State functions, minimize columns in transition table
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530
scanner.c
530
scanner.c
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@ -35,6 +35,8 @@
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#define DEBUG /* for conditional processing */
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#undef DEBUG
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/* Global objects - variables */
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/* This buffer is used as a repository for string literals.
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It is defined in platy_st.c */
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@ -84,7 +86,12 @@ which is being processed by the scanner.
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//DECLARE YOUR VARIABLES HERE IF NEEDED
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int i; /* Counter for loop in string error case */
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static int str_offset = 0;
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if (sc_buf == NULL) {
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return aa_func12("RUN TIME ERROR"); /* WHOOPS */
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}
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while (1){ /* endless loop broken by token returns it will generate a warning */
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@ -125,111 +132,212 @@ which is being processed by the scanner.
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c = b_getc(sc_buf);
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return t;
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case '.':
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b_setmark(sc_buf, b_getcoffset(sc_buf)
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default: /* TODO: Do alpha [a-zA-Z] stuff here*/
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b_setmark(sc_buf, b_getcoffset(sc_buf)); /* Set mark before continuing (AND|OR case) */
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if (c == 'A' && b_getc(sc_buf) == 'N' && b_getc(sc_buf) == 'D' && b_getc(sc_buf) == '.') {
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t.code = LOG_OP_T;
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t.attribute.log_op = AND;
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return t;
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}
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else if (c == 'O' && b_getc(sc_buf) == 'R' && b_getc(sc_buf) == '.') {
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t.code = LOG_OP_T;
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t.attribute.log_op = OR;
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}
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t.code = ERR_T; /* "That character's not supposed to be here" case */
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t.attribute.err_lex[0] = '.';
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t.attribute.err_lex[1] = '\0';
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b_retract_to_mark(sc_buf);
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return t;
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case '!':
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c = b_getc(sc_buf);
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if (c == '<') { /* It's a comment line */
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for (; c != '\0' && c != '\r' && c != '\n' && c != 255; c = b_getc(sc_buf)); /* Consume chars until line ends */
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line++;
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continue;
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}
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else { /* Bad character, pump out an error token */
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t = aa_table[ES](" ");
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t.attribute.err_lex[0] = c;
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return t;
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}
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case '=':
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c = b_getc(sc_buf);
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if (c == '=') { /* Relational equals-to operator */
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t.code = REL_OP_T;
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t.attribute.rel_op = EQ;
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}
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b_retract(sc_buf);
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t.code = ASS_OP_T; /* Assignment operator */
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return t;
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case '\"': /* Don't quote me on this */
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c = b_getc(sc_buf);
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b_setmark(sc_buf, b_getcoffset(sc_buf));
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lexstart = (short)str_offset;
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lexend = lexstart;
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for (; c != '\"'; c = b_getc(sc_buf)) {
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b_addc(str_LTBL, c);
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if (b_isfull(str_LTBL)) {
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return aa_table[ES]("\"Imagine all the .."); /* String too big :( */
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}
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if (c == '\n' || c == '\r') {
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line++;
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}
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if (c == 255 || c == '\0') {
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b_retract_to_mark(sc_buf);
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for (i = 0; i < ERR_LEN; i++) {
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t.attribute.err_lex[i] = b_getc(sc_buf);
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}
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}
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lexend++;
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str_offset++;
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} /*end for loop, string finished*/
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str_offset++;
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b_addc(str_LTBL, '\0');
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t.code = STR_T;
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t.attribute.str_offset = lexstart;
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return t; /* String literal */
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default:
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if (isalnum(c) || isalpha(c)) {
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lexend = 0;
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state = 0;
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lex_buf = b_create(1, 1, 'a');
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while (accept == NOAS) {
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b_addc(lex_buf, c);
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state = get_next_state(state, c, &accept);
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if (accept != NOAS)
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break;
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c = b_getc(sc_buf);
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lexend++;
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}
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/* Entering Accepting State */
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b_addc(lex_buf, '\0');
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if (as_table[state] == ASWR)
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b_retract(sc_buf);
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if ((t.attribute.kwt_idx = iskeyword(b_setmark(lex_buf, 0))) != -1) {
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t.code = KW_T;
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b_free(lex_buf);
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return t;
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}
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if (aa_table[state] != NULL) {
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t = aa_table[state](b_setmark(lex_buf, 0));
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}
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else {
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t = aa_table[ES]("RUN TIME ERROR");
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}
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b_free(lex_buf);
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}
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else {
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t = aa_table[ES](" ");
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t.attribute.err_lex[0] = c;
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}
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}
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/* special cases or token driven processing */
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WRITE YOUR CODE FOR PROCESSING THE SPECIAL CASES HERE.
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COMMENTS AND STRING LITERALS ARE ALSO PROCESSED HERE.
