/* * NKF - Ruby extension for Network Kanji Filter * * original nkf2.x is maintained at http://sourceforge.jp/projects/nkf/ * * $Id$ * */ #define RUBY_NKF_REVISION "$Revision$" #define RUBY_NKF_VERSION NKF_VERSION " (" NKF_RELEASE_DATE ")" #include "ruby.h" /* Encoding Constants */ #define _AUTO 0 #define _JIS 1 #define _EUC 2 #define _SJIS 3 #define _BINARY 4 #define _NOCONV 4 #define _ASCII 5 /* 0b011x is reserved for UTF-8 Family */ #define _UTF8 6 /* 0b10xx is reserved for UTF-16 Family */ #define _UTF16 8 /* 0b11xx is reserved for UTF-32 Family */ #define _UTF32 12 #define _OTHER 16 #define _UNKNOWN _AUTO /* Replace nkf's getchar/putchar for variable modification */ /* we never use getc, ungetc */ #undef getc #undef ungetc #define getc(f) (input_ctr>=i_len?-1:input[input_ctr++]) #define ungetc(c,f) input_ctr-- #define INCSIZE 32 #undef putchar #undef TRUE #undef FALSE #define putchar(c) rb_nkf_putchar(c) /* Input/Output pointers */ static unsigned char *output; static unsigned char *input; static int input_ctr; static int i_len; static int output_ctr; static int o_len; static int incsize; static VALUE result; static int rb_nkf_putchar(c) unsigned int c; { if (output_ctr >= o_len) { o_len += incsize; rb_str_resize(result, o_len); incsize *= 2; output = RSTRING(result)->ptr; } output[output_ctr++] = c; return c; } /* Include kanji filter main part */ /* getchar and putchar will be replaced during inclusion */ #define PERL_XS 1 #include "nkf-utf8/config.h" #include "nkf-utf8/utf8tbl.c" #include "nkf-utf8/nkf.c" int nkf_split_options(arg) const char* arg; { int count = 0; char option[256]; int i = 0, j = 0; int is_escaped = FALSE; int is_single_quoted = FALSE; int is_double_quoted = FALSE; for(i = 0; arg[i]; i++){ if(j == 255){ return -1; }else if(is_single_quoted){ if(arg[i] == '\''){ is_single_quoted = FALSE; }else{ option[j++] = arg[i]; } }else if(is_escaped){ is_escaped = FALSE; option[j++] = arg[i]; }else if(arg[i] == '\\'){ is_escaped = TRUE; }else if(is_double_quoted){ if(arg[i] == '"'){ is_double_quoted = FALSE; }else{ option[j++] = arg[i]; } }else if(arg[i] == '\''){ is_single_quoted = TRUE; }else if(arg[i] == '"'){ is_double_quoted = TRUE; }else if(arg[i] == ' '){ option[j] = '\0'; options(option); j = 0; }else{ option[j++] = arg[i]; } } if(j){ option[j] = '\0'; options(option); } return count; } /* * call-seq: * NKF.nkf(opt, str) -> string * * Convert _str_ and return converted result. * Conversion details are specified by _opt_ as String. * * require 'nkf' * output = NKF.nkf("-s", input) * * *Note* * By default, nkf decodes MIME encoded string. * If you want not to decode input, use NKF.nkf with -m0 flag. */ static VALUE rb_nkf_kconv(obj, opt, src) VALUE obj, opt, src; { char *opt_ptr, *opt_end; volatile VALUE v; reinit(); StringValue(opt); opt_ptr = RSTRING(opt)->ptr; opt_end = opt_ptr + RSTRING(opt)->len; nkf_split_options(opt_ptr); incsize = INCSIZE; input_ctr = 0; StringValue(src); input = RSTRING(src)->ptr; i_len = RSTRING(src)->len; result = rb_str_new(0, i_len*3 + 10); v = result; output_ctr = 0; output = RSTRING(result)->ptr; o_len = RSTRING(result)->len; *output = '\0'; if(x0201_f == WISH_TRUE) x0201_f = ((!iso2022jp_f)? TRUE : NO_X0201); kanji_convert(NULL); RSTRING(result)->ptr[output_ctr] = '\0'; RSTRING(result)->len = output_ctr; OBJ_INFECT(result, src); return