https://github.com/chrislgarry/Apollo-11
Tip revision: 422050965990dfa8ad1ffe4ae92e793d7d1ddae5 authored by panoreak on 11 October 2020, 02:01:06 UTC
Proof INPUT_OUTPUT_CHANNEL_BIT_DESCRIPTIONS.acg #592 (#708)
Proof INPUT_OUTPUT_CHANNEL_BIT_DESCRIPTIONS.acg #592 (#708)
Tip revision: 4220509
PINBALL_GAME_BUTTONS_AND_LIGHTS.agc
# Copyright: Public domain.
# Filename: PINBALL_GAME_BUTTONS_AND_LIGHTS.agc
# Purpose: Part of the source code for Luminary 1A build 099.
# It is part of the source code for the Lunar Module's (LM)
# Apollo Guidance Computer (AGC), for Apollo 11.
# Assembler: yaYUL
# Contact: Jim Lawton <jim.lawton@gmail.com>
# Website: www.ibiblio.org/apollo.
# Pages: 390-471
# Mod history: 2009-05-16 JVL Started updating from page images.
# 2009-05-25 JVL Finished updating from page images.
# 2009-07-01 RSB Began annotating.
# 2010-12-31 JL Fixed page number comment.
#
# This source code has been transcribed or otherwise adapted from digitized
# images of a hardcopy from the MIT Museum. The digitization was performed
# by Paul Fjeld, and arranged for by Deborah Douglas of the Museum. Many
# thanks to both. The images (with suitable reduction in storage size and
# consequent reduction in image quality as well) are available online at
# www.ibiblio.org/apollo. If for some reason you find that the images are
# illegible, contact me at info@sandroid.org about getting access to the
# (much) higher-quality images which Paul actually created.
#
# Notations on the hardcopy document read, in part:
#
# Assemble revision 001 of AGC program LMY99 by NASA 2021112-061
# 16:27 JULY 14, 1969
## <b>Note:</b> Notations below resembling this note are 21st-century
## annotations added by the <a href="http://www.ibiblio.org/apollo">
## Virtual AGC project</a>, and are not original AGC source code.
# Page 390
# PROGRAM NAME -- KEYBOARD AND DISPLAY PROGRAM
# MOD NO -- 4 DATE -- 27 APRIL 1967 ASSEMBLY -- PINDANCE REV 18
# MOD BY -- FILENE
# LOG SECTION -- PINBALL GAME BUTTONS AND LIGHTS
#
# FUNCTIONAL DESCRIPTION
#
# THE KEYBOARD AND DISPLAY SYSTEM PROGRAM OPERATES UNDER EXECUTIVE
# CONTROL AND PROCESSES INFORMATION EXCHANGED BETWEEN THE AGC AND THE
# COMPUTER OPERATOR. THE INPUTS TO THE PROGRAM ARE FROM THE KEYBOARD,
# FROM INTERNAL PROGRAM, AND FROM THE UPLINK.
#
# THE LANGUAGE OF COMMUNICATION WITH THE PROGRAM IS A PAIR OF WORDS
# KNOWN AS VERB AND NOUN. EACH OF THESE IS REPRESENTED BY A 2 CHARACTER
# DECIMAL NUMBER. THE VERB CODE INDICATES WHAT ACTION IS TO BE TAKEN, THE
# NOUN CODE INDICATES TO WHAT THIS ACTION IS APPLIED. NOUNS USUALLY
# REFER TO A GROUP OF ERASABLE REGISTERS.
#
# VERBS ARE GROUPED INTO DISPLAYS, LOADS, MONITORS (DISPLAYS THAT ARE
# UPDATED ONCE PER SECOND), SPECIAL FUNCTIONS, AND EXTENDED VERBS (THESE
# ARE OUTSIDE OF THE DOMAIN OF PINBALL AND CAN BE FOUND UNDER LOG SECTION
# 'EXTENDED VERBS').
#
# A LIST OF VERBS AND NOUNS IS GIVEN IN LOG SECTION 'ASSEMBLY AND
# OPERATION INFORMATION'.
#
## Ramón Alonso, one of the original AGC developers, provides a
## little more insight: Apparently, nobody had yet arrived at any kind
## of software requirements for the AGC's user interface when the desire
## arose within the Instrumentation Laboratory to set up a demo
## guidance-computer unit with which to impress visitors to the lab.
## Of course, this demo would have to <i>do</i> something, if it was going to be
## at all impressive, and to do something it would need some software. In
## short order, some of the coders threw together a demo program,
## inventing and using the verb/noun user-interface concept (in the
## whimsical fashion seen in much of this code), but without any idea
## that the verb/noun concept would somehow survive into the flight
## software. As time passed, and more and more people became familiar
## with the demo, nobody got around to inventing an improvement for the
## user interface, so the coders simply built it into the flight software
## without any specific requirements to do so.<br>
## <br>
## However, that does not mean that the verb/noun interface was universally
## beloved. Ramón says that <i>many</i> objections were received from
## naysayers, such as "it's not scientific", "it's not dignified", or
## even "astronauts won't understand it". Even though the coders of
## the demo hadn't seriously intended the verb/noun interface to be used
## in any permanent way, it became a kind of devilish game to counter
## these objections with (perhaps) sophistic arguments as to why the
## interface was really a good one. In the end, the coders won. I don't
## know whether they were elated or dismayed by this victory.<br>
## <br>
## The astronauts, of course, <i>could</i> understand the interface,
## but they did not like it. Most of them really wanted an interface much
## more like that they had used in aircraft: i.e., lots of dials and
## switches. Dave Scott is the the only astronaut I'm aware of who had
## kind words for it (or for the AGC in general), though we are told that
## Jim McDivitt wasn't necessary completely hostile to it.<br>
## <br>
## <div style="text-align: right;"><small>—Ron Burkey, 07/2009</small></div>
#
# CALLING SEQUENCES --
#
# KEYBOARD:
# EACH DEPRESSION OF A KEYBOARD BUTTON ACTIVATES AN INTERRUPT KEYRUPT1
# AND PLACES THE 5 BIT KEY CODE INTO CHANNEL 15. KEYRUPT1 PLACES THE KEY
# CODE INTO MPAC, ENTERS AN EXECUTIVE REQUEST FOR THE KEYBOARD AND DISPLAY
# PROGRAM (AT 'CHARIN'), AND EXECUTES A RESUME.
#
# UPLINK:
# EACH WORD RECEIVED BY THE UPLINK ACTIVATES INTERRUPT UPRUPT, WHICH
# PLACES THE 5 BIT KEY CODE INTO MPAC, ENTERS AN EXECUTIVE REQUEST FOR THE
# KEYBOARD AND DISPLAY PROGRAM (AT 'CHARIN') AND EXECUTES A RESUME.
#
# INTERNAL PROGRAMS:
# INTERNAL PROGRAMS CALL PINBALL AT `NVSUB' WITH THE DESIRED VERB/NOUN
# CODE IN A (LOW 7 BITS FOR NOUN, NEXT 7 BITS FOR VERB). DETAILS
# DESCRIBED ON REMARKS CARDS JUST BEFORE 'NVSUB' AND 'NVSBWAIT' (SEE
# SYMBOL TABLE FOR PAGE NUMBERS).
#
# NORMAL EXIT MODES --
#
# IF PINBALL WAS CALLED BY EXTERNAL ACTION, THERE ARE FOUR EXITS:
# 1) ALL BUT (2), (3), AND (4) EXIT DIRECTLY TO ENDOFJOB.
# 2) EXTENDED VERBS GO TO THE EXTENDED VERB FAN AS PART OF THE
# Page 391
# PINBALL EXECUTIVE JOB WITH PRIORITY 30000. IT IS THE
# RESPONSIBILITY OF THE EXTEDED VERB CALLED TO EVENTUALLY
# CHANGE PRIORITY (IF NECESSARY) AND DO AN ENDOFJOB.
# ALSO PINBALL IS A NOVAC JOB. EBANK SET FOR COMMON.
# 3) VERB 37. CHANGE OF PROGRAM (MAJOR MODE) CALLS 'V37' IN THE
# SERVICE ROUTINES AS PART OF THE PINBALL EXEC JOB WITH PRIO
# 30000. THE NEW PROGRAM CODE (MAJOR MODE) IS LEFT IN A.
# 4) KEY RELEASE BUTTON CALLS 'PINBRNCH' IN THE DISPLAY INTERFACE
# ROUTINES AS PART OF THE PINBALL EXEC JOB WITH PRIO 30000 IF
# THE KEY RELEASE LIGHT IS OFF AND 'CADRSTOR' IS NOT +0.
#
# IF PINBALL WAS CALLED BY INTERNAL PROGRAMS, EXIT FROM PINBALL IS BACK
# TO CALLING ROUTINE. DETAILS DESCRIBED IN REMARKS CARDS JUST BEFORE
# 'NVSUB' AND 'NVSBWAIT' (SEE SYMBOL TABLE FOR PAGE NUMBERS).
#
# ALARM OR ABORT EXIT MODES --
#
# EXTERNAL INITIATION:
# IF SOME IMPROPER SEQUENCE OF KEY CODES IS DETECTED, THE OPERATOR
# ERROR LIGHT IS TURNED ON AND EXIT IS TO 'ENDOFJOB'.
#
# INTERNAL PROGRAM INITIATION:
# IF AN ILLEGAL V/N COMBINATION IS ATTEMPTED, AN ABORT IS CAUSED
# (WITH OCTAL 01501).
# IF A SECOND ATTEMPT IS MADE TO GO TO SLEEP IN PINBALL, AN ABORT IS
# CAUSED (WITH OCTAL 01206). THERE ARE TWO WAYS TO GO TO SLEEP IN PINBALL:
# 1) ENDIDLE OR DATAWAIT.
# 2) NVSBWAIT, PRENVBSY, OR NVSUBUSY.
#
# CONDITIONS LEADING TO THE ABOVE ARE DESCRIBED IN FORTHCOMING MIT/IL
# E-REPORT DESCRIBING KEYBOARD AND DISPLAY OPERATION FOR 278.
#
# OUTPUT --
#
# INFORMATION TO BE SENT TO THE DISPLAY PANEL IS LEFT IN THE 'DSPTAB'
# BUFFERS REGISTERS (UNDER EXEC CONTROL). 'DSPOUT' (A PART OF T4RUPT)
# HANDLES THE PLACING OF THE 'DSPTAB' INFORMATION INTO OUTPUT CHANNEL 10
# IN INTERRUPT.
#
# ERASABLE INITIALIZATION --
#
# FRESH START AND RESTART INITIALIZE THE NECESSARY E REGISTERS FOR
# PINBALL IN 'STARTSUB'. REGISTERS ARE: DSPTAB BUFFER, CADRSTOR,
# REQRET, CLPASS, DSPLOCK, MONSAVE, MONSAVE1, VERBREG, NOUNREG, DSPLIST,
# DSPCOUNT, NOUT.
#
# A COMPLETE LIST OF ALL THE ERASABLES (BOTH RESERVED AND TEMPORARIES) FOR
# Page 392
# PINBALL IS GIVEN BELOW.
#
# THE FOLLOWING ARE OF GENERAL INTEREST --
#
# REMARKS CARDS PRECEDE THE REFERENCED SYMBOL DEFINITION. SEE SYMBOL
# TABLE TO FIND APPROPRIATE PACE NUMBERS.
#
# NVSUB CALLING POINT FOR INTERNAL USE OF PINBALL.
# OF RELATED INTEREST NVSBWAIT
# NVSUBUSY
# PRENVBSY
#
# ENDIDLE ROUTINE FOR INTERNAL PROGRAMS WISHING TO TO SLEEP WHILE
# AWAITING OPERATORS RESPONSE.
#
# DSPMM ROUTINE BY WHICH AN INTERNAL PROGRAM MAY DISPLAY A DECIMAL
# PROGRAM CODE (MAJOR MODE) IN THE PROGRAM (MAJOR MODE) LIGHTS.
# (DSPMM DOES NOT DISPLAY DIRECTLY BUT ENTERS EXEC REQUEST
# FOR DSPMMJB WITH PRIO 30000 AND RETURNS TO CALLER.)
#
# BLANKSUB ROUTINE BY WHICH AN INTERNAL PROGRAM MAY BLANK ANY
# COMBINATION OF THE DISPLAY REGISTERS R1, R2, R3.
#
# JAMTERM ROUTINE BY WHICH AN INTERNAL PROGRAM MAY PERFORM THE
# JAMPROC TERMINATE (V 34) OR PROCEED (V 33) FUNCTION.
#
# MONITOR VERBS FOR PERIODIC (1 PER SEC) DISPLAY.
#
# PLEASE PERFORM, PLEASE MARK SITUATIONS
# REMARKS DESCRIBING HOW AN INTERNAL ROUTINE SHOULD HANDLE
# THESE SITUATIONS CAN BE FOUND JUST BEFORE 'NVSUB' (SEE
# SYMBOL TABLE FOR PAGE NUMBER).
#
# THE NOUN TABLE FORMAT IS DESCRIBED ON A PAGE OF REMARKS CARDS JUST
# BEFORE 'DSPABC' (SEE SYMBOL TABLE FOR PAGE NUMBER).
#
# THE NOUN TABLES THEMSELVES ARE FOUND IN LOG SECTION 'PINBALL NOUN
# TABLES'.
#
# FOR FURTHER DETAILS ABOUT OPERATION OF THE KEYBOARD AND DISPLAY SYSTEM
# PROGRAM, SEE THE MISSION PLAN AND/OR MIT/IL E-2129
# DESCRIBING KEYBOARD AND DISPLAY OPERATION FOR 278.
## The document described above, "Keyboard and Display Program Operation"
## by Alan I. Green and Robert J. Filene is
## <a href="http://www.ibiblio.org/apollo/hrst/archive/1706.pdf">
## available online at the Virtual AGC website</a>.
## <small>—Ron Burkey, 07/2009</small>
# THE FOLLOWING QUOTATION IS PROVIDED THROUGH THE COURTESY OF THE AUTHORS.
#
# "IT WILL BE PROVED TO THY FACE THAT THOU HAST MEN ABOUT THEE THAT
# USUALLY TALK OF A NOUN AND A VERB, AND SUCH ABOMINABLE WORDS AS NO
# Page 393
# CHRISTIAN EAR CAN ENDURE TO HEAR."
# HENRY 6, ACT 2, SCENE 4
## Actually, this quotation is from <i>Henry VI</i>, Part 2, Act IV, Scene VII.
## <small>—Ron Burkey, 07/2009</small>
# THE FOLLOWING ASSIGNMENTS FOR PINBALL ARE MADE ELSEWHERE
#
# DSPCOUNT ERASE # DISPLAY POSITION INDICATOR
# DECBRNCH ERASE # +DEC, -DEC, OCT INDICATOR
# VERBREG ERASE # VERB CODE
# NOUNREG ERASE # NOUN CODE
# XREG ERASE # R1 INPUT BUFFER
# YREG ERASE # R2 INPUT BUFFER
# ZREG ERASE # R3 INPUT BUFFER
# XREGLP ERASE # LO PART OF XREG (FOR DEC CONV ONLY)
# YREGLP ERASE # LO PART OF YREG (FOR DEC CONV ONLY)
# HITEMOUT = YREGLP # TEMP FOR DISPLAY OF HRS, MIN, SEC
# # MUST = LOTEMOUT-1.
# ZREGLP ERASE # LO PART OF ZREG (FOR DEC CONV ONLY)
# LOTEMOUT = ZREGLP # TEMP FOR DISPLAY OF HRS, MIN, SEC
# # MUST = HITEMOUT+1.
# MODREG ERASE # MODE CODE
# DSPLOCK ERASE # KEYBOARD/SUBROUTINE CALL INTERLOCK
# REQRET ERASE # RETURN REGISTER FOR LOAD
# LOADSTAT ERASE # STATUS INDICATOR FOR LOADTST
# CLPASS ERASE # PASS INDICATOR FOR CLEAR
# NOUT ERASE # ACTIVITY COUNTER FOR DSPTAB
# NOUNCADR ERASE # MACHINE CADR FOR NOUN
# MONSAVE ERASE # N/V CODE FOR MONITOR. (= MONSAVE1-1)
# MONSAVE1 ERASE # NOUNCADR FOR MONITOR (MATBS) = MONSAVE+1
# MONSAVE2 ERASE # NVMONOPT OPTIONS
# DSPTAB ERASE +13D # 0-10, DISPLAY PANEL BUFFER, 11-13, C RELAYS
# CADRSTOR ERASE # ENDIDLE STORAGE
# NVQTEM ERASE # NVSUB STORAGE FOR CALLING ADDRESS
# # MUST = NVBNKTEM-1.
# NVBNKTEM ERASE # NVSUB STORAGE FOR CALLING BANK
# # MUST = NVQTEM+1
# VERBSAVE ERASE # NEEDED FOR RECYCLE
# DSPLIST ERASE # WAITING REG FOR DSP SYST INTERNAL USE
# EXTVBACT ERASE # EXTENDED VERB ACTIVITY INTERLOCK
# DSPTEM1 ERASE # BUFFER STORAGE AREA 1 (MOSTLY FOR TIME)
# DSPTEM2 ERASE # BUFFER STORAGE AREA 2 (MOSTLY FOR DEG)
#
# END OF ERASABLES RESERVED FOR PINBALL EXECUTIVE ACTION
#
# TEMPORARIES FOR PINBALL EXECUTIVE ACTION
# Page 394
# DSEXIT = INTB15+ # RETURN FOR DSPIN
# EXITEM = INTB15+ # RETURN FOR SCALE FACTOR ROUTINE SELECT
# BLANKRET = INTB15+ # RETURN FOR 2BLANK
# WRDRET = INTBIT15 # RETURN FOR 5BLANK.
# WDRET = INTBIT15 # RETURN FOR DSPWD
# DECRET = INTBIT15 # RETURN FOR PUTCOM(DEC LOAD)
# 21/22REG = INTBIT15 # TEMP FOR CHARIN
# UPDATRET = POLISH # RETURN FOR UPDATNN, UPDATVB
# CHAR = POLISH # TEMP FOR CHARIN
# ERCNT = POLISH # COUNTER FOR ERROR LIGHT RESET
# DECOUNT = POLISH # COUNTER FOR SCALING AND DISPLAY (DEC)
# SGNON = VBUF # TEMP FOR +,- ON
# NOUNTEM = VBUF # COUNTER FOR MIXNOUN FETCH
# DISTEM = VBUF # COUNTER FOR OCTAL DISPLAY VERB
# DECTEM = VBUF # COUNTER FOR FETCH (DEC DISPLAY VERBS)
# SGNOFF = VBUF +1 # TEMP FOR +,- ON
# NVTEMP = VBUF +1 # TEMP FOR NVSUB
# SFTEMP1 = VBUF +1 # STORAGE FOR SF CONST HI PART (=SFTEMP2-1)
# HITEMIN = VBUF +1 # TEMP FOR LOAD OF HRS, MIN, SEC
# # MUST = LOTEMIN-1.
