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Ruby 1.9.2p290(2011-07-09revision32553)
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00001 /********************************************************************** 00002 00003 encoding.c - 00004 00005 $Author: naruse $ 00006 created at: Thu May 24 17:23:27 JST 2007 00007 00008 Copyright (C) 2007 Yukihiro Matsumoto 00009 00010 **********************************************************************/ 00011 00012 #include "ruby/ruby.h" 00013 #include "ruby/encoding.h" 00014 #include "regenc.h" 00015 #include <ctype.h> 00016 #ifndef NO_LOCALE_CHARMAP 00017 #ifdef __CYGWIN__ 00018 #include <windows.h> 00019 #endif 00020 #ifdef HAVE_LANGINFO_H 00021 #include <langinfo.h> 00022 #endif 00023 #endif 00024 #include "ruby/util.h" 00025 00026 static ID id_encoding; 00027 VALUE rb_cEncoding; 00028 static VALUE rb_encoding_list; 00029 00030 struct rb_encoding_entry { 00031 const char *name; 00032 rb_encoding *enc; 00033 rb_encoding *base; 00034 }; 00035 00036 static struct { 00037 struct rb_encoding_entry *list; 00038 int count; 00039 int size; 00040 st_table *names; 00041 } enc_table; 00042 00043 void rb_enc_init(void); 00044 00045 #define ENCODING_COUNT ENCINDEX_BUILTIN_MAX 00046 #define UNSPECIFIED_ENCODING INT_MAX 00047 00048 #define ENCODING_NAMELEN_MAX 63 00049 #define valid_encoding_name_p(name) ((name) && strlen(name) <= ENCODING_NAMELEN_MAX) 00050 00051 #define enc_autoload_p(enc) (!rb_enc_mbmaxlen(enc)) 00052 00053 static int load_encoding(const char *name); 00054 00055 static size_t 00056 enc_memsize(const void *p) 00057 { 00058 return 0; 00059 } 00060 00061 static const rb_data_type_t encoding_data_type = { 00062 "encoding", 0, 0, enc_memsize, 00063 }; 00064 00065 #define is_data_encoding(obj) (RTYPEDDATA_P(obj) && RTYPEDDATA_TYPE(obj) == &encoding_data_type) 00066 00067 static VALUE 00068 enc_new(rb_encoding *encoding) 00069 { 00070 return TypedData_Wrap_Struct(rb_cEncoding, &encoding_data_type, encoding); 00071 } 00072 00073 static VALUE 00074 rb_enc_from_encoding_index(int idx) 00075 { 00076 VALUE list, enc; 00077 00078 if (!(list = rb_encoding_list)) { 00079 rb_bug("rb_enc_from_encoding_index(%d): no rb_encoding_list", idx); 00080 } 00081 enc = rb_ary_entry(list, idx); 00082 if (NIL_P(enc)) { 00083 rb_bug("rb_enc_from_encoding_index(%d): not created yet", idx); 00084 } 00085 return enc; 00086 } 00087 00088 VALUE 00089 rb_enc_from_encoding(rb_encoding *encoding) 00090 { 00091 int idx; 00092 if (!encoding) return Qnil; 00093 idx = ENC_TO_ENCINDEX(encoding); 00094 return rb_enc_from_encoding_index(idx); 00095 } 00096 00097 static int enc_autoload(rb_encoding *); 00098 00099 static int 00100 check_encoding(rb_encoding *enc) 00101 { 00102 int index = rb_enc_to_index(enc); 00103 if (rb_enc_from_index(index) != enc) 00104 return -1; 00105 if (enc_autoload_p(enc)) { 00106 index = enc_autoload(enc); 00107 } 00108 return index; 00109 } 00110 00111 static int 00112 enc_check_encoding(VALUE obj) 00113 { 00114 if (SPECIAL_CONST_P(obj) || !rb_typeddata_is_kind_of(obj, &encoding_data_type)) { 00115 return -1; 00116 } 00117 return check_encoding(RDATA(obj)->data); 00118 } 00119 00120 static int 00121 must_encoding(VALUE enc) 00122 { 00123 int index = enc_check_encoding(enc); 00124 if (index < 0) { 00125 rb_raise(rb_eTypeError, "wrong argument type %s (expected Encoding)", 00126 rb_obj_classname(enc)); 00127 } 00128 return index; 00129 } 00130 00131 int 00132 rb_to_encoding_index(VALUE enc) 00133 { 00134 int idx; 00135 00136 idx = enc_check_encoding(enc); 00137 if (idx >= 0) { 00138 return idx; 00139 } 00140 else if (NIL_P(enc = rb_check_string_type(enc))) { 00141 return -1; 00142 } 00143 if (!rb_enc_asciicompat(rb_enc_get(enc))) { 00144 return -1; 00145 } 00146 return rb_enc_find_index(StringValueCStr(enc)); 00147 } 00148 00149 static rb_encoding * 00150 to_encoding(VALUE enc) 00151 { 00152 int idx; 00153 00154 StringValue(enc); 00155 if (!rb_enc_asciicompat(rb_enc_get(enc))) { 00156 rb_raise(rb_eArgError, "invalid name encoding (non ASCII)"); 00157 } 00158 idx = rb_enc_find_index(StringValueCStr(enc)); 00159 if (idx < 0) { 00160 rb_raise(rb_eArgError, "unknown encoding name - %s", RSTRING_PTR(enc)); 00161 } 00162 return rb_enc_from_index(idx); 00163 } 00164 00165 rb_encoding * 00166 rb_to_encoding(VALUE enc) 00167 { 00168 if (enc_check_encoding(enc) >= 0) return RDATA(enc)->data; 00169 return to_encoding(enc); 00170 } 00171 00172 void 00173 rb_gc_mark_encodings(void) 00174 { 00175 } 00176 00177 static int 00178 enc_table_expand(int newsize) 00179 { 00180 struct rb_encoding_entry *ent; 00181 int count = newsize; 00182 00183 if (enc_table.size >= newsize) return newsize; 00184 newsize = (newsize + 7) / 8 * 8; 00185 ent = realloc(enc_table.list, sizeof(*enc_table.list) * newsize); 00186 if (!ent) return -1; 00187 memset(ent + enc_table.size, 0, sizeof(*ent)*(newsize - enc_table.size)); 00188 enc_table.list = ent; 00189 enc_table.size = newsize; 00190 return count; 00191 } 00192 00193 static int 00194 enc_register_at(int index, const char *name, rb_encoding *encoding) 00195 { 00196 struct rb_encoding_entry *ent = &enc_table.list[index]; 00197 VALUE list; 00198 00199 if (!valid_encoding_name_p(name)) return -1; 00200 if (!ent->name) { 00201 ent->name = name = strdup(name); 00202 } 00203 else if (STRCASECMP(name, ent->name)) { 00204 