perm filename HEAD[S,AIL]11 blob sn#069782 filedate 1973-11-10 generic text, type C, neo UTF8
COMMENT ⊗   VALID 00017 PAGES
C REC  PAGE   DESCRIPTION
C00001 00001
C00003 00002	HISTORY
C00008 00003	
C00009 00004	
C00014 00005	These macros come in pairs, and exist so that the above-mentioned
C00017 00006	VARIOUS HANDY MACRO DEFINITIONS TO TRY TO MAKE THE CODE
C00023 00007	 MACHINE-EXTENDING MACROS (SOME USEFUL CONSTANT, STORAGE/STORAGE MANIPULATORS)
C00027 00008	  TELETYPE COMMUNICATION MACROS
C00030 00009	  INPUT/OUTPUT AIDS
C00035 00010	  MACROS FOR MANIPULATING SEMBLKS (SEE SAIL DATA DESCRIPTIONS)
C00037 00011	  MACROS FOR MANIPULATING SEMANTICS, CALLING GENERATOR ROUTINES,
C00041 00012	 Q-STACK HANDLERS
C00045 00013	 RANDOM OTHER MACROS
C00047 00014	TBITS DEFINITIONS
C00052 00015	 VARIOUS DEFINITIONS OF USER UUO'S.
C00054 00016	DSCR USER DATA AREA TEMPLATE  
C00063 00017	Global AC Definitions, Indices, Bits
C00069 ENDMK
C⊗;
COMMENT ⊗HISTORY
AUTHOR,REASON
021  102100000002  ⊗;


COMMENT ⊗
VERSION 17-2(1) 11-10-73 BY RHT ADD CORERR, ERRPRI, ERFLGS BITS
VERSION 17-1(2) 7-26-73 BY RHT TRY VERSION 17
VERSION 17-1(1) 7-26-73 *********************
VERSION 16-2(44) 7-9-73 BY JRL REMOVE LAST REFERENCES TO DCS SWITCH
VERSION 16-2(43) 4-23-73 BY RHT CHANGE ARGTYP TO RFITYP
VERSION 16-2(42) 2-7-73 BY RHT ADD TYPE FOR ARG LIST ITEM
VERSION 16-2(41) 1-28-73 BY JRL PUT QBIND,FBIND HERE SO STATS CAN USE
VERSION 16-2(40) 1-23-73 BY RHT MAKE NIC & UNBOUND THE SAME
VERSION 16-2(39) 1-23-73 BY JRL CHANGE CODE FOR UNBND
VERSION 16-2(38) 1-8-73 BY JRL ADD MAXLOC MAXIMUM NUMBER OF FOREACH LOCAL ITEMVARS ALLOWED
VERSION 16-2(37) 12-13-72 BY jrl BUG #KS# ADD LOADVR SWITCH
VERSION 16-2(36) 11-21-72 
VERSION 16-2(35) 11-10-72 BY HJS MODIFY QPOP TO TAKE AS AN ARGUMENT AN ADDRESS FOR THE POPPED ENTRY
VERSION 16-2(34) 10-16-72 BY JRL CHANGE INVTYP TO 31 TO ALLOW CONTEXT ARRAY ITEMS
VERSION 16-2(33) 9-15-72 BY RHT ADD USER TABLE ENTRIES FOR INTERRUPTS
VERSION 16-2(32) 8-27-72 BY RHT PUT CELL FOR STACK UNWINDER RET ADRS IN USER TABLE
VERSION 16-2(31) 8-23-72 BY JRL ADD UNBND "ITEM"
VERSION 16-2(30) 8-20-72 BY RHT MODIFY USER TABLE
VERSION 16-2(29) 8-6-72 BY RHT ADD PRILIS TO USER TABLE
VERSION 16-2(28) 8-3-72 BY JRL ADD MPBIND TO TBITS DEFS FOR MATCHING PROCEDURES
VERSION 16-2(27) 7-27-72 BY RHT MAKE MACRO FOR DECLARING PD. ENTRIES
VERSION 16-2(26) 7-20-72 BY JRL CHANGE ARRTYP VALUE
VERSION 16-2(25) 7-20-72 BY RHT ADD PROCESS ITEM (TYPE 11)
VERSION 16-2(24) 6-20-72 BY DCS BUG #HU# BETTER TTY INFORMATION
VERSION 16-2(23) 5-16-72 BY DCS INTRODUCE VERSION 16
VERSION 15-2(9-22) 5-4-72 LOTS OF THINGS
VERSION 15-2(8) 2-19-72 BY RHT THE BRAVE NEW WORLD
VERSION 15-2(7) 2-5-72 BY DCS BUG #GJ# ADD LSTON LISTING CONTROL STUFF
VERSION 15-2(6) 2-5-72 BY DCS BUG #GI# REMOVE TOPSTR DUE TO NEW `CAT'
VERSION 15-2(5) 2-1-72 BY DCS BUG #GE# INSTALL SYMB %ALLOC BLK INDICES
VERSION 15-2(4) 1-31-72 BY DCS BUG #GE# UPDATE USER TABLE, %ALLOC BITS, INDICES
VERSION 15-2(3) 1-3-72 BY DCS BUG #FX# REMOVE COM2, COM2SW COMPLETELY
VERSION 15-2(2) 12-24-71 BY DCS BUG #FF# REMOVE SAILRUN(ASSUME RUNTIM OR LIB)
VERSION 15-2(1) 12-2-71 BY DCS INSTALL VERSION NUMBER

⊗;
COMMENT ⊗
	THIS IS THE FILE OF MACRO DEFINITIONS AND GLOBAL AC
	ASSIGNMENTS FOR THE SAIL COMPILER, THE SAIL RUNTIME
	ROUTINES.  NEEDLESS TO SAY, NOT ALL PORTIONS ARE USED
	BY ALL PEOPLE.
⊗



EXTERNAL  JOBSA,JOBREN,JOBUUO
EXTERNAL JOBSYM,JOBFF,JOBREL,JOB41,JOBDDT,JOBCNI,JOBTPC,JOBUUO
EXTERNAL JOBAPR



SUBTTL	SAIL/GOGOL MACROS
COMMENT ⊗
Conditional assembly runs rampant in SAIL.  Most of the switches are used to
 select options (debug or no debug, etc.) Some are only valid at Stanford.
 There is one, EXPORT, tested by the macros NOEXPO and EXPO, which decides
 whether this is for Stanford or somebody else.

We have a program which, by reading the SAIL files and looking for switch-
 testing macros, can do the conditional assembly once and for all (removing
 the conditional stuff from the files.  It is such a set of files which
 we normally send out, so if you see some switches and macros below that
 never get referenced, it's because that code was taken out of your files.

