Proofread LATITUDE_LONGITUDE_SUBROUTINES.agc (#736)

Co-authored-by: James Harris <wopian@wopian.me>

Luminary099/LATITUDE_LONGITUDE_SUBROUTINES.agc

@@ -29,24 +29,24 @@
 # SUBROUTINE TO CONVERT RAD VECTOR AT GIVEN TIME TO LAT,LONG AND ALT
 #
 # CALLING SEQUENCE
-#	L-1	CALL
-#	L		LAT-LONG
 #
+#   L-1	   CALL
+#   L		  LAT-LONG
 # SUBROUTINES USED
-#	R-TO-RP, ARCTAN, SFTGAMMA, SETRE
 #
+#  R-TO-RP,ARCTAN,SETGAMMA,SETRE
 # ERASABLE INIT. REQ.
-#	AXO, -AYO, AZO, TEPHEM (SET AT LAUNCH TIME)
-#	ALPHAV = POSITION VECTOR METERS B-29
-#	MPAC -- TIME (CSECS B-28)
-#	ERADFLAG =1, TO COMPUTE EARTH RADIUS, =0 FOR FIXED EARTH RADIUS
-#	LUNAFLAG=0 FOR EARTH, 1 FOR MOON
 #
+#   AXO,-AYO,AZO,TEPHEM (SET AT LAUNCH TIME)
+# ALPHAV = POSITION VECTOR METERS B-29
+#   MPAC-- TIME  (CSECS B-28)
+#  ERADFLAG =1, TO COMPUTE EARTH RADIUS, =0 FOR FIXED EARTH RADIUS
+#  LUNAFLAG=0 FOR EARTH,1 FOR MOON
 # OUTPUT
-#	LATITUDE IN LAT 	(REVS. B-0)
-#	LONGITUDE IN LONG	(REVS. B-0)
-#	ALTITUDE IN ALT 	METERS B-29
-
+#
+#   LATITUDE IN LAT   (REVS. B-0)
+#   LONGITUDE IN LONG	(REVS. B-0)
+# ALTITUDE IN ALT METERS B-29
 		BANK	30
 		SETLOC	LATLONG
 		BANK
@@ -60,16 +60,16 @@ LAT-LONG	STQ	SETPD
 			ALPHAV
 		PUSH	ABVAL		# 0-5D= R FOR R-TO-RP
 		STODL	ALPHAM		# ABS. VALUE OF R FOR ALT FORMULA BELOW
-			ZEROVEC		# SET MPAC=0 FOR EARTH, NON-ZERO FOR MOON
+			ZEROVEC		# SET MPAC=0 FOR EARTH,NON-ZERO FOR MOON
 		BOFF	COS		# USE COS(0) TO GET NON-ZERO IN MPAC
-			LUNAFLAG	# 0=EARTH, 1=MOON
+			LUNAFLAG	# 0=EARTH,1=MOON
 			CALLRTRP
 CALLRTRP	CALL
 			R-TO-RP		# RP VECTOR CONVERTED FROM R B-29
 		UNIT			# UNIT RP B-1
 		STCALL	ALPHAV		# U2= 1/2 SINL FOR SETRE SUBR BELOW
-			SETGAMMA	#	SET GAMMA=B2/A2 FOR EARTH, =1 FOR MOON
-		CALL			#	SCALED B-1
+			SETGAMMA	#  SET GAMMA=B2/A2 FOR EARTH,=1 FOR MOON
+		CALL			#  SCALED B-1
 			SETRE		# CALC RE METERS B-29
 		DLOAD	DSQ
 			ALPHAV
@@ -96,49 +96,48 @@ CALLRTRP	CALL
 		STCALL	ALT		# EXIT WITH ALT METERS B-29
 			INCORPEX
 # Page 1135
-# SUBROUTINE TO CONVERT LAT,LONG.ALT AT GIVEN TIME TO RADIUS VECTOR
-#
+# SUBROUTINE TO CONVERT LAT,LONG,ALT AT GIVEN TIME TO RADIUS VECTOR
 # CALLING SEQUENCE
-#	L-1	CALL
-#	L		LALOTORV
 #
+#   L-1	   CALL
+#   L		  LALOTORV
 # SUBROUTINES USED
-#	SETGAMMA, SETRE, RP-TO-R
 #
+#  SETGAMMA,SETRE,RP-TO-R
 # ERASABLE INIT. REQ.
-#	AXO, AYO, AZO, TEPHEM SET AT LAUNCH TIME
-#	LAT -- LATITUDE 	(REVS B0)
-#	LONG -- LONGITUDE	(REVS B0)
-#	ALT -- ALTITUDE		(METERS) B-29
-#	MPAC -- TIME		(CSECS B-28)
-#	ERADFLAG =1 TO COMPUTE EARTH RADIUS, =0 FOR FIXED EARTH RADIUS
-#	LUNAFLAG=0 FOR EARTH, 1 FOR MOON
 #
+#   AXO,AYO,AZO,TEPHEM  SET AT LAUNCH TIME
+#   LAT-- LATITUDE  (REVS B0)
+#   LONG-- LONGITUDE  (REVS B0)
+# ALT--ALTITUDE	(METERS) B-29
+#   MPAC-- TIME	 (CSECS B-28)
+#   ERADFLAG =1 TO COMPUTE EARTH RADIUS, =0 FOR FIXED EARTH RADIUS
+#  LUNAFLAG=0 FOR EARTH,1 FOR MOON
 # OUTPUT
-#	R-VECTOR IN ALPHAV 	(METERS B-29)
-
+#
+# R-VECTOR IN ALPHAV (METERS B-29)
 LALOTORV	STQ	SETPD		# LAT,LONG,ALT TO R VECTOR
 			INCORPEX
 			0D
 		STCALL	6D		# 6-7D= TIME FOR RP-TO-R
-			SETGAMMA	# GAMMA=B2/A2 FOR EARTH, 1 FOR MOON B-1
+			SETGAMMA	# GAMMA=B2/A2 FOR EARTH,1 FOR MOON B-1
 		DLOAD	SIN		#           	COS(LONG)COS(LAT) IN MPAC
-			LAT		#     UNIT RP =	SIN(LONG)COS(LAT)    2-3D
+			LAT		#     UNIT RP=	SIN(LONG)COS(LAT)    2-3D
 		DMPR	PDDL		# PD 2      	GAMMA*SIN(LAT)       0-1D
 			GAMRP
-			LAT		#     	 0-1D =	GAMMA*SIN(LAT) B-2
-		COS	PDDL		# PD4 	 2-3D =	COS(LAT) B-1 TEMPORARILY
+			LAT		#     	  0-1D= GAMMA*SIN(LAT) B-2
+		COS	PDDL		# PD4 	   2-3D=COS(LAT) B-1 TEMPORARILY
 			LONG
 		SIN	DMPR		# PD 2
-		PDDL	COS		# PD 4 	 2-3D =	SIN(LONG)COS(LAT) B-2
+		PDDL	COS		# PD 4 	  2-3D=SIN(LONG)COS(LAT) B-2
 			LAT
-		PDDL	COS		# PD 6 	 4-5D =	COS(LAT) B-1 TEMPORARILY
+		PDDL	COS		# PD 6 	   4-5D=COS(LAT) B-1 TEMPORARILY
 			LONG
-		DMPR	VDEF		# PD 4 	 MPAC =	COS(LONG)COS(LAT) B-2
+		DMPR	VDEF		# PD 4 	 MPAC=	COS(LONG)COS(LAT) B-2
 		UNIT	PUSH		# 0-5D= UNIT RP FOR RP-TO-R SUBR.
 		STCALL	ALPHAV		# ALPHAV +4= SINL FOR SETRE SUBR.
 			SETRE		# RE METERS B-29
-		DLOAD	BOFF		# SET MPAC=0 FOR EARTH, NON-ZERO FOR MOON
+		DLOAD	BOFF		# SET MPAC=0 FOR EARTH,NON-ZERO FOR MOON
 			ZEROVEC
 			LUNAFLAG
 			CALLRPRT
@@ -154,14 +153,15 @@ CALLRPRT	CALL
 		VSL1			# R METERS B-29
 		STCALL	ALPHAV		# EXIT WITH R IN METERS B-29
 			INCORPEX
-
 # SUBROUTINE TO COMPUTE EARTH RADIUS
 #
 # INPUT
-#	1/2 SIN LAT IN ALPHAV +4
+#
+#   1/2 SIN LAT IN ALPHAV +4
 #
 # OUTPUT
-#	EARTH RADIUS IN ERADM AND MPAC (METERS B-29)
+#
+#   EARTH RADIUS IN ERADM AND MPAC (METERS B-29)
 
