State functions, minimize columns in transition table

This commit is contained in:
Victor Fernandes 2017-03-15 03:04:51 -04:00
parent ab2164b431
commit e52a190a50
3 changed files with 434 additions and 195 deletions

Binary file not shown.

530
scanner.c
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@ -35,6 +35,8 @@
#define DEBUG /* for conditional processing */
#undef DEBUG
/* Global objects - variables */
/* This buffer is used as a repository for string literals.
It is defined in platy_st.c */
@ -84,7 +86,12 @@ which is being processed by the scanner.
//DECLARE YOUR VARIABLES HERE IF NEEDED
int i; /* Counter for loop in string error case */
static int str_offset = 0;
if (sc_buf == NULL) {
return aa_func12("RUN TIME ERROR"); /* WHOOPS */
}
while (1){ /* endless loop broken by token returns it will generate a warning */
@ -125,111 +132,212 @@ which is being processed by the scanner.
c = b_getc(sc_buf);
return t;
case '.':
b_setmark(sc_buf, b_getcoffset(sc_buf)
default: /* TODO: Do alpha [a-zA-Z] stuff here*/
b_setmark(sc_buf, b_getcoffset(sc_buf)); /* Set mark before continuing (AND|OR case) */
if (c == 'A' && b_getc(sc_buf) == 'N' && b_getc(sc_buf) == 'D' && b_getc(sc_buf) == '.') {
t.code = LOG_OP_T;
t.attribute.log_op = AND;
return t;
}
else if (c == 'O' && b_getc(sc_buf) == 'R' && b_getc(sc_buf) == '.') {
t.code = LOG_OP_T;
t.attribute.log_op = OR;
}
t.code = ERR_T; /* "That character's not supposed to be here" case */
t.attribute.err_lex[0] = '.';
t.attribute.err_lex[1] = '\0';
b_retract_to_mark(sc_buf);
return t;
case '!':
c = b_getc(sc_buf);
if (c == '<') { /* It's a comment line */
for (; c != '\0' && c != '\r' && c != '\n' && c != 255; c = b_getc(sc_buf)); /* Consume chars until line ends */
line++;
continue;
}
else { /* Bad character, pump out an error token */
t = aa_table[ES](" ");
t.attribute.err_lex[0] = c;
return t;
}
case '=':
c = b_getc(sc_buf);
if (c == '=') { /* Relational equals-to operator */
t.code = REL_OP_T;
t.attribute.rel_op = EQ;
}
b_retract(sc_buf);
t.code = ASS_OP_T; /* Assignment operator */
return t;
case '\"': /* Don't quote me on this */
c = b_getc(sc_buf);
b_setmark(sc_buf, b_getcoffset(sc_buf));
lexstart = (short)str_offset;
lexend = lexstart;
for (; c != '\"'; c = b_getc(sc_buf)) {
b_addc(str_LTBL, c);
if (b_isfull(str_LTBL)) {
return aa_table[ES]("\"Imagine all the .."); /* String too big :( */
}
if (c == '\n' || c == '\r') {
line++;
}
if (c == 255 || c == '\0') {
b_retract_to_mark(sc_buf);
for (i = 0; i < ERR_LEN; i++) {
t.attribute.err_lex[i] = b_getc(sc_buf);
}
}
lexend++;
str_offset++;
} /*end for loop, string finished*/
str_offset++;
b_addc(str_LTBL, '\0');
t.code = STR_T;
t.attribute.str_offset = lexstart;
return t; /* String literal */
default:
if (isalnum(c) || isalpha(c)) {
lexend = 0;
state = 0;
lex_buf = b_create(1, 1, 'a');
while (accept == NOAS) {
b_addc(lex_buf, c);
state = get_next_state(state, c, &accept);
if (accept != NOAS)
break;
c = b_getc(sc_buf);
lexend++;
}
/* Entering Accepting State */
b_addc(lex_buf, '\0');
if (as_table[state] == ASWR)
b_retract(sc_buf);
if ((t.attribute.kwt_idx = iskeyword(b_setmark(lex_buf, 0))) != -1) {
t.code = KW_T;
b_free(lex_buf);
return t;
}
if (aa_table[state] != NULL) {
t = aa_table[state](b_setmark(lex_buf, 0));
}
else {
t = aa_table[ES]("RUN TIME ERROR");
}
b_free(lex_buf);
}
else {
t = aa_table[ES](" ");
t.attribute.err_lex[0] = c;
}
}
/* special cases or token driven processing */
WRITE YOUR CODE FOR PROCESSING THE SPECIAL CASES HERE.
