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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 16:35:32 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 16:35:32 +0000
commit5ea77a75dd2d2158401331879f3c8f47940a732c (patch)
treed89dc06e9f4850a900f161e25f84e922c4f86cc8 /libraries/liblunicode/ucdata/ucdata.c
parentInitial commit. (diff)
downloadopenldap-5ea77a75dd2d2158401331879f3c8f47940a732c.tar.xz
openldap-5ea77a75dd2d2158401331879f3c8f47940a732c.zip
Adding upstream version 2.5.13+dfsg.upstream/2.5.13+dfsgupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'libraries/liblunicode/ucdata/ucdata.c')
-rw-r--r--libraries/liblunicode/ucdata/ucdata.c1501
1 files changed, 1501 insertions, 0 deletions
diff --git a/libraries/liblunicode/ucdata/ucdata.c b/libraries/liblunicode/ucdata/ucdata.c
new file mode 100644
index 0000000..cee004b
--- /dev/null
+++ b/libraries/liblunicode/ucdata/ucdata.c
@@ -0,0 +1,1501 @@
+/* $OpenLDAP$ */
+/* This work is part of OpenLDAP Software <http://www.openldap.org/>.
+ *
+ * Copyright 1998-2022 The OpenLDAP Foundation.
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted only as authorized by the OpenLDAP
+ * Public License.
+ *
+ * A copy of this license is available in file LICENSE in the
+ * top-level directory of the distribution or, alternatively, at
+ * <http://www.OpenLDAP.org/license.html>.
+ */
+/* Copyright 2001 Computing Research Labs, New Mexico State University
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a
+ * copy of this software and associated documentation files (the "Software"),
+ * to deal in the Software without restriction, including without limitation
+ * the rights to use, copy, modify, merge, publish, distribute, sublicense,
+ * and/or sell copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
+ * THE COMPUTING RESEARCH LAB OR NEW MEXICO STATE UNIVERSITY BE LIABLE FOR ANY
+ * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT
+ * OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR
+ * THE USE OR OTHER DEALINGS IN THE SOFTWARE.
+ */
+/* $Id: ucdata.c,v 1.4 2001/01/02 18:46:20 mleisher Exp $" */
+
+#include "portable.h"
+#include "ldap_config.h"
+
+#include <stdio.h>
+#include <ac/stdlib.h>
+#include <ac/string.h>
+#include <ac/unistd.h>
+
+#include <ac/bytes.h>
+
+#include "lber_pvt.h"
+#include "ucdata.h"
+
+#ifndef HARDCODE_DATA
+#define HARDCODE_DATA 1
+#endif
+
+#if HARDCODE_DATA
+#include "uctable.h"
+#endif
+
+/**************************************************************************
+ *
+ * Miscellaneous types, data, and support functions.
+ *
+ **************************************************************************/
+
+typedef struct {
+ ac_uint2 bom;
+ ac_uint2 cnt;
+ union {
+ ac_uint4 bytes;
+ ac_uint2 len[2];
+ } size;
+} _ucheader_t;
+
+/*
+ * A simple array of 32-bit masks for lookup.
+ */
+static ac_uint4 masks32[32] = {
+ 0x00000001UL, 0x00000002UL, 0x00000004UL, 0x00000008UL,
+ 0x00000010UL, 0x00000020UL, 0x00000040UL, 0x00000080UL,
+ 0x00000100UL, 0x00000200UL, 0x00000400UL, 0x00000800UL,
+ 0x00001000UL, 0x00002000UL, 0x00004000UL, 0x00008000UL,
+ 0x00010000UL, 0x00020000UL, 0x00040000UL, 0x00080000UL,
+ 0x00100000UL, 0x00200000UL, 0x00400000UL, 0x00800000UL,
+ 0x01000000UL, 0x02000000UL, 0x04000000UL, 0x08000000UL,
+ 0x10000000UL, 0x20000000UL, 0x40000000UL, 0x80000000UL
+};
+
+#define endian_short(cc) (((cc) >> 8) | (((cc) & 0xff) << 8))
+#define endian_long(cc) ((((cc) & 0xff) << 24)|((((cc) >> 8) & 0xff) << 16)|\
+ ((((cc) >> 16) & 0xff) << 8)|((cc) >> 24))
+
+#if !HARDCODE_DATA
+static FILE *
+_ucopenfile(char *paths, char *filename, char *mode)
+{
+ FILE *f;
+ char *fp, *dp, *pp, path[BUFSIZ];
+
+ if (filename == 0 || *filename == 0)
+ return 0;
+
+ dp = paths;
+ while (dp && *dp) {
+ pp = path;
+ while (*dp && *dp != ':')
+ *pp++ = *dp++;
+ *pp++ = *LDAP_DIRSEP;
+
+ fp = filename;
+ while (*fp)
+ *pp++ = *fp++;
+ *pp = 0;
+
+ if ((f = fopen(path, mode)) != 0)
+ return f;
+
+ if (*dp == ':')
+ dp++;
+ }
+
+ return 0;
+}
+#endif
+
+/**************************************************************************
+ *
+ * Support for the character properties.
+ *
+ **************************************************************************/
+
+#if !HARDCODE_DATA
+
+static ac_uint4 _ucprop_size;
+static ac_uint2 *_ucprop_offsets;
+static ac_uint4 *_ucprop_ranges;
+
+/*
+ * Return -1 on error, 0 if okay
+ */
+static int
+_ucprop_load(char *paths, int reload)
+{
+ FILE *in;
+ ac_uint4 size, i;
+ _ucheader_t hdr;
+
+ if (_ucprop_size > 0) {
+ if (!reload)
+ /*
+ * The character properties have already been loaded.
+ */
+ return 0;
+
+ /*
+ * Unload the current character property data in preparation for
+ * loading a new copy. Only the first array has to be deallocated
+ * because all the memory for the arrays is allocated as a single
+ * block.
