Trailing-Edge
-
PDP-10 Archives
-
BB-J724A-SM_1980
-
sources/xl3780.p11
There are 16 other files named xl3780.p11 in the archive. Click here to see a list.
.SBTTL XL3780
;
; THIS SECTION CONTAINS THE TRANSLATE TASK, THE IDLE TASK
; AND THE TABLES USED BY THE TRANSLATE (XLATE) TASK
; TO CONVERT BETWEEN ASCII AND EBCDIC, AND TO SIMULATE
; A PRINTER CARRIAGE CONTROL TAPE.
;
.REPT 0
COPYRIGHT (c) 1980, 1979
DIGITAL EQUIPMENT CORPORATION, maynard, mass.
THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY BE USED AND COPIED
ONLY IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE AND WITH THE
INCLUSION OF THE ABOVE COPYRIGHT NOTICE. THIS SOFTWARE OR ANY OTHER
COPIES THEREOF MAY NOT BE PROVIDED OR OTHERWISE MADE AVAILABLE TO ANY
OTHER PERSON. NO TITLE TO AND OWNERSHIP OF THE SOFTWARE IS HEREBY
TRANSFERRED.
THE INFORMATION IN THIS SOFTWARE IS SUBJECT TO CHANGE WITHOUT NOTICE
AND SHOULD NOT BE CONSTRUED AS A COMMITMENT BY DIGITAL EQUIPMENT
CORPORATION.
DIGITAL ASSUMES NO RESPONSIBILITY FOR THE USE OR RELIABILITY OF ITS
SOFTWARE ON EQUIPMENT WHICH IS NOT SUPPLIED BY DIGITAL.
.ENDR
;
;
;
;REVISION HISTORY
;
;
; 3(001) BS PAD CARDS TO 80. CHARACTERS WHEN IRS RECEIVED IN 3780 MODE
;
; 3(002) BS REMOVE EBCDIC TO ASCII TRANSLATION TABLES FOR USE WITH TRNTAB
;
; 3(003) BS RESET CDR TCHPS TO 0 FOR 2780/3780 SUPPORT AFTER 80 CHARACTERS
;
; 3(004) BS ALLOW TASK TO PROCESS ONLY ONE MESSAGE AT A TIME
;
; 3(005) BS SIGNAL INPUT EOF ONLY AFTER LAST MESSAGE SENT TO PDP-10
;
;
V3780=005
;
;
VEDIT=VEDIT+V3780
;
;
;
;
;
;
; SPECIFY TRANSLATE OPTIONS AVAILABLE
;
; BIT 0 = IBM 3780/2780
; BIT 1 = HASP MULTILEAVING
; BIT 2 = IBM 3270
; BITS 3-15 = RESERVED
;
XLOPTN=XLOPTN!B0 ;2780/3780 TRANSLATION AVAILABLE
;
;
; THIS TASK TRANSLATES DATA FROM ASCII TO EBCDIC AND FROM
; EBCDIC TO ASCII.
;
XLATE: BIT #TCOPR,TCFG2(R5) ;OUTPUT PERMISSION REQUESTED?
BNE 11$ ;YES, START OUTPUT.
JSR PC,XLWAIT ;NO, WAIT PROCESSING INPUT
BIT #TCOAB,TCFG2(R5) ;WAS ABORT FLAG SET?
BEQ XLATE ;NO.
JSR PC,XLOABT ;YES, CLEAR IT (NO OUTPUT RUNNING)
BR XLATE ; AND TRY AGAIN.
;
; HERE IF THE PDP-10 PROGRAM IS REQUESTING OUTPUT PERMISSION.
;
11$: MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R0 ;POINT TO BSC TASK
BIS #TCOPR,TCFG2(R0) ;ASK FOR A BID FOR THE LINE
MOV #^D20*JIFSEC,TCTIM(R5) ;20 SECONDS
12$: MOV #EBINTR!EBTIME!EBWAIT,(R5) ;WAIT FOR IT
JSR PC,WAIT
MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R0 ;POINT TO BSC TASK
BIT #TCOPR,TCFG2(R0) ;STILL BIDDING FOR THE LINE?
BEQ 13$ ;NO.
TST TCTIM(R5) ;YES, DID TIME EXPIRE?
BNE 12$ ;NO, KEEP WAITING.
BIC #TCOPR,TCFG2(R0) ;YES, CEASE BIDDING
BIC #TCOPR,TCFG2(R5) ;KILL OUTPUT REQUEST
BR XLATE ;THE BID WAS A FAILURE.
;
;
; HERE WHEN BIDDING IS COMPLETE.
;
13$: BIC #TCOPR,TCFG2(R5) ;NO LONGER REQUESTING PERMISSION
BIT #TCOPG,TCFG2(R0) ;DO WE HAVE OUTPUT PERMISSION?
BEQ XLATE ;NO, THE BID WAS A FAILURE.
BIS #TCOPG,TCFG2(R5) ;YES, TELL THE PDP-10 WE HAVE PERMISSION
;;++BS-CODE TO SET THE DEVICE ACTIVE BIT
JSR PC, HSSAVR ;SAVE THE REGISTERS
MOV TCLCB(R5), R2 ;POINT TO LCB
MOV LB.LNU(R2), R0 ;GET LINE NUMBER
BIC #177770, R0 ;CLEAR JUNK
BIT #LF.SIM, LB.FGS(R2) ;SIMULATION OR SUPPORT ?
BNE 36$ ;YES, MUST BE CDR
MOV #4, R1 ;NO, SUPPORT, MUST BE LPT
BR 37$ ;SET ACTIVE BIT
36$: MOV #3, R1 ;SIMULATION, MUST BE CDR
37$: JSR PC, HSACMP ;SET THE ACTIVE BIT
JSR PC, HSRESR ;RESTORE THE REGISTERS
;;++BS-END OF CODE TO SET THE DEVICE ACTIVE BIT
CLR LB.MSC(R4) ;INITIALIZE COUNT OF MSGS TO TRANSMIT
MOV TCBFP(R5),R0 ;INITIALIZE R0 AND R2 FOR
CLR R2 ; LINE BUFFER
CLR TCHPS(R5) ;ASSUME WE START AT LEFT MARGIN
CLR TCVPS(R5) ; AND AT THE TOP OF A PAGE
BIT #TCPRO,TCFG1(R5) ;CARRIAGE CONTROL ON OUTPUT?
BEQ 14$ ;NO.
MOV #EBCESC,R1 ;YES, PUT AN ESCAPE AT THE FRONT
JSR PC,XLAPBF ; OF THE LINE BUFFER
MOVB ASCEBC+'M,R1 ;AND AN 'M' IN THE SECOND PLACE
JSR PC,XLAPBF ; TO MEAN "NO SPACING".
14$:
;
; FALL INTO XLASEB
;
;
; HERE TO TRANSLATE CHUNKS FROM ASCII TO EBCDIC.
;
XLASEB:
11$: MOV R0,-(SP) ;SAVE R0 (LINE BUFFER POINTER)
MOV R2,-(SP) ; AND R2 (LINE BUFFER COUNTER)
12$: MOV #EBQCHK!EBINTR!EBTIME!EBWAIT,(R5) ;SET UP FOR WAIT
MOV #JIFSEC-11,TCTIM(R5)
BIT #TCOAB,TCFG2(R5) ;IS THE STREAM ABORTED?
; BNE 22$ ;YES, EMPTY THE QUEUES.
BEQ 29$ ;NO, GET A CHUNK
JMP 22$ ;YES, EMPTY THE QUEUES
29$: JSR PC,DEQCHK ;NO, GET A CHUNK
BCC 16$ ;GOT ONE.
BIT #TCOEF,TCFG2(R5) ;NONE, END OF FILE?
BNE 17$ ;YES, SEND ETX.
BIT #TCDMP,TCFG1(R5) ;NO, HAS PDP-10 REQUESTED A DUMP?
BEQ 13$ ;NO.
MOV (SP)+,R2 ;YES, RESTORE R2
MOV (SP)+,R0 ; AND R0
JSR PC,XLODMP ;EMPTY OUR BUFFERS
BCS 23$ ;STREAM ABORTED
BR 11$ ;RECIRCULATE
;
13$: MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R0 ;POINT TO BSC TASK
.IF NE,DEBUG
BIT #TCORN!TCOPG,TCFG2(R5) ;IS IT DOING OUTPUT?
BNE 14$ ;YES.
STOPCD DBG ;NO, ERROR.
14$:
.ENDC ;.IF NE,DEBUG
BIT #TCORN,TCFG2(R0) ;IS OUTPUT RUNNING?
BEQ 15$ ;NO.
BIS #TCORN,TCFG2(R5) ;YES, SET OUR FLAG FOR PDP-10
BIC #TCOPG,TCFG2(R5) ; AND CLEAR PERMISSION FLAG
15$: JSR PC,WAIT ;WAIT FOR A CHUNK
BR 12$ ; AND TEST AGAIN.
;
; HERE WHEN THERE IS A CHUNK AVAILABLE
;
16$: MOV R0,R3 ;POINT R3 TO NEW CHUNK
MOV (SP)+,R2 ;RESTORE R2
MOV (SP)+,R0 ;RESTORE R0
JSR PC,XLOCNK ;TRANSLATE A CHUNK FROM ASCII TO EBCDIC
BR 11$ ;TRY TO TRANSLATE ANOTHER CHUNK
;
;
; HERE ON END OF FILE.
;
17$: MOV (SP)+,R2 ;RESTORE R2
MOV (SP)+,R0 ;RESTORE R0
18$: JSR PC,XLEOFO ;SIGNAL END OF FILE TO THE PRINTER
BCC 19$ ;WIN.
MOV R0,-(SP) ;OUT OF CHUNKS, SAVE R0
MOV #EBTIME!EBWAIT,(R5) ;WAIT A WHILE
MOV #JIFSEC+11,TCTIM(R5)
JSR PC,WAIT
MOV (SP)+,R0 ;RESTORE R0
BR 18$ ;TRY AGAIN.
;
19$: MOV #EBTIME!EBINTR!EBWAIT,(R5)
MOV #JIFSEC+12,TCTIM(R5)
JSR PC,WAIT ;WAIT FOR TIME OR DQ11 SIGNAL
MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R1 ;POINT TO BSC TASK
BIT #TCOAB,TCFG2(R1) ;STREAM ABORTED?
BNE 23$ ;YES.
BIT #TCOEC,TCFG2(R1) ;NO, COMPLETED EOF PROCESSING?
BEQ 19$ ;NO, WAIT FOR IT.
BIC #TCOEF!TCOEC,TCFG2(R1) ;YES, ITS ALL DONE.
BIS #TCOEC,TCFG2(R5) ;SIGNAL EOF COMPLETE.
BIC #TCORN!TCOPG,TCFG2(R5) ;CLEAR PERMISSION AND RUNNING FLAGS
20$: JSR PC,XLAWDL ;AWAKEN THE DL10 TASK
MOV #EBTIME!EBINTR!EBWAIT,(R5)
MOV #JIFSEC+13,TCTIM(R5) ;WAIT FOR COMPLETE ACK
BIT #TCOAB,TCFG2(R5) ;HAS THE STREAM ABORTED?
BNE 23$ ;YES, (MAY BE TOO LATE, BUT TRY.)
BIT #TCOEC,TCFG2(R5) ;OUTPUT EOF ACKNOWLEDGED?
BEQ 21$ ;YES, ALL DONE.
JSR PC,WAIT ;NO, WAIT FOR IT
BR 20$ ;SEE IF ACKNOWLDEGED YET
;
21$:
;;++BS-CODE TO CLEAR THE DEVICE ACTIVE BIT ON END OF FILE
JSR PC, HSSAVR ;SAVE THE REGISTERS
MOV TCLCB(R5), R2 ;POINT TO LCB
MOV LB.LNU(R2), R0 ;GET LINE NUMBER
BIC #177770, R0 ;CLEAR JUNK
BIT #LF.SIM, LB.FGS(R2) ;SIMULATION OR SUPPORT ?
BNE 36$ ;YES, MUST BE CDR
MOV #4, R1 ;NO, SUPPORT, MUST BE LPT
BR 37$ ;SET ACTIVE BIT
36$: MOV #3, R1 ;SIMULATION, MUST BE CDR
37$: JSR PC, HSAMPC ;CLEAR THE ACTIVE BIT
JSR PC, HSRESR ;RESTORE THE REGISTERS
;;++BS-END OF CODE TO CLEAR THE DEVICE ACTIVE BIT
JMP XLATE ;WHEN ALL IS DONE, RECIRCULATE
;
; HERE WHEN THE MESSAGE STREAM IS ABORTED.
;
22$: MOV (SP)+,R2 ;DISCARD LINE COUNTER
MOV (SP)+,R0 ; AND LINE POINTER
23$: JSR PC,XLOABT ;DO THE ABORT PROCESSING
JMP XLATE ; AND RECIRCULATE
;
;
; SUBROUTINE TO TRANSLATE A CHUNK FROM ASCII TO EBCDIC
;
; R0 = POINTER INTO LINE BUFFER
; R2 = COUNT OF CHARS IN LINE BUFFER
; R3 = POINTER TO CHUNK TO TRANSLATE
;
; ON RETURN:
;
; R0 = UPDATED POINTER INTO LINE BUFFER
; R2 = UPDATED COUNT OF CHARS IN LINE BUFFER
;
XLOCNK:
11$: CLR -(SP) ;COUNT OF CHARS PROCESSED SO FAR
MOV R3,R4 ;BUILD POINTER TO DATA SPACE
ADD #CHDAT,R4
12$: CMP CHLEN(R3),(SP) ;HAVE WE PROCESSED ALL CHARS?
