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ruby--ruby/encoding.c
nobu bb1d0d2807 parse.y: set encoding
* parse.y (rb_str_dynamic_intern): associate proper encoding with
  the result symbol.

git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@45439 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2014-03-26 11:30:54 +00:00

1953 lines
48 KiB
C

/**********************************************************************
encoding.c -
$Author$
created at: Thu May 24 17:23:27 JST 2007
Copyright (C) 2007 Yukihiro Matsumoto
**********************************************************************/
#include "ruby/ruby.h"
#include "ruby/encoding.h"
#include "internal.h"
#include "regenc.h"
#include <ctype.h>
#include "ruby/util.h"
#undef rb_ascii8bit_encindex
#undef rb_utf8_encindex
#undef rb_usascii_encindex
#if defined __GNUC__ && __GNUC__ >= 4
#pragma GCC visibility push(default)
int rb_enc_register(const char *name, rb_encoding *encoding);
void rb_enc_set_base(const char *name, const char *orig);
int rb_enc_set_dummy(int index);
void rb_encdb_declare(const char *name);
int rb_encdb_replicate(const char *name, const char *orig);
int rb_encdb_dummy(const char *name);
int rb_encdb_alias(const char *alias, const char *orig);
void rb_encdb_set_unicode(int index);
#pragma GCC visibility pop
#endif
static ID id_encoding;
VALUE rb_cEncoding;
static VALUE rb_encoding_list;
struct rb_encoding_entry {
const char *name;
rb_encoding *enc;
rb_encoding *base;
};
static struct {
struct rb_encoding_entry *list;
int count;
int size;
st_table *names;
} enc_table;
void rb_enc_init(void);
#define ENCODING_COUNT ENCINDEX_BUILTIN_MAX
#define UNSPECIFIED_ENCODING INT_MAX
#define ENCODING_NAMELEN_MAX 63
#define valid_encoding_name_p(name) ((name) && strlen(name) <= ENCODING_NAMELEN_MAX)
#define enc_autoload_p(enc) (!rb_enc_mbmaxlen(enc))
static int load_encoding(const char *name);
static size_t
enc_memsize(const void *p)
{
return 0;
}
static const rb_data_type_t encoding_data_type = {
"encoding",
{0, 0, enc_memsize,},
NULL, NULL, RUBY_TYPED_FREE_IMMEDIATELY
};
#define is_data_encoding(obj) (RTYPEDDATA_P(obj) && RTYPEDDATA_TYPE(obj) == &encoding_data_type)
#define is_obj_encoding(obj) (RB_TYPE_P((obj), T_DATA) && is_data_encoding(obj))
static VALUE
enc_new(rb_encoding *encoding)
{
return TypedData_Wrap_Struct(rb_cEncoding, &encoding_data_type, encoding);
}
static VALUE
rb_enc_from_encoding_index(int idx)
{
VALUE list, enc;
if (!(list = rb_encoding_list)) {
rb_bug("rb_enc_from_encoding_index(%d): no rb_encoding_list", idx);
}
enc = rb_ary_entry(list, idx);
if (NIL_P(enc)) {
rb_bug("rb_enc_from_encoding_index(%d): not created yet", idx);
}
return enc;
}
VALUE
rb_enc_from_encoding(rb_encoding *encoding)
{
int idx;
if (!encoding) return Qnil;
idx = ENC_TO_ENCINDEX(encoding);
return rb_enc_from_encoding_index(idx);
}
static int enc_autoload(rb_encoding *);
static int
check_encoding(rb_encoding *enc)
{
int index = rb_enc_to_index(enc);
if (rb_enc_from_index(index) != enc)
return -1;
if (enc_autoload_p(enc)) {
index = enc_autoload(enc);
}
return index;
}
static int
enc_check_encoding(VALUE obj)
{
if (!is_obj_encoding(obj)) {
return -1;
}
return check_encoding(RDATA(obj)->data);
}
NORETURN(static void not_encoding(VALUE enc));
static void
not_encoding(VALUE enc)
{
rb_raise(rb_eTypeError, "wrong argument type %"PRIsVALUE" (expected Encoding)",
rb_obj_class(enc));
}
static rb_encoding *
must_encoding(VALUE enc)
{
int index = enc_check_encoding(enc);
if (index < 0) {
not_encoding(enc);
}
return DATA_PTR(enc);
}
static rb_encoding *
must_encindex(int index)
{
rb_encoding *enc = rb_enc_from_index(index);
if (!enc) {
rb_raise(rb_eEncodingError, "encoding index out of bound: %d",
index);
}
if (ENC_TO_ENCINDEX(enc) != (int)(index & ENC_INDEX_MASK)) {
rb_raise(rb_eEncodingError, "wrong encoding index %d for %s (expected %d)",
index, rb_enc_name(enc), ENC_TO_ENCINDEX(enc));
}
if (enc_autoload_p(enc) && enc_autoload(enc) == -1) {
rb_loaderror("failed to load encoding (%s)",
rb_enc_name(enc));
}
return enc;
}
int
rb_to_encoding_index(VALUE enc)
{
int idx;
idx = enc_check_encoding(enc);
if (idx >= 0) {
return idx;
}
else if (NIL_P(enc = rb_check_string_type(enc))) {
return -1;
}
if (!rb_enc_asciicompat(rb_enc_get(enc))) {
return -1;
}
return rb_enc_find_index(StringValueCStr(enc));
}
/* Returns encoding index or UNSPECIFIED_ENCODING */
static int
str_find_encindex(VALUE enc)
{
int idx;
StringValue(enc);
if (!rb_enc_asciicompat(rb_enc_get(enc))) {
rb_raise(rb_eArgError, "invalid name encoding (non ASCII)");
}
idx = rb_enc_find_index(StringValueCStr(enc));
return idx;
}
static int
str_to_encindex(VALUE enc)
{
int idx = str_find_encindex(enc);
if (idx < 0) {
rb_raise(rb_eArgError, "unknown encoding name - %"PRIsVALUE, enc);
}
return idx;
}
static rb_encoding *
str_to_encoding(VALUE enc)
{
return rb_enc_from_index(str_to_encindex(enc));
}
rb_encoding *
rb_to_encoding(VALUE enc)
{
if (enc_check_encoding(enc) >= 0) return RDATA(enc)->data;
return str_to_encoding(enc);
}
rb_encoding *
rb_find_encoding(VALUE enc)
{
int idx;
if (enc_check_encoding(enc) >= 0) return RDATA(enc)->data;
idx = str_find_encindex(enc);
if (idx < 0) return NULL;
return rb_enc_from_index(idx);
}
void
rb_gc_mark_encodings(void)
{
}
static int
enc_table_expand(int newsize)
{
struct rb_encoding_entry *ent;
int count = newsize;
if (enc_table.size >= newsize) return newsize;
newsize = (newsize + 7) / 8 * 8;
ent = realloc(enc_table.list, sizeof(*enc_table.list) * newsize);
