ack/lang/m2/test/m2p.mod

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Modula-2
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1988-04-20 10:43:48 +00:00
MODULE Modula2PrettyPrinter;
FROM InOut IMPORT
Done, Read, Write, WriteLn, WriteString, OpenInput, OpenOutput,
CloseInput, CloseOutput;
(*
** Modula-2 Prettyprinter, November 1985.
**
** by Ken Yap, U of Rochester, CS Dept.
**
** Permission to copy, modify, and distribute, but not for profit,
** is hereby granted, provided that this note is included.
**
** adapted from a Pascal Program Formatter
** by J. E. Crider, Shell Oil Company,
** Houston, Texas 77025
**
** This program formats Modula-2 programs according
** to structured formatting principles
**
** A valid Modula-2 program is read from the input and
** a formatted program is written to the output.
** It is basically a recursive descent parser with actions
** intermixed with syntax scanning.
**
** The actions of the program are as follows:
**
** FORMATTING: Each structured statement is formatted
** in the following pattern (with indentation "indent"):
**
** XXXXXX header XXXXXXXX
** XXXXXXXXXXXXXXXXXX
** XXXXX body XXXXXX
** XXXXXXXXXXXXXXXXXX
** END
**
** where the header is one of:
**
** IF <expression> THEN
** ELSIF <expression> THEN
** ELSE
** WHILE <expression> DO
** FOR <control variable> := <FOR list> DO
** WITH <RECORD variable> DO
** REPEAT
** LOOP
** CASE <expression> OF
** <CASE label list>:
**
** and the last line begins with UNTIL or is END.
** Other program parts are formatted similarly. The headers are:
**
** <MODULE/PROCEDURE heading>;
** CONST
** TYPE
** VAR
** BEGIN
** (various FOR records AND RECORD variants)
**
** COMMENTS: Each comment that starts before or on a specified
** column on an input line (program constant "commthresh") is
** copied without shifting or reformatting. Each comment that
** starts after "commthresh" is reformatted and left-justified
** following the aligned comment base column ("alcommbase").
**
** SPACES AND BLANK LINES: Spaces not at line breaks are copied from
** the input. Blank lines are copied from the input if they appear
** between statements (or appropriate declaration units). A blank
** line is inserted above each significant part of each program/
** procedure if one is not already there.
**
** CONTINUATION: Lines that are too long for an output line are
** continued with additional indentation ("contindent").
*)
CONST
TAB = 11C;
NEWLINE = 12C; (* for Unix *)
FF = 14C;
maxrwlen = 15; (* size of reserved word strings *)
ordminchar = 0; (* ord of lowest char in char set *)
ordmaxchar = 127; (* ord of highest char in char set *)
(* The following parameters may be adjusted for the installation: *)
maxinlen = 255; (* maximum width of input line + 1 *)
maxoutlen = 80; (* maximum width of output line *)
tabinterval = 8; (* interval between tab columns *)
initmargin = 0; (* initial value of output margin *)
commthresh = tabinterval; (* column threshhold in input for
comments to be aligned *)
alcommbase = 40; (* aligned comments in output start
after this column *)
indent = tabinterval; (* RECOMMENDED indentation increment *)
contindent = tabinterval; (* continuation indentation, >indent *)
commindent = tabinterval; (* comment continuation indentation *)
TYPE
natural = INTEGER[0..32767];
inrange = INTEGER[0..maxinlen];
outrange = INTEGER[0..maxoutlen];
errortype = (longline, noendcomm, notquote, longword, notdo, notof,
notend, notthen, notbegin, notuntil, notident, notsemicolon, notcolon,
notperiod, notparen, noeof);
chartype = (illegal, special, chapostrophe, chleftparen, chrightparen,
chperiod, digit, chcolon, chsemicolon, chlessthan, chgreaterthan,
letter, chleftbrace, chbar);
