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/* This is dvipdfmx, an eXtended version of dvipdfm by Mark A. Wicks.
Copyright (C) 2002-2015 by Jin-Hwan Cho and Shunsaku Hirata,
the dvipdfmx project team.
Copyright (C) 1998, 1999 by Mark A. Wicks <mwicks@kettering.edu>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <ctype.h>
#include <math.h>
#include <string.h>
#include "system.h"
#include "mem.h"
#include "error.h"
#include "numbers.h"
/* Hash */
#include "dpxutil.h"
#include "pdfobj.h"
#include "pdfnames.h"
#include "dvipdfmx.h"
struct obj_data
{
pdf_obj *object;
int closed; /* 1 if object is closed */
};
static char *
printable_key (const char *key, int keylen)
{
#define MAX_KEY 32
static char pkey[MAX_KEY+4];
int i, len;
unsigned char hi, lo;
for (i = 0, len = 0;
i < keylen && len < MAX_KEY; i++) {
if (isprint((unsigned char)key[i])) {
pkey[len++] = key[i];
} else {
hi = (key[i] >> 4) & 0xff;
lo = key[i] & 0xff;
pkey[len++] = '#';
pkey[len++] = (hi < 10) ? hi + '0' : (hi - 10) + 'A';
pkey[len++] = (lo < 10) ? lo + '0' : (lo - 10) + 'A';
}
}
pkey[len] = '\0';
return (char *) pkey;
}
static inline void
hval_free (void *hval)
{
struct obj_data *value;
value = (struct obj_data *) hval;
if (value->object) {
pdf_release_obj(value->object);
value->object = NULL;
}
RELEASE(value);
return;
}
struct ht_table *
pdf_new_name_tree (void)
{
struct ht_table *names;
names = NEW(1, struct ht_table);
ht_init_table(names, hval_free);
return names;
}
static void
check_objects_defined (struct ht_table *ht_tab)
{
struct ht_iter iter;
if (ht_set_iter(ht_tab, &iter) >= 0) {
do {
char *key;
int keylen;
struct obj_data *value;
key = ht_iter_getkey(&iter, &keylen);
value = ht_iter_getval(&iter);
ASSERT(value->object);
if (PDF_OBJ_UNDEFINED(value->object)) {
pdf_names_add_object(ht_tab, key, keylen, pdf_new_null());
WARN("Object @%s used, but not defined. Replaced by null.",
printable_key(key, keylen));
}
} while (ht_iter_next(&iter) >= 0);
ht_clear_iter(&iter);
}
}
void
pdf_delete_name_tree (struct ht_table **names)
{
ASSERT(names && *names);
check_objects_defined (*names);
ht_clear_table(*names);
RELEASE(*names);
*names = NULL;
}
int
pdf_names_add_object (struct ht_table *names,
const void *key, int keylen, pdf_obj *object)
{
struct obj_data *value;
ASSERT(names && object);
if (!key || keylen < 1) {
WARN("Null string used for name tree key.");
return -1;
}
value = ht_lookup_table(names, key, keylen);
if (!value) {
value = NEW(1, struct obj_data);
value->object = object;
value->closed = 0;
ht_append_table(names, key, keylen, value);
} else {
ASSERT(value->object);
if (PDF_OBJ_UNDEFINED(value->object)) {
pdf_transfer_label(object, value->object);
pdf_release_obj(value->object);
value->object = object;
} else {
WARN("Object @%s already defined.", printable_key(key, keylen));
pdf_release_obj(object);
return -1;
}
}
return 0;
}
/*
* The following routine returns copies, not the original object.
*/
pdf_obj *
pdf_names_lookup_reference (struct ht_table *names,
const void *key, int keylen)
{
struct obj_data *value;
pdf_obj *object;
ASSERT(names);
value = ht_lookup_table(names, key, keylen);
if (value) {
object = value->object;
ASSERT(object);
} else {
/* A null object as dummy would create problems because as value
* of a dictionary entry, a null object is be equivalent to no entry
* at all. This matters for optimization of PDF destinations.