return -1; 00205 } 00206 if (!ent->enc) { 00207 ent->enc = xmalloc(sizeof(rb_encoding)); 00208 } 00209 if (encoding) { 00210 *ent->enc = *encoding; 00211 } 00212 else { 00213 memset(ent->enc, 0, sizeof(*ent->enc)); 00214 } 00215 encoding = ent->enc; 00216 encoding->name = name; 00217 encoding->ruby_encoding_index = index; 00218 st_insert(enc_table.names, (st_data_t)name, (st_data_t)index); 00219 list = rb_encoding_list; 00220 if (list && NIL_P(rb_ary_entry(list, index))) { 00221 /* initialize encoding data */ 00222 rb_ary_store(list, index, enc_new(encoding)); 00223 } 00224 return index; 00225 } 00226 00227 static int 00228 enc_register(const char *name, rb_encoding *encoding) 00229 { 00230 int index = enc_table.count; 00231 00232 if ((index = enc_table_expand(index + 1)) < 0) return -1; 00233 enc_table.count = index; 00234 return enc_register_at(index - 1, name, encoding); 00235 } 00236 00237 static void set_encoding_const(const char *, rb_encoding *); 00238 int rb_enc_registered(const char *name); 00239 00240 int 00241 rb_enc_register(const char *name, rb_encoding *encoding) 00242 { 00243 int index = rb_enc_registered(name); 00244 00245 if (index >= 0) { 00246 rb_encoding *oldenc = rb_enc_from_index(index); 00247 if (STRCASECMP(name, rb_enc_name(oldenc))) { 00248 index = enc_register(name, encoding); 00249 } 00250 else if (enc_autoload_p(oldenc) || !ENC_DUMMY_P(oldenc)) { 00251 enc_register_at(index, name, encoding); 00252 } 00253 else { 00254 rb_raise(rb_eArgError, "encoding %s is already registered", name); 00255 } 00256 } 00257 else { 00258 index = enc_register(name, encoding); 00259 set_encoding_const(name, rb_enc_from_index(index)); 00260 } 00261 return index; 00262 } 00263 00264 void 00265 rb_encdb_declare(const char *name) 00266 { 00267 int idx = rb_enc_registered(name); 00268 if (idx < 0) { 00269 idx = enc_register(name, 0); 00270 } 00271 set_encoding_const(name, rb_enc_from_index(idx)); 00272 } 00273 00274 static void 00275 enc_check_duplication(const char *name) 00276 { 00277 if (rb_enc_registered(name) >= 0) { 00278 rb_raise(rb_eArgError, "encoding %s is already registered", name); 00279 } 00280 } 00281 00282 static rb_encoding* 00283 set_base_encoding(int index, rb_encoding *base) 00284 { 00285 rb_encoding *enc = enc_table.list[index].enc; 00286 00287 enc_table.list[index].base = base; 00288 if (rb_enc_dummy_p(base)) ENC_SET_DUMMY(enc); 00289 return enc; 00290 } 00291 00292 /* for encdb.h 00293 * Set base encoding for encodings which are not replicas 00294 * but not in their own files. 00295 */ 00296 void 00297 rb_enc_set_base(const char *name, const char *orig) 00298 { 00299 int idx = rb_enc_registered(name); 00300 int origidx = rb_enc_registered(orig); 00301 set_base_encoding(idx, rb_enc_from_index(origidx)); 00302 } 00303 00304 int 00305 rb_enc_replicate(const char *name, rb_encoding *encoding) 00306 { 00307 int idx; 00308 00309 enc_check_duplication(name); 00310 idx = enc_register(name, encoding); 00311 set_base_encoding(idx, encoding); 00312 set_encoding_const(name, rb_enc_from_index(idx)); 00313 return idx; 00314 } 00315 00316 /* 00317 * call-seq: 00318 * enc.replicate(name) -> encoding 00319 * 00320 * Returns a replicated encoding of _enc_ whose name is _name_. 00321 * The new encoding should have the same byte structure of _enc_. 00322 * If _name_ is used by another encoding, raise ArgumentError. 00323 * 00324 */ 00325 static VALUE 00326 enc_replicate(VALUE encoding, VALUE name) 00327 { 00328 return rb_enc_from_encoding_index( 00329 rb_enc_replicate(StringValueCStr(name), 00330 rb_to_encoding(encoding))); 00331 } 00332 00333 static int 00334 enc_replicate_with_index(const char *name, rb_encoding *origenc, int idx) 00335 { 00336 if (idx < 0) { 00337 idx = enc_register(name, origenc); 00338 } 00339 else { 00340 idx = enc_register_at(idx, name, origenc); 00341 } 00342 if (idx >= 0) { 00343 set_base_encoding(idx, origenc); 00344 set_encoding_const(name, rb_enc_from_index(idx)); 00345 } 00346 return idx; 00347 } 00348 00349 int 00350 rb_encdb_replicate(const char *name, const char *orig) 00351 { 00352 int origidx = rb_enc_registered(orig); 00353 int idx = rb_enc_registered(name); 00354 00355 if (origidx < 0) { 00356 origidx = enc_register(orig, 0); 00357 } 00358 return enc_replicate_with_index(name, rb_enc_from_index(origidx), idx); 00359 } 00360 00361 int 00362 rb_define_dummy_encoding(const char *name) 00363 { 00364 int index = rb_enc_replicate(name, rb_ascii8bit_encoding()); 00365 rb_encoding *enc = enc_table.list[index].enc; 00366 00367 ENC_SET_DUMMY(enc); 00368 return index; 00369 } 00370 00371 int 00372 rb_encdb_dummy(const char *name) 00373 { 00374 int index = enc_replicate_with_index(name, rb_ascii8bit_encoding(), 00375 rb_enc_registered(name)); 00376 rb_encoding *enc = enc_table.list[index].enc; 00377 00378 ENC_SET_DUMMY(enc); 00379 return index; 00380 } 00381 00382 /* 00383 * call-seq: 00384 * enc.dummy? -> true or false 00385 * 00386 * Returns true for dummy encodings. 00387 * A dummy encoding is an encoding for which character handling is not properly 00388 * implemented. 00389 * It is used for stateful encodings. 