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Extended ALGOL compiler design notes.

by Paul McJones last modified 2020-04-24 12:55

Extended ALGOL compiler design notes. Header comments extracted from AL1T1.SR and AL2T1.SR.

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;		         TWO-PASS ALGOL

; REFERENCES:

; NAUR, P., ET AL.:  REPORT ON THE ALGORITHMIC LANGUAGE ALGOL 60,
;	COMM. ACM, 3(5): 299-314 (1960).
;
; EVANS, A., JR.:  AN ALGOL 60 COMPILER, PAPER PRESENTED AT THE
;	18TH ANNUAL MEETING OF THE ACM, DENVER, 1963.
;
; GRAHAM, R. M.:  BOUNDED CONTEXT TRANSLATION, PROCEEDINGS OF THE 
;	SPRING JOINT COMPUTER CONFERENCE, 1964, PP. 17-19.
;
; ARDEN, B. W., AND GRAHAM, R. M.:  THE INTERNAL ORGANIZATION OF THE
;	MAD TRANSLATOR, COMM. ACM, 4(1): 28-31 (1961).
;
; WARSHALL, S., AND SHAPIRO, R. M.:  A GENERAL-PURPOSE TABLE-DRIVEN
;	COMPILER, PROCEEDINGS OF THE SPRING JOINT COMPUTER
;	CONFERENCE, 1964, PP. 59-65.
;
; BUSAM, V. A., AND ENGLUND, D. E., OPTIMIZATION OF EXPRESSIONS IN 
;	FORTRAN, COMM. ACM, 12(12): 666-674 (1969).
; DATA GENERAL'S TWO-PASS ALGOL COMPILER USES A METHOD DESCRIBED
; BY EVANS FOR BOUNDED CONTEXT TRANSLATION OF PRECEDENCE GRAMMARS.
; THE SYNTAX IS ENCODED IN A SET OF "PRODUCTIONS".  THESE ARE
; SCANNED BY THE SYNTACTIC ANALYZER IN TRANSLATING THE ALGOL
; INPUT STATEMENTS INTO POSTFIX FORM.  THIS INTERMEDIATE FORM
; IS USED FOR COMMON SUB-EXPRESSION ELIMINATION.  IN A MULTI-PASS
; VERSION OF THE COMPILER, THE INTERMEDIATE CODE IS SCANNED TO
; REMOVE INVARIANT COMPUTATIONS FROM LOOPS.  AFTER ALL OPTIMIZATION
; IS COMPLETE, THE INTERMEDIATE CODE IS PASSED TO A CODE SELECTOR
; SIMILAR TO ONE USED BY GRAHAM, GALLER AND ARDEN IN THE TRANSLATOR
; FOR MAD, WHICH USES A TABLE OF CODE PATTERNS AND MAINTAINS
; STATISTICS ON REGISTER USAGE TO MAKE GOOD USE OF THE AVAILABLE
; MACHINE INSTRUCTIONS, REGISTERS AND TEMPORARIES.


; THE SYNTACTIC ANALYZER IS OF THE BOTTOM-UP REDUCTIONS ANALYSIS 
; VARIETY, WHERE THE SCAN IS DIRECTED BY A SET OF REDUCTIONS.
; EACH REDUCTION CONTAINS FOUR PARTS.  THE FIRST PART IS A PATTERN
; TO MATCH AGAINST THE TOP ELEMENTS ON THE STACK.  EACH ELEMENT IN
; THE PATTERN MAY MATCH A SPECIFIC TERMINAL SYMBOL OR A GENERAL
; CLASS OF SYMBOLS SUCH AS "ANY IDENTIFIER OR LITERAL".  IF ANY OF
; THE ELEMENTS IN THE PATTERN DOES NOT MATCH THE STACK, THE ANALYZER
; WILL PROCEED TO THE NEXT REDUCTION.  IF ALL THE ELEMENTS MATCH
; THEN THE ANALYZER WILL TRANSFORM THE MATCHED ELEMENTS AS SPECIFIED 
; BY THE NEXT PART OF THE REDUCTION.  EACH OF THE MATCHED ELEMENTS
; MAY BE REPLACED BY ANOTHER MATCHED ELEMENT (OR ANY STACK ELEMENT)
; OR ANY TERMINAL, OR THE MATCHED ELEMENT MAY BE DELETED.  AFTER THE
; STACK IS TRANSFORMED, THE ACTION ROUTINES SPECIFIED BY THE NEXT
; PART OF THE REDUCTION ARE CALLED.  THESE ROUTINES MAY PERFORM
; SUCH FUNCTIONS AS CHANGING THE TYPE OF AN IDENTIFIER.  THE
; LAST PART OF THE REDUCTION SPECIFIES THE NEXT REDUCTION TO
; INTERPRET.  IF NONE IS SPECIFIED, THE ANALYZER PROCEEDS TO THE 
; NEXT SEQUENTIAL REDUCTION.


