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Trailing-Edge - PDP-10 Archives - AP-D489C-SB - srtprm.mac
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SUBTTL	SRTPRM - PARAMETER FILE FOR NEW SORT
SUBTTL	D.M.NIXON/DMN/DPL/DZN	29-MAR-78



;COPYRIGHT (C) 1975, 1978 BY
;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.


CUSTVR==0		;CUSTOMER VERSION
DECVER==4		;DEC VERSION
DECMVR==0		;DEC MINOR VERSION
DECEVR==302		;DEC EDIT VERSION

V%SORT==:<CUSTVR>B2+<DECVER>B11+<DECMVR>B17+DECEVR
SUBTTL	SRTPRM TABLE OF CONTENTS


;                    Table of Contents for SRTPRM
;
;
;                             Section                             Page
;
;   1  SRTPRM - PARAMETER FILE FOR NEW SORT......................   1
;   2  SRTPRM TABLE OF CONTENTS..................................   2
;   3  CONDITIONAL ASSEMBLY PARAMETERS...........................   3
;   4  REVISION HISTORY..........................................   4
;   5  DEFINITIONS
;        5.1  Accumulators.......................................   5
;        5.2  Recording Modes....................................   6
;        5.3  FORTRAN Interface..................................   7
;        5.4  Special Monitor Definitions........................   8
;        5.5  Business Instruction Set OPcodes...................   9
;        5.6  Prototype File Spec, MTA and Key Blocks............  10
;        5.7  File Control Block and File Flags..................  11
;        5.8  Tree Node and Record Blocks........................  12
;        5.9  Segment Control - ISEGMENT and SEGMENT.............  13
;        5.10  Error Handling
;             5.10.1  $ERROR.....................................  15
;             5.10.2  $MORE......................................  16
;             5.10.3  $CRLF, $CHAR, $DIE.........................  17
;        5.11  Structure Macros
;             5.11.1  BEGIN, PROCEDURE, RETURN, END..............  18
;             5.11.2  IF, THEN, ELSE, FI, CASE, ESAC.............  19
;             5.11.3  Temporary Labels...........................  20
SUBTTL	CONDITIONAL ASSEMBLY PARAMETERS

;FTKL10			;KL INSTRUCTIONS ALLOWED
;FTKI10			;KI INSTRUCTIONS ALLOWED
;FTDEBUG		;DEBUGGING HELP
;FTOPS20		;TOPS20 JSYS CODE
;FTCOBOL		;COBOL INTERFACE CODE
;FTFORTRAN		;FORTRAN-10 INTERFACE
;FTCOL			;ALTERNATE COLATING SEQUENCE
;FTVM			;TOPS-10 VIRTUAL MEMORY VERSION

IFNDEF FTOPS20,<FTOPS20==0>
IFN FTOPS20,<FTKL10==1
		FTFORTRAN==0>
IFNDEF FTKL10,<FTKL10==0>
IFN FTKL10,<FTKI10==1>
IFNDEF FTKI10,<FTKI10==0>
IFNDEF FTDEBUG,<FTDEBUG==0>
IFNDEF FTCOL,<FTCOL==1>
IFNDEF FTFORTRAN,<FTFORTRAN==0>
IFNDEF FTCOBOL,<FTCOBOL==0>

IFN FTOPS20,<FTOPS10==0>
IFE FTOPS20,<FTOPS10==1>

EXTERN	.JBFF,.JBHRL,.JBOPS,.JBREL

SEARCH	MACTEN		;*** YES, MUST REALLY BE SEARCHED ON BOTH SYSTEMS ***
IFE FTOPS20,<SEARCH	UUOSYM,SCNMAC>
IFN FTOPS20,<SEARCH	MONSYM,MACSYM>
SALL

.DIRECTIVE	FLBLST, SFCOND
IFN FTKI10,<.DIRECTIVE	KI10>
SUBTTL	REVISION HISTORY


;VERSION 1
;1	FIRST FIELD TEST RELEASE
;2	SECOND FIELD TEST RELEASE
;3	FIX QA FOUND BUGS
;4	FIX BUG IF RUN OF MORE THAN 400000 RECORDS
;5	FIX RANDOM BIT 35'S IN ASCII OUTPUT FILE
;6	TEST FOR DEVICE NUL:
;7	DON'T ADD EXTRA BUFFERS IF IN USE BIT IS ON FOR ALL BUFFERS IN RING
;10	ADD EXTRA BUFFERS IN CORRECT SEQUENCE
;11	STRIP LEADING NULLS AND TERMINATORS CORRECTLY AND EFFICIENTLY
;12	WAIT FOR ALL CHANNELS NOT JUST CHAN 0
;13	DON'T READ ONE CHAR TOO MANY AT GETAVR
;14	RECORD COUNT WRITTEN ONE TOO HIGH ON SIXBIT MTA FILES
;15	CALCULATE ELAPSED TIME CORRECTLY OVER MIDNIGHT
;16	DON'T RETURN CORE IF SOMEONE ELSE INCREASED IT AFTER SORT
;17	CORRECTLY HANDLE VARIABLE LENGTH ASCII RECORDS LESS THAN 6 CHAR LONG
;20	GET TO STOPR. CORRECTLY ON FATAL ERROR