# CODE = VBUF +2 # FOR DSPIN
# SFTEMP2 = VBUF +2 # STORAGE FOR SF CONST LO PART (=SFTEMP1+1)
# LOTEMIN = VBUF +2 # TEMP FOR LOAD OF HRS, MIN, SEC
# # MUST = HITEMIN+1
# MIXTEMP = VBUF +3 # FOR MIXNOUN DATA
# SIGNRET = VBUF +3 # RETURN FOR +,- ON
# ALSO MIXTEMP+1 = VBUF+4, MIXTEMP+2 = VBUF+5.
# ENTRET = DOTINC # EXIT FROM ENTER
# WDCNT = DOTRET # CHAR COUNTER FOR DSPWD
# INREL = DOTRET # INPUT BUFFER SELECTOR (X, Y, Z, REG)
# DSPMMTEM = MATINC # DSPCOUNT SAVE FOR DSPMM
# MIXBR = MATINC # INDICATOR FOR MIXED OR NORMAL NOUN
# TEM1 ERASE # EXEC TEMP
# DSREL = TEM1 # REL ADDRESS FOR DSPIN
# TEM2 ERASE # EXEC TEMP
# DSMAG = TEM2 # MAGNITUDE STORE FOR DSPIN
# IDADDTEM = TEM2 # MIXNOUN INDIRECT ADDRESS STORAGE
# TEM3 ERASE # EXEC TEMP
# COUNT = TEM3 # FOR DSPIN
# Page 395
# TEM4 ERASE # EXEC TEMP
# LSTPTR = TEM4 # LIST POINTER FOR GRABUSY
# RELRET = TEM4 # RETURN FOR RELDSP
# FREERET = TEM4 # RETURN FOR FREEDSP
# DSPWDRET = TEM4 # RETURN FOR DSPSIGN
# SEPSCRET = TEM4 # RETURN FOR SEPSEC
# SEPMNRET = TEM4 # RETURN FOR SEPMIN
# TEM5 ERASE # EXEC TEMP
# NOUNADD = TEM5 # TEMP STORAGE FOR NOUN ADDRESS
# NNADTEM ERASE # TEMP FOR NOUN ADDRESS TABLE ENTRY
# NNTYPTEM ERASE # TEMP FOR NOUN TYPE TABLE ENTRY
# IDAD1TEM ERASE # TEMP FOR INDIR ADDRESS TABLE ENTRY (MIXNN)
# # MUST = IDAD2TEM-1, = IDAD3TEM-2.
# IDAD2TEM ERASE # TEMP FOR INDIR ADDRESS TABLE ENTRY (MIXNN)
# # MUST = IDAD1TEM+1, IDAD3TEM-1.
# IDAD3TEM ERASE # TEMP FOR INDIR ADDRESS TABLE ENTRY (MIXNN)
# # MUST = IDAD1TEM+2, IDAD2TEM+1.
# RUTMXTEM ERASE # TEMP FOR SF ROUT TABLE ENTRY (MIXNN ONLY)
#
# END OF TEMPORARIES FOR PINBALL EXECUTIVE ACTION.
#
# ADDITIONAL TEMPORARIES FOR PINBALL EXECUTIVE ACTION
#
# MPAC, THRU MPAC +6
# BUF, +1, +2
# BUF2, +1, +2
# MPTEMP
# ADDRWD
#
# END OF ADDITIONAL TEMPS FOR PINBALL EXEC ACTION
#
# RESERVED FOR PINBALL INTERRUPT ACTION
#
# DSPCNT ERASE # COUNTER FOR DSPOUT
# UPLOCK ERASE # BIT1 = UPLINK INTERLOCK (ACTIVATED BY
# # RECEPTION OF A BAD MESSAGE IN UPLINK)
#
# END OF ERASABLES RESERVED FOR PINBALL INTERRUPT ACTION
#
# TEMPORARIES FOR PINBALL INTERRUPT ACTION
#
# KEYTEMP1 = WAITEXIT # TEMP FOR KEYRUPT, UPRUPT
# DSRUPTEM = WAITEXIT # TEMP FOR DSPOUT
# KEYTEMP2 = RUPTAGN # TEMP FOR KEYRUPT, UPRUPT
#
# END OF TEMPORARIES FOR PINBALL INTERRUPT ACTION
# Page 396
# THE INPUT CODES ASSUMED FOR THE KEYBOARD ARE,
# 0 10000
# 1 00001
# 9 01001
# VERB 10001
# ERROR RES 10010
# KEY RLSE 11001
# + 11010
# - 11011
# ENTER 11100
# CLEAR 11110
# NOUN 11111
#
# (2003 RSB -- The PROCEED key has no keycode; it is read by an alternate mechanism.)
#
# OUTPUT FORMAT FOR DISPLAY PANEL. SET OUT0 TO AAAABCCCCCDDDDD.
# A'S SELECTS A RELAYWORD. THIS DETERMINES WHICH PAIR OF CHARACTERS ARE
# ENERGIZED.
# B FOR SPECIAL RELAYS SUCH AS SIGNS ETC.
# C'S 5 BIT RELAY CODE FOR LEFT CHAR OF PAIR SELECTED BY RELAYWORD.
# D'S 5 BIT RELAY CODE FOR RIGHT CHAR OF PAIR SELECTED BY RELAYWORD.
#
# THE PANEL APPEARS AS FOLLOWS,
# MD1 MD2 (MAJOR MODE)
# VD1 VD2 (VERB) ND1 ND2 (NOUN)
# R1D1 R1D2 R1D3 R1D4 R1D5 (R1)
# R2D1 R2D2 R2D3 R2D4 R2D5 (R2)
# R3D1 R3D2 R3D3 R3D4 R3D5 (R3)
#
# EACH OF THESE IS GIVEN A DSPCOUNT NUMBER FOR USE WITHIN COMPUTATION ONLY
#
# MD1 25 R2D1 11 ALL ARE OCTAL
# MD2 24 R2D2 10
# VD1 23 R2D3 7
# VD2 22 R2D4 6
# ND1 21 R2D5 5
# ND2 20 R3D1 4
# R1D1 16 R3D2 3
# R1D2 15 R3D3 2
# R1D3 14 R3D4 1
# R1D4 13 R3D5 0
# R1D5 12
#
# THERE IS AN 11-REGISTER TABLE (DSPTAB) FOR THE DISPLAY PANEL.
#
# DSPTAB RELAYWD BIT11 BITS 10-6 BITS 5-1
# RELADD
# 10 1011 MD1 (25) MD2 (24)
# 9 1010 VD1 (23) VD2 (22)
# 8 1001 ND1 (21) ND2 (20)
# 7 1000 R1D1 (16)
# Page 397
# 6 0111 +R1 R1D2 (15) R1D3 (14)
# 5 0110 -R1 R1D4 (13) R1D5 (12)
# 4 0101 +R2 R2D1 (11) R2D2 (10)
# 3 0100 -R2 R2D3 (7) R2D4 (6)
# 2 0011 R2D5 (5) R3D1 (4)
# 1 0010 +R3 R3D2 (3) R3D3 (2)
# 0 0001 -R3 R3D4 (1) R3D5 (0)
# 0000 NO RELAYWORD
#
# THE 5-BIT OUTPUT RELAY CODES ARE:
#
# BLANK 00000
# 0 10101
# 1 00011
# 2 11001
# 3 11011
# 4 01111
# 5 11110
# 6 11100
# 7 10011
# 8 11101
# 9 11111
#
# OUTPUT BITS USED BY PINBALL:
#
# KEY RELEASE LIGHT - BIT 5 OF CHANNEL 11
# VERB/NOUN FLASH - BIT 6 OF CHANNEL 11
# OPERATOR ERROR LIGHT - BIT 7 OF CHANNEL 11
## <b>Hint:</b> In the source code below, each of the blue operands to the
## right of the instruction opcodes is a hyperlink back to the definition
## of the symbol. This is particularly useful for tracing program flow.
# Page 398
# START OF EXECUTIVE SECTION OF PINBALL
BANK 40
SETLOC PINBALL1
BANK
COUNT* $$/PIN
CHARIN CAF ONE # BLOCK DISPLAY SYST
XCH DSPLOCK # MAKE DSP SYST BUSY, BUT SAVE OLD
TS 21/22REG # C(DSPLOCK) FOR ERROR LIGHT RESET.
CCS CADRSTOR # ALL KEYS EXCEPT ER TURN ON KR LITE IF
TC +2 # CADRSTOR IS FULL. THIS REMINDS OPERATOR
TC CHARIN2 # TO RE-ESTABLISH A FLASHING DISPLAY
CS ELRCODE1 # WHICH HE HAS OBSCURED WITH DISPLAYS OF
AD MPAC # HIS OWN (SEE REMARKS PRECEDING ROUTINE
EXTEND # VBRELDSP).
BZF CHARIN2
TC RELDSPON
CHARIN2 XCH MPAC
TS CHAR
INDEX A
TC +1 # INPUT CODE FUNCTION
TC CHARALRM # 0
TC NUM # 1
TC NUM # 2
TC NUM # 3
TC NUM # 4
TC NUM # 5
TC NUM # 6
TC NUM # 7
TC 89TEST # 10 8
TC 89TEST # 11 9
TC CHARALRM # 12
TC CHARALRM # 13
TC CHARALRM # 14
TC CHARALRM # 15
TC CHARALRM # 16
TC CHARALRM # 17
TC NUM -2 # 20 0
TC VERB # 21 VERB
TC ERROR # 22 ERROR LIGHT RESET
TC CHARALRM # 23
TC CHARALRM # 24
TC CHARALRM # 25
TC CHARALRM # 26
TC CHARALRM # 27
TC CHARALRM # 30
TC VBRELDSP # 31 KEY RELEASE
TC POSGN # 32 +
# Page 399
TC NEGSGN # 33 -
TC ENTERJMP # 34 ENTER
TC CHARALRM # 35
TC CLEAR # 36 CLEAR
TC NOUN # 37 NOUN
ELRCODE1 OCT 22
ENTERJMP TC POSTJUMP
CADR ENTER
89TEST CCS DSPCOUNT
TC +4 # +
TC +3 # +0
TC ENDOFJOB # - BLOCK DATA IN IF DSPCOUNT IS - OR -0
TC ENDOFJOB # -0
CAF THREE
MASK DECBRNCH
CCS A
TC NUM # IF DECBRNCH IS +, 8 OR 9 OK
TC CHARALRM # IF DECBRNCH IS +0, REJECT 8 OR 9
# NUM ASSEMBLES OCTAL 3 BITS AT A TIME. FOR DECIMAL IT CONVERTS INCOMING
# WORD AS A FRACTION, KEEPING RESULTS TO DP.
# OCTAL RESULTS ARE LEFT IN XREG, YREG, OR ZREG. HI PART OF DEC IN XREG,
# YREG, ZREG. THE LOW PARTS IN XREGLP, YREGLP, OR ZREGLP.
# DECBRNCH IS LEFT AT +0 FOR OCT, +1 FOR + DEC, +2 FOR - DEC.
# IF DSPCOUNT WAS LEFT -, NO MORE DATA IS ACCEPTED.
CAF ZERO
TS CHAR
NUM CCS DSPCOUNT
TC +4 # +
TC +3 # +0
TC +1 # -BLOCK DATA IN IF DSPCOUNT IS -
TC ENDOFJOB # -0
TC GETINREL
CCS CLPASS # IF CLPASS IS + OR +0, MAKE IT +0.
CAF ZERO
TS CLPASS
TC +1
INDEX CHAR
CAF RELTAB
MASK LOW5
TS CODE
CA DSPCOUNT
TS COUNT
TC DSPIN
CAF THREE
# Page 400
MASK DECBRNCH
CCS A # +0, OCTAL. +1, + DEC. +2, - DEC.
TC DECTOBIN # +
INDEX INREL # +0 OCTAL
XCH VERBREG
TS CYL
CS CYL
CS CYL
XCH CYL
AD CHAR
TC ENDNMTST
DECTOBIN INDEX INREL
XCH VERBREG
TS MPAC # SUM X 2EXP-14 IN MPAC
CAF ZERO
TS MPAC +1
CAF TEN # 10 X 2EXP-14
TC SHORTMP # 10SUM X 2EXP-28 IN MPAC, MPAC+1
XCH MPAC +1
AD CHAR
TS MPAC +1
TC ENDNMTST # NO OF
ADS MPAC # OF MUST BE 5TH CHAR
TC DECEND
ENDNMTST INDEX INREL
TS VERBREG
CS DSPCOUNT
INDEX INREL
AD CRITCON
EXTEND
BZF ENDNUM # -0, DSPCOUNT = CRITCON
TC MORNUM # - , DSPCOUNT G/ CRITCON
ENDNUM CAF THREE
MASK DECBRNCH
CCS A
TC DECEND
ENDALL CS DSPCOUNT # BLOCK NUMIN BY PLACING DSPCOUNT
TC MORNUM +1 # NEGATIVELY
DECEND CS ONE
AD INREL
EXTEND
BZMF ENDALL # IF INREL=0,1 (VBREG,NNREG) LEAVE WHOLE
TC DMP # IF INREL=2,3,4 (R1,R2,R3), CONVERT TO FRAC
# MULT SUM X 2EXP-28 IN MPAC, MPAC+1 BY
ADRES DECON # 2EXP14/10EXP5, GIVES (SUM/10EXP5)X2EXP-14
CAF THREE # IN MPAC, +1, +2.
MASK DECBRNCH
INDEX A
TC +0
TC +DECSGN
# Page 401
EXTEND # - CASE
DCS MPAC +1
DXCH MPAC +1
+DECSGN XCH MPAC +2
INDEX INREL
TS XREGLP -2
XCH MPAC +1
INDEX INREL
TS VERBREG
TC ENDALL
MORNUM CCS DSPCOUNT # DECREMENT DSPCOUNT
TS DSPCOUNT
TC ENDOFJOB
CRITCON OCT 22 # (DEC 18)
OCT 20 # (DEC 16)
OCT 12 # (DEC 10)
OCT 5
OCT 0
DECON 2DEC 1 E-5 B14 # 2EXP14/10EXP5 = .16384 DEC
# GETINREL GETS PROPER DATA REG REL ADDRESS FOR CURRENT C(DSPCOUNT) AND
# PUTS IN INTO INREL. +0 VERBREG, 1 NOUNREG, 2 XREG, 3 YREG, 4 ZREG.
GETINREL INDEX DSPCOUNT
CAF INRELTAB
TS INREL # (A TEMP. REG)
TC Q
INRELTAB OCT 4 # R3D5 (DSPCOUNT = 0)
OCT 4 # R3D4 =(1)
OCT 4 # R3D3 =(2)
OCT 4 # R3D2 =(3)
OCT 4 # R3D1 =(4)
OCT 3 # R2D5 =(5)
OCT 3 # R2D4 =(6)
OCT 3 # R2D3 =(7)
OCT 3 # R2D2 =(8D)
OCT 3 # R2D1 =(9D)
OCT 2 # R1D5 =(10D)
OCT 2 # R1D4 =(11D)
OCT 2 # R1D3 =(12D)
OCT 2 # R1D2 =(13D)
OCT 2 # R1D1 =(14D)
TC CCSHOLE # NO DSPCOUNT NUMBER = 15D
OCT 1 # ND2 =(16D)
OCT 1 # ND1 =(17D)
# Page 402
OCT 0 # VD2 =(18D)
OCT 0 # VD1 =(19D)
VERB CAF ZERO
TS VERBREG
CAF VD1
NVCOM TS DSPCOUNT
TC 2BLANK
CAF ONE
TS DECBRNCH # SET FOR DEC V/N CODE
CAF ZERO
TS REQRET # SET FOR ENTPAS0
CAF ENDINST # IF DSPALARM OCCURS BEFORE FIRST ENTPAS0
TS ENTRET # OR NVSUB, ENTRET MUST ALREADY BE SET
# TO TC ENDOFJOB
TC ENDOFJOB
NOUN CAF ZERO
TS NOUNREG
CAF ND1 # ND1, OCT 21 (DEC 17)
TC NVCOM
NEGSGN TC SIGNTEST
TC -ON
CAF TWO
BOTHSGN INDEX INREL # SET DEC COMP BIT TO 1 (IN DECBRNCH)
AD BIT7 # BIT 5 FOR R1. BIT 4 FOR R2.
ADS DECBRNCH # BIT 3 FOR R3.
FIXCLPAS CCS CLPASS # IF CLPASS IS + OR +0. MAKE IT +0.
CAF ZERO
TS CLPASS
TC +1
TC ENDOFJOB
POSGN TC SIGNTEST
TC +ON
CAF ONE
TC BOTHSGN
+ON LXCH Q
TC GETINREL
INDEX INREL
CAF SGNTAB -2
TS SGNOFF
AD ONE
TS SGNON
SGNCOM CAF ZERO
TS CODE
XCH SGNOFF
# Page 403
TC 11DSPIN
CAF BIT11
TS CODE
XCH SGNON
TC 11DSPIN
TC L
-ON LXCH Q
TC GETINREL
INDEX INREL
CAF SGNTAB -2
TS SGNON
AD ONE
TS SGNOFF
TC SGNCOM
SGNTAB OCT 5 # -R1
OCT 3 # -R2
OCT 0 # -R3
SIGNTEST LXCH Q # ALLOWS +,- ONLY WHEN DSPCOUNT=R1D1,
CAF THREE # R2D1, OR R3D1. ALLOWS ONLY FIRST OF
MASK DECBRNCH # CONSECUTIVE +/- CHARACTERS.
CCS A # IF LOW2 BITS OF DECBRNCH NOT= 0, SIGN
TC ENDOFJOB # FOR THIS WORD ALREADY IN. REJECT.
CS R1D1
TC SGNTST1
CS R2D1
TC SGNTST1
CS R3D1
TC SGNTST1
TC ENDOFJOB # NO MATCH FOUND. SIGN ILLEGAL
SGNTST1 AD DSPCOUNT
EXTEND
BZF +2 # MATCH FOUND
TC Q
TC L # SIGN LEGAL
# CLEAR BLANKS WHICH R1, R2, R3 IS CURRENT OR LAST TO BE DISPLAYED (PERTINENT
# XREG, YREG, ZREG IS CLEARED). SUCCESSIVE CLEARS TAKE CARE OF EACH RX
# L/ RC UNTIL R1 IS DONE. THEN NO FURTHER ACTION.
#
# THE SINGLE COMPONENT LOAD VERBS ALLOW ONLY THE SINGLE RC THAT IS
# APPROPRIATE TO BE CLEARED.
#
# CLPASS +0 PASS0, CAN BE BACKED UP
# +NZ HIPASS, CAN BE BACKED UP
# -NZ PASS0, CANNOT BE BACKED UP
# Page 404
CLEAR CCS DSPCOUNT
AD ONE
TC +2
AD ONE
INDEX A # DO NOT CHANGE DSPCOUNT BECAUSE MAY LATER
CAF INRELTAB # FAIL LEGALTST.
TS INREL # MUST SET INREL, EVEN FOR HIPASS.
CCS CLPASS
TC CLPASHI # +
TC +2 # +0 IF CLPASS IS +0 OR -, IT IS PASS0
TC +1 # -
CA INREL
TC LEGALTST
TC CLEAR1
CLPASHI CCS INREL
TS INREL
TC LEGALTST
CAF DOUBLK +2 # +3 TO - NUMBER, BACKS DATA REQUESTS.
ADS REQRET
CA INREL
TS MIXTEMP # TEMP STORAGE FOR INREL
EXTEND
DIM VERBREG # DECREMENT VERB AND RE-DISPLAY
TC BANKCALL
CADR UPDATVB
CA MIXTEMP
TS INREL # RESTORE INREL
CLEAR1 TC CLR5
INCR CLPASS # ONLY IF CLPASS IS + OR +0.
TC ENDOFJOB # SET FOR HIGHER PASS.
CLR5 LXCH Q # USES 5BLANK BUT AVOIDS ITS TC GETINREL
TC 5BLANK +2
LEGALTST AD NEG2
CCS A
TC Q # LEGAL INREL G/ 2
TC CCSHOLE
TC ENDOFJOB # ILLEGAL INREL=0,1
TC Q # LEGAL INREL=2
# 5BLANK BLANKS 5 CHAR DISPLAY WORD IN R1, R2, OR R3. IT ALSO ZEROES XREG,
# YREG, OR ZREG. PLACE ANY + DSPCOUNT NUMBER FOR PERTINENT RC INTO DSPCOUNT.
# DSPCOUNT IS LEFT SET TO LEFT MOST DSP NUMB FOR RC JUST BLANKED.
TS DSPCOUNT # NEEDED FOR BLANKSUB
5BLANK LXCH Q
TC GETINREL
CAF ZERO
INDEX INREL
TS VERBREG # ZERO X, Y, Z, REG.
# Page 405
INDEX INREL
TS XREGLP -2
TS CODE
INDEX INREL # ZERO PERTINENT DEC COMP BIT.
CS BIT7 # PROTECT OTHERS
MASK DECBRNCH
MASK BRNCHCON # ZERO LOW 2 BITS.
TS DECBRNCH
INDEX INREL
CAF SINBLANK -2 # BLANK ISOLATED CHAR SEPARATELY
TS COUNT
TC DSPIN
5BLANK1 INDEX INREL
CAF DOUBLK -2
TS DSPCOUNT
TC 2BLANK
CS TWO
ADS DSPCOUNT
TC 2BLANK
INDEX INREL
CAF R1D1 -2
TS DSPCOUNT # SET DSPCOUNT TO LEFT MOST DSP NUMBER
TC L # OF REG. JUST BLANKED
SINBLANK OCT 16 # DEC 14
OCT 5
OCT 4
DOUBLK OCT 15 # DEC 13
OCT 11 # DEC 9
OCT 3
BRNCHCON OCT 77774
# 2BLANK BLANKS TWO CHAR. PLACE DSP NUMBER OF LEFT CHAR OF THE PAIR INTO
# DSPCOUNT. THIS NUMBER IS LEFT IN DSPCOUNT
2BLANK CA DSPCOUNT
TS SR
CS BLANKCON
INHINT
INDEX SR
XCH DSPTAB
EXTEND
BZMF +2 # IF OLD CONTENTS -, NOUT OK
INCR NOUT # IF OLD CONTENTS +, +1 TO NOUT
RELINT # IF -, NOUT OK
TC Q
BLANKCON OCT 4000
# Page 406
# ENTER PASS 0 IS THE EXECUTE FUNCTION. HIGHER ORDER ENTERS ARE TO LOAD
# DATA. THE SIGN OF REQRET DETERMINES THE PASS, + FOR PASS 0, - FOR HIGHER
# PASSES.
#
# MACHINE CADR TO BE SPECIFIED (MCTBS) NOUNS DESIRE AN ECADR TO BE LOADED
# WHEN USED WITH LOAD VERBS, MONITOR VERBS, OR DISPLAY VERBS (EXCEPT
# VERB = FIXED MEMORY DISPLAY, WHICH REQUIRES AN FCADR).
BANK 41
SETLOC PINBALL2
BANK
COUNT* $$/PIN
NVSUBB TC NVSUB1 # STANDARD LEAD INS. DONT MOVE.
LOADLV1 TC LOADLV
# END OF STANDARD LEAD INS.
ENTER CAF ZERO
TS CLPASS
CAF ENDINST
TS ENTRET
CCS REQRET
TC ENTPAS0 # IF +, PASS 0
TC ENTPAS0 # IF +, PASS 0
TC +1 # IF -, NOT PASS 0
ENTPASHI CAF MMADREF
AD REQRET # IF L/ 2 CHAR IN FOR MM CODE, ALARM
EXTEND # AND RECYCLE (DECIDE AT MMCHANG+1).
BZF ACCEPTWD
CAF THREE # IF DEC, ALARM IF L/ 5 CHAR IN FOR DATA,
MASK DECBRNCH # BUT LEAVE REQRET - AND FLASH ON, SO
CCS A # OPERATOR CAN SUPPLY MISSING NUMERICAL
TC +2 # CHARACTERS AND CONTINUE.
