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10,7/anf10/macros.p11
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.SBTTL MACROS - SOME USEFUL PDP-11 MACROS 17-MAY-88
;THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY BE USED
; OR COPIED ONLY IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE.
;
;COPYRIGHT (c) DIGITAL EQUIPMENT CORPORATION
; 1976,1977,1978,1979,1980,1981,1982,1983,1984,1987,1988.
;ALL RIGHTS RESERVED.
VRMACR=033 ;FILE EDIT NUMBER
; THESE MACROS ARE INTENDED TO IMPROVE THE READABILITY
; OF THE CODE AND MAKE MODEL-INDEPENDENT CODE EASIER
; TO WRITE.
;
;
;
; MACROS TO LOAD AND STORE PS REGISTER. THESE ARE SINGLE
; INSTRUCTIONS ON THE PDP-11/03 AND PDP-11/34.
.MACRO MTPS NEWPS
.IF EQ,<<PDP11-03>*<PDP11-34>>
XX=.
CLR NEWPS
XXX=.
.=XX
.NTYPE XX,NEWPS
.WORD 106400+XX
.=XXX
.IFF
MOV NEWPS,@#PS
.ENDC ;.IF EQ,<<PDP11-03>*<PDP11-34>>
.ENDM MTPS
.MACRO MFPS DESTI
.IF EQ,<<PDP11-03>*<PDP11-34>>
XX=.
CLR DESTI
XXX=.
.=XX
.NTYPE XX,DESTI
.WORD 106700+XX
.=XXX
.IFF
MOV @#PS,DESTI
.ENDC ;.IF EQ,<<PDP11-03>*<PDP11-34>>
.ENDM MFPS
.SBTTL MACRO DEFINITIONS
.MACRO COUNT A
INC A+2
BNE .+6
INC A
.ENDM COUNT
; REGISTER SAVE MACRO
.MACRO SAVE A
.IRP X,<A>
MOV X,-(P) ;PUSH X ON THE STACK
.ENDM
.ENDM SAVE
; REGISTER RESTORE MACRO
.MACRO RESTORE A
.IRP X,<A>
MOV (P)+,X ;POP X OFF THE STACK
.ENDM
.ENDM RESTORE
;MACRO TO HANDLE QUEUES
; 1ST ARGUMENT IS NAME OF QUEUE
; 2ND ARGUMENT IS MAXIMUM NUMBER OF ENTRIES IN QUEUE
; 3RD ARGUMENT IF PRESENT IS NUMBER OF BYTES IN EACH ENTRY
.MACRO QUEUE QUE,SIZ,ESZ
.IIF B <ESZ>,QUE'.SIZ=<SIZ+1>*2
.IIF NB <ESZ>,QUE'.SIZ=<SIZ+1>*ESZ
QUE'.PTR: QUE'.QUE ;QUEUE PUTTER
QUE'.TKR: QUE'.QUE ;QUEUE TAKER
QUE'.QUE: .BLKB QUE'.SIZ
.ENDM QUEUE
;MACRO TO GIVE OPER MESSAGES
.MACRO TATTLE ARG
.IF NE FT.HLP
MOV #ARG'.MSG,LB.CTY(J)
.ENDC
.ENDM TATTLE
;MARO TO TRACE THINGS
.MACRO TRACE ARG
Q= FTRACE
.IF NB ARG
.IIF DF FT'ARG'.T, Q= FT'ARG'.T&FTRACE
.IIF NDF FT'ARG'.T,.PRINT ;FT'ARG'.T NOT DEFINED
.ENDC
.IF NE Q
JSR PC,TRACE.
.ENDC
.ENDM TRACE
;PJMP IS USED IN PLACE OF THE LAST PAIR OF INSTRUCTIONS IN A SUBROUTINE
; WHEN THEY ARE JSR PC, FOLLOWED BY RTS PC. PJMP IS USED INSTEAD OF
; JSR PC, SO THAT SOMEONE READING THE CODE WILL UNDERSTAND THAT A
; A SUBROUTINE IS BEING CALLED.
.MACRO PJMP WHERE
JMP WHERE
.ENDM PJMP
.MACRO PBRNCH WHERE
BR WHERE
.ENDM PBRNCH
.MACRO PIOFF
MOV PS,-(P) ;SAVE PROCESSOR LEVEL
SPL 7 ;DISABLE ALL INTERRUPTS
.ENDM PIOFF
.MACRO PION
MOV (P)+,PS ;RESTORE OLD PROCESSOR LEVEL
.ENDM PION
.MACRO ND ARG1,ARG2
.IIF NDF ARG1,ARG1=ARG2
.ENDM
;MACRO FOR BUILDING VARIOUS BLOCK STRUCTURES
.MACRO BLOCK TYPE
$$$OFF=0 ;START WITH ZERO OFFSET
.MACRO ITIS A,B
.LIST
A=B
.NLIST
.ENDM ITIS
.MACRO X Q,QQ
$$$OFF=<$$$OFF+1>&177776 ;EVEN OFFSET FORCED
.IF NB <Q>
ITIS TYPE'.'Q,\$$$OFF
.ENDC
.IF NB <QQ>
$$$OFF=$$$OFF+<2*<QQ>>
.IFF
$$$OFF=$$$OFF+2
.ENDC
.ENDM
.MACRO XX Q,QQ
.IF NB <Q>
ITIS TYPE'.'Q,\$$$OFF
.ENDC
.IF NB <QQ>
$$$OFF=$$$OFF+<QQ>
.IFF
$$$OFF=$$$OFF+1
.ENDC
.ENDM
.ENDM BLOCK
;INLINE MACRO TO COUNT OCCURANCES
.MACRO TWIDDLE QVAL
ND FTWDDL,0
.IF NE FTWDDL!DEBUG!FT.CHK
.IF NB <QVAL>
MOV QVAL,#0
.IFF
INC #0
.ENDC
FTWDDL=FTWDDL+1
TWLAB. \FTWDDL
.ENDC
.ENDM TWIDDLE
.MACRO TWLAB. QI
.LIST
TW.'QI=.-2
.NLIST
.ENDM TWLAB.
;MACROS FOR CONSISTENCY CHECKING
.MACRO CHK X
.IF NE FT.CHK
ASSERT X
.ENDC
.ENDM CHK
.MACRO CNKCHK Q ;CHECK CHUNK ADR IS PLAUSIBLE
.IF NE FT.CHK
ASSERT CHUNK Q
.ENDC
.ENDM CNKCHK
;MACROS TO SIMULATE INSTRUCTIONS FOR SIMPLE PDP11'S
.MACRO SIMMAC
.IF LT <PDP11-30>
;MACRO TO SIMULATE SOB ON SIMPLE PDP11'S
.MACRO SOB CNT,WHERE
.IIF GT WHERE-., .ERROR 0; SOB FORWARD BRANCH ????
.IIF NE <.-WHERE>&^C176, .ERROR WHERE; SOB BRANCH RANGE ????
.IF NE WHERE-.
DEC CNT
BNE WHERE
.IFF
BRLOC=.
DEC CNT
BNE BRLOC
.ENDC
.ENDM SOB
;MACRO TO DO AN XOR FOR SIMPLE PDP11'S
.MACRO XOR2 A02,B02,B12,B22,C02,C12,C22
MOV A02,C02
BIC B02,C12
BIC A02,B12
BIS C22,B22
.ENDM XOR2
.MACRO XOR1 A01,B01,B11,B21
XOR2 A01,B01,B11,B21,-(SP),(SP),(SP)+
.ENDM XOR1
.MACRO XORERR AV,BV,DB
.IF B DB
.ERROR 74000; XOR SOURCE ('AV') NOT A REGISTER ???
.IFF
.ERROR <74000+AV*100+BV>; XOR WITH DEST DB IS NOT SUPPORTED ????
.ENDC
HALT
.ENDM XORERR
.MACRO XOR A,B
.NTYPE QA,A
.IF NE QA&^C7
XORERR \QA
.IFF
.NTYPE QB,B
QC=QB&70
QD=QB&7
.IF LE <QD-5>
.IF LE <QC-10>
XOR1 A,B,B,B
.IFF
.IF GE <QC-60>
XOR1 A,B,B,B
.IFF
.IF EQ <QC-20>
.IIF EQ QD, XOR1 A,(R0),(R0),(R0)+
.IIF EQ QD-1, XOR1 A,(R1),(R1),(R1)+
.IIF EQ QD-2, XOR1 A,(R2),(R2),(R2)+
.IIF EQ QD-3, XOR1 A,(R3),(R3),(R3)+
.IIF EQ QD-4, XOR1 A,(R4),(R4),(R4)+
.IIF EQ QD-5, XOR1 A,(R5),(R5),(R5)+
.IFF
.IF EQ <QC-30>
.IIF EQ QD, XOR1 A,@(R0),@(R0),@(R0)+
.IIF EQ QD-1, XOR1 A,@(R1),@(R1),@(R1)+
.IIF EQ QD-2, XOR1 A,@(R2),@(R2),@(R2)+
.IIF EQ QD-3, XOR1 A,@(R3),@(R3),@(R3)+
.IIF EQ QD-4, XOR1 A,@(R4),@(R4),@(R4)+
.IIF EQ QD-5, XOR1 A,@(R5),@(R5),@(R5)+
.IFF
.IF EQ <QC-40>
.IIF EQ QD, XOR1 A,-(R0),(R0),(R0)
.IIF EQ QD-1, XOR1 A,-(R1),(R1),(R1)
.IIF EQ QD-2, XOR1 A,-(R2),(R2),(R2)
.IIF EQ QD-3, XOR1 A,-(R3),(R3),(R3)
.IIF EQ QD-4, XOR1 A,-(R4),(R4),(R4)
.IIF EQ QD-5, XOR1 A,-(R5),(R5),(R5)
.IFF
.IIF EQ QD, XOR1 A,@-(R0),@(R0),@(R0)
.IIF EQ QD-1, XOR1 A,@-(R1),@(R1),@(R1)
.IIF EQ QD-2, XOR1 A,@-(R2),@(R2),@(R2)
.IIF EQ QD-3, XOR1 A,@-(R3),@(R3),@(R3)
.IIF EQ QD-4, XOR1 A,@-(R4),@(R4),@(R4)
.IIF EQ QD-5, XOR1 A,@-(R5),@(R5),@(R5)
.ENDC ;40/50
.ENDC ;30
.ENDC ;20
.ENDC ;60/70
.ENDC ;00,10
.IFF
.IIF EQ <QB-06>, XORERR \QA,\QB,B
.IIF EQ <QB-07>, XORERR \QA,\QB,B
.IIF EQ <QB-16>, XOR1 A,2(SP),2(SP),(SP)
.IIF EQ <QB-17>, XORERR \QA,\QB,B
.IIF EQ <QB-26>, XORERR \QA,\QB,B
.IF EQ <QB-27>
MOV B,.+14
XOR1 A,.+12,.+6,#0
.ENDC ;27
.IIF EQ <QB-36>, XOR1 A,@2(SP),@2(SP),@(SP)+
.IIF EQ <QB-37>, XOR1 A,B,B,B
.IIF EQ <QB-46>, XORERR \QA,\QB,B