if (!ent) return -1;
memset(ent + enc_table.size, 0, sizeof(*ent)*(newsize - enc_table.size));
enc_table.list = ent;
enc_table.size = newsize;
return count;
}
static int
enc_register_at(int index, const char *name, rb_encoding *encoding)
{
struct rb_encoding_entry *ent = &enc_table.list[index];
VALUE list;
if (!valid_encoding_name_p(name)) return -1;
if (!ent->name) {
ent->name = name = strdup(name);
}
else if (STRCASECMP(name, ent->name)) {
return -1;
}
if (!ent->enc) {
ent->enc = xmalloc(sizeof(rb_encoding));
}
if (encoding) {
*ent->enc = *encoding;
}
else {
memset(ent->enc, 0, sizeof(*ent->enc));
}
encoding = ent->enc;
encoding->name = name;
encoding->ruby_encoding_index = index;
st_insert(enc_table.names, (st_data_t)name, (st_data_t)index);
list = rb_encoding_list;
if (list && NIL_P(rb_ary_entry(list, index))) {
/* initialize encoding data */
rb_ary_store(list, index, enc_new(encoding));
}
return index;
}
static int
enc_register(const char *name, rb_encoding *encoding)
{
int index = enc_table.count;
if ((index = enc_table_expand(index + 1)) < 0) return -1;
enc_table.count = index;
return enc_register_at(index - 1, name, encoding);
}
static void set_encoding_const(const char *, rb_encoding *);
int rb_enc_registered(const char *name);
int
rb_enc_register(const char *name, rb_encoding *encoding)
{
int index = rb_enc_registered(name);
if (index >= 0) {
rb_encoding *oldenc = rb_enc_from_index(index);
if (STRCASECMP(name, rb_enc_name(oldenc))) {
index = enc_register(name, encoding);
}
else if (enc_autoload_p(oldenc) || !ENC_DUMMY_P(oldenc)) {
enc_register_at(index, name, encoding);
}
else {
rb_raise(rb_eArgError, "encoding %s is already registered", name);
}
}
else {
index = enc_register(name, encoding);
set_encoding_const(name, rb_enc_from_index(index));
}
return index;
}
void
rb_encdb_declare(const char *name)
{
int idx = rb_enc_registered(name);
if (idx < 0) {
idx = enc_register(name, 0);
}
set_encoding_const(name, rb_enc_from_index(idx));
}
static void
enc_check_duplication(const char *name)
{
if (rb_enc_registered(name) >= 0) {
rb_raise(rb_eArgError, "encoding %s is already registered", name);
}
}
static rb_encoding*
set_base_encoding(int index, rb_encoding *base)
{
rb_encoding *enc = enc_table.list[index].enc;
enc_table.list[index].base = base;
if (rb_enc_dummy_p(base)) ENC_SET_DUMMY(enc);
return enc;
}
/* for encdb.h
* Set base encoding for encodings which are not replicas
* but not in their own files.
*/
void
rb_enc_set_base(const char *name, const char *orig)
{
int idx = rb_enc_registered(name);
int origidx = rb_enc_registered(orig);
set_base_encoding(idx, rb_enc_from_index(origidx));
}
/* for encdb.h
* Set encoding dummy.
*/
int
rb_enc_set_dummy(int index)
{
rb_encoding *enc = enc_table.list[index].enc;
ENC_SET_DUMMY(enc);
return index;
}
int
rb_enc_replicate(const char *name, rb_encoding *encoding)
{
int idx;
enc_check_duplication(name);
idx = enc_register(name, encoding);
set_base_encoding(idx, encoding);
set_encoding_const(name, rb_enc_from_index(idx));
return idx;
}
/*
* call-seq:
* enc.replicate(name) -> encoding
*
* Returns a replicated encoding of _enc_ whose name is _name_.
* The new encoding should have the same byte structure of _enc_.
* If _name_ is used by another encoding, raise ArgumentError.
*
*/
static VALUE
enc_replicate(VALUE encoding, VALUE name)
{
return rb_enc_from_encoding_index(
rb_enc_replicate(StringValueCStr(name),
rb_to_encoding(encoding)));
}
static int
enc_replicate_with_index(const char *name, rb_encoding *origenc, int idx)
{
if (idx < 0) {
idx = enc_register(name, origenc);
}
else {
idx = enc_register_at(idx, name, origenc);
}
if (idx >= 0) {
set_base_encoding(idx, origenc);
set_encoding_const(name, rb_enc_from_index(idx));
}
return idx;
}
int
rb_encdb_replicate(const char *name, const char *orig)
{
int origidx = rb_enc_registered(orig);
int idx = rb_enc_registered(name);
if (origidx < 0) {
origidx = enc_register(orig, 0);
}
return enc_replicate_with_index(name, rb_enc_from_index(origidx), idx);
}
int
rb_define_dummy_encoding(const char *name)
{
int index = rb_enc_replicate(name, rb_ascii8bit_encoding());
rb_encoding *enc = enc_table.list[index].enc;
ENC_SET_DUMMY(enc);
return index;
}
int
rb_encdb_dummy(const char *name)
{
int index = enc_replicate_with_index(name, rb_ascii8bit_encoding(),
rb_enc_registered(name));
rb_encoding *enc = enc_table.list[index].enc;
ENC_SET_DUMMY(enc);
return index;
}
/*
* call-seq:
* enc.dummy? -> true or false
*
* Returns true for dummy encodings.
* A dummy encoding is an encoding for which character handling is not properly
* implemented.
* It is used for stateful encodings.
*
* Encoding::ISO_2022_JP.dummy? #=> true
* Encoding::UTF_8.dummy? #=> false
*
*/
static VALUE
enc_dummy_p(VALUE enc)
{
return ENC_DUMMY_P(must_encoding(enc)) ? Qtrue : Qfalse;
}
/*
* call-seq:
* enc.ascii_compatible? -> true or false
*
* Returns whether ASCII-compatible or not.
*
* Encoding::UTF_8.ascii_compatible? #=> true
* Encoding::UTF_16BE.ascii_compatible? #=> false
*
*/
static VALUE
enc_ascii_compatible_p(VALUE enc)
{
return rb_enc_asciicompat(must_encoding(enc)) ? Qtrue : Qfalse;
}
/*
* Returns 1 when the encoding is Unicode series other than UTF-7 else 0.
*/
int
rb_enc_unicode_p(rb_encoding *enc)
{
return ONIGENC_IS_UNICODE(enc);
}
static st_data_t
enc_dup_name(st_data_t name)
{
return (st_data_t)strdup((const char *)name);
}
/*
* Returns copied alias name when the key is added for st_table,
* else returns NULL.
