ruby/encoding.c

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/**********************************************************************
encoding.c -
$Author$
created at: Thu May 24 17:23:27 JST 2007
Copyright (C) 2007 Yukihiro Matsumoto
**********************************************************************/
#include "ruby/internal/config.h"
#include <ctype.h>
#include "encindex.h"
#include "internal.h"
#include "internal/enc.h"
#include "internal/encoding.h"
#include "internal/inits.h"
#include "internal/load.h"
#include "internal/object.h"
#include "internal/string.h"
#include "internal/vm.h"
#include "regenc.h"
#include "ruby/encoding.h"
#include "ruby/util.h"
#include "ruby_assert.h"
#include "vm_sync.h"
#ifndef ENC_DEBUG
#define ENC_DEBUG 0
#endif
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#define ENC_ASSERT(expr) RUBY_ASSERT_WHEN(ENC_DEBUG, expr)
#define MUST_STRING(str) (ENC_ASSERT(RB_TYPE_P(str, T_STRING)), str)
#undef rb_ascii8bit_encindex
#undef rb_utf8_encindex
#undef rb_usascii_encindex
typedef OnigEncodingType rb_raw_encoding;
#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;
#define DEFAULT_ENCODING_LIST_CAPA 128
static VALUE rb_default_encoding_list;
static VALUE rb_additional_encoding_list;
struct rb_encoding_entry {
const char *name;
rb_encoding *enc;
rb_encoding *base;
};
static struct enc_table {
struct rb_encoding_entry *list;
int count;
int size;
st_table *names;
} global_enc_table;
static rb_encoding *global_enc_ascii,
*global_enc_utf_8,
*global_enc_us_ascii;
#define GLOBAL_ENC_TABLE_ENTER(enc_table) struct enc_table *enc_table = &global_enc_table; RB_VM_LOCK_ENTER()
#define GLOBAL_ENC_TABLE_LEAVE() RB_VM_LOCK_LEAVE()
#define GLOBAL_ENC_TABLE_EVAL(enc_table, expr) do { \
GLOBAL_ENC_TABLE_ENTER(enc_table); \
{ \
expr; \
} \
GLOBAL_ENC_TABLE_LEAVE(); \
} while (0)
#define ENC_DUMMY_FLAG (1<<24)
#define ENC_INDEX_MASK (~(~0U<<24))
#define ENC_TO_ENCINDEX(enc) (int)((enc)->ruby_encoding_index & ENC_INDEX_MASK)
#define ENC_DUMMY_P(enc) ((enc)->ruby_encoding_index & ENC_DUMMY_FLAG)
#define ENC_SET_DUMMY(enc) ((enc)->ruby_encoding_index |= ENC_DUMMY_FLAG)
#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)
static const rb_data_type_t encoding_data_type = {
"encoding",
{0, 0, 0,},
0, 0, 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))
* introduce new ISeq binary format serializer/de-serializer and a pre-compilation/runtime loader sample. [Feature #11788] * iseq.c: add new methods: * RubyVM::InstructionSequence#to_binary_format(extra_data = nil) * RubyVM::InstructionSequence.from_binary_format(binary) * RubyVM::InstructionSequence.from_binary_format_extra_data(binary) * compile.c: implement body of this new feature. * load.c (rb_load_internal0), iseq.c (rb_iseq_load_iseq): call RubyVM::InstructionSequence.load_iseq(fname) with loading script name if this method is defined. We can return any ISeq object as a result value. Otherwise loading will be continue as usual. This interface is not matured and is not extensible. So that we don't guarantee the future compatibility of this method. Basically, you should'nt use this method. * iseq.h: move ISEQ_MAJOR/MINOR_VERSION (and some definitions) from iseq.c. * encoding.c (rb_data_is_encoding), internal.h: added. * vm_core.h: add several supports for lazy load. * add USE_LAZY_LOAD macro to specify enable or disable of this feature. * add several fields to rb_iseq_t. * introduce new macro rb_iseq_check(). * insns.def: some check for lazy loading feature. * vm_insnhelper.c: ditto. * proc.c: ditto. * vm.c: ditto. * test/lib/iseq_loader_checker.rb: enabled iff suitable environment variables are provided. * test/runner.rb: enable lib/iseq_loader_checker.rb. * sample/iseq_loader.rb: add sample compiler and loader. $ ruby sample/iseq_loader.rb [dir] will compile all ruby scripts in [dir]. With default setting, this compile creates *.rb.yarb files in same directory of target .rb scripts. $ ruby -r sample/iseq_loader.rb [app] will run with enable to load compiled binary data. