# line 2 "symtab.y" #include typedef char *CHAR_PTR; #define YYSTYPE CHAR_PTR #define BLOCK_MARK 0 #define INT_DEC 1 #define CHAR_DEC 2 #define FLOAT_DEC 3 #define MAX_ENTRIES 100 struct symtab_type { int type; char name[80]; int size; }; int dec_type, symtop; struct symtab_type symtab[MAX_ENTRIES]; # define ID 257 # define FLOAT 258 # define INT 259 # define MAIN 260 # define CHAR 261 # define CONST 262 #ifdef __STDC__ #include #include #else #include #include #endif #include #ifdef __cplusplus #ifndef yyerror void yyerror(const char *); #endif #ifndef yylex #ifdef __EXTERN_C__ extern "C" { int yylex(void); } #else int yylex(void); #endif #endif int yyparse(void); #endif #define yyclearin yychar = -1 #define yyerrok yyerrflag = 0 extern int yychar; extern int yyerrflag; #ifndef YYSTYPE #define YYSTYPE int #endif YYSTYPE yylval; YYSTYPE yyval; typedef int yytabelem; #ifndef YYMAXDEPTH #define YYMAXDEPTH 150 #endif #if YYMAXDEPTH > 0 int yy_yys[YYMAXDEPTH], *yys = yy_yys; YYSTYPE yy_yyv[YYMAXDEPTH], *yyv = yy_yyv; #else /* user does initial allocation */ int *yys; YYSTYPE *yyv; #endif static int yymaxdepth = YYMAXDEPTH; # define YYERRCODE 256 # line 55 "symtab.y" main() { init_symtab(); if (yyparse()) { printf("Unsuccessful parse.\n"); return(1); } else { printf("Parse was successful.\n"); return(0); } } init_symtab() { int i; for (i = 0; i < MAX_ENTRIES; i++) { symtab[i].type = BLOCK_MARK; strcpy(symtab[i].name, "*undefined*"); symtab[i].size = 0; } symtop = 0; } print_symtab() { int i; printf("****** Start of Symbol Table ******\n"); for (i = symtop; i > 0; i--) if (symtab[i].type == BLOCK_MARK) printf("=====> --- Block Marker --- <=====\n"); else { printf(" "); switch (symtab[i].type) { case INT_DEC: printf("int "); break; case CHAR_DEC: printf("char "); break; case FLOAT_DEC: printf("float "); break; default: printf("Error!\n"); } printf("%-15s", symtab[i].name); if (symtab[i].size > 0) printf("%d", symtab[i].size); printf("\n"); } printf("****** End of Symbol Table ******\n\n"); } push_symbol(type, name, size) int type, size; char *name; { if (symtop < MAX_ENTRIES - 1) { symtop++; symtab[symtop].type = type; strcpy(symtab[symtop].name, name); symtab[symtop].size = size; } else printf("Error- Stack overflow\n"); } pop_symbol() { int type = 0; if (symtop < 1) printf("Error- Stack underflow\n"); else { type = symtab[symtop].type; symtop--; } return(type); } static const yytabelem yyexca[] ={ -1, 1, 0, -1, -2, 0, }; # define YYNPROD 17 # define YYLAST 59 static const yytabelem yyact[]={ 13, 11, 29, 12, 2, 26, 18, 24, 33, 6, 28, 22, 27, 31, 21, 16, 30, 4, 3, 17, 5, 9, 10, 19, 14, 8, 7, 1, 0, 0, 15, 0, 0, 0, 0, 20, 0, 0, 0, 0, 0, 0, 25, 0, 0, 0, 0, 0, 0, 0, 32, 0, 0, 0, 0, 0, 0, 0, 23 }; static const yytabelem yypact[]={ -256,-10000000, -22, -24, -114,-10000000,-10000000, -258, -258, -44, -251,-10000000,-10000000,-10000000, -114, -45,-10000000,-10000000, -33, -250, -10000000,-10000000, -251, -257, -49,-10000000, -83, -260, -28, -46, -251, -117,-10000000,-10000000 }; static const yytabelem yypgo[]={ 0, 27, 20, 26, 25, 24, 23, 21, 22, 19 }; static const yytabelem yyr1[]={ 0, 1, 3, 5, 2, 6, 6, 4, 4, 8, 8, 8, 7, 9, 9, 9, 9 }; static const yytabelem yyr2[]={ 0, 8, 1, 1, 21, 0, 2, 4, 6, 3, 3, 3, 4, 3, 7, 9, 13 }; static const yytabelem yychk[]={ -10000000, -1, 260, 40, 41, -2, 123, -3, -4, -7, -8, 259, 261, 258, -5, -7, 59, -9, 