COMMENTS AND STRING LITERALS ARE ALSO PROCESSED HERE.
WHAT FOLLOWS IS A PSEUDO CODE. YOU CAN USE switch STATEMENT
INSTEAD OF if-else TO PROCESS THE SPECIAL CASES
DO NOT FORGET TO COUNT THE PROGRAM LINES
IF (c == SOME CHARACTER)
...
SKIP CHARACTER (FOR EXAMPLE SPACE)
continue;
OR SET TOKEN (SET TOKEN CODE AND TOKEN ATTRIBUTE(IF AVAILABLE))
return t;
EXAMPLE:
if (c == ' ') continue;
if (c == '{'){ t.code = RBR_T; /*no attribute */ return t;
if (c == '+'){ t.code = ART_OP_T; t.attribute.arr_op = PLUS */ return t;
...
IF (c == '.') TRY TO PROCESS .AND. or .OR.
IF SOMETHING ELSE FOLLOWS . OR THE LAST . IS MISSING
RETURN AN ERROR TOKEN
IF (c == '!') TRY TO PROCESS COMMENT
IF THE FOLLOWING IS NOT CHAR IS NOT < REPORT AN ERROR
ELSE IN A LOOP SKIP CHARACTERS UNTIL line terminator is found THEN continue;
...
IF STRING (FOR EXAMPLE, "text") IS FOUND
SET MARK TO MARK THE BEGINNING OF THE STRING
IF THE STRING IS LEGAL
USING b_addc(..)COPY THE text FROM INPUT BUFFER INTO str_LTBL
ADD '\0' at the end make the string C-type string
SET STRING TOKEN
(the attribute of the string token is the offset from
the beginning of the str_LTBL char buffer to the beginning
of the string (TEXT in the example))
return t;
ELSE
THE STRING LITERAL IS ILLEGAL
SET ERROR TOKEN FOR ILLEGAL STRING (see assignment)
DO NOT STORE THE ILLEGAL STRINg IN THE str_LTBL
return t;
IF (c == ANOTHER CHARACTER)
SET TOKEN
return t;
///* special cases or token driven processing */
//
//WRITE YOUR CODE FOR PROCESSING THE SPECIAL CASES HERE.
//COMMENTS AND STRING LITERALS ARE ALSO PROCESSED HERE.
//
//WHAT FOLLOWS IS A PSEUDO CODE. YOU CAN USE switch STATEMENT
//INSTEAD OF if-else TO PROCESS THE SPECIAL CASES
//DO NOT FORGET TO COUNT THE PROGRAM LINES
//
//
// IF (c == SOME CHARACTER)
// ...
// SKIP CHARACTER (FOR EXAMPLE SPACE)
// continue;
// OR SET TOKEN (SET TOKEN CODE AND TOKEN ATTRIBUTE(IF AVAILABLE))
// return t;
// EXAMPLE:
// if (c == ' ') continue;
// if (c == '{'){ t.code = RBR_T; /*no attribute */ return t;
// if (c == '+'){ t.code = ART_OP_T; t.attribute.arr_op = PLUS */ return t;
// ...
//
// IF (c == '.') TRY TO PROCESS .AND. or .OR.
// IF SOMETHING ELSE FOLLOWS . OR THE LAST . IS MISSING
// RETURN AN ERROR TOKEN
// IF (c == '!') TRY TO PROCESS COMMENT
// IF THE FOLLOWING IS NOT CHAR IS NOT < REPORT AN ERROR
// ELSE IN A LOOP SKIP CHARACTERS UNTIL line terminator is found THEN continue;
// ...
