553 lines
12 KiB
C
553 lines
12 KiB
C
/* $Header$ */
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/* L E X I C A L A N A L Y Z E R */
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#include "nofloat.h"
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#include "idfsize.h"
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#include "numsize.h"
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#include "debug.h"
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#include "strsize.h"
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#include "nopp.h"
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#include "input.h"
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#include "alloc.h"
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#include "arith.h"
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#include "def.h"
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#include "idf.h"
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#include "LLlex.h"
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#include "Lpars.h"
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#include "class.h"
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#include "assert.h"
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#include "sizes.h"
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/* Data about the token yielded */
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struct token dot, ahead, aside;
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unsigned int LineNumber = 0; /* current LineNumber */
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char *FileName = 0; /* current filename */
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int ReplaceMacros = 1; /* replacing macros */
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int EoiForNewline = 0; /* return EOI upon encountering newline */
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int PreProcKeys = 0; /* return preprocessor key */
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int AccFileSpecifier = 0; /* return filespecifier <...> */
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int AccDefined = 0; /* accept "defined(...)" */
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int UnknownIdIsZero = 0; /* interpret unknown id as integer 0 */
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int SkipEscNewline = 0; /* how to interpret backslash-newline */
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#define MAX_LL_DEPTH 2
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static struct token LexStack[MAX_LL_DEPTH];
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static LexSP = 0;
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/* In PushLex() the actions are taken in order to initialise or
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re-initialise the lexical scanner.
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E.g. at the invocation of a sub-parser that uses LLlex(), the
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state of the current parser should be saved.
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*/
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PushLex()
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{
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ASSERT(LexSP < 2);
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ASSERT(ASIDE == 0); /* ASIDE = 0; */
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GetToken(&ahead);
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ahead.tk_line = LineNumber;
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ahead.tk_file = FileName;
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LexStack[LexSP++] = dot;
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}
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PopLex()
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{
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ASSERT(LexSP > 0);
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dot = LexStack[--LexSP];
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}
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int
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LLlex()
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{
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/* LLlex() plays the role of Lexical Analyzer for the C parser.
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The look-ahead and putting aside of tokens are taken into
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account.
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*/
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if (ASIDE) { /* a token is put aside */
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dot = aside;
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ASIDE = 0;
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}
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else { /* read ahead and return the old one */
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dot = ahead;
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/* the following test is performed due to the dual
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task of LLlex(): it is also called for parsing the
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restricted constant expression following a #if or
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#elif. The newline character causes EOF to be
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returned in this case to stop the LLgen parsing task.
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*/
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if (DOT != EOI)
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GetToken(&ahead);
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else
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DOT = EOF;
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}
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/* keep track of the place of the token in the file */
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ahead.tk_file = FileName;
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ahead.tk_line = LineNumber;
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return DOT;
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}
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char *string_token();
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int
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GetToken(ptok)
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register struct token *ptok;
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{
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/* GetToken() is the actual token recognizer. It calls the
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control line interpreter if it encounters a "\n#"
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combination. Macro replacement is also performed if it is
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needed.
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*/
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char buf[(IDFSIZE > NUMSIZE ? IDFSIZE : NUMSIZE) + 1];
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register int ch, nch;
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again: /* rescan the input after an error or replacement */
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LoadChar(ch);
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go_on: /* rescan, the following character has been read */
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if ((ch & 0200) && ch != EOI) /* stop on non-ascii character */
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fatal("non-ascii '\\%03o' read", ch & 0377);
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switch (class(ch)) { /* detect character class */
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case STNL: /* newline, vertical space or formfeed */
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LineNumber++; /* also at vs and ff */
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if (EoiForNewline) /* called in control line */
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/* a newline in a control line indicates the
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end-of-information of the line.
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*/
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return ptok->tk_symb = EOI;
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while (LoadChar(ch), ch == '#') /* a control line follows */
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domacro();
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/* We have to loop here, because in
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`domacro' the nl, vt or ff is read. The
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character following it may again be a `#'.