.IIF EQ <QB-47>, XORERR \QA,\QB,B
.IIF EQ <QB-56>, XORERR \QA,\QB,B
.IIF EQ <QB-57>, XORERR \QA,\QB,B
.IIF EQ <QB-66>, XOR1 A,2+B,2+B,B
.IIF EQ <QB-67>, XOR1 A,B,B,B
.IIF EQ <QB-76>, XORERR \QA,\QB,B
.IIF EQ <QB-77>, XOR1 A,B,B,B
.ENDC
.ENDC
.ENDM XOR
.ENDC;.IF LT <PDP11-30>
.IF LT <PDP11-45>
;MACRO TO SET PROCESSOR LEVEL
.MACRO SPL Q
.IF NE Q
BIS #BR7,PS ;SET PROCESSOR STATUS TO LEVEL 7
.ENDC
.IF NE <Q-7>
BIC #40*<7&<^C<Q>>>,PS ;NOW DROP TO LEVEL Q
.ENDC
.ENDM SPL
.ENDC;.IF LT <PDP11-45>
;MACRO TO SIMULATE EXCH INSTRUCTION
;
.MACRO EXCH A,B
MOV A,-(P) ;SAVE C(A) ON THE STACK
MOV B,A ;PUT C(B) INTO A
MOV (P)+,B ;PUT ORIGINAL C(A) INTO B
.ENDM EXCH
;MACRO TO GENERATE AN .ASCIZ STRING TERMINATED WITH .EVEN
;
.MACRO ASCIZ STRING
.ASCIZ \STRING\
.EVEN
.ENDM ASCIZ
.ENDM SIMMAC
;MACRO TO PROVIDE CHK11 WITH TTY SERVICE
.MACRO .CKTTS
;HERE TO TYPE A MESSAGE STRING
;
; CALL JSR PC,CKTTXT ;R0 CONTAINS ADDR OF TXT
; ON EXIT R0 POINTS TO THE EVEN LOCATION FOLLOWING THE TEXT
;
CKTTXT: SAVE <R1>
10$: MOVB (R0)+,R1 ;GET THE NEXT CHARACTER
BEQ 20$ ;BRANCH IF END (NULL)
JSR PC,CKTCHR ;TYPE CHAR
BR 10$ ;GET NEXT CHAR
20$: INC R0 ;
BIC #B0,R0 ;POINT TO EVEN LOC
CKTRR1: RESTORE <R1>
RTS PC ;RETURN TO CALLER
;HERE TO TYPE A CARRIAGE RETURN AND LINE FEED
;
; CALL JSR PC,CKCRLF
;
CKCRLF: JSR R0,CKTSTR
.ASCIZ <15><12>
.EVEN
RTS PC
;HERE TO TYPE A STRING PRECEEDED BY A CR/LF
;
; CALL JSR R0,CKTCRL
; .ASCIZ \TEXT\
; .EVEN
;
CKTCRL: JSR PC,CKCRLF ;FIRST TYPE A CR/LF
;HERE TO TYPE A MESSAGE ON THE CTY
; CALL JSR R0,CKTSTR ;CALL TYPE ROUTINE
; .ASCIZ \TEXT\
; .EVEN
;
CKTSTR: JSR PC,CKTTXT ;GO TYPE STRING
RTS R0
;TYPE BLANK AND AN OCTAL NUMBER
;
; SIMILIAR TO CKTOCT
;
CKTBOC: SAVE <R1>
MOV #040,R1
JSR PC,CKTCHR
BR CKTOC1
;HERE TO TYPE AN OCTAL NUMBER
;
; CALL JSR PC,CKTOCT ;WITH ARG IN R0
;
CKTOCT: SAVE <R1>
CKTOC1: SAVE <R0>
JSR PC,CKTOC2
CKTRR0: RESTORE <R0>
BR CKTRR1
;RECURSIVE BINARY TO ASCIC CONVERSION
CKTOC2: SAVE <R0>
ROR R0
ROR R0
ROR R0
BIC #160000,R0
BEQ 20$
JSR PC,CKTOC2
20$: RESTORE <R1>
BIC #^C7,R1
BIS #60,R1
;HERE TO TYPE A SINGLE CHARACTER
;
; CALL JSR PC,CKTCHR ;WITH CHAR IN R1
;
CKTCHR: CMPB R1,#40 ;DOES THIS NEED FILLER ?
BHIS 20$
CMPB R1,#11 ;IS CHAR A TAB (11)
BNE 10$ ;BRANCH IF NOT A TAB
JSR R0,CKTSTR ;GIVE SPACES FOR IT
.BYTE 40,40,40,0 ;SUBSTITUTE SPACES FOR TAB
RTS PC
10$: JSR PC,12$ ;TYPE CHAR FIRST THEN PAD IT WITH 4 NULLS
12$: JSR PC,20$
CLR R1
20$: MOVB R1,CTOCHR ;TYPE CHAR
30$: TSTB CTOSTS ;TEST FOR STILL BUSY
BPL 30$
RTS PC
;HERE TO GET A SINGLE CHAR FROM THE KEYBOARD
;
; RETURN WITH CHARACTER IN R1
;
CKGCHR: TST CTICHR ;CLEAR BUFFER
10$: TSTB CTISTS ;WAIT FOR CHAR
BPL 10$ ;
MOVB CTICHR,R1 ;
BIC #^C177,R1 ;KEEP ONLY INTERESTING BITS
BR CKTCHR ;TYPE IT BACK TO HIM
.ENDM .CKTTS
.SBTTL DEBUGGING MACROS - ASSERT
; MACROS FOR CREATED LABELS
;
.MACRO SUASRT
.MACRO C.LAB. QQI,QQT
QQT'QQI'$:
.ENDM C.LAB.
.MACRO C..LAB QI
.IIF LT CL.TAG,C.LAB. \.CLAB.,CL
.IIF GE CL.TAG,C.LAB. \.CLAB.,\CL.TAG
.IIF NB <QI>,QI=.CLAB.
.CLAB.=.CLAB.+1
.ENDM C..LAB
.CLAB.=1
ND CL.TAG,1
;
;
; MACRO FOR MAKING BRANCHS TO CREATED LABELS
;
.MACRO CLBR QINDX,QCOND,QTAG
.IF NB QTAG
.IIF B <QCOND>,BR QTAG'QINDX'$
.IIF NB <QCOND>,B'QCOND QTAG'QINDX'$
.IFF
.IIF LT CL.TAG,CLBR QINDX,QCOND,CL
.IIF GE CL.TAG,CLBR QINDX,QCOND,\CL.TAG
.ENDC
.ENDM CLBR
;
;
.MACRO SET.CD QCD
S.....=S..'QCD
.ENDM SET.CD
;
S.....=0
;
.IF NE FTASRT
;
;
.MACRO ASSERT FRST,SCND,THRD,FRTH
.IF NB <FRTH>
.IF IDN <THRD>,<IN>
.IF IDN <SCND>,<CLEAR>
BIT FRST,FRTH
BEQ .+4
TRAP S.....
.IFF
.IF IDN <SCND>,<SET>
MOV FRTH,-(P)
COM (P)
ASSERT (P)+ CLEAR IN FRST
.ENDC
.ENDC
.IFF
CMP FRST,THRD
CLBR \.CLAB.,LO
CMP FRST,FRTH
BLOS .+4
C..LAB
TRAP S.....
.ENDC
.IFF
.IF NB <THRD>
CMP FRST,THRD
B'SCND .+4
TRAP S.....
.IFF
.IF IDN <FRST>,<CHUNK>
SET.CD CNK
ASSERT #CNKSIZ-1 CLEAR IN SCND
.IFF
.IIF NB <SCND>, TST SCND
B'FRST .+4
TRAP S.....
.ENDC
.ENDC
.ENDC
S.....=0
.ENDM ASSERT
.IFF
.MACRO ASSERT FRST,SCND,THRD,FRTH
.ENDM ASSERT
.ENDC
; TO USE ASSERT MACRO
; TO ENFORCE A RANGE OF VALUES
; ASSERT THING BETWEEN VALUE1 VALUE2
;
; TO ENFORCE BITS CLEARED
; ASSERT BITS CLEAR IN THING
;
; TO ENFORCE BITS SET
; ASSERT BITS SET IN THING
;*** IN THIS CASE THING MAY NOT HAVE A R6 (STACK) TYPE MODIFICATION
;*** IE, ON(SP) OR (SP)+ ETC
;
; TO ENFORCE CONDITION
; ASSERT VALUE1 CONDITION VALUE2
; OR ASSERT CONDITION VALUE
; OR
; ASSERT CONDITION
;*** IN THIS CASE CONDITION MAY BE ANY BRANCH CONDITION
;
; TO ENFORCE LINK TO CHUNK BOUNDARY
; ASSERT CHUNK VALUE
.ENDM
.SBTTL DEBUGGING MACROS - CPU POKER
;
;
; DEFINE THE CPU POKER QUEUE
;
.MACRO MCPQUE
ND CP.SIZ,0 ;DEFAULT IS NO RANDOM POKE
.IF NE CP.SIZ
CP.SIZ=<CP.SIZ+37>&177740
CP.PTR: .WORD CP.QUE
CP.QUE: .BLKB CP.SIZ
;
; DO THE CPU POKE
;
; LEAVE TRACE OF ACTIVITY
CPUQUE: SAVE <R1,R0>
MOV P,R1
MOV CP.PTR,R0
MOV (R1)+,(R0)+
MOV (R1)+,(R0)+
MOV R2,(R0)+
MOV R3,(R0)+
MOV R4,(R0)+
MOV J,(R0)+
TST (R1)+
MOV R1,(R0)+
MOV PS,(R0)+
MOV (R1)+,(R0)+
MOV (R1)+,(R0)+
MOV (R1)+,(R0)+
MOV (R1)+,(R0)+
MOV (R1)+,(R0)+
MOV (R1)+,(R0)+
MOV (R1)+,(R0)+
MOV (R1)+,(R0)+
CMP R0,#CP.QUE+CP.SIZ
BLO .+6
MOV #CP.QUE,R0
MOV R0,CP.PTR
RESTORE <R0,R1>
RTS PC
.ENDC
.ENDM MCPQUE
.MACRO CCPQUE
ND CP.SIZ,0 ;DEFAULT IS NO RANDOM POKE
.IF NE CP.SIZ
CP.SIZ=<CP.SIZ+37>&177740
JSR PC,CPUQUE
.ENDC
.ENDM CCPQUE
.SBTTL DEBUGGING MACROS - PROFILER
; ACTIVITY PROFILER
.MACRO PROFILE Q,QQ
ND FT.PFL,0
.IF NE FT.PFL
ND PRFL.S,10
ND PRFL.H,60000
ND PRFL.L,1000
Z=PRFL.H-PRFL.L
ZZ=PRFL.S
.IF LT Z
Z=<<Z&77777>/2>!40000
ZZ=ZZ-1
.ENDC
.REPT ZZ
Z=Z/2
.ENDR
PRFL.Z=1
.REPT 20
.IIF NE Z,PRFL.Z=PRFL.Z*2
.IIF NE Z,Z=Z/2
.ENDR
.IF B Q
MOV R0,-(P)
.IIF NB <QQ>,MOV QQ+2(P),R0
.IIF B <QQ>,MOV 2(P),R0
CMP R0,#PRFL.H
BHIS 120$
SUB #PRFL.L,R0
BLO 120$
CLC
ROR R0