 GETERAD		DLOAD	DSQ
 			ALPHAV +4	# SIN**2(L)
@@ -176,11 +176,10 @@ GETERAD		DLOAD	DSQ
 		STORE	ERADM
 		RVQ
 
-# THE FOLLOWING CONSTANTS WERE COMPUTED WITH A=6378166, B=6356784 METERS
-# B2XSC = B**2 SCALED B-51
-# B2/A2 = B**2/A**2 SCALED B-1
-# EE = (1-B**2/A**2) SCALED B-0
-
+# THE FOLLOWING CONSTANTS WERE COMPUTED WITH A=6378166,B=6356784 METERS
+# B2XSC= B**2 SCALED B-51
+# B2/A2= B**2/A**2 SCALED B-1
+# EE=(1-B**2/A**2) SCALED B-0
 B2XSC		2DEC	.0179450689	# B**2 SCALED B-51
 DP1/2		=	XUNIT
 B2/A2		2DEC	.9933064884 B-1	# GAMMA= B**2/A**2 B-1
@@ -190,12 +189,13 @@ EE		2DEC	6.6935116 E-3	# (1-B**2/A**2) B-0
 # ARCTAN SUBROUTINE
 #
 # CALLING SEQUENCE
-#	SIN THETA IN SINTH B-1
-#	COS THETA IN COSTH B-1
-#	CALL ARCTAN
+#
+#   SIN THETA IN SINTH B-1
+#   COS THETA IN COSTH B-1
+#   CALL ARCTAN
 #
 # OUTPUT
-#	ARCTAN THETA IN MPAC AND THETA B-0 IN RANGE -1/2 TO +1/2
+#   ARCTAN THETA IN MPAC AND THETA B-0 IN RANGE -1/2 TO +1/2
 