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@52949 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2015-12-08 16:58:50 +03:00
int
rb_data_is_encoding(VALUE obj)
{
return is_data_encoding(obj);
}
static VALUE
enc_new(rb_encoding *encoding)
{
VALUE enc = TypedData_Wrap_Struct(rb_cEncoding, &encoding_data_type, (void *)encoding);
rb_obj_freeze(enc);
FL_SET_RAW(enc, RUBY_FL_SHAREABLE);
return enc;
}
static void
enc_list_update(int index, rb_raw_encoding *encoding)
{
if (index < DEFAULT_ENCODING_LIST_CAPA) {
VALUE list = rb_default_encoding_list;
if (list && NIL_P(rb_ary_entry(list, index))) {
/* initialize encoding data */
rb_ary_store(list, index, enc_new(encoding));
}
}
else {
RB_VM_LOCK_ENTER();
{
VALUE list = rb_additional_encoding_list;
if (list && NIL_P(rb_ary_entry(list, index))) {
/* initialize encoding data */
rb_ary_store(list, index - DEFAULT_ENCODING_LIST_CAPA, enc_new(encoding));
}
}
RB_VM_LOCK_LEAVE();
}
}
static VALUE
enc_list_lookup(int idx)
{
VALUE list, enc;
if (idx < DEFAULT_ENCODING_LIST_CAPA) {
if (!(list = rb_default_encoding_list)) {
rb_bug("rb_enc_from_encoding_index(%d): no rb_default_encoding_list", idx);
}
enc = rb_ary_entry(list, idx);
}
else {
RB_VM_LOCK_ENTER();
{
if (!(list = rb_additional_encoding_list)) {
rb_bug("rb_enc_from_encoding_index(%d): no rb_additional_encoding_list", idx);
}
enc = rb_ary_entry(list, idx - DEFAULT_ENCODING_LIST_CAPA);
}
RB_VM_LOCK_LEAVE();
}
if (NIL_P(enc)) {
rb_bug("rb_enc_from_encoding_index(%d): not created yet", idx);
}
else {
return enc;
}
}
static VALUE
rb_enc_from_encoding_index(int idx)
{
return enc_list_lookup(idx);
}
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);
}
int
rb_enc_to_index(rb_encoding *enc)
{
return enc ? ENC_TO_ENCINDEX(enc) : 0;
}
int
rb_enc_dummy_p(rb_encoding *enc)
{
return ENC_DUMMY_P(enc) != 0;
}
static int
check_encoding(rb_encoding *enc)
{
int index = rb_enc_to_index(enc);
if (rb_enc_from_index(index) != enc)
return -1;
if (rb_enc_autoload_p(enc)) {
index = rb_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 (rb_enc_autoload_p(enc) && rb_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;
const char *name;
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;
}
if (!(name = rb_str_to_cstr(enc))) {
return -1;
}
return rb_enc_find_index(name);
}
static const char *
name_for_encoding(volatile VALUE *enc)
{
VALUE name = StringValue(*enc);
const char *n;
if (!rb_enc_asciicompat(rb_enc_get(name))) {
rb_raise(rb_eArgError, "invalid encoding name (non ASCII)");
}
if (!(n = rb_str_to_cstr(name))) {
rb_raise(rb_eArgError, "invalid encoding name (NUL byte)");
}
return n;
}
/* Returns encoding index or UNSPECIFIED_ENCODING */
static int
str_find_encindex(VALUE enc)
{
int idx = rb_enc_find_index(name_for_encoding(&enc));
RB_GC_GUARD(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);
}
static int
enc_table_expand(struct enc_table *enc_table, int newsize)
{
struct rb_encoding_entry *ent;
int count = newsize;
if (enc_table->size >= newsize) return newsize;
newsize = (newsize + 7) / 8 * 8;
ent = REALLOC_N(enc_table->list, struct rb_encoding_entry, newsize);
