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I'm writing a mini compiler for C.

I've written the code using mingw32. No Error is showing with the code... successfully generates the .exe & .out file....executing this file also gives output...

but when i compiled the same code in ubuntu... and executing the .out file... it gives only one error...

syntax error, unexpected '{' on line 1 - { Parse Completed

Here is the code: -

calc.l

/***************************************************************************
Scanner for the Simple language
***************************************************************************/
%{
/*=========================================================================
C-libraries and Token definitions
=========================================================================*/
#include <string.h> /* for strdup */
/*#include <stdlib.h> */ /* for atoi */
#include "calc.tab.h" /* for token definitions and yylval */
%}
/*=========================================================================
TOKEN Definitions
=========================================================================*/
DIGIT [0-9]
ID [a-z][a-z0-9]*
L  [a-zA-Z_]
%option yylineno
/*=========================================================================
REGULAR EXPRESSIONS defining the tokens for the Simple language
=========================================================================*/
%%
"=" { return(ASSGNOP); }
{DIGIT}+ { yylval.intval = atoi( yytext );
return(NUMBER); }
do { return(DO); }
else { return(ELSE); }
end { return(END); }
fi { return(FI); }
if { return(IF); }
main { return(MAIN); }
int { return(INT); }
float { return(FLOAT); }
char { return(CHAR); }
double { return(DOUBLE); }
void { return(VOID); }
read { return(READ); }
then { return(THEN); }
while { return(WHILE); }
write { return(WRITE); }
print {return(PRINT); }
scan   {return(SCAN); } 
{ID} { yylval.id = (char *) strdup(yytext);
return(IDENTIFIER); }
\"(\\.|[^\\"])*\"   { yylval.id = (char *) strdup(yytext); return(STRING_LITERAL); }
[ \t\n]+ /* eat up whitespace */
. { return(yytext[0]);}
%%

int yywrap(void){}
/************************** End Scanner File *****************************/

calc.y

%{
#include <stdarg.h>
#include <stdio.h> /* For I/O */
#include <stdlib.h> /* For malloc here and in symbol table */
#include <string.h> /* For strcmp in symbol table */
#include "ST.h" /* Symbol Table */
#include "SM.h" /* Stack Machine */
#include "CG.h" /* Code Generator */
#define YYDEBUG 1 /* For Debugging */
int errors; /* Error Count */
/*-------------------------------------------------------------------------
The following support backpatching
-------------------------------------------------------------------------*/
struct lbs /* Labels for data, if and while */
{
    int for_goto;
    int for_jmp_false;
};
struct lbs * newlblrec() /* Allocate space for the labels */
{
    return (struct lbs *) malloc(sizeof(struct lbs));
}
/*-------------------------------------------------------------------------
Install identifier & check if previously defined.
-------------------------------------------------------------------------*/
install ( char *sym_name )
{
    symrec *s;
    s = getsym (sym_name);
    if (s == 0)
        s = putsym (sym_name);
    else { errors++;
        printf( "%s is already defined\n", sym_name );
    }
}
/*-------------------------------------------------------------------------
If identifier is defined, generate code
-------------------------------------------------------------------------*/
context_check( enum code_ops operation, char *sym_name )
{ 
    symrec *identifier;
    identifier = getsym( sym_name );
    if ( identifier == 0 )
    { 
        errors++;
        printf( "%s", sym_name );
        printf( "%s\n", " is an undeclared identifier" );
    }
    else 
        gen_code( operation, identifier->offset );
}
/*=========================================================================
SEMANTIC RECORDS
=========================================================================*/
%}
%union semrec /* The Semantic Records */
{
    int intval; /* Integer values */
    char *id;   /* Identifiers */
    char *str;
    double val;
    struct lbs *lbls; /* For backpatching */
}


/*=========================================================================
TOKENS
=========================================================================*/
%start program
%token <intval> NUMBER /* Simple integer */
%token IDENTIFIER STRING_LITERAL
%token <lbls> IF WHILE /* For backpatching labels */
%token THEN ELSE FI DO END
%token PRINT SCAN READ WRITE
%token INT VOID CHAR FLOAT DOUBLE MAIN
%token ASSGNOP 