*/
static int
enc_alias_internal(const char *alias, int idx)
{
return st_insert2(enc_table.names, (st_data_t)alias, (st_data_t)idx,
enc_dup_name);
}
static int
enc_alias(const char *alias, int idx)
{
if (!valid_encoding_name_p(alias)) return -1;
if (!enc_alias_internal(alias, idx))
set_encoding_const(alias, rb_enc_from_index(idx));
return idx;
}
int
rb_enc_alias(const char *alias, const char *orig)
{
int idx;
enc_check_duplication(alias);
if (!enc_table.list) {
rb_enc_init();
}
if ((idx = rb_enc_find_index(orig)) < 0) {
return -1;
}
return enc_alias(alias, idx);
}
int
rb_encdb_alias(const char *alias, const char *orig)
{
int idx = rb_enc_registered(orig);
if (idx < 0) {
idx = enc_register(orig, 0);
}
return enc_alias(alias, idx);
}
void
rb_encdb_set_unicode(int index)
{
rb_enc_from_index(index)->flags |= ONIGENC_FLAG_UNICODE;
}
extern rb_encoding OnigEncodingUTF_8;
extern rb_encoding OnigEncodingUS_ASCII;
void
rb_enc_init(void)
{
enc_table_expand(ENCODING_COUNT + 1);
if (!enc_table.names) {
enc_table.names = st_init_strcasetable();
}
#define ENC_REGISTER(enc) enc_register_at(ENCINDEX_##enc, rb_enc_name(&OnigEncoding##enc), &OnigEncoding##enc)
ENC_REGISTER(ASCII);
ENC_REGISTER(UTF_8);
ENC_REGISTER(US_ASCII);
#undef ENC_REGISTER
#define ENCDB_REGISTER(name, enc) enc_register_at(ENCINDEX_##enc, name, NULL)
ENCDB_REGISTER("UTF-16BE", UTF_16BE);
ENCDB_REGISTER("UTF-16LE", UTF_16LE);
ENCDB_REGISTER("UTF-32BE", UTF_32BE);
ENCDB_REGISTER("UTF-32LE", UTF_32LE);
ENCDB_REGISTER("UTF-16", UTF_16);
ENCDB_REGISTER("UTF-32", UTF_32);
ENCDB_REGISTER("UTF8-MAC", UTF8_MAC);
ENCDB_REGISTER("EUC-JP", EUC_JP);
ENCDB_REGISTER("Windows-31J", Windows_31J);
#undef ENCDB_REGISTER
enc_table.count = ENCINDEX_BUILTIN_MAX;
}
rb_encoding *
rb_enc_from_index(int index)
{
if (!enc_table.list) {
rb_enc_init();
}
if (index < 0 || enc_table.count <= (index &= ENC_INDEX_MASK)) {
return 0;
}
return enc_table.list[index].enc;
}
rb_encoding *
rb_enc_get_from_index(int index)
{
return must_encindex(index);
}
int
rb_enc_registered(const char *name)
{
st_data_t idx = 0;
if (!name) return -1;
if (!enc_table.list) return -1;
if (st_lookup(enc_table.names, (st_data_t)name, &idx)) {
return (int)idx;
}
return -1;
}
static VALUE
require_enc(VALUE enclib)
{
int safe = rb_safe_level();
return rb_require_safe(enclib, safe > 3 ? 3 : safe);
}
static int
load_encoding(const char *name)
{
VALUE enclib = rb_sprintf("enc/%s.so", name);
VALUE verbose = ruby_verbose;
VALUE debug = ruby_debug;
VALUE errinfo;
VALUE loaded;
char *s = RSTRING_PTR(enclib) + 4, *e = RSTRING_END(enclib) - 3;
int idx;
while (s < e) {
if (!ISALNUM(*s)) *s = '_';
else if (ISUPPER(*s)) *s = (char)TOLOWER(*s);
++s;
}
FL_UNSET(enclib, FL_TAINT);
OBJ_FREEZE(enclib);
ruby_verbose = Qfalse;
ruby_debug = Qfalse;
errinfo = rb_errinfo();
loaded = rb_protect(require_enc, enclib, 0);
ruby_verbose = verbose;
ruby_debug = debug;
rb_set_errinfo(errinfo);
if (NIL_P(loaded)) return -1;
if ((idx = rb_enc_registered(name)) < 0) return -1;
if (enc_autoload_p(enc_table.list[idx].enc)) return -1;
return idx;
}
static int
enc_autoload(rb_encoding *enc)
{
int i;
rb_encoding *base = enc_table.list[ENC_TO_ENCINDEX(enc)].base;
if (base) {
i = 0;
do {
if (i >= enc_table.count) return -1;
} while (enc_table.list[i].enc != base && (++i, 1));
if (enc_autoload_p(base)) {
if (enc_autoload(base) < 0) return -1;
}
i = enc->ruby_encoding_index;
enc_register_at(i & ENC_INDEX_MASK, rb_enc_name(enc), base);
enc->ruby_encoding_index = i;
}
else {
i = load_encoding(rb_enc_name(enc));
}
return i;
}
/* Return encoding index or UNSPECIFIED_ENCODING from encoding name */
int
rb_enc_find_index(const char *name)
{
int i = rb_enc_registered(name);
rb_encoding *enc;
if (i < 0) {
i = load_encoding(name);
}
else if (!(enc = rb_enc_from_index(i))) {
if (i != UNSPECIFIED_ENCODING) {
rb_raise(rb_eArgError, "encoding %s is not registered", name);
}
}
else if (enc_autoload_p(enc)) {
if (enc_autoload(enc) < 0) {
rb_warn("failed to load encoding (%s); use ASCII-8BIT instead",
name);
return 0;
}
}
return i;
}
rb_encoding *
rb_enc_find(const char *name)
{
int idx = rb_enc_find_index(name);
if (idx < 0) idx = 0;
return rb_enc_from_index(idx);
}
static inline int
enc_capable(VALUE obj)
{
if (SPECIAL_CONST_P(obj)) return SYMBOL_P(obj);
switch (BUILTIN_TYPE(obj)) {
case T_STRING:
case T_REGEXP:
case T_FILE:
case T_SYMBOL:
return TRUE;
case T_DATA:
if (is_data_encoding(obj)) return TRUE;
default:
return FALSE;
}
}
ID
rb_id_encoding(void)
{
CONST_ID(id_encoding, "encoding");
return id_encoding;
}
int
rb_enc_get_index(VALUE obj)
{
int i = -1;
VALUE tmp;
if (SPECIAL_CONST_P(obj)) {
if (!SYMBOL_P(obj)) return -1;
obj = rb_id2str(SYM2ID(obj));
}
switch (BUILTIN_TYPE(obj)) {
as_default:
default:
case T_STRING:
case T_REGEXP:
i = ENCODING_GET_INLINED(obj);
if (i == ENCODING_INLINE_MAX) {
VALUE iv;
iv = rb_ivar_get(obj, rb_id_encoding());
i = NUM2INT(iv);
}
break;
case T_FILE:
tmp = rb_funcall(obj, rb_intern("internal_encoding"), 0, 0);
if (NIL_P(tmp)) obj = rb_funcall(obj, rb_intern("external_encoding"), 0, 0);
else obj = tmp;
if (NIL_P(obj)) break;
case T_DATA:
if (is_data_encoding(obj)) {
i = enc_check_encoding(obj);
}
else {
goto as_default;
}
break;
}
return i;
}
static void
enc_set_index(VALUE obj, int idx)
{
if (idx < ENCODING_INLINE_MAX) {
ENCODING_SET_INLINED(obj, idx);
return;
}
ENCODING_SET_INLINED(obj, ENCODING_INLINE_MAX);