TC ACCEPTWD # OCTAL. ANY NUMBER OF CHAR OK.
CCS DSPCOUNT
TC GODSPALM # LESS THAN 5 CHAR DEC(DSPCOUNT IS +)
TC GODSPALM # LESS THAN 5 CHAR DEC(DSPCOUNT IS +)
TC +1 # 5 CHAR IN (DSPCOUNT IS -)
ACCEPTWD CS REQRET # 5 CHAR IN (DSPCOUNT IS -)
TS REQRET # SET REQRET +.
TC FLASHOFF
TC REQRET
ENTEXIT = ENTRET
MMADREF ADRES MMCHANG +1 # ASSUMES TC REQMM AT MMCHANG.
# Page 407
LOWVERB DEC 28 # LOWER VERB THAT AVOIDS NOUN TEST.
ENTPAS0 CAF ZERO # NOUN VERB SUB ENTERS HERE
TS DECBRNCH
CS VD1 # BLOCK FURTHER NUM CHAR, SO THAT STRAY
TS DSPCOUNT # CHAR DO NOT GET INTO VERB OR NOUN LTS.
TESTVB CS VERBREG # IF VERB IS G/E LOWVB, SKIP NOUN TEST.
TS VERBSAVE # SAVE VERB FOR POSSIBLE RECYCLE.
AD LOWVERB # LOWVERB - VB
EXTEND
BZMF VERBFAN # VERB G/ E LOWVERB
TESTNN EXTEND # VERB L/ LOWVERB
DCA LODNNLOC # SWITCH BANKS TO NOUN TABLE READING
DXCH Z # ROUTINE.
INDEX MIXBR
TC +0
TC +2 # NORMAL
TC MIXNOUN # MIXED
CCS NNADTEM # NORMAL
TC VERBFAN -2 # NORMAL IF +
TC GODSPALM # NOT IN USE IF +0
TC REQADD # SPECIFY MACHINE CADR IF -
INCR NOUNCADR # AUGMENT MACHINE CADR IF -0
TC SETNADD # ECADR FROM NOUNCADR, SETS EB, NOUNADD.
TC INTMCTBS +2
REQADD CAF BIT15 # SET CLPASS FOR PASS 0 ONLY
TS CLPASS
CS ENDINST # TEST IF REACHED HERE FROM INTERNAL OR
AD ENTEXIT # FROM EXTERNAL
EXTEND
BZF +2 # EXTERNAL MACH CADR TO BE SPECIFIED
TC INTMCTBS
TC REQDATZ # EXTERNAL MACH CADR TO BE SPECIFIED
CCS DECBRNCH # ALARM AND RECYCLE IF DECIMAL USED
TC ALMCYCLE # FOR MCTBS.
CS VD1 # OCTAL USED OK
TS DSPCOUNT # BLOCK NUM CHAR IN
CCS CADRSTOR
TC +3 # EXTERNAL MCTBS DISPLAY WILL LEAVE FLASH
TC USEADD # ON IF ENDIDLE NOT = +0.
TC +1
TC FLASHON
USEADD XCH ZREG
TC SETNCADR # ECADR INTO NOUNCADR. SET EB, NOUNADD.
EXTEND
DCA LODNNLOC # SWITCH BANKS TO NOUN TABLE READING
DXCH Z # ROUTINE.
TC VERBFAN
EBANK= DSPCOUNT
# Page 408
LODNNLOC 2CADR LODNNTAB
NEG5 OCT 77772
INTMCTBS CA MPAC +2 # INTERNAL MACH CADR TO BE SPECIFIED.
TC SETNCADR # ECADR INTO NOUNCADR. SET EB. NOUNADD.
CS FIVE # NVSUB CALL LEFT CADR IN MPAC+2 FOR MACH
AD VERBREG # CADR TO BE SPECIFIED.
EXTEND
BZF VERBFAN # DONT DISPLAY CADR IF VB = 05.
CAF R3D1 # VB NOT = 05. DISPLAY CADR.
TS DSPCOUNT
CA NOUNCADR
TC DSPOCTWO
TC VERBFAN
AD ONE
TC SETNCADR # ECADR INTO NOUNCADR. SETS EB, NOUNADD.
VERBFAN CS LST2CON
AD VERBREG # VERB = LST2CON
CCS A
AD ONE # VERB G/ LST2CON
TC +2
TC VBFANDIR # VERB L/ LST2CON
TS MPAC
TC RELDSP # RELEASE DISPLAY SYST
TC POSTJUMP # GO TO GOEXTVB WITH VB=40 IN MPAC.
CADR GOEXTVB
LST2CON DEC 40 # FIRST LIST2 VERB (EXTENDED VERB)
VBFANDIR INDEX VERBREG
CAF VERBTAB
TC BANKJUMP
VERBTAB CADR GODSPALM # VB00 ILLEGAL
CADR DSPA # VB01 DISPLAY OCT COMP 1 (R1)
CADR DSPB # VB02 DISPLAY OCT COMP 2 (R1)
CADR DSPC # VB03 DISPLAY OCT COMP 3 (R1)
CADR DSPAB # VB04 DISPLAY OCT COMP 1,2 (R1,R2)
CADR DSPABC # VB05 DISPLAY OCT COMP 1,2,3 (R1,R2,R3)
CADR DECDSP # VB06 DECIMAL DISPLAY
CADR DSPDPDEC # VB07 DP DECIMAL DISPLAY (R1,R2)
CADR GODSPALM # VB08 SPARE
CADR GODSPALM # VB09 SPARE
CADR DSPALARM # VB10 SPARE
CADR MONITOR # VB11 MONITOR OCT COMP 1 (R1)
CADR MONITOR # VB12 MONITOR OCT COMP 2 (R1)
CADR MONITOR # VB13 MONITOR OCT COMP 3 (R1)
CADR MONITOR # VB14 MONITOR OCT COMP 1,2 (R1,R2)
# Page 409
CADR MONITOR # VB15 MONITOR OCT COMP 1,2,3 (R1,R2,R3)
CADR MONITOR # VB16 MONITOR DECIMAL
CADR MONITOR # VB17 MONITOR DP DEC (R1,R2)
CADR GODSPALM # VB18 SPARE
CADR GODSPALM # VB19 SPARE
CADR GODSPALM # VB20 SPARE
CADR ALOAD # VB21 LOAD COMP 1 (R1)
CADR BLOAD # VB22 LOAD COMP 2 (R2)
CADR CLOAD # VB23 LOAD COMP 3 (R3)
CADR ABLOAD # VB24 LOAD COMP 1,2 (R1,R2)
CADR ABCLOAD # VB25 LOAD COMP 1,2,3 (R1,R2,R3)
CADR GODSPALM # VB26 SPARE
CADR DSPFMEM # VB27 FIXED MEMORY DISPLAY
# THE FOLLOWING VERBS MAKE NO NOUN TEST
CADR GODSPALM # VB28 SPARE
CADR GODSPALM # VB29 SPARE
REQEXLOC CADR VBRQEXEC # VB30 REQUEST EXECUTIVE
CADR VBRQWAIT # VB31 REQUEST WAITLIST
CADR VBRESEQ # VB32 RESEQUENCE
CADR VBPROC # VB33 PROCEED WITHOUT DATA
CADR VBTERM # VB34 TERMINATE CURRENT TEST OR LOAD REQ
CADR VBTSTLTS # VB35 TEST LIGHTS
CADR SLAP1 # VB36 FRESH START
CADR MMCHANG # VB37 CHANGE MAJOR MODE
CADR GODSPALM # VB38 SPARE
CADR GODSPALM # VB39 SPARE
# THE LIST2 VERBFAN IS LOCATED IN THE EXTENDED VERB BANK.
# Page 410
# NNADTAB CONTAINS A RELATIVE ADDRESS, IDADDREL (IN LOW 10 BITS), REFERRING
# TO WHERE 3 CONSECUTIVE ADDRESSES ARE STORED (IN IDADDTAB).
# MIXNOUN GETS DATA AND STORES IN MIXTEMP,+1,+2. IT SETS NOUNADD FOR
# MIXTEMP.
MIXNOUN CCS NNADTEM
TC +4 # + IN USE
TC GODSPALM # +0 NOT IN USE
TC +2 # - IN USE
TC +1 # -0 IN USE
CS SIX
AD VERBREG
EXTEND
BZMF +2 # VERB L/E 6
TC VERBFAN # AVOID MIXNOUN SWAP IF VB NOT = DISPLAY
CAF TWO
MIXNN1 TS DECOUNT
AD MIXAD
TS NOUNADD # SET NOUNADD TO MIXTEMP + K
INDEX DECOUNT # GET IDADDTAB ENTRY FOR COMPONENT K
CA IDAD1TEM # OF NOUN.
TS NOUNTEM
# TEST FOR DP (FOR OCT DISPLAY). IF SO, GET
# MINOR PART ONLY.
TC SFRUTMIX # GET SF ROUT NUMBER IN A
TC DPTEST
TC MIXNN2 # NO DP
INCR NOUNTEM # DP GET MINOR PART
MIXNN2 CA NOUNTEM
MASK LOW11 # ESUBK (NO DP) OR (ESUBK)+1 (garbled) FOR DP
TC SETEBANK # SET EBANK, LEAVE EADRES IN A.
INDEX A # PICK UP C(ESUBK) NOT DP
CA 0 # OR C((ESUBK)+1) FOR DP MINOR PART
INDEX NOUNADD
XCH 0 # STORE IN MIXTEM + K
CCS DECOUNT
TC MIXNN1
TC VERBFAN
MIXAD TC MIXTEMP
# DPTEST ENTER WITH SF ROUT NUMBER IN A.
# RETURNS TO L+1 IF NO DP.
# RETURNS TO L+2 IF DP.
DPTEST INDEX A
TCF +1
TC Q # OCTAL ONLY NO DP
TC Q # FRACT NO DP
# Page 411
TC Q # DEG NO DP
TC Q # ARITH NO DP
TCF DPTEST1 # DP1OUT
TCF DPTEST1 # DP2OUT
TC Q # LRPOSOUT NO DP (DATA IN CHANNEL 33)
TCF DPTEST1 # DP3OUT
TC Q # HMS NO DP
TC Q # M/S NO DP
TCF DPTEST1 # DP4OUT
TC Q # ARITH1 NO DP
TC Q # 2INTOUT NO DP TO GET HI PART IN MPAC
TC Q # 360-CDU NO DP
DPTEST1 INDEX Q
TC 1 # RETURN TO L+2
REQDATX CAF R1D1
TCF REQCOM
REQDATY CAF R2D1
TCF REQCOM
REQDATZ CAF R3D1
REQCOM TS DSPCOUNT
CS Q
TS REQRET
TC BANKCALL
CADR 5BLANK
TC FLASHON
ENDRQDAT TC ENTEXIT
TS NOUNREG
UPDATNN XCH Q
TS UPDATRET
EXTEND
DCA LODNNLOC # SWITCH BANKS TO NOUN TABLE READING
DXCH Z # ROUTINE.
CCS NNADTEM
AD ONE # NORMAL
TCF PUTADD
TCF PUTADD +1 # MCTBS DONT CHANGE NOUNADD
TCF PUTADD +1 # MCTBI DONT CHANGE NOUNADD
PUTADD TC SETNCADR # ECADR INTO NOUNCADR. SETS EB. NOUNADD.
CAF ND1
TS DSPCOUNT
CA NOUNREG
TCF UPDAT1
TS VERBREG
UPDATVB XCH Q
TS UPDATRET
CAF VD1
# Page 412
TS DSPCOUNT
CA VERBREG
UPDAT1 TC POSTJUMP # CANT USE SWCALL TO GO TO DSPDECVN, SINCE
CADR GOVNUPDT # UPDATVB CAN ITSELF BE CALLED BY SWCALL.
TC UPDATRET
GOALMCYC TC ALMCYCLE # NEEDED BECAUSE BANKJUMP CANT HANDLE F/F.
GODSPALM TC POSTJUMP
CADR DSPALARM
# Page 413
# NOUN TABLES
#
# NOUN CODE L/40, NORMAL NOUN CASE. NOUN CODE G/E 40, MIXED NOUN CASE.
# FOR NORMAL CASE, NNADTAB CONTAINS ONE ECADR FOR EACH NOUN.
# +0 INDICATES NOUN NOT USED. - ENTRY INDICATES MACHINE CADR (E OR F) TO
# BE SPECIFIED. -1 INDICATES CHANNEL TO BE SPECIFIED. -0 INDICATES AUGMENT
# OF LAST MACHINE CADR SUPPLIED.
#
# FOR MIXED CASE, NNADTAB CONTAINS ONE INDIRECT ADDRESS (IDADDREL) IN LOW
# 10 BITS, AND THE COMPONENT CODE NUMBER IN THE HIGH 5 BITS.
#
# NNTYPTAB IS A PACKED TABLE OF THE FORM MMMMMNNNNNPPPPP.
#
# FOR THE NORMAL CASE, M'S ARE THE COMPONENT CODE NUMBER.
# N'S ARE THE SF ROUTINE CODE NUMBER.
# P'S ARE THE SF CONSTANT CODE NUMBER.
#
# MIXED-CASE, M'S ARE THE SF CONSTANT3 CODE NUMBER 3 COMPONENT CASE
# N'S ARE THE SF CONSTANT2 CODE NUMBER
# P'S ARE THE SF CONSTANT1 CODE NUMBER
# N'S ARE THE SF CONSTANT2 CODE NUMBER 2 COMPONENT CASE
# P'S ARE THE SF CONSTANT1 CODE NUMBER
# P'S ARE THE SF CONSTANT1 CODE NUMBER 1 COMPONENT CASE
#
# THERE IS ALSO AN INDIRECT ADDRESS TABLE (IDADDTAB) FOR MIXED CASE ONLY.
# EACH ENTRY CONTAINS ONE ECADR. IDADDREL IS THE RELATIVE ADDRESS OF
# THE FIRST OF THESE ENTRIES.
#
# THERE IS ALSO A SCALE FACTOR ROUTINE NUMBER TABLE (RUTMXTAB) FOR MIXED
# CASE ONLY. THERE IS ONE ENTRY PER MIXED NOUN. THE FORM IS,
#
# QQQQQRRRRRSSSSS
#
# Q'S ARE THE SF ROUTINE 3 CODE NUMBER 3 COMPONENT CASE
# R'S ARE THE SF ROUTINE 2 CODE NUMBER
# S'S ARE THE SF ROUTINE 1 CODE NUMBER
# R'S ARE THE SF ROUTINE 2 CODE NUMBER 2 COMPONENT CASE
# S'S ARE THE SF ROUTINE 1 CODE NUMBER
#
# IN OCTAL DISPLAY AND LOAD (OCT OR DEC) VERBS, EXCLUDE USE OF VERBS WHOSE
# COMPONENT NUMBER IS GREATER THAN THE NUMBER OF COMPONENTS IN NOUN.
# (ALL MACHINE ADDRESS TO BE SPECIFIED NOUNS ARE 3 COMPONENT.)
#
# IN MULTI-COMPONENT LOAD VERBS, NO MIXING OF OCTAL AND DECIMAL DATA
# COMPONENT WORDS IS ALLOWED. ALARM IF VIOLATION.
#
# IN DECIMAL LOADS OF DATA, 5 NUMERICAL CHARACTERS MUST BE KEYED IN
# BEFORE EACH ENTER. IF NOT, ALARM.
# Page 414
# DISPLAY VERBS
DSPABC CS TWO
TC COMPTEST
INDEX NOUNADD
CS 2
XCH BUF +2
DSPAB CS ONE
TC COMPTEST
INDEX NOUNADD
CS 1
XCH BUF +1
DSPA TC DECTEST
TC TSTFORDP
INDEX NOUNADD
CS 0
DSPCOM1 XCH BUF
TC DSPCOM2
DSPB CS ONE
TC DCOMPTST
INDEX NOUNADD
CS 1
TC DSPCOM1
DSPC CS TWO
TC DCOMPTST
INDEX NOUNADD
CS 2
TC DSPCOM1
DSPCOM2 CS TWO # A B C AB ABC
AD VERBREG # -1 -0 +1 +2 +3 IN A
CCS A # +0 +0 +0 +1 +2 IN A AFTER CCS
TC DSPCOM3
TC ENTEXIT
TC +1
DSPCOM3 TS DISTEM # +0 +1 +2 INTO DISTEM
INDEX A
CAF R1D1
TS DSPCOUNT
INDEX DISTEM
CS BUF
TC DSPOCTWO
XCH DISTEM
TC DSPCOM2 +2
# COMPTEST ALARMS IF COMPONENT NUMBER OF VERB (LOAD OR OCT DISPLAY) IS
# GREATER THAN THE HIGHEST COMPONENT NUMBER OF NOUN.
COMPTEST TS SFTEMP1 # VERB COMP
LXCH Q
COMPTST1 TC GETCOMP
TC LEFT5
MASK THREE # NOUN COMP
# Page 415
AD SFTEMP1 # NOUN COMP = VERB COMP
CCS A
TC L # NOUN COMP G/ VERB COMP
TC CCSHOLE
TC GODSPALM # NOUN COMP L/ VERB COMP
NDCMPTST TC L # NOUN COMP = VERB COMP
# DCOMPTST ALARMS IF DECIMAL ONLY BIT (BIT4 OF COMP CODE NUMBER) = 1.
# IF NOT, IT PERFORMS REGULAR COMPTEST.
DCOMPTST TS SFTEMP1 # - VERB COMP
LXCH Q
TC DECTEST
TC COMPTST1
DECTEST EXTEND # ALARMS IF DEC ONLY BIT = 1 (BIT4 OF COMP
QXCH MPAC +2 # CODE NUMBER). RETURNS IF NOT.
TC GETCOMP
MASK BIT14
CCS A
TC GODSPALM
TC MPAC +2
DCTSTCYC LXCH Q # ALARMS AND RECYCLES IF DEC ONLY BIT = 1
TC GETCOMP # (BIT4 OF COMP CODE NUMBER). RETURNS
MASK BIT14 # IF NOT. USED BY LOAD VERBS.
CCS A
TC ALMCYCLE
TC L
# NOUNTEST ALARMS IF NO-LOAD BIT (BIT5 OF COMP CODE NUMBER) = 1.
# IF NOT, IT RETURNS.
NOUNTEST LXCH Q
TC GETCOMP
CCS A
TC L
TC L
TC GODSPALM
TSTFORDP LXCH Q # TEST FOR DP. IF SO, GET MINOR PART ONLY.
CA NNADTEM
AD ONE # IF NNADTEM = -1, CHANNEL TO BE SPECIFIED
EXTEND
BZF CHANDSP
INDEX MIXBR
TC +0
TC +2 # NORMAL
# Page 416
TC L # MIXED CASE ALREADY HANDLED IN MIXNOUN
TC SFRUTNOR
TC DPTEST
TC L # NO DP
INCR NOUNADD # DP E+1 INTO NOUNADD FOR MINOR PART.
TC L
CHANDSP CA NOUNCADR
MASK LOW9
EXTEND
INDEX A
READ 0
CS A
TCF DSPCOM1
COMPICK ADRES NNTYPTEM
ADRES NNADTEM
GETCOMP INDEX MIXBR # NORMAL MIXED
CAF COMPICK -1 # ADRES NNTYPTEM ADRES NNADTEM
INDEX A
CA 0 # C(NNTYPTEM) C(NNADTEM)
MASK HI5 # GET HI5 OF NNTYPTAB (NORM) OF NNADTAB (MIX)
TC Q
DECDSP TC GETCOMP
TC LEFT5
MASK THREE
TS DECOUNT # COMP NUMBER INTO DECOUNT
DSPDCGET TS DECTEM # PICKS UP DATA
AD NOUNADD # DECTEM 1COMP +0, 2COMP +1, 3COMP +2
INDEX A
CS 0
INDEX DECTEM
XCH XREG # CANT USE BUF SINCE DMP USES IT.
CCS DECTEM
TC DSPDCGET # MORE TO GET
DSPDCPUT CAF ZERO # DISPLAYS DATA
TS MPAC +1 # DECOUNT 1COMP +0, 2COMP +1, 3COMP +2
TS MPAC +2
INDEX DECOUNT
CAF R1D1
TS DSPCOUNT
INDEX DECOUNT
CS XREG
TS MPAC
TC SFCONUM # 2X (SF CON NUMB) IN A
# Page 417
TS SFTEMP1
EXTEND # SWITCH BANKS TO SF CONSTANT TABLE
DCA GTSFOUTL # READING ROUTINE.
DXCH Z # LOADS SFTEMP1, SFTEMP2
INDEX MIXBR
TC +0
TC DSPSFNOR
TC SFRUTMIX
TC DECDSP3
DSPSFNOR TC SFRUTNOR
TC DECDSP3
EBANK= DSPCOUNT
GTSFOUTL 2CADR GTSFOUT
DSPDCEND TC BANKCALL # ALL SFOUT ROUTINES END HERE
CADR DSPDECWD
CCS DECOUNT
TC +2
TC ENTEXIT
TS DECOUNT
TC DSPDCPUT # MORE TO DISPLAY
DECDSP3 INDEX A
CAF SFOUTABR
TC BANKJUMP
SFOUTABR CADR PREDSPAL # ALARM IF DEC DISP WITH OCTAL ONLY NOUN
CADR DSPDCEND
CADR DEGOUTSF
CADR ARTOUTSF
CADR DP1OUTSF
CADR DP2OUTSF
CADR LRPOSOUT
CADR DP3OUTSF
CADR HMSOUT
CADR M/SOUT
CADR DP2OUTSF
CADR AROUT1SF
CADR 2INTOUT
CADR 360-CDUO
ENDRTOUT EQUALS
# THE FOLLOWING IS A TYPICAL SF ROUTINE. IT USES MPAC. LEAVES RESULTS
# IN MPAC, MPAC+1. ENDS WITH TC DSPDCEND
# Page 418
SETLOC BLANKCON +1
COUNT* $$/PIN
# DEGOUTSF SCALES BY .18 THE LOW 14 BITS OF ANGLE, ADDING .18 FOR
# NUMBERS IN THE NEGATIVE (AGC) RANGE.
DEGOUTSF CAF ZERO
TS MPAC +2 # SET INDEX FOR FULL SCALE.
