# Copyright:    Public domain.
# Filename:     INTER-BANK_COMMUNICATION.agc
# Purpose:      Part of the source code for Comanche, build 055. It
#               is part of the source code for the Command Module's
#               (CM) Apollo Guidance Computer (AGC), Apollo 11.
# Assembler:    yaYUL
# Reference:    pp. 1103-1106
# Contact:      Ron Burkey <info@sandroid.org>
# Website:      http://www.ibiblio.org/apollo.
# Mod history:  2009-05-08 RSB	Adapted from Colossus249/ file of same name
#				and page images. Corrected various typos
#				in the transcription of program comments,
#				and these should be back-ported to
#				Colossus249.
#
# The contents of the "Comanche055" files, in general, are transcribed
# from scanned documents.
#
#       Assemble revision 055 of AGC program Comanche by NASA
#       2021113-051.  April 1, 1969.
#
#       This AGC program shall also be referred to as Colossus 2A
#
#       Prepared by
#                       Massachusetts Institute of Technology
#                       75 Cambridge Parkway
#                       Cambridge, Massachusetts
#
#       under NASA contract NAS 9-4065.
#
# Refer directly to the online document mentioned above for further
# information.  Please report any errors to info@sandroid.org.

# Page 1103
# THE FOLLOWING ROUTINE CAN BE USED TO CALL A SUBROUTINE IN ANOTHER BANK. IN THE BANKCALL VERSION, THE
# CADR OF THE SUBROUTINE IMMEDIATELY FOLLOWS THE TC BANKCALL INSTRUCTION, WITH C(A) AND C(L) PRESERVED.

		BLOCK	02
		COUNT	02/BANK

BANKCALL	DXCH	BUF2		# SAVE INCOMING A,L.
		INDEX	Q		# PICK UP CADR.
		CA	0
		INCR	Q		# SO WE RETURN TO THE LOC. AFTER THE CADR.

# SWCALL IS  IDENTICAL TO BANKCALL, EXCEPT THAT THE CADR ARRIVES IN A.

SWCALL		TS	L
		LXCH	FBANK		# SWITCH BANKS, SAVING RETURN.
		MASK	LOW10		# GET SUB-ADDRESS OF CADR.
		XCH	Q		# A,L NOW CONTAINS DP RETURN.
		DXCH	BUF2		# RESTORING INPUTS IF THIS IS A BANKCALL.
		INDEX	Q
		TC	10000		# SETTING Q TO SWRETURN

SWRETURN	XCH	BUF2 +1		# COMES HERE TO RETURN TO CALLER. C(A,L)
		XCH	FBANK		# ARE PRESERVED FOR RETURN.
		XCH	BUF2 +1
		TC	BUF2

# THE FOLLOWING ROUTINE CAN BE USED AS A UNILATERAL JUMP WITH C(A,L) PRESERVED AND THE CADR IMMEDIATELY
# FOLLOWING THE TC POSTJUMP INSTRUCTION.

POSTJUMP	XCH	Q		# SAVE INCOMING C(A).
		INDEX	A		# GET CADR.
		CA	0

# BANKJUMP IS THE SAME AS POSTJUMP, EXCEPT THAT THE CADR ARRIVES IN A.

BANKJUMP	TS	FBANK
		MASK	LOW10
		XCH	Q		# RESTORING INPUT C(A) IF THIS WAS A
Q+10000		INDEX	Q		# POSTJUMP.
PRIO12		TCF	10000		# PRIO12 = TCF	10000 = 12000

# Page 1104
# THE FOLLOWING ROUTINE GETS THE RETURN CADR SAVED BY SWCALL OR BANKCALL AND LEAVES IT IN A.

MAKECADR	CAF	LOW10
		MASK	BUF2
		AD	BUF2 +1
		TC	Q

SUPDACAL	TS	MPTEMP
		XCH	FBANK		# SET FBANK FOR DATA.
		EXTEND
		ROR	SUPERBNK	# SAVE FBANK IN BITS 15-11, AND
		XCH	MPTEMP		# SUPERBANK IN BITS 7-5.
		MASK	LOW10
		XCH	L		# SAVE REL. ADR. IN BANK, FETCH SUPERBITS.
		INHINT			# BECAUSE RUPT DOES NOT SAVE SUPERBANK.
		EXTEND
		WRITE	SUPERBNK	# SET SUPERBANK FOR DATA.
		INDEX	L
		CA	10000		# PINBALL (FIX MEM DISP) PREVENTS DCA HERE
		XCH	MPTEMP		# SAVE 1ST WD, FETCH OLD FBANK AND SBANK.
		EXTEND
		WRITE	SUPERBNK	# RESTORE SUPERBANK.
		RELINT
		TS	FBANK		# RESTORE FBANK.
		CA	MPTEMP		# RECOVER FIRST WORD OF DATA.
		RETURN			# 24 WDS. DATACALL 516 MU, SUPDACAL 432 MU