 ARCTAN		BOV
 			CLROVFLW
@@ -234,21 +234,21 @@ ATAN=90		DLOAD	SIGN
 2DZERO		=	DPZERO
 
 # Page 1138
-# ***** SETGAMMA SUBROUTINE *****
+# ..... SETGAMMA SUBROUTINE .....
 # SUBROUTINE TO SET GAMMA FOR THE LAT-LONG AND LALOTORV SUBROUTINES
 #
 # GAMMA = B**2/A**2 FOR EARTH (B-1)
 # GAMMA = 1 FOR MOON (B-1)
 #
 # CALLING SEQUENCE
-#	L	CALL
-#	L+1		SETGAMMA
+#  L	   CALL
+#  L+1		  SETGAMMA
 #
 # INPUT
-#	LUNAFLAG=0 FOR EARTH, =1 FOR MOON
+#  LUNAFLAG=0 FOR EARTH,=1 FOR MOON
 #
 # OUTPUT
-#	GAMMA IN GAMRP (B-1)
+#  GAMMA IN GAMRP  (B-1)
 
 SETGAMMA	DLOAD	BOFF		# BRANCH FOR EARTH
 			B2/A2		# EARTH GAMMA
@@ -261,27 +261,27 @@ SETGMEX		STORE	GAMRP
 GAMRP		=	8D
 
 # Page 1139
-# ***** SETRE SUBROUTINE *****
+# .....SETRE SUBROUTINE .....
 # SUBROUTINE TO SET RE (EARTH OR MOON RADIUS)
 #
-#	RE = RM FOR MOON
-#	RE = RREF FOR FIXED EARTH RADIUS OR COMPUTED RF FOR FISCHER ELLIPSOID
+# RE= RM FOR MOON
+#  RE= RREF FOR FIXED EARTH RADIUS OR COMPUTED RF FOR FISCHER ELLIPSOID
 #
 # CALLING SEQUENCE
-#	L	CALL
-#	L+1		SETRE
+#  L	   CALL
+#  L+1		  SETRE
 #
 # SUBROUTINES USED
-#	GETERAD
+#  GETERAD
 #
 # INPUT
-#	ERADFLAG = 0 FOR FIXED RE, 1 FOR COMPUTED RE
-#	ALPHAV +4 = 1/2 SINL IF GETERAD IS CALLED
-#	LUNAFLAG = 0 FOR EARTH, =1 FOR MOON
+#  ERADFLAG=0 FOR FIXED RE, 1 FOR COMPUTED RE
+#  ALPHAV +4= 1/2 SINL IF GETERAD IS CALLED
+#  LUNAFLAG=0 FOR EARTH,=1 FOR MOON
 #
 # OUTPUT
-#	ERADM = 504RM FOR MOON (METERS B-29)
-#	ERADM = ERAD OR COMPUTED RE FOR EARTH (METERS B-29)
+#  ERADM= 504RM FOR MOON (METERS B-29)
+#  ERADM= ERAD OR COMPUTED RE FOR EARTH (METERS B-29)
 
 SETRE		STQ	DLOAD
 			SETREX
@@ -290,19 +290,17 @@ SETRE		STQ	DLOAD
 			LUNAFLAG
 			TSTRLSRM
 			ERAD
-		BOFF	CALL		# ERADFLAG=0 FOR FIXED RE, 1 FOR COMPUTED
+		BOFF	CALL		# ERADFLAG=0 FOR FIXED RE,1 FOR COMPUTED
 			ERADFLAG
 			SETRXX
 			GETERAD
 SETRXX		STCALL	ERADM		# EXIT WITH RE OR RM METERS B-29
 			SETREX
-TSTRLSRM	BON	VLOAD		# ERADFLAG=0, SET R0=RLS
-			ERADFLAG	#         =1      R0=RM
+TSTRLSRM	BON	VLOAD		# ERADFLAG=0,SET R0=RLS
+			ERADFLAG	#         =1     R0=RM
 			SETRXX
 			RLS
 		ABVAL	SR2R		# SCALE FROM B-27 TO B-29
 		GOTO
 			SETRXX
 SETREX		=	S2
-
-