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WHAT FOLLOWS IS A PSEUDO CODE. YOU CAN USE switch STATEMENT
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INSTEAD OF if-else TO PROCESS THE SPECIAL CASES
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DO NOT FORGET TO COUNT THE PROGRAM LINES
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IF (c == SOME CHARACTER)
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...
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SKIP CHARACTER (FOR EXAMPLE SPACE)
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continue;
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OR SET TOKEN (SET TOKEN CODE AND TOKEN ATTRIBUTE(IF AVAILABLE))
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return t;
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EXAMPLE:
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if (c == ' ') continue;
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if (c == '{'){ t.code = RBR_T; /*no attribute */ return t;
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if (c == '+'){ t.code = ART_OP_T; t.attribute.arr_op = PLUS */ return t;
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...
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IF (c == '.') TRY TO PROCESS .AND. or .OR.
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IF SOMETHING ELSE FOLLOWS . OR THE LAST . IS MISSING
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RETURN AN ERROR TOKEN
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IF (c == '!') TRY TO PROCESS COMMENT
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IF THE FOLLOWING IS NOT CHAR IS NOT < REPORT AN ERROR
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ELSE IN A LOOP SKIP CHARACTERS UNTIL line terminator is found THEN continue;
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...
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IF STRING (FOR EXAMPLE, "text") IS FOUND
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SET MARK TO MARK THE BEGINNING OF THE STRING
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IF THE STRING IS LEGAL
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USING b_addc(..)COPY THE text FROM INPUT BUFFER INTO str_LTBL
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ADD '\0' at the end make the string C-type string
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SET STRING TOKEN
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(the attribute of the string token is the offset from
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the beginning of the str_LTBL char buffer to the beginning
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of the string (TEXT in the example))
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return t;
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ELSE
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THE STRING LITERAL IS ILLEGAL
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SET ERROR TOKEN FOR ILLEGAL STRING (see assignment)
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DO NOT STORE THE ILLEGAL STRINg IN THE str_LTBL
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return t;
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IF (c == ANOTHER CHARACTER)
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SET TOKEN
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return t;
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///* special cases or token driven processing */
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//
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//WRITE YOUR CODE FOR PROCESSING THE SPECIAL CASES HERE.
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//COMMENTS AND STRING LITERALS ARE ALSO PROCESSED HERE.
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//
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//WHAT FOLLOWS IS A PSEUDO CODE. YOU CAN USE switch STATEMENT
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//INSTEAD OF if-else TO PROCESS THE SPECIAL CASES
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//DO NOT FORGET TO COUNT THE PROGRAM LINES
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//
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//
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// IF (c == SOME CHARACTER)
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// ...
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// SKIP CHARACTER (FOR EXAMPLE SPACE)
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// continue;
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// OR SET TOKEN (SET TOKEN CODE AND TOKEN ATTRIBUTE(IF AVAILABLE))
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// return t;
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// EXAMPLE:
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// if (c == ' ') continue;
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// if (c == '{'){ t.code = RBR_T; /*no attribute */ return t;
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// if (c == '+'){ t.code = ART_OP_T; t.attribute.arr_op = PLUS */ return t;
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// ...
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//
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// IF (c == '.') TRY TO PROCESS .AND. or .OR.
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// IF SOMETHING ELSE FOLLOWS . OR THE LAST . IS MISSING
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// RETURN AN ERROR TOKEN
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// IF (c == '!') TRY TO PROCESS COMMENT
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// IF THE FOLLOWING IS NOT CHAR IS NOT < REPORT AN ERROR
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// ELSE IN A LOOP SKIP CHARACTERS UNTIL line terminator is found THEN continue;
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// ...
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// IF STRING (FOR EXAMPLE, "text") IS FOUND
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// SET MARK TO MARK THE BEGINNING OF THE STRING
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// IF THE STRING IS LEGAL
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// USING b_addc(..)COPY THE text FROM INPUT BUFFER INTO str_LTBL
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// ADD '\0' at the end make the string C-type string
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// SET STRING TOKEN
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// (the attribute of the string token is the offset from
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// the beginning of the str_LTBL char buffer to the beginning
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// of the string (TEXT in the example))
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//
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// return t;
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// ELSE
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// THE STRING LITERAL IS ILLEGAL
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// SET ERROR TOKEN FOR ILLEGAL STRING (see assignment)
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// DO NOT STORE THE ILLEGAL STRINg IN THE str_LTBL
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//
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// return t;
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//
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// IF(c == ANOTHER CHARACTER)
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// SET TOKEN
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// return t;
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/* Process state transition table */
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IF (c is a digit OR c is a letter){
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SET THE MARK AT THE BEGINING OF THE LEXEME
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b_setmark(sc_buf,forward);
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....