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*/
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goto go_on;
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case STSKIP: /* just skip the skip characters */
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goto again;
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case STGARB: /* garbage character */
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#ifndef NOPP
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if (SkipEscNewline && (ch == '\\')) {
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/* a '\\' is allowed in #if/#elif expression */
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LoadChar(ch);
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if (class(ch) == STNL) { /* vt , ff ? */
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++LineNumber;
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goto again;
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}
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PushBack();
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ch = '\\';
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}
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#endif NOPP
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if (040 < ch && ch < 0177)
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lexerror("garbage char %c", ch);
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else
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lexerror("garbage char \\%03o", ch);
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goto again;
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case STSIMP: /* a simple character, no part of compound token*/
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if (ch == '/') { /* probably the start of comment */
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LoadChar(ch);
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if (ch == '*') { /* start of comment */
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skipcomment();
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goto again;
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}
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else {
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PushBack();
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ch = '/'; /* restore ch */
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}
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}
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return ptok->tk_symb = ch;
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case STCOMP: /* maybe the start of a compound token */
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LoadChar(nch); /* character lookahead */
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switch (ch) {
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case '!':
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if (nch == '=')
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return ptok->tk_symb = NOTEQUAL;
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PushBack();
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return ptok->tk_symb = ch;
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case '&':
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if (nch == '&')
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return ptok->tk_symb = AND;
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PushBack();
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return ptok->tk_symb = ch;
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case '+':
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if (nch == '+')
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return ptok->tk_symb = PLUSPLUS;
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PushBack();
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return ptok->tk_symb = ch;
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case '-':
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if (nch == '-')
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return ptok->tk_symb = MINMIN;
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if (nch == '>')
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return ptok->tk_symb = ARROW;
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PushBack();
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return ptok->tk_symb = ch;
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case '<':
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if (AccFileSpecifier) {
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PushBack(); /* pushback nch */
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ptok->tk_bts = string_token("file specifier",
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'>', &(ptok->tk_len));
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return ptok->tk_symb = FILESPECIFIER;
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}
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if (nch == '<')
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return ptok->tk_symb = LEFT;
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if (nch == '=')
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return ptok->tk_symb = LESSEQ;
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PushBack();
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return ptok->tk_symb = ch;
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case '=':
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if (nch == '=')
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return ptok->tk_symb = EQUAL;
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/* The following piece of code tries to recognise
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old-fashioned assignment operators `=op'
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*/
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switch (nch) {
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case '+':
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return ptok->tk_symb = PLUSAB;
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case '-':
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return ptok->tk_symb = MINAB;
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case '*':
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return ptok->tk_symb = TIMESAB;
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case '/':
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return ptok->tk_symb = DIVAB;
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case '%':
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return ptok->tk_symb = MODAB;
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case '>':
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case '<':
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LoadChar(ch);
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if (ch != nch) {
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PushBack();
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lexerror("illegal combination '=%c'",
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nch);
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}
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return ptok->tk_symb =
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nch == '<' ? LEFTAB : RIGHTAB;
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case '&':
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return ptok->tk_symb = ANDAB;
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case '^':
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return ptok->tk_symb = XORAB;
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case '|':
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return ptok->tk_symb = ORAB;
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}
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PushBack();
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return ptok->tk_symb = ch;
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case '>':
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if (nch == '=')
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return ptok->tk_symb = GREATEREQ;
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if (nch == '>')
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return ptok->tk_symb = RIGHT;
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PushBack();
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return ptok->tk_symb = ch;
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case '|':
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if (nch == '|')
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return ptok->tk_symb = OR;
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PushBack();
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return ptok->tk_symb = ch;
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}
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case STIDF:
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{
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register char *tg = &buf[0];
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register int pos = -1;
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register int hash;
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register struct idf *idef;
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extern int idfsize; /* ??? */
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hash = STARTHASH();
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do { /* read the identifier */
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if (++pos < idfsize) {
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*tg++ = ch;
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hash = ENHASH(hash, ch, pos);
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}
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LoadChar(ch);
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} while (in_idf(ch));
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hash = STOPHASH(hash);
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if (ch != EOI)
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PushBack();
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*tg++ = '\0'; /* mark the end of the identifier */
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idef = ptok->tk_idf = idf_hashed(buf, tg - buf, hash);
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#ifndef NOPP
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if (idef->id_macro && ReplaceMacros && replace(idef))
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/* macro replacement should be performed */
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goto again;
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if (UnknownIdIsZero && idef->id_reserved != SIZEOF) {
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ptok->tk_ival = (arith)0;
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ptok->tk_fund = INT;
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return ptok->tk_symb = INTEGER;
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}
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#endif NOPP
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ptok->tk_symb = (
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idef->id_reserved ? idef->id_reserved
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: idef->id_def && idef->id_def->df_sc == TYPEDEF ?