// IF STRING (FOR EXAMPLE, "text") IS FOUND
// SET MARK TO MARK THE BEGINNING OF THE STRING
// IF THE STRING IS LEGAL
// USING b_addc(..)COPY THE text FROM INPUT BUFFER INTO str_LTBL
// ADD '\0' at the end make the string C-type string
// SET STRING TOKEN
// (the attribute of the string token is the offset from
// the beginning of the str_LTBL char buffer to the beginning
// of the string (TEXT in the example))
//
// return t;
// ELSE
// THE STRING LITERAL IS ILLEGAL
// SET ERROR TOKEN FOR ILLEGAL STRING (see assignment)
// DO NOT STORE THE ILLEGAL STRINg IN THE str_LTBL
//
// return t;
//
// IF(c == ANOTHER CHARACTER)
// SET TOKEN
// return t;
/* Process state transition table */
IF (c is a digit OR c is a letter){
SET THE MARK AT THE BEGINING OF THE LEXEME
b_setmark(sc_buf,forward);
....
CODE YOUR FINATE STATE MACHINE HERE (FSM or DFA)
IT IMPLEMENTS THE FOLLOWING ALGORITHM:
FSM0. Begin with state = 0 and the input character c
FSM1. Get the next state from the transition table calling
state = get_next_state(state, c, &accept);
FSM2. Get the next character
FSM3. If the state is not accepting (accept == NOAS), go to step FSM1
If the step is accepting, token is found, leave the machine and
call an accepting function as described below.
RETRACT getc_offset IF THE FINAL STATE IS A RETRACTING FINAL STATE
GET THE BEGINNING AND THE END OF THE LEXEME
lexstart = b_getmark(sc_buf);
SET lexend TO getc_offset USING AN APPROPRIATE BUFFER FUNCTION
CREATE A TEMPORRARY LEXEME BUFFER HERE;
lex_buf = b_create(...);
. RETRACT getc_offset to the MARK SET PREVIOUSLY AT THE BEGINNING OF THE LEXEME AND
. USING b_getc() COPY THE LEXEME BETWEEN lexstart AND lexend FROM THE INPUT BUFFER INTO lex_buf USING b_addc(...),
. WHEN VID (KEYWORDS INCLUDED), FPL OR IL IS RECOGNIZED
. YOU MUST CALL THE ACCEPTING FUNCTION USING THE ARRAY aa_table ,WHICH
. CONTAINS POINTERS TO FUNCTIONS. THE ARRAY INDEX OF THE FUNCTION TO BE
. CALLED IS STORED IN THE VARIABLE state.
. YOU ARE NOT ALLOWED TO CALL ANY OF THE ACCEPTING FUNCTIONS BY NAME.
. THE ARGUMENT TO THE FUNCTION IS THE STRING STORED IN lex_buf.
....
b_free(lex_buf);
return t;
CHECK OTHER CHARS HERE if NEEDED, SET A TOKEN AND RETURN IT.
FOR ILLEGAL CHARACTERS SET ERROR TOKEN.
THE ILLEGAL CHAR IS THE ATTRIBUTE OF THE ERROR TOKEN
IN A CASE OF RUNTIME ERROR, THE FUNCTION MUST STORE
A NON-NEGATIVE NUMBER INTO THE GLOBAL VARIABLE scerrnum
AND RETURN AN ERROR TOKEN. THE ERROR TOKEN ATTRIBUTE MUST
BE THE STRING "RUN TIME ERROR: "
//IF (c is a digit OR c is a letter){
//
//SET THE MARK AT THE BEGINING OF THE LEXEME
//b_setmark(sc_buf,forward);
// ....