The conditional assembly switches are assigned in the following files:

DCS	DCS	←2				;SLS (experimental) system
	FTDEBUG ←1				;include debugging in cmplr

;NOCOM	COM2SW	←0				;OBSOLETE SWITCH, WAS TO
						; DISTINGUISH 2-SEG COMPILER
WOM	DCS	←1				;WOM (experimental) system

HEAD	EXPORT	←if NDEF then 0 else EXPORT
	DCS	←if NDEF then 0 else DCS
;	COM2SW	←if NDEF then 1 else 0
	SIXSW	←if NDEF then (if EXPO then 0 else 1) else SIXSW ;sixbit PPN's
	HEDSYM	←if NDEF then 0 else HEDSYM	;With HEDSYM on, assembling HEAD
						; yields HEAD.REL, a symbol
						; file for the USERCON function

GLB	GLOBSW	←1				;runtimes know about glb mdl
	FILXXX	←GLBSGn				;global model upper segment name
	SLOFIL	←GLBLOW				;global model lower segment name

LOW	SEGS	←1				;upper or lower assembly
	LOWER	←1				;assembles SAILOW or GLBLOW
	UPPER	←0

UP	SEGS	←1
	LOWER	←0
	UPPER	←1				;assembles UPPER or GLOBAL

FILSPC	FILXXX	←SAISGn				;SAIL upper segment name
	SLOFIL	←SAILOW				;SAIL lower segment name
	SGDEVC	←SYS				;device for segment files
	SGPPNN	←0				;PPN for segment files
	LOCSYM	←0				;no local uppers in lower file
	NOPROT	←0				;want upper segment protected

DB	FTDEBUG	←1

SAIL	LEAPSW	←1				;LEAP exists
	FTDEBUG	←if NDEF then 0 else FTDEBUG
	GLOBC	←if LEAP and NOEXPO then 1 else if NDEF then 0 else GLOBC
	PATSW	←if NDEF then 0 else PATSW	;compile AOS/SOS to PAT words
	RENSW	←if NDEF then 1 else RENSW	;compile Re-entrant Code
	TMPCSW	←if NDEF then (if EXPO then 1 else 0) else TMPCSW
					;TMPCOR UUO available and used
;; #KS BY JRL (12-13-72) ADD LOADVR SWITCH
	LOADVR  ←if NDEF then 54 else LOADVR (for differences in block code
			for required rel files,libraries in LOADER 54)
	 SAILRUN was a switch controlling some runtimes.  Now runtimes will
	  be assembled to assume a compiler (since that's common anyway).

GOGOL	UPPER	←if NDEF then 0 else 
	UPPER	←if NDEF then 0 else UPPER
	LOWER	←if NDEF then 0 else LOWER
	SEGS	←UPPER or LOWER
	GLOBSW	←if NDEF then 0 else GLOBSW
	RENSW	←if NDEF then 1 else RENSW	;assemble Upper-Segment Library
	 SAILRUN  no longer exists.
These macros come in pairs, and exist so that the above-mentioned
 program will have an easy job of it.  The meaning of each pair is
 obvious.  They may be used only as in the following example:
SW <			;or NOSW, starting in col. 1 (any comment out here)
(code to appear under this switch)
>;SW			or NOSW, must be same, any comment out here
 These things may be nested without confusing anyone.

Here are the macros
⊗

DEFINE EXPO <IFN EXPORT, >	;code for export only
DEFINE NOEXPO <IFE EXPORT, >	;code for Stanford only
DEFINE GLOB <IFN GLOBSW, >	;since global compiler (GLOBC) can service
DEFINE NOGLOB <IFE GLOBSW, >	; non-global code, GLOBC is different
DEFINE GLOC <IFN GLOBC, >	; from GLOB (global model)
DEFINE NOGLOC <IFE GLOBC, >
DEFINE UP <IFN UPPER,>		;upper segment code (only used in runtime)
DEFINE NOUP <IFE UPPER,>	;not
DEFINE LOW <IFN LOWER,>		;lower bootstrap for 2 seg thing (ditto)
DEFINE NOLOW <IFE LOWER,>	;not
DEFINE LEP <IFN LEAPSW,>	;this compiler understands LEAP
DEFINE NOLEP <IFE LEAPSW,>	;doesn't (applies to runtime too)
DEFINE REN <IFN RENSW,>		;Re-entrant output (comp), runtimes (runtim)
DEFINE NOREN <IFE RENSW,>

; ** CONDITIONAL SETTINGS **

DEFINE STSW (V,VL) <IFNDEF V,<↓V←←VL>>

STSW (EXPORT,0);NOT USUALLY EXPORT VERSION
STSW (HEDSYM,0)		;USUALLY NOT A USER-TABLE SYMBOL GENERATOR
EXPO <
STSW (SIXSW,0)
>;EXPO
NOEXPO <
STSW (SIXSW,1)
>;NOEXPO


;VARIOUS HANDY MACRO DEFINITIONS TO TRY TO MAKE THE CODE
;SOMEWHAT MORE READABLE.

II←←1
FOR @' JJ⊂(HEAD,SAIL,PARSE,PDEFS,PRODS,SUBRS,SMTB,SYM,GEN,ARRAY) <
↓..'JJ←←II
II←←II⊗1
>
FOR @' JJ⊂(EXPRS,STATS,LEAP,TOTAL,COMSER,GOGOL,STRSER,IOSER,LEPRUN,MESPRO,WRDGET) <
↓..'JJ←←II
II←←II⊗1
>
IFDEF SETLST,<SETLST>

IFNDEF ..LIST,<
..LIST←←0
FOR @' JJ⊂(HEAD,SAIL,PARSE,SYM,GEN,ARRAY,EXPRS,STATS,LEAP,TOTAL,COMSER) <
↓..LIST←←..LIST!..'JJ
>
FOR @' JJ⊂(GOGOL,STRSER,IOSER,LEPRUN,MESPRO,WRDGET) <
↓..LIST←←..LIST!..'JJ
>>
IFDEF SETLS2,<
	SETLS2
>
DEFINE LSTON ' (JJ) <
	XLIST
IFN ..LIST & ..'JJ,<
	LIST>
>
	LSTON	(HEAD)

DEFINE DSCR <COMMENT ⊗ > ; FOR DIRECTORY MAKER

DEFINE GEN <IFE .NOGEN,<LALL>>
DEFINE NOGEN <XALL>
↓.NOGEN←←1	;DON'T EXPAND MACROS AT ALL AFTER FIRST NOGEN
	NOGEN

DEFINE IFNB (X) <IFDIF <><X>,>
DEFINE IFB (X) <IFIDN <><X>,>


DSCR  STORAGE MANAGEMENT MACROS
⊗

DSCR  HERE
CAL MACRO
PAR ROUTINE NAME
DES For runtime routine vector.  If this is a library or one-segment
 run, this is equivalent to placing a label "HERE".  Otherwise, the
 label is placed on a JRST instruction in a vector of JRST's in the
 upper segment.  The  JRST is to "HERE".  This allows the code for
 runtimes to be changed without forcing everyone to forsake their
 SAIL-compiled core images.
⊗

DEFINE HERE(X) <
UP <
	FQQQQ ←← .
	USE DSPCH	;SO THAT THE LABELS HAVE THE SAME ADDRESS
			;FROM ONE ASSEMBLY TO ANOTHE.
↑↑ X :	JRST	FQQQQ
	USE
>;UP
NOUP <
↑↑ X :			;IF NOT MAKING AN UPPER SEGMENT, DOES NOT MATTER.
>;NOUP
>

DSCR DATA, ZERODATA, TABLEDATA,--etc.
CAL MACRO
PAR One argument, a description
RES For ZERODATA, the ZVBLS PC is switched to for the data.  For others,
 the VBLS PC.  A check is made to ensure that the appropriate area is
 big enough for the new data.
DES This allows data to be concentrated in one area (for reentrancy
 consideration, one-instruction CLEAR operations, etc.), but to
 be defined locally.  Some special purpose programs can examine the
 CREF listing file to print summaries, sorted cross-references, etc.
⊗