rb_ivar_set(obj, rb_id_encoding(), INT2NUM(idx));
}
void
rb_enc_set_index(VALUE obj, int idx)
{
rb_check_frozen(obj);
must_encindex(idx);
enc_set_index(obj, idx);
}
VALUE
rb_enc_associate_index(VALUE obj, int idx)
{
rb_encoding *enc;
int oldidx, oldtermlen, termlen;
/* enc_check_capable(obj);*/
rb_check_frozen(obj);
oldidx = rb_enc_get_index(obj);
if (oldidx == idx)
return obj;
if (SPECIAL_CONST_P(obj)) {
rb_raise(rb_eArgError, "cannot set encoding");
}
enc = must_encindex(idx);
if (!ENC_CODERANGE_ASCIIONLY(obj) ||
!rb_enc_asciicompat(enc)) {
ENC_CODERANGE_CLEAR(obj);
}
termlen = rb_enc_mbminlen(enc);
oldtermlen = rb_enc_mbminlen(rb_enc_from_index(oldidx));
if (oldtermlen < termlen && RB_TYPE_P(obj, T_STRING)) {
rb_str_fill_terminator(obj, termlen);
}
enc_set_index(obj, idx);
return obj;
}
VALUE
rb_enc_associate(VALUE obj, rb_encoding *enc)
{
return rb_enc_associate_index(obj, rb_enc_to_index(enc));
}
rb_encoding*
rb_enc_get(VALUE obj)
{
return rb_enc_from_index(rb_enc_get_index(obj));
}
rb_encoding*
rb_enc_check(VALUE str1, VALUE str2)
{
rb_encoding *enc = rb_enc_compatible(str1, str2);
if (!enc)
rb_raise(rb_eEncCompatError, "incompatible character encodings: %s and %s",
rb_enc_name(rb_enc_get(str1)),
rb_enc_name(rb_enc_get(str2)));
return enc;
}
rb_encoding*
rb_enc_compatible(VALUE str1, VALUE str2)
{
int idx1, idx2;
rb_encoding *enc1, *enc2;
int isstr1, isstr2;
idx1 = rb_enc_get_index(str1);
idx2 = rb_enc_get_index(str2);
if (idx1 < 0 || idx2 < 0)
return 0;
if (idx1 == idx2) {
return rb_enc_from_index(idx1);
}
enc1 = rb_enc_from_index(idx1);
enc2 = rb_enc_from_index(idx2);
isstr2 = RB_TYPE_P(str2, T_STRING);
if (isstr2 && RSTRING_LEN(str2) == 0)
return enc1;
isstr1 = RB_TYPE_P(str1, T_STRING);
if (isstr1 && RSTRING_LEN(str1) == 0)
return (rb_enc_asciicompat(enc1) && rb_enc_str_asciionly_p(str2)) ? enc1 : enc2;
if (!rb_enc_asciicompat(enc1) || !rb_enc_asciicompat(enc2)) {
return 0;
}
/* objects whose encoding is the same of contents */
if (!isstr2 && idx2 == ENCINDEX_US_ASCII)
return enc1;
if (!isstr1 && idx1 == ENCINDEX_US_ASCII)
return enc2;
if (!isstr1) {
VALUE tmp = str1;
int idx0 = idx1;
str1 = str2;
str2 = tmp;
idx1 = idx2;
idx2 = idx0;
idx0 = isstr1;
isstr1 = isstr2;
isstr2 = idx0;
}
if (isstr1) {
int cr1, cr2;
cr1 = rb_enc_str_coderange(str1);
if (isstr2) {
cr2 = rb_enc_str_coderange(str2);
if (cr1 != cr2) {
/* may need to handle ENC_CODERANGE_BROKEN */
if (cr1 == ENC_CODERANGE_7BIT) return enc2;
if (cr2 == ENC_CODERANGE_7BIT) return enc1;
}
if (cr2 == ENC_CODERANGE_7BIT) {
return enc1;
}
}
if (cr1 == ENC_CODERANGE_7BIT)
return enc2;
}
return 0;
}
void
rb_enc_copy(VALUE obj1, VALUE obj2)
{
rb_enc_associate_index(obj1, rb_enc_get_index(obj2));
}
/*
* call-seq:
* obj.encoding -> encoding
*
* Returns the Encoding object that represents the encoding of obj.
*/
VALUE
rb_obj_encoding(VALUE obj)
{
int idx = rb_enc_get_index(obj);
if (idx < 0) {
rb_raise(rb_eTypeError, "unknown encoding");
}
return rb_enc_from_encoding_index(idx & ENC_INDEX_MASK);
}
int
rb_enc_fast_mbclen(const char *p, const char *e, rb_encoding *enc)
{
return ONIGENC_MBC_ENC_LEN(enc, (UChar*)p, (UChar*)e);
}
int
rb_enc_mbclen(const char *p, const char *e, rb_encoding *enc)
{
int n = ONIGENC_PRECISE_MBC_ENC_LEN(enc, (UChar*)p, (UChar*)e);
if (MBCLEN_CHARFOUND_P(n) && MBCLEN_CHARFOUND_LEN(n) <= e-p)
return MBCLEN_CHARFOUND_LEN(n);
else {
int min = rb_enc_mbminlen(enc);
return min <= e-p ? min : (int)(e-p);
}
}
int
rb_enc_precise_mbclen(const char *p, const char *e, rb_encoding *enc)
{
int n;
if (e <= p)
return ONIGENC_CONSTRUCT_MBCLEN_NEEDMORE(1);
n = ONIGENC_PRECISE_MBC_ENC_LEN(enc, (UChar*)p, (UChar*)e);
if (e-p < n)
return ONIGENC_CONSTRUCT_MBCLEN_NEEDMORE(n-(int)(e-p));
return n;
}
int
rb_enc_ascget(const char *p, const char *e, int *len, rb_encoding *enc)
{
unsigned int c, l;
if (e <= p)
return -1;
if (rb_enc_asciicompat(enc)) {
c = (unsigned char)*p;
if (!ISASCII(c))
return -1;
if (len) *len = 1;
return c;
}
l = rb_enc_precise_mbclen(p, e, enc);
if (!MBCLEN_CHARFOUND_P(l))
return -1;
c = rb_enc_mbc_to_codepoint(p, e, enc);
if (!rb_enc_isascii(c, enc))
return -1;
if (len) *len = l;
return c;
}
unsigned int
rb_enc_codepoint_len(const char *p, const char *e, int *len_p, rb_encoding *enc)
{
int r;
if (e <= p)
rb_raise(rb_eArgError, "empty string");
r = rb_enc_precise_mbclen(p, e, enc);
if (!MBCLEN_CHARFOUND_P(r)) {
rb_raise(rb_eArgError, "invalid byte sequence in %s", rb_enc_name(enc));
}
if (len_p) *len_p = MBCLEN_CHARFOUND_LEN(r);
return rb_enc_mbc_to_codepoint(p, e, enc);
}
#undef rb_enc_codepoint
unsigned int
rb_enc_codepoint(const char *p, const char *e, rb_encoding *enc)
{
return rb_enc_codepoint_len(p, e, 0, enc);
}
int
rb_enc_codelen(int c, rb_encoding *enc)
{
int n = ONIGENC_CODE_TO_MBCLEN(enc,c);
if (n == 0) {
rb_raise(rb_eArgError, "invalid codepoint 0x%x in %s", c, rb_enc_name(enc));
}
return n;
}
#undef rb_enc_code_to_mbclen
int
rb_enc_code_to_mbclen(int code, rb_encoding *enc)
{
return ONIGENC_CODE_TO_MBCLEN(enc, code);
}
int
rb_enc_toupper(int c, rb_encoding *enc)
{
return (ONIGENC_IS_ASCII_CODE(c)?ONIGENC_ASCII_CODE_TO_UPPER_CASE(c):(c));
}
int
rb_enc_tolower(int c, rb_encoding *enc)
{
return (ONIGENC_IS_ASCII_CODE(c)?ONIGENC_ASCII_CODE_TO_LOWER_CASE(c):(c));
}
/*
* call-seq:
* enc.inspect -> string
*
* Returns a string which represents the encoding for programmers.