.REPT PRFL.S
ASR R0
.ENDR
ASL R0
INC PRFL.B(R0)
120$: MOV (P)+,R0
.IFF
.IIF IDN <Q>,<BLOCK>,PRFL.B: .BLKW PRFL.Z
.ENDC
.ENDC
.ENDM PROFILE
;PRFL.H=HIGH ADR
;PRFL.L=LOW ADR
;PRFL.S=N ;2**N IS INTERVAL
;IS USED TO SET UP PROFILER (INTERVAL IS 2**N)
;PROFILE
;IS USED AT CLOCK OR OTHER INTERRUPT TO DO THE WORK
;PROFILE BLOCK
;IS USED TO SET UP THE PROFILE BUFFER
.SBTTL DEBUGGING MACROS - SINK
;
;
.IIF NDF FT.SNK,FT.SNK=0 ;DON'T INCLUDE DATA SINK CODE
.IIF NDF FT.SOU,FT.SOU=0 ;DON'T INCLUDE DATA SOURCE CODE
;
;USED TO CONDITIONALLY QUEUE CHUNKS (MSGS) TO SYNCHRONOUS GARBAGE COLLECTOR
; IE., SINK J <#LBLK0,#LBLK1>
; SINKS MSGS FOR LINES 0,1 ONLY
;
; THE THIRD ARGUMENT IS WHERE TO CONTINUE WHEN DONE QUEUEING THE MSG
; IF THIS ARG IS 'COPY', THE NEXT INTSRUCTION IN SEQ IS EXECUTED
; AND A COPY (NOT THE ORIGINAL) IS QUEUED
; IF THE ARG IS NULL, THE MACRO EXITS WITH A 'RTS PC'
;
;SINK STORE
; IS USED TO DEFINE THE SINK QUEUE AND DUMP BUFFER
;
;
;SINK TTYDDB
; IS USED TO DIRECT THE SINK DUMP TO A TTY
;
;
.IF NE FT.SNK
.MACRO SINK QJ,QQ,QC
.IF NB <QQ>
SINK00 QJ,<QQ>,QC
.IFF
.IF NB <QJ>
.IF IDN <QJ>,<STORE>
SINK01
SINK02
SINK03
.IFF
SINK10 QJ
.ENDC
.IFF
SINK00 ,,QC
.ENDC
.ENDC
.ENDM SINK
.IFF
.MACRO SINK QJ,QQ,QC
.ENDM SINK
.ENDC
;
;
.IF NE FT.SNK
.MACRO SINK00 QJ,QQ,QC
.IF NB <QJ>
.IRP Q,<QQ>
CMP QJ,#Q
CLBR \.CLAB.,EQ
.ENDM
CLBR \<.CLAB.+1>
C..LAB
INC #0 ;COUNT SINKS
.ENDC
.IF NB <QC>
.IF IDN <QC>,<COPY>
JSR PC,CSNKIT
.IFF
JSR PC,SINKIT
BR QC
.ENDC
.IFF
JMP SINKIT
.ENDC
C..LAB
.ENDM SINK00
;
;
.MACRO SINK01
SINK.Q: .WORD 0 ;SINK QUEUE HEAD
SINK.T: .WORD 0 ;SINK QUEUE TAIL
SINK.C: .WORD 0 ;SINK QUEUE LENGTH
SINK.0: .WORD 0 ;LAST DUMPED
SINK.S=^D234 ;MAX LINE LENGTH
SINK.B:
.REPT SINK.S ; THE LINE BUFFER
.BYTE 0
.ENDR
.WORD 0 ;EXTRA WORD
.ENDM SINK01
;
;
.MACRO SINK02
CSNKIT: SAVE <R0,R1,R2>
MOV R0,R1
JSR PC,ERSGET
SAVE <R0>
CSNK.T: MOV #CNKSIZ/2,R2
MOV (R1)+,(R0)+
SOB R2,.-2
SUB #CNKSIZ,R0
SUB #CNKSIZ,R1
MOV R0,R2
MOV (R1),R1
BEQ .+12
JSR PC,ERSGET
MOV R0,(R2)
BR CSNK.T
RESTORE <R0,R2,R1>
JSR PC,SINKIT
RESTORE <R0>
RTS PC
SINKIT:
PIOFF ;SO SINK WORKS EVERYWHERE
TST SINK.C
BLE 10$
ADD #CN.MLK,SINK.T
MOV R0,@SINK.T
BR 15$
10$: MOV R0,SINK.Q
15$: MOV R0,SINK.T
CLR CN.MLK(R0)
INC SINK.C
PION
RTS PC
.ENDM SINK02
;
;
.MACRO SINK03
;CONVERT BYTE TO OCTAL AND INSERT IN BUFFER
OCT3: JSR PC,(PC) ;DO THIS TWICE
10$: MOVB (R0)+,R3
BIC #^C377,R3 ;CLEAR SIGN EXTENSION
MOV #4,R2 ;SET FIELD LENGTH
BR IN2OCT ;AND CONVERT
;
;
;CONVERT WORD TO OCTAL AND INSERT IN THE BUFFER
OCT6: MOV (R0)+,R3
MOV #10,R2
; BR IN2OCT ; CONVERT
;
;
;CONVERT TO OCTAL AND INSERT IN THE BUFFER
;R2 IS FEILD LENGTH
;R3 IS VALUE
;ON RETURN R2 IS UNDEFINED VALUE, AND R3 IS UNCHANGED
IN2OCT: MOV R3,-(P) ;SAVE THE VALUE
DEC R2 ;COUNT THIS DIGIT
CLC ;CLEAR CARRY FOR
ROR R3 ;LOGICAL RIGHT SHIFT
ASR R3
ASR R3
BEQ I2O.1
JSR PC,IN2OCT ;RECURSE IF MORE DIGITS
I2O.1: DEC R2 ;FILL WITH BLANKS
BMI I2O.2
MOVB #40,(R4)+
BR I2O.1
I2O.2: MOV (P),R3 ;RESTORE PREVIOUS VALUE
BIC #^C7,(P) ;CONVERT DIGIT TO ASCII
BIS #60,(P)
MOVB (P)+,(R4)+ ;AND INSERT
RTS PC
;
;
;CONVERT BYTE TO ASCII AND INSERT IN BUFFER
;_ PREFIX IMPLIES >200
;^ PREFIX IMPLIES BITS 5 AND 6 =0
ASC3: MOVB #40,R2
JSR PC,10$ ;DO THIS TWICE
10$: MOVB R2,(R4)+
MOVB R2,(R4)
MOVB (R0)+,R3
BPL 12$
MOVB #137,(R4)
BIC #^C177,R3
12$: INC R4
MOVB R2,(R4)
CMPB R3,R2
BHIS 14$
MOVB #136,(R4)
BIS #100,R3
14$: INC R4
MOVB R3,(R4)+
RTS PC
;
;
;
;DEQUEUE THE SUNK MSGS
;
DQSINK: MOV SINK.0,R0
BNE 05$
TST SINK.C
BGT .+4
RTS PC
PIOFF ;MUST INHIBIT INTERRUPTS TO DEQUEUE
MOV SINK.Q,R0
MOV CN.MLK(R0),SINK.Q
DEC SINK.C
PION
MOV R0,SINK.0
05$: MOV R0,R1
MOV #SINK.B,R4
CLR -(P)
10$: MOV #40,(P)
ADD #20,R1
20$: MOV R1,SINK.0
BIT #CNKSIZ-1,R1 ;IF LAST LOAD DUMP IT
BEQ 29$
MOV R0,R2
MOV #10,R3
30$: CMP (R0)+,(R1)+
BEQ 31$
MOV R2,R0
BR 29$
31$: SOB R3,30$
MOV #52,(P)
MOV R2,R0
BR 20$
29$: MOV R0,R3
BIT #CNKSIZ-1,R0
BNE .+6 ;EXTRA LINE FEED IF NEW BLOCK (CHUNK)
MOV #15*400+12,(R4)+
MOV #6,R2 ;CONVERT AND OUTPUT ADDRESS
JSR PC,IN2OCT
MOVB (P)+,(R4)+
MOV R0,-(P)
MOV #OCT6,-(P)
WOFMT: JSR PC,SNKFMT
MOV #OCT3,(P)
BOFMT: JSR PC,SNKFMT
MOV #ASC3,(P)
BAFMT: JSR PC,SNKFMT
CMP (P)+,(P)+
CLRB (R4)+
MOV SINK.0,R0
BIT #CNKSIZ-1,R0
BNE 07$
SUB #CNKSIZ,R0
MOV (R0),SINK.0
CLR (R0)
JSR PC,FRECKS
CLZ
07$: RTS PC
;
;
;DO FORMATED OUTPUT OF Q WORD FOR SINK
SNKFMT: CMPB -1(R4),#12 ;BETTER INSERT FILL FOR EXTRA LINES
BNE 20$
MOV #7,R1
10$: MOVB #40,(R4)+
SOB R1,10$
20$: MOV 4(SP),R0
MOV #10,R1 ;FORMAT THE NEXT 8 WORDS
30$: JSR PC,@2(SP)
SOB R1,30$
MOVB #15,(R4)+
MOVB #12,(R4)+
NULFMT: RTS PC
.ENDM SINK03
;
;
.MACRO SINK09 QJ
MOV #'QJ,J
BIT #DS.ACT,(J) ;GOT TO WAIT TILL TTY IS NOT BUSY
BNE .+22
JSR PC,DQSINK ;GET THE NEXT BUFFER LOAD FROM THE SINK
BEQ .+14
MOV #SINK.B,DB.STR(J)
JSR PC,BEGXMT ;IF THERE IS ONE START IT TYPING
.ENDM SINK09
;
;
.MACRO SINK10 QJ
.IF EQ LPTSNK
SINK09 QJ
.IFF
MOV SINK.0,J
BIS SINK.C,J
BEQ 126$ ;NOTHING TO DUMP
MOV #'QJ,J
MOV DB.HDW(J),R3
;STEAL THE LINE PRINTER
BIC #100,(R3)
CLR DB.TIM(J)
120$: BIT #100200,(R3)
BLE 126$ ;JUST WAITING OUR TURN
121$: MOV #0,R4
BNE 122$ ;IF WE HAVE A BUFFER, JUST FEED THE PRINTER
SAVE <R3>
JSR PC,DQSINK ;GET A BUFFER
BEQ 125$ ;WASN'T ANY, SO GIVE THE PRINTER BACK
RESTORE <R3>
MOV #SINK.B,R4
MOV R4,121$+2
122$: INC 121$+2
CMPB (R4),#12 ;IF <LF>, MAY WANT TO CHANGE IT TO <FF>
BNE 124$
123$: DEC #0
BPL 124$
MOV #77,123$+2
MOVB #14,(R4)
124$: MOVB (R4),2(R3)
BR 121$
125$: RESTORE <R3>
MOVB #-3,DB.TIM(J)
BIS #100,(R3)
126$:
.ENDC
.ENDM SINK10
.ENDC
;
;CLRCNK ZEROS OUT A CHUNK
;
.MACRO CLRCNK QREG
.IF NE FT.SNK!FT.SOU
MOV #CNKSIZ/2,-(P)
CLR (QREG)+
DEC (P)
BNE .-4
TST (P)+
SUB #CNKSIZ,QREG
.IFF
CLR (QREG)
CLR 2(QREG)
.ENDC
.ENDM CLRCNK
.SBTTL DEBUGGING MACROS - SOURCE