DEFINE DATA (MSG) <
	USE	VBLS
	IFGE	.-DBASE-DSIZE,<#DATERR	;DATA AREA TOO SMALL
>>

DEFINE TABLEDATA (MSG) <
	ZERODATA ()
>

DEFINE TABCONDATA (MSG) <
	DATA ( )
>

DEFINE ZERODATA (MSG) <
	USE	ZVBLS
	IFGE	.-ZBASE-ZSIZE,<#DATERR	;ZEROED DATA AREA TOO SMALL
>>

DEFINE BITDATA (MSG) <	USE>

DEFINE BITDDATA (MSG) <	USE>

DEFINE BIT2DATA (MSG) <	USE>

DEFINE BITD2DATA (MSG) < USE>

DEFINE ACDATA (MSG) <	USE>

DEFINE AC2DATA (MSG) <	USE>

DEFINE ENDDATA <
IFDEF ZBASE, <
	DATA ()		;CHECK
	ZERODATA ()		;CHECK
	USE
>>



DSCR SETCOR (SIZE,FIRST,LAST)
CAL MACRO
PAR SIZE is CORGET size desired
 FIRST (optional) is vbl which will → first word
 LAST (optional) is vbl which will → first word after block
RES CORGET called, B put into FIRST, LAST computed
ERR if not enough core, complains
DES used in ALLOC (SAILOR sequence)
SEE ALLOC
⊗

DEFINE SETCOR (SIZE,FIRST,LAST) <
	MOVE	C,SIZE
	PUSHJ	P,CORGET
	ERR	<CAN'T GET CORE FOR FIRST ALLOCATION>
	IFDIF <FIRST><>, <MOVEM	B,FIRST>
	IFDIF <LAST><>,<
		ADD	C,B
		MOVEM	C,LAST
>>

COMMENT ⊗

DSCR LEVPOINT
DES CHEAP MACRO TO GENERATE POINTERS TO DISPLAY LEVEL FIELD OF WORDS
⊗

DEFINE LEVPOINT(AD)< POINT DLFLDL,AD,35-LLFLDL>


; MACHINE-EXTENDING MACROS (SOME USEFUL CONSTANT, STORAGE/STORAGE MANIPULATORS)

DSCR MOVEWI, MOVEW, MOVE6, MOVEI7, LOAD6, LOADI7
CAL MACRO
DES Provide extended "instructions" for data movement
 MOVEWI(I,J) moves J (immed) to I via TEMP
 MOVEW(I,J)  moves J to I via TEMP
 MOVE6(I,J)  moves SIXBIT /J/ to I via TEMP
 MOVEI7(I,J) moves addr of ASCIZ /J/ to I via TEMP
 LOAD6 (I,J) moves SIXBIT /J/ to AC I
 LOADI7(I,J) moves addr of ASCIS /J/ to AC I
SID TEMP -- sometimes changed
⊗

DEFINE MOVEWI (I,J) <
		MOVEI TEMP,J
		MOVEM TEMP,I
>

DEFINE MOVEW (I,J) <
		MOVE	TEMP,J
		MOVEM	TEMP,I
>

DEFINE MOVE6 (I,J) <
		MOVE	TEMP,[SIXBIT /J/]
		MOVEM	TEMP,I
>

DEFINE MOVEI7 (I,J) <
		MOVEI	TEMP,[ASCIZ /J/]
		MOVEM	TEMP,I
>

DEFINE LOAD6 (I,J) <
		MOVE	I,[SIXBIT /J/]
>

DEFINE LOADI7 (I,J) <
		MOVEI	I,[ASCIZ /J/]
>

DSCR CALL6(I,J)
CAL MACRO
PAR I is AC# if J is present, else see J
 J is symbolic value for a system CALL
RES does CALLI AC,U&INDEX for NOEXPO system,
 CALL AC,[SIXBIT /J/] for EXPO system.
 AC defaulted to 0
⊗

EXPO <
DEFINE CALL6 (I,J) <
	IFDIF <><J>,<
		IFDIF <><I>,<CALL I,[SIXBIT /J/];>  CALL [SIXBIT /J/]
>
	IFIDN <><J>,<
		CALL	[SIXBIT /I/]
>>
>;EXPO

NOEXPO <
DEFINE CALL6 ' (I,J) <
	IFDIF <><J>,<
		IFDIF <><I>,<CALLI I,U'J;> CALLI U'J
>
	IFIDN <><J>,<
		CALLI U'I
>>
>;NOEXPO

NOEXPO <

DEFINE DPYPOS (LINE) <
		XWD 702100,LINE>

DEFINE DPYSIZ (NUMGLT,GLTSIZ) <
		702140B17+NUMGLT⊗9+GLTSIZ>

DEFINE DPYSTO (LOC) <
		XWD LOC,64>

DEFINE DPYRST (LOC) <
		XWD LOC,74>

DEFINE AIVECT & (X,Y)   <
		X&B10+Y&B21+146>

DEFINE RIVECT & (X,Y) <
		X&B10+Y&B21+46>


DEFINE DPYJMP (ADDR) <
		XWD ADDR,20>

>;NOEXPO

DSCR EXCHOP
DES Exchange Semantic entries in PNT,TBITS,SBITS with those
 in PNT2,TBITS2,SBITS2 -- since "GENMOV" routines generally
 operate on the first set of ACs.
⊗
DEFINE EXCHOP	<
	EXCH	PNT,PNT2
	EXCH	TBITS,TBITS2
	EXCH	SBITS,SBITS2	>

DSCR MOVOPS
DES Copy Semantic entries from PNT,TBITS,SBITS into
 PNT2,TBITS2,SBITS2
⊗;
DEFINE MOVOPS	<
	MOVE	PNT2,PNT
	MOVE	TBITS2,TBITS
	MOVE	SBITS2,SBITS
>

DSCR SAVACS, RESTACS (L)
CAL MACRO
PAR a list like <A,C,LPSA>
RES specified AC's pushed on (popped from) P-stack
⊗
DEFINE SAVACS (L) <
 FOR II⊂ L ,<
	PUSH	P,II
>>
DEFINE RESTACS (L) <
FOR II ⊂ L, <
	POP	P,II
>>

;  TELETYPE COMMUNICATION MACROS

DEFINE OP1 &(OPR,MS,ACC)  <
	IFIDN <ACC><>, <II←←0>
	IFDIF <ACC><>, <II←←ACC>
	OPR&. II,[ASCIZ /MS/]
>

DSCR IOERR (STR)
CAL MACRO
PAR ASCII string to be printed
RES calls IOERR. UUO to print message, either restart
 compiler or EXIT
⊗

DSCR ERR (STR,CODE,ROUT)
CAL MACRO -- calls ERR. UUO
PAR STR ASCII string to be printed
 CODE determines how UUO functions
 ROUT is address or literal to jump to if ERR continues
RES If SAIL is on DPY, displays input line
 Prints STR
 CODE%2 determines what else to print -- if CODE is:
  0-1:  Print nothing more
  2-3:  Ident name for Semantics in LPSA (SAIL only)
  4-5:  Ident name for Semantics in UUO instr (SAIL only)
  6-7:  Value of AC in AC field of instr preceding UUO
 10-11: The UUO in octal
 12-13: Value of AC field of instr preceding that indicated
        by UUO1(GOGTAB)

 If CODE is even, don't allow continuation -- otherwise
  allow continuation in manner described by error message.
 If ROUT is present, jump to it -- else continue in line
⊗
FOR OP ⊂ (ERR,IOERR) <
DEFINE OP (MSG,AC,ADDR) <
	IFIDN	<ADDR><>,<OP1 (OP,<MSG>,AC)>
	IFDIF <ADDR><>,<JRST	[OP1 (OP,<MSG>,AC)
			   JRST	ADDR ]>
>>