# Page 1105
# THE FOLLOWING ROUTINES ARE IDENTICAL TO BANKCALL AND SWCALL EXCEPT THAT THEY ARE USED IN INTERRUPT.

IBNKCALL	DXCH	RUPTREG3	# USES RUPTREG3,4 FOR DP RETURN ADDRESS.
		INDEX	Q
		# Was CAF --- RSB 2009
		CA	0
		INCR	Q

ISWCALL		TS	L
		LXCH	FBANK
		MASK	LOW10
		XCH	Q
		DXCH	RUPTREG3
		INDEX	Q
		TC	10000

ISWRETRN	XCH	RUPTREG4
		XCH	FBANK
		XCH	RUPTREG4
		TC	RUPTREG3

# 2. USPRCADR ACCESSES INTERPRETIVE CODING IN OTHER THAN THE USER'S FBANK.  THE CALLING SEQUENCE IS AS FOLLOWS:
#	L	TC	USPRCADR
#	L+1	CADR	INTPRETX	# INTPRETX IS THE INTERPRETIVE CODING
#					# RETURN IS TO L+2

USPRCADR	TS	LOC		# SAVE A
		CA	BIT8
		TS	EDOP		# EXIT INSTRUCTION TO EDOP
		CA	BBANK
		TS	BANKSET		# USER'S BBANK TO BANKSET
		INDEX	Q
		CA	0
		TS	FBANK		# INTERPRETIVE BANK TO FBANK
		MASK	LOW10		# YIELDS INTERPRETIVE RELATIVE ADDRESS
		XCH	Q		# INTERPRETIVE ADDRESS TO Q, FETCHING L+1
		XCH	LOC		# L+1 TO LOC, RETRIEVING ORIGINAL A
		TCF	Q+10000

# Page 1106
# THERE ARE FOUR POSSIBLE SETTINGS FOR CHANNEL 07.  (CHANNEL 07 CONTAINS SUPERBANK SETTING.)
#
#					PSEUDO-FIXED	 OCTAL PSEUDO
# SUPERBANK	SETTING	S-REG. VALUE	BANK NUMBERS	 ADDRESSES
# ----------	-------	------------	------------ 	  ------------
# SUPERBANK 3	  0XX	2000 - 3777	   30 - 37	 70000 - 107777		(WHERE XX CAN BE ANYTHING AND
#										WILL USUALLY BE SEEN AS 11)
# SUPERBANK 4	  100	2000 - 3777	   40 - 47	 110000 - 127777	(AS FAR AS IT CAN BE SEEN,
#										ONLY BANKS 40-43 WILL EVER BE
#										AND ARE PRESENTLY AVAILABLE)
# SUPERBANK 5	  101	2000 - 3777	   50 - 57	 130000 - 147777	(PRESENTLY NOT AVAILABLE TO
#										THE USER)
# SUPERBANK 6	  110	2000 - 3777	   60 - 67	 150000 - 167777	(PRESENTLY NOT AVAILABLE TO
#										THE USER)
# ***  THIS ROUTINE MAYBE CALLED BY ANY PROGRAM LOCATED IN BANKS 00 - 27.  I.E., NO PROGRAM LIVING IN ANY
# SUPERBANK SHOULD USE SUPERSW.  ***
#
# SUPERSW MAYBE CALLED IN THIS FASHION:
#	CAF	ABBCON		WHERE  --  ABBCON   BBCON  SOMETHIN  --
#	TCR	SUPERSW		(THE SUPERBNK BITS ARE IN THE BBCON)
#	...	  ...
#	 .	   .
#	 .	   .
# OR IN THIS FASHION :
#	CAF	SUPERSET	WHERE SUPERSET IS ONE OF THE FOUR AVAILABLE
#	TCR	SUPERSW		SUPERBANK BIT CONSTANTS:
#	...	  ...			SUPER011 OCTAL  60
#	 .	   .			SUPER100 OCTAL 100
#	 .	   .			SUPER101 OCTAL 120
#					SUPER110 OCTAL 140

SUPERSW		EXTEND
		WRITE	SUPERBNK	# WRITE BITS 7-6-5 OF THE ACCUMULATOR INTO
					# CHANNEL 07
		TC	Q		# TC TO INSTRUCTION FOLLOWING
					# 	TC SUPERSW