ref: dac8c31a33977081e510992580a5e47c2d3ffe84
dir: /cc1/cpp.c/
#include <ctype.h> #include <inttypes.h> #include <limits.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <time.h> #include "../inc/sizes.h" #include "../inc/cc.h" #include "cc1.h" #ifndef PREFIX #define PREFIX "/usr/include/local" #endif static char *argp, *macroname; static unsigned arglen; static Symbol *symline, *symfile; static unsigned char ifstatus[NR_COND]; unsigned cppctx; int disexpand; static Symbol * defmacro(char *s) { Symbol *sym; strcpy(yytext, s); sym = lookup(NS_CPP); sym->flags |= ISDEFINED; return sym; } void icpp(void) { static char sdate[17], stime[14]; struct tm *tm; time_t t; char **bp, *list[] = { "__STDC__", "__STDC_HOSTED__", "__SCC__", NULL }; t = time(NULL); tm = localtime(&t); strftime(sdate, sizeof(sdate), "-1#\"%b %d %Y\"", tm); strftime(stime, sizeof(stime), "-1#\"%H:%M:%S\"", tm); defmacro("__DATE__")->u.s = sdate; defmacro("__TIME__")->u.s = stime; defmacro("__STDC_VERSION__")->u.s = "-1#199409L"; symline = defmacro("__LINE__"); symfile = defmacro("__FILE__"); for (bp = list; *bp; ++bp) defmacro(*bp)->u.s = "-1#1"; } static void nextcpp(void) { next(); if (yytoken == EOFTOK) error("unterminated argument list invoking macro \"%s\"", macroname); if (yylen + 1 > arglen) error("argument overflow invoking macro \"%s\"", macroname); memcpy(argp, yytext, yylen); argp += yylen; *argp++ = ' '; arglen -= yylen + 1; } static void paren(void) { for (;;) { nextcpp(); switch (yytoken) { case ')': return; case '(': paren(); break; } } } static void parameter(void) { for (;;) { nextcpp(); switch (yytoken) { case ')': case ',': argp -= 3; /* remove " , " or " ) "*/ *argp++ = '\0'; return; case '(': paren(); break; } } } static int parsepars(char *buffer, char **listp, int nargs) { int n; if (nargs == -1) return -1; if (ahead() != '(' && nargs > 0) return 0; disexpand = 1; next(); n = 0; argp = buffer; arglen = INPUTSIZ; if (yytoken != ')') { do { *listp++ = argp; parameter(); } while (++n < NR_MACROARG && yytoken == ','); } if (yytoken != ')') error("incorrect macro function alike invocation"); disexpand = 0; if (n == NR_MACROARG) error("too much parameters in macro \"%s\"", macroname); if (n != nargs) { error("macro \"%s\" passed %d arguments, but it takes %d", macroname, n, nargs); } return 1; } static size_t copymacro(char *buffer, char *s, size_t bufsiz, char *arglist[]) { char prevc, c, *arg, *bp = buffer; for (prevc = '\0'; c = *s; prevc = c, ++s) { if (c != '@') { if (c == '#') continue; if (bufsiz-- == 0) goto expansion_too_long; *bp++ = c; } else { size_t size; if (prevc == '#') bufsiz -= 2; arg = arglist[atoi(++s)]; size = strlen(arg); if (size > bufsiz) goto expansion_too_long; if (prevc == '#') *bp++ = '"'; memcpy(bp, arg, size); bp += size; if (prevc == '#') *bp++ = '"'; bufsiz -= size; s += 2; } } *bp = '\0'; return bp - buffer; expansion_too_long: error("expansion of macro \"%s\" is too long", macroname); } #define BUFSIZE ((INPUTSIZ > FILENAME_MAX+2) ? INPUTSIZ : FILENAME_MAX+2) bool expand(char *begin, Symbol *sym) { size_t total, elen, rlen, llen, ilen; int n; char *s = sym->u.s; char *arglist[NR_MACROARG], arguments[INPUTSIZ], buffer[BUFSIZE]; macroname = sym->name; if (sym == symfile) { elen = sprintf(buffer, "\"%s\" ", input->fname); goto substitute; } if (sym == symline) { elen = sprintf(buffer, "%d ", input->nline); goto substitute; } if (!parsepars(arguments, arglist, atoi(s))) return 0; for (n = 0; n < atoi(s); ++n) fprintf(stderr, "MACRO par%d:%s\n", n, arglist[n]); elen = copymacro(buffer, s+3, INPUTSIZ-1, arglist); substitute: fprintf(stderr, "MACRO '%s' expanded to :'%s'\n", macroname, buffer); rlen = strlen(input->p); /* rigth length */ llen = begin - input->line; /* left length */ ilen = input->p - begin; /* invocation length */ total = llen + elen + rlen; if (total >= LINESIZ) error("macro expansion too long"); /* cut macro invocation */ memmove(begin, begin + ilen, rlen); /* paste macro expansion */ memmove(begin + elen, begin, rlen); memcpy(begin, buffer, elen); input->line[total] = '\0'; input->p = input->begin = begin; return 1; } #undef BUFSIZE static int getpars(Symbol *args[NR_MACROARG]) { int n = -1; char *err; if (!accept('(')) return n; ++n; if (accept(')')) return n; do { if (n == NR_MACROARG) { err = "too much parameters in macro"; goto popctx_and_error; } if (yytoken != IDEN) { err = "macro arguments must be identifiers"; goto popctx_and_error; } args[n++] = yylval.sym; next(); } while (accept(',')); expect(')'); return n; popctx_and_error: popctx(); error(err); } static void getdefs(Symbol *args[NR_MACROARG], int nargs, char *bp, size_t bufsiz) { Symbol **argp; char *err; size_t len; int prevc = 0, ispar; for (;;) { ispar = 0; if (yytoken == IDEN) { for (argp = args; argp < &args[nargs]; ++argp) { if (*argp == yylval.sym) break; } if (argp != &args[nargs]) { sprintf(yytext, "@%02d@", (int) (argp - args)); ispar = 1; } } if (prevc == '#' && !ispar) goto bad_stringer; if (yytoken == EOFTOK) break; if ((len = strlen(yytext)) >= bufsiz) { err = "too long macro"; goto popctx_and_error; } memcpy(bp, yytext, len); bp += len; bufsiz -= len; if ((prevc = yytoken) != '#') *bp++ = ' '; next(); } *bp = '\0'; return; bad_stringer: err = "'#' is not followed by a macro parameter"; popctx_and_error: popctx(); error(err); } static void define(void) { Symbol *sym,*args[NR_MACROARG]; char buff[LINESIZ+1]; int n; if (cppoff) return; if (yytoken != IDEN) error("macro names must be identifiers"); sym = yylval.sym; if ((sym->flags & ISDEFINED) && sym->ns == NS_CPP) { warn("'%s' redefined", yytext); free(sym->u.s); } else if (sym->ns != NS_CPP) { sym = lookup(NS_CPP); } sym->flags |= ISDEFINED; pushctx(); next(); n = getpars(args); sprintf(buff, "%02d#", n); getdefs(args, n, buff+3, LINESIZ-3); sym->u.s = xstrdup(buff); fprintf(stderr, "MACRO '%s' defined as '%s'\n", sym->name, buff); popctx(); } static void include(void) { char **bp, *p, file[FILENAME_MAX], path[FILENAME_MAX]; static char *sysinclude[] = { PREFIX"/include/", PREFIX"/local/include/", NULL }; size_t filelen, dirlen; if (cppoff) return; switch (*yytext) { case '<': if ((p = strchr(input->begin, '>')) == NULL) goto bad_include; *p = '\0'; if (p - input->begin >= FILENAME_MAX) goto too_long; strcpy(file, input->begin); input->begin = input->p = p+1; next(); break; case '"': if ((p = strchr(yytext + 1, '"')) == NULL) goto bad_include; *p = '\0'; if (p - yytext + 1 >= FILENAME_MAX) goto too_long; strcpy(file, yytext + 1); next(); if (addinput(file)) return; break; default: goto bad_include; } filelen = strlen(file); for (bp = sysinclude; *bp; ++bp) { dirlen = strlen(*bp); if (dirlen + filelen > FILENAME_MAX-1) continue; memcpy(path, *bp, dirlen); memcpy(path+dirlen, file, filelen); if (addinput(path)) break; } if (*bp) error("included file '%s' not found", file); return; bad_include: error("#include expects \"FILENAME\" or <FILENAME>"); too_long: error("#include FILENAME too long"); } static void line(void) { long n; char *endp; if (cppoff) return; n = strtol(yytext, &endp, 10); if (n <= 0 || n > USHRT_MAX || *endp != '\0') error("first parameter of #line is not a positive integer"); input->nline = yylval.sym->u.i; next(); if (yytoken == EOFTOK) return; if (*yytext != '\"' || yylen == 1) error("second parameter of #line is not a valid filename"); free(input->fname); input->fname = xstrdup(yylval.sym->u.s); next(); } static void pragma(void) { if (cppoff) return; *input->p = '\0'; next(); } static void usererr(void) { if (cppoff) return; printerr("#error %s", input->p); *input->p = '\0'; next(); } static void ifclause(int isdef) { Symbol *sym; unsigned n; int status; if (cppctx == NR_COND-1) error("too much nesting levels of conditional inclusion"); n = cppctx++; if (yytoken != IDEN) { error("no macro name given in #%s directive", (isdef) ? "ifdef" : "ifndef"); } sym = lookup(NS_CPP); next(); status = (sym->flags & ISDEFINED) != 0 == isdef; if (!(ifstatus[n] = status)) ++cppoff; } static void ifdef(void) { ifclause(1); } static void ifndef(void) { ifclause(0); } static void endif(void) { if (cppctx == 0) error("#endif without #if"); if (!ifstatus[--cppctx]) --cppoff; } static void elseclause(void) { int status; if (cppctx == 0) error("#else without #ifdef/ifndef"); status = (ifstatus[cppctx-1] ^= 1); cppoff += (status) ? -1 : 1; } static void undef(void) { Symbol *sym; if (cppoff) return; if (yytoken != IDEN) { error("no macro name given in #undef directive"); return; } sym = lookup(NS_CPP); sym->flags &= ~ISDEFINED; next(); } bool cpp(void) { static struct { uint8_t tok; void (*fun)(void); } *bp, clauses [] = { {DEFINE, define}, {INCLUDE, include}, {LINE, line}, {IFDEF, ifdef}, {IFNDEF, ifndef}, {ELSE, elseclause}, {ENDIF, endif}, {UNDEF, undef}, {PRAGMA, pragma}, {ERROR, usererr}, {0, NULL} }; if (*input->p != '#') return 0; ++input->p; disexpand = 1; lexmode = CPPMODE; setnamespace(NS_CPPCLAUSES); next(); for (bp = clauses; bp->tok && bp->tok != yytoken; ++bp) /* nothing */; if (!bp->tok) error("incorrect preprocessor directive"); next(); (*bp->fun)(); if (yytoken != EOFTOK && !cppoff) error("trailing characters after preprocessor directive"); disexpand = 0; lexmode = CCMODE; return 1; }