00390 * 00391 * Encoding::ISO_2022_JP.dummy? #=> true 00392 * Encoding::UTF_8.dummy? #=> false 00393 * 00394 */ 00395 static VALUE 00396 enc_dummy_p(VALUE enc) 00397 { 00398 return ENC_DUMMY_P(enc_table.list[must_encoding(enc)].enc) ? Qtrue : Qfalse; 00399 } 00400 00401 /* 00402 * call-seq: 00403 * enc.ascii_compatible? -> true or false 00404 * 00405 * Returns whether ASCII-compatible or not. 00406 * 00407 * Encoding::UTF_8.ascii_compatible? #=> true 00408 * Encoding::UTF_16BE.ascii_compatible? #=> false 00409 * 00410 */ 00411 static VALUE 00412 enc_ascii_compatible_p(VALUE enc) 00413 { 00414 return rb_enc_asciicompat(enc_table.list[must_encoding(enc)].enc) ? Qtrue : Qfalse; 00415 } 00416 00417 /* 00418 * Returns 1 when the encoding is Unicode series other than UTF-7 else 0. 00419 */ 00420 int 00421 rb_enc_unicode_p(rb_encoding *enc) 00422 { 00423 const char *name = rb_enc_name(enc); 00424 return name[0] == 'U' && name[1] == 'T' && name[2] == 'F' && name[4] != '7'; 00425 } 00426 00427 static const char * 00428 enc_alias_internal(const char *alias, int idx) 00429 { 00430 alias = strdup(alias); 00431 st_insert(enc_table.names, (st_data_t)alias, (st_data_t)idx); 00432 return alias; 00433 } 00434 00435 static int 00436 enc_alias(const char *alias, int idx) 00437 { 00438 if (!valid_encoding_name_p(alias)) return -1; 00439 alias = enc_alias_internal(alias, idx); 00440 set_encoding_const(alias, rb_enc_from_index(idx)); 00441 return idx; 00442 } 00443 00444 int 00445 rb_enc_alias(const char *alias, const char *orig) 00446 { 00447 int idx; 00448 00449 enc_check_duplication(alias); 00450 if (!enc_table.list) { 00451 rb_enc_init(); 00452 } 00453 if ((idx = rb_enc_find_index(orig)) < 0) { 00454 return -1; 00455 } 00456 return enc_alias(alias, idx); 00457 } 00458 00459 int 00460 rb_encdb_alias(const char *alias, const char *orig) 00461 { 00462 int idx = rb_enc_registered(orig); 00463 00464 if (idx < 0) { 00465 idx = enc_register(orig, 0); 00466 } 00467 return enc_alias(alias, idx); 00468 } 00469 00470 enum { 00471 ENCINDEX_ASCII, 00472 ENCINDEX_UTF_8, 00473 ENCINDEX_US_ASCII, 00474 ENCINDEX_BUILTIN_MAX 00475 }; 00476 00477 extern rb_encoding OnigEncodingUTF_8; 00478 extern rb_encoding OnigEncodingUS_ASCII; 00479 00480 void 00481 rb_enc_init(void) 00482 { 00483 enc_table_expand(ENCODING_COUNT + 1); 00484 if (!enc_table.names) { 00485 enc_table.names = st_init_strcasetable(); 00486 } 00487 #define ENC_REGISTER(enc) enc_register_at(ENCINDEX_##enc, rb_enc_name(&OnigEncoding##enc), &OnigEncoding##enc) 00488 ENC_REGISTER(ASCII); 00489 ENC_REGISTER(UTF_8); 00490 ENC_REGISTER(US_ASCII); 00491 #undef ENC_REGISTER 00492 enc_table.count = ENCINDEX_BUILTIN_MAX; 00493 } 00494 00495 rb_encoding * 00496 rb_enc_from_index(int index) 00497 { 00498 if (!enc_table.list) { 00499 rb_enc_init(); 00500 } 00501 if (index < 0 || enc_table.count <= index) { 00502 return 0; 00503 } 00504 return enc_table.list[index].enc; 00505 } 00506 00507 int 00508 rb_enc_registered(const char *name) 00509 { 00510 st_data_t idx = 0; 00511 00512 if (!name) return -1; 00513 if (!enc_table.list) return -1; 00514 if (st_lookup(enc_table.names, (st_data_t)name, &idx)) { 00515 return (int)idx; 00516 } 00517 return -1; 00518 } 00519 00520 static VALUE 00521 require_enc(VALUE enclib) 00522 { 00523 return rb_require_safe(enclib, rb_safe_level()); 00524 } 00525 00526 static int 00527 load_encoding(const char *name) 00528 { 00529 VALUE enclib = rb_sprintf("enc/%s.so", name); 00530 VALUE verbose = ruby_verbose; 00531 VALUE debug = ruby_debug; 00532 VALUE loaded; 00533 char *s = RSTRING_PTR(enclib) + 4, *e = RSTRING_END(enclib) - 3; 00534 int idx; 00535 00536 while (s < e) { 00537 if (!ISALNUM(*s)) *s = '_'; 00538 else if (ISUPPER(*s)) *s = TOLOWER(*s); 00539 ++s; 00540 } 00541 OBJ_FREEZE(enclib); 00542 ruby_verbose = Qfalse; 00543 ruby_debug = Qfalse; 00544 loaded = rb_protect(require_enc, enclib, 0); 00545 ruby_verbose = verbose; 00546 ruby_debug = debug; 00547 rb_set_errinfo(Qnil); 00548 if (NIL_P(loaded)) return -1; 00549 if ((idx = rb_enc_registered(name)) < 0) return -1; 00550 if (enc_autoload_p(enc_table.list[idx].enc)) return -1; 00551 return idx; 00552 } 00553 00554 static int 00555 enc_autoload(rb_encoding *enc) 00556 { 00557 int i; 00558 rb_encoding *base = enc_table.list[ENC_TO_ENCINDEX(enc)].base; 00559 00560 if (base) { 00561 i = 0; 00562 do { 00563 if (i >= enc_table.count) return -1; 00564 } while (enc_table.list[i].enc != base && (++i, 1)); 00565 if (enc_autoload_p(base)) { 00566 if (enc_autoload(base) < 0) return -1; 00567 } 00568 i = ENC_TO_ENCINDEX(enc); 00569 enc_register_at(i, rb_enc_name(enc), base); 00570 } 00571 else { 00572 i = load_encoding(rb_enc_name(enc)); 00573 } 00574 return i; 00575 } 00576 00577 int 00578 rb_enc_find_index(const char *name) 00579 { 00580 int i = rb_enc_registered(name); 00581 rb_encoding *enc; 00582 00583 if (i < 0) { 00584 i = load_encoding(name); 00585 } 00586 else if (!