//CODE YOUR FINATE STATE MACHINE HERE (FSM or DFA)
//IT IMPLEMENTS THE FOLLOWING ALGORITHM:
//
//FSM0. Begin with state = 0 and the input character c
//FSM1. Get the next state from the transition table calling
// state = get_next_state(state, c, &accept);
//FSM2. Get the next character
//FSM3. If the state is not accepting (accept == NOAS), go to step FSM1
// If the step is accepting, token is found, leave the machine and
// call an accepting function as described below.
//
//
//RETRACT getc_offset IF THE FINAL STATE IS A RETRACTING FINAL STATE
//GET THE BEGINNING AND THE END OF THE LEXEME
//lexstart = b_getmark(sc_buf);
//SET lexend TO getc_offset USING AN APPROPRIATE BUFFER FUNCTION
//CREATE A TEMPORRARY LEXEME BUFFER HERE;
//lex_buf = b_create(...);
// . RETRACT getc_offset to the MARK SET PREVIOUSLY AT THE BEGINNING OF THE LEXEME AND
// . USING b_getc() COPY THE LEXEME BETWEEN lexstart AND lexend FROM THE INPUT BUFFER INTO lex_buf USING b_addc(...),
// . WHEN VID (KEYWORDS INCLUDED), FPL OR IL IS RECOGNIZED
// . YOU MUST CALL THE ACCEPTING FUNCTION USING THE ARRAY aa_table ,WHICH
// . CONTAINS POINTERS TO FUNCTIONS. THE ARRAY INDEX OF THE FUNCTION TO BE
// . CALLED IS STORED IN THE VARIABLE state.
// . YOU ARE NOT ALLOWED TO CALL ANY OF THE ACCEPTING FUNCTIONS BY NAME.
// . THE ARGUMENT TO THE FUNCTION IS THE STRING STORED IN lex_buf.
// ....
// b_free(lex_buf);
// return t;
//
// CHECK OTHER CHARS HERE if NEEDED, SET A TOKEN AND RETURN IT.
// FOR ILLEGAL CHARACTERS SET ERROR TOKEN.
// THE ILLEGAL CHAR IS THE ATTRIBUTE OF THE ERROR TOKEN
// IN A CASE OF RUNTIME ERROR, THE FUNCTION MUST STORE
// A NON-NEGATIVE NUMBER INTO THE GLOBAL VARIABLE scerrnum
// AND RETURN AN ERROR TOKEN. THE ERROR TOKEN ATTRIBUTE MUST
// BE THE STRING "RUN TIME ERROR: "
}//end while(1)
}
DO NOT MODIFY THE CODE OF THIS FUNCTION
YOU CAN REMOVE THE COMMENTS
/* DO NOT MODIFY THE CODE OF THIS FUNCTION
YOU CAN REMOVE THE COMMENTS */
int get_next_state(int state, char c, int *accept)
{
@ -275,80 +383,133 @@ or #undef DEBUF is used - see the top of the file.
return next;
}
int char_class (char c)
int char_class(char c)
{
int val;
THIS FUNCTION RETURNS THE COLUMN NUMBER IN THE TRANSITION
TABLE st_table FOR THE INPUT CHARACTER c.
SOME COLUMNS MAY REPRESENT A CHARACTER CLASS .
FOR EXAMPLE IF COLUMN 1 REPRESENTS [A-Z]
THE FUNCTION RETURNS 1 EVERY TIME c IS ONE
OF THE LETTERS A,B,...,Z.
if (isalpha(c))
val = 0;
else if (c == '0')
val = 1;
else if (c > '0' && c < '8')
val = 2;
else if (c == '8' || c == '9')
val = 3;
else if (c == '.')
val = 4;
else if (c == '#')
val = 5;
else
val = 6;
return val;
}
/*
HERE YOU WRITE THE DEFINITIONS FOR YOUR ACCEPTING FUNCTIONS.