BEQ 18$ ;YES, DONE WITH THE CHUNK.
INC (SP) ;NO, INCREMENT CHARS PROCESSED
MOVB (R4)+,R1 ;GET NEXT CHAR
TRACE TRCXLD,R1 ;TRACE XLATE CHAR PROCESSING
MOV R3,-(SP) ;SAVE CHUNK POINTER
MOV R4,-(SP) ;SAVE DATA POINTER
13$: BIT #TCPRO,TCFG1(R5) ;PRINTER-STYLE OUTPUT?
BNE 14$ ;YES.
JSR PC,XLASCD ;NO, CARD STYLE OUTPUT
BR 15$
;
14$: JSR PC,XLASPR ;SEND CHARACTER TO PRINTER
15$: BCC 16$ ;WIN, DO NEXT CHAR.
MOV R0,-(SP) ;LOSE, SAVE R0
MOV R2,-(SP) ;SAVE R2
MOV #EBTIME!EBWAIT,(R5) ;WAIT A WHILE
MOV #<JIFSEC/2>-3,TCTIM(R5) ; (A VERY SHORT WHILE)
JSR PC,WAIT
MOV (SP)+,R2 ;RESTORE R2
MOV (SP)+,R0 ;RESTORE R0
BIT #TCOAB,TCFG2(R5) ;IS THE STREAM ABORTED?
BNE 17$ ;YES, QUIT.
MOV (SP),R4 ;GET BACK R4
MOVB -1(R4),R1 ;GET BACK CHARACTER
BR 13$ ;TRY AGAIN FOR CHAR
;
;
; HERE IF WE SUCCESSFULLY SENT THE CHARACTER
;
16$: MOV (SP)+,R4 ;RESTORE R4
MOV (SP)+,R3 ;RESTORE R3
BR 12$ ;GO GET NEXT CHARACTER
;
; HERE WHEN AN ABORT IS DETECTED WHILE WAITING FOR MESSAGE
; SPACE TO FREE UP.
;
17$: MOV (SP)+,R4 ;RESTORE R4
MOV (SP)+,R3 ;RESTORE R3
;
; HERE WHEN THE CHUNK IS DEPLETED OR THE STREAM ABORTED.
;
18$: MOV R0,(SP) ;SAVE BUFFER POINTER (DONE WITH COUNT)
MOV TCIDLE,R1 ;POINT TO IDLE TASK
MOV R3,R0 ;PUT CHUNK POINTER IN R0
JSR PC,QUECHK ;SEND IT THE CHUNK TO FREE
MOV (SP)+,R0 ;RESTORE R0
JSR PC, XLCSAB ;SET OR CLEAR THE DEVICE ACTIVE BIT
RTS PC ;RETURN
;;++BS-CODE TO SET OR CLEAR DEVICE ACTIVE BIT FOR 2780/3780 OUTPUT
XLCSAB: JSR PC, HSSAVR ;SAVE THE REGISTERS
MOV TCLCB(R5), R2 ;POINT TO LCB
MOV LB.LNU(R2), R0 ;GET LINE NUMBER
BIC #177770, R0 ;CLEAR JUNK
BIT #LF.SIM, LB.FGS(R2) ;SIMULATION OR SUPPORT ?
BEQ 21$ ;SUPPORT
MOV #3, R1 ;SIMULATION, OUTPUT IMPLIES CDR
BR 22$ ;CONTINUE
21$: MOV #4, R1 ;SUPPORT, OUTPUT IMPLIES LPT
22$: MOV LB.TCD(R2), R3 ;POINT TO XLATE TASK
TST TCCHK1(R3) ;ANY MESSAGES QUEUED TO THIS TASK ?
BEQ 23$ ;NO, SET DEVICE ACTIVE BIT
25$: JSR PC, HSAMPC ;YES, CLEAR DEVICE ACTIVE BIT, BUFFERS FULL
BR 24$ ;CONTINUE
23$: CMP LB.MSC(R2), #MSGXML ;MAXIMUM # OF MESSAGES QUEUED TO BSC ?
BGT 25$ ;YES
JSR PC, HSACMP ;NO, BUFFERS EMPTY, SET DEVICE ACTIVE BIT
24$: JSR PC, HSRESR ;RESTORE THE REGISTERS
RTS PC ;RETURN
;;++BS-END OF CODE TO SET OR CLEAR THE DEVICE ACTIVE BIT FOR 2780/3780 OUTPUT
; RTS PC ;RETURN.
;
;
; SUBROUTINE CALLED WHEN THE MESSAGE STREAM IS ABORTED. WAIT FOR
; ALL THE DATA WE HAVE SENT TO THE BSC TASK TO
; BE PROCESSED AND THEN INDICATE THAT THE MESSAGE TERMINATION
; IS COMPLETE.
;
XLOABT: MOV TCMSG(R5),R0 ;ARE WE BUILDING A MESSAGE?
BEQ 11$ ;NO.
MOV TCIDLE,R1 ;YES, SEND MESSAGE TO IDLE TASK
JSR PC,QUEMSG ; TO BE FREED.
CLR TCMSG(R5) ;WE NO LONGER HAVE A MESSAGE
11$: MOV #EBINTR!EBQCHK!EBTIME!EBWAIT,(R5)
MOV #JIFSEC+7,TCTIM(R5)
JSR PC,WAIT ;WAIT FOR A CHUNK OR SIGNAL
12$: JSR PC,DEQCHK ;IS THERE A CHUNK?
BCS 13$ ;NO.
JSR PC,FRECHK ;YES, FREE IT
BR 12$ ; AND GET THE REST.
;
13$: MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R1 ;POINT TO BSC DRIVER TCB
BIS #TCOAB,TCFG2(R1) ;BE SURE IT'S ABORTED [1(715]
BIT #TCOAC,TCFG2(R1) ;HAS IT COMPLETED THE ABORT?
BEQ 11$ ;NO, WAIT FOR IT.
TST TCMSG1(R1) ;MAYBE, HAS IT MORE MESSAGES?
BNE 11$ ;YES, WAIT UNTIL IT FLUSHES THOSE
BIS #TCOAC,TCFG2(R5) ;WE HAVE COMPLETED THE ABORT
BIC #TCOPG!TCORN!TCOEF!TCOEC,TCFG2(R5) ;NO LONGER RUNNING
14$: JSR PC,XLAWDL ;TELL THE DL10 DRIVER
MOV #EBINTR!EBTIME!EBQCHK!EBWAIT,(R5)
MOV #JIFSEC+6,TCTIM(R5)
JSR PC,WAIT ;WAIT A MOMENT
15$: JSR PC,DEQCHK ;GET A CHUNK
BCS 16$ ;NONE LEFT.
JSR PC,FRECHK ;GOT ONE, FREE IT.
BR 15$ ;GET THE REST
;
16$: BIT #TCOAC,TCFG2(R5) ;ABORT ACKNOWLEDGED?
BNE 14$ ;NOT YET. (ACK IS FROM THE PDP-10)
MOV TCLCB(R5),R4 ;YES, POINT TO LCB
MOV LB.TC1(R4),R1 ;POINT TO BSC DRIVER TCB
BIC #TCOAB!TCOAC,TCFG2(R1) ;ACKNOWLEDGE ABORT
RTS PC ;RETURN.
;
;
; SUBROUTINE TO AWAKEN THE DL10 DRIVER TASK
;
XLAWDL: MOV TCDLDR,R1 ;POINT TO DL10 DRIVER TASK
BIT #EBINTR,(R1) ;WAITING FOR US?
BEQ 11$ ;NO.
BIC #EBINTR!EBWAIT,(R1) ;MAYBE, UNWAIT HIM.
11$: RTS PC ;RETURN.
;
;
; SUBROUTINE TO WAIT FOR A MESSAGE FROM THE DQ11 DRIVER, A
; CHUNK FROM THE DL10 DRIVER, OR JUST FOR SOME TIME TO PASS.
; CALLED FROM OUTPUT ROUTINE WHEN THERE IS NO OUTPUT GOING.
;
XLWAIT: MOV #EBQCHK!EBTIME!EBINTR!EBQMSG!EBWAIT,(R5)
MOV #JIFSEC/4,TCTIM(R5) ;WAIT A SHORT WHILE
JSR PC,WAIT
MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R0 ;POINT TO BSC TASK
BIT #TCIPR,TCFG2(R0) ;INPUT PERMISSION REQUESTED?
BEQ 14$ ;NO.
BIS #TCIPR!TCIWR,TCFG2(R5) ;YES, PASS SIGNAL TO PDP-10
; AND NOTE PERMISSION WAS REQ. [2(770)]
11$: JSR PC,XLAWDL ;AWAKEN DL10 DRIVER
MOV #EBINTR!EBTIME!EBWAIT,(R5)
MOV #2*JIFSEC,TCTIM(R5) ;WAIT 2 SECONDS
JSR PC,WAIT
MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R0 ;POINT TO BSC TASK
BIT #TCIPR,TCFG2(R0) ;STILL WAITING FOR GRANT?
BEQ 13$ ;NO.
BIT #TCIPG,TCFG2(R5) ;YES, DID PDP-10 GRANT THE INPUT REQUEST?
BEQ 11$ ;NO, GIVE HIM A WHILE
BIC #TCIPR,TCFG2(R5) ;YES, NO LONGER REQUESTING
BIS #TCIPG,TCFG2(R0) ;PASS GRANT TO BSC TASK
BIT #EBINTR,(R0) ;IS BSC TASK WAITING FOR GRANT?
BEQ 12$ ;NO.
BIC #EBINTR!EBWAIT,(R0) ;MAYBE, WAKE IT.
12$: MOV #EBINTR!EBTIME!EBWAIT,(R5)
MOV #JIFSEC+7,TCTIM(R5) ;WAIT A WHILE
JSR PC,WAIT ;FOR DATA TO ARRIVE
MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R0 ;POINT TO BSC TASK
BIT #TCIAB!TCIEC!TCIRN,TCFG2(R0) ;ABORT, EOF OR RUNNING?
BEQ 12$ ;NO, WAIT FOR SOMETHING
BIC #TCIPG,TCFG2(R5) ;YES, CLEAR GRANT FLAG
BIS #TCIRN,TCFG2(R5) ;WE ARE NOW RUNNING
BR XLEBAS ;TRANSLATE EBCDIC TO ASCII
;
;
; HERE WHEN THE INPUT REQUEST WENT AWAY. IGNORE ANY GRANT
; AND CANCEL THE REQUEST.
;
13$: BIC #TCIPR!TCIPG,TCFG2(R5) ;TURN OFF GRANT AND REQUEST
;
; HERE IF INPUT PERMISSION HAS NOT BEEN REQUESTED.
;
14$: BIT #TCIAB,TCFG2(R5) ;ABORT WHILE IDLE?
BEQ 15$ ;NO.
JSR PC,XLIABT ;YES, PROCESS THE ABORT.
15$: RTS PC ;CHECK FOR OUTPUT TO DO
;
;
; HERE WHEN WE HAVE THE BSC TASK RUNNING, AT END-OF-FILE
; OR ABORTED. SET UP FOR INPUT DATA PROCESSING.
;
XLEBAS: CLR TCHPS(R5) ;CLEAR HPOS
CLR TCVPS(R5) ; AND VPOS
BIC #TCESC!TCIGS,TCST2(R5) ;NOT IN ESCAPE OR IGS SEQUENCE
MOVB ASCEBC+'/,TCCCI(R5) ;INITIAL SPACING IS SINGLE
11$: MOV #EBQMSG!EBTIME!EBINTR!EBWAIT,(R5)
MOV #JIFSEC+3,TCTIM(R5) ;PREPARE TO WAIT
JSR PC,DEQMSG ;GET A MESSAGE
BCS 12$ ;NONE.
JSR PC,XLIMSG ;GOT ONE, PROCESS IT.
JSR PC, WAIT ;;++BS-DO ONLY ONE MESSAGE AT A TIME 3(005)
BR 11$ ; AND DO THE REST.
;
; HERE IF NO MESSAGE TO PROCESS.
;
12$: BIT #TCIAB,TCFG2(R5) ;HAS STREAM BEEN ABORTED?
BEQ 13$ ;NO.
JSR PC,XLIABT ;YES, DO ABORT PROCESSING
BR 16$ ; THEN CHECK FOR OUTPUT
;
13$: MOV TCLCB(R5),R4 ;NO ABORT, POINT TO LCB
MOV LB.TC1(R4),R1 ;POINT TO BSC TASK
BIT #TCIEC,TCFG2(R1) ;HAVE WE REACHED EOF?
BNE 14$ ;YES.
JSR PC,WAIT ;NO, WAIT FOR A MESSAGE
BR 11$ ; AND TRY TO PROCESS IT.
;
; HERE ON EOF.
;
14$: BIS #TCIEC,TCFG2(R5) ;FLAG END OF FILE
BIC #TCIRN,TCFG2(R5) ;FLAG NO LONGER RUNNING
JSR PC,XLAWDL ;WAKE UP THE DL10 TASK
15$: MOV #EBQMSG!EBTIME!EBINTR!EBWAIT,(R5)
MOV #JIFSEC+5,TCTIM(R5)
JSR PC,WAIT ;WAIT FOR DL10 TASK
BIT #TCIEC,TCFG2(R5) ;EOF ACKNOWLEDGED YET?
BNE 15$ ;NO, KEEP WAITING
MOV TCLCB(R5),R4 ;YES, POINT TO LCB
MOV LB.TC1(R4),R1 ;POINT TO BSC TASK
BIC #TCIEC,TCFG2(R1) ;CLEAR ITS EOF COMPLETE BIT
;
; HERE TO RETURN TO CHECK FOR OUTPUT
;
16$: RTS PC ;RETURN.