*/
object = pdf_new_undefined();
pdf_names_add_object(names, key, keylen, object);
}
return pdf_ref_obj(object);
}
pdf_obj *
pdf_names_lookup_object (struct ht_table *names,
const void *key, int keylen)
{
struct obj_data *value;
ASSERT(names);
value = ht_lookup_table(names, key, keylen);
if (!value || PDF_OBJ_UNDEFINED(value->object))
return NULL;
ASSERT(value->object);
return value->object;
}
int
pdf_names_close_object (struct ht_table *names,
const void *key, int keylen)
{
struct obj_data *value;
ASSERT(names);
value = ht_lookup_table(names, key, keylen);
if (!value ||PDF_OBJ_UNDEFINED(value->object) ) {
WARN("Cannot close undefined object @%s.", printable_key(key, keylen));
return -1;
}
ASSERT(value->object);
if (value->closed) {
WARN("Object @%s already closed.", printable_key(key, keylen));
return -1;
}
value->closed = 1;
return 0;
}
struct named_object
{
char *key;
int keylen;
pdf_obj *value;
};
static inline int
cmp_key (const void *d1, const void *d2)
{
const struct named_object *sd1, *sd2;
int keylen, cmp;
sd1 = (const struct named_object *) d1;
sd2 = (const struct named_object *) d2;
if (!sd1->key)
cmp = -1;
else if (!sd2->key)
cmp = 1;
else {
keylen = MIN(sd1->keylen, sd2->keylen);
cmp = memcmp(sd1->key, sd2->key, keylen);
if (!cmp) {
cmp = sd1->keylen - sd2->keylen;
}
}
return cmp;
}
#define NAME_CLUSTER 4
static pdf_obj *
build_name_tree (struct named_object *first, int num_leaves, int is_root)
{
pdf_obj *result;
int i;
result = pdf_new_dict();
/*
* According to PDF Refrence, Third Edition (p.101-102), a name tree
* always has exactly one root node, which contains a SINGLE entry:
* either Kids or Names but not both. If the root node has a Names
* entry, it is the only node in the tree. If it has a Kids entry,
* then each of the remaining nodes is either an intermediate node,
* containing a Limits entry and a Kids entry, or a leaf node,
* containing a Limits entry and a Names entry.
*/
if (!is_root) {
struct named_object *last;
pdf_obj *limits;
limits = pdf_new_array();
last = &first[num_leaves - 1];
pdf_add_array(limits, pdf_new_string(first->key, first->keylen));
pdf_add_array(limits, pdf_new_string(last->key , last->keylen ));
pdf_add_dict (result, pdf_new_name("Limits"), limits);
}
if (num_leaves > 0 &&
num_leaves <= 2 * NAME_CLUSTER) {
pdf_obj *names;
/* Create leaf nodes. */
names = pdf_new_array();
for (i = 0; i < num_leaves; i++) {
struct named_object *cur;
cur = &first[i];
pdf_add_array(names, pdf_new_string(cur->key, cur->keylen));
switch (PDF_OBJ_TYPEOF(cur->value)) {
case PDF_ARRAY:
case PDF_DICT:
case PDF_STREAM:
case PDF_STRING:
pdf_add_array(names, pdf_ref_obj(cur->value));
break;
case PDF_OBJ_INVALID:
ERROR("Invalid object...: %s", printable_key(cur->key, cur->keylen));
default:
pdf_add_array(names, pdf_link_obj(cur->value));
break;
}
pdf_release_obj(cur->value);
cur->value = NULL;
}
pdf_add_dict(result, pdf_new_name("Names"), names);
} else if (num_leaves > 0) {
pdf_obj *kids;
/* Intermediate node */
kids = pdf_new_array();
for (i = 0; i < NAME_CLUSTER; i++) {
pdf_obj *subtree;
int start, end;
start = (i*num_leaves) / NAME_CLUSTER;
end = ((i+1)*num_leaves) / NAME_CLUSTER;
subtree = build_name_tree(&first[start], (end - start), 0);
pdf_add_array (kids, pdf_ref_obj(subtree));
pdf_release_obj(subtree);
}
pdf_add_dict(result, pdf_new_name("Kids"), kids);
}
return result;
}
static struct named_object *
flat_table (struct ht_table *ht_tab, int *num_entries,
struct ht_table *filter)
{
struct named_object *objects;
struct ht_iter iter;
int count;
ASSERT(ht_tab);
objects = NEW(ht_tab->count, struct named_object);
count = 0;
if (ht_set_iter(ht_tab, &iter) >= 0) {
do {
char *key;
int keylen;
struct obj_data *value;
key = ht_iter_getkey(&iter, &keylen);
if (filter) {
pdf_obj *new_obj = ht_lookup_table(filter, key, keylen);
if (!new_obj)
continue;
key = pdf_string_value(new_obj);
keylen = pdf_string_length(new_obj);
}
value = ht_iter_getval(&iter);
ASSERT(value->object);
if (PDF_OBJ_UNDEFINED(value->object)) {
WARN("Object @%s\" not defined. Replaced by null.",
printable_key(key, keylen));
objects[count].key = (char *) key;
objects[count].keylen = keylen;
objects[count].value = pdf_new_null();
} else if (value->object) {
objects[count].key = (char *) key;
objects[count].keylen = keylen;
objects[count].value = pdf_link_obj(value->object);
}
count++;
} while (ht_iter_next(&iter) >= 0);
ht_clear_iter(&iter);
}
*num_entries = count;
objects = RENEW(objects, count, struct named_object);
return objects;
}
pdf_obj *
pdf_names_create_tree (struct ht_table *names, int *count,
struct ht_table *filter)
{
pdf_obj *name_tree;
struct named_object *flat;
flat = flat_table(names, count, filter);
if (!flat)
name_tree = NULL;
else {
qsort(flat, *count, sizeof(struct named_object), cmp_key);
name_tree = build_name_tree(flat, *count, 1);
RELEASE(flat);
}
return name_tree;
}
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