/* * Exported functions of the Wine preprocessor * * Copyright 1998 Bertho A. Stultiens * Copyright 2002 Alexandre Julliard * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include #include #include #include #include #include #include #include #include "../tools.h" #include "utils.h" #include "wpp_private.h" struct pp_status pp_status; #define HASHKEY 2039 static struct list pp_defines[HASHKEY]; #define MAXIFSTACK 64 static pp_if_state_t if_stack[MAXIFSTACK]; static int if_stack_idx = 0; int ppy_debug, pp_flex_debug; struct define { struct list entry; char *name; char *value; }; static struct list cmdline_defines = LIST_INIT( cmdline_defines ); static struct strarray includes; static char *wpp_lookup(const char *name, int type, const char *parent_name) { char *cpy; char *cptr; char *path; const char *ccptr; int i, fd; cpy = xmalloc(strlen(name)+1); cptr = cpy; for(ccptr = name; *ccptr; ccptr++) { /* Convert to forward slash */ if(*ccptr == '\\') { /* kill double backslash */ if(ccptr[1] == '\\') ccptr++; *cptr = '/'; }else { *cptr = *ccptr; } cptr++; } *cptr = '\0'; if(type && parent_name) { /* Search directory of parent include and then -I path */ path = strmake( "%s/%s", get_dirname(parent_name), cpy ); fd = open( path, O_RDONLY ); if (fd != -1) { close( fd ); free( cpy ); return path; } free( path ); } /* Search -I path */ for(i = 0; i < includes.count; i++) { path = strmake("%s/%s", includes.str[i], cpy); fd = open( path, O_RDONLY ); if (fd != -1) { close( fd ); free( cpy ); return path; } free( path ); } free( cpy ); return NULL; } /* Don't comment on the hash, it's primitive but functional... */ static int pphash(const char *str) { int sum = 0; while(*str) sum += *str++; return sum % HASHKEY; } pp_entry_t *pplookup(const char *ident) { int idx; pp_entry_t *ppp; if(!ident) return NULL; idx = pphash(ident); LIST_FOR_EACH_ENTRY( ppp, &pp_defines[idx], pp_entry_t, entry ) { if(!strcmp(ident, ppp->ident)) return ppp; } return NULL; } static void free_pp_entry( pp_entry_t *ppp, int idx ) { if(ppp->iep) { list_remove( &ppp->iep->entry ); free(ppp->iep->filename); free(ppp->iep); } list_remove( &ppp->entry ); free(ppp); } /* initialize the define state */ static void pp_init_define_state(void) { int i; for (i = 0; i < HASHKEY; i++) list_init( &pp_defines[i] ); } /* free the current define state */ static void pp_free_define_state(void) { int i; pp_entry_t *ppp, *ppp2; for (i = 0; i < HASHKEY; i++) { LIST_FOR_EACH_ENTRY_SAFE( ppp, ppp2, &pp_defines[i], pp_entry_t, entry ) { free( ppp->ident ); free( ppp->subst.text ); free( ppp->filename ); free_pp_entry( ppp, i ); } } } void pp_del_define(const char *name) { pp_entry_t *ppp; int idx = pphash(name); if((ppp = pplookup(name)) == NULL) { if(pedantic) ppy_warning("%s was not defined", name); return; } if(pp_status.debug) printf("Deleting (%s, %d) <%s>\n", pp_status.input, pp_status.line_number, name); free( ppp->ident ); free( ppp->subst.text ); free( ppp->filename ); free_pp_entry( ppp, idx ); } pp_entry_t *pp_add_define(const char *def, const char *text) { int len; char *cptr; int idx; pp_entry_t *ppp; idx = pphash(def); if((ppp = pplookup(def)) != NULL) { if(pedantic) ppy_warning("Redefinition of %s\n%s:%d: note: previous definition was here", def, ppp->filename, ppp->linenumber); pp_del_define(def); } ppp = xmalloc(sizeof(pp_entry_t)); memset( ppp, 0, sizeof(*ppp) ); ppp->ident = xstrdup(def); ppp->type = def_define; ppp->subst.text = text ? xstrdup(text) : NULL; ppp->filename = xstrdup(pp_status.input ? pp_status.input : ""); ppp->linenumber = pp_status.input ? pp_status.line_number : 0; list_add_head( &pp_defines[idx], &ppp->entry ); if(ppp->subst.text) { /* Strip trailing white space from subst text */ len = strlen(ppp->subst.text); while(len && strchr(" \t\r\n", ppp->subst.text[len-1])) { ppp->subst.text[--len] = '\0'; } /* Strip leading white space from subst text */ for(cptr = ppp->subst.text; *cptr && strchr(" \t\r", *cptr); cptr++) ; if(ppp->subst.text != cptr) memmove(ppp->subst.text, cptr, strlen(cptr)+1); } if(pp_status.debug) printf("Added define (%s, %d) <%s> to <%s>\n", pp_status.input, pp_status.line_number, ppp->ident, ppp->subst.text ? ppp->subst.text : "(null)"); return ppp; } pp_entry_t *pp_add_macro(char *id, char *args[], int nargs, int variadic, mtext_t *exp) { int idx; pp_entry_t *ppp; idx = pphash(id); if((ppp = pplookup(id)) != NULL) { if(pedantic) ppy_warning("Redefinition