;
;
; SUBROUTINE TO PROCESS AN INPUT ABORT.
;
XLIABT:
11$: JSR PC,DEQMSG ;ANY MESSAGES LEFT?
BCS 12$ ;NO, ABORT COMPLETE
MOV TCIDLE,R1 ;YES, FREE THEM
JSR PC,QUEMSG
BR 11$ ;SEE IF THERE ARE ANY MORE
;
12$: MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R1 ;POINT TO BSC TASK
BIT #TCIAC,TCFG2(R1) ;HAS ABORT COMPLETED?
BNE 13$ ;YES.
MOV #EBQMSG!EBTIME!EBINTR!EBWAIT,(R5) ;NO, WAIT
MOV #JIFSEC+6,TCTIM(R5)
JSR PC,WAIT
BR 11$ ;SEE IF ABORT COMPLETE YET
;
13$: BIS #TCIAC,TCFG2(R5) ;INDICATE ABORT COMPLETE
BIC #TCIRN,TCFG2(R5) ;INDICATE NO LONGER RUNNING
JSR PC,XLAWDL ;AWAKEN THE DL10 TASK
MOV #EBQMSG!EBTIME!EBINTR!EBWAIT,(R5)
MOV #JIFSEC+6,TCTIM(R5)
JSR PC,WAIT ;WAIT FOR ACKNOWLDEGMENT
BIT #TCIAC,TCFG2(R5) ;IS IT ACKNOWLEDGED?
BNE 11$ ;NO, BE SURE THE QUEUE IS DRAINED
MOV TCLCB(R5),R4 ;YES, POINT TO LCB
MOV LB.TC1(R4),R1 ;POINT TO BSC TASK
BIC #TCIAB!TCIAC,TCFG2(R1) ;CLEAR ABORT BITS
RTS PC ;RETURN.
;
;
; SUBROUTINE TO ACCEPT A CHARACTER FROM THE 10 AND PUT IT IN
; THE LINE BUFFER. THE CHARACTER IS ALREADY IN EBCDIC.
;
; R0 POINTS TO THE CURRENT POSITION IN THE LINE BUFFER
; R1 CONTAINS THE CHARACTER TO BE STORED
; R2 CONTAINS THE NUMBER OF CHARACTERS STORED ALREADY
;
; ON RETURN:
;
; R0 AND R2 ARE UPDATED
;
XLAPBF: CMP R2,TCBFC(R5) ;BUFFER FULL?
BEQ 11$ ;YES, DONT STORE.
MOVB R1,(R0)+ ;NO, STORE CHAR
INC R2 ;INCREMENT CHARACTER COUNT
11$: RTS PC ;RETURN.
;
;
; SUBROUTINE TO TRANSLATE A CHARACTER FROM ASCII TO
; LINE PRINTER EBCDIC.
; HANDLES FORMAT EFFECTORS AND COMPRESSION.
;
; R0 = POINTER TO THE CURRENT POSITION IN THE LINE BUFFER
; R1 = THE CHARACTER TO BE TRANSLATED
; R2 = THE NUMBER OF CHARACTERS ALREADY STORED IN THE LINE BUFFER
; TCHPS(R5) = THE CURRENT HORIZONTAL LINE POSITION.
; (LEFT MARGIN = 0)
; TCVPS(R5) = THE CURRENT VERTICAL PAGE POSITION.
; (TOP OF PAGE = 0)
;
; ON RETURN:
;
; TCHPS(R5) AND TCVPS(R5) ARE UPDATED.
; C IS SET IF WE RAN OUT OF CHUNKS, CLEAR IF NOT.
;
XLASPR: CMPB R1,#' ;COMPARE CHAR WITH BLANK
BGE 12$ ;GRAPHIC, SPACE OR DEL.
MOVB ASCSPC(R1),R3 ;CONTROL--GET ITS CODE
JMP @11$(R3) ;DISPATCH ON THE CODE
;
; DISPATCH TABLE FOR ASCII CONTROL CHARACTER TYPES
;
11$: .WORD 26$ ;INVALID -- IGNORE
.WORD 25$ ;HT
.WORD 26$ ;ESC (INVALID) -- IGNORE
.WORD 24$ ;CR
.WORD 17$ ;FF
.WORD 19$ ;OTHER VERTICAL CONTROL (LF, VT)
;
;
; HERE ON SPACE, GRAPHIC OR DEL.
;
12$: CMPB #177,R1 ;IS THIS A DEL?
BEQ 26$ ;YES, DONT SEND TO PRINTER.
BIT #TCLBK,TCST2(R5) ;NO, IS PREVIOUS LINE BROKEN?
BNE 16$ ;YES, GRAPHIC OR SPACE AFTER LINE BREAK
CMP TCHPS(R5),#132. ;NO, BEYOND END OF LINE?
BNE 13$ ;NO.
MOV R1,-(SP) ;YES, SAVE CHARACTER
MOV #12,R1 ;GIVE FREE LF (= CRLF)
JSR PC,XLASPR ;THIS WILL BREAK THE LINE
BCS 18$ ;OUT OF BUFFER SPACE
MOV (SP)+,R1 ;RESTORE CHARACTER
BR 16$ ;SEND THE LINE
;
; HERE IF THE LINE HAS NOT OVERFLOWED.
;
13$: MOVB ASCEBC(R1),R1 ;TRANSLATE TO EBCDIC
CMPB #EBCBLK,R1 ;BLANK?
BNE 14$ ;NO.
JSR PC,XLASSP ;YES, TRY TO COMPRESS IT.
BCC 15$ ;NOTHING TO STORE, JUST INC HPOS
14$: JSR PC,XLAPBF ;STORE CHARACTER IN BUFFER
15$: INC TCHPS(R5) ;INCREMENT HORIZONTAL POSITION
BR 26$ ; AND GIVE SUCCESSFUL RETURN.
;
;
; HERE IF THE PREVIOUS LINE HAD ENDED. SINCE THIS CHARACTER
; IS A GRAPHIC OR SPACE, SEND THE PREVIOUS LINE.
;
16$: JSR PC,XLSNDL ;SEND LINE
BCS 27$ ;OUT OF BUFFER SPACE
BR 12$ ;APPEND TO BUFFER
;
; HERE ON A FORM FEED OR A VERTICAL MOTION CHARACTER WHICH
; HAS NO STOPS BELOW THE CURRENT VERTICAL POSITION.
; GO TO THE TOP OF THE NEXT PAGE.
;
17$: JSR PC,XLASTF ;TOP OF FORM
BCS 27$ ;OUT OF CHUNKS
CLR TCVPS(R5) ;CLEAR VERTICAL POSITION
BR 24$ ;CLEAR HPOS AND GIVE OK RETURN.
;
; HERE IF WE RUN OUT OF MESSAGE BUFFER SPACE WHILE DOING
; A FREE LINE FEED BECAUSE OF LINE WIDTH OVERFLOW.
; RESTORE R1 AND GIVE ERROR RETURN.
;
18$: MOV (SP)+,R1 ;RESTORE R1
SEC ;SIGNAL OUT OF CHUNKS
BR 27$ ;RETURN.
;
;
; HERE ON OTHER VERTICAL MOTION CHARACTER -- LF, VT, DC...
;
19$: MOV TCVPS(R5),R3 ;CURRENT VERTICAL POSITION
INC R3 ;LOOK AT NEXT POSITION
TSTB XLVFU(R3) ;AT BOTTOM OF PAGE?
BPL 21$ ;NO.
BR 17$ ;YES, SKIP TO TOP OF NEXT FORM.
;
20$: JSR PC,XLASSF ;SINGLE SPACE THE PRINTER
BCS 27$ ;OUT OF CHUNKS
INC TCVPS(R5) ;DOWN ONE VERTICAL SPACE
BR 24$ ;CLEAR HPOS AND GIVE OK RETURN.
;
; HERE IF WE ARE NOT AT THE BOTTOM OF THE VFU.
;
21$: BITB XLLPCH-12(R1),XLVFU(R3) ;SHOULD THIS CHAR STOP HERE?
BNE 20$ ;YES, SINGLE SPACE AND QUIT
;
; SEE IF THERE IS A STOP FOR THIS CHARACTER BEFORE THE END OF
; FORM. IF SO, SPACE DOWN TO IT. IF NOT, JUST SKIP TO
; THE TOP OF THE NEXT PAGE.
;
22$: INC R3 ;LOOK AT NEXT POSITION
TSTB XLVFU(R3) ;BOTTOM OF FORM?
BLT 17$ ;YES, TREAT AS FORM FEED.
;
; HERE IF WE ARE NOT YET AT BOTTOM OF FORM. SEE IF THE
; VFU SAYS WE SHOULD STOP HERE.
;
23$: BITB XLLPCH-12(R1),XLVFU(R3) ;THIS CHANNEL PUNCHED HERE?
BEQ 22$ ;NO, LOOK AT NEXT POSITION
JSR PC,XLASSF ;YES, GIVE SINGLE SPACE
BCS 27$ ;OUT OF CHUNKS
CLR TCHPS(R5) ;MOVE TO LEFT MARGIN
INC TCVPS(R5) ;DOWN ONE VERTICAL SPACE
BR 19$ ;DO IT AGAIN UNTIL WE GET THERE.
;
;
; HERE ON CARRIAGE RETURN AND AFTER VERTICAL MOTION.
; SET "TCLBK", WHICH
; WILL CAUSE THE NEXT GRAPHIC TO OUTPUT THE CURRENT LINE BUFFER.
;
24$: CLR TCHPS(R5) ;HORIZ. POS. TO LEFT MARGIN
BIS #TCLBK,TCST2(R5) ;SET "TCLBK"
BR 26$ ;GIVE OK RETURN.
;
; HERE ON HORIZONTAL TAB. OUTPUT SPACES UNTIL THE HORIZONTAL
; POSITION IS A MULTIPLE OF 8. ALWAYS OUTPUT AT LEAST ONE
; SPACE.
;
25$: MOV #' ,R1 ;SPACE
JSR PC,XLASPR ;OUTPUT IT
BCS 27$ ;CONTINUE LATER IF BUFFER FULL.
BIT #7,TCHPS(R5) ;IS HORIZONTAL POSITION MOD 8 = 0?
BNE 25$ ;NO, OUTPUT ANOTHER SPACE
;
; HERE TO GIVE OK RETURN.
;
26$: CLC ;SIGNAL SUCCESS
27$: RTS PC ;RETURN.
;
;
; SUBROUTINE TO SKIP THE PRINTER TO THE TOP OF THE NEXT PAGE.
;
; NOTE: CALLER SETS TCLBK ON RETURN TO FORCE THE BUFFER OUT
; ON THE NEXT CHARACTER. WE COULD CALL XLSNDL FROM HERE BUT
; FOR END-OF-FILE PROCESSING, WHICH WOULD CAUSE AN EXTRA LINE
; IN THAT CASE.
;
; ON RETURN:
;
; C IS SET IF THE FUNCTION COULD NOT BE PERFORMED DUE
; TO LACK OF CHUNKS, CLEAR OTHERWISE.
;
;[1012]Correct XLASTF to correctly report an out-of-chunks condition.
XLASTF: MOV TCBFP(R5),R3 ;POINT TO LINE BUFFER
CMPB ASCEBC+'M,1(R3) ;CARRIAGE CONTROL = NO SPACING?
BEQ 11$ ;YES, CHANGE TO TOP OF FORM.
JSR PC,XLSNDL ;NO, FINISH OFF THAT LINE
;[1012] Change branch after call to XLSNDL so that carry not cleared.
BCS 13$ ;[1012]OUT OF CHUNKS, TRY AGAIN LATER.
;
; HERE AFTER MAKING SURE THE CURRENT LINE SPECIFIES NO SPACING.
; CHANGE TO "TOP OF FORM".
;
11$: MOV TCBFP(R5),R3 ;POINT TO LINE BUFFER
MOVB ASCEBC+'A,1(R3) ;MAKE CARRIAGE CONTROL = TOP OF FORM
BIT #TCPCE,TCFG1(R5) ;IS PAGE COUNTER ENABLED?
BEQ 12$ ;NO.
DEC TCPGC(R5) ;YES, DECREMENT PAGE COUNTER
BNE 12$ ;IT HAS NOT OVERFLOWED
BIS #TCPCO,TCFG1(R5) ;IT HAS OVERFLOWED, "INTERRUPT"
12$: CLC ;INDICATE NO ERROR
;[1012] Add new label here
13$: RTS PC ;[1012]RETURN.
;
;
; SUBROUTINE TO SPACE THE PRINTER VERTICALLY BY ONE.
; ESCALATE CARRIAGE CONTROL FROM NO SPACING THROUGH
; 1, 2 AND 3 SPACES IF POSSIBLE BEFORE RELEASING THE LINE.
;
; NOTE: CALLER TAKES RESPONSIBILITY FOR SETTING TCLBK ON RETURN.
;
;
XLASSF: MOV TCBFP(R5),R3 ;POINT TO LINE BUFFER
INC R3 ;POINT TO CARRIAGE CONTROL
CMPB ASCEBC+'M,(R3) ;NO SPACING?
BEQ 11$ ;YES, MAKE SINGLE SPACE
CMPB ASCEBC+'/,(R3) ;NO, SINGLE SPACE?
BEQ 12$ ;YES, MAKE DOUBLE SPACE
CMPB ASCEBC+'S,(R3) ;NO, DOUBLE SPACE?
