI.", "TXND.", "JUMPI.", OR "JUMPD." MACRO WILL HAVE
; THE EFFECT OF SKIPPING OVER THE ENTIRE MACRO EXPANSION.
;
;
;TEST (BUT DON'T MODIFY) THE FIELD
; (IN "AC") SPECIFIED BY "MASK" AND SKIP IF IT IS IDENTICAL TO "PATERN"
DEFINE TXNI.(AC,MASK,PATERN),<
IFE <<MASK>_<1+^L<MASK>>>,<
IFE <<MASK>&<PATERN>>,<
TXNE AC,<MASK>
>
IFN <<MASK>&<PATERN>>,<
TXNN AC,<MASK>
>>
IFN <<MASK>_<1+^L<MASK>>>,<
TXCA AC,<<PATERN>&<MASK>>
JRST .+4
TXCE AC,<<PATERN>&<MASK>>
JRST .+2
TXNE AC,<<-<PATERN>-1>&<MASK>>
>>
;TEST (BUT DON'T MODIFY) THE FIELD
; (IN "AC") SPECIFIED BY "MASK" AND SKIP IF IT IS DIFFERENT THAN "PATERN"
DEFINE TXND.(AC,MASK,PATERN),<
IFE <<MASK>_<1+^L<MASK>>>,<
IFE <<MASK>&<PATERN>>,<
TXNN AC,<MASK>
>
IFN <<MASK>&<PATERN>>,<
TXNE AC,<MASK>
>>
IFN <<MASK>_<1+^L<MASK>>>,<
TXCA AC,<<PATERN>&<MASK>>
JRST .+4
TXCE AC,<<PATERN>&<MASK>>
JRST .+3
TXNN AC,<<-<PATERN>-1>&<MASK>>
>>
;JUMP TO "LOCATN" IF THE FIELD
; (IN "AC") SPECIFIED BY "MASK" IS IDENTICAL TO "PATERN"
DEFINE JUMPI.(AC,MASK,PATERN,LOCATN),<
IFE <<MASK>_1>,<
IFE <MASK>,<
JUMPA AC,LOCATN
>
IFN <MASK>,<
IFE <<PATERN>&<MASK>>,<
JUMPGE AC,LOCATN
>
IFN <<PATERN>&<MASK>>,<
JUMPL AC,LOCATN
>>>
IFN <<MASK>_1>,<
TXCA AC,<<PATERN>&<MASK>>
JRST .+5
TXCE AC,<<PATERN>&<MASK>>
JRST .+3
TXNN AC,<<-<PATERN>-1>&<MASK>>
JRST LOCATN
>>
;JUMP TO "LOCATN" IF THE FIELD
; (IN "AC") SPECIFIED BY "MASK" IS DIFFERENT THAN "PATERN"
DEFINE JUMPD.(AC,MASK,PATERN,LOCATN)
<IFE <<MASK>_1>,<
IFE <MASK>,<
JUMP AC,LOCATN
>
IFN <MASK>,<
IFE <<PATERN>&<MASK>>,<
JUMPL AC,LOCATN
>
IFN <<PATERN>&<MASK>>,<
JUMPGE AC,LOCATN
>>>
IFN <<MASK>_1>,<
TXCA AC,<<PATERN>&<MASK>>
JRST .+5
TXCE AC,<<PATERN>&<MASK>>
JRST LOCATN
TXNE AC,<<-<PATERN>-1>&<MASK>>
JRST LOCATN
>>
SUBTTL MACRO DEFINITIONS -- JUMPPT
;MACRO TO JUMP DEPENDING UPON PROCESSOR TYPE
;CALL: JUMPPT TEMPAC,PDP-6 ADDR,KA-10 ADDR,KI-10 ADDR,KL-10 ADDR
; WHERE TEMPAC IS AN AC TO USE AS A TEMP
; BLANK PROCESSORS FALL THROUGH TO NEXT INSTRUCTION
DEFINE JUMPPT (AC,CP166,KA10,KI10,KL10,KX,KY,KZ,%1),<
IFDIF <CP166><KA10>,<
JFCL 1,.+1 ;;CLEAR PC-CHANGE FLAG
JRST .+1 ;;SET PC-CHANGE
IFNB <CP166>,< JFCL 1,CP166
IFNB <KA10>,<IFIDN <KA10><KI10>,<IFIDN <KI10><KL10>,< JRST KA10>>>>
IFB <CP166>,< JFCL 1,%1