+ */
+ free((char *) _ucprop_offsets);
+ _ucprop_size = 0;
+ }
+
+ if ((in = _ucopenfile(paths, "ctype.dat", "rb")) == 0)
+ return -1;
+
+ /*
+ * Load the header.
+ */
+ fread((char *) &hdr, sizeof(_ucheader_t), 1, in);
+
+ if (hdr.bom == 0xfffe) {
+ hdr.cnt = endian_short(hdr.cnt);
+ hdr.size.bytes = endian_long(hdr.size.bytes);
+ }
+
+ if ((_ucprop_size = hdr.cnt) == 0) {
+ fclose(in);
+ return -1;
+ }
+
+ /*
+ * Allocate all the storage needed for the lookup table.
+ */
+ _ucprop_offsets = (ac_uint2 *) malloc(hdr.size.bytes);
+
+ /*
+ * Calculate the offset into the storage for the ranges. The offsets
+ * array is on a 4-byte boundary and one larger than the value provided in
+ * the header count field. This means the offset to the ranges must be
+ * calculated after aligning the count to a 4-byte boundary.
+ */
+ if ((size = ((hdr.cnt + 1) * sizeof(ac_uint2))) & 3)
+ size += 4 - (size & 3);
+ size >>= 1;
+ _ucprop_ranges = (ac_uint4 *) (_ucprop_offsets + size);
+
+ /*
+ * Load the offset array.
+ */
+ fread((char *) _ucprop_offsets, sizeof(ac_uint2), size, in);
+
+ /*
+ * Do an endian swap if necessary. Don't forget there is an extra node on
+ * the end with the final index.
+ */
+ if (hdr.bom == 0xfffe) {
+ for (i = 0; i <= _ucprop_size; i++)
+ _ucprop_offsets[i] = endian_short(_ucprop_offsets[i]);
+ }
+
+ /*
+ * Load the ranges. The number of elements is in the last array position
+ * of the offsets.
+ */
+ fread((char *) _ucprop_ranges, sizeof(ac_uint4),
+ _ucprop_offsets[_ucprop_size], in);
+
+ fclose(in);
+
+ /*
+ * Do an endian swap if necessary.
+ */
+ if (hdr.bom == 0xfffe) {
+ for (i = 0; i < _ucprop_offsets[_ucprop_size]; i++)
+ _ucprop_ranges[i] = endian_long(_ucprop_ranges[i]);
+ }
+ return 0;
+}
+
+static void
+_ucprop_unload(void)
+{
+ if (_ucprop_size == 0)
+ return;
+
+ /*
+ * Only need to free the offsets because the memory is allocated as a
+ * single block.
+ */
+ free((char *) _ucprop_offsets);
+ _ucprop_size = 0;
+}
+#endif
+
+static int
+_ucprop_lookup(ac_uint4 code, ac_uint4 n)
+{
+ long l, r, m;
+
+ if (_ucprop_size == 0)
+ return 0;
+
+ /*
+ * There is an extra node on the end of the offsets to allow this routine
+ * to work right. If the index is 0xffff, then there are no nodes for the
+ * property.
+ */
+ if ((l = _ucprop_offsets[n]) == 0xffff)
+ return 0;
+
+ /*
+ * Locate the next offset that is not 0xffff. The sentinel at the end of
+ * the array is the max index value.
+ */
+ for (m = 1;
+ n + m < _ucprop_size && _ucprop_offsets[n + m] == 0xffff; m++) ;
+
+ r = _ucprop_offsets[n + m] - 1;
+
+ while (l <= r) {
+ /*
+ * Determine a "mid" point and adjust to make sure the mid point is at
+ * the beginning of a range pair.
+ */
+ m = (l + r) >> 1;
+ m -= (m & 1);
+ if (code > _ucprop_ranges[m + 1])
+ l = m + 2;
+ else if (code < _ucprop_ranges[m])
+ r = m - 2;
+ else if (code >= _ucprop_ranges[m] && code <= _ucprop_ranges[m + 1])
+ return 1;
+ }
+ return 0;
+}
+
+int
+ucisprop(ac_uint4 code, ac_uint4 mask1, ac_uint4 mask2)
+{
+ ac_uint4 i;
+
+ if (mask1 == 0 && mask2 == 0)
+ return 0;
+
+ for (i = 0; mask1 && i < 32; i++) {
+ if ((mask1 & masks32[i]) && _ucprop_lookup(code, i))
+ return 1;
+ }
+
+ for (i = 32; mask2 && i < _ucprop_size; i++) {
+ if ((mask2 & masks32[i & 31]) && _ucprop_lookup(code, i))
+ return 1;
+ }
+
+ return 0;
+}
+
+/**************************************************************************
+ *
+ * Support for case mapping.
+ *
+ **************************************************************************/
+
+#if !HARDCODE_DATA
+
+/* These record the number of slots in the map.
+ * There are 3 words per slot.
+ */
+static ac_uint4 _uccase_size;
+static ac_uint2 _uccase_len[2];
+static ac_uint4 *_uccase_map;
+
+/*
+ * Return -1 on error, 0 if okay
+ */
+static int
+_uccase_load(char *paths, int reload)
+{
+ FILE *in;
+ ac_uint4 i;
+ _ucheader_t hdr;
+
+ if (_uccase_size > 0) {
+ if (!reload)
+ /*
+ * The case mappings have already been loaded.
+ */
+ return 0;
+
+ free((char *) _uccase_map);
+ _uccase_size = 0;
+ }
+
+ if ((in = _ucopenfile(paths, "case.dat", "rb")) == 0)
+ return -1;
+
+ /*
+ * Load the header.
+ */
+ fread((char *) &hdr, sizeof(_ucheader_t), 1, in);
+
+ if (hdr.bom == 0xfffe) {
+ hdr.cnt = endian_short(hdr.cnt);
+ hdr.size.len[0] = endian_short(hdr.size.len[0]);
+ hdr.size.len[1] = endian_short(hdr.size.len[1]);
+ }
+
+ /*
+ * Set the node count and lengths of the upper and lower case mapping
+ * tables.