DSCR CORERR
CAL MACR
PAR	message
RES	Types the message, then exits the program 
SID none
⊗
DEFINE CORERR(MSG) < JRST [	TTYUUO	3,[ASCIZ /MSG
/]
				CALL6   EXIT		]>

DSCR PRINT, TERPRI (STR)
CAL MACRO -- calls prin.. uuo.  
PAR Ascii message
RES Types string -- types CRLF after if TERPRI -- ERRPRI sends to log file if
user is enabled for that.
SID none
⊗
DEFINE PRINT (X) <
	TTCALL 3,[ASCIZ /X/]
>

DEFINE TERPRI (X) <
	TTCALL	3,[ASCIZ /X
/]>

DEFINE ERRPRI (X) <
	PRIN..	0,[ASCIZ /X
/]>
;  INPUT/OUTPUT AIDS

DSCR MAKCDB (CHN, NAM, MODE, I, O)
CAL MACRO
PAR CHN channel number
 NAM Prefix for symbols defined
 MODE data mode
 I,O # input, # output buffers
RES generates a table to specify all (most?) data about
 a file (Source, Rel, Command, etc.), instructions
 tailored for this channel -- it takes the form: ⊗

DEFINE MAKCDB &  (CHN,NAM,MODD,I,O)  <
NAM&CDB:
NAM&MOD: MODD			;DATA MODE
NAM&DEV: 0			;DEVICE NAME IN SIXBIT
NAM&HED:
	IFN O,<XWD NAM&HDR,0;> NAM&HDR  ;BLOCK HEADER POINTER
NAM&HDR: 0			;I/O HEADER BLOCK
NAM&PNT: 0			;I/O BYTE POINTER
NAM&CNT: 0			;I/O CHAR COUNT
↑NAM&FIL: 0			;I/O FILE NAME
↑NAM&EXT: 0			;I/O EXTENSION
NAM&OP:	OPEN	CHN,NAM&CDB	;OPEN INSTRUCTION
NAM&NT:
	IFN I,<LOOKUP CHN,NAME;> ENTER CHN,NAME
NAM&SPC:
	IFN O,<OUTBUF CHN,O>
IFE O,<
EXPO <
	 IFIDN <NAM> <SRC>, <
		PUSHJ P,[MOVEI TEMP,.+1 ;→DESCRIPTOR, CALL UINBF ROUTINE
			 JRST	UINBF] ;>INBUF CHN,I
>;EXPO
NOEXPO <
		    UINBF CHN,.+1
>;NOEXPO
>;IFE O
NAM&BFS: IFN O,<O;>	I		;# OF BUFFERS
	202	;MAKE BIGGER BUFFERS THAN NORMAL (INPUT ONLY)
>
COMMENT ⊗
⊗

DSCR LODBLK (TYPE,TYP1,NAME,NAME1,COUNT,COUNT1,RELOC)
CAL MACRO
PAR TYPE, TYP1 are the symbolic and numeric reps of
  a LOADER block type
 NAME, NAME1 are the labels to be given the block and
  its descriptor (optional, see below)
 COUNT, COUNT1 are the data count and the total count
  for the descriptor (optional, etc.)
 RELOC describes the initial relocation bits
RES if NAME1 is present, a descriptor word is put out
  to provide GBOUT with count info for entire block
 Then the Type,,count word is output, labeled NAME
 Following is the RELOC word, then a block long enough
  to hold data
SEE GBOUT, Loader blocks (ENTTAB, BINTAB, etc.)
⊗
DEFINE LODBLK (TYPE,TYP1,NAME,NAME1,COUNT,COUNT1,RELOC) <

; Create LOADER OUTPUT BLOCK of type TYPE (really the
;  integer TYP1.  Name it NAME.  Give it a data count
;  of COUNT.  If there is a NAME1, create a descriptor
;  for GBOUT of the form [(COUNT1 or COUNT+2),,NAME].
;  Issue a reloc word of (RELOC or 0).
;  Put out a COUNT-word block for holding the data

IFNB (NAME1) <


;DESCRIPTOR FOR GBOUT ROUTINE
↑↑NAME1:
IFNB (COUNT1) <
	XWD	COUNT1,NAME;>	XWD   COUNT+2,NAME
>

;LOADER BLOCK HEADER
↑↑NAME: XWD	TYP1,COUNT

;RELOCATION BITS
IFNB (RELOC) <
	RELOC;>			0

;DATA WORDS
	BLOCK	COUNT
>;LODBLK

DSCR CHKCHN, TSTERR, TSTEOF
CAL MACRO
PAR First argument is channel # (AC containing same for CHKCHN)
 2d argument is routine name for CHKCHN, address for TSTEOF
RES CHKCHN makes sure channel # in AC is legal
  prints error message using routine name, if not legal
 TSTERR does an error STATZ
 TSTEOF jumps to Address if EOF is present on the channel
⊗
DEFINE CHKCHN (AA,ROUTIN) & <
		TRZE	AA,777760	;ZERO BITS AND TEST VALID
		ERR <ROUTIN&: INVALID CHANNEL NUMBER>
>

DEFINE TSTERR (CHAN) <
		STATZ CHAN,740000 ;ANY ERRORS?
>

DEFINE TSTEOF (CHAN,EOFADD) <
		STATZ CHAN,20000  ;END OF FILE?
		JRST EOFADD	  ; YES
>

;  MACROS FOR MANIPULATING SEMBLKS (SEE SAIL DATA DESCRIPTIONS)

DSCR GETBLK (X)
CAL MACRO
PAR X is address (optional)
RES into LPSA (and X) is put address of new Semblk (zeroed)
SID LPSA, X changed -- probably TEMP too
SEE BLKGET, the routine it calls, and main SAIL data descriptions
⊗
DEFINE GETBLK ( X ) <
	PUSHJ	P,BLKGET
	IFDIF <X><>,<HRRM	LPSA,X>>

DSCR FREBLK (X)
CAL MACRO
PAR X (optional) is address of Semblk (LPSA is default)
RES Semblk is released to free Semblk list
SID TEMP, LPSA changed
SEE BLKFRE, the routine used, and main SAIL data descriptions
⊗
DEFINE FREBLK ( X ) <
	IFIDN <><X>,<PUSH P,LPSA;>  PUSH P,X
	PUSHJ	P,BLKFRE
	>

;	TAKE CDR OF A LINKED LIST, GOING ALONG LINK Y. GO TO Z
;		IF LIST IS EXHAUSTED.
DEFINE RIGHT (X,Y,Z ) <
	IFDIF <X><>,<MOVE LPSA,X>
	HRRZ	LPSA,Y(LPSA)
	IFDIF <Z><>,<JUMPE	LPSA,Z>>

;	SAME FOR MOVING LEFT ALONG A LINK.
DEFINE LEFT (X,Y,Z) <
	IFDIF <><X>,<MOVE LPSA,X>
	HLRZ	LPSA,Y(LPSA)
	IFDIF <><Z>,<JUMPE LPSA,Z>>
;  MACROS FOR MANIPULATING SEMANTICS, CALLING GENERATOR ROUTINES,
;  GENERATING CALLS ON RUNTIME ROUTINES ON BEHALF OF COMPILED CODE, ETC.