;VERSION 2
;100	IMPLEMENT VERSION 2 FEATURES (EBCDIC, COMP-3, VARIABLE LENGTH, ETC)
;101	FIX BUG INTRODUCED IN PUTSXR & GETSXR
;102	FIX BUGS IN EBCDIC AND COMP-3 CODE
;103	IMPROVE TENEX CODE
;104	FIX VARIABLE ASCII WITH NUMERIC KEYS
;SORT %2(104) Released on TOPS-10.
;105	FORCE SIXBIT FILES TO BE VARIABLE
;106	SETUP PPN OR SFD CORRECTLY FOR NEXT INPUT FILE
;107	IGNORE NULL INPUT FILES
;110	SIMPLIFY HANDLING OF SEQUENCE NUMBERS
;111	MORE TOPS-20 IMPROVEMENTS
;112	DO ROUNDING CORRECTLY ON FLOATING POINT OUTPUT
;113	RENAME SINGLE TEMP FILE CORRECTLY IF FILE ALREADY EXISTS
;SORT %2(113) Released on TOPS-20.
;114	ACCEPT R SORT (COMMAND LINE) I.E. DO A RESCAN
;115	FIX VARIOUS PROBLEMS WITH DEFAULT PATHS
;116	MAKE MULTI-REEL FILES WORK CORRECTLY
;117	FIX SRTSCN SO THAT BLOCKED SIXBIT FILES THAT TAKE ONLY 1 RUN COME OUT BLOCKED
;120	FIX KL-10 BIS WRITE OF FIXED LENGTH ASCII AND EBCDIC RECORDS
;121	ADD ERJMP AFTER MTOPR ON TOPS-20
;122	FIX LAST RECORD OF FIXED LENGTH EBCDIC FILE
;123	DON'T ZERO TOO MANY WORDS WHEN CLEARING OUTPUT BUFFER
;124	CORRECT OUTPUT EBCDIC BYTE POINTER FOR DUMMY OUTPUT
;125	DELETE TEMP FILE IF USER ROUTINE EXITS BEFORE END-OF-FILE
;126	CORRECT BIS COMPARE WHEN BYTE POINTER IS 36 BITS (EBCDIC OR SIXBIT)
;127	CORRECT KL10 INPUT FOR VARIABLE LEN ASCII
;130	FIX VAR LNGTH RECS WITH XTRCTED KEYS
;131	FIX JUNK WRITTEN AT END OF LAST BLOCK ON OUTPUT FILE.
;132	FIX NEGATION OF DOUBLE PRECISION SIGNED NUMERICS ON KA.
;133	FIX CODE GEN OF DOUBLE PRECISION COMPARE ON KA.
;134	TYPE ERROR MESSAGES FOR ALL CROSS-CPU POSSIBILITIES.
;135	REMOVE USE OF MTOPR'S UNTIL SORT IS COMPLETELY JSYS-IZED FOR TOPS20
;136	DON'T SHARE BUFFER RING WHEN OUTPUT CHAN IS CLOSED IN COBOL SORT
;137	CLEAR ^O ON TOPS20 INSTEAD OF SETTING IT ON FATAL MESSAGES.
;140	CHANGE CHANNEL ALLOCATION SO MORE FILES CAN BE OPENED BY COBOL USER
;141	HANDLE MULTIPLE CORE EXPANSIONS PROPERLY SO SHRINK IN COBOL WORKS
;142	CAUSE SIXBIT RUNNING ON KL-10 TO SORT PROPERLY IN ALL CASES.
;143	HANDLE /FIX, /VAR MORE CONSISTENTLY, AND ISSUE BETTER ERROR MESSAGE
;144	MAKE NUMERIC UNSIGNED EBCDIC USE EBCDIC ROUTINES INSTEAD OF SIXBIT ONES.
;145	CAUSE EBCDIC ALPHANUMERIC RUNNING ON KL-10 TO SORT PROPERLY IN ALL CASES.
;146	USE WORD OFFSET IN CNVGEN SO SORTS WITH MORE THAN 1 CONVERTED KEY WORK.
;147	FIX AND CLEAN UP HANDLING OF EXTRACTED WORD COUNT IN ASCII I/O ROUTINES.
;150	FIX AND CLEAN UP HANDLING OF EXTRACTED WORD COUNT IN EBCDIC I/O ROUTINES.
;151	MAKE SRTSNA AND SRTROS FATAL ERRORS RATHER THAN WARNINGS.
;152	MAKE SURE R (AND RSAV) NEVER GETS -1 IN LH, DUE TO @RSAV.
;153	FIX ASCII ALPHANUMERIC COMPARISONS ON KL (BIS).
;154	FIX MORE ASCII AND EBCDIC I/O WHEN FTKL10==1.


;VERSION 3
;200	Implement stand-alone merge.
;	Implement COBOL merge.
;	Implement FORTRAN interface.
;	Start to implement collating sequence.
;SORT %3A(200) Released.
;201	Separate MODE into MODE for keys and IOMODE for I/O to avoid confusion.
;202	Fix Ill UUO and defaulting of /FIX, /VAR, /SEQ, /RAN, /BIN, /COMP and /FORMAT.
;203	Fix FORTRAN binary data files of all flavors.
;204	Change SIXBIT input to ignore zero words.
;205	Fix handling of tapes in sort case.
;206	Turn on FTOPS20 conditional for TOPS-20 SORT.
;207	Write .TMP files variable length in COBOL SORT.
;210	Check forgotten case in edit 131 so files are not padded with zeros.
;211	Make sure the last I/O channel is freed before returning in FORTRAN SORT.
;212	Fix random errors on second command to SORT when using /TEMP.
;213	Fix major incompatibilities in FORTRAN SORT's command scanner.
;214	Skip .TMP structures if OPEN or ENTER fails.
;215	Fix tape label checking in stand-alone SORT.
;216	Fix handling of line-sequenced ASCII files in KL case.
;217	Fix edit 207 so data record gets copied after the keys.
;220	Fix illegal instruction when handling tapes in FORTRAN SORT.
;221	Stop FORTRAN SORT from expanding more and more on TOPS-20.
;222	Fix DECODE errors when using /FORMAT.
;223	See that R gets initialized in SCAN in SRTFOR for ? I/O to unassigned channel.
;224	Fix SRTTFC and I/O to unassigned channel errors in SRTCBL on early ENDS. calls.


