510 lines
9 KiB
C
510 lines
9 KiB
C
/* L E X I C A L A N A L Y S E R F O R M O D U L A - 2 */
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#include "debug.h"
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#include "idfsize.h"
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#include "numsize.h"
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#include "strsize.h"
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#include <alloc.h>
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#include <em_arith.h>
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#include <em_label.h>
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#include <assert.h>
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#include "input.h"
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#include "f_info.h"
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#include "Lpars.h"
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#include "class.h"
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#include "idf.h"
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#include "type.h"
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#include "LLlex.h"
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#include "const.h"
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#include "warning.h"
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long str2long();
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struct token dot,
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aside;
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struct type *toktype;
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int idfsize = IDFSIZE;
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#ifdef DEBUG
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extern int cntlines;
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#endif
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static int eofseen;
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STATIC
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SkipComment()
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{
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/* Skip Modula-2 comments (* ... *).
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Note that comments may be nested (par. 3.5).
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*/
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register int ch;
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register int CommentLevel = 0;
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LoadChar(ch);
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for (;;) {
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if (class(ch) == STNL) {
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LineNumber++;
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#ifdef DEBUG
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cntlines++;
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#endif
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}
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else if (ch == '(') {
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LoadChar(ch);
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if (ch == '*') CommentLevel++;
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else continue;
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}
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else if (ch == '*') {
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LoadChar(ch);
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if (ch == ')') {
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CommentLevel--;
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if (CommentLevel < 0) break;
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}
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else continue;
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}
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else if (ch == EOI) {
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lexerror("unterminated comment");
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break;
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}
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LoadChar(ch);
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}
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}
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STATIC struct string *
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GetString(upto)
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{
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/* Read a Modula-2 string, delimited by the character "upto".
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*/
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register int ch;
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register struct string *str = (struct string *)
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Malloc((unsigned) sizeof(struct string));
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register char *p;
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register int len;
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len = ISTRSIZE;
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str->s_str = p = Malloc((unsigned int) ISTRSIZE);
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while (LoadChar(ch), ch != upto) {
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if (class(ch) == STNL) {
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lexerror("newline in string");
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LineNumber++;
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#ifdef DEBUG
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cntlines++;
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#endif
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break;
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}
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if (ch == EOI) {
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lexerror("end-of-file in string");
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break;
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}
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*p++ = ch;
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if (p - str->s_str == len) {
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str->s_str = Srealloc(str->s_str,
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(unsigned int) len + RSTRSIZE);
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p = str->s_str + len;
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len += RSTRSIZE;
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}
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}
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str->s_length = p - str->s_str;
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while (p - str->s_str < len) *p++ = '\0';
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if (str->s_length == 0) str->s_length = 1; /* ??? string length
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at least 1 ???
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*/
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return str;
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}
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static char *s_error = "illegal line directive";
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STATIC int
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getch()
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{
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register int ch;
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for (;;) {
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LoadChar(ch);
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if ((ch & 0200) && ch != EOI) {
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error("non-ascii '\\%03o' read", ch & 0377);
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continue;
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}
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break;
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}
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if (ch == EOI) {
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eofseen = 1;
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return '\n';
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}
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return ch;
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}
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STATIC
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linedirective() {
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/* Read a line directive
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*/
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register int ch;
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register int i = 0;
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char buf[IDFSIZE + 2];
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register char *c = buf;
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do { /*
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* Skip to next digit
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* Do not skip newlines
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*/
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ch = getch();
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if (class(ch) == STNL) {
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LineNumber++;
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error(s_error);
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return;
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}
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} while (class(ch) != STNUM);
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do {
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i = i*10 + (ch - '0');
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ch = getch();
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} while (class(ch) == STNUM);
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while (ch != '"' && class(ch) != STNL) ch = getch();
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if (ch == '"') {
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c = buf;
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do {
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*c++ = ch = getch();
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if (class(ch) == STNL) {
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LineNumber++;
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error(s_error);
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return;
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}
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} while (ch != '"');
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*--c = '\0';
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do {
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ch = getch();
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} while (class(ch) != STNL);
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/*
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* Remember the file name
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*/
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if (!eofseen && strcmp(FileName,buf)) {
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FileName = Salloc(buf,(unsigned) strlen(buf) + 1);
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}
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}
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if (eofseen) {
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error(s_error);
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return;
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}
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LineNumber = i;
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}
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int
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LLlex()
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{
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/* LLlex() is the Lexical Analyzer.