+ */
+ _uccase_size = hdr.cnt;
+ _uccase_len[0] = hdr.size.len[0];
+ _uccase_len[1] = hdr.size.len[1];
+
+ _uccase_map = (ac_uint4 *)
+ malloc(_uccase_size * 3 * sizeof(ac_uint4));
+
+ /*
+ * Load the case mapping table.
+ */
+ fread((char *) _uccase_map, sizeof(ac_uint4), _uccase_size * 3, in);
+
+ /*
+ * Do an endian swap if necessary.
+ */
+ if (hdr.bom == 0xfffe) {
+ for (i = 0; i < _uccase_size * 3; i++)
+ _uccase_map[i] = endian_long(_uccase_map[i]);
+ }
+ fclose(in);
+ return 0;
+}
+
+static void
+_uccase_unload(void)
+{
+ if (_uccase_size == 0)
+ return;
+
+ free((char *) _uccase_map);
+ _uccase_size = 0;
+}
+#endif
+
+static ac_uint4
+_uccase_lookup(ac_uint4 code, long l, long r, int field)
+{
+ long m;
+ const ac_uint4 *tmp;
+
+ /*
+ * Do the binary search.
+ */
+ while (l <= r) {
+ /*
+ * Determine a "mid" point and adjust to make sure the mid point is at
+ * the beginning of a case mapping triple.
+ */
+ m = (l + r) >> 1;
+ tmp = &_uccase_map[m*3];
+ if (code > *tmp)
+ l = m + 1;
+ else if (code < *tmp)
+ r = m - 1;
+ else if (code == *tmp)
+ return tmp[field];
+ }
+
+ return code;
+}
+
+ac_uint4
+uctoupper(ac_uint4 code)
+{
+ int field;
+ long l, r;
+
+ if (ucisupper(code))
+ return code;
+
+ if (ucislower(code)) {
+ /*
+ * The character is lower case.
+ */
+ field = 2;
+ l = _uccase_len[0];
+ r = (l + _uccase_len[1]) - 1;
+ } else {
+ /*
+ * The character is title case.
+ */
+ field = 1;
+ l = _uccase_len[0] + _uccase_len[1];
+ r = _uccase_size - 1;
+ }
+ return _uccase_lookup(code, l, r, field);
+}
+
+ac_uint4
+uctolower(ac_uint4 code)
+{
+ int field;
+ long l, r;
+
+ if (ucislower(code))
+ return code;
+
+ if (ucisupper(code)) {
+ /*
+ * The character is upper case.
+ */
+ field = 1;
+ l = 0;
+ r = _uccase_len[0] - 1;
+ } else {
+ /*
+ * The character is title case.
+ */
+ field = 2;
+ l = _uccase_len[0] + _uccase_len[1];
+ r = _uccase_size - 1;
+ }
+ return _uccase_lookup(code, l, r, field);
+}
+
+ac_uint4
+uctotitle(ac_uint4 code)
+{
+ int field;
+ long l, r;
+
+ if (ucistitle(code))
+ return code;
+
+ /*
+ * The offset will always be the same for converting to title case.
+ */
+ field = 2;
+
+ if (ucisupper(code)) {
+ /*
+ * The character is upper case.
+ */
+ l = 0;
+ r = _uccase_len[0] - 1;
+ } else {
+ /*
+ * The character is lower case.
+ */
+ l = _uccase_len[0];
+ r = (l + _uccase_len[1]) - 1;
+ }
+ return _uccase_lookup(code, l, r, field);
+}
+
+/**************************************************************************
+ *
+ * Support for compositions.
+ *
+ **************************************************************************/
+
+#if !HARDCODE_DATA
+
+static ac_uint4 _uccomp_size;
+static ac_uint4 *_uccomp_data;
+
+/*
+ * Return -1 on error, 0 if okay
+ */
+static int
+_uccomp_load(char *paths, int reload)
+{
+ FILE *in;
+ ac_uint4 size, i;
+ _ucheader_t hdr;
+
+ if (_uccomp_size > 0) {
+ if (!reload)
+ /*
+ * The compositions have already been loaded.
+ */
+ return 0;
+
+ free((char *) _uccomp_data);
+ _uccomp_size = 0;
+ }
+
+ if ((in = _ucopenfile(paths, "comp.dat", "rb")) == 0)
+ return -1;
+
+ /*
+ * Load the header.
+ */
+ fread((char *) &hdr, sizeof(_ucheader_t), 1, in);
+
+ if (hdr.bom == 0xfffe) {
+ hdr.cnt = endian_short(hdr.cnt);
+ hdr.size.bytes = endian_long(hdr.size.bytes);
+ }
+
+ _uccomp_size = hdr.cnt;
+ _uccomp_data = (ac_uint4 *) malloc(hdr.size.bytes);
+
+ /*
+ * Read the composition data in.
+ */
+ size = hdr.size.bytes / sizeof(ac_uint4);
+ fread((char *) _uccomp_data, sizeof(ac_uint4), size, in);
+
+ /*
+ * Do an endian swap if necessary.
+ */
+ if (hdr.bom == 0xfffe) {
+ for (i = 0; i < size; i++)
+ _uccomp_data[i] = endian_long(_uccomp_data[i]);
+ }
+
+ /*
+ * Assume that the data is ordered on count, so that all compositions
+ * of length 2 come first. Only handling length 2 for now.
