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|
% Libhnj is dual licensed under LGPL and MPL. Boilerplate for both
% licenses follows.
%
%
% LibHnj - a library for high quality hyphenation and justification
% Copyright (C) 1998 Raph Levien,
% (C) 2001 ALTLinux, Moscow (http://www.alt-linux.org),
% (C) 2001 Peter Novodvorsky (nidd@@cs.msu.su)
%
% This library is free software; you can redistribute it and/or
% modify it under the terms of the GNU Library General Public
% License as published by the Free Software Foundation; either
% version 2 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
% Library General Public License for more details.
%
% You should have received a copy of the GNU Library 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.
%
%
%
% The contents of this file are subject to the Mozilla Public License
% Version 1.0 (the "MPL"); you may not use this file except in
% compliance with the MPL. You may obtain a copy of the MPL at
% http://www.mozilla.org/MPL/
%
% Software distributed under the MPL is distributed on an "AS IS" basis,
% WITHOUT WARRANTY OF ANY KIND, either express or implied. See the MPL
% for the specific language governing rights and limitations under the
% MPL.
@ @c
#include <stdlib.h> /* for NULL, malloc */
#include <stdio.h> /* for fprintf */
#include <string.h> /* for strdup */
#include <stdlib.h> /* for malloc used by substring inclusion */
#define MAXPATHS 40960
#ifdef UNX
# include <unistd.h> /* for exit */
#endif
#include <kpathsea/c-ctype.h>
#define noVERBOSE
#include "lang/hnjalloc.h"
#include "lang/hyphen.h"
@ @c
static const char _svn_version[] =
"$Id: hyphen.w 3584 2010-04-02 17:45:55Z hhenkel $ "
"$URL: http://foundry.supelec.fr/svn/luatex/tags/beta-0.60.0/source/texk/web2c/luatexdir/lang/hyphen.w $";
@ TODO: should be moved to separate library
@c
static unsigned char *hnj_strdup(const unsigned char *s)
{
unsigned char *new;
size_t l;
l = strlen((const char *) s);
new = hnj_malloc((int) l + 1);
memcpy(new, s, l);
new[l] = 0;
return new;
}
static int is_utf8_follow(unsigned char c)
{
if (c >= 0x80 && c < 0xC0)
return 1;
return 0;
}
@* Type definitions.
@ a little bit of a hash table implementation. This simply maps strings
to state numbers
@c
typedef struct _HashTab HashTab;
typedef struct _HashEntry HashEntry;
typedef struct _HashIter HashIter;
typedef union _HashVal HashVal;
/* A cheap, but effective, hack. */
#define HASH_SIZE 31627
struct _HashTab {
HashEntry *entries[HASH_SIZE];
};
union _HashVal {
int state;
char *hyppat;
};
struct _HashEntry {
HashEntry *next;
unsigned char *key;
HashVal u;
};
struct _HashIter {
HashEntry **e;
HashEntry *cur;
int ndx;
};
@ State machine
@c
typedef struct _HyphenState HyphenState;
typedef struct _HyphenTrans HyphenTrans;
#define MAX_CHARS 256
#define MAX_NAME 20
struct _HyphenDict {
int num_states;
int pat_length;
char cset[MAX_NAME];
HyphenState *states;
HashTab *patterns;
HashTab *merged;
HashTab *state_num;
};
struct _HyphenState {
char *match;
/*char *repl; */
/*signed char replindex; */
/*signed char replcut; */
int fallback_state;
int num_trans;
HyphenTrans *trans;
};
struct _HyphenTrans {
int uni_ch;
int new_state;
};
@ Combine two right-aligned number patterns, 04000 + 020 becomes 04020
@c
static char *combine(char *expr, const char *subexpr)
{
size_t l1 = strlen(expr);
size_t l2 = strlen(subexpr);
size_t off = l1 - l2;
unsigned j;
/* this works also for utf8 sequences because the substring is identical
to the last substring-length bytes of expr except for the (single byte)
hyphenation encoders
*/
for (j = 0; j < l2; j++) {
if (expr[off + j] < subexpr[j])
expr[off + j] = subexpr[j];
}
return expr;
}
@ ORIGINAL CODE
@c
HashIter *new_HashIter(HashTab * h)
{
HashIter *i = hnj_malloc(sizeof(HashIter));
i->e = h->entries;
i->cur = NULL;
i->ndx = -1;
return i;
}
int nextHashStealPattern(HashIter * i, unsigned char **word, char **pattern)
{
while (i->cur == NULL) {
if (i->ndx >= HASH_SIZE - 1)
return 0;
i->cur = i->e[++i->ndx];
}
*word = i->cur->key;
*pattern = i->cur->u.hyppat;
i->cur->u.hyppat = NULL;
i->cur = i->cur->next;
return 1;
}
int nextHash(HashIter * i, unsigned char **word)
{
while (i->cur == NULL) {
if (i->ndx >= HASH_SIZE - 1)
return 0;
i->cur = i->e[++i->ndx];
}
*word = i->cur->key;
i->cur = i->cur->next;
return 1;
}
int eachHash(HashIter * i, unsigned char **word, char **pattern)
{
while (i->cur == NULL) {
if (i->ndx >= HASH_SIZE - 1)
return 0;
i->cur = i->e[++i->ndx];
}
*word = i->cur->key;
*pattern = i->cur->u.hyppat;
i->cur = i->cur->next;
return 1;
}
void delete_HashIter(HashIter * i)
{
hnj_free(i);
}
@ a |char*| hash function from ASU - adapted from Gtk+
@c
static unsigned int hnj_string_hash(const unsigned char *s)
{
const unsigned char *p;
unsigned int h = 0, g;
for (p = s; *p != '\0'; p += 1) {
h = (h << 4) + *p;
if ((g = (h & 0xf0000000))) {
h = h ^ (g >> 24);
h = h ^ g;
}
}
return h /* \% M */ ;
}
@ assumes that key is not already present!