;
;
;SOURCE N,I,L,M,P
;
;WILL ORIGINATE N MSGS WITH A DELAY OF I SECONDS BETWEEN THEM
;OVER LINE (SCB) (RDE DEV) L
;THE MSG IS AT M
;AND THE PROCEDURE P IS CALLED TO SEND IT
;
.IIF NE FT.SOU,SOULAB=0
;
.MACRO SOURCE QN,QI,QL,QM,QP
.IF NE FT.SOU
C.LAB. \SOULAB,SOU
SOULAB=SOULAB+1
TST #'QN
100$: BEQ 103$
DEC #'QI
101$: BNE 103$
MOV #'QI,101$-2
DEC 100$-2
.IIF NB <QM>, MOV #'QM,R4
.IIF B <QM>, MOV #SOU.M,R4
JSR PC,ERSGET
MOV R0,-(P)
MOV (R4),R1
ADD #CN.NCT-CN.LEN,R1
INC R1
ASR R1
CMP (R0)+,(R0)+
102$: MOV (R4)+,(R0)+
ADVCNK R0 EXTEND
SOB R1,102$
MOV (P)+,R0
.IF IDN <QP>,<DDQDAT>
MOV #'QL,SB
.IFF
.IF IDN <QP>,<DDQBOO>
MOV #'QL,SB
.IFF
MOV #'QL,J
MOV #SOH,R2
.ENDC
.ENDC
.IIF B <QP>, JSR PC,DDQ.01
.IIF NB <QP>, JSR PC,QP
103$:
.ENDC
.ENDM SOURCE
;
;
;SOUMSG LAB,LEN,DDB,SCB,DDC,CNT,NCN,DATA
;
;DEFINES A DATA MESSAGE FOR THE SOURCE MACRO
;LAB IS THE MSG NAME
;THE OTHER ARGS ARE THE HEADER WORDS
;
;DATA IS <D,D,...> WHERE D IS
;BYTE VALUE, <LENGTH,VALUE>
;IF LENGTH =1 VALUE IS BYTE
;IF LENGTH =2 VALUE IS WORD
;IF LENGTH >2 VALUE IS BYTE,BYTE+1,... WITH WRAPAROUND AT =177
;
.MACRO SOUMSG QLAB,QLEN,QDDB,QSCB,QDDC,QCNT,QNCN,QDAT
.IF NE FT.SOU
.IIF B <QLAB>,SOU.M:
.IIF NB <QLAB>,QLAB':
.WORD QLEN,0
.WORD QDDB,QSCB,QDDC,QCNT,QNCN,0
.MACRO X QQA,QQB
.IF B <QQB>
.BYTE QQA
.IFF
.IIF EQ QQA-1, .BYTE QQB
.IF EQ QQA-2
.EVEN
.WORD QQB
.ENDC
.IF GT QQA-2
Z=QQB
.REPT QQA
.BYTE Z
Z=Z+1
.IIF GE Z-177,Z=QQB
.ENDR
.ENDC
.ENDC
.ENDM
.IRP QQC,<QDAT>
X QQC
.ENDM
.EVEN
.ENDC
.ENDM SOUMSG
;
;
.SBTTL QUEUE ACCESS AND CHUNK HANDLING MACROS
;
;
.MACRO ADVCNK QREG,QFUN
.IF B QFUN
.IF IDN QREG,SB
BIT #CNKSIZ-1,SB
BNE 1$
MOV -CNKSIZ(SB),SB
TST (SB)+
1$:
.IFF
JSR PC,AVCK'QREG
.ENDC
.IFF
.IF IDN <QFUN>,<EXTEND>
JSR PC,GTCK'QREG
.IFF
.IF IDN <QFUN>,<FREE>
JSR PC,FRCK'QREG
.IFF
.ERROR 227; ADVCNK QREG QFUN ?????
.ENDC
.ENDC
.ENDC
.ENDM ADVCNK
;TO FETCH AN ENTRY FROM THE QUEUES
.MACRO QUEGET QQUE,QFAIL
.IF IDN <QQUE>,<TI>
MOV TI.TKR,R1
CMP R1,TI.PTR
BEQ QFAIL
CMP R1,#<TI.QUE+TI.SIZ>
BLO .+6
MOV #TI.QUE,R1
MOVB (R1)+,R0
BIC #^C<377>,R0
MOVB (R1)+,J
BIC #^C<377>,J
ASL J
MOV DLATAB-2(J),J
MOV R1,TI.TKR
.IFF
.MACRO Q..GET QREG,QFLAG
CMP QQUE'.TKR,QQUE'.PTR
BEQ QFAIL
PIOFF
CMP QQUE'.TKR,#<QQUE'.QUE+QQUE'.SIZ>
BLO .+10
MOV #QQUE'.QUE,QQUE'.TKR
MOV @QQUE'.TKR,QREG
ADD #2,QQUE'.TKR
BIC #QFLAG,(QREG)
PION
.ENDM Q..GET
.IIF IDN <QQUE>,<NC>, Q..GET SB,SBF.NQ
.IIF IDN <QQUE>,<DV>, Q..GET J,DS.QUE
.IIF IDN <QQUE>,<QO>, Q..GET J,LS..XQ
.IIF IDN <QQUE>,<QI>, Q..GET J,LS..RQ
.ENDC
.ENDM QUEGET
;TO INSERT AN ENTRY ON THE QUEUES
.MACRO QUEPUT QQUE,QPROC
.IF IDN <QQUE>,<TI>
MOV TI.PTR,R0
CMP R0,#<TI.QUE+TI.SIZ>
BLO .+6
MOV #TI.QUE,R0
MOVB R1,(R0)+
MOV DB.OLA(J),R1
ASR R1
MOVB R1,(R0)+
CMP R0,TI.TKR
BEQ .+6
MOV R0,TI.PTR
.IFF
.MACRO Q..PUT QREG,QFLAG,QQFAIL
.IIF IDN <QPROC>,<CODE>,QQUE'.PUT:
PIOFF
BIT #QFLAG,(QREG)
BNE QQFAIL
BIS #QFLAG,(QREG)
CMP QQUE'.PTR,#<QQUE'.QUE+QQUE'.SIZ>
BLO .+10
MOV #QQUE'.QUE,QQUE'.PTR
MOV QREG,@QQUE'.PTR
ADD #2,QQUE'.PTR
QQFAIL: PION
.IIF IDN <QPROC>,<CODE> RTS PC
.ENDM Q..PUT
.IIF IDN <QQUE>,<NC> Q..PUT SB,SBF.NQ,QPROC
.IF IDN <QQUE>,<QO>
.IF IDN <QPROC>,<CODE>
Q..PUT J,LS..XQ,10$
.IFF
JSR PC,QO.PUT
.ENDC
.ENDC
.IF IDN <QQUE>,<QI>
.IF IDN <QPROC>,<CODE>
Q..PUT J,LS..RQ,10$
.IFF
JSR PC,QI.PUT
.ENDC
.ENDC
.IIF IDN <QQUE>,<DV> Q..PUT J,DS.QUE,QPROC
.ENDC
.ENDM QUEPUT
; MACRO TO DO INDEXED BRANCH
;
; NEEDS SCRATCH AC
.MACRO JINDEX TYP,INDEX,AC,TABLAB
.IIF DIF <INDEX>,<AC>, MOVB INDEX,AC
.IIF IDN <TYP>,<JSR>,JSR PC,@TABLAB(AC)
.IIF IDN <TYP>,<JMP>,JMP @TABLAB(AC)
.ENDM
.SBTTL DDCMP HEADER DEBUGGING LOG
.IF DF DMPHDR
.IIF NDF DMPHIN,DMPHIN=DMPHDR ;NUMBER OF INPUT HEADERS TO COLLECT
.IIF NDF DMPHOU,DMPHOU=0 ;NUMBER OF OUTPUT HEADERS TO COLLECT
.IIF NDF DMPHLN,DMPHLN=LBLK0 ;LINE TO MONITOR
.MACRO HDRDMP QIO,QLINE,QN
.IF IDN <QIO>,<STORE>
ICHK.B: .BLKW DMPHDR*4
ICHK.E: .WORD ICHK.B
.IFF
CMP J,#QLINE
QIO'CHK.L=.-2
BNE 104$
TST #QN
QIO'CHK.C=.-2
BEQ 104$
.IIF IDN <QIO>,<O>, SAVE <R1>
MOV ICHK.E,R1
CMP #ICHK.E,R1
BHI 102$
MOV #ICHK.B,R1
102$:
.IF IDN <QIO>,<O>
SUB #10,R0
.IFF
ADD J,R0
.ENDC
MOV (R0)+,(R1)+
MOV (R0)+,(R1)+
MOV (R0)+,(R1)+
MOV (R0)+,(R1)+
DEC QIO'CHK.C
BNE 103$
MOV #ICHK.B,R1
103$: MOV R1,ICHK.E
.IF IDN <QIO>,<O>
RESTORE <R1>
.IFF
MOV LB.ITK(J),R0
.ENDC
104$:
.ENDC ;.IF IDN <QIO>,<STORE>
.ENDM HDRDMP
.IFF
DMPHIN=0
DMPHOU=0
DMPHLN=0
.MACRO HDRDMP QIO,QLINE,QN
.ENDM HDRDMP
.ENDC ;.IF DF DMPHDR
.SBTTL SYNCHRONOUS LINE DEBUGGING MACROS
.IF DF SLSDMP
SLINDX=0 ;MACRO CALL INDEX
.IIF LT SLSDMP-100,SLSDMP=100
.MACRO DMPSLS STORE
SLRCT: .WORD SLSDMP
SLRBF: .BLKW SLSDMP
SLRBE: .WORD SLRBF
SLXCT: .WORD SLSDMP
SLXBF: .BLKW SLSDMP
SLXBE: .WORD SLXBF
SSSSQU SLR
SSSSQU SLX
.ENDM DMPSLS
.MACRO SLX QQA
SLRX SLX,QQA,\SLINDX
SLINDX=SLINDX+1
.ENDM SLX
.MACRO SLR QQA
SLRX SLR,QQA,\SLINDX
SLINDX=SLINDX+1
.ENDM SLR
.MACRO SLRX SQQ,QA,QB
MOV #SL..'QB,-(P)
MOV QA,-(P)
JMP SQQ'SPC
SL..'QB':
.ENDM SLRX
.MACRO SSSSQU SQQ
SQQ'SPC:TST SQQ'CT
BEQ SQQ'QB
DEC SQQ'CT
CMP SQQ'BE,#SQQ'BE
BLO .+10
MOV #SQQ'BF,SQQ'BE
MOV (P)+,@SQQ'BE
ADD #2,SQQ'BE
RTS PC
SQQ'QB: TST (P)+
RTS PC
.ENDM SSSSQU
.IFF
.MACRO DMPSLS STORE
.ENDM DMPSLS
.MACRO SLR QQA
.ENDM SLR
.MACRO SLX QQA
.ENDM SLX
.ENDC ;.IF DF SLSDMP
.SBTTL MSGDMP DEBUGGING MACRO
; CODE BY LAD 10/75
.IF DF DMPMSG
DMPMSG=0
.MACRO D$M QTAG,QINDX,QOP
.IF B <QOP>
QTAG'QINDX=.-2
.IFF
.IF IDN <QOP>,<LOAD>
MOV QTAG'QINDX,R0
.IFF
.IF IDN <QOP>,<STORE>
MOV R0,QTAG'QINDX
.IFF
QOP QTAG'QINDX
.ENDC
.ENDC
.ENDC
.ENDM D$M
.MACRO MSGDMP QQN,QQW,QQB
.IF NE FT.SNK
.IIF NB <QQW>, CMP #'QQW,J
.IIF B <QQW>, CMP #0,J
D$M MD.B,\DMPMSG ;DEFINE MD.B??=.-2
BNE 79$
.IIF NB <QQN>, TST #'QQN
.IIF B <QQN>, TST #0
D$M MD.C,\DMPMSG ;DEFINE MD.C??=.-2
BEQ 79$
SAVE <R0>
D$M MD.S,\DMPMSG,TST ; TST MD.S??