257, -6, -2, 59, 44, 91, 257, -9, 262, 61, 93, 262, 44, 59, -9, 125 }; static const yytabelem yydef[]={ 0, -2, 0, 0, 0, 1, 2, 0, 3, 0, 0, 9, 10, 11, 5, 0, 7, 12, 13, 0, 6, 8, 0, 0, 0, 14, 0, 0, 15, 0, 0, 0, 16, 4 }; typedef struct #ifdef __cplusplus yytoktype #endif { char *t_name; int t_val; } yytoktype; #ifndef YYDEBUG # define YYDEBUG 0 /* don't allow debugging */ #endif #if YYDEBUG yytoktype yytoks[] = { "ID", 257, "FLOAT", 258, "INT", 259, "MAIN", 260, "CHAR", 261, "CONST", 262, "-unknown-", -1 /* ends search */ }; char * yyreds[] = { "-no such reduction-", "program : MAIN '(' ')' block", "block : '{'", "block : '{' dec_list", "block : '{' dec_list block_1 ID '=' CONST ';' '}'", "block_1 : /* empty */", "block_1 : block", "dec_list : dec ';'", "dec_list : dec_list dec ';'", "type : INT", "type : CHAR", "type : FLOAT", "dec : type id_list", "id_list : ID", "id_list : ID ',' id_list", "id_list : ID '[' CONST ']'", "id_list : ID '[' CONST ']' ',' id_list", }; #endif /* YYDEBUG */ # line 1 "/usr/ccs/bin/yaccpar" /* * Copyright (c) 1993 by Sun Microsystems, Inc. */ #pragma ident "@(#)yaccpar 6.14 97/01/16 SMI" /* ** Skeleton parser driver for yacc output */ /* ** yacc user known macros and defines */ #define YYERROR goto yyerrlab #define YYACCEPT return(0) #define YYABORT return(1) #define YYBACKUP( newtoken, newvalue )\ {\ if ( yychar >= 0 || ( yyr2[ yytmp ] >> 1 ) != 1 )\ {\ yyerror( "syntax error - cannot backup" );\ goto yyerrlab;\ }\ yychar = newtoken;\ yystate = *yyps;\ yylval = newvalue;\ goto yynewstate;\ } #define YYRECOVERING() (!!yyerrflag) #define YYNEW(type) malloc(sizeof(type) * yynewmax) #define YYCOPY(to, from, type) \ (type *) memcpy(to, (char *) from, yymaxdepth * sizeof (type)) #define YYENLARGE( from, type) \ (type *) realloc((char *) from, yynewmax * sizeof(type)) #ifndef YYDEBUG # define YYDEBUG 1 /* make debugging available */ #endif /* ** user known globals */ int yydebug; /* set to 1 to get debugging */ /* ** driver internal defines */ #define YYFLAG (-10000000) /* ** global variables used by the parser */ YYSTYPE *yypv; /* top of value stack */ int *yyps; /* top of state stack */ int yystate; /* current state */ int yytmp; /* extra var (lasts between blocks) */ int yynerrs; /* number of errors */ int yyerrflag; /* error recovery flag */ int yychar; /* current input token number */ #ifdef YYNMBCHARS #define YYLEX() yycvtok(yylex()) /* ** yycvtok - return a token if i is a wchar_t value that exceeds 255. ** If i<255, i itself is the token. If i>255 but the neither ** of the 30th or 31st bit is on, i is already a token. */ #if defined(__STDC__) || defined(__cplusplus) int yycvtok(int i) #else int yycvtok(i) int i; #endif { int first = 0; int last = YYNMBCHARS - 1; int mid; wchar_t j; if(i&0x60000000){/*Must convert to a token. */ if( yymbchars[last].character < i ){ return i;/*Giving up*/ } while ((last>=first)&&(first>=0)) {/*Binary search loop*/ mid = (first+last)/2; j = yymbchars[mid].character; if( j==i ){/*Found*/ return yymbchars[mid].tvalue; }else if( j= 0; yy_i++ ) { if ( yytoks[yy_i].t_val == yychar ) break; } printf( "%s\n", yytoks[yy_i].t_name ); } } #endif /* YYDEBUG */ if ( ++yy_ps >= &yys[ yymaxdepth ] ) /* room on stack? */ { /* ** reallocate and recover. Note that pointers ** have to be reset, or bad things will happen */ int yyps_index = (yy_ps - yys); int yypv_index = (yy_pv - yyv); int yypvt_index = (yypvt - yyv); int yynewmax; #ifdef YYEXPAND yynewmax = YYEXPAND(yymaxdepth); #else yynewmax = 2 * yymaxdepth; /* double table size */ if (yymaxdepth == YYMAXDEPTH) /* first time growth */ { char *newyys = (char *)YYNEW(int); char *newyyv = (char *)YYNEW(YYSTYPE); if (newyys != 0 && newyyv != 0) { yys = YYCOPY(newyys, yys, int); yyv = YYCOPY(newyyv, yyv, YYSTYPE); } else yynewmax = 0; /* failed */ } else /* not first time */ { yys = YYENLARGE(yys, int); yyv = YYENLARGE(yyv, YYSTYPE); if (yys == 0 || yyv == 0) yynewmax = 0; /* failed */ } #endif if (yynewmax <= yymaxdepth) /* tables not expanded */ { yyerror( "yacc stack overflow" ); YYABORT; } yymaxdepth = yynewmax; yy_ps = yys + yyps_index; yy_pv = yyv + yypv_index; yypvt = yyv + yypvt_index; } *yy_ps = yy_state; *++yy_pv = yyval; /* ** we have a new state - find out what to do */ yy_newstate: if ( ( yy_n = yypact[ yy_state ] ) <= YYFLAG ) goto yydefault; /* simple state */ #if YYDEBUG /* ** if debugging, need to mark whether new token grabbed */ yytmp = yychar < 0; #endif if ( ( yychar < 0 ) && ( ( yychar = YYLEX() ) < 0 ) ) yychar = 0; /* reached EOF */ #if YYDEBUG if ( yydebug && yytmp ) { register int yy_i; printf( "Received token " ); if ( yychar == 0 ) printf( "end-of-file\n" ); else if ( yychar < 0 ) printf( "-none-\n" ); else { for ( yy_i = 0; yytoks[yy_i].t_val >= 0; yy_i++ ) { if ( yytoks[yy_i].t_val == yychar ) break; } printf( "%s\n", yytoks[yy_i].t_name ); } } #endif /* YYDEBUG */ if ( ( ( yy_n += yychar ) < 0 ) || ( yy_n >= YYLAST ) ) goto yydefault; if ( yychk[ yy_n = yyact[ yy_n ] ] == yychar ) /*valid shift*/ { yychar = -1; yyval = yylval; yy_state = yy_n; if ( yyerrflag > 0 ) yyerrflag--; goto yy_stack; } yydefault: if ( ( yy_n = yydef[ yy_state ] ) == -2 ) { #if YYDEBUG yytmp = yychar < 0; #endif if ( ( yychar < 0 ) && ( ( yychar = YYLEX() ) < 0 ) ) yychar = 0; /* reached EOF */ #if YYDEBUG if ( yydebug && yytmp ) { register int yy_i; printf( "Received token " ); if ( yychar == 0 ) printf( "end-of-file\n" ); else if ( yychar < 0 ) printf( "-none-\n" ); else { for ( yy_i = 0; yytoks[yy_i].t_val >= 0; yy_i++ ) { if ( yytoks[yy_i].t_val == yychar ) { break; } } printf( "%s\n", yytoks[yy_i].t_name ); } } #endif /* YYDEBUG */ /* ** look through exception table */ { register const int *yyxi = yyexca; while ( ( *yyxi != -1 ) || ( yyxi[1] != yy_state ) ) { yyxi += 2; } while ( ( *(yyxi += 2) >= 0 ) && ( *yyxi != yychar ) ) ; if ( ( yy_n = yyxi[1] ) < 0 ) YYACCEPT; } } /* ** check for syntax error */ if ( yy_n == 0 ) /* have an error */ { /* no worry about speed here! */ switch ( yyerrflag ) { case 0: /* new error */ yyerror( "syntax error" ); goto skip_init; yyerrlab: /* ** get globals into registers. ** we have a user generated syntax type error */ yy_pv = yypv; yy_ps = yyps; yy_state = yystate; skip_init: yynerrs++; /* FALLTHRU */ case 1: case 2: /* incompletely recovered error */ /* try again... */ yyerrflag = 3; /* ** find state where "error" is a legal ** shift action */ while ( yy_ps >= yys ) { yy_n = yypact[ *yy_ps ] + YYERRCODE; if ( yy_n >= 0 && yy_n < YYLAST && yychk[yyact[yy_n]] == YYERRCODE) { /* ** simulate shift of "error" */ yy_state = yyact[ yy_n ]; goto yy_stack; } /* ** current state has no shift on ** "error", pop stack */ #if YYDEBUG # define _POP_ "Error recovery pops state %d, uncovers state %d\n" if ( yydebug ) printf( _POP_, *yy_ps, yy_ps[-1] ); # undef _POP_ #endif yy_ps--; yy_pv--; } /* ** there is no state on stack with "error" as ** a valid shift. give up. */ YYABORT; case 3: /* no shift yet; eat a token */ #if YYDEBUG /* ** if debugging, look up token in list of ** pairs. 