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(struct enc_table *enc_table, int index, const char *name, rb_encoding *base_encoding)
{
struct rb_encoding_entry *ent = &enc_table->list[index];
rb_raw_encoding *encoding;
if (!valid_encoding_name_p(name)) return -1;
if (!ent->name) {
ent->name = name = strdup(name);
}
else if (STRCASECMP(name, ent->name)) {
return -1;
}
encoding = (rb_raw_encoding *)ent->enc;
if (!encoding) {
encoding = xmalloc(sizeof(rb_encoding));
}
if (base_encoding) {
*encoding = *base_encoding;
}
else {
memset(encoding, 0, sizeof(*ent->enc));
}
encoding->name = name;
encoding->ruby_encoding_index = index;
ent->enc = encoding;
st_insert(enc_table->names, (st_data_t)name, (st_data_t)index);
enc_list_update(index, encoding);
return index;
}
static int
enc_register(struct enc_table *enc_table, const char *name, rb_encoding *encoding)
{
int index = enc_table->count;
enc_table->count = enc_table_expand(enc_table, index + 1);
return enc_register_at(enc_table, index, name, encoding);
}
static void set_encoding_const(const char *, rb_encoding *);
static int enc_registered(struct enc_table *enc_table, const char *name);
static rb_encoding *
enc_from_index(struct enc_table *enc_table, int index)
{
if (UNLIKELY(index < 0 || enc_table->count <= (index &= ENC_INDEX_MASK))) {
return 0;
}
return enc_table->list[index].enc;
}
rb_encoding *
rb_enc_from_index(int index)
{
rb_encoding *enc;
switch (index) {
case ENCINDEX_ASCII_8BIT: return global_enc_ascii;
case ENCINDEX_UTF_8: return global_enc_utf_8;
case ENCINDEX_US_ASCII: return global_enc_us_ascii;
default:
GLOBAL_ENC_TABLE_EVAL(enc_table,
enc = enc_from_index(enc_table, index));
return enc;
}
}
int
rb_enc_register(const char *name, rb_encoding *encoding)
{
int index;
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
index = enc_registered(enc_table, name);
if (index >= 0) {
rb_encoding *oldenc = enc_from_index(enc_table, index);
if (STRCASECMP(name, rb_enc_name(oldenc))) {
index = enc_register(enc_table, name, encoding);
}
else if (rb_enc_autoload_p(oldenc) || !ENC_DUMMY_P(oldenc)) {
enc_register_at(enc_table, index, name, encoding);
}
else {
rb_raise(rb_eArgError, "encoding %s is already registered", name);
}
}
else {
index = enc_register(enc_table, name, encoding);
set_encoding_const(name, rb_enc_from_index(index));
}
}
GLOBAL_ENC_TABLE_LEAVE();
return index;
}
int
enc_registered(struct enc_table *enc_table, 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;
}
void
rb_encdb_declare(const char *name)
{
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
int idx = enc_registered(enc_table, name);
if (idx < 0) {
idx = enc_register(enc_table, name, 0);
}
set_encoding_const(name, rb_enc_from_index(idx));
}
GLOBAL_ENC_TABLE_LEAVE();
}
static void
enc_check_duplication(struct enc_table *enc_table, const char *name)
{
if (enc_registered(enc_table, name) >= 0) {
rb_raise(rb_eArgError, "encoding %s is already registered", name);
}
}
static rb_encoding*
set_base_encoding(struct enc_table *enc_table, int index, rb_encoding *base)
{
rb_encoding *enc = enc_table->list[index].enc;
ASSUME(enc);
enc_table->list[index].base = base;
if (ENC_DUMMY_P(base)) ENC_SET_DUMMY((rb_raw_encoding *)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)
{
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
int idx = enc_registered(enc_table, name);
int origidx = enc_registered(enc_table, orig);
set_base_encoding(enc_table, idx, rb_enc_from_index(origidx));
}
GLOBAL_ENC_TABLE_LEAVE();
}
/* for encdb.h
* Set encoding dummy.
