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EuroCD 3
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PPCcforth
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lex.yy.c
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C/C++ Source or Header
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1998-06-24
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16KB
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910 lines
# include "stdio.h"
# define U(x) x
# define NLSTATE yyprevious=YYNEWLINE
# define BEGIN yybgin = yysvec + 1 +
# define INITIAL 0
# define YYLERR yysvec
# define YYSTATE (yyestate-yysvec-1)
# define YYOPTIM 1
# define YYLMAX 200
# define output(c) putc(c,yyout)
# define input() (((yytchar=yysptr>yysbuf?U(*--yysptr):getc(yyin))==10?(yylineno++,yytchar):yytchar)==EOF?0:yytchar)
# define unput(c) {yytchar= (c);if(yytchar=='\n')yylineno--;*yysptr++=yytchar;}
# define yymore() (yymorfg=1)
# define ECHO fprintf(yyout, "%s",yytext)
# define REJECT { nstr = yyreject(); goto yyfussy;}
int yyleng; extern char yytext[];
int yymorfg;
extern char *yysptr, yysbuf[];
int yytchar;
FILE *yyin = {stdin}, *yyout = {stdout};
extern int yylineno;
struct yysvf {
struct yywork *yystoff;
struct yysvf *yyother;
int *yystops;};
struct yysvf *yyestate;
extern struct yysvf yysvec[], *yybgin;
/* LEX input for FORTH input file scanner */
/*
Specifications are as follows:
This file must be run through "sed" to change
yylex () {
to
TOKEN *yylex () {
where the sed script is
sed "s/yylex () {/TOKEN *yylex () {/" lex.yy.c
Note that spaces have been included above so these lines won't be
mangled by sed; in actuality, the two blanks surrounding () are
removed.
The function "yylex()" always returns a pointer to a structure:
struct tokenrec {
int type;
char *text;
}
#define TOKEN struct tokenrec
where the type is a hint as to the word's type:
DECIMAL for decimal literal d+
OCTAL for octal literal 0d*
HEX for hex literal 0xd+ or 0Xd+
C_BS for a literal Backspace '\b'
C_FF for a literal Form Feed '\f'
C_NL for a literal Newline '\n'
C_CR for a literal Carriage Return '\r'
C_TAB for a literal Tab '\t'
C_BSLASH for a literal backslash '\\'
C_IT for an other character literal 'x' where x is possibly '
STRING_LIT for a string literal (possibly containing \")
COMMENT for a left-parenthesis (possibly beginning a comment)
PRIM for "PRIM"
CONST for "CONST"
VAR for "VAR"
USER for "USER"
LABEL for "LABEL"
COLON for ":"
SEMICOLON for ";"
SEMISTAR for ";*" (used to make words IMMEDIATE)
NUL for the token {NUL}, which gets compiled as a null byte;
this special interpretation takes place in the COLON
code.
LIT for the word "LIT" (treated like OTHER, except that
no warning is generated when a literal follows this)
OTHER for an other word not recognized above
Note that this is just a hint: the meaning of any string of characters
depends on the context.
*/
#include "forth.lex.h"
TOKEN token;
# define YYNEWLINE 10
TOKEN *yylex(){
int nstr; extern int yyprevious;
while((nstr = yylook()) >= 0)
yyfussy: switch(nstr){
case 0:
if(yywrap()) return(0); break;
case 1:
/* whitespace -- keep looping */ ;