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TYPE_IDENTIFIER
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: IDENTIFIER
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);
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return IDENTIFIER;
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}
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case STCHAR: /* character constant */
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{
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register arith val = 0, size = 0;
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LoadChar(ch);
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if (ch == '\'')
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lexerror("character constant too short");
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else
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while (ch != '\'') {
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if (ch == '\n') {
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lexerror("newline in character constant");
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LineNumber++;
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break;
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}
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if (ch == '\\') {
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LoadChar(ch);
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if (ch == '\n')
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LineNumber++;
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ch = quoted(ch);
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}
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val = val*256 + ch;
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size++;
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LoadChar(ch);
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}
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if (size > int_size)
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lexerror("character constant too long");
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ptok->tk_ival = val;
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ptok->tk_fund = INT;
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return ptok->tk_symb = INTEGER;
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}
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case STSTR: /* string */
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ptok->tk_bts = string_token("string", '"', &(ptok->tk_len));
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return ptok->tk_symb = STRING;
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case STNUM: /* a numeric constant */
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{
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/* It should be noted that 099 means 81(decimal) and
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099.5 means 99.5 . This severely limits the tricks
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we can use to scan a numeric value.
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*/
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register char *np = &buf[1];
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register int base = 10;
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register int vch;
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register arith val = 0;
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if (ch == '.') { /* an embarrassing ambiguity */
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#ifndef NOFLOAT
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LoadChar(vch);
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PushBack();
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if (!is_dig(vch)) /* just a `.' */
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return ptok->tk_symb = ch;
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*np++ = '0';
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/* in the rest of the compiler, all floats
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have to start with a digit.
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*/
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#else NOFLOAT
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return ptok->tk_symb = ch;
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#endif NOFLOAT
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}
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if (ch == '0') {
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*np++ = ch;
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LoadChar(ch);
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if (ch == 'x' || ch == 'X') {
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base = 16;
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LoadChar(ch);
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}
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else
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base = 8;
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}
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while (vch = val_in_base(ch, base), vch >= 0) {
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val = val*base + vch;
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if (np < &buf[NUMSIZE])
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*np++ = ch;
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LoadChar(ch);
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}
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if (ch == 'l' || ch == 'L') {
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ptok->tk_ival = val;
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ptok->tk_fund = LONG;
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return ptok->tk_symb = INTEGER;
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}
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#ifndef NOFLOAT
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if (base == 16 || !(ch == '.' || ch == 'e' || ch == 'E'))
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#endif NOFLOAT
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{
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PushBack();
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ptok->tk_ival = val;
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/* The semantic analyser must know if the
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integral constant is given in octal/hexa-
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decimal form, in which case its type is
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UNSIGNED, or in decimal form, in which case
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its type is signed, indicated by
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the fund INTEGER.