+ */
+ for (i = 1; i < size; i += 4)
+ if (_uccomp_data[i] != 2)
+ break;
+ _uccomp_size = i - 1;
+
+ fclose(in);
+ return 0;
+}
+
+static void
+_uccomp_unload(void)
+{
+ if (_uccomp_size == 0)
+ return;
+
+ free((char *) _uccomp_data);
+ _uccomp_size = 0;
+}
+#endif
+
+int
+uccomp(ac_uint4 node1, ac_uint4 node2, ac_uint4 *comp)
+{
+ int l, r, m;
+
+ l = 0;
+ r = _uccomp_size - 1;
+
+ while (l <= r) {
+ m = ((r + l) >> 1);
+ m -= m & 3;
+ if (node1 > _uccomp_data[m+2])
+ l = m + 4;
+ else if (node1 < _uccomp_data[m+2])
+ r = m - 4;
+ else if (node2 > _uccomp_data[m+3])
+ l = m + 4;
+ else if (node2 < _uccomp_data[m+3])
+ r = m - 4;
+ else {
+ *comp = _uccomp_data[m];
+ return 1;
+ }
+ }
+ return 0;
+}
+
+int
+uccomp_hangul(ac_uint4 *str, int len)
+{
+ const int SBase = 0xAC00, LBase = 0x1100,
+ VBase = 0x1161, TBase = 0x11A7,
+ LCount = 19, VCount = 21, TCount = 28,
+ NCount = VCount * TCount, /* 588 */
+ SCount = LCount * NCount; /* 11172 */
+
+ int i, rlen;
+ ac_uint4 ch, last, lindex, sindex;
+
+ last = str[0];
+ rlen = 1;
+ for ( i = 1; i < len; i++ ) {
+ ch = str[i];
+
+ /* check if two current characters are L and V */
+ lindex = last - LBase;
+ if (lindex < (ac_uint4) LCount) {
+ ac_uint4 vindex = ch - VBase;
+ if (vindex < (ac_uint4) VCount) {
+ /* make syllable of form LV */
+ last = SBase + (lindex * VCount + vindex) * TCount;
+ str[rlen-1] = last; /* reset last */
+ continue;
+ }
+ }
+
+ /* check if two current characters are LV and T */
+ sindex = last - SBase;
+ if (sindex < (ac_uint4) SCount
+ && (sindex % TCount) == 0)
+ {
+ ac_uint4 tindex = ch - TBase;
+ if (tindex <= (ac_uint4) TCount) {
+ /* make syllable of form LVT */
+ last += tindex;
+ str[rlen-1] = last; /* reset last */
+ continue;
+ }
+ }
+
+ /* if neither case was true, just add the character */
+ last = ch;
+ str[rlen] = ch;
+ rlen++;
+ }
+ return rlen;
+}
+
+int
+uccanoncomp(ac_uint4 *str, int len)
+{
+ int i, stpos, copos;
+ ac_uint4 cl, prevcl, st, ch, co;
+
+ st = str[0];
+ stpos = 0;
+ copos = 1;
+ prevcl = uccombining_class(st) == 0 ? 0 : 256;
+
+ for (i = 1; i < len; i++) {
+ ch = str[i];
+ cl = uccombining_class(ch);
+ if (uccomp(st, ch, &co) && (prevcl < cl || prevcl == 0))
+ st = str[stpos] = co;
+ else {
+ if (cl == 0) {
+ stpos = copos;
+ st = ch;
+ }
+ prevcl = cl;
+ str[copos++] = ch;
+ }
+ }
+
+ return uccomp_hangul(str, copos);
+}
+
+/**************************************************************************
+ *
+ * Support for decompositions.
+ *
+ **************************************************************************/
+
+#if !HARDCODE_DATA
+
+static ac_uint4 _ucdcmp_size;
+static ac_uint4 *_ucdcmp_nodes;
+static ac_uint4 *_ucdcmp_decomp;
+
+static ac_uint4 _uckdcmp_size;
+static ac_uint4 *_uckdcmp_nodes;
+static ac_uint4 *_uckdcmp_decomp;
+
+/*
+ * Return -1 on error, 0 if okay
+ */
+static int
+_ucdcmp_load(char *paths, int reload)
+{
+ FILE *in;
+ ac_uint4 size, i;
+ _ucheader_t hdr;
+
+ if (_ucdcmp_size > 0) {
+ if (!reload)
+ /*
+ * The decompositions have already been loaded.
+ */
+ return 0;
+
+ free((char *) _ucdcmp_nodes);
+ _ucdcmp_size = 0;
+ }
+
+ if ((in = _ucopenfile(paths, "decomp.dat", "rb")) == 0)
+ return -1;
+
+ /*
+ * Load the header.
+ */
+ fread((char *) &hdr, sizeof(_ucheader_t), 1, in);
+
+ if (hdr.bom == 0xfffe) {
+ hdr.cnt = endian_short(hdr.cnt);
+ hdr.size.bytes = endian_long(hdr.size.bytes);
+ }
+
+ _ucdcmp_size = hdr.cnt << 1;
+ _ucdcmp_nodes = (ac_uint4 *) malloc(hdr.size.bytes);
+ _ucdcmp_decomp = _ucdcmp_nodes + (_ucdcmp_size + 1);
+
+ /*
+ * Read the decomposition data in.
+ */
+ size = hdr.size.bytes / sizeof(ac_uint4);
+ fread((char *) _ucdcmp_nodes, sizeof(ac_uint4), size, in);
+
+ /*
+ * Do an endian swap if necessary.
+ */
+ if (hdr.bom == 0xfffe) {
+ for (i = 0; i < size; i++)
+ _ucdcmp_nodes[i] = endian_long(_ucdcmp_nodes[i]);
+ }
+ fclose(in);
+ return 0;
+}
+
+/*
+ * Return -1 on error, 0 if okay
+ */
+static int
+_uckdcmp_load(char *paths, int reload)
+{
+ FILE *in;
+ ac_uint4 size, i;
+ _ucheader_t hdr;
+
+ if (_uckdcmp_size > 0) {
+ if (!reload)
+ /*
+ * The decompositions have already been loaded.