chartypeset = SET OF chartype; (* for reserved word recognition *)
resword = ( (* reserved words ordered by length *)
rwif, rwdo, rwof, rwto, rwin, rwor,
(* length: 2 *)
rwend, rwfor, rwvar, rwdiv, rwmod, rwset, rwand, rwnot, rwnil,
(* length: 3 *)
rwthen, rwelse, rwwith, rwcase, rwtype, rwloop, rwfrom,
(* length: 4 *)
rwbegin, rwelsif, rwuntil, rwwhile, rwarray, rwconst,
(* length: 5 *)
rwrepeat, rwrecord, rwmodule, rwimport, rwexport,
(* length: 6 *)
rwpointer, (* length: 7 *)
rwprocedure, rwqualified, (* length: 9 *)
rwdefinition, (* length: 10 *)
rwimplementation, (* length: 14 *)
rwx); (* length: 15 for table sentinel *)
rwstring = ARRAY [1..maxrwlen] OF CHAR;
firstclass = ( (* class of word if on new line *)
newclause, (* start of new clause *)
continue, (* continuation of clause *)
alcomm, (* start of aligned comment *)
contalcomm, (* continuation of aligned comment *)
uncomm, (* start of unaligned comment *)
contuncomm); (* continuation of unaligned comment *)
wordtype = RECORD (* data record for word *)
whenfirst : firstclass; (* class of word if on new line *)
puncfollows : BOOLEAN; (* to reduce dangling punctuation *)
blanklncount : natural; (* number of preceding blank lines *)
spaces : INTEGER; (* number of spaces preceding word *)
base : [-1..maxinlen]; (* inline.buf[base] precedes word *)
size : inrange;
END; (* length of word in inline.buf *)
symboltype = ( (* symbols for syntax analysis *)
symodule, sydefinition, syimplementation, syfrom, syimport, syexport,
syqual, syproc, declarator, sybegin, syend, syif, sythen, syelsif,
syelse, syloop, sycase, syof, syuntil, syrepeat, forwhilewith, sydo,
syrecord, ident, intconst, semicolon, leftparen, rightparen, period,
colon, bar, othersym, otherword, comment, syeof);
symbolset = SET OF symboltype;
VAR
inline : RECORD (* input line data *)
endoffile : BOOLEAN; (* end of file on input? *)
ch : CHAR; (* current char, buf[index] *)
index : inrange; (* subscript of current char *)
len : natural; (* length of input line in buf *)
buf : ARRAY [1..maxinlen] OF CHAR;
END;
outline : RECORD (* output line data *)
blanklns : natural; (* number of preceding blank lines *)
len : outrange; (* number of chars in buf *)
buf : ARRAY [1..maxoutlen] OF CHAR;
END;
curword : wordtype; (* current word *)
margin : outrange; (* left margin *)
lnpending : BOOLEAN; (* new line before next symbol? *)
inheader : BOOLEAN; (* are we scanning a proc header? *)
symbol : symboltype; (* current symbol *)
(* Structured Constants *)
headersyms : symbolset; (* headers for program parts *)
strucsyms : symbolset; (* symbols that begin structured
statements *)
stmtendsyms : symbolset; (* symbols that follow statements *)
stopsyms : symbolset; (* symbols that stop expression scan *)
recendsyms : symbolset; (* symbols that stop record scan *)
datawords : symbolset; (* to reduce dangling punctuation *)
firstrw : ARRAY [1..maxrwlen] OF resword;
rwword : ARRAY [rwif..rwimplementation] OF rwstring;
rwsy : ARRAY [rwif..rwimplementation] OF symboltype;
charclass : ARRAY CHAR OF chartype;
symbolclass : ARRAY chartype OF symboltype;
PROCEDURE StrCmp(a, b : rwstring) : BOOLEAN;
VAR
i : INTEGER;
BEGIN
FOR i := 1 TO maxrwlen DO
IF a[i] # b[i] THEN
RETURN FALSE;
END;
END;
RETURN TRUE;
END StrCmp;
PROCEDURE StructConsts;
(* establish values of structured constants *)
VAR
i : [ordminchar..ordmaxchar]; (* loop index *)
ch : CHAR; (* loop index *)
PROCEDURE BuildResWord(rw : resword; symword : rwstring; symbol : symboltype);
BEGIN
rwword[rw] := symword; (* reserved word string *)
rwsy[rw] := symbol; (* map to symbol *)
END BuildResWord;
BEGIN (* StructConsts *)
(* symbol sets for syntax analysis *)