*/
int
rb_enc_set_dummy(int index)
{
rb_encoding *enc;
GLOBAL_ENC_TABLE_EVAL(enc_table,
enc = enc_table->list[index].enc);
ENC_SET_DUMMY((rb_raw_encoding *)enc);
return index;
}
static int
enc_replicate(struct enc_table *enc_table, const char *name, rb_encoding *encoding)
{
int idx;
enc_check_duplication(enc_table, name);
idx = enc_register(enc_table, name, encoding);
if (idx < 0) rb_raise(rb_eArgError, "invalid encoding name: %s", name);
set_base_encoding(enc_table, idx, encoding);
set_encoding_const(name, rb_enc_from_index(idx));
return idx;
}
int
rb_enc_replicate(const char *name, rb_encoding *encoding)
{
int r;
GLOBAL_ENC_TABLE_EVAL(enc_table,
r = enc_replicate(enc_table, name, encoding));
return r;
}
/*
* 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_m(VALUE encoding, VALUE name)
{
int idx = rb_enc_replicate(name_for_encoding(&name), rb_to_encoding(encoding));
RB_GC_GUARD(name);
return rb_enc_from_encoding_index(idx);
}
static int
enc_replicate_with_index(struct enc_table *enc_table, const char *name, rb_encoding *origenc, int idx)
{
if (idx < 0) {
idx = enc_register(enc_table, name, origenc);
}
else {
idx = enc_register_at(enc_table, idx, name, origenc);
}
if (idx >= 0) {
set_base_encoding(enc_table, idx, origenc);
set_encoding_const(name, rb_enc_from_index(idx));
}
else {
rb_raise(rb_eArgError, "failed to replicate encoding");
}
return idx;
}
int
rb_encdb_replicate(const char *name, const char *orig)
{
int r;
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
int origidx = enc_registered(enc_table, orig);
int idx = enc_registered(enc_table, name);
if (origidx < 0) {
origidx = enc_register(enc_table, orig, 0);
}
r = enc_replicate_with_index(enc_table, name, rb_enc_from_index(origidx), idx);
}
GLOBAL_ENC_TABLE_LEAVE();
return r;
}
int
rb_define_dummy_encoding(const char *name)
{
int index;
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
index = enc_replicate(enc_table, name, rb_ascii8bit_encoding());
rb_encoding *enc = enc_table->list[index].enc;
ENC_SET_DUMMY((rb_raw_encoding *)enc);
}
GLOBAL_ENC_TABLE_LEAVE();
return index;
}
int
rb_encdb_dummy(const char *name)
{
int index;
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
index = enc_replicate_with_index(enc_table, name,
rb_ascii8bit_encoding(),
enc_registered(enc_table, name));
rb_encoding *enc = enc_table->list[index].enc;
ENC_SET_DUMMY((rb_raw_encoding *)enc);
}
GLOBAL_ENC_TABLE_LEAVE();
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)
{
2021-08-02 06:06:44 +03:00
return RBOOL(ENC_DUMMY_P(must_encoding(enc)));
}
/*
* 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)
{
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return RBOOL(rb_enc_asciicompat(must_encoding(enc)));
}
/*
* Returns non-zero 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(struct enc_table *enc_table, 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(struct enc_table *enc_table, const char *alias, int idx)
{
if (!valid_encoding_name_p(alias)) return -1;
if (!enc_alias_internal(enc_table, alias, idx))
set_encoding_const(alias, enc_from_index(enc_table, idx));
return idx;
}
int
rb_enc_alias(const char *alias, const char *orig)
{
int idx, r;
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
enc_check_duplication(enc_table, alias);
if ((idx = rb_enc_find_index(orig)) < 0) {
r = -1;
}
else {
r = enc_alias(enc_table, alias, idx);
}
}
GLOBAL_ENC_TABLE_LEAVE();
return r;
}
int
rb_encdb_alias(const char *alias, const char *orig)
{
int r;
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
int idx = enc_registered(enc_table, orig);
if (idx < 0) {
idx = enc_register(enc_table, orig, 0);
}