;VERSION 4
;300	JSYSize SORT.
;301	Allow input and output to have different blocking factors (QAR 20-00136).
;302	Fix bugs found from second field test tape.
SUBTTL	DEFINITIONS -- Accumulators


	EF=0			;END OF FILE STATUS
	T0=0			;USED IN EXTRACT ROUTINES
	T1=1			;TEMPORARY
	T2=2
	T3=3
	T4=4
	P1=5			;PRESERVED
	P2=6
	P3=7
	P4=10
	F=11			;FILE PTR
	U=12			;GENERAL AOBJN PTR
	J=13			;2ND RECORD PTR
	R=14			;1ST RECORD PTR
	S=15			;NODE PTR
	L=16			;EXTERN ARG-LIST PTR
	P=17			;PUSHDOWN PTR

PGSIZ==1000			;SIZE OF ONE PAGE
PDLEN==100			;SIZE OF STACK
IFE FTOPS20,<
MX.TMP==^D15			;MAXIMUM NUMBER OF TEMP FILES
>
IFN FTOPS20,<
MX.TMP==^D26			;ONE FOR EACH LETTER OF THE ALPHABET
>
U.CHN==3			;NUMBER OF CHANNELS TO TRY TO LEAVE TO USER
MX.INP==^D100			;MAX NUMBER OF INPUT FILES
MX.OUT==^D20			;MAX NUMBER OF OUTPUT FILES

DEFINE	$EDIT (N)<
 IFNDEF E.'N,<E.'N==0>
 E.'N==E.'N+1
 IF2,<PURGE E.'N>
>
SUBTTL	DEFINITIONS -- Recording Modes


RM.ASC==1B0			;ASCII - DISPLAY-7
RM.SIX==1B1			;SIXBIT - DISPLAY-6
RM.EBC==1B2			;EBCDIC - DISPLAY-9
RM.BIN==1B3			;BINARY - 36 BIT
RM.ALP==1B4			;ALPHANUMERIC
RM.COM==1B5			;COMPUTATIONAL
RM.NUM==1B6			;NUMERIC
RM.PAC==1B7			;PACKED - COMP-3
RM.SGN==1B8			;SIGNED
RM.UNS==1B9			;UNSIGNED
RM.FPA==1B16			;FLOATING POINT
RM.FOR==1B17			;FORTRAN DATA FILE

;INDEX BITS FOR RECORDING MODE. XX IS A MACRO THAT GETS REDEFINED AT VARIOUS
;TIMES. 1ST ARG IS DISPATCH ADDRESS AND 2ND ARG IS ONE OF THE FOLLOWING:
;
;	A - ALWAYS EXTRACT KEYS
;	C - CONDITIONALLY EXTRACT KEYS DEPENDING UPON COLLATING SEQ. FLAG
;	N - NEVER EXTRACT KEYS

DEFINE IXMODE,<
XX	(ALS,C)			;ALPHANUMERIC LOGICAL SIXBIT
XX	(ALA,C)			;ALPHANUMERIC LOGICAL ASCII
XX	(ALE,C)			;ALPHANUMERIC LOGICAL EBCDIC
XX	(NSS,A)			;NUMERIC SIGNED SIXBIT
XX	(NSA,A)			;NUMERIC SIGNED ASCII
XX	(NSE,A)			;NUMERIC SIGNED EBCDIC
XX	(NUS,A)			;NUMERIC UNSIGNED SIXBIT
XX	(NUA,A)			;NUMERIC UNSIGNED ASCII
XX	(NUE,A)			;NUMERIC UNSIGNED EBCDIC
XX	(CSS,N)			;COMPUTATIONAL SIGNED SIXBIT
XX	(CSA,N)			;COMPUTATIONAL SIGNED ASCII
XX	(CSE,N)			;COMPUTATIONAL SIGNED EBCDIC
XX	(CUS,N)			;COMPUTATIONAL UNSIGNED SIXBIT
XX	(CUA,N)			;COMPUTATIONAL UNSIGNED ASCII
XX	(CUE,N)			;COMPUTATIONAL UNSIGNED EBCDIC
XX	(C3S,A)			;COMP-3 SIGNED
XX	(C3U,A)			;COMP-3 UNSIGNED
XX	(CSB,N)			;COMPUTATINAL SIGNED BINARY
XX	(CUB,N)			;COMPUTATIONAL UNSIGNED BINARY
XX	(FPA,A)			;FLOATING POINT ASCII
>

;GENERATE INDEX
ZZ==0
DEFINE XX(A,B)<
IX.'A==ZZ
ZZ==ZZ+1
>
IXMODES
SUBTTL	DEFINITIONS -- FORTRAN Interface


;FORTRAN BINARY LSCW'S

S.LSCW==001000			;START
C.LSCW==002000			;CONTINUE
E.LSCW==003000			;END

;FORTRAN DATA TYPES

TP%UDF==0			;UNDEFINED TYPE
TP%LOG==1			;LOGICAL
TP%INT==2			;INTEGER
TP%REA==4			;REAL
TP%OCT==6			;OCTAL
TP%LBL==7			;LABEL OR ADDRESS
TP%DOR==10
TP%DOT==12
TP%COM==14
TP%LIT==17			;ASCIZ TEXT (LITERAL STRING)

;FORTRAN IOLST. FUNCTIONS

OPDEF	DATA.[1B8]		;CONVERT SINGLE DATA ELEMENT
OPDEF	SLIST.[2B8]		;CONVERT AN ENTIRE ARRAY
OPDEF	FIN.[4B8]		;IMPLIED CALL TO FIN.

;FUNCT. ARGUMENTS

F.GAD==1			;GET CORE AT SPECIFIC ADDRESS
F.COR==2			;GET CORE AT ANY ADDRESS
F.RAD==3			;RETURN CORE AT ADDRESS
F.GCH==4			;GET CHANNEL ARGUMENT
F.RCH==5			;RETURN CHANNEL NUMBER
F.GOT==6			;GET CORE FROM OTS LIST
F.ROT==7			;RETURN CORE TO OTS LIST
F.CBC==12			;CUT BACK CORE (SHRINK)
SUBTTL	DEFINITIONS -- Special Monitor Definitions


;TAPE LABEL DEFINITIONS--NOT YET IN UUOSYM

OPDEF	TAPOP.	[CALLI	154]

%SITLP==4,,126

.TFLBL==1024
.TFSET==1000
.TFLAL==1
.TFLIL==3
.TFLNL==7

;EXIT TO MONITOR--NOTE THAT BOTH OF THESE ARE CONTINUABLE!

