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[/] [sc2v/] [trunk/] [src/] [sc2v_step1.y] - Rev 28
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/* -----------------------------------------------------------------------------
*
* SystemC to Verilog Translator v0.4
* Provided by OpenSoc Design
*
* www.opensocdesign.com
*
* -----------------------------------------------------------------------------
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Library General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
%{
#include <stdio.h>
#include <string.h>
#include "sc2v_step1.h"
int lineno = 1;
int processfound = 0;
int switchfound = 0;
int lastswitch=0;
int switchparenthesis[256];
int ifdeffound = 0;
char *processname, *processname2;
char *fileregs;
char *filename;
int openedkeys = 0;
int newline = 0;
int reg_found = 0;
int reglenght = 0;
int writelenght = 0;
int array_size=0;
int integer_found=0;
int regs_end;
int i = 0; //for loops counter
FILE *file;
FILE *regs_file;
char *regname, *regname2;
char *lastword; // Stores last WORD for use it in WRITE
char *file_defines;
FILE *FILE_DEFINES;
char *file_writes;
FILE *FILE_WRITES; //FILE to store .write to know if it is a wire or reg
int definefound = 0;
int defineinvocationfound = 0;
int opencorchfound = 0;
int defineparenthesis = 0;
int openedcase = 0;
int writingvar=0;
int default_break_found = 0;
int default_found;
//Directives variables
int translate;
int verilog;
int writemethod;
void yyerror (const char *str)
{
fprintf (stderr, "line: %d error: %s\n", lineno, str);
}
int yywrap ()
{
return 1;
}
main ()
{
int i;
defineslist = NULL;
regslist = NULL;
fprintf (stderr, "\nSystemC to Verilog Translator v0.4");
fprintf (stderr,
"\nProvided by OpenSoc http://www.opensocdesign.com\n\n");
fprintf (stderr, "Parsing implementation file.......\n\n");
processname = (char *) malloc (256 * sizeof (char));
processname2 = (char *) malloc (256 * sizeof (char));
fileregs = (char *) malloc (256 * sizeof (char));
file_defines = (char *) malloc (256 * sizeof (char));
strcpy (file_defines, (char *) "file_defines.sc2v");
FILE_DEFINES = fopen (file_defines, (char *) "w");
file_writes = (char *) malloc (256 * sizeof (char));
strcpy (file_writes, (char *) "file_writes.sc2v");
FILE_WRITES = fopen (file_writes, (char *) "w");
lastword = (char *) malloc (sizeof (char) * 256);
for (i = 0; i < 256; i++)
switchparenthesis[i] = 0;
translate = 1;
verilog = 0;
writemethod = 0;
FILE *yyin = stdin;
FILE *yyout = stdout;
yyparse ();
fclose (FILE_WRITES);
fclose (FILE_DEFINES);
fprintf (stderr, "\nDone\n\n");
}
%}
%token NUMBER WORD SC_REG BOOL BIGGER LOWER OPENKEY CLOSEKEY WRITE WORD SYMBOL NEWLINE ENUM INCLUDE
%token COLON SEMICOLON RANGE OPENPAR CLOSEPAR TWODOUBLEPOINTS OPENCORCH CLOSECORCH SWITCH CASE DEFAULT BREAK
%token HEXA DEFINE READ TRANSLATEOFF TRANSLATEON VERILOGBEGIN VERILOGEND TAB DOLLAR MINEQ
%token VOID TTRUE TFALSE ENDFUNC INC DEC INTEGER EQUALS
%token PIFDEF PIFNDEF PENDDEF PELSE COMMENT
%% commands: /* empty */
|commands command;
command:
endfunc
|
voidword
|
include
|
dollar
|
tab
|
read
|
sc_reg
|
integer
|
number
|
bool
|
word
|
symbol
|
write
|
newline
|
openkey
|
closekey
|
colon
|
semicolon
|
range
|
openpar
|
closepar
|
void
|
opencorch
|
closecorch
|
bigger
|
lower
|
switch
|
case_only
|
case_number
|
case_hexnumber
|
case_hexword
|
case_hexnumberword
|
case_word
|
case_default
|
break
|
hexa
|
definemacro
|
defineword
|
definenumber
|
translateoff
|
translateon
|
verilogbegin
|
verilogend
|
ifdef
|
ifndef
|
endif
|
pelse
|
ttrue
|
tfalse
|
increment
|
decrement
|
equal
|
minorequal
|
comment;
minorequal:
MINEQ
{
//This rule is needed because <= in the step two could be confused with a non-blocking assignment
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, "<1+");
}
}
else if (verilog == 1)
fprintf (file, "<=");
};
endfunc:
ENDFUNC
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf (file, "%s = ", processname);
}
}
else if (verilog == 1)
fprintf (file, "return ");