result; } /* * call-seq: * NKF.guess1(str) -> integer * * Returns guessed encoding of _str_ as integer. * * Algorithm described in: * Ken Lunde. `Understanding Japanese Information Processing' * Sebastopol, CA: O'Reilly & Associates. * * case NKF.guess1(input) * when NKF::JIS * "ISO-2022-JP" * when NKF::SJIS * "Shift_JIS" * when NKF::EUC * "EUC-JP" * when NKF::UNKNOWN * "UNKNOWN(ASCII)" * when NKF::BINARY * "BINARY" * end */ static VALUE rb_nkf_guess1(obj, src) VALUE obj, src; { unsigned char *p; unsigned char *pend; int sequence_counter = 0; StringValue(src); p = RSTRING(src)->ptr; pend = p + RSTRING(src)->len; if (p == pend) return INT2FIX(_UNKNOWN); #define INCR do {\ p++;\ if (p==pend) return INT2FIX(_UNKNOWN);\ sequence_counter++;\ if (sequence_counter % 2 == 1 && *p != 0xa4)\ sequence_counter = 0;\ if (6 <= sequence_counter) {\ sequence_counter = 0;\ return INT2FIX(_EUC);\ }\ } while (0) if (*p == 0xa4) sequence_counter = 1; while (p= 0x40) { if (*p >= 0x81) { if (*p <= 0x8d || (0x8f <= *p && *p <= 0x9f)) { return INT2FIX(_SJIS); } else if (0xfd <= *p && *p <= 0xfe) { return INT2FIX(_EUC); } } INCR; } } else if (*p <= 0x9f) { return INT2FIX(_SJIS); } } else if (0xf0 <= *p && *p <= 0xfe) { return INT2FIX(_EUC); } else if (0xe0 <= *p && *p <= 0xef) { INCR; if ((0x40 <= *p && *p <= 0x7e) || (0x80 <= *p && *p <= 0xa0)) { return INT2FIX(_SJIS); } if (0xfd <= *p && *p <= 0xfe) { return INT2FIX(_EUC); } } INCR; } return INT2FIX(_UNKNOWN); } /* * call-seq: * NKF.guess2(str) -> integer * * Returns guessed encoding of _str_ as integer by nkf routine. * * case NKF.guess(input) * when NKF::ASCII * "ASCII" * when NKF::JIS * "ISO-2022-JP" * when NKF::SJIS * "Shift_JIS" * when NKF::EUC * "EUC-JP" * when NKF::UTF8 * "UTF-8" * when NKF::UTF16 * "UTF-16" * when NKF::UNKNOWN * "UNKNOWN" * when NKF::BINARY * "BINARY" * end */ static VALUE rb_nkf_guess2(obj, src) VALUE obj, src; { int code = _BINARY; reinit(); input_ctr = 0; StringValue(src); input = RSTRING(src)->ptr; i_len = RSTRING(src)->len; if(x0201_f == WISH_TRUE) x0201_f = ((!iso2022jp_f)? TRUE : NO_X0201); guess_f = TRUE; kanji_convert( NULL ); guess_f = FALSE; if (!is_inputcode_mixed) { if (strcmp(input_codename, "") == 0) { code = _ASCII; } else if (strcmp(input_codename, "ISO-2022-JP") == 0) { code = _JIS; } else if (strcmp(input_codename, "EUC-JP") == 0) { code = _EUC; } else if (strcmp(input_codename, "Shift_JIS") == 0) { code = _SJIS; } else if (strcmp(input_codename, "UTF-8") == 0) { code = _UTF8; } else if (strcmp(input_codename, "UTF-16") == 0) { code = _UTF16; } else if (strlen(input_codename) > 0) { code = _UNKNOWN; } } return INT2FIX( code ); } /* * NKF - Ruby extension for Network Kanji Filter * * == Description * * This is a Ruby Extension version of nkf (Netowrk Kanji Filter). * It converts the first argument and return converted result. Conversion * details are specified by flags as the first argument. * * *Nkf* is a yet another kanji code converter among networks, hosts and terminals. * It converts input kanji code to designated kanji code * such as ISO-2022-JP, Shift_JIS, EUC-JP, UTF-8 or UTF-16. * * One of the most unique faculty of *nkf* is the guess of the input kanji encodings. * It currently recognizes ISO-2022-JP, Shift_JIS, EUC-JP, UTF-8 and UTF-16. * So users needn't set the input kanji code explicitly. * * By default, X0201 