headersyms := symbolset{symodule, syproc, declarator, sybegin, syend,
syeof};
strucsyms := symbolset{sycase, syrepeat, syif, forwhilewith, syloop};
stmtendsyms := symbolset{semicolon, bar, syend, syuntil, syelsif,
syelse, syeof};
stopsyms := headersyms + strucsyms + stmtendsyms;
recendsyms := symbolset{rightparen, syend, syeof};
datawords := symbolset{otherword, intconst, ident, syend};
(* constants for recognizing reserved words *)
firstrw[1] := rwif; (* length: 1 *)
firstrw[2] := rwif; (* length: 2 *)
BuildResWord(rwif, 'IF ', syif);
BuildResWord(rwdo, 'DO ', sydo);
BuildResWord(rwof, 'OF ', syof);
BuildResWord(rwto, 'TO ', othersym);
BuildResWord(rwin, 'IN ', othersym);
BuildResWord(rwor, 'OR ', othersym);
firstrw[3] := rwend; (* length: 3 *)
BuildResWord(rwend, 'END ', syend);
BuildResWord(rwfor, 'FOR ', forwhilewith);
BuildResWord(rwvar, 'VAR ', declarator);
BuildResWord(rwdiv, 'DIV ', othersym);
BuildResWord(rwmod, 'MOD ', othersym);
BuildResWord(rwset, 'SET ', othersym);
BuildResWord(rwand, 'AND ', othersym);
BuildResWord(rwnot, 'NOT ', othersym);
BuildResWord(rwnil, 'NIL ', otherword);
firstrw[4] := rwthen; (* length: 4 *)
BuildResWord(rwthen, 'THEN ', sythen);
BuildResWord(rwelse, 'ELSE ', syelse);
BuildResWord(rwwith, 'WITH ', forwhilewith);
BuildResWord(rwloop, 'LOOP ', syloop);
BuildResWord(rwfrom, 'FROM ', syfrom);
BuildResWord(rwcase, 'CASE ', sycase);
BuildResWord(rwtype, 'TYPE ', declarator);
firstrw[5] := rwbegin; (* length: 5 *)
BuildResWord(rwbegin, 'BEGIN ', sybegin);
BuildResWord(rwelsif, 'ELSIF ', syelsif);
BuildResWord(rwuntil, 'UNTIL ', syuntil);
BuildResWord(rwwhile, 'WHILE ', forwhilewith);
BuildResWord(rwarray, 'ARRAY ', othersym);
BuildResWord(rwconst, 'CONST ', declarator);
firstrw[6] := rwrepeat; (* length: 6 *)
BuildResWord(rwrepeat, 'REPEAT ', syrepeat);
BuildResWord(rwrecord, 'RECORD ', syrecord);
BuildResWord(rwmodule, 'MODULE ', symodule);
BuildResWord(rwimport, 'IMPORT ', syimport);
BuildResWord(rwexport, 'EXPORT ', syexport);
firstrw[7] := rwpointer; (* length: 7 *)
BuildResWord(rwpointer, 'POINTER ', othersym);
firstrw[8] := rwprocedure; (* length: 8 *)
firstrw[9] := rwprocedure; (* length: 9 *)
BuildResWord(rwprocedure, 'PROCEDURE ', syproc);
BuildResWord(rwqualified, 'QUALIFIED ', syqual);
firstrw[10] := rwdefinition; (* length: 10 *)
BuildResWord(rwdefinition, 'DEFINITION ', sydefinition);
firstrw[11] := rwimplementation;(* length: 11 *)
firstrw[12] := rwimplementation;(* length: 12 *)
firstrw[13] := rwimplementation;(* length: 13 *)
firstrw[14] := rwimplementation;(* length: 14 *)
BuildResWord(rwimplementation, 'IMPLEMENTATION ', syimplementation);
firstrw[15] := rwx; (* length: 15 FOR table sentinel *)
(* constants for lexical scan *)
FOR i := ordminchar TO ordmaxchar DO
charclass[CHR(i)] := illegal;
END;
FOR ch := 'a' TO 'z' DO
charclass[ch] := letter;
charclass[CAP(ch)] := letter;
END;
FOR ch := '0' TO '9' DO
charclass[ch] := digit;
END;
charclass[' '] := special;
charclass['"'] := chapostrophe;
charclass['#'] := special;
charclass['&'] := special;
charclass["'"] := chapostrophe;
charclass['('] := chleftparen;
charclass[')'] := chrightparen;
charclass['*'] := special;
charclass['+'] := special;
charclass[','] := special;
charclass['-'] := special;
charclass['.'] := chperiod;
charclass['/'] := special;
charclass[':'] := chcolon;
charclass[';'] := chsemicolon;
charclass['<'] := chlessthan;
charclass['='] := special;
charclass['>'] := chgreaterthan;
charclass['@'] := special;
charclass['['] := special;
charclass[']'] := special;
charclass['^'] := special;
charclass['{'] := special;
charclass['|'] := chbar;
charclass['}'] := special;
symbolclass[illegal] := othersym;
symbolclass[special] := othersym;
