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elinks/src/dom/node.c
2022-01-28 13:47:42 +01:00

591 lines
13 KiB
C

/* The DOM node handling */
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdlib.h>
#include <string.h>
#include "elinks.h"
#include "dom/node.h"
#include "dom/string.h"
#include "util/hash.h"
#include "util/memory.h"
static void done_dom_node_data(struct dom_node *node);
/* Node lists */
#define DOM_NODE_LIST_GRANULARITY 0x7
#define DOM_NODE_LIST_BLOCK_SIZE \
(ALIGN_MEMORY_SIZE(1, DOM_NODE_LIST_GRANULARITY) * sizeof(struct dom_node *))
/* The node list struct has one node pointer */
#define DOM_NODE_LIST_SIZE(size) \
((size - 1) * sizeof(struct dom_node *) + sizeof(struct dom_node_list))
static inline struct dom_node_list *
realloc_dom_node_list(struct dom_node_list **oldlist)
{
struct dom_node_list *list = *oldlist;
size_t size = list ? list->size : 0;
size_t oldsize = ALIGN_MEMORY_SIZE(size, DOM_NODE_LIST_GRANULARITY);
size_t newsize = ALIGN_MEMORY_SIZE(size + 1, DOM_NODE_LIST_GRANULARITY);
if (newsize <= oldsize) return list;
list = (struct dom_node_list *)mem_realloc(list, DOM_NODE_LIST_SIZE(newsize));
if (!list) return NULL;
/* If this is the first reallocation clear the size */
if (!size) list->size = 0;
/* Clear the new block of entries */
memset(&list->entries[oldsize], 0, DOM_NODE_LIST_BLOCK_SIZE);
*oldlist = list;
return list;
}
struct dom_node_list *
add_to_dom_node_list(struct dom_node_list **list_ptr,
struct dom_node *node, int position)
{
struct dom_node_list *list;
assert(list_ptr && node);
list = realloc_dom_node_list(list_ptr);
if (!list) return NULL;
assertm(position < 0 || position <= list->size,
"position out of bound %d > %zu", position, list->size);
if (position < 0) {
position = list->size;
} else if (position < list->size) {
/* Make room if we have to add the node in the middle of the list */
struct dom_node **offset = &list->entries[position];
size_t size = (list->size - position) * sizeof(*offset);
memmove(offset + 1, offset, size);
}
list->size++;
list->entries[position] = node;
return list;
}
static void
del_from_dom_node_list(struct dom_node_list *list, struct dom_node *node)
{
struct dom_node *entry;
size_t i;
if (!list) return;
foreach_dom_node (list, entry, i) {
size_t successors;
if (entry != node) continue;
successors = list->size - (i + 1);
if (successors)
memmove(&list->entries[i], &list->entries[i+1],
sizeof(*list->entries) * successors);
list->size--;
}
}
void
done_dom_node_list(struct dom_node_list *list)
{
struct dom_node *node;
int i;
assert(list);
foreach_dom_node (list, node, i) {
/* Avoid that the node start messing with the node list. */
done_dom_node_data(node);
}
mem_free(list);
}
/* Node map */
struct dom_node_search {
struct dom_node *key;
int from, pos, to;
};
#define INIT_DOM_NODE_SEARCH(key, list) \
{ (key), -1, 0, (int)(list)->size, }
int
dom_node_casecmp(struct dom_node *node1, struct dom_node *node2)
{
if (node1->type == node2->type) {
switch (node1->type) {
case DOM_NODE_ELEMENT:
if (node1->data.element.type && node2->data.element.type)
return node1->data.element.type - node2->data.element.type;
break;
case DOM_NODE_ATTRIBUTE:
if (node1->data.attribute.type && node2->data.attribute.type)