IFE FTOPS20,<OPDEF MONRET[MONRT.]>
IFN FTOPS20,<OPDEF MONRET[HALTF]>

;OTHER USEFUL OPDEFS

DEFINE	FASTSKIP<JRST	.+2>		;FASTEST SKIP--DON'T USE IN LITERALS
IFE FTKL10,<OPDEF	NOOP[JFCL]>	;FASTEST NO-OP ON KA10/KI10
IFN FTKL10,<OPDEF	NOOP[TRN]>	;FASTEST NO-OP ON KL10

IFE FTOPS20,<			;DEFINED IN MACSYM ON TOPS20
OPDEF	CALL[PUSHJ P,]			;JUST INCASE
OPDEF	RET[POPJ P,]			;  ..
OPDEF	RETSKP[JRST CPOPJ1]		;  ..
>

;DEFINE DMOVE, DMOVEM FOR KA10 IF NECESSARY, REMEMBERING REAL DEFINITIONS

IF1,<
OPDEF	.DMOVE	[DMOVE]
OPDEF	.DMOVM	[DMOVEM]
>
IFE FTKI10!FTKL10,<			;ASSEMBLE ONLY IF KA10
 DEFINE DMOVE(AC,M)<
  IFL <Z M>-<@>,<
	MOVE	AC,M
	MOVE	AC+1,1+M
  >
  IFGE <Z M>-<@>,<
	MOVEI	AC+1,M
	MOVE	AC,(AC+1)
	MOVE	AC+1,1(AC+1)
  >
 >

 DEFINE DMOVEM(AC,M)<
	MOVEM	AC,M
	MOVEM	AC+1,1+M
 >
>;END IFE FTKI10!FTKL10

;MACROS TO TYPE STRINGS AND CHARACTERS

DEFINE	TYPE(MESSAGE)<
 IFE FTOPS20,<
	OUTSTR	[ASCIZ \MESSAGE\]
 >
 IFN FTOPS20,<
	HRROI	T1,[ASCIZ \MESSAGE\]
	PSOUT
 >
>

DEFINE	TYPEC(ACC)<
 IFE FTOPS20,<
	OUTCHR	ACC
 >
 IFN FTOPS20,<
  IFN <ACC>-T1,<
	HRRZ	T1,ACC
  >
	PBOUT
 >
>

;MACRO TO CLEAR CTRL/O. NOTE THAT IT POTENTIALLY DESTROYS T1 AND T2.

DEFINE	CLEARO<
 IFE FTOPS20,<
	SKPINL				;;ANY INPUT OPERATION CLEARS ^O
	  JFCL
 >
 IFN FTOPS20,<
	MOVEI	T1,.PRIOU		;;READ JFN MODE WORD
	RFMOD				;;  ..
	TXZE	T2,TT%OSP		;;TURN OFF OUTPUT-SUPPRESS
	SFMOD				;;  ..
 >
>

;UUOSYM MNEMONICS THAT DIDN'T MAKE IT TO TOPS-20

.PTSFD==3

;MONITOR TYPE GETTAB. NOTE THAT THIS GETTAB IS SIMULATED ON TOPS-20 WITHOUT
;CALLING IN THE COMPATIBILITY PACKAGE.

%CNMNT==112,,11			;CONFIGURATION GETTAB
CN%MNT==77B23			;MASK FOR MONITOR TYPE

IFN FTOPS20,<
CSTKLN==50			;LENGTH OF CORE ALLOCATOR STACK
>

;CPU TYPES

KA.CPU==0
KI.CPU==1
KL.CPU==2
SUBTTL	DEFINITIONS -- Business Instruction Set OPcodes


;DEFINE BIS OPCODES--MACRO KNOWS THEM BUT DDT DOESN'T YET

	OPDEF	CMPSL	[CMPSL]		;COMPARE STRINGS, SKIP IF LESS
	OPDEF	CMPSE	[CMPSE]		;COMPARE STRINGS, SKIP IF EQUAL
	OPDEF	CMPSLE	[CMPSLE]	;COMPARE STRINGS, SKIP IF LESS OR EQUAL
	OPDEF	CMPSGE	[CMPSGE]	;COMPARE STRINGS, SKIP IF GREATER OR EQUAL
	OPDEF	CMPSN	[CMPSN]		;COMPARE STRINGS, SKIP IF NOT EQUAL
	OPDEF	CMPSG	[CMPSG]		;COMPARE STRINGS, SKIP IF GREATER
	OPDEF	EDIT	[EDIT]		;PROCESS STRING ACCORDING TO MINI-PROGRAM PATTERN
	OPDEF	CVTDBO	[CVTDBO]	;CONVERT DECIMAL TO BINARY BY OFFSET
	OPDEF	CVTDBT	[CVTDBT]	;CONVERT DECIMAL TO BINARY BY TRANSLATION
	OPDEF	CVTBDO	[CVTBDO]	;CONVERT BINARY TO DECIMAL BY OFFSET
	OPDEF	CVTBDT	[CVTBDT]	;CONVERT BINARY TO DECIMAL BY TRANSLATION
	OPDEF	MOVSO	[MOVSO]		;MOVE STRING WITH BYTE OFFSET
	OPDEF	MOVST	[MOVST]		;MOVE STRING WITH BYTE TRANSLATION
	OPDEF	MOVSLJ	[MOVSLJ]	;MOVE STRING UNMODFIED WITH LEFT JUSTIFICATION
	OPDEF	MOVSRJ	[MOVSRJ]	;MOVE STRING UNMODIFIED WITH RIGHT JUSTIFICATION

	OPDEF	ADJBP	[ADJBP]		;ADJUST BYTE POINTER

S.FLAG==1B0				;SIGNIFICANCE FLAG
N.FLAG==1B1				;NON-ZERO FLAG
M.FLAG==1B2				;MINUS FLAG

E.SBIT==400000				;SET S AND N FLAGS
E.ABRT==100000				;ABORT EDIT (NO SKIP)
E.MCLR==200000				;CLEAR M FLAG
E.MSET==300000				;SET M FLAG
SUBTTL	DEFINITIONS -- Prototype File Spec, MTA and Key Blocks


