/*------------------------------------------------------------------------- * * regc_pg_locale.c * ctype functions adapted to work on pg_wchar (a/k/a chr), * and functions to cache the results of wholesale ctype probing. * * This file is #included by regcomp.c; it's not meant to compile standalone. * * Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * IDENTIFICATION * src/backend/regex/regc_pg_locale.c * *------------------------------------------------------------------------- */ #include "catalog/pg_collation.h" #include "utils/pg_locale.h" /* * To provide as much functionality as possible on a variety of platforms, * without going so far as to implement everything from scratch, we use * several implementation strategies depending on the situation: * * 1. In C/POSIX collations, we use hard-wired code. We can't depend on * the functions since those will obey LC_CTYPE. Note that these * collations don't give a fig about multibyte characters. * * 2. In the "default" collation (which is supposed to obey LC_CTYPE): * * 2a. When working in UTF8 encoding, we use the functions. * This assumes that every platform uses Unicode codepoints directly * as the wchar_t representation of Unicode. On some platforms * wchar_t is only 16 bits wide, so we have to punt for codepoints > 0xFFFF. * * 2b. In all other encodings, we use the functions for pg_wchar * values up to 255, and punt for values above that. This is 100% correct * only in single-byte encodings such as LATINn. However, non-Unicode * multibyte encodings are mostly Far Eastern character sets for which the * properties being tested here aren't very relevant for higher code values * anyway. The difficulty with using the functions with * non-Unicode multibyte encodings is that we can have no certainty that * the platform's wchar_t representation matches what we do in pg_wchar * conversions. * * 3. Here, we use the locale_t-extended forms of the and * functions, under exactly the same cases as #2. * * There is one notable difference between cases 2 and 3: in the "default" * collation we force ASCII letters to follow ASCII upcase/downcase rules, * while in a non-default collation we just let the library functions do what * they will. The case where this matters is treatment of I/i in Turkish, * and the behavior is meant to match the upper()/lower() SQL functions. * * We store the active collation setting in static variables. In principle * it could be passed down to here via the regex library's "struct vars" data * structure; but that would require somewhat invasive changes in the regex * library, and right now there's no real benefit to be gained from that. * * NB: the coding here assumes pg_wchar is an unsigned type. */ typedef enum { PG_REGEX_LOCALE_C, /* C locale (encoding independent) */ PG_REGEX_LOCALE_WIDE, /* Use functions */ PG_REGEX_LOCALE_1BYTE, /* Use functions */ PG_REGEX_LOCALE_WIDE_L, /* Use locale_t functions */ PG_REGEX_LOCALE_1BYTE_L, /* Use locale_t functions */ PG_REGEX_LOCALE_ICU /* Use ICU uchar.h functions */ } PG_Locale_Strategy; static PG_Locale_Strategy pg_regex_strategy; static pg_locale_t pg_regex_locale; static Oid pg_regex_collation; /* * Hard-wired character properties for C locale */ #define PG_ISDIGIT 0x01 #define PG_ISALPHA 0x02 #define PG_ISALNUM (PG_ISDIGIT | PG_ISALPHA) #define PG_ISUPPER 0x04 #define PG_ISLOWER 0x08 #define PG_ISGRAPH 0x10 #define PG_ISPRINT 0x20 #define PG_ISPUNCT 0x40 #define PG_ISSPACE 0x80 static const unsigned char pg_char_properties[128] = { /* NUL */ 0, /* ^A */ 0, /* ^B */ 0, /* ^C */ 0, /* ^D */ 0, /* ^E */ 0, /* ^F */ 0, /* ^G */ 0, /* ^H */ 0, /* ^I */ PG_ISSPACE, /* ^J */ PG_ISSPACE, /* ^K */ PG_ISSPACE, /* ^L */ PG_ISSPACE, /* ^M */ PG_ISSPACE, /* ^N */ 0, /* ^O */ 0, /* ^P */ 0, /* ^Q */ 0, /* ^R */ 0, /* ^S */ 0, /* ^T */ 0, /* ^U */ 0, /* ^V */ 0, /* ^W */ 0, /* ^X */ 0, /* ^Y */ 0, /* ^Z */ 0, /* ^[ */ 0, /* ^\ */ 0, /* ^] */ 0, /* ^^ */ 0, /* ^_ */ 0, /* */ PG_ISPRINT | PG_ISSPACE, /* ! */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* " */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* # */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* $ */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* % */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* & */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* ' */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* ( */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* ) */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* * */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* + */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* , */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* - */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* . */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* / */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* 0 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* 1 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* 2 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* 3 