return node1->data.attribute.type - node2->data.attribute.type;
break;
default:
break;
}
}
return dom_string_casecmp(&node1->string, &node2->string);
}
static inline int
get_bsearch_position(struct dom_node_list *list, int from, int to)
{
int pos = from + ((to - from) / 2);
assertm(0 <= pos && pos < list->size, "pos %d", pos);
return pos;
}
#define has_bsearch_node(from, to) ((from) + 1 < (to))
static inline struct dom_node *
dom_node_list_bsearch(struct dom_node_search *search, struct dom_node_list *list)
{
assert(has_bsearch_node(search->from, search->to));
do {
int pos = get_bsearch_position(list, search->from, search->to);
struct dom_node *node = list->entries[pos];
int difference = dom_node_casecmp(search->key, node);
search->pos = pos;
if (!difference) return node;
if (difference < 0) {
search->to = search->pos;
} else {
search->from = search->pos;
}
} while (has_bsearch_node(search->from, search->to));
return NULL;
}
int
get_dom_node_map_index(struct dom_node_list *list, struct dom_node *node)
{
struct dom_node_search search = INIT_DOM_NODE_SEARCH(node, list);
struct dom_node *match = dom_node_list_bsearch(&search, list);
return match ? search.pos : search.to;
}
struct dom_node *
get_dom_node_map_entry(struct dom_node_list *list, /*enum dom_node_type*/ uint16_t type,
uint16_t subtype, struct dom_string *name)
{
struct dom_node node = { type, 0, INIT_DOM_STRING(name->string, name->length) };
struct dom_node_search search = INIT_DOM_NODE_SEARCH(&node, list);
if (subtype) {
/* Set the subtype */
switch (type) {
case DOM_NODE_ELEMENT:
node.data.element.type = subtype;
break;
case DOM_NODE_ATTRIBUTE:
node.data.attribute.type = subtype;
break;
case DOM_NODE_PROCESSING_INSTRUCTION:
node.data.proc_instruction.type = subtype;
break;
default:
break;
}
}
return dom_node_list_bsearch(&search, list);
}
static int
get_dom_node_list_pos(struct dom_node_list *list, struct dom_node *node)
{
struct dom_node *entry;
int i;
assert(list);
if_assert_failed return -1;
foreach_dom_node (list, entry, i) {
if (entry == node)
return i;
}
return -1;
}
int
get_dom_node_list_index(struct dom_node *parent, struct dom_node *node)
{
struct dom_node_list **list = get_dom_node_list(parent, node);
return (list && *list) ? get_dom_node_list_pos(*list, node) : -1;
}
struct dom_node *
get_dom_node_prev(struct dom_node *node)
{
struct dom_node_list **list;
int index;
assert(node->parent);
if_assert_failed return NULL;
list = get_dom_node_list(node->parent, node);
/* node->parent != NULL, so the node must be in the
* appropriate list of the parent; the list thus cannot be
* empty. */
if (!list) return NULL;
assert(*list);
if_assert_failed return NULL;
index = get_dom_node_list_pos(*list, node);
assert(index >= 0); /* in particular, not -1 */
if_assert_failed return NULL;
if (index > 0)
return (*list)->entries[index - 1];
return NULL;
}
struct dom_node *
get_dom_node_next(struct dom_node *node)
{
struct dom_node_list **list;
int index;
assert(node->parent);
if_assert_failed return NULL;
list = get_dom_node_list(node->parent, node);
/* node->parent != NULL, so the node must be in the
* appropriate list of the parent; the list thus cannot be
* empty. */
if (!list) return NULL;
assert(*list);
if_assert_failed return NULL;
index = get_dom_node_list_pos(*list, node);
