source: translator/Parser/lex.l @ 3848e0e

/*                               -*- Mode: C -*- 
 * 
 * CForall Lexer Version 1.0, Copyright (C) Peter A. Buhr 2001 -- Permission is granted to copy this
 *      grammar and to use it within software systems.  THIS GRAMMAR IS PROVIDED "AS IS" AND WITHOUT
 *      ANY EXPRESS OR IMPLIED WARRANTIES.
 * 
 * lex.l -- 
 * 
 * Author           : Peter A. Buhr
 * Created On       : Sat Sep 22 08:58:10 2001
 * Last Modified By : Peter A. Buhr
 * Last Modified On : Wed Dec  3 13:37:52 2014
 * Update Count     : 317
 */

%option yylineno

%{
// This lexer assumes the program has been preprocessed by cpp. Hence, all user level preprocessor
// directive have been performed and removed from the source. The only exceptions are preprocessor
// directives passed to the compiler (e.g., line-number directives) and C/C++ style comments, which
// are ignored.

//**************************** Includes and Defines ****************************

#include <string>

#include "lex.h"
#include "ParseNode.h"
#include "cfa.tab.h" // YACC generated definitions based on C++ grammar

char *yyfilename;
std::string *strtext;                                   // accumulate parts of character and string constant value

#define WHITE_RETURN(x)                                 // do nothing
#define NEWLINE_RETURN()        WHITE_RETURN('\n')
#define RETURN_VAL(x)           yylval.tok.str = new std::string(yytext); \
                                yylval.tok.loc.file = yyfilename; \
                                yylval.tok.loc.line = yylineno; \
                                return(x)
#define RETURN_STR(x)           yylval.tok.str = strtext; \
                                yylval.tok.loc.file = yyfilename; \
                                yylval.tok.loc.line = yylineno; \
                                return(x)

#define KEYWORD_RETURN(x)       RETURN_VAL(x)           // keyword
#define IDENTIFIER_RETURN()     RETURN_VAL((typedefTable.isIdentifier(yytext) ? IDENTIFIER : typedefTable.isTypedef(yytext) ? TYPEDEFname : TYPEGENname))
//#define ATTRIBUTE_RETURN()    RETURN_VAL((typedefTable.isIdentifier(yytext) ? ATTR_IDENTIFIER : typedefTable.isTypedef(yytext) ? ATTR_TYPEDEFname : ATTR_TYPEGENname))
#define ATTRIBUTE_RETURN()      RETURN_VAL(ATTR_IDENTIFIER)

#define ASCIIOP_RETURN()        RETURN_VAL((int)yytext[0]) // single character operator
#define NAMEDOP_RETURN(x)       RETURN_VAL(x)           // multichar operator, with a name

#define NUMERIC_RETURN(x)       rm_underscore(); RETURN_VAL(x) // numeric constant

void rm_underscore() {
    // remove underscores in numeric constant
    int j = 0;
    for ( int i = 0; yytext[i] != '\0'; i += 1 ) {
        if ( yytext[i] != '_' ) {
            yytext[j] = yytext[i];
            j += 1;
        } // if
    } // for
    yyleng = j;
    yytext[yyleng] = '\0';
}

%}

octal [0-7]
nonzero [1-9]
decimal [0-9]
hex [0-9a-fA-F]
universal_char "\\"((u"_"?{hex_quad})|(U"_"?{hex_quad}{2}))

        // identifier, GCC: $ in identifier
identifier ([a-zA-Z_$]|{universal_char})([0-9a-zA-Z_$]|{universal_char})*

        // quoted identifier
quoted_identifier "`"{identifier}"`"

        // attribute identifier, GCC: $ in identifier
attr_identifier "@"{identifier}

        // numeric constants, CFA: '_' in constant
hex_quad {hex}("_"?{hex}){3}
integer_suffix "_"?(([uU][lL]?)|([uU]("ll"|"LL")?)|([lL][uU]?)|("ll"|"LL")[uU]?)

octal_digits ({octal})|({octal}({octal}|"_")*{octal})
octal_prefix "0""_"?
octal_constant (("0")|({octal_prefix}{octal_digits})){integer_suffix}?