};
voidword:
VOID
{
defineparenthesis = 0;
if (verilog == 1)
fprintf (file, " void");
};
include:
INCLUDE
{
defineparenthesis = 0;
if (verilog == 1)
fprintf (file, " #include");
};
dollar:
DOLLAR
{
defineparenthesis = 0;
if (verilog == 1)
fprintf (file, " $");
};
tab:
TAB
{
defineparenthesis = 0;
if (verilog == 1)
fprintf (file, " \t");
};
read:
READ OPENPAR CLOSEPAR
{
defineparenthesis = 0;
if (verilog == 1)
fprintf (file, ".read()");
}
defineword:
DEFINE WORD WORD
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, "`define %s %s\n", (char *) $2, (char *) $3);
defineslist = InsertDefine (defineslist, (char *) $2);
}
else
{
fprintf (FILE_DEFINES, "`define %s %s\n", (char *) $2, (char *) $3);
defineslist = InsertDefine (defineslist, (char *) $2);
}
}
else if (verilog == 1)
fprintf (file, "#define %s %s\n", (char *) $2, (char *) $3);
};
definenumber:
DEFINE WORD NUMBER
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, "`define %s %d\n", (char *) $2, (int) $3);
defineslist = InsertDefine (defineslist, (char *) $2);
}
else
{
fprintf (FILE_DEFINES, "`define %s %d\n", (char *) $2, (int) $3);
defineslist = InsertDefine (defineslist, (char *) $2);
}
}
else if (verilog == 1)
fprintf (file, "#define %s %d\n", (char *) $2, (int) $3);
};
definemacro:
DEFINE WORD OPENPAR CLOSEPAR
{
defineparenthesis = 0;
//Macro found
if (translate == 1 && verilog == 0)
{
defineslist = InsertDefine (defineslist, (char *) $2);
definefound = 1;
if (processfound)
fprintf (file, "`define %s ", (char *) $2);
else
fprintf (FILE_DEFINES, "`define %s ", (char *) $2);
}
else if (verilog == 1)
fprintf (file, "#define %s ()", (char *) $2);
}
void:
WORD TWODOUBLEPOINTS WORD OPENPAR
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
strcpy (processname, (char *) $4);
strcpy (processname2, (char *) $4);
strcat (processname2, (char *) ".sc2v");
strcpy (fileregs, (char *) $4);
strcat (fileregs, (char *) "_regs.sc2v");
}
else if (verilog == 1)
fprintf (file, " %s::%s()", (char *) $1, (char *) $3);
}
sc_reg:
SC_REG LOWER NUMBER BIGGER
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
writelenght=1;
reglenght = $3;
reg_found = 1;
}
}
};
integer:
INTEGER
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (regs_file, "integer ");
integer_found = 1;
}
}
};
bool:
BOOL
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
writelenght=1;
reglenght=0;
reg_found = 1;
}
}
else if (verilog == 1)
fprintf (file, "bool");
}
;
range:
RANGE OPENPAR NUMBER COLON NUMBER CLOSEPAR
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
fprintf (file, "[%d:%d]", $3, $5);
else if (definefound)
fprintf (FILE_DEFINES, "[%d:%d]", $3, $5);
}
else if (verilog == 1)
fprintf (file, ".range(%d,%d)", $3, $5);
}
;
number:
NUMBER
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
if(opencorchfound && reg_found)
fprintf (regs_file, "%d:0",$1-1);
else
fprintf (file, "%d", $1);
else if (definefound)
fprintf (FILE_DEFINES, "%d", $1);
}
else if (verilog == 1)
fprintf (file, "%d", $1);
};
increment:
WORD INC
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
if (processfound){
regname2 = IsReg (regslist, (char *) $1);
if (regname2 == NULL){
fprintf (file, "%s=%s+1", (char *) $1,(char *)$1);
}else
fprintf (file, "%s=%s+1", regname2,regname2);
}
else if (verilog == 1)
fprintf (file, "%s++ ", (char *) $1);
};
decrement:
WORD DEC
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
if (processfound){
regname2 = IsReg (regslist, (char *) $1);
if (regname2 == NULL){
fprintf (file, "%s=%s+1", (char *) $1,(char *)$1);
}else
fprintf (file, "%s=%s+1", regname2,regname2);
}
else if (verilog == 1)
fprintf (file, "%s-- ", (char *) $1);
};
word:
WORD
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if(opencorchfound==0){
strcpy (lastword, (char *) $1);
}
if (processfound)
{
if(lastswitch){
openedcase=0;
}else if (openedcase)
{
fprintf (file, " :\n");
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf(file,"begin\n");
openedcase=0;
}
if (reg_found)
{
if(writelenght){
writelenght=0;
if(reglenght==0)