; PICK UP SEMANTICS WORDS FOR A PARSER TEMPORARY.
DEFINE GETSEM (X) <
	MOVE	PNT,GENLEF+X
	PUSHJ	P,GETAD	>

; SAME, BUT PUT SEMANTICS IN TBITS2,SBITS2
DEFINE GETSM2 (X) <
	MOVE	PNT2,GENLEF+X
	PUSHJ	P,GETAD2 >


DSCR GENMOV (Z,X,Y)
DES MACRO TO FACILITATE CALLING GENERATOR SUBROUTINES.
PAR Z IS ROUTINE NAME.
 X IS FLAGS (OPTIONAL)
 Y IS TYPE (INTEGER,,,) TO BE PASSED IN REGISTER B.
RES Calls routine after setting up AC's.
⊗;
DEFINE	GENMOV (Z,X,Y) <
	IFDIF <X><>,<HRRI FF,X>
	IFDIF <Y><>,<HRRI B,Y>
	PUSHJ	P,Z>



DSCR XCALL (X)
CAL MACRO
DES Facilitates calling runtine functions.
PAR X is the "NAME" of such a function, all of which
 are named in the beginning of the file "GEN"
RES a call (PUSHJ) to the routine is generated and fixed up
SID AC A is clobbered.
SEE XCALLQ
⊗;
DEFINE	XCALL	' (X)	<
	MOVEI	A,LIBTAB+R'X	;FIXUP LOCATION.
	PUSHJ	P,XCALLQ
	>

DSCR LPCALL (X,Y,Z)
CAL MACRO
DES Facilitates EMITting calls to LEAP interpreter
 functions. 
PAR X is function "NAME" (list is located at beginning of file "LEAP")
 Y (optional) displacement from X.
 Z tells what kind of call it is.  If non-null, we use the
  index computed by STCHK (Q.V.) to add to X, otherwise
  just the type bits computed by STCHK.
SEE LEAPC1, LEAPC2, STCHK
⊗;
DEFINE LPCALL ' (X,Y,Z) <
	MOVEI	A,L'X		;ROUTINE NAME.
	IFDIF <Y><>,<ADD A,Y>
	IFIDN <Z><>,<PUSHJ P,LEAPC1;> PUSHJ P,LEAPC2
	>

DSCR XPREP
CAL MACRO
DES Make sure AC 1 is free (I.E. erase the ACKTAB entry for it --
 so that a call on a runtime routine which returns a result
 in AC 1 can now be EMITted.
SEE STORZ
⊗;
DEFINE XPREP	<
	PUSHJ	P,[
		HRRI	D,1
		JRST	STORZ]
	>


DSCR EMIT (INSTR)
CAL MACRO
DES Facilitates calling the EMITTER for us.
PAR INSTR is the instruction and "DIRECTIVE" bits to the
 EMITTER.
⊗;
DEFINE	EMIT	(INSTR) <
	MOVE	A,[INSTR]
	PUSHJ	P,EMITER	;CALL EMITER
>

; Q-STACK HANDLERS

DSCR QPUSH (X,Y)
CAL MACRO
DES calls the generalized stack routine BPUSH.
PAR X (optional) is name of stack to be used.
 Y (optional) is data word to be pushed (AC A).
SID A, LPSA, TEMP changed
SEE BPUSH
⊗
DEFINE	QPUSH (X,Y)	<
	IFDIF <X><>,<MOVEI LPSA,X>
	IFDIF <Y><>,<MOVE A,Y>
	PUSHJ	P,BPUSH		>

DSCR QPOP
CAL MACRO
DES Facilitates calls on generalized stack routine BPOP
PAR X is name of the stack to be used (optional).. otherwise
 pointer in LPSA.
 Y (optional) is where the popped entry is to be returned.
RES Popped entry is returned in AC A and Y (optional).
SEE BPOP
⊗;
DEFINE	QPOP (X,Y)	<
	IFDIF <X><>,<MOVEI LPSA,X>
	PUSHJ 	P,BPOP
	IFDIF <Y><>,<MOVEM A,Y>	>

DSCR QLOOK
CAL MACRO
DES Allows one to get hold of the top element in the Qstack X
PAR X is the name of the stack to be used
RES the pointer to the top element in the stack is returned in AC A.
⊗
DEFINE  QLOOK (X)	<	
	HLRZ	A,X		>

DSCR QTAKE (X)
CAL MACRO
DES facilitates "taking" things out of one of the generalized
 QSTACKS (uses routine QTAK).
PAR X is name of Qstack to be used.
 AC B must have a QPUSH/QPOP-like pointer to the element requested.
RES Popped result returned in register A.
 **** SKIPS IF SUCCESSFUL ****
SEE QTAK
⊗;
DEFINE	QTAKE	(X)	<
	IFDIF <X><>,<MOVEI LPSA,X>
	PUSHJ	P,QTAK		>

DSCR QBACK 
CAL MACRO
PAR In AC B must be a QSTACK descriptor
RES B's descriptor is "popped" by one, word put in AC A.
 No storage is released
 **** SKIPS IF SUCCESSFUL ****
DES See BBACK routine in TOTAL for details of operation, AC usage, etc.
SEE BBACK
⊗

DEFINE QBACK <
	PUSHJ	P,BBACK
>


DSCR QFLUSH (X) 
CAL MACRO
PAR Qstack descriptor address
RES All storage is released for the stack, and the descriptor
 address is zeroed.
DES Used when QBACK and QTAKE operations have left blocks around.
 There should always be one actual PDP-type cell which points
 to the top (is only used in QPUSH and QPOPs).  This should be
 pointed at to flush the stack.
SEE BFLUSH
⊗

DEFINE QFLUSH (X) <
IFDIF <><X> <
	MOVEI	LPSA,X
>
	PUSHJ	P,BFLUSH
>

DSCR QBEGIN (X)
CAL MACRO
PAR X → A QPDP, LOADED TO LPSA IF PRESENT
RES B contains QPDP for QTAKEing first word, 0 if no stack
SEE BBEG
⊗
DEFINE QBEGIN (X)<
IFDIF <><X> <
	MOVEI	LPSA,X
>
	PUSHJ	P,BBEG
>
; RANDOM OTHER MACROS

DEFINE SETNIT <
	MOVE	TEMP,[JSR UUO0]	;MAKE SURE WE CAN DO UUOS
	MOVEM	TEMP,41
	MOVE	P,ALLPDP	;AND PUSHJ'S
>

DSCR SETPOV(AC,STR)
CAL MACRO
PAR AC REPRESENTING PUSH-DOWN POINTER
STR REPRESENTING SOME SUGGESTIONS FOR ACTION WHEN THIS PTR OVERFLOWS
RES POVTAB has one entry for each AC.  the string pointer (0 if none)
 is put into this entry.  If a PDP in this AC overflows,  POVTRP, which
 is enabled in SALNIT for PDL-OV, prints the string as a standard fatal
 error message.  POVTRP is in  COMSER.
SEE POVTRP
⊗

DEFINE SETPOV (AC,STR) <
 IFIDN <STR><><MOVEI TEMP,0;>MOVEI TEMP,[ASCIZ ?STR?] ;GET VALUE
 II←←(AC+17)&17			;BETWEEN 0 AND 17
 JJ←←II-(2*(II/2))		;ODD OR EVEN
 IFE JJ,<HRLM TEMP,POVTAB+(II/2); EVEN-- LEFT> HRRM TEMP,POVTAB+(II/2)
>;SETPOV
;TBITS DEFINITIONS