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* 4 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* 5 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* 6 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* 7 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* 8 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* 9 */ PG_ISDIGIT | PG_ISGRAPH | PG_ISPRINT, /* : */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* ; */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* < */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* = */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* > */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* ? */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* @ */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* A */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* B */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* C */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* D */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* E */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* F */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* G */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* H */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* I */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* J */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* K */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* L */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* M */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* N */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* O */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* P */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* Q */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* R */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* S */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* T */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* U */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* V */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* W */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* X */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* Y */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* Z */ PG_ISALPHA | PG_ISUPPER | PG_ISGRAPH | PG_ISPRINT, /* [ */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* \ */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* ] */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* ^ */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* _ */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* ` */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* a */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* b */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* c */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* d */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* e */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* f */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* g */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* h */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* i */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* j */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* k */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* l */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* m */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* n */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* o */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* p */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* q */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* r */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* s */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* t */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* u */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* v */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* w */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* x */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* y */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* z */ PG_ISALPHA | PG_ISLOWER | PG_ISGRAPH | PG_ISPRINT, /* { */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* | */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* } */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* ~ */ PG_ISGRAPH | PG_ISPRINT | PG_ISPUNCT, /* DEL */ 0 }; /* * pg_set_regex_collation: set collation for these functions to obey * * This is called when beginning compilation or execution of a regexp. * Since there's no need for reentrancy of regexp operations, it's okay * to store the results in static variables. */ void pg_set_regex_collation(Oid collation) { if (!OidIsValid(collation)) { /* * This typically means that the parser could not resolve a conflict * of implicit collations, so report it that way. */ ereport(ERROR, (errcode(ERRCODE_INDETERMINATE_COLLATION), errmsg("could not determine which collation to use for regular