symbolclass[chapostrophe] := otherword;
symbolclass[chleftparen] := leftparen;
symbolclass[chrightparen] := rightparen;
symbolclass[chperiod] := period;
symbolclass[digit] := intconst;
symbolclass[chcolon] := colon;
symbolclass[chsemicolon] := semicolon;
symbolclass[chlessthan] := othersym;
symbolclass[chgreaterthan] := othersym;
symbolclass[chbar] := bar;
symbolclass[letter] := ident;
END StructConsts;
(* FlushLine/WriteError/ReadLine convert between files and lines. *)
PROCEDURE FlushLine;
(* Write buffer into output file *)
VAR
i, j, vircol : outrange; (* loop index *)
nonblankseen : BOOLEAN;
BEGIN
WITH outline DO
WHILE blanklns > 0 DO
WriteLn;
blanklns := blanklns - 1;
END;
IF len > 0 THEN
vircol := 0;
nonblankseen := FALSE;
(* set this to TRUE if you don't want
blanks to tab conversion *)
FOR i := 0 TO len - 1 DO
IF buf[i+1] <> ' ' THEN
IF NOT nonblankseen THEN
LOOP
j := (vircol DIV
tabinterval + 1) *
tabinterval;
IF j > i THEN
EXIT;
END;
Write(TAB);
vircol := j;
END;
END;
nonblankseen := TRUE;
WHILE vircol < i DO
Write(' ');
vircol := vircol + 1;
END;
Write(buf[i+1]);
vircol := i + 1;
END;
END;
WriteLn;
len := 0;
END;
END;
END FlushLine;
PROCEDURE WriteError(error : errortype; nm : ARRAY OF CHAR);
(* report error to output *)
VAR
i, ix : inrange; (* loop index, limit *)
BEGIN
FlushLine;
WriteString('(* !!! error, ');
WriteString(nm);
CASE error OF
longline:
WriteString('shorter line');
| noendcomm:
WriteString('END OF comment');
| notquote:
WriteString("final ' on line");
| longword:
WriteString('shorter word');
| notdo:
WriteString('"DO"');
| notof:
WriteString('"OF"');
| notend:
WriteString('"END"');
| notthen:
WriteString('"THEN"');
| notbegin:
WriteString('"BEGIN"');
| notuntil:
WriteString('"UNTIL"');
| notident:
WriteString('"identifier"');
| notsemicolon:
WriteString('";"');
| notperiod:
WriteString('"."');
| notcolon:
WriteString('":"');
| notparen:
WriteString('")"');
| noeof:
WriteString('END OF file');
END;
WriteString(' expected');
IF error >= longword THEN
WriteString(', NOT "');
WITH inline DO
WITH curword DO
IF size > maxrwlen THEN
ix := maxrwlen
ELSE
ix := size;
END;
FOR i := 1 TO ix DO
Write(buf[base + i]);
END;
END;
END;
Write('"');
END;
IF error = noeof THEN
WriteString(', FORMATTING STOPS');
END;
WriteString(' !!! *)');
WriteLn;
END WriteError;
PROCEDURE ReadLine;
(* Read line into input buffer *)
VAR
c : CHAR; (* input character *)
BEGIN
WITH inline DO
len := 0;
LOOP
Read(c);
IF NOT Done THEN
endoffile := TRUE;
EXIT;
END;
IF c = NEWLINE THEN
EXIT;
END;
IF c < ' ' THEN (* convert ISO control chars (except
leading form feed) to spaces *)
IF c = TAB THEN
(* ISO TAB char *)
c := ' ';
(* add last space at end *)
WHILE len MOD 8 <> 7 DO
len := len + 1;
IF len < maxinlen THEN
buf[len] := c;
END;
END;
(* END tab handling *)
ELSIF (c <> FF) OR (len > 0) THEN
c := ' ';
END;
END; (* END ISO control char conversion *)
len := len + 1;
IF len < maxinlen THEN
buf[len] := c;
END;
END;
IF NOT endoffile THEN
IF len >= maxinlen THEN
(* input line too long *)
WriteError(longline, "(ReadLine), ");
len := maxinlen - 1;
END;
WHILE (len > 0) AND (buf[len] = ' ') DO
len := len - 1;
END;
END;
len := len + 1; (* add exactly ONE trailing blank *)
buf[len] := ' ';
index := 0;
END;
END ReadLine;
PROCEDURE GetChar;
(* get next char from input buffer *)
BEGIN
WITH inline DO
index := index + 1;
ch := buf[index];
END;
END GetChar;
PROCEDURE NextChar() : CHAR;
(* look at next char in input buffer *)
BEGIN
RETURN inline.buf[inline.index + 1];
END NextChar;
PROCEDURE StartWord(startclass : firstclass);
(* note beginning of word, and count preceding lines and spaces *)
VAR
first : BOOLEAN; (* is word the first on input line? *)
BEGIN
first := FALSE;
WITH inline DO