TC FIXRANGE
TC +2 # NO AUGMENT NEEDED (SFTEMP1 AND 2 ARE 0)
TC SETAUG # SET AUGMENTER ACCORDING TO C(MPAC +2)
TC DEGCOM
# 360-CDUD COMPUTES 360 - CDU ANGLE IN MPAC, STORES RESULT IN MPAC AND
# GOES TO DEGOUTSF.
360-CDUO TC 360-CDU
TC DEGOUTSF
360-CDU CA MPAC
MASK POSMAX # IF ANGLE IS 0 OR 180 DEGREES, DO NOTHING
EXTEND
BZF 360-CDUE
CS MPAC # COMPUTE 360 DEGREES MINUS ANGLE
AD ONE
TS MPAC
360-CDUE TC Q
# LRPOSOUT DISPLAYS +0,1,2, OR 3 (WHOLE) FOR CHANNEL 33, BITS 7-6 = 11,10,
# 01,00 RESPECTIVELY
LRPOSOUT EXTEND
READ CHAN33
EXTEND
MP BIT10 # BITS 7-6 TO BITS 2-1
COM
MASK THREE
TS MPAC
TC ARTOUTSF # DISPLAY AS WHOLE
SETAUG EXTEND # LOADS SFTEMP1 AND SFTEMP2 WITH THE
INDEX MPAC +2 # DP AUGMENTER CONSTANT
DCA DEGTAB
DXCH SFTEMP1
TC Q
FIXRANGE CCS MPAC # IF MPAC IS + RETURN TO L+1
TC Q # IF MPAC IS - RETURN TO L+2 AFTER
TC Q # MASKING OUT THE SIGN BIT
TCF +1
# Page 419
CS BIT15
MASK MPAC
TS MPAC
INDEX Q
TC 1
DEGCOM EXTEND # LOADS MULTIPLIER, DOES SHORTMP, AND
INDEX MPAC +2 # ADDS AUGMENTER.
DCA DEGTAB
DXCH MPAC # ADJUSTED ANGLE IN A
TC SHORTMP
DXCH SFTEMP1
DAS MPAC
TC SCOUTEND
DEGTAB OCT 05605 # HI PART OF .18
OCT 03656 # LOW PART OF .18
OCT 16314 # HI PART OF .45
OCT 31463 # LO PART OF .45
ARTOUTSF DXCH SFTEMP1 # ASSUMES POINT AT LEFT OF DP SFCON
DXCH MPAC
TC PRSHRTMP # IF C(A) = -0, SHORTMP FAILS TO GIVE -0.
SCOUTEND TC POSTJUMP
CADR DSPDCEND
AROUT1SF DXCH SFTEMP1 # ASSUMES POINT BETWEEN HI AND LO PARTS OF
DXCH MPAC # DP SFCON. SHIFTS RESULTS LEFT 14, BY
TC PRSHRTMP # TAKING RESULTS FROM MPAC+1, MPAC+2.
TC L14/OUT
DP1OUTSF TC DPOUT # SCALES MPAC, MPAC +1 BY DP SCALE FACTOR
L14/OUT XCH MPAC +2 # IN SFTEMP1, SFTEMP2. THEN SCALE RESULT
XCH MPAC +1 # BY B14
TS MPAC
TC SCOUTEND
DP2OUTSF TC DPOUT # SCALES MPAC, MPAC +1 BY DP SCALE FACTOR
TC SCOUTEND
DP3OUTSF TC DPOUT # ASSUMES POINT BETWEEN BITS 7-8 OF HIGH
CAF SIX # LEFT BY 7, ROUNDS MPAC+2 INTO MPAC+1.
TC TPLEFTN # SHIFT LEFT 7.
TC SCOUTEND
# Page 420
MPAC+6 = MPAC +6 # USE MPAC +6 INSTEAD OF OVFIND
DPOUT XCH Q
TS MPAC+6
TC READLO # GET FRESH DATA FOR BOTH HI AND LO.
TC TPAGREE # MAKE DP DATA AGREE
TC DMP
ADRES SFTEMP1
TC MPAC+6
# THE FOLLOWING ROUTINE DISPLAYS TWO CONTIGUOUS SP POSITIVE INTEGERS
# AS TWO POSITIVE DECIMAL INTEGERS IN RXD1-RXD2 AND RXD4-RXD5 (RXD3 IS
# BLANKED). THE INTEGER IN THE LOWER NUMBERED ADDRESS IS DISPLAYED IN
# RXD1-RXD2.
2INTOUT TC 5BLANK # TO BLANK RXD3
TC +ON # TURN ON + SIGN
CA MPAC
TC DSPDECVN # DISPLAY 1ST INTEGER (LIKE VERB AND NOUN)
CS THREE
INDEX DECOUNT
AD R1D1 # RXD4
TS DSPCOUNT
TC READLO # GET 2ND INTEGER
CA MPAC +1
TC DSPDECVN # DISPLAY 2ND INTEGER (LIKE VERB AND NOUN)
TC POSTJUMP
CADR DSPDCEND +2
# READLO PICKS UP FRESHDATA FOR BOTH HI AND LO AND LEAVES IT IN
# MPAC, MPAC+1. THIS IS NEEDED FOR TIME DISPLAY. IT ZEROES MPAC+2, BUT
# DOES NOT FORCE TPAGREE.
READLO XCH Q
TS TEM4
INDEX MIXBR
TC +0
TC RDLONOR
INDEX DECOUNT
CA IDAD1TEM # GET IDADDTAB ENTRY FOR COMP K OF NOUN.
MASK LOW11 # E SUBK
TC SETEBANK # SET EB, LEAVE EADRES IN A.
READLO1 EXTEND # MIXED NORMAL
INDEX A # C(ESUBK) C(E)
DCA 0 # C(E SUBK)+1) C(E+1)
DXCH MPAC
CAF ZERO
TS MPAC +2
TC TEM4
# Page 421
RDLONOR CA NOUNADD # E
ENDRDLO TC READLO1
BANK 42
SETLOC PINBALL3
BANK
COUNT* $$/PIN
HMSOUT TC BANKCALL # READ FRESH DATA FOR HI AND LO INTO MPAC,
CADR READLO # MPAC+1.
TC TPAGREE # MAKE DP DATA AGREE.
TC SEPSECNR # LEAVE FRACT SEC/60 IN MPAC, MPAC+1. LEAVE
# WHOLE MIN IN BIT13 OF LOTEMOUT AND ABOVE
TC DMP # USE ONLY FRACT SEC/60 MOD 60
ADRES SECON2 # MULT BY .06
CAF R3D1 # GIVES CENTI-SEC/10EXP5 MOD 60
TS DSPCOUNT
TC BANKCALL # DISPLAY SEC MOD 60
CADR DSPDECWD
TC SEPMIN # REMOVE REST OF SECONDS
CAF MINCON2 # LEAVE FRACT MIN/60 IN MPAC+1. LEAVE
XCH MPAC # WHOLE HOURS IN MPAC.
TS HITEMOUT # SAVE WHOLE HOURS.
CAF MINCON2 +1
XCH MPAC +1 # USE ONLY FRACT MIN/60 MOD 60
TC PRSHRTMP # IF C(A) = -0, SHORTMP FAILS TO GIVE -0.
# MULT BY .0006
CAF R2D1 # GIVE MIN/10EXP5 MOD 60
TS DSPCOUNT
TC BANKCALL # DISPLAY MIN MOD 60
CADR DSPDECWD
EXTEND # MINUTES, SECONDS HAVE BEEN REMOVED
DCA HRCON1
DXCH MPAC
CA HITEMOUT # USE WHOLE HOURS
TC PRSHRTMP # IF C(A) = -0, SHORTMP FAILS TO GIVE -0.
# MULT BY .16384
CAF R1D1 # GIVES HOURS/10EXP5
TS DSPCOUNT
TC BANKCALL # USE REGULAR DSPDECWD, WITH ROUND OFF.
CADR DSPDECWD
TC ENTEXIT
SECON1 2DEC* 1.666666666 E-4 B12* # 2EXP12/6000
SECON2 OCT 01727 # .06 FOR SECONDS DISPLAY
OCT 01217
MINCON2 OCT 00011 # .0006 FOR MINUTES DISPLAY
OCT 32445
# Page 422
MINCON1 OCT 02104 # .066..66 UPPED BY 2EXP-28
OCT 10422
HRCON1 2DEC .16384
OCT 00000
RNDCON OCT 00062 # .5 SEC
M/SOUT TC BANKCALL # READ FRESH DATA FOR HI AND LO INTO MPAC.
CADR READLO # MPAC+1.
TC TPAGREE # MAKE DP DATA AGREE
CCS MPAC # IF MAG OF (MPAC, MPAC+1) G/ 59 M 59 S.
TC +2 # DISPLAY 59B59, WITH PROPER SIGN.
TC M/SNORM # MPAC = +0. L/ 59M58.5S
AD M/SCON1 # - HI PART OF (59M58.5S) +1 FOR CCS
CCS A # MAG OF MPAC - HI PART OF (59M58.5S)
TC M/SLIMIT # G/ 59M58.5S
TC M/SNORM # ORIGINAL MPAC = -0. L/ 59M58.5S
TC M/SNORM # L/ 59M58.5S
CCS MPAC +1 # MAG OF MPAC = HI PART OF 59M58.5S
TC +2
TC M/SNORM # MPAC+1 = +0. L/ 59M58.5S
AD M/SCON2 # - LO PART OF (59M58.5S) +1 FOR CCS
CCS A # MAG OF MPAC+1 - LO PART OF (59M58.5S)
TC M/SLIMIT # G/ 59M58.5S
TC M/SNORM # ORIGINAL MPAC+1 = -0. L/ 59M58.5S
TC M/SNORM # L/ 59M58.5S
M/SLIMIT CCS MPAC # = 59M58.5S LIMIT
CAF M/SCON3 # MPAC CANNOT BE +/- 0 AT THIS POINT.
TC +LIMIT # FORCE MPAC, MPAC+1 TO +/- 59M59.5S
CS M/SCON3
TS MPAC # WILL DISPLAY 59M59S IN DSPDECNR
CS M/SCON3 +1
LIMITCOM TS MPAC +1
CAF NORMADR # SET RETURN TO M/SNORM+1.
TC SEPSECNR +1
+LIMIT TS MPAC
CAF M/SCON3 +1
TC LIMITCOM
M/SNORM TC SEPSEC # LEAVE FRACT SEC/60 IN MPAC,MPAC+1. LEAVE
# WHOLE MIN IN BIT13 OF LOTEMOUT AND ABOVE
CAF HISECON # USE ONLY FRACT SEC/60 MOD 60
TC SHORTMP # MULT BY .6 + 2EXP-14
CS THREE # GIVES SEC/100 MOD 60
ADS DSPCOUNT # DSPCOUNT ALREADY SET TO RXD1
TC BANKCALL # DISPLAY SEC MOD 60 IN D4D5.
CADR DSPDC2NR
CAF ZERO
TS CODE
CS TWO
# Page 423
INDEX DECOUNT
AD R1D1 # RXD3
TS COUNT
TC BANKCALL # BLANK MIDDLE CHAR
CADR DSPIN
TC SEPMIN # REMOVE REST OF SECONDS
XCH MPAC +1 # LEAVE FRACT MIN/60 IN MPAC+1
EXTEND # USE ONLY FRACT MIN/60 MOD 60
MP HIMINCON # MULT BY .6 + 2EXP-7
DXCH MPAC # GIVES MIN/100 MOD 60
INDEX DECOUNT
CAF R1D1 # RXD1
TS DSPCOUNT
TC BANKCALL # DISPLAY MIN MOD 60 IN D1D2.
CADR DSPDC2NR
TC POSTJUMP
CADR DSPDCEND +2
HISECON OCT 23147 # .6 + 2EXP-14
HIMINCON OCT 23346 # .6 + 2EXP-7
M/SCON1 OCT 77753 # - HI PART OF (59M58.5S) +1
M/SCON2 OCT 41126 # - LO PART OF (59M58.5S) +1
NORMADR ADRES M/SNORM +1
M/SCON3 OCT 00025 # 59M 59.5S
OCT 37016
SEPSEC CCS MPAC +1 # IF +, ROUND BY ADDING .5 SEC
TCF POSEC # IF -, ROUND BY SUBTRACING .5 SEC
TCF POSEC # FINDS TIME IN MPAC, MPAC+1
TCF +1 # ROUNDS OFF BY +/- .5 SEC
EXTEND # LEAVES WHOLE MIN IN BIT13 OF
DCS RNDCON -1 # LOTEMOUT AND ABOVE.
SEPSEC1 DAS MPAC # LEAVES FRACT SEC/60 IN MPAC, MPAC+1.
TCF SEPSECNR
POSEC EXTEND
DCA RNDCON -1
TCF SEPSEC1
SEPSECNR XCH Q # THIS ENTRY AVOIDS ROUNDING BY .5 SEC
TS SEPSCRET
TC DMP # MULT BY 2EXP12/6000
ADRES SECON1 # GIVES FRACT SEC/60 IN BIT12 OF MPAC+1
EXTEND # AND BELOW.
DCA MPAC # SAVE MINUTES AND HOURS
DXCH HITEMOUT
TC TPSL1
TC TPSL1 # GIVES FRACT SEC/60 IN MPAC+1, MPAC+2.
CAF ZERO
XCH MPAC +2 # LEAVE FRACT SEC/60 IN MPAC, MPAC+1.
# Page 424
XCH MPAC +1
XCH MPAC
TC SEPSCRET
SEPMIN XCH Q # FIND WHOLE MINUTES IN BIT13
TS SEPMNRET # OF LOTEMOUT AND ABOVE.
CA LOTEMOUT # REMOVES REST OF SECONDS.
EXTEND # LEAVES FRACT MIN/60 IN MPAC+1.
MP BIT3 # LEAVES WHOLE HOURS IN MPAC.
EXTEND # SR 12, THROW AWAY LP.
MP BIT13 # SR 2, TAKE FROM LP. = SL 12.
LXCH MPAC +1 # THIS FORCES BITS 12-1 TO 0 IF +.
# FORCES BITS 12-1 TO 1 IF -.
CA HITEMOUT
TS MPAC
TC DMP # MULT BY 1/15
ADRES MINCON1 # GIVES FRACT MIN/60 IN MPAC+1.
ENDSPMIN TC SEPMNRET # GIVES WHOLE HOURS IN MPAC.
# THIS IS A SPECIAL PURPOS VERB FOR DISPLAYING A DOUBLE PRECISION AGC
# WORD AS 10 DECIMAL DIGITS ON THE AGC DISPLAY PANEL. IT CAN BE USED WITH
# ANY NOUN, EXCEPT MIXED NOUNS. IT DISPLAYS THE CONTENTS
# OF THE REGISTER NOUNADD IS POINTING TO. IF USED WITH NOUNS WHICH ARE
# INHERENTLY NOT DP SUCH AS THE CDU COUNTERS THE DISPLAY WILL BE GARBAGE.
# DISPLAY IS IN R1 AND R2 ONLY WITH THE SIGN IN R1.
SETLOC ENDRDLO +1
COUNT* $$/PIN
DSPDPDEC INDEX MIXBR
TC +0
TC +2 # NORMAL NOUN
TC DSPALARM
EXTEND
INDEX NOUNADD
DCA 0
DXCH MPAC
CAF R1D1
TS DSPCOUNT
CAF ZERO
TS MPAC +2
TC TPAGREE
TC DSP2DEC
ENDDPDEC TC ENTEXIT
# Page 425
# LOAD VERBS IF ALARM CONDITION IS DETECTED DURING EXECUTE,
# CHECK FAIL LIGHT IS TURNED ON AND ENDOFJOB. IF ALARM CONDITION IS
# DETECTED DURING ENTER OF DATA, CHECK FAIL IS TURNED ON AND IT RECYCLES
# TO EXECUTE OF ORIGINAL LOAD VERB. RECYCLE CAUSED BY 1) DECIMAL MACHINE
# CADR 2) MIXTURE OF OCTAL/DECIMAL DATA 3) OCTAL DATA INTO DECIMAL
# ONLY NOUN 4) DEC DATA INTO OCT ONLY NOUN 5) DATA TOO LARGE FOR SCALE
# 6) FEWER THAN 3 DATA WORDS LOADED FOR HRS, MIN, SEC NOUN. (2)-(6) ALARM
# AND RECYCLE OCCUR AT FINAL ENTER OF SET. (1) ALARM AND RECYCLE OCCUR AT
# ENTER OF CADR.
SETLOC ENDRTOUT
COUNT* $$/PIN
ABCLOAD CS TWO
TC COMPTEST
TC NOUNTEST # TEST IF NOUN CAN BE LOADED.
CAF VBSP1LD
TC UPDATVB -1
TC REQDATX
CAF VBSP2LD
TC UPDATVB -1
TC REQDATY
CAF VBSP3LD
TC UPDATVB -1
TC REQDATZ
PUTXYZ CS SIX # TEST THAT THE 3 DATA WORDS LOADED ARE
TC ALLDC/OC # ALL DEC OR ALL OCT.
EXTEND
DCA LODNNLOC # SWITCH BANKS TO NOUN TABLE READING
DXCH Z # ROUTINE.
CAF ZERO # X COMP
TC PUTCOM
INDEX NOUNADD
TS 0
CAF ONE # Y COMP
TC PUTCOM
INDEX NOUNADD
TS 1
CAF TWO # Z COMP
TC PUTCOM
INDEX NOUNADD
TS 2
CS SEVEN # IF NOUN 7 HAS JUST BEEN LOADED, SET
AD NOUNREG # FLAG BITS AS SPECIFIED.
EXTEND
BZF +2
TC LOADLV
# Page 426
CA XREG # ECADR OF FLAG WORD.
TC SETNCADR +1 # SET EBANK, NOUNADD.
CA ZREG # ZERO TO RESET BITS, NON-ZERO TO SET BITS.
INHINT
EXTEND
BZF BITSOFF
INDEX NOUNADD
CS 0
MASK YREG # BITS TO BE PROCESSED.
INDEX NOUNADD
ADS 0 # SET BITS.
TC BITSOFF1
BITSOFF CS YREG # BITS TO BE PROCESSED.
INDEX NOUNADD
MASK 0
INDEX NOUNADD
TS 0 # RESET BITS.
BITSOFF1 RELINT
TC LOADLV
ABLOAD CS ONE
TC COMPTEST
TC NOUNTEST # TEST IF NOUN CAN BE LOADED.
CAF VBSP1LD
TC UPDATVB -1
TC REQDATX
CAF VBSP2LD
TC UPDATVB -1
TC REQDATY
PUTXY CS FIVE # TEST THAT THE 2 DATA WORDS LOADED ARE
TC ALLDC/OC # ALL DEC OR ALL OCT.
EXTEND
DCA LODNNLOC # SWITCH BANKS TO NOUN TABLE READING
DXCH Z # ROUTINE.
CAF ZERO # X COMP
TC PUTCOM
INDEX NOUNADD
TS 0
CAF ONE # Y COMP
TC PUTCOM
INDEX NOUNADD
TS 1
TC LOADLV
ALOAD TC REQDATX
EXTEND
DCA LODNNLOC # SWITCH BANKS TO NOUN TABLE READING
DXCH Z # ROUTINE.
CAF ZERO # X COMP
TC PUTCOM
# Page 427
INDEX NOUNADD
TS 0
TC LOADLV
BLOAD CS ONE
TC COMPTEST
CAF BIT15 # SET CLPASS FOR PASS0 ONLY
TS CLPASS
TC REQDATY
EXTEND
DCA LODNNLOC # SWITCH BANKS TO NOUN TABLE READING
DXCH Z # ROUTINE.
CAF ONE
TC PUTCOM
INDEX NOUNADD
TS 1
TC LOADLV
CLOAD CS TWO
TC COMPTEST
CAF BIT15 # SET CLPASS FOR PASS0 ONLY
TS CLPASS
TC REQDATZ
EXTEND
DCA LODNNLOC # SWITCH BANKS TO NOUN TABLE READING
DXCH Z # ROUTINE.
CAF TWO
TC PUTCOM
INDEX NOUNADD
TS 2
TC LOADLV
LOADLV CAF ZERO
TS DECBRNCH
CS ZERO
TS LOADSTAT
TC RELDSP # RELEASE FOR PRIORITY DISPLAY PROBLEM.
CS VD1 # TO BLOCK NUMERICAL CHARACTERS AND
TS DSPCOUNT # CLEARS AFTER A COMPLETED LOAD
TC POSTJUMP # AFTER COMPLETED LOAD, GO TO RECALTST
CADR RECALTST # TO SEE IF THERE IS RECALL FROM ENDIDLE.
