/*------------------------------------------------------------------------- * * varlena.c * Functions for the variable-length built-in types. * * Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/utils/adt/varlena.c,v 1.47 1999/02/13 23:19:36 momjian Exp $ * *------------------------------------------------------------------------- */ #include #include #include "postgres.h" #include "utils/palloc.h" #include "utils/builtins.h" /* where function declarations go */ #include "mb/pg_wchar.h" static int text_cmp(text *arg1, text *arg2); /***************************************************************************** * USER I/O ROUTINES * *****************************************************************************/ #define VAL(CH) ((CH) - '0') #define DIG(VAL) ((VAL) + '0') /* * byteain - converts from printable representation of byte array * * Non-printable characters must be passed as '\nnn' (octal) and are * converted to internal form. '\' must be passed as '\\'. * elog(ERROR, ...) if bad form. * * BUGS: * The input is scaned twice. * The error checking of input is minimal. */ text * byteain(char *inputText) { char *tp; char *rp; int byte; text *result; if (inputText == NULL) elog(ERROR, "Bad input string for type bytea"); for (byte = 0, tp = inputText; *tp != '\0'; byte++) if (*tp++ == '\\') { if (*tp == '\\') tp++; else if (!isdigit(*tp++) || !isdigit(*tp++) || !isdigit(*tp++)) elog(ERROR, "Bad input string for type bytea"); } tp = inputText; byte += VARHDRSZ; result = (text *) palloc(byte); result->vl_len = byte; /* varlena? */ rp = result->vl_dat; while (*tp != '\0') if (*tp != '\\' || *++tp == '\\') *rp++ = *tp++; else { byte = VAL(*tp++); byte <<= 3; byte += VAL(*tp++); byte <<= 3; *rp++ = byte + VAL(*tp++); } return result; } /* * byteaout - converts to printable representation of byte array * * Non-printable characters are inserted as '\nnn' (octal) and '\' as * '\\'. * * NULL vlena should be an error--returning string with NULL for now. */ char * byteaout(text *vlena) { char *result; char *vp; char *rp; int val; /* holds unprintable chars */ int i; int len; if (vlena == NULL) { result = (char *) palloc(2); result[0] = '-'; result[1] = '\0'; return result; } vp = vlena->vl_dat; len = 1; /* empty string has 1 char */ for (i = vlena->vl_len - VARHDRSZ; i != 0; i--, vp++) if (*vp == '\\') len += 2; else if (isascii(*vp) && isprint(*vp)) len++; else len += VARHDRSZ; rp = result = (char *) palloc(len); vp = vlena->vl_dat; for (i = vlena->vl_len - VARHDRSZ; i != 0; i--) if (*vp == '\\') { vp++; *rp++ = '\\'; *rp++ = '\\'; } else if (isascii(*vp) && isprint(*vp)) *rp++ = *vp++; else { val = *vp++; *rp = '\\'; rp += 3; *rp-- = DIG(val & 07); val >>= 3; *rp-- = DIG(val & 07); val >>= 3; *rp = DIG(val & 03); rp += 3; } *rp = '\0'; return result; } /* * textin - converts "..." to internal representation */ text * textin(char *inputText) { text *result; int len; if (inputText == NULL) return NULL; len = strlen(inputText) + VARHDRSZ; result = (text *) palloc(len); VARSIZE(result) = len; memmove(VARDATA(result), inputText, len - VARHDRSZ); #ifdef CYR_RECODE convertstr(VARDATA(result), len - VARHDRSZ, 0); #endif return result; } /* * textout - converts internal representation to "..." */ char * textout(text *vlena) { int len; char *result; if (vlena == NULL) { result = (char *) palloc(2); result[0] = '-'; result[1] = '\0'; return result; } len = VARSIZE(vlena) - VARHDRSZ; result = (char *) palloc(len + 1); memmove(result, VARDATA(vlena), len); result[len] = '\0'; #ifdef CYR_RECODE convertstr(result, len, 1); #endif return result; } /* ========== PUBLIC ROUTINES ========== */ /* * textlen - * returns the logical length of a text* * (which is less than the VARSIZE of the text*) */ int32 textlen(text *t) { #ifdef MULTIBYTE unsigned char *s; int len, l, wl; #endif if (!PointerIsValid(t)) elog(ERROR, "Null input to textlen"); #ifdef MULTIBYTE len = 0; s = VARDATA(t); l = VARSIZE(t) - VARHDRSZ; while (l > 0) { wl = pg_mblen(s); l -= wl; s += wl; len++; } return (len); #else return VARSIZE(t) - VARHDRSZ; #endif } /* textlen() */ /* * textoctetlen - * returns the physical length of a text* * (which is less than the VARSIZE of the text*) */ int32 textoctetlen(text *t) { if (!PointerIsValid(t)) elog(ERROR, "Null input to textoctetlen"); return VARSIZE(t) - VARHDRSZ; } /* textoctetlen() */ /* * textcat - * takes two text* and returns a text* that is the concatentation of * the two. * * Rewritten by Sapa, sapa@hq.icb.chel.su. 8-Jul-96. * Updated by Thomas, Thomas.Lockhart@jpl.nasa.gov 1997-07-10. * Allocate space for output in all cases. * XXX - thomas 1997-07-10 */ text * textcat(text *t1, text *t2) { int len1, len2, len; char *ptr; text *result; if (!PointerIsValid(t1) || !PointerIsValid(t2)) return NULL; len1 = (VARSIZE(t1) - VARHDRSZ); if (len1 < 0) len1 = 0; while (len1 > 0 && VARDATA(t1)[len1 - 1] == '\0') len1--; len2 = (VARSIZE(t2) - VARHDRSZ); if (len2 < 0) len2 = 0; while (len2 > 0 && VARDATA(t2)[len2 - 1] == '\0') len2--; len = len1 + len2 + VARHDRSZ; result = palloc(len); /* Set size of result string... */ VARSIZE(result) = len; /* Fill data field of result string... */ ptr = VARDATA(result); if (len1 > 0) memcpy(ptr, VARDATA(t1), len1); if (len2 > 0) memcpy(ptr + len1, VARDATA(t2), len2); return result; } /* textcat() */ /* * text_substr() * Return a substring starting at the specified position. * - thomas 1997-12-31 * * Input: * - string * - starting position (is one-based) * - string length * * If the starting position is zero or less, then return from the start of the string * adjusting the length to be consistant with the "negative start" per SQL92. * If the length is less than zero, return the remaining string. * * Note that the arguments operate on octet length, * so not aware of multi-byte character sets. * * Added multi-byte support. * - Tatsuo Ishii 1998-4-21 * Changed behavior if starting position is less than one to conform to SQL92 behavior. * Formerly returned the entire string; now returns a portion. * - Thomas Lockhart 1998-12-10 */ text * text_substr(text *string, int32 m, int32 n) { text *ret; int len; #ifdef MULTIBYTE int i; char *p; #endif if (string == (text *) NULL) return string; len = VARSIZE(string) - VARHDRSZ; #ifdef MULTIBYTE len = pg_mbstrlen_with_len(VARDATA(string), len); #endif /* starting position after the end of the string? */ if (m > len) { m = 1; n = 0; } /* starting position before the start of the string? * then offset into the string per SQL92 spec... */ else if (m < 1) { n += (m-1); m = 1; } /* m will now become a zero-based starting position */ m--; if (((m + n) > len) || (n < 0)) n = (len - m); #ifdef MULTIBYTE p = VARDATA(string); for (i = 0; i < m; i++) p += pg_mblen(p); m = p - VARDATA(string); for (i = 0; i < n; i++) p += pg_mblen(p); n = p - (VARDATA(string) + m); #endif ret = (text *) palloc(VARHDRSZ + n); VARSIZE(ret) = VARHDRSZ + n; memcpy(VARDATA(ret), VARDATA(string) + m, n); return ret; } /* text_substr() */ /* * textpos - * Return the position of the specified substring. * Implements the SQL92 POSITION() function. * Ref: A Guide To The SQL Standard, Date & Darwen, 1997 * - thomas 1997-07-27 * * Added multi-byte support. * - Tatsuo Ishii 1998-4-21 */ int32 textpos(text *t1, text *t2) { int pos; int px, p; int len1, len2; pg_wchar *p1, *p2; #ifdef MULTIBYTE pg_wchar *ps1, *ps2; #endif if (!PointerIsValid(t1) || !PointerIsValid(t2)) return 0; if (VARSIZE(t2) <= 0) return 1; len1 = (VARSIZE(t1) - VARHDRSZ); len2 = (VARSIZE(t2) - VARHDRSZ); #ifdef MULTIBYTE ps1 = p1 = (pg_wchar *) palloc((len1 + 