/* * Do C preprocessing, based on a token list gathered by * the tokenizer. * * This may not be the smartest preprocessor on the planet. * * Copyright (C) 2003 Transmeta Corp. * 2003-2004 Linus Torvalds * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "lib.h" #include "allocate.h" #include "parse.h" #include "token.h" #include "symbol.h" #include "expression.h" #include "scope.h" static struct ident_list *macros; // only needed for -dD static int false_nesting = 0; static int counter_macro = 0; // __COUNTER__ expansion static int include_level = 0; #define INCLUDEPATHS 300 const char *includepath[INCLUDEPATHS+1] = { "", "/usr/include", "/usr/local/include", NULL }; static const char **quote_includepath = includepath; static const char **angle_includepath = includepath + 1; static const char **isys_includepath = includepath + 1; static const char **sys_includepath = includepath + 1; static const char **dirafter_includepath = includepath + 3; #define dirty_stream(stream) \ do { \ if (!stream->dirty) { \ stream->dirty = 1; \ if (!stream->ifndef) \ stream->protect = NULL; \ } \ } while(0) #define end_group(stream) \ do { \ if (stream->ifndef == stream->top_if) { \ stream->ifndef = NULL; \ if (!stream->dirty) \ stream->protect = NULL; \ else if (stream->protect) \ stream->dirty = 0; \ } \ } while(0) #define nesting_error(stream) \ do { \ stream->dirty = 1; \ stream->ifndef = NULL; \ stream->protect = NULL; \ } while(0) static struct token *alloc_token(struct position *pos) { struct token *token = __alloc_token(0); token->pos.stream = pos->stream; token->pos.line = pos->line; token->pos.pos = pos->pos; token->pos.whitespace = 1; return token; } /* Expand symbol 'sym' at '*list' */ static int expand(struct token **, struct symbol *); static void replace_with_string(struct token *token, const char *str) { int size = strlen(str) + 1; struct string *s = __alloc_string(size); s->length = size; memcpy(s->data, str, size); token_type(token) = TOKEN_STRING; token->string = s; } static void replace_with_integer(struct token *token, unsigned int val) { char *buf = __alloc_bytes(11); sprintf(buf, "%u", val); token_type(token) = TOKEN_NUMBER; token->number = buf; } static struct symbol *lookup_macro(struct ident *ident) { struct symbol *sym = lookup_symbol(ident, NS_MACRO | NS_UNDEF); if (sym && sym->namespace != NS_MACRO) sym = NULL; return sym; } static int token_defined(struct token *token) { if (token_type(token) == TOKEN_IDENT) { struct symbol *sym = lookup_macro(token->ident); if (sym) { sym->used_in = file_scope; return 1; } return 0; } sparse_error(token->pos, "expected preprocessor identifier"); return 0; } static void replace_with_bool(struct token *token, bool val) { static const char *string[] = { "0", "1" }; token_type(token) = TOKEN_NUMBER; token->number = string[val]; } static void replace_with_defined(struct token *token) { replace_with_bool(token, token_defined(token)); } static void replace_with_has_builtin(struct token *token) { struct symbol *sym = lookup_symbol(token->ident, NS_SYMBOL); replace_with_bool(token, sym && sym->builtin); } static void replace_with_has_attribute(struct token *token) { struct symbol *sym = lookup_symbol(token->ident, NS_KEYWORD); replace_with_bool(token, sym && sym->op && sym->op->attribute); } static void expand_line(struct token *token) { replace_with_integer(token, token->pos.line); } static void expand_file(struct token *token) { replace_with_string(token, stream_name(token->pos.stream)); } static void expand_basefile(struct token *token) { replace_with_string(token, base_filename); } static time_t t = 0; static void expand_date(struct token *token) { static char buffer[12]; /* __DATE__: 3 + ' ' + 2 + ' ' + 4 + '\0' */ if (!t) time(&t); strftime(buffer, 12, "%b %e %Y", localtime(&t)); replace_with_string(token, buffer); } static void expand_time(struct token *token) { static char buffer[9]; /* __TIME__: 2 + ':' + 2 + ':' + 2 + '\0' */ if (!t) time(&t); strftime(buffer, 9, "%T", localtime(&t)); replace_with_string(token, buffer); } static void expand_counter(struct token *token) { replace_with_integer(token, counter_macro++); } static void expand_include_level(struct token *token) { replace_with_integer(token, include_level - 1); } static int expand_one_symbol(struct token **list) { struct token *token = *list; struct symbol *sym; if (token->pos.noexpand) return 1; sym = lookup_macro(token->ident); if (!sym) return 1; store_macro_pos(token); if (sym->expander) { sym->expander(token); return 1; } else { sym->used_in = file_scope; return expand(list, sym); } } static inline struct token *scan_next(struct token **where) { struct token *token = *where; if (token_type(token) != TOKEN_UNTAINT) return token; do { token->ident->tainted = 0; token = token->next; } while (token_type(token) == TOKEN_UNTAINT); *where = token; return token; } static void expand_list(struct token **list) { struct token *next; while (!eof_token(next = scan_next(list))) { if (token_type(next) != TOKEN_IDENT || expand_one_symbol(list)) list = &next->next; } } static void preprocessor_line(struct stream *stream, struct token **line); static struct token *collect_arg(struct token *prev, int vararg, struct position *pos, int count) { struct stream *stream = input_streams + prev->pos.stream; struct token **p = &prev->next; struct token *next; int nesting = 0; while (!eof_token(next = scan_next(p))) { if (next->pos.newline && match_op(next, '#')) { if (!next->pos.noexpand) { sparse_error(next->pos, "directive in argument list"); preprocessor_line(stream, p); __free_token(next); /* Free the '#' token */ continue; } } switch (token_type(next)) { case TOKEN_STREAMEND: case TOKEN_STREAMBEGIN: *p = &eof_token_entry; return next; case TOKEN_STRING: case TOKEN_WIDE_STRING: if (count > 1) next->string->immutable = 1; break; } if (false_nesting) { *p = next->next; __free_token(next); continue; } if (match_op(next, '(')) { nesting++; } else if (match_op(next, ')')) { if (!nesting--) break; } else if (match_op(next, ',') && !nesting && !vararg) { break; } next->pos.stream = pos->stream; next->pos.line = pos->line; next->pos.pos = pos->pos; p = &next->next; } *p = &eof_token_entry; return next; } /* * We store arglist as [arg1] ... eof */ struct arg { struct token *arg; struct token *expanded; struct token *str; int n_normal; int n_quoted; int n_str; }; static int collect_arguments(struct token *start, struct token *arglist, struct arg *args, struct token *what) { int wanted = arglist->count.normal; struct token *next = NULL; int count = 0; arglist = arglist->next; /* skip counter */ if (!wanted) { next = collect_arg(start, 0, &what->pos, 0); if (eof_token(next)) goto Eclosing; if (!eof_token(start->next) || !match_op(next, ')')) { count++; goto Emany; } } else { for (count = 0; count < wanted; count++) { struct argcount *p = &arglist->next->count; next = collect_arg(start, p->vararg, &what->pos, p->normal); if (eof_token(next)) goto Eclosing; if (p->vararg && wanted == 1 && eof_token(start->next)) break; arglist = arglist->next->next; args[count].arg = start->next; args[count].n_normal = p->normal; args[count].n_quoted = p->quoted; args[count].n_str = p->str; if (match_op(next, ')')) { count++; break; } start = next; } if (count == wanted && !match_op(next, ')')) goto Emany; if (count == wanted - 1) { struct argcount *p = &arglist->next->count; if (!p->vararg) goto Efew; args[count].arg = NULL; args[count].n_normal = p->normal; args[count].n_quoted = p->quoted; args[count].n_str = p->str; } if (count < wanted - 1) goto Efew; } what->next = next->next; return 1; Efew: sparse_error(what->pos, "macro \"%s\" requires %d arguments, but only %d given", show_token(what), wanted, count); goto out; Emany: while (match_op(next, ',')) { next = collect_arg(next, 0, &what->pos, 0); count++; } if (eof_token(next)) goto Eclosing; sparse_error(what->pos, "macro \"%s\" passed %d arguments, but takes just %d", show_token(what), count, wanted); goto out; Eclosing: sparse_error(what->pos, "unterminated argument list invoking macro \"%s\"", show_token(what)); out: what->next = next->next; return 0; } static struct token *dup_list(struct token *list) { struct token *res = NULL; struct token **p = &res; while (!eof_token(list)) { struct token *newtok = __alloc_token(0); *newtok = *list; *p = newtok; p = &newtok->next; list = list->next; } return res; } static const char *show_token_sequence(struct token *token, int quote) { static char buffer[MAX_STRING]; char *ptr = buffer; int whitespace = 0; if (!token && !quote) return ""; while (!eof_token(token)) { const char *val = quote ? quote_token(token) : show_token(token); int len = strlen(val); if (ptr + whitespace + len >= buffer + sizeof(buffer)) { sparse_error(token->pos, "too long token expansion"); break; } if (whitespace) *ptr++ = ' '; memcpy(ptr, val, len); ptr += len; token = token->next; whitespace = token->pos.whitespace; } *ptr = 0; return buffer; } static struct token *stringify(struct token *arg) { const char *s = show_token_sequence(arg, 1); int size = strlen(s)+1; struct token *token = __alloc_token(0); struct string *string = __alloc_string(size); memcpy(string->data, s, size); string->length = size; token->pos = arg->pos; token_type(token) = TOKEN_STRING; token->string = string; token->next = &eof_token_entry; return token; } static void expand_arguments(int count, struct arg *args) { int i; for (i = 0; i < count; i++) { struct token *arg = args[i].arg; if (!arg) arg = &eof_token_entry; if (args[i].n_str) args[i].str = stringify(arg); if (args[i].n_normal) { if (!args[i].n_quoted) { args[i].expanded = arg; args[i].arg = NULL; } else if (eof_token(arg)) { args[i].expanded = arg; } else { args[i].expanded = dup_list(arg); } expand_list(&args[i].expanded); } } } /* * Possibly valid combinations: * - ident + ident -> ident * - ident + number -> ident unless number contains '.', '+' or '-'. * - 'L' + char constant -> wide char constant * - 'L' + string literal -> wide string literal * - number + number -> number * - number + ident -> number * - number + '.' -> number * - number + '+' or '-' -> number, if number used to end on [eEpP]. * - '.' + number -> number, if number used to start with a digit. * - special + special -> either special or an error. */ static enum token_type combine(struct token *left, struct token *right, char *p) { int len; enum token_type t1 = token_type(left), t2 = token_type(right); if (t1 != TOKEN_IDENT && t1 != TOKEN_NUMBER && t1 != TOKEN_SPECIAL) return TOKEN_ERROR; if (t1 == TOKEN_IDENT && left->ident == &L_ident) { if (t2 >= TOKEN_CHAR && t2 < TOKEN_WIDE_CHAR) return t2 + TOKEN_WIDE_CHAR - TOKEN_CHAR; if (t2 == TOKEN_STRING) return TOKEN_WIDE_STRING; } if (t2 != TOKEN_IDENT && t2 != TOKEN_NUMBER && t2 != TOKEN_SPECIAL) return TOKEN_ERROR; strcpy(p, show_token(left)); strcat(p, show_token(right)); len = strlen(p); if (len >= 256) return TOKEN_ERROR; if (t1 == TOKEN_IDENT) { if (t2 == TOKEN_SPECIAL) return TOKEN_ERROR; if (t2 == TOKEN_NUMBER && strpbrk(p, "+-.")) return TOKEN_ERROR; return TOKEN_IDENT; } if (t1 == TOKEN_NUMBER) { if (t2 == TOKEN_SPECIAL) { switch (right->special) { case '.': break; case '+': case '-': if (strchr("eEpP", p[len - 2])) break; default: return TOKEN_ERROR; } } return TOKEN_NUMBER; } if (p[0] == '.' && isdigit((unsigned char)p[1])) return TOKEN_NUMBER; return TOKEN_SPECIAL; } static int merge(struct token *left, struct token *right) { static char buffer[512]; enum token_type res = combine(left, right, buffer); int n; switch (res) { case TOKEN_IDENT: left->ident = built_in_ident(buffer); left->pos.noexpand = 0; return 1; case TOKEN_NUMBER: token_type(left) = TOKEN_NUMBER; /* could be . + num */ left->number = xstrdup(buffer); return 1; case TOKEN_SPECIAL: if (buffer[2] && buffer[3]) break; for (n = SPECIAL_BASE; n < SPECIAL_ARG_SEPARATOR; n++) { if (!memcmp(buffer, combinations[n-SPECIAL_BASE], 3)) { left->special = n; return 1; } } break; case TOKEN_WIDE_CHAR: case TOKEN_WIDE_STRING: token_type(left) = res; left->pos.noexpand = 0; left->string = right->string; return 1; case TOKEN_WIDE_CHAR_EMBEDDED_0 ... TOKEN_WIDE_CHAR_EMBEDDED_3: token_type(left) = res; left->pos.noexpand = 0; memcpy(left->embedded, right->embedded, 4); return 1; default: ; } sparse_error(left->pos, "'##' failed: concatenation is not a valid token"); return 0; } static struct token *dup_token(struct token *token, struct position *streampos) { struct token *alloc = alloc_token(streampos); token_type(alloc) = token_type(token); alloc->pos.newline = token->pos.newline; alloc->pos.whitespace = token->pos.whitespace; alloc->number = token->number; alloc->pos.noexpand = token->pos.noexpand; return alloc; } static struct token **copy(struct token **where, struct token *list, int *count) { int need_copy = --*count; while (!eof_token(list)) { struct token *token; if (need_copy) token = dup_token(list, &list->pos); else token = list; if (token_type(token) == TOKEN_IDENT && token->ident->tainted) token->pos.noexpand = 1; *where = token; where = &token->next; list = list->next; } *where = &eof_token_entry; return where; } static int handle_kludge(struct token **p, struct arg *args) { struct token *t = (*p)->next->next; while (1) { struct arg *v = &args[t->argnum]; if (token_type(t->next) != TOKEN_CONCAT) { if (v->arg) { /* ignore the first ## */ *p = (*p)->next; return 0; } /* skip the entire thing */ *p = t; return 1; } if (v->arg && !eof_token(v->arg)) return 0; /* no magic */ t = t->next->next; } } static struct token **substitute(struct token **list, struct token *body, struct arg *args) { struct position *base_pos = &(*list)->pos; int *count; enum {Normal, Placeholder, Concat} state = Normal; for (; !eof_token(body); body = body->next) { struct token *added, *arg; struct token **tail; struct token *t; switch (token_type(body)) { case TOKEN_GNU_KLUDGE: /* * GNU kludge: if we had ##, behaviour * depends on whether we had enough arguments to have * a vararg. If we did, ## is just ignored. Otherwise * both , and ## are ignored. Worse, there can be * an arbitrary number of ## in between; if all of * those are empty, we act as if they hadn't been there, * otherwise we act as if the kludge didn't exist. */ t = body; if (handle_kludge(&body, args)) { if (state == Concat) state = Normal; else state = Placeholder; continue; } added = dup_token(t, base_pos); token_type(added) = TOKEN_SPECIAL; tail = &added->next; break; case TOKEN_STR_ARGUMENT: arg = args[body->argnum].str; count = &args[body->argnum].n_str; goto copy_arg; case TOKEN_QUOTED_ARGUMENT: arg = args[body->argnum].arg; count = &args[body->argnum].n_quoted; if (!arg || eof_token(arg)) { if (state == Concat) state = Normal; else state = Placeholder; continue; } goto copy_arg; case TOKEN_MACRO_ARGUMENT: arg = args[body->argnum].expanded; count = &args[body->argnum].n_normal; if (eof_token(arg)) { state = Normal; continue; } copy_arg: tail = copy(&added, arg, count); added->pos.newline = body->pos.newline; added->pos.whitespace = body->pos.whitespace; break; case TOKEN_CONCAT: if (state == Placeholder) state = Normal; else state = Concat; continue; case TOKEN_IDENT: added = dup_token(body, base_pos); if (added->ident->tainted) added->pos.noexpand = 1; tail = &added->next; break; default: added = dup_token(body, base_pos); tail = &added->next; break; } /* * if we got to doing real concatenation, we already have * added something into the list, so containing_token() is OK. */ if (state == Concat && merge(containing_token(list), added)) { *list = added->next; if (tail != &added->next) list = tail; } else { *list = added; list = tail; } state = Normal; } *list = &eof_token_entry; return list; } static int expand(struct token **list, struct symbol *sym) { struct token *last; struct token *token = *list; struct ident *expanding = token->ident; struct token **tail; int nargs = sym->arglist ? sym->arglist->count.normal : 0; struct arg args[nargs]; if (expanding->tainted) { token->pos.noexpand = 1; return 1; } if (sym->arglist) { if (!match_op(scan_next(&token->next), '(')) return 1; if (!collect_arguments(token->next, sym->arglist, args, token)) return 1; expand_arguments(nargs, args); } expanding->tainted = 1; last = token->next; tail = substitute(list, sym->expansion, args); /* * Note that it won't be eof - at least TOKEN_UNTAINT will be there. * We still can lose the newline flag if the sucker expands to nothing, * but the price of dealing with that is probably too high (we'd need * to collect the flags during scan_next()) */ (*list)->pos.newline = token->pos.newline; (*list)->pos.whitespace = token->pos.whitespace; *tail = last; return 0; } static const char *token_name_sequence(struct token *token, int endop, struct token *start) { static char buffer[256]; char *ptr = buffer; while (!eof_token(token) && !match_op(token, endop)) { int len; const char *val = token->string->data; if (token_type(token) != TOKEN_STRING) val = show_token(token); len = strlen(val); memcpy(ptr, val, len); ptr += len; token = token->next; } *ptr = 0; if (endop && !match_op(token, endop)) sparse_error(start->pos, "expected '>' at end of filename"); return buffer; } static int already_tokenized(const char *path) { int stream, next; for (stream = *hash_stream(path); stream >= 0 ; stream = next) { struct stream *s = input_streams + stream; next = s->next_stream; if (s->once) { if (strcmp(path, s->name)) continue; return 1; } if (s->constant != CONSTANT_FILE_YES) continue; if (strcmp(path, s->name)) continue; if (s->protect && !lookup_macro(s->protect)) continue; return 1; } return 0; } /* Handle include of header files. * The relevant options are made compatible with gcc. The only options that * are not supported is -withprefix and friends. * * Three set of include paths are known: * quote_includepath: Path to search when using #include "file.h" * angle_includepath: Paths to search when using #include * isys_includepath: Paths specified with -isystem, come before the * built-in system include paths. Gcc would suppress * warnings from system headers. Here we separate * them from the angle_ ones to keep search ordering. * * sys_includepath: Built-in include paths. * dirafter_includepath Paths added with -dirafter. * * The above is implemented as one array with pointers * +--------------+ * quote_includepath ---> | | * +--------------+ * | | * +--------------+ * angle_includepath ---> | | * +--------------+ * isys_includepath ---> | | * +--------------+ * sys_includepath ---> | | * +--------------+ * dirafter_includepath -> | | * +--------------+ * * -I dir insert dir just before isys_includepath and move the rest * -I- makes all dirs specified with -I before to quote dirs only and * angle_includepath is set equal to isys_includepath. * -nostdinc removes all sys dirs by storing NULL in entry pointed * to by * sys_includepath. Note that this will reset all dirs built-in * and added before -nostdinc by -isystem and -idirafter. * -isystem dir adds dir where isys_includepath points adding this dir as * first systemdir * -idirafter dir adds dir to the end of the list */ static void set_stream_include_path(struct stream *stream) { const char *path = stream->path; if (!path) { const char *p = strrchr(stream->name, '/'); path = ""; if (p) { int len = p - stream->name + 1; char *m = malloc(len+1); /* This includes the final "/" */ memcpy(m, stream->name, len); m[len] = 0; path = m; } stream->path = path; } includepath[0] = path; } #ifndef PATH_MAX #define PATH_MAX 4096 // for Hurd where it's not defined #endif static int try_include(const char *path, const char *filename, int flen, struct token **where, const char **next_path) { int fd; int plen = strlen(path); static char fullname[PATH_MAX]; memcpy(fullname, path, plen); if (plen && path[plen-1] != '/') { fullname[plen] = '/'; plen++; } memcpy(fullname+plen, filename, flen); if (already_tokenized(fullname)) return 1; fd = open(fullname, O_RDONLY); if (fd >= 0) { char *streamname = xmemdup(fullname, plen + flen); *where = tokenize(streamname, fd, *where, next_path); close(fd); return 1; } return 0; } static int do_include_path(const char **pptr, struct token **list, struct token *token, const char *filename, int flen) { const char *path; while ((path = *pptr++) != NULL) { if (!try_include(path, filename, flen, list, pptr)) continue; return 1; } return 0; } static int free_preprocessor_line(struct token *token) { while (token_type(token) != TOKEN_EOF) { struct token *free = token; token = token->next; __free_token(free); }; return 1; } const char *find_include(const char *skip, const char *look_for) { DIR *dp; struct dirent *entry; struct stat statbuf; const char *ret; char cwd[PATH_MAX]; static char buf[PATH_MAX + 1]; dp = opendir("."); if (!dp) return NULL; if (!getcwd(cwd, sizeof(cwd))) goto close; while ((entry = readdir(dp))) { lstat(entry->d_name, &statbuf); if (strcmp(entry->d_name, look_for) == 0) { snprintf(buf, sizeof(buf), "%s/%s", cwd, entry->d_name); closedir(dp); return buf; } if (S_ISDIR(statbuf.st_mode)) { /* Found a directory, but ignore . and .. */ if (strcmp(".", entry->d_name) == 0 || strcmp("..", entry->d_name) == 0 || strcmp(skip, entry->d_name) == 0) continue; chdir(entry->d_name); ret = find_include("", look_for); chdir(".."); if (ret) { closedir(dp); return ret; } } } close: closedir(dp); return NULL; } const char *search_dir(const char *stop, const char *look_for) { char cwd[PATH_MAX]; int len; const char *ret; int cnt = 0; if (!getcwd(cwd, sizeof(cwd))) return NULL; len = strlen(cwd); while (len >= 0) { ret = find_include(cnt++ ? cwd + len + 1 : "", look_for); if (ret) return ret; if (strcmp(cwd, stop) == 0 || strcmp(cwd, "/usr/include") == 0 || strcmp(cwd, "/usr/local/include") == 0 || strlen(cwd) <= 10 || /* heck... don't search /usr/lib/ */ strcmp(cwd, "/") == 0) return NULL; while (--len >= 0) { if (cwd[len] == '/') { cwd[len] = '\0'; break; } } chdir(".."); } return NULL; } static void use_best_guess_header_file(struct token *token, const char *filename, struct token **list) { char cwd[PATH_MAX]; char dir_part[PATH_MAX]; const char *file_part; const char *include_name; static int cnt; int len; /* Avoid guessing includes recursively. */ if (cnt++ > 1000) return; if (!filename || filename[0] == '\0') return; file_part = filename; while ((filename = strchr(filename, '/'))) { ++filename; if (filename[0]) file_part = filename; } snprintf(dir_part, sizeof(dir_part), "%s", stream_name(token->pos.stream)); len = strlen(dir_part); while (--len >= 0) { if (dir_part[len] == '/') { dir_part[len] = '\0'; break; } } if (len < 0) sprintf(dir_part, "."); if (!getcwd(cwd, sizeof(cwd))) return; chdir(dir_part); include_name = search_dir(cwd, file_part); chdir(cwd); if (!include_name) return; sparse_error(token->pos, "using '%s'", include_name); try_include("", include_name, strlen(include_name), list, includepath); } static int handle_include_path(struct stream *stream, struct token **list, struct token *token, int how) { const char *filename; struct token *next; const char **path; int expect; int flen; next = token->next; expect = '>'; if (!match_op(next, '<')) { expand_list(&token->next); expect = 0; next = token; if (match_op(token->next, '<')) { next = token->next; expect = '>'; } } token = next->next; filename = token_name_sequence(token, expect, token); flen = strlen(filename) + 1; /* Absolute path? */ if (filename[0] == '/') { if (try_include("", filename, flen, list, includepath)) return 0; goto out; } switch (how) { case 1: path = stream->next_path; break; case 2: includepath[0] = ""; path = includepath; break; default: /* Dir of input file is first dir to search for quoted includes */ set_stream_include_path(stream); path = expect ? angle_includepath : quote_includepath; break; } /* Check the standard include paths.. */ if (do_include_path(path, list, token, filename, flen)) return 0; out: sparse_error(token->pos, "unable to open '%s'", filename); use_best_guess_header_file(token, filename, list); return 0; } static int handle_include(struct stream *stream, struct token **list, struct token *token) { return handle_include_path(stream, list, token, 0); } static int handle_include_next(struct stream *stream, struct token **list, struct token *token) { return handle_include_path(stream, list, token, 1); } static int handle_argv_include(struct stream *stream, struct token **list, struct token *token) { return handle_include_path(stream, list, token, 2); } static int token_different(struct token *t1, struct token *t2) { int different; if (token_type(t1) != token_type(t2)) return 1; switch (token_type(t1)) { case TOKEN_IDENT: different = t1->ident != t2->ident; break; case TOKEN_ARG_COUNT: case TOKEN_UNTAINT: case TOKEN_CONCAT: case TOKEN_GNU_KLUDGE: different = 0; break; case TOKEN_NUMBER: different = strcmp(t1->number, t2->number); break; case TOKEN_SPECIAL: different = t1->special != t2->special; break; case TOKEN_MACRO_ARGUMENT: case TOKEN_QUOTED_ARGUMENT: case TOKEN_STR_ARGUMENT: different = t1->argnum != t2->argnum; break; case TOKEN_CHAR_EMBEDDED_0 ... TOKEN_CHAR_EMBEDDED_3: case TOKEN_WIDE_CHAR_EMBEDDED_0 ... TOKEN_WIDE_CHAR_EMBEDDED_3: different = memcmp(t1->embedded, t2->embedded, 4); break; case TOKEN_CHAR: case TOKEN_WIDE_CHAR: case TOKEN_STRING: case TOKEN_WIDE_STRING: { struct string *s1, *s2; s1 = t1->string; s2 = t2->string; different = 1; if (s1->length != s2->length) break; different = memcmp(s1->data, s2->data, s1->length); break; } default: different = 1; break; } return different; } static int token_list_different(struct token *list1, struct token *list2) { for (;;) { if (list1 == list2) return 0; if (!list1 || !list2) return 1; if (token_different(list1, list2)) return 1; list1 = list1->next; list2 = list2->next; } } static inline void set_arg_count(struct token *token) { token_type(token) = TOKEN_ARG_COUNT; token->count.normal = token->count.quoted = token->count.str = token->count.vararg = 0; } static struct token *parse_arguments(struct token *list) { struct token *arg = list->next, *next = list; struct argcount *count = &list->count; set_arg_count(list); if (match_op(arg, ')')) { next = arg->next; list->next = &eof_token_entry; return next; } while (token_type(arg) == TOKEN_IDENT) { if (arg->ident == &__VA_ARGS___ident) goto Eva_args; if (!