VBSP1LD DEC 21 # VB21 = ALOAD
VBSP2LD DEC 22 # VB22 = BLOAD
VBSP3LD DEC 23 # VB23 = CLOAD
ALLDC/OC TS DECOUNT # TESTS THAT DATA WORDS LOADED ARE EITHER
CS DECBRNCH # ALL DEC OR ALL OCT. ALARMS IF NOT.
TS SR
# Page 428
CS SR
CS SR # SHIFTED RIGHT 2
CCS A # DEC COMP BITS IN LOW 3
TCF +2 # SOME ONES IN LOW 3
TC Q # ALL ZEROS. ALL OCTAL. OK
AD DECOUNT # DEC COMP = 7 FOR 3COMP, =6 FOR 2COMP
EXTEND # (BUT IT HAS BEEN DECREMENTED BY CCS)
BZF +2 # MUST MATCH 6 FOR 3COMP, 5 FOR 2COMP.
TC ALMCYCLE # ALARM AND RECYCLE.
GOQ TC Q # ALL REQUIRED ARE DEC. OK
SFRUTNOR XCH Q # GETS SF ROUTINE NUMBER FOR NORMAL CASE
TS EXITEM # CAN'T USE L FOR RETURN. TSTFORDP USES L.
CAF MID5
MASK NNTYPTEM
TC RIGHT5
TC EXITEM # SF ROUTINE NUMBER IN A
SFRUTMIX XCH Q # GETS SF ROUTINE NUMBER FOR MIXED CASE
TS EXITEM
INDEX DECOUNT
CAF DISPLACE # PUT TC GOQ, TC RIGHT5, OR TC LEFT5 IN L
TS L
INDEX DECOUNT
CAF LOW5 # LOW5, MID5, OR HI5 IN A
MASK RUTMXTEM # GET HI5, MID5, OR LOW5 OF RUTMXTAB ENTRY
INDEX L
TC 0
# DO TC GOQ(DECOUNT=0), DO TC RIGHT5(DECOUNT=1), DO TC LEFT5(DECOUNT=2).
SFRET1 TC EXITEM # SF ROUTINE NUMBER IN A
SFCONUM XCH Q # GETS 2X(SF CONSTANT NUMBER)
TS EXITEM
INDEX MIXBR
TC +0
TC CONUMNOR # NORMAL NOUN
INDEX DECOUNT # MIXED NOUN
CAF DISPLACE
TS L # PUT TC GOQ, TC RIGHT5, OR TC LEFT5 IN L
INDEX DECOUNT
CAF LOW5
MASK NNTYPTEM
INDEX L
TC 0
# DO TC GOQ(DECOUNT=0), DO TC RIGHT5(DECOUNT=1), DO TC LEFT5(DECOUNT=2).
SFRET DOUBLE # 2X(SF CONSTANT NUMBER) IN A
TC EXITEM
DISPLACE TC GOQ
# Page 429
TC RIGHT5
TC LEFT5
CONUMNOR CAF LOW5 # NORMAL NOUN ALWAYS GETS LOW5 OF
MASK NNTYPTEM # NNTYPTAB FOR SF CONUM.
DOUBLE
TC EXITEM # 2X(SF CONSTANT NUMBER) IN A
PUTCOM TS DECOUNT
XCH Q
TS DECRET
CAF ZERO
TS MPAC+6
INDEX DECOUNT
XCH XREGLP
TS MPAC +1
INDEX DECOUNT
XCH XREG
TS MPAC
INDEX MIXBR
TC +0
TC PUTNORM # NORMAL NOUN
# IF MIXNOUN, PLACE ADDRESS FOR COMPONENT K INTO NOUNADD, SET EBANK BITS.
INDEX DECOUNT # GET IDADDTAB ENTRY FOR COMPONENT K
CA IDAD1TEM # OF NOUN.
MASK LOW11 # (ECADR)SUBK FOR CURRENT COMP OF NOUN
TC SETNCADR # ECADR INTO NOUNCADR. SETS EB, NOUNADD.
EXTEND # C(NOUNADD) IN A UPON RETURN
SU DECOUNT # PLACE (ESUBK)-K INTO NOUNADD
TS NOUNADD
CCS DECBRNCH
TC PUTDECSF # + DEC
TC DCTSTCYC # +0 OCTAL
TC SFRUTMIX # TEST IF DEC ONLY BIT = 1. IF SO,
TC DPTEST # ALARM AND RECYCLE. IF NOT, CONTINUE.
TC PUTCOM2 # NO DP
# TEST FOR DP SCALE FOR OCT LOAD. IF SO,
# +0 INTO MAJOR PART. SET NOUNADD FOR
# LOADING OCTAL WORD INTO MINOR PART.
PUTDPCOM INCR NOUNADD # DP (ESUBK)-K+1 OR E+1
CA NOUNADD # NOUNADD NOW SET FOR MINOR PART
ADS DECOUNT # (ESUBK)+1 OR E+1 INTO DECOUNT
CAF ZERO # NOUNADD SET FOR MINOR PART
INDEX DECOUNT
TS 0 -1 # ZERO MAJOR PART(ESUBK OR E)
TC PUTCOM2
PUTNORM TC SETNADD # ECADR FROM NOUNCADR. SETS EB, NOUNADD.
CCS DECBRNCH
# Page 430
TC PUTDECSF # + DEC
TC DCTSTCYC # +0 OCTAL
TC SFRUTNOR # TEST IF DEC ONLY BIT =1. IF SO,
TC DPTEST # ALARM AND RECYCLE. IF NOT, CONTINUE.
TC PUTCOM2 -4 # NO DP
CAF ZERO # DP
TS DECOUNT
TC PUTDPCOM
CA NNADTEM
AD ONE # IF NNADTEM = -1, CHANNEL TO BE SPECIFIED
EXTEND
BZF CHANLOAD
PUTCOM2 XCH MPAC
TC DECRET
EBANK= DSPCOUNT
GTSFINLC 2CADR GTSFIN
CHANLOAD CS SEVEN # DONT LOAD CHAN 7. (IT = SUPERBANK).
AD NOUNCADR
EXTEND
BZF LOADLV
CA NOUNCADR
MASK LOW9
XCH MPAC
EXTEND
INDEX MPAC
WRITE 0
TC LOADLV
# PUTDECSF FINDS MIXBR AND DECOUNT STILL SET FROM PUTCOM
PUTDECSF TC SFCONUM # 2X(SF CON NUMB) IN A
TS SFTEMP1
EXTEND # SWITCH BANKS TO SF CONSTANT TABLE
DCA GTSFINLC # READING ROUTINE.
DXCH Z # LOADS SFTEMP1, SFTEMP2.
INDEX MIXBR
TC +0
TC PUTSFNOR
TC SFRUTMIX
TC PUTDCSF2
PUTSFNOR TC SFRUTNOR
PUTDCSF2 INDEX A
CAF SFINTABR
# Page 431
TC BANKJUMP # SWITCH BANKS FOR EXPANSION ROOM
SFINTABR CADR GOALMCYC # ALARM AND RECYCLE IF DEC LOAD
# WITH OCTAL ONLY NOUN.
CADR BINROUND
CADR DEGINSF
CADR ARTHINSF
CADR DPINSF
CADR DPINSF2
CADR DSPALARM # LRPOSOUT CANT BE LOADED.
CADR DPINSF # SAME AS ARITHDP1
CADR HMSIN
CADR DSPALARM # MIN/SEC CANT BE LOADED.
CADR DPINSF4
CADR ARTIN1SF
CADR DSPALARM # 2INTOUT CANT BE LOADED.
CADR DEGINSF # TESTS AT END FOR 360-CDU
ENDRUTIN EQUALS
# SCALE FACTORS FOR THOSE ROUTINES NEEDING THEM ARE AVAILABLE IN SFTEMP1.
# ALL SFIN ROUTINES USE MPAC MPAC+1. LEAVE RESULT IN A. END WITH TC DECRET.
SETLOC ENDDPDEC +1
COUNT* $$/PIN
# DEGINSF APPLIES 1000/180 = 5.55555(10) = 5.43434(8)
DEGINSF TC DMP # SF ROUTINE FOR DEC DEGREES
ADRES DEGCON1 # MULT BY 5.5 5(10)X2EXP-3
CCS MPAC +1 # THIS ROUNDS OFF MPAC+1 BEFORE SHIFT
CAF BIT11 # LEFT 3, AND CAUSES 360.00 TO OF/UF
TC +2 # WHEN SHIFTED LEFT AND ALARM.
CS BIT11
AD MPAC +1
TC 2ROUND +2
TC TPSL1 # LEFT 1
DEGINSF2 TC TPSL1 # LEFT 2
TC TESTOFUF
TC TPSL1 # RETURNS IF NO OF/UF (LEFT3)
CCS MPAC
TC SIGNFIX # IF +, GO TO SIGNFIX
TC SIGNFIX # IF +0, GO TO SIGNFIX
COM # IF -, USE -MAGNITUDE +1
TS MPAC # IF -0, USE +0
SIGNFIX CCS MPAC+6
TC SGNTO1 # IF OVERFLOW
TC ENDSCALE # NO OVERFLOW/UNDERFLOW
CCS MPAC # IF UF FORCE SIGN TO 0 EXCEPT -180
TC CCSHOLE
# Page 432
TC NEG180
TC +1
XCH MPAC
MASK POSMAX
TS MPAC
ENDSCALE INDEX MIXBR # IF ROUTINE NO. IS NOT CDU DEGREES,
TC +0 # THEN THIS IS 360 - CDU DEGREES
TC +3 # AND ANGLE IN MPAC MUST BE REPLACED
TC SFMIXCAL # BY 360 DEGREES MINUS ITSELF.
MIXBACK TC +2
TC SFNORCAL
NORBACK CS A
AD BIT2
EXTEND
BZF +2
TC 360-CDU
ENDSCAL1 TC POSTJUMP
CADR PUTCOM2
SFMIXCAL TC BANKCALL
CADR SFRUTMIX
TC MIXBACK
SFNORCAL TC BANKCALL
CADR SFRUTNOR
TC NORBACK
NEG180 CS POSMAX
TC ENDSCALE -1
SGNTO1 CS MPAC # IF OF FORCE SIGN TO 1
MASK POSMAX
CS A
TC ENDSCALE -1
DEGCON1 2DEC 5.555555555 B-3
ARTHINSF TC DMP # SCALES MPAC, +1 BY SFTEMP1, SFTEMP2.
ADRES SFTEMP1 # ASSUMES POINT BETWEEN HI AND LO PARTS
XCH MPAC +2 # OF SFCON. SHIFTS RESULTS LEFT BY 14.
XCH MPAC +1 # (BY TAKING RESULTS FROM MPAC+1, MPAC+2)
XCH MPAC
EXTEND
BZF BINROUND
TC ALMCYCLE # TOO LARGE A LOAD. ALARM AND RECYCLE.
BINROUND TC 2ROUND
TC TESTOFUF
TC ENDSCAL1 # RETURNS IF NO OF/UF
# Page 433
ARTIN1SF TC DMP # SCALES MPAC, +1 BY SFTEMP1, SFTEMP2.
ADRES SFTEMP1 # ROUNDS MPAC+1 INTO MPAC.
TC BINROUND
DPINSF TC DMP # SCALES MPAC, MPAC +1 BY SFTEMP1,
ADRES SFTEMP1 # SFTEMP. STORES LOW PART OF RESULT
XCH MPAC +2 # IN (E SUBK) +1 OR E+1
DOUBLE
TS MPAC +2
CAF ZERO
AD MPAC +1
TC 2ROUND +2
TC TESTOFUF
INDEX MIXBR # RETURNS IF NO OF/UF
TC +0
TC DPINORM
CA DECOUNT # MIXED NOUN
DPINCOM AD NOUNADD # MIXED NORMAL
TS Q # E SUBK E
XCH MPAC +1
INDEX Q
TS 1 # PLACE LOW PART IN
TC ENDSCAL1 # (E SUBK) +1 MIXED
DPINORM CAF ZERO # E +1 NORMAL
TC DPINCOM
DPINSF2 TC DMP # ASSUMES POINT BETWEEN BITS 7-8 OF HIGH
ADRES SFTEMP1 # PART OF SF CONST. DPINSF2 SHIFTS RESULTS
CAF SIX # LEFT BY 7, ROUNDS MPAC+2 INTO MPAC+1
TC TPLEFTN # SHIFT LEFT 7.
TC DPINSF +2
DPINSF4 TC DMP # ASSUMES POINT BETWEEN BITS 11-12 OF HIGH
ADRES SFTEMP1 # PART OF SF CONST. DPINSF2 SHIFTS RESULTS
CAF TWO # LEFT BY 3, ROUNDS MPAC+2 INTO MPAC+1.
TC TPLEFTN # SHIFT LEFT 3.
TC DPINSF +2
TPLEFTN XCH Q # SHIFTS MPAC, +1, +2 LEFT N. SETS OVFIND
TS SFTEMP2 # TO +1 FOR OF, -1 FOR UF.
XCH Q # CALL WITH N-1 IN A.
LEFTNCOM TS SFTEMP1 # LOOP TIME .37 MSEC.
TC TPSL1
CCS SFTEMP1
TC LEFTNCOM
# Page 434
TC SFTEMP2
2ROUND XCH MPAC +1
DOUBLE
TS MPAC +1
TC Q # IF MPAC+1 DOES NOT OF/UF
AD MPAC
TS MPAC
TC Q # IF MPAC DOES NOT OF/UF
TS MPAC+6
2RNDEND TC Q
TESTOFUF CCS MPAC+6 # RETURNS IF NO OF/UF
TC ALMCYCLE # OF ALARM AND RECYCLE.
TC Q
TC ALMCYCLE # UF ALARM AND RECYCLE.
SETLOC ENDSPMIN +1
COUNT* $$/PIN
HMSIN TC ALL3DEC # IF ALL 3 WORDS WERE NOT LOADED, ALARM.
TC DMP # XREG, XREGLP (=HOURS) WERE ALREADY PUT
ADRES WHOLECON # INTO MPAC, MPAC+1.
TC RND/TST # ROUND OFF TO WHOLE HRS IN MPAC+1.
CAF ZERO # ALARM IF MPAC NON ZERO (G/ 16383).
TS MPAC +2
CAF HRCON
TS MPAC
CAF HRCON +1
XCH MPAC +1
TC SHORTMP
TC MPACTST # ALARM IF MPAC NON ZERO (G/ 745)
DXCH MPAC +1 # STORE HOURS CONTRIBUTION
DXCH HITEMIN
CA YREG # PUT YREG, YREGLP INTO MPAC, +1.
LXCH YREGLP
DXCH MPAC
TC DMP
ADRES WHOLECON
TC RND/TST # ROUND OFF TO WHOLE MIN IN MPAC+1
CS 59MIN # ALARM IF MPAC NON ZERO (G/16383)
TC SIZETST # ALARM IF MPAC+1 G/ 59MIN
XCH MPAC +1
EXTEND
MP MINCON # LEAVES MINUTES CONTRIBUTION IN A,L
DAS HITEMIN # ADD IN MINUTES CONTRIBUTION
EXTEND # IF THIS DAS OVEFLOWS, G/ 745 HR, 39MIN
# Page 435
BZF +2
TC ALMCYCLE
CA ZREG # PUT ZREG, ZREGLP INTO MPAC, +1.
LXCH ZREGLP
DXCH MPAC
TC DMP
ADRES WHOLECON
TC RND/TST # ROUND OFF TO WHOLE CENTI-SEC IN MPAC+1
CS 59.99SEC # ALARM IF MPAC NON ZERO (G/163.83 SEC)
TC SIZETST # ALARM IF MPAC+1 G/59.99 SEC
DXCH HITEMIN # ADD IN SECONDS CONTRIBUTION
DAS MPAC # IF THIS DAS OVERFLOWS,
EXTEND # G/ 745 HR, 39 MIN, 14.59 SEC.
BZF +2
TC ALMCYCLE # ALARM AND RECYCLE
CAF ZERO
TS MPAC +2
TC TPAGREE
DXCH MPAC
INDEX NOUNADD
DXCH 0
TC POSTJUMP
CADR LOADLV
WHOLECON OCT 00006 # (10EXP5/2EXP14)2EXP14
OCT 03240
HRCON OCT 00025 # 1 HOUR IN CENTI-SEC
OCT 37100
MINCON OCT 13560 # 1 MINUTE IN CENTI-SEC
59MIN OCT 00073 # 59 AS WHOLE
59.99SEC OCT 13557 # 5999 CENTI-SEC
RND/TST XCH MPAC +2 # ROUNDS MPAC+2 INTO MPAC+1.
DOUBLE # ALARMS IF MPAC NOT 0
TS MPAC +2
CAF ZERO
AD MPAC +1
TS MPAC +1
CAF ZERO
AD MPAC # CANT OVFLOW
XCH MPAC
MPACTST CCS MPAC # ALARM IF MPAC NON ZERO
TC ALMCYCLE # ALARM AND RECYCLE.
TC Q
TC ALMCYCLE # ALARM AND RECYCLE.
TC Q
SIZETST TS MPAC +2 # CALLED WITH - CON IN A
CCS MPAC +1 # GET MAG OF MPAC+1
# Page 436
AD ONE
TCF +2
AD ONE
AD MPAC +2
EXTEND # MAG OF MPAC+1 - CON
BZMF +2
TC ALMCYCLE # MAG OF MPAC+1 G/ CON. ALARM AND RECYCLE.
TC Q # MAG OF MPAC+1 L/= CON
# ALL3DEC TESTS THAT ALL 3 WORDS ARE LOADED IN DEC (FOR HMSIN).
# ALARM IF NOT. (TEST THAT BITS 3,4,5 OF DECBRNCH ARE ALL = 1).
ALL3DEC CS OCT34BAR # GET BITS 3,4,5 IN A
MASK DECBRNCH # GET BITS 3,4,5 OF DECBRNCH IN A
AD OCT34BAR # BITS 3,4,5 OF DECBRNCH MUST ALL = 1
CCS A
TC FORCEV25
OCT34BAR OCT 77743
TC FORCEV25
TC Q
FORCEV25 CS OCT31 # FORCE VERB 25 TO BE EXECUTED BY RECYCLE
TS VERBSAVE # IN CASE OPERATOR EXECUTED A LOWER LOAD
TC ALMCYCLE # VERB. ALARM AND RECYCLE.
ENDHMSS EQUALS
# Page 437
# MONITOR ALLOWS OTHER KEYBOARD ACTIVITY. IT IS ENDED BY VERB TERMINATE,
# VERB PROCEED WITHOUT DATA, VERB RESEQUENCE,
# ANOTHER MONITOR, OR ANY NVSUB CALL THAT PASSES THE DSPLOCK (PROVIDED
# THAT THE OPERATOR HAS SOMEHOW ALLOWED THE ENDING OF A MONITOR WHICH
# HE HAS INITIATED THROUGH THE KEYBOARD).
#
# MONITOR ACTION IS SUSPENDED, BUT NOT ENDED, BY ANY KEYBOARD ACTION,
# EXCEPT ERROR LIGHT RESET. IT BEGINS AGAIN WHEN KEY RELEASE IS PERFORMED.
# MONITOR SAVES THE NOUN AND APPROPRIATE DISPLAY VERB IN MONSAVE. IT SAVES
# NOUNCADR IN MONSAVE1, IF NOUN = MACHINE CADR TO BE SPECIFIED. BIT 15 OF
# MONSAVE1 IS THE KILL MONITOR SIGNAL (KILLER BIT). BIT 14 OF MONSAVE1
# INDICATES THE CURRENT MONITOR WAS EXTERNALLY INITIATED (EXTERNAL
# MONITOR BIT). IT IS TURNED OFF BY RELDSP AND KILMONON.
#
# MONSAVE INDICATES IF MONITOR IS ON (+=ON, +0=OFF)
# IF MONSAVE IS +, MONITOR ENTERS NO REQUEST, BUT TURNS KILLER BIT OFF.
# IF MONSAVE IS +0, MONITOR ENTERS REQUEST AND TURNS KILLER BIT OFF.
#
# NVSUB (IF EXTERNAL MONITOR BIT IS OFF), VB=PROCEED WITHOUT DATA,
# VB=RESEQUENCE, AND VB=TERMINATE TURN KILL MONITOR BIT ON.
#
# IF KILLER BIT IS ON, MONREQ ENTERS NO FURTHER REQUESTS, ZEROS MONSAVE
# AND MONSAVE1 (TURNING OFF KILLER BIT AND EXTERNAL MONITOR BIT).
#
# MONITOR DOESNT TEST FOR MATBS SINCE NVSUB CAN HANDLE INTERNAL MATBS NOW.
SETLOC ENDRUTIN
COUNT* $$/PIN
MONITOR CS BIT15/14
MASK NOUNCADR
MONIT1 TS MPAC +1 # TEMP STORAGE
CS ENTEXIT
AD ENDINST
CCS A
TC MONIT2
BIT15/14 OCT 60000
TC MONIT2
CAF BIT14 # EXTERNALLY INITIATED MONITOR.
ADS MPAC +1 # SET BIT 14 FOR MONSAVE1.
CAF ZERO
TS MONSAVE2 # ZERO NVMONOPT OPTIONS
MONIT2 CAF LOW7
MASK VERBREG
TC LEFT5
TS CYL
CS CYL
XCH CYL
AD NOUNREG
TS MPAC # TEMP STORAGE
CAF ZERO
# Page 438
TS DSPLOCK # +0 INTO DSPLOCK SO MONITOR CAN RUN.