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The putting aside of tokens is taken into account.
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*/
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register struct token *tk = ˙
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char buf[(IDFSIZE > NUMSIZE ? IDFSIZE : NUMSIZE) + 2];
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register int ch, nch;
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toktype = error_type;
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if (ASIDE) { /* a token is put aside */
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*tk = aside;
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ASIDE = 0;
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return tk->tk_symb;
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}
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tk->tk_lineno = LineNumber;
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again2:
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if (eofseen) {
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eofseen = 0;
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ch = EOI;
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}
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else {
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again:
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LoadChar(ch);
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again1:
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if ((ch & 0200) && ch != EOI) {
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error("non-ascii '\\%03o' read", ch & 0377);
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goto again;
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}
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}
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switch (class(ch)) {
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case STNL:
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LineNumber++;
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#ifdef DEBUG
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cntlines++;
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#endif
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tk->tk_lineno++;
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LoadChar(ch);
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if (ch != '#') goto again1;
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linedirective();
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goto again2;
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case STSKIP:
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goto again;
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case STGARB:
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if (040 < ch && ch < 0177) {
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lexerror("garbage char %c", ch);
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}
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else {
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lexerror("garbage char \\%03o", ch);
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}
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goto again;
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case STSIMP:
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if (ch == '(') {
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LoadChar(nch);
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if (nch == '*') {
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SkipComment();
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goto again;
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}
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else if (nch == EOI) eofseen = 1;
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else PushBack(nch);
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}
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return tk->tk_symb = ch;
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case STCOMP:
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LoadChar(nch);
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switch (ch) {
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case '.':
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if (nch == '.') {
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return tk->tk_symb = UPTO;
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}
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break;
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case ':':
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if (nch == '=') {
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return tk->tk_symb = BECOMES;
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}
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break;
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case '<':
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if (nch == '=') {
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return tk->tk_symb = LESSEQUAL;
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}
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if (nch == '>') {
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lexwarning(W_STRICT, "'<>' is old-fashioned; use '#'");
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return tk->tk_symb = '#';
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}
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break;
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case '>':
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if (nch == '=') {
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return tk->tk_symb = GREATEREQUAL;
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}
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break;
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default :
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crash("(LLlex, STCOMP)");
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}
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if (nch == EOI) eofseen = 1;
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else PushBack(nch);
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return tk->tk_symb = ch;
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case STIDF:
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{
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register char *tag = &buf[0];
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register struct idf *id;
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do {
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if (tag - buf < idfsize) *tag++ = ch;
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LoadChar(ch);
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} while(in_idf(ch));
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if (ch == EOI) eofseen = 1;
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else PushBack(ch);
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*tag++ = '\0';
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tk->TOK_IDF = id = str2idf(buf, 1);
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return tk->tk_symb = id->id_reserved ? id->id_reserved : IDENT;
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}
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case STSTR: {
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register struct string *str = GetString(ch);
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if (str->s_length == 1) {
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tk->TOK_INT = *(str->s_str) & 0377;
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toktype = char_type;
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free(str->s_str);
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free((char *) str);
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}
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else {
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tk->tk_data.tk_str = str;
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toktype = standard_type(T_STRING, 1, str->s_length);
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}
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return tk->tk_symb = STRING;
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}
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case STNUM:
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{
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/* The problem arising with the "parsing" of a number
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is that we don't know the base in advance so we
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have to read the number with the help of a rather
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complex finite automaton.