fprintf (regs_file, "reg ");
else
fprintf (regs_file, "reg[%d:0] ", (-1 +reglenght));
}
regname = (char *) malloc (sizeof (char) * (strlen ((char *) $1) + 1));
regname2 = (char *) malloc (sizeof (char) * (strlen ((char *) $1) + strlen (processname)) + 1);
strcpy (regname, (char *) $1);
strcpy (regname2, (char *) $1);
strcat (regname2, processname);
fprintf (regs_file, "%s", regname2);
regslist = InsertReg (regslist, regname, regname2);
free (regname);
free (regname2);
}
else if(integer_found){
regname = (char *) malloc (sizeof (char) * (strlen ((char *) $1) + 1));
regname2 = (char *) malloc (sizeof (char) * (strlen ((char *) $1) + strlen (processname)) + 1);
strcpy (regname, (char *) $1);
strcpy (regname2, (char *) $1);
strcat (regname2, processname);
fprintf (regs_file, "%s;\n", regname2);
regslist = InsertReg (regslist, regname, regname2);
//After adding to list print it
fprintf (file, "%s ", regname2);
integer_found=0;
free (regname);
free (regname2);
}else
{
if (newline)
{
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
}
regname2 = IsReg (regslist, (char *) $1);
if (regname2 == NULL)
{
if (IsDefine (defineslist, (char *) $1))
{
if (ifdeffound == 0)
{
fprintf (file, "`%s", (char *) $1);
defineinvocationfound = 1;
}
else
{
fprintf (file, "%s", (char *) $1);
ifdeffound = 0;
}
}
else
{
fprintf (file, "%s ", (char *) $1);
}
}
else
fprintf (file, "%s", regname2);
newline = 0;
}
}
else if (definefound)
{
if (IsDefine (defineslist, (char *) $1))
{
fprintf (FILE_DEFINES, "`%s", (char *) $1);
}
else
{
fprintf (FILE_DEFINES, "%s ", (char *) $1);
}
}
}
else if (verilog == 1)
fprintf (file, "%s ", (char *) $1);
lastswitch=0;
};
symbol:
SYMBOL
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (reg_found)
fprintf (regs_file, "%s", (char *) $1);
else
fprintf (file, "%s", (char *) $1);
}
else if (definefound)
{
fprintf (FILE_DEFINES, "%s", (char *) $1);
}
}
else if (verilog == 1)
fprintf (file, "%s", (char *) $1);
};
equal:
EQUALS
{
defineparenthesis = 0;
reg_found=0;
if (translate == 1 && verilog == 0)
{
if (processfound)
fprintf (file, "=");
writingvar=1;
}
else if (definefound)
fprintf (FILE_DEFINES, "=");
else if (verilog == 1)
fprintf (file, "=");
}
write:
WRITE
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
writemethod = 1;
if (processfound)
{
fprintf (file, " <= ");
fprintf (FILE_WRITES, "%s\n", lastword);
}
else if (definefound)
{
fprintf (FILE_DEFINES, " <= ");
}
}
else if (verilog == 1)
{
fprintf (file, ".write");
}
};
newline:
NEWLINE
{
defineparenthesis = 0;
writingvar=0;
if (translate == 1 && verilog == 0)
{
if (processfound & !reg_found & !openedcase)
{
fprintf (file, "\n");
newline = 1;
}
else if (definefound)
{
fprintf (FILE_DEFINES, "\n");
}
}
else if (verilog == 1)
fprintf (file, "\n");
};
colon:
COLON
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (reg_found)
{
fprintf (regs_file, ",");
}
else
fprintf (file, ",");
}
else if (definefound)
{
fprintf (FILE_DEFINES, ",");
}
}
else if (verilog == 1)
fprintf (file, ",");
};
semicolon:
SEMICOLON
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (reg_found)
{
fprintf (regs_file, ";\n");
reg_found = 0;
}
else
{
if (defineinvocationfound == 0 || writingvar)
fprintf (file, ";");
}
}
else if (definefound)
{
fprintf (FILE_DEFINES, ";");
}
}
else if (verilog == 1)
fprintf (file, ";");
writingvar=0;
defineinvocationfound = 0;
};
openpar:
OPENPAR
{
defineparenthesis = 1;
if (translate == 1 && verilog == 0 && defineinvocationfound == 0)
{
if (processfound)
{
fprintf (file, "(");
}
else if (definefound)
{
fprintf (FILE_DEFINES, "(");
}
}
else if (verilog == 1)
{
fprintf (file, "(");
}
//If par after a sc_reg declaration the declaration is a type cast
reg_found=0;
}
closepar:
CLOSEPAR
{
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (defineparenthesis == 0)
{
fprintf (file, ")");
defineinvocationfound = 0;
}
}
else if (definefound)
{
fprintf (FILE_DEFINES, ")");
}
}
else if (verilog == 1)
fprintf (file, ")");
};
opencorch:
OPENCORCH
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