DEFINE BIT(NAME,BITT) <IFDIF <NAME><SPARE>,<↓NAME←←BITT>>
DEFINE DEFTBS <
	BIT	(RES,400000)	;RESERVED WORD
	BIT	(CNST,200000)	;CONSTANT ENTRY
	BIT	(SPARE,100000)	;****
	BIT	(INTRNL,40000)	;INTERNAL SYMBOL (SYMBOL EXPORTED)
	BIT	(EXTRNL,20000)	;EXTERNAL SYMBOL (STORAGE FOUND ELSEWHERE)
	BIT	(MPBIND,10000)	;MATCHING PROCEDURE OR BINDING ITEMVAR
	BIT	(VALUE,4000)	;FORMAL PARAMETER CALL BY VALUE
	BIT	(REFRNC,2000)	;FORMAL PARAMETER CALL BY REFERENCE
	BIT	(CONOK,1000)	;OK TO CALL INTRINSIC WITH CONST ARGS AT COMPTIME
	BIT	(SIMPLE,400)	;FOR DISPLAY SYSTEMS ONLY
	BIT	(MESSAGE,200)	;A MESSAGE PROCEDURE !!!!!(STANFORD ONLY).
	BIT	(OWN,100)	;OWN VARIABLE ?
	BIT	(ANYTYP,40)	;ANYTYPED VARIABLE (USED IN PROCEDURE CALLS)
	BIT	(SAFE,20)	;SAFE -- FOR ARRAYS AND SUCH.
	BIT	(DEFINE,10)	;DEFINED MACRO IDENTIFIER
	BIT	(RECURS,4)	;THIS ROUTINE IS REENTRANT
	BIT	(BILTIN,2)	;IF ON IN TBITS, DON'T SAVE AC'S ON CALL.
	BIT	(SBSCRP,1)	;SUBSCRIPED VARIABLE (ARRAY)

;RIGHT HALF BITS -- TBITS WORD.

	BIT	(INPROG,400000)	;PROCEDURE BEING DEFINED, KEEP FIXUP CHAIN
	BIT	(GLOBL,200000)	;GLOBAL LEAP VARIABLE
	BIT	(FORTRAN,100000);FORTRAN PROCEDURE (EXTERNAL)
	BIT	(FORWRD,40000)	;FORWARD PROCEDURE OR LABEL
	BIT	(PROCED,20000)	;PROCEDURE
	BIT	(SHORT,10000)	;SHORT INTEGER OR SHORT REAL
	BIT	(ITMVAR,4000)	;LEAP ITEMVAR
	BIT	(PNTVAR,2000)	;POINTER VARIABLE ?? (NOT IMPLEMENTED YET)
	BIT	(BOOLEAN,1000)	;BOOLEAN VARIABLE ?? (SAME AS INTEGER FOR NOW
				; SEE TYPSET IN FILE "GEN"
	BIT	(ITEM,400)	;LEAP ITEM
	BIT	(STRING,200)	;A FHQ STRING
	BIT	(LPARRAY,100)	;TYPE OF THIS ITEM IS ARRAY
	BIT	(SET,40)	;LEAP SET
	BIT	(LABEL,20)	;LABEL
	BIT	(LSTBIT,10)	; COMPLEX NUMBER ?? (NOT IMPLEMENTED)
	BIT	(DBLPRC,4)	; DOUBLE PRECISION NUMBER ?? (NOT IMPLEMENTED)
	BIT	(FLOTNG,2)	;REAL NUMBER
	BIT	(INTEGR,1)	;INTEGER NUMBER

;LEFT HALF OF %ERFLGS WORD -- STATE OF ERROR HANDLER

	BIT	(KEEP,1)	;DO NOT FLUSH TYPE AHEAD
	BIT	(QUIET,2)	;DO NOT PRINT MESSAGES
	BIT	(NUMBS,4)	;DO PRINT THE "CALLED FROM .." STUFF
	BIT	(LOGGIN,10)	;SEND MESSAGES TO LOG FILE
	BIT	(CONT,20)	;CONTINUABLE ERROR
	BIT	(AUTO,40)	;AUTOMATIC CONTINUATION MODE
	BIT	(LOGOPN,100)	;LOG FILE IS CURRENTLY OPEN
	BIT	(ERRNOW,200)	;WE ARE CURRENTLY IN THE MIDDLE OF AN ERR. UUO
	BIT	(MINUS,400)	;WE JUST SAW A MINUS!
	BIT	(MADEPT,1000)	;WE HAVE ALREADY MADE A BYTE POINTER FOR FAKETTY
	BIT	(BUFOPN,2000)	;HE HAVE A BUFFER FOR DUMP MODE LOGGING

>

DEFTBS		;DEFINE THE TBITS

↓FNYNAM ←← RECURS 		;EXTERNAL+OWN+FNYNAM MEANS EXT REQ IS FOR
				; FOO$ INSTEAD OF FOO (CF SIN)

; VARIOUS DEFINITIONS OF USER UUO'S.
PDLOF←1B8	OPDEF	PDLOF	[1B8]
FLOAT←2B8	OPDEF	FLOAT	[2B8]
NOEXPO <
PDPFIX←<FIX>	OPDEF	PDPFIX	[FIX]
>;NOEXPO
FIX←3B8		OPDEF	FIX	[3B8]
IOERR.←4B8	OPDEF	IOERR.	[4B8]
ERR.←5B8	OPDEF	ERR.	[5B8]
		OPDEF	TTCALL	[TTYUUO]
SIXPNT←6B8	OPDEF	SIXPNT	[6B8]
PRIN..←10B8	OPDEF	PRIN..	[10B8]
DECPNT←11B8	OPDEF	DECPNT	[11B8]
OCTPNT←12B8	OPDEF	OCTPNT	[12B8]
FLTPNT←13B8	OPDEF	FLTPNT	[13B8]
JFOV←<JFCL 1,0>	OPDEF	JFOV	[JFCL 1,0]
DPYOUT←703B8	OPDEF	DPYOUT	[703B8]
DPYCLR←701B8	OPDEF	DPYCLR	[701B8]
ARERR←7B8	OPDEF	ARERR	[7B8]
UINBF←704B8	OPDEF 	UINBF	[704B8]

NOEXPO <
↓SEGSIZUUO 	← 400022	;GET SIZE OF SECOND SEGMENT.
↓CORE2UUO	← 400015	;GET SOME MORE SECOND SEGMENT.
↓GLBAR		←← 1000		;CURRENT LENGTH OF GLOBAL MODEL AREA.
>;NOEXPO



SUBTTL	SAIL/GOGOL USER TABLE DESCRIPTION
DSCR USER DATA AREA TEMPLATE  
DES These values serve as indices for the run-time routines
  into the user's data table. The table is necessary to allow
  the routines to be re-entrant.  The table is allocated
  in the SAILOR sequence at startup time; many of its values
  (data area bounds, etc.) are placed in it at that time.
 One can force re-initialization of this and all other dynamic
  areas by setting GOGTAB to 0 before next CORGET.
SEE XX descriptions for all these goodies directly below
⊗

DEFINE XX (SYMBOL,SIZE,BACKUP) <
	↓SYMBOL←←LOCAT
IFN HEDSYM,<
	ENTRY	SYMBOL			;FOR HEAD.REL SYMBOL FILE
>;N HEDSYM
	LOCAT←←LOCAT+1
	IFDIF<SIZE><>< LOCAT←←LOCAT+SIZE-1>
	IFDIF<BACKUP><>< LOCAT←←LOCAT-BACKUP>
>

LOCAT←←0		;MAKES SYMBOLS ABSOLUTE

; THESE VARIABLES WILL NOT BE RE-INITIALIZED BY THE INIT ROUTINE


; LINK TO STRING BLOCKS FOR STRING GARBAGE COLLECTOR

 XX CLER,,1

 XX UUO1	;TRADITIONAL LOC FOR GOGOL RETRN ADRS FOR ERROR MSGS.