+ */
+ return 0;
+
+ free((char *) _uckdcmp_nodes);
+ _uckdcmp_size = 0;
+ }
+
+ if ((in = _ucopenfile(paths, "kdecomp.dat", "rb")) == 0)
+ return -1;
+
+ /*
+ * Load the header.
+ */
+ fread((char *) &hdr, sizeof(_ucheader_t), 1, in);
+
+ if (hdr.bom == 0xfffe) {
+ hdr.cnt = endian_short(hdr.cnt);
+ hdr.size.bytes = endian_long(hdr.size.bytes);
+ }
+
+ _uckdcmp_size = hdr.cnt << 1;
+ _uckdcmp_nodes = (ac_uint4 *) malloc(hdr.size.bytes);
+ _uckdcmp_decomp = _uckdcmp_nodes + (_uckdcmp_size + 1);
+
+ /*
+ * Read the decomposition data in.
+ */
+ size = hdr.size.bytes / sizeof(ac_uint4);
+ fread((char *) _uckdcmp_nodes, sizeof(ac_uint4), size, in);
+
+ /*
+ * Do an endian swap if necessary.
+ */
+ if (hdr.bom == 0xfffe) {
+ for (i = 0; i < size; i++)
+ _uckdcmp_nodes[i] = endian_long(_uckdcmp_nodes[i]);
+ }
+ fclose(in);
+ return 0;
+}
+
+static void
+_ucdcmp_unload(void)
+{
+ if (_ucdcmp_size == 0)
+ return;
+
+ /*
+ * Only need to free the offsets because the memory is allocated as a
+ * single block.
+ */
+ free((char *) _ucdcmp_nodes);
+ _ucdcmp_size = 0;
+}
+
+static void
+_uckdcmp_unload(void)
+{
+ if (_uckdcmp_size == 0)
+ return;
+
+ /*
+ * Only need to free the offsets because the memory is allocated as a
+ * single block.
+ */
+ free((char *) _uckdcmp_nodes);
+ _uckdcmp_size = 0;
+}
+#endif
+
+int
+ucdecomp(ac_uint4 code, ac_uint4 *num, ac_uint4 **decomp)
+{
+ long l, r, m;
+
+ if (code < _ucdcmp_nodes[0]) {
+ return 0;
+ }
+
+ l = 0;
+ r = _ucdcmp_nodes[_ucdcmp_size] - 1;
+
+ while (l <= r) {
+ /*
+ * Determine a "mid" point and adjust to make sure the mid point is at
+ * the beginning of a code+offset pair.
+ */
+ m = (l + r) >> 1;
+ m -= (m & 1);
+ if (code > _ucdcmp_nodes[m])
+ l = m + 2;
+ else if (code < _ucdcmp_nodes[m])
+ r = m - 2;
+ else if (code == _ucdcmp_nodes[m]) {
+ *num = _ucdcmp_nodes[m + 3] - _ucdcmp_nodes[m + 1];
+ *decomp = (ac_uint4*)&_ucdcmp_decomp[_ucdcmp_nodes[m + 1]];
+ return 1;
+ }
+ }
+ return 0;
+}
+
+int
+uckdecomp(ac_uint4 code, ac_uint4 *num, ac_uint4 **decomp)
+{
+ long l, r, m;
+
+ if (code < _uckdcmp_nodes[0]) {
+ return 0;
+ }
+
+ l = 0;
+ r = _uckdcmp_nodes[_uckdcmp_size] - 1;
+
+ while (l <= r) {
+ /*
+ * Determine a "mid" point and adjust to make sure the mid point is at
+ * the beginning of a code+offset pair.
+ */
+ m = (l + r) >> 1;
+ m -= (m & 1);
+ if (code > _uckdcmp_nodes[m])
+ l = m + 2;
+ else if (code < _uckdcmp_nodes[m])
+ r = m - 2;
+ else if (code == _uckdcmp_nodes[m]) {
+ *num = _uckdcmp_nodes[m + 3] - _uckdcmp_nodes[m + 1];
+ *decomp = (ac_uint4*)&_uckdcmp_decomp[_uckdcmp_nodes[m + 1]];
+ return 1;
+ }
+ }
+ return 0;
+}
+
+int
+ucdecomp_hangul(ac_uint4 code, ac_uint4 *num, ac_uint4 decomp[])
+{
+ if (!ucishangul(code))
+ return 0;
+
+ code -= 0xac00;
+ decomp[0] = 0x1100 + (ac_uint4) (code / 588);
+ decomp[1] = 0x1161 + (ac_uint4) ((code % 588) / 28);
+ decomp[2] = 0x11a7 + (ac_uint4) (code % 28);
+ *num = (decomp[2] != 0x11a7) ? 3 : 2;
+
+ return 1;
+}
+
+/* mode == 0 for canonical, mode == 1 for compatibility */
+static int
+uccanoncompatdecomp(const ac_uint4 *in, int inlen,
+ ac_uint4 **out, int *outlen, short mode, void *ctx)
+{
+ int l, size;
+ unsigned i, j, k;
+ ac_uint4 num, class, *decomp, hangdecomp[3];
+
+ size = inlen * 2;
+ *out = (ac_uint4 *) ber_memalloc_x(size * sizeof(**out), ctx);
+ if (*out == NULL)
+ return *outlen = -1;
+
+ i = 0;
+ for (j = 0; j < (unsigned) inlen; j++) {
+ if (mode ? uckdecomp(in[j], &num, &decomp) : ucdecomp(in[j], &num, &decomp)) {
+ if ( size - i < num) {
+ size = inlen + i - j + num - 1;
+ *out = (ac_uint4 *) ber_memrealloc_x(*out, size * sizeof(**out), ctx );
+ if (*out == NULL)
+ return *outlen = -1;
+ }
+ for (k = 0; k < num; k++) {
+ class = uccombining_class(decomp[k]);
+ if (class == 0) {
+ (*out)[i] = decomp[k];
+ } else {
+ for (l = i; l > 0; l--)
+ if (class >= uccombining_class((*out)[l-1]))
+ break;
+ AC_MEMCPY(*out + l + 1, *out + l, (i - l) * sizeof(**out));
+ (*out)[l] = decomp[k];
+ }