************************************************************
ACCEPTING FUNCTION FOR THE arithmentic variable identifier AND keywords (VID - AVID/KW)
REPLACE XX WITH THE CORRESPONDING ACCEPTING STATE NUMBER
*/
Token aa_funcXX(char lexeme[]){
Token aa_func02(char lexeme[]) {
unsigned int kw_i; /* Variable to contain keyword table index */
Token t;
char* temp_str;
WHEN CALLED THE FUNCTION MUST
1. CHECK IF THE LEXEME IS A KEYWORD.
if ((kw_i = iskeyword(lexeme)) > -1) { /* Keyword check */
t.code = KW_T;
t.attribute.kwt_idx = kw_i;
return t;
}
/* Not a keyword? Must be AVID*/
if ((temp_str = (char*)calloc(VID_LEN + 1, sizeof(char))) == NULL) {
return aa_table[ES]("RUN TIME ERROR");
}
strncpy(temp_str, lexeme, VID_LEN);
strncpy(t.attribute.vid_lex, temp_str, VID_LEN);
free(temp_str);
switch (lexeme[0]) { /* Read first character of lexeme for implicit type (not used yet?)*/
case 'i':
case 'o':
case 'd':
case 'n':
/* Integer */
break;
default:
/* Floating point*/
}
return t;
/*
WHEN CALLED THE FUNCTION MUST
1. CHECK IF THE LEXEME IS A KEYWORD.
IF YES, IT MUST RETURN A TOKEN WITH THE CORRESPONDING ATTRIBUTE
FOR THE KEYWORD. THE ATTRIBUTE CODE FOR THE KEYWORD
IS ITS INDEX IN THE KEYWORD LOOKUP TABLE (kw_table in table.h).
IF THE LEXEME IS NOT A KEYWORD, GO TO STEP 2.
2. SET a AVID TOKEN.
2. SET a AVID TOKEN.
IF THE lexeme IS LONGER than VID_LEN (see token.h) CHARACTERS,
ONLY FIRST VID_LEN CHARACTERS ARE STORED
INTO THE VARIABLE ATTRIBUTE ARRAY vid_lex[](see token.h) .
ADD \0 AT THE END TO MAKE A C-type STRING.
return t;
*/
}
/*
ACCEPTING FUNCTION FOR THE string variable identifier (VID - SVID)
REPLACE XX WITH THE CORRESPONDING ACCEPTING STATE NUMBER
*/
Token aa_func03(char lexeme[]) {
Token t;
int offset;
int i;
char* temp_str;
if ((temp_str = (char*)calloc(VID_LEN + 2, sizeof(char))) == NULL) {
return aa_table[ES]("RUN TIME ERROR");
}
Token aa_funcXX(char lexeme[]){
strcpy(temp_str, lexeme, VID_LEN);
temp_str[strlen(temp_str)] = "#"; /* Append # to end of the SVID */
WHEN CALLED THE FUNCTION MUST
1. SET a SVID TOKEN.
strncpy(t.attribute.vid_lex, temp_str, VID_LEN);
free(temp_str);
t.code = SVID_T;
return t;
/*
WHEN CALLED THE FUNCTION MUST
1. SET a SVID TOKEN.
IF THE lexeme IS LONGER than VID_LEN characters,
ONLY FIRST VID_LEN-1 CHARACTERS ARE STORED
INTO THE VARIABLE ATTRIBUTE ARRAY vid_lex[],
AND THEN THE # CHARACTER IS APPENDED TO THE NAME.
ADD \0 AT THE END TO MAKE A C-type STRING.
*/
return t;
}
ACCEPTING FUNCTION FOR THE floating-point literal (FPL)
/*ACCEPTING FUNCTION FOR THE integer literal(IL)-decimal constant(DIL)*/
Token aa_funcXX(char lexeme[]){
Token aa_func05(char lexeme[]) {
Token t;
long temp_num;
temp_num = strtol(lexeme, NULL, 10);
if (temp_num > SHRT_MAX || temp_num < 0) {
t = aa_table[ES](lexeme);
}
t.code = INL_T;
t.attribute.int_value = temp_num;
THE FUNCTION MUST CONVERT THE LEXEME TO A FLOATING POINT VALUE,
WHICH IS THE ATTRIBUTE FOR THE TOKEN.
THE VALUE MUST BE IN THE SAME RANGE AS the value of 4-byte float in C.