WITH curword DO
whenfirst := startclass;
blanklncount := 0;
WHILE (index >= len) AND NOT endoffile DO
IF len = 1 THEN
blanklncount := blanklncount + 1;
END;
IF startclass = contuncomm THEN
FlushLine
ELSE
first := TRUE;
END;
ReadLine;
(* with exactly ONE trailing blank *)
GetChar;
IF ch = FF THEN
FlushLine;
Write(FF);
blanklncount := 0;
GetChar;
END;
END;
spaces := 0; (* count leading spaces *)
IF NOT endoffile THEN
WHILE ch = ' ' DO
spaces := spaces + 1;
GetChar;
END;
END;
IF first THEN
spaces := 1;
END;
base := index - 1;
END;
END;
END StartWord;
PROCEDURE FinishWord;
(* note end of word *)
BEGIN
WITH inline DO
WITH curword DO
puncfollows := (symbol IN datawords) AND (ch <> ' ');
size := index - base - 1;
END;
END;
END FinishWord;
PROCEDURE CopyWord(newline : BOOLEAN; pword : wordtype);
(* copy word from input buffer into output buffer *)
VAR
i : INTEGER; (* outline.len excess, loop index *)
BEGIN
WITH pword DO
WITH outline DO
i := maxoutlen - len - spaces - size;
IF newline OR (i < 0) OR ((i = 0) AND puncfollows) THEN
FlushLine;
END;
IF len = 0 THEN (* first word on output line *)
blanklns := blanklncount;
CASE whenfirst OF
(* update LOCAL word.spaces *)
newclause:
spaces := margin;
| continue:
spaces := margin;
| alcomm:
spaces := alcommbase;
| contalcomm:
spaces := alcommbase + commindent;
| uncomm:
spaces := base;
| contuncomm:
(* spaces := spaces *);
END;
IF spaces + size > maxoutlen THEN
spaces := maxoutlen - size;
(* reduce spaces *)
IF spaces < 0 THEN
WriteError(longword,
"(CopyWord), ");
size := maxoutlen;
spaces := 0;
END;
END;
END;
FOR i := 1 TO spaces DO
(* put out spaces *)
len := len + 1;
buf[len] := ' ';
END;
FOR i := 1 TO size DO
(* copy actual word *)
len := len + 1;
buf[len] := inline.buf[base + i];
END;
END;
END;
END CopyWord;
PROCEDURE DoComment; (* copy aligned or unaligned comment *)
PROCEDURE CopyComment(commclass : firstclass; commbase : inrange);
(* copy words of comment *)
VAR
endcomment : BOOLEAN; (* end of comment? *)
BEGIN
WITH curword DO (* copy comment begin symbol *)
whenfirst := commclass;
spaces := commbase - outline.len;
CopyWord((spaces < 0) OR (blanklncount > 0), curword);
END;
commclass := VAL(firstclass, ORD(commclass)+1);
WITH inline DO
REPEAT (* loop for successive words *)
StartWord(commclass);
endcomment := endoffile;
(* premature end? *)
IF endcomment THEN
WriteError(noendcomm, "(CopyComment), ")
ELSE
REPEAT
IF ch = '*' THEN
GetChar;
IF ch = ')' THEN
endcomment := TRUE;
GetChar;
END;
ELSE
GetChar;
END;
UNTIL (ch = ' ') OR endcomment;
END;
FinishWord;
CopyWord(FALSE, curword)
UNTIL endcomment;
END;
END CopyComment;
BEGIN (* DoComment *)
IF curword.base < commthresh THEN
(* copy comment without alignment *)
CopyComment(uncomm, curword.base)
ELSE (* align AND format comment *)
CopyComment(alcomm, alcommbase);
END;
END DoComment;
PROCEDURE GetSymbol;
(* get next non-comment symbol *)
PROCEDURE CopySymbol(symbol : symboltype; pword : wordtype);
(* copy word(s) of symbol *)
BEGIN
IF symbol = comment THEN
DoComment; (* NOTE: DoComment uses global word! *)
lnpending := TRUE;
ELSIF symbol = semicolon THEN
CopyWord(FALSE, pword);
lnpending := NOT inheader;
ELSE
CopyWord(lnpending, pword);
lnpending := FALSE;
END;
END CopySymbol;
PROCEDURE FindSymbol;
(* find next symbol in input buffer *)
VAR
termch : CHAR; (* string terminator *)
chclass : chartype; (* classification of leading char *)
PROCEDURE CheckResWord;
(* check if current identifier is reserved word/symbol *)
VAR
rw, rwbeyond : resword; (* loop index, limit *)
symword : rwstring; (* copy of symbol word *)
i : [-1..maxrwlen]; (* loop index *)
BEGIN
WITH curword DO
WITH inline DO
size := index - base - 1;
IF size < maxrwlen THEN