+ i++;
+ }
+ } else if (ucdecomp_hangul(in[j], &num, hangdecomp)) {
+ if (size - i < num) {
+ size = inlen + i - j + num - 1;
+ *out = (ac_uint4 *) ber_memrealloc_x(*out, size * sizeof(**out), ctx);
+ if (*out == NULL)
+ return *outlen = -1;
+ }
+ for (k = 0; k < num; k++) {
+ (*out)[i] = hangdecomp[k];
+ i++;
+ }
+ } else {
+ if (size - i < 1) {
+ size = inlen + i - j;
+ *out = (ac_uint4 *) ber_memrealloc_x(*out, size * sizeof(**out), ctx);
+ if (*out == NULL)
+ return *outlen = -1;
+ }
+ class = uccombining_class(in[j]);
+ if (class == 0) {
+ (*out)[i] = in[j];
+ } else {
+ for (l = i; l > 0; l--)
+ if (class >= uccombining_class((*out)[l-1]))
+ break;
+ AC_MEMCPY(*out + l + 1, *out + l, (i - l) * sizeof(**out));
+ (*out)[l] = in[j];
+ }
+ i++;
+ }
+ }
+ return *outlen = i;
+}
+
+int
+uccanondecomp(const ac_uint4 *in, int inlen,
+ ac_uint4 **out, int *outlen, void *ctx)
+{
+ return uccanoncompatdecomp(in, inlen, out, outlen, 0, ctx);
+}
+
+int
+uccompatdecomp(const ac_uint4 *in, int inlen,
+ ac_uint4 **out, int *outlen, void *ctx)
+{
+ return uccanoncompatdecomp(in, inlen, out, outlen, 1, ctx);
+}
+
+/**************************************************************************
+ *
+ * Support for combining classes.
+ *
+ **************************************************************************/
+
+#if !HARDCODE_DATA
+static ac_uint4 _uccmcl_size;
+static ac_uint4 *_uccmcl_nodes;
+
+/*
+ * Return -1 on error, 0 if okay
+ */
+static int
+_uccmcl_load(char *paths, int reload)
+{
+ FILE *in;
+ ac_uint4 i;
+ _ucheader_t hdr;
+
+ if (_uccmcl_size > 0) {
+ if (!reload)
+ /*
+ * The combining classes have already been loaded.
+ */
+ return 0;
+
+ free((char *) _uccmcl_nodes);
+ _uccmcl_size = 0;
+ }
+
+ if ((in = _ucopenfile(paths, "cmbcl.dat", "rb")) == 0)
+ return -1;
+
+ /*
+ * Load the header.
+ */
+ fread((char *) &hdr, sizeof(_ucheader_t), 1, in);
+
+ if (hdr.bom == 0xfffe) {
+ hdr.cnt = endian_short(hdr.cnt);
+ hdr.size.bytes = endian_long(hdr.size.bytes);
+ }
+
+ _uccmcl_size = hdr.cnt * 3;
+ _uccmcl_nodes = (ac_uint4 *) malloc(hdr.size.bytes);
+
+ /*
+ * Read the combining classes in.
+ */
+ fread((char *) _uccmcl_nodes, sizeof(ac_uint4), _uccmcl_size, in);
+
+ /*
+ * Do an endian swap if necessary.
+ */
+ if (hdr.bom == 0xfffe) {
+ for (i = 0; i < _uccmcl_size; i++)
+ _uccmcl_nodes[i] = endian_long(_uccmcl_nodes[i]);
+ }
+ fclose(in);
+ return 0;
+}
+
+static void
+_uccmcl_unload(void)
+{
+ if (_uccmcl_size == 0)
+ return;
+
+ free((char *) _uccmcl_nodes);
+ _uccmcl_size = 0;
+}
+#endif
+
+ac_uint4
+uccombining_class(ac_uint4 code)
+{
+ long l, r, m;
+
+ l = 0;
+ r = _uccmcl_size - 1;
+
+ while (l <= r) {
+ m = (l + r) >> 1;
+ m -= (m % 3);
+ if (code > _uccmcl_nodes[m + 1])
+ l = m + 3;
+ else if (code < _uccmcl_nodes[m])
+ r = m - 3;
+ else if (code >= _uccmcl_nodes[m] && code <= _uccmcl_nodes[m + 1])
+ return _uccmcl_nodes[m + 2];
+ }
+ return 0;
+}
+
+/**************************************************************************
+ *
+ * Support for numeric values.
+ *
+ **************************************************************************/
+
+#if !HARDCODE_DATA
+static ac_uint4 *_ucnum_nodes;
+static ac_uint4 _ucnum_size;
+static short *_ucnum_vals;
+
+/*
+ * Return -1 on error, 0 if okay
+ */
+static int
+_ucnumb_load(char *paths, int reload)
+{
+ FILE *in;
+ ac_uint4 size, i;
+ _ucheader_t hdr;
+
+ if (_ucnum_size > 0) {
+ if (!reload)
+ /*
+ * The numbers have already been loaded.
+ */
+ return 0;
+
+ free((char *) _ucnum_nodes);
+ _ucnum_size = 0;
+ }
+
+ if ((in = _ucopenfile(paths, "num.dat", "rb")) == 0)
+ return -1;
+
+ /*
+ * Load the header.
+ */
+ fread((char *) &hdr, sizeof(_ucheader_t), 1, in);
+
+ if (hdr.bom == 0xfffe) {
+ hdr.cnt = endian_short(hdr.cnt);
+ hdr.size.bytes = endian_long(hdr.size.bytes);
+ }
+
+ _ucnum_size = hdr.cnt;
+ _ucnum_nodes = (ac_uint4 *) malloc(hdr.size.bytes);
+ _ucnum_vals = (short *) (_ucnum_nodes + _ucnum_size);
+
+ /*
+ * Read the combining classes in.