IN CASE OF ERROR (OUT OF RANGE) THE FUNCTION MUST RETURN ERROR TOKEN
THE ERROR TOKEN ATTRIBUTE IS lexeme. IF THE ERROR lexeme IS LONGER
than ERR_LEN characters, ONLY THE FIRST ERR_LEN-3 characters ARE
STORED IN err_lex. THEN THREE DOTS ... ARE ADDED TO THE END OF THE
err_lex C-type string.
return t;
}
ACCEPTING FUNCTION FOR THE integer literal(IL) - decimal constant (DIL)
Token aa_funcXX(char lexeme[]){
/*
THE FUNCTION MUST CONVERT THE LEXEME REPRESENTING A DECIMAL CONSTANT
TO A DECIMAL INTEGER VALUE, WHICH IS THE ATTRIBUTE FOR THE TOKEN.
THE VALUE MUST BE IN THE SAME RANGE AS the value of 2-byte integer in C.
@ -356,14 +517,64 @@ IN CASE OF ERROR (OUT OF RANGE) THE FUNCTION MUST RETURN ERROR TOKEN
THE ERROR TOKEN ATTRIBUTE IS lexeme. IF THE ERROR lexeme IS LONGER
than ERR_LEN characters, ONLY THE FIRST ERR_LEN-3 characters ARE
STORED IN err_lex. THEN THREE DOTS ... ARE ADDED TO THE END OF THE
err_lex C-type string.
return t;
err_lex C-type string. */
}
ACCEPTING FUNCTION FOR THE integer literal(IL) - octal constant (OIL)
/*ACCEPTING FUNCTION FOR THE floating - point literal (FPL)*/
Token aa_funcXX(char lexeme[]){
Token aa_func08(char lexeme[]) {
Token t;
double temp_dbl;
t.code = FPL_T;
if (strstr(lexeme, "0.0")) {
t.attribute.flt_value = 0.0f;
return t;
}
temp_dbl = atof(lexeme);
if ((temp_dbl > FLT_MAX) || (temp_dbl < 0)) {
t = aa_table[ES](lexeme);
}
t.attribute.flt_value = (float)temp_dbl;
return t;
/*
THE FUNCTION MUST CONVERT THE LEXEME TO A FLOATING POINT VALUE,
WHICH IS THE ATTRIBUTE FOR THE TOKEN.
THE VALUE MUST BE IN THE SAME RANGE AS the value of 4-byte float in C.
IN CASE OF ERROR (OUT OF RANGE) THE FUNCTION MUST RETURN ERROR TOKEN
THE ERROR TOKEN ATTRIBUTE IS lexeme. IF THE ERROR lexeme IS LONGER
than ERR_LEN characters, ONLY THE FIRST ERR_LEN-3 characters ARE
STORED IN err_lex. THEN THREE DOTS ... ARE ADDED TO THE END OF THE
err_lex C-type string. */
}
/*ACCEPTING FUNCTION FOR THE integer literal(IL) - octal constant (OIL)*/
Token aa_func10(char lexeme[]) {
Token t;
int new_olval;
if (strlen(lexeme) > INL_LEN + 1) {
t = aa_table[ES](lexeme);
}
t.code = INL_T;
new_olval = atool(lexeme);
if (new_olval < SHRT_MIN || new_olval > SHRT_MAX) {
t = aa_table[ES](lexeme);
}
t.code = INL_T;
t.attribute.int_value = new_olval;
return t;
/*
THE FUNCTION MUST CONVERT THE LEXEME REPRESENTING AN OCTAL CONSTANT
TO A DECIMAL INTEGER VALUE WHICH IS THE ATTRIBUTE FOR THE TOKEN.
THE VALUE MUST BE IN THE SAME RANGE AS the value of 2-byte integer in C.