CCS CADRSTOR # TURN OFF KR LITE IF CADRSTOR AND DSPLIST
TC +2 # ARE BOTH EMPTY. (LITE COMES ON IF NEW
TC RELDSP1 # MONITOR IS KEYED IN OVER OLD MONITOR.)
INHINT
CCS MONSAVE
TC +5 # IF MONSAVE WAS +, NO REQUEST
CAF ONE # IF MONSAVE WAS 0, REQUEST MONREQ
TC WAITLIST
EBANK= DSPCOUNT
2CADR MONREQ
DXCH MPAC # PLACE MONITOR VERB AND NOUN INTO MONSAVE
DXCH MONSAVE # ZERO THE KILL MONITOR BIT
RELINT # SET UP EXTERNAL MONITOR BIT
TC ENTRET
MONREQ TC LODSAMPT # CALLED BY WAITLIST
CCS MONSAVE1 # TIME IS SNATCHED N RUPT FOR NOUN 65
TC +4 # IF KILLER BIT = 0, ENTER REQUESTS
TC +3 # IF KILLER BIT = 0, ENTER REQUESTS
TC KILLMON # IF KILLER BIT = 1, NO REQUESTS.
TC KILLMON # IF KILLER BIT = 1, NO REQUESTS.
CAF MONDEL
TC WAITLIST # ENTER WAITLIST REQUEST FOR MONREQ
EBANK= DSPCOUNT
2CADR MONREQ
CAF CHRPRIO
TC NOVAC # ENTER EXEC REQUEST FOR MONDO
EBANK= DSPCOUNT
2CADR MONDO
TC TASKOVER
KILLMON CAF ZERO # ZERO MONSAVE AND TURN KILLER BIT OFF
TS MONSAVE
TS MONSAVE1 # TURN OFF KILL MONITOR BIT.
TC TASKOVER # TURN OFF EXTERNAL MONITOR BIT.
MONDEL OCT 144 # FOR 1 SEC MONITOR INTERVALS
MONDO CCS MONSAVE1 # CALLED BY EXEC
TC +4 # IF KILLER BIT = 0, CONTINUE
TC +3 # IF KILLER BIT = 0, CONTINUE
TC ENDOFJOB # IN CASE TERMINATE CAME SINCE LAST MONREQ
TC ENDOFJOB # IN CASE TERMINATE CAME SINCE LAST MONREQ
CCS DSPLOCK
TC MONBUSY # NVSUB IS BUSY
# Page 439
CAF LOW7
MASK MONSAVE
TC UPDATNN -1 # PLACE NOUN INTO NOUNREG AND DISPLAY IT
CAF MID7
MASK MONSAVE # CHANGE MONITOR VERB TO DISPLAY VERB
AD MONREF # -DEC10, STARTING IN BIT8
TS EDOP # RIGHT 7
CA EDOP
TS VERBREG
CAF MONBACK # SET RETURN TO PASTEVB AFTER DATA DISPLAY
TS ENTRET
CS BIT15/14
MASK MONSAVE1 # PUT ECADR INTO MPAC +2. INTMCTBS WILL
TS MPAC +2 # DISPLAY IT AND SET NOUNCADR, NOUNADD,
ENDMONDO TC TESTNN # EBANK.
BLOCK 2
SETLOC FFTAG8
BANK
COUNT* $$/PIN
PASTEVB CAF MID7
MASK MONSAVE2 # NVMONOPT PASTE OPTION
EXTEND
BZF +2
TC PASTEOPT # PASTE PLEASE VERB FOR NVMONOPT
CA MONSAVE # PASTE MONITOR VERB - PASTE OPTION IS 0
PASTEOPT TS EDOP # RIGHT 7
CA EDOP # PLACE MONITOR VERB OR PLEASE VERB INTO
TC BANKCALL # VERBREG AND DISPLAY IT.
CADR UPDATVB -1
CAF ZERO # ZERO REQRET SO THAT PASTED VERBS CAN
TS REQRET # BE EXECUTED BY OPERATOR.
CA MONSAVE2
TC BLANKSUB # PROCESS NVMONOPT BLANK OPTION IF ANY
TC +1
ENDPASTE TC ENDOFJOB
MID7 OCT 37600
SETLOC ENDMONDO +1
COUNT* $$/PIN
MONREF OCT 75377 # -DEC10, STARTING IN BIT8
MONBACK ADRES PASTEVB
MONBUSY TC RELDSPON # TURN KEY RELEASE LIGHT
TC ENDOFJOB
# Page 440
# DSPFMEM IS USED TO DISPLAY (IN OCTAL) ANY FIXED REGISTER.
# IT IS USED WITH NOUN = MACHINE CADR TO BE SPECIFIED. THE FCADR OF THE
# DESIRED LOCATION IS THEN PUNCHED IN. IT HANDLES F/F (FCADR 4000-7777)
#
# FOR BANKS L/E 27, THIS IS ENOUGH.
#
# FOR BANKS G/E 30, THE THIRD COMPONENT OF NOUN 26 (PRIO, ADRES, BBCON)
# MUST BE PRELOADED WITH THE DESIRED SUPERBANK BITS (BITS 5,6,7).
# V23N26 SHOULD BE USED.
#
# SUMMARY
# FOR BANKS L/E 27, V27N01E(FCADR)E
# FOR BANKS G/E 30, V23N26E(SUPERBITS)E V27N01E(FCADR)E
DSPFMEM CAF R1D1 # IF F/F, DATACALL USES BANK 02 OR 03.
TS DSPCOUNT
CA DSPTEM1 +2 # SUPERBANK BITS WERE PRELOADED INTO
TS L # 3RD COMPONENT OF NOUN 26.
CA NOUNCADR # ORIGINAL FCADR LOADED STILL IN NOUNCADR.
TC SUPDACAL # CALL WITH FCADR IN A, SUPERBITS IN L.
TC DSPOCTWO
ENDSPF TC ENDOFJOB
# Page 441
# WORD DISPLAY ROUTINES
SETLOC TESTOFUF +4
COUNT* $$/PIN
DSPSIGN XCH Q
TS DSPWDRET
CCS MPAC
TC +8D
TC +7
AD ONE
TS MPAC
TC -ON
CS MPAC +1
TS MPAC +1
TC DSPWDRET
TC +ON
TC DSPWDRET
DSPRND EXTEND # ROUND BY 5 EXP-6
DCA DECROUND -1
DAS MPAC
EXTEND
BZF +4
EXTEND
DCA DPOSMAX
DXCH MPAC
TC Q
# DSPDECWD CONVERTS C(MPAC, MPAC+1) INTO A SIGN AND 5 CHAR DECIMAL
# STARTING IN LOC SPECIFIED IN DSPCOUNT. IT ROUNDS BY 5 EXP-6.
DSPDECWD XCH Q
TS WDRET
TC DSPSIGN
TC DSPRND
CAF FOUR
DSPDCWD1 TS WDCNT
CAF BINCON
TC SHORTMP
TRACE1 INDEX MPAC
CAF RELTAB
MASK LOW5
TS CODE
CAF ZERO
XCH MPAC +2
XCH MPAC +1
TS MPAC
XCH DSPCOUNT
TRACE1S TS COUNT
CCS A # DECREMENT DSPCOUNT EXCEPT AT +0
# Page 442
TS DSPCOUNT
TC DSPIN
CCS WDCNT
TC DSPDCWD1
CS VD1
TS DSPCOUNT
TC WDRET
OCT 00000
DECROUND OCT 02476
# DSPDECNR CONVERTS C(MPAC,MPAC+1) INTO A SIGN AND 5 CHAR DECIMAL
# STARTING IN LOC SPECIFIED IN DSPCOUNT. IT DOES NOT ROUND
DSPDECNR XCH Q
TS WDRET
TC DSPSIGN
TC DSPDCWD1 -1
# DSPDC2NR CONVERTS C(MPAC,MPAC+1) INTO A SIGN AND 2 CHAR DECIMAL
# STARTING IN LOC SPECIFIED IN DSPCOUNT. IT DOES NOT ROUND
DSPDC2NR XCH Q
TS WDRET
TC DSPSIGN
CAF ONE
TC DSPDCWD1
# DSP2DEC CONVERTS C(MPAC) AND C(MPAC+1) INTO A SIGN AND 10 CHAR DECIMAL
# STARTING IN THE LOC SPECIFIED IN DSPCOUNT.
DSP2DEC XCH Q
TS WDRET
CAF ZERO
TS CODE
CAF THREE
TC 11DSPIN # -R2 OFF
CAF FOUR
TC 11DSPIN # +R2 OFF
TC DSPSIGN
CAF R2D1
END2DEC TC DSPDCWD1
# DSPDECVN DISPLAYS C(A) UPON ENTRY AS A 2 CHAR DECIMAL BEGINNING IN THE
# DSP LOC SPECIFIED IN DSPCOUNT.
# C(A) SHOULD BE IN FORM N X 2EXP-14. THIS IS SCALED TO FORM N/100 BEFORE
# DISPLAY CONVERSION.
# Page 443
DSPDECVN EXTEND
MP VNDSPCON # MULT BY .01
LXCH MPAC # TAKE RESULTS FROM L. (MULT BY 2EXP14).
CAF ZERO
TS MPAC +1
XCH Q
TS WDRET
TC DSPDC2NR +3 # NO SIGN, NO ROUND, 2 CHAR
VNDSPCON OCT 00244 # .01 ROUNDED UP
GOVNUPDT TC DSPDECVN # THIS IS NOT FOR GENERAL USE. REALLY PART
TC POSTJUMP # OF UPDATVB.
CADR UPDAT1 +2
ENDECVN EQUALS
SETLOC ENDSPF +1
COUNT* $$/PIN
# DSPOCTWD DISPLAYS C(A) UPON ENTRY AS A 5 CHAR OCT STARTING IN THE DSP
# CHAR SPECIFIED IN DSPCOUNT. IT STOPS AFTER 5 CHAR HAVE BEEN DISPLAYED.
DSPOCTWO TS CYL
XCH Q
TS WDRET # MUST USE SAME RETURN AS DSP2BIT.
CAF BIT14 # TO BLANK SIGNS
ADS DSPCOUNT
CAF FOUR
WDAGAIN TS WDCNT
CS CYL
CS CYL
CS CYL
CS A
MASK DSPMSK
INDEX A
CAF RELTAB
MASK LOW5
TS CODE
XCH DSPCOUNT
TS COUNT
CCS A # DECREMENT DSPCOUNT EXCEPT AT +0
TS DSPCOUNT
TC POSTJUMP
CADR DSPOCTIN
OCTBACK CCS WDCNT
TC WDAGAIN # +
DSPLV CS VD1 # TO BLOCK NUMERICAL CHARACTERS, CLEARS,
TS DSPCOUNT # AND SIGNS AFTER A COMPLETED DISPLAY.
# Page 444
TC WDRET
DSPMSK = SEVEN
# DSP2BIT DISPLAYS C(A) UPON ENTRY AS A 2 CHAR OCT BEGINNING IN THE DSP
# LOC SPECIFIED IN DSPCOUNT BY PRE CYCLING RIGHT C(A) AND USING THE LOGIC
# OF THE 5 CHAR OCTAL DISPLAY
DSP2BIT TS CYR
XCH Q
TS WDRET
CAF ONE
TS WDCNT
CS CYR
CS CYR
XCH CYR
TS CYL
TC WDAGAIN +5
# FOR DSPIN PLACE 0/25 OCT INTO COUNT, 5 BIT RELAY CODE INTO CODE. BOTH
# ARE DESTROYED. IF BIT14 OF COUNT IS 1, SIGN IS BLANKED WITH LEFT CHAR.
# FOR DSPIN1 PLACE 0,1 INTO BIT11 OF CODE, 2 INTO COUNT, REL ADDRESS OF
# DSPTAB ENTRY INTO DSREL.
SETLOC ENDECVN
COUNT* $$/PIN
DSPIN XCH Q # CANT USE L FOR RETURN, SINCE MANYOF THE
TS DSEXIT # ROTINE CALLING DSPIN USE L AS RETURN.
CAF LOW5
MASK COUNT
TS SR
XCH SR
TS DSREL
CAF BIT1
MASK COUNT
CCS A
TC +2 # LEFT IF COUNT IS ODD
TC DSPIN1 -1 # RIGHT IF COUNT IS EVEN
XCH CODE
TC SLEFT5 # DOES NOT USE CYL
TS CODE
CAF BIT14
MASK COUNT
CCS A
CAF TWO # BIT14 = 1, BLANK SIGN
AD ONE # BIT14 = 0, LEAVE SIGN ALONE
TS COUNT # +0 INTO COUNT FOR RIGHT
# Page 445
# +1 INTO COUNT FOR LEFT (SIGN LEFT ALONE)
# +3 INTO COUNT FOR LEFT (TO BLANK SIGN)
DSPIN1 INHINT
INDEX DSREL
CCS DSPTAB
TC +2 # IF +
TC CCSHOLE
AD ONE # IF -
TS DSMAG
INDEX COUNT
MASK DSMSK
EXTEND
SU CODE
EXTEND
BZF DSLV # SAME
DFRNT INDEX COUNT
CS DSMSK # MASK WITH 77740, 76037, 76777, OR 74037
MASK DSMAG
AD CODE
CS A
INDEX DSREL
XCH DSPTAB
EXTEND
BZMF DSLV # DSPTAB ENTRY WAS -
INCR NOUT # DSPTAB ENTRY WAS +
DSLV RELINT
TC DSEXIT
DSMSK OCT 37
OCT 1740
OCT 2000
OCT 3740
# FOR 11DSPIN, PUT REL ADDRESS OF DSPTAB ENTRY INTO A, 1 IN BIT11 OR 0 IN
# BIT11 OF CODE.
11DSPIN TS DSREL
CAF TWO
TS COUNT
XCH Q # MUST USE SAME RETURN AS DSPIN
TS DSEXIT
TC DSPIN1
DSPOCTIN TC DSPIN # SO DSPOCTWO DOESNT USE SWCALL
CAF +2
TC BANKJUMP
ENDSPOCT CADR OCTBACK
# Page 446
# DSPALARM FINDS TC NVSUBEND IN ENTRET FOR NVSUB INITIATED ROUTINES
# ABORT WITH 01501.
#
# DSPALARM FINDS TC ENDOFJOB IN ENTRET FOR KEYBOARD INITIATED ROUTINES.
# DC TC ENTRET.
PREDSPAL CS VD1
TS DSPCOUNT
DSPALARM CS NVSBENDL
AD ENTEXIT
EXTEND
BZF CHARALRM +2
CS MONADR # IF THIS IS A MONITOR, KILL IT
AD ENTEXIT
EXTEND
BZF +2
TC CHARALRM
TC KILMONON
TC FALTON
TC PASTEVB # PUT MONITOR VERB BACK IN VERBREG
CHARALRM TC FALTON # NO NVSUB INITATED. TURN ON OPR ERROR
TC ENDOFJOB
TC POODOO
OCT 01501
MONADR GENADR PASTEVB
NVSBENDL TC NVSUBEND
# ALMCYCLE TURNS ON CHECK FAIL LIGHT, REDISPLAYS THE ORIGINAL VERB THAT
# WAS EXECUTED, AND RECYCLES TO EXECUTE THE ORIGINAL VERB/NOUN COMBINATION
# THAT WAS LAST EXECUTED. USED FOR BAD DATA DURING LOAD VERBS AND BY
# MCTBS. ALSO BY MMCHANG IF 2 NUMERICAL CHARACTERS WERE NOT PUNCHED IN
# FOR MM CODE.
SETLOC MID7 +1
COUNT* $$/PIN
ALMCYCLE TC FALTON # TURN ON CHECK FAIL LIGHT.
CS VERBSAVE # GET ORIGINAL VERB THAT WAS EXECUTED
TS REQRET # SET FOR ENTPAS0
TC BANKCALL # PUTS ORIGINAL VERB INTO VERBREG AND
CADR UPDATVB -1 # DISPLAYS IT IN VERB LIGHTS.
TC POSTJUMP
ENDALM CADR ENTER
# MMCHANG USES NOUN DISPLAY UNTIL ENTER. THEN IT USES MODE DISP.
# IT GOES TO MODROUT WITH THE NEW M M CODE IN A, BUT NOT DISPLAYED IN
# MM LIGHTS.
# IT DEMANDS 2 NUMERICAL CHARACTERS BE PUNCHED IN FOR NEW MM CODE.
# IF NOT, IT RECYCLES.
# Page 447
SETLOC DSP2BIT +10D
COUNT* $$/PIN
MMCHANG TC REQMM # ENTPASHI ASSUMES THE TC REQMM AT MMCHANG
# IF THIS MOVES AT ALL, MUST CHANGE
# MMADREF AT ENTPASHI.
CAF BIT5 # OCT20 = ND2.
AD DSPCOUNT # DSPCOUNT MUST = -ND2.
EXTEND # DEMAND THAT 2 NUM CHAR WERE PUNCHED IN.
BZF +2
TC ALMCYCLE # DSPCOUNT NOT= -ND2. ALARM AND RECYCLE.
CAF ZERO # DSPCOUNT = -ND2.
XCH NOUNREG
TS MPAC
CAF ND1
TS DSPCOUNT
TC BANKCALL
CADR 2BLANK
CS VD1 # BLOCK NUM CHAR IN
TS DSPCOUNT
CA MPAC
TC POSTJUMP
CADR MODROUTB # GO THRU STANDARD LOC.
MODROUTB = V37
REQMM CS Q
TS REQRET
CAF ND1
TS DSPCOUNT
CAF ZERO
TS NOUNREG
TC BANKCALL
CADR 2BLANK
TC FLASHON
CAF ONE
TS DECBRNCH # SET FOR DEC
TC ENTEXIT
# VBRQEXEC ENTERS REQUEST TO EXEC FOR ANY ADDRESS WITH ANY PRIORITY.
# IT DOES ENDOFJOB AFTER ENTERING REQUEST. DISPLAY SYST IS RELEASED.
# IT ASSUMES NOUN 26 HAS BEEN PRELOADED WITH
# COMPONENT 1 PRIORITY (BITS 10-14) BIT1=0 FOR NOVAC, BIT1=1 FOR FINDVAC.
# COMPONENT 2 JOB ADRES (12 BIT)
# COMPONENT 3 BBCON
VBRQEXEC CAF BIT1
MASK DSPTEM1
CCS A
# Page 448
TC SETVAC # IF BIT1 = 1, FINDVAC
CAF TCNOVAC # IF BIT1 = 0, NOVAC
REQEX1 TS MPAC # TC NOVAC OR TC FINDVAC INTO MPAC
CS BIT1
MASK DSPTEM1
TS MPAC +4 # PRIO INTO MPAC+4 AS A TEMP
REQUESTC TC RELDSP
CA ENDINST
TS MPAC +3 # TC ENDOFJOB INTO MPAC+3
EXTEND
DCA DSPTEM1 +1 # JOB ADRES INTO MPAC+1
DXCH MPAC +1 # BBCON INTO MPAC+2
CA MPAC +4 # PRIO IN A
INHINT
TC MPAC
SETVAC CAF TCFINDVC
TC REQEX1
# VBRQWAIT ENTERS REQUEST TO WAITLIST FOR ANY ADDRESS WITH ANY DELAY.
# IT DOES ENDOFJOB AFTER ENTERING REQUEST. DISPLAY SYST IS RELEASED.
# IT ASSUMES NOUN 26 HAS BEEN PRELOADED WTIH
# COMPONENT 1 DELAY (LOW BITS)
# COMPONENT 2 TASK ADRES (12 BIT)
# COMPONENT 3 BBCON
VBRQWAIT CAF TCWAIT
TS MPAC # TC WAITLIST INTO MPAC
CA DSPTEM1 # TIME DELAY
ENDRQWT TC REQUESTC -1
# REQUESTC WILL PUT TASK ADRES INTO MPAC+1, BBCON INTO MPAC+2,
# TC ENDOFJOB INTO MPAC+3. IT WILL TAKE TIME DELAY OUT OF MPAC+4 AND
# LEAVE IT IN A, INHINT AND TC MPAC.
SETLOC NVSBENDL +1
COUNT* $$/PIN
VBPROC CAF ONE # PROCEED WITHOUT DATA
TS LOADSTAT
TC KILMONON # TURN ON KILL MONITOR BIT
TC RELDSP
TC FLASHOFF
TC RECALTST # SEE IF THERE IS ANY RECALL FROM ENDIDLE
VBTERM CS ONE
TC VBPROC +1 # TERM VERB SETS LOADSTAT NEG
# Page 449
# PROCKEY PERFORMS THE SAME FUNCTION AS VBPROC. IT MUST BE CALLED UNDER
# EXECUTIVE CONTROL, WITH CHRPRIO.
PROCKEY CAF ZERO # SET REQRET FOR ENTER PASS 0.
TS REQRET
CS VD1 # BLOCK NUMERICAL CHARACTERS, SIGNS, CLEAR
TS DSPCOUNT
TC VBPROC
# VBRESEQ WAKES ENDIDLE AT SAME LINE AS FINAL ENTER OF LOAD (L+3).
# (MAIN USE IS INTENDED AS RESPONSE TO INTERNALLY INITIATED FLASHING
# DISPLAYS IN ENDIDLE. SHOULD NOT BE USED WITH LOAD VERBS, PLEASE PERFORM,
# OR PLEASE MARK VERBS BECAUSE THEY ALREADY USE L+3 IN ANOTHER CONTEXT.)
VBRESEQ CS ZERO # MAKE IT LOOK LIKE DATA IN.