BNE 69$
JSR PC,ERSGET
BEQ 78$
CMP (R0)+,(R0)+
BR 68$
69$:
MOV #0,R0 ; MOV MD.S??,R0
D$M MD.S,\DMPMSG ;DEFINE MD.S??=.-2
BEQ 78$
68$:
.IF IDN <QQB>,<R0>
MOVB (P),(R0)+
.IFF
.IF NB <QQB>
MOVB QQB,(R0)+
.IFF
MOVB R1,(R0)+
.ENDC
.ENDC
D$M MD.S,\DMPMSG,STORE ; MOV R0,MD.S??
BIT #CNKSIZ-1,R0
BNE 78$
SUB #CNKSIZ,R0
JSR PC,SINKIT
D$M MD.S,\DMPMSG,CLR ; CLR MD.S??
D$M MD.C,\DMPMSG,DEC ; DEC MD.C??
78$:
RESTORE <R0>
79$:
.ENDC
DMPMSG=DMPMSG+1
.ENDM MSGDMP
.IFF
.MACRO MSGDMP QQN,QQW,QQB
.ENDM MSGDMP
.ENDC ;.IF DF DMPMSG
.SBTTL EXECUTION TRACE DEBUGGING MACROS
.MACRO NULL ARG
.IF NE,DEBUG
.IF NB,<ARG>
.MACRO NULLBL
NUL...=.-ARG
NULL.. ARG,\NUL...
.ENDM NULLBL
.IFF;.IF NB,<ARG>
NULLBL
.ENDC;.IF NB,<ARG>
.IF NE,FTETR
JSR PC,ETRACE
.ENDC;.IF NE,FTETR
.ENDC;.IF NE,DEBUG
.ENDM NULL
.MACRO NULL.. ADR,DISP
.LIST
;ADR+DISP
.NLIST
.ENDM NULL..
.MACRO ETRACE NUMENT
ETRACE: PIOFF
TST ETRFLG
BPL 100$
SAVE R0
MOV 4(SP),R0
SUB #4,R0
MOV R0,@EPNT
ADD #2,EPNT
CMP EPNT,#EBUFE
BLO 10$
MOV #EBUF,EPNT
BIT #40000,ETRFLG
BEQ 10$
BIC #100000,ETRFLG
10$: RESTORE R0
100$:
PION
.IF DF,ETRSUB
PJMP ETRSUB ;subroutine to execute on trace
.IFF;.IF DF,ETRSUB
RTS PC
.ENDC;.IF DF,ETRSUB
ETRON: BIS #100000,ETRFLG
RTS PC
ETROFF: BIC #100000,ETRFLG
RTS PC
ETRFLG: .WORD 100000
EPNT: .WORD EBUF
EBUF: .BLKW NUMENT
EBUFE=.
.ENDM ETRACE
.SBTTL NCL TRACE MACRO
.IIF NDF NCL.LG,NCL.LG=0
.IF NE NCL.LG
.MACRO NCLLOG LOGSIZ
.IF NB <LOGSIZ>
.IF IDN <LOGSIZ>,<ALL>
.IIF NE NCL.LG&1, JSR PC,NCLLOG ;LOG ALL ROUTED MSGS
.IFF
.IF IDN <LOGSIZ>,<DATA>
.IIF NE NCL.LG&2, JSR PC,NCLLOG ;LOG DATA MSGS FOR US
.IFF
BUGBF:
.REPT LOGSIZ*24
.WORD 0
.ENDR
BUGQ: .WORD BUGBF
.ENDC ;.IF IDN <LOGSIZ>,<DATA>
.ENDC ; .IF IDN <LOGSIZ>,ALL
.IFF
;
; SAVE 1ST WORDS OF MSG, AND TOP OF STACK
NCLLOG:
MOV R2,-(P)
MOV P,R2
TST (R2)+
MOV R3,-(P)
MOV BUGQ,R3
CMP R3,#BUGQ-23
BLO 2$
MOV #BUGBF,R3
2$: MOV (R2)+,(R3)+
MOV (R2)+,(R3)+
MOV (R2)+,(R3)+
MOV R0,R2
CMP (R2)+,(R2)+
MOV (R2)+,(R3)+
ADD #CN.NCT-6,R2
MOV (R2)+,(R3)+
MOV (R2)+,(R3)+
MOV (R2)+,(R3)+
MOV (R2)+,(R3)+
MOV (R2)+,(R3)+
MOV (R2)+,(R3)+
MOV R3,BUGQ
MOV (P)+,R3
MOV (P)+,R2
RTS PC
.ENDC ;.IF NB <NCLSIZ>
.ENDM NCLLOG
.IFF
.MACRO NCLLOG LOGSIZ
.ENDM NCLLOG
.ENDC ;.IF NE NCL.LG
.SBTTL CONFIG MACRO
.MACRO confg OPT,PDP,IFDL1,IFDT2,DV,NLN,CTY,IFDH,IFDZ,NCR,NLP,NLP2,NPR,NPP,NPL,IFKG,TITLE
.IIF NDF FT.'OPT,FT.'OPT=0
.IF NE FT.'OPT
.TITLE TITLE
.IF EQ PASS-1 ; ONLY ON PASS 1
.IIF NDF FTDL10,FTDL10=IFDL1 ;IF NONZERO WE HAVE A DL10
.IIF NDF FT.DTE,FT.DTE=IFDT2 ;IF NONZERO WE HAVE A DTE20
DV'OP=NLN ;DEFAULT TYPE & NUMBER OF LINES
.IIF NDF FT.CTY,FT.CTY=CTY ;IF NONZERO HANDLE CTY AS TTY
.IIF NDF FTDH11,FTDH11=IFDH ;IF NONZERO WE HAVE DH11(S)
.IIF NDF FTDZ11,FTDZ11=IFDZ ;IF NONZERO WE HAVE DZ11(S)
.IF DF TTYN
.IF GT TTYN
.IF EQ FTDH11!FTDZ11
FTDZ11=1 ;DEFAULT DZ11 IF TTYN SET
.ENDC
.ENDC
.ENDC
.IIF NDF,FTKG11,FTKG11=IFKG ;WHETHER OR NOT WE NEED KG11
.IIF NDF CDRN,CDRN=NCR ;NUMBER OF CARD READERS
.IIF NDF LP11N,LP11N=NLP ;NUMBER OF LINE PRINTERS
.IIF NDF LP20N,LP20N=NLP2 ;NUMBER OF LP20 LINE PRINTERS
.IF NDF LPTN ;IF USER GAVE ONLY LP11N AND LP20N
LPTN=LP11N+LP20N ;SET NUMBER OF LINE PRINTERS
.IFF;.IF NDF,LPTN
.IF NE,<LPTN-<LP11N+LP20N>> ;IF LPTN IS NOT THE SUM OF LP11N AND LP20N
.IF EQ,PDP-34 ;IF IT IS AN 11/34
LP20N=LPTN
LP11N=0
.ENDC;.IF EQ,PDP-34
.IF EQ,PDP-40
LP11N=LPTN
LP20N=0
.ENDC;.IF EQ,PD-40
.ENDC;.IF NE,<LPTN-<LP11N+LP20N>>
.ENDC;.IF NDF,LPTN
.IIF NDF PTRN,PTRN=NPR ;NUMBER OF PAPER TAPE READERS
.IIF NDF PTPN,PTPN=NPP ;NUMBER OF PAPER TAPE PUNCHES
.IIF NDF PLTN,PLTN=NPL ;NUMBER OF PLOTERS
.ENDC ;.IF EQ PASS-1
ZZ=ZZ+1
.IFF
.IIF NDF DV'OP,DV'OP=0
.ENDC;.IF NE FT.D'OPT
.ENDM CONFG
.MACRO SYNDEV Q
.IRP QQ,<Q>
.IIF NDF QQ'N,QQ'N=0
NLIN=NLIN+QQ'N
.ENDR
.IRP QQ,<Q>
.IIF NDF QQ'OP,QQ'OP=0
.IF NE QQ'OP
.IF DF NLINES
.IF GE <NLINES-NLIN>
QQ'N=QQ'N+<NLINES-NLIN>
.IFF
.PRINT ;IMPOSSIBLE TO BUILD THE SYSTEM
.PRINT ; BAD SYNC LINE DEFINITIONS
QQ'N=QQ'N-<NLINES-NLIN>
NLINES=NLIN
.ENDC
.IFF
.IF EQ NLIN
NLIN=QQ'OP
QQ'N=QQ'OP
.ENDC
NLINES=NLIN
.ENDC
.ENDC
.IIF NE QQ'N,FT'QQ'11=1
.IIF NDF FT'QQ'11,FT'QQ'11=0
.ENDR
.ENDM
; DATE DEFINITION MACRO
.MACRO DATE DAY,MONTH,YEAR
.MACRO SWDATE
.=OURSCB+SB.DAT
EASCII DATESZ,<DAY'-'MONTH'-'YEAR>
.ENDM SWDATE
.MACRO DATEIS
.ASCII \'DAY'-'MONTH'-'YEAR'\
.ENDM DATEIS
.ENDM DATE
; VERSION DEFINITION MACRO
.MACRO ISVER VNUMB,EDITNM,VMIN,VWHO
.MACRO ISVER0 VMAJ,E,W
.ASCII \ V'VMAJ'\
.IF NE <VMIN>
.IIF GT <<VMIN>-26.>, .BYTE <<<VMIN>-1>/26.>+'A
.BYTE <<<VMIN>-1>-<<<<VMIN>-1>/26.>*26.>>+'A
.ENDC ;NE <VMIN>
.ASCII \('E')\
.IIF NE <W>, .ASCII \-'W'\
.BYTE <' >
.ENDM ISVER0
ISVER0 \<VNUMB>,\<EDITNM>,\<VWHO>
.ENDM ISVER
.SBTTL ASYNC (DH & DZ) LINE MACROS
; SYMB: NTLINE -> TOTAL NUMBER OF LINE BLOCKS (NODES) CONFIGURED
; SYMB: NALINE -> NUMBER OF ASYNC DDCMP P-P DH11/DZ11LINES
; SYMB: DHLNNN -> ASSIGNMENT FOR DH11 LINE NNN
; SYMB: DZLNNN -> ASSIGNMENT FOR DZ11 LINE NNN
; (=0 IF UNASSIGNED, =1 IF TTY, =2 IF POINT TO POINT
; DDCMP, =3 IF MULTIPOINT DDCMP MASTER, =4 IF MULTIPOINT
; DDCMP TRIBUTARY, =5 IF PTP RDE, =6 IF ASCII RDE
; =7 IF EMPTY)
; SYMB: DHCNNN -> DM11 CONTROL FOR DH11 LINE NNN
; SYMB: DHSNNN -> LINE SPEED FOR DH11 LINE NNN
; SYMB: DZSNNN -> LINE SPEED FOR DZ11 LINE NNN
; SYMB: AL..SPD -> DEFAULT SPEED FOR ASYNC PTP DDCMP LINES
; SYMB: RA.SPD -> DEFAULT SPEED FOR ASYNC RDA LINES
; SYMB: RP.SPD -> DEFAULT SPEED FOR ASYNC PTP RDE LINES