BEQ 13$ ;YES, MAKE TRIPLE SPACE
JSR PC,XLSNDL ;NO, SEND THE LINE
BCS 15$ ;OUT OF CHUNKS
BR XLASSF ;CHANGE NO SPACING TO SINGLE
;
; HERE ON NO SPACING TO CHANGE TO SINGLE
;
11$: MOVB ASCEBC+'/,(R3) ;MAKE SINGLE SPACING
BR 14$
;
; HERE ON SINGLE SPACING TO CHANGE TO DOUBLE
;
12$: MOVB ASCEBC+'S,(R3) ;MAKE DOUBLE SPACING
BR 14$
;
; HERE ON DOUBLE SPACING TO CHANGE TO TRIPLE
;
13$: MOVB ASCEBC+'T,(R3) ;MAKE TRIPLE SPACING
14$: CLC ;SIGNAL OK
15$: RTS PC ;RETURN.
;
;
; SUBROUTINE TO TRANSLATE A CHARACTER FROM ASCII TO CARD PUNCH
; OR CARD READER EBCDIC.
;
; R1 = CHARACTER TO BE TRANSLATED
; TCHPS(R5) = CURRENT HORIZONTAL POSITION
;
; ON RETURN:
;
; TCHPS(R5) IS UPDATED
; C IS SET IF WE ARE OUT OF CHUNKS. THE CHARACTER
; SHOULD BE RE-SENT.
;
XLASCD: CMPB R1,#' ;SPACE?
BEQ 15$ ;YES.
BGT 11$ ;NO, GRAPHIC OR DEL
TST R1 ;NULL?
BEQ 13$ ;YES, JUST IGNORE IT.
CMPB #12,R1 ;NO, IS IT LINE FEED?
BEQ 16$ ;YES, END OF CARD.
CMPB #11,R1 ;NO, HORIZONTAL TAB?
BEQ 20$ ;YES, SIMULATE WITH SPACES.
CMPB #15,R1 ;CARRIAGE RETURN?
BEQ 13$ ;YES, IGNORE.
;
; HERE ON GRAPHIC, DEL OR MISCELLANEOUS CONTROL CHARACTERS.
;
11$: CMP TCHPS(R5),#80. ;IS LINE FULL?
BEQ 13$ ;YES, IGNORE CHARACTER.
MOVB ASCEBC(R1),R1 ;NO, TRANSLATE TO EBCDIC
BEQ 13$ ;IGNORE UNTRANSLATABLE CHARS
BIT #300,R1 ;CONTROL CHARACTER?
BNE 12$ ;NO, IT IS OK TO SEND.
TSTB EBCSPC(R1) ;YES, DATA LINK CTL OR IRS?
BNE 15$ ;YES, CONVERT TO SPACE
;
; HERE ON GRAPHIC, DEL, MISCELLANEOUS CONTROL CHARACTERS
; WHICH ARE NOT DATA LINK CONTROL CHARACTERS OR IRS
; AND IF THE SPACE SUBROUTINE WANTS TO STORE A CHARACTER.
; THE CHARACTER IS IN R1 AND IS IN EBCDIC.
;
12$: INC TCHPS(R5) ;INCREMENT HPOS
JSR PC,XLAPBF ;STORE IN LINE BUFFER
13$: CLC ;INDICATE SUCCESS
14$: RTS PC ;RETURN.
;
;
; HERE ON SPACE OR IMPROPER CONTROL CHARACTER, TREATED AS SPACE.
;
15$: CMP TCHPS(R5),#80. ;IS LINE ALREADY FULL?
BEQ 13$ ;YES, IGNORE CHARACTER
JSR PC,XLASSP ;NO, WORRY ABOUT SPACE COMPRESSION
BCS 12$ ;STORE SOMETHING
INC TCHPS(R5) ;NOTHING TO STORE, INCREMENT HPOS
BR 13$ ;AND GIVE SUCCESS RETURN.
;
; HERE ON LINE FEED. THIS MARKS THE END OF THE CARD.
;
16$: BIT #TCOBS,TCFG1(R5) ;OLD BSC PROTOCOL
BEQ 19$ ;NO, NO NEED FOR PADDING.
17$: CMP TCHPS(R5),#80. ;YES, HAVE WE FINISHED PADDING?
BEQ 19$ ;YES.
JSR PC,XLASSP ;NO, APPEND A SPACE
BCC 18$ ;NOTHING TO STORE
JSR PC,XLAPBF ;APPEND CHARACTER TO BUFFER
18$: INC TCHPS(R5) ;WE HAVE PADDED BY ONE CHARACTER
BR 17$ ;SEE IF WE NEED MORE.
;
; HERE WHEN THE CARD HAS BEEN PADDED TO 80 CHARACTERS IF NECESSARY
;
19$: JSR PC,XLSNDL ;SEND THE CARD, BLOCKING WITH
; PREVIOUS IF POSSIBLE
BCS 14$ ;OUT OF CHUNKS, GIVE ERROR RETURN.
CLR TCHPS(R5) ;NOW BACK TO COL. ZERO
BR 13$ ;GIVE SUCCESS RETURN.
;
; HERE ON HORIZONTAL TAB. CONVERT TO THE PROPER NUMBER OF
; SPACES.
;
20$: MOV #' ,R1 ;SPACE
JSR PC,XLASCD ;OUTPUT IT
BCS 14$ ;OUT OF CHUNKS, RE-ISSUE THE TAB
BIT #7,TCHPS(R5) ;ARE WE AT A MULT. OF 8 ?
BEQ 13$ ;YES, GIVE SUCCESS RETURN.
CMP TCHPS(R5),#80. ;NO, AT END OF CARD?
BEQ 13$ ;YES, WE ARE ALL DONE.
BR 20$ ;NO, GIVE ANOTHER SPACE.
;
;
; SUBROUTINE TO STORE A BLANK INTO THE LINE BUFFER, COMPRESSING
; IF INDICATED.
;
; ON RETURN:
;
; C CLEAR - DO NOTHING.
;
; C SET - PUT R1 IN THE LINE BUFFER.
;
XLASSP: BIT #TCCPS,TCFG1(R5) ;COMPRESSION ACTIVE?
BEQ 12$ ;NO, TREAT AS GRAPHIC
TST TCHPS(R5) ;ANY CHARS ON LINE?
BEQ 12$ ;NO, FIRST SPACE IS GRAPHIC
CMPB #EBCBLK,-1(R0) ;YES, PREV. CHAR A BLANK?
BEQ 11$ ;YES, MAKE 2 COMP. BLANKS
CMP TCHPS(R5),#1 ;NO, AT LEAST 2 CHARS ALREADY?
BLE 12$ ;NO, CANT BE IN A COMPRESSION.
CMPB #EBCIGS,-2(R0) ;YES, ALREADY IN A COMPRESSION?
BNE 12$ ;NO, FIRST BLANK JUST STORED
CMPB #EBCBLK+63.,-1(R0) ;YES, ALREADY FULL?
BEQ 12$ ;YES, JUST STORE BLANK
INCB -1(R0) ;NO, INCREMENT BLANK COUNT
CLC ;INDICATE DONT STORE ANYTHING
RTS PC ;RETURN.
;
; HERE ON THE SECOND BLANK IN A ROW
;
11$: MOVB #EBCIGS,-1(R0) ;TURN BLANK INTO "IGS"
MOV #EBCBLK+2,R1 ;STORE CHAR INDICATING...
SEC ; TWO BLANKS.
RTS PC ;PUT INTO LINE BUFFER
;
; HERE TO RETURN INDICATING THAT THE BLANK CHARACTER IN R1
; SHOULD BE STORED IN THE LINE BUFFER.
;
12$: MOV #EBCBLK,R1 ;PUT EBCDIC BLANK IN R1
SEC ;FLAG TO STORE R1
RTS PC ;RETURN.
;
;
; SUBROUTINE TO SEND THE LINE BUFFER TO THE BSC TASK. BUILD
; IT INTO A MESSAGE.
;
; R0 POINTS TO THE LAST USED POSITION OF THE BUFFER.
;
; ON RETURN:
; C IS SET IF OUT OF CHUNKS. OTHERWISE, C IS CLEAR AND:
; THE LINE BUFFER (AND R0 AND R2, WHICH REFER TO IT)
; CONTAINS "ESC" "M" IF WE ARE DOING PRINTER OUTPUT,
; OTHERWISE (CARD OUTPUT) THE LINE BUFFER IS EMPTY.
; TCLBK IS CLEAR.
;
XLSNDL: MOV R1,-(SP) ;SAVE CURRENT CHARACTER
MOV R0,-(SP) ;SAVE POINTER TO END OF BUFFER
11$: MOV TCBFP(R5),R3 ;POINT R3 TO START OF BUFFER
BIT #TCOBS,TCFG1(R5) ;OLD BSC MODE?
BEQ 12$ ;NO.
BIT #TCPRO,TCFG1(R5) ;YES, PRINTER OUTPUT?
BEQ 12$ ;NO.
CMPB ASCEBC+'M,1(R3) ;YES, OVERPRINT REQUEST?
BNE 12$ ;NO.
MOV (SP)+,R2 ;YES, DISCARD POINTER TO END OF BUFFER
BR 20$ ;WE CAN'T OVERPRINT, SO IGNORE LINE.
;
; HERE WHEN THE LINE DOES SPACING OR WE HAVE NEW BSC PROTOCOL,
; WHICH PERMITS OVERPRINTING.
;
12$: MOV TCMSG(R5),R0 ;POINT TO PARTIAL MESSAGE
BNE 14$ ;THERE IS ONE.
13$: JSR PC,MSGSUP ;NONE, SET UP A MESSAGE
BCS 22$ ;OUT OF CHUNKS
MOV R0,TCMSG(R5) ;WE NOW HAVE A MESSAGE
BR 17$ ;PUT THIS LINE IN IT
;
; HERE WHEN THERE IS ALREADY A PARTIALLY FILLED MESSAGE
;
14$: MOV TCBFP(R5),R3 ;POINT TO START OF BUFFER
SUB (SP),R3 ;COMPUTE LENGTH OF BUFFER
ADD R3,MSGSNL(R0) ;DEPLETE SYNC COUNT BY LENGTH
NEG R3 ;TRUE COUNT
JSR PC,XLSNDM ;SEND MESSAGE IF RECORD TOO BIG
MOV TCMSG(R5),R0 ;DO WE STILL HAVE A MESSAGE?
BEQ 13$ ;NO, BUILD ANOTHER.
;
;
; HERE IF THERE IS ENOUGH ROOM FOR THIS RECORD IN THE MESSAGE.
; FIRST END THE PREVIOUS RECORD.
;
KGLOAD MSGBCC(R0) ;LOAD THE KG11-A
BIT #TCOBS,TCFG1(R5) ;OLD BSC PROTOCOL?
BNE 15$ ;YES, USE IUS WITH BCC.
MOV #EBCIRS,R1 ;NO, END RECORD WITH IRS
KGACUM R1 ;ACCUMULATE IN BCC
JSR PC,MSGAPC ;APPEND TO MESSAGE
BCS 23$ ;OUT OF CHUNKS.
BR 16$ ;REJOIN COMMON PATH.
;
15$: JSR PC,XLIBCC ;STORE INTERMEDIATE BCC
BCS 23$ ;OUT OF CHUNKS
16$: TST MSGSNL(R0) ;WILL WE NEED A SYNC?
BGT 17$ ;NO, WAIT FOR NEXT RECORD
MOV #EBCSYN,R1 ;YES, APPEND A SYNC
JSR PC,MSGAPC ; TO THE MESSAGE
BCS 23$ ;OUT OF CHUNKS.
MOV #SYNLEN,MSGSNL(R0) ;COME BACK LATER
;
; HERE TO STORE THE LINE BUFFER IN THE MESSAGE.
;
17$: MOV TCBFP(R5),R3 ;POINT TO LINE BUFFER
MOV (SP)+,R2 ;POINT TO END OF LINE BUFFER
;
; FALL INTO COPY LOOP
;
;
; THIS IS THE LOOP WHICH COPIES CHARACTERS FROM THE LINE BUFFER
; INTO THE TRANSMISSION MESSAGE.
;
18$: CMP R2,R3 ;ALL DONE?
BEQ 19$ ;YES.
MOVB (R3)+,R1 ;NO, GET NEXT CHARACTER
KGACUM R1 ;ACCUMULATE BCC
JSR PC,MSGAPC ;APPEND TO MESSAGE
BCS 23$ ;OUT OF CHUNKS
BR 18$ ;PROCESS ALL THE CHARACTERS
;
; HERE WHEN ALL DONE.
;
19$: KGSAVE MSGBCC(R0) ;RETAIN BCC OF MESSAGE
INC MSGNLR(R0) ;COUNT LOGICAL RECORDS IN MESSAGE
;
; PROCESSING OF THE LINE BUFFER IS NOW COMPLETE.
;
20$: BIC #TCLBK,TCST2(R5) ;LINE IS NO LONGER BROKEN
MOV TCBFP(R5),R0 ;POINT R0 TO LINE BUFFER
CLR R2 ;CLEAR LINE BUFFER COUNTER
BIT #TCPRO,TCFG1(R5) ;ARE WE DOING CARRIAGE CONTROL?
BEQ 21$ ;NO.
MOV #EBCESC,R1 ;YES, PUT ESCAPE AT START OF BUFFER
JSR PC,XLAPBF
MOVB ASCEBC+'M,R1 ;SECOND CHAR IS "M"
JSR PC,XLAPBF
21$: MOV (SP)+,R1 ;RESTORE CURRENT CHARACTER
CLC ;SIGNAL ALL OK
RTS PC ;RETURN.