1) * sizeof(pg_wchar)); (void) pg_mb2wchar_with_len((unsigned char *) VARDATA(t1), p1, len1); len1 = pg_wchar_strlen(p1); ps2 = p2 = (pg_wchar *) palloc((len2 + 1) * sizeof(pg_wchar)); (void) pg_mb2wchar_with_len((unsigned char *) VARDATA(t2), p2, len2); len2 = pg_wchar_strlen(p2); #else p1 = VARDATA(t1); p2 = VARDATA(t2); #endif pos = 0; px = (len1 - len2); for (p = 0; p <= px; p++) { #ifdef MULTIBYTE if ((*p2 == *p1) && (pg_wchar_strncmp(p1, p2, len2) == 0)) #else if ((*p2 == *p1) && (strncmp(p1, p2, len2) == 0)) #endif { pos = p + 1; break; }; p1++; }; #ifdef MULTIBYTE pfree(ps1); pfree(ps2); #endif return pos; } /* textpos() */ /* * texteq - returns 1 iff arguments are equal * textne - returns 1 iff arguments are not equal */ bool texteq(text *arg1, text *arg2) { int len; char *a1p, *a2p; if (arg1 == NULL || arg2 == NULL) return (bool) NULL; if ((len = arg1->vl_len) != arg2->vl_len) return (bool) 0; a1p = arg1->vl_dat; a2p = arg2->vl_dat; /* * Varlenas are stored as the total size (data + size variable) * followed by the data. Use VARHDRSZ instead of explicit sizeof() - * thomas 1997-07-10 */ len -= VARHDRSZ; while (len-- != 0) if (*a1p++ != *a2p++) return (bool) 0; return (bool) 1; } /* texteq() */ bool textne(text *arg1, text *arg2) { return (bool) !texteq(arg1, arg2); } /* varstr_cmp() * Comparison function for text strings with given lengths. * Includes locale support, but must copy strings to temporary memory * to allow null-termination for inputs to strcoll(). * Returns -1, 0 or 1 */ int varstr_cmp(char *arg1, int len1, char *arg2, int len2) { int result; char *a1p, *a2p; #ifdef USE_LOCALE a1p = (unsigned char *) palloc(len1 + 1); a2p = (unsigned char *) palloc(len2 + 1); memcpy(a1p, arg1, len1); *(a1p + len1) = '\0'; memcpy(a2p, arg2, len2); *(a2p + len2) = '\0'; result = strcoll(a1p, a2p); pfree(a1p); pfree(a2p); #else a1p = arg1; a2p = arg2; result = strncmp(a1p, a2p, Min(len1, len2)); if ((result == 0) && (len1 != len2)) result = (len1 < len2) ? -1 : 1; #endif return result; } /* varstr_cmp() */ /* text_cmp() * Comparison function for text strings. * Includes locale support, but must copy strings to temporary memory * to allow null-termination for inputs to strcoll(). * XXX HACK code for textlen() indicates that there can be embedded nulls * but it appears that most routines (incl. this one) assume not! - tgl 97/04/07 * Returns -1, 0 or 1 */ static int text_cmp(text *arg1, text *arg2) { char *a1p, *a2p; int len1, len2; if (arg1 == NULL || arg2 == NULL) return (bool) FALSE; a1p = VARDATA(arg1); a2p = VARDATA(arg2); len1 = VARSIZE(arg1) - VARHDRSZ; len2 = VARSIZE(arg2) - VARHDRSZ; return varstr_cmp(a1p, len1, a2p, len2); } /* text_cmp() */ /* text_lt() * Comparison function for text strings. */ bool text_lt(text *arg1, text *arg2) { return (bool) (text_cmp(arg1, arg2) < 0); } /* text_lt() */ /* text_le() * Comparison function for text strings. */ bool text_le(text *arg1, text *arg2) { return (bool) (text_cmp(arg1, arg2) <= 0); } /* text_le() */ bool text_gt(text *arg1, text *arg2) { return (bool) !text_le(arg1, arg2); } bool text_ge(text *arg1, text *arg2) { return (bool) !text_lt(arg1, arg2); } text * text_larger(text *arg1, text *arg2) { text *result; text *temp; temp = ((text_cmp(arg1, arg2) <= 0)? arg2: arg1); /* Make a copy */ result = (text *) palloc(VARSIZE(temp)); memmove((char *) result, (char *) temp, VARSIZE(temp)); return (result); } text * text_smaller(text *arg1, text *arg2) { text *result; text *temp; temp = ((text_cmp(arg1, arg2) > 0)? arg2: arg1); /* Make a copy */ result = (text *) palloc(VARSIZE(temp)); memmove((char *) result, (char *) temp, VARSIZE(temp)); return (result); } /*------------------------------------------------------------- * byteaGetSize * * get the number of bytes contained in an instance of type 