break;
case 2:
{ token.type = DECIMAL; token.text = yytext;
return &token; }
break;
case 3:
{ token.type = OCTAL; token.text = yytext;
return &token; }
break;
case 4:
{ token.type = HEX; token.text = yytext;
return &token; }
break;
case 5:
{ token.type = C_BS; token.text = yytext; return &token; }
break;
case 6:
{ token.type = C_FF; token.text = yytext; return &token; }
break;
case 7:
{ token.type = C_NL; token.text = yytext; return &token; }
break;
case 8:
{ token.type = C_CR; token.text = yytext; return &token; }
break;
case 9:
{ token.type = C_TAB; token.text = yytext; return &token; }
break;
case 10:
{ token.type = C_BSLASH; token.text = yytext; return &token; }
break;
case 11:
{ token.type = C_LIT; token.text = yytext; return &token; }
break;
case 12:
{ token.type = STRING_LIT; token.text = yytext;
return &token; }
break;
case 13:
{ token.type = COMMENT; token.text = yytext;
return &token; }
break;
case 14:
{ token.type = PRIM; token.text = yytext;
return &token; }
break;
case 15:
{ token.type = CONST; token.text = yytext;
return &token; }
break;
case 16:
{ token.type = VAR; token.text = yytext;
return &token; }
break;
case 17:
{ token.type = USER; token.text = yytext;
return &token; }
break;
case 18:
{ token.type = LABEL; token.text = yytext;
return &token; }
break;
case 19:
{ token.type = COLON; token.text = yytext;
return &token; }
break;
case 20:
{ token.type = SEMICOLON; token.text = yytext;
return &token; }
break;
case 21:
{ token.type = SEMISTAR; token.text = yytext;
return &token; }
break;
case 22:
{ token.type = NUL; token.text = yytext;
return &token; }
break;
case 23:
{ token.type = LIT; token.text = yytext;
return &token; }
break;
case 24:
{ token.type = OTHER; token.text = yytext;
return &token; }
break;
case -1:
break;
default:
fprintf(yyout,"bad switch yylook %d",nstr);
} return(0); }
/* end of yylex */
int yyvstop[] = {
0,
1,
0,
1,
0,
-24,
0,
1,
0,
-24,
0,
-24,
0,
-13,
-24,
0,
-24,
0,
-3,
-24,
0,
-2,
-24,
0,
-19,
-24,
0,
-20,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
24,
0,
24,
0,
-12,
-24,
0,
-24,
0,
-24,
0,
24,
0,
-24,
0,
13,
24,
0,
3,
24,
0,
-3,
-24,
0,
-24,
0,
2,
24,
0,
19,
24,
0,
20,
24,
0,
-21,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-12,
0,
12,
24,
0,
-12,
-24,
0,
-11,
-24,
0,
-11,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-24,
0,
-4,
-24,
0,
21,
24,
0,
-24,
0,
-24,
0,
-23,
-24,
0,
-24,
0,
-24,
0,
-16,
-24,
0,
-24,
0,
12,
0,
-12,
0,
12,
24,
0,
11,
24,
0,
11,
0,
-10,
-24,
0,
-5,
-24,
0,
-6,
-24,
0,
-7,
-24,
0,
-8,
-24,
0,
-9,
-24,
0,
4,
24,
0,
-24,
0,
-24,
0,
23,
24,
0,
-14,
-24,
0,
-17,
-24,
0,
16,
24,
0,
-24,
0,
12,
0,
10,
24,
0,
5,
24,
0,
6,
24,
0,
7,
24,
0,
8,
24,
0,
9,
24,
0,
-15,
-24,
0,
-18,
-24,
0,
14,
24,
0,
17,
24,
0,
-22,
-24,
0,
15,
24,
0,
18,
24,
0,
22,
24,
0,
0};
# define YYTYPE char
struct yywork { YYTYPE verify, advance; } yycrank[] = {
0,0, 0,0, 1,3, 0,0,
0,0, 0,0, 0,0, 0,0,
0,0, 0,0, 1,4, 1,4,
0,0, 4,4, 4,4, 0,0,
4,4, 4,4, 7,26, 7,26,
11,31, 11,31, 21,44, 21,44,
0,0, 12,32, 12,32, 33,55,
33,55, 0,0, 42,63, 42,63,
0,0, 42,63, 42,63, 1,5,
4,4, 46,66, 46,66, 0,0,
1,6, 1,7, 22,45, 3,3,