TC VBPROC +1
# FLASH IS TURNED OFF BY PROCEED WITHOUT DATA, TERMINATE, REQUEQUENCE,
# END OF LOAD.
# Page 450
# KEY RELEASE ROUTINE
#
# THIS ROUTINE ALWAYS TURNS OFF THE UPACT LIGHT AND ALWAYS CLEARS DSPLOCK.
#
# THE HIGHEST PRIORITY FUNCTION OF THE KEY RELEASE BUTTON IS THE
# UNSUSPENDING OF A SUSPENDED MONITOR WHICH WAS EXTERNALLY INITIATED.
# THIS FUNCTION IS ACCOMPLISHED BY CLEARING DSPLOCK AND TURNING OFF
# THE KEY RELEASE LIGHT IF BOTH DSPLIST AND CADRSTOR ARE EMPTY.
#
# IF NO SUCH MONITOR EXISTS, THEN RELDSP IS EXECUTED TO CLEAR DSPLOCK
# AND THE EXTERNAL MONITOR BIT (FREEING THE DISPLAY SYSTEM FOR INTERNAL
# USE), TURN OFF THE KEY RELEASE LIGHT, AND WAKE UP ANY JOB IN DSPLIST.
#
# IN ADDITION IF THERE IS A JOB IN ENDIDLE, THEN CONTROL IS TRANSFERRED
# TO PINBRNCH (IN DISPLAY INTERFACE ROUTINE) TO RE-EXECUTE THE SERIES OF
# NVSUB CALLS ETC. THAT PRECEDED THE ENDIDLE CALL STILL AWAITING RESPONSE.
# THIS FEATURE IS INTENDED FOR USE WHEN THE OPERATOR HAS BEEN REQUESTED TO
# RESPOND TO SOME INTERNAL ACTION THAT USED ENDIDLE, BUT HE HAS WRITTEN
# OVER THE INFORMATION ON THE DISPLAY PANEL BY SOME DISPLAYS OF HIS OWN
# INITIATION WHICH DO NOT SERVE AS RESPONSES. HITTING KEYRLSE WILL
# RE-ESTABLISH THE DISPLAYS TO THE STATE THEY WERE IN BEOFRE HE OBSCURED
# THEM, SO THAT HE CAN SEE THE WAITING REQUEST. THIS WORKS ONLY FOR
# INTERNAL PROGRAMS THAT USED ENDIDLE THROUGH MARGARETS DISPLAY
# SUBROUTINES.
VBRELDSP CS BIT3
EXTEND
WAND DSALMOUT # TURN OFF UPACT LITE
CCS 21/22REG # OLD DSPLOCK
CAF BIT14
MASK MONSAVE1 # EXTERNAL MONITOR BIT (EMB)
CCS A
TC UNSUSPEN # OLD DSPLOCK AND EMB BOTH 1, UNSUSPEND.
TSTLTS4 TC RELDSP # NOT UNSUSPENDING EXTERNAL MONITOR,
CCS CADRSTOR # RELEASE DISPLAY SYSTEM AND
TC +2 # DO RE-ESTABLISH IF CADRSTOR IS FULL.
TC ENDOFJOB
TC POSTJUMP
CADR PINBRNCH
UNSUSPEN CAF ZERO # EXTERNAL MONITOR IS SUSPENDED,
TS DSPLOCK # JUST UNSUSPEND IT BY CLEARING DSPLOCK.
CCS CADRSTOR # TURN KEY RELEASE LIGHT OFF IF BOTH
TC ENDOFJOB # CADRSTOR AND DSPLIST ARE EMPTY.
TC RELDSP1
TC ENDOFJOB
ENDRELDS EQUALS
# Page 451
# NVSUB IS USED FOR SUBROUTINE CALLS FROM WITHIN COMPUTER. IT CAN BE
# USED TO CALL THE COMBINATION OF ANY DISPLAY, LOAD, OR MONITOR VERB
# TOGETHER WITH ANY NOUN AVAILABLE TO THE KEYBOARD.
# PLACE 0VVVVVVVNNNNNNN INTO A.
# V'S ARE THE 7-BIT VERB CODE. N'S ARE THE 7-BIT NOUN CODE.
#
# IF NVSUB IS CALLED WTIH THE FOLLOWING NEGATIVE NUMBERS (RATHER THAN THE
# VERB-NOUN CODE) IN A, THEN THE DISPLAY IS BLANKED AS FOLLOWS -
# -4 FULL BLANK, -3 LEAVE MODE, -2 LEAVE MODE AND VERB, -1 BLANK R'S ONLY.
#
# NVSUB CAN BE USED WTIH MACH CADR TO BE SPEC BY PLACING THE CADR INTO
# MPAC+2 BEFORE THE STANDARD NVSUB CALL.
#
# NVSUB RETURNS TO 2+ CALLING LOC AFTER PERFORMING TASK, IF DISPLAY
# SYSTEM IS AVAIALBLE. THE NEW NOUN AND VERB CODES ARE DISPLAYED.
# IF V'S =0, THE NEW NOUN CODE IS DISPLAYED ONLY (RETURN WITH NO FURTHER
# ACTION). IF N'S =0, THE NEW VERB CODE IS DISPLAYED ONLY (RETURN WITH NO
# FURTHER ACTION).
#
# IT RETURNS TO 1+ CALLING LOC WITHOUT PERFORMING TASK, IF DISPLAY
# SYSTEM IS BLOCKED (NOTHING IS DISPLAYED IN THIS CASE).
# IT DOES TC ABORT (WITH OCT 01501) IF IT ENCOUNTERS A DISPLAY PROGRAM
# ALARM CONDITION BEFORE RETURN TO CALLER.
#
# THE DISPLAY SYSTEM IS BLOCKED BY THE DEPRESSION OF ANY
# KEY, EXCEPT ERROR LIGHT RESET.
# IT IS RELEASED BY THE KEY RELEASE BUTTON, ALL EXTENDED VERBS,
# PROCED WITHOUT DATA, TERMINATE, RESEQUENCE, INITIALIZE EXECUTIVE,
# RECALL PART OF RECALTST IF ENDIDLE WAS USED,
# VB = REQUEST EXECUTIVE, VB = REQUEST WAITLIST,
# MONITOR SET UP.
#
# THE DISPLAY SYSTEM IS ALSO BLOCKED BY THE EXTERNAL MONITOR BIT, WHICH
# INDICATES AND EXTERNALLY INITIATED MONITOR IS RUNNING (SEE MONITOR).
#
# A NVSUB CALL THAT PASSES DSPLOCK AND THE EXTERNAL MONITOR BIT ENDS OLD
# MONITOR.
#
# DSPLOCK IS THE INTERLOCK FOR USE OF KEYBOARD AND DISPLAY SYSTEM WHICH
# LOCKS OUT INTERNAL USE WHENEVER THERE IS EXTERNAL KEYBOARD ACTION.
#
# NVSUB SHOULD BE USED TWICE IN SUCCESSION FOR 'PLEASE PERFORM' SITUATIONS
# (SIMILARLY FOR PLEASE MARK). FIRST PLACE THE CODED NUMBER FOR WHAT
# ACTION IS DESIRED OF OPERATOR INTO THE REGISTERS REFERRED TO BY THE
# 'CHECKLIST' NOUN. GO TO NVSUB WITH A DISPLAY VERB AND THE 'CHECKLIST'
# NOUN. GO TO NVSUB AGAIN WTIH THE 'PLEASE PERFORM' VERB AND ZEROS IN THE
# LOW 7 BITS. THIS 'PASTES UP' THE 'PLEASE PERFORM' VERB INTO THE VERB
# LIGHTS.
#
# NVMONOPT IS AN ENTRY SIMILAR TO NVSUB, BUT REQUIRING AN ADDITIONAL
# Page 452
# PARAMETER IN L. IT SHOULD BE USED ONLY WITH A MONITOR VERB-NOUN CODE IN
# A. AFTER EACH MONITOR DISPLAY A *PLEASE* VERB WILL BE PASED INT THE VERB
# LIGHTS OR DATA WILL BE BLANKED (OR BOTH) ACCORDING TO THE OPTIONS
# SPECIFIED IN L. IF BITS 8-14 OF L ARE OTHER THAN ZERO, THEN THEY WILL
# BE INTERPRETED AS A VERB CODE AND PASTED IN THE VERB LIGHTS. (THIS VERB
# CODE SHOULD DESIGNATE ONE OF THE *PLEASE* VERBS.) IF BITS 1-3 OF L ARE
# OTHER THAN ZERO, THEN THEY WILL BE USED TO BLANK DATA BY BEING FED TO
# BLANKSUB. IF NVMONOPT IS USED WITH A VERB OTHER THAN A MONITOR VERB,
# THE PARAMETER IN L HAS NO EFFECT.
#
# NVSUB IN FIXED-FIXED PLACES 2+CALLING LOC INTO NVQTEM, TC NVSUBEND INTO
# ENTRET. (THIS WILL RESTORE OLD CALLING BANK BITS)
SETLOC ENDALM +1
COUNT* $$/PIN
NVSUB LXCH 7 # ZERO NVMONOPT OPTIONS
NVMONOPT TS NVTEMP
CAF BIT14
MASK MONSAVE1 # EXTERNAL MONITOR BIT
AD DSPLOCK
CCS A
TC Q # DSP SYST BLOCKED, RET TO 1+ CALLING LOC
CAF ONE # DSP SYST AVAILABLE.
NVSBCOM AD Q
TS NVQTEM # 2+ CALLING LOC INTO NVQTEM
LXCH MONSAVE2 # STORE NVMONOPT OPTIONS
TC KILMONON # TURN ON KILL MONITOR BIT
NVSUBCOM CAF NVSBBBNK
XCH BBANK
EXTEND # SAVE OLD SUPERBITS
ROR SUPERBNK
TS NVBNKTEM
CAF PINSUPBT
EXTEND
WRITE SUPERBNK
TC NVSUBB # GO TO NVSUB1 THRU STANDARD LOC
EBANK= DSPCOUNT
NVSBBBNK BBCON NVSUB1
PINSUPBT = NVSBBBNK # CONTAINS THE PINBALL SUPERBITS.
NVSUBEND DXCH NVQTEM # NVBNKTEM MUST = NVQTEM+1
TC SUPDXCHZ # DTCB WITH SUPERBIT SWITCHING
SETLOC ENDRQWT +1
COUNT* $$/PIN
# BLANKDSP BLANKS DISPLAY ACCORDING TO OPTION NUMBER IN NVTEMP AS FOLLOWS
# Page 453
# -4 FULL BLANK, -3 LEAVE MODE, -2 LEAVE MODE AND VERB, -1 BLANK R'S ONLY.
BLANKDSP AD SEVEN # 7,8,9, OR 10 (A HAD 0,1,2,OR 3)
INHINT
TS CODE # BLANK SPECIFIED DSPTABS
CS BIT12
INDEX CODE
XCH DSPTAB
CCS A
INCR NOUT
TC +1
CCS CODE
TC BLANKDSP +2
RELINT
INDEX NVTEMP
TC +5
TC +1 # NVTEMP HAS -4 (NEVER TOUCH MODREG)
TS VERBREG # -3
TS NOUNREG # -2
TS CLPASS # -1
CS VD1
TS DSPCOUNT
TC FLASHOFF # PROTECT AGAINS INVISIBLE FLASH
TC ENTSET -2 # ZEROS REQRET
NVSUB1 CAF ENTSET # IN BANK
TS ENTRET # SET RETURN TO NVSUBEND
CCS NVTEMP # WHAT NOW
TC +4 # NORMAL NVSUB CALL (EXECUTE VN OR PASTE)
TC GODSPALM
TC BLANKDSP # BLANK DISPLAY AS SPECIFIED
TC GODSPALM
CAF LOW7
MASK NVTEMP
TS MPAC +3 # TEMP FOR NOUN (CANT USE MPAC. DSPDECVN
CA NVTEMP # USES MPAC, +1, +2).
TS EDOP # RIGHT 7
CA EDOP
TS MPAC +4 # TEMP FOR VERB (CANT USE MPAC+1. DSPDECVN
# USES MPAC, +1, +2).
CCS MPAC +3 # TEST NOUN
TC NVSUB2 # IF NOUN NOT +0, GO ON
CA MPAC +4
TC UPDATVB -1 # IF NOUN = +0, DISPLAY VERB, THEN RETURN
CAF ZERO # XERO REQRET SO THAT PASTED VERBS CAN
TS REQRET # BE EXECUTED BY OPERATOR.
ENTSET TC NVSUBEND
NVSUB2 CCS MPAC +4 # TEST VERB
TC +4 # IF VERB NOT +0, GO ON
CA MPAC +3
# Page 454
TC UPDATNN -1 # IF VERB = +0, DISPLAY NOUN, THEN RETURN
TC NVSUBEND
CA MPAC +2 # TEMP FOR MACH CADR TO BE SPEC. (DSPDECVN
TS MPAC +5 # USES MPAC, +1, +2)
CA MPAC +4
TC UPDATVB -1 # IF BOTH NOUN AND VERB NOT +0, DISPLAY
CA MPAC +3 # BOTH AND GO TO ENTPAS0.
TC UPDATNN -1
CAF ZERO
TS LOADSTAT # SET FOR WAITING FOR DATA CONDITION
TS CLPASS
TS REQRET # SET REQRET FOR PASS 0.
CA MPAC +5 # RESTORES MACH CADR TO BE SPEC TO MPAC+2
TS MPAC +2 # FOR USE IN INTMCTBS (IN ENTPAS0).
ENDNVSB1 TC ENTPAS0
# IF INTERNAL MACH CADR TO BE SPECIFIED, MPAC+2 WILL BE PLACED INTO
# NOUNCADR IN ENTPAS0 (INTMCTBS).
SETLOC NVSUBEND +2
COUNT* $$/PIN
# FORCE BIT 15 OF MONSAVE1 TO 1.
KILMONON CAF BIT15 # THIS IS THE KILL MONITOR BIT.
TS MONSAVE1 # TURN OFF BIT 14, THE EXTERNAL
# MONITOR BIT.
TC Q
# LOADSTAT +0 INACTIVE (WAITING FOR DATA). SET BY NVSUB
# +1 PROCEED NO DATA. SET BY SPECIAL VERB
# -1 TERMINATE. SET BY SPECIAL VERB.
# -0 DATA IN SET BY END OF LOAD ROUTINE
# OR RESEQUENCE SET BY VERB 32
#
# L TO ENDIDLE (FIXED FIXED)
# ROUTINES THAT REQUEST LOADS THROUGH NVSUB SHOULD USE ENDIDLE WHILE
# WAITING FOR THE DATA TO BE LOADED. ENDIDLE PUTS CURRENT JOB TO SLEEP.
# ENDIDLE CANNOT BE CALLED FROM ERASABLE OR F/F MEMORY,
# SINCE JOB SLEEP AND JOBWAKE CAN HANDLE ONLY FIXED BANKS.
# RECALTST TESTS LOADSTAT AND WAKES JOB UP TO,
# L+1 FOR TERMINATE
# L+2 FOR PROCEED WITHOUT DATA
# L+3 FOR DATA IN, OR RESEQUENCE
# IT DOES NOTHING IF LOADSTAT INDICATES WAITING FOR DTA.
#
# ENDIDLE ABORTS (WITH CODE 1206) IF A SECOND JOB ATTEMPTS TO GO TO SLEEP
# Page 455
# IN PINBALL. IN PARTICULAR, IF AN ATTEMPT IS MADE TO GO TO ENDIDLE WHEN
# 1) CADRSTOR NOT= +0. THIS IS THE CASE WHERE THE CAPACITY OF ENDIDLE IS
# EXCEEDED. (+-NZ INDICATES A JOB IS ALREADY ASLEEP DUE TO ENDIDDLE.)
# 2) DSPLIST NOT= +0. THIS INDICATES A JOB IS ALREADY ASLEEP DUE TO
# NVSUBUSY.
ENDIDLE LXCH Q # RETURN ADDRESS INTO L.
TC ISCADR+0 # ABORT IF CADRSTOR NOT= +0
TC ISLIST+0 # ABORT IF DSPLIST NOT= +0
CA L # DONT SET DSPLOC TO 1 SO CAN USE
MASK LOW10 # ENDIDLE WITH NVSUB INITIATED MONITOR.
AD FBANK # SAME STRATEGY FOR CADR AS MAKECADR.
TS CADRSTOR
TC JOBSLEEP
ENDINST TC ENDOFJOB
ISCADR+0 CCS CADRSTOR # ABORTS (CODE 01206) IF CADRSTOR NOT= +0.
TC DSPABORT # RETURNS IF CADRSTOR = +0.
TC Q
TC DSPABORT
ISLIST+0 CCS DSPLIST # ABORTS (CODE 01206) IF DSPLIST NOT= +0.
TC DSPABORT # RETURNS IF DSPLIST = +0.
TC Q
DSPABORT TC POODOO
OCT 01206
# JAMTERM ALLOWS PROGRAMS TO PERFORM THE TERMINATE FUNCTION.
# IT DOES ENDOFJOB.
JAMTERM CAF PINSUPBT
EXTEND
WRITE SUPERBNK
CAF 34DEC
TS REQRET # LEAVE ENTER SET FOR ENTPASS0.
CS VD1
TS DSPCOUNT
TC POSTJUMP
CADR VBTERM
34DEC DEC 34
# JAMPROC ALLOWS PROGRAMS TO PERFORM THE PROCEED/PROCEED WITHOUT DATA
# FUNCTION. IT DOES ENDOFJOB.
# Page 456
JAMPROC CAF PINSUPBT
EXTEND
WRITE SUPERBNK
CAF 33DEC
TS REQRET # LEAVE ENTER SET FOR ENTPASS0.
CS VD1
TS DSPCOUNT
TC POSTJUMP
CADR VBPROC
33DEC DEC 33
# BLANKSUB BLANKS ANY COMBINATION OF R1, R2, R3.
# CALL WITH BLANKING CODE IN A.
# BIT1=1 BLANKS R1, BIT2=1 BLANKS R2, BIT3=1 BLANKS R3.
# ANY COMBINATION OF THESE BITS IS ACCEPTED.
#
# DSPCOUNT IS RESTORED TO STATE IT WAS IN BEFORE BLANKSUB WAS EXECUTED.
BLANKSUB MASK SEVEN
TS NVTEMP # STORE BLANKING CODE IN NVTEMP.
CAF BIT14
MASK MONSAVE1 # EXTERNAL MONITOR BIT
AD DSPLOCK
CCS A
TC Q # DSP SYST BLOCKED. RET TO 1+ CALLING LOC
INCR Q # DSP SYST AVAILABLE
# SET RETURN FOR 2+ CALLING LOC
CCS NVTEMP
TCF +2
TC Q # NOTHING TO BLANK. RET TO 2+ CALLING LOC
LXCH Q # SET RETURN FOR 2 + CALLING LOC
CAF BLNKBBNK
XCH BBANK
EXTEND
ROR SUPERBNK # SAVE OLD SUPERBITS.
DXCH BUF
CAF PINSUPBT
EXTEND
WRITE SUPERBNK
TC BLNKSUB1
EBANK= DSPCOUNT
BLNKBBNK BBCON BLNKSUB1
ENDBLFF EQUALS
SETLOC ENDRELDS
COUNT* $$/PIN
BLNKSUB1 CA DSPCOUNT # SAVE OLD DSPCOUNT FOR LATER RESTORATION
# Page 457
TS BUF +2
CAF BIT1 # TEST BIT1. SEE IF R1 TO BE BLANKED.
TC TESTBIT
CAF R1D1
TC 5BLANK -1
CAF BIT2 # TEST BIT2. SEE IF R2 TO BE BLANKED.
TC TESTBIT
CAF R2D1
TC 5BLANK -1
CAF BIT3 # TEST BIT3. SEE IF R3 TO BE BLANKED.
TC TESTBIT
CAF R3D1
TC 5BLANK -1
CA BUF +2 # RESTORE DSPCOUNT TO STATE IT HAD
TS DSPCOUNT # BEFORE BLANKSUB.
DXCH BUF # CALL L+2 DIRECTLY.
TC SUPDXCHZ +1 # DTCB WITH SUPERBIT SWITCHING
TESTBIT MASK NVTEMP # NVTEMP CONTAINS BLANKING CODE.
CCS A
TC Q # IF CURRENT BIT = 1, RETURN TO L+1.
INDEX Q # IF CURRENT BIT = 0, RETURN TO L+3.