expression"), errhint("Use the COLLATE clause to set the collation explicitly."))); } if (lc_ctype_is_c(collation)) { /* C/POSIX collations use this path regardless of database encoding */ pg_regex_strategy = PG_REGEX_LOCALE_C; pg_regex_locale = 0; pg_regex_collation = C_COLLATION_OID; } else { pg_regex_locale = pg_newlocale_from_collation(collation); if (!pg_locale_deterministic(pg_regex_locale)) ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("nondeterministic collations are not supported for regular expressions"))); #ifdef USE_ICU if (pg_regex_locale && pg_regex_locale->provider == COLLPROVIDER_ICU) pg_regex_strategy = PG_REGEX_LOCALE_ICU; else #endif if (GetDatabaseEncoding() == PG_UTF8) { if (pg_regex_locale) pg_regex_strategy = PG_REGEX_LOCALE_WIDE_L; else pg_regex_strategy = PG_REGEX_LOCALE_WIDE; } else { if (pg_regex_locale) pg_regex_strategy = PG_REGEX_LOCALE_1BYTE_L; else pg_regex_strategy = PG_REGEX_LOCALE_1BYTE; } pg_regex_collation = collation; } } static int pg_wc_isdigit(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: return (c <= (pg_wchar) 127 && (pg_char_properties[c] & PG_ISDIGIT)); case PG_REGEX_LOCALE_WIDE: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswdigit((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: return (c <= (pg_wchar) UCHAR_MAX && isdigit((unsigned char) c)); case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswdigit_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: return (c <= (pg_wchar) UCHAR_MAX && isdigit_l((unsigned char) c, pg_regex_locale->info.lt)); break; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_isdigit(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static int pg_wc_isalpha(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: return (c <= (pg_wchar) 127 && (pg_char_properties[c] & PG_ISALPHA)); case PG_REGEX_LOCALE_WIDE: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswalpha((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: return (c <= (pg_wchar) UCHAR_MAX && isalpha((unsigned char) c)); case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswalpha_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: return (c <= (pg_wchar) UCHAR_MAX && isalpha_l((unsigned char) c, pg_regex_locale->info.lt)); break; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_isalpha(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static int pg_wc_isalnum(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: return (c <= (pg_wchar) 127 && (pg_char_properties[c] & PG_ISALNUM)); case PG_REGEX_LOCALE_WIDE: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswalnum((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: return (c <= (pg_wchar) UCHAR_MAX && isalnum((unsigned char) c)); case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswalnum_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: return (c <= (pg_wchar) UCHAR_MAX && isalnum_l((unsigned char) c, pg_regex_locale->info.lt)); break; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_isalnum(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static int pg_wc_isword(pg_wchar c) { /* We define word characters as alnum class plus underscore */ if (c == CHR('_')) return 1; return pg_wc_isalnum(c); } static int pg_wc_isupper(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: return (c <= (pg_wchar) 127 && (pg_char_properties[c] & PG_ISUPPER)); case PG_REGEX_LOCALE_WIDE: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswupper((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: return (c <= (pg_wchar) UCHAR_MAX && isupper((unsigned char) c)); case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswupper_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: return (c <= (pg_wchar) UCHAR_MAX && isupper_l((unsigned char) c, pg_regex_locale->info.lt)); break; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_isupper(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static int pg_wc_islower(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: return (c <= (pg_wchar) 127 && (pg_char_properties[c] & PG_ISLOWER)); case PG_REGEX_LOCALE_WIDE: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswlower((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: return (c <= (pg_wchar) UCHAR_MAX && islower((unsigned char) c)); case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswlower_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: return (c <= (pg_wchar) UCHAR_MAX && islower_l((unsigned char) c, pg_regex_locale->info.lt)); break; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_islower(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static int pg_wc_isgraph(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: return (c <= (pg_wchar) 127 && (pg_char_properties[c] & PG_ISGRAPH)); case PG_REGEX_LOCALE_WIDE: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswgraph((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: return (c <= (pg_wchar) UCHAR_MAX && isgraph((unsigned char) c)); case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswgraph_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: return (c <= (pg_wchar) UCHAR_MAX && isgraph_l((unsigned char) c, pg_regex_locale->info.lt)); break; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_isgraph(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static int pg_wc_isprint(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: return (c <= (pg_wchar) 127 && (pg_char_properties[c] & PG_ISPRINT)); case PG_REGEX_LOCALE_WIDE: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswprint((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: return (c <= (pg_wchar) UCHAR_MAX && isprint((unsigned char) c)); case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswprint_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: return (c <= (pg_wchar) UCHAR_MAX && isprint_l((unsigned char) c, pg_regex_locale->info.lt)); break; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_isprint(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static int pg_wc_ispunct(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: return (c <= (pg_wchar) 127 && (pg_char_properties[c] & PG_ISPUNCT)); case PG_REGEX_LOCALE_WIDE: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswpunct((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: return (c <= (pg_wchar) UCHAR_MAX && ispunct((unsigned char) c)); case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswpunct_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: return (c <= (pg_wchar) UCHAR_MAX && ispunct_l((unsigned char) c, pg_regex_locale->info.lt)); break; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_ispunct(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static int pg_wc_isspace(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: return (c <= (pg_wchar) 127 && (pg_char_properties[c] & PG_ISSPACE)); case PG_REGEX_LOCALE_WIDE: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswspace((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: return (c <= (pg_wchar) UCHAR_MAX && isspace((unsigned char) c)); case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return iswspace_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: return (c <= (pg_wchar) UCHAR_MAX && isspace_l((unsigned char) c, pg_regex_locale->info.lt)); break; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_isspace(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static pg_wchar pg_wc_toupper(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: if (c <= (pg_wchar) 127) return pg_ascii_toupper((unsigned char) c); return c; case PG_REGEX_LOCALE_WIDE: /* force C behavior for ASCII characters, per comments above */ if (c <= (pg_wchar) 127) return pg_ascii_toupper((unsigned char) c); if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return towupper((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: /* force C behavior for ASCII characters, per comments above */ if (c <= (pg_wchar) 127) return pg_ascii_toupper((unsigned char) c); if (c <= (pg_wchar) UCHAR_MAX) return toupper((unsigned char) c); return c; case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return towupper_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: if (c <= (pg_wchar) UCHAR_MAX) return toupper_l((unsigned char) c, pg_regex_locale->info.lt); return c; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_toupper(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } static pg_wchar pg_wc_tolower(pg_wchar c) { switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: if (c <= (pg_wchar) 127) return pg_ascii_tolower((unsigned char) c); return c; case PG_REGEX_LOCALE_WIDE: /* force C behavior for ASCII characters, per comments above */ if (c <= (pg_wchar) 127) return pg_ascii_tolower((unsigned char) c); if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return towlower((wint_t) c); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE: /* force C behavior for ASCII characters, per comments above */ if (c <= (pg_wchar) 127) return pg_ascii_tolower((unsigned char) c); if (c <= (pg_wchar) UCHAR_MAX) return tolower((unsigned char) c); return c; case PG_REGEX_LOCALE_WIDE_L: if (sizeof(wchar_t) >= 4 || c <= (pg_wchar) 0xFFFF) return towlower_l((wint_t) c, pg_regex_locale->info.lt); /* FALL THRU */ case PG_REGEX_LOCALE_1BYTE_L: if (c <= (pg_wchar) UCHAR_MAX) return tolower_l((unsigned char) c, pg_regex_locale->info.lt); return c; case PG_REGEX_LOCALE_ICU: #ifdef USE_ICU return u_tolower(c); #endif break; } return 0; /* can't get here, but keep compiler quiet */ } /* * These functions cache the results of probing libc's ctype behavior for * all character codes of interest in a given encoding/collation. The * result is provided as a "struct cvec", but notice that the representation * is a touch different from a cvec created by regc_cvec.c: we allocate the * chrs[] and ranges[] arrays separately from the struct so that we can * realloc them larger at need. This is okay since the cvecs made here * should never be freed by freecvec(). * * We use malloc not palloc since we mustn't lose control on out-of-memory; * the