(enc = rb_enc_from_index(i))) { 00587 if (i != UNSPECIFIED_ENCODING) { 00588 rb_raise(rb_eArgError, "encoding %s is not registered", name); 00589 } 00590 } 00591 else if (enc_autoload_p(enc)) { 00592 if (enc_autoload(enc) < 0) { 00593 rb_warn("failed to load encoding (%s); use ASCII-8BIT instead", 00594 name); 00595 return 0; 00596 } 00597 } 00598 return i; 00599 } 00600 00601 rb_encoding * 00602 rb_enc_find(const char *name) 00603 { 00604 int idx = rb_enc_find_index(name); 00605 if (idx < 0) idx = 0; 00606 return rb_enc_from_index(idx); 00607 } 00608 00609 static inline int 00610 enc_capable(VALUE obj) 00611 { 00612 if (SPECIAL_CONST_P(obj)) return SYMBOL_P(obj); 00613 switch (BUILTIN_TYPE(obj)) { 00614 case T_STRING: 00615 case T_REGEXP: 00616 case T_FILE: 00617 return TRUE; 00618 case T_DATA: 00619 if (is_data_encoding(obj)) return TRUE; 00620 default: 00621 return FALSE; 00622 } 00623 } 00624 00625 ID 00626 rb_id_encoding(void) 00627 { 00628 CONST_ID(id_encoding, "encoding"); 00629 return id_encoding; 00630 } 00631 00632 int 00633 rb_enc_get_index(VALUE obj) 00634 { 00635 int i = -1; 00636 VALUE tmp; 00637 00638 if (SPECIAL_CONST_P(obj)) { 00639 if (!SYMBOL_P(obj)) return -1; 00640 obj = rb_id2str(SYM2ID(obj)); 00641 } 00642 switch (BUILTIN_TYPE(obj)) { 00643 as_default: 00644 default: 00645 case T_STRING: 00646 case T_REGEXP: 00647 i = ENCODING_GET_INLINED(obj); 00648 if (i == ENCODING_INLINE_MAX) { 00649 VALUE iv; 00650 00651 iv = rb_ivar_get(obj, rb_id_encoding()); 00652 i = NUM2INT(iv); 00653 } 00654 break; 00655 case T_FILE: 00656 tmp = rb_funcall(obj, rb_intern("internal_encoding"), 0, 0); 00657 if (NIL_P(tmp)) obj = rb_funcall(obj, rb_intern("external_encoding"), 0, 0); 00658 else obj = tmp; 00659 if (NIL_P(obj)) break; 00660 case T_DATA: 00661 if (is_data_encoding(obj)) { 00662 i = enc_check_encoding(obj); 00663 } 00664 else { 00665 goto as_default; 00666 } 00667 break; 00668 } 00669 return i; 00670 } 00671 00672 void 00673 rb_enc_set_index(VALUE obj, int idx) 00674 { 00675 if (idx < ENCODING_INLINE_MAX) { 00676 ENCODING_SET_INLINED(obj, idx); 00677 return; 00678 } 00679 ENCODING_SET_INLINED(obj, ENCODING_INLINE_MAX); 00680 rb_ivar_set(obj, rb_id_encoding(), INT2NUM(idx)); 00681 return; 00682 } 00683 00684 VALUE 00685 rb_enc_associate_index(VALUE obj, int idx) 00686 { 00687 /* enc_check_capable(obj);*/ 00688 if (rb_enc_get_index(obj) == idx) 00689 return obj; 00690 if (SPECIAL_CONST_P(obj)) { 00691 rb_raise(rb_eArgError, "cannot set encoding"); 00692 } 00693 if (!ENC_CODERANGE_ASCIIONLY(obj) || 00694 !rb_enc_asciicompat(rb_enc_from_index(idx))) { 00695 ENC_CODERANGE_CLEAR(obj); 00696 } 00697 rb_enc_set_index(obj, idx); 00698 return obj; 00699 } 00700 00701 VALUE 00702 rb_enc_associate(VALUE obj, rb_encoding *enc) 00703 { 00704 return rb_enc_associate_index(obj, rb_enc_to_index(enc)); 00705 } 00706 00707 rb_encoding* 00708 rb_enc_get(VALUE obj) 00709 { 00710 return rb_enc_from_index(rb_enc_get_index(obj)); 00711 } 00712 00713 rb_encoding* 00714 rb_enc_check(VALUE str1, VALUE str2) 00715 { 00716 rb_encoding *enc = rb_enc_compatible(str1, str2); 00717 if (!enc) 00718 rb_raise(rb_eEncCompatError, "incompatible character encodings: %s and %s", 00719 rb_enc_name(rb_enc_get(str1)), 00720 rb_enc_name(rb_enc_get(str2))); 00721 return enc; 00722 } 00723 00724 rb_encoding* 00725 rb_enc_compatible(VALUE str1, VALUE str2) 00726 { 00727 int idx1, idx2; 00728 rb_encoding *enc1, *enc2; 00729 00730 idx1 = rb_enc_get_index(str1); 00731 idx2 = rb_enc_get_index(str2); 00732 00733 if (idx1 < 0 || idx2 < 0) 00734 return 0; 00735 00736 if (idx1 == idx2) { 00737 return rb_enc_from_index(idx1); 00738 } 00739 enc1 = rb_enc_from_index(idx1); 00740 enc2 = rb_enc_from_index(idx2); 00741 00742 if (TYPE(str2) == T_STRING && RSTRING_LEN(str2) == 0) 00743 return (idx1 == ENCINDEX_US_ASCII && rb_enc_asciicompat(enc2)) ? enc2 : enc1; 00744 if (TYPE(str1) == T_STRING && RSTRING_LEN(str1) == 0) 00745 return (idx2 == ENCINDEX_US_ASCII && rb_enc_asciicompat(enc1)) ? enc1 : enc2; 00746 if (!rb_enc_asciicompat(enc1) || !rb_enc_asciicompat(enc2)) { 00747 return 0; 00748 } 00749 00750 /* objects whose encoding is the same of contents */ 00751 if (BUILTIN_TYPE(str2) != T_STRING && idx2 == ENCINDEX_US_ASCII) 00752 return enc1; 00753 if (BUILTIN_TYPE(str1) != T_STRING && idx1 == ENCINDEX_US_ASCII) 00754 return enc2; 00755 00756 if (BUILTIN_TYPE(str1) != T_STRING) { 00757 VALUE tmp = str1; 00758 int idx0 = idx1; 00759 str1 = str2; 00760 str2 = tmp; 00761 idx1 = idx2; 00762 idx2 = idx0; 00763 } 00764 if (BUILTIN_TYPE(str1) == T_STRING) { 00765 int cr1, cr2; 00766 00767 cr1 = rb_enc_str_coderange(str1); 00768 if (BUILTIN_TYPE(str2) == T_STRING) { 00769 cr2 = rb_enc_str_coderange(str2); 00770 if (cr1 != cr2) { 00771 /* may need to handle ENC_CODERANGE_BROKEN */ 00772 if (cr1 == ENC_CODERANGE_7BIT) return enc2; 00773 if (cr2 == ENC_CODERANGE_7BIT) return enc1; 00774 } 00775 if (cr2 == ENC_CODERANGE_7BIT) { 00776 if (idx1 == ENCINDEX_ASCII) return enc2; 00777 return enc1; 00778 } 00779 } 00780 if (cr1 == ENC_CODERANGE_7BIT) 00781 return enc2; 00782 } 00783 return 0; 00784 } 00785 00786 void 00787 rb_enc_copy(VALUE obj1, VALUE obj2) 00788 { 00789 rb_enc_associate_index(obj1, rb_enc_get_index(obj2)); 00790 } 00791 00792 00793 /* 00794 * call-seq: 00795 * obj.encoding -> encoding 00796 * 00797 * Returns the Encoding object that represents the encoding of obj. 00798 */ 00799 00800 VALUE 00801 rb_obj_encoding(VALUE obj) 00802 { 00803 rb_encoding *enc = rb_enc_get(obj); 00804 if (!enc) { 00805 rb_raise(rb_eTypeError, "unknown encoding"); 00806 } 00807 return rb_enc_from_encoding(enc); 00808 } 00809 00810 int 00811 rb_enc_fast_mbclen(const char *p, const char *e, rb_encoding *enc) 00812 { 00813 return ONIGENC_MBC_ENC_LEN(enc, (UChar*)p, (UChar*)e); 00814 } 00815 00816 int 00817 rb_enc_mbclen(const char *p, const char *e, rb_encoding *enc) 00818 { 00819 int n = ONIGENC_PRECISE_MBC_ENC_LEN(enc, (UChar*)p, (UChar*)e); 00820 if (MBCLEN_CHARFOUND_P(n) && MBCLEN_CHARFOUND_LEN(n) <= e-p) 