	LOC	0
X.NXT:!	BLOCK	1		;POINTER TO NEXT
IFE FTOPS20,<			;ONLY WANT THESE ON TOPS10
X.OPN:!	BLOCK	3		;[215] OPEN BLOCK FOR FILE
X.DVSZ:!BLOCK	1		;DEVSIZ UUO
X.DVCH:!BLOCK	1		;DEVCHR UUO
X.RIB:!	BLOCK	.RBDEV+1	;[215] LAST NEEDED + COUNT WORD
X.PTH:!	BLOCK	.PTMAX		;[215] SFDS
>;END IFE FTOPS20
IFN FTOPS20,<			;ONLY WANT THESE ON TOPS20
X.DVCH:!BLOCK	1		;WORD RETURNED BY DVCHR JSYS
X.JFN:!	BLOCK	1		;JFN OF FILE (UNTIL COPIED TO FCB)
X.FLGM:!BLOCK	1		;FLAG MASK WORD
X.RIB:!	BLOCK	2		;SIXBIT NAME, EXT, FOR LABEL CHECKING
>;END IFN FTOPS20
X.DEN:!	BLOCK	1		;[215] DENSITY FOR TAPOP.
X.REEL:!BLOCK	1		;[215] REEL NUMBER FOR MULTI-REEL FILES
X.FLG:!	BLOCK	1		;[215] HOLDS FLAGS UNTIL MOVED TO FILFLG
X.BLKF:!BLOCK	1		;BLOCKING FACTOR
X.LABL:!BLOCK	1		;LABEL TYPE
LN.X==.-X.NXT
	RELOC

IFN FTOPS20,<

;WORDS IN X.RIB TO HOLD SIXBIT FILENAME, EXT, FOR TAPE LABELS

.RBNAM==0
.RBEXT==1
>

;PROTOTYPE DATA BLOCK FOR MULTIPLE OUTPUT MTA SPECS

	LOC	0
OM.NXT:!BLOCK	1		;LINK TO NEXT
OM.DEV:!BLOCK	1		;DEVICE
OM.LEN==.-OM.NXT
	RELOC

;PROTOTYPE DATA BLOCK FOR KEYS

	LOC	0
KY.NXT:!BLOCK	1		;LINK TO NEXT
KY.INI:!BLOCK	1		;INITIAL BYTE POSITION
KY.SIZ:!BLOCK	1		;SIZE OF KEY IN BYTES OR DIGITS
KY.ORD:!BLOCK	1		;ASCENDING OR DESCENDING
KY.MOD:!BLOCK	1		;MODE OF KEY
KY.FMT:!BLOCK	2		;FORMAT IF FPA
KY.LEN==.-KY.NXT
	RELOC
SUBTTL	DEFINITIONS -- File Control Block and File Flags


;FILE DEPENDENT FLAGS IN FILFLG

FI.VAR==1B0			;VARIABLE LENGTH RECORDS
FI.IND==1B1			;INDUSTRY COMPATIBLE MODE
FI.STA==1B2			;STANDARD ASCII
FI.REW==1B3			;REWIND BEFORE USE
FI.UNL==1B4			;UNLOAD AFTER USE
FI.ATO==1B5			;[215] TAPE LABEL PROCESSOR IS HANDLING LABELS
FI.EOT==1B6			;[215] END-OF-TAPE FOR MULTI-REEL FILE
FI.MTA==1B7			;FILE IS ON A MAGTAPE
FI.DSK==1B8			;FILE IS ON DISK
FI.BF2==1B9			;SECOND (MAGTAPE) BUFFER IN USE
FI.OUT==1B10			;FILE IS AN OUTPUT FILE
FI.CLZ==1B11			;CLOSE IN PROGRESS
FI.PHY==1B12			;NO LOGICAL NAMES
FI.ODD==1B13			;ODD PARITY
FI.EOF==1B14			;EOF DETECTED (FOR ALL DEVICES BUT DSK)
FI.TMP==1B15			;THIS IS A TEMP FILE
FI.LAB==1B16			;LABEL PROCESSING IN PROGRESS
FI.BLK==1B17			;BLOCKING FACTOR HACK IN PROGRESS

;FILE CONTROL BLOCK

	LOC	0
FILSIZ:!BLOCK	1		;SIZE OF FILE IN RECORDS
FILRUN:!BLOCK	0		;RUN NUMBER (LHS)
FILNAM:!BLOCK	1		;FILE NAME INDEX (RHS)
IFN FTOPS20,<
FILEOF:!BLOCK	1		;EOF COUNTER (IN BYTES)
FILPGN:!BLOCK	1		;JFN,,NEXT PAGE TO READ
>
DFBLEN==.			;LENGTH OF DORMANT BLOCK
IFN FTOPS20,<
FILBPB:!BLOCK	1		;BYTES PER BUFFER ACCORDING TO I/O MODE
>
IFE FTOPS20,<			;ONLY NEED BUFFER HEADER ON TOPS10
FILHDR:!BLOCK	1		;BUFFER HEADER
>				;END IFE FTOPS20
FILPTR:!BLOCK	1		;POINTER TO NEXT WORD IN CURRENT BUFFER
FILCNT:!BLOCK	1		;BUFFER COUNT
FILBUF:!BLOCK	1		;WHERE BUFFERS START (BUFPTR)
FILBLK:!BLOCK	1		;FILE BLOCKING FACTOR
FILFLG:!BLOCK	1		;SEE FI.??? FLAGS ABOVE
FILXBK:!BLOCK	1		;[215] POINTER TO X.???? BLOCK FOR FILE
FCBLEN==.			;SIZE OF FCB
	RELOC
SUBTTL	DEFINITIONS -- Tree Node and Record Blocks


;PROTOTYPE NODE FOR RECORD TREE

	LOC	0
RN.RUN:!			;RUN NUMBER (LHS)
RN.LSR:!BLOCK	1		;PTR. TO LOSE (RHS)
RN.FI:!				;PTR. TO INTERNAL NODE FATHER (LHS)
RN.FE:!	BLOCK	1		;PTR. TO EXTERNAL NODE FATHER (RHS)
RN.SEQ:!			;SEQUENCE # ON SORT PHASE (LHS)
RN.FCB:!			;PTR TO FCB ON MERGE PHASE (LHS)
RN.REC:!BLOCK	1		;PTR. TO RECORD $ KEYS (RHS)
RN.LEN==.			;LENGTH
	RELOC