++count->normal) goto Eargs; next = arg->next; if (match_op(next, ',')) { set_arg_count(next); arg = next->next; continue; } if (match_op(next, ')')) { set_arg_count(next); next = next->next; arg->next->next = &eof_token_entry; return next; } /* normal cases are finished here */ if (match_op(next, SPECIAL_ELLIPSIS)) { if (match_op(next->next, ')')) { set_arg_count(next); next->count.vararg = 1; next = next->next; arg->next->next = &eof_token_entry; return next->next; } arg = next; goto Enotclosed; } if (eof_token(next)) { goto Enotclosed; } else { arg = next; goto Ebadstuff; } } if (match_op(arg, SPECIAL_ELLIPSIS)) { next = arg->next; token_type(arg) = TOKEN_IDENT; arg->ident = &__VA_ARGS___ident; if (!match_op(next, ')')) goto Enotclosed; if (!++count->normal) goto Eargs; set_arg_count(next); next->count.vararg = 1; next = next->next; arg->next->next = &eof_token_entry; return next; } if (eof_token(arg)) { arg = next; goto Enotclosed; } if (match_op(arg, ',')) goto Emissing; else goto Ebadstuff; Emissing: sparse_error(arg->pos, "parameter name missing"); return NULL; Ebadstuff: sparse_error(arg->pos, "\"%s\" may not appear in macro parameter list", show_token(arg)); return NULL; Enotclosed: sparse_error(arg->pos, "missing ')' in macro parameter list"); return NULL; Eva_args: sparse_error(arg->pos, "__VA_ARGS__ can only appear in the expansion of a C99 variadic macro"); return NULL; Eargs: sparse_error(arg->pos, "too many arguments in macro definition"); return NULL; } static int try_arg(struct token *token, enum token_type type, struct token *arglist) { struct ident *ident = token->ident; int nr; if (!arglist || token_type(token) != TOKEN_IDENT) return 0; arglist = arglist->next; for (nr = 0; !eof_token(arglist); nr++, arglist = arglist->next->next) { if (arglist->ident == ident) { struct argcount *count = &arglist->next->count; int n; token->argnum = nr; token_type(token) = type; switch (type) { case TOKEN_MACRO_ARGUMENT: n = ++count->normal; break; case TOKEN_QUOTED_ARGUMENT: n = ++count->quoted; break; default: n = ++count->str; } if (n) return count->vararg ? 2 : 1; /* * XXX - need saner handling of that * (>= 1024 instances of argument) */ token_type(token) = TOKEN_ERROR; return -1; } } return 0; } static struct token *handle_hash(struct token **p, struct token *arglist) { struct token *token = *p; if (arglist) { struct token *next = token->next; if (!try_arg(next, TOKEN_STR_ARGUMENT, arglist)) goto Equote; next->pos.whitespace = token->pos.whitespace; __free_token(token); token = *p = next; } else { token->pos.noexpand = 1; } return token; Equote: sparse_error(token->pos, "'#' is not followed by a macro parameter"); return NULL; } /* token->next is ## */ static struct token *handle_hashhash(struct token *token, struct token *arglist) { struct token *last = token; struct token *concat; int state = match_op(token, ','); try_arg(token, TOKEN_QUOTED_ARGUMENT, arglist); while (1) { struct token *t; int is_arg; /* eat duplicate ## */ concat = token->next; while (match_op(t = concat->next, SPECIAL_HASHHASH)) { token->next = t; __free_token(concat); concat = t; } token_type(concat) = TOKEN_CONCAT; if (eof_token(t)) goto Econcat; if (match_op(t, '#')) { t = handle_hash(&concat->next, arglist); if (!t) return NULL; } is_arg = try_arg(t, TOKEN_QUOTED_ARGUMENT, arglist); if (state == 1 && is_arg) { state = is_arg; } else { last = t; state = match_op(t, ','); } token = t; if (!match_op(token->next, SPECIAL_HASHHASH)) break; } /* handle GNU ,##__VA_ARGS__ kludge, in all its weirdness */ if (state == 2) token_type(last) = TOKEN_GNU_KLUDGE; return token; Econcat: sparse_error(concat->pos, "'##' cannot appear at the ends of macro expansion"); return NULL; } static struct token *parse_expansion(struct token *expansion, struct token *arglist, struct ident *name) { struct token *token = expansion; struct token **p; if (match_op(token, SPECIAL_HASHHASH)) goto Econcat; for (p = &expansion; !eof_token(token); p = &token->next, token = *p) { if (match_op(token, '#')) { token = handle_hash(p, arglist); if (!token) return NULL; } if (match_op(token->next, SPECIAL_HASHHASH)) { token = handle_hashhash(token, arglist); if (!token) return NULL; } else { try_arg(token, TOKEN_MACRO_ARGUMENT, arglist); } switch (token_type(token)) { case TOKEN_ERROR: goto Earg; case TOKEN_STRING: case TOKEN_WIDE_STRING: token->string->immutable = 1; break; } } token = alloc_token(&expansion->pos); token_type(token) = TOKEN_UNTAINT; token->ident = name; token->next = *p; *p = token; return expansion; Econcat: sparse_error(token->pos, "'##' cannot appear at the ends of macro expansion"); return NULL; Earg: sparse_error(token->pos, "too many instances of argument in body"); return NULL; } static int do_define(struct position pos, struct token *token, struct ident *name, struct token *arglist, struct token *expansion, int attr) { struct symbol *sym; int ret = 1; expansion = parse_expansion(expansion, arglist, name); if (!expansion) return 1; sym = lookup_symbol(name, NS_MACRO | NS_UNDEF); if (sym) { int clean; if (attr < sym->attr) goto out; clean = (attr == sym->attr && sym->namespace == NS_MACRO); if (token_list_different(sym->expansion, expansion) || token_list_different(sym->arglist, arglist)) { ret = 0; if ((clean && attr == SYM_ATTR_NORMAL) || sym->used_in == file_scope) { warning(pos, "preprocessor token %.*s redefined", name->len, name->name); info(sym->pos, "this was the original definition"); } } else if (clean) goto out; } if (!sym || sym->scope != file_scope) { sym = alloc_symbol(pos, SYM_NODE); bind_symbol(sym, name, NS_MACRO); add_ident(¯os, name); ret = 0; } if (!ret) { sym->expansion = expansion; sym->arglist = arglist; if (token) /* Free the "define" token, but not the rest of the line */ __free_token(token); } sym->namespace = NS_MACRO; sym->used_in = NULL; sym->attr = attr; out: return ret; } /// // predefine a macro with a printf-formatted value // @name: the name of the macro // @weak: 0/1 for a normal or a weak define // @fmt: the printf format followed by it's arguments. // // The type of the value is automatically infered: // TOKEN_NUMBER if it starts by a digit, TOKEN_IDENT otherwise. // If @fmt is null or empty, the macro is defined with an empty definition. void predefine(const char *name, int weak, const char *fmt, ...) { struct ident *ident = built_in_ident(name); struct