23,46, 24,47, 1,8, 48,68,
49,69, 1,9, 1,10, 3,19,
3,19, 42,63, 50,70, 2,6,
2,7, 1,10, 12,33, 1,11,
1,12, 2,8, 5,5, 51,71,
6,23, 52,72, 1,3, 43,64,
1,13, 35,57, 5,20, 5,20,
6,24, 6,19, 2,11, 2,12,
3,3, 1,14, 37,59, 38,60,
18,40, 1,15, 13,34, 2,13,
15,37, 16,38, 1,16, 1,17,
34,56, 1,3, 3,3, 3,3,
2,14, 9,27, 9,27, 5,21,
2,15, 6,23, 3,3, 36,58,
22,22, 2,16, 2,17, 10,30,
10,30, 8,9, 8,10, 3,3,
39,61, 5,5, 5,5, 6,23,
6,23, 8,10, 14,3, 40,62,
41,43, 5,5, 53,73, 6,23,
28,27, 28,27, 14,19, 14,19,
1,18, 43,43, 5,5, 56,75,
6,23, 57,76, 3,3, 59,78,
9,28, 9,28, 45,65, 45,65,
58,77, 58,77, 60,79, 2,18,
29,54, 29,54, 10,10, 10,10,
62,81, 25,46, 65,43, 14,3,
29,54, 5,5, 10,10, 6,23,
75,89, 5,22, 76,90, 6,25,
81,93, 29,54, 82,43, 28,28,
28,28, 14,3, 14,3, 0,0,
47,67, 47,67, 0,0, 47,67,
47,67, 14,3, 61,80, 61,80,
9,29, 64,82, 64,82, 0,0,
17,3, 0,0, 14,35, 14,3,
14,3, 14,3, 14,3, 14,3,
17,19, 17,19, 14,36, 47,67,
68,83, 68,83, 69,84, 69,84,
70,85, 70,85, 71,86, 71,86,
72,87, 72,87, 25,48, 73,88,
73,88, 14,3, 78,91, 78,91,
25,49, 79,92, 79,92, 0,0,
25,50, 17,3, 14,3, 14,3,
14,3, 14,3, 14,3, 14,3,
25,51, 45,22, 89,94, 89,94,
25,52, 0,0, 25,53, 17,3,
17,3, 90,95, 90,95, 93,96,
93,96, 0,0, 0,0, 17,3,
0,0, 0,0, 0,0, 0,0,
0,0, 0,0, 20,41, 0,0,
17,39, 17,3, 17,3, 17,3,
17,3, 17,3, 20,41, 20,41,
54,74, 54,74, 0,0, 0,0,
0,0, 0,0, 0,0, 0,0,
64,43, 0,0, 0,0, 0,0,
0,0, 0,0, 0,0, 17,3,
0,0, 0,0, 0,0, 0,0,
0,0, 0,0, 0,0, 20,42,
17,3, 17,3, 17,3, 17,3,
17,3, 17,3, 0,0, 0,0,
0,0, 0,0, 0,0, 0,0,
0,0, 20,41, 20,41, 54,54,
54,54, 0,0, 0,0, 0,0,
0,0, 20,41, 0,0, 54,54,
0,0, 0,0, 0,0, 0,0,
0,0, 0,0, 20,41, 0,0,
54,54, 0,0, 0,0, 0,0,
0,0, 0,0, 0,0, 0,0,
0,0, 0,0, 0,0, 0,0,
0,0, 0,0, 0,0, 0,0,
0,0, 0,0, 0,0, 0,0,
0,0, 20,41, 0,0, 0,0,
0,0, 20,43, 0,0, 0,0,
0,0};
struct yysvf yysvec[] = {
0, 0, 0,
yycrank+-1, 0, yyvstop+1,
yycrank+-16, yysvec+1, yyvstop+3,
yycrank+-42, 0, yyvstop+5,
yycrank+4, 0, yyvstop+7,
yycrank+-61, 0, yyvstop+9,
yycrank+-63, 0, yyvstop+11,
yycrank+-9, yysvec+3, yyvstop+13,
yycrank+-57, yysvec+3, yyvstop+16,
yycrank+-84, yysvec+3, yyvstop+18,
yycrank+-94, yysvec+3, yyvstop+21,
yycrank+-11, yysvec+3, yyvstop+24,
yycrank+-16, yysvec+3, yyvstop+27,
yycrank+-3, yysvec+3, yyvstop+30,
yycrank+-113, 0, yyvstop+32,
yycrank+-2, yysvec+3, yyvstop+34,
yycrank+-2, yysvec+3, yyvstop+36,
yycrank+-175, 0, yyvstop+38,
yycrank+-2, yysvec+3, yyvstop+40,
yycrank+0, 0, yyvstop+42,
yycrank+-237, 0, yyvstop+44,
yycrank+-13, yysvec+3, yyvstop+46,
yycrank+-8, yysvec+5, yyvstop+49,
yycrank+-5, yysvec+3, yyvstop+51,
yycrank+6, 0, yyvstop+53,
yycrank+-106, yysvec+3, yyvstop+55,
yycrank+0, 0, yyvstop+57,
yycrank+0, 0, yyvstop+60,
yycrank+-111, yysvec+3, yyvstop+63,
yycrank+-92, yysvec+3, yyvstop+66,
yycrank+0, 0, yyvstop+68,
yycrank+0, 0, yyvstop+71,
yycrank+0, 0, yyvstop+74,
yycrank+-18, yysvec+3, yyvstop+77,
yycrank+-10, yysvec+3, yyvstop+80,
yycrank+-3, yysvec+3, yyvstop+82,
yycrank+-15, yysvec+3, yyvstop+84,
yycrank+-5, yysvec+3, yyvstop+86,
yycrank+-10, yysvec+3, yyvstop+88,
yycrank+-26, yysvec+3, yyvstop+90,
yycrank+-30, yysvec+3, yyvstop+92,
yycrank+-24, yysvec+20, 0,
yycrank+21, 0, yyvstop+94,
yycrank+-33, yysvec+20, 0,