; SYMB: MP.SPD -> DEFAULT SPEED FOR MULTIPOINT ASYNC LINES
; SYMB: NMPTL -> NUMBER OF ASYNC DDCMP MULTIPOINT LINES
; SYMB: NN$MMM -> MULTIPOINT ADDRESS FOR DH11 LINE NN, NODE DEF MMM
; SYMB: M$NNN -> MAX # MULTIPOINT DROPS ON DH LINE NNN
; SYMB: M$MAX -> MAX # MULTIPOINT DROPS ON ANY DH LINE
; SYMB: DHINDX -> LINE # OF LAST DH LINE ASSIGNED
; SYMB: DZINDX -> LINE # OF LAST DZ LINE ASSIGNED
;
;
; MACRO: DHSET LINE,TYPE,SPEEDX,SPEEDR
; SET PARAMETERS FOR A DH11 LINE (MUST PRECEDE DHUSE
; INVOCATION IN DHCNFG MACRO)
; LINE = THE DH11 LINE (PHYSICAL LINE NUMBER)
; TYPE = THE LINE TYPE TO BE ASSIGNED:
; TTY= TERMINAL
; PTP= POINT TO POINT DDCMP
; MPT= MULTIPOINT DDCMP
; TRIB=TRIBUTARY
; RDP= P-P RDE
; RDA= ASCII RDE
; SPEEDX = TRANSMIT SPEED
; SPEEDR = RECEIVE SPEED
;
;
; MACRO: DHUSE NTT,NAL,NMPT,TRIB,NRDP,NRDA
; DEFINE DH11 LINE USAGE
; NTT = NUMBER OF TTY LINES
; NAL = NUMBER OF ASYNC DDCMP LINES
; NMPT = NUMBER OF MULTIPOINT DDCMP ASYNC LINES
; TRIB = NUMBER OF MULTIPOINT TRIBUTARY DDCMP ASYNC LINES
; NRDP = NUMBER OF P-P RDE DEVICES
; NRDA = NUMBER OF ASCII RDE DEVICES
;
;
; MACRO: MPTA LINE,ADDRESS,NSEQ
; ASSIGN THE MULTIPOINT ADDRESS TO A LINE DROP
; (ACTUALLY NSEQ SEQUENTIAL ADDRESSES FROM ADDRESS)
;
;
; MACRO: TRIBA LINE,ADDRESS
; ASSIGN THE MULTIPOINT ADDRESS TO A TRIBUTARY
;
;
; MACRO: TDEF INDEX,PARAMETERS
; DEFINE TTY + TTY PARAMETERS
; INDEX = TTY # (THIS MUST BE A VARIABLE - IT WILL BE INCREMENTED)
; PARAMETERS IS A LIST OF THE FORM <ITEM,ITEM,...>
; IF ALL THE PARAMETERS ARE DEFAULTED OMIT THIS ARGUMENT
;
; THE ITEMS ARE OF THE FORM ??? OR <???,VALUE>
; THESE DEFINE THE SYMBOLS T'INDEX'???
; SETTING THE VALUE TO 1 (DEFAULT) OR TO VALUE
;
;
; MACRO: DHSPD INDEX,TYPE,SPEEDX,SPEEDR
; SET THE SPEED FOR A DH11 LINE
; INDEX = THE DH11 LINE INDEX FOR THE SPECIFIED TYPE
; TYPE = THE LINE ASSIGNED TYPE:
; TTY= TERMINAL
; PTP= POINT TO POINT DDCMP
; MPT= MULTIPOINT DDCMP
; TRIB=TRIBUTARY
; RDP= P-P RDE
; RDA= ASCII RDE
;
;
; MACRO: .NXTDH TYPE
; SET THE VALUE OF THE SYMBOL NXTDH TO THE NEXT DH LINE
; ASSIGNED THIS TYPE (SPECIFIED AS IN DHSPD)
;
; TO GET THE FIRST, START WITH NXTDH = -1
;
;
; MACRO: .NXTDZ TYPE
; SET THE VALUE OF THE SYMBOL NXTDZ TO THE NEXT DZ LINE
; ASSIGNED THIS TYPE (SPECIFIED AS IN DZSPD)
;
; TO GET THE FIRST, START WITH NXTDZ = -1
;LINE SPEED NUMBERS FOR DH11 AND DZ11
; CODE SPEED DHCODE DZCODE
; 0 0 0 NONE
; 1 50 1 0
; 2 75 2 1
; 3 110 3 2
; 4 134.5 4 3
; 5 150 5 4
; 6 200 6 NONE
; 7 300 7 5
; 10 600 10 6
; 11 1200 11 7
; 12 1800 12 10
; 13 2000 NONE 11
; 14 2400 13 12
; 15 3600 NONE 13
; 16 4800 14 14
; 17 7200 NONE 15
; 20 9600 15 16
; 21 ILLEGAL(19.2K) NONE 17
; 22 EXT A 16 NONE
; 23 EXT B 17 NONE
.MACRO SPD XSPD,RSPD
A=0
B=0
.IF B XSPD
.IF NB RSPD
A=RSPD
.IFF
A=^D300
.ENDC
.IFF
A=XSPD
.ENDC
.IF B RSPD
B=A
.IFF
B=RSPD
.ENDC
QQA=-1
QQB=-1
.IIF EQ <A-0>,QQA=0
.IIF EQ <A-^D50>,QQA=1
.IIF EQ <A-^D75>,QQA=2
.IIF EQ <A-^D110>,QQA=3
.IIF EQ <A-^D134>,QQA=4
.IIF EQ <A-^D150>,QQA=5
.IIF EQ <A-^D200>,QQA=6
.IIF EQ <A-^D300>,QQA=7
.IIF EQ <A-^D600>,QQA=10
.IIF EQ <A-^D1200>,QQA=11
.IIF EQ <A-^D1800>,QQA=12
.IIF EQ <A-^D2200>,QQA=13
.IIF EQ <A-^D2400>,QQA=14
.IIF EQ <A-^D3600>,QQA=15
.IIF EQ <A-^D4800>,QQA=16
.IIF EQ <A-^D7200>,QQA=17
.IIF EQ <A-^D9600>,QQA=20
.IIF EQ <A-^D19200>,QQA=21
.IIF EQ <A-1>,QQA=22
.IIF EQ <A-2>,QQA=23
.IF LT QQA
.ERROR A ;ILLEGAL TRANSMIT SPEED
QQA=0
.ENDC;.IF LT QQA
.IIF EQ <B-0>,QQB=0
.IIF EQ <B-^D50>,QQB=1
.IIF EQ <B-^D75>,QQB=2
.IIF EQ <B-^D110>,QQB=3
.IIF EQ <B-^D134>,QQB=4
.IIF EQ <B-^D150>,QQB=5
.IIF EQ <B-^D200>,QQB=6
.IIF EQ <B-^D300>,QQB=7
.IIF EQ <B-^D600>,QQB=10
.IIF EQ <B-^D1200>,QQB=11
.IIF EQ <B-^D1800>,QQB=12
.IIF EQ <B-^D2200>,QQB=13
.IIF EQ <B-^D2400>,QQB=14
.IIF EQ <B-^D3600>,QQB=15
.IIF EQ <B-^D4800>,QQB=16
.IIF EQ <B-^D7200>,QQB=17
.IIF EQ <B-^D9600>,QQB=20
.IIF EQ <B-^D19200>,QQB=21
.IIF EQ <B-1>,QQB=22
.IIF EQ <B-2>,QQB=23
.IF LT QQB
.ERROR B ;ILLEGAL RECEIVE SPEED
QQB=0
.ENDC;.IF LT QQB
QQ=QQB*400+QQA
.ENDM SPD
DHINDX=-1
DZINDX=-1
.MACRO .NXTDH TYPE
.MACRO NXTDH$ NNN
.IF EQ DHL'NNN-DHXXXX
NXTDH=NNN
DHXXXX=-1
.ENDC
DHYYYY=DHYYYY+1
.ENDM NXTDH$
DHXXXX=-1
.IIF IDN <TTY>,<TYPE> DHXXXX=1
.IIF IDN <PTP>,<TYPE> DHXXXX=2
.IIF IDN <MPT>,<TYPE> DHXXXX=3
.IIF IDN <TRIB>,<TYPE> DHXXXX=4
.IIF IDN <RDP>,<TYPE> DHXXXX=5
.IIF IDN <RDA>,<TYPE> DHXXXX=6
.IIF IDN <NONE>,<TYPE> DHXXXX=7
.IF GT DHXXXX
DHYYYY=NXTDH+1
.REPT <NDH11*20>-DHYYYY
.IIF GT DHXXXX, NXTDH$ \DHYYYY
.ENDR
.ENDC
.ENDM .NXTDH
;
.MACRO .NXTDZ TYPE
.MACRO NXTDZ$ NNN
.IF EQ DZL'NNN-DZXXXX
NXTDZ=NNN
DZXXXX=-1
.ENDC
DZYYYY=DZYYYY+1
.ENDM NXTDZ$
DZXXXX=-1
.IIF IDN <TTY>,<TYPE> DZXXXX=1
.IIF IDN <PTP>,<TYPE> DZXXXX=2
.IIF IDN <MPT>,<TYPE> DZXXXX=3
.IIF IDN <TRIB>,<TYPE> DZXXXX=4
.IIF IDN <RDP>,<TYPE> DZXXXX=5
.IIF IDN <RDA>,<TYPE> DZXXXX=6
.IIF IDN <NONE>,<TYPE> DZXXXX=7
.IF GT DZXXXX
DZYYYY=NXTDZ+1
.REPT <NDZ11*10>-DZYYYY
.IIF GT DZXXXX, NXTDZ$ \DZYYYY
.ENDR
.ENDC
.ENDM .NXTDZ
.MACRO DHSET LIN,TYP,SPX,SPR
.IIF IDN <TYP>,<TTY> DHL'LIN=1
.IIF IDN <TYP>,<PTP> DHL'LIN=2
.IIF IDN <TYP>,<MPT> DHL'LIN=3
.IIF IDN <TYP>,<TRIB> DHL'LIN=4
.IIF IDN <TYP>,<RDP> DHL'LIN=5
.IIF IDN <TYP>,<RDA> DHL'LIN=6
.IIF IDN <TYP>,<NONE> DHL'LIN=7
SPD SPX,SPR
DHS'LIN=QQ
.ENDM DHSET
.MACRO DZSET LIN,TYP,SPX,SPR
.IIF IDN <TYP>,<TTY> DZL'LIN=1
.IIF IDN <TYP>,<PTP> DZL'LIN=2
.IIF IDN <TYP>,<MPT> DZL'LIN=3
.IIF IDN <TYP>,<TRIB> DZL'LIN=4
.IIF IDN <TYP>,<RDP> DZL'LIN=5
.IIF IDN <TYP>,<RDA> DZL'LIN=6