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CODE YOUR FINATE STATE MACHINE HERE (FSM or DFA)
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IT IMPLEMENTS THE FOLLOWING ALGORITHM:
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FSM0. Begin with state = 0 and the input character c
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FSM1. Get the next state from the transition table calling
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state = get_next_state(state, c, &accept);
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FSM2. Get the next character
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FSM3. If the state is not accepting (accept == NOAS), go to step FSM1
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If the step is accepting, token is found, leave the machine and
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call an accepting function as described below.
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RETRACT getc_offset IF THE FINAL STATE IS A RETRACTING FINAL STATE
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GET THE BEGINNING AND THE END OF THE LEXEME
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lexstart = b_getmark(sc_buf);
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SET lexend TO getc_offset USING AN APPROPRIATE BUFFER FUNCTION
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CREATE A TEMPORRARY LEXEME BUFFER HERE;
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lex_buf = b_create(...);
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. RETRACT getc_offset to the MARK SET PREVIOUSLY AT THE BEGINNING OF THE LEXEME AND
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. USING b_getc() COPY THE LEXEME BETWEEN lexstart AND lexend FROM THE INPUT BUFFER INTO lex_buf USING b_addc(...),
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. WHEN VID (KEYWORDS INCLUDED), FPL OR IL IS RECOGNIZED
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. YOU MUST CALL THE ACCEPTING FUNCTION USING THE ARRAY aa_table ,WHICH
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. CONTAINS POINTERS TO FUNCTIONS. THE ARRAY INDEX OF THE FUNCTION TO BE
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. CALLED IS STORED IN THE VARIABLE state.
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. YOU ARE NOT ALLOWED TO CALL ANY OF THE ACCEPTING FUNCTIONS BY NAME.
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. THE ARGUMENT TO THE FUNCTION IS THE STRING STORED IN lex_buf.
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....
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b_free(lex_buf);
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return t;
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CHECK OTHER CHARS HERE if NEEDED, SET A TOKEN AND RETURN IT.
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FOR ILLEGAL CHARACTERS SET ERROR TOKEN.
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THE ILLEGAL CHAR IS THE ATTRIBUTE OF THE ERROR TOKEN
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IN A CASE OF RUNTIME ERROR, THE FUNCTION MUST STORE
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A NON-NEGATIVE NUMBER INTO THE GLOBAL VARIABLE scerrnum
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AND RETURN AN ERROR TOKEN. THE ERROR TOKEN ATTRIBUTE MUST
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BE THE STRING "RUN TIME ERROR: "
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//IF (c is a digit OR c is a letter){
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//
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//SET THE MARK AT THE BEGINING OF THE LEXEME
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//b_setmark(sc_buf,forward);
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// ....
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//CODE YOUR FINATE STATE MACHINE HERE (FSM or DFA)
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//IT IMPLEMENTS THE FOLLOWING ALGORITHM:
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//
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//FSM0. Begin with state = 0 and the input character c
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//FSM1. Get the next state from the transition table calling
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// state = get_next_state(state, c, &accept);
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//FSM2. Get the next character
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//FSM3. If the state is not accepting (accept == NOAS), go to step FSM1
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// If the step is accepting, token is found, leave the machine and
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// call an accepting function as described below.
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//
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//
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//RETRACT getc_offset IF THE FINAL STATE IS A RETRACTING FINAL STATE
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//GET THE BEGINNING AND THE END OF THE LEXEME
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//lexstart = b_getmark(sc_buf);
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//SET lexend TO getc_offset USING AN APPROPRIATE BUFFER FUNCTION
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//CREATE A TEMPORRARY LEXEME BUFFER HERE;
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//lex_buf = b_create(...);
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// . RETRACT getc_offset to the MARK SET PREVIOUSLY AT THE BEGINNING OF THE LEXEME AND
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// . USING b_getc() COPY THE LEXEME BETWEEN lexstart AND lexend FROM THE INPUT BUFFER INTO lex_buf USING b_addc(...),
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// . WHEN VID (KEYWORDS INCLUDED), FPL OR IL IS RECOGNIZED
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// . YOU MUST CALL THE ACCEPTING FUNCTION USING THE ARRAY aa_table ,WHICH
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// . CONTAINS POINTERS TO FUNCTIONS. THE ARRAY INDEX OF THE FUNCTION TO BE
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// . CALLED IS STORED IN THE VARIABLE state.
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// . YOU ARE NOT ALLOWED TO CALL ANY OF THE ACCEPTING FUNCTIONS BY NAME.
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// . THE ARGUMENT TO THE FUNCTION IS THE STRING STORED IN lex_buf.
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// ....
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// b_free(lex_buf);
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// return t;
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//
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// CHECK OTHER CHARS HERE if NEEDED, SET A TOKEN AND RETURN IT.
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// FOR ILLEGAL CHARACTERS SET ERROR TOKEN.