; ARITHMETIC EXPRESSIONS ARE ANALYZED BY AN ACTION ROUTINE, THE
; EXPRESSION ANALYZER, WHICH IS DRIVEN BY OPERATOR PRECEDENCE.
; THE EXPRESSION ANALYZER DETERMINES THE TYPE (REAL, INTEGER, ETC.)
; OF EACH SUB-EXPRESSION AND INSERTS APPROPRIATE TYPE CONVERSIONS.
; TO INCREASE THE LIKELIHOOD OF COMMON SUB-EXPRESSION REMOVAL,
; ALL MINUS SIGNS ARE MOVED TO THE HIGHEST POSSIBLE POSITION IN
; THE EXPRESSION.  FOR EXAMPLE, THE EXPRESSION (-A-B) IS ENCODED
; AS -(A+B).  FOR OPERATIONS THAT ARE COMMUTATIVE, THE OPERANDS
; ARE SORTED AND THE SIGNS CHANGED AS NECESSARY.


; INPUT SYMBOLS FOR THE SYNTACTIC ANALYZER AND EXPRESSION ANALYZER
; ARE RECOGNIZED BY A GENERAL-PURPOSE LEXICAL ANALYZER.  
; AMBIGUITIES, SUCH AS LABELS RECOGNIZED AS INTEGER LITERALS, ARE
; HANDLED BY ACTION ROUTINES.  THE STRING FORM OF TERMINAL SYMBOLS
; IS SPECIFIED IN THE CALLS TO A KEY WORD RECOGNIZER.  TO
; ADD A TERMINAL SYMBOL OR OPERATOR, A CALL MUST BE ADDED IN THE
; APPROPRIATE SPOT IN THE LEXICAL ANALYZER AND AN ENTRY MUST BE 
; ADDED TO THE TERMINAL SYMBOL TABLE.


; THE CODE SELECTOR IS DRIVEN BY CODE PATTERNS FOR EACH OPERATOR.
; EACH CODE PATTERN LINE MAY BE A SYMBOLIC NOVA INSTRUCTION OR A 
; COMMAND TO THE CODE SELECTOR.  THE SYMBOLIC INSTRUCTION MAY CONTAIN
; REFERENCES TO THE ADDRESS OF AN OPERAND OR REGISTERS CONTAINING THE
; OPERAND.  THESE HAVE THE FORM "r" (REGISTER CONTAINING SPECIFIED
; OPERAND, "x" (INDEX REGISTER CONTAINING SPECIFIED OPERAND), "s"
; (OPERAND IN SPECIFIED REGISTER) OR "o" (SPECIFIED OPERAND);
; FOLLOWED BY A DIGIT INDICATING THE SPECIFIED NUMBER OR A SMALL LETTER
; PSEUDO-VARIABLE CONTAINING THE SPECIFIED NUMBER.  A "t" REFERENCED
; IN THE SYMBOLIC INSTRUCTION LINE WILL BE TRANSLATED INTO A LETTER 
; INDICATING INSTRUCTION TYPE, "F" FOR FLOATING POINT, OR NULL FOR
; INTEGER AND BOOLEAN.  IF "o" IS REFERENCED FOR A MATRIX OPERAND,
; A STORAGE LOCATION WILL BE ASSIGNED FOR A TEMPORARY AND THIS WILL
; BE OUTPUT.


; THE COMMANDS TO THE CODE SELECTOR MAY TEST TO DETERMINE IF AN
; OPERAND IS IN A REGISTER AND TRANSFER ACCORDINGLY TO ANOTHER LINE
; IN THE CODE PATTERN.  NUMERICAL VALUES MAY BE ASSIGNED TO THE
; PSEUDO-VARIABLES AND OTHER CODE PATTERNS MAY BE CALLED WITH
; THESE AS ARGUMENTS.  THE CODE SELECTOR KEEPS TRACK OF REGISTER
; CONTENTS TO OPTIMIZE THE USE OF REGISTERS, INSTRUCTIONS AND
; TEMPORARIES THROUGHOUT THE PROGRAM.
; VALID CODE SELECTOR COMMANDS ARE:


;	/C <PATTERN NUMBER> [<VARIABLE> <COUNTER>]/
;	CALL THE PATTERN THE SPECIFIED NUMBER OF TIMES
;	PASSING THE COUNTER IN VARIABLE.