nonzero_digits ({nonzero})|({nonzero}({decimal}|"_")*{decimal})
decimal_constant {nonzero_digits}{integer_suffix}?

hex_digits ({hex})|({hex}({hex}|"_")*{hex})
hex_prefix "0"[xX]"_"?
hex_constant {hex_prefix}{hex_digits}{integer_suffix}?

decimal_digits ({decimal})|({decimal}({decimal}|"_")*{decimal})
fractional_constant ({decimal_digits}?"."{decimal_digits})|({decimal_digits}".")
exponent "_"?[eE]"_"?[+-]?{decimal_digits}
floating_suffix "_"?[flFL]
floating_constant (({fractional_constant}{exponent}?)|({decimal_digits}{exponent})){floating_suffix}?

binary_exponent "_"?[pP]"_"?[+-]?{decimal_digits}
hex_fractional_constant ({hex_digits}?"."{hex_digits})|({hex_digits}".")
hex_floating_constant {hex_prefix}(({hex_fractional_constant}{binary_exponent})|({hex_digits}{binary_exponent})){floating_suffix}?

        // character escape sequence, GCC: \e => esc character
simple_escape "\\"[abefnrtv'"?\\]
        // ' stop highlighting
octal_escape "\\"{octal}("_"?{octal}){0,2}
hex_escape "\\""x""_"?{hex_digits}
escape_seq {simple_escape}|{octal_escape}|{hex_escape}|{universal_char}

        // display/white-space characters
h_tab [\011]
form_feed [\014]
v_tab [\013]
c_return [\015]
h_white [ ]|{h_tab}

        // operators
op_unary_only "~"|"!"
op_unary_binary "+"|"-"|"*"
op_unary_pre_post "++"|"--"
op_unary {op_unary_only}|{op_unary_binary}|{op_unary_pre_post}

op_binary_only "/"|"%"|"^"|"&"|"|"|"<"|">"|"="|"=="|"!="|"<<"|">>"|"<="|">="|"+="|"-="|"*="|"/="|"%="|"&="|"|="|"^="|"<<="|">>="
op_binary_over {op_unary_binary}|{op_binary_only}
op_binary_not_over "?"|"->"|"&&"|"||"
operator {op_unary_pre_post}|{op_binary_over}|{op_binary_not_over}

%x COMMENT
%x BKQUOTE
%x QUOTE
%x STRING

%%
        /* line directives */
^{h_white}*"#"{h_white}*[0-9]+{h_white}*["][^"\n]+["][^\n]*"\n" {
        /* " stop highlighting */
        char *end_num;
        char *begin_string, *end_string;
        char *filename;
        long lineno, length;
        lineno = strtol( yytext + 1, &end_num, 0 );
        begin_string = strchr( end_num, '"' );
        if ( begin_string ) {
            end_string = strchr( begin_string + 1, '"' );
            if ( end_string ) {
                length = end_string - begin_string - 1;
                filename = new char[ length + 1 ];
                memcpy( filename, begin_string + 1, length );
                filename[ length ] = '\0';
                //std::cout << "file " << filename << " line " << lineno << std::endl;
                yylineno = lineno;
                yyfilename = filename;
            }
        }
}

        /* ignore preprocessor directives (for now) */
^{h_white}*"#"[^\n]*"\n" ;

        /* ignore C style comments */
"/*"                    { BEGIN COMMENT; }
<COMMENT>.|\n           ;
<COMMENT>"*/"           { BEGIN 0; }

        /* ignore C++ style comments */
"//"[^\n]*"\n"          ;

        /* ignore whitespace */
{h_white}+              { WHITE_RETURN(' '); }
({v_tab}|{c_return}|{form_feed})+ { WHITE_RETURN(' '); }
({h_white}|{v_tab}|{c_return}|{form_feed})*"\n" { NEWLINE_RETURN(); }