yycrank+0, 0, yyvstop+96,
yycrank+-125, yysvec+5, yyvstop+99,
yycrank+-28, yysvec+3, yyvstop+102,
yycrank+155, 0, yyvstop+105,
yycrank+-8, yysvec+3, yyvstop+107,
yycrank+-9, yysvec+3, yyvstop+109,
yycrank+-15, yysvec+3, yyvstop+111,
yycrank+-24, yysvec+3, yyvstop+113,
yycrank+-26, yysvec+3, yyvstop+115,
yycrank+-79, yysvec+3, yyvstop+117,
yycrank+-239, yysvec+3, yyvstop+119,
yycrank+0, 0, yyvstop+122,
yycrank+-44, yysvec+3, yyvstop+125,
yycrank+-60, yysvec+3, yyvstop+127,
yycrank+-127, yysvec+3, yyvstop+129,
yycrank+-54, yysvec+3, yyvstop+132,
yycrank+-56, yysvec+3, yyvstop+134,
yycrank+-161, yysvec+3, yyvstop+136,
yycrank+-68, yysvec+3, yyvstop+139,
yycrank+0, 0, yyvstop+141,
yycrank+-164, yysvec+20, yyvstop+143,
yycrank+-54, yysvec+20, yyvstop+145,
yycrank+0, 0, yyvstop+148,
yycrank+0, 0, yyvstop+151,
yycrank+-179, yysvec+3, yyvstop+153,
yycrank+-181, yysvec+3, yyvstop+156,
yycrank+-183, yysvec+3, yyvstop+159,
yycrank+-185, yysvec+3, yyvstop+162,
yycrank+-187, yysvec+3, yyvstop+165,
yycrank+-190, yysvec+3, yyvstop+168,
yycrank+0, 0, yyvstop+171,
yycrank+-68, yysvec+3, yyvstop+174,
yycrank+-78, yysvec+3, yyvstop+176,
yycrank+0, 0, yyvstop+178,
yycrank+-193, yysvec+3, yyvstop+181,
yycrank+-196, yysvec+3, yyvstop+184,
yycrank+0, 0, yyvstop+187,
yycrank+-31, yysvec+3, yyvstop+190,
yycrank+-66, yysvec+20, yyvstop+192,
yycrank+0, 0, yyvstop+194,
yycrank+0, 0, yyvstop+197,
yycrank+0, 0, yyvstop+200,
yycrank+0, 0, yyvstop+203,
yycrank+0, 0, yyvstop+206,
yycrank+0, 0, yyvstop+209,
yycrank+-209, yysvec+3, yyvstop+212,
yycrank+-216, yysvec+3, yyvstop+215,
yycrank+0, 0, yyvstop+218,
yycrank+0, 0, yyvstop+221,
yycrank+-218, yysvec+3, yyvstop+224,
yycrank+0, 0, yyvstop+227,
yycrank+0, 0, yyvstop+230,
yycrank+0, 0, yyvstop+233,
0, 0, 0};
struct yywork *yytop = yycrank+329;
struct yysvf *yybgin = yysvec+1;
char yymatch[] = {
00 ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
01 ,011 ,012 ,01 ,011 ,011 ,01 ,01 ,
01 ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
01 ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
011 ,01 ,'"' ,01 ,01 ,01 ,01 ,01 ,
01 ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
'0' ,'1' ,'1' ,'1' ,'1' ,'1' ,'1' ,'1' ,
'8' ,'8' ,01 ,01 ,01 ,01 ,01 ,01 ,
01 ,'A' ,'A' ,'A' ,'A' ,'A' ,'A' ,01 ,
01 ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
01 ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
'X' ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
01 ,'A' ,'A' ,'A' ,'A' ,'A' ,'A' ,01 ,
01 ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
01 ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
'X' ,01 ,01 ,01 ,01 ,01 ,01 ,01 ,
0};
char yyextra[] = {
0,0,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,
1,0,0,0,0,0,0,0,
0};
/* @(#)ncform 1.2 */
int yylineno =1;
# define YYU(x) x
# define NLSTATE yyprevious=YYNEWLINE
char yytext[YYLMAX];
struct yysvf *yylstate [YYLMAX], **yylsp, **yyolsp;
char yysbuf[YYLMAX];
char *yysptr = yysbuf;
int *yyfnd;
extern struct yysvf *yyestate;
int yyprevious = YYNEWLINE;
yylook(){
register struct yysvf *yystate, **lsp;
register struct yywork *yyt;
struct yysvf *yyz;
int yych, yyfirst;
struct yywork *yyr;