r = enc_alias(enc_table, alias, idx);
}
GLOBAL_ENC_TABLE_LEAVE();
return r;
}
void
rb_encdb_set_unicode(int index)
{
rb_raw_encoding *enc = (rb_raw_encoding *)rb_enc_from_index(index);
ASSUME(enc);
enc->flags |= ONIGENC_FLAG_UNICODE;
}
static void
rb_enc_init(struct enc_table *enc_table)
{
enc_table_expand(enc_table, ENCODING_COUNT + 1);
if (!enc_table->names) {
enc_table->names = st_init_strcasetable();
}
#define OnigEncodingASCII_8BIT OnigEncodingASCII
#define ENC_REGISTER(enc) enc_register_at(enc_table, ENCINDEX_##enc, rb_enc_name(&OnigEncoding##enc), &OnigEncoding##enc)
ENC_REGISTER(ASCII_8BIT);
ENC_REGISTER(UTF_8);
ENC_REGISTER(US_ASCII);
global_enc_ascii = enc_table->list[ENCINDEX_ASCII_8BIT].enc;
global_enc_utf_8 = enc_table->list[ENCINDEX_UTF_8].enc;
global_enc_us_ascii = enc_table->list[ENCINDEX_US_ASCII].enc;
#undef ENC_REGISTER
#undef OnigEncodingASCII_8BIT
#define ENCDB_REGISTER(name, enc) enc_register_at(enc_table, 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_get_from_index(int index)
{
return must_encindex(index);
}
int rb_require_internal_silent(VALUE fname);
static int
load_encoding(const char *name)
{
VALUE enclib = rb_sprintf("enc/%s.so", name);
VALUE debug = ruby_debug;
VALUE errinfo;
char *s = RSTRING_PTR(enclib) + 4, *e = RSTRING_END(enclib) - 3;
int loaded;
int idx;
while (s < e) {
if (!ISALNUM(*s)) *s = '_';
else if (ISUPPER(*s)) *s = (char)TOLOWER(*s);
++s;
}
enclib = rb_fstring(enclib);
ruby_debug = Qfalse;
errinfo = rb_errinfo();
loaded = rb_require_internal_silent(enclib);
ruby_debug = debug;
rb_set_errinfo(errinfo);
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
if (loaded < 0 || 1 < loaded) {
idx = -1;
}
else if ((idx = enc_registered(enc_table, name)) < 0) {
idx = -1;
}
else if (rb_enc_autoload_p(enc_table->list[idx].enc)) {
idx = -1;
}
}
GLOBAL_ENC_TABLE_LEAVE();
return idx;
}
static int
enc_autoload_body(struct enc_table *enc_table, rb_encoding *enc)
{
rb_encoding *base = enc_table->list[ENC_TO_ENCINDEX(enc)].base;
if (base) {
int i = 0;
do {
if (i >= enc_table->count) return -1;
} while (enc_table->list[i].enc != base && (++i, 1));
if (rb_enc_autoload_p(base)) {
if (rb_enc_autoload(base) < 0) return -1;
}
i = enc->ruby_encoding_index;
enc_register_at(enc_table, i & ENC_INDEX_MASK, rb_enc_name(enc), base);
((rb_raw_encoding *)enc)->ruby_encoding_index = i;
i &= ENC_INDEX_MASK;
return i;
}
else {
return -2;
}
}
int
rb_enc_autoload(rb_encoding *enc)
{
int i;
GLOBAL_ENC_TABLE_EVAL(enc_table, i = enc_autoload_body(enc_table, enc));
if (i == -2) {
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_encoding *enc;
GLOBAL_ENC_TABLE_EVAL(enc_table, i = enc_registered(enc_table, name));
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 (rb_enc_autoload_p(enc)) {
if (rb_enc_autoload(enc) < 0) {
rb_warn("failed to load encoding (%s); use ASCII-8BIT instead",
name);
return 0;
}
}
return i;
}
int
rb_enc_find_index2(const char *name, long len)
{
char buf[ENCODING_NAMELEN_MAX+1];
if (len > ENCODING_NAMELEN_MAX) return -1;
memcpy(buf, name, len);
buf[len] = '\0';
return rb_enc_find_index(buf);
}
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;
}
}
int
rb_enc_capable(VALUE obj)
{
return enc_capable(obj);
}
ID
rb_id_encoding(void)
{
CONST_ID(id_encoding, "encoding");
return id_encoding;
}
static int
enc_get_index_str(VALUE str)
{
int i = ENCODING_GET_INLINED(str);
if (i == ENCODING_INLINE_MAX) {
VALUE iv;
#if 0
iv = rb_ivar_get(str, rb_id_encoding());
i = NUM2INT(iv);
#else
/*
* Tentatively, assume ASCII-8BIT, if encoding index instance
* variable is not found. This can happen when freeing after
* all instance variables are removed in `obj_free`.
