# Copyright:	Public domain.
# Filename:	RTB_OP_CODES.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:	Ron Burkey <info@sandroid.org>.
# Website:	www.ibiblio.org/apollo.
# Pages:	1397-1401
# Mod history:  2009-05-10 SN   (Sergio Navarro).  Started adapting
#				from the Luminary131/ file of the same
#				name, using Luminary099 page images.
#
# 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

# Page 1397
		BANK	22
		SETLOC	RTBCODES
		BANK

		EBANK=	XNB
		COUNT*	$$/RTB

# LOAD TIME2, TIME1 INTO MPAC:

LOADTIME	EXTEND
		DCA	TIME2
		TCF	SLOAD2

# 	   CONVERT THE SINGLE PRECISION 2'S COMPLEMENT NUMBER ARRIVING IN MPAC (SCALED IN HALF-REVOLUTIONS) TO A
# DP 1'S COMPLEMENT NUMBER SCALED IN REVOLUTIONS.

CDULOGIC	CCS	MPAC
		CAF	ZERO
		TCF	+3
		NOOP
		CS	HALF

		TS	MPAC +1
		CAF	ZERO
		XCH	MPAC
		EXTEND
		MP	HALF
		DAS	MPAC
		TCF	DANZIG		# MODE IS ALREADY AT DOUBLE-PRECISION

# 	   FORCE TP SIGN AGREEMENT IN MPAC:

SGNAGREE	TC	TPAGREE
		TCF	DANZIG

# 	   CONVERT THE DP 1'S COMPLEMENT ANGLE SCALED IN REVOLUTIONS TO A SINGLE PRECISION 2'S COMPLEMENT ANGLE
# SCALED IN HALF-REVOLUTIONS.

1STO2S		TC	1TO2SUB
		CAF	ZERO
		TS	MPAC +1
		TCF	NEWMODE

# 	   DO 1STO2S ON A VECTOR OF ANGLES:

V1STO2S		TC	1TO2SUB		# ANSWER ARRIVES IN A AND MPAC.

		DXCH	MPAC +5
		DXCH	MPAC
		TC	1TO2SUB
# Page 1398
		TS	MPAC +2

		DXCH	MPAC +3
		DXCH	MPAC
		TC	1TO2SUB
		TS	MPAC +1

		CA	MPAC +5
		TS	MPAC

TPMODE		CAF	ONE		# MODE IS TP.
		TCF	NEWMODE

# 	   V1STO2S FOR 2 COMPONENT VECTOR. USED BY RR.

2V1STO2S	TC	1TO2SUB
		DXCH	MPAC +3
		DXCH	MPAC
		TC	1TO2SUB
		TS	L
		CA	MPAC +3
		TCF	SLOAD2

# 	   SUBROUTINE TO DO DOUBLING AND 1'S TO 2'S CONVERSION:

1TO2SUB		DXCH	MPAC		# FINAL MPAC +1 UNSPECIFIED.
		DDOUBL
		CCS	A
		AD	ONE
		TCF	+2
		COM			# THIS WAS REVERSE OF MSU.

		TS	MPAC		# AND SKIP ON OVERFLOW.
		TC	Q

		INDEX	A		# OVERFLOW UNCORRECT AND IN MSU.
		CAF	LIMITS
		ADS	MPAC
		TC	Q

# 	   THE FOLLOWING ROUTINE INCREMENTS IN 2S COMPLEMENT THE REGISTER WHOSE ADDRESS IS IN BUF BY THE 1S COMPL.
# QUANTITY FOUND IN TEM2. THIS MAY BE USED TO INCREMENT DESIRED IMU AND OPTICS CDU ANGLES OR ANY OTHER 2S COMPL.
# (+0 UNEQUAL TO -0) QUANTITY. MAY BE CALLED BY BANKCALL/SWCALL.