symword := ' ';
FOR i := 1 TO size DO
symword[i] := CAP(buf[ base + i]);
END;
rw := firstrw[size];
rwbeyond := firstrw[size + 1];
symbol := semicolon;
REPEAT
IF rw >= rwbeyond THEN
symbol := ident
ELSIF StrCmp(symword, rwword[rw]) THEN
symbol := rwsy[rw]
ELSE
rw := VAL(resword,ORD(rw)+1);
END;
UNTIL symbol <> semicolon;
END;
whenfirst := newclause;
END;
END;
END CheckResWord;
PROCEDURE GetName;
BEGIN
WHILE charclass[inline.ch] IN chartypeset{letter, digit} DO
GetChar;
END;
CheckResWord;
END GetName;
PROCEDURE GetNumber;
BEGIN
WITH inline DO
WHILE charclass[ch] = digit DO
GetChar;
END;
IF ch = '.' THEN
IF charclass[NextChar()] = digit THEN
(* NOTE: NextChar is a function! *)
symbol := otherword;
GetChar;
WHILE charclass[ch] = digit DO
GetChar;
END;
END;
END;
IF CAP(ch) = 'E' THEN
symbol := otherword;
GetChar;
IF (ch = '+') OR (ch = '-') THEN
GetChar;
END;
WHILE charclass[ch] = digit DO
GetChar;
END;
END;
END;
END GetNumber;
PROCEDURE GetStringLiteral;
VAR
endstring : BOOLEAN; (* end of string literal? *)
BEGIN
WITH inline DO
endstring := FALSE;
REPEAT
GetChar;
IF ch = termch THEN
endstring := TRUE;
ELSIF index >= len THEN
(* error, final "'" not on line *)
WriteError(notquote, "(GetStringLiteral), ");
symbol := syeof;
endstring := TRUE;
END;
UNTIL endstring;
GetChar;
END;
END GetStringLiteral;
BEGIN (* FindSymbol *)
StartWord(continue);
WITH inline DO
IF endoffile THEN
symbol := syeof
ELSE
termch := ch; (* save for string literal routine *)
chclass := charclass[ch];
symbol := symbolclass[chclass];
GetChar; (* second CHAR *)
CASE chclass OF
chsemicolon, chrightparen, chleftbrace, special,
illegal: ;
| letter:
GetName;
| digit:
GetNumber;
| chapostrophe:
GetStringLiteral;
| chcolon:
IF ch = '=' THEN
symbol := othersym;
GetChar;
END;
| chlessthan:
IF (ch = '=') OR (ch = '>') THEN
GetChar;
END;
| chgreaterthan:
IF ch = '=' THEN
GetChar;
END;
| chleftparen:
IF ch = '*' THEN
symbol := comment;
GetChar;
END;
| chperiod:
IF ch = '.' THEN
symbol := colon;
GetChar;
END; (* Added by me (CJ): *)
ELSE
END;
FinishWord;
END;
END; (* FindSymbol *)
END FindSymbol;
BEGIN (* GetSymbol *)
REPEAT
CopySymbol(symbol, curword);
(* copy word for symbol to output *)
FindSymbol (* get next symbol *)
UNTIL symbol <> comment;
END GetSymbol;
PROCEDURE StartClause;
(* (this may be a simple clause, or the start of a header) *)
BEGIN
curword.whenfirst := newclause;
lnpending := TRUE;
END StartClause;
PROCEDURE PassSemicolons;
(* pass consecutive semicolons *)
BEGIN
WHILE symbol = semicolon DO
GetSymbol;
StartClause;
END;
END PassSemicolons;
PROCEDURE StartBody;
(* finish header, start body of structure *)
BEGIN
StartClause;
margin := margin + indent;
END StartBody;
PROCEDURE FinishBody;
(* retract margin *)
BEGIN
margin := margin - indent;
END FinishBody;
PROCEDURE PassPhrase(finalsymbol : symboltype);
(* process symbols until significant symbol encountered *)
VAR
endsyms : symbolset; (* complete set of stopping symbols *)
BEGIN
IF symbol <> syeof THEN
endsyms := stopsyms;
INCL(endsyms, finalsymbol);
REPEAT
GetSymbol
UNTIL symbol IN endsyms;
END;
END PassPhrase;
PROCEDURE Expect(expectedsym : symboltype; error : errortype; syms : symbolset;
nm : ARRAY OF CHAR);
(* fail if current symbol is not the expected one, then recover *)
BEGIN
IF symbol = expectedsym THEN
GetSymbol
ELSE
WriteError(error, nm);
INCL(syms, expectedsym);
WHILE NOT (symbol IN syms) DO
GetSymbol;
END;
IF symbol = expectedsym THEN
GetSymbol;
END;
END;
END Expect;
PROCEDURE Heading;
(* process heading for program or procedure *)
PROCEDURE MatchParens; (* process parentheses in heading *)
VAR
endsyms : symbolset;
BEGIN
GetSymbol;
WHILE NOT (symbol IN recendsyms) DO
IF symbol = leftparen THEN
MatchParens
ELSE