'bytea' *------------------------------------------------------------- */ int32 byteaGetSize(text *v) { int len; len = v->vl_len - sizeof(v->vl_len); return len; } /*------------------------------------------------------------- * byteaGetByte * * this routine treats "bytea" as an array of bytes. * It returns the Nth byte (a number between 0 and 255) or * it dies if the length of this array is less than n. *------------------------------------------------------------- */ int32 byteaGetByte(text *v, int32 n) { int len; int byte; len = byteaGetSize(v); if (n >= len) { elog(ERROR, "byteaGetByte: index (=%d) out of range [0..%d]", n, len - 1); } #ifdef USE_LOCALE byte = (unsigned char) (v->vl_dat[n]); #else byte = v->vl_dat[n]; #endif return (int32) byte; } /*------------------------------------------------------------- * byteaGetBit * * This routine treats a "bytea" type like an array of bits. * It returns the value of the Nth bit (0 or 1). * If 'n' is out of range, it dies! * *------------------------------------------------------------- */ int32 byteaGetBit(text *v, int32 n) { int byteNo, bitNo; int byte; byteNo = n / 8; bitNo = n % 8; byte = byteaGetByte(v, byteNo); if (byte & (1 << bitNo)) return (int32) 1; else return (int32) 0; } /*------------------------------------------------------------- * byteaSetByte * * Given an instance of type 'bytea' creates a new one with * the Nth byte set to the given value. * *------------------------------------------------------------- */ text * byteaSetByte(text *v, int32 n, int32 newByte) { int len; text *res; len = byteaGetSize(v); if (n >= len) { elog(ERROR, "byteaSetByte: index (=%d) out of range [0..%d]", n, len - 1); } /* * Make a copy of the original varlena. */ res = (text *) palloc(VARSIZE(v)); if (res == NULL) { elog(ERROR, "byteaSetByte: Out of memory (%d bytes requested)", VARSIZE(v)); } memmove((char *) res, (char *) v, VARSIZE(v)); /* * Now set the byte. */ res->vl_dat[n] = newByte; return res; } /*------------------------------------------------------------- * byteaSetBit * * Given an instance of type 'bytea' creates a new one with * the Nth bit set to the given value. * *------------------------------------------------------------- */ text * byteaSetBit(text *v, int32 n, int32 newBit) { text *res; int oldByte, newByte; int byteNo, bitNo; /* * sanity check! */ if (newBit != 0 && newBit != 1) elog(ERROR, "byteaSetByte: new bit must be 0 or 1"); /* * get the byte where the bit we want is stored. */ byteNo = n / 8; bitNo = n % 8; oldByte = byteaGetByte(v, byteNo); /* * calculate the new value for that byte */ if (newBit == 0) newByte = oldByte & (~(1 << bitNo)); else newByte = oldByte | (1 << bitNo); /* * NOTE: 'byteaSetByte' creates a copy of 'v' & sets the byte. */ res = byteaSetByte(v, byteNo, newByte); return res; } /* text_name() * Converts a text() type to a NameData type. */ NameData * text_name(text *s) { NameData *result; int len; if (s == NULL) return NULL; len = VARSIZE(s) - VARHDRSZ; if (len > NAMEDATALEN) len = NAMEDATALEN; #ifdef STRINGDEBUG printf("text- convert string length %d (%d) ->%d\n", VARSIZE(s) - VARHDRSZ, VARSIZE(s), len); #endif result = palloc(NAMEDATALEN); StrNCpy(result->data, VARDATA(s), NAMEDATALEN); /* now null pad to full length... */ while (len < NAMEDATALEN) { *(result->data + len) = '\0'; len++; } return result; } /* text_name() */ /* name_text() * Converts a NameData type to a text type. */ text * name_text(NameData *s) { text *result; int len; if (s == NULL) return NULL; len = strlen(s->data); #ifdef STRINGDEBUG printf("text- convert string length %d (%d) ->%d\n", VARSIZE(s) - VARHDRSZ, VARSIZE(s), len); #endif result = palloc(VARHDRSZ + len); strncpy(VARDATA(result), s->data, len); VARSIZE(result) = len + VARHDRSZ; return result; } /* name_text() */