;PROTOTYPE RECORD BLOCK

	LOC	0
RC.CNT:!BLOCK	1		;BYTE COUNT
RC.KEY:!BLOCK	1		;FIRST DATA WORD
	RELOC

;TYPE OF INPUT 

T.SIX==0			;SIXBIT
T.ASC==1			;ASCII
T.EBC==2			;EBCDIC

;FLAGS FOR LEFT SIDE OF P1 DURING CNVTDB

FL.SGN==1B0			;VALUE IS SIGNED
FL.DP==1B1			;VALUE IS 2 WORDS

LED.SG==(3)			;LEADING SIGN MASK
LED.PL==(1)			;LEADING +
LED.MI==(2)			;LEADING -

;SPECIAL FLAGS IN CONVERSION TABLES
CF.S==1B0			;SPECIAL FLAG
CF.N==1B1			;NEGATIVE SIGN
CF.P==1B2			;PLUS SIGN
CF.L==1B3			;LEADING CHARACTER (TAB SPACE)
CF.Z==1B4			;NUL
CF.O==1B5			;OVERPUNCHED NEGATIVE
CF.I==1B6			;ILLEGAL CHAR


IFN FTOPS20,<
;NUMBER OF RECORDS TO ADD TO MINIMUM CORE SIZE  FOR "DEFCOR"
NRECS==^D1000
>
SUBTTL	DEFINITIONS -- Segment Control - ISEGMENT and SEGMENT


;SEGMENT ORIGINS

IFE FTOPS20,<
	HILOC==400000
	LOWLOC==0
>

IFN FTOPS20,<
	HILOC==600000
	LOWLOC==674000
>

DEFINE	ISEGMENT<
 IFE FTOPS20,<
  IFE FTCOBOL!FTFORTRAN,<;;		ONLY IN STAND-ALONE SORT
	TWOSEG	HILOC
	RELOC	HILOC
	%SEG%==1
  >
  IFN FTCOBOL!FTFORTRAN,<
	RELOC	LOWLOC
	%SEG%==0
  >
 >
 IFN FTOPS20,<
	TWOSEG	HILOC
	RELOC	HILOC
	%SEG%==1
 >
 DEFINE ISEGMENT<>
>

DEFINE	SEGMENT(N)<
 ISEGMENT
 IFIDN <N><ABS>,<
  IFG %SEG%,<
   HILOC==.
  >
  IFE %SEG%,<
   LOWLOC==.
  >
  LOC 0
  %SEG%==-1
 >
 IFIDN <N><LOW>,<
  IFG %SEG%,<
   XLIST;;				DUMP PENDING LITERALS
   LIT
   LIST
   HILOC==.
  >
  IFN %SEG%,<
   IFE FTOPS20,<
    RELOC	LOWLOC
    %SEG%==0
   >
   IFN FTOPS20,<
    LOC	0
    PHASE	LOWLOC
    %SEG%==-1
   >
  >
 >
 IFIDN <N><LOW10>,<
  IFE FTOPS20,<
   IFG %SEG%,<
    XLIST;;				DUMP PENDING LITERALS
    LIT
     LIST
    HILOC==.
   >
   IFN %SEG%,<
    RELOC LOWLOC
    %SEG%==0
   >
  >
 >
 IFE FTCOBOL!FTFORTRAN&FTOPS10,<;;	ONLY IN STAND-ALONE SORT ON TOPS10
  IFIDN <N><HIGH>,<
   IFLE %SEG%,<
    XLIST;;				DUMP PENDING LITERALS
    LIT
    LIST
    LOWLOC==.
    IFN FTOPS20,<
     DEPHASE
    >
   >
   IFLE %SEG%,<
    RELOC HILOC
    %SEG%==1
   >
  >
  IFIDN <N><HIGH20>,<
   IFN FTOPS20,<
    IFLE %SEG%,<
     XLIST;;				DUMP PENDING LITERALS
     LIT
     LIST
     LOWLOC==.
     DEPHASE
    >
    IFLE %SEG%,<
     RELOC HILOC
     %SEG%==1
    >
   >
  >
 >
>
DEFINE	POW2(N)<<^L1-^L<N>>>

DEFINE	$PURGE,<
	PURGE	END
	PURGE	...SQB,..R..,..E..,..F..,..T..,..C..,ZZ
	PURGE	$.LAB,$.NST,$.END,$.IF,$.THN,$.INST,$.ORG
	PURGE	$.BEG0,$.BEG1,$.BEG2,$.BEG3,$.BEG4,$.BEG5,$.BEG6,$.BEG7,$.BEG8,$.BEG9
	PURGE	$.CAS0,$.CAS1,$.CAS2,$.CAS3,$.CAS4,$.CAS5,$.CAS6,$.CAS7,$.CAS8,$.CAS9
	PURGE	$.END0,$.END1,$.END2,$.END3,$.END4,$.END5,$.END6,$.END7,$.END8,$.END9
	PURGE	$.IF0,$.IF1,$.IF2,$.IF3,$.IF4,$.IF5,$.IF6,$.IF7,$.IF8,$.IF9
	PURGE	$.ORG0,$.ORG1,$.ORG2,$.ORG3,$.ORG4,$.ORG5,$.ORG6,$.ORG7,$.ORG8,$.ORG9
	PURGE	$.THN0,$.THN1,$.THN2,$.THN3,$.THN4,$.THN5,$.THN6,$.THN7,$.THN8,$.THN9
>
SUBTTL	DEFINITIONS -- Error Handling -- $ERROR