of %s\n%s:%d: note: previous definition was here", id, ppp->filename, ppp->linenumber); pp_del_define(id); } ppp = xmalloc(sizeof(pp_entry_t)); memset( ppp, 0, sizeof(*ppp) ); ppp->ident = id; ppp->type = def_macro; ppp->margs = args; ppp->nargs = nargs; ppp->variadic = variadic; ppp->subst.mtext= exp; ppp->filename = xstrdup(pp_status.input ? pp_status.input : ""); ppp->linenumber = pp_status.input ? pp_status.line_number : 0; list_add_head( &pp_defines[idx], &ppp->entry ); if(pp_status.debug) { fprintf(stderr, "Added macro (%s, %d) <%s(%d%s)> to <", pp_status.input, pp_status.line_number, ppp->ident, nargs, variadic ? ",va" : ""); for(; exp; exp = exp->next) { switch(exp->type) { case exp_text: fprintf(stderr, " \"%s\" ", exp->subst.text); break; case exp_stringize: fprintf(stderr, " #(%d) ", exp->subst.argidx); break; case exp_concat: fprintf(stderr, "##"); break; case exp_subst: fprintf(stderr, " <%d> ", exp->subst.argidx); break; } } fprintf(stderr, ">\n"); } return ppp; } /* *------------------------------------------------------------------------- * Include management *------------------------------------------------------------------------- */ void wpp_add_include_path(const char *path) { char *dir = xstrdup(path); char *cptr; for(cptr = dir; *cptr; cptr++) { /* Convert to forward slash */ if(*cptr == '\\') *cptr = '/'; } /* Kill eventual trailing '/' */ if(*(cptr = dir + strlen(dir)-1) == '/') *cptr = '\0'; strarray_add( &includes, dir ); } char *wpp_find_include(const char *name, const char *parent_name) { return wpp_lookup(name, !!parent_name, parent_name); } void *pp_open_include(const char *name, int type, const char *parent_name, char **newpath) { char *path; void *fp; if (!(path = wpp_lookup(name, type, parent_name))) return NULL; fp = fopen(path, "rt"); if (fp) { if (pp_status.debug) printf("Going to include <%s>\n", path); if (newpath) *newpath = path; else free( path ); return fp; } free( path ); return NULL; } /* *------------------------------------------------------------------------- * #if, #ifdef, #ifndef, #else, #elif and #endif state management * * #if state transitions are made on basis of the current TOS and the next * required state. The state transitions are required to housekeep because * #if:s can be nested. The ignore case is activated to prevent output from * within a false clause. * Some special cases come from the fact that the #elif cases are not * binary, but three-state. The problem is that all other elif-cases must * be false when one true one has been found. A second problem is that the * #else clause is a final clause. No extra #else:s may follow. * * The states mean: * if_true Process input to output * if_false Process input but no output * if_ignore Process input but no output * if_elif Process input but no output * if_elsefalse Process input but no output * if_elsettrue Process input to output * * The possible state-sequences are [state(stack depth)] (rest can be deduced): * TOS #if 1 #else #endif * if_true(n) if_true(n+1) if_elsefalse(n+1) * if_false(n) if_ignore(n+1) if_ignore(n+1) * if_elsetrue(n) if_true(n+1) if_elsefalse(n+1) * if_elsefalse(n) if_ignore(n+1) if_ignore(n+1) * if_elif(n) if_ignore(n+1) if_ignore(n+1) * if_ignore(n) if_ignore(n+1) if_ignore(n+1) * * TOS #if 1 #elif 0 #else #endif * if_true(n) if_true(n+1) if_elif(n+1) if_elif(n+1) * if_false(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1) * if_elsetrue(n) if_true(n+1) if_elif(n+1) if_elif(n+1) * if_elsefalse(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1) * if_elif(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1) * if_ignore(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1) * * TOS #if 0 #elif 1 #else #endif * if_true(n) if_false(n+1) if_true(n+1) if_elsefalse(n+1) * if_false(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1) * if_elsetrue(n) if_false(n+1) if_true(n+1) if_elsefalse(n+1) * if_elsefalse(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1) * if_elif(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1) * if_ignore(n) if_ignore(n+1) if_ignore(n+1) if_ignore(n+1) * *------------------------------------------------------------------------- */ static const char * const pp_if_state_str[] = { "if_false", "if_true", "if_elif", "if_elsefalse", "if_elsetrue", "if_ignore" }; void pp_push_if(pp_if_state_t s) { if(if_stack_idx >= MAXIFSTACK) error("#if-stack overflow; #{if,ifdef,ifndef} nested too