opencorchfound = 1;
if (reg_found)
{
fprintf (regs_file, "[");
}
else
fprintf (file, "[");
}
else if (definefound)
{
fprintf (FILE_DEFINES, "[");
}
}
else if (verilog == 1)
fprintf (file, "[");
};
closecorch:
CLOSECORCH
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
opencorchfound = 0;
if (reg_found)
{
fprintf (regs_file, "]");
}
else
fprintf (file, "]");
}
else if (definefound)
{
fprintf (FILE_DEFINES, "]");
}
}
else if (verilog == 1)
fprintf (file, "]");
};
openkey:
OPENKEY
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
openedkeys++;
if (!definefound)
{
if (openedkeys == 1)
{
printf ("Found process %s\n", processname);
file = fopen (processname2, (char *) "w");
regs_file = fopen (fileregs, (char *) "w");
processfound = 1;
}
if (processfound)
if (openedkeys != switchparenthesis[switchfound])
{
fprintf (file, "\n");
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf (file, "begin\n");
newline = 1;
}
}
}
else if (verilog == 1)
fprintf (file, "{");
};
closekey:
CLOSEKEY
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound && !definefound)
{
if (openedkeys == switchparenthesis[switchfound] && switchfound > 0)
{
fprintf (file, "\n");
if (default_found & !default_break_found)
{
for (i = 0; i < openedkeys - 1; i++)
fprintf (file, " ");
fprintf (file, "end\n");
default_found = 0;
}
for (i = 0; i < openedkeys - 1; i++)
fprintf (file, " ");
fprintf (file, "endcase\n");
newline = 1;
switchparenthesis[switchfound] = 0;
switchfound--;
}
else
{
fprintf (file, "\n");
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf (file, "end\n");
newline = 1;
}
}
openedkeys--;
if (definefound)
{
definefound = 0;
if (processfound)
fprintf (file, "\n//Dummy Comment\n");
else
fprintf (FILE_DEFINES, "\n//Dummy Comment\n");
}
else if (openedkeys == 0)
{
fclose (file);
fclose (regs_file);
processfound = 0;
}
}
else if (verilog == 1)
fprintf (file, "}");
};
bigger:
BIGGER
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, ">");
}
else if (definefound)
{
fprintf (FILE_DEFINES, ">");
}
}
else if (verilog == 1)
fprintf (file, ">");
};
lower:
LOWER
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, "<");
}
else if (definefound)
{
fprintf (FILE_DEFINES, "<");
}
}
else if (verilog == 1)
fprintf (file, "<");
};
switch:
SWITCH
{
defineparenthesis = 0;
lastswitch=1;
if (translate == 1 && verilog == 0)
{
if (processfound && !openedcase)
{
fprintf (file, "\n");
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf (file, "case");
switchfound++;
switchparenthesis[switchfound] = openedkeys + 1;
}else if (processfound)
{
fprintf (file, ":\n");
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf(file,"begin\n");
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf (file, "case");
switchfound++;
switchparenthesis[switchfound] = openedkeys + 1;
}
}
else if (verilog == 1)
fprintf (file, "switch");
};
case_number:
CASE NUMBER SYMBOL
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (!openedcase)
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
if (openedcase)
fprintf (file, ", %d", $2);
else
fprintf (file, "%d", $2);
newline = 1;
openedcase = 1;
}
}
else if (verilog == 1)
fprintf (file, "case %d %s", $2, (char *) $3);
};
case_hexnumber:
CASE HEXA NUMBER SYMBOL
{
//Is a dec number
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (!openedcase)
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
if (openedcase)
fprintf (file, ", 'h%d", $3);
else
fprintf (file, "'h%d", $3);
newline = 1;
openedcase = 1;
}
}
else if (verilog == 1)
fprintf (file, "case %d %s", $3, (char *) $4);
};
case_hexword:
CASE HEXA WORD SYMBOL
{
//Begin with a-F
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (!openedcase)
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
if (openedcase)
fprintf (file, ", 'h%s", (char *)$3);
else
fprintf (file, "'h%s", (char *)$3);
newline = 1;
openedcase = 1;
}
}
else if (verilog == 1)
fprintf (file, "case 0x%s %s", (char *)$3, (char *) $4);
};
case_hexnumberword:
CASE HEXA NUMBER WORD SYMBOL
{