;	/X [<REGISTER>]/
;	EXIT FROM A CODE PATTERN, OPTIONALLY SETTING THE
;	CURRENT MATRIX VALUE AS THE CONTENTS OF THE
;	SPECIFIED REGISTER.


;	/J <JUMP>/
;	JUMP FORWARD IN THE CODE PATTERN BY THE AMOUNT
;	SPECIFIED.


;	/SV <REGISTER>/
;	/S <REGISTER> <OPERAND>/
;	/S <VARIABLE> <VARIABLE>/
;	/S <VARIABLE> <DIGIT>/
;	/S <VARIABLE> <REGISTER>/
;	SET THE STATUS OR CONTENTS OF THE SPECIFIED REGISTER,
;	"V" INDICATES SET REGISTER VACANT.
;	SET EQUAL, SETS TWO VARIABLES EQUAL, A VARIABLE
;	EQUAL TO A NUMBER, OR A VARIABLE EQUAL TO A REGISTER 
;	NUMBER.


;	/TV <REGISTER> <JUMP>/
;	/TM <OPERAND> <JUMP>/
;	/T <REGISTER> <JUMP>/
;	/T <VARIABLE> <VARIABLE> <JUMP>/
;	/T <REGISTER> <REGISTER> <JUMP>/
;	TEST AND JUMP IF TRUE, TESTS FOR THE SPECIFIED CONDITION,
;	IF AN OPERAND IS IN ANY REGISTER, IF AN OPERAND
;	IS IN A PARTICULAR REGISTER, OR IF TWO VARIABLES
;	ARE EQUAL. "M" TESTS IF A REGISTER CONTAINS A MATRIX
;	OPERAND.


;	/F... TEST AND JUMP IF FALSE, SAME AS ABOVE.
;
; STORAGE FOR COMPILER TABLES IS COMPOSED OF FIVE WORD ELEMENTS
; WHICH ARE THREADED TOGETHER TO FORM STACKS AND VARIOUS OTHER
; DATA LISTS.  EACH STACK ELEMENT HAS THE FOLLOWING FORMAT:
;
;	****************
;	*    .FWDP     * -----> POINTER TO NEXT ELEMENT
;	****************
;	*    .TYPE     *        ELEMENT TYPE (REAL, INTEGER, BOOLEAN)
;	****************
;	*    .TABL     *        TABLE NUMBER (IDENTIFIER, LITERAL,
; 	****************        TERMINAL NUMBER, OR GENERATED LABEL)
;	*    .DATA     * -----> DATA OR POINTER TO DATA 
;	****************
;	*    .DOPE     * -----> SPECIFICATION INFORMATION
;	****************
;
; ELEMENTS IN THE IDENTIFIER STACK MAY BE BLOCK HEADERS OR
; IDENTIFIER ELEMENTS.  BLOCK HEADERS CONTAIN THE FOLLOWING:
;
;	****************
;	*    .FWDP     * -----> NEXT ELEMENT IN IDENTIFIER STACK
;	****************
;	*    .LINK     * -----> POINTER TO LAST ENTRY IN NEXT OUTER BLOCK
;	****************
;	*    .LAST     * -----> POINTER TO LAST ENTRY OF THIS BLOCK
;	****************
;	*        0     *        ZERO INDICATES BLOCK HEADER ELEMENT
;	****************
;	*    .DOPE     * -----> POINTER TO DOPE ELEMENT FOR BLOCK
;	****************
;
; THE DOPE ELEMENT FOR A BLOCK CONTAINS THE FOLLOWING:
;
;	****************
;	*    .FWDP     * -----> POINTER TO MORE DOPE, NORMALLY ZERO
;	****************
;	*    .CSLC     *        CURRENT STORAGE LOCATION COUNTER WHEN
;	****************        THIS BLOCK WAS ENTERED
;	*    .CCBH     * -----> POINTER TO CURRENT BLOCK HEADER WHEN
;	****************        THIS BLOCK ENTERED
;	*    .CCPH     * -----> POINTER TO CURRENT PROCEDURE HEADER
;	****************
;	*    .BLEV     *	CURRENT PROCEDURE LEVEL
;	****************
;
; IDENTIFIER ELEMENTS CONTAIN THE FOLLOWING:
;
;	****************
;	*    .FWDP     * -----> NEXT ELEMENT IN IDENTIFIER STACK
;	****************
;	*    .LINK     * -----> NEXT ENTRY IN SEARCH THREAD, ZERO IF
;	****************        END OF THREAD
;	*    .CCBH     * -----> POINTER TO CURRENT BLOCK HEADER
;	****************
;	*    .DATA     * -----> POINTER TO CHARACTER STRING ELEMENT
;	****************
;	*    .DOPE     * -----> POINTER TO IDENTIFIER DOPE ELEMENT
;	****************
;
; THE CHARACTER STRING DATA ELEMENT HAS THE FOLLOWING FORMAT:
;
;	****************
;	*    .FWDP     * -----> POINTER TO MORE STRING DATA, OR ZERO
;	****************        IF END OF CHARACTER STRING
;	*  # OF WORDS  *        CHARACTER DATA, NULL CHARACTERS ARE IGNORED
;	****************
;	*  C1  *  C2   *	SECOND AND SUCCEEDING ELEMENTS HAVE
;	****************	EIGHT (8) CHARACTERS PER ELEMENT.
;	*  C3  *  C4   *
;	****************
;	*  C5  *  C6   *
;	****************
;
; THE IDENTIFIER DOPE ELEMENT CONTAINS THE FOLLOWING INFORMATION:
;
;	****************
;	*    .FWDP     * -----> POINTER TO ADDITIONAL DOPE, NORMALLY ZERO
;	**************** 
;	*    .TYPE     *        DATA TYPE, ZERO IF UNDEFINED, OTHERWISE
;	****************        INTEGER, REAL, BOOLEAN, LABEL, COMPLEX
;	*    .CLAS     *        IDENTIFIER CLASS (NORMAL VARIABLE, ARRAY,
;	****************        LABEL, OR PROCEDURE)
;	*    .ADDR     *        LOCATION RELATIVE TO THE BASE OF THE DATA
;	****************        STORAGE AREA, ZERO IF LABEL
;	*    .KIND     *	STORAGE CLASS
;	****************