TC 2
ENDBSUB1 EQUALS
# DSPMM DOES NOT DISPLAY MODREG DIRECTLY. IT PUTS IN EXEC REQUEST WITH
# PRIO 30000 FOR DSPMMJB AND RETURNS TO CALLER.
#
# IF MODREG CONTAINS -0, DSPMMJB BLANKS THE MODE LIGHTS.
#
# DSPMM MUST BE IN BANK 27 OR LOWER, SO IT CAN BE CALLED VIA BANKCALL.
BANK 7
SETLOC PINBALL4
BANK
COUNT* $$/PIN
DSPMM XCH Q
TS MPAC
INHINT
CAF CHRPRIO
TC NOVAC
EBANK= DSPCOUNT
2CADR DSPMMJB
RELINT
ENDSPMM TC MPAC
# Page 458
# DSPMM PLACE MAJOR MODE CODE INTO MODREG
SETLOC ENDBSUB1
COUNT* $$/PIN
DSPMMJB CAF MD1 # GETS HERE THRU DSPMM
XCH DSPCOUNT
TS DSPMMTEM # SAVE DSPCOUNT
CCS MODREG
AD ONE
TC DSPDECVN # IF MODREG IS + OR +0, DISPLAY MODREG
TC +2 # IF MODREG IS -NZ, DO NOTHING
TC 2BLANK # IF MODREG IS -0, BLANK MM
XCH DSPMMTEM # RESTORE DSPCOUNT
TS DSPCOUNT
TC ENDOFJOB
# RECALTST IS ENTERED DIRECTLY AFTER DATA IS LOADED (OR RESEQUENCE VERB IS
# EXECUTED), TERMINATE VERB IS EXECUTED, OR PROCEED WITHOUT DATA VERB IS
# EXECUTED. IT WAKES UP JOB THAT DID TC ENDIDLE.
#
# IF CADRSTOR NOT= +0, IT PUTS +0 INTO DSPLOCK, AND TURNS OFF KEY RLSE
# LIGHT IF DSPLIST IS EMPTY (LEAVES KEY RLSE LIGHT ALONE IF NOT EMPTY).
RECALTST CCS CADRSTOR
TC RECAL1
TC ENDOFJOB # NORMAL EXIT IF KEYBOARD INITIATED
RECAL1 CAF ZERO
XCH CADRSTOR
INHINT
TC JOBWAKE
CCS LOADSTAT
TC DOPROC # + PROCEED WITHOUT DATA
TC ENDOFJOB # PATHALOGICAL CASE EXIT
TC DOTERM # - TERMINATE
CAF TWO # -0 DATA IN OR RESEQUENCE
RECAL2 INDEX LOCCTR
AD LOC # LOC IS + FOR BASIC JOBS
INDEX LOCCTR
TS LOC
CA NOUNREG # SAVE VERB IN MPAC, NOUN IN MPAC+1 AT
TS L # TIME OF RESPONSE TO ENDIDLE FOR
CA VERBREG # POSSIBLE LATER TESTING BY JOB THAT HAS
INDEX LOCCTR # BEEN WAKED UP.
DXCH MPAC
RELINT
RECAL3 TC RELDSP
TC ENDOFJOB
# Page 459
DOTERM CAF ZERO
TC RECAL2
DOPROC CAF ONE
TC RECAL2
# Page 460
# MISCELLANEOUS SERVICE ROUTINES IN FIXED/FIXED
SETLOC ENDBLFF
COUNT* $$/PIN
# SETNCADR E CADR ARRIVES IN A. IT IS STORED IN NOUNCADR. EBANK BITS
# ARE SET. E ADRES IS DERIVED AND PUT INTO NOUNADD.
SETNCADR TS NOUNCADR # STORE ECADR
TS EBANK # SET EBANK BITS
MASK LOW8
AD OCT1400
TS NOUNADD # PUT E ADRES INTO NOUNADD
TC Q
# SETNADD GETS E CADR FROM NOUNCADR, SETS EBANK BITS, DERIVES
# E ADRES AND PUTS IT INTO NOUNADD.
SETNADD CA NOUNCADR
TCF SETNCADR +1
# SETEBANK E CADR ARRIVES IN A. EBANK BITS ARE SET. E ADRES IS
# DERIVED AND LEFT IN A.
SETEBANK TS EBANK # SET EBANK BITS
MASK LOW8
AD OCT1400 # E ADRES LEFT IN A
TC Q
R1D1 OCT 16 # THESE 3 CONSTANTS FORM A PACKED TABLE.
R2D1 OCT 11 # DONT SEPARATE.
R3D1 OCT 4
RIGHT5 TS CYR
CS CYR
CS CYR
CS CYR
CS CYR
XCH CYR
TC Q
LEFT5 TS CYL
CS CYL
CS CYL
CS CYL
CS CYL
# Page 461
XCH CYL
TC Q
SLEFT5 DOUBLE
DOUBLE
DOUBLE
DOUBLE
DOUBLE
TC Q
LOW5 OCT 37 # THESE 3 CONSTANTS FORM A PACKED TABLE.
MID5 OCT 1740 # DONT SEPARATE.
HI5 OCT 76000 # MUST STAY HERE
TCNOVAC TC NOVAC
TCWAIT TC WAITLIST
TCTSKOVR TC TASKOVER
TCFINDVC TC FINDVAC
CHRPRIO OCT 30000 # EXEC PRIORITY OF CHARIN
LOW11 OCT 3777
B12-1 EQUALS LOW11
LOW8 OCT 377
VD1 OCT 23 # THESE 3 CONSTANTS FORM A PACKED TABLE.
ND1 OCT 21 # DONT SEPARATE.
MD1 OCT 25
BINCON DEC 10
FALTON CA BIT7 # TURN ON OPERATOR ERROR LIGHT.
EXTEND
WOR DSALMOUT # BIT 7 OF CHANNEL 11
TC Q
FALTOF CS BIT7 # TURN OFF OPERATOR ERROR LIGHT
EXTEND
WAND DSALMOUT # BIT 7 OF CHANNEL 11
TC Q
RELDSPON CAF BIT5 # TURN ON KEY RELEASE LIGHT
EXTEND
WOR DSALMOUT # BIT 5 OF CHANNEL 11
TC Q
# Page 462
LODSAMPT EXTEND
DCA TIME2
DXCH SAMPTIME
TC Q
TPSL1 EXTEND # SHIFTS MPAC, +1, +2 LEFT 1
DCA MPAC +1 # LEAVES OVFIND SET TO +/- 1 FOR OF/UF
DAS MPAC +1
AD MPAC
ADS MPAC
TS 7 # TS A DOES NOT CHANGE A ON OF/UF.
TC Q # NO NET OF/UF
TS MPAC+6 # MPAC +6 SET TO +/- 1 FOR OF/UF
TC Q
# IF MPAC, +1 ARE EACH +NZ OR +0 AND C(A)=-0, SHORTMP WRONGLY GIVES +0.
# IF MPAC, +1 ARE EACH -NZ OR -0 AND C(A)=+0, SHORTMP WRONGLY GIVES +0.
# PRSHRTMP FIXES FORST CASE ONLY, BY MERELY TESTING C(A) AND IF IT = -0,
# SETTING RESULT TO -0.
# (DO NOT USE PRSHRTMP UNLESS MPAC, +1 ARE EACH +NZ OR +0, AS THEY ARE
# WHEN THEY CONTAIN THE SF CONSTANTS.)
PRSHRTMP TS MPTEMP
CCS A
CA MPTEMP # C(A) +, DO REGULAR SHORTMP
TCF SHORTMP +1 # C(A) +0, DO REGULAR SHORTMP
TCF -2 # C(A) -, DO REGULAR SHORTMP
CS ZERO # C(A) -0, FORCE RESULT TO -0 AND RETURN.
TS MPAC
TS MPAC +1
TS MPAC +2
TC Q
FLASHON CAF BIT6 # TURN ON V/N FLASH
EXTEND # BIT 6 OF CHANNEL 11
WOR DSALMOUT
TC Q
FLASHOFF CS BIT6 # TURN OFF V/N FLASH
EXTEND
WAND DSALMOUT
TC Q
# Page 463
# INTERNAL USE OF KEYBOARD AND DISPLAY PROGRAM.
#
# USER MUST SCHEDULE CALLS TO NVSUB SO THAT THERE IS NO CONFLICT OF USE OR
# CONFUSION TO OPERATOR. THE OLD GRABLOCK (INTERNAL/INTERNAL INTERLOCK)
# HAS BEEN REMOVED AND THE INTERNAL USER NO LONGER HAS THE PROTECTION THIS
# OFFERED.
#
# THERE ARE TWO WAYS A JOB CAN BE PUT TO SLEEP BY THE KEYBOARD + DISPLAY
# PROGRAM. 1) BY ENDIDLE
# 2) BY NVSUBUSY
# THE BASIC CONVENTION IS THAT ONLY ONE JOB WILL BE PERMITTED ASLEEP VIA
# THE KEYBOARD + DISPLAY PROGRAM AT A TIME. IF A JOB ATTEMPTS TO GO TO
# SLEEP BY MEANS OF (1) OR (2) AND THERE IS ALREADY A JOB ASLEEP THAT WAS
# PUT TO SLEEP BY (1) OR (2), THEN AN ABORT IS CAUSED.
#
# THE CALLING SEQUENCE FOR NVSUB IS
# CAF V/N
# L TC NVSUB
# L+1 RETURN HERE IF OPERATOR HAS INTERVENED
# L+2 RETURN HERE AFTER EXECUTION
#
# A ROUTINE CALLED NVSUBUSY IS PROVIDED (USE IS OPTIONAL) TO PUT
# YOUR JOB TO SLEEP UNTIL THE OPERATOR RELEASES THE KEYBOARD + DISPLAY
# SYSTEM. NVSUBUSY ALSO TURNS ON THE KEY RELEASE LIGHT.
# NVSUBUSY CANNOT BE CALLED FROM ERASABLE OR F/F MEMORY,
# SINCE JOBSLEEP AND JOBWAKE CAN HANDLE ONLY FIXED BANKS.
#
# THE CALLING SEQUENCE IS
# CAF WAKEFCADR
# TC NVSUBUSY
#
#
# .
#
# NVSUBUSY IS INTENDED FOR USE WHEN AN INTERNAL PROGRAM FINDS THE OPERATOR
# IS NOT USING THE KEYBOARD + DISPLAY PROGRAM (BY HIS OWN INITIATION). IT IS
# NOT INTENDED FOR USE WHEN ONE INTERNAL PROGRAM FINDS ANOTHER INTERNAL
# PROGRAM USING THE KEYBOARD + DISPLAY PROGRAM.
#
# NVSUBUSY ABORTS (WITH CODE 01206) IF A SECOND JOB ATTEMPTS TO GO TO
# SLEEP IN PINBALL. IN PARTICULAR, IF AN ATTEMPT IS MADE TO GO TO NVSUBUSY
# WHEN
# 1) DSPLIST NOT= +0. THIS IS THE CASE WHERE THE CAPACITY OF THE DSPLIST
# IS EXCEEDED.
# 2) CADRSTOR NOT= +0. THIS INDICATES THAT A JOB IS ALREADY USING
# Page 464
# ENDIDLE. (+-NZ INDICATE A JOB IS ALREADY ASLEEP DUE TO ENDIDLE.)
PRENVBSY CS 2K+3 # SPECIAL ENTRANCE FOR ROUTINES IN FIXED
AD Q # BANKS ONLY DESIRING THE FCADR OF (LOC
AD FBANK # FROM WHICH THE TC PRENVBSY WAS DONE) -2
NVSUBUSY TC POSTJUMP # TO BE ENTERED.
CADR NVSUBSY1
2K+3 OCT 2003
# NVSUBSY1 MUST BE IN BANK 27 OR LOWER, SO IT WILL PUT CALLER TO SLEEP
# WITH HIS PROPER SUPERBITS.
SETLOC ENDSPMM +1
COUNT* $$/PIN
NVSUBSY1 TS L
TC ISCADR+0 # ABORT IF CADRSTOR NOT= +0.
TC ISLIST+0 # ABORT IF DSPLIST NOT= +0.
TC RELDSPON
CA L
TS DSPLIST
ENDNVBSY TC JOBSLEEP
# NVSBWAIT IS A SPECIAL ENTRANCE FOR ROUTINES IN FIXED BANKS ONLY. IF
# SYSTEM IS NOT BUSY, IT EXECUTES V/N AND RETURNS TO L+1 (L= LOC FROM
# WHICH THE TC NVSBWAIT WAS DONE). IF SYSTEM IS BUSY, IT PUTS CALLING JOB
# TO SLEEP WITH L-1 GOING INTO LIST FOR EVENTUAL WAKING UP WHEN SYSTEM
# IS NOT BUSY.
SETLOC NVSUBUSY +3
COUNT* $$/PIN
NVSBWAIT LXCH 7 # ZERO NVMONOPT OPTIONS
TS NVTEMP
CAF BIT14
MASK MONSAVE1 # EXTERNAL MONITOR BIT
AD DSPLOCK
CCS A
TCF NVSBWT1 # BUSY
TCF NVSBCOM # FREE. NVSUB WILL SAVE L+1 FOR RETURN
# AFTER EXECUTION.
NVSBWT1 INCR Q # L+2. PRENVBSY WILL PUT L-1 INTO LIST AND
TCF PRENVBSY # GO TO SLEEP.
# RELDSP IS USED BY VBPROC, VBTERM, VBRQEXEC, VBRQWAIT, VBRELDSP, EXTENDED
# VERB DISPATCHER, VBRESEQ, RECALTST.
# RELDSP1 IS USED BY MONITOR SET UP, VBRELDSP.
RELDSP XCH Q # SET DSPLOCK TO +0, TURN RELDSP LIGHT
TS RELRET # OFF, SEARCH DSPLIST
CS BIT14
# Page 465
INHINT
MASK MONSAVE1
TS MONSAVE1 # TURN OFF EXTERNAL MONITOR BIT
CCS DSPLIST
TC +2
TC RELDSP2 # LIST EMPTY
CAF ZERO
XCH DSPLIST
TC JOBWAKE
RELDSP2 RELINT
CS BIT5 # TURN OFF KEY RELEASE LIGHT
EXTEND # (BIT 5 OF CHANNEL 11)
WAND DSALMOUT
CAF ZERO
TS DSPLOCK
TC RELRET
RELDSP1 XCH Q # SET DSPLOCK TO +0. NO DSPLIST SEARCH.
TS RELRET # TURN KEY RLSE LIGHT OFF IF DSPLIST IS
# EMPTY. LEAVE KEY RLSE LIGHT ALONE IF
# DSPLIST IS NOT EMPTY.
CCS DSPLIST
TC +2 # + NOT EMPTY. LEAVE KEY RLSE LIGHT ALONE.
TC RELDSP2 # +0 EMPTY. TURN OFF KEY RLSE LIGHT
CAF ZERO # - NOT EMPTY. LEAVE KEY RLSE LIGHT ALONE
TS DSPLOCK
TC RELRET
ENDPINBF EQUALS
# Page 466
# PINTEST IS NEEDED FOR AUTO CHECK OF PINBALL.
PINTEST EQUALS LST2FAN
# Page 467
# VBTSTLTS TURNS ON ALL DISPLAY PANEL LIGHTS. AFTER 5 SEC, IT TURNS
# OFF THE CAUTION AND STATUS LIGHTS.
SETLOC ENDNVSB1 +1
COUNT* $$/PIN
VBTSTLTS INHINT
CS BIT1 # SET BIT 1 OF IMODES33 SO IMUMON WONT
MASK IMODES33 # TURN OUT ANY LAMPS.
AD BIT1
TS IMODES33
CAF TSTCON1 # TURN ON UPLINK ACTIVITY, TEMP, KEY RLSE,
EXTEND # V/N FLASH, OPERATOR ERROR.
WOR DSALMOUT
CAF TSTCON2 # TURN ON NO ATT, GIMBAL LOCK, TRACKER,
TS DSPTAB +11D # PROG ALM.
CAF BIT10 # TURN ON TEST ALARM OUTBIT
EXTEND
WOR CHAN13
CAF TEN
TSTLTS1 TS ERCNT
CS FULLDSP
INDEX ERCNT
TS DSPTAB
CCS ERCNT
TC TSTLTS1
CS FULLDSP1
TS DSPTAB +1 # TURN ON 3 PLUS SIGNS
TS DSPTAB +4
TS DSPTAB +6
CAF ELEVEN
TS NOUT
RELINT
CAF SHOLTS
INHINT
TC WAITLIST
EBANK= DSPTAB
2CADR TSTLTS2
TC ENDOFJOB # DSPLOCK IS LEFT BUSY (FROM KEYBOARD
# ACTION) UNTIL TSTLTS3 TO INSURE THAT
# LIGHTS TEST WILL BE SEEN.
FULLDSP OCT 05675 # DISPLAY ALL 8'S
FULLDSP1 OCT 07675 # DISPLAY ALL 8'S AND +
TSTCON1 OCT 00175
# UPLINK ACTIVITY, TEMP. KEY RLSE,
# V/N FLASH, OPERATOR ERROR.
# Page 468
TSTCON2 OCT 40674 # DSPTAB+11D BITS 3,4,5,6,8,9 LR LITES,
# NO ATT, GIMBAL LOCK, TRACKER, PROG ALM.
TSTCON3 OCT 00115 # CHAN 11 BITS 1, 3, 4, 7.
# UPLINK ACITIVY, TEMP, OPERATOR ERROR.
SHOLTS OCT 764 # 5 SEC
TSTLTS2 CAF CHRPRIO # CALLED BY WAITLIST
TC NOVAC
EBANK= DSPTAB
2CADR TSTLTS3
TC TASKOVER
TSTLTS3 CS TSTCON3 # CALLED BY EXECUTIVE
INHINT
EXTEND # TURN OFF UPLINK ACTIVITY, TEMP,
WAND DSALMOUT # OPERATOR ERROR.
CS BIT10 # TURN OFF TEST ALARM OUTBIT
EXTEND
WAND CHAN13
CAF BIT4 # MAKE NO ATT FOLLOW BIT 4 OF CHANNEL 12
EXTEND # (NO ATT LIGHT ON IF IN COARSE ALIGN)
RAND CHAN12
AD BIT15 # TURN OFF AUTO, HOLD, FREE, SPARE,
TS DSPTAB +11D # GIMBAL LOCK, SPARE, TRACKER, PROG ALM
CS 13-11,1 # SET BITS TO INDICATE ALL LAMPS OUT. TEST
MASK IMODES33 # LIGHTS COMPLETE.
AD PRIO16
TS IMODES33
CS OCT55000
MASK IMODES30
AD PRIO15 # 15000.
TS IMODES30
CS RFAILS2
MASK RADMODES
AD RCDUFBIT
TS RADMODES
RELINT
TC BANKCALL # REDISPLAY C(MODREG)
CADR DSPMM
TC KILMONON # TURN ON KILL MONITOR BIT.
TC FLASHOFF # TURN OFF V/N FLASH.
TC POSTJUMP # DOES RELDSP AND GOES TO PINBRNCH IF
CADR TSTLTS4 # ENDIDLE IS AWAITING OPERATOR RESPONSE.
# Page 469
13-11,1 OCT 16001
RFAILS2 OCT 330 # RADAR CDU AND DATA FAIL FLAGS.
OCT55000 OCT 55000
ENDPINS2 EQUALS
# Page 470
# ERROR LIGHT RESET (RSET) TURNS OFF:
# UPLINK ACTIVITY, AUTO, HOLD, FREE, OPERATOR ERROR,
# PROG ALM, TRACKER FAIL.
# LEAVES GIMBAL LOCK AND NO ATT ALONE.
# IT ALSO ZEROS THE 'TEST ALARM' OUT BIT, WHICH TURNS OFF STBY, RESTART.
# IT ALSO SETS 'CAUTION RESET' TO 1.
# IT ALSO FORCES BIT 12 OF ALL DSPTAB ENTRIES TO 1.
SETLOC DOPROC +2
COUNT* $$/PIN
ERROR XCH 21/22REG # RESTORE ORIGINAL C(DSPLOCK). THUS ERROR
TS DSPLOCK # LIGHT RESET LEAVES DSPLOCK UNCHANGED.
INHINT
CAF BIT10 # TURN ON 'CAUTION RESET' OUTBIT
EXTEND
WOR DSALMOUT # BIT10 CHAN 11
CAF GL+NOATT # LEAVE GIMBAL LOCK AND NO ATT INTACT,
MASK DSPTAB +11D # TURNING OFF AUTO, HOLD, FREE,
AD BIT15 # PROG ALARM, AND TRACKER.
TS DSPTAB +11D
CS PRIO16 # RESET FAIL BITS WHICH GENERATE PROG
MASK IMODES33 # ALARM SO THAT IF THE FAILURE STILL
AD PRIO16 # EXISTS, THE ALARM WILL COME BACK.
TS IMODES33
CS BIT10
MASK IMODES30
AD BIT10
TS IMODES30
CS RFAILS
MASK RADMODES
AD RCDUFBIT
TS RADMODES
CS BIT10 # TURN OFF 'TEST ALARM' OUTBIT.
EXTEND
WAND CHAN13
CS ERCON # TURN OFF UPLINK ACTIVITY,
EXTEND # OPERATOR ERROR.
WAND DSALMOUT
TSTAB CAF BINCON # (DEC 10)
TS ERCNT # ERCNT = COUNT
INHINT
INDEX ERCNT
CCS DSPTAB
AD ONE
TC ERPLUS
AD ONE
ERMINUS CS A
MASK NOTBIT12
# Page 471
TC ERCOM
ERPLUS CS A
MASK NOTBIT12
CS A # MIGHT WANT TO RESET CLPASS, DECBRNCH,
ERCOM INDEX ERCNT # ETC.
TS DSPTAB
RELINT
CCS ERCNT
TC TSTAB +1
CAF ZERO
TS FAILREG
TS FAILREG +1
TS FAILREG +2
TS SFAIL
TC ENDOFJOB
ERCON OCT 104 # CHAN 11 BITS 3,7.
# UPLINK ACTIVITY, AND OPERATOR ERROR.
RFAILS OCT 330 # RADAR CDU AND DATA FAIL FLAGS.
GL+NOATT OCT 00050 # NO ATT AND GIMBAL LOCK LAMPS
NOTBIT12 OCT 73777
ENDPINS1 EQUALS
SBANK= LOWSUPER