;
;
; HERE IF CHUNKS ARE DEPLETED WHILE SETTING UP THE MESSAGE.
; GIVE ERROR RETURN SO WE WILL BE CALLED AGAIN LATER.
;
22$: MOV (SP)+,R0 ;RESTORE R0
MOV (SP)+,R1 ;RESTORE R1
RTS PC ;RETURN. (C ALREADY SET)
;
; HERE IF CHUNKS ARE DEPLETED WHILE APPENDING TO
; THE MESSAGE. THIS SHOULD NOT HAPPEN SINCE THE CHUNKS ARE
; PRE-ALLOCATED.
;
23$: STOPCD XMB ;XLATOR MESSAGE BUILDING PROBLEMS
;
;
; SUBROUTINE TO INSERT IUS, BCC IN A MESSAGE.
; THIS IS USED ONLY IN "OLD BSC" MODE, SINCE HASP DOES NOT
; SUPPORT IUS FROM IBM 3780'S.
;
XLIBCC: MOV #EBCIUS,R1 ;START WITH IUS
KGACUM R1 ;INCLUDE THE IUS IN THE BCC
JSR PC,MSGAPC ;PUT IN THE BLOCK
BCS 11$ ;OUT OF CHUNKS
JSR PC,STOBCC ;PUT BCC AFTER THE IUS
11$: RTS PC ;RETURN.
;
;
; SUBROUTINE TO DETERMINE IF THERE IS ENOUGH ROOM IN
; THE CURRENT MESSAGE FOR THE NEXT RECORD, AND IF NOT
; END THE MESSAGE. WORRIES ABOUT LOGICAL RECORD LIMIT.
;
; R0 AND TCMSG(R5) POINT TO THE CURRENT MESSAGE
; R3 CONTAINS THE LENGTH OF THE NEXT RECORD
;
; ON RETURN:
;
; TCMSG(R5) IS ZERO IF WE HAD TO FINISH OFF THE CURRENT MESSAGE
; EITHER BECAUSE WE HAD REACHED OUR RECORD LIMIT OR BECAUSE
; THE NEXT RECORD IS SO LONG THAT IT WOULD HAVE CAUSED THE MESSAGE
; TO EXCEED THE LENGTH LIMIT.
;
XLSNDM: MOV TCLCB(R5),R1 ;POINT TO LCB
CMP MSGNLR(R0),LB.MLR(R1) ;HAVE WE REACHED RECORD LIMIT?
BEQ 11$ ;YES, END MESSAGE NOW.
ADD MSGLEN(R0),R3 ;NO, COMPUTE NEW LENGTH
ADD #7,R3 ;ADD OVERHEAD
CMP R3,LB.MBL(R1) ;WOULD RESULT BE TOO BIG?
BLT 13$ ;NO, APPEND IT.
11$: KGLOAD MSGBCC(R0) ;YES, LOAD THE KG11-A
BIT #TCOBS,TCFG1(R5) ;OLD BSC PROTOCOL?
BNE 12$ ;YES, ETB IMPLIES IRS
MOV #EBCIRS,R1 ;NO, INCLUDE AN EXPLICIT IRS
KGACUM R1 ;INCLUDE IN BCC
JSR PC,MSGAPC ;APPEND TO MESSAGE
BCS 14$ ;OUT OF CHUNKS
12$: MOV #EBCETB,R1 ;"ETB"
KGACUM R1 ;ACCUMULATE BCC
JSR PC,MSGAPC ;APPEND TO MESSAGE
BCS 14$ ;OUT OF CHUNKS
JSR PC,STOBCC ;APPEND BCC
BCS 14$ ;OUT OF CHUNKS
JSR PC,XLPADS ;APPEND PADS TO MESSAGE
BCS 14$ ;OUT OF CHUNKS.
JSR PC,MSGAPE ;RETURN UNUSED CHUNKS
MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R1 ;POINT TO BSC DRIVER
JSR PC,QUEMSG ;SEND IT THE MESSAGE
CLR TCMSG(R5) ;WE NO LONGER HAVE A MESSAGE
INC LB.MSC(R4) ;ONE MORE MESSAGE FOR BSC TASK TO TRANSMIT
MOV #EBTIME!EBWAIT,(R5) ;WAIT A MOMENT
MOV #1,TCTIM(R5) ; TO AVOID EATING ALL THE CPU
JSR PC,WAIT
13$: RTS PC ;RETURN.
;
;
; HERE IF WE RUN OUT OF CHUNKS. THIS SHOULD NOT HAPPEN.
;
14$: STOPCD XMB ;XLATOR MESSAGE BUILDING PROBLEMS
;
;
; SUBROUTINE TO DUMP OUTPUT, AS REQUESTED BY THE PDP-10.
; ALL LOCAL BUFFERS ARE CLEARED.
;
; ON RETURN, C SET IF STREAM ABORTED, C CLEAR IF ALL MESSAGES
; ARE DUMPED.
;
XLODMP: JSR PC,XLSNDL ;EMPTY THE LINE BUFFER
MOV R0,-(SP) ;SAVE LINE BUFFER POSITION
MOV R2,-(SP) ; AND COUNT
MOV TCMSG(R5),R0 ;IS THERE A MESSAGE WAITING?
BEQ 11$ ;NO.
MOV TCLCB(R5),R1 ;POINT TO LCB
MOV LB.MLR(R1),MSGNLR(R0) ;YES, PRETEND IT IS FULL...
JSR PC,XLSNDM ; AND SEND IT.
11$: MOV #EBTIME!EBINTR!EBWAIT,(R5)
MOV #7,TCTIM(R5) ;WAIT A SHORT WHILE
JSR PC,WAIT
BIT #TCOAB,TCFG2(R5) ;IS STREAM ABORTED?
BNE 12$ ;YES, RETURN IMMEDIATELY.
MOV TCLCB(R5),R4 ;NO, POINT TO LCB
TST LB.MSC(R4) ;ARE ALL MESSAGES SENT?
BNE 11$ ;NO, WAIT FOR THEM ALL.
BIC #TCDMP,TCFG1(R5) ;YES, CLEAR "DUMPING" FLAG
MOV (SP)+,R2 ;RESTORE LINE BUFFER COUNT
MOV (SP)+,R0 ; AND POSITION
CLC ;INDICATE NOT ABORT
RTS PC ;RETURN.
;
; HERE IF THE STREAM IS ABORTED.
;
12$: MOV (SP)+,R2 ;RESTORE LINE BUFFER COUNT
MOV (SP)+,R0 ; AND POSITION
SEC ;FLAG STREAM ABORTED
RTS PC ;RETURN.
;
;
; SUBROUTINE TO SET UP A MESSAGE. ALL THE LEADING BSC STUFF
; IS PLACED IN THE DATA PORTION.
;
; ON RETURN, C IS SET IF WE ARE OUT OF CHUNKS.
; OTHERWISE, R0 POINTS TO THE FIRST CHUNK OF THE MESSAGE.
;
MSGSUP: MOV CHLST,R0 ;GET LAST CHUNK ON THE FREE LIST
JSR PC,GETCHK ;REMOVE IT FROM THE LIST
BCS 17$ ;OUT OF CHUNKS.
MOV R0,MSGLCH(R0) ;FIRST CHUNK IS LAST CHUNK
MOV #EBCLPD,R1 ;GET LEADING PAD CHARACTER (ALT BITS)
JSR PC,MSGAPC ;STORE IN MESSAGE
BCS 16$ ;OUT OF CHUNKS
MOV #5,R2 ;COUNT OF LEADING SYNCS
11$: MOV #EBCSYN,R1 ;"SYNCHRONOUS IDLE"
JSR PC,MSGAPC ;PUT CHARACTER IN STRING
BCS 16$ ;OUT OF CHUNKS
SOB R2,11$ ;STORE FIVE SYNCS
MOV TCLCB(R5),R4 ;POINT TO LCB
CMP #TTHASP,LB.DVT(R4) ;HASP MODE?
BNE 21$ ;NO, SEND STX FOR 2780/3780
BIT #LF.TSP,LB.FGS(R4) ;TRANSPARENT MODE?
BNE 22$ ;YES, USE DLE-STX
MOV #EBCSOH,R1 ;NO, USE SOH-STX FOR NON-TRANS
BR 23$ ;PUT IN MESSAGE
22$: MOV #EBCDLE,R1 ;USE DLE FOR TRANSPARENT
23$: JSR PC,MSGAPC ;APPEND TO MESSAGE
BCS 16$ ;OUT OF CHUNKS
21$: MOV #EBCSTX,R1 ;"START OF TEXT"
JSR PC,MSGAPC ;APPEND TO STRING
BCS 16$ ;OUT OF CHUNKS
KGLOAD #0 ;INITIALIZE THE KG11-A
;
MOV #SYNLEN,MSGSNL(R0) ;INITIALIZE INTERMEDIATE
; SYNCH COUNTER.
;
; NOW PRE-ALLOCATE ENOUGH ROOM FOR A MAX-SIZE MESSAGE SO
; WE WON'T HAVE TO WORRY ABOUT RUNNING OUT OF CHUNKS WHILE
; BUILDING IT.
;
MOV R0,-(SP) ;SAVE POINTER TO MESSAGE
20$: MOV TCLCB(R5),R1 ;POINT TO LCB
MOV LB.MBL(R1),R0 ;GET MAX TRANSMISSION BLOCK SIZE
ASL R0 ;COMPUTE MAX LENGTH OF MESSAGE
ASL R0 ; AS 125 PERCENT OF
ADD LB.MBL(R1),R0 ; THE MAX BLOCK LENGTH
ASR R0
ASR R0
19$: MOV R0,-(SP) ;MAX MESSAGE LENGTH
12$: CMP CHFREC,#CHLXLT ;PLENTY OF CHUNKS LEFT?
BLE 15$ ;NO, SUSPEND TRANSLATION.
MOV CHLST,R0 ;YES, GET A CHUNK
JSR PC,GETCHK
BCS 15$ ;OUT OF CHUNKS
MOV 2(SP),R1 ;POINT R1 AT MESSAGE
13$: TST (R1) ;IS THIS THE LAST CHUNK?
BEQ 14$ ;YES, APPEND NEW CHUNK HERE
MOV (R1),R1 ;NO, GO ON TO NEXT CHUNK
BR 13$
;
; HERE WHEN WE HAVE FOUND THE LAST CHUNK. APPEND THE NEW
; CHUNK HERE.
;
14$: MOV R0,(R1) ;APPEND NEW CHUNK
SUB #CHDATL,(SP) ;WE HAVE ROOM FOR THAT MANY MORE CHARS
BGT 12$ ;NEED MORE ROOM
MOV (SP)+,R0 ;DISCARD DEPLETED COUNT
MOV (SP)+,R0 ;RESTORE POINTER TO MESSAGE
CLC ;SIGNAL OK
RTS PC ;RETURN.
;
; HERE IF WE RUN OUT OF CHUNKS WHILE DOING PRE-ALLOCATION.
;
15$: MOV (SP)+,R0 ;DISCARD DEPLETED COUNT
MOV (SP)+,R0 ;RESTORE POINTER TO MESSAGE
;
; HERE IF WE RUN OUT OF CHUNKS OR SHORT OF CHUNKS
; WHILE BUILDING THE MESSAGE.
;
16$: MOV TCIDLE,R1 ;POINT TO IDLE TASK
JSR PC,QUEMSG ;SEND IT THE MESSAGE TO FREE
SEC ;SIGNAL ERROR
17$: RTS PC ;RETURN.
;
;
; SUBROUTINE TO SEND AN END-OF-FILE INDICATION TO THE OUTPUT.
;
XLEOFO: BIT #TCPRO,TCFG1(R5) ;PRINTER-STYLE OUTPUT?
BEQ 11$ ;NO, LOSE ANY UNTERMINATED LINE
JSR PC,XLSNDL ;FINISH OFF THE CURRENT LINE
BCS 14$ ;OUT OF CHUNKS
11$: MOV TCMSG(R5),R0 ;POINT TO CURRENT MESSAGE
BNE 12$ ;THERE IS ONE.
JSR PC,MSGSUP ;NONE, BUILD ONE.
BCS 14$ ;OUT OF CHUNKS.
MOV R0,TCMSG(R5) ;WE NOW HAVE A MESSAGE
12$: KGLOAD MSGBCC(R0) ;LOAD THE KG11-A
BIT #TCOBS,TCFG1(R5) ;OLD BSC PROTOCOL?
BNE 13$ ;YES, ETX IMPLIES IRS
MOV #EBCIRS,R1 ;NO, PROVIDE AN EXPLICIT IRS
KGACUM R1 ;INCLUDE IN BCC
JSR PC,MSGAPC ;APPEND TO MESSAGE
BCS 15$ ;OUT OF CHUNKS
13$: MOV #EBCETX,R1 ;END OF TEXT
KGACUM R1 ;INCLUDE IN CRC
JSR PC,MSGAPC
BCS 15$ ;OUT OF CHUNKS
JSR PC,STOBCC ;APPEND BCC
BCS 15$ ;OUT OF CHUNKS
JSR PC,XLPADS ;PUT 5 PADS AT END OF MSG
BCS 15$ ;OUT OF CHUNKS
JSR PC,MSGAPE ;RETURN UNUSED CHUNKS
MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.TC1(R4),R1 ;POINT TO BSC TASK
JSR PC,QUEMSG ;SEND MESSAGE TO BSC TASK
CLR TCMSG(R5) ;WE NO LONGER HAVE A MESSAGE
BIS #TCOEF,TCFG2(R1) ;INDICATE LAST MESSAGE
CLC ;SIGNAL SUCCESS
RTS PC ;RETURN.