@c
static void state_insert(HashTab * hashtab, unsigned char *key, int state)
{
int i;
HashEntry *e;
i = (int) (hnj_string_hash(key) % HASH_SIZE);
e = hnj_malloc(sizeof(HashEntry));
e->next = hashtab->entries[i];
e->key = key;
e->u.state = state;
hashtab->entries[i] = e;
}
@ assumes that key is not already present!
@c
static void hyppat_insert(HashTab * hashtab, unsigned char *key, char *hyppat)
{
int i;
HashEntry *e;
i = (int) (hnj_string_hash(key) % HASH_SIZE);
for (e = hashtab->entries[i]; e; e = e->next) {
if (strcmp((char *) e->key, (char *) key) == 0) {
if (e->u.hyppat) {
if (hyppat
&& strcmp((char *) e->u.hyppat, (char *) hyppat) != 0) {
print_err("Conflicting pattern ignored");
error();
}
hnj_free(e->u.hyppat);
}
e->u.hyppat = hyppat;
hnj_free(key);
return;
}
}
e = hnj_malloc(sizeof(HashEntry));
e->next = hashtab->entries[i];
e->key = key;
e->u.hyppat = hyppat;
hashtab->entries[i] = e;
}
@ return state if found, otherwise $-1$
@c
static int state_lookup(HashTab * hashtab, const unsigned char *key)
{
int i;
HashEntry *e;
i = (int) (hnj_string_hash(key) % HASH_SIZE);
for (e = hashtab->entries[i]; e; e = e->next) {
if (!strcmp((const char *) key, (const char *) e->key)) {
return e->u.state;
}
}
return -1;
}
@ return state if found, otherwise $-1$
@c
static char *hyppat_lookup(HashTab * hashtab, const unsigned char *chars, int l)
{
int i;
HashEntry *e;
unsigned char key[128]; /* should be ample */
strncpy((char *) key, (const char *) chars, (size_t) l);
key[l] = 0;
i = (int) (hnj_string_hash(key) % HASH_SIZE);
for (e = hashtab->entries[i]; e; e = e->next) {
if (!strcmp((char *) key, (char *) e->key)) {
return e->u.hyppat;
}
}
return NULL;
}
@ Get the state number, allocating a new state if necessary.
@c
static int hnj_get_state(HyphenDict * dict,
const unsigned char *str, int *state_num)
{
*state_num = state_lookup(dict->state_num, str);
if (*state_num >= 0)
return *state_num;
state_insert(dict->state_num, hnj_strdup(str), dict->num_states);
/* predicate is true if |dict->num_states| is a power of two */
if (!(dict->num_states & (dict->num_states - 1))) {
dict->states = hnj_realloc(dict->states,
(int) ((dict->num_states << 1) *
(int) sizeof(HyphenState)));
}
dict->states[dict->num_states].match = NULL;
dict->states[dict->num_states].fallback_state = -1;
dict->states[dict->num_states].num_trans = 0;
dict->states[dict->num_states].trans = NULL;
return dict->num_states++;
}
@ Add a transition from state1 to state2 through ch - assumes that the
transition does not already exist
@c
static void hnj_add_trans(HyphenDict * dict, int state1, int state2, int uni_ch)
{
int num_trans;
/* TH: this test was a bit too strict, it is quite normal for old
patterns to have chars in the range 0-31 or 127-159 (inclusive).