*
* Encoding::UTF_8.inspect #=> "#<Encoding:UTF-8>"
* Encoding::ISO_2022_JP.inspect #=> "#<Encoding:ISO-2022-JP (dummy)>"
*/
static VALUE
enc_inspect(VALUE self)
{
rb_encoding *enc;
if (!is_data_encoding(self)) {
not_encoding(self);
}
if (!(enc = DATA_PTR(self)) || rb_enc_from_index(rb_enc_to_index(enc)) != enc) {
rb_raise(rb_eTypeError, "broken Encoding");
}
return rb_enc_sprintf(rb_usascii_encoding(),
"#<%"PRIsVALUE":%s%s%s>", rb_obj_class(self),
rb_enc_name(enc),
(ENC_DUMMY_P(enc) ? " (dummy)" : ""),
enc_autoload_p(enc) ? " (autoload)" : "");
}
/*
* call-seq:
* enc.name -> string
* enc.to_s -> string
*
* Returns the name of the encoding.
*
* Encoding::UTF_8.name #=> "UTF-8"
*/
static VALUE
enc_name(VALUE self)
{
return rb_usascii_str_new2(rb_enc_name((rb_encoding*)DATA_PTR(self)));
}
static int
enc_names_i(st_data_t name, st_data_t idx, st_data_t args)
{
VALUE *arg = (VALUE *)args;
if ((int)idx == (int)arg[0]) {
VALUE str = rb_usascii_str_new2((char *)name);
OBJ_FREEZE(str);
rb_ary_push(arg[1], str);
}
return ST_CONTINUE;
}
/*
* call-seq:
* enc.names -> array
*
* Returns the list of name and aliases of the encoding.
*
* Encoding::WINDOWS_31J.names #=> ["Windows-31J", "CP932", "csWindows31J"]
*/
static VALUE
enc_names(VALUE self)
{
VALUE args[2];
args[0] = (VALUE)rb_to_encoding_index(self);
args[1] = rb_ary_new2(0);
st_foreach(enc_table.names, enc_names_i, (st_data_t)args);
return args[1];
}
/*
* call-seq:
* Encoding.list -> [enc1, enc2, ...]
*
* Returns the list of loaded encodings.
*
* Encoding.list
* #=> [#<Encoding:ASCII-8BIT>, #<Encoding:UTF-8>,
* #<Encoding:ISO-2022-JP (dummy)>]
*
* Encoding.find("US-ASCII")
* #=> #<Encoding:US-ASCII>
*
* Encoding.list
* #=> [#<Encoding:ASCII-8BIT>, #<Encoding:UTF-8>,
* #<Encoding:US-ASCII>, #<Encoding:ISO-2022-JP (dummy)>]
*
*/
static VALUE
enc_list(VALUE klass)
{
VALUE ary = rb_ary_new2(0);
rb_ary_replace(ary, rb_encoding_list);
return ary;
}
/*
* call-seq:
* Encoding.find(string) -> enc
* Encoding.find(symbol) -> enc
*
* Search the encoding with specified <i>name</i>.
* <i>name</i> should be a string or symbol.
*
* Encoding.find("US-ASCII") #=> #<Encoding:US-ASCII>
* Encoding.find(:Shift_JIS) #=> #<Encoding:Shift_JIS>
*
* Names which this method accept are encoding names and aliases
* including following special aliases
*
* "external":: default external encoding
* "internal":: default internal encoding
* "locale":: locale encoding
* "filesystem":: filesystem encoding
*
* An ArgumentError is raised when no encoding with <i>name</i>.
* Only <code>Encoding.find("internal")</code> however returns nil
* when no encoding named "internal", in other words, when Ruby has no
* default internal encoding.
*/
static VALUE
enc_find(VALUE klass, VALUE enc)
{
int idx;
if (is_obj_encoding(enc))
return enc;
idx = str_to_encindex(enc);
if (idx == UNSPECIFIED_ENCODING) return Qnil;
return rb_enc_from_encoding_index(idx);
}
/*
* call-seq:
* Encoding.compatible?(obj1, obj2) -> enc or nil
*
* Checks the compatibility of two objects.
*
* If the objects are both strings they are compatible when they are
* concatenatable. The encoding of the concatenated string will be returned
* if they are compatible, nil if they are not.
*
* Encoding.compatible?("\xa1".force_encoding("iso-8859-1"), "b")
* #=> #<Encoding:ISO-8859-1>
*
* Encoding.compatible?(
* "\xa1".force_encoding("iso-8859-1"),
* "\xa1\xa1".force_encoding("euc-jp"))
* #=> nil
*
* If the objects are non-strings their encodings are compatible when they
* have an encoding and:
* * Either encoding is US-ASCII compatible
* * One of the encodings is a 7-bit encoding
*
*/
static VALUE
enc_compatible_p(VALUE klass, VALUE str1, VALUE str2)
{
rb_encoding *enc;
if (!enc_capable(str1)) return Qnil;
if (!enc_capable(str2)) return Qnil;
enc = rb_enc_compatible(str1, str2);
if (!enc) return Qnil;
return rb_enc_from_encoding(enc);
}
/* :nodoc: */
static VALUE
enc_dump(int argc, VALUE *argv, VALUE self)
{
rb_scan_args(argc, argv, "01", 0);
return enc_name(self);
}
/* :nodoc: */
static VALUE
enc_load(VALUE klass, VALUE str)
{
return enc_find(klass, str);
}
rb_encoding *
rb_ascii8bit_encoding(void)
{
if (!enc_table.list) {
rb_enc_init();
}
return enc_table.list[ENCINDEX_ASCII].enc;
}
int
rb_ascii8bit_encindex(void)
{
return ENCINDEX_ASCII;
}
rb_encoding *
rb_utf8_encoding(void)
{
if (!enc_table.list) {
rb_enc_init();
}
return enc_table.list[ENCINDEX_UTF_8].enc;
}
int
rb_utf8_encindex(void)
{
return ENCINDEX_UTF_8;
}
rb_encoding *
rb_usascii_encoding(void)
{
if (!enc_table.list) {
rb_enc_init();
}
return enc_table.list[ENCINDEX_US_ASCII].enc;
}
int
rb_usascii_encindex(void)
{
return ENCINDEX_US_ASCII;
}
int
rb_locale_encindex(void)
{
VALUE charmap = rb_locale_charmap(rb_cEncoding);
int idx;
if (NIL_P(charmap))
idx = ENCINDEX_US_ASCII;
else if ((idx = rb_enc_find_index(StringValueCStr(charmap))) < 0)
idx = ENCINDEX_ASCII;
if (rb_enc_registered("locale") < 0) {
# if defined _WIN32
void Init_w32_codepage(void);
Init_w32_codepage();
# endif
enc_alias_internal("locale", idx);
}
return idx;
}
rb_encoding *
rb_locale_encoding(void)
{
return rb_enc_from_index(rb_locale_encindex());
}
int
rb_filesystem_encindex(void)
{
int idx = rb_enc_registered("filesystem");
if (idx < 0)
idx = ENCINDEX_ASCII;
return idx;
}
rb_encoding *
rb_filesystem_encoding(void)
{
return rb_enc_from_index(rb_filesystem_encindex());
}
struct default_encoding {
int index; /* -2 => not yet set, -1 => nil */
rb_encoding *enc;
};
static struct default_encoding default_external = {0};
extern int Init_enc_set_filesystem_encoding(void);
static int
enc_set_default_encoding(struct default_encoding *def, VALUE encoding, const char *name)
{
int overridden = FALSE;
if (def->index != -2)
/* Already set */
overridden = TRUE;
if (NIL_P(encoding)) {
def->index = -1;
def->enc = 0;
st_insert(enc_table.names, (st_data_t)strdup(name),
(st_data_t)UNSPECIFIED_ENCODING);
}
else {
def->index = rb_enc_to_index(rb_to_encoding(encoding));
def->enc = 0;
enc_alias_internal(name, def->index);
}
if (def == &default_external)
enc_alias_internal("filesystem", Init_enc_set_filesystem_encoding());
return overridden;
}
rb_encoding *
rb_default_external_encoding(void)
{
if (default_external.enc) return default_external.enc;
if (default_external.index >= 0) {
default_external.enc = rb_enc_from_index(default_external.index);
return default_external.enc;
}
else {
return rb_locale_encoding();
}
}
VALUE
rb_enc_default_external(void)
{
return rb_enc_from_encoding(rb_default_external_encoding());
}
/*
* call-seq:
* Encoding.default_external -> enc
*
* Returns default external encoding.