assert(index >= 0); /* in particular, not -1 */
if_assert_failed return NULL;
if (index + 1 < (*list)->size)
return (*list)->entries[index + 1];
return NULL;
}
struct dom_node *
get_dom_node_child(struct dom_node *parent, /*enum dom_node_type*/ uint16_t type,
int16_t subtype)
{
struct dom_node_list **list;
struct dom_node *node;
int index;
list = get_dom_node_list_by_type(parent, type);
if (!list) return NULL; /* parent doesn't support this type */
if (!*list) return NULL; /* list is empty and not yet allocated */
foreach_dom_node (*list, node, index) {
if (node->type != type)
continue;
if (!subtype) return node;
switch (type) {
case DOM_NODE_ELEMENT:
if (node->data.element.type == subtype)
return node;
break;
case DOM_NODE_ATTRIBUTE:
if (node->data.attribute.type == subtype)
return node;
break;
case DOM_NODE_PROCESSING_INSTRUCTION:
if (node->data.attribute.type == subtype)
return node;
break;
default:
return node;
}
}
return NULL;
}
/* Nodes */
struct dom_node *
init_dom_node_at(
#ifdef DEBUG_MEMLEAK
char *file, int line,
#endif
struct dom_node *parent, /*enum dom_node_type*/ uint16_t type,
struct dom_string *string, int allocated)
{
#ifdef DEBUG_MEMLEAK
struct dom_node *node = (struct dom_node *)debug_mem_calloc(file, line, 1, sizeof(*node));
#else
struct dom_node *node = (struct dom_node *)mem_calloc(1, sizeof(*node));
#endif
if (!node) return NULL;
node->type = type;
node->parent = parent;
/* Make it possible to add a node to a parent without allocating the
* strings. */
if (allocated >= 0) {
node->allocated = !!allocated;
} else if (parent) {
node->allocated = parent->allocated;
}
if (node->allocated) {
if (!init_dom_string(&node->string, string->string, string->length)) {
done_dom_node(node);
return NULL;
}
} else {
copy_dom_string(&node->string, string);
}
if (parent) {
struct dom_node_list **list = get_dom_node_list(parent, node);
int sort = (type == DOM_NODE_ATTRIBUTE);
int index;
assertm(list != NULL, "Adding node %d to bad parent %d",
node->type, parent->type);
index = *list && (*list)->size > 0 && sort
? get_dom_node_map_index(*list, node) : -1;
if (!add_to_dom_node_list(list, node, index)) {
done_dom_node(node);
return NULL;
}
}
return node;
}
void
done_dom_node_data(struct dom_node *node)
{
union dom_node_data *data;
assert(node);
assert(node->type < DOM_NODES); /* unsigned comparison */
data = &node->data;
switch (node->type) {
case DOM_NODE_ATTRIBUTE:
if (node->allocated)
done_dom_string(&data->attribute.value);
break;
case DOM_NODE_DOCUMENT:
if (data->document.children)
done_dom_node_list(data->document.children);
break;
case DOM_NODE_ELEMENT:
if (data->element.children)
done_dom_node_list(data->element.children);
if (data->element.map)
done_dom_node_list(data->element.map);
break;
case DOM_NODE_PROCESSING_INSTRUCTION:
if (data->proc_instruction.map)
done_dom_node_list(data->proc_instruction.map);
if (node->allocated)
done_dom_string(&data->proc_instruction.instruction);
break;
default:
break;
}
if (node->allocated)
done_dom_string(&node->string);
/* call_dom_stack_callbacks() asserts that the node type is
* within range. If assertions are enabled, store an
* out-of-range value there to make the assertion more likely
* to fail if a callback has freed the node prematurely.