;Error messages in SORT are handled via the $ERROR macro below. Four standard
;types of messages are handled, as shown below.
;
;	TYPE			CALL				RESULTING MESSAGE
;
;	Informative		$ERROR	([,xxx,<Text>)		[SRTxxx Text]
;	Warning			$ERROR	(%,xxx,<Text>)		%SRTxxx Text
;	Fatal			$ERROR	(?,xxx,<Text>)		?SRTxxx Text
;	Operator intervention	$ERROR	($,xxx,<Text>)		$SRTxxx Text
;
;For fatal error messages, $ERROR automatically generates a call to the $DIE
;macro to abort the sort, possibly returning error information for the FORTRAN
;user.
;
;Error messages which contain text that is a function of run-time parameters are
;handled by specifying '+' as the fourth argument to $ERROR, then using the
;$MORE or $CHAR macros as needed, and finishing with $CRLF. In this case, the
;final message disposition must be performed by manually calling $DIE for fatal
;errors.
;
;The label of $ERROR macros is E$$xxx by convention; in fact, the macro now
;generates this label automatically. If an error message routine must do some
;preliminary computations before calling $ERROR, then the actual error routine
;label should be ERRxxx.

DEFINE	$ERROR (Q,CODE,TEXT,MORE)<
	...SQB==0
E$$'CODE:	MOVE	T1,['SRT',,''CODE'']
 IFB <MORE>,<
  IFDIF <Q><[>,<
	MOVE	T2,["Q",,[ASCIZ	\TEXT
\]]
  >
  IFIDN <Q><[>,<
	MOVE	T2,["Q",,[ASCIZ \TEXT]
\]]
  >
 >
 IFNB <MORE>,<
	MOVE	T2,["Q",,[ASCIZ	\TEXT\]]
  IFIDN <Q><[>,<
	...SQB==1
  >
 >
	PUSHJ	P,%ERMSG
 IFB <MORE>,<
  IFIDN <Q><?>,<
   IFE FTOPS20,<
    IFGE .-400000,<
 	JRST	REINIT
    >
    IFL .-400000,<
 	JRST	DIE
    >
   >
   IFN FTOPS20,<
	JRST	DIE
   >
  >
 >
>
SUBTTL	DEFINITIONS -- Error Handling -- $MORE


;$MORE is used following a call to $ERROR with '+' as the fourth argument.
;Thus, a sample call might be:
;
;	E$$SNR:	$ERROR	([,SNR,<Sorted >,+)
;		$MORE	(DECIMAL,OUTREC)
;		$MORE	(TEXT,< records.>)
;		$CRLF

DEFINE	$MORE (TYPE,DATA)<
 IFIDN <TYPE><OCTAL>,<
  IFDIF <DATA><T1>,<
	MOVE	T1,DATA
  >
	PUSHJ	P,%TOCTW
 >
 IFIDN <TYPE><DECIMAL>,<
  IFDIF <DATA><T1>,<
	MOVE	T1,DATA
  >
	PUSHJ	P,%TDECW
 >
 IFIDN <TYPE><TEXT>,<
  IFDIF <DATA><T1>,<
	MOVEI	T1,[ASCIZ \DATA\]
  >
	PUSHJ	P,%TSTRG
 >
 IFIDN <TYPE><SIXBIT>,<
  IFDIF <DATA><T1>,<
	MOVE	T1,DATA
  >
	PUSHJ	P,%TSIXN
 >
 IFIDN <TYPE><ASCII>,<
  IFDIF <DATA><T1>,<
	MOVEI	T1,DATA
  >
	PUSHJ	P,%TSTRG
 >
 IFIDN <TYPE><FILESPEC>,<
  IFDIF <DATA><T2>,<
	MOVE	T2,DATA
  >
  IFE FTOPS20,<
	MOVEI	T1,X.OPN-X.RIB(T2)
  >
	PUSHJ	P,%TOLEB
 >
 IFIDN <TYPE><CORE>,<
  IFDIF <DATA><T1>,<
	MOVE	T1,DATA
  >
	PUSHJ	P,%TCORW
 >
>
SUBTTL	DEFINITIONS -- Error Handling -- $CRLF, $CHAR, $DIE


DEFINE	$CRLF<
 IFN ...SQB,<
	PUSHJ	P,%TRBRK
	...SQB==0
 >
	PUSHJ	P,%TCRLF
>
...SQB==0

DEFINE	$CHAR(CHAR)<
 IFDIF <CHAR><T1>,<
	MOVEI	T1,CHAR
 >
	PUSHJ	P,%TCHAR
>

DEFINE	$DIE<
 IFE FTOPS20,<
  IFGE .-400000,<
 	$CRLF
 	JRST	REINIT
  >
  IFL .-400000,<
 	JRST	DIE
  >
 >
 IFN FTOPS20,<
	JRST	DIE
 >
>

DEFINE	KEYZ (A,B)<
	A'.L==0
 IRP B,<
	A'.L==A'.L+1
	A'B==A'.L
 >
>
SUBTTL	DEFINITIONS -- Structure Macros -- BEGIN, PROCEDURE, RETURN, END


DEFINE	BEGIN<
 IFG $.NST-9,<PRINTX ? BEGIN-END nesting too deep>
 ..R..==..R.._3+..R..&7
 ..E..==..E.._3
 $.NST==$.NST+1
 $INITIAL \<$.NST>
 $.LAB=$.LAB_4
>

DEFINE	PROCEDURE (HOW,WHERE)<
 IRP WHERE,<WHERE:>
 IFIDN <HOW><PUSHJ	P>,<..R..==..R..&<^-7>+1>
 IFIDN <HOW><JSP	P4>,<..R..==..R..&<^-7>+2>
 IFIDN <HOW><JSP	T4>,<..R..==..R..&<^-7>+3>
>

DEFINE RETURN<
 IFE ..R..&7,<PRINTX ? Illegal RETURN code>
 IFE ..R..&7-1,<POPJ	P,>
 IFE ..R..&7-2,<JRST	(P4)>
 IFE ..R..&7-3,<JRST	(T4)>
>