*
* The default external encoding is used by default for strings created from
* the following locations:
*
* * CSV
* * File data read from disk
* * SDBM
* * StringIO
* * Zlib::GzipReader
* * Zlib::GzipWriter
* * String#inspect
* * Regexp#inspect
*
* While strings created from these locations will have this encoding, the
* encoding may not be valid. Be sure to check String#valid_encoding?.
*
* File data written to disk will be transcoded to the default external
* encoding when written.
*
* The default external encoding is initialized by the locale or -E option.
*/
static VALUE
get_default_external(VALUE klass)
{
return rb_enc_default_external();
}
void
rb_enc_set_default_external(VALUE encoding)
{
if (NIL_P(encoding)) {
rb_raise(rb_eArgError, "default external can not be nil");
}
enc_set_default_encoding(&default_external, encoding,
"external");
}
/*
* call-seq:
* Encoding.default_external = enc
*
* Sets default external encoding. You should not set
* Encoding::default_external in ruby code as strings created before changing
* the value may have a different encoding from strings created after the value
* was changed., instead you should use <tt>ruby -E</tt> to invoke ruby with
* the correct default_external.
*
* See Encoding::default_external for information on how the default external
* encoding is used.
*/
static VALUE
set_default_external(VALUE klass, VALUE encoding)
{
rb_warning("setting Encoding.default_external");
rb_enc_set_default_external(encoding);
return encoding;
}
static struct default_encoding default_internal = {-2};
rb_encoding *
rb_default_internal_encoding(void)
{
if (!default_internal.enc && default_internal.index >= 0) {
default_internal.enc = rb_enc_from_index(default_internal.index);
}
return default_internal.enc; /* can be NULL */
}
VALUE
rb_enc_default_internal(void)
{
/* Note: These functions cope with default_internal not being set */
return rb_enc_from_encoding(rb_default_internal_encoding());
}
/*
* call-seq:
* Encoding.default_internal -> enc
*
* Returns default internal encoding. Strings will be transcoded to the
* default internal encoding in the following places if the default internal
* encoding is not nil:
*
* * CSV
* * Etc.sysconfdir and Etc.systmpdir
* * File data read from disk
* * File names from Dir
* * Integer#chr
* * String#inspect and Regexp#inspect
* * Strings returned from Readline
* * Strings returned from SDBM
* * Time#zone
* * Values from ENV
* * Values in ARGV including $PROGRAM_NAME
* * __FILE__
*
* Additionally String#encode and String#encode! use the default internal
* encoding if no encoding is given.
*
* The locale encoding (__ENCODING__), not default_internal, is used as the
* encoding of created strings.
*
* Encoding::default_internal is initialized by the source file's
* internal_encoding or -E option.
*/
static VALUE
get_default_internal(VALUE klass)
{
return rb_enc_default_internal();
}
void
rb_enc_set_default_internal(VALUE encoding)
{
enc_set_default_encoding(&default_internal, encoding,
"internal");
}
/*
* call-seq:
* Encoding.default_internal = enc or nil
*
* Sets default internal encoding or removes default internal encoding when
* passed nil. You should not set Encoding::default_internal in ruby code as
* strings created before changing the value may have a different encoding
* from strings created after the change. Instead you should use
* <tt>ruby -E</tt> to invoke ruby with the correct default_internal.
*
* See Encoding::default_internal for information on how the default internal
* encoding is used.
*/
static VALUE
set_default_internal(VALUE klass, VALUE encoding)
{
rb_warning("setting Encoding.default_internal");
rb_enc_set_default_internal(encoding);
return encoding;
}
/*
* call-seq:
* Encoding.locale_charmap -> string
*
* Returns the locale charmap name.
* It returns nil if no appropriate information.
*
* Debian GNU/Linux
* LANG=C
* Encoding.locale_charmap #=> "ANSI_X3.4-1968"
* LANG=ja_JP.EUC-JP
* Encoding.locale_charmap #=> "EUC-JP"
*
* SunOS 5
* LANG=C
* Encoding.locale_charmap #=> "646"
* LANG=ja
* Encoding.locale_charmap #=> "eucJP"
*
* The result is highly platform dependent.
* So Encoding.find(Encoding.locale_charmap) may cause an error.
* If you need some encoding object even for unknown locale,
* Encoding.find("locale") can be used.