kana is converted into X0208 kana. * For X0201 kana, SO/SI, SSO and ESC-(-I methods are supported. * For automatic code detection, nkf assumes no X0201 kana in Shift_JIS. * To accept X0201 in Shift_JIS, use -X, -x or -S. * * == Flags * * === -b -u * * Output is buffered (DEFAULT), Output is unbuffered. * * === -j -s -e -w -w16 * * Output code is ISO-2022-JP (7bit JIS), Shift_JIS, EUC-JP, * UTF-8N, UTF-16BE. * Without this option and compile option, ISO-2022-JP is assumed. * * === -J -S -E -W -W16 * * Input assumption is JIS 7 bit, Shift_JIS, EUC-JP, * UTF-8, UTF-16LE. * * ==== -J * * Assume JIS input. It also accepts EUC-JP. * This is the default. This flag does not exclude Shift_JIS. * * ==== -S * * Assume Shift_JIS and X0201 kana input. It also accepts JIS. * EUC-JP is recognized as X0201 kana. Without -x flag, * X0201 kana (halfwidth kana) is converted into X0208. * * ==== -E * * Assume EUC-JP input. It also accepts JIS. * Same as -J. * * === -t * * No conversion. * * === -i_ * * Output sequence to designate JIS-kanji. (DEFAULT B) * * === -o_ * * Output sequence to designate ASCII. (DEFAULT B) * * === -r * * {de/en}crypt ROT13/47 * * === -h[123] --hiragana --katakana --katakana-hiragana * * [-h1 --hiragana] Katakana to Hiragana conversion. * * [-h2 --katakana] Hiragana to Katakana conversion. * * [-h3 --katakana-hiragana] Katakana to Hiragana and Hiragana to Katakana conversion. * * === -T * * Text mode output (MS-DOS) * * === -l * * ISO8859-1 (Latin-1) support * * === -f[m [- n]] * * Folding on m length with n margin in a line. * Without this option, fold length is 60 and fold margin is 10. * * === -F * * New line preserving line folding. * * === -Z[0-3] * * Convert X0208 alphabet (Fullwidth Alphabets) to ASCII. * * [-Z -Z0] Convert X0208 alphabet to ASCII. * * [-Z1] Converts X0208 kankaku to single ASCII space. * * [-Z2] Converts X0208 kankaku to double ASCII spaces. * * [-Z3] Replacing Fullwidth >, <, ", & into '>', '<', '"', '&' as in HTML. * * === -X -x * * Assume X0201 kana in MS-Kanji. * With -X or without this option, X0201 is converted into X0208 Kana. * With -x, try to preserve X0208 kana and do not convert X0201 kana to X0208. * In JIS output, ESC-(-I is used. In EUC output, SSO is used. * * === -B[0-2] * * Assume broken JIS-Kanji input, which lost ESC. * Useful when your site is using old B-News Nihongo patch. * * [-B1] allows any char after ESC-( or ESC-$. * * [-B2] forces ASCII after NL. * * === -I * * Replacing non iso-2022-jp char into a geta character * (substitute character in Japanese). * * === -d -c * * Delete \r in line feed, Add \r in line feed. * * === -m[BQN0] * * MIME ISO-2022-JP/ISO8859-1 decode. (DEFAULT) * To see ISO8859-1 (Latin-1) -l is necessary. * * [-mB] Decode MIME base64 encoded stream. Remove header or other part before * conversion. * * [-mQ] Decode MIME quoted stream. '_' in quoted stream is converted to space. * * [-mN] Non-strict decoding. * It allows line break in the middle of the base64 encoding. * * [-m0] No MIME decode. * * === -M * * MIME encode. Header style. All ASCII code and control characters are intact. * Kanji conversion is performed before encoding, so this cannot be used as a picture encoder. * * [-MB] MIME encode Base64 stream. * * [-MQ] Perfome quoted encoding. * * === -l * * Input and output code is ISO8859-1 (Latin-1) and