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// THE ILLEGAL CHAR IS THE ATTRIBUTE OF THE ERROR TOKEN
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// IN A CASE OF RUNTIME ERROR, THE FUNCTION MUST STORE
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// A NON-NEGATIVE NUMBER INTO THE GLOBAL VARIABLE scerrnum
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// AND RETURN AN ERROR TOKEN. THE ERROR TOKEN ATTRIBUTE MUST
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// BE THE STRING "RUN TIME ERROR: "
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}//end while(1)
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}
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DO NOT MODIFY THE CODE OF THIS FUNCTION
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YOU CAN REMOVE THE COMMENTS
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/* DO NOT MODIFY THE CODE OF THIS FUNCTION
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YOU CAN REMOVE THE COMMENTS */
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int get_next_state(int state, char c, int *accept)
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{
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@ -275,80 +383,133 @@ or #undef DEBUF is used - see the top of the file.
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return next;
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}
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int char_class (char c)
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int char_class(char c)
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{
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int val;
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THIS FUNCTION RETURNS THE COLUMN NUMBER IN THE TRANSITION
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TABLE st_table FOR THE INPUT CHARACTER c.
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SOME COLUMNS MAY REPRESENT A CHARACTER CLASS .
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FOR EXAMPLE IF COLUMN 1 REPRESENTS [A-Z]
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THE FUNCTION RETURNS 1 EVERY TIME c IS ONE
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OF THE LETTERS A,B,...,Z.
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if (isalpha(c))
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val = 0;
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else if (c == '0')
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val = 1;
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else if (c > '0' && c < '8')
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val = 2;
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else if (c == '8' || c == '9')
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val = 3;
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else if (c == '.')
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val = 4;
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else if (c == '#')
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val = 5;
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else
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val = 6;
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return val;
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}
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/*
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HERE YOU WRITE THE DEFINITIONS FOR YOUR ACCEPTING FUNCTIONS.
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************************************************************
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ACCEPTING FUNCTION FOR THE arithmentic variable identifier AND keywords (VID - AVID/KW)
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REPLACE XX WITH THE CORRESPONDING ACCEPTING STATE NUMBER
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*/
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Token aa_funcXX(char lexeme[]){
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Token aa_func02(char lexeme[]) {
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unsigned int kw_i; /* Variable to contain keyword table index */
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Token t;
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char* temp_str;
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WHEN CALLED THE FUNCTION MUST
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1. CHECK IF THE LEXEME IS A KEYWORD.
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if ((kw_i = iskeyword(lexeme)) > -1) { /* Keyword check */
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t.code = KW_T;
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t.attribute.kwt_idx = kw_i;
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return t;
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}
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/* Not a keyword? Must be AVID*/
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if ((temp_str = (char*)calloc(VID_LEN + 1, sizeof(char))) == NULL) {
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return aa_table[ES]("RUN TIME ERROR");
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}
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strncpy(temp_str, lexeme, VID_LEN);
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strncpy(t.attribute.vid_lex, temp_str, VID_LEN);
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free(temp_str);
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switch (lexeme[0]) { /* Read first character of lexeme for implicit type (not used yet?)*/
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case 'i':
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case 'o':
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case 'd':
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case 'n':
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/* Integer */
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break;
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default:
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/* Floating point*/
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}
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return t;
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/*
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WHEN CALLED THE FUNCTION MUST
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1. CHECK IF THE LEXEME IS A KEYWORD.
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IF YES, IT MUST RETURN A TOKEN WITH THE CORRESPONDING ATTRIBUTE
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FOR THE KEYWORD. THE ATTRIBUTE CODE FOR THE KEYWORD
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IS ITS INDEX IN THE KEYWORD LOOKUP TABLE (kw_table in table.h).
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IF THE LEXEME IS NOT A KEYWORD, GO TO STEP 2.
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2. SET a AVID TOKEN.
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2. SET a AVID TOKEN.
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IF THE lexeme IS LONGER than VID_LEN (see token.h) CHARACTERS,
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ONLY FIRST VID_LEN CHARACTERS ARE STORED
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INTO THE VARIABLE ATTRIBUTE ARRAY vid_lex[](see token.h) .
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ADD \0 AT THE END TO MAKE A C-type STRING.
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return t;
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*/
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}
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/*
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ACCEPTING FUNCTION FOR THE string variable identifier (VID - SVID)
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REPLACE XX WITH THE CORRESPONDING ACCEPTING STATE NUMBER
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*/
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Token aa_func03(char lexeme[]) {
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Token t;
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int offset;
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int i;
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char* temp_str;
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if ((temp_str = (char*)calloc(VID_LEN + 2, sizeof(char))) == NULL) {
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return aa_table[ES]("RUN TIME ERROR");
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}
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|
||||
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
51
table.h
|
@ -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[ ].
|
||||
|
|
Loading…
Reference in New Issue