*/
iv = rb_attr_get(str, rb_id_encoding());
i = NIL_P(iv) ? ENCINDEX_ASCII_8BIT : NUM2INT(iv);
#endif
}
return i;
}
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_sym2str(obj);
}
switch (BUILTIN_TYPE(obj)) {
case T_STRING:
case T_SYMBOL:
case T_REGEXP:
i = enc_get_index_str(obj);
break;
case T_FILE:
tmp = rb_funcallv(obj, rb_intern("internal_encoding"), 0, 0);
if (NIL_P(tmp)) {
tmp = rb_funcallv(obj, rb_intern("external_encoding"), 0, 0);
}
if (is_obj_encoding(tmp)) {
i = enc_check_encoding(tmp);
}
break;
case T_DATA:
if (is_data_encoding(obj)) {
i = enc_check_encoding(obj);
}
break;
default:
break;
}
return i;
}
static void
enc_set_index(VALUE obj, int idx)
{
if (!enc_capable(obj)) {
rb_raise(rb_eArgError, "cannot set encoding on non-encoding capable object");
}
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_change_terminator_length(obj, oldtermlen, 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));
}
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static rb_encoding*
rb_encoding_check(rb_encoding* enc, VALUE str1, VALUE 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;
}
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static rb_encoding* enc_compatible_str(VALUE str1, VALUE str2);
rb_encoding*
rb_enc_check_str(VALUE str1, VALUE str2)
{
rb_encoding *enc = enc_compatible_str(MUST_STRING(str1), MUST_STRING(str2));
return rb_encoding_check(enc, str1, str2);
}
rb_encoding*
rb_enc_check(VALUE str1, VALUE str2)
{
rb_encoding *enc = rb_enc_compatible(str1, str2);
2021-08-21 09:28:59 +03:00
return rb_encoding_check(enc, str1, str2);
}
static rb_encoding*
enc_compatible_latter(VALUE str1, VALUE str2, int idx1, int idx2)
{
int isstr1, isstr2;
rb_encoding *enc1 = rb_enc_from_index(idx1);
rb_encoding *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 && isstr2 && 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;
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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;
}
static rb_encoding*
enc_compatible_str(VALUE str1, VALUE str2)
{
int idx1 = enc_get_index_str(str1);
int idx2 = enc_get_index_str(str2);
if (idx1 < 0 || idx2 < 0)
return 0;
if (idx1 == idx2) {
return rb_enc_from_index(idx1);
}
else {
return enc_compatible_latter(str1, str2, idx1, idx2);
}
}
rb_encoding*
rb_enc_compatible(VALUE str1, VALUE str2)
{
int idx1 = rb_enc_get_index(str1);
int idx2 = rb_enc_get_index(str2);
if (idx1 < 0 || idx2 < 0)
return 0;
if (idx1 == idx2) {
return rb_enc_from_index(idx1);
}
return enc_compatible_latter(str1, str2, idx1, idx2);
}
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;
int 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);
}
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;
}
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)" : ""),
rb_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_fstring_cstr(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_fstring_cstr((char *)name);
rb_ary_push(arg[1], str);
}
return ST_CONTINUE;
}
/*
* call-seq:
* enc.names -> array
*
* Returns the list of name and aliases of the encoding.
*
2019-12-17 10:11:02 +03:00
* Encoding::WINDOWS_31J.names #=> ["Windows-31J", "CP932", "csWindows31J", "SJIS", "PCK"]
*/
static VALUE
enc_names(VALUE self)
{
VALUE args[2];
args[0] = (VALUE)rb_to_encoding_index(self);
args[1] = rb_ary_new2(0);
GLOBAL_ENC_TABLE_EVAL(enc_table,
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_VM_LOCK_ENTER();
{
rb_ary_replace(ary, rb_default_encoding_list);
rb_ary_concat(ary, rb_additional_encoding_list);
}
RB_VM_LOCK_LEAVE();
return ary;
}
/*
* call-seq:
* Encoding.find(string) -> enc
*
* Search the encoding with specified <i>name</i>.