@ -377,34 +588,61 @@ THE ERROR TOKEN ATTRIBUTE IS lexeme. IF THE ERROR lexeme IS LONGER
than ERR_LEN characters, ONLY THE FIRST ERR_LEN-3 characters ARE
STORED IN err_lex. THEN THREE DOTS ... ARE ADDED TO THE END OF THE
err_lex C-type string.
return t;
*/
}
ACCEPTING FUNCTION FOR THE ERROR TOKEN
/*ACCEPTING FUNCTION FOR THE ERROR TOKEN */
Token aa_funcXX(char lexeme[]){
Token aa_func12(char lexeme[]) {
Token t;
unsigned int i;
t.code = ERR_T;
for (i = 0; i < (ERR_LEN - 1) && i < strlen(lexeme); i++) {
t.attribute.err_lex[i] = lexeme[i];
}
t.attribute.err_lex[i] = '\0';
return t;
/*
THE FUNCTION SETS THE ERROR TOKEN. lexeme[] CONTAINS THE ERROR
THE ATTRIBUTE OF THE ERROR TOKEN IS THE lexeme ITSELF
AND IT MUST BE STORED in err_lex. IF THE ERROR lexeme IS LONGER
than ERR_LEN characters, ONLY THE FIRST ERR_LEN-3 characters ARE
STORED IN err_lex. THEN THREE DOTS ... ARE ADDED TO THE END OF THE
err_lex C-type string.
return t;
*/
}
CONVERSION FUNCTION
/*CONVERSION FUNCTION*/
long atool(char * lexeme){
long atool(char * lexeme) {
int i, x = 1;
long result = 0;
for (i = strlen(lexeme); i > 0; i--, x *= 8) {
result += x*(lexeme[i - 1] - '0');
}
return result;
/*
THE FUNCTION CONVERTS AN ASCII STRING
REPRESENTING AN OCTAL INTEGER CONSTANT TO INTEGER VALUE
*/
}
HERE YOU WRITE YOUR ADDITIONAL FUNCTIONS (IF ANY).
FOR EXAMPLE
/*HERE YOU WRITE YOUR ADDITIONAL FUNCTIONS (IF ANY).
FOR EXAMPLE*/
int iskeyword(char * kw_lexeme){}
int iskeyword(char * kw_lexeme) {
int i;
if (kw_lexeme == NULL) return -1;
for (i = 0; i < KWT_SIZE; i++) {
if (strcmp(kw_table[i], kw_lexeme) == 0) return i;
}
return -1;
}

51
table.h
View File

@ -36,33 +36,34 @@
//REPLACE *ESN* WITH YOUR ERROR STATE NUMBER
#define ES -2 /* Error state */
#define IS -1 /* Inavalid state */
#define ES 12 /* Error state */
#define IS -1 /* Invalid state */
/* State transition table definition */
//REPLACE *CN* WITH YOUR COLUMN NUMBER
#define TABLE_COLUMNS 14
#define TABLE_COLUMNS 7
/*transition table - type of states defined in separate table */
int st_table[][TABLE_COLUMNS] = {
/* INPUT COLUMNS:
[a-zA-Z]| 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | . | # | other
COLUMN # | 0 | 1 | 2 | 3 | 4 | 5 | 6 |
[a-zA-Z]| 0 |[1-7]|[8-9]| . | # | other
*/
/* State 0 */ {1, 6 , 4 , 4 , 4 , 4 , 4 , 4 , 4 , 4 , 4 , IS , IS ,IS},
/* State 1 */ {1, 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , ES , 3 , 2},
/* State 2 */ {IS, IS , IS, IS, IS, IS, IS, IS, IS, IS, IS, IS , IS , IS},
/* State 3 */ {IS, IS , IS, IS, IS, IS, IS, IS, IS, IS, IS, IS , IS , IS},
/* State 4 */ {ES, 4 , 4 , 4 , 4 , 4 , 4 , 4 , 4 , 4 , 4 , 7 , 5 , 5},
/* State 5 */ {IS, IS , IS, IS, IS, IS, IS, IS, IS, IS, IS, IS , IS , IS},