;
;
; HERE IF WE CANNOT BUILD A MESSAGE
;
14$: SEC ;SIGNAL FAILURE
RTS PC ;RETURN.
;
; HERE IF WE RUN OUT OF CHUNKS APPENDING CHARACTERS TO THE
; MESSAGE. THIS SHOULD NOT HAPPEN SINCE THE MESSAGE
; SPACE IS PRE-ALLOCATED.
;
15$: STOPCD XMB ;TRANSLATOR MESSAGE BUILDING TROUBLE
;
;
; SUBROUTINE TO APPEND SOME PADS TO THE END OF A MESSAGE.
; ONLY ONE OF THESE PADS IS ACTUALLY TRANSMITTED; THE
; OTHERS ARE LOST IN THE DQ11 TRANSMIT BUFFER.
;
XLPADS: MOV #DQTRLP,-(SP) ;COUNT OF PADS
11$: MOV #EBCPAD,R1 ;PAD CHARACTER
JSR PC,MSGAPC ;APPEND A PAD CHARACTER
BCS 12$ ;OUT OF CHUNKS
DEC (SP) ;ENOUGH PADS?
BNE 11$ ;NO, DO THE REST.
MOV (SP)+,R1 ;REMOVE DEPLETED COUNT FROM STACK
CLC ;INDICATE SUCCESS
RTS PC ;RETURN.
;
; HERE IF WE RUN OUT OF CHUNKS
;
12$: MOV (SP)+,R1 ;REMOVE DEPLETED COUNT FROM STACK
SEC ;SIGNAL ERROR
RTS PC ;RETURN.
;
;
; SUBROUTINE TO TRANSLATE AN INPUT MESSAGE. THE ASCII IS SENT
; TO THE DL10 TASK FOR THE USER'S BUFFER.
;
XLIMSG: MOV R0,-(SP) ;SAVE POINTER TO MESSAGE
;[1006]Check if message has any data chunks...
MOV (R0),R0 ;[1006]CHECK FOR NULL MESSAGE CHUNKS
BNE XLIMSR ;[1006]THERE IS A FIRST CHUNK
JMP XLIIGN ;[1006]THERE IS NONE, IGNORE MESSAGE.
XLIMSR: MOV CHLST,R0 ;GET A CHUNK
JSR PC,GETCHK
BCC 11$ ;GOT ONE
JMP XLIMEC ;NONE AVAILABLE
;
; WE HAVE THE HEADER CHUNK FOR THE ASCII MESSAGE
;
11$: MOV R0,MSGLCH(R0) ;BUILD FIRST (HEADER) CHUNK OF MESSAGE
MOV TCLCB(R5),R4 ;POINT TO LCB
MOV LB.LNU(R4),MSGID(R0) ;STORE MESSAGE ID (LINE NO.)
MOV (SP),R2 ;POINT TO EBCDIC MESSAGE
MOV TCCCI(R5),-(SP) ;SAVE CURRENT CARRIAGE CONTROL CHAR
MOV TCVPS(R5),-(SP) ; AND CURRENT VERTICAL POSITION
MOV TCHPS(R5),-(SP) ; AND CURRENT HORIZONTAL POSITION
MOV TCST2(R5),-(SP) ;AND TWO STATUS BITS IN CASE WE
; RUN OUT OF CHUNKS AND HAVE TO RESTART
BIT #MSGTSP,MSGFGS(R2) ;TRANSPARENT?
BEQ 12$ ;NO.
JSR PC,XLITSP ;YES, SPECIAL TRANSLATION
BCS XLIMEB ;OUT OF CHUNKS, WAIT AND TRY AGAIN
; BR XLIMSE ;SUCCESSFUL TRANSLATION
JMP XLIMSE ;;++SPR- SUCCESSFUL TRANSLATION
;
; HERE IF THE MESSAGE IS NOT TRANSPARENT.
;
12$: MOV (R2),R2 ;GET FIRST DATA CHUNK
BIC #TCPRI,TCFG1(R5);;++SPR- SET PUNCH FLAG
13$: MOV (R2)+,-(SP) ;SAVE POINTER TO NEXT CHUNK
MOV (R2)+,R3 ;GET COUNT OF BYTES IN THIS CHUNK
14$: TST R3 ;ANY BYTES LEFT?
BEQ 22$ ;NO, DONE WITH THIS CHUNK
DEC R3 ;YES, COUNT DOWN COUNTER
MOVB (R2)+,R1 ;GET EBCDIC CHARACTER
BIT #<TCIGS!TCESC>,TCST2(R5) ;LAST CHARACTER IGS OR ESC?
BNE 19$ ;YES, TREAT THIS CHARACTER SPECIALLY
BIT #300,R1 ;NO, IS THIS A SPECIAL CHARACTER?
BNE 21$ ;NO, TRANSLATE AND SEND TO -10
;
CMPB #EBCESC,R1 ;;++SPR- IS THIS AN ESCAPE ?
BEQ 24$ ;;++SPR- YES, FLAG IT
;
;
;
; WE HAVE A CONTROL CHARACTER
;
CMPB #EBCIGS,R1 ;IS IT IGS?
BNE 15$ ;NO.
BIS #TCIGS,TCST2(R5) ;YES, REMEMBER THAT
BR 14$ ;PROCESS NEXT CHARACTER IN SPECIAL WAY
;
; THE CHARACTER IS NOT AN IGS
;
15$: BIT #TCPRI,TCFG1(R5) ;ARE WE IN "PRINTER" MODE?
BEQ 18$ ;NO.
;
; WE ARE IN PRINTER MODE -- CHECK FOR ESC, IRS AND HT
;
CMPB #EBCESC,R1 ;IS THIS AN ESCAPE?
BNE 16$ ;NO.
BIS #TCESC,TCST2(R5) ;YES, REMEMBER THAT
BR 14$ ;PROCESS NEXT CHARACTER IN SPECIAL WAY
;
; NOT AN ESCAPE
;
16$: CMPB #EBCIRS,R1 ;IS IT AN IRS?
BNE 17$ ;NO.
JSR PC,XLIPRS ;YES, PROCESS AN IRS
BCS XLIMEA ;OUT OF CHUNKS
BR 14$ ;PROCESS NEXT CHARACTER
;
; NOT AN IRS
;
17$: CMPB #EBCHT,R1 ;HORIZONTAL TAB?
BNE 21$ ;NO, TRY TO TREAT AS ORDINARY CHAR
JSR PC,XLIPHT ;YES, PROCESS HORIZONTAL TAB
BCS XLIMEA ;OUT OF CHUNKS
BR 14$ ;PROCESS NEXT CHARACTER
;
;
; CARD MODE -- CHECK FOR IRS
;
18$: CMPB #EBCIRS,R1 ;HAVE WE AN IRS?
BNE 21$ ;NO, TRY TO TREAT AS ORDINARY CHAR
;;++BS-PAD TO 80. CHARACTERS WHEN IRS IS ENCOUNTERED IF LESS THAN 80.
31$: CMP TCHPS(R5),#80. ;DO WE HAVE 80. CHARACTERS ?
BGE 32$ ;YES, THE LINE IS FINISHED
MOV #' ,R1 ;NO, GET A BLANK
JSR PC,MSGAPC ;APPEND TO OUTPUT MESSAGE
BCS XLIMEA ;OUT OF CHUNKS
INC TCHPS(R5) ;INCREMENT HORIZONTAL POSITION
BR 31$ ;KEEP PADDING UNTIL 80. CHARACTERS
32$: CLR TCHPS(R5) ;START THE NEXT CARD AT THE BEGINNING
;;++BS-END OF CODE TO PAD TO 80. CHARACTERS
MOV #15,R1 ;YES, PUT CRLF IN ASCII MESSAGE
JSR PC,MSGAPC
BCS XLIMEA
MOV #12,R1
JSR PC,MSGAPC
BCS XLIMEA
INC TCVPS(R5) ;WE HAVE DONE A LINE
BR 14$ ;TRY FOR ANOTHER CHARACTER.
;
; HERE IF PREVIOUS CHARACTER WAS IGS OR ESC
;
19$: BIT #TCIGS,TCST2(R5) ;WAS LAST CHAR AN IGS?
BEQ 20$ ;NO, MUST HAVE BEEN ESC
JSR PC,XLIPGS ;YES, PROCESS THE IGS
BCS XLIMEA ;OUT OF CHUNKS
BR 14$ ;PROCESS NEXT CHARACTER
;
; HERE IF LAST CHARACTER WASN'T AN IGS. IT MUST HAVE BEEN
; AN ESC AND WE MUST BE IN PRINTER MODE.
;
20$: MOVB R1,TCCCI(R5) ;STORE CHARACTER AFTER THE ESC
; FOR USE BY IRS
BIC #TCESC,TCST2(R5) ;LAST CHAR NO LONGER AN ESC
;;++SPR- ESC-4 SAYS THIS IS A PUNCH
CMPB #364,R1 ;;++SPR- EBCDIC 4 ?
BEQ 23$ ;;++SPR- YES, CONTINUE AS PUNCH
BIS #TCPRI,TCFG1(R5);;++SPR- NO, FLAG AS PRINTER
23$: ;;++SPR-
CMPB #EBCHT,R1 ;HAVE WE AN "ESC HT" SEQUENCE?
BNE 14$ ;NO. GET NEXT CHARACTER.
JSR PC,XLISHT ;YES, SET HORIZ. TABS.
BR 14$ ;GET NEXT CHARACTER. (PROBABLY AN ESCAPE)
;
24$: BIS #TCESC,TCST2(R5);;++SPR- FLAG LAST CHARACTER WAS ESCAPE
BR 14$ ;;++SPR- CONTINUE
; HERE ON NORMAL CHARACTER IN CARD AND PRINTER MODES.
;
21$: MOVB EBCASC(R1),R1 ;TRANSLATE TO ASCII
BEQ 14$ ;IGNORE NULLS AND UNTRANSLATABLES
INC TCHPS(R5) ;INCREMENT HORIZONTAL POSITION
JSR PC,MSGAPC ;STORE ASCII CHARACTER IN MESSAGE
BCC 14$ ;GO PROCESS ANOTHER CHARACTER
BR XLIMEA ;OUT OF CHUNKS.
;
; HERE WHEN WE RUN OUT OF BYTES IN THE CHUNK.
; GO ON TO THE NEXT, IF THERE IS ONE.
;
22$: MOV (SP)+,R2 ;GET NEXT CHUNK POINTER
BNE 13$ ;THERE IS ONE, PROCESS IT.
BR XLIMSE ;NONE, END OF PROCESSING
;
;
; HERE WHEN WE RUN OUT OF CHUNKS TO EXTEND THE MESSAGE. FREE THE
; PARTIALLY BUILT MESSAGE, RESTORE VARIABLES TO ENTRY VALUES,
; WAIT A WHILE, AND TRY AGAIN.
;
XLIMEA: MOV (SP)+,R1 ;DISCARD NEXT CHUNK
XLIMEB: MOV TCIDLE,R1 ;SEND MSG TO BACKGROUND TASK
JSR PC,QUEMSG ; WHICH WILL FREE IT
MOV (SP)+,R0 ;GET OLD TCST2
BIC #<TCESC!TCIGS>,TCST2(R5) ;CLEAR FLAG BITS IN TCST2
BIC #^C<TCESC!TCIGS>,R0 ;CLEAR ALL OTHER BITS IN OLD TCST2
BIS R0,TCST2(R5) ;RESTORE THOSE BITS IN TCST2
MOV (SP)+,TCHPS(R5) ;RESTORE HPOS
MOV (SP)+,TCVPS(R5) ;RESTORE VPOS
MOV (SP)+,TCCCI(R5) ;RESTORE CARRIAGE CONTROL CHAR
XLIMEC: MOV #EBTIME!EBWAIT,(R5) ;WAIT A WHILE
MOV #JIFSEC+4,TCTIM(R5)
JSR PC,WAIT
JMP XLIMSR ;TRY AGAIN TO TRANSLATE THE MSG
;
; HERE WHEN PROCESSING IS COMPLETE. SEND THE ASCII MESSAGE
; TO THE DL10 DRIVER TASK AND THE EBCDIC MESSAGE TO THE
; IDLE TASK TO BE FREED.
;
XLIMSE:
MOV (R0),R1 ;GET POINTER TO CHUNK
MOV R1,MSGLCH(R0) ;SAVE IT IN MESSAGE HEADER
ADD #CHDAT,R1 ;POINT TO THE DATA CHAR
MOV R1,MSGPTR(R0) ;SAVE IN MESSAGE HEADER
MOV TCDLDR,R1 ;POINT TO DTE20 TASK
JSR PC,QUEMSG ;SEND IT THE ASCII MSG
MOV (SP)+,R0 ;DISCARD OLD TCST2
MOV (SP)+,R0 ;DISCARD OLD TCHPS
MOV (SP)+,R0 ;DISCARD OLD TCVPS
MOV (SP)+,R0 ;DISCARD OLD TCCCI
;;++BS-CODE TO SET THE DEVICE ACTIVE BIT FOR 2780/3780 INPUT
JSR PC, HSSAVR ;SAVE THE REGISTERS
MOV TCLCB(R5), R2 ;POINT TO LCB
MOV LB.LNU(R2),R0 ;PUT LINE NUMBER IN R0
BIC #177770, R0 ;CLEAR JUNK
BIT #LF.SIM, LB.FGS(R2) ;SIMULATION OR SUPPORT ?
