/* Parser for Java(TM) .class files. Copyright (C) 1996, 1998, 1999, 2000 Free Software Foundation, Inc. This file is part of GNU CC. GNU CC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU CC 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 General Public License for more details. You should have received a copy of the GNU General Public License along with GNU CC; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. Java and all Java-based marks are trademarks or registered trademarks of Sun Microsystems, Inc. in the United States and other countries. The Free Software Foundation is independent of Sun Microsystems, Inc. */ /* Written by Per Bothner */ #include "config.h" #include "system.h" #include "tree.h" #include "obstack.h" #include "flags.h" #include "java-except.h" #include "input.h" #include "java-tree.h" #include "toplev.h" #include "parse.h" #ifdef HAVE_LOCALE_H #include #endif #ifdef HAVE_NL_LANGINFO #include #endif /* A CONSTANT_Utf8 element is converted to an IDENTIFIER_NODE at parse time. */ #define JPOOL_UTF(JCF, INDEX) CPOOL_UTF(&(JCF)->cpool, INDEX) #define JPOOL_UTF_LENGTH(JCF, INDEX) IDENTIFIER_LENGTH (JPOOL_UTF (JCF, INDEX)) #define JPOOL_UTF_DATA(JCF, INDEX) \ ((const unsigned char *) IDENTIFIER_POINTER (JPOOL_UTF (JCF, INDEX))) #define HANDLE_CONSTANT_Utf8(JCF, INDEX, LENGTH) \ do { \ unsigned char save; unsigned char *text; \ JCF_FILL (JCF, (LENGTH)+1); /* Make sure we read 1 byte beyond string. */ \ text = (JCF)->read_ptr; \ save = text[LENGTH]; \ text[LENGTH] = 0; \ (JCF)->cpool.data[INDEX] = (jword) get_identifier (text); \ text[LENGTH] = save; \ JCF_SKIP (JCF, LENGTH); } while (0) #include "jcf.h" extern struct obstack *saveable_obstack; extern struct obstack temporary_obstack; extern struct obstack permanent_obstack; /* Set to non-zero value in order to emit class initilization code before static field references. */ extern int always_initialize_class_p; /* The class we are currently processing. */ tree current_class = NULL_TREE; /* The class we started with. */ tree main_class = NULL_TREE; /* List of all class DECL seen so far. */ tree all_class_list = NULL_TREE; /* The FIELD_DECL for the current field. */ static tree current_field = NULL_TREE; /* The METHOD_DECL for the current method. */ static tree current_method = NULL_TREE; /* The Java .class file that provides main_class; the main input file. */ static struct JCF main_jcf[1]; /* Declarations of some functions used here. */ static tree give_name_to_class PARAMS ((JCF *jcf, int index)); static void parse_zip_file_entries PARAMS ((void)); static void process_zip_dir PARAMS ((void)); static void parse_source_file PARAMS ((tree, FILE *)); static void jcf_parse_source PARAMS ((void)); static int jcf_figure_file_type PARAMS ((JCF *)); static int find_in_current_zip PARAMS ((const char *, struct JCF **)); static void parse_class_file PARAMS ((void)); static void set_source_filename PARAMS ((JCF *, int)); static int predefined_filename_p PARAMS ((tree)); /* Handle "SourceFile" attribute. */ static void set_source_filename (jcf, index) JCF *jcf; int index; { tree sfname_id = get_name_constant (jcf, index); const char *sfname = IDENTIFIER_POINTER (sfname_id); if (input_filename != NULL) { int old_len = strlen (input_filename); int new_len = IDENTIFIER_LENGTH (sfname_id); /* Use the current input_filename (derived from the class name) if it has a directory prefix, but otherwise matches sfname. */ if (old_len > new_len && strcmp (sfname, input_filename + old_len - new_len) == 0 && (input_filename[old_len - new_len - 1] == '/' || input_filename[old_len - new_len - 1] == '\\')) return; } input_filename = sfname; DECL_SOURCE_FILE (TYPE_NAME (current_class)) = sfname; if (current_class == main_class) main_input_filename = input_filename; } #define HANDLE_SOURCEFILE(INDEX) set_source_filename (jcf, INDEX) #define HANDLE_CLASS_INFO(ACCESS_FLAGS, THIS, SUPER, INTERFACES_COUNT) \ { tree super_class = SUPER==0 ? NULL_TREE : get_class_constant (jcf, SUPER); \ current_class = give_name_to_class (jcf, THIS); \ set_super_info (ACCESS_FLAGS, current_class, super_class, INTERFACES_COUNT);} #define HANDLE_CLASS_INTERFACE(INDEX) \ add_interface (current_class, get_class_constant (jcf, INDEX)) #define HANDLE_START_FIELD(ACCESS_FLAGS, NAME, SIGNATURE, ATTRIBUTE_COUNT) \ { int sig_index = SIGNATURE; \ current_field = add_field (current_class, get_name_constant (jcf, NAME), \ parse_signature (jcf, sig_index), ACCESS_FLAGS); \ set_java_signature (TREE_TYPE (current_field), JPOOL_UTF (jcf, sig_index)); } #define HANDLE_END_FIELDS() \ (current_field = NULL_TREE) #define HANDLE_CONSTANTVALUE(INDEX) \ { tree constant; int index = INDEX; \ if (! flag_emit_class_files && JPOOL_TAG (jcf, index) == CONSTANT_String) { \ tree name = get_name_constant (jcf, JPOOL_USHORT1 (jcf, index)); \ constant = build_utf8_ref (name); \ } \ else \ constant = get_constant (jcf, index); \ set_constant_value (current_field, constant); } #define HANDLE_METHOD(ACCESS_FLAGS, NAME, SIGNATURE, ATTRIBUTE_COUNT) \ (current_method = add_method (current_class, ACCESS_FLAGS, \ get_name_constant (jcf, NAME), \ get_name_constant (jcf, SIGNATURE)), \ DECL_LOCALVARIABLES_OFFSET (current_method) = 0, \ DECL_LINENUMBERS_OFFSET (current_method) = 0) #define HANDLE_END_METHODS() \ { tree handle_type = CLASS_TO_HANDLE_TYPE (current_class); \ if (handle_type != current_class) layout_type (handle_type); } #define HANDLE_CODE_ATTRIBUTE(MAX_STACK, MAX_LOCALS, CODE_LENGTH) \ { DECL_MAX_STACK (current_method) = (MAX_STACK); \ DECL_MAX_LOCALS (current_method) = (MAX_LOCALS); \ DECL_CODE_LENGTH (current_method) = (CODE_LENGTH); \ DECL_CODE_OFFSET (current_method) = JCF_TELL (jcf); } #define HANDLE_LOCALVARIABLETABLE_ATTRIBUTE(COUNT) \ { int n = (COUNT); \ DECL_LOCALVARIABLES_OFFSET (current_method) = JCF_TELL (jcf) - 2; \ JCF_SKIP (jcf, n * 10); } #define HANDLE_LINENUMBERTABLE_ATTRIBUTE(COUNT) \ { int n = (COUNT); \ DECL_LINENUMBERS_OFFSET (current_method) = JCF_TELL (jcf) - 2; \ JCF_SKIP (jcf, n * 4); } #define HANDLE_EXCEPTIONS_ATTRIBUTE(COUNT) \ { \ int n = COUNT; \ tree list = DECL_FUNCTION_THROWS (current_method); \ while (--n >= 0) \ { \ tree thrown_class = get_class_constant (jcf, JCF_readu2 (jcf)); \ list = tree_cons (NULL_TREE, thrown_class, list); \ } \ DECL_FUNCTION_THROWS (current_method) = nreverse (list); \ } /* Link seen inner classes to their outer context and register the inner class to its outer context. They will be later loaded. */ #define HANDLE_INNERCLASSES_ATTRIBUTE(COUNT) \ { \ int c = (count); \ while (c--) \ { \ tree class = get_class_constant (jcf, JCF_readu2 (jcf)); \ tree decl = TYPE_NAME (class); \ if (DECL_P (decl) && !CLASS_COMPLETE_P (decl)) \ { \ tree outer = TYPE_NAME (get_class_constant (jcf, \ JCF_readu2 (jcf))); \ tree alias = get_name_constant (jcf, JCF_readu2 (jcf)); \ JCF_SKIP (jcf, 2); \ DECL_CONTEXT (decl) = outer; \ DECL_INNER_CLASS_LIST (outer) = \ tree_cons (decl, alias, DECL_INNER_CLASS_LIST (outer)); \ CLASS_COMPLETE_P (decl) = 1; \ } \ else \ JCF_SKIP (jcf, 6); \ } \ } #include "jcf-reader.c" static int yydebug; tree parse_signature (jcf, sig_index) JCF *jcf; int sig_index; { if (sig_index <= 0 || sig_index >= JPOOL_SIZE(jcf) || JPOOL_TAG (jcf, sig_index) != CONSTANT_Utf8) fatal ("invalid field/method signature"); else { return parse_signature_string (JPOOL_UTF_DATA (jcf, sig_index), JPOOL_UTF_LENGTH (jcf, sig_index)); } } void init_lex () { /* Make identifier nodes long enough for the language-specific slots. */ set_identifier_size (sizeof (struct lang_identifier)); } void set_yydebug (value) int value; { yydebug = value; } tree get_constant (jcf, index) JCF *jcf; int index; { tree value; int tag; if (index <= 0 || index >= JPOOL_SIZE(jcf)) goto bad; tag = JPOOL_TAG (jcf, index); if ((tag & CONSTANT_ResolvedFlag) || tag == CONSTANT_Utf8) return (tree) jcf->cpool.data[index]; push_obstacks (&permanent_obstack, &permanent_obstack); switch (tag) { case CONSTANT_Integer: { jint num = JPOOL_INT(jcf, index); value = build_int_2 (num, num < 0 ? -1 : 0); TREE_TYPE (value) = int_type_node; break; } case CONSTANT_Long: { jint num = JPOOL_INT (jcf, index); HOST_WIDE_INT lo, hi; lshift_double (num, 0, 32, 64, &lo, &hi, 0); num = JPOOL_INT (jcf, index+1) & 0xffffffff; add_double (lo, hi, num, 0, &lo, &hi); value = build_int_2 (lo, hi); TREE_TYPE (value) = long_type_node; force_fit_type (value, 0); break; } #if TARGET_FLOAT_FORMAT == IEEE_FLOAT_FORMAT case CONSTANT_Float: { jint num = JPOOL_INT(jcf, index); REAL_VALUE_TYPE d; #ifdef REAL_ARITHMETIC d = REAL_VALUE_FROM_TARGET_SINGLE (num); #else union { float f; jint i; } u; u.i = num; d = u.f; #endif value = build_real (float_type_node, d); break; } case CONSTANT_Double: { HOST_WIDE_INT num[2]; REAL_VALUE_TYPE d; HOST_WIDE_INT lo, hi; num[0] = JPOOL_INT (jcf, index); lshift_double (num[0], 0, 32, 64, &lo, &hi, 0); num[0] = JPOOL_INT (jcf, index+1); add_double (lo, hi, num[0], 0, &lo, &hi); if (FLOAT_WORDS_BIG_ENDIAN) { num[0] = hi; num[1] = lo; } else { num[0] = lo; num[1] = hi; } #ifdef REAL_ARITHMETIC d = REAL_VALUE_FROM_TARGET_DOUBLE (num); #else { union { double d; jint i[2]; } u; u.i[0] = (jint) num[0]; u.i[1] = (jint) num[1]; d = u.d; } #endif value = build_real (double_type_node, d); break; } #endif /* TARGET_FLOAT_FORMAT == IEEE_FLOAT_FORMAT */ case CONSTANT_String: { extern struct obstack *expression_obstack; tree name = get_name_constant (jcf, JPOOL_USHORT1 (jcf, index)); const char *utf8_ptr = IDENTIFIER_POINTER (name); unsigned char *str_ptr; int utf8_len = IDENTIFIER_LENGTH (name); const unsigned char *str = (const unsigned char *)utf8_ptr; int i = utf8_len; int str_len; /* Count the number of Unicode characters in the string, while checking for a malformed Utf8 string. */ for (str_len = 0; i > 0; str_len++) { int char_len = UT8_CHAR_LENGTH (*str); if (char_len < 0 || char_len > 3 || char_len > i) fatal ("bad string constant"); str += char_len; i -= char_len; } value = make_node (STRING_CST); TREE_TYPE (value) = build_pointer_type (string_type_node); TREE_STRING_LENGTH (value) = 2 * str_len; TREE_STRING_POINTER (value) = obstack_alloc (expression_obstack, 2 * str_len); str_ptr = (unsigned char *) TREE_STRING_POINTER (value); str = (const unsigned char *)utf8_ptr; for (i = 0; i < str_len; i++) { int char_value; int char_len = UT8_CHAR_LENGTH (*str); switch (char_len) { case 1: char_value = *str++; break; case 2: char_value = *str++ & 0x1F; char_value = (char_value << 6) | (*str++ & 0x3F); break; case 3: char_value = *str++ & 0x0F; char_value = (char_value << 6) | (*str++ & 0x3F); char_value = (char_value << 6) | (*str++ & 0x3F); break; default: goto bad; } if (BYTES_BIG_ENDIAN) { *str_ptr++ = char_value >> 8; *str_ptr++ = char_value & 0xFF; } else { *str_ptr++ = char_value & 0xFF; *str_ptr++ = char_value >> 8; } } } break; default: goto bad; } pop_obstacks (); JPOOL_TAG(jcf, index) = tag | CONSTANT_ResolvedFlag; jcf->cpool.data [index] = (jword) value; return value; bad: fatal ("bad value constant type %d, index %d", JPOOL_TAG( jcf, index ), index); } tree get_name_constant (jcf, index) JCF *jcf; int index; { tree name = get_constant (jcf, index); if (TREE_CODE (name) != IDENTIFIER_NODE) fatal ("bad nameandtype index %d", index); return name; } static tree give_name_to_class (jcf, i) JCF *jcf; int i; { if (i <= 0 || i >= JPOOL_SIZE(jcf) || JPOOL_TAG (jcf, i) != CONSTANT_Class) fatal ("bad class index %d", i); else { tree this_class; int j = JPOOL_USHORT1 (jcf, i); /* verify_constant_pool confirmed that j is a CONSTANT_Utf8. */ tree class_name = unmangle_classname (JPOOL_UTF_DATA (jcf, j), JPOOL_UTF_LENGTH (jcf, j)); this_class = lookup_class (class_name); input_filename = DECL_SOURCE_FILE (TYPE_NAME (this_class)); lineno = 0; if (main_input_filename == NULL && jcf == main_jcf) main_input_filename = input_filename; jcf->cpool.data[i] = (jword) this_class; JPOOL_TAG (jcf, i) = CONSTANT_ResolvedClass; return this_class; } } /* Get the class of the CONSTANT_Class whose constant pool index is I. */ tree get_class_constant (JCF *jcf , int i) { tree type; if (i <= 0 || i >= JPOOL_SIZE(jcf) || (JPOOL_TAG (jcf, i) & ~CONSTANT_ResolvedFlag) != CONSTANT_Class) fatal ("bad class index %d", i); if (JPOOL_TAG (jcf, i) != CONSTANT_ResolvedClass) { int name_index = JPOOL_USHORT1 (jcf, i); /* verify_constant_pool confirmed that name_index is a CONSTANT_Utf8. */ const char *name = JPOOL_UTF_DATA (jcf, name_index); int nlength = JPOOL_UTF_LENGTH (jcf, name_index); if (name[0] == '[') /* Handle array "classes". */ type = TREE_TYPE (parse_signature_string (name, nlength)); else { tree cname = unmangle_classname (name, nlength); type = lookup_class (cname); } jcf->cpool.data[i] = (jword) type; JPOOL_TAG (jcf, i) = CONSTANT_ResolvedClass; } else type = (tree) jcf->cpool.data[i]; return type; } /* Read a class with the fully qualified-name NAME. Return 1 iff we read the requested file. (It is still possible we failed if the file did not define the class it is supposed to.) */ int read_class (name) tree name; { JCF this_jcf, *jcf; tree save_current_class = current_class; const char *save_input_filename = input_filename; JCF *save_current_jcf = current_jcf; long saved_pos = 0; if (current_jcf->read_state) saved_pos = ftell (current_jcf->read_state); push_obstacks (&permanent_obstack, &permanent_obstack); /* Search in current zip first. */ if (find_in_current_zip (IDENTIFIER_POINTER (name), &jcf) == 0) { if (find_class (IDENTIFIER_POINTER (name), IDENTIFIER_LENGTH (name), &this_jcf, 1) == 0) { pop_obstacks (); /* FIXME: one pop_obstack() per function */ return 0; } else { this_jcf.seen_in_zip = 0; current_jcf = &this_jcf; } } else current_jcf = jcf; if (current_jcf->java_source) jcf_parse_source (); else { java_parser_context_save_global (); java_push_parser_context (); input_filename = current_jcf->filename; jcf_parse (current_jcf); java_pop_parser_context (0); java_parser_context_restore_global (); } if (!current_jcf->seen_in_zip) JCF_FINISH (current_jcf); pop_obstacks (); current_class = save_current_class; input_filename = save_input_filename; current_jcf = save_current_jcf; if (current_jcf->read_state) fseek (current_jcf->read_state, saved_pos, SEEK_SET); return 1; } /* Load CLASS_OR_NAME. CLASS_OR_NAME can be a mere identifier if called from the parser, otherwise it's a RECORD_TYPE node. If VERBOSE is 1, print error message on failure to load a class. */ /* Replace calls to load_class by having callers call read_class directly - and then perhaps rename read_class to load_class. FIXME */ void load_class (class_or_name, verbose) tree class_or_name; int verbose; { tree name; /* class_or_name can be the name of the class we want to load */ if (TREE_CODE (class_or_name) == IDENTIFIER_NODE) name = class_or_name; /* In some cases, it's a dependency that we process earlier that we though */ else if (TREE_CODE (class_or_name) == TREE_LIST) name = TYPE_NAME (TREE_PURPOSE (class_or_name)); /* Or it's a type in the making */ else name = DECL_NAME (TYPE_NAME (class_or_name)); if (read_class (name) == 0 && verbose) fatal ("Cannot find file for class %s.", IDENTIFIER_POINTER (name)); } /* Parse a source file when JCF refers to a source file. */ static void jcf_parse_source () { tree file; FILE *finput; java_parser_context_save_global (); java_push_parser_context (); input_filename = current_jcf->filename; file = get_identifier (input_filename); current_class = NULL_TREE; current_function_decl = NULL_TREE; if (!HAS_BEEN_ALREADY_PARSED_P (file)) { if (!(finput = fopen (input_filename, "r"))) fatal ("input file `%s' just disappeared - jcf_parse_source", input_filename); parse_source_file (file, finput); if (fclose (finput)) fatal ("can't close input file `%s' stream - jcf_parse_source", input_filename); } java_pop_parser_context (IS_A_COMMAND_LINE_FILENAME_P (file)); java_parser_context_restore_global (); } /* Parse the .class file JCF. */ void jcf_parse (jcf) JCF* jcf; { int i, code; tree current; if (jcf_parse_preamble (jcf) != 0) fatal ("Not a valid Java .class file.\n"); code = jcf_parse_constant_pool (jcf); if (code != 0) fatal ("error while parsing constant pool"); code = verify_constant_pool (jcf); if (code > 0) fatal ("error in constant pool entry #%d\n", code); jcf_parse_class (jcf); if (main_class == NULL_TREE) main_class = current_class; if (! quiet_flag && TYPE_NAME (current_class)) fprintf (stderr, " %s %s", (jcf->access_flags & ACC_INTERFACE) ? "interface" : "class", IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (current_class)))); if (CLASS_LOADED_P (current_class)) return; CLASS_LOADED_P (current_class) = 1; for (i = 1; i < JPOOL_SIZE(jcf); i++) { switch (JPOOL_TAG (jcf, i)) { case CONSTANT_Class: get_class_constant (jcf, i); break; } } code = jcf_parse_fields (jcf); if (code != 0) fatal ("error while parsing fields"); code = jcf_parse_methods (jcf); if (code != 0) fatal ("error while parsing methods"); code = jcf_parse_final_attributes (jcf); if (code != 0) fatal ("error while parsing final attributes"); /* The fields of class_type_node are already in correct order. */ if (current_class != class_type_node && current_class != object_type_node) TYPE_FIELDS (current_class) = nreverse (TYPE_FIELDS (current_class)); push_obstacks (&permanent_obstack, &permanent_obstack); layout_class (current_class); if (current_class == object_type_node) layout_class_methods (object_type_node); else all_class_list = tree_cons (NULL_TREE, TYPE_NAME (current_class), all_class_list ); /* And if we came accross inner classes, load them now. */ for (current = DECL_INNER_CLASS_LIST (TYPE_NAME (current_class)); current; current = TREE_CHAIN (current)) load_class (DECL_NAME (TREE_PURPOSE (current)), 1); pop_obstacks (); } void init_outgoing_cpool () { current_constant_pool_data_ref = NULL_TREE; outgoing_cpool = (struct CPool *)xmalloc (sizeof (struct CPool)); bzero (outgoing_cpool, sizeof (struct CPool)); } static void parse_class_file () { tree method; const char *save_input_filename = input_filename; int save_lineno = lineno; java_layout_seen_class_methods (); input_filename = DECL_SOURCE_FILE (TYPE_NAME (current_class)); lineno = 0; debug_start_source_file (input_filename); init_outgoing_cpool (); /* Currently we always have to emit calls to _Jv_InitClass when compiling from class files. */ always_initialize_class_p = 1; for ( method = TYPE_METHODS (CLASS_TO_HANDLE_TYPE (current_class)); method != NULL_TREE; method = TREE_CHAIN (method)) { JCF *jcf = current_jcf; if (METHOD_ABSTRACT (method)) continue; if (METHOD_NATIVE (method)) { if (! flag_jni) continue; DECL_MAX_LOCALS (method) = list_length (TYPE_ARG_TYPES (TREE_TYPE (method))); start_java_method (method); give_name_to_locals (jcf); expand_expr_stmt (build_jni_stub (method)); end_java_method (); continue; } if (DECL_CODE_OFFSET (method) == 0) { error ("missing Code attribute"); continue; } lineno = 0; if (DECL_LINENUMBERS_OFFSET (method)) { register int i; register unsigned char *ptr; JCF_SEEK (jcf, DECL_LINENUMBERS_OFFSET (method)); linenumber_count = i = JCF_readu2 (jcf); linenumber_table = ptr = jcf->read_ptr; for (ptr += 2; --i >= 0; ptr += 4) { int line = GET_u2 (ptr); /* Set initial lineno lineno to smallest linenumber. * Needs to be set before init_function_start. */ if (lineno == 0 || line < lineno) lineno = line; } } else { linenumber_table = NULL; linenumber_count = 0; } start_java_method (method); give_name_to_locals (jcf); /* Actually generate code. */ expand_byte_code (jcf, method); end_java_method (); } if (flag_emit_class_files) write_classfile (current_class); finish_class (); debug_end_source_file (save_lineno); input_filename = save_input_filename; lineno = save_lineno; } /* Parse a source file, as pointed by the current value of INPUT_FILENAME. */ static void parse_source_file (file, finput) tree file; FILE *finput; { int save_error_count = java_error_count; /* Mark the file as parsed */ HAS_BEEN_ALREADY_PARSED_P (file) = 1; jcf_dependency_add_file (input_filename, 0); lang_init_source (1); /* Error msgs have no method prototypes */ /* There's no point in trying to find the current encoding unless we are going to do something intelligent with it -- hence the test for iconv. */ #ifdef HAVE_ICONV #ifdef HAVE_NL_LANGINFO setlocale (LC_CTYPE, ""); if (current_encoding == NULL) current_encoding = nl_langinfo (CODESET); #endif /* HAVE_NL_LANGINFO */ #endif /* HAVE_ICONV */ if (current_encoding == NULL || *current_encoding == '\0') current_encoding = DEFAULT_ENCODING; /* Initialize the parser */ java_init_lex (finput, current_encoding); java_parse_abort_on_error (); java_parse (); /* Parse and build partial tree nodes. */ java_parse_abort_on_error (); java_complete_class (); /* Parse unsatisfied class decl. */ java_parse_abort_on_error (); java_check_circular_reference (); /* Check on circular references */ java_parse_abort_on_error (); java_fix_constructors (); /* Fix the constructors */ java_parse_abort_on_error (); java_reorder_fields (); /* Reorder the fields */ } static int predefined_filename_p (node) tree node; { int i; for (i = 0; i < predef_filenames_size; i++) if (predef_filenames [i] == node) return 1; return 0; } int yyparse () { int several_files = 0; char *list = xstrdup (input_filename), *next; tree node, current_file_list = NULL_TREE; FILE *finput; do { next = strchr (list, '&'); if (next) { *next++ = '\0'; several_files = 1; } if (list[0]) { char *value; tree id; int twice = 0; int len = strlen (list); if (*list != '/' && several_files) obstack_grow (&temporary_obstack, "./", 2); obstack_grow0 (&temporary_obstack, list, len); value = obstack_finish (&temporary_obstack); /* Exclude file that we see twice on the command line. For all files except {Class,Error,Object,RuntimeException,String, Throwable}.java we can rely on maybe_get_identifier. For these files, we need to do a linear search of current_file_list. This search happens only for these files, presumably only when we're recompiling libgcj. */ if ((id = maybe_get_identifier (value))) { if (predefined_filename_p (id)) { tree c; for (c = current_file_list; c; c = TREE_CHAIN (c)) if (TREE_VALUE (c) == id) twice = 1; } else twice = 1; } if (twice) { const char *saved_input_filename = input_filename; input_filename = value; warning ("source file seen twice on command line and will be compiled only once."); input_filename = saved_input_filename; } else { node = get_identifier (value); IS_A_COMMAND_LINE_FILENAME_P (node) = 1; current_file_list = tree_cons (NULL_TREE, node, current_file_list); } } list = next; } while (next); current_jcf = main_jcf; current_file_list = nreverse (current_file_list); for (node = current_file_list; node; node = TREE_CHAIN (node)) { tree name = TREE_VALUE (node); /* Skip already parsed files */ if (HAS_BEEN_ALREADY_PARSED_P (name)) continue; /* Close previous descriptor, if any */ if (main_jcf->read_state && fclose (main_jcf->read_state)) fatal ("failed to close input file `%s' - yyparse", (main_jcf->filename ? main_jcf->filename : "")); /* Set jcf up and open a new file */ JCF_ZERO (main_jcf); main_jcf->read_state = fopen (IDENTIFIER_POINTER (name), "rb"); if (main_jcf->read_state == NULL) pfatal_with_name (IDENTIFIER_POINTER (name)); /* Set new input_filename and finput */ finput = main_jcf->read_state; #ifdef IO_BUFFER_SIZE setvbuf (finput, (char *) xmalloc (IO_BUFFER_SIZE), _IOFBF, IO_BUFFER_SIZE); #endif input_filename = IDENTIFIER_POINTER (name); main_jcf->filbuf = jcf_filbuf_from_stdio; switch (jcf_figure_file_type (current_jcf)) { case JCF_ZIP: parse_zip_file_entries (); break; case JCF_CLASS: jcf_parse (current_jcf); parse_class_file (); break; case JCF_SOURCE: java_push_parser_context (); java_parser_context_save_global (); parse_source_file (name, finput); java_parser_context_restore_global (); java_pop_parser_context (1); break; } } java_expand_classes (); if (!java_report_errors () && !flag_syntax_only) emit_register_classes (); return 0; } static struct ZipFileCache *localToFile; /* Process all class entries found in the zip file. */ static void parse_zip_file_entries (void) { struct ZipDirectory *zdir; int i; for (i = 0, zdir = (ZipDirectory *)localToFile->z.central_directory; i < localToFile->z.count; i++, zdir = ZIPDIR_NEXT (zdir)) { tree class; /* We don't need to consider those files. */ if (!zdir->size || !zdir->filename_offset) continue; class = lookup_class (get_identifier (ZIPDIR_FILENAME (zdir))); current_jcf = TYPE_JCF (class); current_class = class; if ( !CLASS_LOADED_P (class)) { fseek (current_jcf->read_state, current_jcf->zip_offset, SEEK_SET); jcf_parse (current_jcf); } if (TYPE_SIZE (current_class) != error_mark_node) { input_filename = current_jcf->filename; parse_class_file (); FREE (current_jcf->buffer); /* No longer necessary */ /* Note: there is a way to free this buffer right after a class seen in a zip file has been parsed. The idea is the set its jcf in such a way that buffer will be reallocated the time the code for the class will be generated. FIXME. */ } } } /* Read all the entries of the zip file, creates a class and a JCF. Sets the jcf up for further processing and link it to the created class. */ static void process_zip_dir() { int i; ZipDirectory *zdir; for (i = 0, zdir = (ZipDirectory *)localToFile->z.central_directory; i < localToFile->z.count; i++, zdir = ZIPDIR_NEXT (zdir)) { char *class_name, *file_name, *class_name_in_zip_dir; tree class; JCF *jcf; int j; class_name_in_zip_dir = ZIPDIR_FILENAME (zdir); /* We choose to not to process entries with a zero size or entries not bearing the .class extention. */ if (!zdir->size || !zdir->filename_offset || strncmp (&class_name_in_zip_dir[zdir->filename_length-6], ".class", 6)) { /* So it will be skipped in parse_zip_file_entries */ zdir->size = 0; continue; } class_name = ALLOC (zdir->filename_length+1-6); file_name = ALLOC (zdir->filename_length+1); jcf = ALLOC (sizeof (JCF)); JCF_ZERO (jcf); strncpy (class_name, class_name_in_zip_dir, zdir->filename_length-6); class_name [zdir->filename_length-6] = '\0'; strncpy (file_name, class_name_in_zip_dir, zdir->filename_length); file_name [zdir->filename_length] = '\0'; for (j=0; class_name[j]; j++) class_name [j] = (class_name [j] == '/' ? '.' : class_name [j]); /* Yes, we write back the true class name into the zip directory. */ strcpy (class_name_in_zip_dir, class_name); zdir->filename_length = j; class = lookup_class (get_identifier (class_name)); jcf->read_state = finput; jcf->filbuf = jcf_filbuf_from_stdio; jcf->seen_in_zip = 1; jcf->java_source = 0; jcf->zip_offset = zdir->filestart; jcf->classname = class_name; jcf->filename = file_name; TYPE_JCF (class) = jcf; } } /* Lookup class NAME and figure whether is a class already found in the current zip file. */ static int DEFUN(find_in_current_zip, (name, length, jcf), const char *name AND JCF **jcf) { JCF *local_jcf; tree class_name = maybe_get_identifier (name), class, icv; if (!class_name) return 0; if (!(icv = IDENTIFIER_CLASS_VALUE (class_name))) return 0; class = TREE_TYPE (icv); /* Doesn't have jcf specific info ? It's not ours */ if (!TYPE_JCF (class)) return 0; *jcf = local_jcf = TYPE_JCF (class); fseek (local_jcf->read_state, local_jcf->zip_offset, SEEK_SET); return 1; } /* Figure what kind of file we're dealing with */ static int DEFUN(jcf_figure_file_type, (jcf), JCF *jcf) { unsigned char magic_string[4]; uint32 magic; if (fread (magic_string, 1, 4, jcf->read_state) != 4) jcf_unexpected_eof (jcf, 4); fseek (jcf->read_state, 0L, SEEK_SET); magic = GET_u4 (magic_string); if (magic == 0xcafebabe) return JCF_CLASS; /* FIXME: is it a system file? */ if (magic == (JCF_u4)ZIPMAGIC && !open_in_zip (jcf, input_filename, NULL, 0)) { localToFile = ALLOC (sizeof (struct ZipFileCache)); bcopy ((PTR) SeenZipFiles, (PTR) localToFile, sizeof (struct ZipFileCache)); process_zip_dir (); /* Register all the class defined there */ return JCF_ZIP; } return JCF_SOURCE; }