To ease the transition, let's only disallow NUL for now
(this is probably a requirement of the code anyway).
*/
if (uni_ch == 0) {
fprintf(stderr, "Character out of bounds: u%04x \n", uni_ch);
exit(1);
}
num_trans = dict->states[state1].num_trans;
if (num_trans == 0) {
dict->states[state1].trans = hnj_malloc(sizeof(HyphenTrans));
} else if (!(num_trans & (num_trans - 1))) {
dict->states[state1].trans = hnj_realloc(dict->states[state1].trans,
(int) (num_trans << 1 *
sizeof(HyphenTrans)));
}
dict->states[state1].trans[num_trans].uni_ch = uni_ch;
dict->states[state1].trans[num_trans].new_state = state2;
dict->states[state1].num_trans++;
}
#ifdef VERBOSE
static unsigned char *get_state_str(int state)
{
int i;
HashEntry *e;
for (i = 0; i < HASH_SIZE; i++)
for (e = global->entries[i]; e; e = e->next)
if (e->u.state == state)
return e->key;
return NULL;
}
#endif
@ I've changed the semantics a bit here: |hnj_hyphen_load| used to
operate on a file, but now the argument is a string buffer.
@c
static const unsigned char *next_pattern(size_t * length,
const unsigned char **buf)
{
const unsigned char *here, *rover = *buf;
while (*rover && isspace(*rover))
rover++;
here = rover;
while (*rover) {
if (isspace(*rover)) {
*length = (size_t) (rover - here);
*buf = rover;
return here;
}
rover++;
}
*length = (size_t) (rover - here);
*buf = rover;
return *length ? here : NULL; /* zero sensed */
}
static void init_hash(HashTab ** h)
{
int i;
if (*h)
return;
*h = hnj_malloc(sizeof(HashTab));
for (i = 0; i < HASH_SIZE; i++)
(*h)->entries[i] = NULL;
}
static void clear_state_hash(HashTab ** h)
{
int i;
if (*h == NULL)
return;
for (i = 0; i < HASH_SIZE; i++) {
HashEntry *e, *next;
for (e = (*h)->entries[i]; e; e = next) {
next = e->next;
hnj_free(e->key);
hnj_free(e);
}
}
hnj_free(*h);
*h = NULL;
}
static void clear_hyppat_hash(HashTab ** h)
{
int i;
if (*h == NULL)
return;
for (i = 0; i < HASH_SIZE; i++) {
HashEntry *e, *next;
for (e = (*h)->entries[i]; e; e = next) {
next = e->next;
hnj_free(e->key);
if (e->u.hyppat)
hnj_free(e->u.hyppat);
hnj_free(e);
}
}
hnj_free(*h);
*h = NULL;
}
static void init_dict(HyphenDict * dict)
{
dict->num_states = 1;
dict->pat_length = 0;
dict->states = hnj_malloc(sizeof(HyphenState));
dict->states[0].match = NULL;
dict->states[0].fallback_state = -1;
dict->states[0].num_trans = 0;
dict->states[0].trans = NULL;
dict->patterns = NULL;
dict->merged = NULL;
dict->state_num = NULL;
init_hash(&dict->patterns);
}
static void clear_dict(HyphenDict * dict)
{
int state_num;
for (state_num = 0; state_num < dict->num_states; state_num++) {
HyphenState *hstate = &dict->states[state_num];
if (hstate->match)
hnj_free(hstate->match);
if (hstate->trans)
hnj_free(hstate->trans);
}
hnj_free(dict->states);
clear_hyppat_hash(&dict->patterns);
clear_hyppat_hash(&dict->merged);
clear_state_hash(&dict->state_num);
}
HyphenDict *hnj_hyphen_new(void)
{
HyphenDict *dict = hnj_malloc(sizeof(HyphenDict));
init_dict(dict);
return dict;
}
void hnj_hyphen_clear(HyphenDict * dict)
{
clear_dict(dict);
init_dict(dict);
}
void hnj_hyphen_free(HyphenDict * dict)
{
clear_dict(dict);
hnj_free(dict);
}
unsigned char *hnj_serialize(HyphenDict * dict)
{
HashIter *v;
unsigned char *word;
char *pattern;
unsigned char *buf = hnj_malloc(dict->pat_length);
unsigned char *cur = buf;
v = new_HashIter(dict->patterns);
while (eachHash(v, &word, &pattern)) {
int i = 0, e = 0;
while (word[e + i]) {
if (pattern[i] != '0')
*cur++ = (unsigned char) pattern[i];
*cur++ = word[e + i++];
while (is_utf8_follow(word[e + i]))
*cur++ = word[i + e++];
}