/* State 6 */ {ES, 9 , 9, 9, 9, 9, 9, 9, 9, ES, ES, 7 , ES , 5},
/* State 7 */ {ES, 7 , 7, 7, 7, 7, 7, 7, 7, 7, 7, ES , 8 , 8},
/* State 8 */ {IS, IS , IS, IS, IS, IS, IS, IS, IS, IS, IS, IS , IS , IS},
/* State 9 */ {ES, 9 , 9, 9, 9, 9, 9, 9, 9, ES, ES, ES , ES , 10},
/* State 10 */ {IS, IS , IS, IS, IS, IS, IS, IS, IS, IS, IS, IS , IS , IS},
/* State 11 */ {ES, ES , ES, ES, ES, ES, ES, ES, ES, ES, ES, ES , ES , ES},
/* State 12 */ {IS, IS , IS, IS, IS, IS, IS, IS, IS, IS, IS, IS , IS , IS},
/* State 13 */ {IS, IS , IS, IS, IS, IS, IS, IS, IS, IS, IS, IS , IS , IS}
/* State 0 */ {1, 6 , 4 , 4 , IS , IS , IS},
/* State 1 */ {1, 1 , 1 , 1 , ES , 3 , 2},
/* State 2 */ {IS, IS , IS, IS, IS , IS , IS},
/* State 3 */ {IS, IS , IS, IS, IS , IS , IS},
/* State 4 */ {ES, 4 , 4 , 4 , 7 , 5 , 5},
/* State 5 */ {IS, IS , IS, IS, IS , IS , IS},
/* State 6 */ {ES, 9 , 9, ES, 7 , ES , 5},
/* State 7 */ {ES, 7 , 7, 7, ES , 8 , 8},
/* State 8 */ {IS, IS , IS, IS, IS , IS , IS},
/* State 9 */ {ES, 9 , 9, ES, ES , ES , 10},
/* State 10 */ {IS, IS , IS, IS, IS , IS , IS},
/* State 11 */ {IS, IS , IS, IS, IS , IS , IS},
/* State 12 */ {IS, IS , IS, IS, IS , IS , IS},
/* State 13 */ {IS, IS , IS, IS, IS , IS , IS}
//
//. YOUR TABLE INITIALIZATION HERE
//.
@ -70,8 +71,8 @@ int st_table[][TABLE_COLUMNS] = {
};
/* Accepting state table definition */
//REPLACE *N1*, *N2*, and *N3* WITH YOUR NUMBERS
#define ASWR 1 /* accepting state with retract */
#define ASNR 2 /* accepting state with no retract */
#define ASWR 2 /* accepting state with retract */
#define ASNR 3 /* accepting state with no retract */
#define NOAS 0 /* not accepting state */
int as_table[] = {
@ -87,7 +88,7 @@ int as_table[] = {
/* State 8 */ ASWR,
/* State 9 */ NOAS,
/* State 10 */ ASWR,
/* State 11 */ ASNR,
/* State 11 */ ASWR,
/* State 12 */ ASNR,
/* State 13 */ ASWR
@ -106,7 +107,7 @@ Token aa_func03(char *lexeme); // VID SVID
Token aa_func05(char *lexeme); // DIL
Token aa_func08(char *lexeme); // FPL
Token aa_func10(char *lexeme); // OIL
Token aa_func11(char *lexeme); // ES
Token aa_func12(char *lexeme); // ES
//Replace XX with the number of the accepting state: 02, 03 and so on.
/* defining a new type: pointer to function (of one char * argument)
@ -134,9 +135,9 @@ PTR_AAF aa_table[] = {
/* State 8 */ aa_func08,
/* State 9 */ NULL,
/* State 10 */ aa_func10,
/* State 11 */ aa_func11,
/* State 12 */ aa_func11,
/* State 13 */ aa_func11
/* State 11 */ NULL,
/* State 12 */ aa_func12,
/* State 13 */ NULL
//HERE YOU MUST PROVIDE AN INITIALIZATION FOR AN ARRAY OF POINTERS
//TO ACCEPTING FUNCTIONS. THE ARRAY HAS THE SAME SIZE AS as_table[ ].