DEFINE END<
 IF2,<	ZZ==1
  REPEAT <$.LAB&17>,<
   $REMOVE	%,\<$.NST>,\<$.ORG+ZZ>
   ZZ==ZZ+1
  >
 >
 $UPDATE \<$.NST>
 $.LAB==$.LAB_-4
 ..R..==..R.._-3
 IFN ..E..&7,<
  $LABEL E,\<$.NST>,\<$.END+1>
 >
 ..E..==..E.._-3
 IFL $.NST,<PRINTX ? BEGIN-END nesting underflow>
 $.NST==$.NST-1
 IFGE $.NST,<
  $REINIT \<$.NST>
 >
>

DEFINE $REMOVE (J,K,L)<
 PURGE J'K'L
>
SUBTTL	DEFINITIONS -- Structure Macros -- IF, THEN, ELSE, FI, CASE, ESAC


DEFINE	IF<
 IFG $.INST-5,<PRINTX ? IF nesting too deep>
 $.INST==$.INST+1
 ..F..==..F.._3
 ..T..==..T.._3
 $IFINITIAL \<$.INST>
REMARK>
DEFINE	THEN<REMARK>

DEFINE	ELSE<
 IFN ..T..&7,<
  $.THN==$.THN+1
  $LABEL T,\<$.INST>,\<$.THN>
  $THNUPDATE \<$.INST>
 >
REMARK>

DEFINE	FI<
 IFN ..F..&7,<
  $.IF==$.IF+1
  $LABEL F,\<$.INST>,\<$.IF>
  $IFUPDATE \<$.INST>
 >
 ..F..==..F.._-3
 ..T..==..T.._-3
 IFL $.INST,<PRINTX ? IF nesting underflow>
 $.INST==$.INST-1
 IFGE $.INST,<
  $IFINITIAL \<$.INST>
>>
DEFINE	CASE<
 IFGE $.CNST-9<PRINTX ? CASE nesting overflow>
 $.CNST==$.CNST+1
 $CASEINITIAL \<$.CNST>
REMARK>

DEFINE	ESAC<
 $.CASE==$.CASE+1
 $LABEL C,\<$.CNST>,\<$.CASE>
 IF2,<$REMOVE C,\<$.CNST>,\<$.CASE>>
 $CASEUPDATE \<$.CNST>
 IFL $.CNST,<PRINTX ? CASE nesting underflow>
 $.CNST==$.CNST-1
 $CASEINITIAL \<$.CNST>
REMARK>

DEFINE	WHILE<REMARK>
DEFINE	UNTIL<REMARK>
DEFINE	FOR<REMARK>
SUBTTL	DEFINITIONS -- Structure Macros -- Temporary Labels


;DEFINE TEMPORARY LABELS. THEY EXIST ONLY BETWEEN BEGIN AND END.

DEFINE $TEMPORARY (M,D)<
 ..R..==0
 ..E..==0
 ..F..==0
 ..T..==0
 ..C..==0
 $.IF==0
 $.THN==0
 $.END==0
 $.ORG==0		;;ORIGIN OF LABEL
 $.LAB==0		;;MAX. LABEL SPECIFIED
 $.CASE==0		;;CASE STATEMENT
 $.NST==-1		;;NESTING DEPTH
 $.INST==-1		;;IF NESTING DEPTH
 $.CNST==-1		;;[215] CASE NESTING DEPTH
 .XCREF	..R..,$.ORG,$.LAB,$.NST
 DEFINE $TEMP(N)<
  DEFINE $'N'%<
   $LABEL %,\<$.NST>,\<$.ORG+N>
   IFG N-$.LAB&17,<$.LAB==$.LAB&<-1_4>+N>
  >
  ;;DO NOT ADD CRLF'S TO THIS MACRO, OR IT WON'T WORK
  DEFINE $'N<$REFERENCE %,\<$.NST>,\<$.ORG+N>>
 >
 DEFINE $NEST (N)<
  $.ORG'N==0
  $.END'N==0
  $.BEG'N==0
  $.IF'N==0
  $.THN'N==0
  $.CAS'N==0		;;[215]
 >
 ZZ==0
 REPEAT M,<
  ZZ==ZZ+1
  $TEMP \ZZ
 >
 ZZ==0
 REPEAT D,<
  $NEST \ZZ
  ZZ==ZZ+1
 >
 PURGE ZZ

 DEFINE $INITIAL (N)<
  $.ORG==$.ORG'N
  $.END==$.END'N
  $.BEG'N==.
 >
 DEFINE $REINIT (N)<
  $.ORG==$.ORG'N
  $.END==$.END'N
 >
 DEFINE $UPDATE (N)<
  $.ORG'N==$.ORG'N+$.LAB&17
  IFN ..E..&7,<
   $.END'N==$.END'N+1
 >>

 DEFINE $IFINITIAL (N)<
  $.IF==$.IF'N
  $.THN==$.THN'N
 >
 DEFINE $IFUPDATE (N)<
  $.IF'N==$.IF'N+1
 >
 DEFINE $THNUPDATE (N)<
   $.THN'N==$.THN'N+1
 >

DEFINE	$CASEINITIAL (N)<
 $.CASE==$.CAS'N
>

DEFINE	$CASEUPDATE (N)<
 $.CAS'N==$.CAS'N+1
>

 DEFINE $LABEL (J,K,L)<
  IF1,<PURGE J'K'L>;;BUG IN MACRO 50
  J'K'L:!
 >
 DEFINE $REFERENCE (J,K,L)<J'K'L>
>
DEFINE	$B,<$BEG \<$.NST>>
DEFINE	$BEG (N)<$.BEG'N>

DEFINE $E,<$REFERENCE E,\<$.NST>,\<$.END+1>
 ..E..==..E..!1
>
DEFINE	$F,<$REFERENCE F,\<$.INST>,\<$.IF+1>
 ..F..==..F..!1
>
DEFINE	$T,<$REFERENCE T,\<$.INST>,\<$.THN+1>
 ..T..==..T..!1
>

;DO NOT ADD CRLF'S TO THIS MACRO, OR IT WON'T WORK
DEFINE	$C,<$REFERENCE C,\<$.CNST>,\<$.CASE+1>>

;NOW GENERATE THEM MAX = 10 FOR NOW
	RADIX	10
$TEMPORARY (10,10)
	RADIX	8