+ */
+ fread((char *) _ucnum_nodes, sizeof(unsigned char), hdr.size.bytes, in);
+
+ /*
+ * Do an endian swap if necessary.
+ */
+ if (hdr.bom == 0xfffe) {
+ for (i = 0; i < _ucnum_size; i++)
+ _ucnum_nodes[i] = endian_long(_ucnum_nodes[i]);
+
+ /*
+ * Determine the number of values that have to be adjusted.
+ */
+ size = (hdr.size.bytes -
+ (_ucnum_size * (sizeof(ac_uint4) << 1))) /
+ sizeof(short);
+
+ for (i = 0; i < size; i++)
+ _ucnum_vals[i] = endian_short(_ucnum_vals[i]);
+ }
+ fclose(in);
+ return 0;
+}
+
+static void
+_ucnumb_unload(void)
+{
+ if (_ucnum_size == 0)
+ return;
+
+ free((char *) _ucnum_nodes);
+ _ucnum_size = 0;
+}
+#endif
+
+int
+ucnumber_lookup(ac_uint4 code, struct ucnumber *num)
+{
+ long l, r, m;
+ short *vp;
+
+ l = 0;
+ r = _ucnum_size - 1;
+ while (l <= r) {
+ /*
+ * Determine a "mid" point and adjust to make sure the mid point is at
+ * the beginning of a code+offset pair.
+ */
+ m = (l + r) >> 1;
+ m -= (m & 1);
+ if (code > _ucnum_nodes[m])
+ l = m + 2;
+ else if (code < _ucnum_nodes[m])
+ r = m - 2;
+ else {
+ vp = (short *)_ucnum_vals + _ucnum_nodes[m + 1];
+ num->numerator = (int) *vp++;
+ num->denominator = (int) *vp;
+ return 1;
+ }
+ }
+ return 0;
+}
+
+int
+ucdigit_lookup(ac_uint4 code, int *digit)
+{
+ long l, r, m;
+ short *vp;
+
+ l = 0;
+ r = _ucnum_size - 1;
+ while (l <= r) {
+ /*
+ * Determine a "mid" point and adjust to make sure the mid point is at
+ * the beginning of a code+offset pair.
+ */
+ m = (l + r) >> 1;
+ m -= (m & 1);
+ if (code > _ucnum_nodes[m])
+ l = m + 2;
+ else if (code < _ucnum_nodes[m])
+ r = m - 2;
+ else {
+ vp = (short *)_ucnum_vals + _ucnum_nodes[m + 1];
+ if (*vp == *(vp + 1)) {
+ *digit = *vp;
+ return 1;
+ }
+ return 0;
+ }
+ }
+ return 0;
+}
+
+struct ucnumber
+ucgetnumber(ac_uint4 code)
+{
+ struct ucnumber num;
+
+ /*
+ * Initialize with some arbitrary value, because the caller simply cannot
+ * tell for sure if the code is a number without calling the ucisnumber()
+ * macro before calling this function.
+ */
+ num.numerator = num.denominator = -111;
+
+ (void) ucnumber_lookup(code, &num);
+
+ return num;
+}
+
+int
+ucgetdigit(ac_uint4 code)
+{
+ int dig;
+
+ /*
+ * Initialize with some arbitrary value, because the caller simply cannot
+ * tell for sure if the code is a number without calling the ucisdigit()
+ * macro before calling this function.
+ */
+ dig = -111;
+
+ (void) ucdigit_lookup(code, &dig);
+
+ return dig;
+}
+
+/**************************************************************************
+ *
+ * Setup and cleanup routines.
+ *
+ **************************************************************************/
+
+#if HARDCODE_DATA
+int ucdata_load(char *paths, int masks) { return 0; }
+void ucdata_unload(int masks) { }
+int ucdata_reload(char *paths, int masks) { return 0; }
+#else
+/*
+ * Return 0 if okay, negative on error
+ */
+int
+ucdata_load(char *paths, int masks)
+{
+ int error = 0;
+
+ if (masks & UCDATA_CTYPE)
+ error |= _ucprop_load(paths, 0) < 0 ? UCDATA_CTYPE : 0;
+ if (masks & UCDATA_CASE)
+ error |= _uccase_load(paths, 0) < 0 ? UCDATA_CASE : 0;
+ if (masks & UCDATA_DECOMP)
+ error |= _ucdcmp_load(paths, 0) < 0 ? UCDATA_DECOMP : 0;
+ if (masks & UCDATA_CMBCL)
+ error |= _uccmcl_load(paths, 0) < 0 ? UCDATA_CMBCL : 0;
+ if (masks & UCDATA_NUM)
+ error |= _ucnumb_load(paths, 0) < 0 ? UCDATA_NUM : 0;
+ if (masks & UCDATA_COMP)
+ error |= _uccomp_load(paths, 0) < 0 ? UCDATA_COMP : 0;
+ if (masks & UCDATA_KDECOMP)
+ error |= _uckdcmp_load(paths, 0) < 0 ? UCDATA_KDECOMP : 0;
+
+ return -error;
+}
+
+void
+ucdata_unload(int masks)
+{
+ if (masks & UCDATA_CTYPE)
+ _ucprop_unload();
+ if (masks & UCDATA_CASE)
+ _uccase_unload();
+ if (masks & UCDATA_DECOMP)
+ _ucdcmp_unload();
+ if (masks & UCDATA_CMBCL)
+ _uccmcl_unload();
+ if (masks & UCDATA_NUM)
+ _ucnumb_unload();