main regex code expects us to return a failure indication instead. */ typedef int (*pg_wc_probefunc) (pg_wchar c); typedef struct pg_ctype_cache { pg_wc_probefunc probefunc; /* pg_wc_isalpha or a sibling */ Oid collation; /* collation this entry is for */ struct cvec cv; /* cache entry contents */ struct pg_ctype_cache *next; /* chain link */ } pg_ctype_cache; static pg_ctype_cache *pg_ctype_cache_list = NULL; /* * Add a chr or range to pcc->cv; return false if run out of memory */ static bool store_match(pg_ctype_cache *pcc, pg_wchar chr1, int nchrs) { chr *newchrs; if (nchrs > 1) { if (pcc->cv.nranges >= pcc->cv.rangespace) { pcc->cv.rangespace *= 2; newchrs = (chr *) realloc(pcc->cv.ranges, pcc->cv.rangespace * sizeof(chr) * 2); if (newchrs == NULL) return false; pcc->cv.ranges = newchrs; } pcc->cv.ranges[pcc->cv.nranges * 2] = chr1; pcc->cv.ranges[pcc->cv.nranges * 2 + 1] = chr1 + nchrs - 1; pcc->cv.nranges++; } else { assert(nchrs == 1); if (pcc->cv.nchrs >= pcc->cv.chrspace) { pcc->cv.chrspace *= 2; newchrs = (chr *) realloc(pcc->cv.chrs, pcc->cv.chrspace * sizeof(chr)); if (newchrs == NULL) return false; pcc->cv.chrs = newchrs; } pcc->cv.chrs[pcc->cv.nchrs++] = chr1; } return true; } /* * Given a probe function (e.g., pg_wc_isalpha) get a struct cvec for all * chrs satisfying the probe function. The active collation is the one * previously set by pg_set_regex_collation. Return NULL if out of memory. * * Note that the result must not be freed or modified by caller. */ static struct cvec * pg_ctype_get_cache(pg_wc_probefunc probefunc, int cclasscode) { pg_ctype_cache *pcc; pg_wchar max_chr; pg_wchar cur_chr; int nmatches; chr *newchrs; /* * Do we already have the answer cached? */ for (pcc = pg_ctype_cache_list; pcc != NULL; pcc = pcc->next) { if (pcc->probefunc == probefunc && pcc->collation == pg_regex_collation) return &pcc->cv; } /* * Nope, so initialize some workspace ... */ pcc = (pg_ctype_cache *) malloc(sizeof(pg_ctype_cache)); if (pcc == NULL) return NULL; pcc->probefunc = probefunc; pcc->collation = pg_regex_collation; pcc->cv.nchrs = 0; pcc->cv.chrspace = 128; pcc->cv.chrs = (chr *) malloc(pcc->cv.chrspace * sizeof(chr)); pcc->cv.nranges = 0; pcc->cv.rangespace = 64; pcc->cv.ranges = (chr *) malloc(pcc->cv.rangespace * sizeof(chr) * 2); if (pcc->cv.chrs == NULL || pcc->cv.ranges == NULL) goto out_of_memory; pcc->cv.cclasscode = cclasscode; /* * Decide how many character codes we ought to look through. In general * we don't go past MAX_SIMPLE_CHR; chr codes above that are handled at * runtime using the "high colormap" mechanism. However, in C locale * there's no need to go further than 127, and if we only have a 1-byte * API there's no need to go further than that can handle. * * If it's not MAX_SIMPLE_CHR that's constraining the search, mark the * output cvec as not having any locale-dependent behavior, since there * will be no need to do any run-time locale checks. (The #if's here * would always be true for production values of MAX_SIMPLE_CHR, but it's * useful to allow it to be small for testing purposes.) */ switch (pg_regex_strategy) { case PG_REGEX_LOCALE_C: #if MAX_SIMPLE_CHR >= 127 max_chr = (pg_wchar) 127; pcc->cv.cclasscode = -1; #else max_chr = (pg_wchar) MAX_SIMPLE_CHR; #endif break; case PG_REGEX_LOCALE_WIDE: case PG_REGEX_LOCALE_WIDE_L: max_chr = (pg_wchar) MAX_SIMPLE_CHR; break; case PG_REGEX_LOCALE_1BYTE: case PG_REGEX_LOCALE_1BYTE_L: #if MAX_SIMPLE_CHR >= UCHAR_MAX max_chr = (pg_wchar) UCHAR_MAX; pcc->cv.cclasscode = -1; #else max_chr = (pg_wchar) MAX_SIMPLE_CHR; #endif break; case PG_REGEX_LOCALE_ICU: max_chr = (pg_wchar) MAX_SIMPLE_CHR; break; default: max_chr = 0; /* can't get here, but keep compiler quiet */ break; } /* * And scan 'em ... */ nmatches = 0; /* number of consecutive matches */ for (cur_chr = 0; cur_chr <= max_chr; cur_chr++) { if ((*probefunc) (cur_chr)) nmatches++; else if (nmatches > 0) { if (!store_match(pcc, cur_chr - nmatches, nmatches)) goto out_of_memory; nmatches = 0; } } if (nmatches > 0) if (!store_match(pcc, cur_chr - nmatches, nmatches)) goto out_of_memory; /* * We might have allocated more memory than needed, if so free it */ if (pcc->cv.nchrs == 0) { free(pcc->cv.chrs); pcc->cv.chrs = NULL; pcc->cv.chrspace = 0; } else if (pcc->cv.nchrs < pcc->cv.chrspace) { newchrs = (chr *) realloc(pcc->cv.chrs, pcc->cv.nchrs * sizeof(chr)); if (newchrs == NULL) goto out_of_memory; pcc->cv.chrs = newchrs; pcc->cv.chrspace = pcc->cv.nchrs; } if (pcc->cv.nranges == 0) { free(pcc->cv.ranges); pcc->cv.ranges = NULL; pcc->cv.rangespace = 0; } else if (pcc->cv.nranges < pcc->cv.rangespace) { newchrs = (chr *) realloc(pcc->cv.ranges, pcc->cv.nranges * sizeof(chr) * 2); if (newchrs == NULL) goto out_of_memory; pcc->cv.ranges = newchrs; pcc->cv.rangespace = pcc->cv.nranges; } /* * Success, link it into cache chain */ pcc->next = pg_ctype_cache_list; pg_ctype_cache_list = pcc; return &pcc->cv; /* * Failure, clean up */ out_of_memory: free(pcc->cv.chrs); free(pcc->cv.ranges); free(pcc); return NULL; }