IFIDN <KA10><KI10>,<IFIDN <KI10><KL10>,< JRST KA10>>>
>;;END IFDIF <CP166><KA10>
IFDIF <KA10><KI10>,<
HRLOI AC,-2 ;;SET FOR KA/KI TEST
IFNB <KA10>,< AOBJP AC,KA10
IFNB <KI10>,<IFIDN <KI10><KL10>,<JRST KI10>>>
IFB <KA10>,<IFDIF <KI10><KL10>,<AOBJP AC,%1>
IFIDN <KI10><KL10>,<AOBJN AC,KI10>>
>;;END IFDIF <KA10><KI10>
IFDIF <KI10><KL10>,<
IF2,<IFE AC,<PRINTX ? AC MUST BE NON-ZERO IN JUMPPT>>
MOVEI AC,0 ;;SET FOR KI/KL TEST
BLT AC,0 ;;DO TEST
IFNB <KI10>,< JUMPE AC,KI10
IFNB <KL10>,< JRST KL10>>
IFB <KI10>,< JUMPN AC,KL10>
>;;END IFDIF <KI10><KL10>
%1:>
;DEFINE UNITS OF STORAGE ALLOCATION
.SUAP6==^D1024 ;PDP-6
.SUAKA==^D1024 ;KA-10
.SUAKI==^D512 ;KI-10
.SUAKL==^D512 ;KL-10
SUBTTL USEFUL OPDEFS
OPDEF PJRST [JRST] ;PUSHJ/POPJ
OPDEF PJRSTF [JRSTF] ;PUSHJ/POPJ
OPDEF PJSP [JSP] ;MOVEI .+1/PUSHJ/POPJ
OPDEF PJUMPL [JUMPL]
OPDEF PJMPLE [JUMPLE]
OPDEF PJUMPE [JUMPE]
OPDEF PJUMPN [JUMPN]
OPDEF PJUMPG [JUMPG]
OPDEF PJMPGE [JUMPGE]
;OPDEF THE KI-10 CONCEALED PAGE GATE-KEEPER
OPDEF PORTAL [JRST 1,]
SUBTTL SYMBOLS FOR THE CONTROL CHARACTERS
.CHNUL==000 ;NULL
.CHCNA==001
.CHCNB==002
.CHCNC==003
.CHCND==004
.CHCNE==005
.CHCNF==006
.CHBEL==007 ;BELL
.CHCNH==010
.CHTAB==011 ;TAB
.CHLFD==012 ;LINE-FEED
.CHVTB==013 ;VERTICAL TAB
.CHFFD==014 ;FORM FEED
.CHCRT==015 ;CARRIAGE RETURN
.CHCNN==016
.CHCNO==017
.CHCNP==020
.CHCNQ==021
.CHCNR==022
.CHCNS==023
.CHCNT==024
.CHCNU==025
.CHCNV==026
.CHCNW==027
.CHCNX==030
.CHCNY==031
.CHCNZ==032
.CHESC==033 ;ESCAPE
.CHCBS==034 ;CONTROL BACK SLASH
.CHCRB==035 ;CONTROL RIGHT BRACKET
.CHCCF==036 ;CONTROL CIRCONFLEX
.CHCUN==037 ;CONTROL UNDERLINE
.CHALT==175 ;OLD ALTMODE
.CHAL2==176 ;ALTERNATE OLD ALTMODE
.CHDEL==177 ;DELETE
SUBTTL HARDWARE BITS OF INTEREST TO USERS
;PC FLAGS
PC.OVF==1B0 ;OVERFLOW
PC.CY0==1B1 ;CARRY 0
PC.CY1==1B2 ;CARRY 1
PC.FOV==1B3 ;FLOATING OVERFLOW
PC.BIS==1B4 ;BYTE INCREMENT SUPPRESSION
PC.USR==1B5 ;USER MODE
PC.UIO==1B6 ;USER IOT MODE
PC.LIP==1B7 ;LAST INSTRUCTION PUBLIC
PC.AFI==1B8 ;ADDRESS FAILURE INHIBIT
PC.ATN==3B10 ;APR TRAP NUMBER
PC.FUF==1B11 ;FLOATING UNDERFLOW
PC.NDV==1B12 ;NO DIVIDE
SUBTTL
.XCREF
%%MACT==<VRSN. (MAC)>
PURGE MACWHO,MACVER,MACMIN,MACEDT
IF1,< ASUPPRESS>
IFNDEF %..C,<END> ;END UNIVERSAL OF MACTEN
.CREF