0 and negative shouldn't occur, ** but since timing doesn't matter when ** debugging, it doesn't hurt to leave the ** tests here. */ if ( yydebug ) { register int yy_i; printf( "Error recovery discards " ); if ( yychar == 0 ) printf( "token end-of-file\n" ); else if ( yychar < 0 ) printf( "token -none-\n" ); else { for ( yy_i = 0; yytoks[yy_i].t_val >= 0; yy_i++ ) { if ( yytoks[yy_i].t_val == yychar ) { break; } } printf( "token %s\n", yytoks[yy_i].t_name ); } } #endif /* YYDEBUG */ if ( yychar == 0 ) /* reached EOF. quit */ YYABORT; yychar = -1; goto yy_newstate; } }/* end if ( yy_n == 0 ) */ /* ** reduction by production yy_n ** put stack tops, etc. so things right after switch */ #if YYDEBUG /* ** if debugging, print the string that is the user's ** specification of the reduction which is just about ** to be done. */ if ( yydebug ) printf( "Reduce by (%d) \"%s\"\n", yy_n, yyreds[ yy_n ] ); #endif yytmp = yy_n; /* value to switch over */ yypvt = yy_pv; /* $vars top of value stack */ /* ** Look in goto table for next state ** Sorry about using yy_state here as temporary ** register variable, but why not, if it works... ** If yyr2[ yy_n ] doesn't have the low order bit ** set, then there is no action to be done for ** this reduction. So, no saving & unsaving of ** registers done. The only difference between the ** code just after the if and the body of the if is ** the goto yy_stack in the body. This way the test ** can be made before the choice of what to do is needed. */ { /* length of production doubled with extra bit */ register int yy_len = yyr2[ yy_n ]; if ( !( yy_len & 01 ) ) { yy_len >>= 1; yyval = ( yy_pv -= yy_len )[1]; /* $$ = $1 */ yy_state = yypgo[ yy_n = yyr1[ yy_n ] ] + *( yy_ps -= yy_len ) + 1; if ( yy_state >= YYLAST || yychk[ yy_state = yyact[ yy_state ] ] != -yy_n ) { yy_state = yyact[ yypgo[ yy_n ] ]; } goto yy_stack; } yy_len >>= 1; yyval = ( yy_pv -= yy_len )[1]; /* $$ = $1 */ yy_state = yypgo[ yy_n = yyr1[ yy_n ] ] + *( yy_ps -= yy_len ) + 1; if ( yy_state >= YYLAST || yychk[ yy_state = yyact[ yy_state ] ] != -yy_n ) { yy_state = yyact[ yypgo[ yy_n ] ]; } } /* save until reenter driver code */ yystate = yy_state; yyps = yy_ps; yypv = yy_pv; } /* ** code supplied by user is placed in this switch */ switch( yytmp ) { case 2: # line 28 "symtab.y" { push_symbol(BLOCK_MARK, "*undefined*", 0); } break; case 3: # line 29 "symtab.y" { print_symtab(); } break; case 4: # line 30 "symtab.y" { while (pop_symbol()); print_symtab(); } break; case 9: # line 41 "symtab.y" { dec_type = INT_DEC; } break; case 10: # line 42 "symtab.y" { dec_type = CHAR_DEC; } break; case 11: # line 43 "symtab.y" { dec_type = FLOAT_DEC; } break; case 13: # line 49 "symtab.y" { push_symbol(dec_type, yypvt[-0], 0); } break; case 14: # line 50 "symtab.y" { push_symbol(dec_type, yypvt[-2], 0); } break; case 15: # line 51 "symtab.y" { push_symbol(dec_type, yypvt[-3], atoi(yypvt[-1])); } break; case 16: # line 53 "symtab.y" { push_symbol(dec_type, yypvt[-5], atoi(yypvt[-3])); } break; # line 531 "/usr/ccs/bin/yaccpar" } goto yystack; /* reset registers in driver code */ }