GetSymbol;
END;
END;
endsyms := stopsyms + recendsyms;
Expect(rightparen, notparen, endsyms, "(MatchParens), ");
END MatchParens;
BEGIN (* heading *)
GetSymbol;
PassPhrase(leftparen);
IF symbol = leftparen THEN
inheader := TRUE;
MatchParens;
inheader := FALSE;
END;
IF symbol = colon THEN
PassPhrase(semicolon);
END;
Expect(semicolon, notsemicolon, stopsyms, "(Heading), ");
END Heading;
PROCEDURE DoRecord;
(* process record declaration *)
BEGIN
GetSymbol;
StartBody;
PassFields(FALSE);
FinishBody;
Expect(syend, notend, recendsyms, "(DoRecord), ");
END DoRecord;
PROCEDURE DoVariant;
(* process (case) variant part *)
BEGIN
PassPhrase(syof);
Expect(syof, notof, stopsyms, "(Dovariant), ");
StartBody;
PassFields(TRUE);
FinishBody;
END DoVariant;
PROCEDURE DoParens(forvariant : BOOLEAN);
(* process parentheses in record *)
BEGIN
GetSymbol;
IF forvariant THEN
StartBody;
END;
PassFields(FALSE);
lnpending := FALSE; (* for empty field list *)
Expect(rightparen, notparen, recendsyms, "(DoParens), ");
IF forvariant THEN
FinishBody;
END;
END DoParens;
PROCEDURE PassFields(forvariant : BOOLEAN);
(* process declarations *)
BEGIN
WHILE NOT (symbol IN recendsyms) DO
IF symbol = semicolon THEN
PassSemicolons
ELSIF symbol = syrecord THEN
DoRecord
ELSIF symbol = sycase THEN
DoVariant
ELSIF symbol = leftparen THEN
DoParens(forvariant)
ELSE
GetSymbol;
END;
END;
END PassFields;
PROCEDURE Statement;
(* process statement *)
BEGIN
CASE symbol OF
sycase:
CaseStatement;
Expect(syend, notend, stmtendsyms, "(Case), ");
| syif:
IfStatement;
Expect(syend, notend, stmtendsyms, "(If), ");
| syloop:
LoopStatement;
Expect(syend, notend, stmtendsyms, "(Loop), ");
| syrepeat:
RepeatStatement;
| forwhilewith:
ForWhileWithStatement;
Expect(syend, notend, stmtendsyms, "(ForWhileWith), ");
| ident:
AssignmentProccall;
| semicolon: ; (*!!! Added by me (CJ) *)
ELSE ;
END;
END Statement;
PROCEDURE AssignmentProccall;
(* pass an assignment statement or procedure call *)
BEGIN
WHILE NOT (symbol IN stmtendsyms) DO
GetSymbol;
END;
END AssignmentProccall;
PROCEDURE StatementSequence;
(* process sequence of statements *)
BEGIN
Statement;
LOOP
IF symbol <> semicolon THEN
EXIT;
END;
GetSymbol;
Statement;
END;
END StatementSequence;
PROCEDURE IfStatement;
(* process if statement *)
BEGIN
PassPhrase(sythen);
Expect(sythen, notthen, stopsyms, "(Ifstatement), ");
StartBody;
StatementSequence;
FinishBody;
WHILE symbol = syelsif DO
StartClause;
PassPhrase(sythen);
Expect(sythen, notthen, stopsyms, "(Elseif), ");
StartBody; (* new line after 'THEN' *)
StatementSequence;
FinishBody;
END;
IF symbol = syelse THEN
StartClause;
GetSymbol;
StartBody; (* new line after 'ELSE' *)
StatementSequence;
FinishBody;
END;
END IfStatement;
PROCEDURE CaseStatement;
(* process case statement *)
BEGIN
PassPhrase(syof);
Expect(syof, notof, stopsyms, "(caseStatement), ");
StartClause;
OneCase;
WHILE symbol = bar DO
GetSymbol;
OneCase;
END;
IF symbol = syelse THEN
GetSymbol;
StartBody;
StatementSequence;
FinishBody;
END;
END CaseStatement;
PROCEDURE OneCase;
(* process one case clause *)
BEGIN
IF NOT (symbol IN symbolset{bar, syelse}) THEN
PassPhrase(colon);
Expect(colon, notcolon, stopsyms, "(OneCase), ");
StartBody; (* new line, indent after colon *)
StatementSequence;
FinishBody; (* left-indent after case *)
END;
END OneCase;
PROCEDURE RepeatStatement;
(* process repeat statement *)
BEGIN
GetSymbol;
StartBody; (* new line, indent after 'REPEAT' *)
StatementSequence;
FinishBody; (* left-ident after UNTIL *)
StartClause; (* new line before UNTIL *)
Expect(syuntil, notuntil, stmtendsyms, "(repeatstatement), ");
PassPhrase(semicolon);
END RepeatStatement;
PROCEDURE LoopStatement;
(* process loop statement *)
BEGIN