if (pattern[i] != '0')
*cur++ = (unsigned char) pattern[i];
*cur++ = ' ';
}
delete_HashIter(v);
*cur = 0;
return buf;
}
void hnj_free_serialize(unsigned char *c)
{
hnj_free(c);
}
@ hyphenation pattern:
signed bytes
0 indicates end (actually any negative number)
: prio(1+),startpos,length,len1,[replace],len2,[replace]
most basic example is:
p n 0 0 0
for a hyphenation point between characters
@c
void hnj_hyphen_load(HyphenDict * dict, const unsigned char *f)
{
int state_num, last_state;
int i, j = 0;
int ch;
int found;
HashEntry *e;
HashIter *v;
unsigned char *word;
char *pattern;
size_t l = 0;
const unsigned char *format;
const unsigned char *begin = f;
unsigned char *pat;
char *org;
while ((format = next_pattern(&l, &f)) != NULL) {
int i, j, e;
#if 0
printf("%s\n",format);
char* repl = strnchr(format, '/',l);
int replindex = 0;
int replcut = 0;
if (repl) {
int clen = l-(repl-format);
l = repl-format;
char * index = strnchr(repl + 1, ',',clen);
if (index) {
char * index2 = strnchr(index + 1, ',',clen-(index-repl));
if (index2) {
replindex = (signed char) atoi(index + 1) - 1;
replcut = (signed char) atoi(index2 + 1);
}
} else {
hnj_strchomp(repl + 1);
replindex = 0;
replcut = strlen(buf);
}
repl = hnj_strdup(repl + 1);
}
#endif
for (i = 0, j = 0, e = 0; (unsigned) i < l; i++) {
if (format[i] >= '0' && format[i] <= '9')
j++;
if (is_utf8_follow(format[i]))
e++;
}
/* |l-e| => number of {\it characters} not {\it bytes} */
/* |l-j| => number of pattern bytes */
/* |l-e-j| => number of pattern characters */
pat = (unsigned char *) malloc((1 + l - (size_t) j));
org = (char *) malloc((size_t) (2 + l - (size_t) e - (size_t) j));
/* remove hyphenation encoders (digits) from pat */
org[0] = '0';
for (i = 0, j = 0, e = 0; (unsigned) i < l; i++) {
unsigned char c = format[i];
if (is_utf8_follow(c)) {
pat[j + e++] = c;
} else if (c < '0' || c > '9') {
pat[e + j++] = c;
org[j] = '0';
} else {
org[j] = (char) c;
}
}
pat[e + j] = 0;
org[j + 1] = 0;
hyppat_insert(dict->patterns, pat, org);
}
dict->pat_length += (int) ((f - begin) + 2); /* 2 for spurious spaces */
init_hash(&dict->merged);
v = new_HashIter(dict->patterns);
while (nextHash(v, &word)) {
int wordsize = (int) strlen((char *) word);
int j, l;
for (l = 1; l <= wordsize; l++) {
if (is_utf8_follow(word[l]))
continue; /* Do not clip an utf8 sequence */
for (j = 1; j <= l; j++) {
char *subpat_pat;
int i = l - j;
if (is_utf8_follow(word[i]))
continue; /* Do not start halfway an utf8 sequence */
if ((subpat_pat =
hyppat_lookup(dict->patterns, word + i, j)) != NULL) {
char *newpat_pat;
if ((newpat_pat =
hyppat_lookup(dict->merged, word, l)) == NULL) {
char *neworg;
unsigned char *newword =
(unsigned char *) malloc((size_t) (l + 1));
int e = 0;
strncpy((char *) newword, (char *) word, (size_t) l);
newword[l] = 0;
for (i = 0; i < l; i++)
if (is_utf8_follow(newword[i]))
e++;
neworg = malloc((size_t) (l + 2 - e));
sprintf(neworg, "%0*d", l + 1 - e, 0); /* fill with right amount of '0' */
hyppat_insert(dict->merged, newword,
combine(neworg, subpat_pat));
} else {
combine(newpat_pat, subpat_pat);
}
}
}
}
}
delete_HashIter(v);
init_hash(&dict->state_num);
state_insert(dict->state_num, hnj_strdup((const unsigned char *) ""), 0);
v = new_HashIter(dict->merged);
while (nextHashStealPattern(v, &word, &pattern)) {
static unsigned char mask[] = { 0x3F, 0x1F, 0xF, 0x7 };
int j = (int) strlen((char *) word);
#ifdef VERBOSE
printf("word %s pattern %s, j = %d\n", word, pattern, j);
#endif
state_num = hnj_get_state(dict, word, &found);
dict->states[state_num].match = pattern;