        /* keywords */
__alignof               { KEYWORD_RETURN(ALIGNOF); }    // GCC
__alignof__             { KEYWORD_RETURN(ALIGNOF); }    // GCC
asm                     { KEYWORD_RETURN(ASM); }
__asm                   { KEYWORD_RETURN(ASM); }        // GCC
__asm__                 { KEYWORD_RETURN(ASM); }        // GCC
__attribute             { KEYWORD_RETURN(ATTRIBUTE); }  // GCC
__attribute__           { KEYWORD_RETURN(ATTRIBUTE); }  // GCC
auto                    { KEYWORD_RETURN(AUTO); }
_Bool                   { KEYWORD_RETURN(BOOL); }       // C99
break                   { KEYWORD_RETURN(BREAK); }
case                    { KEYWORD_RETURN(CASE); }
catch                   { KEYWORD_RETURN(CATCH); }      // CFA
char                    { KEYWORD_RETURN(CHAR); }
choose                  { KEYWORD_RETURN(CHOOSE); }     // CFA
_Complex                { KEYWORD_RETURN(COMPLEX); }    // C99
__complex               { KEYWORD_RETURN(COMPLEX); }    // GCC
__complex__             { KEYWORD_RETURN(COMPLEX); }    // GCC
const                   { KEYWORD_RETURN(CONST); }
__const                 { KEYWORD_RETURN(CONST); }      // GCC
__const__               { KEYWORD_RETURN(CONST); }      // GCC
context                 { KEYWORD_RETURN(CONTEXT); }    // CFA
continue                { KEYWORD_RETURN(CONTINUE); }
default                 { KEYWORD_RETURN(DEFAULT); }
do                      { KEYWORD_RETURN(DO); }
double                  { KEYWORD_RETURN(DOUBLE); }
dtype                   { KEYWORD_RETURN(DTYPE); }      // CFA
else                    { KEYWORD_RETURN(ELSE); }
enum                    { KEYWORD_RETURN(ENUM); }
__extension__           { KEYWORD_RETURN(EXTENSION); }  // GCC
extern                  { KEYWORD_RETURN(EXTERN); }
fallthru                { KEYWORD_RETURN(FALLTHRU); }   // CFA
finally                 { KEYWORD_RETURN(FINALLY); }    // CFA
float                   { KEYWORD_RETURN(FLOAT); }
for                     { KEYWORD_RETURN(FOR); }
forall                  { KEYWORD_RETURN(FORALL); }     // CFA
fortran                 { KEYWORD_RETURN(FORTRAN); }
ftype                   { KEYWORD_RETURN(FTYPE); }      // CFA
goto                    { KEYWORD_RETURN(GOTO); }
if                      { KEYWORD_RETURN(IF); }
_Imaginary              { KEYWORD_RETURN(IMAGINARY); }  // C99
__imag                  { KEYWORD_RETURN(IMAGINARY); }  // GCC
__imag__                { KEYWORD_RETURN(IMAGINARY); }  // GCC
inline                  { KEYWORD_RETURN(INLINE); }     // C99
__inline                { KEYWORD_RETURN(INLINE); }     // GCC
__inline__              { KEYWORD_RETURN(INLINE); }     // GCC
int                     { KEYWORD_RETURN(INT); }
__label__               { KEYWORD_RETURN(LABEL); }      // GCC
long                    { KEYWORD_RETURN(LONG); }
lvalue                  { KEYWORD_RETURN(LVALUE); }     // CFA
register                { KEYWORD_RETURN(REGISTER); }
restrict                { KEYWORD_RETURN(RESTRICT); }   // C99
__restrict              { KEYWORD_RETURN(RESTRICT); }   // GCC
__restrict__            { KEYWORD_RETURN(RESTRICT); }   // GCC
return                  { KEYWORD_RETURN(RETURN); }
short                   { KEYWORD_RETURN(SHORT); }
signed                  { KEYWORD_RETURN(SIGNED); }
__signed                { KEYWORD_RETURN(SIGNED); }     // GCC
__signed__              { KEYWORD_RETURN(SIGNED); }     // GCC
sizeof                  { KEYWORD_RETURN(SIZEOF); }
static                  { KEYWORD_RETURN(STATIC); }
struct                  { KEYWORD_RETURN(STRUCT); }
switch                  { KEYWORD_RETURN(SWITCH); }
throw                   { KEYWORD_RETURN(THROW); }      // CFA
try                     { KEYWORD_RETURN(TRY); }        // CFA
type                    { KEYWORD_RETURN(TYPE); }       // CFA
typedef                 { KEYWORD_RETURN(TYPEDEF); }
typeof                  { KEYWORD_RETURN(TYPEOF); }     // GCC
__typeof                { KEYWORD_RETURN(TYPEOF); }     // GCC
__typeof__              { KEYWORD_RETURN(TYPEOF); }     // GCC
union                   { KEYWORD_RETURN(UNION); }
unsigned                { KEYWORD_RETURN(UNSIGNED); }
void                    { KEYWORD_RETURN(VOID); }
volatile                { KEYWORD_RETURN(VOLATILE); }
__volatile              { KEYWORD_RETURN(VOLATILE); }   // GCC
__volatile__            { KEYWORD_RETURN(VOLATILE); }   // GCC
while                   { KEYWORD_RETURN(WHILE); }