GetSymbol;
StartBody; (* new line, indent after LOOP *)
StatementSequence;
FinishBody; (* left-ident before END *)
END LoopStatement;
PROCEDURE ForWhileWithStatement;
(* process for, while, or with statement *)
BEGIN
PassPhrase(sydo);
Expect(sydo, notdo, stopsyms, "(ForWhileWithstatement), ");
StartBody;
StatementSequence;
FinishBody;
END ForWhileWithStatement;
PROCEDURE ProcedureDeclaration;
(* pass a procedure declaration *)
BEGIN
ProcedureHeading;
Block;
Expect(ident, notident, stmtendsyms, "(Proceduredeclaration)1, ");
Expect(semicolon, notsemicolon, stmtendsyms,
"(Proceduredeclaration)2, ");
END ProcedureDeclaration;
PROCEDURE ProcedureHeading;
BEGIN
StartClause;
Heading;
END ProcedureHeading;
PROCEDURE Block;
BEGIN
WHILE symbol IN symbolset{declarator, symodule, syproc} DO
Declaration;
END;
IF symbol = sybegin THEN
GetSymbol;
StartBody;
StatementSequence;
FinishBody;
END;
Expect(syend, notend, stmtendsyms, "(Block), ");
END Block;
PROCEDURE Declaration;
BEGIN
IF symbol = declarator THEN
StartClause; (* CONST, TYPE, VAR *)
GetSymbol;
StartBody;
REPEAT
PassPhrase(syrecord);
IF symbol = syrecord THEN
DoRecord;
END;
IF symbol = semicolon THEN
PassSemicolons;
END;
UNTIL symbol IN headersyms;
FinishBody;
ELSIF symbol = symodule THEN
ModuleDeclaration;
ELSIF symbol = syproc THEN
ProcedureDeclaration;
END;
END Declaration;
PROCEDURE ModuleDeclaration;
BEGIN
PassPhrase(semicolon);
PassSemicolons;
WHILE symbol IN symbolset{syimport, syexport, syfrom} DO
ImportExport;
END;
Block;
Expect(ident, notident, stmtendsyms, "(ModuleDeclaration), ");
END ModuleDeclaration;
PROCEDURE ImportExport;
BEGIN
IF symbol = syfrom THEN
PassPhrase(syimport);
END;
IF symbol = syimport THEN
GetSymbol;
ELSIF symbol = syexport THEN
GetSymbol;
IF symbol = syqual THEN
GetSymbol;
END;
END;
StartBody;
PassPhrase(semicolon);
FinishBody;
GetSymbol;
END ImportExport;
PROCEDURE OneDefinition;
BEGIN
IF symbol = declarator THEN
Declaration;
ELSIF symbol = syproc THEN
ProcedureHeading;
END;
END OneDefinition;
PROCEDURE DefinitionModule;
BEGIN
GetSymbol;
PassPhrase(semicolon);
GetSymbol;
WHILE symbol IN symbolset{syimport, syexport, syfrom} DO
ImportExport;
END;
WHILE symbol IN symbolset{declarator, syproc} DO
OneDefinition;
END;
Expect(syend, notend, stmtendsyms, "DefinitionModule1, " );
GetSymbol;
Expect(period, notperiod, stmtendsyms, 'DefintionModule2, ');
END DefinitionModule;
PROCEDURE ProgramModule;
BEGIN
ModuleDeclaration;
Expect(period, notperiod, stmtendsyms, "ProgramModule, ");
END ProgramModule;
PROCEDURE CompilationUnit;
BEGIN
IF symbol = syimplementation THEN
GetSymbol;
ProgramModule;
ELSIF symbol = sydefinition THEN
DefinitionModule;
ELSE
ProgramModule;
END;
END CompilationUnit;
PROCEDURE CopyRemainder;
(* copy remainder of input *)
BEGIN
WriteError(noeof, "(Copyremainder), ");
WITH inline DO
REPEAT
CopyWord(FALSE, curword);
StartWord(contuncomm);
IF NOT endoffile THEN
REPEAT
GetChar
UNTIL ch = ' ';
END;
FinishWord;
UNTIL endoffile;
END;
END CopyRemainder;
PROCEDURE Initialize;
(* initialize global variables *)
BEGIN
WITH inline DO
endoffile := FALSE;
ch := ' ';
index := 0;
len := 0;
END;
WITH outline DO
blanklns := 0;
len := 0;
END;
WITH curword DO
whenfirst := contuncomm;
puncfollows := FALSE;
blanklncount := 0;
spaces := 0;
base := 0;
size := 0;
END;
margin := initmargin;
lnpending := FALSE;
symbol := othersym;
1989-06-19 11:31:22 +00:00
inheader := FALSE;
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END Initialize;
BEGIN
StructConsts;
Initialize;
(* Files may be opened here. *)
OpenInput("mod");
OpenOutput("mod");
GetSymbol;
CompilationUnit;
IF NOT inline.endoffile THEN
CopyRemainder;
END;
FlushLine;
CloseInput;
CloseOutput;
END Modula2PrettyPrinter.