BEQ 1$ ;SUPPORT
MOV #4, R1 ;SIM, THIS MUST BE LPT
BR 2$ ;SET DEVICE ACTIVE BIT
1$: MOV #3, R1 ;SUP, THIS MUST BE CDR
2$: JSR PC, HSACMP ;SET DEVICE ACTIVE BIT
JSR PC, HSRESR ;RESTORE THE REGISTERS
;;++BS-END OF CODE THAT SETS THE DEVICE ACTIVE BIT FOR 2780/3780
;[1006]Add label here after XLIMSE + 10 lines.
XLIIGN: ;[1006]HERE IS MESSAGE HAS NO CHUNKS.
MOV (SP)+,R0 ;GET BACK EBCDIC MESSAGE
MOV TCIDLE,R1 ;POINT TO IDLE TASK
JSR PC,QUEMSG ;SEND IT THE EBCDIC MESSAGE
CLC ;SIGNAL ALL OK
RTS PC ;RETURN.
;
;
; SUBROUTINE TO TRANSLATE TRANSPARENT MESSAGES. A CRLF IS
; INSERTED EVERY 80 CHARACTERS AND AT THE END OF THE RECORD
; IF ANY TEXT IS LEFT UNTERMINATED. (THIS IS TO ACCOMODATE
; FUTURE EXTENSION TO SUPPORT OF THE IBM 3770'S 51-COLUMN
; CARD FEATURE.)
;
; R0 = EMPTY ASCII MESSAGE
; R2 = EBCDIC MESSAGE
;
XLITSP: MOV (R2),R2 ;POINT TO FIRST CHUNK OF DATA
CLR TCHPS(R5) ;WE ARE AT FRONT OF LINE
11$: MOV (R2)+,-(SP) ;SAVE POINTER TO NEXT CHUNK
MOV (R2)+,R3 ;GET COUNT OF BYTES IN THIS CHUNK [2(772)]
12$: TST R3 ;ANY MORE CHARS IN THIS CHUNK?
BEQ 14$ ;NO, ALL DONE.
DEC R3 ;YES, NOW ONE FEWER CHAR
MOVB (R2)+,R1 ;GET CHAR FROM CHUNK
MOVB EBCASC(R1),R1 ;TRANSLATE TO ASCII
BEQ 13$ ;DONT STORE UNTRANSLATABLES
JSR PC,MSGAPC ;PUT CHARACTER IN ASCII MSG
BCS 16$ ;OUT OF CHUNKS, WAIT AND TRY AGAIN
13$: INC TCHPS(R5) ;WE HAVE PROCESSED A CHARACTER
CMP TCHPS(R5),#80. ;REACHED END OF CARD?
BNE 12$ ;NO, PROCESS NEXT CHARACTER
MOV #15,R1 ;YES, SEND CRLF TO ASCII FILE
JSR PC,MSGAPC
BCS 16$ ;OUT OF CHUNKS
MOV #12,R1
JSR PC,MSGAPC
BCS 16$ ;OUT OF CHUNKS
CLR TCHPS(R5) ;NOW BACK TO LEFT MARGIN
BR 12$ ;PROCESS NEXT CHARACTER
;
;
; HERE AT END OF CHUNK. GET NEXT CHUNK AND PROCESS IT, IF ANY.
;
14$: MOV (SP)+,R2 ;POINT TO NEXT CHUNK
BNE 11$ ;PROCESS IT, IF ANY.
;
; HERE WHEN THE MESSAGE IS COMPLETE. GIVE AN EXTRA CRLF
; IF NECESSARY.
;
TST TCHPS(R5) ;ODD LENGTH LINE?
BEQ 15$ ;NO.
MOV #15,R1 ;YES, GIVE EXTRA CRLF
JSR PC,MSGAPC
BCS 17$ ;OUT OF CHUNKS
MOV #12,R1
JSR PC,MSGAPC
BCS 17$ ;OUT OF CHUNKS
15$: CLC ;GIVE OK RETURN
RTS PC ;RETURN.
;
; HERE WHEN WE HAVE RUN OUT OF CHUNKS. GIVE ERROR RETURN
; SO WE WILL WAIT AND TRY AGAIN.
;
16$: MOV (SP)+,R2 ;ADJUST STACK
17$: SEC ;FLAG ERROR
RTS PC ;RETURN.
;
;
; SUBROUTINE TO PROCESS AN IRS CHARACTER IN PRINTER MODE.
; DO THE INDICATED CARRIAGE CONTROL.
;
XLIPRS: MOVB TCCCI(R5),R1 ;GET CHAR AFTER ESCAPE ("/" IF NONE)
MOVB ASCEBC+'/,TCCCI(R5) ;RETURN TO SINGLE SPACE
CMPB ASCEBC+'M,R1 ;OVERPRINT REQUEST?
BEQ 14$ ;YES.
CMPB ASCEBC+'A,R1 ;NO, SKIP TO TOP OF FORM?
BEQ 15$ ;YES.
CMPB ASCEBC+'/,R1 ;NO, SINGLE SPACE?
BEQ 13$ ;YES.
CMPB ASCEBC+'S,R1 ;NO, DOUBLE SPACE?
BEQ 12$ ;YES.
CMPB ASCEBC+'T,R1 ;NO, TRIPLE SPACE?
BEQ 11$ ;YES.
;
; IF UNRECOGNIZED CARRIAGE CONTROL, TREAT AS SINGLE SPACE.
;
BR 13$ ;SINGLE SPACE BY DEFAULT
;
; HERE ON TRIPLE SPACE
;
11$: JSR PC,XLIPSP ;SPACE ONCE
BCS 17$ ;OUT OF CHUNKS
;
; HERE ON DOUBLE SPACE
;
12$: JSR PC,XLIPSP ;SPACE ONCE
BCS 17$ ;OUT OF CHUNKS
;
; HERE ON SINGLE SPACE
;
13$: JSR PC,XLIPSP ;SPACE ONCE
BCS 17$ ;OUT OF CHUNKS
BR 16$ ;PROCESS NEXT CHARACTER
;
;
; HERE ON OVERPRINT REQUEST
;
14$: JSR PC,XLIPCR ;JUST SEND CARRIAGE RETURN
BCS 17$ ;OUT OF CHUNKS
BR 16$ ;PROCESS NEXT CHARACTER
;
; HERE ON TOP OF FORM
;
15$: JSR PC,XLIPTF ;GO TO TOP OF NEXT PAGE
BCS 17$ ;OUT OF CHUNKS
; BR 16$ ;PROCESS NEXT CHARACTER
;
; HERE TO GIVE SUCCESSFUL RETURN. WORRY ABOUT EATING ALL OF CPU.
;
16$: JSR PC,XLCPUT ;WAIT UNTIL OTHER TASKS RUN
CLC ;INDICATE NO ERROR
17$: RTS PC ;RETURN.
;
;
; SUBROUTINE TO WAIT UNTIL WE ARE NO LONGER SHORT OF CPU TIME
;
; PRESERVES ALL REGISTERS.
;
XLCPUT: MOV R0,-(SP) ;SAVE R0
MOV R1,-(SP) ; AND R1
11$: MOV JIFCLK,R0 ;GET INTERRUPT CLOCK
MOV DSPCLK,R1 ;GET DISPATCHER CLOCK
XOR R0,R1 ;COMPUTE DIFFERENCE
BIT #177770,R1 ;ARE WE SHORT OF CPU TIME?
BNE 12$ ;YES.
MOV (SP)+,R1 ;NO, RESTORE R1
MOV (SP)+,R0 ; AND R0
RTS PC ;RETURN.
;
; HERE IF WE ARE SHORT OF CPU TIME. WAIT A MOMENT.
;
12$: MOV R2,-(SP) ;SAVE R2
MOV R3,-(SP) ; AND R3
MOV R4,-(SP) ; AND R4
MOV #EBTIME!EBWAIT,(R5)
MOV #1,TCTIM(R5) ;WAIT A SHORT WHILE
JSR PC,WAIT ; TO AVOID USING ALL OF CPU
MOV (SP)+,R4 ;RESTORE R4
MOV (SP)+,R3 ; AND R3
MOV (SP)+,R2 ; AND R2
BR 11$ ;TEST AGAIN.
;
;
; SUBROUTINE TO CLEAR HPOS AND OUTPUT A CARRIAGE RETURN
; IF NECESSARY.
;
XLIPCR: TST TCHPS(R5) ;ALREADY AT LEFT MARGIN?
BEQ 11$ ;YES, DON'T NEED CARRIAGE RETURN.
MOV #15,R1 ;NO, SEND CARRIAGE RETURN
JSR PC,MSGAPC ;PUT IN USER'S BUFFER
BCS 12$ ;OUT OF CHUNKS
CLR TCHPS(R5) ;HORIZONTAL POSITION NOW = 0
11$: CLC ;NO ERRORS
12$: RTS PC ;RETURN.
;
; SUBROUTINE TO SPACE THE PRINTER ONCE, RETURNING
; THE CARRIAGE IF NECESSARY AND COUNTING VPOS.
;
XLIPSP: JSR PC,XLIPCR ;SET HPOS = 0
BCS 14$ ;OUT OF CHUNKS
CMP TCVPS(R5),#59. ;GETTING INTO PERFORATIONS?
BLT 11$ ;NO.
MOV #23,R1 ;YES, USE SPECIAL SPACING COMMAND
BR 12$
;
; HERE IF STILL IN BODY OF PAGE. USE NORMAL LINE FEED.
;
11$: MOV #12,R1 ;LINE FEED
12$: JSR PC,MSGAPC ;PUT CHAR IN USER'S BUFFER
BCS 14$ ;OUT OF CHUNKS
INC TCVPS(R5) ;INCREMENT VPOS
CMP TCVPS(R5),#66. ;REACHED TOP OF NEXT PAGE?
BNE 13$ ;NO.
CLR TCVPS(R5) ;YES, WE ARE NOW AT TOP OF NEXT PAGE
13$: CLC ;NO ERRORS
14$: RTS PC ;RETURN.
;
; SUBROUTINE TO GO TO TOP OF FORM.
;
XLIPTF: JSR PC,XLIPCR ;SET HPOS = 0
BCS 11$ ;OUT OF CHUNKS
MOV #14,R1 ;FORM FEED
JSR PC,MSGAPC ;PUT IN USER'S BUFFER
BCS 11$ ;OUT OF CHUNKS
CLR TCVPS(R5) ;SET VPOS = 0
CLC ;NO ERRORS
11$: RTS PC ;RETURN.
;
;
; SUBROUTINE TO PROCESS THE CHARACTER FOLLOWING AN "IGS".
;
; R1 = THE CHARACTER FOLLOWING THE "IGS". THIS IS INTERPRETED
; AS A COUNT OF BLANKS PLUS THE CODE FOR AN EBCDIC BLANK.
;
XLIPGS: BIC #TCIGS,TCST2(R5) ;WE ARE NO LONGER RIGHT AFTER AN IGS.
SUB #EBCBLK,R1 ;CONVERT TO BLANK COUNT
MOV R1,-(SP) ;SAVE BLANK COUNT
BEQ 12$ ;COUNT IS ZERO
11$: MOV #' ,R1 ;GET A BLANK
JSR PC,MSGAPC ;APPEND TO OUTPUT MESSAGE
BCS 13$ ;OUT OF CHUNKS
INC TCHPS(R5) ;INCREMENT HORIZONTAL POSITION
DEC (SP) ;DECREMENT BLANK COUNT
BNE 11$ ;DO THE REST
12$: TST (SP)+ ;REMOVE DEPLETED COUNT FROM STACK
CLC ;INDICATE SUCCESS
RTS PC ;RETURN.
;
; HERE IF CHUNKS ARE DEPLETED.
;
13$: TST (SP)+ ;REMOVE COUNT FROM STACK
SEC ;SIGNAL CHUNKS DEPLETED
RTS PC ;RETURN.
;
;
; SUBROUTINE TO SET HORIZONTAL TAB STOPS. THE TAB STOPS ARE SET
; BASED ON AN EBCDIC MESSAGE CONSISITING OF "ESC HT" FOLLOWED
; BY A SERIES OF BLANKS AND "HT"'S, ENDED BY AN NL.
; A TAB STOP IS PLACED FOR EACH HT AND CLEARED FOR EACH BLANK.
;
XLISHT: MOV R0,-(SP) ;SAVE R0
MOV R5,R0 ;BUILD POINTER TO TCHFU
ADD #TCHFU,R0
MOV #<160./16.>,R1 ;LENGTH OF TAB BUFFER
11$: CLR (R0)+ ;CLEAR OUT TABS BUFFER
SOB R1,11$ ; ... ALL OF IT.
CLR TCHPS(R5) ;START AT LEFT MARGIN
12$: TST R3 ;ANY CHARACTERS LEFT IN THIS CHUNK?
BNE 13$ ;YES, GET THE NEXT CHARACTER.
MOV 4(SP),R2 ;NO, GET NEXT CHUNK
BEQ 20$ ;END OF MESSAGE, THIS IS NOT ALLOWED.
MOV (R2)+,4(SP) ;STORE POINTER TO NEXT CHUNK
MOV (R2)+,R3 ;PUT COUNT IN R3
BR 12$ ;GET FIRST CHAR IN THIS CHUNK
;
13$: DEC R3 ;DECREMENT COUNT OF CHARS IN THIS CHUNK
MOVB (R2)+,R1 ;GET NEXT CHAR FROM THIS CHUNK
MOV #EBCNL,R0 ;GET ENDING CHARACTER
BIT #TCOBS,TCFG1(R5) ;OLD BSC PROTOCOL?
BEQ 14$ ;NO, NL IS RIGHT.