%type <id> IDENTIFIER 
%type <str> exp STRING_LITERAL

%error-verbose

/*=========================================================================
OPERATOR PRECEDENCE
=========================================================================*/
%left '-' '+'
%left '*' '/'
%right '^'
/*=========================================================================
GRAMMAR RULES for the Simple language
=========================================================================*/
%%

program : Type MAIN '('  ')' '{'  block '}'     
;

Type
    :   INT
    |   FLOAT
    |   CHAR
    |   DOUBLE
    |   VOID
;

block
    :   declarations commands
;

declarations 
    :   /* empty */
    |   Type id_seq IDENTIFIER ';'          { install( $3 ); }
;

id_seq 
    :   /* empty */
    |   id_seq IDENTIFIER ','               { install( $2 ); }
;

commands 
    :   /* empty */
    |   commands command ';'
;

command 
    :   READ IDENTIFIER             { context_check( READ_INT, $2 ); }
    |   WRITE exp                   { gen_code( WRITE_INT, 0 ); }
    |   IDENTIFIER ASSGNOP exp      { context_check( STORE, $1 ); }     
    |   PrintFunction
;
PrintFunction
    :   PRINT'(' exp ')'        { printf($3);  }
;

exp 
    : NUMBER                    { gen_code( LD_INT, $1 ); }
    | IDENTIFIER                { context_check( LD_VAR, $1 ); }
    | STRING_LITERAL            
    | exp '+' exp               { gen_code( ADD, 0 ); }
    | exp '-' exp               { gen_code( SUB, 0 ); }
    | exp '*' exp               { gen_code( MULT, 0 ); }
    | exp '/' exp               { gen_code( DIV, 0 ); }
    | exp '^' exp               { gen_code( PWR, 0 ); }
    | '(' exp ')'               { $$ = $2;  }
;

%%
/*=========================================================================
MAIN
=========================================================================*/
main( int argc, char *argv[] )
{ 
    extern FILE *yyin;
    ++argv; --argc;
    yyin = fopen( argv[0], "r" );
    /*yydebug = 1;*/
    errors = 0;
    yyparse ();
    printf ( "Parse Completed\n" );
}
/*=========================================================================
YYERROR
=========================================================================*/
extern char* yytext;
extern int yylineno;
yyerror ( char *s ) /* Called by yyparse on error */
{
    errors++;
    //printf ("%s\n", s);
    fprintf (stderr, "%s on line %d - %s\n", s, yylineno, yytext);
}

CG.h

int data_offset = 0; /* Initial offset */
int data_location() /* Reserves a data location */
{
    return data_offset++;
}

int code_offset = 0; /* Initial offset */
int gen_label() /* Returns current offset */
{
    return code_offset;
}
int reserve_loc() /* Reserves a code location */
{
    return code_offset++;
}
/* Generates code at current location */
void gen_code( enum code_ops operation, int arg )
{ 
    code[code_offset].op = operation;
    code[code_offset++].arg = arg;
}
/* Generates code at a reserved location */
void back_patch( int addr, enum code_ops operation, int arg )
{
    code[addr].op = operation;
    code[addr].arg = arg;
}
/*-------------------------------------------------------------------------
Print Code to stdio
-------------------------------------------------------------------------*/
void print_code()
{
    int i = 0;
    while (i < code_offset) {
        printf("%3ld: %-10s%4ld\n",i,op_name[(int) code[i].op], code[i].arg );
        i++;
    }
}
/************************** End Code Generator **************************/