00821 return MBCLEN_CHARFOUND_LEN(n); 00822 else { 00823 int min = rb_enc_mbminlen(enc); 00824 return min <= e-p ? min : (int)(e-p); 00825 } 00826 } 00827 00828 int 00829 rb_enc_precise_mbclen(const char *p, const char *e, rb_encoding *enc) 00830 { 00831 int n; 00832 if (e <= p) 00833 return ONIGENC_CONSTRUCT_MBCLEN_NEEDMORE(1); 00834 n = ONIGENC_PRECISE_MBC_ENC_LEN(enc, (UChar*)p, (UChar*)e); 00835 if (e-p < n) 00836 return ONIGENC_CONSTRUCT_MBCLEN_NEEDMORE(n-(int)(e-p)); 00837 return n; 00838 } 00839 00840 int 00841 rb_enc_ascget(const char *p, const char *e, int *len, rb_encoding *enc) 00842 { 00843 unsigned int c, l; 00844 if (e <= p) 00845 return -1; 00846 if (rb_enc_asciicompat(enc)) { 00847 c = (unsigned char)*p; 00848 if (!ISASCII(c)) 00849 return -1; 00850 if (len) *len = 1; 00851 return c; 00852 } 00853 l = rb_enc_precise_mbclen(p, e, enc); 00854 if (!MBCLEN_CHARFOUND_P(l)) 00855 return -1; 00856 c = rb_enc_mbc_to_codepoint(p, e, enc); 00857 if (!rb_enc_isascii(c, enc)) 00858 return -1; 00859 if (len) *len = l; 00860 return c; 00861 } 00862 00863 unsigned int 00864 rb_enc_codepoint_len(const char *p, const char *e, int *len_p, rb_encoding *enc) 00865 { 00866 int r; 00867 if (e <= p) 00868 rb_raise(rb_eArgError, "empty string"); 00869 r = rb_enc_precise_mbclen(p, e, enc); 00870 if (MBCLEN_CHARFOUND_P(r)) { 00871 if (len_p) *len_p = MBCLEN_CHARFOUND_LEN(r); 00872 return rb_enc_mbc_to_codepoint(p, e, enc); 00873 } 00874 else 00875 rb_raise(rb_eArgError, "invalid byte sequence in %s", rb_enc_name(enc)); 00876 } 00877 00878 #undef rb_enc_codepoint 00879 unsigned int 00880 rb_enc_codepoint(const char *p, const char *e, rb_encoding *enc) 00881 { 00882 return rb_enc_codepoint_len(p, e, 0, enc); 00883 } 00884 00885 int 00886 rb_enc_codelen(int c, rb_encoding *enc) 00887 { 00888 int n = ONIGENC_CODE_TO_MBCLEN(enc,c); 00889 if (n == 0) { 00890 rb_raise(rb_eArgError, "invalid codepoint 0x%x in %s", c, rb_enc_name(enc)); 00891 } 00892 return n; 00893 } 00894 00895 int 00896 rb_enc_toupper(int c, rb_encoding *enc) 00897 { 00898 return (ONIGENC_IS_ASCII_CODE(c)?ONIGENC_ASCII_CODE_TO_UPPER_CASE(c):(c)); 00899 } 00900 00901 int 00902 rb_enc_tolower(int c, rb_encoding *enc) 00903 { 00904 return (ONIGENC_IS_ASCII_CODE(c)?ONIGENC_ASCII_CODE_TO_LOWER_CASE(c):(c)); 00905 } 00906 00907 /* 00908 * call-seq: 00909 * enc.inspect -> string 00910 * 00911 * Returns a string which represents the encoding for programmers. 00912 * 00913 * Encoding::UTF_8.inspect #=> "#<Encoding:UTF-8>" 00914 * Encoding::ISO_2022_JP.inspect #=> "#<Encoding:ISO-2022-JP (dummy)>" 00915 */ 00916 static VALUE 00917 enc_inspect(VALUE self) 00918 { 00919 VALUE str = rb_sprintf("#<%s:%s%s>", rb_obj_classname(self), 00920 rb_enc_name((rb_encoding*)DATA_PTR(self)), 00921 (enc_dummy_p(self) ? " (dummy)" : "")); 00922 ENCODING_CODERANGE_SET(str, rb_usascii_encindex(), ENC_CODERANGE_7BIT); 00923 return str; 00924 } 00925 00926 /* 00927 * call-seq: 00928 * enc.name -> string 00929 * 00930 * Returns the name of the encoding. 00931 * 00932 * Encoding::UTF_8.name #=> "UTF-8" 00933 */ 00934 static VALUE 00935 enc_name(VALUE self) 00936 { 00937 return rb_usascii_str_new2(rb_enc_name((rb_encoding*)DATA_PTR(self))); 00938 } 00939 00940 static int 00941 enc_names_i(st_data_t name, st_data_t idx, st_data_t args) 00942 { 00943 VALUE *arg = (VALUE *)args; 00944 00945 if ((int)idx == (int)arg[0]) { 00946 VALUE str = rb_usascii_str_new2((char *)name); 00947 OBJ_FREEZE(str); 00948 rb_ary_push(arg[1], str); 00949 } 00950 return ST_CONTINUE; 00951 } 00952 00953 /* 00954 * call-seq: 00955 * enc.names -> array 00956 * 00957 * Returns the list of name and aliases of the encoding. 00958 * 00959 * Encoding::WINDOWS_31J.names #=> ["Windows-31J", "CP932", "csWindows31J"] 00960 */ 00961 static VALUE 00962 enc_names(VALUE self) 00963 { 00964 VALUE args[2]; 00965 00966 args[0] = (VALUE)rb_to_encoding_index(self); 00967 args[1] = rb_ary_new2(0); 00968 st_foreach(enc_table.names, enc_names_i, (st_data_t)args); 00969 return args[1]; 00970 } 00971 00972 /* 00973 * call-seq: 00974 * Encoding.list -> [enc1, enc2, ...] 00975 * 00976 * Returns the list of loaded encodings. 00977 * 00978 * Encoding.list 00979 * #=> [#<Encoding:ASCII-8BIT>, #<Encoding:UTF-8>, 00980 * #<Encoding:ISO-2022-JP (dummy)>] 00981 * 00982 * Encoding.find("US-ASCII") 00983 * #=> #<Encoding:US-ASCII> 00984 * 00985 * Encoding.list 00986 * #=> [#<Encoding:ASCII-8BIT>, #<Encoding:UTF-8>, 00987 * #<Encoding:US-ASCII>, #<Encoding:ISO-2022-JP (dummy)>] 00988 * 00989 */ 00990 static VALUE 00991 enc_list(VALUE klass) 00992 { 00993 VALUE ary = rb_ary_new2(0); 00994 rb_ary_replace(ary, rb_encoding_list); 00995 return ary; 00996 } 00997 00998 /* 00999 * call-seq: 01000 * Encoding.find(string) -> enc 01001 * Encoding.find(symbol) -> enc 01002 * 01003 * Search the encoding with specified <i>name</i>. 01004 * <i>name</i> should be a string or symbol. 01005 * 01006 * Encoding.find("US-ASCII") #=> #<Encoding:US-ASCII> 01007 * Encoding.find(:Shift_JIS) #=> #<Encoding:Shift_JIS> 01008 * 01009 * Names which this method accept are encoding names and aliases 01010 * including following special aliases 01011 * 01012 * "external":: default external encoding 01013 * "internal":: default internal encoding 01014 * "locale":: locale encoding 01015 * "filesystem":: filesystem encoding 01016 * 01017 * An ArgumentError is raised when no encoding with <i>name</i>. 