;LOADER LINK CHAINS
 XX STRLNK
 XX SPLNK	;LINK END FOR SPACE ALLOCATION.
 XX SETLNK	;LINK END FOR SETS.
 XX SGROUT	;LINK UP STRING DSCRPTR GENERATOR ROUTINES HERE
 XX KNTLNK	;PROFILE COUNTER LINK END

;IMPORTANT STRING SPACE ENTRIES
 XX ST		;BOTTOM OF STRING SPACE
 XX STTOP	;TOP OF SAME
 XX TOPBYTE	;NEXT FREE BYTE
 XX REMCHR	;-REMAINING FREE CHARS
;;#GI# DCS 2-5-72 REMOVE TOPSTR
 XX SGLIGN	;ON IF MUST BE ALIGNED TO FW BDRY (COMPILER ONLY).

; I/O CHANNEL POINTER TABLE
; EACH POINTS TO A "CHANNEL DATA BLOCK" FULL OF GOODIES
 XX CHANS,20

; I/O BREAK TABLES (FOR INPUT SCANNING ROUTINES)
 XX DSPTBL,=19,,	;BREAK CHAR DISPOSITION TABLE
 XX LINTBL,=19,,	;LINE NUMBER     "       "
 XX BRKTBL,=128,,	;CHARACTER BREAK TABLES
 XX BRKDUM		;EXTRA TO HELP STDBRK ALONG WITH DUMP MODE


 XX PDL		;IOWD SIZE,BASE  FOR SYSTEM PDL
 XX SPDL	;XWD SIZE,BASE FOR STRING PDL

NOEXPO <
XX  ZAPBEG,,1	;BEGINNING OF SECOND SEGMENT COPY OF STUFF.
		;FOR GLOBAL MODEL ONLY.
>;NOEXPO

;LEAP   THINGS.

NOEXPO <
 XX CURMES		;CURRENT MESSAGE.
>;NOEXPO
 XX MAXITM		;CURRENT TOP ITEM NUMBER.
 XX OLDITM		;LINKED LIST OF OLD ITEMS (DUMP HEAP).
 XX INFOTAB		;POINTER TO "GOOD POINTER" BLOCK OF CORE.
 XX DATAB		;POINTER TO DATUM AREA.
 XX HASTAB		;POINTER TO THE LEAP HASH TABLE.
 XX FP1			;FREE STORAGE -- 1 WORD.
 XX FP2			;FREE STORAGE -- 2 WORDS.
 XX HASMSK		;THE MASK FOR HASHING INTO OUR HASH SPACE.
 XX HASHP		;FOR PNAMES. XWD NEXT FREE ARRAY ENTRY,ARRAY BASE.
 XX MKBP		;MAKE BREAK-POINT
 XX ERBP		;ERASE BREAK-POINT
 XX PUBP		;PUT BREAK-POINT (NOT IMPLEMENTED)
 XX REBP		;REMOVE BREAK-POINT.(NOT IMPLEMENTED)
 XX ITMTOP		;MAXIMUM PERMISSIBLE ITEM NUMBER.
 XX LEABOT		;→SEARCH CONTROL BLOCK FOR DERIVED SETS ERASE. 
 XX FRLOC		;→CURRENT ACTIVE FOREACH CONTROL BLOCK POINTER
 XX SCBCHN		;→CHAIN OF ABANDONED SCB'S
 XX FREITM	;NUMBER OF FREE ITEMS REMAINING

; MISC. ARRAY THINGS.
 XX ARYDIR	;FOR TELLING FOUR ARRAY ROUTINES WHICH END IS UP.
 XX ARYLS	;A LINKED LIST (LUCKILY) OF STRING ARRAYS IN LEAP, AND SO FORTH.
		;THIS IS SO STRING GARB COLLECTOR CAN FIND THEM ALL.

; BLOCK CONTROL TABLE INFORMATION
;THIS IS FOR SAIL'S CORE MANAGEMENT ROUTINES (CORGET,CORREL,CORINC...)

XX BLKTAB,3,3	;BASE OF BLOCK CONTROL TABLE
   XX LOWC	;LOW LIMIT OF ALLOCATABLE "BLOCK" CORE
   XX TOP	;UPPER LIMIT OF SAME
   XX FRELST	;POINTER TO BLOCK FREE STORAGE LIST

 XX XPAND	;PERMISSION TO EXPAND IN CORREL IF 0
 XX ATTOP	;REQUEST TO ALLOCATE OFF TOP OF CORE IF NON-0
 XX NOSHRK	;IF ON, CORREL NOT GIVEN PERMISSION TO SHRINK CORE
NOEXPO <
 XX USCOR2	;IF ON, CORGET WILL USE CORE2 ROUTINES.
>;NOEXPO

 XX BUFACS,10,,	;FOR BUFFER ALLOCATOR
NOEXPO <
XX ZAPEND,,1	;END OF SECOND SEGMENT AREA.
>;NOEXPO

; INTERNAL VARIABLES FOR RE-ENTRANT ROUTINES

 XX SGFRE	;[XWD -REMAINING-1,NEXT FREE LINK WORD-1] WHEN NON-ZERO
 XX STBUCK	;USED IN STRING GC TO KEEP TRACK OF BLOCKS
		;  (USED FOR STRING GC LIST STRUCTURE)
 XX INKY
 XX NUMCHR
 XX STMAX		;LENGTH OF STRING SPACE.
 XX SRELOC
 XX CODAC		;SAVE AC 1 OVER CALLS ON "CODE" RUNTIME ROUTINE
 XX WDTH		;GLOBAL WIDTH FOR STRING CONVERSION ROUTNES
 XX DIGS		; "" FOR # OF DECIMAL DIGITS
 XX SGCCNT		;NUMBER OF TIMES STRNGC HAS BEEN CALLED

; I/O INTERNAL VARIABLES

 XX CDBLOC	;IF CHNL IS A CH #, @CDBLOC(USER) GETS ITS CDB ADDR

 XX FNAME	;ENTER-LOOKUP TABLE
 XX EXT
 XX WD3
 XX PRPN
 XX LONGWD	;LONG FORM LOOKUPS AND ENTERS POKE THIS
 XX LONG2	; AND THIS -- FILEINFO ROUTINE GIVES TO USER

 XX PROJ		;USED BY FILNAM ROUTINE

; AC SAVE AREAS

 XX RACS,13,,	;RE-ENTRANT ROUTINES SAVE HERE
 XX SGACS,14,,	;AVAILABLE ANY TIME IF YOU ARE NOT
 		; LIKELY TO CALL STRNGC
 XX STACS,14,,	;YET ANOTHER AC SAVE AREA
 XX PGNNFL

;SOME STUFF FOR MULTIPLE PROCESSES

↓NPRIS←←20	;NUMBER OF PRIORITIES
 XX PRILIS,NPRIS,, 	;PRIORITY LIST HEADERS
 XX GGDAD		;THE BASE FOR THE MAIN PROCESS (IF HAVE ONE)
 XX TIMER		;COUNTED DOWN FOR CLOCK INTERRUPTS
 XX SCHDRQ		;SET ≠0 FOR A SCHEDULER REQUEST
			;(USED BY EVENTS)
 XX STKURT		;PLACE FOR STACKUNWINDER RETN ADRS
 XX INTQWP		;INTERRUPT NOTICE BUFFER WRITE PTR
 XX INTQRP		;READ PTR
 XX INTQWT		;TOP OF BUFFER 
 XX INTQWB		;BOTTOM OF BUFFER
 XX INTPRC		;INTERRUPT PROCESS BASE
 XX DISPAT		;DISPATCH TABLE FOR INTERRUPT LEVEL MODULE
 XX DFRINF		; AOBJN PTR TABLE FOR DEFERRED INTERRUPTS
 XX IPDP		;INTERRUPT PDP
 XX IJBCNI		;JOBCNI FROM A DEFERRED INTERRUPT
 XX IJBTPC		;JOBTPC FROM DEFERRED INTERRUPT
 XX IRUNNR		;RUNNER AT TIME OF DEFERRED INTERRUPT
 XX ISPDP		;STRING PDP FOR INTERRUPT LEVEL
 XX SPARUT,3,,		;SPARE USER TABLE ENTRIES
 XX ENDREN	; END OF USER DATA TABLE