ISO-2022-JP. * -s, -e and -x are not compatible with this option. * * === -L[uwm] * * new line mode * Without this option, nkf doesn't convert line breaks. * * [-Lu] unix (LF) * * [-Lw] windows (CRLF) * * [-Lm] mac (CR) * * === --fj --unix --mac --msdos --windows * * convert for these system * * === --jis --euc --sjis --mime --base64 * * convert for named code * * === --jis-input --euc-input --sjis-input --mime-input --base64-input * * assume input system * * === --ic=input codeset --oc=output codeset * * Set the input or output codeset. * NKF supports following codesets and those codeset name are case insensitive. * * [ISO-2022-JP] a.k.a. RFC1468, 7bit JIS, JUNET * * [EUC-JP (eucJP-nkf)] a.k.a. AT&T JIS, Japanese EUC, UJIS * * [eucJP-ascii] a.k.a. x-eucjp-open-19970715-ascii * * [eucJP-ms] a.k.a. x-eucjp-open-19970715-ms * * [CP51932] Microsoft Version of EUC-JP. * * [Shift_JIS] SJIS, MS-Kanji * * [CP932] a.k.a. Windows-31J * * [UTF-8] same as UTF-8N * * [UTF-8N] UTF-8 without BOM * * [UTF-8-BOM] UTF-8 with BOM * * [UTF-16] same as UTF-16BE * * [UTF-16BE] UTF-16 Big Endian without BOM * * [UTF-16BE-BOM] UTF-16 Big Endian with BOM * * [UTF-16LE] UTF-16 Little Endian without BOM * * [UTF-16LE-BOM] UTF-16 Little Endian with BOM * * [UTF8-MAC] NKDed UTF-8, a.k.a. UTF8-NFD (input only) * * === --fb-{skip, html, xml, perl, java, subchar} * * Specify the way that nkf handles unassigned characters. * Without this option, --fb-skip is assumed. * * === --prefix= escape character target character .. * * When nkf converts to Shift_JIS, * nkf adds a specified escape character to specified 2nd byte of Shift_JIS characters. * 1st byte of argument is the escape character and following bytes are target characters. * * === --disable-cp932ext * * Handle the characters extended in CP932 as unassigned characters. * * === --cap-input * * Decode hex encoded characters. * * === --url-input * * Unescape percent escaped characters. * * === -- * * Ignore rest of -option. */ void Init_nkf() { /* hoge */ VALUE mKconv = rb_define_module("NKF"); /* hoge */ rb_define_module_function(mKconv, "nkf", rb_nkf_kconv, 2); rb_define_module_function(mKconv, "guess1", rb_nkf_guess1, 1); rb_define_module_function(mKconv, "guess2", rb_nkf_guess2, 1); rb_define_alias(mKconv, "guess", "guess2"); rb_define_alias(rb_singleton_class(mKconv), "guess", "guess2"); /* Auto-Detect */ rb_define_const(mKconv, "AUTO", INT2FIX(_AUTO)); /* ISO-2022-JP */ rb_define_const(mKconv, "JIS", INT2FIX(_JIS)); /* EUC-JP */ rb_define_const(mKconv, "EUC", INT2FIX(_EUC)); /* Shift_JIS */ rb_define_const(mKconv, "SJIS", INT2FIX(_SJIS)); /* BINARY */ rb_define_const(mKconv, "BINARY", INT2FIX(_BINARY)); /* No conversion */ rb_define_const(mKconv, "NOCONV", INT2FIX(_NOCONV)); /* ASCII */ rb_define_const(mKconv, "ASCII", INT2FIX(_ASCII)); /* UTF-8 */ rb_define_const(mKconv, "UTF8", INT2FIX(_UTF8)); /* UTF-16 */ rb_define_const(mKconv, "UTF16", INT2FIX(_UTF16)); /* UTF-32 */ rb_define_const(mKconv, "UTF32", INT2FIX(_UTF32)); /* UNKNOWN */ rb_define_const(mKconv, "UNKNOWN", INT2FIX(_UNKNOWN)); /* Full version string of nkf */ rb_define_const(mKconv, "VERSION", rb_str_new2(RUBY_NKF_VERSION)); /* Version of nkf */ rb_define_const(mKconv, "NKF_VERSION", rb_str_new2(NKF_VERSION)); /* Release date of nkf */ rb_define_const(mKconv, "NKF_RELEASE_DATE", rb_str_new2(NKF_RELEASE_DATE)); }