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*/
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ptok->tk_fund =
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(base == 10 || (base == 8 && val == (arith)0))
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? INTEGER : UNSIGNED;
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return ptok->tk_symb = INTEGER;
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}
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/* where's the test for the length of the integral ??? */
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#ifndef NOFLOAT
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if (ch == '.'){
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if (np < &buf[NUMSIZE])
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*np++ = ch;
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LoadChar(ch);
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}
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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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LoadChar(ch);
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}
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if (ch == 'e' || ch == 'E') {
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if (np < &buf[NUMSIZE])
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*np++ = ch;
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LoadChar(ch);
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if (ch == '+' || ch == '-') {
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if (np < &buf[NUMSIZE])
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*np++ = ch;
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LoadChar(ch);
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}
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if (!is_dig(ch)) {
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lexerror("malformed floating constant");
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if (np < &buf[NUMSIZE])
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*np++ = ch;
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}
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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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LoadChar(ch);
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}
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}
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PushBack();
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*np++ = '\0';
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buf[0] = '-'; /* good heavens... */
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if (np == &buf[NUMSIZE+1]) {
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lexerror("floating constant too long");
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ptok->tk_fval = Salloc("0.0", 5) + 1;
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}
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else
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ptok->tk_fval = Salloc(buf, np - buf) + 1;
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return ptok->tk_symb = FLOATING;
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#endif NOFLOAT
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}
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case STEOI: /* end of text on source file */
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return ptok->tk_symb = EOI;
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default: /* this cannot happen */
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crash("bad class for char 0%o", ch);
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}
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/*NOTREACHED*/
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}
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skipcomment()
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{
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/* The last character read has been the '*' of '/_*'. The
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characters, except NL and EOI, between '/_*' and the first
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occurring '*_/' are not interpreted.
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NL only affects the LineNumber. EOI is not legal.
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Important note: it is not possible to stop skipping comment
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beyond the end-of-file of an included file.
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EOI is returned by LoadChar only on encountering EOF of the
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top-level file...
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*/
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register int c;
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NoUnstack++;
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LoadChar(c);
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do {
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while (c != '*') {
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if (class(c) == STNL)
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++LineNumber;
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else
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if (c == EOI) {
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NoUnstack--;
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return;
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}
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LoadChar(c);
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} /* last Character seen was '*' */
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LoadChar(c);
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} while (c != '/');
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NoUnstack--;
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}
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char *
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string_token(nm, stop_char, plen)
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char *nm;
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int *plen;
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{
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register int ch;
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register int str_size;
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register char *str = Malloc(str_size = ISTRSIZE);
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register int pos = 0;
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LoadChar(ch);
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while (ch != stop_char) {
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if (ch == '\n') {
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lexerror("newline in %s", nm);
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LineNumber++;
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break;
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}
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if (ch == EOI) {
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lexerror("end-of-file inside %s", nm);
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break;
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}
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if (ch == '\\') {
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LoadChar(ch);
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if (ch == '\n')
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LineNumber++;
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ch = quoted(ch);
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}
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str[pos++] = ch;
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if (pos == str_size)
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str = Srealloc(str, str_size += RSTRSIZE);
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LoadChar(ch);
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}
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str[pos++] = '\0'; /* for filenames etc. */
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*plen = pos;
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return str;
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}
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int
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quoted(ch)
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register int ch;
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{
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/* quoted() replaces an escaped character sequence by the
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character meant.
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*/
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/* first char after backslash already in ch */
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if (!is_oct(ch)) { /* a quoted char */
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switch (ch) {
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case 'n':
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ch = '\n';
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break;
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case 't':
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ch = '\t';
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break;
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case 'b':
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ch = '\b';
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break;
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case 'r':
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ch = '\r';
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break;
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case 'f':
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ch = '\f';
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break;
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}
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}
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else { /* a quoted octal */
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register int oct = 0, cnt = 0;
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do {
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oct = oct*8 + (ch-'0');
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LoadChar(ch);
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} while (is_oct(ch) && ++cnt < 3);
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PushBack();
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ch = oct;
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}
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return ch&0377;
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}
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/* provisional */
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int
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val_in_base(ch, base)
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register int ch;
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{
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return
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is_dig(ch) ? ch - '0'
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: base != 16 ? -1
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: is_hex(ch) ? (ch - 'a' + 10) & 017
|
|
: -1;
|
|
}
|