/* $Id$ Part of SWI-Prolog Author: Jan Wielemaker E-mail: wielemak@science.uva.nl WWW: http://www.swi-prolog.org Copyright (C): 1985-2007, University of Amsterdam This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "pl-incl.h" #include #include "pl-ctype.h" /* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - This module defines: char_type(?Char, ?Type) code_type(?Char, ?Type) See manual for details. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */ #define CHAR_MODE 0 #define CODE_MODE 1 #define CTX_CHAR 0 /* Class(Char) */ #define CTX_CODE 1 /* Class(Int) */ typedef struct { atom_t name; /* name of the class */ int (*test)(wint_t chr); /* boolean */ int (*reverse)(wint_t chr); /* reverse mapping */ short arity; /* arity of class (i.e. lower('A')) */ short ctx_type; /* CTX_* */ } char_type; #define ENUM_NONE 0x00 #define ENUM_CHAR 0x01 #define ENUM_CLASS 0x02 #define ENUM_BOTH 0x03 typedef struct { int current; /* current character */ const char_type *class; /* current class */ int do_enum; /* what to enumerate */ } generator; static int unicode_separator(wint_t c); static int iswhite(wint_t chr) { return chr == ' ' || chr == '\t'; } #ifdef __YAP_PROLOG__ #include "pl-umap.c" /* Unicode map */ #define CharTypeW(c, t, w) \ ((unsigned)(c) <= 0xff ? (_PL_char_types[(unsigned)(c)] t) \ : (uflagsW(c) & w)) #define PlBlankW(c) CharTypeW(c, <= SP, U_SEPARATOR) inline int unicode_separator(wint_t c) { return PlBlankW(c); } #endif static int fiscsym(wint_t chr) { return iswalnum(chr) || chr == '_'; } static int fiscsymf(wint_t chr) { return iswalpha(chr) || chr == '_'; } static int iseof(wint_t chr) { return chr == (wint_t)-1; } static int iseol(wint_t chr) { return chr >= 10 && chr <= 13; } static int isnl(wint_t chr) { return chr == '\n'; } static int isperiod(wint_t chr) { return chr && strchr(".?!", chr) != NULL; } static int isquote(wint_t chr) { return chr && strchr("'`\"", chr) != NULL; } static int fupper(wint_t chr) { return iswlower(chr) ? (int)towupper(chr) : -1; } static int flower(wint_t chr) { return iswupper(chr) ? (int)towlower(chr) : -1; } static int ftoupper(wint_t chr) { return towupper(chr); } static int ftolower(wint_t chr) { return towlower(chr); } static int fparen(wint_t chr) { switch(chr) { case '(': return ')'; case '{': return '}'; case '[': return ']'; default: return -1; } } static int rparen(wint_t chr) { switch(chr) { case ')': return '('; case '}': return '{'; case ']': return '['; default: return -1; } } static int fdigit(wint_t chr) { if ( chr <= 0xff && isdigit(chr) ) return chr - '0'; return -1; } static int rdigit(wint_t d) { if ( (int)d >= 0 && d <= 9 ) return d+'0'; return -1; } static int fxdigit(wint_t chr) { if ( chr > 0xff ) return -1; if ( isdigit(chr) ) return chr - '0'; if ( chr >= 'a' && chr <= 'f' ) return chr - 'a' + 10; if ( chr >= 'A' && chr <= 'F' ) return chr - 'A' + 10; return -1; } static int rxdigit(wint_t d) { if ( (int)d >= 0 && d <= 9 ) return d+'0'; if ( d >= 10 && d <= 15 ) return d-10+'a'; return -1; } #define mkfunction(name) \ static int f ## name(wint_t chr) { return name(chr); } mkfunction(iswalnum) mkfunction(iswalpha) mkfunction(isascii) mkfunction(iswcntrl) mkfunction(iswdigit) mkfunction(iswgraph) mkfunction(iswlower) mkfunction(iswupper) mkfunction(iswpunct) mkfunction(iswspace) static const char_type char_types[] = { { ATOM_alnum, fiswalnum }, { ATOM_alpha, fiswalpha }, { ATOM_csym, fiscsym }, { ATOM_csymf, fiscsymf }, { ATOM_ascii, fisascii }, { ATOM_white, iswhite }, { ATOM_cntrl, fiswcntrl }, { ATOM_digit, fiswdigit }, { ATOM_graph, fiswgraph }, { ATOM_lower, fiswlower }, { ATOM_upper, fiswupper }, { ATOM_punct, fiswpunct }, { ATOM_space, fiswspace }, { ATOM_end_of_file, iseof }, { ATOM_end_of_line, iseol }, { ATOM_newline, isnl }, { ATOM_period, isperiod }, { ATOM_quote, isquote }, { ATOM_lower, fupper, flower, 1, CTX_CHAR }, { ATOM_upper, flower, fupper, 1, CTX_CHAR }, { ATOM_to_lower, ftoupper, ftolower, 1, CTX_CHAR }, { ATOM_to_upper, ftolower, ftoupper, 1, CTX_CHAR }, { ATOM_paren, fparen, rparen, 1, CTX_CHAR }, { ATOM_digit, fdigit, rdigit, 1, CTX_CODE }, { ATOM_xdigit, fxdigit, rxdigit, 1, CTX_CODE }, { NULL_ATOM, NULL } }; static const char_type * char_type_by_name(atom_t name, int arity) { const char_type *cc; for(cc = char_types; cc->name; cc++) { if ( cc->name == name && cc->arity == arity ) return cc; } return NULL; } static int advanceGen(generator *gen) { if ( gen->do_enum & ENUM_CHAR ) { if ( ++gen->current == 256 ) fail; } else { gen->class++; if ( !gen->class->name ) fail; } succeed; } static int unify_char_type(term_t type, const char_type *ct, int context, int how) { if ( ct->arity == 0 ) return PL_unify_atom(type, ct->name); else /*if ( ct->arity == 1 )*/ { if ( PL_unify_functor(type, PL_new_functor(ct->name, 1)) ) { term_t a = PL_new_term_ref(); _PL_get_arg(1, type, a); if ( ct->ctx_type == CTX_CHAR ) return PL_unify_char(a, context, how); else return PL_unify_integer(a, context); } } fail; } static foreign_t do_char_type(term_t chr, term_t class, control_t h, int how) { GET_LD generator *gen; fid_t fid; switch( ForeignControl(h) ) { case FRG_FIRST_CALL: { const char_type *cc = NULL; int c; int do_enum = ENUM_NONE; atom_t cn; int arity; if ( PL_is_variable(chr) ) do_enum |= ENUM_CHAR; if ( PL_is_variable(class) ) do_enum |= ENUM_CLASS; if ( do_enum == ENUM_BOTH ) return PL_error("char_type", 2, NULL, ERR_INSTANTIATION); if ( !(do_enum & ENUM_CHAR) ) { if ( !PL_get_char(chr, &c, TRUE) ) fail; if ( c == -1 ) return PL_unify_atom(class, ATOM_end_of_file); } if ( !(do_enum & ENUM_CLASS) ) { if ( !PL_get_name_arity(class, &cn, &arity) || !(cc = char_type_by_name(cn, arity)) ) return PL_error("char_type", 2, NULL, ERR_TYPE, ATOM_char_type, class); } if ( do_enum == ENUM_NONE ) { if ( arity == 0 ) return (*cc->test)((wint_t)c) ? TRUE : FALSE; else { int rval = (*cc->test)((wint_t)c); if ( rval >= 0 ) { term_t a = PL_new_term_ref(); int ok; _PL_get_arg(1, class, a); if ( cc->ctx_type == CTX_CHAR ) ok = PL_unify_char(a, rval, how); else ok = PL_unify_integer(a, rval); if ( ok ) return TRUE; else do_enum = ENUM_CHAR; /* try the other way around */ } else fail; } } if ( do_enum == ENUM_CHAR && arity == 1 ) { term_t a = PL_new_term_ref(); /* char_type(X, lower('A')) */ int ca; _PL_get_arg(1, class, a); if ( !PL_is_variable(a) ) { if ( PL_get_char(a, &ca, FALSE) ) { int c = (*cc->reverse)((wint_t)ca); if ( c < 0 ) fail; return PL_unify_char(chr, c, how); } fail; /* error */ } } gen = allocHeap(sizeof(*gen)); gen->do_enum = do_enum; if ( do_enum & ENUM_CHAR ) { gen->class = cc; gen->current = -1; } else if ( do_enum & ENUM_CLASS ) { gen->class = char_types; gen->current = c; } break; } case FRG_REDO: gen = ForeignContextPtr(h); break; case FRG_CUTTED: gen = ForeignContextPtr(h); if ( gen ) freeHeap(gen, sizeof(*gen)); default: succeed; } if ( !