.IIF IDN <TYP>,<NONE> DZL'LIN=7
SPD SPX,SPR
DZS'LIN=QQ
.ENDM DZSET
.MACRO DHUSE NTT,NAL,NMP,NTR,NRP,NRA
.IIF NDF NLINES,NLINES=0
.IIF NDF TTYDHN,TTYDHN=NTT
.IIF NDF NADHLN,NADHLN=NAL
.IIF NDF NDHMPT,NDHMPT=NMP
.IIF NDF NDHTRB,NDHTRB=NTR
.IIF NDF RDPDHN,RDPDHN=NRP
.IIF NDF RDADHN,RDADHN=NRA
DHLINE=NDHMPT+NADHLN+TTYDHN+NDHTRB+RDPDHN+RDADHN ; # DH11 LINES ASSIGNED
NDH11=<DHLINE+17>/20 ; # DH11S
.MACRO X
.MACRO XXX M
Z'M=Z'M+1
.ENDM
.MACRO XX N
.IF DF DHL'N
.IIF LT 7-DHL'N, DHL'N=0
XXX \DHL'N
.ENDC
.IIF NDF DHL'N, DHL'N=0
.ENDM
Z0=0
Z1=-TTYDHN
Z2=-NADHLN
Z3=-NDHMPT
Z4=-NDHTRB
Z5=-RDPDHN
Z6=-RDADHN
Z7=0
Z=0
.REPT NDH11*20
XX \Z
Z=Z+1
.ENDR
.MACRO XXX N,M
.IF EQ DHL'N
.IF LT Z'M
Z'M=Z'M+1
DHL'N=M
.ENDC
.ENDC
.ENDM
.MACRO XX MM
.IF LT Z'MM
Z=0
.REPT NDH11*20
XXX \Z,MM
Z=Z+1
.ENDR
.ENDC
.ENDM
XX 1
XX 2
XX 3
XX 4
XX 5
XX 6
XX 7
Z=0
.IIF LT Z1,Z=Z-Z1
.IIF LT Z2, Z=Z-Z2
.IIF LT Z3, Z=Z-Z3
.IIF LT Z4, Z=Z-Z4
.IIF LT Z5, Z=Z-Z5
.IIF LT Z6, Z=Z-Z6
.IIF LT Z7, Z=Z-Z7
.IF NE Z
NDH11=NDH11+1 ;FILL THE QUOTA WITH ANOTHER DH11
X
.ENDC
.ENDM
X
DH.MAX=NDH11
.MACRO XXXX NNN
M$'NNN=0 ; MAX # LINE DROPS ON LINE N
.ENDM
NXTDH=-1
.REPT NDHMPT
.NXTDH MPT
XXXX \NXTDH
.ENDR
.ENDM DHUSE
.MACRO DZUSE NTT,NAL,NMP,NTR,NRP,NRA
.IIF NDF NLINES,NLINES=0
.IIF NDF TTYDZN,TTYDZN=NTT
.IIF NDF NADZLN,NADZLN=NAL
.IIF NDF NDZMPT,NDZMPT=NMP
.IIF NDF NDZTRB,NDZTRB=NTR
.IIF NDF RDPDZN,RDPDZN=NRP
.IIF NDF RDADZN,RDADZN=NRA
DZLINE=NDZMPT+NADZLN+TTYDZN+NDZTRB+RDPDZN+RDADZN ; # DZ11 LINES ASSIGNED
NDZ11=<DZLINE+7>/10 ; # OF DZ11'S
.MACRO X
.MACRO XXX M
Z'M=Z'M+1
.ENDM
.MACRO XX N
.IF DF DZL'N
.IIF LT 7-DZL'N, DZL'N=0
XXX \DZL'N
.ENDC
.IIF NDF DZL'N, DZL'N=0
.ENDM
Z0=0
Z1=-TTYDZN
Z2=-NADZLN
Z3=-NDZMPT
Z4=-NDZTRB
Z5=-RDPDZN
Z6=-RDADZN
Z7=0
Z=0
.REPT NDZ11*10
XX \Z
Z=Z+1
.ENDR
.MACRO XXX N,M
.IF EQ DZL'N
.IF LT Z'M
Z'M=Z'M+1
DZL'N=M
.ENDC
.ENDC
.ENDM
.MACRO XX MM
.IF LT Z'MM
Z=0
.REPT NDZ11*10
XXX \Z,MM
Z=Z+1
.ENDR
.ENDC
.ENDM
XX 1
XX 2
XX 3
XX 4
XX 5
XX 6
XX 7
Z=0
.IIF LT Z1,Z=Z-Z1
.IIF LT Z2, Z=Z-Z2
.IIF LT Z3, Z=Z-Z3
.IIF LT Z4, Z=Z-Z4
.IIF LT Z5, Z=Z-Z5
.IIF LT Z6, Z=Z-Z6
.IIF LT Z7, Z=Z-Z7
.IF NE Z
NDZ11=NDZ11+1 ;FILL THE QUOTA WITH ANOTHER DZ11
X
.ENDC
.ENDM
X
DZ.MAX=NDZ11
.MACRO XXXX NNN
M$'NNN=0 ; MAX # LINE DROPS ON LINE N
.ENDM
NXTDZ=-1
.REPT NDZMPT
.NXTDZ MPT
XXXX \NXTDZ
.ENDR
.ENDM DZUSE
.MACRO MPTA LINE,ADDRESS,NSEQ
MPTADH LINE,ADDRESS,NSEQ
.ENDM
.MACRO MPTADH LINE,ADDRESS,NSEQ
NXTDH=-1
.REPT LINE+1
.NXTDH MPT
.ENDR
.MACRO XX N,M,A
Y'N'$'M=A
.ENDM
.MACRO X N,A
Z=M$'N
XX N,\Z,A
.IIF EQ M$MAX-M$'N,M$MAX=M$MAX+1
M$'N=M$'N+1
.ENDM
.IIF NB <NSEQ>,Q=NSEQ
.IIF B <NSEQ>,Q=1
.IIF NB <ADDRESS>,QQ=ADDRESS
.IIF B <ADDRESS>,QQ=1
.REPT Q
X \NXTDH,\QQ
NTLINE=NTLINE+1
QQ=QQ+1
.ENDR
.ENDM
.MACRO MPTADZ LINE,ADDRESS,NSEQ
NXTDZ=-1
.REPT LINE+1
.NXTDZ MPT
.ENDR
.MACRO XX N,M,A
Y'N'$'M=A
.ENDM
.MACRO X N,A
Z=M$'N
XX N,\Z,A
.IIF EQ M$MAX-M$'N,M$MAX=M$MAX+1
M$'N=M$'N+1
.ENDM
.IIF NB <NSEQ>,Q=NSEQ
.IIF B <NSEQ>,Q=1
.IIF NB <ADDRESS>,QQ=ADDRESS
.IIF B <ADDRESS>,QQ=1
.REPT Q
X \NXTDZ,\QQ
NTLINE=NTLINE+1
QQ=QQ+1
.ENDR
.ENDM
.MACRO TRIBA LINE,ADDRESS
NXTDH=-1
.REPT LINE+1
.NXTDH TRIB
.ENDR
.MACRO X N,A
Y'N'$0=A
.ENDM
.IIF NB <ADDRESS>, X \NXTDH,ADDRESS
.ENDM
.MACRO TRIBDZ LINE,ADDRESS
NXTDZ=-1
.REPT LINE+1
.NXTDZ TRIB
.ENDR
.MACRO X N,A
Y'N'$0=A
.ENDM
.IIF NB <ADDRESS>, X \NXTDZ,ADDRESS
.ENDM
.MACRO DHSPD LINE,TYPE,SPEEDX,SPEEDR
.MACRO X N,S
DHS'N=S
.ENDM
NXTDH=-1
.REPT LINE+1
.NXTDH TYPE
.ENDR
.IF GE NXTDH
SPD SPEEDX,SPEEDR
X \NXTDH,\QQ
.ENDC
.ENDM DHSPD
.MACRO DZSPD LINE,TYPE,SPEEDX,SPEEDR
.MACRO X N,S
DZS'N=S
.ENDM
NXTDZ=-1
.REPT LINE+1
.NXTDZ TYPE
.ENDR
.IF GE NXTDZ
SPD SPEEDX,SPEEDR
X \NXTDZ,\QQ
.ENDC
.ENDM DZSPD
.MACRO TDEF QTN,QTA
.MACRO TDEF0 QT1,QT2,QT3
.IF B <QT3>
T'QT1'QT2=1
.IFF
T'QT1'QT2=QT3
.ENDC
.ENDM TDEF0
.IRP QTT,<QTA>
TDEF0 \QTN,QTT
.ENDM
QTN=QTN+1
.ENDM TDEF
.SBTTL DEVICE DATA BLOCK GENERATOR
;MACRO TO MAKE DEVICE DATA BLOCKS
.MACRO DDBLBL QLAB
DDB'QLAB:
DDBIDX=DDBIDX+1
.ENDM DDBLBL
DDBIDX=0
.MACRO DDBGEN DEV,DV,NUM,DRQ,QBITS
.IIF NDF DRESET,DRESET=0
.IF EQ DRESET
DEV'DDB:
ZZ=0
.ENDC
.REPT NUM
DX.GEN DEV,DV,NUM,DRQ,QBITS,\ZZ ;INDEPENDENT PORTION
DDXGEN DEV,DV,DRQ,QBITS,\ZZ ;DEPENDENT PORTION
ZZ=ZZ+1
.ENDR
.ENDM DDBGEN
.MACRO DX.GEN DEV,DV,NUM,DRQ,XBITS,XZZ
DDBLBL \DDBIDX
DV'XZZ'DDB: .WORD XBITS ;STATUS WORD
.IF NE <NUM-1-ZZ>
.WORD DV'XZZ'DDB+DV'1DDB-DV'0DDB ;DB.LNK
.IFF
.WORD DDBLINK ;DB.LNK
DDBLINK=DEV'DDB
.ENDC;.IF NE <NUM-1-ZZ>
Z=0
.IIF IDN <DEV>,<CTY>,Z=CTISTS
.IF IDN <DV>,<T>
.IIF NDF ASYDEV,ASYDEV=0
.IF EQ ASYDEV-ASY.DH
.NXTDH TTY
Z=DH0BLK+<<NXTDH/20>*DHB.SZ>
.ENDC
.IF EQ ASYDEV-ASY.DZ
.NXTDZ TTY
Z=DZ0BLK+<<NXTDZ/10>*DZB.SZ>
.ENDC
.ENDC
.IF IDN <DV>,<D>
.IIF NDF ASYDEV,ASYDEV=0
.IF EQ ASYDEV-ASY.DH
.NXTDH RDA
Z=DH0BLK+<<NXTDH/20>*DHB.SZ>
.ENDC
.IF EQ ASYDEV-ASY.DZ
.NXTDZ RDA
Z=DZ0BLK+<<NXTDZ/10>*DZB.SZ>
.ENDC
.ENDC
.IIF EQ <XBITS&DS.TTY>!Z,Z=DV'XZZ'STS
.WORD Z ;DB.HDW
.WORD DEV'SER ;DB.RPC
.WORD DEV'TIM ;DB.TPC
Z=0
.IF IDN <T><DV>
ND T'XZZ'DSL,TTYDSL ;DEFAULT THIS LINE
.IIF NE T'XZZ'DSL,Z=Z!TT.DSL ;SET DATASET THIS LINE IF DESIRED
ND T'XZZ'ABD,TTYABD ;DEFAULT THIS LINE
.IIF NDF T'XZZ'XS,T'XZZ'ABD=1 ;FORCE AUTOBAUD IF NO SPEED ASSIGNED
.IIF NE T'XZZ'ABD,Z=Z!TT.ABD ;AUTOBAUD LINE
Z=Z!TT.CSB!TT.ABR ;CAN SET BAUD RATE & AUTOBAUD
.IF DF T'XZZ'XS
.IF EQ <T'XZZ'XS-^D134>
.ERROR 134.;NO SUPPORT FOR 2741 TERMINALS
.ENDC
.ENDC
.IF NE FTDN11
.IF DF T'XZZ'801 ;IS THIS AN AUTO DIAL LINE ?