        /* identifier */
{identifier}            { IDENTIFIER_RETURN(); }
{attr_identifier}       { ATTRIBUTE_RETURN(); }
"`"                     { BEGIN BKQUOTE; }
<BKQUOTE>{identifier}   { IDENTIFIER_RETURN(); }
<BKQUOTE>"`"            { BEGIN 0; }

        /* numeric constants */
"0"                     { NUMERIC_RETURN(ZERO); }       // CFA
"1"                     { NUMERIC_RETURN(ONE); }        // CFA
{decimal_constant}      { NUMERIC_RETURN(INTEGERconstant); }
{octal_constant}        { NUMERIC_RETURN(INTEGERconstant); }
{hex_constant}          { NUMERIC_RETURN(INTEGERconstant); }
{floating_constant}     { NUMERIC_RETURN(FLOATINGconstant); }
{hex_floating_constant} { NUMERIC_RETURN(FLOATINGconstant); }

        /* character constant, allows empty value */
"L"?"_"?[']             { BEGIN QUOTE; rm_underscore(); strtext = new std::string; *strtext += std::string( yytext ); }
<QUOTE>[^'\\\n]*        { *strtext += std::string( yytext ); }
<QUOTE>['\n]            { BEGIN 0; *strtext += std::string( yytext); RETURN_STR(CHARACTERconstant); }
        /* ' stop highlighting */

        /* string constant */
"L"?"_"?["]             { BEGIN STRING; rm_underscore(); strtext = new std::string; *strtext += std::string( yytext ); }
<STRING>[^"\\\n]*       { *strtext += std::string( yytext ); }
<STRING>["\n]           { BEGIN 0; *strtext += std::string( yytext); RETURN_STR(STRINGliteral); }
        /* " stop highlighting */

<QUOTE,STRING>{escape_seq} { rm_underscore(); *strtext += std::string( yytext ); }
<QUOTE,STRING>[\\]      { *strtext += std::string( yytext ); } // unknown escape character

        /* punctuation */
"["                     { ASCIIOP_RETURN(); }
"]"                     { ASCIIOP_RETURN(); }
"("                     { ASCIIOP_RETURN(); }
")"                     { ASCIIOP_RETURN(); }
"{"                     { ASCIIOP_RETURN(); }
"}"                     { ASCIIOP_RETURN(); }
","                     { ASCIIOP_RETURN(); }           // also operator
":"                     { ASCIIOP_RETURN(); }
";"                     { ASCIIOP_RETURN(); }
"."                     { ASCIIOP_RETURN(); }           // also operator
"..."                   { NAMEDOP_RETURN(ELLIPSIS); }

        /* alternative C99 brackets, "<:" & "<:<:" handled by preprocessor */
"<:"                    { RETURN_VAL('['); }
":>"                    { RETURN_VAL(']'); }
"<%"                    { RETURN_VAL('{'); }
"%>"                    { RETURN_VAL('}'); }