*
*/
VALUE
rb_locale_charmap(VALUE klass);
static void
set_encoding_const(const char *name, rb_encoding *enc)
{
VALUE encoding = rb_enc_from_encoding(enc);
char *s = (char *)name;
int haslower = 0, hasupper = 0, valid = 0;
if (ISDIGIT(*s)) return;
if (ISUPPER(*s)) {
hasupper = 1;
while (*++s && (ISALNUM(*s) || *s == '_')) {
if (ISLOWER(*s)) haslower = 1;
}
}
if (!*s) {
if (s - name > ENCODING_NAMELEN_MAX) return;
valid = 1;
rb_define_const(rb_cEncoding, name, encoding);
}
if (!valid || haslower) {
size_t len = s - name;
if (len > ENCODING_NAMELEN_MAX) return;
if (!haslower || !hasupper) {
do {
if (ISLOWER(*s)) haslower = 1;
if (ISUPPER(*s)) hasupper = 1;
} while (*++s && (!haslower || !hasupper));
len = s - name;
}
len += strlen(s);
if (len++ > ENCODING_NAMELEN_MAX) return;
MEMCPY(s = ALLOCA_N(char, len), name, char, len);
name = s;
if (!valid) {
if (ISLOWER(*s)) *s = ONIGENC_ASCII_CODE_TO_UPPER_CASE((int)*s);
for (; *s; ++s) {
if (!ISALNUM(*s)) *s = '_';
}
if (hasupper) {
rb_define_const(rb_cEncoding, name, encoding);
}
}
if (haslower) {
for (s = (char *)name; *s; ++s) {
if (ISLOWER(*s)) *s = ONIGENC_ASCII_CODE_TO_UPPER_CASE((int)*s);
}
rb_define_const(rb_cEncoding, name, encoding);
}
}
}
static int
rb_enc_name_list_i(st_data_t name, st_data_t idx, st_data_t arg)
{
VALUE ary = (VALUE)arg;
VALUE str = rb_usascii_str_new2((char *)name);
OBJ_FREEZE(str);
rb_ary_push(ary, str);
return ST_CONTINUE;
}
/*
* call-seq:
* Encoding.name_list -> ["enc1", "enc2", ...]
*
* Returns the list of available encoding names.
*
* Encoding.name_list
* #=> ["US-ASCII", "ASCII-8BIT", "UTF-8",
* "ISO-8859-1", "Shift_JIS", "EUC-JP",
* "Windows-31J",
* "BINARY", "CP932", "eucJP"]
*
*/
static VALUE
rb_enc_name_list(VALUE klass)
{
VALUE ary = rb_ary_new2(enc_table.names->num_entries);
st_foreach(enc_table.names, rb_enc_name_list_i, (st_data_t)ary);
return ary;
}
static int
rb_enc_aliases_enc_i(st_data_t name, st_data_t orig, st_data_t arg)
{
VALUE *p = (VALUE *)arg;
VALUE aliases = p[0], ary = p[1];
int idx = (int)orig;
VALUE key, str = rb_ary_entry(ary, idx);
if (NIL_P(str)) {
rb_encoding *enc = rb_enc_from_index(idx);
if (!enc) return ST_CONTINUE;
if (STRCASECMP((char*)name, rb_enc_name(enc)) == 0) {
return ST_CONTINUE;
}
str = rb_usascii_str_new2(rb_enc_name(enc));
OBJ_FREEZE(str);
rb_ary_store(ary, idx, str);
}
key = rb_usascii_str_new2((char *)name);
OBJ_FREEZE(key);
rb_hash_aset(aliases, key, str);
return ST_CONTINUE;
}
/*
* call-seq:
* Encoding.aliases -> {"alias1" => "orig1", "alias2" => "orig2", ...}
*
* Returns the hash of available encoding alias and original encoding name.
*
* Encoding.aliases
* #=> {"BINARY"=>"ASCII-8BIT", "ASCII"=>"US-ASCII", "ANSI_X3.4-1986"=>"US-ASCII",
* "SJIS"=>"Shift_JIS", "eucJP"=>"EUC-JP", "CP932"=>"Windows-31J"}
*
*/
static VALUE
rb_enc_aliases(VALUE klass)
{
VALUE aliases[2];
aliases[0] = rb_hash_new();
aliases[1] = rb_ary_new();
st_foreach(enc_table.names, rb_enc_aliases_enc_i, (st_data_t)aliases);
return aliases[0];
}
/*
* An Encoding instance represents a character encoding usable in Ruby. It is
* defined as a constant under the Encoding namespace. It has a name and
* optionally, aliases:
*
* Encoding::ISO_8859_1.name
* #=> #<Encoding:ISO-8859-1>
*
* Encoding::ISO_8859_1.names
* #=> ["ISO-8859-1", "ISO8859-1"]
*
* Ruby methods dealing with encodings return or accept Encoding instances as
* arguments (when a method accepts an Encoding instance as an argument, it
* can be passed an Encoding name or alias instead).
*
* "some string".encoding
* #=> #<Encoding:UTF-8>
*
* string = "some string".encode(Encoding::ISO_8859_1)
* #=> "some string"
* string.encoding
* #=> #<Encoding:ISO-8859-1>
*
* "some string".encode "ISO-8859-1"
* #=> "some string"
*
* <code>Encoding::ASCII_8BIT</code> is a special encoding that is usually
* used for a byte string, not a character string. But as the name insists,
* its characters in the range of ASCII are considered as ASCII characters.
* This is useful when you use ASCII-8BIT characters with other ASCII
* compatible characters.
*
* == Changing an encoding
*
* The associated Encoding of a String can be changed in two different ways.
*
* First, it is possible to set the Encoding of a string to a new Encoding
* without changing the internal byte representation of the string, with
* String#force_encoding. This is how you can tell Ruby the correct encoding
* of a string.
*
* string
* #=> "R\xC3\xA9sum\xC3\xA9"
* string.encoding
* #=> #<Encoding:ISO-8859-1>
* string.force_encoding(Encoding::UTF_8)
* #=> "R\u00E9sum\u00E9"
*
* Second, it is possible to transcode a string, i.e. translate its internal
* byte representation to another encoding. Its associated encoding is also
* set to the other encoding. See String#encode for the various forms of
* transcoding, and the Encoding::Converter class for additional control over
* the transcoding process.
*
* string
* #=> "R\u00E9sum\u00E9"
* string.encoding
* #=> #<Encoding:UTF-8>
* string = string.encode!(Encoding::ISO_8859_1)
* #=> "R\xE9sum\xE9"
* string.encoding
* #=> #<Encoding::ISO-8859-1>
*
* == Script encoding
*
* All Ruby script code has an associated Encoding which any String literal
* created in the source code will be associated to.
*
* The default script encoding is <code>Encoding::UTF-8</code> after v2.0, but it can
* be changed by a magic comment on the first line of the source code file (or
* second line, if there is a shebang line on the first). The comment must
* contain the word <code>coding</code> or <code>encoding</code>, followed
* by a colon, space and the Encoding name or alias:
*
* # encoding: UTF-8
*
* "some string".encoding
* #=> #<Encoding:UTF-8>
*
* The <code>__ENCODING__</code> keyword returns the script encoding of the file
* which the keyword is written:
*
* # encoding: ISO-8859-1
*
* __ENCODING__
* #=> #<Encoding:ISO-8859-1>
*
* <code>ruby -K</code> will change the default locale encoding, but this is
* not recommended. Ruby source files should declare its script encoding by a
* magic comment even when they only depend on US-ASCII strings or regular
* expressions.
*
* == Locale encoding
*
* The default encoding of the environment. Usually derived from locale.
*
* see Encoding.locale_charmap, Encoding.find('locale')
*
* == Filesystem encoding
*
* The default encoding of strings from the filesystem of the environment.
* This is used for strings of file names or paths.
*
* see Encoding.find('filesystem')
*
* == External encoding
*
* Each IO object has an external encoding which indicates the encoding that
* Ruby will use to read its data. By default Ruby sets the external encoding
* of an IO object to the default external encoding. The default external
* encoding is set by locale encoding or the interpreter <code>-E</code> option.