01018 * Only <code>Encoding.find("internal")</code> however returns nil 01019 * when no encoding named "internal", in other words, when Ruby has no 01020 * default internal encoding. 01021 */ 01022 static VALUE 01023 enc_find(VALUE klass, VALUE enc) 01024 { 01025 return rb_enc_from_encoding(to_encoding(enc)); 01026 } 01027 01028 /* 01029 * call-seq: 01030 * Encoding.compatible?(str1, str2) -> enc or nil 01031 * 01032 * Checks the compatibility of two strings. 01033 * If they are compatible, means concatenatable, 01034 * returns an encoding which the concatenated string will be. 01035 * If they are not compatible, nil is returned. 01036 * 01037 * Encoding.compatible?("\xa1".force_encoding("iso-8859-1"), "b") 01038 * #=> #<Encoding:ISO-8859-1> 01039 * 01040 * Encoding.compatible?( 01041 * "\xa1".force_encoding("iso-8859-1"), 01042 * "\xa1\xa1".force_encoding("euc-jp")) 01043 * #=> nil 01044 * 01045 */ 01046 static VALUE 01047 enc_compatible_p(VALUE klass, VALUE str1, VALUE str2) 01048 { 01049 rb_encoding *enc; 01050 01051 if (!enc_capable(str1)) return Qnil; 01052 if (!enc_capable(str2)) return Qnil; 01053 enc = rb_enc_compatible(str1, str2); 01054 if (!enc) return Qnil; 01055 return rb_enc_from_encoding(enc); 01056 } 01057 01058 /* :nodoc: */ 01059 static VALUE 01060 enc_dump(int argc, VALUE *argv, VALUE self) 01061 { 01062 rb_scan_args(argc, argv, "01", 0); 01063 return enc_name(self); 01064 } 01065 01066 /* :nodoc: */ 01067 static VALUE 01068 enc_load(VALUE klass, VALUE str) 01069 { 01070 return enc_find(klass, str); 01071 } 01072 01073 rb_encoding * 01074 rb_ascii8bit_encoding(void) 01075 { 01076 if (!enc_table.list) { 01077 rb_enc_init(); 01078 } 01079 return enc_table.list[ENCINDEX_ASCII].enc; 01080 } 01081 01082 int 01083 rb_ascii8bit_encindex(void) 01084 { 01085 return ENCINDEX_ASCII; 01086 } 01087 01088 rb_encoding * 01089 rb_utf8_encoding(void) 01090 { 01091 if (!enc_table.list) { 01092 rb_enc_init(); 01093 } 01094 return enc_table.list[ENCINDEX_UTF_8].enc; 01095 } 01096 01097 int 01098 rb_utf8_encindex(void) 01099 { 01100 return ENCINDEX_UTF_8; 01101 } 01102 01103 rb_encoding * 01104 rb_usascii_encoding(void) 01105 { 01106 if (!enc_table.list) { 01107 rb_enc_init(); 01108 } 01109 return enc_table.list[ENCINDEX_US_ASCII].enc; 01110 } 01111 01112 int 01113 rb_usascii_encindex(void) 01114 { 01115 return ENCINDEX_US_ASCII; 01116 } 01117 01118 int 01119 rb_locale_encindex(void) 01120 { 01121 VALUE charmap = rb_locale_charmap(rb_cEncoding); 01122 int idx; 01123 01124 if (NIL_P(charmap)) 01125 idx = rb_usascii_encindex(); 01126 else if ((idx = rb_enc_find_index(StringValueCStr(charmap))) < 0) 01127 idx = rb_ascii8bit_encindex(); 01128 01129 if (rb_enc_registered("locale") < 0) enc_alias_internal("locale", idx); 01130 01131 return idx; 01132 } 01133 01134 rb_encoding * 01135 rb_locale_encoding(void) 01136 { 01137 return rb_enc_from_index(rb_locale_encindex()); 01138 } 01139 01140 static int 01141 enc_set_filesystem_encoding(void) 01142 { 01143 int idx; 01144 #if defined NO_LOCALE_CHARMAP 01145 idx = rb_enc_to_index(rb_default_external_encoding()); 01146 #elif defined _WIN32 || defined __CYGWIN__ 01147 char cp[sizeof(int) * 8 / 3 + 4]; 01148 snprintf(cp, sizeof cp, "CP%d", AreFileApisANSI() ? GetACP() : GetOEMCP()); 01149 idx = rb_enc_find_index(cp); 01150 if (idx < 0) idx = rb_ascii8bit_encindex(); 01151 #else 01152 idx = rb_enc_to_index(rb_default_external_encoding()); 01153 #endif 01154 01155 enc_alias_internal("filesystem", idx); 01156 return idx; 01157 } 01158 01159 int 01160 rb_filesystem_encindex(void) 01161 { 01162 int idx = rb_enc_registered("filesystem"); 01163 if (idx < 0) 01164 idx = rb_ascii8bit_encindex(); 01165 return idx; 01166 } 01167 01168 rb_encoding * 01169 rb_filesystem_encoding(void) 01170 { 01171 return rb_enc_from_index(rb_filesystem_encindex()); 01172 } 01173 01174 struct default_encoding { 01175 int index; /* -2 => not yet set, -1 => nil */ 01176 rb_encoding *enc; 01177 }; 01178 01179 static struct default_encoding default_external = {0}; 01180 01181 static int 01182 enc_set_default_encoding(struct default_encoding *def, VALUE encoding, const char *name) 01183 { 01184 int overridden = FALSE; 01185 01186 if (def->index != -2) 01187 /* Already set */ 01188 overridden = TRUE; 01189 01190 if (NIL_P(encoding)) { 01191 def->index = -1; 01192 def->enc = 0; 01193 st_insert(enc_table.names, (st_data_t)strdup(name), 01194 (st_data_t)UNSPECIFIED_ENCODING); 01195 } 01196 else { 01197 def->index = rb_enc_to_index(rb_to_encoding(encoding)); 01198 def->enc = 0; 01199 enc_alias_internal(name, def->index); 01200 } 01201 01202 if (def == &default_external) 01203 enc_set_filesystem_encoding(); 01204 01205 return overridden; 01206 } 01207 01208 rb_encoding * 01209 rb_default_external_encoding(void) 01210 { 01211 if (default_external.enc) return default_external.enc; 01212 01213 if (default_external.index >= 0) { 01214 default_external.enc = rb_enc_from_index(default_external.index); 01215 return default_external.enc; 01216 } 01217 else { 01218 return rb_locale_encoding(); 01219 } 01220 } 01221 01222 VALUE 01223 rb_enc_default_external(void) 01224 { 01225 return rb_enc_from_encoding(rb_default_external_encoding()); 01226 } 01227 01228 /* 01229 * call-seq: 01230 * Encoding.default_external -> enc 01231 * 01232 * Returns default external encoding. 