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*/
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enum statetp {Oct,Hex,Dec,OctEndOrHex,End,OptReal,Real};
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register enum statetp state;
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register int base;
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register char *np = &buf[1];
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/* allow a '-' to be added */
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buf[0] = '-';
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*np++ = ch;
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state = is_oct(ch) ? Oct : Dec;
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LoadChar(ch);
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for (;;) {
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switch(state) {
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case Oct:
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while (is_oct(ch)) {
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if (np < &buf[NUMSIZE]) *np++ = ch;
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LoadChar(ch);
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}
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if (ch == 'B' || ch == 'C') {
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base = 8;
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state = OctEndOrHex;
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break;
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}
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/* Fall Through */
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case Dec:
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base = 10;
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while (is_dig(ch)) {
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if (np < &buf[NUMSIZE]) {
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*np++ = ch;
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}
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LoadChar(ch);
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}
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if (is_hex(ch)) state = Hex;
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else if (ch == '.') state = OptReal;
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else {
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state = End;
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if (ch == 'H') base = 16;
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else if (ch == EOI) eofseen = 1;
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else PushBack(ch);
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}
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break;
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case Hex:
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while (is_hex(ch)) {
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if (np < &buf[NUMSIZE]) *np++ = ch;
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LoadChar(ch);
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}
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base = 16;
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state = End;
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if (ch != 'H') {
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lexerror("H expected after hex number");
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if (ch == EOI) eofseen = 1;
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else PushBack(ch);
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}
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break;
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case OctEndOrHex:
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if (np < &buf[NUMSIZE]) *np++ = ch;
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LoadChar(ch);
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if (ch == 'H') {
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base = 16;
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state = End;
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break;
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}
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if (is_hex(ch)) {
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state = Hex;
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break;
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}
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if (ch == EOI) eofseen = 1;
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else PushBack(ch);
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ch = *--np;
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*np++ = '\0';
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base = 8;
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/* Fall through */
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case End:
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*np++ = '\0';
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tk->TOK_INT = str2long(&buf[1], base);
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if (ch == 'C' && base == 8) {
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toktype = char_type;
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if (tk->TOK_INT<0 || tk->TOK_INT>255) {
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lexwarning(W_ORDINARY, "character constant out of range");
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}
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}
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else if (tk->TOK_INT>=0 &&
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tk->TOK_INT<=max_int) {
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toktype = intorcard_type;
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}
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else toktype = card_type;
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return tk->tk_symb = INTEGER;
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case OptReal:
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/* The '.' could be the first of the '..'
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token. At this point, we need a
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look-ahead of two characters.
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*/
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LoadChar(ch);
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if (ch == '.') {
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/* Indeed the '..' token
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*/
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PushBack(ch);
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PushBack(ch);
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state = End;
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base = 10;
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break;
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}
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state = Real;
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break;
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}
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if (state == Real) break;
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}
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/* a real real constant */
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if (np < &buf[NUMSIZE]) *np++ = '.';
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while (is_dig(ch)) {
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/* Fractional part
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*/
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if (np < &buf[NUMSIZE]) *np++ = ch;
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LoadChar(ch);
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}
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if (ch == 'E') {
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/* Scale factor
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*/
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if (np < &buf[NUMSIZE]) *np++ = 'E';
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LoadChar(ch);
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if (ch == '+' || ch == '-') {
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/* Signed scalefactor
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*/
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if (np < &buf[NUMSIZE]) *np++ = ch;
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LoadChar(ch);
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}
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if (is_dig(ch)) {
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do {
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if (np < &buf[NUMSIZE]) *np++ = ch;
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LoadChar(ch);
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} while (is_dig(ch));
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}
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else {
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lexerror("bad scale factor");
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}
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}
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*np++ = '\0';
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if (ch == EOI) eofseen = 1;
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else PushBack(ch);
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if (np >= &buf[NUMSIZE]) {
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tk->TOK_REL = Salloc("0.0", 5);
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lexerror("floating constant too long");
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}
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else tk->TOK_REL = Salloc(buf, np - buf) + 1;
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toktype = real_type;
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return tk->tk_symb = REAL;
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/*NOTREACHED*/
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}
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case STEOI:
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return tk->tk_symb = -1;
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case STCHAR:
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default:
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crash("(LLlex) Impossible character class");
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/*NOTREACHED*/
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}
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/*NOTREACHED*/
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}
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