* <i>name</i> should be a string.
*
* Encoding.find("US-ASCII") #=> #<Encoding:US-ASCII>
*
* 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);
}
2020-05-10 18:24:14 +03:00
NORETURN(static VALUE enc_s_alloc(VALUE klass));
/* :nodoc: */
static VALUE
enc_s_alloc(VALUE klass)
{
rb_undefined_alloc(klass);
2020-05-10 18:24:14 +03:00
UNREACHABLE_RETURN(Qnil);
}
/* :nodoc: */
static VALUE
enc_dump(int argc, VALUE *argv, VALUE self)
{
rb_check_arity(argc, 0, 1);
return enc_name(self);
}
/* :nodoc: */
static VALUE
enc_load(VALUE klass, VALUE str)
{
return str;
}
/* :nodoc: */
static VALUE
enc_m_loader(VALUE klass, VALUE str)
{
return enc_find(klass, str);
}
rb_encoding *
rb_ascii8bit_encoding(void)
{
return global_enc_ascii;
}
int
rb_ascii8bit_encindex(void)
{
return ENCINDEX_ASCII_8BIT;
}
rb_encoding *
rb_utf8_encoding(void)
{
return global_enc_utf_8;
}
int
rb_utf8_encindex(void)
{
return ENCINDEX_UTF_8;
}
rb_encoding *
rb_usascii_encoding(void)
{
return global_enc_us_ascii;
}
int
rb_usascii_encindex(void)
{
return ENCINDEX_US_ASCII;
}
int rb_locale_charmap_index(void);
int
rb_locale_encindex(void)
{
int idx = rb_locale_charmap_index();
if (idx < 0) idx = ENCINDEX_UTF_8;
GLOBAL_ENC_TABLE_ENTER(enc_table);
if (enc_registered(enc_table, "locale") < 0) {
# if defined _WIN32
void Init_w32_codepage(void);
Init_w32_codepage();
# endif
enc_alias_internal(enc_table, "locale", idx);
}
GLOBAL_ENC_TABLE_LEAVE();
return idx;
}
rb_encoding *
rb_locale_encoding(void)
{
return rb_enc_from_index(rb_locale_encindex());
}
int
rb_filesystem_encindex(void)
{
int idx;
GLOBAL_ENC_TABLE_EVAL(enc_table,
idx = enc_registered(enc_table, "filesystem"));
if (idx < 0)
idx = ENCINDEX_ASCII_8BIT;
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};
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;
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
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(enc_table, name, def->index);
}
if (def == &default_external) {
enc_alias_internal(enc_table, "filesystem", Init_enc_set_filesystem_encoding());
}
}
GLOBAL_ENC_TABLE_LEAVE();
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, if default_internal is not nil.
*
* The default external encoding is initialized by the -E option.
* If -E isn't set, it is initialized to UTF-8 on Windows and the locale on
* other operating systems.
*/
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
*
* Additionally String#encode and String#encode! use the default internal
* encoding if no encoding is given.
*
* The script encoding (__ENCODING__), not default_internal, is used as the
* encoding of created strings.
*
* Encoding::default_internal is initialized with -E option or nil otherwise.
*/
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;
}
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_fstring_cstr((char *)name);
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;
GLOBAL_ENC_TABLE_ENTER(enc_table);
{
ary = rb_ary_new2(enc_table->names->num_entries);
st_foreach(enc_table->names, rb_enc_name_list_i, (st_data_t)ary);
}
GLOBAL_ENC_TABLE_LEAVE();
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_fstring_cstr(rb_enc_name(enc));
rb_ary_store(ary, idx, str);
}
key = rb_fstring_cstr((char *)name);
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_X3.4-1968"=>"US-ASCII",
* "SJIS"=>"Windows-31J", "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();
GLOBAL_ENC_TABLE_EVAL(enc_table,
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::US_ASCII.name # => "US-ASCII"
* Encoding::US_ASCII.names # => ["US-ASCII", "ASCII", "ANSI_X3.4-1968", "646"]
*
* A Ruby method that accepts an encoding as an argument will accept:
*
* - An \Encoding object.
* - The name of an encoding.
* - An alias for an encoding name.
*
* These are equivalent:
*
* 'foo'.encode(Encoding::US_ASCII) # Encoding object.
* 'foo'.encode('US-ASCII') # Encoding name.
* 'foo'.encode('ASCII') # Encoding alias.
*
* For a full discussion of encodings and their uses,
* see {the Encodings document}[rdoc-ref:encodings.rdoc].
*
* Encoding::ASCII_8BIT is a special-purpose encoding that is usually used for
* a string of bytes, not a string of characters.
* But as the name indicates, its characters in the ASCII range
* are considered as ASCII characters.
* This is useful when you use other ASCII-compatible encodings.
*
*/
void
Init_Encoding(void)
{
VALUE list;
int i;
rb_cEncoding = rb_define_class("Encoding", rb_cObject);
rb_define_alloc_func(rb_cEncoding, enc_s_alloc);
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_m, 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); /* in localeinit.c */
struct enc_table *enc_table = &global_enc_table;
if (DEFAULT_ENCODING_LIST_CAPA < enc_table->count) rb_bug("DEFAULT_ENCODING_LIST_CAPA is too small");
list = rb_additional_encoding_list = rb_ary_new();
RBASIC_CLEAR_CLASS(list);
rb_gc_register_mark_object(list);
list = rb_default_encoding_list = rb_ary_new2(DEFAULT_ENCODING_LIST_CAPA);
* include/ruby/ruby.h: constify RBasic::klass and add RBASIC_CLASS(obj) macro which returns a class of `obj'. This change is a part of RGENGC branch [ruby-trunk - Feature #8339]. * object.c: add new function rb_obj_reveal(). This function reveal interal (hidden) object by rb_obj_hide(). Note that do not change class before and after hiding. Only permitted example is: klass = RBASIC_CLASS(obj); rb_obj_hide(obj); .... rb_obj_reveal(obj, klass); TODO: API design. rb_obj_reveal() should be replaced with others. TODO: modify constified variables using cast may be harmful for compiler's analysis and optimizaton. Any idea to prohibt inserting RBasic::klass directly? If rename RBasic::klass and force to use RBASIC_CLASS(obj), then all codes such as `RBASIC(obj)->klass' will be compilation error. Is it acceptable? (We have similar experience at Ruby 1.9, for example "RARRAY(ary)->ptr" to "RARRAY_PTR(ary)". * internal.h: add some macros. * RBASIC_CLEAR_CLASS(obj) clear RBasic::klass to make it internal object. * RBASIC_SET_CLASS(obj, cls) set RBasic::klass. * RBASIC_SET_CLASS_RAW(obj, cls) same as RBASIC_SET_CLASS without write barrier (planned). * RCLASS_SET_SUPER(a, b) set super class of a. * array.c, class.c, compile.c, encoding.c, enum.c, error.c, eval.c, file.c, gc.c, hash.c, io.c, iseq.c, marshal.c, object.c, parse.y, proc.c, process.c, random.c, ruby.c, sprintf.c, string.c, thread.c, transcode.c, vm.c, vm_eval.c, win32/file.c: Use above macros and functions to access RBasic::klass. * ext/coverage/coverage.c, ext/readline/readline.c, ext/socket/ancdata.c, ext/socket/init.c, * ext/zlib/zlib.c: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@40691 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2013-05-13 14:49:11 +04:00
RBASIC_CLEAR_CLASS(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));
}
rb_marshal_define_compat(rb_cEncoding, Qnil, 0, enc_m_loader);
}
void
Init_encodings(void)
{
rb_enc_init(&global_enc_table);
}
/* locale insensitive ctype functions */
void
rb_enc_foreach_name(int (*func)(st_data_t name, st_data_t idx, st_data_t arg), st_data_t arg)
{
GLOBAL_ENC_TABLE_EVAL(enc_table, st_foreach(enc_table->names, func, arg));
}