* This is not entirely reliable though, because the memory
* is freed below and may be allocated for some other purpose
* before the assertion. */
#ifndef CONFIG_FASTMEM
node->type = -1;
#endif
mem_free(node);
}
void
done_dom_node(struct dom_node *node)
{
assert(node);
if (node->parent) {
struct dom_node *parent = node->parent;
union dom_node_data *data = &parent->data;
switch (parent->type) {
case DOM_NODE_DOCUMENT:
del_from_dom_node_list(data->document.children, node);
break;
case DOM_NODE_ELEMENT:
del_from_dom_node_list(data->element.children, node);
del_from_dom_node_list(data->element.map, node);
break;
case DOM_NODE_PROCESSING_INSTRUCTION:
del_from_dom_node_list(data->proc_instruction.map, node);
break;
default:
break;
}
}
done_dom_node_data(node);
}
#define set_node_name(name, namelen, str) \
do { (name) = (str); (namelen) = sizeof(str) - 1; } while (0)
struct dom_string *
get_dom_node_name(struct dom_node *node)
{
static struct dom_string cdata_section_str = STATIC_DOM_STRING("#cdata-section");
static struct dom_string comment_str = STATIC_DOM_STRING("#comment");
static struct dom_string document_str = STATIC_DOM_STRING("#document");
static struct dom_string document_fragment_str = STATIC_DOM_STRING("#document-fragment");
static struct dom_string text_str = STATIC_DOM_STRING("#text");
assert(node);
switch (node->type) {
case DOM_NODE_CDATA_SECTION:
return &cdata_section_str;
case DOM_NODE_COMMENT:
return &comment_str;
case DOM_NODE_DOCUMENT:
return &document_str;
case DOM_NODE_DOCUMENT_FRAGMENT:
return &document_fragment_str;
case DOM_NODE_TEXT:
return &text_str;
case DOM_NODE_ATTRIBUTE:
case DOM_NODE_DOCUMENT_TYPE:
case DOM_NODE_ELEMENT:
case DOM_NODE_ENTITY:
case DOM_NODE_ENTITY_REFERENCE:
case DOM_NODE_NOTATION:
case DOM_NODE_PROCESSING_INSTRUCTION:
default:
return &node->string;
}
}
struct dom_string *
get_dom_node_value(struct dom_node *node)
{
assert(node);
switch (node->type) {
case DOM_NODE_ATTRIBUTE:
return &node->data.attribute.value;
case DOM_NODE_PROCESSING_INSTRUCTION:
return &node->data.proc_instruction.instruction;
case DOM_NODE_CDATA_SECTION:
case DOM_NODE_COMMENT:
case DOM_NODE_TEXT:
return &node->string;
case DOM_NODE_ENTITY_REFERENCE:
case DOM_NODE_NOTATION:
case DOM_NODE_DOCUMENT:
case DOM_NODE_DOCUMENT_FRAGMENT:
case DOM_NODE_DOCUMENT_TYPE:
case DOM_NODE_ELEMENT:
case DOM_NODE_ENTITY:
default:
return NULL;
}
}
struct dom_string *
get_dom_node_type_name(/*enum dom_node_type*/ uint16_t type)
{
static struct dom_string dom_node_type_names[DOM_NODES] = {
INIT_DOM_STRING(NULL, 0),
/* DOM_NODE_ELEMENT */ STATIC_DOM_STRING("element"),
/* DOM_NODE_ATTRIBUTE */ STATIC_DOM_STRING("attribute"),
/* DOM_NODE_TEXT */ STATIC_DOM_STRING("text"),
/* DOM_NODE_CDATA_SECTION */ STATIC_DOM_STRING("cdata-section"),
/* DOM_NODE_ENTITY_REFERENCE */ STATIC_DOM_STRING("entity-reference"),
/* DOM_NODE_ENTITY */ STATIC_DOM_STRING("entity"),
/* DOM_NODE_PROCESSING_INSTRUCTION */ STATIC_DOM_STRING("proc-instruction"),
/* DOM_NODE_COMMENT */ STATIC_DOM_STRING("comment"),
/* DOM_NODE_DOCUMENT */ STATIC_DOM_STRING("document"),
/* DOM_NODE_DOCUMENT_TYPE */ STATIC_DOM_STRING("document-type"),
/* DOM_NODE_DOCUMENT_FRAGMENT */ STATIC_DOM_STRING("document-fragment"),
/* DOM_NODE_NOTATION */ STATIC_DOM_STRING("notation"),
};
assert(type < DOM_NODES);
return &dom_node_type_names[type];
}