# ifdef LEXDEBUG
int debug;
# endif
char *yylastch;
/* start off machines */
# ifdef LEXDEBUG
debug = 0;
# endif
yyfirst=1;
if (!yymorfg)
yylastch = yytext;
else {
yymorfg=0;
yylastch = yytext+yyleng;
}
for(;;){
lsp = yylstate;
yyestate = yystate = yybgin;
if (yyprevious==YYNEWLINE) yystate++;
for (;;){
# ifdef LEXDEBUG
if(debug)fprintf(yyout,"state %d\n",yystate-yysvec-1);
# endif
yyt = yystate->yystoff;
if(yyt == yycrank && !yyfirst){ /* may not be any transitions */
yyz = yystate->yyother;
if(yyz == 0)break;
if(yyz->yystoff == yycrank)break;
}
*yylastch++ = yych = input();
yyfirst=0;
tryagain:
# ifdef LEXDEBUG
if(debug){
fprintf(yyout,"char ");
allprint(yych);
putchar('\n');
}
# endif
yyr = yyt;
if ( (int)yyt > (int)yycrank){
yyt = yyr + yych;
if (yyt <= yytop && yyt->verify+yysvec == yystate){
if(yyt->advance+yysvec == YYLERR) /* error transitions */
{unput(*--yylastch);break;}
*lsp++ = yystate = yyt->advance+yysvec;
goto contin;
}
}
# ifdef YYOPTIM
else if((int)yyt < (int)yycrank) { /* r < yycrank */
yyt = yyr = yycrank+(yycrank-yyt);
# ifdef LEXDEBUG
if(debug)fprintf(yyout,"compressed state\n");
# endif
yyt = yyt + yych;
if(yyt <= yytop && yyt->verify+yysvec == yystate){
if(yyt->advance+yysvec == YYLERR) /* error transitions */
{unput(*--yylastch);break;}
*lsp++ = yystate = yyt->advance+yysvec;
goto contin;
}
yyt = yyr + YYU(yymatch[yych]);
# ifdef LEXDEBUG
if(debug){
fprintf(yyout,"try fall back character ");
allprint(YYU(yymatch[yych]));
putchar('\n');
}
# endif
if(yyt <= yytop && yyt->verify+yysvec == yystate){
if(yyt->advance+yysvec == YYLERR) /* error transition */
{unput(*--yylastch);break;}
*lsp++ = yystate = yyt->advance+yysvec;
goto contin;
}
}
if ((yystate = yystate->yyother) && (yyt= yystate->yystoff) != yycrank){
# ifdef LEXDEBUG
if(debug)fprintf(yyout,"fall back to state %d\n",yystate-yysvec-1);
# endif
goto tryagain;
}
# endif
else
{unput(*--yylastch);break;}
contin:
# ifdef LEXDEBUG
if(debug){
fprintf(yyout,"state %d char ",yystate-yysvec-1);
allprint(yych);
putchar('\n');
}
# endif
;
}
# ifdef LEXDEBUG
if(debug){
fprintf(yyout,"stopped at %d with ",*(lsp-1)-yysvec-1);
allprint(yych);
putchar('\n');
}
# endif
while (lsp-- > yylstate){
*yylastch-- = 0;
if (*lsp != 0 && (yyfnd= (*lsp)->yystops) && *yyfnd > 0){
yyolsp = lsp;
if(yyextra[*yyfnd]){ /* must backup */
while(yyback((*lsp)->yystops,-*yyfnd) != 1 && lsp > yylstate){
lsp--;
unput(*yylastch--);
}
}
yyprevious = YYU(*yylastch);
yylsp = lsp;
yyleng = yylastch-yytext+1;
yytext[yyleng] = 0;
# ifdef LEXDEBUG
if(debug){
fprintf(yyout,"\nmatch ");
sprint(yytext);
fprintf(yyout," action %d\n",*yyfnd);
}
# endif
return(*yyfnd++);
}
unput(*yylastch);
}
if (yytext[0] == 0 /* && feof(yyin) */)
{
yysptr=yysbuf;
return(0);
}
yyprevious = yytext[0] = input();
if (yyprevious>0)
output(yyprevious);
yylastch=yytext;
# ifdef LEXDEBUG
if(debug)putchar('\n');
# endif
}
}
yyback(p, m)
int *p;
{
if (p==0) return(0);
while (*p)
{
if (*p++ == m)
return(1);
}
return(0);
}
/* the following are only used in the lex library */
yyinput(){
return(input());
}
yyoutput(c)
int c; {
output(c);
}
yyunput(c)
int c; {
unput(c);
}