//Hex number beginning with dec number
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (!openedcase)
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
if (openedcase)
fprintf (file, ", 'h%d%s", $3,(char *)$4);
else
fprintf (file, "'h%d%s", $3,(char *)$4);
newline = 1;
openedcase = 1;
}
}
else if (verilog == 1)
fprintf (file, "case %d%s %s", $3, (char *) $4, (char *)$5);
};
case_word:
CASE WORD SYMBOL
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (!openedcase)
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
if (openedcase){
if (IsDefine (defineslist, (char *) $2))
fprintf (file, ", `%s", (char *) $2);
else
fprintf (file, ", %s", (char *) $2);
}else{
if (IsDefine (defineslist, (char *) $2))
fprintf (file, "`%s", (char *) $2);
else
fprintf (file, "%s", (char *) $2);
}
newline = 1;
openedcase = 1;
}
}
else if (verilog == 1)
fprintf (file, "case %s %s", (char *) $2, (char *) $3);
};
case_default:
DEFAULT SYMBOL
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (!openedcase)
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf (file, "default:\n");
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf (file, "begin\n");
newline = 1;
default_found = 1;
}
}
else if (verilog == 1)
fprintf (file, "default %s", (char *) $2);
};
case_only:
CASE OPENPAR
{
defineparenthesis = 0;
//This rule occurs when in Verilog mode a case appears
if (verilog == 1)
fprintf (file, "case(");
};
break:
BREAK SEMICOLON
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
if (newline == 0)
fprintf (file, "\n");
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf (file, "end\n");
if (default_found)
{
default_break_found = 1;
}
}
}
else if (verilog == 1)
fprintf (file, "break;");
};
hexa:
HEXA
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, "'h");
}
else if (definefound)
{
fprintf (FILE_DEFINES, "'h");
}
}
else if (verilog == 1)
fprintf (file, "0x");
};
translateoff:
TRANSLATEOFF
{
defineparenthesis = 0;
translate = 0;
fprintf (stderr, "line: %d Found Translate off directive \n", lineno);
};
translateon:
TRANSLATEON
{
defineparenthesis = 0;
translate = 1;
fprintf (stderr, "line: %d Found Translate on directive \n", lineno);
};
verilogbegin:
VERILOGBEGIN
{
defineparenthesis = 0;
verilog = 1;
fprintf (stderr, "line: %d Found Verilog Begin directive \n", lineno);
};
verilogend:
VERILOGEND
{
defineparenthesis = 0;
verilog = 0;
fprintf (stderr, "line: %d Found Verilog End directive \n", lineno);
};
ifdef:
PIFDEF
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
ifdeffound = 1;
fprintf (file, "`ifdef");
}
else if (definefound)
{
fprintf (FILE_DEFINES, "`ifdef");
}
}
else if (verilog == 1)
fprintf (file, "#ifdef");
};
ifndef:
PIFNDEF
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
ifdeffound = 1;
fprintf (file, "`ifndef");
}
else if (definefound)
{
fprintf (FILE_DEFINES, "`ifndef");
}
}
else if (verilog == 1)
fprintf (file, "#ifndef");
};
endif:
PENDDEF
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, "`endif");
}
else if (definefound)
{
fprintf (FILE_DEFINES, "`endif");
}
}
else if (verilog == 1)
fprintf (file, "#endif");
};
pelse:
PELSE
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, "`else");
}
else if (definefound)
{
fprintf (FILE_DEFINES, "`else");
}
}
else if (verilog == 1)
fprintf (file, "#else");
};
ttrue:
TTRUE
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, "1");
}
}
else if (verilog == 1)
fprintf (file, "1");
};
tfalse:
TFALSE
{
defineparenthesis = 0;
if (translate == 1 && verilog == 0)
{
if (processfound)
{
fprintf (file, "0");
}
}
else if (verilog == 1)
fprintf (file, "0");
};
comment:
COMMENT
{
if(processfound){
//To manage comments inside switch statements
if(lastswitch){
openedcase=0;
}else if (openedcase){
fprintf (file, " :\n");
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
fprintf(file,"begin\n");
openedcase=0;
}
//indent
if(newline){
for (i = 0; i < openedkeys; i++)
fprintf (file, " ");
newline=0;
}
fprintf (file, " %s", (char *)$1);
}
}
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