01233 * 01234 * It is initialized by the locale or -E option. 01235 */ 01236 static VALUE 01237 get_default_external(VALUE klass) 01238 { 01239 return rb_enc_default_external(); 01240 } 01241 01242 void 01243 rb_enc_set_default_external(VALUE encoding) 01244 { 01245 if (NIL_P(encoding)) { 01246 rb_raise(rb_eArgError, "default external can not be nil"); 01247 } 01248 enc_set_default_encoding(&default_external, encoding, 01249 "external"); 01250 } 01251 01252 /* 01253 * call-seq: 01254 * Encoding.default_external = enc 01255 * 01256 * Sets default external encoding. 01257 */ 01258 static VALUE 01259 set_default_external(VALUE klass, VALUE encoding) 01260 { 01261 rb_warning("setting Encoding.default_external"); 01262 rb_enc_set_default_external(encoding); 01263 return encoding; 01264 } 01265 01266 static struct default_encoding default_internal = {-2}; 01267 01268 rb_encoding * 01269 rb_default_internal_encoding(void) 01270 { 01271 if (!default_internal.enc && default_internal.index >= 0) { 01272 default_internal.enc = rb_enc_from_index(default_internal.index); 01273 } 01274 return default_internal.enc; /* can be NULL */ 01275 } 01276 01277 VALUE 01278 rb_enc_default_internal(void) 01279 { 01280 /* Note: These functions cope with default_internal not being set */ 01281 return rb_enc_from_encoding(rb_default_internal_encoding()); 01282 } 01283 01284 /* 01285 * call-seq: 01286 * Encoding.default_internal -> enc 01287 * 01288 * Returns default internal encoding. 01289 * 01290 * It is initialized by the source internal_encoding or -E option. 01291 */ 01292 static VALUE 01293 get_default_internal(VALUE klass) 01294 { 01295 return rb_enc_default_internal(); 01296 } 01297 01298 void 01299 rb_enc_set_default_internal(VALUE encoding) 01300 { 01301 enc_set_default_encoding(&default_internal, encoding, 01302 "internal"); 01303 } 01304 01305 /* 01306 * call-seq: 01307 * Encoding.default_internal = enc or nil 01308 * 01309 * Sets default internal encoding. 01310 * Or removes default internal encoding when passed nil. 01311 */ 01312 static VALUE 01313 set_default_internal(VALUE klass, VALUE encoding) 01314 { 01315 rb_warning("setting Encoding.default_internal"); 01316 rb_enc_set_default_internal(encoding); 01317 return encoding; 01318 } 01319 01320 /* 01321 * call-seq: 01322 * Encoding.locale_charmap -> string 01323 * 01324 * Returns the locale charmap name. 01325 * 01326 * Debian GNU/Linux 01327 * LANG=C 01328 * Encoding.locale_charmap #=> "ANSI_X3.4-1968" 01329 * LANG=ja_JP.EUC-JP 01330 * Encoding.locale_charmap #=> "EUC-JP" 01331 * 01332 * SunOS 5 01333 * LANG=C 01334 * Encoding.locale_charmap #=> "646" 01335 * LANG=ja 01336 * Encoding.locale_charmap #=> "eucJP" 01337 * 01338 * The result is highly platform dependent. 01339 * So Encoding.find(Encoding.locale_charmap) may cause an error. 01340 * If you need some encoding object even for unknown locale, 01341 * Encoding.find("locale") can be used. 01342 * 01343 */ 01344 VALUE 01345 rb_locale_charmap(VALUE klass) 01346 { 01347 #if defined NO_LOCALE_CHARMAP 01348 return rb_usascii_str_new2("ASCII-8BIT"); 01349 #elif defined _WIN32 || defined __CYGWIN__ 01350 const char *nl_langinfo_codeset(void); 01351 const char *codeset = nl_langinfo_codeset(); 01352 char cp[sizeof(int) * 3 + 4]; 01353 if (!codeset) { 01354 snprintf(cp, sizeof(cp), "CP%d", GetConsoleCP()); 01355 codeset = cp; 01356 } 01357 return rb_usascii_str_new2(codeset); 01358 #elif defined HAVE_LANGINFO_H 01359 char *codeset; 01360 codeset = nl_langinfo(CODESET); 01361 return rb_usascii_str_new2(codeset); 01362 #else 01363 return Qnil; 01364 #endif 01365 } 01366 01367 static void 01368 set_encoding_const(const char *name, rb_encoding *enc) 01369 { 01370 VALUE encoding = rb_enc_from_encoding(enc); 01371 char *s = (char *)name; 01372 int haslower = 0, hasupper = 0, valid = 0; 01373 01374 if (ISDIGIT(*s)) return; 01375 if (ISUPPER(*s)) { 01376 hasupper = 1; 01377 while (*++s && (ISALNUM(*s) || *s == '_')) { 01378 if (ISLOWER(*s)) haslower = 1; 01379 } 01380 } 01381 if (!*s) { 01382 if (s - name > ENCODING_NAMELEN_MAX) return; 01383 valid = 1; 01384 rb_define_const(rb_cEncoding, name, encoding); 01385 } 01386 if (!valid || haslower) { 01387 size_t len = s - name; 01388 if (len > ENCODING_NAMELEN_MAX) return; 01389 if (!haslower || !hasupper) { 01390 do { 01391 if (ISLOWER(*s)) haslower = 1; 01392 if (ISUPPER(*s)) hasupper = 1; 01393 } while (*++s && (!haslower || !hasupper)); 01394 len = s - name; 01395 } 01396 len += strlen(s); 01397 if (len++ > ENCODING_NAMELEN_MAX) return; 01398 MEMCPY(s = ALLOCA_N(char, len), name, char, len); 01399 name = s; 01400 if (!valid) { 01401 if (ISLOWER(*s)) *s = ONIGENC_ASCII_CODE_TO_UPPER_CASE((int)*s); 01402 for (; *s; ++s) { 01403 if (!ISALNUM(*s)) *s = '_'; 01404 } 01405 if (hasupper) { 01406 rb_define_const(rb_cEncoding, name, encoding); 01407 } 01408 } 01409 if (haslower) { 01410 for (s = (char *)name; *s; ++s) { 01411 if (ISLOWER(*s)) *s = ONIGENC_ASCII_CODE_TO_UPPER_CASE((int)*s); 01412 } 01413 rb_define_const(rb_cEncoding, name, encoding); 01414 } 01415 } 01416 } 01417 01418 static int 01419 rb_enc_name_list_i(st_data_t name, st_data_t idx, st_data_t arg) 01420 { 01421 VALUE ary = (VALUE)arg; 01422 VALUE str = rb_usascii_str_new2((char *)name); 01423 OBJ_FREEZE(str); 01424 rb_ary_push(ary, str); 01425 return ST_CONTINUE; 01426 } 01427 01428 /* 01429 * call-seq: 01430 * Encoding.name_list -> ["enc1", "enc2", ...] 