; THE TERMINAL TABLE IS INDEXED BY TERMINAL NUMBER (DATA IN STACK ELEMENT)
; MINUS 48 (ALL TERMINAL NUMBERS ARE GREATER THAN 48).  EACH ENTRY IN
; THE TERMINAL TABLE CONTAINS THE FOLLOWING:
;
;	****************
;	*    .TTYP     *        TERMINAL TYPE, ZERO IS NORMAL OPERATOR
;	****************
;	*    .LPRC     *        LEFT PRECEDENCE (PRECEDENCE WHEN COMPARED TO
;	****************        AN OPERATOR ON ITS RIGHT)
;	*    .RPRC     *        RIGHT PRECEDENCE
;	****************
;	*    .RTYP     *        RESULT TYPE OR -1 IF SAME AS CONVERSION
;	****************

.EOT	; END OF AL1T1.SR


;
;	 *
;	**
;	 *
;	 *
;	 *
;	 *
;	***
;

; ALGOL PHASE 1 ZEROES ALL GLOBAL TABLES AND VARIABLES, ALLOCATES
; STORAGE FOR COMPILER WRITEABLE TABLES AND INITIALIZES GLOBAL
; TABLES AND VARIABLES WHERE REQUIRED.  A LEXICAL AND SYNTACTIC 
; ANALYSIS OF THE SOURCE PROGRAM IS PERFORMED, PRODUCING AN
; INTERMEDIATE CODE FOR FURTHER PROCESSING BY PHASE 2, THE CODE
; GENERATOR.  THE OVERLAY FOR PHASE 2 DOES NOT DESTROY GLOBAL PAGE
; ZERO VARIABLES OR CONSTANTS, NOR DOES IT DESTROY GLOBAL TABLES
; BUILT FROM THE TOP OF AVAILABLE MEMORY.


;	 **
;	*  *
;	   *
;	  *
;	 *
;	*
;	****
;

; ALGOL PHASE 2 IS PASSED THE PRESERVED SYMBOL TABLES IN CORE
; AND A FILE CONTAINING INTERMEDIATE CODE IN THE FORM OF A
; CODE MATRIX.  EACH ROW OF THE MATRIX CONTAINS AN OPERATOR 
; FOLLOWED BY ZERO OR MORE OPERANDS WHICH MAY POINT TO OTHER MATRIX
; ROWS OR TO ELEMENTS IN THE SYMBOL TABLES.  THE CODE SELECTOR
; INTERPRETS A CODE PATTERN FOR EACH OF THESE ROWS AND GENERATES
; CODE ACCORDINGLY.
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