CDUINC		TS	TEM2		# 1S COMPL.QUANT. ARRIVES IN ACC. STORE IT
		INDEX	BUF
		CCS	0		# CHANGE 2S COMPL. ANGLE(IN BUF)INTO 1S
		AD	ONE
		TCF	+4
		AD	ONE
# Page 1399
		AD	ONE		# OVERFLOW HERE IF 2S COMPL. IS 180 DEG.
		COM

		AD	TEM2		# SULT MOVES FROM 2ND TO 3D QUAD.(OR BACK)
		CCS	A		# BACK TO 2S COMPL.
		AD	ONE
		TCF	+2
		COM
		TS	TEM2		# STORE 14BIT QUANTITY WITH PRESENT SIGN
		TCF	+4
		INDEX	A		#  SIGN.
		CAF	LIMITS		# FIX IT,BY ADDING IN 37777 OR 40000
		AD	TEM2

		INDEX	BUF
		TS	0		# STORE NEW ANGLE IN 2S COMPLEMENT.
		TC	Q

# Page 1400
# 	   RTB TO TORQUE GYROS, EXCEPT FOR THE CALL TO IMUSTALL. ECADR OF COMMANDS ARRIVES IN X1.

PULSEIMU	INDEX	FIXLOC		# ADDRESS OF GYRO COMMANDS SHOULD BE IN X1
		CA	X1
		TC	BANKCALL
		CADR	IMUPULSE
		TCF	DANZIG

# Page 1401
# 	   THE SUBROUTINE SIGNMPAC  SETS C(MPAC, MPAC +1) TO SIGN(MPAC).
# FOR THIS, ONLY THE CONTENTS OF MPAC ARE EXAMINED.   ALSO +0 YIELDS POSMAX AND -0 YIELDS NEGMAX.
#
# ENTRY MAY BE BY EITHER OF THE FOLLOWING:
# 1.	   LIMIT THE SIZE OF MPAC ON INTERPRETIVE OVERFLOW:
# ENTRY:	  BOVB
#			 SIGNMPAC
# 2.	   GENERATE IN MPAC THE SIGNUM FUNCTION OF MPAC:
# ENTRY:	  RTB
#			 SIGNMPAC
# IN EITHER CASE, RETURN IS TO  THE NEXT INTERPRETIVE INSTRUCTION IN THE CALLING SEQUENCE.

SIGNMPAC	EXTEND
		DCA	DPOSMAX
		DXCH	MPAC
		CCS	A
DPMODE		CAF	ZERO		# SETS MPAC +2 TO ZERO IN THE PROCESS
		TCF	SLOAD2 +2
		TCF	+1
		EXTEND
		DCS	DPOSMAX
		TCF	SLOAD2

#     RTB OP CODE NORMUNIT IS LIKE INTERPRETIVE INSTRUCTION UNIT, EXCEPT THAT IT CAN BE DEPENDED ON NOT TO BLOW
# UP WHEN THE VECTOR BEING UNITIZED IS VERY SMALL -- IT WILL BLOW UP WHEN ALL COMPONENTS ARE ZERO.   IF NORMUNIT
# IS USED AND THE UPPER ORDER HALVES OF ALL COMPONENTS ARE ZERO, THE MAGNITUDE RETURNED IN 36D WILL BE TOO LARGE
# BY A FACTOR OF 2(13) AND THE SQUARED MAGNITUDE RETURNED AT 34D WILL BE TOO BIG BY A FACTOR OF 2(26).

NORMUNX1	CAF	ONE
		TCF	NORMUNIT +1
NORMUNIT	CAF	ZERO
		AD	FIXLOC
		TS	MPAC +2
		TC	BANKCALL	# GET SIGN AGREEMENT IN ALL COMPONENTS
		CADR	VECAGREE
		CCS	MPAC
		TCF	NOSHIFT
		TCF	+2
		TCF	NOSHIFT
		CCS	MPAC +3
		TCF	NOSHIFT
		TCF	+2
		TCF	NOSHIFT
		CCS	MPAC +5
		TCF	NOSHIFT
		TCF	+2
		TCF	NOSHIFT
# Page 1402
		CA	MPAC +1		# SHIFT ALL COMPONENTS LEFT 13
		EXTEND
		MP	BIT14
		DAS	MPAC		# DAS GAINS A LITTLE ACCURACY
		CA	MPAC +4
		EXTEND
		MP	BIT14
		DAS	MPAC +3
		CA	MPAC +6
		EXTEND
		MP	BIT14
		DAS	MPAC +5
		CAF	THIRTEEN
		INDEX	MPAC +2
		TS	37D
OFFTUNIT	TC	POSTJUMP
		CADR	UNIT +1		# SKIP THE "TC VECAGREE" DONE AT UNIT

NOSHIFT		CAF	ZERO
		TCF	OFFTUNIT -2

# RTB VECSGNAG   ...FORCES SIGN AGREEMENT OF VECTOR IN MPAC.

VECSGNAG	TC	BANKCALL
		CADR	VECAGREE
		TC	DANZIG

# *** END OF SKIPPER .087 ***