/* now, put in the prefix transitions */
while (found < 0) {
j--;
last_state = state_num;
ch = word[j];
if (ch >= 0x80) {
int m;
int i = 1;
while (is_utf8_follow(word[j - i]))
i++;
ch = word[j - i] & mask[i];
m = j - i;
while (i--) {
ch = (ch << 6) + (0x3F & word[j - i]);
}
j = m;
}
word[j] = '\0';
state_num = hnj_get_state(dict, word, &found);
hnj_add_trans(dict, state_num, last_state, ch);
}
}
delete_HashIter(v);
clear_hyppat_hash(&dict->merged);
/* put in the fallback states */
for (i = 0; i < HASH_SIZE; i++) {
for (e = dict->state_num->entries[i]; e; e = e->next) {
/* do not do state==0 otherwise things get confused */
if (e->u.state) {
for (j = 1; 1; j++) {
state_num = state_lookup(dict->state_num, e->key + j);
if (state_num >= 0)
break;
}
dict->states[e->u.state].fallback_state = state_num;
}
}
}
#ifdef VERBOSE
for (i = 0; i < HASH_SIZE; i++) {
for (e = dict->state_num->entries[i]; e; e = e->next) {
printf("%d string %s state %d, fallback=%d\n", i, e->key,
e->u.state, dict->states[e->u.state].fallback_state);
for (j = 0; j < dict->states[e->u.state].num_trans; j++) {
printf(" u%4x->%d\n",
(int) dict->states[e->u.state].trans[j].uni_ch,
dict->states[e->u.state].trans[j].new_state);
}
}
}
#endif
clear_state_hash(&dict->state_num);
}
@ @c
void hnj_hyphen_hyphenate(HyphenDict * dict,
halfword first,
halfword last,
int length,
halfword left, halfword right, lang_variables * lan)
{
int char_num;
halfword here;
int state = 0;
/* +2 for dots at each end, +1 for points /outside/ characters */
int ext_word_len = length + 2;
int hyphen_len = ext_word_len + 1;
char *hyphens = hnj_malloc(hyphen_len + 1);
/* Add a '.' to beginning and end to facilitate matching */
set_vlink(begin_point, first);
set_vlink(end_point, get_vlink(last));
set_vlink(last, end_point);
for (char_num = 0; char_num < hyphen_len; char_num++) {
hyphens[char_num] = '0';
}
hyphens[hyphen_len] = 0;
/* now, run the finite state machine */
for (char_num = 0, here = begin_point; here != get_vlink(end_point);
here = get_vlink(here)) {
int ch;
if (here == begin_point || here == end_point)
ch = '.';
else
ch = get_lc_code(get_character(here));
while (state != -1) {
#if 0
printf("%*s%s%c",char_num-strlen(get_state_str(state)),"",get_state_str(state),(char)ch);
#endif
HyphenState *hstate = &dict->states[state];
int k;
for (k = 0; k < hstate->num_trans; k++) {
if (hstate->trans[k].uni_ch == ch) {
char *match;
state = hstate->trans[k].new_state;
#if 0
printf(" state %d\n",state);
#endif
match = dict->states[state].match;
if (match) {
/* +2 because:
1 string length is one bigger than offset
1 hyphenation starts before first character
*/
int offset = (int) (char_num + 2 - (int) strlen(match));
#if 0
printf ("%*s%s\n", offset,"", match);
#endif
int m;
for (m = 0; match[m]; m++) {
if (hyphens[offset + m] < match[m])
hyphens[offset + m] = match[m];
}
}
goto try_next_letter;
}
}
state = hstate->fallback_state;
#if 0
printf (" back to %d\n", state);
#endif
}
/* nothing worked, let's go to the next character */
state = 0;
try_next_letter:;
char_num++;
}
/* restore the correct pointers */
set_vlink(last, get_vlink(end_point));
/* pattern is \.{\^.\^w\^o\^r\^d\^.\^} |word_len|=4, |ext_word_len|=6, |hyphens|=7
* check \.{ \^ \^ \^ } so drop first two and stop after |word_len-1|
*/
for (here = first, char_num = 2; here != left; here = get_vlink(here))
char_num++;
for (; here != right; here = get_vlink(here)) {
if (hyphens[char_num] & 1)
here = insert_syllable_discretionary(here, lan);
char_num++;
}
hnj_free(hyphens);
}
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