+ if (masks & UCDATA_COMP)
+ _uccomp_unload();
+ if (masks & UCDATA_KDECOMP)
+ _uckdcmp_unload();
+}
+
+/*
+ * Return 0 if okay, negative on error
+ */
+int
+ucdata_reload(char *paths, int masks)
+{
+ int error = 0;
+
+ if (masks & UCDATA_CTYPE)
+ error |= _ucprop_load(paths, 1) < 0 ? UCDATA_CTYPE : 0;
+ if (masks & UCDATA_CASE)
+ error |= _uccase_load(paths, 1) < 0 ? UCDATA_CASE : 0;
+ if (masks & UCDATA_DECOMP)
+ error |= _ucdcmp_load(paths, 1) < 0 ? UCDATA_DECOMP : 0;
+ if (masks & UCDATA_CMBCL)
+ error |= _uccmcl_load(paths, 1) < 0 ? UCDATA_CMBCL : 0;
+ if (masks & UCDATA_NUM)
+ error |= _ucnumb_load(paths, 1) < 0 ? UCDATA_NUM : 0;
+ if (masks & UCDATA_COMP)
+ error |= _uccomp_load(paths, 1) < 0 ? UCDATA_COMP : 0;
+ if (masks & UCDATA_KDECOMP)
+ error |= _uckdcmp_load(paths, 1) < 0 ? UCDATA_KDECOMP : 0;
+
+ return -error;
+}
+#endif
+
+#ifdef TEST
+
+void
+main(void)
+{
+ int dig;
+ ac_uint4 i, lo, *dec;
+ struct ucnumber num;
+
+/* ucdata_setup("."); */
+
+ if (ucisweak(0x30))
+ printf("WEAK\n");
+ else
+ printf("NOT WEAK\n");
+
+ printf("LOWER 0x%04lX\n", uctolower(0xff3a));
+ printf("UPPER 0x%04lX\n", uctoupper(0xff5a));
+
+ if (ucisalpha(0x1d5))
+ printf("ALPHA\n");
+ else
+ printf("NOT ALPHA\n");
+
+ if (ucisupper(0x1d5)) {
+ printf("UPPER\n");
+ lo = uctolower(0x1d5);
+ printf("0x%04lx\n", lo);
+ lo = uctotitle(0x1d5);
+ printf("0x%04lx\n", lo);
+ } else
+ printf("NOT UPPER\n");
+
+ if (ucistitle(0x1d5))
+ printf("TITLE\n");
+ else
+ printf("NOT TITLE\n");
+
+ if (uciscomposite(0x1d5))
+ printf("COMPOSITE\n");
+ else
+ printf("NOT COMPOSITE\n");
+
+ if (ucdecomp(0x1d5, &lo, &dec)) {
+ for (i = 0; i < lo; i++)
+ printf("0x%04lx ", dec[i]);
+ putchar('\n');
+ }
+
+ if ((lo = uccombining_class(0x41)) != 0)
+ printf("0x41 CCL %ld\n", lo);
+
+ if (ucisxdigit(0xfeff))
+ printf("0xFEFF HEX DIGIT\n");
+ else
+ printf("0xFEFF NOT HEX DIGIT\n");
+
+ if (ucisdefined(0x10000))
+ printf("0x10000 DEFINED\n");
+ else
+ printf("0x10000 NOT DEFINED\n");
+
+ if (ucnumber_lookup(0x30, &num)) {
+ if (num.denominator != 1)
+ printf("UCNUMBER: 0x30 = %d/%d\n", num.numerator, num.denominator);
+ else
+ printf("UCNUMBER: 0x30 = %d\n", num.numerator);
+ } else
+ printf("UCNUMBER: 0x30 NOT A NUMBER\n");
+
+ if (ucnumber_lookup(0xbc, &num)) {
+ if (num.denominator != 1)
+ printf("UCNUMBER: 0xbc = %d/%d\n", num.numerator, num.denominator);
+ else
+ printf("UCNUMBER: 0xbc = %d\n", num.numerator);
+ } else
+ printf("UCNUMBER: 0xbc NOT A NUMBER\n");
+
+
+ if (ucnumber_lookup(0xff19, &num)) {
+ if (num.denominator != 1)
+ printf("UCNUMBER: 0xff19 = %d/%d\n", num.numerator, num.denominator);
+ else
+ printf("UCNUMBER: 0xff19 = %d\n", num.numerator);
+ } else
+ printf("UCNUMBER: 0xff19 NOT A NUMBER\n");
+
+ if (ucnumber_lookup(0x4e00, &num)) {
+ if (num.denominator != 1)
+ printf("UCNUMBER: 0x4e00 = %d/%d\n", num.numerator, num.denominator);
+ else
+ printf("UCNUMBER: 0x4e00 = %d\n", num.numerator);
+ } else
+ printf("UCNUMBER: 0x4e00 NOT A NUMBER\n");
+
+ if (ucdigit_lookup(0x06f9, &dig))
+ printf("UCDIGIT: 0x6f9 = %d\n", dig);
+ else
+ printf("UCDIGIT: 0x6f9 NOT A NUMBER\n");
+
+ dig = ucgetdigit(0x0969);
+ printf("UCGETDIGIT: 0x969 = %d\n", dig);
+
+ num = ucgetnumber(0x30);
+ if (num.denominator != 1)
+ printf("UCGETNUMBER: 0x30 = %d/%d\n", num.numerator, num.denominator);
+ else
+ printf("UCGETNUMBER: 0x30 = %d\n", num.numerator);
+
+ num = ucgetnumber(0xbc);
+ if (num.denominator != 1)
+ printf("UCGETNUMBER: 0xbc = %d/%d\n", num.numerator, num.denominator);
+ else
+ printf("UCGETNUMBER: 0xbc = %d\n", num.numerator);
+
+ num = ucgetnumber(0xff19);
+ if (num.denominator != 1)
+ printf("UCGETNUMBER: 0xff19 = %d/%d\n", num.numerator, num.denominator);
+ else
+ printf("UCGETNUMBER: 0xff19 = %d\n", num.numerator);
+
+/* ucdata_cleanup(); */
+ exit(0);
+}
+
+#endif /* TEST */