* Encoding.default_external returns the current value of the external
* encoding.
*
* ENV["LANG"]
* #=> "UTF-8"
* Encoding.default_external
* #=> #<Encoding:UTF-8>
*
* $ ruby -E ISO-8859-1 -e "p Encoding.default_external"
* #<Encoding:ISO-8859-1>
*
* $ LANG=C ruby -e 'p Encoding.default_external'
* #<Encoding:US-ASCII>
*
* The default external encoding may also be set through
* Encoding.default_external=, but you should not do this as strings created
* before and after the change will have inconsistent encodings. Instead use
* <code>ruby -E</code> to invoke ruby with the correct external encoding.
*
* When you know that the actual encoding of the data of an IO object is not
* the default external encoding, you can reset its external encoding with
* IO#set_encoding or set it at IO object creation (see IO.new options).
*
* == Internal encoding
*
* To process the data of an IO object which has an encoding different
* from its external encoding, you can set its internal encoding. Ruby will use
* this internal encoding to transcode the data when it is read from the IO
* object.
*
* Conversely, when data is written to the IO object it is transcoded from the
* internal encoding to the external encoding of the IO object.
*
* The internal encoding of an IO object can be set with
* IO#set_encoding or at IO object creation (see IO.new options).
*
* The internal encoding is optional and when not set, the Ruby default
* internal encoding is used. If not explicitly set this default internal
* encoding is +nil+ meaning that by default, no transcoding occurs.
*
* The default internal encoding can be set with the interpreter option
* <code>-E</code>. Encoding.default_internal returns the current internal
* encoding.
*
* $ ruby -e 'p Encoding.default_internal'
* nil
*
* $ ruby -E ISO-8859-1:UTF-8 -e "p [Encoding.default_external, \
* Encoding.default_internal]"
* [#<Encoding:ISO-8859-1>, #<Encoding:UTF-8>]
*
* The default internal encoding may also be set through
* Encoding.default_internal=, but you should not do this as strings created
* before and after the change will have inconsistent encodings. Instead use
* <code>ruby -E</code> to invoke ruby with the correct internal encoding.
*
* == IO encoding example
*
* In the following example a UTF-8 encoded string "R\u00E9sum\u00E9" is transcoded for
* output to ISO-8859-1 encoding, then read back in and transcoded to UTF-8:
*
* string = "R\u00E9sum\u00E9"
*
* open("transcoded.txt", "w:ISO-8859-1") do |io|
* io.write(string)
* end
*
* puts "raw text:"
* p File.binread("transcoded.txt")
* puts
*
* open("transcoded.txt", "r:ISO-8859-1:UTF-8") do |io|
* puts "transcoded text:"
* p io.read
* end
*
* While writing the file, the internal encoding is not specified as it is
* only necessary for reading. While reading the file both the internal and
* external encoding must be specified to obtain the correct result.
*
* $ ruby t.rb
* raw text:
* "R\xE9sum\xE9"
*
* transcoded text:
* "R\u00E9sum\u00E9"
*
*/
void
Init_Encoding(void)
{
#undef rb_intern
#define rb_intern(str) rb_intern_const(str)
VALUE list;
int i;
rb_cEncoding = rb_define_class("Encoding", rb_cObject);
rb_undef_alloc_func(rb_cEncoding);
rb_undef_method(CLASS_OF(rb_cEncoding), "new");
rb_define_method(rb_cEncoding, "to_s", enc_name, 0);
rb_define_method(rb_cEncoding, "inspect", enc_inspect, 0);
rb_define_method(rb_cEncoding, "name", enc_name, 0);
rb_define_method(rb_cEncoding, "names", enc_names, 0);
rb_define_method(rb_cEncoding, "dummy?", enc_dummy_p, 0);
rb_define_method(rb_cEncoding, "ascii_compatible?", enc_ascii_compatible_p, 0);
rb_define_method(rb_cEncoding, "replicate", enc_replicate, 1);
rb_define_singleton_method(rb_cEncoding, "list", enc_list, 0);
rb_define_singleton_method(rb_cEncoding, "name_list", rb_enc_name_list, 0);
rb_define_singleton_method(rb_cEncoding, "aliases", rb_enc_aliases, 0);
rb_define_singleton_method(rb_cEncoding, "find", enc_find, 1);
rb_define_singleton_method(rb_cEncoding, "compatible?", enc_compatible_p, 2);
rb_define_method(rb_cEncoding, "_dump", enc_dump, -1);
rb_define_singleton_method(rb_cEncoding, "_load", enc_load, 1);
rb_define_singleton_method(rb_cEncoding, "default_external", get_default_external, 0);
rb_define_singleton_method(rb_cEncoding, "default_external=", set_default_external, 1);
rb_define_singleton_method(rb_cEncoding, "default_internal", get_default_internal, 0);
rb_define_singleton_method(rb_cEncoding, "default_internal=", set_default_internal, 1);
rb_define_singleton_method(rb_cEncoding, "locale_charmap", rb_locale_charmap, 0);
list = rb_ary_new2(enc_table.count);
RBASIC_CLEAR_CLASS(list);
rb_encoding_list = list;
rb_gc_register_mark_object(list);
for (i = 0; i < enc_table.count; ++i) {
rb_ary_push(list, enc_new(enc_table.list[i].enc));
}
}
/* locale insensitive ctype functions */
#define ctype_test(c, ctype) \
(rb_isascii(c) && ONIGENC_IS_ASCII_CODE_CTYPE((c), (ctype)))
int rb_isalnum(int c) { return ctype_test(c, ONIGENC_CTYPE_ALNUM); }
int rb_isalpha(int c) { return ctype_test(c, ONIGENC_CTYPE_ALPHA); }
int rb_isblank(int c) { return ctype_test(c, ONIGENC_CTYPE_BLANK); }
int rb_iscntrl(int c) { return ctype_test(c, ONIGENC_CTYPE_CNTRL); }
int rb_isdigit(int c) { return ctype_test(c, ONIGENC_CTYPE_DIGIT); }
int rb_isgraph(int c) { return ctype_test(c, ONIGENC_CTYPE_GRAPH); }
int rb_islower(int c) { return ctype_test(c, ONIGENC_CTYPE_LOWER); }
int rb_isprint(int c) { return ctype_test(c, ONIGENC_CTYPE_PRINT); }
int rb_ispunct(int c) { return ctype_test(c, ONIGENC_CTYPE_PUNCT); }
int rb_isspace(int c) { return ctype_test(c, ONIGENC_CTYPE_SPACE); }
int rb_isupper(int c) { return ctype_test(c, ONIGENC_CTYPE_UPPER); }
int rb_isxdigit(int c) { return ctype_test(c, ONIGENC_CTYPE_XDIGIT); }
int
rb_tolower(int c)
{
return rb_isascii(c) ? ONIGENC_ASCII_CODE_TO_LOWER_CASE(c) : c;
}
int
rb_toupper(int c)
{
return rb_isascii(c) ? ONIGENC_ASCII_CODE_TO_UPPER_CASE(c) : c;
}
void
rb_enc_foreach_name(int (*func)(st_data_t name, st_data_t idx, st_data_t arg), st_data_t arg)
{
st_foreach(enc_table.names, func, arg);
}