01431 * 01432 * Returns the list of available encoding names. 01433 * 01434 * Encoding.name_list 01435 * #=> ["US-ASCII", "ASCII-8BIT", "UTF-8", 01436 * "ISO-8859-1", "Shift_JIS", "EUC-JP", 01437 * "Windows-31J", 01438 * "BINARY", "CP932", "eucJP"] 01439 * 01440 */ 01441 01442 static VALUE 01443 rb_enc_name_list(VALUE klass) 01444 { 01445 VALUE ary = rb_ary_new2(enc_table.names->num_entries); 01446 st_foreach(enc_table.names, rb_enc_name_list_i, (st_data_t)ary); 01447 return ary; 01448 } 01449 01450 static int 01451 rb_enc_aliases_enc_i(st_data_t name, st_data_t orig, st_data_t arg) 01452 { 01453 VALUE *p = (VALUE *)arg; 01454 VALUE aliases = p[0], ary = p[1]; 01455 int idx = (int)orig; 01456 VALUE key, str = rb_ary_entry(ary, idx); 01457 01458 if (NIL_P(str)) { 01459 rb_encoding *enc = rb_enc_from_index(idx); 01460 01461 if (!enc) return ST_CONTINUE; 01462 if (STRCASECMP((char*)name, rb_enc_name(enc)) == 0) { 01463 return ST_CONTINUE; 01464 } 01465 str = rb_usascii_str_new2(rb_enc_name(enc)); 01466 OBJ_FREEZE(str); 01467 rb_ary_store(ary, idx, str); 01468 } 01469 key = rb_usascii_str_new2((char *)name); 01470 OBJ_FREEZE(key); 01471 rb_hash_aset(aliases, key, str); 01472 return ST_CONTINUE; 01473 } 01474 01475 /* 01476 * call-seq: 01477 * Encoding.aliases -> {"alias1" => "orig1", "alias2" => "orig2", ...} 01478 * 01479 * Returns the hash of available encoding alias and original encoding name. 01480 * 01481 * Encoding.aliases 01482 * #=> {"BINARY"=>"ASCII-8BIT", "ASCII"=>"US-ASCII", "ANSI_X3.4-1986"=>"US-ASCII", 01483 * "SJIS"=>"Shift_JIS", "eucJP"=>"EUC-JP", "CP932"=>"Windows-31J"} 01484 * 01485 */ 01486 01487 static VALUE 01488 rb_enc_aliases(VALUE klass) 01489 { 01490 VALUE aliases[2]; 01491 aliases[0] = rb_hash_new(); 01492 aliases[1] = rb_ary_new(); 01493 st_foreach(enc_table.names, rb_enc_aliases_enc_i, (st_data_t)aliases); 01494 return aliases[0]; 01495 } 01496 01497 void 01498 Init_Encoding(void) 01499 { 01500 #undef rb_intern 01501 #define rb_intern(str) rb_intern_const(str) 01502 VALUE list; 01503 int i; 01504 01505 rb_cEncoding = rb_define_class("Encoding", rb_cObject); 01506 rb_undef_alloc_func(rb_cEncoding); 01507 rb_undef_method(CLASS_OF(rb_cEncoding), "new"); 01508 rb_define_method(rb_cEncoding, "to_s", enc_name, 0); 01509 rb_define_method(rb_cEncoding, "inspect", enc_inspect, 0); 01510 rb_define_method(rb_cEncoding, "name", enc_name, 0); 01511 rb_define_method(rb_cEncoding, "names", enc_names, 0); 01512 rb_define_method(rb_cEncoding, "dummy?", enc_dummy_p, 0); 01513 rb_define_method(rb_cEncoding, "ascii_compatible?", enc_ascii_compatible_p, 0); 01514 rb_define_method(rb_cEncoding, "replicate", enc_replicate, 1); 01515 rb_define_singleton_method(rb_cEncoding, "list", enc_list, 0); 01516 rb_define_singleton_method(rb_cEncoding, "name_list", rb_enc_name_list, 0); 01517 rb_define_singleton_method(rb_cEncoding, "aliases", rb_enc_aliases, 0); 01518 rb_define_singleton_method(rb_cEncoding, "find", enc_find, 1); 01519 rb_define_singleton_method(rb_cEncoding, "compatible?", enc_compatible_p, 2); 01520 01521 rb_define_method(rb_cEncoding, "_dump", enc_dump, -1); 01522 rb_define_singleton_method(rb_cEncoding, "_load", enc_load, 1); 01523 01524 rb_define_singleton_method(rb_cEncoding, "default_external", get_default_external, 0); 01525 rb_define_singleton_method(rb_cEncoding, "default_external=", set_default_external, 1); 01526 rb_define_singleton_method(rb_cEncoding, "default_internal", get_default_internal, 0); 01527 rb_define_singleton_method(rb_cEncoding, "default_internal=", set_default_internal, 1); 01528 rb_define_singleton_method(rb_cEncoding, "locale_charmap", rb_locale_charmap, 0); 01529 01530 list = rb_ary_new2(enc_table.count); 01531 RBASIC(list)->klass = 0; 01532 rb_encoding_list = list; 01533 rb_gc_register_mark_object(list); 01534 01535 for (i = 0; i < enc_table.count; ++i) { 01536 rb_ary_push(list, enc_new(enc_table.list[i].enc)); 01537 } 01538 } 01539 01540 /* locale insensitive functions */ 01541 01542 #define ctype_test(c, ctype) \ 01543 (rb_isascii(c) && ONIGENC_IS_ASCII_CODE_CTYPE((c), ctype)) 01544 01545 int rb_isalnum(int c) { return ctype_test(c, ONIGENC_CTYPE_ALNUM); } 01546 int rb_isalpha(int c) { return ctype_test(c, ONIGENC_CTYPE_ALPHA); } 01547 int rb_isblank(int c) { return ctype_test(c, ONIGENC_CTYPE_BLANK); } 01548 int rb_iscntrl(int c) { return ctype_test(c, ONIGENC_CTYPE_CNTRL); } 01549 int rb_isdigit(int c) { return ctype_test(c, ONIGENC_CTYPE_DIGIT); } 01550 int rb_isgraph(int c) { return ctype_test(c, ONIGENC_CTYPE_GRAPH); } 01551 int rb_islower(int c) { return ctype_test(c, ONIGENC_CTYPE_LOWER); } 01552 int rb_isprint(int c) { return ctype_test(c, ONIGENC_CTYPE_PRINT); } 01553 int rb_ispunct(int c) { return ctype_test(c, ONIGENC_CTYPE_PUNCT); } 01554 int rb_isspace(int c) { return ctype_test(c, ONIGENC_CTYPE_SPACE); } 01555 int rb_isupper(int c) { return ctype_test(c, ONIGENC_CTYPE_UPPER); } 01556 int rb_isxdigit(int c) { return ctype_test(c, ONIGENC_CTYPE_XDIGIT); } 01557 01558 int 01559 rb_tolower(int c) 01560 { 01561 return rb_isascii(c) ? ONIGENC_ASCII_CODE_TO_LOWER_CASE(c) : c; 01562 } 01563 01564 int 01565 rb_toupper(int c) 01566 { 01567 return rb_isascii(c) ? ONIGENC_ASCII_CODE_TO_UPPER_CASE(c) : c; 01568 } 01569 01570
1.7.3