SUBTTL	Global AC Definitions, Indices, Bits

AC2DATA (GLOBAL AC ASSIGNMENTS)
↓P	←17
↓SP	←16
↓USER	←15
↓TEMP	←14
↓LPSA	←13
↓RF	←←12			;THE ALMIGHTY F REGISTER
↓TAC1	←←TEMP
↓TAC2	←←LPSA

BITDATA (BITS FOR %ALLOC SPACE REQUEST BLOCK ENTRIES)
↓STDSPC ←←400000	;"INDIRECT" SPECIFICATION OF STANDARD AREA
↓WNTADR ←←200000	;ADDRESS OF AREA TO BE STORED AS SPECIFIED
↓WNTEND ←←100000	;ADDRESS OF NEXT AREA TO BE STORED AS SPECIFIED
↓WNTPDP ←← 40000	;PDP TO AREA TO BE STORED " "
↓WNTPDL ←← WNTPDP	;WNTPDP, WNTPDL -- WHAT'S THE DIFFERENCE?
↓USRTB  ←← 20000	;RESULT ADDRESSES ARE IN THE USER TABLE
↓MINSZ  ←← 10000	;THIS SIZE TO BE USED ONLY IF NO OTHERS GIVEN

BITDATA (INDICES OF STANDARDLY ALLOCATED AREAS (SEE %ALLOC))
↓SYSPD	←← 1		;SYSTEM_PDL
↓SYSSPD	←← 2		;STRING_PDL
↓STRSP	←← 3		;STRING_SPACE

BITDATA (INDICES INTO THE FIXED PORTION OF EACH %ALLOC SPACE REQ. BLOCK)
↓$ITNO	←←1		;MAX ITEM NUMBER DECLARED THIS COMPILATION
↓$NWITM ←←2		;XWD REQUIRED BUCKETS,REQUIRE  NEW_ITEMS 
↓$GITNO	←←3		;MAX (MIN?) GLOBAL ITEM NUMBER DECLARED
↓$MSLNK	←←4		;POINTER TO MESSAGE PROCEDURE LIST PUT HERE
↓$PNMNO	←←5		;REQUIRE n PNAMES PUTS n HERE
↓$VRNO	←←6		;VERSION NUMBER
↓$SGNM	←←7		;REQUIRED GLOBAL SEGMENT NAME (USUALLY EMPTY)
↓$SGD	←←10		;REQUIRED GLOBAL SEGMENT FILE DEVICE
↓$SGF	←←11		;" FILE NAME
↓$SGPP	←←12		;" PPN
↓$TINIT ←←13		; POINTER TO INITIAL ITEM TYPES
↓$PINIT ←←14		; POINTER TO INITIAL PRINTNAMES

↓$SPREQ	←← 15		;OFFSET OF SPACE REQUEST ENTRIES WITHIN SPACE BLOCKS

ENDDATA


BITDATA (LINK NAMES)
↓%STLNK ←← 1
↓%SPLNK ←← 2
↓%SETLK ←← 3
↓%SGROT ←← 4
↓%KTLNK ←← 5
↓%PDLNK ←← 6
↓%INLNK ←← 7

BITDATA (PROCEDURE DESCRIPTOR INDICES)

	DEFINE PDX(I),
		<↓I ←← PD.XXX
		PD.XXX←←PD.XXX+1
>
PD.XXX	←← 0
	PDX	PD.	;0
	PDX	PD.ID1	;1
	PDX	PD.ID2	;2
	PDX	PD.PDB	;3
	PDX	PD.NPW	;4
	PDX	PD.DSW	;5
	PDX	PD.LLW	;6
	PDX	PD.DLW	;7
	PDX	PD.PDA	;10
	PDX	PD.PPD	;11
	PDX	PD.PCW	;12
	PDX	PD.BDI	;13

↓PD.XXX←←PD.XXX

BITDATA (TYPE CODES WITHIN RH OF INFOTAB ENTRY)
	NOTYPE ←← 1	;NO TYPE AT ALL
        BRKITM ←← 2	;BRACKETED TRIPLE
	STTYPE ←← 3	;STRING ITEM
	FLTYPE ←← 4	;REAL ITEM
	INTYPE ←← 5	;INTEGER ITEM
	LSTYPE ←← 7	;LIST ITEM (TYPE SHOULD ALWAYS BE 1 MORE THN SETYPE
	SETYPE ←← 6	;SET ITEM
	PITTYP ←← 10	;PROCEDURE ITEM
	PRCTYP ←← 11	;PROCESS ITEM
	EVTTYP ←← 12	;EVENT TYPE ITEM
	CTXTYP ←← 13	;CONTEXT ITEM
	RFITYP ←← 14	;REFERENCE ITEM
	INVTYP ←← 31	;NON-VALID TYPE CODE
	ARRTYP ←← 15	;ARRAYS ARE THIS PLUS SIMPLE TYPE CODE

BITDATA (USE OF THE RESERVED ITEMS)
; ANY IS REPRESENTED BY 0
	MAINPI ←← 1	;ITEM NUMBER OF THE MAIN PROCESS ITEM
	UNBND  ←← 2	;UNBOUND (?ITEMVARS ETC)
	EVTYPI ←← 3	;THE ITEM EVENT_TYPE
	NIC    ←← UNBND	;ITEM GET BACK FROM EMPTY NOTICE QUEUE
;;# # MAKE NIC & UNBOUND THE SAME ITEM -- RHT
;;     I.E. NULL INTERROGATIONS RETURN UNBOUND NOW

	↓MAXLOC ←← =10	;MAXIMUM NUMBER OF LOCAL ITEMVARS IN FOREACH
	↓QBIND ←← 200	;A ? ITMVR (NOT A MP PARM)
	↓FBIND ←← 100	;A BIND ITMVR(HERE BECAUSE OF STATS)

BITDATA (THE NAMED BITS FOR REF ITEMS)
	↓REFB ←← 200000	;USUALLY SET
	↓QUESB ←← 100000;FOR ? ITEMVARS
	↓BINDB ←← 40000	;FOR BIND ITEMVAR
	↓PROCB ←← 20000	;NOT NOW REALLY USED
	↓ITEMB ←← 10000	; AN ITEM (ITEMVAR)
	↓ARY2B ←← 4000	;FOR λ ARRAY ITEMVAR ARRAY REFERENCES
	↓MSK6BT ←← 3740 ; BITS FOR SIX BIT TYPE
	↓MSKUNT ←← 3700	;BIT MASK FOR UNTYPED 
ENDDATA

IFN HEDSYM, <		;MAKE AN HONEST ASSEMBLY OUT OF IT
	TITLE	HEAD
	END
>;IFN HEDSYM


SUBTTL	SAIL ASSEMBLY SPECIFICATIONS