(fid = PL_open_foreign_frame()) ) goto error; for(;;) { int rval; if ( (rval = (*gen->class->test)((wint_t)gen->current)) ) { if ( gen->do_enum & ENUM_CHAR ) { if ( !PL_unify_char(chr, gen->current, how) ) goto next; } if ( gen->class->arity > 0 ) { if ( rval < 0 || !unify_char_type(class, gen->class, rval, how) ) goto next; } else if ( gen->do_enum & ENUM_CLASS ) { if ( !unify_char_type(class, gen->class, rval, how) ) goto next; } if ( advanceGen(gen) ) /* ok, found one */ ForeignRedoPtr(gen); else { freeHeap(gen, sizeof(*gen)); /* the only one */ succeed; } } next: PL_rewind_foreign_frame(fid); if ( !advanceGen(gen) ) break; } error: freeHeap(gen, sizeof(*gen)); fail; } static PRED_IMPL("char_type", 2, char_type, PL_FA_NONDETERMINISTIC) { return do_char_type(A1, A2, PL__ctx, PL_CHAR); } static PRED_IMPL("code_type", 2, code_type, PL_FA_NONDETERMINISTIC) { return do_char_type(A1, A2, PL__ctx, PL_CODE); } #if 0 static PRED_IMPL("iswctype", 2, iswctype, 0) { char *s; int chr; wctype_t t; if ( !PL_get_char_ex(A1, &chr, FALSE) || !PL_get_chars_ex(A2, &s, CVT_ATOM) ) return FALSE; if ( !(t=wctype(s)) ) return PL_error(NULL, 0, NULL, ERR_EXISTENCE, ATOM_type, A2); return iswctype(chr, t) ? TRUE : FALSE; } #endif static int init_tout(PL_chars_t *t, size_t len) { switch(t->encoding) { case ENC_ISO_LATIN_1: if ( len < sizeof(t->buf) ) { t->text.t = t->buf; t->storage = PL_CHARS_LOCAL; } else { t->text.t = PL_malloc(len); t->storage = PL_CHARS_MALLOC; } succeed; case ENC_WCHAR: if ( len*sizeof(pl_wchar_t) < sizeof(t->buf) ) { t->text.w = (pl_wchar_t*)t->buf; t->storage = PL_CHARS_LOCAL; } else { t->text.w = PL_malloc(len*sizeof(pl_wchar_t)); t->storage = PL_CHARS_MALLOC; } succeed; default: assert(0); fail; } } static inline wint_t get_chr_from_text(const PL_chars_t *t, size_t index) { switch(t->encoding) { case ENC_ISO_LATIN_1: return t->text.t[index]&0xff; case ENC_WCHAR: return t->text.w[index]; default: assert(0); return 0; } } static foreign_t modify_case_atom(term_t in, term_t out, int down) { GET_LD PL_chars_t tin, tout; if ( !PL_get_text(in, &tin, CVT_ATOMIC|CVT_EXCEPTION) ) return FALSE; if ( PL_get_text(out, &tout, CVT_ATOMIC) ) { unsigned int i; if ( tin.length != tout.length ) fail; for(i=0; i 255 ) { PL_promote_text(&tout); for( ; i 255 ) { PL_promote_text(&tout); for( ; i /* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Note: on some installations, locale doesn't work correctly. Printing a message isn't really cute. It would be better to use printMessage(), but the system isn't yet initialised far enough. Maybe we should store the failure and print a message at the end of the initialisation? We only return FALSE if LC_CTYPE fails. This is a serious indication that locale support is broken. We don't depend too much on the others, so we ignore possible problems. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */ static int initLocale() { int rc = TRUE; if ( !setlocale(LC_CTYPE, "") ) { rc = FALSE; DEBUG(0, Sdprintf("Failed to set LC_CTYPE locale\n")); } if ( !setlocale(LC_TIME, "") ) { DEBUG(0, Sdprintf("Failed to set LC_TIME locale\n")); } if ( !setlocale(LC_COLLATE, "") ) { DEBUG(0, Sdprintf("Failed to set LC_COLLATE locale\n")); } return rc; } typedef struct { int category; const char *name; } lccat; static lccat lccats[] = { { LC_ALL, "all" }, { LC_COLLATE, "collate" }, { LC_CTYPE, "ctype" }, #ifdef LC_MESSAGES { LC_MESSAGES, "messages" }, #endif { LC_MONETARY, "monetary" }, { LC_NUMERIC, "numeric" }, { LC_TIME, "time" }, { 0, NULL } }; static PRED_IMPL("setlocale", 3, setlocale, 0) { PRED_LD char *what; char *locale; const lccat *lcp; if ( !PL_get_chars_ex(A1, &what, CVT_ATOM) ) fail; if ( PL_is_variable(A3) ) locale = NULL; else if ( !PL_get_chars_ex(A3, &locale, CVT_ATOM) ) fail; for ( lcp = lccats; lcp->name; lcp++ ) { if ( streq(lcp->name, what) ) { char *old = setlocale(lcp->category, NULL); if ( !PL_unify_chars(A2, PL_ATOM, -1, old) ) fail; if ( PL_compare(A2, A3) != 0 ) { if ( !setlocale(lcp->category, locale) ) return PL_error(NULL, 0, MSG_ERRNO, ERR_SYSCALL, "setlocale"); } succeed; } } return PL_error(NULL, 0, NULL, ERR_DOMAIN, PL_new_atom("category"), A1); } #else #define initLocale() 1 static PRED_IMPL("setlocale", 3, setlocale, 0) { return notImplemented("setlocale", 3); } #endif /******************************* * PUBLISH PREDICATES * *******************************/ BeginPredDefs(ctype) PRED_DEF("swi_char_type", 2, char_type, PL_FA_NONDETERMINISTIC) PRED_DEF("swi_code_type", 2, code_type, PL_FA_NONDETERMINISTIC) PRED_DEF("setlocale", 3, setlocale, 0) PRED_DEF("swi_downcase_atom", 2, downcase_atom, 0) PRED_DEF("swi_upcase_atom", 2, upcase_atom, 0) PRED_DEF("normalize_space", 2, normalize_space, 0) EndPredDefs /******************************* * PROLOG CHARACTERS * *******************************/ const char _PL_char_types[] = { /* ^@ ^A ^B ^C ^D ^E ^F ^G ^H ^I ^J ^K ^L ^M ^N ^O 0-15 */ CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, /* ^P ^Q ^R ^S ^T ^U ^V ^W ^X ^Y ^Z ^[ ^\ ^] ^^ ^_ 16-31 */ CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, /* sp ! " # $ % & ' ( ) * + , - . / 32-47 */ SP, SO, DQ, SY, SY, SO, SY, SQ, PU, PU, SY, SY, PU, SY, SY, SY, /* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? 48-63 */ DI, DI, DI, DI, DI, DI, DI, DI, DI, DI, SY, SO, SY, SY, SY, SY, /* @ A B C D E F G H I J K L M N O 64-79 */ SY, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, /* P Q R S T U V W X Y Z [ \ ] ^ _ 80-95 */ UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, PU, SY, PU, SY, UC, /* ` a b c d e f g h i j k l m n o 96-111 */ SY, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, /* p q r s t u v w x y z { | } ~ ^? 112-127 */ LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, PU, PU, PU, SY, CT, /* 128-159 (C1 controls) */ CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, CT, /* 160-255 (G1 graphics) */ /* ISO Latin 1 is assumed */ SP, SO, SO, SO, SO, SO, SO, SO, SO, SO, LC, SO, SO, SO, SO, SO, SO, SO, SO, SO, SO, SO, SO, SO, SO, SO, LC, SO, SO, SO, SO, SO, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, SO, UC, UC, UC, UC, UC, UC, UC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, SO, LC, LC, LC, LC, LC, LC, LC, LC }; typedef struct { const char *name; IOENC encoding; } enc_map; static const enc_map map[] = { { "UTF-8", ENC_UTF8 }, { "utf8", ENC_UTF8 }, { "ISO8859-1", ENC_ISO_LATIN_1 }, { "ISO8859_1", ENC_ISO_LATIN_1 }, { "iso88591", ENC_ISO_LATIN_1 }, { "iso_8859_1", ENC_ISO_LATIN_1 }, { NULL, ENC_UNKNOWN } }; IOENC initEncoding(void) { GET_LD if ( LD ) { if ( !LD->encoding ) { char *enc; if ( !initLocale() ) { LD->encoding = ENC_ISO_LATIN_1; } else if ( (enc = setlocale(LC_CTYPE, NULL)) ) { LD->encoding = ENC_ANSI; /* text encoding */ if ( (enc = strchr(enc, '.')) ) { const enc_map *m; enc++; /* skip '.' */ for ( m=map; m->name; m++ ) { if ( strcmp(enc, m->name) == 0 ) { LD->encoding = m->encoding; break; } } } } else { LD->encoding = ENC_ISO_LATIN_1; } } #if __YAP_PROLOG__ PL_register_extensions(PL_predicates_from_ctype); #endif return LD->encoding; } return ENC_ANSI; } void initCharTypes(void) { initEncoding(); } #if __SWI_PROLOG__ bool systemMode(bool accept) { GET_LD bool old = SYSTEM_MODE ? TRUE : FALSE; if ( accept ) debugstatus.styleCheck |= DOLLAR_STYLE; else debugstatus.styleCheck &= ~DOLLAR_STYLE; return old; } #endif