T'XZZ'DSL=1 ;IT MUST HAVE A DATASET
Z=Z!TT.801!TT.DSL ;MAKE A NOTE THAT IT IS AUTO DIAL/DATASET
T'XZZ'DSP=T'XZZ'801
.IFF
T'XZZ'DSP=0
.ENDC
.ENDC
Z=Z!TT.CSH ;SET THE "CAN SET HOST" BIT
ND T'XZZ'INI,TTYINI ;DEFAULT THE "RUN INITIA" BIT
.IIF NE T'XZZ'INI,Z=Z!TT.RIC ;SET THE "RUN INITIA" ATTRIBUTE
ND T'XZZ'8BT,TTY8BT ;DEFAULT THE "8-BIT" VALUE
.IIF NE T'XZZ'8BT,Z=Z!TT.8BL ;SET THE "8-BIT-LINE" ATTRIBUTE
.ENDC;.IF IDN <T>,<DV>
.IF IDN <CT>,<DV>
Z=Z!TT.CSH ;CTY CAN SET HOST TOO!
ND CTY8BT,0 ;CTY IS 7-BIT BY DEFAULT
.IIF NE CTY8BT,Z=Z!TT.8BL ;SET THE "8-BIT-LINE" ATTRIBUTE
.ENDC;.IF IDN <CT>,<DV>
.IF IDN <D><DV>
ND D'XZZ'DSL,0
.IIF NE D'XZZ'DSL,Z=Z!TT.DSL
.IF NE FTDN11
.IF DF D'XZZ'801
D'XZZ'DSL=1 ;MUST BE DATA SET
Z=Z!TT.801!TT.DSL ;AUTO DIAL/DATASET BIT(S)
D'XZZ'DSP=D'XZZ'801
.IFF
D'XZZ'DSP=0
.ENDC
.ENDC
.ENDC
.IF IDN <LP><DV>
Z=2020
ND LP'XZZ'.LC,LPT.LC
.IIF NE LP'XZZ'.LC,Z=Z!DLP.LL ;SET "LOWER CASE"
ND LP'XZZ'FCS,LPTFCS
.IIF NE LP'XZZ'FCS,Z=Z!DLP.FC ;SET "FULL CHARACTER SET"
ND LP'XZZ'DAV,LPTDAV
.IIF NE LP'XZZ'DAV,Z=Z!400 ;SET "DAVFU" (I.E., LOADABLE VFU)
ND LP'XZZ'8BT,LPT8BT
.IIF NE LP'XZZ'8BT,Z=Z!DLP.8B ;SET "EIGHT-BIT"
.ENDC
.IIF IDN <R><DV>,Z=<<FTSLCT&1>*2+1> ;SET MULTIPLEXED DEV
; + POLLING LIST IF REQUIRED
.WORD Z ;DB.DVT
ND DV'XZZ'DVU,0
.BYTE DV'XZZ'DVU ;DB.DVU
.BYTE 0 ;DB.DVV (SET BY DEVICE SERVICE ROUTINE)
ND DEV'WID,72. ;SET DEFAULT CLASS WIDTH
ND DV'XZZ'WID,DEV'WID
.WORD DV'XZZ'WID ;DB.WID & DB.RLN
Z=ZZ
.IF IDN <T><DV>
.IIF NE FT.CTY,Z=Z+1
.ENDC
.BYTE 0 ;DB.ACR
.BYTE Z ;DB.UNI
.BYTE OBJ'DEV ;DB.OBJ
.BYTE 0 ;DB.ROT
.BYTE DRQ ;DB.MDR
Z=DRQ
.IIF DF DV'XZZ'CHK,Z=DV'XZZ'CHK
.BYTE Z ;DB.CHK
Z=0
.IF IDN <T><DV>
.BYTE ASYDEV ;DB.TYP
Z=1
.ENDC
.IF IDN <D><DV>
.BYTE ASYDEV ;DB.TYP
Z=1
.ENDC
.IIF EQ Z,.BYTE 0 ;DB.TYP
.IF NE FT.RNN
Z=0
.IF DF DV'XZZ'RNN
Z=DV'XZZ'RNN
.IFF
.IIF DF DEV'RNN,Z=DEV'RNN
.ENDC
.BYTE Z ;DB.RNN
.ENDC
.IF NE FT.PFH
Z=0
.IF DF DV'XZZ'PFH
Z=DV'XZZ'PFH
.IFF
.IIF DF DEV'PFH,Z=DEV'PFH
.ENDC
.BYTE Z ;DB.PFH
.ENDC
.IIF NE FTHOST,.BYTE 0 ;DB.RCN
.EVEN
.WORD DDBIDX*2 ;DB.OLA
.IF NE FT.RDM!FT.RDP!FT.RDA
W.WORD=0
.IIF IDN <RDM><DEV>,W.WORD=RDEMPT
.IIF IDN <RDP><DEV>,W.WORD=RDEPTP
.IIF IDN <RDA><DEV>,W.WORD=RDEASC
.WORD W.WORD ;DB.RDT
.ENDC
.IIF NE FT.TSK,.WORD 0,0,0,0 ;DB.TSK
.WORD 0,0,0 ;DB.DFT
.IIF NE DV'XZZ'DDB+DB.ZER-.,.ERROR DV'XZZ'DDB+DB.ZER-. ;DDB LENGTH MISMATCH
.BLKB DB.SIZ-DB.ZER
.ENDM DX.GEN
.MACRO DDXGEN DEV,DV,DRQ,XBITS,XZZ ;DEVICE DEPENDENT PORTION
.ENDM DDXGEN
.SBTTL MACRO TO DEFINE DEVICE INTERRUPT ENTRIES
.MACRO DVINT X,Y
X'VA'Y: SAVE <J> ;SAVE DDB POINTER
MOV #X'Y'DDB,J ;POINT TO RIGHT DEVICE BLOCK
.ENDM DVINT
.MACRO DEVINT DEV,DV
Z=DEV'N-1
.REPT DEV'N
DVINT DV,\Z
.IIF NE Z,BR DEV'INT
Z=Z-1
.ENDR
.ENDM DEVINT
.MACRO TTSPXX
QQQ=0
SPD QQQ,QQQ
B.0=QQ
QQQ=<^D50>
SPD QQQ,QQQ
B.50=QQ
QQQ=<^D75>
SPD QQQ,QQQ
B.75=QQ
QQQ=<^D110>
SPD QQQ,QQQ
B.110=QQ
QQQ=<^D134>
SPD QQQ,QQQ
B.134=QQ
QQQ=<^D150>
SPD QQQ,QQQ
B.150=QQ
QQQ=<^D200>
SPD QQQ,QQQ
B.200=QQ
QQQ=<^D300>
SPD QQQ,QQQ
B.300=QQ
QQQ=<^D600>
SPD QQQ,QQQ
B.600=QQ
QQQ=<^D1200>
SPD QQQ,QQQ
B.1200=QQ
QQQ=<^D1800>
SPD QQQ,QQQ
B.1800=QQ
QQQ=<^D2200>
SPD QQQ,QQQ
B.2200=QQ
QQQ=<^D2400>
SPD QQQ,QQQ
B.2400=QQ
QQQ=<^D3600>
SPD QQQ,QQQ
B.3600=QQ
QQQ=<^D4800>
SPD QQQ,QQQ
B.4800=QQ
QQQ=<^D7200>
SPD QQQ,QQQ
B.7200=QQ
QQQ=<^D9600>
SPD QQQ,QQQ
B.9600=QQ
QQQ=<^D19200>
SPD QQQ,QQQ
B.1900=QQ
QQQ=1
SPD QQQ,QQQ
B.1=QQ
QQQ=2
SPD QQQ,QQQ
B.2=QQ
B.LSPD=B.300
B.HSPD=B.2400
.ENDM
; THIS MACRO WILL CAUSE OTHER MACROS TO GET BUILT
;THAT DEPEND UPON CPU TYPE, OR OTHER SUCH STUFF
.MACRO SETUP
SIMMAC
TTSPXX
SUASRT
.ENDM
;A MACRO TO ASSEMBLE AN EVEN PARITY ASCII STRING
;NOTE THAT WE NO LONGER DO PARITY, SO THIS IS REALLY ONLY A SLOW VERSION
; OF .ASCII
.MACRO EPASCI STR
.IRPC CHR,<STR>
PB==0 ;;PARITY BIT INITIALLY ZERO
;; CH==''CHR ;;GET THE VALUE OF THE CHAR
;; .REPT 8. ;;FOR ALL EIGHT BITS
;; PB==200&<PB+CH> ;;XOR THE TOP BIT INTO PB
;; CH==CH*2 ;; AND SHIFT TO THE NEXT BIT
;; .ENDR
.BYTE PB+''CHR ;;STORE THE BYTE WITH THE PARITY BIT
.ENDM ;;END THE IRPC
.ENDM ;;END THE MACRO