deeply (> %d)\n", MAXIFSTACK); if(pp_flex_debug) fprintf(stderr, "Push if %s:%d: %s(%d) -> %s(%d)\n", pp_status.input, pp_status.line_number, pp_if_state_str[pp_if_state()], if_stack_idx, pp_if_state_str[s], if_stack_idx+1); if_stack[if_stack_idx++] = s; switch(s) { case if_true: case if_elsetrue: break; case if_false: case if_elsefalse: case if_elif: case if_ignore: pp_push_ignore_state(); break; case if_error: assert(0); } } pp_if_state_t pp_pop_if(void) { if(if_stack_idx <= 0) { ppy_error("#{endif,else,elif} without #{if,ifdef,ifndef} (#if-stack underflow)"); return if_error; } switch(pp_if_state()) { case if_true: case if_elsetrue: break; case if_false: case if_elsefalse: case if_elif: case if_ignore: pp_pop_ignore_state(); break; case if_error: assert(0); } if(pp_flex_debug) fprintf(stderr, "Pop if %s:%d: %s(%d) -> %s(%d)\n", pp_status.input, pp_status.line_number, pp_if_state_str[pp_if_state()], if_stack_idx, pp_if_state_str[if_stack[if_stack_idx <= 1 ? if_true : if_stack_idx-2]], if_stack_idx-1); return if_stack[--if_stack_idx]; } pp_if_state_t pp_if_state(void) { if(!if_stack_idx) return if_true; else return if_stack[if_stack_idx-1]; } void pp_next_if_state(int i) { switch(pp_if_state()) { case if_true: case if_elsetrue: pp_push_if(i ? if_true : if_false); break; case if_false: case if_elsefalse: case if_elif: case if_ignore: pp_push_if(if_ignore); break; case if_error: assert(0); } } int pp_get_if_depth(void) { return if_stack_idx; } static void generic_msg(const char *s, const char *t, const char *n, va_list ap) { fprintf(stderr, "%s:%d:%d: %s: ", pp_status.input ? pp_status.input : "stdin", pp_status.line_number, pp_status.char_number, t); vfprintf(stderr, s, ap); fprintf(stderr, "\n"); } int ppy_error(const char *s, ...) { va_list ap; va_start(ap, s); generic_msg(s, "error", ppy_text, ap); va_end(ap); exit(1); } int ppy_warning(const char *s, ...) { va_list ap; va_start(ap, s); generic_msg(s, "warning", ppy_text, ap); va_end(ap); return 0; } static void add_cmdline_defines(void) { struct define *def; LIST_FOR_EACH_ENTRY( def, &cmdline_defines, struct define, entry ) { if (def->value) pp_add_define( def->name, def->value ); } } static void add_special_defines(void) { time_t now = time(NULL); pp_entry_t *ppp; char buf[32]; strftime(buf, sizeof(buf), "\"%b %d %Y\"", localtime(&now)); pp_add_define( "__DATE__", buf ); strftime(buf, sizeof(buf), "\"%H:%M:%S\"", localtime(&now)); pp_add_define( "__TIME__", buf ); ppp = pp_add_define( "__FILE__", "" ); ppp->type = def_special; ppp = pp_add_define( "__LINE__", "" ); ppp->type = def_special; } /* add a define to the preprocessor list */ static void wpp_add_define( const char *name, const char *value ) { struct define *def; if (!value) value = ""; LIST_FOR_EACH_ENTRY( def, &cmdline_defines, struct define, entry ) { if (!strcmp( def->name, name )) { free( def->value ); def->value = xstrdup(value); return; } } def = xmalloc( sizeof(*def) ); def->name = xstrdup(name); def->value = xstrdup(value); list_add_head( &cmdline_defines, &def->entry ); } /* undefine a previously added definition */ void wpp_del_define( const char *name ) { struct define *def; LIST_FOR_EACH_ENTRY( def, &cmdline_defines, struct define, entry ) { if (!strcmp( def->name, name )) { free( def->value ); def->value = NULL; return; } } } /* add a command-line define of the form NAME=VALUE */ void wpp_add_cmdline_define( const char *value ) { char *p; char *str = xstrdup(value); p = strchr( str, '=' ); if (p) *p++ = 0; wpp_add_define( str, p ); free( str ); } /* set the various debug flags */ void wpp_set_debug( int lex_debug, int parser_debug, int msg_debug ) { pp_flex_debug = lex_debug; ppy_debug = parser_debug; pp_status.debug = msg_debug; } /* the main preprocessor parsing loop */ int wpp_parse( const char *input, FILE *output ) { int ret; pp_status.input = NULL; pp_status.line_number = 1; pp_status.char_number = 1; pp_init_define_state(); add_cmdline_defines(); add_special_defines(); if (!input) pp_status.file = stdin; else if (!(pp_status.file = fopen(input, "rt"))) ppy_error("Could not open %s\n", input); pp_status.input = input ? xstrdup(input) : NULL; ppy_out = output; fprintf(ppy_out, "# 1 \"%s\" 1\n", input ? input : ""); ret = ppy_parse(); if (input) { fclose(pp_status.file); free(pp_status.input); } /* Clean if_stack, it could remain dirty on errors */ while (pp_get_if_depth()) pp_pop_if(); pp_free_define_state(); return ret; }