token *value = &eof_token_entry; int attr = weak ? SYM_ATTR_WEAK : SYM_ATTR_NORMAL; if (fmt && fmt[0]) { static char buf[256]; va_list ap; va_start(ap, fmt); vsnprintf(buf, sizeof(buf), fmt, ap); va_end(ap); value = __alloc_token(0); if (isdigit(buf[0])) { token_type(value) = TOKEN_NUMBER; value->number = xstrdup(buf); } else { token_type(value) = TOKEN_IDENT; value->ident = built_in_ident(buf); } value->pos.whitespace = 1; value->next = &eof_token_entry; } do_define(value->pos, NULL, ident, NULL, value, attr); } /// // like predefine() but only if one of the non-standard dialect is chosen void predefine_nostd(const char *name) { if ((standard & STANDARD_GNU) || (standard == STANDARD_NONE)) predefine(name, 1, "1"); } static int do_handle_define(struct stream *stream, struct token **line, struct token *token, int attr) { struct token *arglist, *expansion; struct token *left = token->next; struct ident *name; if (token_type(left) != TOKEN_IDENT) { sparse_error(token->pos, "expected identifier to 'define'"); return 1; } name = left->ident; arglist = NULL; expansion = left->next; if (!expansion->pos.whitespace) { if (match_op(expansion, '(')) { arglist = expansion; expansion = parse_arguments(expansion); if (!expansion) return 1; } else if (!eof_token(expansion)) { warning(expansion->pos, "no whitespace before object-like macro body"); } } return do_define(left->pos, token, name, arglist, expansion, attr); } static int handle_define(struct stream *stream, struct token **line, struct token *token) { return do_handle_define(stream, line, token, SYM_ATTR_NORMAL); } static int handle_weak_define(struct stream *stream, struct token **line, struct token *token) { return do_handle_define(stream, line, token, SYM_ATTR_WEAK); } static int handle_strong_define(struct stream *stream, struct token **line, struct token *token) { return do_handle_define(stream, line, token, SYM_ATTR_STRONG); } static int do_handle_undef(struct stream *stream, struct token **line, struct token *token, int attr) { struct token *left = token->next; struct symbol *sym; if (token_type(left) != TOKEN_IDENT) { sparse_error(token->pos, "expected identifier to 'undef'"); return 1; } sym = lookup_symbol(left->ident, NS_MACRO | NS_UNDEF); if (sym) { if (attr < sym->attr) return 1; if (attr == sym->attr && sym->namespace == NS_UNDEF) return 1; } else if (attr <= SYM_ATTR_NORMAL) return 1; if (!sym || sym->scope != file_scope) { sym = alloc_symbol(left->pos, SYM_NODE); bind_symbol(sym, left->ident, NS_MACRO); } sym->namespace = NS_UNDEF; sym->used_in = NULL; sym->attr = attr; return 1; } static int handle_undef(struct stream *stream, struct token **line, struct token *token) { return do_handle_undef(stream, line, token, SYM_ATTR_NORMAL); } static int handle_strong_undef(struct stream *stream, struct token **line, struct token *token) { return do_handle_undef(stream, line, token, SYM_ATTR_STRONG); } static int preprocessor_if(struct stream *stream, struct token *token, int cond) { token_type(token) = false_nesting ? TOKEN_SKIP_GROUPS : TOKEN_IF; free_preprocessor_line(token->next); token->next = stream->top_if; stream->top_if = token; if (false_nesting || cond != 1) false_nesting++; return 0; } static int handle_ifdef(struct stream *stream, struct token **line, struct token *token) { struct token *next = token->next; int arg; if (token_type(next) == TOKEN_IDENT) { arg = token_defined(next); } else { dirty_stream(stream); if (!false_nesting) sparse_error(token->pos, "expected preprocessor identifier"); arg = -1; } return preprocessor_if(stream, token, arg); } static int handle_ifndef(struct stream *stream, struct token **line, struct token *token) { struct token *next = token->next; int arg; if (token_type(next) == TOKEN_IDENT) { if (!stream->dirty && !stream->ifndef) { if (!stream->protect) { stream->ifndef = token; stream->protect = next->ident; } else if (stream->protect == next->ident) { stream->ifndef = token; stream->dirty = 1; } } arg = !token_defined(next); } else { dirty_stream(stream); if (!false_nesting) sparse_error(token->pos, "expected preprocessor identifier"); arg = -1; } return preprocessor_if(stream, token, arg); } static const char *show_token_sequence(struct token *token, int quote); /* * Expression handling for #if and #elif; it differs from normal expansion * due to special treatment of "defined". */ static int expression_value(struct token **where) { struct expression *expr; struct token *p; struct token **list = where, **beginning = NULL; long long value; int state = 0; while (!eof_token(p = scan_next(list))) { switch (state) { case 0: if (token_type(p) != TOKEN_IDENT) break; if (p->ident == &defined_ident) { state = 1; beginning = list; break; } else if (p->ident == &__has_builtin_ident) { state = 4; beginning = list; break; } else if (p->ident == &__has_attribute_ident) { state = 6; beginning = list; break; } if (!expand_one_symbol(list)) continue; if (token_type(p) != TOKEN_IDENT) break; token_type(p) = TOKEN_ZERO_IDENT; break; case 1: if (match_op(p, '(')) { state = 2; } else { state = 0; replace_with_defined(p); *beginning = p; } break; case 2: if (token_type(p) == TOKEN_IDENT) state = 3; else state = 0; replace_with_defined(p); *beginning = p; break; case 3: state = 0; if (!match_op(p, ')')) sparse_error(p->pos, "missing ')' after \"defined\""); *list = p->next; continue; // __has_builtin(x) or __has_attribute(x) case 4: case 6: if (match_op(p, '(')) { state++; } else { sparse_error(p->pos, "missing '(' after \"__has_%s\"", state == 4 ? "builtin" : "attribute"); state = 0; } *beginning = p; break; case 5: case 7: if (token_type(p) != TOKEN_IDENT) { sparse_error(p->pos, "identifier expected"); state = 0; break; } if (!match_op(p->next, ')')) sparse_error(p->pos, "missing ')' after \"__has_%s\"", state == 5 ? "builtin" : "attribute"); if (state == 5) replace_with_has_builtin(p); else replace_with_has_attribute(p); state = 8; *beginning = p; break; case 8: state = 0; *list = p->next; continue; } list = &p->next; } p = constant_expression(*where, &expr); if (!eof_token(p)) sparse_error(p->pos, "garbage at end: %s", show_token_sequence(p, 0)); value = get_expression_value(expr); return value != 0; } static int handle_if(struct stream *stream, struct token **line, struct token *token) { int value = 0; if (!false_nesting) value = expression_value(&token->next); dirty_stream(stream); return preprocessor_if(stream, token, value); } static int handle_elif(struct stream * stream, struct token **line, struct token *token) { struct token *top_if = stream->top_if; end_group(stream); if (!top_if) { nesting_error(stream); sparse_error(token->pos, "unmatched #elif within stream"); return 1; } if (token_type(top_if) == TOKEN_ELSE) { nesting_error(stream); sparse_error(token->pos, "#elif after #else"); if (!false_nesting) false_nesting = 1; return 1; } dirty_stream(stream); if (token_type(top_if) != TOKEN_IF) return 1; if (false_nesting) { false_nesting = 0; if (!expression_value(&token->next)) false_nesting = 1; } else { false_nesting = 1; token_type(top_if) = TOKEN_SKIP_GROUPS; } return 1; } static int handle_else(struct stream *stream, struct token **line, struct token *token) { struct token *top_if = stream->top_if; end_group(stream); if (!top_if) { nesting_error(stream); sparse_error(token->pos, "unmatched #else within stream"); return 1; } if (token_type(top_if) == TOKEN_ELSE) { nesting_error(stream); sparse_error(token->pos, "#else after #else"); } if (false_nesting) { if (token_type(top_if) == TOKEN_IF) false_nesting = 0; } else { false_nesting = 1; } token_type(top_if) = TOKEN_ELSE; return 1; } static int handle_endif(struct stream *stream, struct token **line, struct token *token) { struct token *top_if = stream->top_if; end_group(stream); if (!top_if) { nesting_error(stream); sparse_error(token->pos, "unmatched #endif in stream"); return 1; } if (false_nesting) false_nesting--; stream->top_if = top_if->next; __free_token(top_if); return 1; } static int handle_warning(struct stream *stream, struct token **line, struct token *token) { warning(token->pos, "%s", show_token_sequence(token->next, 0)); return 1; } static int handle_error(struct stream *stream, struct token **line, struct token *token) { sparse_error(token->pos, "%s", show_token_sequence(token->next, 0)); return 1; } static int handle_nostdinc(struct stream *stream, struct token **line, struct token *token) { /* * Do we have any non-system includes? * Clear them out if so.. */ *sys_includepath = NULL; return 1; } static inline void update_inc_ptrs(const char ***where) { if (*where <= dirafter_includepath) { dirafter_includepath++; /* If this was the entry that we prepend, don't * rise the lower entries, even if they are at * the same level. */ if (where == &dirafter_includepath) return; } if (*where <= sys_includepath) { sys_includepath++; if (where == &sys_includepath) return; } if (*where <= isys_includepath) { isys_includepath++; if (where == &isys_includepath) return; } /* angle_includepath is actually never updated, since we * don't suppport -iquote rught now. May change some day. */ if (*where <= angle_includepath) { angle_includepath++; if (where == &angle_includepath) return; } } /* Add a path before 'where' and update the pointers associated with the * includepath array */ static void add_path_entry(struct token *token, const char *path, const char ***where) { const char **dst; const char *next; /* Need one free entry.. */ if (includepath[INCLUDEPATHS-2]) error_die(token->pos, "too many include path entries"); /* check that this is not a duplicate */ dst = includepath; while (*dst) { if (strcmp(*dst, path) == 0) return; dst++; } next = path; dst = *where; update_inc_ptrs(where); /* * Move them all up starting at dst, * insert the new entry.. */ do { const char *tmp = *dst; *dst = next; next = tmp; dst++; } while (next); } static int handle_add_include(struct stream *stream, struct token **line, struct token *token) { for (;;) { token = token->next; if (eof_token(token)) return 1; if (token_type(token) != TOKEN_STRING) { warning(token->pos, "expected path string"); return 1; } add_path_entry(token, token->string->data, &isys_includepath); } } static int handle_add_isystem(struct stream *stream, struct token **line, struct token *token) { for (;;) { token = token->next; if (eof_token(token)) return 1; if (token_type(token) != TOKEN_STRING) { sparse_error(token->pos, "expected path string"); return 1; } add_path_entry(token, token->string->data, &sys_includepath); } } static int handle_add_system(struct stream *stream, struct token **line, struct token *token) { for (;;) { token = token->next; if (eof_token(token)) return 1; if (token_type(token) != TOKEN_STRING) { sparse_error(token->pos, "expected path string"); return 1; } add_path_entry(token, token->string->data, &dirafter_includepath); } } /* Add to end on includepath list - no pointer updates */ static void add_dirafter_entry(struct token *token, const char *path) { const char **dst = includepath; /* Need one free entry.. */ if (includepath[INCLUDEPATHS-2]) error_die(token->pos, "too many include path entries"); /* Add to the end */ while (*dst) dst++; *dst = path; dst++; *dst = NULL; } static int handle_add_dirafter(struct stream *stream, struct token **line, struct token *token) { for (;;) { token = token->next; if (eof_token(token)) return 1; if (token_type(token) != TOKEN_STRING) { sparse_error(token->pos, "expected path string"); return 1; } add_dirafter_entry(token, token->string->data); } } static int handle_split_include(struct stream *stream, struct token **line, struct token *token) { /* * -I- * From info gcc: * Split the include path. Any directories specified with `-I' * options before `-I-' are searched only for headers requested with * `#include "FILE"'; they are not searched for `#include '. * If additional directories are specified with `-I' options after * the `-I-', those directories are searched for all `#include' * directives. * In addition, `-I-' inhibits the use of the directory of the current * file directory as the first search directory for `#include "FILE"'. */ quote_includepath = includepath+1; angle_includepath = sys_includepath; return 1; } /* * We replace "#pragma xxx" with "__pragma__" in the token * stream. Just as an example. * * We'll just #define that away for now, but the theory here * is that we can use this to insert arbitrary token sequences * to turn the pragmas into internal front-end sequences for * when we actually start caring about them. * * So eventually this will turn into some kind of extended * __attribute__() like thing, except called __pragma__(xxx). */ static int handle_pragma(struct stream *stream, struct token **line, struct token *token) { struct token *next = *line; if (match_ident(token->next, &once_ident) && eof_token(token->next->next)) { stream->once = 1; return 1; } token->ident = &pragma_ident; token->pos.newline = 1; token->pos.whitespace = 1; token->pos.pos = 1; *line = token; token->next = next; return 0; } /* * We ignore #line for now. */ static int handle_line(struct stream *stream, struct token **line, struct token *token) { return 1; } static int handle_ident(struct stream *stream, struct token **line, struct token *token) { return 1; } static int handle_nondirective(struct stream *stream, struct token **line, struct token *token) { sparse_error(token->pos, "unrecognized preprocessor line '%s'", show_token_sequence(token, 0)); return 1; } static void init_preprocessor(void) { int i; int stream = init_stream("preprocessor", -1, includepath); static struct { const char *name; int (*handler)(struct stream *, struct token **, struct token *); } normal[] = { { "define", handle_define }, { "weak_define", handle_weak_define }, { "strong_define", handle_strong_define }, { "undef", handle_undef }, { "strong_undef", handle_strong_undef }, { "warning", handle_warning }, { "error", handle_error }, { "include", handle_include }, { "include_next", handle_include_next }, { "pragma", handle_pragma }, { "line", handle_line }, { "ident", handle_ident }, // our internal preprocessor tokens { "nostdinc", handle_nostdinc }, { "add_include", handle_add_include }, { "add_isystem", handle_add_isystem }, { "add_system", handle_add_system }, { "add_dirafter", handle_add_dirafter }, { "split_include", handle_split_include }, { "argv_include", handle_argv_include }, }, special[] = { { "ifdef", handle_ifdef }, { "ifndef", handle_ifndef }, { "else", handle_else }, { "endif", handle_endif }, { "if", handle_if }, { "elif", handle_elif }, }; static struct { const char *name; void (*expander)(struct token *); } dynamic[] = { { "__LINE__", expand_line }, { "__FILE__", expand_file }, { "__BASE_FILE__", expand_basefile }, { "__DATE__", expand_date }, { "__TIME__", expand_time }, { "__COUNTER__", expand_counter }, { "__INCLUDE_LEVEL__", expand_include_level }, }; for (i = 0; i < ARRAY_SIZE(normal); i++) { struct symbol *sym; sym = create_symbol(stream, normal[i].name, SYM_PREPROCESSOR, NS_PREPROCESSOR); sym->handler = normal[i].handler; sym->normal = 1; } for (i = 0; i < ARRAY_SIZE(special); i++) { struct symbol *sym; sym = create_symbol(stream, special[i].name, SYM_PREPROCESSOR, NS_PREPROCESSOR); sym->handler = special[i].handler; sym->normal = 0; } for (i = 0; i < ARRAY_SIZE(dynamic); i++) { struct symbol *sym; sym = create_symbol(stream, dynamic[i].name, SYM_NODE, NS_MACRO); sym->expander = dynamic[i].expander; } counter_macro = 0; } static void handle_preprocessor_line(struct stream *stream, struct token **line, struct token *start) { int (*handler)(struct stream *, struct token **, struct token *); struct token *token = start->next; int is_normal = 1; if (eof_token(token)) return; if (token_type(token) == TOKEN_IDENT) { struct symbol *sym = lookup_symbol(token->ident, NS_PREPROCESSOR); if (sym) { handler = sym->handler; is_normal = sym->normal; } else { handler = handle_nondirective; } } else if (token_type(token) == TOKEN_NUMBER) { handler = handle_line; } else { handler = handle_nondirective; } if (is_normal) { dirty_stream(stream); if (false_nesting) goto out; } if (!handler(stream, line, token)) /* all set */ return; out: free_preprocessor_line(token); } static void preprocessor_line(struct stream *stream, struct token **line) { struct token *start = *line, *next; struct token **tp = &start->next; for (;;) { next = *tp; if (next->pos.newline) break; tp = &next->next; } *line = next; *tp = &eof_token_entry; handle_preprocessor_line(stream, line, start); } static void do_preprocess(struct token **list) { struct token *next; while (!eof_token(next = scan_next(list))) { struct stream *stream = input_streams + next->pos.stream; if (next->pos.newline && match_op(next, '#')) { if (!next->pos.noexpand) { preprocessor_line(stream, list); __free_token(next); /* Free the '#' token */ continue; } } switch (token_type(next)) { case TOKEN_STREAMEND: if (stream->top_if) { nesting_error(stream); sparse_error(stream->top_if->pos, "unterminated preprocessor conditional"); stream->top_if = NULL; false_nesting = 0; } if (!stream->dirty) stream->constant = CONSTANT_FILE_YES; *list = next->next; include_level--; continue; case TOKEN_STREAMBEGIN: *list = next->next; include_level++; continue; default: dirty_stream(stream); if (false_nesting) { *list = next->next; __free_token(next); continue; } if (token_type(next) != TOKEN_IDENT || expand_one_symbol(list)) list = &next->next; } } } void init_include_path(void) { FILE *fp; char path[256]; char arch[32]; char os[32]; fp = popen("/bin/uname -m", "r"); if (!fp) return; if (!fgets(arch, sizeof(arch) - 1, fp)) return; pclose(fp); if (arch[strlen(arch) - 1] == '\n') arch[strlen(arch) - 1] = '\0'; fp = popen("/bin/uname -o", "r"); if (!fp) return; fgets(os, sizeof(os) - 1, fp); pclose(fp); if (strcmp(os, "GNU/Linux\n") != 0) return; strcpy(os, "linux-gnu"); snprintf(path, sizeof(path), "/usr/include/%s-%s/", arch, os); add_pre_buffer("#add_system \"%s/\"\n", path); } struct token * preprocess(struct token *token) { preprocessing = 1; init_preprocessor(); do_preprocess(&token); // Drop all expressions from preprocessing, they're not used any more. // This is not true when we have multiple files, though ;/ // clear_expression_alloc(); preprocessing = 0; return token; } static int is_VA_ARGS_token(struct token *token) { return (token_type(token) == TOKEN_IDENT) && (token->ident == &__VA_ARGS___ident); } static void dump_macro(struct symbol *sym) { int nargs = sym->arglist ? sym->arglist->count.normal : 0; struct token *args[nargs]; struct token *token; printf("#define %s", show_ident(sym->ident)); token = sym->arglist; if (token) { const char *sep = ""; int narg = 0; putchar('('); for (; !eof_token(token); token = token->next) { if (token_type(token) == TOKEN_ARG_COUNT) continue; if (is_VA_ARGS_token(token)) printf("%s...", sep); else printf("%s%s", sep, show_token(token)); args[narg++] = token; sep = ","; } putchar(')'); } token = sym->expansion; while (token_type(token) != TOKEN_UNTAINT) { struct token *next = token->next; if (token->pos.whitespace) putchar(' '); switch (token_type(token)) { case TOKEN_CONCAT: printf("##"); break; case TOKEN_STR_ARGUMENT: printf("#"); /* fall-through */ case TOKEN_QUOTED_ARGUMENT: case TOKEN_MACRO_ARGUMENT: token = args[token->argnum]; /* fall-through */ default: printf("%s", show_token(token)); } token = next; } putchar('\n'); } void dump_macro_definitions(void) { struct ident *name; FOR_EACH_PTR(macros, name) { struct symbol *sym = lookup_macro(name); if (sym) dump_macro(sym); } END_FOR_EACH_PTR(name); }