SM.h

#include<math.h>
/* OPERATIONS: Internal Representation */
enum code_ops { HALT, STORE, JMP_FALSE, GOTO, DATA, LD_INT, LD_STR, LD_VAR, READ_INT, WRITE_INT, WRITE_STR, LT, EQ, GT, ADD, SUB, MULT, DIV, PWR, SINE, __READ};
/* OPERATIONS: External Representation */
char *op_name[] = {"halt", "store", "jmp_false", "goto","data", "ld_int", "ld_str", "ld_var", "in_int", "out_int", "out_str", "lt", "eq", "gt", "add", "sub", "mult", "div", "pwr", sine, __read };
struct instruction
{
    enum code_ops op;
    int arg;
};
/* CODE Array */
struct instruction code[999];
/* RUN-TIME Stack */
int stack[999];
/*-------------------------------------------------------------------------
Registers
-------------------------------------------------------------------------*/
int pc = 0;
struct instruction ir;
int ar = 0;
int top = 0;
char ch;
/*=========================================================================
Fetch Execute Cycle
=========================================================================*/
void fetch_execute_cycle()
{ 
    do 
    { 
        /*printf( "PC = %3d IR.arg = %8d AR = %3d Top = %3d,%8d\n", pc, ir.arg, ar, top, stack[top]); */
        /* Fetch */
        ir = code[pc++];
        /* Execute */
        switch (ir.op) 
        {
            case HALT : 
                        printf( "halt\n" ); 
                        break;
            case READ_INT : 
                        scanf( "%ld", &stack[ar+ir.arg] ); 
                        break;
            case WRITE_INT : 
                        printf( "%d\n", stack[top--] ); 
                        break;
            case WRITE_STR  :
                        printf("%s\n",stack[top--] ); 
                        break;
            case STORE : 
                        stack[ir.arg] = stack[top--]; 
                        break;
            case JMP_FALSE : 
                        if ( stack[top--] == 0 )
                        pc = ir.arg;
                        break;
            case GOTO : 
                        pc = ir.arg; 
                        break;
            case DATA : 
                        top = top + ir.arg; 
                        break;
            case LD_INT : stack[++top] = ir.arg; break;
            case LD_STR : stack[++top] = ir.arg; break;
            case LD_VAR : stack[++top] = stack[ar+ir.arg]; break;
            case LT : if ( stack[top-1] < stack[top] )
            stack[--top] = 1;
            else stack[--top] = 0;
            break;
            case EQ : if ( stack[top-1] == stack[top] )
            stack[--top] = 1;
            else stack[--top] = 0;
            break;
            case GT : if ( stack[top-1] > stack[top] )
            stack[--top] = 1;
            else stack[--top] = 0;
            break;
            case ADD : stack[top-1] = stack[top-1] + stack[top];
            top--;
            break;
            case SUB : stack[top-1] = stack[top-1] - stack[top];
            top--;
            break;
            case MULT : 
                    stack[top-1] = stack[top-1] * stack[top];
                    top--;
                    break;
            case DIV : 
                    stack[top-1] = stack[top-1] / stack[top];
                    top--;
                    break;
            case PWR : 
                    stack[top-1] = pow(stack[top-1],stack[top]);
                    top--;
                    break;
            case SINE:
                    stack[top-1] = sin(stack[top]);
                    top--;
                    break;
            default : printf( "Internal Error: Memory Dump\n" );
            break;
        }
    }
    while (ir.op != HALT);
}
/*************************** End Stack Machine **************************/

This is the sample input to the compiler

int main()
{
      print("HEllo World");
}
share|improve this question
    
I don't see a lex rule matching '{' (nor "(" , ")" , "}" ) –  wildplasser May 6 '12 at 10:20
    
@wildplasser: . { return(yytext[0]);} handles that. –  Jens May 6 '12 at 10:41
    
Yes, I know. The default match/rule. –  wildplasser May 6 '12 at 10:44
    
do i have to specify lex rule for '{' '}' '(' ')' as [\\\^\$\.\|\?*\+()\{\} { return(yytext[0]);} –  Hariya Humanoid May 6 '12 at 11:24
    
Here on Linux 2.6.32-64bit x86_64 GNU/Linux, it gives (correctly, I presume) "HEllo World"Parse Completed. –  Armali Mar 25 '14 at 13:30

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