        /* operators */
"!"                     { ASCIIOP_RETURN(); }
"+"                     { ASCIIOP_RETURN(); }
"-"                     { ASCIIOP_RETURN(); }
"*"                     { ASCIIOP_RETURN(); }
"/"                     { ASCIIOP_RETURN(); }
"%"                     { ASCIIOP_RETURN(); }
"^"                     { ASCIIOP_RETURN(); }
"~"                     { ASCIIOP_RETURN(); }
"&"                     { ASCIIOP_RETURN(); }
"|"                     { ASCIIOP_RETURN(); }
"<"                     { ASCIIOP_RETURN(); }
">"                     { ASCIIOP_RETURN(); }
"="                     { ASCIIOP_RETURN(); }
"?"                     { ASCIIOP_RETURN(); }

"++"                    { NAMEDOP_RETURN(ICR); }
"--"                    { NAMEDOP_RETURN(DECR); }
"=="                    { NAMEDOP_RETURN(EQ); }
"!="                    { NAMEDOP_RETURN(NE); }
"<<"                    { NAMEDOP_RETURN(LS); }
">>"                    { NAMEDOP_RETURN(RS); }
"<="                    { NAMEDOP_RETURN(LE); }
">="                    { NAMEDOP_RETURN(GE); }
"&&"                    { NAMEDOP_RETURN(ANDAND); }
"||"                    { NAMEDOP_RETURN(OROR); }
"->"                    { NAMEDOP_RETURN(ARROW); }
"+="                    { NAMEDOP_RETURN(PLUSassign); }
"-="                    { NAMEDOP_RETURN(MINUSassign); }
"*="                    { NAMEDOP_RETURN(MULTassign); }
"/="                    { NAMEDOP_RETURN(DIVassign); }
"%="                    { NAMEDOP_RETURN(MODassign); }
"&="                    { NAMEDOP_RETURN(ANDassign); }
"|="                    { NAMEDOP_RETURN(ORassign); }
"^="                    { NAMEDOP_RETURN(ERassign); }
"<<="                   { NAMEDOP_RETURN(LSassign); }
">>="                   { NAMEDOP_RETURN(RSassign); }

        /* CFA, operator identifier */
{op_unary}"?"           { IDENTIFIER_RETURN(); }        // unary
"?"({op_unary_pre_post}|"()"|"[?]") { IDENTIFIER_RETURN(); }
"?"{op_binary_over}"?"  { IDENTIFIER_RETURN(); }        // binary
        /*
          This rule handles ambiguous cases with operator identifiers, e.g., "int *?*?()", where the
          string "*?*?"  can be lexed as "*"/"?*?" or "*?"/"*?". Since it is common practise to put
          a unary operator juxtaposed to an identifier, e.g., "*i", users will be annoyed if they
          cannot do this with respect to operator identifiers. Even with this special hack, there
          are 5 general cases that cannot be handled. The first case is for the function-call
          identifier "?()":

          int * ?()();  // declaration: space required after '*'
          * ?()();      // expression: space required after '*'

          Without the space, the string "*?()" is ambiguous without N character look ahead; it
          requires scanning ahead to determine if there is a '(', which is the start of an
          argument/parameter list.

          The 4 remaining cases occur in expressions:

          i++?i:0;              // space required before '?'
          i--?i:0;              // space required before '?'
          i?++i:0;              // space required after '?'
          i?--i:0;              // space required after '?'

          In the first two cases, the string "i++?" is ambiguous, where this string can be lexed as
          "i"/"++?" or "i++"/"?"; it requires scanning ahead to determine if there is a '(', which
          is the start of an argument list.  In the second two cases, the string "?++x" is
          ambiguous, where this string can be lexed as "?++"/"x" or "?"/"++x"; it requires scanning
          ahead to determine if there is a '(', which is the start of an argument list.
        */
{op_unary}"?"(({op_unary_pre_post}|"[?]")|({op_binary_over}"?")) {
                            // 1 or 2 character unary operator ?
                            int i = yytext[1] == '?' ? 1 : 2;
                            yyless( i );                // put back characters up to first '?'
                            if ( i > 1 ) {
                                NAMEDOP_RETURN( yytext[0] == '+' ? ICR : DECR );
                            } else {
                                ASCIIOP_RETURN();
                            } // if
                        }

        /* unknown characters */
.                       { printf("unknown character(s):\"%s\" on line %d\n", yytext, yylineno); }

%%


// Local Variables:
// fill-column: 100
// compile-command: "make"
// End: