/* -*- mode:c; c-file-style:"ruby" -*- */ /********************************************************************** iconv.c - $Author$ $Date$ created at: Wed Dec 1 20:28:09 JST 1999 All the files in this distribution are covered under the Ruby's license (see the file COPYING). Documentation by Yukihiro Matsumoto and Gavin Sinclair. **********************************************************************/ #include "ruby.h" #include #include #include #include "st.h" #include "intern.h" /* * Document-class: Iconv * * == Summary * * Ruby extension for charset conversion. * * == Abstract * * Iconv is a wrapper class for the UNIX 95 iconv() function family, * which translates string between various encoding systems. * * See Open Group's on-line documents for more details. * * iconv.h: http://www.opengroup.org/onlinepubs/007908799/xsh/iconv.h.html * * iconv_open(): http://www.opengroup.org/onlinepubs/007908799/xsh/iconv_open.html * * iconv(): http://www.opengroup.org/onlinepubs/007908799/xsh/iconv.html * * iconv_close(): http://www.opengroup.org/onlinepubs/007908799/xsh/iconv_close.html * * Which coding systems are available is platform-dependent. * * == Examples * * 1. Simple conversion between two charsets. * * converted_text = Iconv.conv('iso-8859-15', 'utf-8', text) * * 2. Instantiate a new Iconv and use method Iconv#iconv. * * cd = Iconv.new(to, from) * begin * input.each { |s| output << cd.iconv(s) } * output << cd.iconv(nil) # Don't forget this! * ensure * cd.close * end * * 3. Invoke Iconv.open with a block. * * Iconv.open(to, from) do |cd| * input.each { |s| output << cd.iconv(s) } * output << cd.iconv(nil) * end * * 4. Shorthand for (3). * * Iconv.iconv(to, from, *input.to_a) */ /* Invalid value for iconv_t is -1 but 0 for VALUE, I hope VALUE is big enough to keep iconv_t */ #define VALUE2ICONV(v) ((iconv_t)((VALUE)(v) ^ -1)) #define ICONV2VALUE(c) ((VALUE)(c) ^ -1) struct iconv_env_t { iconv_t cd; int argc; VALUE *argv; VALUE ret; VALUE (*append)_((VALUE, VALUE)); }; static VALUE rb_eIconvInvalidEncoding; static VALUE rb_eIconvFailure; static VALUE rb_eIconvIllegalSeq; static VALUE rb_eIconvInvalidChar; static VALUE rb_eIconvOutOfRange; static VALUE rb_eIconvBrokenLibrary; static ID rb_success, rb_failed; static VALUE iconv_fail _((VALUE error, VALUE success, VALUE failed, struct iconv_env_t* env, const char *mesg)); static VALUE iconv_failure_initialize _((VALUE error, VALUE mesg, VALUE success, VALUE failed)); static VALUE iconv_failure_success _((VALUE self)); static VALUE iconv_failure_failed _((VALUE self)); static iconv_t iconv_create _((VALUE to, VALUE from)); static void iconv_dfree _((void *cd)); static VALUE iconv_free _((VALUE cd)); static VALUE iconv_try _((iconv_t cd, const char **inptr, size_t *inlen, char **outptr, size_t *outlen)); static VALUE rb_str_derive _((VALUE str, const char* ptr, int len)); static VALUE iconv_convert _((iconv_t cd, VALUE str, long start, long length, struct iconv_env_t* env)); static VALUE iconv_s_allocate _((VALUE klass)); static VALUE iconv_initialize _((VALUE self, VALUE to, VALUE from)); static VALUE iconv_s_open _((VALUE self, VALUE to, VALUE from)); static VALUE iconv_s_convert _((struct iconv_env_t* env)); static VALUE iconv_s_iconv _((int argc, VALUE *argv, VALUE self)); static VALUE iconv_init_state _((VALUE cd)); static VALUE iconv_finish _((VALUE self)); static VALUE iconv_iconv _((int argc, VALUE *argv, VALUE self)); static VALUE charset_map; /* * Document-method: charset_map * call-seq: Iconv.charset_map * * Returns the map from canonical name to system dependent name. */ static VALUE charset_map_get _((void)) { return charset_map; } static char * map_charset #ifdef HAVE_PROTOTYPES (VALUE *code) #else /* HAVE_PROTOTYPES */ (code) VALUE *code; #endif /* HAVE_PROTOTYPES */ { VALUE val = *code; if (RHASH(charset_map)->tbl && RHASH(charset_map)->tbl->num_entries) { VALUE key = rb_funcall2(val, rb_intern("downcase"), 0, 0); StringValuePtr(key); if (st_lookup(RHASH(charset_map)->tbl, key, &val)) { *code = val; } } return StringValuePtr(*code); } static iconv_t iconv_create #ifdef HAVE_PROTOTYPES (VALUE to, VALUE from) #else /* HAVE_PROTOTYPES */ (to, from) VALUE to; VALUE from; #endif /* HAVE_PROTOTYPES */ { const char* tocode = map_charset(&to); const char* fromcode = map_charset(&from); iconv_t cd = iconv_open(tocode, fromcode); if (cd == (iconv_t)-1) { switch (errno) { case EMFILE: case ENFILE: case ENOMEM: rb_gc(); cd = iconv_open(tocode, fromcode); } if (cd == (iconv_t)-1) { int inval = errno == EINVAL; const char *s = inval ? "invalid encoding " : "iconv"; volatile VALUE msg = rb_str_new(0, strlen(s) + RSTRING(to)->len + RSTRING(from)->len + 8); sprintf(RSTRING(msg)->ptr, "%s(\"%s\", \"%s\")", s, RSTRING(to)->ptr, RSTRING(from)->ptr); s = RSTRING(msg)->ptr; RSTRING(msg)->len = strlen(s); if (!inval) rb_sys_fail(s); iconv_fail(rb_eIconvInvalidEncoding, Qnil, rb_ary_new3(2, to, from), NULL, s); } } return cd; } static void iconv_dfree #ifdef HAVE_PROTOTYPES (void *cd) #else /* HAVE_PROTOTYPES */ (cd) void *cd; #endif /* HAVE_PROTOTYPES */ { iconv_close(VALUE2ICONV(cd)); } #define ICONV_FREE iconv_dfree static VALUE iconv_free #ifdef HAVE_PROTOTYPES (VALUE cd) #else /* HAVE_PROTOTYPES */ (cd) VALUE cd; #endif /* HAVE_PROTOTYPES */ { if (cd && iconv_close(VALUE2ICONV(cd)) == -1) rb_sys_fail("iconv_close"); return Qnil; } static VALUE check_iconv #ifdef HAVE_PROTOTYPES (VALUE obj) #else /* HAVE_PROTOTYPES */ (obj) VALUE obj; #endif /* HAVE_PROTOTYPES */ { Check_Type(obj, T_DATA); if (RDATA(obj)->dfree != ICONV_FREE) { rb_raise(rb_eArgError, "Iconv expected (%s)", rb_class2name(CLASS_OF(obj))); } return (VALUE)DATA_PTR(obj); } static VALUE iconv_try #ifdef HAVE_PROTOTYPES (iconv_t cd, const char **inptr, size_t *inlen, char **outptr, size_t *outlen) #else /* HAVE_PROTOTYPES */ (cd, inptr, inlen, outptr, outlen) iconv_t cd; const char **inptr; size_t *inlen; char **outptr; size_t *outlen; #endif /* HAVE_PROTOTYPES */ { #ifdef ICONV_INPTR_CONST #define ICONV_INPTR_CAST #else #define ICONV_INPTR_CAST (char **) #endif size_t ret; errno = 0; ret = iconv(cd, ICONV_INPTR_CAST inptr, inlen, outptr, outlen); if (ret == (size_t)-1) { if (!*inlen) return Qfalse; switch (errno) { case E2BIG: /* try the left in next loop */ break; case EILSEQ: return rb_eIconvIllegalSeq; case EINVAL: return rb_eIconvInvalidChar; case 0: return rb_eIconvBrokenLibrary; default: rb_sys_fail("iconv"); } } else if (*inlen > 0) { /* something goes wrong */ return rb_eIconvIllegalSeq; } else if (ret) { return Qnil; /* conversion */ } return Qfalse; } #define FAILED_MAXLEN 16 static VALUE iconv_failure_initialize #ifdef HAVE_PROTOTYPES (VALUE error, VALUE mesg, VALUE success, VALUE failed) #else /* HAVE_PROTOTYPES */ (error, mesg, success, failed) VALUE error, mesg, success, failed; #endif /* HAVE_PROTOTYPES */ { rb_call_super(1, &mesg); rb_ivar_set(error, rb_success, success); rb_ivar_set(error, rb_failed, failed); return error; } static VALUE iconv_fail #ifdef HAVE_PROTOTYPES (VALUE error, VALUE success, VALUE failed, struct iconv_env_t* env, const char *mesg) #else /* HAVE_PROTOTYPES */ (error, success, failed, env, mesg) VALUE error, success, failed; struct iconv_env_t *env; const char *mesg; #endif /* HAVE_PROTOTYPES */ { VALUE args[3]; if (mesg && *mesg) { args[0] = rb_str_new2(mesg); } else if (TYPE(failed) != T_STRING || RSTRING(failed)->len < FAILED_MAXLEN) { args[0] = rb_inspect(failed); } else { args[0] = rb_inspect(rb_str_substr(failed, 0, FAILED_MAXLEN)); rb_str_cat2(args[0], "..."); } args[1] = success; args[2] = failed; if (env) { args[1] = env->append(rb_obj_dup(env->ret), success); if (env->argc > 0) { *(env->argv) = failed; args[2] = rb_ary_new4(env->argc, env->argv); } } error = rb_class_new_instance(3, args, error); if (!rb_block_given_p()) rb_exc_raise(error); ruby_errinfo = error; return rb_yield(failed); } static VALUE rb_str_derive #ifdef HAVE_PROTOTYPES (VALUE str, const char* ptr, int len) #else /* HAVE_PROTOTYPES */ (str, ptr, len) VALUE str; const char *ptr; int len; #endif /* HAVE_PROTOTYPES */ { VALUE ret; if (NIL_P(str)) return rb_str_new(ptr, len); if (RSTRING(str)->ptr == ptr && RSTRING(str)->len == len) return str; if (RSTRING(str)->ptr + RSTRING(str)->len == ptr + len) ret = rb_str_substr(str, ptr - RSTRING(str)->ptr, len); else ret = rb_str_new(ptr, len); OBJ_INFECT(ret, str); return ret; } static VALUE iconv_convert #ifdef HAVE_PROTOTYPES (iconv_t cd, VALUE str, long start, long length, struct iconv_env_t* env) #else /* HAVE_PROTOTYPES */ (cd, str, start, length, env) iconv_t cd; VALUE str; long start; long length; struct iconv_env_t *env; #endif /* HAVE_PROTOTYPES */ { VALUE ret = Qfalse; VALUE error = Qfalse; VALUE rescue; const char *inptr, *instart; size_t inlen; /* I believe ONE CHARACTER never exceed this. */ char buffer[BUFSIZ]; char *outptr; size_t outlen; if (cd == (iconv_t)-1) rb_raise(rb_eArgError, "closed iconv"); if (NIL_P(str)) { /* Reset output pointer or something. */ inptr = ""; inlen = 0; outptr = buffer; outlen = sizeof(buffer); error = iconv_try(cd, &inptr, &inlen, &outptr, &outlen); if (RTEST(error)) { unsigned int i; rescue = iconv_fail(error, Qnil, Qnil, env, 0); if (TYPE(rescue) == T_ARRAY) { str = RARRAY(rescue)->len > 0 ? RARRAY(rescue)->ptr[0] : Qnil; } if (FIXNUM_P(str) && (i = FIX2INT(str)) <= 0xff) { char c = i; str = rb_str_new(&c, 1); } else if (!NIL_P(str)) { StringValue(str); } } inptr = NULL; length = 0; } else { int slen; StringValue(str); slen = RSTRING(str)->len; inptr = RSTRING(str)->ptr; inptr += start; if (length < 0 || length > start + slen) length = slen - start; } instart = inptr; inlen = length; do { char errmsg[50]; const char *tmpstart = inptr; outptr = buffer; outlen = sizeof(buffer); errmsg[0] = 0; error = iconv_try(cd, &inptr, &inlen, &outptr, &outlen); if (0 <= outlen && outlen <= sizeof(buffer)) { outlen = sizeof(buffer) - outlen; if (NIL_P(error) || /* something converted */ outlen > inptr - tmpstart || /* input can't contain output */ (outlen < inptr - tmpstart && inlen > 0) || /* something skipped */ memcmp(buffer, tmpstart, outlen)) /* something differs */ { if (NIL_P(str)) { ret = rb_str_new(buffer, outlen); } else { if (ret) { ret = rb_str_buf_cat(ret, instart, tmpstart - instart); } else { ret = rb_str_new(instart, tmpstart - instart); OBJ_INFECT(ret, str); } ret = rb_str_buf_cat(ret, buffer, outlen); instart = inptr; } } else if (!inlen) { inptr = tmpstart + outlen; } } else { /* Some iconv() have a bug, return *outlen out of range */ sprintf(errmsg, "bug?(output length = %ld)", (long)(sizeof(buffer) - outlen)); error = rb_eIconvOutOfRange; } if (RTEST(error)) { long len = 0; if (!ret) ret = rb_str_derive(str, instart, inptr - instart); else if (inptr > instart) rb_str_cat(ret, instart, inptr - instart); str = rb_str_derive(str, inptr, inlen); rescue = iconv_fail(error, ret, str, env, errmsg); if (TYPE(rescue) == T_ARRAY) { if ((len = RARRAY(rescue)->len) > 0) rb_str_concat(ret, RARRAY(rescue)->ptr[0]); if (len > 1 && !NIL_P(str = RARRAY(rescue)->ptr[1])) { StringValue(str); inlen = length = RSTRING(str)->len; instart = inptr = RSTRING(str)->ptr; continue; } } else if (!NIL_P(rescue)) { rb_str_concat(ret, rescue); } break; } } while (inlen > 0); if (!ret) ret = rb_str_derive(str, instart, inptr - instart); else if (inptr > instart) rb_str_cat(ret, instart, inptr - instart); return ret; } static VALUE iconv_s_allocate #ifdef HAVE_PROTOTYPES (VALUE klass) #else /* HAVE_PROTOTYPES */ (klass) VALUE klass; #endif /* HAVE_PROTOTYPES */ { return Data_Wrap_Struct(klass, 0, ICONV_FREE, 0); } /* * Document-method: new * call-seq: Iconv.new(to, from) * * Creates new code converter from a coding-system designated with +from+ * to another one designated with +to+. * * === Parameters * * +to+:: encoding name for destination * +from+:: encoding name for source * * === Exceptions * * TypeError:: if +to+ or +from+ aren't String * InvalidEncoding:: if designated converter couldn't find out * SystemCallError:: if iconv_open(3) fails */ static VALUE iconv_initialize #ifdef HAVE_PROTOTYPES (VALUE self, VALUE to, VALUE from) #else /* HAVE_PROTOTYPES */ (self, to, from) VALUE self; VALUE to; VALUE from; #endif /* HAVE_PROTOTYPES */ { iconv_free(check_iconv(self)); DATA_PTR(self) = NULL; DATA_PTR(self) = (void *)ICONV2VALUE(iconv_create(to, from)); return self; } /* * Document-method: open * call-seq: Iconv.open(to, from) { |iconv| ... } * * Equivalent to Iconv.new except that when it is called with a block, it * yields with the new instance and closes it, and returns the result which * returned from the block. */ static VALUE iconv_s_open #ifdef HAVE_PROTOTYPES (VALUE self, VALUE to, VALUE from) #else /* HAVE_PROTOTYPES */ (self, to, from) VALUE self; VALUE to; VALUE from; #endif /* HAVE_PROTOTYPES */ { VALUE cd = ICONV2VALUE(iconv_create(to, from)); self = Data_Wrap_Struct(self, NULL, ICONV_FREE, (void *)cd); if (rb_block_given_p()) { return rb_ensure(rb_yield, self, (VALUE(*)())iconv_finish, self); } else { return self; } } static VALUE iconv_s_convert #ifdef HAVE_PROTOTYPES (struct iconv_env_t* env) #else /* HAVE_PROTOTYPES */ (env) struct iconv_env_t *env; #endif /* HAVE_PROTOTYPES */ { VALUE last = 0; for (; env->argc > 0; --env->argc, ++env->argv) { VALUE s = iconv_convert(env->cd, last = *(env->argv), 0, -1, env); env->append(env->ret, s); } if (!NIL_P(last)) { VALUE s = iconv_convert(env->cd, Qnil, 0, 0, env); if (RSTRING(s)->len) env->append(env->ret, s); } return env->ret; } /* * Document-method: Iconv::iconv * call-seq: Iconv.iconv(to, from, *strs) * * Shorthand for * Iconv.open(to, from) { |cd| * (strs + [nil]).collect { |s| cd.iconv(s) } * } * * === Parameters * * to, from:: see Iconv.new * strs:: strings to be converted * * === Exceptions * * Exceptions thrown by Iconv.new, Iconv.open and Iconv#iconv. */ static VALUE iconv_s_iconv #ifdef HAVE_PROTOTYPES (int argc, VALUE *argv, VALUE self) #else /* HAVE_PROTOTYPES */ (argc, argv, self) int argc; VALUE *argv; VALUE self; #endif /* HAVE_PROTOTYPES */ { struct iconv_env_t arg; if (argc < 2) /* needs `to' and `from' arguments at least */ rb_raise(rb_eArgError, "wrong number of arguments (%d for %d)", argc, 2); arg.argc = argc -= 2; arg.argv = argv + 2; arg.append = rb_ary_push; arg.ret = rb_ary_new2(argc); arg.cd = iconv_create(argv[0], argv[1]); return rb_ensure(iconv_s_convert, (VALUE)&arg, iconv_free, ICONV2VALUE(arg.cd)); } /* * Document-method: Iconv::conv * call-seq: Iconv.conv(to, from, str) * * Shorthand for * Iconv.iconv(to, from, str).join * See Iconv.iconv. */ static VALUE iconv_s_conv #ifdef HAVE_PROTOTYPES (VALUE self, VALUE to, VALUE from, VALUE str) #else /* HAVE_PROTOTYPES */ (self, to, from, str) VALUE self, to, from, str; #endif /* HAVE_PROTOTYPES */ { struct iconv_env_t arg; arg.argc = 1; arg.argv = &str; arg.append = rb_str_append; arg.ret = rb_str_new(0, 0); arg.cd = iconv_create(to, from); return rb_ensure(iconv_s_convert, (VALUE)&arg, iconv_free, ICONV2VALUE(arg.cd)); } /* * Document-method: close * * Finishes conversion. * * After calling this, calling Iconv#iconv will cause an exception, but * multiple calls of #close are guaranteed to end successfully. * * Returns a string containing the byte sequence to change the output buffer to * its initial shift state. */ static VALUE iconv_init_state #ifdef HAVE_PROTOTYPES (VALUE cd) #else /* HAVE_PROTOTYPES */ (cd) VALUE cd; #endif /* HAVE_PROTOTYPES */ { return iconv_convert(VALUE2ICONV(cd), Qnil, 0, 0, NULL); } static VALUE iconv_finish #ifdef HAVE_PROTOTYPES (VALUE self) #else /* HAVE_PROTOTYPES */ (self) VALUE self; #endif /* HAVE_PROTOTYPES */ { VALUE cd = check_iconv(self); if (!cd) return Qnil; DATA_PTR(self) = NULL; return rb_ensure(iconv_init_state, cd, iconv_free, cd); } /* * Document-method: Iconv#iconv * call-seq: iconv(str, start=0, length=-1) * * Converts string and returns the result. * * If +str+ is a String, converts str[start, length] and returns the converted string. * * If +str+ is +nil+, places converter itself into initial shift state and * just returns a string containing the byte sequence to change the output * buffer to its initial shift state. * * Otherwise, raises an exception. * * === Parameters * * str:: string to be converted, or nil * start:: starting offset * length:: conversion length; nil or -1 means whole the string from start * * === Exceptions * * * IconvIllegalSequence * * IconvInvalidCharacter * * IconvOutOfRange * * === Examples * * See the Iconv documentation. */ static VALUE iconv_iconv #ifdef HAVE_PROTOTYPES (int argc, VALUE *argv, VALUE self) #else /* HAVE_PROTOTYPES */ (argc, argv, self) int argc; VALUE *argv; VALUE self; #endif /* HAVE_PROTOTYPES */ { VALUE str, n1, n2; VALUE cd = check_iconv(self); long start = 0, length = 0, slen = 0; rb_scan_args(argc, argv, "12", &str, &n1, &n2); if (!NIL_P(str)) slen = RSTRING_LEN(StringValue(str)); if (argc != 2 || !RTEST(rb_range_beg_len(n1, &start, &length, slen, 0))) { if (NIL_P(n1) || ((start = NUM2LONG(n1)) < 0 ? (start += slen) >= 0 : start < slen)) { if (NIL_P(n2)) { length = -1; } else if ((length = NUM2LONG(n2)) >= slen - start) { length = slen - start; } } } return iconv_convert(VALUE2ICONV(cd), str, start, length, NULL); } /* * Document-class: Iconv::Failure * * Base attributes for Iconv exceptions. */ /* * Document-method: success * call-seq: success * * Returns string(s) translated successfully until the exception occurred. * * In the case of failure occurred within Iconv.iconv, returned * value is an array of strings translated successfully preceding * failure and the last element is string on the way. */ static VALUE iconv_failure_success #ifdef HAVE_PROTOTYPES (VALUE self) #else /* HAVE_PROTOTYPES */ (self) VALUE self; #endif /* HAVE_PROTOTYPES */ { return rb_attr_get(self, rb_success); } /* * Document-method: failed * call-seq: failed * * Returns substring of the original string passed to Iconv that starts at the * character caused the exception. */ static VALUE iconv_failure_failed #ifdef HAVE_PROTOTYPES (VALUE self) #else /* HAVE_PROTOTYPES */ (self) VALUE self; #endif /* HAVE_PROTOTYPES */ { return rb_attr_get(self, rb_failed); } /* * Document-method: inspect * call-seq: inspect * * Returns inspected string like as: #<_class_: _success_, _failed_> */ static VALUE iconv_failure_inspect #ifdef HAVE_PROTOTYPES (VALUE self) #else /* HAVE_PROTOTYPES */ (self) VALUE self; #endif /* HAVE_PROTOTYPES */ { const char *cname = rb_class2name(CLASS_OF(self)); VALUE success = rb_attr_get(self, rb_success); VALUE failed = rb_attr_get(self, rb_failed); VALUE str = rb_str_buf_cat2(rb_str_new2("#<"), cname); str = rb_str_buf_cat(str, ": ", 2); str = rb_str_buf_append(str, rb_inspect(success)); str = rb_str_buf_cat(str, ", ", 2); str = rb_str_buf_append(str, rb_inspect(failed)); return rb_str_buf_cat(str, ">", 1); } /* * Document-class: Iconv::InvalidEncoding * * Requested coding-system is not available on this system. */ /* * Document-class: Iconv::IllegalSequence * * Input conversion stopped due to an input byte that does not belong to * the input codeset, or the output codeset does not contain the * character. */ /* * Document-class: Iconv::InvalidCharacter * * Input conversion stopped due to an incomplete character or shift * sequence at the end of the input buffer. */ /* * Document-class: Iconv::OutOfRange * * Iconv library internal error. Must not occur. */ /* * Document-class: Iconv::BrokenLibrary * * Detected a bug of underlying iconv(3) libray. * * returns an error without setting errno properly */ void Init_iconv _((void)) { VALUE rb_cIconv = rb_define_class("Iconv", rb_cData); rb_define_alloc_func(rb_cIconv, iconv_s_allocate); rb_define_singleton_method(rb_cIconv, "open", iconv_s_open, 2); rb_define_singleton_method(rb_cIconv, "iconv", iconv_s_iconv, -1); rb_define_singleton_method(rb_cIconv, "conv", iconv_s_conv, 3); rb_define_method(rb_cIconv, "initialize", iconv_initialize, 2); rb_define_method(rb_cIconv, "close", iconv_finish, 0); rb_define_method(rb_cIconv, "iconv", iconv_iconv, -1); rb_eIconvFailure = rb_define_module_under(rb_cIconv, "Failure"); rb_define_method(rb_eIconvFailure, "initialize", iconv_failure_initialize, 3); rb_define_method(rb_eIconvFailure, "success", iconv_failure_success, 0); rb_define_method(rb_eIconvFailure, "failed", iconv_failure_failed, 0); rb_define_method(rb_eIconvFailure, "inspect", iconv_failure_inspect, 0); rb_eIconvInvalidEncoding = rb_define_class_under(rb_cIconv, "InvalidEncoding", rb_eArgError); rb_eIconvIllegalSeq = rb_define_class_under(rb_cIconv, "IllegalSequence", rb_eArgError); rb_eIconvInvalidChar = rb_define_class_under(rb_cIconv, "InvalidCharacter", rb_eArgError); rb_eIconvOutOfRange = rb_define_class_under(rb_cIconv, "OutOfRange", rb_eRuntimeError); rb_eIconvBrokenLibrary = rb_define_class_under(rb_cIconv, "BrokenLibrary", rb_eRuntimeError); rb_include_module(rb_eIconvInvalidEncoding, rb_eIconvFailure); rb_include_module(rb_eIconvIllegalSeq, rb_eIconvFailure); rb_include_module(rb_eIconvInvalidChar, rb_eIconvFailure); rb_include_module(rb_eIconvOutOfRange, rb_eIconvFailure); rb_include_module(rb_eIconvBrokenLibrary, rb_eIconvFailure); rb_success = rb_intern("success"); rb_failed = rb_intern("failed"); rb_gc_register_address(&charset_map); charset_map = rb_hash_new(); rb_define_singleton_method(rb_cIconv, "charset_map", charset_map_get, 0); }