MOV #EBCIRS,R0 ;YES, CHECK FOR THE IRS SUBSTITUTED BY
; THE BSC TASK FOR THE IUS
; THAT ENDED THE RECORD.
14$: CMPB R0,R1 ;HAVE WE THE END CHARACTER?
BEQ 19$ ;YES, ALL DONE.
CMPB #EBCHT,R1 ;NO, "HT" CHARACTER?
BEQ 15$ ;YES, SET TAB STOP
CMPB #EBCBLK,R1 ;NO, A BLANK?
BEQ 18$ ;YES, TAB STOP IS CLEAR.
STOPCD HTS ;ERROR IN SETTING HORIZ. TABS.
;
;
; HERE TO SET A HORIZONTAL TAB STOP.
;
15$: MOV TCHPS(R5),R1 ;GET CURRENT HORIZ. POSITION
BIC #177760,R1 ;LEAVE ONLY LOW-ORDER 4 BITS
MOV #1,R0 ;BUILD MASK IN R0
16$: TST R1 ;MASK NEED ANY MORE ROTATION?
; (NOTE THIS CLEARS C FOR THE ROL)
BEQ 17$ ;NO, DONE.
ROL R0 ;YES, ROTATE LEFT ONE.
DEC R1 ;DECREMENT COUNT OF ROTATIONS
BR 16$ ;DO THE REST OF THE ROTATIONS
;
17$: MOV TCHPS(R5),R1 ;GET HPOS AGAIN
ASR R1 ; HPOS/2
ASR R1 ; HPOS/4
ASR R1 ; HPOS/8
BIC #1,R1 ; HPOS/16 * 2 FOR WORD ADDRESSING
ADD R5,R1 ;BUILD POINTER TO TCHFU
BIS R0,TCHFU(R1) ;SET TAB STOP BIT
;
; HERE ON SPACE AND FROM ABOVE ON HT.
;
18$: INC TCHPS(R5) ;NEXT HORIZONTAL POSITION
CMP TCHPS(R5),#160. ;TOO MANY?
BLE 12$ ;NO, GET NEXT CHARACTER
STOPCD HTS ;YES, ERROR IN HORIZ. TAB SETTING
;
; HERE ON NL FROM AN IBM 3780 OR END OF RECORD FROM AN IBM 2780.
; THIS IS THE END OF THE TAB SETTING MESSAGE.
;
19$: CLR TCHPS(R5) ;BACK TO LEFT MARGIN
MOV (SP)+,R0 ;RESTORE R0
RTS PC ;RETURN TO CALLER.
;
; HERE IF THE MESSAGE ENDS BEFORE THE NL OR IRS. THIS IS NOT ALLOWED.
;
20$: STOPCD HTS ;END OF MESSAGE BEFORE NL OR IRS
;
;
; SUBROUTINE TO PROCESS A HORIZONTAL TAB FOUND IN THE
; DATA STREAM.
;
XLIPHT: MOV #' ,R1 ;SEND A BLANK TO THE '10
JSR PC,MSGAPC
BCS 14$ ;OUT OF CHUNKS.
INC TCHPS(R5) ;INCREMENT HORIZONTAL POSITION
MOV R0,-(SP) ;SAVE R0
MOV TCHPS(R5),R1 ;GET CURRENT HORIZ. POSITION
CMP R1,#160. ;REACHED END OF LINE?
BEQ 13$ ;YES, RETURN.
BIC #177760,R1 ;NO, MASK OUT ALL BUT BIT INDEX
MOV #1,R0 ;BUILD MASK FOR TAB BIT
11$: TST R1 ;DONE ROTATING?
; (NOTE THIS CLEARS C FOR ROL)
BEQ 12$ ;YES.
ROL R0 ;NO, ROTATE LEFT ONE (C IS CLEAR)
DEC R1 ;DECREMENT ROTATE COUNT
BR 11$ ;SEE IF ANY MORE ROTATES NEEDED
;
12$: MOV TCHPS(R5),R1 ;GET HORIZ. POSITION AGAIN
ASR R1 ; HPOS/2
ASR R1 ; HPOS/4
ASR R1 ; HPOS/8
BIC #1,R1 ; HPOS/16 * 2 FOR WORD ADDRESSING
ADD R5,R1 ;BUILD POINTER TO TCHFU
BIT R0,TCHFU(R1) ;IS THERE A TAB STOP HERE?
BNE 13$ ;YES, STOP.
MOV (SP)+,R0 ;NO, RESTORE R0
BR XLIPHT ; AND GIVE ANOTHER SPACE.
;
; HERE WHEN WE HAVE REACHED A TAB STOP OR END OF LINE.
;
13$: MOV (SP)+,R0 ;RESTORE R0
CLC ;INDICATE SUCCESS
14$: RTS PC ;RETURN.
;
.SBTTL BACKGROUND TASK
;
; THIS IS THE IDLE TIME TASK. IT RUNS AS LOWEST PRIORITY.
; ITS JOB IS TO FREE CHUNKS AND MESSAGES SENT TO IT.
;
IDLE:
11$: JSR PC,IDLTTM ;ARE WE GETTING BEHIND REAL TIME?
BCC 12$ ;NO.
MOV #EBTIME!EBWAIT,(R5) ;YES, WAIT A WHILE
MOV #1,TCTIM(R5) ;ONLY 1 TICK TO MAXIMIZE THROUGHPT
JSR PC,WAIT
BR 11$ ;BE SURE WE AREN'T STILL BEHIND
;
12$: JSR PC,DEQCHK ;ANY CHUNKS QUEUED TO THIS TASK?
BCS 13$ ;NO.
JSR PC,FRECHK ;YES, FREE THIS ONE.
BR 11$ ;BE SURE TIME IS AVAILABLE
; AND TRY FOR MORE
;
; HERE WHEN THERE ARE NO CHUNKS TO FREE. LOOK FOR MESSAGES.
;
13$: JSR PC,DEQMSG ;ANY MESSAGES QUEUED TO THIS TASK?
BCS 15$ ;NO.
14$: MOV (R0),-(SP) ;YES, SAVE NEXT CHUNK POINTER
JSR PC,FRECHK ;FREE THIS CHUNK
MOV (SP)+,R0 ;GET NEXT CHUNK OF MESSAGE
BNE 14$ ;FREE REST OF MESSAGE
BR 11$ ;BE SURE TIME IS AVAIL AND
; LOOK FOR MORE TO FREE
;
; HERE WHEN THERE ARE NO MESSAGES OR CHUNKS TO FREE.
;
15$: JSR PC,DLCKDL ;CHECK ANY DIABLED LINES
MOV #JIFSEC,TCTIM(R5) ;WAIT ONE SECOND
MOV #EBQCHK!EBQMSG!EBTIME!EBWAIT,(R5)
JSR PC,WAIT ; OR UNTIL THERE'S A CHUNK OR MESSAGE
BR 11$ ;THEN DEQUEUE SOME MORE
; (PROVIDED TIME IS NOT SHORT)
;
;
; SUBROUTINE TO TEST FOR TIME RUNNING SHORT.
;
; ON RETURN:
;
; C IS SET IF TIME IS SHORT, CLEAR IF NOT.
;
IDLTTM: MOV JIFCLK,R0 ;GET INTERRUPT-DRIVEN CLOCK
MOV DSPCLK,R1 ;GET DISPATCHER CLOCK
XOR R0,R1 ;COMPUTE THE DIFFERENCE
BIT #177770,R1 ;DIFFERENT BY 8 TICKS OR MORE?
BEQ 11$ ;NO, TIME NOT SHORT.
SEC ;YES, INDICATE TIME IS SHORT.
RTS PC ;RETURN.
;
; HERE IF TIME IS NOT RUNNING SHORT.
;
11$: CLC ;INDICATE TIME IS NOT SHORT
RTS PC ;RETURN.
;
;
;
; ASCII SPECIAL CHARACTER TABLE FOR CONTROL CHARACTERS
;
; 0 1 2 3 4 5 6 7
ASCSPC: .BYTE 000,000,000,000,000,000,000,000 ;000-007
.BYTE 000,002,012,012,010,006,000,000 ;010-017
.BYTE 012,012,012,012,012,000,000,000 ;020-027
.BYTE 000,000,000,000,000,000,000,000 ;030-037
; 0 1 2 3 4 5 6 7
;
; SPECIAL CODE ASSIGNMENTS USED IN TABLE ASCSPC
;
; 000 = INVALID CHARACTER -- IGNORE
; 002 = HORIZONTAL TAB CHARACTER
; 004 = ESCAPE CHARACTER (NOT CURRENTLY USED)
; 006 = CARRIAGE RETURN CHARACTER
; 010 = FORM FEED CHARACTER
; 012 = OTHER VERTICAL CARRIAGE CONTROL CHARACTER
;
;
; EBCDIC SPECIAL CHARACTER TABLE
;
; 0 1 2 3 4 5 6 7
; 8 9 A B C D E F
EBCSPC: .BYTE 000,000,000,006,000,000,000,000 ;00-07
.BYTE 000,000,000,000,000,000,000,000 ;08-0F
.BYTE 016,000,000,000,000,000,000,000 ;10-17
.BYTE 000,000,000,000,000,000,012,010 ;18-1F
.BYTE 000,000,000,000,000,000,004,000 ;20-27
.BYTE 000,000,000,000,000,014,000,000 ;28-2F
.BYTE 000,000,002,000,000,000,000,000 ;30-37
.BYTE 000,000,000,000,000,000,000,000 ;38-3F
; 0 1 2 3 4 5 6 7
; 8 9 A B C D E F
;
; SPECIAL CODE ASSIGNMENTS USED IN TABLE EBCSPC
;
; 000 = MISCELLANEOUS (NONE OF THOSE BELOW)
; 002 = SYN
; 004 = ETB
; 006 = ETX
; 010 = IUS
; 012 = IRS
; 014 = ENQ
; 016 = DLE
;
.SBTTL CARRIAGE CONTROL TAPE
;
; CARRIAGE CONTROL TAPE, FOR SIMULATING AN LP10
;
XLVFU: .BYTE 000 ; NOT USED
.BYTE 011 ; 5-8
.BYTE 051 ; 3-5-8
.BYTE 031 ; 4-5-8
.BYTE 051 ; 3-5-8
.BYTE 011 ; 5-8
.BYTE 071 ; 3-4-5-8
.BYTE 011 ; 5-8
;
.BYTE 051 ; 3-5-8
.BYTE 031 ; 4-5-8
.BYTE 055 ; 3-5-6-8
.BYTE 011 ; 5-8
.BYTE 071 ; 3-4-5-8
.BYTE 011 ; 5-8
.BYTE 051 ; 3-5-8
.BYTE 031 ; 4-5-8
;
.BYTE 051 ; 3-5-8
.BYTE 011 ; 5-8
.BYTE 071 ; 3-4-5-8
.BYTE 011 ; 5-8
.BYTE 057 ; 3-5-6-7-8
.BYTE 031 ; 4-5-8
.BYTE 051 ; 3-5-8
.BYTE 011 ; 5-8
;
.BYTE 071 ; 3-4-5-8
.BYTE 011 ; 5-8
.BYTE 051 ; 3-5-8
.BYTE 031 ; 4-5-8
.BYTE 051 ; 3-5-8
.BYTE 011 ; 5-8
.BYTE 175 ; 2-3-4-5-6-8
.BYTE 011 ; 5-8
;
.BYTE 051 ; 3-5-8
.BYTE 031 ; 4-5-8
.BYTE 051 ; 3-5-8
.BYTE 011 ; 5-8
.BYTE 071 ; 3-4-5-8
.BYTE 011 ; 5-8
.BYTE 051 ; 3-5-8
.BYTE 031 ; 4-5-8
;
;
; LINE PRINTER VERTICAL FORMAT UNIT CONTINUED
;
.BYTE 057 ; 3-5-6-7-8
.BYTE 011 ; 5-8
.BYTE 071 ; 3-4-5-8
.BYTE 011 ; 5-8
.BYTE 051 ; 3-5-8
.BYTE 031 ; 4-5-8
.BYTE 051 ; 3-5-8
.BYTE 011 ; 5-8
;
.BYTE 071 ; 3-4-5-8
.BYTE 011 ; 5-8
.BYTE 055 ; 3-5-6-8
.BYTE 031 ; 4-5-8
.BYTE 051 ; 3-5-8
.BYTE 011 ; 5-8
.BYTE 071 ; 3-4-5-8
.BYTE 011 ; 5-8
;
.BYTE 051 ; 3-5-8
.BYTE 031 ; 4-5-8
.BYTE 051 ; 3-5-8
.BYTE 011 ; 5-8
.BYTE 010 ; 5
.BYTE 010 ; 5
.BYTE 010 ; 5
.BYTE 010 ; 5
;
.BYTE 010 ; 5
.BYTE 010 ; 5
.BYTE -1 ;FLAG END OF TAPE
;
;
; TRANSLATE TABLE TO CONVERT A VERTICAL MOTION CHARACTER INTO
; A CHANNEL NUMBER FOR INDEXING INTO THE VFU TABLE.
;
XLLPCH: .BYTE 001 ;LF = CHANNEL 8
.BYTE 002 ;VT = CHANNEL 7
.BYTE 0,0,0,0 ;NOT VERTICAL MOTION CHARS (14-17)
.BYTE 100 ;DLE = CHANNEL 2
.BYTE 040 ;DC1 = CHANNEL 3
.BYTE 020 ;DC2 = CHANNEL 4
.BYTE 010 ;DC3 = CHANNEL 5
.BYTE 004 ;DC4 = CHANNEL 6
;
.EVEN ;BE SURE NEXT SECTION STARTS
; ON A WORD BOUNDRY
;